30 Commits
Author SHA1 Message Date
rouggy 19c2de5f61 chore: release v0.19.2 2026-07-09 16:51:57 +02:00
rouggy 5ae2bad549 fix: Antenna Genius show only available antennas per band 2026-07-09 15:52:04 +02:00
rouggy e487aa78f3 fix: Awards columns persistence bug 2026-07-09 15:36:37 +02:00
rouggy b9079fe4e2 fix: bug where scope is now showing on IC7300 2026-07-09 15:30:24 +02:00
rouggy 206a6bff09 feat: Implemented the download of eQSL 2026-07-09 13:16:04 +02:00
rouggy 6ee31ae45d fix: increase width for edit qso window in French to avoid scroll bar 2026-07-09 12:10:16 +02:00
rouggy 521f8266cf feat: added full support in USB (local) & ethernet (local or remote) of audio for Icom 2026-07-09 11:30:06 +02:00
rouggy 1f5e5759cc fix: CAT PTT not working for DVK 2026-07-09 08:18:49 +02:00
rouggy f665d666d6 chore: release v0.19.1 2026-07-08 23:37:29 +02:00
rouggy 5f9ee9efa2 fix: Added missing field for bulk edit 2026-07-08 09:26:30 +02:00
rouggy 44d276c841 fix: Resizable worked before Net Control 2026-07-08 00:16:00 +02:00
rouggy e656c79589 fix: Hiding the alert bell if not active alerts 2026-07-07 22:43:02 +02:00
rouggy 86cbe94cae feat: Added worked before in Net Control 2026-07-07 22:39:17 +02:00
rouggy b9b005ea36 fix: Ultrabeam was not synchronizing after click on a spot. 2026-07-07 21:54:53 +02:00
rouggy 2c47c5d052 feat: Added additional settings in QSL Design on QSO box (opacity, bg color...) 2026-07-07 21:46:52 +02:00
rouggy 446888a330 fix: proper alignment of the version number next to OpsLog 2026-07-07 21:41:35 +02:00
rouggy 128364260b fix: bug when deleting an award reference which was not saved. 2026-07-07 21:08:26 +02:00
rouggy daf38554a5 feat: Award column can now show either reference or description 2026-07-07 20:23:18 +02:00
rouggy 39f095ae75 feat: Alerts are persistent for the 3 last ones for 10minutes 2026-07-07 19:52:52 +02:00
rouggy ea8e954eef chore: release v0.19 2026-07-07 19:35:50 +02:00
rouggy 6db90abcad feat: Management of multiple slices on Flexradio 2026-07-07 19:35:25 +02:00
rouggy 6b9307b427 chore: release v0.18 2026-07-07 17:12:10 +02:00
rouggy ab06673854 feat: added APF for CW in Icom 2026-07-07 17:10:42 +02:00
rouggy 1cadefd207 feat: New buttons for Icom Scope 2026-07-07 16:50:26 +02:00
rouggy 05fbb8a3bc feat: Icom split auto 2026-07-07 15:56:14 +02:00
rouggy 3d88d8f50f fix: /B was not recognized in the cluster 2026-07-07 13:42:59 +02:00
rouggy 5b37397a64 fix: Save and close taking time when Flex or Icom is not connected 2026-07-07 11:07:16 +02:00
rouggy 1184a675c2 fix: callsign color in the tables while changing themes 2026-07-07 10:27:54 +02:00
rouggy 7a24282aa4 feat: Implemented scope on Ethernet for Icom 2026-07-07 09:31:53 +02:00
rouggy 701e8a2c25 feat: Implemented Icom Ethernet CAT control 2026-07-06 17:37:25 +02:00
78 changed files with 6328 additions and 571 deletions
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# OpsLog
Un logiciel de log radioamateur moderne et rapide pour Windows — saisie façon
Log4OM, CAT en temps réel pour **OmniRig**, **FlexRadio/SmartSDR** natif,
**Icom CI-V** natif (USB **et** à distance par internet, en remplacement de
RS-BA1) et **TCI** (SunSDR / Expert Electronics), cluster DX avec alertes de
spots, suivi des diplômes, cartes, log de concours, gestion des QSL et un
concepteur de cartes QSL. Construit avec **Wails v2** (backend Go + frontend
React/TypeScript), **100 % Go** (sans CGO) : SQLite pour la configuration,
**MySQL partagé** optionnel pour le journal afin que plusieurs opérateurs
partagent un même log. Entièrement thémable et bilingue (anglais / français).
Développé par **F4BPO**.
---
## Compilation / développement
- **Dev :** `wails dev` (rechargement à chaud Vite ; méthodes Go accessibles sur http://localhost:34115).
- **Build :** `wails build` (utiliser la version wails v2.11 du projet — `~/go/bin/wails.exe`).
- **Régénérer les bindings Go↔TS** après modification des méthodes `App`
exportées : `wails generate module`.
- **Release :** `.vscode/release.ps1` (Ctrl+Maj+P → *Tasks: Run Task*
*Release OpsLog*) — incrémente la version, pousse le source sur Gitea, compile
l'exe et le publie sur les releases Gitea + GitHub.
---
## Journalisation
- **Bandeau de saisie façon Log4OM :** indicatif, RST émis/reçu, nom/QTH/locator,
bande/mode, fréquence TX/RX (split), heure de début/fin, commentaire/note. Le
**drapeau** de l'entité contactée est affiché en grand à côté des champs RST.
- **Recherche d'indicatif** (QRZ.com / HamQTH) avec photo, pré-remplissage du
nom/QTH/locator et onglet QRZ.com.
- **Résolution DXCC hors ligne** depuis `cty.dat` (pays, zones CQ/ITU,
continent), avec gestion des `/MM` `/AM` `/B` (balise) et des changements de
district (`/8`, `/W6`), plus les dérogations DXpédition de ClubLog par dates.
- **QSO récents**, matrice **déjà contactés** (par créneau bande/mode),
re-résolution en masse depuis cty/QRZ/ClubLog, envoi en masse vers les services
QSL.
- **Constructeur de filtres QSO avancé** (champ / opérateur / valeur, ET / OU,
préréglages enregistrés) avec **export ADIF** des lignes filtrées ou
sélectionnées.
- **Recherche de doublons** (Outils) — regroupe les QSO par même indicatif +
bande + mode (optionnellement même jour / minute) et permet de choisir lesquels
supprimer.
- **Conforme ADIF 3.1.7** en import/export : dictionnaire complet des champs,
30 colonnes promues, éditeur générique de « champs supplémentaires » et modes
d'export standard/complet.
- **Profils :** chaque réglage est par profil ; chaque profil peut pointer son
journal vers le fichier SQLite local ou une base **MySQL partagée**
(multi-opérateur).
## Cartes & antenne
- **Vue principale = deux volets configurables** (par profil, Réglages → Général
*Vue principale*) : carte grand-cercle, carte locator (rue), la grille du
cluster, la grille des déjà-contactés, les QSO récents, les **commandes
FlexRadio**, la **console Icom** ou le panneau **Net control**.
- **Carte grand-cercle** avec distance & azimut trajet court/long, fonds de carte
sélectionnables (Light / Voyager / Street / Satellite, tous sans clé et
légendés) et le(s) **lobe(s) du faisceau d'antenne** tracés depuis l'azimut du
rotor.
- **Compas de rotor** (azimutal équidistant, clic pour tourner) piloté par
PstRotator.
- **Support Ultrabeam** (Normal / inversé 180° / bidirectionnel) : la direction
rayonnée est en vert et le **boom mécanique** en gris, à la fois sur le compas
et sur la carte, pour toujours savoir où pointe l'antenne.
## Cluster DX
- Plusieurs serveurs de cluster avec reconnexion auto, un maître pour les
commandes.
- **Barre latérale de filtres** (recherche d'indicatif, masquer-déjà-contactés,
grouper les doublons, bande / mode / statut / source) partagée entre l'onglet
Cluster et le volet cluster de la vue principale, avec bascule affichage/masquage.
- **Statut** par spot (nouveau / nouvelle bande / nouveau créneau / contacté),
clic pour accorder la radio, et une **bandmap** multi-bandes (bandes façon
panadapter).
- Les spots **POTA** sont étiquetés avec leur référence de parc (via
`api.pota.app`).
- **Alertes de spots** (façon Log4OM) : règles sur indicatif / pays / bande /
mode / spotter, avec notification sonore, visuelle et e-mail (Outils →
*Gestion des alertes*).
## Contrôle CAT
Quatre backends natifs (Réglages → CAT), chacun avec reconnexion auto et une
connexion rapide non bloquante — une radio éteinte ne fige jamais l'application :
- **OmniRig** (Rig 1/2, changement à chaud) — fonctionne avec toute radio
supportée par OmniRig.
- **FlexRadio (SmartSDR)** via l'API TCP de la radio — fréquence / mode / split
de la slice en temps réel, découverte UDP, et **spots panadapter** (les spots
du cluster poussés sur l'écran Flex, clic → remplir l'indicatif).
- **Icom CI-V** — natif, via le port **USB** de la radio *ou* par internet via le
**serveur LAN intégré** de la radio (voir *Icom à distance* ci-dessous). Ni
RS-BA1 ni Remote Utility nécessaires.
- **TCI** (WebSocket) — SunSDR / ExpertSDR2 et tout serveur compatible TCI :
fréquence / mode / PTT / split, plus spots panorama optionnels.
Le mode est lu depuis la radio ; le sous-mode numérique (FT4 vs FT8) est déduit
de la fréquence. Les **antennes RX/TX Flex par bande** sont configurables et
appliquées automatiquement au changement de bande.
### Onglet de commande FlexRadio (façon SmartSDR)
Affiché uniquement quand le backend CAT est une FlexRadio :
- **Émission :** puissance RF, puissance d'accord, TUNE, MOX, processeur de
parole (NOR/DX/DX+), VOX (+ niveau + délai), moniteur (+ niveau), gain micro.
- **Réception (slice active) :** mode/seuil AGC, niveau audio, NB / NR / ANF.
- **Coupleur d'antenne (ATU) :** accord / bypass / mémoires.
- **Amplificateur :** PowerGenius XL operate/standby + défaut.
- **Mesures en direct** via le flux UDP VITA-49 : S-mètre (unités S), puissance
directe (W), ROS, ALC, température PA, tension, plus les mesures de l'ampli.
### Onglet de commande Icom
Affiché quand le backend CAT est Icom (USB ou réseau). Une console complète façon
RS-BA1 :
- **Double afficheur VFO** (MAIN / SUB) avec la grande fréquence tabulaire, le
badge de mode, la bande et l'offset RIT/ΔTX, et une **rangée de boutons de
mode** (SSB / CW / RTTY / PSK / AM / FM).
- **Scope de spectre + waterfall** (panadapter) : ON/OFF, CTR/FIX, double-clic
pour accorder, et boutons **◀ ⊙ ▶** pour centrer le scope sur la fréquence
actuelle (±50 kHz) et le décaler à gauche/droite.
- **Mesures en direct** toujours visibles : S-mètre (clic → remplir le RST),
puissance en watts, ROS.
- **DSP réception :** gain AF / RF, squelch, AGC, préampli, atténuateur, filtre
(FIL1/2/3), NB, NR, ANF et — **en CW seulement** — l'**APF** (filtre de pic
audio).
- **Passe-bande / notch :** Twin PBT (intérieur / extérieur), notch manuel +
position.
- **Émission :** puissance RF, MOX, TUNE, **split avec offset automatique**
(+5 kHz en SSB, +1 kHz en CW), et moniteur. **En phonie seulement** : gain
micro, processeur de parole, VOX (+ gain + anti-VOX). Les commandes qui ne
s'appliquent pas au mode courant sont masquées automatiquement.
- **Bandes & antenne :** boutons de bande en un clic et sélection ANT1/ANT2.
- **Clarificateurs :** RIT et ΔTX avec accord molette / ± (Ctrl+←/→ décale le
RIT).
- Boutons **Marche / Arrêt** (manuels par choix — l'application ne réveille
jamais la radio à la connexion).
- La **manipulation CW** peut passer par le keyer intégré de la radio (voir
*Keyers* ci-dessous).
### Icom à distance (par internet, sans RS-BA1)
OpsLog parle directement le protocole réseau intégré de l'IC-7610 — il
**remplace à la fois l'Icom Remote Utility et RS-BA1**. Saisissez l'IP de la
radio, le nom/mot de passe Network User1 et l'adresse CI-V, et toute la console
Icom fonctionne sur le LAN/internet : login + token (renouvelé automatiquement),
tunnel CI-V, retransmission côté réception pour une liaison très stable même
avec le panadapter en flux, et Marche/Arrêt manuel. (L'audio est hors périmètre
— utilisez la radio en USB + une liaison voix comme Mumble.)
## Keyers & audio
- **Keyer CW** avec macros et macros sur touches F. Le moteur du keyer est
sélectionnable : **WinKeyer** (K1EL WK1/2/3 sur port COM), **Icom** (le keyer
intégré de la radio via CI-V — sans matériel supplémentaire, fonctionne aussi à
distance) ou **TCI**.
- **Keyer vocal numérique** (DVK) : enregistrer les messages vocaux F1F6 et les
émettre.
- **Enregistrement audio des QSO :** capture continue en tampon glissant ; au
*Log QSO* le contact est sauvegardé dans un WAV par QSO
(`INDICATIF_AAAAMMJJ_HHMMSS.wav`) ; mixe RX + micro.
## Amplis & commutateurs
- Amplificateur **PowerGenius XL** (4O3A) — TCP direct : operate/standby,
sélecteur de mode ventilateur et affichage des défauts.
- Commutateur d'antenne **Antenna Genius** (4O3A) via TCP/GSCP — un widget de
commutation A/B ancré.
## QSL & diplômes
- **Moteur de diplômes :** définitions intégrées + personnalisées (partagées
**globalement** entre profils) — DXCC, WAS / WAZ / WAC, WPX,
IOTA / POTA / SOTA / WWFF, **DDFM**, contacté/confirmé/validé par bande & mode,
règles OU et affectation manuelle de références, détection de référence en
direct à la saisie de l'indicatif, **import de listes de références** pour les
totaux/noms, et un **Rescan** qui relit le journal (récupère les nouvelles
confirmations LoTW/QRZ).
- **Services QSL :** ClubLog (upload ADIF par lots), LoTW, QRZ.com, eQSL —
upload et **téléchargement des confirmations** (qui rafraîchit automatiquement
les stats de diplômes).
- **Concepteur de cartes QSL** (voir ci-dessous).
- **eQSL par e-mail :** clic droit sur un QSO → *Envoyer l'eQSL par e-mail* via
le compte SMTP configuré. (Outlook/Hotmail désactivent le SMTP basic-auth —
utilisez Gmail avec un mot de passe d'application, ou un mot de passe
d'application Microsoft.)
## Log de concours
- **Onglet Contest :** choisissez un concours (liste ADIF `CONTEST_ID` intégrée)
et un échange (numéro de série courant ou échange fixe). OpsLog remplit
automatiquement `CONTEST_ID` et les numéros émis/reçus (`STX` / `SRX`), impose
un début/fin de fenêtre, signale les doublons et tient un tableau de score en
direct.
## Statut opérateur en direct (événements spéciaux)
Pour un indicatif d'événement spécial multi-op sur un journal MySQL partagé (ex.
**TM74TFR**) : Réglages → Général → *Publier le statut opérateur en direct*.
Chaque instance OpsLog envoie un battement de cœur de son activité (indicatif de
l'opérateur, bande, fréquence, mode) dans une table `live_status` toutes les
~15 s. Un petit rendu PHP
([`docs/livestatus/tm74-status.php`](docs/livestatus/tm74-status.php)) sur votre
propre serveur web lit cette table et produit une page/image en direct que vous
pouvez intégrer sur la bio **QRZ.com** de la station
(`<img src="…/tm74-status.php?img=1">`). OpsLog écrit seulement dans la base —
ce n'est pas un serveur web.
## Net control
- **Log de net dirigé** (Outils → Net) : un roster global (`nets.json`) plus une
session active en mémoire — pointez les stations présentes, puis loguez tout le
net d'un coup en utilisant la fréquence CAT.
## Apparence & langue
- **Thèmes :** quatre thèmes complets (Clair chaud, Sombre chaud, Graphite
sombre, Contraste élevé) plus **Auto** (suit la préférence clair/sombre du
système), sélectionnables dans Réglages → Général. Chaque panneau et chaque
table AG-Grid suit le thème.
- **Bilingue :** interface complète **anglais / français**, avec un choix de
drapeau au premier lancement et un sélecteur dans Réglages → Général.
## Sécurité
- **Coffre à secrets :** chiffrement optionnel par phrase de passe des mots de
passe stockés (AES-GCM + PBKDF2). Les valeurs chiffrées sont portables ; une
seule invite de déverrouillage au lancement les déchiffre pour la session.
## Intégrations (sortantes)
- **Émetteurs UDP :** pousser la fréquence actuelle vers **PstRotator**, les
infos radio au format **N1MM `RadioInfo`**, ou un **enregistrement ADIF à
chaque QSO logué** — pour que les outils externes (contrôle de rotor,
applications numériques, autres logiciels de log) restent synchronisés.
## Divers
- **Démarrage automatique :** lancer des programmes externes (WSJT-X, JTAlert,
contrôle de rotor…) au démarrage d'OpsLog, en sautant ceux déjà lancés.
- **Sauvegarde :** sauvegarde optionnelle base + ADIF à la fermeture.
- **Vérification de mise à jour** au démarrage avec un toast (désactivable).
- **Télémétrie d'usage anonyme** (un battement de cœur quotidien : ID
d'installation aléatoire + version + OS — aucune donnée d'indicatif ou de QSO ;
désactivable dans les Préférences).
---
## Concepteur de cartes QSL
Outils → *Concepteur de cartes QSL…* transforme quelques photos en une carte
eQSL soignée :
1. Choisissez 1 à 6 photos (jpeg/png). OpsLog les analyse hors ligne (grille de
détail/luminance) et propose **3 designs** — indicatif dans la zone la plus
calme de la meilleure photo, nom de l'opérateur, zones CQ/ITU + ligne locator,
drapeau du pays, les autres photos en inserts encadrés, et un encart de
confirmation par QSO.
2. Choisissez une proposition et affinez-la : cliquez un élément pour le
sélectionner, glissez pour déplacer, changez la police / le préréglage de
style (gel or, gel argent, contour blanc classique, script, plat) et les
réglages par préréglage dans le panneau de droite.
3. Enregistrez le modèle (les photos sont copiées dans
`data/qsl/templates/<id>/`, les originaux peuvent donc être déplacés). Un
modèle peut être le défaut par profil.
Envoi : clic droit sur un QSO → *Envoyer l'eQSL par e-mail*. La carte est rendue
avec les données de ce QSO, matricée en JPEG ≤ 800 Ko, archivée dans
`data/qsl/outbox/` et envoyée via le compte SMTP configuré à l'adresse trouvée
par la recherche QRZ/HamQTH. En cas de succès le QSO est marqué `EQSL_SENT=Y`
(ADIF). Les modèles de sujet/corps de l'e-mail sont dans le concepteur (variables
`{CALL} {DATE} {BAND} {MODE} {MYCALL}`).
Polices : Archivo Black, Lilita One, Baloo 2, Oswald, Great Vibes, Allura
(toutes OFL, embarquées — licences dans `internal/qslcard/assets/fonts/`) ;
Cooper Black est proposée si MS Office l'a installée. Drapeaux : flag-icons
(MIT), embarqués pour les entités DXCC couramment contactées.
---
## Données & stockage
- La **config** (réglages, profils, radios/antennes, nœuds de cluster, cache de
recherche, listes de diplômes, modèles QSL) réside toujours dans le fichier
SQLite local sous `data/` — instantané même quand le journal est sur un MySQL
lointain.
- Le **journal** (QSO) réside là où pointe le profil actif : le fichier SQLite
local ou une base **MySQL** partagée par profil.
---
*An English version of this document is available in [README.md](README.md).*
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# OpsLog
A modern, fast ham-radio logger for Windows — Log4OM-style entry, real-time CAT
(OmniRig **and** native FlexRadio/SmartSDR), DX cluster, awards tracking, maps,
QSL management and a QSL-card designer. Built with **Wails v2** (Go backend +
for **OmniRig**, native **FlexRadio/SmartSDR**, native **Icom CI-V** (USB **and**
remote-over-internet, replacing RS-BA1) and **TCI** (SunSDR / Expert Electronics),
DX cluster with spot alerts, awards tracking, maps, contest logging, QSL
management and a QSL-card designer. Built with **Wails v2** (Go backend +
React/TypeScript frontend), **pure Go** (no CGO): SQLite for configuration,
optional **shared MySQL** for the logbook so several operators can run one log.
Fully themeable and bilingual (English / French).
Developed by **F4BPO**.
@@ -30,10 +33,16 @@ Developed by **F4BPO**.
- **Callsign lookup** (QRZ.com / HamQTH) with photo, auto-fill of name/QTH/grid
and the QRZ.com tab.
- **Offline DXCC** resolution from `cty.dat` (country, CQ/ITU zones, continent),
with `/MM` `/AM` and call-area (`/8`, `/W6`) handling, plus ClubLog DXpedition
date overrides.
with `/MM` `/AM` `/B` (beacon) and call-area (`/8`, `/W6`) handling, plus
ClubLog DXpedition date overrides.
- **Recent QSOs**, **Worked-before** matrix (per band/mode slot), bulk re-resolve
from cty/QRZ/ClubLog, bulk send to QSL services.
- **Advanced QSO filter builder** (field / operator / value, AND / OR, saved
presets) with filtered- and selected-row **ADIF export**.
- **Find duplicates** (Tools) — groups QSOs by same call + band + mode (optionally
same day / minute) and lets you pick which to delete.
- **ADIF 3.1.7 compliant** import/export: a full field dictionary, 30 promoted
columns, a generic "extra fields" editor and standard/all export modes.
- **Profiles:** every setting is per-profile; each profile can point its logbook
at the local SQLite file or a **shared MySQL** database (multi-operator).
@@ -41,7 +50,8 @@ Developed by **F4BPO**.
- **Main view = two configurable panes** (per profile, Settings → General →
*Main view*): great-circle map, locator (street) map, the cluster grid, the
worked-before grid, or the **FlexRadio controls**.
worked-before grid, recent QSOs, the **FlexRadio controls**, the **Icom
console** or the **Net control** panel.
- **Great-circle map** with short/long-path distance & azimuth, selectable
basemaps (Light / Voyager / Street / Satellite, all key-free and labelled) and
the **antenna beam lobe(s)** drawn from the rotor azimuth.
@@ -58,15 +68,29 @@ Developed by **F4BPO**.
pane, with a show/hide toggle.
- Per-spot **status** (new / new-band / new-slot / worked), click-to-tune the
rig, and a multi-band **Band Map** (panadapter-style strips).
- **POTA** spots are tagged with their park reference (via `api.pota.app`).
- **Spot alerts** (Log4OM-style): rules on call / country / band / mode /
spotter, with sound, visual and e-mail notification (Tools → *Alert
management*).
## CAT control
- **OmniRig** backend (Rig 1/2, hot-swap), and a native **FlexRadio (SmartSDR)**
backend over the radio's TCP API — real-time slice freq/mode/split, auto
reconnect, UDP discovery, and **panadapter spots** (cluster spots pushed to the
Flex display, click → fill the call).
- Mode is taken from the radio; the digital sub-mode (FT4 vs FT8) is inferred
from the frequency.
Four native backends (Settings → CAT), each with auto-reconnect and a fast,
non-blocking connect so a powered-off radio never freezes the app:
- **OmniRig** (Rig 1/2, hot-swap) — works with any OmniRig-supported rig.
- **FlexRadio (SmartSDR)** over the radio's TCP API — real-time slice freq /
mode / split, UDP discovery, and **panadapter spots** (cluster spots pushed to
the Flex display, click → fill the call).
- **Icom CI-V** — native, over the radio's **USB** port *or* over the internet
via the radio's **built-in LAN server** (see *Remote Icom* below). No RS-BA1 or
Remote Utility needed.
- **TCI** (WebSocket) — SunSDR / ExpertSDR2 and any TCI-compatible server:
freq / mode / PTT / split, plus optional panorama spots.
Mode is taken from the radio; the digital sub-mode (FT4 vs FT8) is inferred from
the frequency. **Per-band Flex RX/TX antennas** can be configured and are applied
automatically on band change.
### FlexRadio control tab (SmartSDR-style)
@@ -80,19 +104,64 @@ Shown only when the CAT backend is a FlexRadio:
- **Live meters** over the UDP VITA-49 stream: S-meter (S-units), forward power
(W), SWR, ALC, PA temperature, voltage, plus the amplifier's meters.
### Icom control tab
Shown when the CAT backend is Icom (USB or network). A full RS-BA1-style console:
- **Twin VFO readout** (MAIN / SUB) with the big tabular frequency, mode badge,
band and RIT/ΔTX offset, and a **mode-button row** (SSB / CW / RTTY / PSK /
AM / FM).
- **Spectrum scope + waterfall** (panadapter): ON/OFF, CTR/FIX, double-click to
tune, and **◀ ⊙ ▶** buttons to centre the scope on the current frequency
(±50 kHz) and pan left/right.
- **Live meters** always visible: S-meter (click → fill RST), power in watts, SWR.
- **Receive DSP:** AF / RF gain, squelch, AGC, preamp, attenuator, filter
(FIL1/2/3), NB, NR, ANF and — **on CW only** — the **APF** (audio peak filter).
- **Passband / notch:** Twin PBT (inner / outer), manual notch + position.
- **Transmit:** RF power, MOX, TUNE, **split with an automatic offset**
(+5 kHz on SSB, +1 kHz on CW), and monitor. On **voice modes only**: mic gain,
speech compressor, VOX (+ gain + anti-VOX). Controls that don't apply to the
current mode are hidden automatically.
- **Bands & antenna:** one-touch band buttons and ANT1/ANT2 selection.
- **Clarifiers:** RIT and ΔTX with wheel / ± tuning (Ctrl+←/→ nudges RIT).
- **Power ON / OFF** buttons (manual by design — the app never wakes the rig on
connect).
- **CW keying** can run through the radio's own keyer (see *Keyers* below).
### Remote Icom (over the internet, no RS-BA1)
OpsLog speaks the IC-7610's built-in network protocol directly — it **replaces
both the Icom Remote Utility and RS-BA1**. Enter the radio's IP, the Network
User1 name/password and the CI-V address, and the whole Icom console works over
the LAN/internet: login + token (auto-renewed), CI-V tunnel, receive-side
retransmit for a rock-solid link even with the panadapter streaming, and manual
power ON/OFF. (Audio is out of scope — use the radio in USB + a voice link such
as Mumble.)
## Keyers & audio
- **WinKeyer** CW keyer (macros, F-key macros, auto-call repeat).
- **Digital Voice Keyer** (DVK) message playback.
- **QSO audio recording** (SSB/DAX) archived per QSO; disabled for CW (no DAX
audio in CW).
- **CW keyer** with macros and F-key macros. The keyer engine is selectable:
**WinKeyer** (K1EL WK1/2/3 over a COM port), **Icom** (the radio's own keyer
over CI-V — no extra hardware, works over the remote link too) or **TCI**.
- **Digital Voice Keyer** (DVK): record F1F6 voice messages and transmit them.
- **QSO audio recording:** continuous rolling capture; on *Log QSO* the contact
is saved to a per-QSO WAV (`CALL_YYYYMMDD_HHMMSS.wav`); mixes RX + mic.
## Amplifiers & switches
- **PowerGenius XL** (4O3A) amplifier — direct TCP: operate/standby, fan-mode
selector and fault display.
- **Antenna Genius** (4O3A) antenna switch over TCP/GSCP — a docked A/B
antenna-switch widget.
## QSL & awards
- **Awards engine:** built-in + custom award definitions (shared **globally**
across profiles), worked/confirmed/validated by band & mode, OR rules and
manual reference assignment, live reference detection on call entry, and a
**Rescan** that re-pulls the logbook (picks up fresh LoTW/QRZ confirmations).
across profiles) — DXCC, WAS / WAZ / WAC, WPX, IOTA / POTA / SOTA / WWFF,
**DDFM**, worked/confirmed/validated by band & mode, OR rules and manual
reference assignment, live reference detection on call entry, **reference-list
import** for totals/names, and a **Rescan** that re-pulls the logbook (picks up
fresh LoTW/QRZ confirmations).
- **QSL services:** ClubLog (batched ADIF upload), LoTW, QRZ.com, eQSL — upload
and **confirmation download** (which auto-refreshes the award stats).
- **QSL Card Designer** (see below).
@@ -100,6 +169,13 @@ Shown only when the CAT backend is a FlexRadio:
SMTP account. (Outlook/Hotmail disable basic-auth SMTP — use Gmail with an app
password, or a Microsoft app password.)
## Contest logging
- **Contest tab:** pick a contest (built-in ADIF `CONTEST_ID` list) and an
exchange (running serial or a fixed exchange). OpsLog auto-fills `CONTEST_ID`
and the sent/received serials (`STX` / `SRX`), enforces a window start/end,
flags dupes and keeps a live scoreboard.
## Multi-operator live status (special events)
For a multi-op special-event call on a shared MySQL logbook (e.g. **TM74TFR**):
@@ -111,10 +187,37 @@ own web server reads that table and produces a live page/image you can embed on
the station's **QRZ.com** bio (`<img src="…/tm74-status.php?img=1">`). OpsLog
only writes to the DB — it is not a web server.
## Net control
- **Directed-net logging** (Tools → Net): a global roster (`nets.json`) plus an
in-memory active session — check stations in, then log the whole net at once
using the CAT frequency.
## Appearance & language
- **Themes:** four complete themes (Warm light, Warm dark, Graphite dark, High
contrast) plus **Auto** (follows the OS light/dark preference), selectable in
Settings → General. Every panel and every AG-Grid table follows the theme.
- **Bilingual:** full **English / French** UI, with a first-run flag chooser and
a switcher in Settings → General.
## Security
- **Secret vault:** opt-in passphrase encryption of the stored passwords
(AES-GCM + PBKDF2). Encrypted values are portable; a single unlock prompt at
launch decrypts them for the session.
## Integrations (outbound)
- **UDP emitters:** push the current frequency to **PstRotator**, radio info in
**N1MM `RadioInfo`** format, or an **ADIF record on each logged QSO** — so
external tools (rotator control, digital apps, other loggers) stay in sync.
## Other
- **Autostart:** launch external programs (WSJT-X, JTAlert, rotator control…) at
OpsLog startup, skipping any already running.
- **Backup:** optional database + ADIF backup at shutdown.
- **Update check** at startup with a toast (toggleable).
- **Anonymous usage telemetry** (a once-a-day heartbeat: random install ID +
version + OS — no callsign or QSO data; opt-out in Preferences).
@@ -156,3 +259,7 @@ commonly-worked DXCC entities.
`data/` — instant even when the logbook is on a far-away MySQL.
- **Logbook** (QSOs) lives where the active profile points it: the local SQLite
file or a per-profile shared **MySQL** database.
---
*A French version of this document is available in [README.fr.md](README.fr.md).*
+474 -7
View File
@@ -93,6 +93,10 @@ const (
keyCATIcomPort = "cat.icom.port" // Icom USB CI-V serial port (e.g. COM5)
keyCATIcomBaud = "cat.icom.baud" // Icom CI-V baud (default 115200)
keyCATIcomAddr = "cat.icom.addr" // Icom CI-V address, decimal (IC-7610 = 152 / 0x98)
keyCATIcomNetHost = "cat.icom.net.host" // Icom network remote: rig IP/hostname
keyCATIcomNetUser = "cat.icom.net.user" // Icom network: Network User1 ID
keyCATIcomNetPass = "cat.icom.net.pass" // Icom network: Network User1 password
keyCATIcomNetAudio = "cat.icom.net.audio" // Icom network: stream RX audio on 50003 (experimental)
keyCATTCIHost = "cat.tci.host" // TCI host (Expert Electronics SunSDR / ExpertSDR2)
keyCATTCIPort = "cat.tci.port" // TCI WebSocket port (default 40001)
keyCATTCISpots = "cat.tci.spots" // push cluster spots to the TCI panorama
@@ -241,6 +245,7 @@ const (
keyExtLoTWWebPassword = "extsvc.lotw.web_password" // LoTW website password (download)
keyExtLoTWLastDownload = "extsvc.lotw.last_download" // YYYY-MM-DD of last confirmation pull
keyExtQRZLastDownload = "extsvc.qrz.last_download" // YYYY-MM-DD of last QRZ confirmation pull
keyExtEQSLLastDownload = "extsvc.eqsl.last_download" // YYYY-MM-DD of last eQSL inbox pull
)
// QSLDefaults is the per-user default for the QSL / eQSL / LoTW / upload
@@ -265,7 +270,7 @@ type QSLDefaults struct {
// individual key/value pairs to keep the settings table flat.
type CATSettings struct {
Enabled bool `json:"enabled"`
Backend string `json:"backend"` // "omnirig" | "flex" | "icom"
Backend string `json:"backend"` // "omnirig" | "flex" | "icom" | "icom-net" | "tci"
OmniRigNum int `json:"omnirig_rig"` // 1 or 2 (OmniRig "Rig1"/"Rig2" slot)
FlexHost string `json:"flex_host"` // FlexRadio IP (native backend)
FlexPort int `json:"flex_port"` // FlexRadio TCP port (default 4992)
@@ -273,6 +278,10 @@ type CATSettings struct {
IcomPort string `json:"icom_port"` // Icom USB CI-V serial port (e.g. COM5)
IcomBaud int `json:"icom_baud"` // Icom CI-V baud (default 115200)
IcomAddr int `json:"icom_addr"` // Icom CI-V address, decimal (IC-7610 = 152)
IcomNetHost string `json:"icom_net_host"` // Icom network remote: rig IP/hostname (built-in LAN server)
IcomNetUser string `json:"icom_net_user"` // Icom network Network User1 ID
IcomNetPass string `json:"icom_net_pass"` // Icom network Network User1 password
IcomNetAudio bool `json:"icom_net_audio"` // Icom network: stream RX audio (50003) — experimental, needs on-rig verification
TCIHost string `json:"tci_host"` // TCI host (Expert Electronics SunSDR)
TCIPort int `json:"tci_port"` // TCI WebSocket port (default 40001)
TCISpots bool `json:"tci_spots"` // push cluster spots to the TCI panorama
@@ -1107,6 +1116,13 @@ func (a *App) shutdown(ctx context.Context) {
if a.udp != nil {
a.udp.StopAll()
}
// Stop CAT so the backend disconnects cleanly. Critical for the Icom network
// backend: without this the rig never gets a disconnect and holds its single
// control session for minutes, refusing every new login (even from the Icom
// Remote Utility) until it times out on its own.
if a.cat != nil {
a.cat.Stop()
}
if a.winkeyer != nil {
a.winkeyer.Disconnect()
}
@@ -2893,8 +2909,10 @@ func (a *App) AwardRefsForQSOs(ids []int64) (map[int64]map[string]string, error)
defs := a.awardDefs()
metas := a.awardRefMetas(defs)
fieldByCode := map[string]string{}
dispByCode := map[string]string{}
for _, d := range defs {
fieldByCode[strings.ToUpper(d.Code)] = strings.ToLower(strings.TrimSpace(d.Field))
dispByCode[strings.ToUpper(d.Code)] = strings.ToLower(strings.TrimSpace(d.RefDisplay))
}
nameOf := func(field, ref string) string {
switch field {
@@ -2920,10 +2938,22 @@ func (a *App) AwardRefsForQSOs(ids []int64) (map[int64]map[string]string, error)
if !rf.Worked {
continue
}
// DXCC's ref is a number → show the country name instead.
// Per-award display choice: ref (default), name (description), or
// both. DXCC keeps showing the country name under the default.
label := rf.Ref
if dxccField && rf.Name != "" {
label = rf.Name
switch dispByCode[code] {
case "name":
if rf.Name != "" {
label = rf.Name
}
case "both":
if rf.Name != "" {
label = rf.Ref + " — " + rf.Name
}
default: // "" or "ref"
if dxccField && rf.Name != "" {
label = rf.Name
}
}
refs = append(refs, label)
}
@@ -3602,6 +3632,24 @@ var bulkFieldColumns = map[string]string{
"my_antenna": "my_antenna",
"my_sig": "my_sig",
"my_sig_info": "my_sig_info",
// Contest
"contest_id": "contest_id",
"srx_string": "srx_string",
"stx_string": "stx_string",
"arrl_sect": "arrl_sect",
"precedence": "precedence",
"class": "class",
// Propagation / satellite
"prop_mode": "prop_mode",
"sat_name": "sat_name",
"sat_mode": "sat_mode",
// Contacted station activation refs / SIG
"pota_ref": "pota_ref",
"sota_ref": "sota_ref",
"wwff_ref": "wwff_ref",
"iota": "iota",
"sig": "sig",
"sig_info": "sig_info",
// Misc text
"comment": "comment",
"notes": "notes",
@@ -4276,7 +4324,7 @@ func (a *App) GetCATSettings() (CATSettings, error) {
if a.settings == nil {
return CATSettings{Backend: "omnirig", OmniRigNum: 1, PollMs: 250}, fmt.Errorf("db not initialized")
}
m, err := a.settings.GetMany(a.ctx, keyCATEnabled, keyCATBackend, keyCATOmniRigNum, keyCATFlexHost, keyCATFlexPort, keyCATFlexSpots, keyCATIcomPort, keyCATIcomBaud, keyCATIcomAddr, keyCATTCIHost, keyCATTCIPort, keyCATTCISpots, keyCATPollMs, keyCATDelayMs, keyCATDigitalDefault)
m, err := a.settings.GetMany(a.ctx, keyCATEnabled, keyCATBackend, keyCATOmniRigNum, keyCATFlexHost, keyCATFlexPort, keyCATFlexSpots, keyCATIcomPort, keyCATIcomBaud, keyCATIcomAddr, keyCATIcomNetHost, keyCATIcomNetUser, keyCATIcomNetPass, keyCATIcomNetAudio, keyCATTCIHost, keyCATTCIPort, keyCATTCISpots, keyCATPollMs, keyCATDelayMs, keyCATDigitalDefault)
if err != nil {
return CATSettings{}, err
}
@@ -4290,6 +4338,10 @@ func (a *App) GetCATSettings() (CATSettings, error) {
IcomPort: m[keyCATIcomPort],
IcomBaud: 115200,
IcomAddr: 0x98, // IC-7610 default
IcomNetHost: m[keyCATIcomNetHost],
IcomNetUser: m[keyCATIcomNetUser],
IcomNetPass: m[keyCATIcomNetPass],
IcomNetAudio: m[keyCATIcomNetAudio] == "1",
TCIHost: m[keyCATTCIHost],
TCIPort: 40001,
TCISpots: m[keyCATTCISpots] == "1",
@@ -4365,6 +4417,10 @@ func (a *App) SaveCATSettings(s CATSettings) error {
if s.TCISpots {
tciSpots = "1"
}
icomNetAudio := "0"
if s.IcomNetAudio {
icomNetAudio = "1"
}
if s.DigitalDefault == "" {
s.DigitalDefault = "FT8"
}
@@ -4378,6 +4434,10 @@ func (a *App) SaveCATSettings(s CATSettings) error {
keyCATIcomPort: strings.TrimSpace(s.IcomPort),
keyCATIcomBaud: strconv.Itoa(s.IcomBaud),
keyCATIcomAddr: strconv.Itoa(s.IcomAddr),
keyCATIcomNetHost: strings.TrimSpace(s.IcomNetHost),
keyCATIcomNetUser: strings.TrimSpace(s.IcomNetUser),
keyCATIcomNetPass: s.IcomNetPass,
keyCATIcomNetAudio: icomNetAudio,
keyCATTCIHost: strings.TrimSpace(s.TCIHost),
keyCATTCIPort: strconv.Itoa(s.TCIPort),
keyCATTCISpots: tciSpots,
@@ -4961,6 +5021,8 @@ func (a *App) NetLookup(callsign string) netctl.Station {
if lr, err := a.lookup.Lookup(a.ctx, st.Callsign); err == nil {
st.Name, st.QTH, st.Country = lr.Name, lr.QTH, lr.Country
st.DXCC, st.CQ, st.ITU = lr.DXCC, lr.CQZ, lr.ITUZ
st.Grid, st.Address, st.State, st.Cnty = lr.Grid, lr.Address, lr.State, lr.County
st.Cont, st.Lat, st.Lon, st.Email = lr.Continent, lr.Lat, lr.Lon, lr.Email
}
return st
}
@@ -5051,6 +5113,16 @@ func (a *App) NetActivate(callsign string) (qso.QSO, error) {
for _, st := range net.Stations {
if strings.EqualFold(st.Callsign, call) {
q.Name, q.QTH, q.Country = st.Name, st.QTH, st.Country
q.Grid, q.Address, q.State, q.County = st.Grid, st.Address, st.State, st.Cnty
q.Continent, q.Email = st.Cont, st.Email
if st.Lat != 0 {
lat := st.Lat
q.Lat = &lat
}
if st.Lon != 0 {
lon := st.Lon
q.Lon = &lon
}
if st.DXCC != 0 {
d := st.DXCC
q.DXCC = &d
@@ -5781,8 +5853,20 @@ func (a *App) TestPTT(cfg AudioSettings) error {
if err := a.pttKey(cfg); err != nil {
return err
}
// Hold long enough to be observable. OmniRig is async and coalesces rapid
// writes to the same parameter: it stores the desired Tx value and flushes
// on its own poll timer, so a key (PM_TX) followed too quickly by an unkey
// (PM_RX) can land in ONE flush cycle — OmniRig then sends only the last
// value (PM_RX) and the rig never actually transmits (while an already-MOX'd
// rig gets dropped by that lone PM_RX). A longer hold guarantees the key
// command is sent and held before the release. Serial RTS/DTR is instant,
// so it keeps the short window.
hold := 600 * time.Millisecond
if cfg.PTTMethod == "cat" {
hold = 1500 * time.Millisecond
}
gen := a.pttGenNow()
go func() { time.Sleep(600 * time.Millisecond); a.unkeyIfCurrent(gen) }()
go func() { time.Sleep(hold); a.unkeyIfCurrent(gen) }()
return nil
}
@@ -5802,6 +5886,72 @@ func (a *App) DVKStop() {
}
}
// AudioStartMonitor pipes live RX audio from the rig into your speakers so you
// hear the radio inside OpsLog. Source = the "From radio" capture device (for a
// USB-connected rig, its "USB Audio CODEC" input); sink = the "Listening"
// device. This is the USB half of the audio feature; the network 50003 stream
// will later Push into the same output path (see audio.Manager.PushMonitorAudio).
func (a *App) AudioStartMonitor() error {
if a.audioMgr == nil {
return fmt.Errorf("audio not initialized")
}
cfg, _ := a.GetAudioSettings()
if strings.TrimSpace(cfg.FromRadio) == "" {
return fmt.Errorf(`no "From radio" capture device set — pick the rig's USB Audio CODEC in Settings → Audio`)
}
applog.Printf("audio: RX monitor start (from=%q → listen=%q)", cfg.FromRadio, cfg.ListeningDevice)
return a.audioMgr.StartMonitor(cfg.FromRadio, cfg.ListeningDevice)
}
// AudioStopMonitor stops the RX monitor passthrough.
func (a *App) AudioStopMonitor() {
if a.audioMgr != nil {
a.audioMgr.StopMonitor()
applog.Printf("audio: RX monitor stopped")
}
}
// AudioMonitorActive reports whether the RX monitor is running (for the toggle).
func (a *App) AudioMonitorActive() bool {
return a.audioMgr != nil && a.audioMgr.MonitorActive()
}
// AudioStartTX keys PTT and pipes your live mic into the rig ("To Radio" device)
// so you can talk through the PC — the USB half of TX voice. PTT uses the
// configured method (CAT/RTS/DTR); if keying fails the audio route isn't started.
func (a *App) AudioStartTX() error {
if a.audioMgr == nil {
return fmt.Errorf("audio not initialized")
}
cfg, _ := a.GetAudioSettings()
if strings.TrimSpace(cfg.ToRadio) == "" {
return fmt.Errorf(`no "To radio" device set — pick the rig's USB Audio CODEC output in Settings → Audio`)
}
if err := a.pttKey(cfg); err != nil { // key first — no point streaming to a rig that isn't transmitting
return err
}
if err := a.audioMgr.StartTXAudio(cfg.RecordingDevice, cfg.ToRadio); err != nil {
a.pttUnkey()
return err
}
applog.Printf("audio: TX start (mic=%q → to-radio=%q, ptt=%q)", cfg.RecordingDevice, cfg.ToRadio, cfg.PTTMethod)
return nil
}
// AudioStopTX stops the TX passthrough and unkeys PTT.
func (a *App) AudioStopTX() {
if a.audioMgr != nil {
a.audioMgr.StopTXAudio()
}
a.pttUnkey()
applog.Printf("audio: TX stopped")
}
// AudioTXActive reports whether the TX passthrough is running (for the toggle).
func (a *App) AudioTXActive() bool {
return a.audioMgr != nil && a.audioMgr.TXAudioActive()
}
// GetLogFilePath returns where the diagnostic log file lives so the user
// can open it from the Settings UI. Empty when applog hasn't initialised.
func (a *App) GetLogFilePath() string {
@@ -6756,6 +6906,97 @@ func (a *App) runDownloadConfirmations(svc extsvc.Service, cfg extsvc.ExternalSe
emit(fmt.Sprintf("Confirmed %d, added %d (of %d returned)", matched, added, total))
// (last-download date already stored right after the fetch above)
case extsvc.ServiceEQSL:
sinceDate := resolveSince(keyExtEQSLLastDownload)
if sinceDate != "" {
emit("Downloading eQSL Inbox (confirmations received since " + sinceDate + ")…")
} else {
emit("Downloading full eQSL Inbox (all received confirmations)…")
}
adifText, err := extsvc.DownloadEQSLConfirmations(ctx, nil, cfg.EQSL, sinceDate)
if err != nil {
emit("Download failed: " + err.Error())
done(matched, total)
return
}
keyIDs, kerr := a.qso.DedupeKeyIDs(ctx)
if kerr != nil {
emit("Error reading local log: " + kerr.Error())
done(matched, total)
return
}
// eQSL confirmations aren't ARRL-award-valid (only LoTW + paper QSL are),
// so NEW is judged only against other eQSL confirmations.
sets, _ := a.qso.ConfirmedSlots(ctx, []string{"eqsl_rcvd"})
var items []ConfirmationItem
var unmatched []string
perr := adif.Parse(strings.NewReader(adifText), func(rec adif.Record) error {
q, ok := adif.RecordToQSO(rec)
if !ok {
return nil
}
total++
// eQSL stamps the confirmation date in QSLRDATE (fall back to today).
date := rec["qslrdate"]
if date == "" {
date = time.Now().UTC().Format("20060102")
}
a.enrichContactedFromCty(&q)
key := qso.DedupeKey(q.Callsign, q.QSODate.UTC().Format("2006-01-02T15:04"), q.Band, q.Mode)
if id, found := keyIDs[key]; found {
if e := a.qso.MarkEQSLConfirmed(ctx, id, date); e == nil {
matched++
}
} else if addNotFound {
q.EQSLSent = "Y"
q.EQSLRcvd = "Y"
q.EQSLRcvdDate = date
if newID, e := a.qso.Add(ctx, q); e == nil {
keyIDs[key] = newID
added++
}
} else {
unmatched = append(unmatched, fmt.Sprintf("%s · %s · %s · %s",
q.Callsign, q.QSODate.UTC().Format("2006-01-02 15:04Z"), q.Band, q.Mode))
}
dxccNum := 0
if q.DXCC != nil {
dxccNum = *q.DXCC
}
it := ConfirmationItem{
Callsign: q.Callsign,
QSODate: q.QSODate.UTC().Format(time.RFC3339),
Band: q.Band, Mode: q.Mode, Country: q.Country,
}
if dxccNum != 0 {
it.NewDXCC = !sets.DXCC[dxccNum]
it.NewBand = !sets.Band[qso.BandKey(dxccNum, q.Band)]
it.NewSlot = !sets.Slot[qso.SlotKey(dxccNum, q.Band, q.Mode)]
sets.DXCC[dxccNum] = true
sets.Band[qso.BandKey(dxccNum, q.Band)] = true
sets.Slot[qso.SlotKey(dxccNum, q.Band, q.Mode)] = true
}
items = append(items, it)
return nil
})
if a.ctx != nil {
wruntime.EventsEmit(a.ctx, "qslmgr:confirmations", items)
}
if perr != nil {
emit("Parse error: " + perr.Error())
}
if addNotFound {
emit(fmt.Sprintf("Matched %d, added %d (of %d eQSL confirmation(s))", matched, added, total))
} else {
emit(fmt.Sprintf("Matched %d of %d eQSL confirmation(s)", matched, total))
}
for _, u := range unmatched {
emit(" ⚠ no local QSO for: " + u)
}
if a.settings != nil {
a.setSetting(a.profileScope()+keyExtEQSLLastDownload, time.Now().UTC().Format("2006-01-02"))
}
default:
emit(fmt.Sprintf("Confirmation download isn't available for %s yet.", svc))
}
@@ -7729,9 +7970,54 @@ func (a *App) SetCATFrequency(hz int64) error {
if err != nil {
applog.Printf("cat: SetFrequency(%d Hz) dispatch error: %v", hz, err)
}
// Re-tune the Ultrabeam right away on a DELIBERATE freq set (spot click, band
// button, memory recall) instead of waiting for the ~1.5 s follow poll + the
// CAT echo — the reason it used to only follow after you nudged the VFO.
go a.ultrabeamFollowNow(hz)
return err
}
// ultrabeamFollowNow re-tunes the Ultrabeam to freqHz at once (best-effort),
// honouring the same enabled/follow/in-range/step-deadband rules as the follow
// loop. Called from SetCATFrequency so a spot click moves the antenna instantly.
func (a *App) ultrabeamFollowNow(freqHz int64) {
c := a.ultrabeam
if c == nil || freqHz <= 0 {
return
}
s, err := a.GetUltrabeamSettings()
if err != nil || !s.Enabled || !s.Follow {
return
}
step := s.StepKHz
if step <= 0 {
step = 50
}
st, err := c.GetStatus()
if err != nil || st == nil || !st.Connected {
return
}
if st.FreqMin > 0 && st.FreqMax > 0 {
mhz := freqHz / 1_000_000
if mhz < int64(st.FreqMin) || mhz > int64(st.FreqMax) {
return // outside the antenna's tunable range
}
}
khz := int(freqHz / 1000)
diff := khz - st.Frequency
if diff < 0 {
diff = -diff
}
if st.Frequency > 0 && diff < step {
return // within the deadband — don't chase a tiny QSY
}
if err := c.SetFrequency(khz, st.Direction); err != nil {
applog.Printf("ultrabeam: immediate re-tune to %d kHz failed: %v", khz, err)
} else {
applog.Printf("ultrabeam: re-tuned on freq set → %d kHz (dir %d)", khz, st.Direction)
}
}
// SetCATMode sets the rig's mode. ADIF mode names (SSB / CW / FT8 / …) are
// translated to backend-specific values by the backend itself.
func (a *App) SetCATMode(mode string) error {
@@ -7824,6 +8110,13 @@ func (a *App) IcomSetANF(on bool) error {
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetANF(on) })
}
func (a *App) IcomSetAPF(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetAPF(on) })
}
func (a *App) IcomSetAGC(mode string) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
@@ -7873,6 +8166,97 @@ func (a *App) IcomSetSplit(on bool) error {
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetIcomSplit(on) })
}
func (a *App) IcomSetAntenna(n int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetAntenna(n) })
}
func (a *App) IcomSetPBTInner(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetPBTInner(p) })
}
func (a *App) IcomSetPBTOuter(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetPBTOuter(p) })
}
func (a *App) IcomSetManualNotch(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetManualNotch(on) })
}
func (a *App) IcomSetNotchPos(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetNotchPos(p) })
}
func (a *App) IcomSetSquelch(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetSquelch(p) })
}
func (a *App) IcomSetComp(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetComp(on) })
}
func (a *App) IcomSetCompLevel(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetCompLevel(p) })
}
func (a *App) IcomSetMonitor(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetMonitor(on) })
}
func (a *App) IcomSetMonLevel(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetMonLevel(p) })
}
func (a *App) IcomSetVOX(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetVOX(on) })
}
func (a *App) IcomSetVOXGain(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetVOXGain(p) })
}
func (a *App) IcomSetAntiVOX(p int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetAntiVOX(p) })
}
func (a *App) IcomTune() error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
@@ -7880,6 +8264,15 @@ func (a *App) IcomTune() error {
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.TuneATU() })
}
// IcomSetPower turns the radio on or off (manual — the app never wakes the rig
// on connect). ON sends a wake preamble + CI-V 0x18 01; the rig then boots ~15s.
func (a *App) IcomSetPower(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetPower(on) })
}
// IcomSetScope enables/disables the spectrum-scope waveform stream.
func (a *App) IcomSetScope(on bool) error {
if a.cat == nil {
@@ -7905,6 +8298,15 @@ func (a *App) IcomSetScopeMode(fixed bool) error {
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetScopeMode(fixed) })
}
// IcomSetScopeEdges points the fixed-mode scope at [lowHz, highHz] — the panel's
// "centre on VFO" (VFO±50 kHz) and pan ◀/▶ buttons.
func (a *App) IcomSetScopeEdges(lowHz, highHz int64) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.IcomDo(func(ic cat.IcomController) error { return ic.SetScopeEdges(lowHz, highHz) })
}
// IcomSetRIT sets the RIT/ΔTX offset in signed Hz.
func (a *App) IcomSetRIT(hz int) error {
if a.cat == nil {
@@ -8135,6 +8537,22 @@ func (a *App) FlexSetSplit(on bool) error {
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetSplit(on) })
}
// FlexSetActiveSlice focuses a slice (A/B/C/D…) so all commands target it.
func (a *App) FlexSetActiveSlice(idx int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetActiveSlice(idx) })
}
// FlexSetTXSlice makes a slice the transmitter (e.g. TX on the active slice).
func (a *App) FlexSetTXSlice(idx int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetTXSlice(idx) })
}
// keyFlexBandAnt stores the per-band RX/TX antenna map (global, machine-local).
const keyFlexBandAnt = "flex.band_antennas"
@@ -8252,6 +8670,30 @@ func (a *App) FlexSetAPFLevel(l int) error {
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetAPFLevel(l) })
}
func (a *App) FlexSetWNB(on bool) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetWNB(on) })
}
func (a *App) FlexSetWNBLevel(l int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetWNBLevel(l) })
}
func (a *App) FlexSetTXFilter(low, high int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetTXFilter(low, high) })
}
func (a *App) FlexSetMicProfile(name string) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
}
return a.cat.FlexDo(func(fc cat.FlexController) error { return fc.SetMicProfile(name) })
}
func (a *App) FlexSetCWSpeed(wpm int) error {
if a.cat == nil {
return fmt.Errorf("cat not initialized")
@@ -8349,8 +8791,33 @@ func (a *App) reloadCAT() {
a.cat.Start(fb)
case "icom":
// Native Icom CI-V over the radio's USB serial port (local control).
// Same civ protocol a future network backend will reuse for remote.
// Same civ protocol the network backend reuses for remote.
a.cat.Start(cat.NewIcomSerial(s.IcomPort, s.IcomBaud, s.IcomAddr, s.DigitalDefault))
case "icom-net":
// Icom CI-V over the rig's built-in LAN server (remote, no RS-BA1 / Remote
// Utility). Reuses the whole IcomController over the network transport.
var audioSink func([]byte)
if s.IcomNetAudio && a.audioMgr != nil {
// Experimental: stream RX audio over 50003. Start the render-only monitor
// sink (no USB capture) and feed each decoded payload into it, so remote
// RX audio plays through the "Listening" device. Decoding is via the PCM
// codec (Opus later). The 50003 payload OFFSET is still pending on-rig
// verification (see icomaudio.go) — hence experimental + opt-in.
acfg, _ := a.GetAudioSettings()
a.audioMgr.StopMonitor() // clear any prior monitor/sink so a re-save restarts cleanly
if err := a.audioMgr.StartMonitorSink(acfg.ListeningDevice); err != nil {
applog.Printf("icom-net audio: cannot start output sink: %v", err)
} else {
codec := audio.NewPCM16Codec()
audioSink = func(payload []byte) {
if pcm, err := codec.Decode(payload); err == nil {
a.audioMgr.PushMonitorAudio(pcm)
}
}
applog.Printf("icom-net audio: RX audio streaming ENABLED (experimental) → %q", acfg.ListeningDevice)
}
}
a.cat.Start(cat.NewIcomNet(s.IcomNetHost, s.IcomNetUser, s.IcomNetPass, s.IcomAddr, s.DigitalDefault, audioSink))
case "tci":
// Expert Electronics TCI (WebSocket) — SunSDR / ExpertSDR2, or any
// TCI-compatible server.
+10 -2
View File
@@ -122,12 +122,20 @@ func (a *App) QSLGenerateProposals(photoPaths []string) ([]string, error) {
return out, nil
}
// QSLListTemplates returns all saved templates (defaults first).
// QSLListTemplates returns the templates for the ACTIVE profile (its own plus any
// shared/global ones), defaults first — so the default is per-profile, not a
// single global list shared by every profile.
func (a *App) QSLListTemplates() ([]QSLTemplateInfo, error) {
if a.qslTemplates == nil {
return nil, fmt.Errorf("db not initialized")
}
recs, err := a.qslTemplates.List(a.ctx)
var recs []qslcard.Record
var err error
if p, e := a.profiles.Active(a.ctx); e == nil {
recs, err = a.qslTemplates.ListFor(a.ctx, p.ID)
} else {
recs, err = a.qslTemplates.List(a.ctx)
}
if err != nil {
return nil, err
}
+401 -187
View File
@@ -1,23 +1,21 @@
// Command icomnettest is an iteration probe for the Icom IP remote protocol
// (the LAN server built into the IC-7610 the one RS-BA1 and wfview talk to).
// We're reimplementing it from the public protocol description, so this tool
// drives the CONTROL stream (default UDP 50001) and hex-dumps every packet both
// ways, letting us confirm the framing / type codes against the real rig before
// folding it into internal/cat/icomnet. Nothing here is copied from wfview
// (GPLv3) — it's a clean-room implementation from the protocol structure.
// Command icomnettest is an iteration probe for the Icom IP remote protocol
// the LAN server built into the IC-7610 that the Icom "Remote Utility" (and
// wfview) talk to. OpsLog reimplements this directly so it can BE both the
// Remote Utility (Ethernet ↔ radio) and the logger/CAT client, dropping the
// virtual-COM + RS-BA1 chain entirely.
//
// This first milestone is the CONNECTION HANDSHAKE only (no login yet):
// areYouThere → iAmHere → areYouReady → iAmReady → periodic idle pings.
// Watch the log: if the rig answers our areYouThere we've got the framing right;
// its reply reveals the remote station ID we echo back. Login (token + user/
// password) is the next step once the handshake is confirmed.
// This probe drives TWO streams and hex-dumps everything:
// Control (UDP 50001): handshake → login → token [VERIFIED on the real rig]
// CI-V (UDP 50002): handshake → openClose(open) → send CI-V read-freq
// (FE FE 98 E0 03 FD) → print the rig's reply.
// Framing (passcode table, packet offsets, CI-V data_packet, openclose) is
// reimplemented from the public wfview protocol and verified byte-for-byte
// against real Remote-Utility captures (build/bin/civ*.pcapng). No GPLv3 code.
//
// Usage:
// go run ./cmd/icomnettest 192.168.1.60 # control port 50001
// go run ./cmd/icomnettest 192.168.1.60 50001 20 # port + run seconds
// go run ./cmd/icomnettest <rig-ip> <user> <pass> [compname]
//
// SAFE: only the control stream, no CI-V commands, no TX — it just opens and
// pings, then disconnects. Share the log and we iterate.
// SAFE: read-only CI-V (operating frequency). No TX, no writes.
package main
import (
@@ -26,83 +24,59 @@ import (
"fmt"
"net"
"os"
"strconv"
"time"
)
// Control-stream packet types (best-known values from the public protocol
// description — the very thing we're verifying with this probe).
const (
typeAreYouThere = 0x03
typeIAmHere = 0x04
typeDisconnect = 0x05
typeAreYouReady = 0x06 // same type both directions (areYouReady / iAmReady)
typeIdle = 0x00 // 16-byte keepalive (retransmit/ack carrier)
typePing = 0x07 // 21-byte ping (offset 16 = 0x00 request / 0x01 reply, +4-byte payload)
)
var le = binary.LittleEndian
var be = binary.BigEndian
// ctrlPacket is the 16-byte common control packet, all fields little-endian:
//
// uint32 len (=0x10) · uint16 type · uint16 seq · uint32 sentid · uint32 rcvdid
func ctrlPacket(typ uint16, seq uint16, sentid, rcvdid uint32) []byte {
b := make([]byte, 16)
binary.LittleEndian.PutUint32(b[0:], 0x10)
binary.LittleEndian.PutUint16(b[4:], typ)
binary.LittleEndian.PutUint16(b[6:], seq)
binary.LittleEndian.PutUint32(b[8:], sentid)
binary.LittleEndian.PutUint32(b[12:], rcvdid)
return b
}
// passcodeSeq is Icom's fixed obfuscation table for the login username/password
// (used by RS-BA1). BEST-EFFORT public reconstruction — the values that matter
// for a given credential are sequence[char+index]; if the radio rejects auth,
// compare the "scrambled" bytes this tool prints against a real login capture to
// correct the needed entries.
// passcodeSeq — Icom's obfuscation table (values live at index 0x20..0x7e).
// VERIFIED: user "f6bgc" → 3F 65 50 25 55 (matches the capture).
var passcodeSeq = [256]byte{
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41,
0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e, 0x20, 0x77, 0x5f, 0x51, 0x3e, 0x70, 0x4d, 0x1f, 0x74, 0x38,
0x2c, 0x4b, 0x1e, 0x54, 0x30, 0x71, 0x2b, 0x2a, 0x66, 0x27, 0x2e, 0x58, 0x24, 0x21, 0x2f, 0x50,
0x1b, 0x73, 0x69, 0x36, 0x1d, 0x4f, 0x1c, 0x51, 0x2e, 0x1e, 0x45, 0x2e, 0x22, 0x50, 0x64, 0x66,
0x24, 0x36, 0x0c, 0x7d, 0x50, 0x25, 0x7c, 0x3f, 0x2d, 0x35, 0x71, 0x6a, 0x0e, 0x41, 0x2a, 0x67,
0x7c, 0x64, 0x77, 0x67, 0x6d, 0x5b, 0x3d, 0x5b, 0x2b, 0x67, 0x6c, 0x39, 0x35, 0x76, 0x3b, 0x2f,
0x2f, 0x6d, 0x59, 0x6e, 0x59, 0x77, 0x3b, 0x24, 0x74, 0x7c, 0x6b, 0x37, 0x54, 0x5c, 0x4d, 0x1f,
0x27, 0x69, 0x5b, 0x2e, 0x28, 0x35, 0x77, 0x74, 0x35, 0x1f, 0x6a, 0x2a, 0x28, 0x30, 0x25, 0x20,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41, 0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e,
0x7c, 0x65, 0x7d, 0x49, 0x29, 0x72, 0x73, 0x78, 0x21, 0x6e, 0x5a, 0x5e, 0x4a, 0x3e, 0x71, 0x2c, 0x2a, 0x54, 0x3c, 0x3a, 0x63, 0x4f,
0x43, 0x75, 0x27, 0x79, 0x5b, 0x35, 0x70, 0x48, 0x6b, 0x56, 0x6f, 0x34, 0x32, 0x6c, 0x30, 0x61, 0x6d, 0x7b, 0x2f, 0x4b, 0x64, 0x38,
0x2b, 0x2e, 0x50, 0x40, 0x3f, 0x55, 0x33, 0x37, 0x25, 0x77, 0x24, 0x26, 0x74, 0x6a, 0x28, 0x53, 0x4d, 0x69, 0x22, 0x5c, 0x44, 0x31,
0x36, 0x58, 0x3b, 0x7a, 0x51, 0x5f, 0x52,
}
// passcode scrambles s (username or password) via the Icom sequence table.
func passcode(s string) []byte {
out := make([]byte, len(s))
for i := 0; i < len(s); i++ {
out := make([]byte, 0, len(s))
for i := 0; i < len(s) && i < 16; i++ {
p := int(s[i]) + i
if p > 0x7f {
p = ((p - 0x7f) % 0x33) - 1
if p < 0 {
p = 0
}
if p > 126 {
p = 32 + p%127
}
out[i] = passcodeSeq[p&0xff]
out = append(out, passcodeSeq[p])
}
return out
}
// buildLogin builds the 0x80-byte login packet: control header + username/
// password (scrambled) at 0x40/0x50 and the app name at 0x60. The middle fields
// (payload size, request type, inner seq, token request) are a best-effort
// reconstruction and may need adjustment against a capture.
func buildLogin(seq uint16, sentid, rcvdid uint32, innerSeq, tokRequest uint16, user, pass, name string) []byte {
// --- packet builders (offsets verified vs wfview structs + real captures) ---
func ctrlPacket(typ, seq uint16, sentid, rcvdid uint32) []byte {
b := make([]byte, 16)
le.PutUint32(b[0:], 0x10)
le.PutUint16(b[4:], typ)
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
return b
}
func buildLogin(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user, pass, name string) []byte {
b := make([]byte, 0x80)
binary.LittleEndian.PutUint32(b[0:], 0x80) // len
// type (b[4:6]) = 0x00
binary.LittleEndian.PutUint16(b[6:], seq)
binary.LittleEndian.PutUint32(b[8:], sentid)
binary.LittleEndian.PutUint32(b[12:], rcvdid)
binary.LittleEndian.PutUint32(b[16:], 0x70) // payload size (len - 0x10)
binary.LittleEndian.PutUint16(b[20:], 0x00) // requesttype
binary.LittleEndian.PutUint16(b[22:], 0x01) // requestreply
binary.LittleEndian.PutUint16(b[24:], innerSeq)
binary.LittleEndian.PutUint16(b[26:], tokRequest)
// token (b[0x20:0x24]) = 0 until the rig grants one
le.PutUint32(b[0:], 0x80)
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
be.PutUint32(b[0x10:], 0x80-0x10)
b[0x14] = 0x01 // requestreply
b[0x15] = 0x00 // requesttype = login
be.PutUint16(b[0x16:], innerSeq)
le.PutUint16(b[0x1a:], tokReq)
le.PutUint32(b[0x1c:], token)
copy(b[0x40:0x50], passcode(user))
copy(b[0x50:0x60], passcode(pass))
nm := name
@@ -113,140 +87,380 @@ func buildLogin(seq uint16, sentid, rcvdid uint32, innerSeq, tokRequest uint16,
return b
}
func parseHeader(b []byte) (length uint32, typ, seq uint16, sentid, rcvdid uint32, ok bool) {
func buildToken(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
b := make([]byte, 0x40)
le.PutUint32(b[0:], 0x40)
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
be.PutUint32(b[0x10:], 0x40-0x10)
b[0x14] = 0x01 // requestreply
b[0x15] = 0x02 // requesttype = token
be.PutUint16(b[0x16:], innerSeq)
le.PutUint16(b[0x1a:], tokReq)
le.PutUint32(b[0x1c:], token)
return b
}
// buildConnInfo — 144-byte sendRequestStream on the CONTROL stream. Tells the
// rig to route the CI-V/audio streams to the authenticated session and which
// local ports we use. Values verified byte-for-byte vs a real Remote-Utility
// capture (civ4): requesttype=0x03, commoncap=0x8010, the rig's MAC echoed,
// name "IC-7610", scrambled username, rxenable=0 (audio off — CI-V only),
// rxcodec 0x10 / txcodec 0x04, rxsample 16000 / txsample 8000 (BE), civport /
// audioport (BE), txbuffer 100.
func buildConnInfo(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user string, rigMAC []byte, civPort, audioPort uint16) []byte {
b := make([]byte, 0x90)
le.PutUint32(b[0:], 0x90)
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
be.PutUint32(b[0x10:], 0x90-0x10)
b[0x14] = 0x01 // requestreply
b[0x15] = 0x03 // requesttype = conninfo / open streams
be.PutUint16(b[0x16:], innerSeq)
le.PutUint16(b[0x1a:], tokReq)
le.PutUint32(b[0x1c:], token)
le.PutUint16(b[0x27:], 0x8010) // commoncap
copy(b[0x2a:0x30], rigMAC) // macaddress (the rig's, echoed back)
copy(b[0x40:0x60], []byte("IC-7610"))
copy(b[0x60:0x70], passcode(user))
b[0x70] = 0x00 // rxenable (0 = audio off)
b[0x71] = 0x00 // txenable
b[0x72] = 0x10 // rxcodec
b[0x73] = 0x04 // txcodec
be.PutUint32(b[0x74:], 16000) // rxsample
be.PutUint32(b[0x78:], 8000) // txsample
be.PutUint32(b[0x7c:], uint32(civPort))
be.PutUint32(b[0x80:], uint32(audioPort))
be.PutUint32(b[0x84:], 100) // txbuffer
b[0x88] = 0x00 // convert
return b
}
// buildOpenClose — 22-byte start/stop for the CI-V stream. magic 0x04=open,
// 0x00=close. data=0x01c0 (@0x10), civSeq (BE @0x13), magic (@0x15).
func buildOpenClose(seq uint16, sentid, rcvdid uint32, civSeq uint16, magic byte) []byte {
b := make([]byte, 0x16)
le.PutUint32(b[0:], 0x16)
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
le.PutUint16(b[0x10:], 0x01c0)
be.PutUint16(b[0x13:], civSeq)
b[0x15] = magic
return b
}
// buildCivData — wraps raw CI-V bytes: 21-byte header (reply 0xc1 @0x10,
// datalen LE @0x11, civSeq BE @0x13) + CI-V frame @0x15.
func buildCivData(seq uint16, sentid, rcvdid uint32, civSeq uint16, civ []byte) []byte {
n := 0x15 + len(civ)
b := make([]byte, n)
le.PutUint32(b[0:], uint32(n))
le.PutUint16(b[6:], seq)
le.PutUint32(b[8:], sentid)
le.PutUint32(b[12:], rcvdid)
b[0x10] = 0xc1
le.PutUint16(b[0x11:], uint16(len(civ)))
be.PutUint16(b[0x13:], civSeq)
copy(b[0x15:], civ)
return b
}
func header(b []byte) (length uint32, typ, seq uint16, sentid, rcvdid uint32, ok bool) {
if len(b) < 16 {
return 0, 0, 0, 0, 0, false
}
length = binary.LittleEndian.Uint32(b[0:])
typ = binary.LittleEndian.Uint16(b[4:])
seq = binary.LittleEndian.Uint16(b[6:])
sentid = binary.LittleEndian.Uint32(b[8:])
rcvdid = binary.LittleEndian.Uint32(b[12:])
return length, typ, seq, sentid, rcvdid, true
return le.Uint32(b[0:]), le.Uint16(b[4:]), le.Uint16(b[6:]), le.Uint32(b[8:]), le.Uint32(b[12:]), true
}
func localID(conn net.Conn) uint32 {
a := conn.LocalAddr().(*net.UDPAddr)
return uint32(a.IP.To4()[0])<<24 | uint32(a.IP.To4()[1])<<16 | uint32(uint16(a.Port))
}
func recv(conn net.Conn, ms int, buf []byte) ([]byte, bool) {
_ = conn.SetReadDeadline(time.Now().Add(time.Duration(ms) * time.Millisecond))
n, err := conn.Read(buf)
if err != nil {
return nil, false
}
return append([]byte(nil), buf[:n]...), true
}
func dump(tag string, p []byte) { fmt.Printf("%s (%d)\n%s\n", tag, len(p), hex.Dump(p)) }
// pingReply mirrors a ping, swaps ids, sets the reply flag at offset 16.
func pingReply(pkt []byte, myID, remoteID uint32) []byte {
r := append([]byte(nil), pkt...)
if len(r) >= 17 {
le.PutUint32(r[8:], myID)
le.PutUint32(r[12:], remoteID)
r[16] = 0x01
}
return r
}
// handshake: areYouThere(seq0) → iAmHere → areYouReady(seq1) → iAmReady.
// Returns the rig's remote id. Replies to any pings meanwhile.
func handshake(conn net.Conn, myID uint32, label string) (uint32, bool) {
buf := make([]byte, 2048)
conn.Write(ctrlPacket(0x03, 0, myID, 0)) // areYouThere
fmt.Printf("[%s] TX areYouThere\n", label)
var remoteID uint32
deadline := time.Now().Add(4 * time.Second)
lastTry := time.Now()
for time.Now().Before(deadline) {
p, ok := recv(conn, 200, buf)
if !ok {
if remoteID == 0 && time.Since(lastTry) > 500*time.Millisecond {
conn.Write(ctrlPacket(0x03, 0, myID, 0))
lastTry = time.Now()
}
continue
}
_, typ, _, sentid, _, ok := header(p)
if !ok {
continue
}
switch typ {
case 0x04: // iAmHere
remoteID = sentid
fmt.Printf("[%s] iAmHere remoteID=0x%08X → TX areYouReady\n", label, remoteID)
conn.Write(ctrlPacket(0x06, 1, myID, remoteID))
case 0x06: // iAmReady
if remoteID != 0 {
fmt.Printf("[%s] iAmReady — link up ✓\n", label)
return remoteID, true
}
case 0x07: // ping
conn.Write(pingReply(p, myID, remoteID))
}
}
return remoteID, false
}
func main() {
if len(os.Args) < 2 {
fmt.Println("usage: icomnettest <rig-ip> [user] [password]")
fmt.Println(" <rig-ip> only → handshake + ping probe")
fmt.Println(" <rig-ip> <user> <pass> → also attempt login")
fmt.Println("example: icomnettest 192.168.1.60 f6bgc cgb6f1")
if len(os.Args) < 4 {
fmt.Println("usage: icomnettest <rig-ip> <user> <pass> [compname]")
os.Exit(2)
}
ip := os.Args[1]
port := 50001
runSecs := 25
user, pass := "", ""
if len(os.Args) >= 4 {
user, pass = os.Args[2], os.Args[3]
ip, user, pass := os.Args[1], os.Args[2], os.Args[3]
compName := "OpsLog"
if len(os.Args) >= 5 {
compName = os.Args[4]
}
target := net.JoinHostPort(ip, strconv.Itoa(port))
conn, err := net.Dial("udp4", target)
// ===================== CONTROL STREAM (50001) =====================
ctrl, err := net.Dial("udp4", net.JoinHostPort(ip, "50001"))
if err != nil {
fmt.Printf("dial %s: %v\n", target, err)
fmt.Printf("dial control: %v\n", err)
os.Exit(1)
}
defer conn.Close()
defer ctrl.Close()
cID := localID(ctrl)
fmt.Printf("=== CONTROL 50001 (myID=0x%08X) ===\n", cID)
fmt.Printf("scrambled user=% X pass=% X\n\n", passcode(user), passcode(pass))
// Our local station ID. Real clients derive it from the local IP:port; a
// stable non-zero value is fine for probing. We'll refine once we see how the
// rig echoes it back.
local := conn.LocalAddr().(*net.UDPAddr)
myID := uint32(local.IP.To4()[0])<<24 | uint32(local.IP.To4()[1])<<16 | uint32(uint16(local.Port))
var remoteID uint32
var seq uint16
logTx := func(name string, p []byte) {
fmt.Printf("TX %-14s (%d bytes)\n%s\n", name, len(p), hex.Dump(p))
if _, err := conn.Write(p); err != nil {
fmt.Printf(" write error: %v\n", err)
}
cRemote, ok := handshake(ctrl, cID, "ctrl")
if !ok {
fmt.Println("control handshake failed")
return
}
fmt.Printf("Probing Icom control stream at %s (myID=0x%08X)\n\n", target, myID)
if user != "" {
fmt.Printf("Login mode: user=%q pass=%q\n", user, pass)
fmt.Printf(" scrambled user = % X\n", passcode(user))
fmt.Printf(" scrambled pass = % X\n\n", passcode(pass))
}
var innerSeq uint16 = 0x0001
var tokRequest uint16 = 0x1234 // fixed for reproducibility (no RNG in this probe)
loginSent := false
// login → token
var cTracked uint16 = 1
var cInner uint16 = 1
tokReq := uint16(0x0c77)
dump("[ctrl] TX login", buildLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
ctrl.Write(buildLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
cTracked++
cInner++
// 1) areYouThere — ask the rig to announce itself.
seq++
logTx("areYouThere", ctrlPacket(typeAreYouThere, seq, myID, 0))
// Read loop: dump everything, and advance the handshake when we recognise a
// reply. Runs for runSecs then disconnects.
deadline := time.Now().Add(time.Duration(runSecs) * time.Second)
var token uint32
buf := make([]byte, 2048)
lastIdle := time.Now()
readyStarted := false
for time.Now().Before(deadline) {
_ = conn.SetReadDeadline(time.Now().Add(200 * time.Millisecond))
n, err := conn.Read(buf)
if err != nil {
if ne, ok := err.(net.Error); ok && ne.Timeout() {
// Periodic idle keepalive once connected.
if remoteID != 0 && time.Since(lastIdle) > 100*time.Millisecond {
seq++
logTx("idle", ctrlPacket(typeIdle, seq, myID, remoteID))
lastIdle = time.Now()
}
continue
}
fmt.Printf("read error: %v\n", err)
break
}
pkt := append([]byte(nil), buf[:n]...)
length, typ, rseq, sentid, rcvdid, ok := parseHeader(pkt)
deadline := time.Now().Add(4 * time.Second)
for token == 0 && time.Now().Before(deadline) {
p, ok := recv(ctrl, 200, buf)
if !ok {
fmt.Printf("RX (%d bytes, too short to parse)\n%s\n", n, hex.Dump(pkt))
continue
}
fmt.Printf("RX len=%d type=0x%02X seq=%d sentid=0x%08X rcvdid=0x%08X (%d bytes)\n%s\n",
length, typ, rseq, sentid, rcvdid, n, hex.Dump(pkt))
length, typ, _, _, _, _ := header(p)
if typ == 0x00 && length == 0x60 && len(p) >= 0x34 { // login response
token = le.Uint32(p[0x1c:])
errCode := le.Uint32(p[0x30:])
if errCode != 0 || token == 0 {
fmt.Printf(">> LOGIN REJECTED err=0x%08X token=0x%08X\n", errCode, token)
return
}
fmt.Printf(">> LOGIN OK ✓ token=0x%08X\n", token)
ctrl.Write(buildToken(cTracked, cInner, tokReq, cID, cRemote, token))
cTracked++
cInner++
} else if typ == 0x07 {
ctrl.Write(pingReply(p, cID, cRemote))
}
}
if token == 0 {
fmt.Println("no token — login not accepted")
return
}
switch typ {
case typeIAmHere:
remoteID = sentid // the rig's ID — echo it back as rcvdid from now on
fmt.Printf(">> iAmHere: remoteID=0x%08X — sending areYouReady\n\n", remoteID)
seq++
logTx("areYouReady", ctrlPacket(typeAreYouReady, seq, myID, remoteID))
readyStarted = true
case typeAreYouReady:
if readyStarted && !loginSent {
fmt.Printf(">> iAmReady — control link is up.\n\n")
if user != "" {
seq++
lg := buildLogin(seq, myID, remoteID, innerSeq, tokRequest, user, pass, "OpsLog")
fmt.Printf(">> sending login (user=%q)\n", user)
logTx("login", lg)
loginSent = true
}
// Send conninfo on the control stream — routes the CI-V stream to this
// authenticated session and announces our civ/audio local ports (50002/3).
rigMAC := []byte{0x00, 0x90, 0xc7, 0x09, 0xba, 0x3f} // F6BGC's IC-7610 (from the caps packet)
dump("[ctrl] TX conninfo", buildConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003))
ctrl.Write(buildConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003))
cTracked++
cInner++
// Let the rig's caps/conninfo replies flow for ~600ms (reply to pings).
drainEnd := time.Now().Add(600 * time.Millisecond)
for time.Now().Before(drainEnd) {
if p, ok := recv(ctrl, 100, buf); ok {
if _, typ, _, _, _, _ := header(p); typ == 0x07 {
ctrl.Write(pingReply(p, cID, cRemote))
}
case typePing:
// Reply to the rig's ping: mirror the packet, swap sender/receiver IDs,
// set the reply flag at offset 16. Keeps the link healthy so we can
// observe the connection long enough to work on login.
reply := append([]byte(nil), pkt...)
if len(reply) >= 17 {
binary.LittleEndian.PutUint32(reply[8:], myID)
binary.LittleEndian.PutUint32(reply[12:], remoteID)
reply[16] = 0x01 // request → reply
logTx("pingReply", reply)
}
case typeDisconnect:
fmt.Printf(">> rig sent disconnect\n\n")
}
}
// Clean disconnect.
if remoteID != 0 {
seq++
logTx("disconnect", ctrlPacket(typeDisconnect, seq, myID, remoteID))
// ===================== CI-V STREAM (50002) =====================
// Bind our civ socket to LOCAL port 50002 (= the civport announced above),
// as the Remote Utility does. Requires the Remote Utility to be CLOSED.
civ, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50002}, &net.UDPAddr{IP: net.ParseIP(ip), Port: 50002})
if err != nil {
fmt.Printf("dial civ (local :50002 — is the Remote Utility still running?): %v\n", err)
return
}
fmt.Println("Done. Paste the log — especially the rig's replies to areYouThere.")
defer civ.Close()
vID := localID(civ)
fmt.Printf("\n=== CI-V 50002 (myID=0x%08X) ===\n", vID)
vRemote, ok := handshake(civ, vID, "civ")
if !ok {
fmt.Println("CI-V handshake failed (may need the conninfo packet on control first)")
return
}
var vTracked uint16 = 1 // outer tracked seq @0x06
var vCivSeq uint16 = 1 // inner CI-V seq @0x13 (BE)
// openClose(open) starts CI-V data flow.
dump("[civ] TX openClose(open)", buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x04))
civ.Write(buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x04))
vTracked++
vCivSeq++
// Try several read commands, spaced out. Some rigs NG the basic 0x03 read
// over the network tunnel; 0x25 / 0x04 and unsolicited transceive frames
// (sent when you turn the VFO) still work. The tunnel itself is proven, so
// this figures out which read the rig actually answers.
sendCiv := func(name string, f []byte) {
fmt.Printf("[civ] TX %s\n", name)
civ.Write(buildCivData(vTracked, vID, vRemote, vCivSeq, f))
vTracked++
vCivSeq++
}
// The rig is in STANDBY (network up, radio off) — it NG's every command
// until powered on via CI-V. Send power-on (0x18 0x01, with an FE wake
// preamble, as the Remote Utility does), then poll read-freq while it boots.
powerOn := make([]byte, 0, 32)
for i := 0; i < 25; i++ {
powerOn = append(powerOn, 0xFE)
}
powerOn = append(powerOn, 0xFE, 0xFE, 0x98, 0xE0, 0x18, 0x01, 0xFD)
time.Sleep(300 * time.Millisecond)
sendCiv("POWER ON (0x18 01)", powerOn)
fmt.Print("\n>>> rig booting (~10-15 s) — polling read-freq until it answers <<<\n\n")
readFreq := []byte{0xFE, 0xFE, 0x98, 0xE0, 0x03, 0xFD}
cbuf := make([]byte, 4096)
vbuf := make([]byte, 4096)
end := time.Now().Add(30 * time.Second)
lastIdleC, lastIdleV, lastCmd := time.Now(), time.Now(), time.Now()
for time.Now().Before(end) {
if p, ok := recv(ctrl, 40, cbuf); ok {
if _, typ, _, _, _, _ := header(p); typ == 0x07 {
ctrl.Write(pingReply(p, cID, cRemote))
}
} else if time.Since(lastIdleC) > 200*time.Millisecond {
ctrl.Write(ctrlPacket(0x00, 0, cID, cRemote))
lastIdleC = time.Now()
}
if p, ok := recv(civ, 40, vbuf); ok {
_, typ, _, _, _, _ := header(p)
if typ == 0x07 {
civ.Write(pingReply(p, vID, vRemote))
} else if typ == 0x00 && len(p) > 0x15 && p[0x10] == 0xc1 {
f := p[0x15:]
if d := decodeCiv(f); d != "" {
fmt.Printf(">> CI-V RX: % X %s\n", f, d)
}
}
} else if time.Since(lastIdleV) > 200*time.Millisecond {
civ.Write(ctrlPacket(0x00, 0, vID, vRemote))
lastIdleV = time.Now()
}
if time.Since(lastCmd) > 1000*time.Millisecond {
sendCiv("read-freq 0x03", readFreq)
lastCmd = time.Now()
}
}
// Clean close.
civ.Write(buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x00)) // openClose(close)
civ.Write(ctrlPacket(0x05, 0, vID, vRemote)) // disconnect
ctrl.Write(ctrlPacket(0x05, 0, cID, cRemote))
fmt.Println("\nDone. Look for '>> CI-V RX:' and 'FREQUENCY reply'.")
}
// decodeCiv describes a received CI-V frame (FE FE <to> <from> <cmd> … FD).
// Only frames FROM the rig (from=0x98) are interesting; our own echoed commands
// (from=0xE0) return "" so they're not printed.
func decodeCiv(f []byte) string {
if len(f) < 6 || f[0] != 0xFE || f[1] != 0xFE {
return ""
}
if f[3] != 0x98 { // not from the rig (our echoed command) — skip
return ""
}
cmd := f[4]
body := f[5 : len(f)-1] // between cmd and the trailing FD
switch cmd {
case 0xFA:
return "NG (command rejected)"
case 0xFB:
return "OK (ack)"
case 0x00, 0x03, 0x05: // (transceive) freq / read-freq
if len(body) >= 5 {
return "FREQ " + decodeFreq(body[:5])
}
case 0x25: // read/set VFO freq (body = subcmd + 5 BCD)
if len(body) >= 6 {
return fmt.Sprintf("VFO%d FREQ %s", body[0], decodeFreq(body[1:6]))
}
case 0x01, 0x04: // (transceive) mode / read-mode
if len(body) >= 1 {
return fmt.Sprintf("MODE 0x%02X filt 0x%02X", body[0], lastOr(body, 1))
}
}
return fmt.Sprintf("cmd 0x%02X", cmd)
}
func lastOr(b []byte, i int) byte {
if i < len(b) {
return b[i]
}
return 0
}
// decodeFreq turns Icom little-endian BCD (5 bytes) into a MHz string.
func decodeFreq(bcd []byte) string {
var hz uint64
mul := uint64(1)
for _, b := range bcd {
hz += uint64(b&0x0f) * mul
mul *= 10
hz += uint64(b>>4) * mul
mul *= 10
}
return fmt.Sprintf("%.6f MHz", float64(hz)/1e6)
}
+2 -1
View File
@@ -17,6 +17,7 @@
*/
$DB_HOST = '10.10.10.15'; // your MySQL host (same as OpsLog's logbook)
$DB_PORT = 3306; // MySQL port — change if your server listens elsewhere
$DB_NAME = 'opslog'; // database name
$DB_USER = 'opslog';
$DB_PASS = 'CHANGE_ME';
@@ -27,7 +28,7 @@ $STALE_SECONDS = 120; // an operator is "active" if seen within this wi
// instead of a fatal "table doesn't exist".
mysqli_report(MYSQLI_REPORT_OFF);
$mysqli = @new mysqli($DB_HOST, $DB_USER, $DB_PASS, $DB_NAME);
$mysqli = @new mysqli($DB_HOST, $DB_USER, $DB_PASS, $DB_NAME, $DB_PORT);
if ($mysqli->connect_errno) {
http_response_code(500);
exit('DB error');
+116 -16
View File
@@ -1,6 +1,6 @@
import { useCallback, useEffect, useMemo, useRef, useState } from 'react';
import {
AlertCircle, Antenna, CheckCircle2, Clock, Compass, Database, Ear, Eraser, Hash, Loader2, Lock,
AlertCircle, Antenna, Bell, CheckCircle2, Clock, Compass, Database, Ear, Eraser, Hash, Loader2, Lock,
Maximize2, Minimize2, Mic, MessageSquare, Pencil, RadioTower, RefreshCw, Satellite, Send, Settings, SlidersHorizontal, Square, Trash2, Unlock, X, Zap,
} from 'lucide-react';
@@ -366,6 +366,11 @@ export default function App() {
// CAT — receives live rig state via Wails events.
const [catState, setCatState] = useState<CATState>({ enabled: false, connected: false } as any);
// Configured CAT backend ('icom' USB vs 'icom-net'): the live catState.backend
// is "icom" for BOTH, so we track the settings value to tell them apart (used to
// hide the rig ON/OFF buttons on USB, where the interface is unpowered when the
// rig is off so power-ON can't work).
const [catBackend, setCatBackend] = useState('');
const [rotatorHeading, setRotatorHeading] = useState<{ enabled: boolean; ok: boolean; azimuth: number }>({ enabled: false, ok: false, azimuth: 0 });
const [ubStatus, setUbStatus] = useState<{ enabled: boolean; connected: boolean; direction: number; moving: boolean }>({ enabled: false, connected: false, direction: 0, moving: false });
const [agStatus, setAgStatus] = useState<AGStatus>({ connected: false, port_a: 0, port_b: 0, antennas: [] });
@@ -793,6 +798,22 @@ export default function App() {
const [alertsOpen, setAlertsOpen] = useState(false); // Alert management modal
// Persistent spot-alert tray: keep the last few fired alerts visible (they used
// to vanish with the 3 s toast, lost if you were on another window). Each stays
// ~10 min and is clickable to tune the rig to its freq/mode.
type RecentAlert = { id: number; rule: string; call: string; band: string; mode: string; freq_hz: number; country: string; comment: string; at: number };
const [recentAlerts, setRecentAlerts] = useState<RecentAlert[]>([]);
const [alertsPanelOpen, setAlertsPanelOpen] = useState(false); // LED dropdown
const ALERT_TTL_MS = 10 * 60 * 1000;
useEffect(() => {
const id = window.setInterval(() => {
setRecentAlerts((prev) => { const cut = Date.now() - ALERT_TTL_MS; const n = prev.filter((a) => a.at >= cut); return n.length === prev.length ? prev : n; });
}, 20000);
return () => window.clearInterval(id);
}, []);
// Close the (now-hidden) dropdown when the last alert clears/expires.
useEffect(() => { if (recentAlerts.length === 0) setAlertsPanelOpen(false); }, [recentAlerts.length]);
// NET Control tab — enabled from Tools (persisted; once on it's a tab like Cluster).
const [netEnabled, setNetEnabled] = useState(() => localStorage.getItem('opslog.netEnabled') === '1');
useEffect(() => { localStorage.setItem('opslog.netEnabled', netEnabled ? '1' : '0'); }, [netEnabled]);
@@ -889,12 +910,12 @@ export default function App() {
// map ("map1"), the locator street map ("map2"), the cluster grid or the
// worked-before grid. Per-profile (stored via SetUIPref → profile-prefixed),
// so it's loaded async on mount and re-read on profile:changed below.
type MainPaneKind = 'map1' | 'map2' | 'cluster' | 'worked' | 'flex' | 'recent';
type MainPaneKind = 'map1' | 'map2' | 'cluster' | 'worked' | 'flex' | 'recent' | 'icom' | 'netcontrol';
const [mapZoomSignal, setMapZoomSignal] = useState(0); // bump → world map auto-zooms now
const [mainPaneLeft, setMainPaneLeft] = useState<MainPaneKind>('map1');
const [mainPaneRight, setMainPaneRight] = useState<MainPaneKind>('map2');
const loadMainPanes = useCallback(async () => {
const valid = (v: string): v is MainPaneKind => v === 'map1' || v === 'map2' || v === 'cluster' || v === 'worked' || v === 'flex' || v === 'recent';
const valid = (v: string): v is MainPaneKind => v === 'map1' || v === 'map2' || v === 'cluster' || v === 'worked' || v === 'flex' || v === 'recent' || v === 'icom' || v === 'netcontrol';
const [l, r] = await Promise.all([
GetUIPref('mainPaneLeft').catch(() => ''),
GetUIPref('mainPaneRight').catch(() => ''),
@@ -994,11 +1015,15 @@ export default function App() {
// list once, then compute each shown QSO's reference per award and attach it
// to the rows (the grids render one hideable column per award).
const [awardCols, setAwardCols] = useState<{ code: string; name: string }[]>([]);
// Bumped whenever award definitions are saved so the grid columns AND the
// per-QSO refs re-fetch — the ref/name display choice is computed live, so
// changing it updates ALL contacts (old included) with no restart.
const [awardsVersion, setAwardsVersion] = useState(0);
useEffect(() => {
GetAwardDefs().then((defs: any[]) =>
setAwardCols(((defs ?? []) as any[]).map((d) => ({ code: d.code, name: d.name })).sort((a, b) => a.code.localeCompare(b.code))),
).catch(() => {});
}, []);
}, [awardsVersion]);
const [qsoAwardRefs, setQsoAwardRefs] = useState<Record<string, Record<string, string>>>({});
useEffect(() => {
const ids = (qsos as any[]).map((q) => q.id).filter(Boolean);
@@ -1006,7 +1031,7 @@ export default function App() {
let alive = true;
AwardRefsForQSOs(ids as any).then((m: any) => { if (alive) setQsoAwardRefs(m ?? {}); }).catch(() => {});
return () => { alive = false; };
}, [qsos, awardCols.length]);
}, [qsos, awardCols.length, awardsVersion]);
const qsosWithAwards = useMemo(
() => (qsos as any[]).map((q) => ({ ...q, award_refs: qsoAwardRefs[String(q.id)] })),
[qsos, qsoAwardRefs],
@@ -1018,7 +1043,7 @@ export default function App() {
let alive = true;
AwardRefsForQSOs(ids as any).then((m: any) => { if (alive) setWbAwardRefs(m ?? {}); }).catch(() => {});
return () => { alive = false; };
}, [wb, awardCols.length]);
}, [wb, awardCols.length, awardsVersion]);
const wbWithAwards = useMemo(
() => (wb ? { ...wb, entries: ((wb.entries ?? []) as any[]).map((e) => ({ ...e, award_refs: wbAwardRefs[String(e.id)] })) } : null),
[wb, wbAwardRefs],
@@ -1197,9 +1222,17 @@ export default function App() {
if (p?.visual) {
const call = String(p?.call ?? ''); const band = String(p?.band ?? ''); const rule = String(p?.rule ?? 'alert');
showToast(`🔔 ${rule}: ${call}${band ? ` on ${band}` : ''}${p?.country ? `${p.country}` : ''}`);
// Also keep it in the persistent tray (clickable, ~10 min).
const a: RecentAlert = {
id: Date.now() + Math.random(), rule, call, band,
mode: String(p?.mode ?? ''), freq_hz: Number(p?.freq_hz ?? 0),
country: String(p?.country ?? ''), comment: String(p?.comment ?? ''), at: Date.now(),
};
setRecentAlerts((prev) => [a, ...prev.filter((x) => !(x.call === a.call && x.band === a.band))].slice(0, 3));
}
});
return () => { off(); };
// eslint-disable-next-line react-hooks/exhaustive-deps
}, [showToast]);
// Poll PstRotator for the live antenna heading (status bar). Cheap when the
@@ -1324,6 +1357,7 @@ export default function App() {
try {
const c = await GetCATSettings();
if (c.digital_default) digitalDefaultRef.current = c.digital_default;
setCatBackend(c.backend ?? '');
} catch {}
}, []);
const loadLists = useCallback(async () => {
@@ -2697,6 +2731,49 @@ export default function App() {
<Input value={grid} placeholder="JN05" className="font-mono" onChange={(e) => { setGrid(e.target.value); markEdited('grid'); }} />
</div>
);
// A discreet spot-alert LED (bell) that fills the gap at the right of the Grid
// row instead of the intrusive floating cards. It lights + shows a count when
// alerts are pending; click it to see the last 3 (each clickable to tune).
const hasAlerts = recentAlerts.length > 0;
// Only show the bell when there are pending alerts — hidden otherwise.
const alertLedBlock = !hasAlerts ? null : (
<div className="relative self-end mb-0.5 shrink-0">
<button type="button" onClick={() => setAlertsPanelOpen((o) => !o)}
title={hasAlerts ? t('alert.pending', { n: recentAlerts.length }) : t('alert.noneShort')}
className={cn('relative inline-flex size-8 items-center justify-center rounded-full border transition-colors',
hasAlerts ? 'border-warning bg-warning/15 text-warning' : 'border-border bg-card text-muted-foreground hover:bg-muted')}>
<Bell className="size-4" />
{hasAlerts && <span className="absolute -right-1 -top-1 inline-flex size-2.5 rounded-full bg-warning animate-ping" />}
{hasAlerts && <span className="absolute -right-1 -top-1 inline-flex size-2.5 rounded-full bg-warning" />}
</button>
{alertsPanelOpen && (
<>
<div className="fixed inset-0 z-40" onClick={() => setAlertsPanelOpen(false)} />
<div className="absolute right-0 top-9 z-50 w-72 rounded-lg border border-border bg-card shadow-xl overflow-hidden">
<div className="flex items-center justify-between px-3 py-1.5 border-b border-border/60 bg-muted/30">
<span className="text-[11px] font-bold uppercase tracking-wider text-muted-foreground">{t('alert.recent')}</span>
{hasAlerts && <button type="button" className="text-[11px] text-muted-foreground hover:text-foreground" onClick={() => setRecentAlerts([])}>{t('alert.clear')}</button>}
</div>
{!hasAlerts ? (
<div className="px-3 py-4 text-center text-xs text-muted-foreground">{t('alert.noneShort')}</div>
) : recentAlerts.map((a) => (
<button key={a.id} type="button" title={t('alert.tuneHint')}
onClick={() => { handleSpotClick({ comment: a.comment, freq_hz: a.freq_hz, band: a.band, dx_call: a.call }); setAlertsPanelOpen(false); }}
className="block w-full text-left px-3 py-2 border-b border-border/30 last:border-0 hover:bg-warning/10 transition-colors">
<div className="flex items-center gap-1.5">
<span className="font-bold text-sm truncate">{a.call}</span>
{a.freq_hz > 0 && <span className="ml-auto shrink-0 text-[11px] font-mono tabular-nums text-warning">{(a.freq_hz / 1e6).toFixed(3)}</span>}
</div>
<div className="text-[11px] text-muted-foreground truncate">
{a.rule}{a.band ? ` · ${a.band}` : ''}{a.mode ? ` · ${a.mode}` : ''}{a.country ? ` · ${a.country}` : ''}
</div>
</button>
))}
</div>
</>
)}
</div>
);
// Compact-strip Country (stacked label) + a narrow Comment.
const countryBlockSm = (
<div className="flex flex-col w-36">
@@ -3080,6 +3157,18 @@ export default function App() {
onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
</div>
);
case 'icom':
return (
<div className="h-full w-full min-h-0 rounded-lg overflow-hidden border border-border">
<IcomPanel isNetwork={catBackend === 'icom-net'} onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
</div>
);
case 'netcontrol':
return (
<div className="h-full w-full min-h-0 flex flex-col rounded-lg overflow-hidden border border-border">
<NetControlPanel onLogged={refresh} countries={countries} bands={bands} modes={modes} />
</div>
);
case 'recent':
return (
<div className="h-full w-full min-h-0 flex flex-col bg-card border border-border rounded-lg overflow-hidden">
@@ -3136,8 +3225,10 @@ export default function App() {
<header className="grid grid-cols-[auto_auto_1fr_auto_auto] items-center gap-4 px-4 h-12 bg-card/95 backdrop-blur border-b border-border shrink-0 shadow-sm">
<div className="flex items-center gap-2 pr-2 border-r border-border/60">
<div className="size-2.5 rounded-full bg-gradient-to-br from-primary to-orange-400 shadow-[0_0_0_3px_rgba(234,88,12,0.18)]" />
<span className="font-bold text-[15px] tracking-tight">OpsLog</span>
<span className="text-[11px] text-muted-foreground cursor-pointer hover:text-foreground" onClick={() => setShowAbout(true)} title="About OpsLog">v{APP_VERSION}</span>
<div className="flex items-baseline gap-1.5">
<span className="font-bold text-[15px] tracking-tight leading-none">OpsLog</span>
<span className="text-[11px] text-muted-foreground leading-none cursor-pointer hover:text-foreground" onClick={() => setShowAbout(true)} title="About OpsLog">v{APP_VERSION}</span>
</div>
</div>
<Menubar menus={menus} onAction={handleMenu} />
@@ -3567,13 +3658,15 @@ export default function App() {
</div>
{/* Row 2: Name fixed to the Band/Mode/Country column width (300px) so
its right edge lines up with that column below; QTH grows to fill. */}
<div className="flex gap-2 items-end">
its right edge lines up with that column below; QTH grows to fill.
gap-4 matches Row 3 so QTH's left edge aligns with Comment/Note. */}
<div className="flex gap-4 items-end">
<div className="flex flex-col w-[300px] shrink-0"><Label className="mb-1 h-3.5">Name</Label>
<Input value={name} onChange={(e) => { setName(e.target.value); markEdited('name'); }} />
</div>
{qthBlock}
{gridBlock}
{alertLedBlock}
</div>
{/* Row 3: tight left detail column (Band/Mode/Country) and
@@ -3667,6 +3760,7 @@ export default function App() {
status={agStatus}
onActivate={agActivate}
onClose={() => { setShowAntGenius(false); writeUiPref('opslog.showAntGenius', '0'); }}
band={band}
/>
</div>
)}
@@ -4136,7 +4230,7 @@ export default function App() {
</TabsContent>
<TabsContent value="awards" className="flex-1 min-h-0 p-0">
<AwardsPanel onEditQSO={openEdit} />
<AwardsPanel onEditQSO={openEdit} onAwardsChanged={() => setAwardsVersion((v) => v + 1)} />
</TabsContent>
{contestTabEnabled && (
@@ -4158,7 +4252,7 @@ export default function App() {
is an Icom. */}
{catState.backend === 'icom' && (
<TabsContent value="icom" className="flex-1 min-h-0 p-0">
<IcomPanel onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
<IcomPanel isNetwork={catBackend === 'icom-net'} onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
</TabsContent>
)}
@@ -4310,11 +4404,16 @@ export default function App() {
onClose={() => setShowSpotModal(false)}
// Callsign: the QSO-entry call, else the last logged QSO.
defaultCall={callsign.trim() || qsos[0]?.callsign || ''}
// Freq: the entry TX freq (kHz), else the last logged QSO's.
// Freq (0.1 kHz): the LIVE CAT frequency in Hz when connected — NOT the
// freqMhz display string, which the manual-edit freeze / field locks can
// leave stale (that dropped the sub-kHz: on 14134.5 the frozen "14.134"
// string spotted 14134). Fall back to the entry field, then the last QSO.
defaultFreqKHz={
parseFloat(freqMhz) > 0
? Math.round(parseFloat(freqMhz) * 1000 * 10) / 10
: (qsos[0]?.freq_hz ? Math.round((qsos[0].freq_hz / 1000) * 10) / 10 : 0)
catState.connected && (catState.freq_hz ?? 0) > 0
? Math.round(((catState.freq_hz ?? 0) / 1000) * 10) / 10
: parseFloat(freqMhz) > 0
? Math.round(parseFloat(freqMhz) * 1000 * 10) / 10
: (qsos[0]?.freq_hz ? Math.round((qsos[0].freq_hz / 1000) * 10) / 10 : 0)
}
defaultMode={mode || qsos[0]?.mode || ''}
targetName={
@@ -4344,6 +4443,7 @@ export default function App() {
onSaved={() => { loadStation(); loadLists(); loadCATCfg(); reloadWk(); }}
onMainPaneChanged={(side, v) => { if (side === 'left') setMainPaneLeft(v as MainPaneKind); else setMainPaneRight(v as MainPaneKind); }}
flexAvailable={catState.backend === 'flex'}
icomAvailable={catState.backend === 'icom'}
/>
)}
+40 -4
View File
@@ -1,14 +1,30 @@
import { Antenna, X } from 'lucide-react';
import { useState } from 'react';
import { Antenna, X, ListFilter } from 'lucide-react';
import { cn } from '@/lib/utils';
import { useI18n } from '@/lib/i18n';
export type AGAntenna = { index: number; name: string };
export type AGAntenna = { index: number; name: string; bands?: number };
export type AGStatus = {
connected: boolean; host?: string; last_error?: string;
port_a: number; port_b: number; tx_a?: boolean; tx_b?: boolean;
antennas: AGAntenna[];
};
// AG_BAND_BITS maps a band name to its bit in the 4O3A Antenna Genius band
// bitmask (standard HF+6m order, bit 0 = 160m). Used to show only the antennas
// configured for the current band, like the native app. If the mapping ever
// proves off on real hardware, the debug log (antgenius: antenna raw …) shows the
// device's actual mask so it can be corrected.
const AG_BAND_BITS: Record<string, number> = {
'160m': 1 << 0, '80m': 1 << 1, '60m': 0, '40m': 1 << 2, '30m': 1 << 3,
'20m': 1 << 4, '17m': 1 << 5, '15m': 1 << 6, '12m': 1 << 7, '10m': 1 << 8, '6m': 1 << 9,
};
function bandBit(band?: string): number {
if (!band) return 0;
return AG_BAND_BITS[band.trim().toLowerCase()] ?? 0;
}
// Format an antenna name: first letter uppercase, the rest lowercase
// (e.g. "DX COMMANDER" → "Dx commander").
function pretty(name: string): string {
@@ -22,13 +38,28 @@ function pretty(name: string): string {
// a port-A button (left) and port-B button (right). Colours: green = selected on
// port A, blue = selected on port B, red (pulsing) = that port is transmitting.
// Clicking an already-selected port deselects it (port → None).
export function AntGeniusPanel({ status, onActivate, onClose }: {
export function AntGeniusPanel({ status, onActivate, onClose, band }: {
status: AGStatus;
onActivate: (port: number, antenna: number) => void; // antenna 0 = deselect
onClose: () => void;
band?: string; // current operating band (e.g. "20m") for the band filter
}) {
const { t } = useI18n();
const list = status.antennas ?? [];
const allAntennas = status.antennas ?? [];
// Band filter (persisted, default ON): show only antennas whose band mask
// includes the current band — matching the native 4O3A app. Antennas with an
// unknown mask (0) always show, and if the filter would hide EVERYTHING (e.g. a
// band we can't map, or masks the device didn't send) we fall back to the full
// list so the panel is never mysteriously empty.
const [bandFilter, setBandFilter] = useState(() => localStorage.getItem('opslog.agBandFilter') !== '0');
const toggleBandFilter = () => setBandFilter((v) => { const n = !v; localStorage.setItem('opslog.agBandFilter', n ? '1' : '0'); return n; });
const bit = bandBit(band);
let list = allAntennas;
if (bandFilter && bit !== 0) {
const filtered = allAntennas.filter((a) => !a.bands || (a.bands & bit) !== 0);
if (filtered.length > 0) list = filtered;
}
const PortBtn = ({ port, index, active, tx }: { port: 1 | 2; index: number; active: boolean; tx: boolean }) => {
const letter = port === 1 ? 'A' : 'B';
@@ -57,6 +88,11 @@ export function AntGeniusPanel({ status, onActivate, onClose }: {
<Antenna className={cn('size-4', status.connected ? 'text-success drop-shadow-[0_0_3px_rgba(16,185,129,0.55)]' : 'text-muted-foreground')} />
<span className="text-xs font-bold uppercase tracking-[0.18em] text-foreground/80">Antenna Genius</span>
<span className="flex-1" />
<button type="button" onClick={toggleBandFilter}
title={bandFilter ? t('agp.filterOnHint', { band: band || '' }) : t('agp.filterOffHint')}
className={cn('transition-colors', bandFilter ? 'text-primary' : 'text-muted-foreground/50 hover:text-muted-foreground')}>
<ListFilter className="size-3.5" />
</button>
<span className="inline-flex items-center gap-1.5 text-[10px] font-mono uppercase tracking-wider">
<span className={cn('size-1.5 rounded-full', status.connected ? 'bg-success shadow-[0_0_6px_rgba(16,185,129,0.8)] animate-pulse' : 'bg-danger')} />
<span className={status.connected ? 'text-success' : 'text-danger'}>{status.connected ? t('agp.online') : t('agp.offline')}</span>
+11
View File
@@ -30,6 +30,7 @@ type RefMeta = { code: string; count: number; updated_at: string; can_update: bo
export type AwardDef = {
code: string; name: string; description?: string; valid?: boolean; protected?: boolean;
url?: string; download_url?: string; ref_url?: string; valid_from?: string; valid_to?: string; alias?: string;
ref_display?: string; // grid column shows: ref | name | both
type?: string; field: string; match_by?: string; exact_match?: boolean; pattern: string;
leading_str?: string; trailing_str?: string; multi?: boolean; dynamic?: boolean; add_prefixes?: string[];
or_rules?: AwardOrRule[];
@@ -301,6 +302,16 @@ export function AwardEditor({ open, onClose, onSaved }: Props) {
<Field2 label={t('awed.description')}><Input className="h-8" value={cur.description ?? ''} onChange={(e) => patch({ description: e.target.value })} /></Field2>
<Field2 label={t('awed.awardUrl')}><Input className="h-8" value={cur.url ?? ''} onChange={(e) => patch({ url: e.target.value })} /></Field2>
<Field2 label={t('awed.referenceUrl')}><Input className="h-8" value={cur.ref_url ?? ''} onChange={(e) => patch({ ref_url: e.target.value })} placeholder="https://…/<REF>" /></Field2>
<Field2 label={t('awed.refDisplay')}>
<Select value={cur.ref_display || 'ref'} onValueChange={(v) => patch({ ref_display: v })}>
<SelectTrigger className="h-8 text-xs w-48"><SelectValue /></SelectTrigger>
<SelectContent>
<SelectItem value="ref">{t('awed.refDisplayRef')}</SelectItem>
<SelectItem value="name">{t('awed.refDisplayName')}</SelectItem>
<SelectItem value="both">{t('awed.refDisplayBoth')}</SelectItem>
</SelectContent>
</Select>
</Field2>
<div className="grid grid-cols-2 gap-3">
<Field2 label={t('awed.validFrom')}><Input type="date" className="h-8" value={cur.valid_from ?? ''} onChange={(e) => patch({ valid_from: e.target.value })} /></Field2>
<Field2 label={t('awed.validTo')}><Input type="date" className="h-8" value={cur.valid_to ?? ''} onChange={(e) => patch({ valid_to: e.target.value })} /></Field2>
+2 -2
View File
@@ -61,7 +61,7 @@ function ProgressBar({ worked, confirmed, total }: { worked: number; confirmed:
type AwardListItem = { code: string; name: string; valid?: boolean; bands?: string[]; emission?: string[] };
export function AwardsPanel({ onEditQSO }: { onEditQSO?: (id: number) => void } = {}) {
export function AwardsPanel({ onEditQSO, onAwardsChanged }: { onEditQSO?: (id: number) => void; onAwardsChanged?: () => void } = {}) {
const { t } = useI18n();
const [awardList, setAwardList] = useState<AwardListItem[]>([]);
// Computed results are cached per award code — each award is scanned only the
@@ -220,7 +220,7 @@ export function AwardsPanel({ onEditQSO }: { onEditQSO?: (id: number) => void }
{t('awp.rescan')}
</Button>
</div>
<AwardEditor open={editing} onClose={() => setEditing(false)} onSaved={() => { setByCode({}); loadList(); }} />
<AwardEditor open={editing} onClose={() => setEditing(false)} onSaved={() => { setByCode({}); loadList(); onAwardsChanged?.(); }} />
{/* Quick selector — scales when there are many awards. */}
{awardList.length > 0 && (
<div className="px-2 py-2 border-b border-border/40">
+28 -4
View File
@@ -49,6 +49,24 @@ const FIELDS: FieldDef[] = [
{ id: 'my_wwff_ref', label: 'bulk.fMyWwff', group: 'My station', kind: 'text', upper: true },
{ id: 'my_sig', label: 'bulk.fMySig', group: 'My station', kind: 'text' },
{ id: 'my_sig_info', label: 'bulk.fMySigInfo', group: 'My station', kind: 'text' },
// Contest
{ id: 'contest_id', label: 'bulk.fContestId', group: 'Contest', kind: 'text', upper: true },
{ id: 'srx_string', label: 'bulk.fSrxString', group: 'Contest', kind: 'text' },
{ id: 'stx_string', label: 'bulk.fStxString', group: 'Contest', kind: 'text' },
{ id: 'arrl_sect', label: 'bulk.fArrlSect', group: 'Contest', kind: 'text', upper: true },
{ id: 'precedence', label: 'bulk.fPrecedence', group: 'Contest', kind: 'text', upper: true },
{ id: 'class', label: 'bulk.fClass', group: 'Contest', kind: 'text', upper: true },
// Propagation / satellite
{ id: 'prop_mode', label: 'bulk.fPropMode', group: 'Propagation', kind: 'text', upper: true },
{ id: 'sat_name', label: 'bulk.fSatName', group: 'Propagation', kind: 'text', upper: true },
{ id: 'sat_mode', label: 'bulk.fSatMode', group: 'Propagation', kind: 'text', upper: true },
// Contacted station (activation refs / SIG)
{ id: 'pota_ref', label: 'bulk.fPotaRef', group: 'Contacted station', kind: 'text', upper: true },
{ id: 'sota_ref', label: 'bulk.fSotaRef', group: 'Contacted station', kind: 'text', upper: true },
{ id: 'wwff_ref', label: 'bulk.fWwffRef', group: 'Contacted station', kind: 'text', upper: true },
{ id: 'iota', label: 'bulk.fIota', group: 'Contacted station', kind: 'text', upper: true },
{ id: 'sig', label: 'bulk.fSig', group: 'Contacted station', kind: 'text' },
{ id: 'sig_info', label: 'bulk.fSigInfo', group: 'Contacted station', kind: 'text' },
// Misc
{ id: 'comment', label: 'bulk.fComment', group: 'Misc', kind: 'text' },
{ id: 'notes', label: 'bulk.fNotes', group: 'Misc', kind: 'text' },
@@ -65,11 +83,14 @@ const STATUS_VALUES: { v: string; label: string }[] = [
{ v: '_', label: 'bulk.statusBlank' },
];
const GROUPS = ['QSL / upload', 'My station', 'Misc'];
const GROUPS = ['QSL / upload', 'My station', 'Contacted station', 'Contest', 'Propagation', 'Misc'];
// Maps the internal group key → its i18n label key.
const GROUP_LABELS: Record<string, string> = {
'QSL / upload': 'bulk.groupQsl',
'My station': 'bulk.groupMyStation',
'Contacted station': 'bulk.groupContacted',
'Contest': 'bulk.groupContest',
'Propagation': 'bulk.groupPropagation',
'Misc': 'bulk.groupMisc',
};
@@ -130,9 +151,12 @@ export function BulkEditModal({ open, ids, onClose, onApplied }: Props) {
{GROUPS.map((g) => (
<div key={g}>
<div className="px-2 py-1 text-[10px] uppercase tracking-wider text-muted-foreground">{t(GROUP_LABELS[g])}</div>
{FIELDS.filter((f) => f.group === g).map((f) => (
<SelectItem key={f.id} value={f.id}>{t(f.label)}</SelectItem>
))}
{FIELDS.filter((f) => f.group === g)
.map((f) => ({ f, txt: t(f.label) }))
.sort((a, b) => a.txt.localeCompare(b.txt))
.map(({ f, txt }) => (
<SelectItem key={f.id} value={f.id}>{txt}</SelectItem>
))}
</div>
))}
</SelectContent>
+10 -5
View File
@@ -124,11 +124,16 @@ const makeColCatalog = (t: TFn): ColEntry[] => [
headerName: t('clg2.c.call'), field: 'dx_call' as any, width: 120,
defaultVisible: true,
cellClass: 'font-mono',
// New DXCC entity → fill the whole cell (no padded pill, so calls stay
// aligned with non-new rows). Text colour also flags worked-call vs new-call.
cellStyle: (p: any): any => (statusFor(p)?.status === 'new'
? { backgroundColor: '#ffe4e6', color: '#be123c', fontWeight: 700 }
: { color: statusFor(p)?.worked_call ? '#0369a1' : '#b8410c', fontWeight: 700 }),
// Only STATUS calls get a colour: new DXCC entity → filled cell (no padded
// pill, so calls stay aligned), worked-call → blue. A plain spot inherits the
// theme's normal text colour (var(--foreground)) so callsigns blend in with
// the rest of the row across every theme instead of always shouting orange.
cellStyle: (p: any): any => {
const s = statusFor(p);
if (s?.status === 'new') return { backgroundColor: '#ffe4e6', color: '#be123c', fontWeight: 700 };
if (s?.worked_call) return { color: '#0369a1', fontWeight: 700 };
return { fontWeight: 700 };
},
tooltipValueGetter: (p: any) => {
const s = statusFor(p);
return s?.status === 'new' ? t('clg2.tipNewDxcc', { country: s?.country ?? '' }) : s?.worked_call ? t('clg2.tipWorkedCall') : undefined;
+8 -2
View File
@@ -1,4 +1,4 @@
import { useEffect, useState } from 'react';
import { useEffect, useMemo, useState } from 'react';
import { Plus, Trash2, Save, FolderOpen, X } from 'lucide-react';
import { writeUiPref } from '@/lib/uiPref';
import { Dialog, DialogContent, DialogHeader, DialogTitle, DialogFooter } from '@/components/ui/dialog';
@@ -134,6 +134,12 @@ interface Props {
export function FilterBuilder({ open, initial, onApply, onClose }: Props) {
const { t } = useI18n();
// Field dropdown sorted alphabetically by translated label (the FIELDS array is
// grouped by category for maintenance; the operator wants it A→Z to find things).
const sortedFields = useMemo(
() => FIELDS.map((f) => ({ f, txt: t(f.label) })).sort((a, b) => a.txt.localeCompare(b.txt)),
[t],
);
const [conditions, setConditions] = useState<FilterCondition[]>([]);
const [match, setMatch] = useState<'AND' | 'OR'>('AND');
const [presets, setPresets] = useState<Record<string, QueryFilter>>({});
@@ -237,7 +243,7 @@ export function FilterBuilder({ open, initial, onApply, onClose }: Props) {
}}>
<SelectTrigger className="h-8 w-48 text-xs"><SelectValue /></SelectTrigger>
<SelectContent className="max-h-72">
{FIELDS.map((f) => <SelectItem key={f.value} value={f.value}>{t(f.label)}</SelectItem>)}
{sortedFields.map(({ f, txt }) => <SelectItem key={f.value} value={f.value}>{txt}</SelectItem>)}
</SelectContent>
</Select>
<Select value={c.op} onValueChange={(v) => setCond(i, { op: v as FilterOp })}>
+18 -2
View File
@@ -4,7 +4,7 @@ import { Button } from '@/components/ui/button';
import { Input } from '@/components/ui/input';
import { Label } from '@/components/ui/label';
import { cn } from '@/lib/utils';
import { useI18n } from '@/lib/i18n';
import { useI18n, FlagGB, FlagFR, type Lang } from '@/lib/i18n';
import { GetActiveProfile, SaveProfile, DownloadAllReferenceLists } from '../../wailsjs/go/main/App';
import type { profile as profileModels } from '../../wailsjs/go/models';
@@ -14,7 +14,7 @@ type Profile = Omit<profileModels.Profile, 'convertValues'>;
// (no callsign configured yet). It writes straight into the active profile, so
// OpsLog has a valid station before any QSO is logged. Not dismissable.
export function FirstRunModal({ onDone }: { onDone: () => void }) {
const { t } = useI18n();
const { t, lang, setLang } = useI18n();
const [p, setP] = useState<Profile | null>(null);
const [saving, setSaving] = useState(false);
const [err, setErr] = useState('');
@@ -68,6 +68,22 @@ export function FirstRunModal({ onDone }: { onDone: () => void }) {
return (
<div className="fixed inset-0 z-[200] flex items-center justify-center bg-black/40 backdrop-blur-sm">
<div className="w-full max-w-md rounded-xl border border-border bg-card shadow-2xl p-6 animate-in fade-in zoom-in-95">
{/* Language chooser — lives here (and not only in the localStorage-backed
first-launch flag gate) so a fresh setup always offers EN/FR, like the
station identity below. */}
<div className="flex justify-center mb-4">
<div className="inline-flex rounded-md border border-border overflow-hidden">
{([['en', FlagGB, 'English'], ['fr', FlagFR, 'Français']] as [Lang, typeof FlagGB, string][]).map(([code, Flag, label]) => (
<button key={code} type="button" onClick={() => setLang(code)}
className={cn('flex items-center gap-2 px-3 py-1.5 text-sm font-medium border-l border-border first:border-l-0 transition-colors',
lang === code ? 'bg-primary text-primary-foreground' : 'bg-card text-muted-foreground hover:bg-muted')}>
<Flag className="w-5 rounded-[2px] border border-border/30" />
{label}
</button>
))}
</div>
</div>
<div className="flex items-center gap-2 mb-1">
<Radio className="size-5 text-primary" />
<h2 className="text-lg font-semibold">{t('frm.welcome')}</h2>
+181 -70
View File
@@ -5,8 +5,9 @@ import {
FlexSetProcessor, FlexSetProcessorLevel, FlexSetMon, FlexSetMonLevel, FlexSetMic,
FlexMox, FlexAmpOperate,
GetPGXLStatus, PGXLSetFanMode,
FlexSetAGCMode, FlexSetAGCThreshold, FlexSetAudioLevel, FlexSetMute, FlexSetRXAntenna, FlexSetTXAntenna, FlexSetSplit,
FlexSetAGCMode, FlexSetAGCThreshold, FlexSetAudioLevel, FlexSetMute, FlexSetRXAntenna, FlexSetTXAntenna, FlexSetSplit, FlexSetActiveSlice, FlexSetTXSlice,
FlexSetNB, FlexSetNBLevel, FlexSetNR, FlexSetNRLevel, FlexSetANF, FlexSetANFLevel,
FlexSetWNB, FlexSetWNBLevel, FlexSetTXFilter, FlexSetMicProfile,
FlexSetAPF, FlexSetAPFLevel, FlexSetCWSpeed, FlexSetCWPitch, FlexSetCWBreakInDelay,
FlexSetCWSidetone, FlexSetSidetoneLevel, FlexSetCWFilter, FlexSetFilter,
} from '../../wailsjs/go/main/App';
@@ -25,13 +26,17 @@ type FlexState = {
rx_ant?: string; tx_ant?: string; ant_list?: string[]; tx_ant_list?: string[];
split: boolean; rx_freq_hz?: number; tx_freq_hz?: number;
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean; anf_level: number;
wnb: boolean; wnb_level: number;
tx_filter_low: number; tx_filter_high: number; mic_profile?: string; mic_profiles?: string[];
mode?: string;
cw_speed: number; cw_pitch: number; cw_break_in_delay: number; cw_sidetone: boolean; cw_mon_level: number;
apf: boolean; apf_level: number; filter_lo: number; filter_hi: number;
amp_available: boolean; amp_model?: string; amp_operate: boolean; amp_fault?: string;
meters?: Meter[];
slices?: FlexSlice[];
};
type FlexSlice = { index: number; letter: string; freq_hz: number; mode?: string; band?: string; active: boolean; tx: boolean };
type Meter = { id: number; src?: string; name?: string; unit?: string; value: number; lo: number; hi: number };
const ZERO: FlexState = {
@@ -40,6 +45,7 @@ const ZERO: FlexState = {
mon: false, mon_level: 0, mic_level: 0, atu_memories: false,
rx_avail: false, agc_threshold: 0, audio_level: 0, mute: false, split: false,
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false, anf_level: 0,
wnb: false, wnb_level: 0, tx_filter_low: 0, tx_filter_high: 0,
cw_speed: 25, cw_pitch: 600, cw_break_in_delay: 30, cw_sidetone: true, cw_mon_level: 0,
apf: false, apf_level: 0, filter_lo: 0, filter_hi: 0,
amp_available: false, amp_operate: false,
@@ -141,27 +147,28 @@ function LevelRow({ label, on, onToggle, value, onLevel, disabled, accent, slide
// `display` overrides the numeric readout; `segColor` colours segments by their
// 0..1 position (zones); the top ~18% light red by default (overload/peak).
const METER_SEGMENTS = 26;
function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, display, segColor, onClick, title }: {
function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, display, segColor, onClick, title, compact }: {
label: string; value: number; unit?: string; lo: number; hi: number; accent?: string; extra?: string; display?: string;
segColor?: (frac: number) => string; onClick?: () => void; title?: string;
segColor?: (frac: number) => string; onClick?: () => void; title?: string; compact?: boolean;
}) {
const span = hi - lo;
const pct = span > 0 ? Math.max(0, Math.min(100, ((value - lo) / span) * 100)) : 0;
const lit = Math.round((pct / 100) * METER_SEGMENTS);
return (
<div onClick={onClick} title={title}
className={cn('rounded-lg border border-border/70 px-2.5 py-2 bg-gradient-to-b from-card to-muted/40 shadow-sm min-w-0',
className={cn('rounded-lg border border-border/70 bg-gradient-to-b from-card to-muted/40 shadow-sm min-w-0',
compact ? 'px-2 py-1' : 'px-2.5 py-2',
onClick && 'cursor-pointer hover:border-primary/60 hover:from-muted/40')}>
<div className="flex items-baseline justify-between gap-1 mb-1.5">
<div className={cn('flex items-baseline justify-between gap-1', compact ? 'mb-1' : 'mb-1.5')}>
<span className="text-[10px] font-bold uppercase tracking-wider text-muted-foreground truncate">{label}</span>
<span className="text-sm font-mono font-bold tabular-nums whitespace-nowrap text-foreground/90">
<span className={cn('font-mono font-bold tabular-nums whitespace-nowrap text-foreground/90', compact ? 'text-xs' : 'text-sm')}>
{display !== undefined ? display : (
<>{Math.abs(value) >= 100 ? value.toFixed(0) : value.toFixed(1)}<span className="text-muted-foreground text-[10px] ml-0.5">{unit}</span></>
)}
</span>
</div>
{/* LED bar — recessed track + gradient segments for a cleaner instrument look. */}
<div className="flex gap-[2px] h-3 items-stretch rounded-[3px] bg-black/10 p-[2px]">
<div className={cn('flex gap-[2px] items-stretch rounded-[3px] bg-black/10 p-[2px]', compact ? 'h-2' : 'h-3')}>
{Array.from({ length: METER_SEGMENTS }).map((_, i) => {
const on = i < lit;
const frac = i / METER_SEGMENTS;
@@ -174,7 +181,7 @@ function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, displ
);
})}
</div>
{extra && <div className="text-[10px] text-muted-foreground/70 mt-1 text-right font-mono">{extra}</div>}
{extra && !compact && <div className="text-[10px] text-muted-foreground/70 mt-1 text-right font-mono">{extra}</div>}
</div>
);
}
@@ -260,6 +267,13 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
? SSB_BW.reduce((best, bw) => (Math.abs(bw - curBW) < Math.abs(best - curBW) ? bw : best), SSB_BW[0])
: -1;
// Compact header readouts for PA voltage + temperature (numbers, not bars) — the
// user wanted these in the header to save vertical space in the Meters card.
const hdrMeters = st.meters || [];
const hdrFind = (name: string) => hdrMeters.find((m) => (m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
const voltM = hdrFind('13.8') || hdrFind('VOLT');
const patempM = hdrFind('PATEMP') || hdrFind('PA TEMP');
return (
<div className="h-full min-h-0 overflow-auto bg-background">
<div className="max-w-5xl mx-auto p-3 space-y-3">
@@ -272,6 +286,23 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
<span className="text-[11px] text-slate-400">{t('flxp.smartsdrRemote')}</span>
</div>
<div className="flex-1" />
{/* Compact PA voltage + temperature readouts (numbers) to save space. */}
{!off && (voltM || patempM) && (
<div className="flex items-center gap-4 mr-1 font-mono tabular-nums">
{voltM && (
<span className="flex flex-col items-end leading-none">
<span className="text-[9px] uppercase tracking-wider text-slate-400 font-sans">{t('flxp.voltage')}</span>
<span className="text-sm font-bold">{voltM.value.toFixed(1)}<span className="text-[9px] text-slate-400 ml-0.5">V</span></span>
</span>
)}
{patempM && (
<span className="flex flex-col items-end leading-none">
<span className="text-[9px] uppercase tracking-wider text-slate-400 font-sans">{t('flxp.paTemp')}</span>
<span className={cn('text-sm font-bold', patempM.value >= 70 ? 'text-red-400' : patempM.value >= 55 ? 'text-amber-400' : 'text-slate-100')}>{patempM.value.toFixed(0)}<span className="text-[9px] text-slate-400 ml-0.5">°C</span></span>
</span>
)}
</div>
)}
<span className={cn('inline-flex items-center gap-1.5 px-3 py-1.5 rounded-lg text-sm font-extrabold tracking-wider',
!st.available ? 'bg-muted text-muted-foreground'
: st.transmitting ? 'bg-danger text-danger-foreground shadow-[0_0_16px] shadow-danger/60' : 'bg-success text-success-foreground')}>
@@ -280,6 +311,91 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
</span>
</div>
{/* Slices A/B/C/D — every in-use receiver. Click one to make it the
ACTIVE slice: the main frequency, mode, DSP and spot-clicks all follow
it. The active slice is highlighted; the TX slice is flagged. */}
{!!st.slices && st.slices.length > 0 && (
<div className="flex flex-wrap items-center gap-2">
{st.slices.map((sl) => (
<button key={sl.index} type="button" disabled={off}
onClick={() => FlexSetActiveSlice(sl.index).catch(() => {})}
title={t('flxp.sliceHint')}
className={cn('flex items-center gap-2 rounded-lg border px-3 py-1.5 transition-colors disabled:opacity-40',
sl.active ? 'border-info bg-info/10 ring-1 ring-info' : 'border-border bg-card hover:bg-muted')}>
<span className={cn('inline-flex size-6 items-center justify-center rounded-md text-sm font-extrabold',
sl.active ? 'bg-info text-info-foreground' : 'bg-muted text-muted-foreground')}>{sl.letter}</span>
<span className="flex items-baseline gap-1.5">
<span className="font-mono font-bold tabular-nums text-sm leading-none">{(sl.freq_hz / 1e6).toFixed(3)}</span>
<span className="text-[11px] text-muted-foreground uppercase leading-none">{sl.mode}</span>
{sl.band ? <span className="text-[10px] text-muted-foreground leading-none">{sl.band}</span> : null}
</span>
{/* TX badge — click a non-TX slice's badge to move TX onto it
(e.g. transmit on the active slice). stopPropagation so it
doesn't also fire the outer "make active" click. */}
<span role="button" tabIndex={-1}
onClick={(e) => { e.stopPropagation(); if (!sl.tx && !off) FlexSetTXSlice(sl.index).catch(() => {}); }}
title={sl.tx ? t('flxp.txSlice') : t('flxp.setTxSlice')}
className={cn('rounded text-[10px] font-bold px-1',
sl.tx ? 'bg-danger text-danger-foreground' : 'border border-danger/50 text-danger cursor-pointer hover:bg-danger/10')}>
TX
</span>
</button>
))}
</div>
)}
{/* Live meters (UDP VITA-49 stream) — placed right under the slices. */}
<Card icon={Gauge} title={t('flxp.meters')}>
{(() => {
const meters = st.meters || [];
if (off || meters.length === 0) {
return <p className="text-[11px] text-muted-foreground text-center py-2">{t('flxp.noMeters')}</p>;
}
const isDbm = (m?: Meter) => !!m && /dbm/i.test(m.unit || '');
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
// Radio meters (exclude the amplifier's, which we show separately).
const radio = (name: string) => meters.find((m) =>
(m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
const sig = radio('LEVEL') || radio('SIGNAL');
const fwd = radio('FWDPWR');
const swr = radio('SWR');
// Mic input level + speech-compression (voltage & PA temp live in the
// header now). All already in the meter stream.
const mic = meters.find((m) => /MIC/i.test(m.name || '') && !(m.src || '').toUpperCase().includes('AMP'));
const comp = radio('COMPPEAK') || radio('COMP');
// S-meter: dBm → S-units (S9 = -73 dBm on HF, 6 dB per unit).
const sUnit = (dbm: number) => {
const sv = (dbm + 127) / 6; // S0 = -127 dBm
if (sv >= 9) {
const over = Math.max(0, Math.round(dbm + 73)); // dB over S9
return { display: over > 0 ? `S9+${over}` : 'S9', bar: sv, s: 9, over };
}
return { display: `S${Math.max(0, Math.round(sv))}`, bar: Math.max(0, sv), s: Math.max(0, sv), over: 0 };
};
const cur = [
sig && (() => { const dbm = peakHold('s', sig.value); const s = sUnit(dbm); return (
<MeterBar key="s" label="S-METER" value={s.bar} lo={0} hi={19} accent="#16a34a" display={s.display} extra={`${dbm.toFixed(1)} dBm`}
title={onReportRST ? t('rst.clickToFill') : undefined}
onClick={onReportRST ? () => onReportRST(sMeterRST(s.s, s.over, st.mode)) : undefined}
segColor={(fr) => { const sval = fr * 19; return sval < 9 ? '#16a34a' : sval < 12.33 ? '#f59e0b' : '#dc2626'; }} />
); })(),
fwd && (() => { const w = peakHold('p', isDbm(fwd) ? dbmToW(fwd.value) : fwd.value); return (
<MeterBar key="p" label="PWR" unit="W" lo={0} hi={120} accent="#dc2626"
value={w} extra={isDbm(fwd) ? `${fwd.value.toFixed(1)} dBm` : undefined} />
); })(),
swr && <MeterBar key="w" label="SWR" value={peakHold('w', swr.value)} unit="" lo={1} hi={3} accent="#d97706" />,
// Mic input level: fixed -40..+10 dB scale, RED from 0 dB up (overdrive).
mic && <MeterBar key="mic" label="MIC" value={peakHold('mic', mic.value)} unit={mic.unit || 'dB'} lo={-40} hi={10} accent="#16a34a"
segColor={(fr) => (fr >= 0.8 ? '#dc2626' : fr >= 0.7 ? '#f59e0b' : '#16a34a')} />,
// Speech compression (dB of gain reduction).
comp && <MeterBar key="comp" label="COMP" value={peakHold('comp', comp.value)} unit={comp.unit || 'dB'} lo={0} hi={(comp.hi && comp.hi > 0) ? comp.hi : 25} accent="#0891b2" />,
].filter(Boolean);
return (
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">{cur}</div>
);
})()}
</Card>
{off && (
<div className="text-center text-sm text-muted-foreground py-6">
{t('flxp.waiting')}
@@ -356,6 +472,39 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
<Slider value={st.mic_level} disabled={off} accent="#2563eb" onChange={(v) => change('mic_level', v, () => FlexSetMic(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_level}</span>
</div>
{/* TX audio bandwidth — low/high cut (Hz). Typed locally, committed on
blur/Enter so we don't spam a command per keystroke; the hold guard
keeps the poll from clobbering the field mid-edit. */}
<div className="flex items-center gap-2">
<span className="w-14 shrink-0 text-[11px] font-bold text-muted-foreground">{t('flxp.txFilter')}</span>
{(() => {
const editTX = (patch: Partial<FlexState>) => { hold.current['tx_filter_low'] = Date.now() + 8000; hold.current['tx_filter_high'] = Date.now() + 8000; setSt((p) => ({ ...p, ...patch })); };
const commitTX = () => { hold.current['tx_filter_low'] = Date.now() + 900; hold.current['tx_filter_high'] = Date.now() + 900; FlexSetTXFilter(st.tx_filter_low || 0, st.tx_filter_high || 0).catch(() => {}); };
const inp = 'w-[70px] h-8 rounded-md border border-input bg-background px-2 text-xs font-mono tabular-nums disabled:opacity-40';
return (<>
<input type="number" step={50} min={0} disabled={off} value={st.tx_filter_low || 0} className={inp}
onChange={(e) => editTX({ tx_filter_low: parseInt(e.target.value, 10) || 0 })}
onBlur={commitTX} onKeyDown={(e) => { if (e.key === 'Enter') { (e.target as HTMLInputElement).blur(); } }} />
<span className="text-muted-foreground text-xs"></span>
<input type="number" step={50} min={0} disabled={off} value={st.tx_filter_high || 0} className={inp}
onChange={(e) => editTX({ tx_filter_high: parseInt(e.target.value, 10) || 0 })}
onBlur={commitTX} onKeyDown={(e) => { if (e.key === 'Enter') { (e.target as HTMLInputElement).blur(); } }} />
<span className="text-[10px] text-muted-foreground/70 font-mono">Hz</span>
</>);
})()}
</div>
{/* Mic profile — SmartSDR named mic-EQ/processor presets. */}
{!!st.mic_profiles && st.mic_profiles.length > 0 && (
<div className="flex items-center gap-2">
<span className="w-14 shrink-0 text-[11px] font-bold text-muted-foreground">{t('flxp.micProfile')}</span>
<select disabled={off} value={st.mic_profile || ''}
onChange={(e) => { const v = e.target.value; hold.current['mic_profile'] = Date.now() + 2000; setSt((p) => ({ ...p, mic_profile: v })); FlexSetMicProfile(v).catch(() => {}); }}
className="flex-1 min-w-0 h-8 rounded-md border border-input bg-background px-2 text-xs">
{!st.mic_profiles.includes(st.mic_profile || '') && <option value=""></option>}
{st.mic_profiles.map((p) => <option key={p} value={p}>{p}</option>)}
</select>
</div>
)}
</div>
) : (
/* CW keyer controls (replace VOX/PROC/MIC when the slice is in CW). */
@@ -429,6 +578,10 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
<LevelRow label="NB" on={st.nb} disabled={rxOff} value={st.nb_level} accent="amber" sliderAccent="#d97706"
onToggle={() => change('nb', !st.nb, () => FlexSetNB(!st.nb))}
onLevel={(v) => change('nb_level', v, () => FlexSetNBLevel(v))} />
{/* WNB — wideband noise blanker (the extra hardware NR the Flex has). */}
<LevelRow label="WNB" on={st.wnb} disabled={rxOff} value={st.wnb_level} accent="amber" sliderAccent="#f59e0b"
onToggle={() => change('wnb', !st.wnb, () => FlexSetWNB(!st.wnb))}
onLevel={(v) => change('wnb_level', v, () => FlexSetWNBLevel(v))} />
<LevelRow label="NR" on={st.nr} disabled={rxOff} value={st.nr_level} accent="cyan" sliderAccent="#0891b2"
onToggle={() => change('nr', !st.nr, () => FlexSetNR(!st.nr))}
onLevel={(v) => change('nr_level', v, () => FlexSetNRLevel(v))} />
@@ -525,71 +678,29 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
<span className="px-2 py-1 rounded bg-danger-muted text-danger-muted-foreground text-xs font-bold">{t('flxp.fault')}: {st.amp_fault}</span>
)}
</div>
{/* Amplifier meters (FWD / ID / TEMP) — moved here from the Meters card
and shown compact so they sit with the amp controls. */}
{(() => {
const meters = st.meters || [];
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
const amp = meters.filter((m) => (m.src || '').toUpperCase().includes('AMP')
&& !/^(RL|DRV)$/i.test((m.name || '').trim()));
if (off || amp.length === 0) return null;
return (
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2 mt-2 pt-2 border-t border-border/50">
{amp.map((m) => {
if (/fwd|pwr/i.test(m.name || '') && /dbm/i.test(m.unit || '')) {
return <MeterBar key={m.id} compact label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, dbmToW(m.value))} unit="W" lo={0} hi={2000} accent="#dc2626" />;
}
const acc = /temp|degc|degf/i.test(`${m.unit}${m.name}`) ? '#ea580c' : /volt/i.test(m.unit || '') ? '#2563eb' : '#16a34a';
return <MeterBar key={m.id} compact label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, m.value)} unit={m.unit} lo={m.lo} hi={m.hi} accent={acc} />;
})}
</div>
);
})()}
</Card>
)}
{/* Live meters (UDP VITA-49 stream) */}
<Card icon={Gauge} title={t('flxp.meters')}>
{(() => {
const meters = st.meters || [];
if (off || meters.length === 0) {
return <p className="text-[11px] text-muted-foreground text-center py-2">{t('flxp.noMeters')}</p>;
}
const isDbm = (m?: Meter) => !!m && /dbm/i.test(m.unit || '');
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
// Radio meters (exclude the amplifier's, which we show separately).
const radio = (name: string) => meters.find((m) =>
(m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
const sig = radio('LEVEL') || radio('SIGNAL');
const fwd = radio('FWDPWR');
const swr = radio('SWR');
const amp = meters.filter((m) => (m.src || '').toUpperCase().includes('AMP')
&& !/^(RL|DRV)$/i.test((m.name || '').trim()));
const accentFor = (m: Meter) => /swr/i.test(`${m.unit}${m.name}`) ? '#dc2626'
: /temp|degc|degf/i.test(`${m.unit}${m.name}`) ? '#ea580c'
: /volt/i.test(m.unit || '') ? '#2563eb' : '#16a34a';
// S-meter: dBm → S-units (S9 = -73 dBm on HF, 6 dB per unit).
const sUnit = (dbm: number) => {
const sv = (dbm + 127) / 6; // S0 = -127 dBm
if (sv >= 9) {
const over = Math.max(0, Math.round(dbm + 73)); // dB over S9
return { display: over > 0 ? `S9+${over}` : 'S9', bar: sv, s: 9, over };
}
return { display: `S${Math.max(0, Math.round(sv))}`, bar: Math.max(0, sv), s: Math.max(0, sv), over: 0 };
};
const cur = [
sig && (() => { const dbm = peakHold('s', sig.value); const s = sUnit(dbm); return (
<MeterBar key="s" label="S-METER" value={s.bar} lo={0} hi={19} accent="#16a34a" display={s.display} extra={`${dbm.toFixed(1)} dBm`}
title={onReportRST ? t('rst.clickToFill') : undefined}
onClick={onReportRST ? () => onReportRST(sMeterRST(s.s, s.over, st.mode)) : undefined}
segColor={(fr) => { const sval = fr * 19; return sval < 9 ? '#16a34a' : sval < 12.33 ? '#f59e0b' : '#dc2626'; }} />
); })(),
fwd && (() => { const w = peakHold('p', isDbm(fwd) ? dbmToW(fwd.value) : fwd.value); return (
<MeterBar key="p" label="PWR" unit="W" lo={0} hi={120} accent="#dc2626"
value={w} extra={isDbm(fwd) ? `${fwd.value.toFixed(1)} dBm` : undefined} />
); })(),
swr && <MeterBar key="w" label="SWR" value={peakHold('w', swr.value)} unit="" lo={1} hi={3} accent="#d97706" />,
].filter(Boolean);
return (
<>
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">{cur}</div>
{amp.length > 0 && (
<div className="border-t border-border/60 pt-2 mt-1">
<div className="text-[10px] font-bold tracking-wider text-muted-foreground mb-1.5">{t('flxp.amplifierHdr')}</div>
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">
{amp.map((m) => {
if (/fwd|pwr/i.test(m.name || '') && isDbm(m)) {
return <MeterBar key={m.id} label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, dbmToW(m.value))} unit="W" lo={0} hi={2000} accent="#dc2626" extra={`${m.value.toFixed(1)} dBm`} />;
}
return <MeterBar key={m.id} label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, m.value)} unit={m.unit} lo={m.lo} hi={m.hi} accent={accentFor(m)} />;
})}
</div>
</div>
)}
</>
);
})()}
</Card>
</div>
</div>
);
+278 -60
View File
@@ -1,12 +1,15 @@
import { useEffect, useRef, useState } from 'react';
import { Radio, AudioLines, RefreshCw, Mic, Activity, SlidersHorizontal } from 'lucide-react';
import { Radio, AudioLines, Mic, Activity, SlidersHorizontal, Antenna, Filter, Power } from 'lucide-react';
import {
GetIcomState, IcomRefresh,
IcomSetAFGain, IcomSetRFGain, IcomSetNB, IcomSetNBLevel, IcomSetNR, IcomSetNRLevel,
IcomSetANF, IcomSetAGC, IcomSetPreamp, IcomSetAtt, IcomSetFilter,
IcomSetANF, IcomSetAPF, IcomSetAGC, IcomSetPreamp, IcomSetAtt, IcomSetFilter,
IcomSetRFPower, IcomSetMicGain, IcomSetSplit, IcomTune, IcomSetPTT,
IcomSetScope, IcomScopeData, IcomSetScopeMode, GetCATState, SetCATFrequency,
IcomSetScope, IcomScopeData, IcomSetScopeMode, IcomSetScopeEdges, GetCATState, SetCATFrequency, SetCATMode,
IcomSetRIT, IcomSetRITOn, IcomSetXITOn,
IcomSetAntenna, IcomSetPBTInner, IcomSetPBTOuter, IcomSetManualNotch, IcomSetNotchPos,
IcomSetSquelch, IcomSetComp, IcomSetCompLevel, IcomSetMonitor, IcomSetMonLevel,
IcomSetVOX, IcomSetVOXGain, IcomSetAntiVOX, IcomSetPower,
} from '../../wailsjs/go/main/App';
import { cn } from '@/lib/utils';
import { useI18n } from '@/lib/i18n';
@@ -18,20 +21,75 @@ type IcomState = {
s_meter: number; power_meter: number; swr_meter: number;
rf_power: number; mic_gain: number;
af_gain: number; rf_gain: number;
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean;
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean; apf: boolean;
agc?: string; preamp: number; att: number; filter: number;
rit_hz: number; rit_on: boolean; xit_on: boolean;
antenna: number;
pbt_inner: number; pbt_outer: number; manual_notch: boolean; notch_pos: number;
squelch: number; comp: boolean; comp_level: number;
monitor: boolean; mon_level: number;
vox: boolean; vox_gain: number; anti_vox: number;
};
const ZERO: IcomState = {
available: false, transmitting: false, split: false,
s_meter: 0, power_meter: 0, swr_meter: 0, rf_power: 0, mic_gain: 0,
af_gain: 0, rf_gain: 0,
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false,
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false, apf: false,
preamp: 0, att: 0, filter: 1,
rit_hz: 0, rit_on: false, xit_on: false,
antenna: 1,
pbt_inner: 50, pbt_outer: 50, manual_notch: false, notch_pos: 50,
squelch: 0, comp: false, comp_level: 0,
monitor: false, mon_level: 0,
vox: false, vox_gain: 0, anti_vox: 0,
};
// Band buttons jump the VFO to a sensible default frequency (SSB/CW mix) using
// the plain SetFrequency command — no band-stacking codes needed. Hz values.
const BANDS: { l: string; hz: number }[] = [
{ l: '160', hz: 1_840_000 }, { l: '80', hz: 3_750_000 }, { l: '40', hz: 7_100_000 },
{ l: '30', hz: 10_130_000 }, { l: '20', hz: 14_150_000 }, { l: '17', hz: 18_130_000 },
{ l: '15', hz: 21_250_000 }, { l: '12', hz: 24_950_000 }, { l: '10', hz: 28_400_000 },
{ l: '6', hz: 50_150_000 },
];
// Mode buttons for the console (like RS-BA1's row). SetCATMode picks USB/LSB for
// SSB by frequency and the rig's data variant for digital modes.
const MODES = ['SSB', 'CW', 'RTTY', 'PSK', 'AM', 'FM'];
// Attenuator steps are MODEL-dependent even though the CI-V command (0x11) is the
// same: the value byte is the dB. The IC-7610 (and 7700/7800/7851) have a 6/12/18
// dB stepped attenuator; the IC-7300/705/7100 have a single 20 dB attenuator; the
// IC-9700 a single 10 dB. Offering the wrong steps = a dead button (the rig NAKs
// e.g. 6 dB on a 7300). Default to the common single 20 dB for unknown models.
function attOptions(model?: string): { v: string; l: string }[] {
const m = (model ?? '').toUpperCase();
const OFF = { v: '0', l: 'OFF' };
if (/(7610|7700|7800|7850|7851)/.test(m)) {
return [OFF, { v: '6', l: '6dB' }, { v: '12', l: '12dB' }, { v: '18', l: '18dB' }];
}
if (m.includes('9700')) return [OFF, { v: '10', l: '10dB' }];
return [OFF, { v: '20', l: '20dB' }]; // IC-7300 / IC-705 / IC-7100 / default
}
// fmtVFO renders a Hz frequency the way an Icom front panel does:
// MHz "." 3-digit-kHz "." 2-digit-(10 Hz). 21032000 → "21.032.00".
function fmtVFO(hz?: number): string {
if (!hz || hz <= 0) return '––.–––.––';
const mhz = Math.floor(hz / 1_000_000);
const khz = Math.floor((hz % 1_000_000) / 1000);
const h2 = Math.floor((hz % 1000) / 10);
return `${mhz}.${String(khz).padStart(3, '0')}.${String(h2).padStart(2, '0')}`;
}
// modeMatches marks a mode button active, folding the rig's USB/LSB into SSB.
function modeMatches(btn: string, cur?: string): boolean {
if (!cur) return false;
if (btn === 'SSB') return cur === 'SSB' || cur === 'USB' || cur === 'LSB';
return btn === cur;
}
function Slider({ value, onChange, disabled, accent = '#2563eb', step = 1 }: {
value: number; onChange: (v: number) => void; disabled?: boolean; accent?: string; step?: number;
}) {
@@ -148,25 +206,6 @@ function Meter({ label, value, accent, scale, onClick, title }: { label: string;
return <div className="flex items-center gap-2">{body}</div>;
}
// HdrMeter — a compact live meter for the model header band (S when receiving,
// Po/SWR when transmitting). Clickable variant sends the S reading to RST tx.
function HdrMeter({ label, value, accent, scale, onClick, title }: {
label: string; value: number; accent: string; scale: string; onClick?: () => void; title?: string;
}) {
const v = Math.max(0, Math.min(100, value));
const body = (
<>
<span className="w-5 shrink-0 text-[10px] font-bold uppercase tracking-wider text-muted-foreground">{label}</span>
<div className="w-24 sm:w-32 h-2 rounded-full bg-muted/70 overflow-hidden">
<div className="h-full rounded-full transition-[width] duration-150" style={{ width: `${v}%`, background: accent }} />
</div>
<span className="w-12 text-right text-[11px] font-mono font-bold tabular-nums" style={{ color: accent }}>{scale}</span>
</>
);
if (onClick) return <button type="button" onClick={onClick} title={title} className="flex items-center gap-1.5 rounded-md hover:bg-muted/60 px-1.5 py-0.5 -my-0.5">{body}</button>;
return <div className="flex items-center gap-1.5 px-1.5">{body}</div>;
}
// ShiftRow — a RIT / ΔTX offset control: on/off chip + a wheel-adjustable signed
// offset (±10 Hz per notch or per ± button) + a clear (0) button.
function ShiftRow({ label, on, hz, accent, onToggle, onDelta, onClear }: {
@@ -244,12 +283,31 @@ function ScopePanadapter() {
const holdRef = useRef<number[]>([]); // per-bin peak-hold line
const spanRef = useRef({ low: 0, high: 0 }); // latest sweep edges, for click-to-tune
const vfoRef = useRef(0); // latest VFO frequency, for wheel-tune
const centerRef = useRef(0); // scope centre we last set (for pan ◀/▶)
const toggle = () => {
const next = !on;
setOn(next);
IcomSetScope(next).catch(() => {});
};
// Centre/pan the FIXED scope: set the edges to centre ±50 kHz (a 100 kHz
// window). "Centre" uses the live VFO; ◀/▶ shift the window by 50 kHz. This
// just writes the rig's fixed edges — simple and independent of the waveform
// decode.
const SCOPE_HALF = 50_000;
const applyEdges = (center: number) => {
if (center <= 0) return;
centerRef.current = center;
setFixed(true);
IcomSetScopeEdges(center - SCOPE_HALF, center + SCOPE_HALF).catch(() => {});
};
const centerOnVfo = async () => {
let c = vfoRef.current;
if (c <= 0) { try { const cs = await GetCATState(); c = cs?.freq_hz || 0; } catch {} }
applyEdges(c);
};
const pan = (dir: number) => applyEdges((centerRef.current || vfoRef.current) + dir * SCOPE_HALF);
const setMode = (nextFixed: boolean) => {
setFixed(nextFixed);
IcomSetScopeMode(nextFixed).catch(() => {});
@@ -370,19 +428,28 @@ function ScopePanadapter() {
ctx.strokeStyle = '#7dd3fc'; ctx.lineWidth = 1.5; ctx.lineJoin = 'round'; ctx.stroke();
ctx.restore();
// VFO marker: translucent band + crisp line + top marker triangle. In centre
// mode the span tracks the VFO, so fall back to the exact centre when the
// reported freq isn't inside the (just-updated) span — you always see where
// you are.
const inSpan = vfoHz > 0 && lowHz > 0 && highHz > lowHz && vfoHz >= lowHz && vfoHz <= highHz;
const markerX = inSpan ? ((vfoHz - lowHz) / (highHz - lowHz)) * w : (!fixedMode ? w / 2 : -1);
// VFO marker: you should ALWAYS see where you are. Exact position when the VFO
// is inside the span; the centre in CTR mode; clamped to the nearest edge with
// a sideways arrow in FIX mode when the fixed scope doesn't cover the VFO (so
// you can tell which way to tune to get it back on-screen).
const haveVfo = vfoHz > 0 && lowHz > 0 && highHz > lowHz;
const inSpan = haveVfo && vfoHz >= lowHz && vfoHz <= highHz;
let markerX = -1;
let offEdge = 0; // -1 = VFO off the left edge, +1 = off the right
if (inSpan) markerX = ((vfoHz - lowHz) / (highHz - lowHz)) * w;
else if (!fixedMode) markerX = w / 2;
else if (haveVfo) { offEdge = vfoHz < lowHz ? -1 : 1; markerX = offEdge < 0 ? 1 : w - 1; }
if (markerX >= 0) {
const x = markerX;
ctx.fillStyle = 'rgba(244,63,94,0.10)'; ctx.fillRect(x - 5, 0, 10, h);
ctx.strokeStyle = 'rgba(244,63,94,0.9)'; ctx.lineWidth = 1.25;
ctx.beginPath(); ctx.moveTo(x, 0); ctx.lineTo(x, h); ctx.stroke();
ctx.fillStyle = 'rgba(244,63,94,0.95)';
ctx.beginPath(); ctx.moveTo(x - 4, 0); ctx.lineTo(x + 4, 0); ctx.lineTo(x, 6); ctx.closePath(); ctx.fill();
if (offEdge === 0) {
ctx.beginPath(); ctx.moveTo(x - 4, 0); ctx.lineTo(x + 4, 0); ctx.lineTo(x, 6); ctx.closePath(); ctx.fill();
} else {
const yh = 8; ctx.beginPath(); ctx.moveTo(x, yh - 5); ctx.lineTo(x + offEdge * 7, yh); ctx.lineTo(x, yh + 5); ctx.closePath(); ctx.fill();
}
}
// Frequency scale. In fixed mode the rig reports usable edge frequencies, so
@@ -448,6 +515,16 @@ function ScopePanadapter() {
<Activity className="size-4" style={{ color: '#38bdf8' }} />
<span className="text-xs font-bold uppercase tracking-wider text-foreground/80">{t('icmp.spectrum')}</span>
<div className="ml-auto flex items-center gap-2 shrink-0">
{on && (
<div className="inline-flex rounded-md border border-border overflow-hidden">
<button type="button" onClick={() => pan(-1)} title={t('icmp.scopePanDown')}
className="px-2 py-1 text-xs font-bold bg-card text-muted-foreground hover:bg-muted border-r border-border"></button>
<button type="button" onClick={centerOnVfo} title={t('icmp.scopeCenterVfo')}
className="px-2 py-1 text-[11px] font-bold bg-card text-muted-foreground hover:bg-muted border-r border-border"></button>
<button type="button" onClick={() => pan(1)} title={t('icmp.scopePanUp')}
className="px-2 py-1 text-xs font-bold bg-card text-muted-foreground hover:bg-muted"></button>
</div>
)}
{on && (
<Segmented value={fixed ? 'FIX' : 'CTR'} options={[{ v: 'CTR', l: 'CTR' }, { v: 'FIX', l: 'FIX' }]}
onChange={(v) => setMode(v === 'FIX')} />
@@ -472,20 +549,24 @@ function ScopePanadapter() {
// Unlike the Flex (which pushes state), the Icom is polled: meters/TX state are
// read every cache cycle; DSP set-controls are optimistic and reconcile on the
// next poll. Front-panel knob changes for DSP show after ↻ Refresh.
export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void } = {}) {
export function IcomPanel({ onReportRST, isNetwork = false }: { onReportRST?: (rst: string) => void; isNetwork?: boolean } = {}) {
const { t } = useI18n();
const [st, setSt] = useState<IcomState>(ZERO);
const [busy, setBusy] = useState(false);
const [cat, setCat] = useState<any>(null); // RigState (freq/mode/split) for the VFO display
const [tuning, setTuning] = useState(false);
const txRef = useRef(false);
const stRef = useRef<IcomState>(ZERO); stRef.current = st;
const load = () => GetIcomState().then((s) => setSt((s ?? ZERO) as IcomState)).catch(() => {});
const load = () => {
GetIcomState().then((s) => setSt((s ?? ZERO) as IcomState)).catch(() => {});
GetCATState().then((c) => setCat(c ?? null)).catch(() => {});
};
const setMode = (m: string) => { setCat((c: any) => (c ? { ...c, mode: m } : c)); SetCATMode(m).catch(() => {}); };
// Initial one-shot read of the rig's DSP snapshot on mount (the 500ms poll only
// re-reads the cache; the backend also loads DSP on the first responsive read).
const refresh = async () => {
setBusy(true);
try { await IcomRefresh(); } catch {}
await load();
setBusy(false);
};
useEffect(() => {
@@ -543,6 +624,17 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
}
const tx = st.transmitting;
// VFO readout. In split the active/listening VFO is RX (freq_rx_hz) and the
// other is TX (freq_hz); otherwise there's a single VFO (freq_hz).
const split = !!cat?.split;
const mainHz: number = split ? (cat?.freq_rx_hz || 0) : (cat?.freq_hz || 0);
const subHz: number = split ? (cat?.freq_hz || 0) : 0;
const curMode: string = cat?.mode || st.mode || '';
// Mode-dependent controls: VOX / speech-comp / mic are voice-only (hidden on
// CW and data); APF (audio peak filter) is CW-only. Fold USB/LSB into phone.
const um = curMode.toUpperCase();
const isCW = um === 'CW' || um === 'CWR';
const isPhone = um === 'SSB' || um === 'USB' || um === 'LSB' || um === 'AM' || um === 'FM';
return (
<div className="h-full min-h-0 overflow-auto bg-background">
@@ -559,26 +651,99 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
{st.mode ? <span className="text-xs font-mono text-muted-foreground">{st.mode}</span> : null}
{st.split ? <span className="rounded-md bg-warning/20 px-1.5 py-0.5 text-[10px] font-bold uppercase tracking-wider text-warning">Split</span> : null}
</div>
{/* Live meter in the header band: S when receiving (click → RST tx), Po when transmitting. */}
<div className="hidden md:flex items-center">
{tx ? (
<HdrMeter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter}%`} />
) : (() => { const sp = sParts(st.s_meter); return (
<HdrMeter label="S" value={st.s_meter} accent="#22c55e" scale={sp.label}
title={onReportRST ? t('rst.clickToFill') : undefined}
onClick={onReportRST ? () => onReportRST(sMeterRST(sp.s, sp.over, st.mode)) : undefined} />
); })()}
<div className="flex items-center gap-1.5">
{/* Radio power ON / OFF — NETWORK only. Over USB the CI-V interface is
unpowered while the rig is off, so power-ON can't reach it (OFF works
but ON doesn't); hiding both avoids a dead button. On the network the
rig's LAN server stays alive in standby, so both work. */}
{isNetwork && (
<>
<button type="button" onClick={() => IcomSetPower(true).catch(() => {})} title={t('icmp.powerOnHint')}
className="inline-flex items-center gap-1 rounded-md border border-success/60 bg-success/10 px-2 py-1 text-xs font-bold text-success hover:bg-success/20">
<Power className="size-3.5" /> ON
</button>
<button type="button" onClick={() => IcomSetPower(false).catch(() => {})} title={t('icmp.powerOffHint')}
className="inline-flex items-center gap-1 rounded-md border border-destructive/60 bg-destructive/10 px-2 py-1 text-xs font-bold text-destructive hover:bg-destructive/20">
<Power className="size-3.5" /> OFF
</button>
</>
)}
</div>
<button type="button" onClick={refresh} disabled={busy}
className="inline-flex items-center gap-1.5 rounded-md border border-border bg-card px-2 py-1 text-xs hover:bg-muted disabled:opacity-40">
<RefreshCw className={cn('size-3.5', busy && 'animate-spin')} /> {t('icmp.refresh')}
</button>
</div>
{/* VFO readout — the RS-BA1-style twin display: MAIN (active) + SUB, the big
tabular frequency, mode badge, band, and the RIT/ΔTX offset. */}
<div className="rounded-xl border border-border bg-muted/25 shadow-inner overflow-hidden">
<div className="grid grid-cols-2 divide-x divide-border/60">
{/* MAIN VFO */}
<div className="px-4 py-3">
<div className="flex items-center justify-between mb-1.5">
<span className={cn('text-[10px] font-bold uppercase tracking-widest', tx ? 'text-destructive' : 'text-success')}>{tx ? 'Main · TX' : 'Main'}</span>
{curMode ? <span className="rounded px-1.5 py-0.5 text-[10px] font-bold bg-primary/15 text-primary">{curMode}</span> : null}
</div>
<div className="font-mono font-bold tabular-nums leading-none text-foreground" style={{ fontSize: 'clamp(1.5rem, 4.5vw, 2.25rem)' }}>{fmtVFO(mainHz)}</div>
<div className="mt-1.5 flex items-center gap-2 text-[11px] font-mono text-muted-foreground">
<span>{cat?.band || (mainHz ? '' : '—')}</span>
{st.rit_on ? <span className="text-primary">RIT {st.rit_hz > 0 ? '+' : st.rit_hz < 0 ? '' : ''}{Math.abs(st.rit_hz)}</span> : null}
{st.xit_on ? <span className="text-warning">ΔTX</span> : null}
</div>
</div>
{/* SUB VFO (populated in split; dimmed otherwise) */}
<div className={cn('px-4 py-3', !split && 'opacity-40')}>
<div className="flex items-center justify-between mb-1.5">
<span className="text-[10px] font-bold uppercase tracking-widest text-muted-foreground">Sub</span>
{split ? <span className="rounded px-1.5 py-0.5 text-[10px] font-bold bg-warning/15 text-warning">SPLIT</span> : null}
</div>
<div className="font-mono font-bold tabular-nums leading-none text-muted-foreground" style={{ fontSize: 'clamp(1.5rem, 4.5vw, 2.25rem)' }}>{fmtVFO(subHz)}</div>
<div className="mt-1.5 text-[11px] font-mono text-muted-foreground">{split ? 'TX' : ''}</div>
</div>
</div>
{/* Mode selector row (RS-BA1's SSB/CW/RTTY/PSK/AM/FM). */}
<div className="grid grid-cols-6 border-t border-border/60 divide-x divide-border/60">
{MODES.map((m) => {
const on = modeMatches(m, curMode);
return (
<button key={m} type="button" onClick={() => setMode(m)}
className={cn('py-1.5 text-[11px] font-bold tracking-wide transition-colors',
on ? 'bg-primary text-primary-foreground' : 'bg-card/40 text-muted-foreground hover:bg-muted')}>
{m}
</button>
);
})}
</div>
</div>
{/* Live meters — always visible: S (RX, click → RST), Po in watts, SWR. */}
<div className="rounded-xl border border-border bg-card px-3 py-2.5 shadow-sm grid grid-cols-1 sm:grid-cols-3 gap-x-5 gap-y-2">
{(() => { const sp = sParts(st.s_meter); return (
<Meter label="S" value={st.s_meter} accent="#22c55e" scale={sp.label}
title={onReportRST ? t('rst.clickToFill') : undefined}
onClick={onReportRST ? () => onReportRST(sMeterRST(sp.s, sp.over, st.mode)) : undefined} />
); })()}
<Meter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter} W`} />
<Meter label="SWR" value={st.swr_meter} accent="#f59e0b" scale={st.swr_meter > 0 ? `${(1 + st.swr_meter / 33.3).toFixed(1)}` : '1.0'} />
</div>
{/* Spectrum panadapter (full width). */}
<ScopePanadapter />
<div className="grid grid-cols-1 lg:grid-cols-2 gap-3">
{/* Band buttons + antenna selection. */}
<Card icon={Antenna} title={t('icmp.bandsAntenna')} accent="#0891b2">
<div className="grid grid-cols-5 gap-1.5">
{BANDS.map((b) => (
<button key={b.l} type="button" onClick={() => SetCATFrequency(b.hz).catch(() => {})}
className="px-1 py-1.5 rounded-md text-[11px] font-bold border border-border bg-card text-foreground hover:bg-muted transition-colors">
{b.l}
</button>
))}
</div>
<Row label={t('icmp.antenna')}>
<Segmented value={String(st.antenna)} options={[{ v: '1', l: 'ANT1' }, { v: '2', l: 'ANT2' }]}
onChange={(v) => set({ antenna: parseInt(v) }, () => IcomSetAntenna(parseInt(v)))} />
</Row>
</Card>
{/* Clarifiers: RIT & ΔTX (XIT) — wheel or ± to shift, Ctrl+←/→ shifts RIT. */}
<Card icon={SlidersHorizontal} title={t('icmp.clarifiers')} accent="#8b5cf6">
<ShiftRow label="RIT" accent="#8b5cf6" on={st.rit_on} hz={st.rit_hz}
@@ -588,12 +753,6 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
onToggle={() => set({ xit_on: !st.xit_on }, () => IcomSetXITOn(!st.xit_on))}
onDelta={(d) => setRit(st.rit_hz + d)} onClear={() => setRit(0)} />
<p className="text-[11px] text-muted-foreground">{t('icmp.ritHint')}</p>
{tx && (
<div className="pt-1 border-t border-border/60 space-y-3">
<Meter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter}%`} />
<Meter label="SWR" value={st.swr_meter} accent="#f59e0b" scale={st.swr_meter > 0 ? `${(1 + st.swr_meter / 33.3).toFixed(1)}` : '1.0'} />
</div>
)}
</Card>
{/* Transmit controls. */}
@@ -602,10 +761,12 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
<Slider value={st.rf_power} accent="#ef4444" onChange={(v) => set({ rf_power: v }, () => IcomSetRFPower(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.rf_power}</span>
</Row>
<Row label={t('icmp.mic')}>
<Slider value={st.mic_gain} accent="#ef4444" onChange={(v) => set({ mic_gain: v }, () => IcomSetMicGain(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_gain}</span>
</Row>
{isPhone && (
<Row label={t('icmp.mic')}>
<Slider value={st.mic_gain} accent="#ef4444" onChange={(v) => set({ mic_gain: v }, () => IcomSetMicGain(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_gain}</span>
</Row>
)}
<div className="flex items-center gap-2 pt-1">
<button type="button" onClick={toggleMox}
className={cn('flex-1 px-3 py-1.5 rounded-md text-xs font-bold border transition-colors',
@@ -619,6 +780,27 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
TUNE
</button>
</div>
{/* Monitor (all modes) + speech processor / VOX (voice modes only —
they don't exist on CW or data). */}
<div className="pt-2 mt-1 border-t border-border/60 space-y-3">
<LevelRow label="MON" on={st.monitor} value={st.mon_level}
onToggle={() => set({ monitor: !st.monitor }, () => IcomSetMonitor(!st.monitor))}
onLevel={(v) => set({ mon_level: v }, () => IcomSetMonLevel(v))} />
{isPhone && (
<>
<LevelRow label="COMP" on={st.comp} value={st.comp_level}
onToggle={() => set({ comp: !st.comp }, () => IcomSetComp(!st.comp))}
onLevel={(v) => set({ comp_level: v }, () => IcomSetCompLevel(v))} />
<LevelRow label="VOX" on={st.vox} value={st.vox_gain}
onToggle={() => set({ vox: !st.vox }, () => IcomSetVOX(!st.vox))}
onLevel={(v) => set({ vox_gain: v }, () => IcomSetVOXGain(v))} />
<Row label="Anti-VOX">
<Slider value={st.anti_vox} disabled={!st.vox} onChange={(v) => set({ anti_vox: v }, () => IcomSetAntiVOX(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.anti_vox}</span>
</Row>
</>
)}
</div>
</Card>
<Card icon={Radio} title={t('icmp.receive')} accent="#2563eb">
@@ -630,6 +812,10 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
<Slider value={st.rf_gain} onChange={(v) => set({ rf_gain: v }, () => IcomSetRFGain(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.rf_gain}</span>
</Row>
<Row label={t('icmp.squelch')}>
<Slider value={st.squelch} onChange={(v) => set({ squelch: v }, () => IcomSetSquelch(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.squelch}</span>
</Row>
<Row label="AGC">
<Segmented value={st.agc || ''} options={[{ v: 'FAST', l: 'FAST' }, { v: 'MID', l: 'MID' }, { v: 'SLOW', l: 'SLOW' }]}
onChange={(v) => set({ agc: v }, () => IcomSetAGC(v))} />
@@ -639,7 +825,7 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
onChange={(v) => set({ preamp: parseInt(v) }, () => IcomSetPreamp(parseInt(v)))} />
</Row>
<Row label="Att">
<Segmented value={String(st.att)} options={[{ v: '0', l: 'OFF' }, { v: '6', l: '6dB' }, { v: '12', l: '12dB' }, { v: '18', l: '18dB' }]}
<Segmented value={String(st.att)} options={attOptions(cat?.rig)}
onChange={(v) => set({ att: parseInt(v) }, () => IcomSetAtt(parseInt(v)))} />
</Row>
<Row label={t('icmp.filter')}>
@@ -648,6 +834,31 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
</Row>
</Card>
{/* Twin PBT + manual notch. Sliders are 0-100 with 50 = centre. */}
<Card icon={Filter} title={t('icmp.passband')} accent="#7c3aed">
<Row label="PBT-IN">
<Slider value={st.pbt_inner} accent="#7c3aed" onChange={(v) => set({ pbt_inner: v }, () => IcomSetPBTInner(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.pbt_inner - 50 > 0 ? '+' : ''}{st.pbt_inner - 50}</span>
</Row>
<Row label="PBT-OUT">
<Slider value={st.pbt_outer} accent="#7c3aed" onChange={(v) => set({ pbt_outer: v }, () => IcomSetPBTOuter(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.pbt_outer - 50 > 0 ? '+' : ''}{st.pbt_outer - 50}</span>
</Row>
<button type="button"
onClick={() => { set({ pbt_inner: 50 }, () => IcomSetPBTInner(50)); set({ pbt_outer: 50 }, () => IcomSetPBTOuter(50)); }}
className="w-full py-1 rounded-md text-[11px] font-bold border border-border bg-card text-muted-foreground hover:bg-muted">
{t('icmp.pbtCenter')}
</button>
<div className="pt-1 border-t border-border/60 space-y-3">
<div className="flex items-center gap-2">
<Chip label="MN" on={st.manual_notch} onClick={() => set({ manual_notch: !st.manual_notch }, () => IcomSetManualNotch(!st.manual_notch))} />
<Slider value={st.notch_pos} disabled={!st.manual_notch} accent="#7c3aed" onChange={(v) => set({ notch_pos: v }, () => IcomSetNotchPos(v))} />
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.notch_pos}</span>
</div>
<p className="text-[11px] text-muted-foreground">{t('icmp.manualNotch')}</p>
</div>
</Card>
<Card icon={AudioLines} title={t('icmp.noiseNotch')} accent="#16a34a">
<LevelRow label="NB" on={st.nb} value={st.nb_level}
onToggle={() => set({ nb: !st.nb }, () => IcomSetNB(!st.nb))}
@@ -659,6 +870,13 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
<Chip label="ANF" on={st.anf} onClick={() => set({ anf: !st.anf }, () => IcomSetANF(!st.anf))} />
<span className="text-xs text-muted-foreground">{t('icmp.autoNotch')}</span>
</div>
{/* APF (audio peak filter) — CW only: peaks the CW tone. */}
{isCW && (
<div className="flex items-center gap-2">
<Chip label="APF" on={st.apf} onClick={() => set({ apf: !st.apf }, () => IcomSetAPF(!st.apf))} />
<span className="text-xs text-muted-foreground">{t('icmp.apf')}</span>
</div>
)}
</Card>
</div>
</div>
+92 -1
View File
@@ -5,7 +5,7 @@ import {
} from 'ag-grid-community';
import { hamlogGridTheme } from '@/lib/gridTheme';
import { AgGridReact } from 'ag-grid-react';
import { Plus, Trash2, Radio, PlusCircle, MinusCircle, Search, UserPlus } from 'lucide-react';
import { Plus, Trash2, Radio, PlusCircle, MinusCircle, Search, UserPlus, History } from 'lucide-react';
import {
Dialog, DialogContent, DialogHeader, DialogTitle, DialogFooter, DialogDescription,
} from '@/components/ui/dialog';
@@ -20,6 +20,7 @@ import {
NetList, NetCreate, NetRename, NetDelete, NetOpen, NetClose, NetOpenID,
NetRoster, NetRosterUpsert, NetRosterRemove, NetLookup,
NetActiveList, NetActivate, NetDeactivate, NetUpdateActive, NetDiscardActive,
WorkedBefore,
} from '@/../wailsjs/go/main/App';
import { netctl } from '@/../wailsjs/go/models';
@@ -67,6 +68,36 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
const activeGrid = useRef<any>(null);
const rosterGrid = useRef<any>(null);
// Worked-before for the clicked station (see if/when we contacted it before).
const [wbCall, setWbCall] = useState('');
const [wb, setWb] = useState<any>(null);
const [wbBusy, setWbBusy] = useState(false);
const wbReq = useRef(0);
// Resizable height (drag the handle on top). Persisted.
const [wbHeight, setWbHeight] = useState(() => {
const v = parseInt(localStorage.getItem('opslog.netWbHeight') || '', 10);
return v >= 80 && v <= 600 ? v : 176;
});
useEffect(() => { localStorage.setItem('opslog.netWbHeight', String(wbHeight)); }, [wbHeight]);
const startWbResize = (e: React.MouseEvent) => {
e.preventDefault();
const startY = e.clientY, startH = wbHeight;
const onMove = (ev: MouseEvent) => setWbHeight(Math.max(80, Math.min(600, startH - (ev.clientY - startY))));
const onUp = () => { document.removeEventListener('mousemove', onMove); document.removeEventListener('mouseup', onUp); };
document.addEventListener('mousemove', onMove);
document.addEventListener('mouseup', onUp);
};
const showWorkedBefore = useCallback(async (call: string, dxcc = 0) => {
const c = (call ?? '').trim().toUpperCase();
setWbCall(c);
if (!c) { setWb(null); return; }
const req = ++wbReq.current;
setWbBusy(true);
try { const r = await WorkedBefore(c, dxcc); if (wbReq.current === req) setWb(r); }
catch { if (wbReq.current === req) setWb(null); }
finally { if (wbReq.current === req) setWbBusy(false); }
}, []);
const isOpen = openId !== '' && openId === selId;
const refreshNets = useCallback(async () => {
@@ -173,6 +204,9 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
...c, callsign: (r.callsign || call).toUpperCase(),
name: r.name || c.name, qth: r.qth || c.qth, country: r.country || c.country,
dxcc: r.dxcc || c.dxcc, itu: r.itu || c.itu, cq: r.cq || c.cq,
grid: r.grid || c.grid, address: r.address || c.address, state: r.state || c.state,
cnty: r.cnty || c.cnty, cont: r.cont || c.cont, lat: r.lat || c.lat, lon: r.lon || c.lon,
email: r.email || c.email,
}));
} catch (e: any) { setError(String(e?.message ?? e)); }
finally { setLooking(false); }
@@ -266,6 +300,7 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
rowData={active}
columnDefs={activeCols}
defaultColDef={defaultColDef}
onRowClicked={(e) => e.data && showWorkedBefore(e.data.callsign, (e.data as any).dxcc ?? 0)}
onRowDoubleClicked={(e) => e.data && setEditingDraft(e.data)}
rowSelection={{ mode: 'singleRow', checkboxes: false, enableClickSelection: true }}
animateRows={false}
@@ -281,6 +316,61 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
</Button>
</div>
)}
{/* Worked-before for the clicked station — click a row (on air or
roster) to see if/when we contacted it before. Lives INSIDE the
on-air column so resizing only splits this column; the roster on
the right keeps its full height. */}
<div className="shrink-0 flex flex-col" style={{ height: wbHeight }}>
<div className="h-1.5 shrink-0 cursor-ns-resize border-t border-border/60 hover:bg-primary/40 transition-colors" onMouseDown={startWbResize} title={t('ncp.wbResize')} />
<div className="flex-1 min-h-0 bg-card flex flex-col">
<div className="flex items-center gap-2 px-3 py-1.5 bg-muted/40 text-[11px] font-semibold uppercase tracking-wider text-muted-foreground shrink-0">
<History className="size-3.5" />
{t('ncp.workedBefore')}
{wbCall && <span className="font-mono text-foreground normal-case">{wbCall}</span>}
{wb && wb.count > 0 && (
<span className="ml-auto font-normal normal-case text-foreground">
{wb.count} QSO · {t('ncp.wbFirst')} {String(wb.first ?? '').slice(0, 10)} · {t('ncp.wbLast')} {String(wb.last ?? '').slice(0, 10)}
{wb.dxcc_name ? ` · ${wb.dxcc_name} (${wb.dxcc_count})` : ''}
</span>
)}
</div>
<div className="flex-1 min-h-0 overflow-auto">
{!wbCall ? (
<div className="flex h-full items-center justify-center text-xs text-muted-foreground">{t('ncp.wbHint')}</div>
) : wbBusy ? (
<div className="flex h-full items-center justify-center text-xs text-muted-foreground"></div>
) : !wb || wb.count === 0 ? (
<div className="flex h-full items-center justify-center text-xs text-muted-foreground">{t('ncp.wbNone')} {wbCall}</div>
) : (
<table className="w-full text-xs">
<thead className="sticky top-0 bg-muted/30 text-muted-foreground">
<tr className="text-left">
<th className="px-3 py-1 font-semibold">{t('ncp.colDate')}</th>
<th className="px-2 py-1 font-semibold">{t('ncp.colTimeOn')}</th>
<th className="px-2 py-1 font-semibold">{t('ncp.colBand')}</th>
<th className="px-2 py-1 font-semibold">{t('ncp.colMode')}</th>
<th className="px-2 py-1 font-semibold">RST</th>
<th className="px-2 py-1 font-semibold">{t('ncp.colComment')}</th>
</tr>
</thead>
<tbody>
{((wb.entries ?? []) as any[]).map((q, i) => (
<tr key={q.id ?? i} className="border-t border-border/20 hover:bg-muted/30">
<td className="px-3 py-1 font-mono">{String(q.qso_date ?? '').slice(0, 10)}</td>
<td className="px-2 py-1 font-mono">{String(q.time_on ?? '').slice(0, 5)}</td>
<td className="px-2 py-1">{q.band}</td>
<td className="px-2 py-1">{q.mode}</td>
<td className="px-2 py-1 font-mono">{(q.rst_sent ?? '')}/{(q.rst_rcvd ?? '')}</td>
<td className="px-2 py-1 truncate max-w-[360px]">{q.comment}</td>
</tr>
))}
</tbody>
</table>
)}
</div>
</div>
</div>
</div>
{/* NET USERS / roster (right) */}
@@ -298,6 +388,7 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
columnDefs={rosterCols}
defaultColDef={defaultColDef}
rowSelection={{ mode: 'multiRow', checkboxes: false, headerCheckbox: false, enableClickSelection: true }}
onRowClicked={(e) => e.data && showWorkedBefore(e.data.callsign, (e.data as any).dxcc ?? 0)}
onRowDoubleClicked={(e) => e.data && activate(e.data.callsign)}
animateRows={false}
getRowId={(p) => String((p.data as any).callsign)}
+6 -2
View File
@@ -187,6 +187,9 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
// WPX, …) are derived from the QSO by the backend and shown read-only.
const awardFieldRef = useRef<Record<string, string>>({});
const [awardRefs, setAwardRefs] = useState('');
// The refs present when the editor opened, so on save we can tell which ones
// were REMOVED and strip their in-field tokens (see applyAwardRefs).
const seedAwardRefsRef = useRef('');
const [computedRefs, setComputedRefs] = useState<Array<{ code: string; ref: string; name?: string }>>([]);
// Load award definitions once, then seed the editable manual refs from the QSO.
@@ -207,6 +210,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
.filter((r: any) => r.pickable)
.map((r: any) => `${String(r.code).toUpperCase()}@${String(r.ref).toUpperCase()}`)
.join(';');
seedAwardRefsRef.current = seed;
setAwardRefs(seed);
} catch { /* leave manual refs empty on failure */ }
})
@@ -327,7 +331,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
// the dedicated columns, then route the picked refs back onto the payload
// (POTA/SOTA/IOTA → columns, WWFF/custom → extras).
out.iota = ''; out.sota_ref = ''; out.pota_ref = '';
applyAwardRefs(out, awardRefs, awardFieldRef.current);
applyAwardRefs(out, awardRefs, awardFieldRef.current, seedAwardRefsRef.current);
onSave(out);
}
@@ -347,7 +351,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
return (
<Dialog open onOpenChange={(o) => { if (!o) onClose(); }}>
<DialogContent className="max-w-4xl max-h-[92vh] grid grid-rows-[auto_1fr_auto] gap-0 p-0">
<DialogContent className="max-w-5xl max-h-[92vh] grid grid-rows-[auto_1fr_auto] gap-0 p-0">
<DialogHeader className="flex-row items-baseline gap-2">
<DialogTitle>{t('qedit.title')}</DialogTitle>
<span className="font-mono text-xs text-muted-foreground">#{draft.id} {draft.callsign}</span>
+7 -1
View File
@@ -92,7 +92,7 @@ export const makeColCatalog = (t: TFn): ColEntry[] => [
// ── QSO basics ──
{ group: 'QSO', label: t('rqg.c.qso_date'), colId: 'qso_date', headerName: t('rqg.c.qso_date'), field: 'qso_date' as any, width: 150, cellClass: 'font-mono', valueFormatter: (p) => fmtDateUTC(p.value), sort: 'desc', defaultVisible: true },
{ group: 'QSO', label: t('rqg.c.qso_date_off'), colId: 'qso_date_off', headerName: t('rqg.c.qso_date_off'), field: 'qso_date_off' as any, width: 150, cellClass: 'font-mono', valueFormatter: (p) => fmtDateUTC(p.value) },
{ group: 'QSO', label: t('rqg.c.callsign'), colId: 'callsign', headerName: t('rqg.c.callsign'), field: 'callsign' as any, width: 110, cellClass: 'font-mono font-semibold', cellStyle: { color: '#b8410c' }, defaultVisible: true },
{ group: 'QSO', label: t('rqg.c.callsign'), colId: 'callsign', headerName: t('rqg.c.callsign'), field: 'callsign' as any, width: 110, cellClass: 'font-mono font-semibold', defaultVisible: true },
{ group: 'QSO', label: t('rqg.c.band'), colId: 'band', headerName: t('rqg.c.band'), field: 'band' as any, width: 75, cellClass: 'font-mono', defaultVisible: true },
{ group: 'QSO', label: t('rqg.c.band_rx'), colId: 'band_rx', headerName: t('rqg.c.band_rx'), field: 'band_rx' as any, width: 75, cellClass: 'font-mono' },
{ group: 'QSO', label: t('rqg.c.mode'), colId: 'mode', headerName: t('rqg.c.mode'), field: 'mode' as any, width: 80, cellClass: 'font-mono', defaultVisible: true },
@@ -274,6 +274,12 @@ export function RecentQSOsGrid({ rows, selectAllSignal, onRowDoubleClicked, onRo
headerTooltip: t('rqg.awardTip', { name: a.name }),
width: 110,
cellClass: 'text-[11px]',
// Hidden by DEFAULT (award columns are opt-in). Without this, AG Grid shows
// them whenever the saved column state doesn't cover them — a newly-added
// award, an empty cache, or a rebuild that runs before the saved state is
// re-applied — which is why "all award columns" kept reappearing. The user's
// saved state (a column they explicitly showed) still overrides this.
hide: true,
valueGetter: (p) => (p.data as any)?.award_refs?.[a.code.toUpperCase()] ?? '',
}));
return [...base, ...awards];
+143 -13
View File
@@ -21,6 +21,8 @@ import {
GetEmailSettings, SaveEmailSettings, TestEmail,
QSLGetEmailTemplates, QSLSaveEmailTemplates,
GetDVKMessages, SetDVKLabel, DVKStartRecord, DVKStopRecord, DVKPreview, DVKStop, GetDVKStatus,
AudioStartMonitor, AudioStopMonitor, AudioMonitorActive,
AudioStartTX, AudioStopTX, AudioTXActive,
ListClusterServers, SaveClusterServer, DeleteClusterServer,
GetClusterAutoConnect, SetClusterAutoConnect,
ConnectClusterServer, DisconnectClusterServer,
@@ -146,6 +148,7 @@ interface Props {
onSaved: () => void;
onMainPaneChanged?: (side: 'left' | 'right', value: string) => void; // live Main-view layout update
flexAvailable?: boolean; // CAT backend is FlexRadio → offer it as a Main pane
icomAvailable?: boolean; // CAT backend is Icom → offer the Icom console as a Main pane
}
// Pretty little card showing what OpsLog will stamp on each QSO based on
@@ -573,17 +576,19 @@ const MAIN_PANE_OPTIONS: { value: string; label: string }[] = [
{ value: 'cluster', label: 'Cluster spots' },
{ value: 'worked', label: 'Worked before' },
{ value: 'recent', label: 'Recent QSOs' },
{ value: 'netcontrol', label: 'Net control' },
];
function MainViewPanes({ onChanged, flexAvailable }: { onChanged?: (side: 'left' | 'right', value: string) => void; flexAvailable?: boolean }) {
function MainViewPanes({ onChanged, flexAvailable, icomAvailable }: { onChanged?: (side: 'left' | 'right', value: string) => void; flexAvailable?: boolean; icomAvailable?: boolean }) {
const [left, setLeft] = useState('map1');
const [right, setRight] = useState('map2');
// FlexRadio is only offered when the CAT backend is a Flex. Sorted A→Z.
const options = (flexAvailable
? [...MAIN_PANE_OPTIONS, { value: 'flex', label: 'FlexRadio controls' }]
: [...MAIN_PANE_OPTIONS]
).sort((a, b) => a.label.localeCompare(b.label));
// Radio-control panes are only offered when that CAT backend is active. Sorted A→Z.
const options = [
...MAIN_PANE_OPTIONS,
...(flexAvailable ? [{ value: 'flex', label: 'FlexRadio controls' }] : []),
...(icomAvailable ? [{ value: 'icom', label: 'Icom console' }] : []),
].sort((a, b) => a.label.localeCompare(b.label));
useEffect(() => {
const valid = (v: string) => v === 'flex' || MAIN_PANE_OPTIONS.some((o) => o.value === v);
const valid = (v: string) => v === 'flex' || v === 'icom' || MAIN_PANE_OPTIONS.some((o) => o.value === v);
Promise.all([GetUIPref('mainPaneLeft').catch(() => ''), GetUIPref('mainPaneRight').catch(() => '')])
.then(([l, r]) => { if (valid(l)) setLeft(l); if (valid(r)) setRight(r); });
}, []);
@@ -756,7 +761,21 @@ function FlexBandAntennasPanel({ bands }: { bands: string[] }) {
);
}
export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChanged, flexAvailable }: Props) {
// Known Icom models paired with their FACTORY default CI-V address. Picking a
// model sets icom_addr so the backend identifies it (civ.ModelName) and the UI
// adapts (e.g. the attenuator steps differ by model). Keep in lockstep with
// civ.ModelName in internal/cat/civ/civ.go. `addr` is decimal.
const ICOM_MODELS: { name: string; addr: number }[] = [
{ name: 'IC-705', addr: 0xA4 },
{ name: 'IC-7300', addr: 0x94 },
{ name: 'IC-7610', addr: 0x98 },
{ name: 'IC-7700', addr: 0x88 },
{ name: 'IC-7800', addr: 0x80 },
{ name: 'IC-9100', addr: 0x7C },
{ name: 'IC-9700', addr: 0xA2 },
];
export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChanged, flexAvailable, icomAvailable }: Props) {
const { t } = useI18n();
const [selected, setSelected] = useState<SectionId>((initialSection as SectionId) || 'station');
const [loading, setLoading] = useState(true);
@@ -793,7 +812,8 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
const [modeDraft, setModeDraft] = useState('');
const [catCfg, setCatCfg] = useState<CATSettings>({
enabled: false, backend: 'omnirig', omnirig_rig: 1, flex_host: '', flex_port: 4992, flex_spots: false,
icom_port: '', icom_baud: 115200, icom_addr: 0x98, tci_host: '', tci_port: 40001, tci_spots: false, poll_ms: 250, delay_ms: 0,
icom_port: '', icom_baud: 115200, icom_addr: 0x98, icom_net_host: '', icom_net_user: '', icom_net_pass: '', icom_net_audio: false,
tci_host: '', tci_port: 40001, tci_spots: false, poll_ms: 250, delay_ms: 0,
digital_default: 'FT8',
});
const [rotator, setRotator] = useState<RotatorSettings>({
@@ -859,6 +879,24 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
const [dvkMsgs, setDvkMsgs] = useState<DVKMsg[]>([]);
const [dvkStat, setDvkStat] = useState<DVKStat>({ recording: false, playing: false, rec_slot: 0 });
const [dvkErr, setDvkErr] = useState('');
const [monitorOn, setMonitorOn] = useState(false);
const [txOn, setTxOn] = useState(false);
useEffect(() => {
AudioMonitorActive().then(setMonitorOn).catch(() => {});
AudioTXActive().then(setTxOn).catch(() => {});
}, []);
const toggleMonitor = async () => {
try {
if (monitorOn) { await AudioStopMonitor(); setMonitorOn(false); }
else { await AudioStartMonitor(); setMonitorOn(true); }
} catch (err: any) { setDvkErr(String(err?.message ?? err)); }
};
const toggleTX = async () => {
try {
if (txOn) { await AudioStopTX(); setTxOn(false); }
else { await AudioStartTX(); setTxOn(true); }
} catch (err: any) { setDvkErr(String(err?.message ?? err)); }
};
// General behaviour prefs (mirrored to the DB so they travel with data/).
const [autofocusWB, setAutofocusWB] = useState(() => localStorage.getItem('opslog.autofocusWB') !== '0');
@@ -1967,6 +2005,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
<SelectItem value="omnirig">{t('cat.optOmnirig')}</SelectItem>
<SelectItem value="flex">{t('cat.optFlex')}</SelectItem>
<SelectItem value="icom">{t('cat.optIcom')}</SelectItem>
<SelectItem value="icom-net">{t('cat.optIcomNet')}</SelectItem>
<SelectItem value="tci">{t('cat.optTci')}</SelectItem>
</SelectContent>
</Select>
@@ -2029,12 +2068,69 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
</SelectContent>
</Select>
</div>
<div className="space-y-1 col-span-2">
<div className="space-y-1">
<Label>{t('cat.icomModel')}</Label>
<Select
value={ICOM_MODELS.find((m) => m.addr === (catCfg.icom_addr ?? 0x98))?.name ?? '_custom'}
onValueChange={(v) => { const m = ICOM_MODELS.find((x) => x.name === v); if (m) setCatCfg((s) => ({ ...s, icom_addr: m.addr })); }}>
<SelectTrigger><SelectValue /></SelectTrigger>
<SelectContent>
{ICOM_MODELS.map((m) => <SelectItem key={m.name} value={m.name}>{m.name}</SelectItem>)}
<SelectItem value="_custom">{t('cat.icomModelOther')}</SelectItem>
</SelectContent>
</Select>
</div>
<div className="space-y-1">
<Label>{t('cat.civAddr')}</Label>
<Input value={(catCfg.icom_addr ?? 0x98).toString(16).toUpperCase().padStart(2, '0')}
onChange={(e) => { const n = parseInt(e.target.value.replace(/[^0-9a-fA-F]/g, ''), 16); setCatCfg((s) => ({ ...s, icom_addr: (n >= 0 && n <= 0xFF) ? n : s.icom_addr })); }} />
<p className="text-xs text-muted-foreground">{t('cat.civHint')}</p>
</div>
<p className="col-span-2 text-xs text-muted-foreground">{t('cat.civHint')}</p>
</>
)}
{catCfg.backend === 'icom-net' && (
<>
<div className="space-y-1">
<Label>{t('cat.icomNetHost')}</Label>
<Input placeholder="192.168.1.60" value={catCfg.icom_net_host ?? ''}
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_host: e.target.value }))} />
</div>
<div className="space-y-1">
<Label>{t('cat.icomModel')}</Label>
<Select
value={ICOM_MODELS.find((m) => m.addr === (catCfg.icom_addr ?? 0x98))?.name ?? '_custom'}
onValueChange={(v) => { const m = ICOM_MODELS.find((x) => x.name === v); if (m) setCatCfg((s) => ({ ...s, icom_addr: m.addr })); }}>
<SelectTrigger><SelectValue /></SelectTrigger>
<SelectContent>
{ICOM_MODELS.map((m) => <SelectItem key={m.name} value={m.name}>{m.name}</SelectItem>)}
<SelectItem value="_custom">{t('cat.icomModelOther')}</SelectItem>
</SelectContent>
</Select>
</div>
<div className="space-y-1">
<Label>{t('cat.civAddr')}</Label>
<Input value={(catCfg.icom_addr ?? 0x98).toString(16).toUpperCase().padStart(2, '0')}
onChange={(e) => { const n = parseInt(e.target.value.replace(/[^0-9a-fA-F]/g, ''), 16); setCatCfg((s) => ({ ...s, icom_addr: (n >= 0 && n <= 0xFF) ? n : s.icom_addr })); }} />
</div>
<div className="space-y-1">
<Label>{t('cat.icomNetUser')}</Label>
<Input value={catCfg.icom_net_user ?? ''}
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_user: e.target.value }))} />
</div>
<div className="space-y-1">
<Label>{t('cat.icomNetPass')}</Label>
<Input type="password" value={catCfg.icom_net_pass ?? ''}
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_pass: e.target.value }))} />
</div>
<p className="col-span-2 text-xs text-muted-foreground">{t('cat.icomNetHint')}</p>
<label className="col-span-2 flex items-start gap-2 text-sm cursor-pointer">
<Checkbox checked={!!(catCfg as any).icom_net_audio}
onCheckedChange={(c) => setCatCfg((s) => ({ ...s, icom_net_audio: !!c } as any))} />
<span>
{t('cat.icomNetAudio')}
<span className="block text-[11px] text-muted-foreground">{t('cat.icomNetAudioHint')}</span>
</span>
</label>
</>
)}
{catCfg.backend === 'tci' && (
@@ -2058,7 +2154,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
</label>
</>
)}
{(catCfg.backend === 'omnirig' || catCfg.backend === 'icom') && (
{(catCfg.backend === 'omnirig' || catCfg.backend === 'icom' || catCfg.backend === 'icom-net') && (
<>
<div className="space-y-1">
<Label>{t('cat.pollMs')}</Label>
@@ -3717,6 +3813,40 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
<strong>From Radio</strong> = what you receive (used by the QSO recorder).{' '}
<strong>To Radio</strong> = where voice-keyer messages are transmitted.
</p>
<div className="flex items-center gap-3">
<Button
variant={monitorOn ? 'default' : 'outline'}
size="sm"
className="h-8"
onClick={toggleMonitor}
disabled={!monitorOn && !audioCfg.from_radio}
title="Hear the rig's RX audio (From Radio) through your Listening device"
>
{monitorOn ? ' Stop listening' : ' Listen to radio'}
</Button>
<span className="text-[11px] text-muted-foreground">
{monitorOn
? 'RX monitor running From Radio Listening device.'
: 'Live-monitor the rig here (USB codec now; network audio later).'}
</span>
</div>
<div className="flex items-center gap-3">
<Button
variant={txOn ? 'destructive' : 'outline'}
size="sm"
className="h-8"
onClick={toggleTX}
disabled={!txOn && !audioCfg.to_radio}
title="Key PTT and pipe your live mic into the rig (To Radio device)"
>
{txOn ? ' Stop talking (TX)' : '🎙 Talk to radio (TX)'}
</Button>
<span className="text-[11px] text-muted-foreground">
{txOn
? 'TRANSMITTING mic To Radio, PTT keyed. Click to stop.'
: 'Live mic rig with PTT (USB now; network TX later).'}
</span>
</div>
</div>
<div className="border-t border-border/60 pt-3 space-y-3 max-w-2xl">
@@ -3904,7 +4034,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
<TelemetryToggle />
<LiveStatusToggle />
<MainViewPanes onChanged={onMainPaneChanged} flexAvailable={flexAvailable} />
<MainViewPanes onChanged={onMainPaneChanged} flexAvailable={flexAvailable} icomAvailable={icomAvailable} />
<div className="border-t border-border/60 pt-4 space-y-2">
<h4 className="text-sm font-semibold text-foreground">Password encryption</h4>
+5 -4
View File
@@ -292,6 +292,7 @@ const QSO_FIELD_WEIGHT: Record<string, number> = {
// QSOBoxView renders the confirmation box with per-QSO values.
function QSOBoxView({ box, values }: { box: QSOBox; values: Record<string, string> }) {
const fg = box.fg || '#14243a'; // text colour (field labels use it at 0.6 opacity)
const avail = box.w - 56;
const total = box.fields.reduce((s, f) => s + (QSO_FIELD_WEIGHT[f] ?? 1), 0) || 1;
let cursor = 28;
@@ -304,24 +305,24 @@ function QSOBoxView({ box, values }: { box: QSOBox; values: Record<string, strin
return (
<>
<rect width={box.w} height={box.h} rx={box.radius} fill={box.bg} opacity={box.bg_opacity} />
<text x={28} y={22} fontSize={34} fontWeight={700} fill="#1b2a3d"
<text x={28} y={22} fontSize={34} fontWeight={700} fill={fg}
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
{box.title}
</text>
{cols.map(({ f, x }) => (
<g key={f} transform={`translate(${Math.round(x)} ${box.h * 0.42})`}>
<text fontSize={19} fill="#6b7a8c" letterSpacing={1.5}
<text fontSize={19} fill={fg} opacity={0.6} letterSpacing={1.5}
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
{(QSO_FIELD_LABELS[f] ?? f).toUpperCase()}
</text>
<text y={26} fontSize={28} fontWeight={700} fill="#14243a"
<text y={26} fontSize={28} fontWeight={700} fill={fg}
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
{values[f] ?? ''}
</text>
</g>
))}
{box.footer && (
<text x={28} y={box.h - 18} fontSize={24} fontStyle="italic" fill="#3c4d63"
<text x={28} y={box.h - 18} fontSize={24} fontStyle="italic" fill={fg} opacity={0.85}
fontFamily="'Segoe UI', Arial, sans-serif">
{box.footer}
</text>
@@ -170,6 +170,35 @@ export function EditorPanel({ template, sel, presets, fontFamilies, onPatchEleme
onChange={(w) => onPatchBox({ w })} />
<NumberField label="Height" value={box.h} min={120} max={500}
onChange={(h) => onPatchBox({ h })} />
<NumberField label="Opacity %" value={Math.round((box.bg_opacity ?? 1) * 100)} min={0} max={100}
onChange={(v) => onPatchBox({ bg_opacity: Math.max(0, Math.min(100, v)) / 100 })} />
<div className="flex items-center justify-between gap-2">
<Label className="text-xs text-muted-foreground">Background</Label>
<div className="flex items-center gap-2">
<input type="color" className="h-7 w-9 cursor-pointer rounded border border-border bg-transparent p-0"
value={/^#[0-9a-fA-F]{6}$/.test(box.bg ?? '') ? box.bg : '#000000'}
onChange={(ev) => onPatchBox({ bg: ev.target.value })} />
<Input className="h-7 w-32 font-mono text-xs" value={box.bg ?? ''}
onChange={(ev) => onPatchBox({ bg: ev.target.value })} />
</div>
</div>
<div className="flex items-center justify-between gap-2">
<Label className="text-xs text-muted-foreground">Text color</Label>
<div className="flex items-center gap-2">
<input type="color" className="h-7 w-9 cursor-pointer rounded border border-border bg-transparent p-0"
value={/^#[0-9a-fA-F]{6}$/.test(box.fg ?? '') ? (box.fg as string) : '#14243a'}
onChange={(ev) => onPatchBox({ fg: ev.target.value })} />
<Input className="h-7 w-32 font-mono text-xs" value={box.fg ?? ''} placeholder="#14243a"
onChange={(ev) => onPatchBox({ fg: ev.target.value })} />
</div>
</div>
<NumberField label="Corner radius" value={box.radius ?? 0} min={0} max={80}
onChange={(radius) => onPatchBox({ radius })} />
<div className="flex items-center justify-between gap-2">
<Label className="text-xs text-muted-foreground">Title</Label>
<Input className="h-7 w-44 font-mono text-xs" value={box.title ?? ''}
onChange={(ev) => onPatchBox({ title: ev.target.value })} />
</div>
<div className="flex items-center justify-between gap-2">
<Label className="text-xs text-muted-foreground">Footer</Label>
<Input className="h-7 w-44 font-mono text-xs" value={box.footer}
+1
View File
@@ -118,6 +118,7 @@ export interface QSOBox {
h: number;
bg: string;
bg_opacity: number;
fg?: string; // text colour (default dark); set it when using a dark background
radius: number;
title: string;
fields: string[];
+30 -1
View File
@@ -33,6 +33,19 @@ function appendTokens(existing: string | undefined, refs: string): string {
return out;
}
// removeTokens strips space/word-delimited tokens (a "A,B" ref string) from a
// text field — the inverse of appendTokens. Used when a picked reference is
// REMOVED so an in-field award (DDFM finds "D72" in the note) stops matching it;
// otherwise the ref is re-derived from the field and reappears on reopen.
function removeTokens(existing: string | undefined, refs: string): string {
let out = existing ?? '';
for (const tok of refs.split(',').map((s) => s.trim()).filter(Boolean)) {
const re = new RegExp(`\\b${tok.replace(/[.*+?^${}()|[\]\\]/g, '\\$&')}\\b`, 'ig');
out = out.replace(re, ' ');
}
return out.replace(/\s{2,}/g, ' ').trim();
}
// MANUAL_REFS_KEY mirrors award.ManualRefsKey (Go): the ADIF extras key holding
// the operator's per-QSO award-reference assignments as "CODE@REF;CODE@REF".
// The award engine honours these regardless of how the award matches, so a
@@ -47,8 +60,24 @@ const MANUAL_REFS_KEY = 'APP_OPSLOG_AWARDREFS';
// data lives in its conventional place and exports correctly. Awards that match
// a free-text field by description/pattern (address/qth/name/custom) rely solely
// on the override — we don't pollute the text field with a code.
export function applyAwardRefs(payload: any, awardRefs: string, fieldOf: Record<string, string>) {
export function applyAwardRefs(payload: any, awardRefs: string, fieldOf: Record<string, string>, prevAwardRefs?: string) {
const byCode = parseAwardRefs(awardRefs);
// References the operator REMOVED since the editor opened: for in-field awards
// (note/comment) strip the token from the field too, so a deleted DDFM/etc.
// ref doesn't get re-derived from the leftover token and reappear on reopen.
if (prevAwardRefs != null) {
const prev = parseAwardRefs(prevAwardRefs);
for (const [code, prevRef] of Object.entries(prev)) {
const field = fieldOf[code] || code.toLowerCase();
if (field !== 'note' && field !== 'notes' && field !== 'comment') continue;
const now = new Set((byCode[code] ?? '').split(',').map((s) => s.trim().toUpperCase()).filter(Boolean));
const removed = prevRef.split(',').map((s) => s.trim()).filter(Boolean).filter((r) => !now.has(r.toUpperCase()));
if (removed.length === 0) continue;
const rm = removed.join(',');
if (field === 'comment') payload.comment = removeTokens(payload.comment, rm);
else payload.notes = removeTokens(payload.notes, rm);
}
}
const extras: Record<string, string> = { ...(payload.extras ?? {}) };
const overrides: string[] = [];
for (const [code, ref] of Object.entries(byCode)) {
+28 -18
View File
@@ -21,6 +21,7 @@ const en: Dict = {
'tools.qslManager': 'QSL Manager…', 'tools.qslDesigner': 'QSL Card Designer…',
'tools.winkeyer': 'WinKeyer CW keyer', 'tools.dvk': 'Digital Voice Keyer', 'tools.cwDecoder': 'CW decoder (RX audio)',
'tools.net': 'NET Control', 'tools.alerts': 'Alert management…', 'tools.contest': 'Contest mode',
'alert.tuneHint': 'Click to tune the rig to this spot (freq + mode) and fill the call', 'alert.dismiss': 'Dismiss', 'alert.pending': '{n} recent spot alert(s) — click to view', 'alert.noneShort': 'No recent alerts', 'alert.recent': 'Recent alerts', 'alert.clear': 'Clear',
'menu.help': 'Help', 'help.about': 'About OpsLog', 'tools.duplicates': 'Find duplicates…',
// Duplicates modal
'dup.title': 'Find duplicates', 'dup.scanning': 'Scanning the log…', 'dup.none': 'No duplicates found. 🎉',
@@ -130,9 +131,13 @@ const en: Dict = {
'extsvc.hint': 'Upload logged QSOs to online logbooks. Each service uploads automatically on a new QSO when enabled; timing is per-service (immediate, or a 12 min delay so a mis-logged QSO can still be fixed first).',
'hw.ultrabeam': 'Antenna (Ultrabeam)', 'hw.audioVoice': 'Audio devices & voice keyer',
// CAT panel body
'cat.enable': 'Enable CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (any rig, Windows COM)', 'cat.optFlex': 'FlexRadio / SmartSDR (native)', 'cat.optIcom': 'Icom CI-V (USB serial)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
'cat.enable': 'Enable CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (any rig, Windows COM)', 'cat.optFlex': 'FlexRadio / SmartSDR (native)', 'cat.optIcom': 'Icom CI-V (USB serial)', 'cat.optIcomNet': 'Icom CI-V (network / remote)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
'cat.icomNetHost': 'Rig IP / hostname', 'cat.icomNetUser': 'Network user (ID)', 'cat.icomNetPass': 'Network password',
'cat.icomNetHint': "Connects to the rig's built-in LAN server directly — no RS-BA1 or Remote Utility needed (close them first). Use the Network User1 ID/Password set in the rig's Network menu. A rig in standby is powered on automatically.",
'cat.icomNetAudio': 'Stream RX audio over the network (experimental)',
'cat.icomNetAudioHint': 'Play the rigs received audio through your Listening device (Settings → Audio) over the 50003 stream. Experimental — the audio framing is pending on-rig verification; leave off if control misbehaves.',
'cat.omnirigRig': 'OmniRig rig slot', 'cat.flexIp': 'FlexRadio IP', 'cat.port': 'Port', 'cat.flexSpots': 'Show cluster spots on the panadapter', 'cat.flexSpotsHint': "(spots from OpsLog's DX cluster appear on the radio, auto-expire after 30 min)",
'cat.icomPort': 'Icom CI-V port', 'cat.selectCom': 'Select COM port', 'cat.noPorts': 'No ports found', 'cat.baud': 'Baud rate', 'cat.civAddr': 'CI-V address (hex)', 'cat.civHint': 'IC-7610 = 98, IC-7300 = 94, IC-9700 = A2, IC-705 = A4. Set "CI-V USB Echo Back" OFF and CI-V baud to match on the rig.',
'cat.icomPort': 'Icom CI-V port', 'cat.selectCom': 'Select COM port', 'cat.noPorts': 'No ports found', 'cat.baud': 'Baud rate', 'cat.icomModel': 'Rig model', 'cat.icomModelOther': 'Other (custom address)', 'cat.civAddr': 'CI-V address (hex)', 'cat.civHint': 'Pick your model to set the CI-V address automatically (or choose "Other" and type it). Set "CI-V USB Echo Back" OFF and CI-V baud to match on the rig.',
'cat.tciHost': 'TCI host', 'cat.tciHint': 'Enable the TCI server in ExpertSDR2/EESDR (Options → TCI). Default port 40001. Use 127.0.0.1 when OpsLog runs on the same PC.', 'cat.tciSpots': 'Show cluster spots on the panorama', 'cat.tciSpotsHint': "(spots from OpsLog's DX cluster appear on the SDR panadapter)",
'cat.pollMs': 'Poll interval (ms)', 'cat.delayMs': 'CAT delay (ms)', 'cat.digitalDefault': 'Default digital mode (when rig reports DIG)', 'cat.modeBeforeFreq': 'Set mode before frequency', 'cat.modeBeforeFreqHint': '(older rigs that drop the mode after a band change)',
'cat.omnirigHint': 'Configure your rig (COM port, baud rate, model) in OmniRig\'s own settings GUI first. OpsLog will read whichever Rig slot you select here. Set CAT delay above 0 if your rig drops commands sent back-to-back (some older Kenwood/Yaesu). OmniRig only reports generic "DIG" for digital modes — Default digital mode is the specific mode OpsLog will surface (and log).',
@@ -188,16 +193,16 @@ const en: Dict = {
'wkp.breakIn': 'Break-in', 'wkp.breakInHint': "The rig's CW keyer only transmits when break-in is SEMI or FULL. OFF keys the sidetone but stays in receive.", 'wkp.bkOff': 'OFF', 'wkp.bkOffWarn': "won't transmit — set SEMI or FULL",
'wkp.autoCallHint': 'Click a CQ macro (one whose text contains CQ) to resend it on a loop — message, gap, repeat — until you send another macro (e.g. a report), press Stop, or hit ESC. Non-CQ macros send once.', 'wkp.autoCall': 'Auto-call', 'wkp.gap': 'gap', 'wkp.gapHint': 'Seconds to wait after the message before resending', 'wkp.loopHint': 'click a CQ macro to loop it', 'wkp.macroN': 'Macro {n}',
'dvkp.voiceKeyer': 'Voice keyer', 'dvkp.stop': 'Stop', 'dvkp.disable': 'Disable voice keyer', 'dvkp.noMsgPre': 'No messages recorded yet. Open', 'dvkp.settingsPath': 'Settings → Audio devices & voice keyer', 'dvkp.noMsgPost': 'to record F1F6.', 'dvkp.transmit': 'Transmit F{slot}{label} ({dur}s)', 'dvkp.empty': 'F{slot} — empty', 'dvkp.message': 'message',
'agp.portDeselect': 'Port {letter} — click to deselect', 'agp.portSelect': 'Select on port {letter}', 'agp.online': 'online', 'agp.offline': 'offline', 'agp.close': 'Close', 'agp.connecting': 'Connecting…', 'agp.noAntennas': 'No antennas configured.',
'flxp.smartsdrRemote': 'SmartSDR remote control', 'flxp.offline': 'OFFLINE', 'flxp.waiting': 'Waiting for the FlexRadio… (set CAT to FlexRadio and connect)', 'flxp.transmit': 'Transmit', 'flxp.rfPower': 'RF Power', 'flxp.tunePwr': 'Tune Pwr', 'flxp.splitHint': 'Split: RX/TX on separate slices. ON creates a TX slice +1 kHz (CW) / +5 kHz (SSB) up, like SmartSDR.', 'flxp.voxDly': 'VOX Dly', 'flxp.speed': 'Speed', 'flxp.pitch': 'Pitch', 'flxp.delay': 'Delay',
'flxp.receiveActive': 'Receive (active slice)', 'flxp.muted': 'Muted — click to unmute', 'flxp.mute': 'Mute RX audio', 'flxp.filter': 'Filter', 'flxp.amplifier': 'Amplifier', 'flxp.ampInLine': 'Amplifier is in line (transmitting through PA).', 'flxp.ampBypassed': 'Amplifier bypassed (standby).', 'flxp.pgConnected': 'PowerGenius connected', 'flxp.pgOffline': 'PowerGenius offline', 'flxp.fan': 'Fan', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Broadcast', 'flxp.fault': 'FAULT', 'flxp.meters': 'Meters', 'flxp.noMeters': "No meters yet — waiting for the radio's UDP stream…", 'flxp.amplifierHdr': 'AMPLIFIER',
'icmp.spectrum': 'Spectrum', 'icmp.scopeFixed': 'Fixed — double-click / wheel to tune', 'icmp.scopeCenter': 'Center — follows VFO', 'icmp.scopeOff': 'Scope off', 'icmp.notConnected': "Icom not connected. Enable the Icom CI-V backend in Settings → CAT and connect the radio's USB port.", 'icmp.refresh': 'Refresh', 'icmp.meters': 'Meters', 'icmp.transmit': 'Transmit', 'icmp.power': 'Power', 'icmp.mic': 'Mic', 'icmp.receive': 'Receive', 'icmp.preamp': 'Preamp', 'icmp.filter': 'Filter', 'icmp.noiseNotch': 'Noise / Notch', 'icmp.autoNotch': 'Auto notch filter', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Wheel or ± to shift · Ctrl+←/→ shifts RIT when active',
'agp.portDeselect': 'Port {letter} — click to deselect', 'agp.portSelect': 'Select on port {letter}', 'agp.online': 'online', 'agp.offline': 'offline', 'agp.close': 'Close', 'agp.connecting': 'Connecting…', 'agp.noAntennas': 'No antennas configured.', 'agp.filterOnHint': 'Showing antennas for {band} only — click to show all bands', 'agp.filterOffHint': 'Showing all antennas — click to show only the current band',
'flxp.smartsdrRemote': 'SmartSDR remote control', 'flxp.offline': 'OFFLINE', 'flxp.waiting': 'Waiting for the FlexRadio… (set CAT to FlexRadio and connect)', 'flxp.transmit': 'Transmit', 'flxp.rfPower': 'RF Power', 'flxp.tunePwr': 'Tune Pwr', 'flxp.splitHint': 'Split: RX/TX on separate slices. ON creates a TX slice +1 kHz (CW) / +5 kHz (SSB) up, like SmartSDR.', 'flxp.sliceHint': 'Click to make this the active slice — frequency, mode, DSP and spot-clicks all follow it.', 'flxp.txSlice': 'This slice transmits', 'flxp.setTxSlice': 'Move TX to this slice (transmit here)', 'flxp.voxDly': 'VOX Dly', 'flxp.speed': 'Speed', 'flxp.pitch': 'Pitch', 'flxp.delay': 'Delay',
'flxp.receiveActive': 'Receive (active slice)', 'flxp.muted': 'Muted — click to unmute', 'flxp.mute': 'Mute RX audio', 'flxp.filter': 'Filter', 'flxp.amplifier': 'Amplifier', 'flxp.ampInLine': 'Amplifier is in line (transmitting through PA).', 'flxp.ampBypassed': 'Amplifier bypassed (standby).', 'flxp.pgConnected': 'PowerGenius connected', 'flxp.pgOffline': 'PowerGenius offline', 'flxp.fan': 'Fan', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Broadcast', 'flxp.fault': 'FAULT', 'flxp.meters': 'Meters', 'flxp.voltage': 'VOLTAGE', 'flxp.paTemp': 'PA TEMP', 'flxp.txFilter': 'TX filter', 'flxp.micProfile': 'Mic profile', 'flxp.noMeters': "No meters yet — waiting for the radio's UDP stream…", 'flxp.amplifierHdr': 'AMPLIFIER',
'icmp.spectrum': 'Spectrum', 'icmp.scopeFixed': 'Fixed — double-click / wheel to tune', 'icmp.scopeCenter': 'Center — follows VFO', 'icmp.scopeOff': 'Scope off', 'icmp.scopePanDown': 'Shift scope 50 kHz', 'icmp.scopePanUp': 'Shift scope +50 kHz', 'icmp.scopeCenterVfo': 'Center scope on the current frequency (±50 kHz)', 'icmp.notConnected': "Icom not connected. Enable the Icom CI-V backend in Settings → CAT and connect the radio's USB port.", 'icmp.refresh': 'Refresh', 'icmp.meters': 'Meters', 'icmp.transmit': 'Transmit', 'icmp.power': 'Power', 'icmp.mic': 'Mic', 'icmp.receive': 'Receive', 'icmp.preamp': 'Preamp', 'icmp.filter': 'Filter', 'icmp.noiseNotch': 'Noise / Notch', 'icmp.autoNotch': 'Auto notch filter', 'icmp.apf': 'Audio peak filter (CW)', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Wheel or ± to shift · Ctrl+←/→ shifts RIT when active', 'icmp.bandsAntenna': 'Bands & Antenna', 'icmp.antenna': 'Antenna', 'icmp.passband': 'Passband / Notch', 'icmp.pbtCenter': 'Center PBT', 'icmp.manualNotch': 'Manual notch — MN on, then set position', 'icmp.squelch': 'Squelch', 'icmp.powerOnHint': 'Power the radio ON (boots ~15 s)', 'icmp.powerOffHint': 'Power the radio OFF', 'icmp.powerOffConfirm': 'Switch the radio OFF?',
'rst.clickToFill': 'Click to set RST tx from the signal',
'qrz.openTitle': 'Open {call} on QRZ.com',
// Misc panels/modals (alerts / send-spot / net / udp / filter / details)
'altm.filterPh': 'Filter…', 'altm.noMatch': 'no match', 'altm.noneAll': 'none selected = ALL', 'altm.nSelected': '{n} selected', 'altm.giveName': 'Give the rule a name', 'altm.deleteConfirm': 'Delete alert "{name}"?', 'altm.title': 'Alert management', 'altm.desc': 'Alert when a spot matches a rule. Empty filters = ANY; the filters you set are ANDed (e.g. France + 20m = French stations on 20m).', 'altm.rules': 'Rules', 'altm.noRules': 'No rules yet — click +', 'altm.emailTo': 'Alert e-mail to', 'altm.selectOrCreate': 'Select or create a rule.', 'altm.tabDef': 'Definition', 'altm.tabCall': 'Call / DXCC', 'altm.tabBandMode': 'Band / Mode', 'altm.tabOrigin': 'Origin', 'altm.ruleName': 'Rule name', 'altm.alertEnabled': 'Alert enabled', 'altm.againAfter': 'Alert again after (min)', 'altm.againHint': '0 = once/session · -1 = always', 'altm.actions': 'Actions', 'altm.visual': 'Visual', 'altm.sound': 'Sound', 'altm.email': 'E-mail', 'altm.skipWorked': 'Skip calls already worked (same band + mode)', 'altm.callsigns': 'Callsigns (one per line, wildcards: IW3*, */P)', 'altm.countries': 'Countries (DXCC)', 'altm.continents': 'Continents', 'altm.bands': 'Bands', 'altm.modes': 'Modes', 'altm.spotterCall': 'Spotter callsign (wildcard)', 'altm.spotterCallPh': 'e.g. F* or DL1ABC', 'altm.spotterContinents': 'Spotter continents', 'altm.spotterCountries': 'Spotter countries', 'altm.delete': 'Delete', 'altm.saveRule': 'Save rule', 'altm.close': 'Close',
'spm.callRequired': 'Callsign required', 'spm.freqRequired': 'Frequency (kHz) required', 'spm.title': 'Send DX Spot', 'spm.callsign': 'Callsign', 'spm.callPh': 'DX call', 'spm.frequency': 'Frequency (kHz)', 'spm.message': 'Message', 'spm.messagePh': 'e.g. CW · TNX QSO', 'spm.latestQsos': 'Latest QSOs', 'spm.spotSent': 'Spot sent ✓', 'spm.masterCluster': 'Master cluster', 'spm.cancel': 'Cancel', 'spm.sending': 'Sending…', 'spm.sendSpot': 'Send spot',
'ncp.newNetPrompt': 'New NET name:', 'ncp.renamePrompt': 'Rename NET:', 'ncp.deleteConfirm': 'Delete NET "{name}" and its roster? This cannot be undone.', 'ncp.closeConfirm': "{n} station(s) still on the air will be dropped WITHOUT logging. Close anyway?", 'ncp.removeConfirm': "Remove {n} station(s) from this NET's roster?", 'ncp.colCallsign': 'Callsign', 'ncp.colName': 'Name', 'ncp.colTimeOn': 'Time on', 'ncp.colBand': 'Band', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Comment', 'ncp.colCountry': 'Country', 'ncp.newNet': 'New NET', 'ncp.closeToSwitch': 'Close the NET to switch', 'ncp.selectNetTitle': 'Select a NET', 'ncp.selectNetOption': '— select a NET —', 'ncp.closeNet': 'Close NET', 'ncp.openNet': 'Open NET', 'ncp.rename': 'Rename', 'ncp.delete': 'Delete', 'ncp.netOpenBadge': 'NET OPEN', 'ncp.onAir': 'On air:', 'ncp.roster': 'Roster:', 'ncp.onAirActive': 'On air — active QSOs', 'ncp.activeHint': 'double-click → edit all fields · "Log & end" to save', 'ncp.logEndSelected': 'Log & end selected', 'ncp.netUsersRoster': 'NET users — roster', 'ncp.rosterHint': 'double-click → put on air', 'ncp.addContact': 'Add contact', 'ncp.remove': 'Remove', 'ncp.putOnAir': 'Put selected on air', 'ncp.addContactTitle': 'Add contact to NET', 'ncp.addContactDesc': "Saved in this NET's roster (reused next time you open it).", 'ncp.callsign': 'Callsign', 'ncp.search': 'Search', 'ncp.name': 'Name', 'ncp.country': 'Country', 'ncp.cancel': 'Cancel', 'ncp.saveInNet': 'Save in NET',
'ncp.newNetPrompt': 'New NET name:', 'ncp.renamePrompt': 'Rename NET:', 'ncp.deleteConfirm': 'Delete NET "{name}" and its roster? This cannot be undone.', 'ncp.closeConfirm': "{n} station(s) still on the air will be dropped WITHOUT logging. Close anyway?", 'ncp.removeConfirm': "Remove {n} station(s) from this NET's roster?", 'ncp.colCallsign': 'Callsign', 'ncp.colName': 'Name', 'ncp.colTimeOn': 'Time on', 'ncp.colBand': 'Band', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Comment', 'ncp.colCountry': 'Country', 'ncp.colDate': 'Date', 'ncp.workedBefore': 'Worked before', 'ncp.wbHint': 'Click a station (on air or roster) to see prior QSOs', 'ncp.wbNone': 'No prior QSO with', 'ncp.wbFirst': 'first', 'ncp.wbLast': 'last', 'ncp.wbResize': 'Drag to resize', 'ncp.newNet': 'New NET', 'ncp.closeToSwitch': 'Close the NET to switch', 'ncp.selectNetTitle': 'Select a NET', 'ncp.selectNetOption': '— select a NET —', 'ncp.closeNet': 'Close NET', 'ncp.openNet': 'Open NET', 'ncp.rename': 'Rename', 'ncp.delete': 'Delete', 'ncp.netOpenBadge': 'NET OPEN', 'ncp.onAir': 'On air:', 'ncp.roster': 'Roster:', 'ncp.onAirActive': 'On air — active QSOs', 'ncp.activeHint': 'double-click → edit all fields · "Log & end" to save', 'ncp.logEndSelected': 'Log & end selected', 'ncp.netUsersRoster': 'NET users — roster', 'ncp.rosterHint': 'double-click → put on air', 'ncp.addContact': 'Add contact', 'ncp.remove': 'Remove', 'ncp.putOnAir': 'Put selected on air', 'ncp.addContactTitle': 'Add contact to NET', 'ncp.addContactDesc': "Saved in this NET's roster (reused next time you open it).", 'ncp.callsign': 'Callsign', 'ncp.search': 'Search', 'ncp.name': 'Name', 'ncp.country': 'Country', 'ncp.cancel': 'Cancel', 'ncp.saveInNet': 'Save in NET',
'udpp.svcWsjtLabel': 'WSJT-X / JTDX / MSHV', 'udpp.svcWsjtHint': 'Auto-logs FT8/FT4/etc. QSOs and fills the entry callsign live.', 'udpp.svcAdifLabel': 'ADIF message (JTAlert, GridTracker)', 'udpp.svcAdifHint': 'Receives a single ADIF record per packet and logs it.', 'udpp.svcN1mmLabel': 'N1MM Logger+ (contest XML)', 'udpp.svcN1mmHint': 'Receives contest QSOs as XML messages.', 'udpp.svcRemoteLabel': 'Remote callsign (DXHunter, custom)', 'udpp.svcRemoteHint': 'A short text packet containing just a callsign — fills the entry field.', 'udpp.svcDbLabel': 'ADIF Message', 'udpp.svcDbHint': 'Sends the ADIF of every QSO you log to a remote listener (Cloudlog UDP, N1MM, …).', 'udpp.svcPstLabel': 'PstRotator frequency', 'udpp.svcPstHint': 'Sends the rig frequency as <PST><FREQUENCY> whenever it changes — set PstRotatorAz tracker to DXLog.net (default port 12040).', 'udpp.svcN1mmRadioLabel': 'N1MM RadioInfo (freq + mode)', 'udpp.svcN1mmRadioHint': 'Broadcasts the rig frequency/mode as N1MM Logger+ RadioInfo XML on every change — consumed by PstRotator (N1MM tracker) and many other tools.', 'udpp.deleteConfirm': 'Delete this UDP connection?', 'udpp.loading': 'Loading…', 'udpp.intro': 'UDP connections let OpsLog talk to other ham radio software. Inbound connections receive QSOs or callsigns and update the logbook live; outbound connections notify other apps when you log a QSO locally. Enable multicast to share a port with another listener without conflict — required for the typical WSJT-X 2237 setup.', 'udpp.inboundTitle': 'Inbound — OpsLog listens', 'udpp.outboundTitle': 'Outbound — OpsLog sends', 'udpp.reloadAll': 'Reload all', 'udpp.reloadHint': 'Restarts every enabled listener after a manual change.', 'udpp.add': 'Add', 'udpp.noConnection': 'No connection.', 'udpp.unnamed': '(unnamed)', 'udpp.dialogTitle': '{action} {direction} connection', 'udpp.new': 'New', 'udpp.edit': 'Edit', 'udpp.directionInbound': 'inbound', 'udpp.directionOutbound': 'outbound', 'udpp.name': 'Name', 'udpp.namePhInbound': 'WSJT-X log', 'udpp.namePhOutbound': 'Cloudlog notify', 'udpp.serviceType': 'Service type', 'udpp.port': 'Port', 'udpp.multicast': 'Multicast', 'udpp.multicastGroup': 'Multicast group', 'udpp.multicastHint': 'Use the same group address as the sending app. WSJT-X default is 224.0.0.1.', 'udpp.destinationIp': 'Destination IP', 'udpp.enabled': 'Enabled', 'udpp.cancel': 'Cancel', 'udpp.save': 'Save',
'fltb.fCallsign': 'Callsign', 'fltb.fDate': 'Date / time (UTC)', 'fltb.fEndDate': 'End date / time', 'fltb.fBand': 'Band', 'fltb.fRxBand': 'RX band', 'fltb.fMode': 'Mode', 'fltb.fSubmode': 'Submode', 'fltb.fFreq': 'Frequency (Hz)', 'fltb.fRxFreq': 'RX frequency (Hz)', 'fltb.fRstSent': 'RST sent', 'fltb.fRstRcvd': 'RST rcvd', 'fltb.fName': 'Name', 'fltb.fQth': 'QTH', 'fltb.fAddress': 'Address', 'fltb.fEmail': 'E-mail', 'fltb.fGrid': 'Grid', 'fltb.fCountry': 'Country', 'fltb.fState': 'State', 'fltb.fCounty': 'County', 'fltb.fDxcc': 'DXCC #', 'fltb.fContinent': 'Continent', 'fltb.fCqz': 'CQ zone', 'fltb.fItuz': 'ITU zone', 'fltb.fIota': 'IOTA', 'fltb.fSota': 'SOTA ref', 'fltb.fPota': 'POTA ref', 'fltb.fWwff': 'WWFF ref', 'fltb.fRig': 'Rig', 'fltb.fAntenna': 'Antenna', 'fltb.fQslSent': 'QSL sent', 'fltb.fQslRcvd': 'QSL rcvd', 'fltb.fQslVia': 'QSL via', 'fltb.fLotwSent': 'LoTW sent', 'fltb.fLotwRcvd': 'LoTW rcvd', 'fltb.fEqslSent': 'eQSL sent', 'fltb.fEqslRcvd': 'eQSL rcvd', 'fltb.fQrzUpload': 'QRZ upload status', 'fltb.fClublogUpload': 'ClubLog upload status', 'fltb.fHrdlogUpload': 'HRDLog upload status', 'fltb.fContestId': 'Contest ID', 'fltb.fSerialRcvd': 'Serial rcvd', 'fltb.fSerialSent': 'Serial sent', 'fltb.fPropMode': 'Propagation mode', 'fltb.fSatellite': 'Satellite', 'fltb.fMyCallsign': 'My callsign', 'fltb.fOperator': 'Operator', 'fltb.fOwnerCallsign': 'Owner callsign', 'fltb.fMyGrid': 'My grid', 'fltb.fMyCountry': 'My country', 'fltb.fMyState': 'My state', 'fltb.fMyCounty': 'My county', 'fltb.fMyIota': 'My IOTA', 'fltb.fMySota': 'My SOTA ref', 'fltb.fMyPota': 'My POTA ref', 'fltb.fMyWwff': 'My WWFF ref', 'fltb.fMyStreet': 'My street', 'fltb.fMyCity': 'My city', 'fltb.fMyPostal': 'My postal code', 'fltb.fMyRig': 'My rig', 'fltb.fMyAntenna': 'My antenna', 'fltb.fTxPower': 'TX power (W)', 'fltb.fComment': 'Comment', 'fltb.fNotes': 'Notes', 'fltb.opEq': 'equals (=)', 'fltb.opNe': 'not equal (≠)', 'fltb.opContains': 'contains', 'fltb.opStartsWith': 'starts with', 'fltb.opEndsWith': 'ends with', 'fltb.opGt': 'greater than (>)', 'fltb.opLt': 'less than (<)', 'fltb.opGe': 'greater or equal (≥)', 'fltb.opLe': 'less or equal (≤)', 'fltb.opEmpty': 'is empty', 'fltb.opNotEmpty': 'is not empty', 'fltb.title': 'QSO filter', 'fltb.match': 'Match', 'fltb.all': 'ALL (AND)', 'fltb.any': 'ANY (OR)', 'fltb.loadPreset': 'Load preset…', 'fltb.noConditions': 'No conditions — the list shows all QSOs. Add one below.', 'fltb.where': 'WHERE', 'fltb.valuePh': 'value', 'fltb.remove': 'Remove', 'fltb.addCondition': 'Add condition', 'fltb.presetNamePh': 'Preset name…', 'fltb.savePreset': 'Save preset', 'fltb.clear': 'Clear', 'fltb.cancel': 'Cancel', 'fltb.applyClose': 'Apply & close',
'detp.propAS': 'Aircraft Scatter', 'detp.propAUR': 'Aurora', 'detp.propAUE': 'Aurora-E', 'detp.propBS': 'Back Scatter', 'detp.propEME': 'Earth-Moon-Earth', 'detp.propES': 'Sporadic E', 'detp.propFAI': 'Field Aligned Irregularities', 'detp.propF2': 'F2 Reflection', 'detp.propGWAVE': 'Ground Wave', 'detp.propINTERNET': 'Internet-assisted', 'detp.propION': 'Ionoscatter', 'detp.propLOS': 'Line of Sight', 'detp.propMS': 'Meteor Scatter', 'detp.propRPT': 'Terrestrial / atmospheric repeater', 'detp.propRS': 'Rain Scatter', 'detp.propSAT': 'Satellite', 'detp.propTEP': 'Trans-Equatorial', 'detp.propTR': 'Tropospheric Ducting', 'detp.pathShort': 'Short Path', 'detp.pathLong': 'Long Path', 'detp.pathGrayline': 'Grayline', 'detp.pathOther': 'Other', 'detp.tabStats': 'Stats', 'detp.tabInfo': 'Info', 'detp.tabAwards': 'Awards', 'detp.tabMy': 'My', 'detp.tabExtended': 'Extended', 'detp.statePref': 'State / pref', 'detp.county': 'County', 'detp.prefix': 'Prefix', 'detp.cqZone': 'CQ zone', 'detp.ituZone': 'ITU zone', 'detp.dxcc': 'DXCC #', 'detp.azimuthLp': 'Azimuth LP', 'detp.distanceSp': 'Distance SP', 'detp.distanceLp': 'Distance LP', 'detp.address': 'Address', 'detp.qslMessage': 'QSL message', 'detp.qslVia': 'QSL via', 'detp.detected': 'Detected — this contact will count for:', 'detp.azimuth': 'Azimuth (°)', 'detp.elevation': 'Elevation (°)', 'detp.txPower': 'TX power (W)', 'detp.satelliteMode': 'Satellite mode', 'detp.antPath': 'Ant. path', 'detp.propagation': 'Propagation', 'detp.rig': 'Rig', 'detp.antenna': 'Antenna', 'detp.satName': 'Satellite name', 'detp.contestId': 'Contest ID', 'detp.rcvdExchangePh': 'rcvd exchange', 'detp.sentExchangePh': 'sent exchange', 'detp.contactedEmail': 'Contacted email',
@@ -205,10 +210,10 @@ const en: Dict = {
'awrp.remove': 'Remove', 'awrp.searchLabel': 'Search {label}…', 'awrp.searching': 'Searching…', 'awrp.noMatch': 'No match.', 'awrp.noMatchDxcc': 'No match for this DXCC.',
'awrs.group': 'Group', 'awrs.sub': 'Sub', 'awrs.pickReference': '← pick a reference', 'awrs.add': 'Add', 'awrs.enterCallsignFirst': 'Enter a callsign first', 'awrs.noRefsAdded': 'No references added yet', 'awrs.references': 'References', 'awrs.autoMatchTitle': 'The {field} field is {code} — this award counts it automatically', 'awrs.fromField': 'from {field}', 'awrs.autoClickToAdd': 'auto — click to add', 'awrs.search': 'Search…', 'awrs.addUnlistedTitle': "Add this reference even though it isn't in the list yet (new / unlisted)", 'awrs.addPrefix': '+ Add', 'awrs.unlisted': '(unlisted)', 'awrs.searching': 'Searching…', 'awrs.typeToSearch': 'Type 2+ chars to search', 'awrs.enterCallsignOrSearch': 'Enter a callsign, or type to search.', 'awrs.noRefsForEntity': 'No references for this entity.', 'awrs.noResults': 'No results.', 'awrs.downloadLists': 'Download reference lists in the Awards panel → Import data.',
'awp.awards': 'Awards', 'awp.editAwards': 'Edit awards', 'awp.rescanTitle': 'Re-pull the logbook and recompute (picks up new LoTW/QRZ confirmations)', 'awp.rescan': 'Rescan', 'awp.selectAward': 'Select an award…', 'awp.of': 'of', 'awp.computing': 'Computing…', 'awp.noData': 'No data', 'awp.worked': 'worked', 'awp.confirmed': 'confirmed', 'awp.validated': 'validated', 'awp.ofConfirmed': 'of {total} · {pct}% confirmed', 'awp.byBand': 'By band (confirmed / worked)', 'awp.filterReferences': 'Filter references…', 'awp.filterAll': 'All', 'awp.filterWkd': 'Wkd', 'awp.filterNotWkd': 'Not wkd', 'awp.filterWkdNotCfmd': 'Wkd not cfmd', 'awp.refs': 'refs', 'awp.missingRefsTitle': "Contacts in this award's scope (right DXCC/band/mode) but with no reference — they're excluded until you add it", 'awp.missingRefs': 'Missing refs', 'awp.gridView': 'Grid view', 'awp.listView': 'List view', 'awp.statistics': 'Statistics', 'awp.statistic': 'Statistic', 'awp.total': 'Total', 'awp.grand': 'Grand', 'awp.ref': 'Ref', 'awp.description': 'Description', 'awp.cellTitle': '{ref} · {band} — click to view QSOs', 'awp.name': 'Name', 'awp.groupCol': 'Group', 'awp.status': 'Status', 'awp.bands': 'Bands', 'awp.missing': '— missing', 'awp.contactsMissingRef': 'contacts missing a reference', 'awp.recomputeTitle': "Recompute now — contacts you've fixed drop off the list", 'awp.refresh': 'Refresh', 'awp.missingScopeHelp': "In this award's scope (DXCC / band / mode / dates) but no reference was found — so they don't count yet. Sort by a column, tick the matching contacts, then assign the reference below.", 'awp.orClickRow': '(Or click a row to open the QSO.)', 'awp.selectedArrow': '{n} selected →', 'awp.chooseReference': 'Choose a reference to assign…', 'awp.assignToSelected': 'Assign to {n} selected', 'awp.scanning': 'Scanning…', 'awp.noGaps': 'No gaps found. (Missing-reference detection applies to awards scoped to a DXCC entity — e.g. DDFM, WAS, RAC, WAJA.)', 'awp.dateUtc': 'Date (UTC)', 'awp.callsign': 'Callsign', 'awp.band': 'Band', 'awp.mode': 'Mode', 'awp.country': 'Country', 'awp.qthNote': 'QTH / Note', 'awp.stations': 'stations', 'awp.contactsWithoutRef': 'contacts without a reference', 'awp.assignedMsg': 'Assigned {code}@{ref} to {n} contact(s).', 'awp.loading': 'Loading…', 'awp.noQsos': 'No QSOs.',
'awed.addCountry': 'Add country…', 'awed.exportedTo': 'Awards exported to:\n{path}', 'awed.importedMsg': 'Imported {awards} award(s) and {references} reference(s).', 'awed.awardManagement': 'Award management', 'awed.searchAwards': 'Search awards…', 'awed.newAward': 'New award', 'awed.clickToDismiss': 'Click to dismiss', 'awed.selectOrCreate': 'Select or create an award.', 'awed.tabInfo': 'Award info', 'awed.tabType': 'Award type', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'References', 'awed.awardName': 'Award name', 'awed.valid': 'Valid', 'awed.deleteAward': 'Delete award', 'awed.description': 'Description', 'awed.awardUrl': 'Award URL', 'awed.referenceUrl': 'Reference URL', 'awed.validFrom': 'Valid from', 'awed.validTo': 'Valid to', 'awed.dxccFilter': 'DXCC filter', 'awed.validBands': 'Valid bands (empty = all)', 'awed.emission': 'Emission (empty = all)', 'awed.validModes': 'Valid modes (empty = all)', 'awed.awardType': 'Award type', 'awed.allowMultiple': 'Allow multiple references on a single QSO', 'awed.dynamicRefs': 'Dynamic references (not predefined — any value counts, like POTA)', 'awed.qsoParams': 'QSO parameters (used by QSOFIELDS / REFERENCE types)', 'awed.searchInField': 'Search in field', 'awed.matchBy': 'Match by', 'awed.exactMatch': 'Exact match (else search reference inside the field)', 'awed.patternRegex': 'Pattern (regex)', 'awed.patternPlaceholder': 'group 1 = reference (for match-by pattern / dynamic)', 'awed.leadingString': 'Leading string', 'awed.trailingString': 'Trailing string', 'awed.additionalSearches': 'Additional searches', 'awed.orAlsoMatch': '— also match the reference if any of these hit', 'awed.addOr': 'Add OR', 'awed.orSearchIn': 'OR — search in', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Remove this OR search', 'awed.orPatternPlaceholder': 'regex — group 1 = reference (e.g. \\b(\\d{2})\\d{3}\\b for postal → dept)', 'awed.prefixPlaceholder': 'prefix (D)', 'awed.prefixTitle': 'Prepended to each found reference, e.g. 74 → D74', 'awed.confirmationLabel': 'Confirmation (worked → confirmed)', 'awed.validationLabel': 'Validation (confirmed → validated)', 'awed.grantCodes': 'Grant codes', 'awed.exportCreditGranted': 'Export award in ADIF credit_granted field', 'awed.resetDefaults': 'Reset to defaults', 'awed.exportTitle': 'Export all award definitions + reference lists to a JSON backup', 'awed.export': 'Export…', 'awed.importTitle': 'Import an award bundle (definitions + reference lists)', 'awed.import': 'Import…', 'awed.cancel': 'Cancel', 'awed.save': 'Save', 'awed.populatedMsg': 'Populated {n} built-in references.', 'awed.newRefCodePrompt': 'New reference code:', 'awed.importedRefsMsg': 'Imported {n} references.', 'awed.referenceCount': 'Reference count:', 'awed.applyPreset': 'Apply preset…', 'awed.pasteCsv': 'Paste / CSV', 'awed.populateBuiltinTitle': 'Replace with the shipped built-in list (DXCC entities, French departments, …)', 'awed.populateBuiltin': 'Populate built-in', 'awed.updateOnline': 'Update online', 'awed.add': 'Add', 'awed.onePerLine': 'One reference per line:', 'awed.replacesList': '(comma/semicolon/tab). Replaces the whole list.', 'awed.import2': 'Import', 'awed.search': 'Search…', 'awed.searching': 'Searching…', 'awed.tooManyItems': 'Too many items ({total}). Please refine search (type 2+ characters).', 'awed.noReferences': 'No references.', 'awed.selectReference': 'Select a reference, or Add / import a list.', 'awed.group': 'Group', 'awed.subgroup': 'Subgroup', 'awed.perRefRegex': 'optional per-reference regex', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Grid', 'awed.saveReference': 'Save reference',
'awed.addCountry': 'Add country…', 'awed.exportedTo': 'Awards exported to:\n{path}', 'awed.importedMsg': 'Imported {awards} award(s) and {references} reference(s).', 'awed.awardManagement': 'Award management', 'awed.searchAwards': 'Search awards…', 'awed.newAward': 'New award', 'awed.clickToDismiss': 'Click to dismiss', 'awed.selectOrCreate': 'Select or create an award.', 'awed.tabInfo': 'Award info', 'awed.tabType': 'Award type', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'References', 'awed.awardName': 'Award name', 'awed.valid': 'Valid', 'awed.deleteAward': 'Delete award', 'awed.description': 'Description', 'awed.awardUrl': 'Award URL', 'awed.refDisplay': 'Column shows', 'awed.refDisplayRef': 'Reference', 'awed.refDisplayName': 'Description / name', 'awed.refDisplayBoth': 'Both (ref — name)', 'awed.referenceUrl': 'Reference URL', 'awed.validFrom': 'Valid from', 'awed.validTo': 'Valid to', 'awed.dxccFilter': 'DXCC filter', 'awed.validBands': 'Valid bands (empty = all)', 'awed.emission': 'Emission (empty = all)', 'awed.validModes': 'Valid modes (empty = all)', 'awed.awardType': 'Award type', 'awed.allowMultiple': 'Allow multiple references on a single QSO', 'awed.dynamicRefs': 'Dynamic references (not predefined — any value counts, like POTA)', 'awed.qsoParams': 'QSO parameters (used by QSOFIELDS / REFERENCE types)', 'awed.searchInField': 'Search in field', 'awed.matchBy': 'Match by', 'awed.exactMatch': 'Exact match (else search reference inside the field)', 'awed.patternRegex': 'Pattern (regex)', 'awed.patternPlaceholder': 'group 1 = reference (for match-by pattern / dynamic)', 'awed.leadingString': 'Leading string', 'awed.trailingString': 'Trailing string', 'awed.additionalSearches': 'Additional searches', 'awed.orAlsoMatch': '— also match the reference if any of these hit', 'awed.addOr': 'Add OR', 'awed.orSearchIn': 'OR — search in', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Remove this OR search', 'awed.orPatternPlaceholder': 'regex — group 1 = reference (e.g. \\b(\\d{2})\\d{3}\\b for postal → dept)', 'awed.prefixPlaceholder': 'prefix (D)', 'awed.prefixTitle': 'Prepended to each found reference, e.g. 74 → D74', 'awed.confirmationLabel': 'Confirmation (worked → confirmed)', 'awed.validationLabel': 'Validation (confirmed → validated)', 'awed.grantCodes': 'Grant codes', 'awed.exportCreditGranted': 'Export award in ADIF credit_granted field', 'awed.resetDefaults': 'Reset to defaults', 'awed.exportTitle': 'Export all award definitions + reference lists to a JSON backup', 'awed.export': 'Export…', 'awed.importTitle': 'Import an award bundle (definitions + reference lists)', 'awed.import': 'Import…', 'awed.cancel': 'Cancel', 'awed.save': 'Save', 'awed.populatedMsg': 'Populated {n} built-in references.', 'awed.newRefCodePrompt': 'New reference code:', 'awed.importedRefsMsg': 'Imported {n} references.', 'awed.referenceCount': 'Reference count:', 'awed.applyPreset': 'Apply preset…', 'awed.pasteCsv': 'Paste / CSV', 'awed.populateBuiltinTitle': 'Replace with the shipped built-in list (DXCC entities, French departments, …)', 'awed.populateBuiltin': 'Populate built-in', 'awed.updateOnline': 'Update online', 'awed.add': 'Add', 'awed.onePerLine': 'One reference per line:', 'awed.replacesList': '(comma/semicolon/tab). Replaces the whole list.', 'awed.import2': 'Import', 'awed.search': 'Search…', 'awed.searching': 'Searching…', 'awed.tooManyItems': 'Too many items ({total}). Please refine search (type 2+ characters).', 'awed.noReferences': 'No references.', 'awed.selectReference': 'Select a reference, or Add / import a list.', 'awed.group': 'Group', 'awed.subgroup': 'Subgroup', 'awed.perRefRegex': 'optional per-reference regex', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Grid', 'awed.saveReference': 'Save reference',
// QSO modals (context menu / bulk edit / QSL manager / QSO edit)
'qctx.selected': '{n} QSO(s) selected', 'qctx.fixCountry': 'Fix country & zones from cty.dat', 'qctx.updateQrz': 'Update from QRZ.com', 'qctx.updateClublog': 'Update from ClubLog (exceptions)', 'qctx.sendQslEmail': 'Send OpsLog QSL by e-mail', 'qctx.sendRecording': 'Send recording by e-mail', 'qctx.bulkEdit': 'Bulk edit field… ({n})', 'qctx.exportSelectedAdif': 'Export selected to ADIF ({n})', 'qctx.exportFilteredAdif': 'Export filtered view to ADIF (no limit)', 'qctx.exportSelectedCabrillo': 'Export selected to Cabrillo ({n})', 'qctx.exportFilteredCabrillo': 'Export filtered view to Cabrillo (no limit)', 'qctx.sendTo': 'Send to {name}', 'qctx.delete': 'Delete {n} QSO(s)…',
'bulk.fLotwSent': 'LoTW sent', 'bulk.fLotwRcvd': 'LoTW received', 'bulk.fEqslSent': 'eQSL sent', 'bulk.fEqslRcvd': 'eQSL received', 'bulk.fQslSent': 'Paper QSL sent', 'bulk.fQslRcvd': 'Paper QSL received', 'bulk.fQrzUpload': 'QRZ.com upload', 'bulk.fClublogUpload': 'Club Log upload', 'bulk.fHrdlogUpload': 'HRDLog upload', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Station callsign', 'bulk.fOperator': 'Operator', 'bulk.fMyGrid': 'My grid', 'bulk.fMyAntenna': 'My antenna', 'bulk.fMyRig': 'My rig', 'bulk.fMyStreet': 'My street', 'bulk.fMyCity': 'My city', 'bulk.fMyPostal': 'My postal code', 'bulk.fMyCountry': 'My country', 'bulk.fMyState': 'My state', 'bulk.fMyCounty': 'My county', 'bulk.fMyIota': 'My IOTA', 'bulk.fMySota': 'My SOTA ref', 'bulk.fMyPota': 'My POTA ref', 'bulk.fMyWwff': 'My WWFF ref', 'bulk.fMySig': 'My SIG', 'bulk.fMySigInfo': 'My SIG info', 'bulk.fComment': 'Comment', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Rig (contacted)', 'bulk.fAnt': 'Antenna (contacted)', 'bulk.statusY': 'Y — Yes / uploaded', 'bulk.statusN': 'N — No', 'bulk.statusR': 'R — Requested', 'bulk.statusI': 'I — Ignore', 'bulk.statusBlank': '(blank — clear)', 'bulk.groupQsl': 'QSL / upload', 'bulk.groupMyStation': 'My station', 'bulk.groupMisc': 'Misc', 'bulk.title': 'Bulk edit field', 'bulk.desc': 'Set one field on the {n} selected QSO(s). This overwrites the current value — there is no undo.', 'bulk.fieldLabel': 'Field', 'bulk.valueLabel': 'Value', 'bulk.clearPlaceholder': 'leave empty to clear the field', 'bulk.willSet': 'Will set', 'bulk.blank': '(blank)', 'bulk.onQsos': 'on {n} QSO(s).', 'bulk.cancel': 'Cancel', 'bulk.applyTo': 'Apply to {n}',
'bulk.fLotwSent': 'LoTW sent', 'bulk.fLotwRcvd': 'LoTW received', 'bulk.fEqslSent': 'eQSL sent', 'bulk.fEqslRcvd': 'eQSL received', 'bulk.fQslSent': 'Paper QSL sent', 'bulk.fQslRcvd': 'Paper QSL received', 'bulk.fQrzUpload': 'QRZ.com upload', 'bulk.fClublogUpload': 'Club Log upload', 'bulk.fHrdlogUpload': 'HRDLog upload', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Station callsign', 'bulk.fOperator': 'Operator', 'bulk.fMyGrid': 'My grid', 'bulk.fMyAntenna': 'My antenna', 'bulk.fMyRig': 'My rig', 'bulk.fMyStreet': 'My street', 'bulk.fMyCity': 'My city', 'bulk.fMyPostal': 'My postal code', 'bulk.fMyCountry': 'My country', 'bulk.fMyState': 'My state', 'bulk.fMyCounty': 'My county', 'bulk.fMyIota': 'My IOTA', 'bulk.fMySota': 'My SOTA ref', 'bulk.fMyPota': 'My POTA ref', 'bulk.fMyWwff': 'My WWFF ref', 'bulk.fMySig': 'My SIG', 'bulk.fMySigInfo': 'My SIG info', 'bulk.fContestId': 'Contest ID', 'bulk.fSrxString': 'Serial rcvd (exchange)', 'bulk.fStxString': 'Serial sent (exchange)', 'bulk.fArrlSect': 'ARRL section', 'bulk.fPrecedence': 'Precedence', 'bulk.fClass': 'Class', 'bulk.fPropMode': 'Propagation mode', 'bulk.fSatName': 'Satellite name', 'bulk.fSatMode': 'Satellite mode', 'bulk.fPotaRef': 'POTA ref', 'bulk.fSotaRef': 'SOTA ref', 'bulk.fWwffRef': 'WWFF ref', 'bulk.fIota': 'IOTA', 'bulk.fSig': 'SIG', 'bulk.fSigInfo': 'SIG info', 'bulk.fComment': 'Comment', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Rig (contacted)', 'bulk.fAnt': 'Antenna (contacted)', 'bulk.statusY': 'Y — Yes / uploaded', 'bulk.statusN': 'N — No', 'bulk.statusR': 'R — Requested', 'bulk.statusI': 'I — Ignore', 'bulk.statusBlank': '(blank — clear)', 'bulk.groupQsl': 'QSL / upload', 'bulk.groupMyStation': 'My station', 'bulk.groupContacted': 'Contacted station', 'bulk.groupContest': 'Contest', 'bulk.groupPropagation': 'Propagation', 'bulk.groupMisc': 'Misc', 'bulk.title': 'Bulk edit field', 'bulk.desc': 'Set one field on the {n} selected QSO(s). This overwrites the current value — there is no undo.', 'bulk.fieldLabel': 'Field', 'bulk.valueLabel': 'Value', 'bulk.clearPlaceholder': 'leave empty to clear the field', 'bulk.willSet': 'Will set', 'bulk.blank': '(blank)', 'bulk.onQsos': 'on {n} QSO(s).', 'bulk.cancel': 'Cancel', 'bulk.applyTo': 'Apply to {n}',
'qslm.leave': '— leave —', 'qslm.yes': 'Yes', 'qslm.no': 'No', 'qslm.requested': 'Requested', 'qslm.ignore': 'Ignore', 'qslm.viaBureau': 'Bureau', 'qslm.viaDirect': 'Direct', 'qslm.viaElectronic': 'Electronic', 'qslm.svcPota': 'POTA hunter log', 'qslm.svcPaper': 'Paper QSL', 'qslm.sentRequested': 'Requested', 'qslm.sentNo': 'No', 'qslm.sentQueued': 'Queued', 'qslm.sentYes': 'Yes (already sent)', 'qslm.sentInvalid': 'Invalid', 'qslm.sentBlank': '— blank —', 'qslm.qsoUpdated': '{n} QSO updated.', 'qslm.service': 'Service', 'qslm.callsign': 'Callsign', 'qslm.callsignScopeTitle': "Upload/download is scoped to this callsign (Force station callsign, else the active profile's call)", 'qslm.syncHunterLog': 'Sync hunter log', 'qslm.onlyMyCallTitle': "Only sync hunts made under your active profile's callsign — skip QSOs you made under another call (e.g. XV9Q, NQ2H) that aren't in this logbook", 'qslm.onlyMyCall': 'Only my profile callsign', 'qslm.addMissingTitle': "Insert hunter-log contacts whose callsign isn't in your log yet (callsign/date/band/mode/park)", 'qslm.addMissing': 'Add not-found QSOs to my log', 'qslm.potaToken': 'Token in Settings → External services → POTA.', 'qslm.callsignPlaceholder': 'e.g. DL1ABC', 'qslm.search': 'Search', 'qslm.paperHint': 'Find a callsign, then set QSL sent/received + via + date on the selection.', 'qslm.sentStatus': 'Sent status', 'qslm.selectRequired': 'Select required', 'qslm.potaSummaryShort': '{updated} updated · {added} added · {already} already · {unmatched} unmatched', 'qslm.potaOtherCall': ' · {n} other call', 'qslm.paperCount': '{total} QSO · {selected} selected', 'qslm.filter': 'Filter', 'qslm.filterAll': 'All', 'qslm.filterNew': 'New (any)', 'qslm.filterNewDxcc': 'New DXCC', 'qslm.filterNewBand': 'New band', 'qslm.filterNewSlot': 'New slot', 'qslm.results': 'Results', 'qslm.log': 'Log', 'qslm.confCount': '{shown} / {total} confirmation(s)', 'qslm.foundCount': '{found} found · {selected} selected', 'qslm.paperEmpty': 'Search a callsign to list its QSOs, then set QSL status below.', 'qslm.potaEmpty': 'Click "Sync hunter log" to fetch your pota.app log and stamp park references.', 'qslm.potaSyncing': 'Syncing with pota.app…', 'qslm.potaSummary': '{updated} QSO updated · {added} added to log · {already} already tagged · {unmatched} unmatched (of {fetched} hunter-log entries).', 'qslm.potaSkipped': ' {n} hunt(s) made under another callsign were skipped', 'qslm.potaKeptOnly': ' (kept only {call})', 'qslm.potaRescan': 'Rescan the POTA award to count the new references.', 'qslm.thActivator': 'Activator', 'qslm.thDateUtc': 'Date UTC', 'qslm.thBand': 'Band', 'qslm.thPark': 'Park', 'qslm.thWhyUnmatched': 'Why unmatched', 'qslm.openToFix': 'Open this QSO to fix it', 'qslm.starting': 'starting…', 'qslm.working': 'working…', 'qslm.noNewConf': 'No new confirmations.', 'qslm.noConfMatch': 'No confirmations match this filter.', 'qslm.thCallsign': 'Callsign', 'qslm.thMode': 'Mode', 'qslm.thCountry': 'Country', 'qslm.thNew': 'New?', 'qslm.newDxcc': 'NEW DXCC', 'qslm.newBand': 'NEW BAND', 'qslm.newSlot': 'NEW SLOT', 'qslm.uploadEmpty': 'Pick a service + sent status, then "Select required".', 'qslm.qslReceived': 'QSL received', 'qslm.qslRcvdDateTitle': 'QSL received date', 'qslm.qslSent': 'QSL sent', 'qslm.qslSentDateTitle': 'QSL sent date', 'qslm.via': 'Via', 'qslm.notes': 'Notes', 'qslm.notesPlaceholder': 'e.g. paid 3€', 'qslm.comment': 'Comment', 'qslm.commentPlaceholder': 'comment', 'qslm.applyToSelected': 'Apply to {n} selected', 'qslm.downloadTitle': 'Fetch confirmations from the service and update received status', 'qslm.downloadConf': 'Download confirmations', 'qslm.downloadRangeTitle': 'How far back to download', 'qslm.sinceLast': 'Since last download', 'qslm.sinceDate': 'Since date…', 'qslm.sinceAll': 'All', 'qslm.sinceDateTitleQrz': 'QRZ: filters by QSO date (no server-side received-date filter)', 'qslm.sinceDateTitleLotw': 'LoTW: confirmations received since this date', 'qslm.addNotFoundTitle': "Insert confirmed QSOs that aren't in your log yet", 'qslm.addNotFound': 'Add not-found', 'qslm.uploadTo': 'Upload {n} to {service}',
'qedit.qslDash': '—', 'qedit.qslYes': 'Yes', 'qedit.qslNo': 'No', 'qedit.qslRequested': 'Requested', 'qedit.qslIgnore': 'Ignore', 'qedit.statusModified': 'Modified', 'qedit.confQslPaper': 'QSL (paper)', 'qedit.callsignRequired': 'Callsign required', 'qedit.lookupError': 'Lookup: {msg}', 'qedit.title': 'Edit QSO', 'qedit.editFieldsFor': 'Edit fields for QSO #{id}', 'qedit.tabQsoInfo': 'QSO Info', 'qedit.tabContact': "Contact's details", 'qedit.tabAwards': 'Award Refs', 'qedit.tabQsl': 'QSL Info', 'qedit.tabContest': 'Contest', 'qedit.tabSat': 'Sat / Prop', 'qedit.tabMyStation': 'My Station', 'qedit.tabMoreAdif': 'More ADIF', 'qedit.tabAdifFields': 'ADIF fields', 'qedit.callsign': 'Callsign', 'qedit.fetchTitle': 'Look up this callsign (QRZ.com / HamQTH) and refresh name, country, grid, zones…', 'qedit.fetch': 'Fetch', 'qedit.name': 'Name', 'qedit.band': 'Band', 'qedit.rxBand': 'RX Band', 'qedit.mode': 'Mode', 'qedit.country': 'Country', 'qedit.dxccTitle': 'DXCC entity # — set automatically from Country', 'qedit.txFreq': 'TX Freq', 'qedit.rxFreq': 'RX Freq', 'qedit.qsoStart': 'QSO Start (UTC)', 'qedit.qsoEnd': 'QSO End (UTC)', 'qedit.grid': 'Grid', 'qedit.comment': 'Comment', 'qedit.note': 'Note', 'qedit.county': 'County', 'qedit.state': 'State', 'qedit.continent': 'Continent', 'qedit.address': 'Address', 'qedit.email': 'E-mail address', 'qedit.qslMsg': 'QSL Msg', 'qedit.qslVia': 'QSL Via', 'qedit.computedAuto': 'Computed (automatic)', 'qedit.computedHint': "Derived from this QSO's fields (DXCC, zones, prefix, notes…). Not editable here.", 'qedit.noneYet': 'None yet.', 'qedit.manageConf': 'Manage Confirmation', 'qedit.sent': 'Sent', 'qedit.received': 'Received', 'qedit.dateSent': 'Date sent', 'qedit.dateReceived': 'Date received', 'qedit.via': 'Via', 'qedit.viaPlaceholder': 'BUREAU / DIRECT / manager…', 'qedit.qslPanelHint': 'Pick a channel, edit it — the table on the right updates live. Everything is written when you click', 'qedit.saveChanges': 'Save changes', 'qedit.thType': 'Type', 'qedit.contestId': 'Contest ID', 'qedit.rcvdExchange': 'rcvd exchange', 'qedit.sentExchange': 'sent exchange', 'qedit.check': 'Check', 'qedit.precedence': 'Precedence', 'qedit.arrlSection': 'ARRL section', 'qedit.propMode': 'Propagation mode', 'qedit.satName': 'Satellite name', 'qedit.satMode': 'Satellite mode', 'qedit.antAz': 'Antenna AZ (°)', 'qedit.antEl': 'Antenna EL (°)', 'qedit.antPath': 'Antenna path', 'qedit.myStationHint': 'These override the active station profile for this QSO only.', 'qedit.stationCallsign': 'Station callsign', 'qedit.operator': 'Operator', 'qedit.myGrid': 'My grid', 'qedit.gridExt': 'Grid ext', 'qedit.cqZone': 'CQ zone', 'qedit.ituZone': 'ITU zone', 'qedit.sotaRef': 'SOTA ref', 'qedit.potaRef': 'POTA ref', 'qedit.street': 'Street', 'qedit.city': 'City', 'qedit.postal': 'Postal', 'qedit.rig': 'Rig', 'qedit.antenna': 'Antenna', 'qedit.specialActivity': 'Special activity', 'qedit.sigInfo': 'SIG info', 'qedit.wwffRef': 'WWFF ref', 'qedit.region': 'Region', 'qedit.powerWeather': 'Power & space weather', 'qedit.rxPower': 'RX power (W)', 'qedit.distance': 'Distance (km)', 'qedit.aIndex': 'A index', 'qedit.kIndex': 'K index', 'qedit.identityClubs': 'Identity & clubs', 'qedit.contactedOp': 'Contacted op', 'qedit.formerCall': 'Former call (EQ_CALL)', 'qedit.class': 'Class', 'qedit.flagsCredits': 'Flags & credits', 'qedit.qsoComplete': 'QSO complete', 'qedit.qsoRandom': 'QSO random', 'qedit.silentKey': 'Silent key', 'qedit.creditGranted': 'Credit granted', 'qedit.creditSubmitted': 'Credit submitted', 'qedit.myStationAdif': 'My station (ADIF)', 'qedit.myName': 'My name', 'qedit.myWwffRef': 'My WWFF ref', 'qedit.myArrlSect': 'My ARRL sect', 'qedit.mySig': 'My SIG', 'qedit.mySigInfo': 'My SIG info', 'qedit.myDarcDok': 'My DARC DOK', 'qedit.myVuccGrids': 'My VUCC grids', 'qedit.delete': 'Delete', 'qedit.cancel': 'Cancel', 'qedit.saving': 'Saving…',
// Grids column headers (recent / worked-before / cluster)
@@ -226,6 +231,7 @@ const fr: Dict = {
'tools.qslManager': 'Gestionnaire QSL…', 'tools.qslDesigner': 'Créateur de carte QSL…',
'tools.winkeyer': 'Manipulateur CW WinKeyer', 'tools.dvk': 'Manipulateur vocal numérique', 'tools.cwDecoder': 'Décodeur CW (audio RX)',
'tools.net': 'Contrôle de NET', 'tools.alerts': 'Gestion des alertes…', 'tools.contest': 'Mode contest',
'alert.tuneHint': 'Cliquer pour accorder la radio sur ce spot (fréq + mode) et remplir l\'indicatif', 'alert.dismiss': 'Fermer', 'alert.pending': '{n} alerte(s) de spot récente(s) — cliquer pour voir', 'alert.noneShort': 'Aucune alerte récente', 'alert.recent': 'Alertes récentes', 'alert.clear': 'Effacer',
'menu.help': 'Aide', 'help.about': 'À propos d\'OpsLog', 'tools.duplicates': 'Trouver les doublons…',
'dup.title': 'Trouver les doublons', 'dup.scanning': 'Analyse du journal…', 'dup.none': 'Aucun doublon trouvé. 🎉',
'dup.hint': 'Chaque groupe est le même contact enregistré plusieurs fois (indicatif + bande + mode). Le premier (le plus ancien) est laissé décoché ; coche ceux à supprimer.',
@@ -320,9 +326,13 @@ const fr: Dict = {
'rot.hint': "OpsLog envoie des commandes UDP à PstRotator. Active l'écouteur UDP de PstRotator (Setup → Communication → UDP) avant de tester.",
'extsvc.hint': "Envoie les QSO enregistrés vers des carnets en ligne. Chaque service upload automatiquement à chaque nouveau QSO si activé ; le délai est propre à chaque service (immédiat, ou 12 min pour corriger un QSO mal saisi avant).",
'hw.ultrabeam': 'Antenne (Ultrabeam)', 'hw.audioVoice': 'Périphériques audio & manipulateur vocal',
'cat.enable': 'Activer le CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (tout poste, COM Windows)', 'cat.optFlex': 'FlexRadio / SmartSDR (natif)', 'cat.optIcom': 'Icom CI-V (USB série)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
'cat.enable': 'Activer le CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (tout poste, COM Windows)', 'cat.optFlex': 'FlexRadio / SmartSDR (natif)', 'cat.optIcom': 'Icom CI-V (USB série)', 'cat.optIcomNet': 'Icom CI-V (réseau / remote)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
'cat.icomNetHost': 'IP / nom d\'hôte du poste', 'cat.icomNetUser': 'Utilisateur réseau (ID)', 'cat.icomNetPass': 'Mot de passe réseau',
'cat.icomNetHint': "Se connecte directement au serveur LAN intégré du poste — sans RS-BA1 ni Remote Utility (ferme-les d'abord). Utilise l'ID/mot de passe Network User1 configurés dans le menu Network du poste. Un poste en veille est allumé automatiquement.",
'cat.icomNetAudio': 'Diffuser laudio RX par le réseau (expérimental)',
'cat.icomNetAudioHint': 'Écoute laudio reçu du poste sur ton périphérique d’écoute (Réglages → Audio) via le flux 50003. Expérimental — le format audio reste à vérifier sur le poste ; laisse désactivé si le contrôle se comporte mal.',
'cat.omnirigRig': 'Slot OmniRig', 'cat.flexIp': 'IP FlexRadio', 'cat.port': 'Port', 'cat.flexSpots': 'Afficher les spots cluster sur le panadapter', 'cat.flexSpotsHint': "(les spots du cluster DX d'OpsLog apparaissent sur la radio, expirent après 30 min)",
'cat.icomPort': 'Port CI-V Icom', 'cat.selectCom': 'Choisir un port COM', 'cat.noPorts': 'Aucun port trouvé', 'cat.baud': 'Débit (baud)', 'cat.civAddr': 'Adresse CI-V (hex)', 'cat.civHint': 'IC-7610 = 98, IC-7300 = 94, IC-9700 = A2, IC-705 = A4. Mets « CI-V USB Echo Back » sur OFF et fais correspondre le débit CI-V sur le poste.',
'cat.icomPort': 'Port CI-V Icom', 'cat.selectCom': 'Choisir un port COM', 'cat.noPorts': 'Aucun port trouvé', 'cat.baud': 'Débit (baud)', 'cat.icomModel': 'Modèle de poste', 'cat.icomModelOther': 'Autre (adresse perso)', 'cat.civAddr': 'Adresse CI-V (hex)', 'cat.civHint': 'Choisis ton modèle pour fixer ladresse CI-V automatiquement (ou « Autre » et saisis-la). Mets « CI-V USB Echo Back » sur OFF et fais correspondre le débit CI-V sur le poste.',
'cat.tciHost': 'Hôte TCI', 'cat.tciHint': 'Active le serveur TCI dans ExpertSDR2/EESDR (Options → TCI). Port par défaut 40001. Utilise 127.0.0.1 si OpsLog tourne sur le même PC.', 'cat.tciSpots': 'Afficher les spots cluster sur le panorama', 'cat.tciSpotsHint': "(les spots du cluster DX d'OpsLog apparaissent sur le panadapter SDR)",
'cat.pollMs': 'Intervalle de poll (ms)', 'cat.delayMs': 'Délai CAT (ms)', 'cat.digitalDefault': 'Mode numérique par défaut (quand le poste indique DIG)', 'cat.modeBeforeFreq': 'Régler le mode avant la fréquence', 'cat.modeBeforeFreqHint': '(anciens postes qui perdent le mode après un changement de bande)',
'cat.omnirigHint': "Configure d'abord ton poste (port COM, débit, modèle) dans l'interface de réglages d'OmniRig. OpsLog lira le slot Rig que tu choisis ici. Mets le délai CAT au-dessus de 0 si ton poste perd des commandes envoyées coup sur coup (certains anciens Kenwood/Yaesu). OmniRig ne rapporte qu'un « DIG » générique pour les modes numériques — le mode numérique par défaut est le mode précis qu'OpsLog affichera (et loggera).",
@@ -372,24 +382,24 @@ const fr: Dict = {
'wkp.breakIn': 'Break-in', 'wkp.breakInHint': "Le manipulateur interne de la radio n'émet que si le break-in est SEMI ou FULL. OFF génère la tonalité mais reste en réception.", 'wkp.bkOff': 'OFF', 'wkp.bkOffWarn': "n'émettra pas — mettre SEMI ou FULL",
'wkp.autoCallHint': "Clique une macro CQ (dont le texte contient CQ) pour la réémettre en boucle — message, pause, répétition — jusqu'à envoyer une autre macro (ex. un report), appuyer sur Stop ou ESC. Les macros non-CQ ne sont émises qu'une fois.", 'wkp.autoCall': 'Appel auto', 'wkp.gap': 'pause', 'wkp.gapHint': 'Secondes à attendre après le message avant de réémettre', 'wkp.loopHint': 'clique une macro CQ pour la boucler', 'wkp.macroN': 'Macro {n}',
'dvkp.voiceKeyer': 'Manipulateur vocal', 'dvkp.stop': 'Stop', 'dvkp.disable': 'Désactiver le manipulateur vocal', 'dvkp.noMsgPre': 'Aucun message enregistré. Ouvre', 'dvkp.settingsPath': 'Réglages → Périphériques audio & manipulateur vocal', 'dvkp.noMsgPost': 'pour enregistrer F1F6.', 'dvkp.transmit': 'Émettre F{slot}{label} ({dur}s)', 'dvkp.empty': 'F{slot} — vide', 'dvkp.message': 'message',
'agp.portDeselect': 'Port {letter} — clic pour désélectionner', 'agp.portSelect': 'Sélectionner sur le port {letter}', 'agp.online': 'en ligne', 'agp.offline': 'hors ligne', 'agp.close': 'Fermer', 'agp.connecting': 'Connexion…', 'agp.noAntennas': 'Aucune antenne configurée.',
'flxp.smartsdrRemote': 'Contrôle à distance SmartSDR', 'flxp.offline': 'HORS LIGNE', 'flxp.waiting': 'En attente du FlexRadio… (règle le CAT sur FlexRadio et connecte)', 'flxp.transmit': 'Émission', 'flxp.rfPower': 'Puissance RF', 'flxp.tunePwr': 'Puiss. TUNE', 'flxp.splitHint': 'Split : RX/TX sur des slices séparées. ON crée une slice TX +1 kHz (CW) / +5 kHz (SSB) au-dessus, comme SmartSDR.', 'flxp.voxDly': 'Délai VOX', 'flxp.speed': 'Vitesse', 'flxp.pitch': 'Tonalité', 'flxp.delay': 'Délai',
'flxp.receiveActive': 'Réception (slice active)', 'flxp.muted': 'Coupé — clic pour rétablir', 'flxp.mute': "Couper l'audio RX", 'flxp.filter': 'Filtre', 'flxp.amplifier': 'Amplificateur', 'flxp.ampInLine': 'Amplificateur en ligne (émission via le PA).', 'flxp.ampBypassed': 'Amplificateur en bypass (standby).', 'flxp.pgConnected': 'PowerGenius connecté', 'flxp.pgOffline': 'PowerGenius hors ligne', 'flxp.fan': 'Ventilo', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Diffusion', 'flxp.fault': 'DÉFAUT', 'flxp.meters': 'Mesures', 'flxp.noMeters': 'Aucune mesure — en attente du flux UDP de la radio…', 'flxp.amplifierHdr': 'AMPLIFICATEUR',
'icmp.spectrum': 'Spectre', 'icmp.scopeFixed': 'Fixe — double-clic / molette pour accorder', 'icmp.scopeCenter': 'Centré — suit le VFO', 'icmp.scopeOff': 'Scope éteint', 'icmp.notConnected': 'Icom non connecté. Active le backend CI-V Icom dans Réglages → CAT et connecte le port USB de la radio.', 'icmp.refresh': 'Rafraîchir', 'icmp.meters': 'Mesures', 'icmp.transmit': 'Émission', 'icmp.power': 'Puissance', 'icmp.mic': 'Micro', 'icmp.receive': 'Réception', 'icmp.preamp': 'Préampli', 'icmp.filter': 'Filtre', 'icmp.noiseNotch': 'Bruit / Notch', 'icmp.autoNotch': 'Filtre notch auto', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Molette ou ± pour décaler · Ctrl+←/→ décale le RIT si actif',
'agp.portDeselect': 'Port {letter} — clic pour désélectionner', 'agp.portSelect': 'Sélectionner sur le port {letter}', 'agp.online': 'en ligne', 'agp.offline': 'hors ligne', 'agp.close': 'Fermer', 'agp.connecting': 'Connexion…', 'agp.noAntennas': 'Aucune antenne configurée.', 'agp.filterOnHint': 'Antennes du {band} uniquement — clic pour afficher toutes les bandes', 'agp.filterOffHint': 'Toutes les antennes affichées — clic pour nafficher que la bande courante',
'flxp.smartsdrRemote': 'Contrôle à distance SmartSDR', 'flxp.offline': 'HORS LIGNE', 'flxp.waiting': 'En attente du FlexRadio… (règle le CAT sur FlexRadio et connecte)', 'flxp.transmit': 'Émission', 'flxp.rfPower': 'Puissance RF', 'flxp.tunePwr': 'Puiss. TUNE', 'flxp.splitHint': 'Split : RX/TX sur des slices séparées. ON crée une slice TX +1 kHz (CW) / +5 kHz (SSB) au-dessus, comme SmartSDR.', 'flxp.sliceHint': 'Cliquer pour rendre cette slice active — fréquence, mode, DSP et clics de spot la suivent tous.', 'flxp.txSlice': 'Cette slice émet', 'flxp.setTxSlice': 'Déplacer le TX sur cette slice (émettre ici)', 'flxp.voxDly': 'Délai VOX', 'flxp.speed': 'Vitesse', 'flxp.pitch': 'Tonalité', 'flxp.delay': 'Délai',
'flxp.receiveActive': 'Réception (slice active)', 'flxp.muted': 'Coupé — clic pour rétablir', 'flxp.mute': "Couper l'audio RX", 'flxp.filter': 'Filtre', 'flxp.amplifier': 'Amplificateur', 'flxp.ampInLine': 'Amplificateur en ligne (émission via le PA).', 'flxp.ampBypassed': 'Amplificateur en bypass (standby).', 'flxp.pgConnected': 'PowerGenius connecté', 'flxp.pgOffline': 'PowerGenius hors ligne', 'flxp.fan': 'Ventilo', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Diffusion', 'flxp.fault': 'DÉFAUT', 'flxp.meters': 'Mesures', 'flxp.voltage': 'TENSION', 'flxp.paTemp': 'TEMP PA', 'flxp.txFilter': 'Filtre TX', 'flxp.micProfile': 'Profil micro', 'flxp.noMeters': 'Aucune mesure — en attente du flux UDP de la radio…', 'flxp.amplifierHdr': 'AMPLIFICATEUR',
'icmp.spectrum': 'Spectre', 'icmp.scopeFixed': 'Fixe — double-clic / molette pour accorder', 'icmp.scopeCenter': 'Centré — suit le VFO', 'icmp.scopeOff': 'Scope éteint', 'icmp.scopePanDown': 'Décaler le scope 50 kHz', 'icmp.scopePanUp': 'Décaler le scope +50 kHz', 'icmp.scopeCenterVfo': 'Centrer le scope sur la fréquence actuelle (±50 kHz)', 'icmp.notConnected': 'Icom non connecté. Active le backend CI-V Icom dans Réglages → CAT et connecte le port USB de la radio.', 'icmp.refresh': 'Rafraîchir', 'icmp.meters': 'Mesures', 'icmp.transmit': 'Émission', 'icmp.power': 'Puissance', 'icmp.mic': 'Micro', 'icmp.receive': 'Réception', 'icmp.preamp': 'Préampli', 'icmp.filter': 'Filtre', 'icmp.noiseNotch': 'Bruit / Notch', 'icmp.autoNotch': 'Filtre notch auto', 'icmp.apf': 'Filtre de pic audio (CW)', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Molette ou ± pour décaler · Ctrl+←/→ décale le RIT si actif', 'icmp.bandsAntenna': 'Bandes & Antenne', 'icmp.antenna': 'Antenne', 'icmp.passband': 'Passe-bande / Notch', 'icmp.pbtCenter': 'Centrer PBT', 'icmp.manualNotch': 'Notch manuel — active MN, puis règle la position', 'icmp.squelch': 'Squelch', 'icmp.powerOnHint': 'Allumer la radio (démarre en ~15 s)', 'icmp.powerOffHint': 'Éteindre la radio', 'icmp.powerOffConfirm': 'Éteindre la radio ?',
'rst.clickToFill': 'Clic pour remplir le RST tx depuis le signal',
'qrz.openTitle': 'Ouvrir {call} sur QRZ.com',
'altm.filterPh': 'Filtrer…', 'altm.noMatch': 'aucun résultat', 'altm.noneAll': 'aucune sélection = TOUT', 'altm.nSelected': '{n} sélectionné(s)', 'altm.giveName': 'Donne un nom à la règle', 'altm.deleteConfirm': "Supprimer l'alerte « {name} » ?", 'altm.title': 'Gestion des alertes', 'altm.desc': 'Alerte quand un spot correspond à une règle. Filtres vides = TOUT ; les filtres définis sont combinés par ET (ex. France + 20m = stations françaises sur 20m).', 'altm.rules': 'Règles', 'altm.noRules': 'Aucune règle — clique sur +', 'altm.emailTo': "E-mail d'alerte à", 'altm.selectOrCreate': 'Sélectionne ou crée une règle.', 'altm.tabDef': 'Définition', 'altm.tabCall': 'Indicatif / DXCC', 'altm.tabBandMode': 'Bande / Mode', 'altm.tabOrigin': 'Origine', 'altm.ruleName': 'Nom de la règle', 'altm.alertEnabled': 'Alerte activée', 'altm.againAfter': 'Réalerter après (min)', 'altm.againHint': '0 = une fois/session · -1 = toujours', 'altm.actions': 'Actions', 'altm.visual': 'Visuel', 'altm.sound': 'Son', 'altm.email': 'E-mail', 'altm.skipWorked': 'Ignorer les indicatifs déjà contactés (même bande + mode)', 'altm.callsigns': 'Indicatifs (un par ligne, jokers : IW3*, */P)', 'altm.countries': 'Pays (DXCC)', 'altm.continents': 'Continents', 'altm.bands': 'Bandes', 'altm.modes': 'Modes', 'altm.spotterCall': 'Indicatif du spotteur (joker)', 'altm.spotterCallPh': 'ex. F* ou DL1ABC', 'altm.spotterContinents': 'Continents du spotteur', 'altm.spotterCountries': 'Pays du spotteur', 'altm.delete': 'Supprimer', 'altm.saveRule': 'Enregistrer la règle', 'altm.close': 'Fermer',
'spm.callRequired': 'Indicatif requis', 'spm.freqRequired': 'Fréquence (kHz) requise', 'spm.title': 'Envoyer un spot DX', 'spm.callsign': 'Indicatif', 'spm.callPh': 'Indicatif DX', 'spm.frequency': 'Fréquence (kHz)', 'spm.message': 'Message', 'spm.messagePh': 'ex. CW · TNX QSO', 'spm.latestQsos': 'Derniers QSO', 'spm.spotSent': 'Spot envoyé ✓', 'spm.masterCluster': 'Cluster maître', 'spm.cancel': 'Annuler', 'spm.sending': 'Envoi…', 'spm.sendSpot': 'Envoyer le spot',
'ncp.newNetPrompt': 'Nom du nouveau NET :', 'ncp.renamePrompt': 'Renommer le NET :', 'ncp.deleteConfirm': 'Supprimer le NET « {name} » et son répertoire ? Cette action est irréversible.', 'ncp.closeConfirm': "{n} station(s) encore en l'air seront retirées SANS être enregistrées. Fermer quand même ?", 'ncp.removeConfirm': 'Retirer {n} station(s) du répertoire de ce NET ?', 'ncp.colCallsign': 'Indicatif', 'ncp.colName': 'Nom', 'ncp.colTimeOn': 'Heure début', 'ncp.colBand': 'Bande', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Commentaire', 'ncp.colCountry': 'Pays', 'ncp.newNet': 'Nouveau NET', 'ncp.closeToSwitch': 'Ferme le NET pour changer', 'ncp.selectNetTitle': 'Sélectionne un NET', 'ncp.selectNetOption': '— sélectionner un NET —', 'ncp.closeNet': 'Fermer le NET', 'ncp.openNet': 'Ouvrir le NET', 'ncp.rename': 'Renommer', 'ncp.delete': 'Supprimer', 'ncp.netOpenBadge': 'NET OUVERT', 'ncp.onAir': "En l'air :", 'ncp.roster': 'Répertoire :', 'ncp.onAirActive': "En l'air — QSO actifs", 'ncp.activeHint': 'double-clic → éditer tous les champs · « Logger & terminer » pour enregistrer', 'ncp.logEndSelected': 'Logger & terminer la sélection', 'ncp.netUsersRoster': 'Membres du NET — répertoire', 'ncp.rosterHint': "double-clic → mettre en l'air", 'ncp.addContact': 'Ajouter un contact', 'ncp.remove': 'Retirer', 'ncp.putOnAir': "Mettre la sélection en l'air", 'ncp.addContactTitle': 'Ajouter un contact au NET', 'ncp.addContactDesc': 'Enregistré dans le répertoire de ce NET (réutilisé à la prochaine ouverture).', 'ncp.callsign': 'Indicatif', 'ncp.search': 'Rechercher', 'ncp.name': 'Nom', 'ncp.country': 'Pays', 'ncp.cancel': 'Annuler', 'ncp.saveInNet': 'Enregistrer dans le NET',
'ncp.newNetPrompt': 'Nom du nouveau NET :', 'ncp.renamePrompt': 'Renommer le NET :', 'ncp.deleteConfirm': 'Supprimer le NET « {name} » et son répertoire ? Cette action est irréversible.', 'ncp.closeConfirm': "{n} station(s) encore en l'air seront retirées SANS être enregistrées. Fermer quand même ?", 'ncp.removeConfirm': 'Retirer {n} station(s) du répertoire de ce NET ?', 'ncp.colCallsign': 'Indicatif', 'ncp.colName': 'Nom', 'ncp.colTimeOn': 'Heure début', 'ncp.colBand': 'Bande', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Commentaire', 'ncp.colCountry': 'Pays', 'ncp.colDate': 'Date', 'ncp.workedBefore': 'Déjà contacté', 'ncp.wbHint': 'Cliquer une station (on air ou roster) pour voir les QSO précédents', 'ncp.wbNone': 'Aucun QSO précédent avec', 'ncp.wbFirst': 'premier', 'ncp.wbLast': 'dernier', 'ncp.wbResize': 'Glisser pour redimensionner', 'ncp.newNet': 'Nouveau NET', 'ncp.closeToSwitch': 'Ferme le NET pour changer', 'ncp.selectNetTitle': 'Sélectionne un NET', 'ncp.selectNetOption': '— sélectionner un NET —', 'ncp.closeNet': 'Fermer le NET', 'ncp.openNet': 'Ouvrir le NET', 'ncp.rename': 'Renommer', 'ncp.delete': 'Supprimer', 'ncp.netOpenBadge': 'NET OUVERT', 'ncp.onAir': "En l'air :", 'ncp.roster': 'Répertoire :', 'ncp.onAirActive': "En l'air — QSO actifs", 'ncp.activeHint': 'double-clic → éditer tous les champs · « Logger & terminer » pour enregistrer', 'ncp.logEndSelected': 'Logger & terminer la sélection', 'ncp.netUsersRoster': 'Membres du NET — répertoire', 'ncp.rosterHint': "double-clic → mettre en l'air", 'ncp.addContact': 'Ajouter un contact', 'ncp.remove': 'Retirer', 'ncp.putOnAir': "Mettre la sélection en l'air", 'ncp.addContactTitle': 'Ajouter un contact au NET', 'ncp.addContactDesc': 'Enregistré dans le répertoire de ce NET (réutilisé à la prochaine ouverture).', 'ncp.callsign': 'Indicatif', 'ncp.search': 'Rechercher', 'ncp.name': 'Nom', 'ncp.country': 'Pays', 'ncp.cancel': 'Annuler', 'ncp.saveInNet': 'Enregistrer dans le NET',
'udpp.svcWsjtLabel': 'WSJT-X / JTDX / MSHV', 'udpp.svcWsjtHint': "Logue automatiquement les QSO FT8/FT4/etc. et remplit l'indicatif de saisie en direct.", 'udpp.svcAdifLabel': 'Message ADIF (JTAlert, GridTracker)', 'udpp.svcAdifHint': 'Reçoit un seul enregistrement ADIF par paquet et le logue.', 'udpp.svcN1mmLabel': 'N1MM Logger+ (XML contest)', 'udpp.svcN1mmHint': 'Reçoit les QSO de contest sous forme de messages XML.', 'udpp.svcRemoteLabel': 'Indicatif distant (DXHunter, personnalisé)', 'udpp.svcRemoteHint': 'Un court paquet texte contenant juste un indicatif — remplit le champ de saisie.', 'udpp.svcDbLabel': "ADIF Message", 'udpp.svcDbHint': "Envoie l'ADIF de chaque QSO enregistré vers un écouteur distant (Cloudlog UDP, N1MM…).", 'udpp.svcPstLabel': 'Fréquence PstRotator', 'udpp.svcPstHint': "Envoie la fréquence du poste en <PST><FREQUENCY> à chaque changement — règle le tracker de PstRotatorAz sur DXLog.net (port 12040 par défaut).", 'udpp.svcN1mmRadioLabel': 'N1MM RadioInfo (fréq + mode)', 'udpp.svcN1mmRadioHint': "Diffuse la fréquence/mode du poste en XML RadioInfo N1MM Logger+ à chaque changement — lu par PstRotator (tracker N1MM) et beaucoup d'autres outils.", 'udpp.deleteConfirm': 'Supprimer cette connexion UDP ?', 'udpp.loading': 'Chargement…', 'udpp.intro': "Les connexions UDP permettent à OpsLog de dialoguer avec d'autres logiciels radioamateurs. Les connexions entrantes reçoivent des QSO ou des indicatifs et mettent le journal à jour en direct ; les connexions sortantes notifient d'autres apps quand tu enregistres un QSO localement. Active le multicast pour partager un port avec un autre écouteur sans conflit — nécessaire pour la config WSJT-X 2237 classique.", 'udpp.inboundTitle': 'Entrant — OpsLog écoute', 'udpp.outboundTitle': 'Sortant — OpsLog envoie', 'udpp.reloadAll': 'Tout recharger', 'udpp.reloadHint': 'Redémarre chaque écouteur activé après une modification manuelle.', 'udpp.add': 'Ajouter', 'udpp.noConnection': 'Aucune connexion.', 'udpp.unnamed': '(sans nom)', 'udpp.dialogTitle': '{action} connexion {direction}', 'udpp.new': 'Nouvelle', 'udpp.edit': 'Modifier', 'udpp.directionInbound': 'entrante', 'udpp.directionOutbound': 'sortante', 'udpp.name': 'Nom', 'udpp.namePhInbound': 'Log WSJT-X', 'udpp.namePhOutbound': 'Notification Cloudlog', 'udpp.serviceType': 'Type de service', 'udpp.port': 'Port', 'udpp.multicast': 'Multicast', 'udpp.multicastGroup': 'Groupe multicast', 'udpp.multicastHint': "Utilise la même adresse de groupe que l'app émettrice. Le défaut WSJT-X est 224.0.0.1.", 'udpp.destinationIp': 'IP de destination', 'udpp.enabled': 'Activé', 'udpp.cancel': 'Annuler', 'udpp.save': 'Enregistrer',
'fltb.fCallsign': 'Indicatif', 'fltb.fDate': 'Date / heure (UTC)', 'fltb.fEndDate': 'Date / heure de fin', 'fltb.fBand': 'Bande', 'fltb.fRxBand': 'Bande RX', 'fltb.fMode': 'Mode', 'fltb.fSubmode': 'Sous-mode', 'fltb.fFreq': 'Fréquence (Hz)', 'fltb.fRxFreq': 'Fréquence RX (Hz)', 'fltb.fRstSent': 'RST envoyé', 'fltb.fRstRcvd': 'RST reçu', 'fltb.fName': 'Nom', 'fltb.fQth': 'QTH', 'fltb.fAddress': 'Adresse', 'fltb.fEmail': 'E-mail', 'fltb.fGrid': 'Locator', 'fltb.fCountry': 'Pays', 'fltb.fState': 'État', 'fltb.fCounty': 'Comté', 'fltb.fDxcc': 'DXCC #', 'fltb.fContinent': 'Continent', 'fltb.fCqz': 'Zone CQ', 'fltb.fItuz': 'Zone ITU', 'fltb.fIota': 'IOTA', 'fltb.fSota': 'Réf SOTA', 'fltb.fPota': 'Réf POTA', 'fltb.fWwff': 'Réf WWFF', 'fltb.fRig': 'Station', 'fltb.fAntenna': 'Antenne', 'fltb.fQslSent': 'QSL envoyée', 'fltb.fQslRcvd': 'QSL reçue', 'fltb.fQslVia': 'QSL via', 'fltb.fLotwSent': 'LoTW envoyé', 'fltb.fLotwRcvd': 'LoTW reçu', 'fltb.fEqslSent': 'eQSL envoyé', 'fltb.fEqslRcvd': 'eQSL reçu', 'fltb.fQrzUpload': 'Statut upload QRZ', 'fltb.fClublogUpload': 'Statut upload ClubLog', 'fltb.fHrdlogUpload': 'Statut upload HRDLog', 'fltb.fContestId': 'ID contest', 'fltb.fSerialRcvd': 'Numéro reçu', 'fltb.fSerialSent': 'Numéro envoyé', 'fltb.fPropMode': 'Mode de propagation', 'fltb.fSatellite': 'Satellite', 'fltb.fMyCallsign': 'Mon indicatif', 'fltb.fOperator': 'Opérateur', 'fltb.fOwnerCallsign': 'Indicatif propriétaire', 'fltb.fMyGrid': 'Mon locator', 'fltb.fMyCountry': 'Mon pays', 'fltb.fMyState': 'Mon état', 'fltb.fMyCounty': 'Mon comté', 'fltb.fMyIota': 'Mon IOTA', 'fltb.fMySota': 'Ma réf SOTA', 'fltb.fMyPota': 'Ma réf POTA', 'fltb.fMyWwff': 'Ma réf WWFF', 'fltb.fMyStreet': 'Ma rue', 'fltb.fMyCity': 'Ma ville', 'fltb.fMyPostal': 'Mon code postal', 'fltb.fMyRig': 'Ma station', 'fltb.fMyAntenna': 'Mon antenne', 'fltb.fTxPower': 'Puissance TX (W)', 'fltb.fComment': 'Commentaire', 'fltb.fNotes': 'Notes', 'fltb.opEq': 'égal (=)', 'fltb.opNe': 'différent (≠)', 'fltb.opContains': 'contient', 'fltb.opStartsWith': 'commence par', 'fltb.opEndsWith': 'finit par', 'fltb.opGt': 'supérieur à (>)', 'fltb.opLt': 'inférieur à (<)', 'fltb.opGe': 'supérieur ou égal (≥)', 'fltb.opLe': 'inférieur ou égal (≤)', 'fltb.opEmpty': 'est vide', 'fltb.opNotEmpty': "n'est pas vide", 'fltb.title': 'Filtre QSO', 'fltb.match': 'Correspondance', 'fltb.all': 'TOUS (ET)', 'fltb.any': 'AU MOINS UN (OU)', 'fltb.loadPreset': 'Charger un préréglage…', 'fltb.noConditions': 'Aucune condition — la liste affiche tous les QSO. Ajoutes-en une ci-dessous.', 'fltb.where': 'OÙ', 'fltb.valuePh': 'valeur', 'fltb.remove': 'Retirer', 'fltb.addCondition': 'Ajouter une condition', 'fltb.presetNamePh': 'Nom du préréglage…', 'fltb.savePreset': 'Enregistrer le préréglage', 'fltb.clear': 'Effacer', 'fltb.cancel': 'Annuler', 'fltb.applyClose': 'Appliquer & fermer',
'detp.propAS': 'Diffusion par avion', 'detp.propAUR': 'Aurore', 'detp.propAUE': 'Aurore-E', 'detp.propBS': 'Rétrodiffusion', 'detp.propEME': 'Terre-Lune-Terre', 'detp.propES': 'Sporadique E', 'detp.propFAI': 'Irrégularités alignées au champ', 'detp.propF2': 'Réflexion F2', 'detp.propGWAVE': 'Onde de sol', 'detp.propINTERNET': 'Assisté par Internet', 'detp.propION': 'Diffusion ionosphérique', 'detp.propLOS': 'Vue directe', 'detp.propMS': 'Diffusion météoritique', 'detp.propRPT': 'Répéteur terrestre / atmosphérique', 'detp.propRS': 'Diffusion par la pluie', 'detp.propSAT': 'Satellite', 'detp.propTEP': 'Trans-équatorial', 'detp.propTR': 'Conduit troposphérique', 'detp.pathShort': 'Chemin court', 'detp.pathLong': 'Chemin long', 'detp.pathGrayline': 'Ligne grise', 'detp.pathOther': 'Autre', 'detp.tabStats': 'Stats', 'detp.tabInfo': 'Info', 'detp.tabAwards': 'Diplômes', 'detp.tabMy': 'Moi', 'detp.tabExtended': 'Étendu', 'detp.statePref': 'État / préf', 'detp.county': 'Comté', 'detp.prefix': 'Préfixe', 'detp.cqZone': 'Zone CQ', 'detp.ituZone': 'Zone ITU', 'detp.dxcc': 'DXCC #', 'detp.azimuthLp': 'Azimut LP', 'detp.distanceSp': 'Distance SP', 'detp.distanceLp': 'Distance LP', 'detp.address': 'Adresse', 'detp.qslMessage': 'Message QSL', 'detp.qslVia': 'QSL via', 'detp.detected': 'Détecté — ce contact comptera pour :', 'detp.azimuth': 'Azimut (°)', 'detp.elevation': 'Élévation (°)', 'detp.txPower': 'Puissance TX (W)', 'detp.satelliteMode': 'Mode satellite', 'detp.antPath': 'Chemin ant.', 'detp.propagation': 'Propagation', 'detp.rig': 'Station', 'detp.antenna': 'Antenne', 'detp.satName': 'Nom du satellite', 'detp.contestId': 'ID contest', 'detp.rcvdExchangePh': 'échange reçu', 'detp.sentExchangePh': 'échange envoyé', 'detp.contactedEmail': 'E-mail du contact',
'awrp.remove': 'Retirer', 'awrp.searchLabel': 'Rechercher {label}…', 'awrp.searching': 'Recherche…', 'awrp.noMatch': 'Aucune correspondance.', 'awrp.noMatchDxcc': 'Aucune correspondance pour ce DXCC.',
'awrs.group': 'Groupe', 'awrs.sub': 'Sous', 'awrs.pickReference': '← choisis une référence', 'awrs.add': 'Ajouter', 'awrs.enterCallsignFirst': "Saisis d'abord un indicatif", 'awrs.noRefsAdded': 'Aucune référence ajoutée', 'awrs.references': 'Références', 'awrs.autoMatchTitle': 'Le champ {field} vaut {code} — ce diplôme le compte automatiquement', 'awrs.fromField': 'depuis {field}', 'awrs.autoClickToAdd': 'auto — clic pour ajouter', 'awrs.search': 'Rechercher…', 'awrs.addUnlistedTitle': "Ajouter cette référence même si elle n'est pas encore dans la liste (nouvelle / non listée)", 'awrs.addPrefix': '+ Ajouter', 'awrs.unlisted': '(non listée)', 'awrs.searching': 'Recherche…', 'awrs.typeToSearch': 'Tape 2+ caractères pour chercher', 'awrs.enterCallsignOrSearch': 'Saisis un indicatif, ou tape pour chercher.', 'awrs.noRefsForEntity': 'Aucune référence pour cette entité.', 'awrs.noResults': 'Aucun résultat.', 'awrs.downloadLists': 'Télécharge les listes de références dans le panneau Diplômes → Importer les données.',
'awp.awards': 'Diplômes', 'awp.editAwards': 'Éditer les diplômes', 'awp.rescanTitle': 'Recharger le journal et recalculer (récupère les nouvelles confirmations LoTW/QRZ)', 'awp.rescan': 'Rescan', 'awp.selectAward': 'Sélectionner un diplôme…', 'awp.of': 'sur', 'awp.computing': 'Calcul…', 'awp.noData': 'Aucune donnée', 'awp.worked': 'contacté', 'awp.confirmed': 'confirmé', 'awp.validated': 'validé', 'awp.ofConfirmed': 'sur {total} · {pct}% confirmés', 'awp.byBand': 'Par bande (confirmés / contactés)', 'awp.filterReferences': 'Filtrer les références…', 'awp.filterAll': 'Tous', 'awp.filterWkd': 'Contactés', 'awp.filterNotWkd': 'Non contactés', 'awp.filterWkdNotCfmd': 'Contactés non conf.', 'awp.refs': 'réf.', 'awp.missingRefsTitle': "Contacts dans le périmètre de ce diplôme (bon DXCC/bande/mode) mais sans référence — exclus tant que tu n'en ajoutes pas", 'awp.missingRefs': 'Réf. manquantes', 'awp.gridView': 'Vue grille', 'awp.listView': 'Vue liste', 'awp.statistics': 'Statistiques', 'awp.statistic': 'Statistique', 'awp.total': 'Total', 'awp.grand': 'Général', 'awp.ref': 'Réf', 'awp.description': 'Description', 'awp.cellTitle': '{ref} · {band} — clic pour voir les QSO', 'awp.name': 'Nom', 'awp.groupCol': 'Groupe', 'awp.status': 'Statut', 'awp.bands': 'Bandes', 'awp.missing': '— manquant', 'awp.contactsMissingRef': 'contacts sans référence', 'awp.recomputeTitle': 'Recalculer — les contacts corrigés disparaissent de la liste', 'awp.refresh': 'Rafraîchir', 'awp.missingScopeHelp': 'Dans le périmètre de ce diplôme (DXCC / bande / mode / dates) mais aucune référence trouvée — ils ne comptent donc pas encore. Trie par colonne, coche les contacts concernés, puis attribue la référence ci-dessous.', 'awp.orClickRow': '(Ou clique une ligne pour ouvrir le QSO.)', 'awp.selectedArrow': '{n} sélectionné(s) →', 'awp.chooseReference': 'Choisir une référence à attribuer…', 'awp.assignToSelected': 'Attribuer à {n} sélectionné(s)', 'awp.scanning': 'Analyse…', 'awp.noGaps': "Aucun manque trouvé. (La détection de référence manquante s'applique aux diplômes limités à une entité DXCC — ex. DDFM, WAS, RAC, WAJA.)", 'awp.dateUtc': 'Date (UTC)', 'awp.callsign': 'Indicatif', 'awp.band': 'Bande', 'awp.mode': 'Mode', 'awp.country': 'Pays', 'awp.qthNote': 'QTH / Note', 'awp.stations': 'stations', 'awp.contactsWithoutRef': 'contacts sans référence', 'awp.assignedMsg': '{code}@{ref} attribué à {n} contact(s).', 'awp.loading': 'Chargement…', 'awp.noQsos': 'Aucun QSO.',
'awed.addCountry': 'Ajouter un pays…', 'awed.exportedTo': 'Diplômes exportés vers :\n{path}', 'awed.importedMsg': '{awards} diplôme(s) et {references} référence(s) importés.', 'awed.awardManagement': 'Gestion des diplômes', 'awed.searchAwards': 'Rechercher un diplôme…', 'awed.newAward': 'Nouveau diplôme', 'awed.clickToDismiss': 'Cliquer pour fermer', 'awed.selectOrCreate': 'Sélectionne ou crée un diplôme.', 'awed.tabInfo': 'Infos diplôme', 'awed.tabType': 'Type de diplôme', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'Références', 'awed.awardName': 'Nom du diplôme', 'awed.valid': 'Valide', 'awed.deleteAward': 'Supprimer le diplôme', 'awed.description': 'Description', 'awed.awardUrl': 'URL du diplôme', 'awed.referenceUrl': 'URL de référence', 'awed.validFrom': 'Valide du', 'awed.validTo': 'Valide au', 'awed.dxccFilter': 'Filtre DXCC', 'awed.validBands': 'Bandes valides (vide = toutes)', 'awed.emission': 'Émission (vide = toutes)', 'awed.validModes': 'Modes valides (vide = tous)', 'awed.awardType': 'Type de diplôme', 'awed.allowMultiple': 'Autoriser plusieurs références sur un seul QSO', 'awed.dynamicRefs': 'Références dynamiques (non prédéfinies — toute valeur compte, comme POTA)', 'awed.qsoParams': 'Paramètres QSO (utilisés par les types QSOFIELDS / REFERENCE)', 'awed.searchInField': 'Chercher dans le champ', 'awed.matchBy': 'Correspondance par', 'awed.exactMatch': 'Correspondance exacte (sinon cherche la référence dans le champ)', 'awed.patternRegex': 'Motif (regex)', 'awed.patternPlaceholder': 'groupe 1 = référence (pour correspondance par motif / dynamique)', 'awed.leadingString': 'Chaîne de début', 'awed.trailingString': 'Chaîne de fin', 'awed.additionalSearches': 'Recherches supplémentaires', 'awed.orAlsoMatch': "— correspond aussi à la référence si l'une d'elles est trouvée", 'awed.addOr': 'Ajouter OU', 'awed.orSearchIn': 'OU — chercher dans', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Supprimer cette recherche OU', 'awed.orPatternPlaceholder': 'regex — groupe 1 = référence (ex. \\b(\\d{2})\\d{3}\\b pour code postal → dépt)', 'awed.prefixPlaceholder': 'préfixe (D)', 'awed.prefixTitle': 'Ajouté devant chaque référence trouvée, ex. 74 → D74', 'awed.confirmationLabel': 'Confirmation (contacté → confirmé)', 'awed.validationLabel': 'Validation (confirmé → validé)', 'awed.grantCodes': "Codes d'attribution", 'awed.exportCreditGranted': 'Exporter le diplôme dans le champ ADIF credit_granted', 'awed.resetDefaults': 'Réinitialiser par défaut', 'awed.exportTitle': 'Exporter toutes les définitions de diplômes + listes de références vers une sauvegarde JSON', 'awed.export': 'Exporter…', 'awed.importTitle': 'Importer un lot de diplômes (définitions + listes de références)', 'awed.import': 'Importer…', 'awed.cancel': 'Annuler', 'awed.save': 'Enregistrer', 'awed.populatedMsg': '{n} références intégrées ajoutées.', 'awed.newRefCodePrompt': 'Nouveau code de référence :', 'awed.importedRefsMsg': '{n} références importées.', 'awed.referenceCount': 'Nombre de références :', 'awed.applyPreset': 'Appliquer un préréglage…', 'awed.pasteCsv': 'Coller / CSV', 'awed.populateBuiltinTitle': 'Remplacer par la liste intégrée fournie (entités DXCC, départements français, …)', 'awed.populateBuiltin': "Charger l'intégrée", 'awed.updateOnline': 'Mettre à jour en ligne', 'awed.add': 'Ajouter', 'awed.onePerLine': 'Une référence par ligne :', 'awed.replacesList': '(virgule/point-virgule/tab). Remplace toute la liste.', 'awed.import2': 'Importer', 'awed.search': 'Rechercher…', 'awed.searching': 'Recherche…', 'awed.tooManyItems': "Trop d'éléments ({total}). Affine la recherche (tape 2+ caractères).", 'awed.noReferences': 'Aucune référence.', 'awed.selectReference': 'Sélectionne une référence, ou Ajouter / importer une liste.', 'awed.group': 'Groupe', 'awed.subgroup': 'Sous-groupe', 'awed.perRefRegex': 'regex optionnelle par référence', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Locator', 'awed.saveReference': 'Enregistrer la référence',
'awed.addCountry': 'Ajouter un pays…', 'awed.exportedTo': 'Diplômes exportés vers :\n{path}', 'awed.importedMsg': '{awards} diplôme(s) et {references} référence(s) importés.', 'awed.awardManagement': 'Gestion des diplômes', 'awed.searchAwards': 'Rechercher un diplôme…', 'awed.newAward': 'Nouveau diplôme', 'awed.clickToDismiss': 'Cliquer pour fermer', 'awed.selectOrCreate': 'Sélectionne ou crée un diplôme.', 'awed.tabInfo': 'Infos diplôme', 'awed.tabType': 'Type de diplôme', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'Références', 'awed.awardName': 'Nom du diplôme', 'awed.valid': 'Valide', 'awed.deleteAward': 'Supprimer le diplôme', 'awed.description': 'Description', 'awed.awardUrl': 'URL du diplôme', 'awed.refDisplay': 'La colonne affiche', 'awed.refDisplayRef': 'Référence', 'awed.refDisplayName': 'Description / nom', 'awed.refDisplayBoth': 'Les deux (réf — nom)', 'awed.referenceUrl': 'URL de référence', 'awed.validFrom': 'Valide du', 'awed.validTo': 'Valide au', 'awed.dxccFilter': 'Filtre DXCC', 'awed.validBands': 'Bandes valides (vide = toutes)', 'awed.emission': 'Émission (vide = toutes)', 'awed.validModes': 'Modes valides (vide = tous)', 'awed.awardType': 'Type de diplôme', 'awed.allowMultiple': 'Autoriser plusieurs références sur un seul QSO', 'awed.dynamicRefs': 'Références dynamiques (non prédéfinies — toute valeur compte, comme POTA)', 'awed.qsoParams': 'Paramètres QSO (utilisés par les types QSOFIELDS / REFERENCE)', 'awed.searchInField': 'Chercher dans le champ', 'awed.matchBy': 'Correspondance par', 'awed.exactMatch': 'Correspondance exacte (sinon cherche la référence dans le champ)', 'awed.patternRegex': 'Motif (regex)', 'awed.patternPlaceholder': 'groupe 1 = référence (pour correspondance par motif / dynamique)', 'awed.leadingString': 'Chaîne de début', 'awed.trailingString': 'Chaîne de fin', 'awed.additionalSearches': 'Recherches supplémentaires', 'awed.orAlsoMatch': "— correspond aussi à la référence si l'une d'elles est trouvée", 'awed.addOr': 'Ajouter OU', 'awed.orSearchIn': 'OU — chercher dans', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Supprimer cette recherche OU', 'awed.orPatternPlaceholder': 'regex — groupe 1 = référence (ex. \\b(\\d{2})\\d{3}\\b pour code postal → dépt)', 'awed.prefixPlaceholder': 'préfixe (D)', 'awed.prefixTitle': 'Ajouté devant chaque référence trouvée, ex. 74 → D74', 'awed.confirmationLabel': 'Confirmation (contacté → confirmé)', 'awed.validationLabel': 'Validation (confirmé → validé)', 'awed.grantCodes': "Codes d'attribution", 'awed.exportCreditGranted': 'Exporter le diplôme dans le champ ADIF credit_granted', 'awed.resetDefaults': 'Réinitialiser par défaut', 'awed.exportTitle': 'Exporter toutes les définitions de diplômes + listes de références vers une sauvegarde JSON', 'awed.export': 'Exporter…', 'awed.importTitle': 'Importer un lot de diplômes (définitions + listes de références)', 'awed.import': 'Importer…', 'awed.cancel': 'Annuler', 'awed.save': 'Enregistrer', 'awed.populatedMsg': '{n} références intégrées ajoutées.', 'awed.newRefCodePrompt': 'Nouveau code de référence :', 'awed.importedRefsMsg': '{n} références importées.', 'awed.referenceCount': 'Nombre de références :', 'awed.applyPreset': 'Appliquer un préréglage…', 'awed.pasteCsv': 'Coller / CSV', 'awed.populateBuiltinTitle': 'Remplacer par la liste intégrée fournie (entités DXCC, départements français, …)', 'awed.populateBuiltin': "Charger l'intégrée", 'awed.updateOnline': 'Mettre à jour en ligne', 'awed.add': 'Ajouter', 'awed.onePerLine': 'Une référence par ligne :', 'awed.replacesList': '(virgule/point-virgule/tab). Remplace toute la liste.', 'awed.import2': 'Importer', 'awed.search': 'Rechercher…', 'awed.searching': 'Recherche…', 'awed.tooManyItems': "Trop d'éléments ({total}). Affine la recherche (tape 2+ caractères).", 'awed.noReferences': 'Aucune référence.', 'awed.selectReference': 'Sélectionne une référence, ou Ajouter / importer une liste.', 'awed.group': 'Groupe', 'awed.subgroup': 'Sous-groupe', 'awed.perRefRegex': 'regex optionnelle par référence', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Locator', 'awed.saveReference': 'Enregistrer la référence',
'qctx.selected': '{n} QSO sélectionné(s)', 'qctx.fixCountry': 'Corriger pays et zones depuis cty.dat', 'qctx.updateQrz': 'Mettre à jour depuis QRZ.com', 'qctx.updateClublog': 'Mettre à jour depuis ClubLog (exceptions)', 'qctx.sendQslEmail': 'Envoyer la QSL OpsLog par e-mail', 'qctx.sendRecording': "Envoyer l'enregistrement par e-mail", 'qctx.bulkEdit': "Édition groupée d'un champ… ({n})", 'qctx.exportSelectedAdif': 'Exporter la sélection en ADIF ({n})', 'qctx.exportFilteredAdif': 'Exporter la vue filtrée en ADIF (sans limite)', 'qctx.exportSelectedCabrillo': 'Exporter la sélection en Cabrillo ({n})', 'qctx.exportFilteredCabrillo': 'Exporter la vue filtrée en Cabrillo (sans limite)', 'qctx.sendTo': 'Envoyer vers {name}', 'qctx.delete': 'Supprimer {n} QSO…',
'bulk.fLotwSent': 'LoTW envoyé', 'bulk.fLotwRcvd': 'LoTW reçu', 'bulk.fEqslSent': 'eQSL envoyé', 'bulk.fEqslRcvd': 'eQSL reçu', 'bulk.fQslSent': 'QSL papier envoyée', 'bulk.fQslRcvd': 'QSL papier reçue', 'bulk.fQrzUpload': 'Envoi QRZ.com', 'bulk.fClublogUpload': 'Envoi Club Log', 'bulk.fHrdlogUpload': 'Envoi HRDLog', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Indicatif de la station', 'bulk.fOperator': 'Opérateur', 'bulk.fMyGrid': 'Mon locator', 'bulk.fMyAntenna': 'Mon antenne', 'bulk.fMyRig': 'Mon équipement', 'bulk.fMyStreet': 'Ma rue', 'bulk.fMyCity': 'Ma ville', 'bulk.fMyPostal': 'Mon code postal', 'bulk.fMyCountry': 'Mon pays', 'bulk.fMyState': 'Mon état', 'bulk.fMyCounty': 'Mon comté', 'bulk.fMyIota': 'Mon IOTA', 'bulk.fMySota': 'Ma réf. SOTA', 'bulk.fMyPota': 'Ma réf. POTA', 'bulk.fMyWwff': 'Ma réf. WWFF', 'bulk.fMySig': 'Mon SIG', 'bulk.fMySigInfo': 'Mon info SIG', 'bulk.fComment': 'Commentaire', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Équipement (contacté)', 'bulk.fAnt': 'Antenne (contactée)', 'bulk.statusY': 'Y — Oui / envoyé', 'bulk.statusN': 'N — Non', 'bulk.statusR': 'R — Demandé', 'bulk.statusI': 'I — Ignorer', 'bulk.statusBlank': '(vide — effacer)', 'bulk.groupQsl': 'QSL / envoi', 'bulk.groupMyStation': 'Ma station', 'bulk.groupMisc': 'Divers', 'bulk.title': "Édition groupée d'un champ", 'bulk.desc': 'Définir un champ sur les {n} QSO sélectionné(s). Cela écrase la valeur actuelle — aucune annulation possible.', 'bulk.fieldLabel': 'Champ', 'bulk.valueLabel': 'Valeur', 'bulk.clearPlaceholder': 'laisser vide pour effacer le champ', 'bulk.willSet': 'Définira', 'bulk.blank': '(vide)', 'bulk.onQsos': 'sur {n} QSO.', 'bulk.cancel': 'Annuler', 'bulk.applyTo': 'Appliquer à {n}',
'bulk.fLotwSent': 'LoTW envoyé', 'bulk.fLotwRcvd': 'LoTW reçu', 'bulk.fEqslSent': 'eQSL envoyé', 'bulk.fEqslRcvd': 'eQSL reçu', 'bulk.fQslSent': 'QSL papier envoyée', 'bulk.fQslRcvd': 'QSL papier reçue', 'bulk.fQrzUpload': 'Envoi QRZ.com', 'bulk.fClublogUpload': 'Envoi Club Log', 'bulk.fHrdlogUpload': 'Envoi HRDLog', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Indicatif de la station', 'bulk.fOperator': 'Opérateur', 'bulk.fMyGrid': 'Mon locator', 'bulk.fMyAntenna': 'Mon antenne', 'bulk.fMyRig': 'Mon équipement', 'bulk.fMyStreet': 'Ma rue', 'bulk.fMyCity': 'Ma ville', 'bulk.fMyPostal': 'Mon code postal', 'bulk.fMyCountry': 'Mon pays', 'bulk.fMyState': 'Mon état', 'bulk.fMyCounty': 'Mon comté', 'bulk.fMyIota': 'Mon IOTA', 'bulk.fMySota': 'Ma réf. SOTA', 'bulk.fMyPota': 'Ma réf. POTA', 'bulk.fMyWwff': 'Ma réf. WWFF', 'bulk.fMySig': 'Mon SIG', 'bulk.fMySigInfo': 'Mon info SIG', 'bulk.fContestId': 'ID concours', 'bulk.fSrxString': 'Série reçue (échange)', 'bulk.fStxString': 'Série envoyée (échange)', 'bulk.fArrlSect': 'Section ARRL', 'bulk.fPrecedence': 'Précédence', 'bulk.fClass': 'Classe', 'bulk.fPropMode': 'Mode de propagation', 'bulk.fSatName': 'Nom du satellite', 'bulk.fSatMode': 'Mode satellite', 'bulk.fPotaRef': 'Réf POTA', 'bulk.fSotaRef': 'Réf SOTA', 'bulk.fWwffRef': 'Réf WWFF', 'bulk.fIota': 'IOTA', 'bulk.fSig': 'SIG', 'bulk.fSigInfo': 'Info SIG', 'bulk.fComment': 'Commentaire', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Équipement (contacté)', 'bulk.fAnt': 'Antenne (contactée)', 'bulk.statusY': 'Y — Oui / envoyé', 'bulk.statusN': 'N — Non', 'bulk.statusR': 'R — Demandé', 'bulk.statusI': 'I — Ignorer', 'bulk.statusBlank': '(vide — effacer)', 'bulk.groupQsl': 'QSL / envoi', 'bulk.groupMyStation': 'Ma station', 'bulk.groupContacted': 'Station contactée', 'bulk.groupContest': 'Concours', 'bulk.groupPropagation': 'Propagation', 'bulk.groupMisc': 'Divers', 'bulk.title': "Édition groupée d'un champ", 'bulk.desc': 'Définir un champ sur les {n} QSO sélectionné(s). Cela écrase la valeur actuelle — aucune annulation possible.', 'bulk.fieldLabel': 'Champ', 'bulk.valueLabel': 'Valeur', 'bulk.clearPlaceholder': 'laisser vide pour effacer le champ', 'bulk.willSet': 'Définira', 'bulk.blank': '(vide)', 'bulk.onQsos': 'sur {n} QSO.', 'bulk.cancel': 'Annuler', 'bulk.applyTo': 'Appliquer à {n}',
'qslm.leave': '— laisser —', 'qslm.yes': 'Oui', 'qslm.no': 'Non', 'qslm.requested': 'Demandé', 'qslm.ignore': 'Ignorer', 'qslm.viaBureau': 'Bureau', 'qslm.viaDirect': 'Direct', 'qslm.viaElectronic': 'Électronique', 'qslm.svcPota': 'Journal chasseur POTA', 'qslm.svcPaper': 'QSL papier', 'qslm.sentRequested': 'Demandé', 'qslm.sentNo': 'Non', 'qslm.sentQueued': 'En file', 'qslm.sentYes': 'Oui (déjà envoyé)', 'qslm.sentInvalid': 'Invalide', 'qslm.sentBlank': '— vide —', 'qslm.qsoUpdated': '{n} QSO mis à jour.', 'qslm.service': 'Service', 'qslm.callsign': 'Indicatif', 'qslm.callsignScopeTitle': "L'envoi/téléchargement est limité à cet indicatif (indicatif de station forcé, sinon celui du profil actif)", 'qslm.syncHunterLog': 'Synchroniser le journal chasseur', 'qslm.onlyMyCallTitle': "Ne synchroniser que les chasses faites sous l'indicatif de votre profil actif — ignorer les QSO faits sous un autre indicatif (ex. XV9Q, NQ2H) absents de ce journal", 'qslm.onlyMyCall': "Uniquement l'indicatif de mon profil", 'qslm.addMissingTitle': "Insérer les contacts du journal chasseur dont l'indicatif n'est pas encore dans votre journal (indicatif/date/bande/mode/parc)", 'qslm.addMissing': 'Ajouter les QSO introuvables à mon journal', 'qslm.potaToken': 'Jeton dans Réglages → Services externes → POTA.', 'qslm.callsignPlaceholder': 'ex. DL1ABC', 'qslm.search': 'Rechercher', 'qslm.paperHint': 'Trouvez un indicatif, puis définissez QSL envoyée/reçue + via + date sur la sélection.', 'qslm.sentStatus': 'Statut envoyé', 'qslm.selectRequired': 'Sélectionner les requis', 'qslm.potaSummaryShort': '{updated} mis à jour · {added} ajoutés · {already} déjà · {unmatched} sans correspondance', 'qslm.potaOtherCall': ' · {n} autre indicatif', 'qslm.paperCount': '{total} QSO · {selected} sélectionné(s)', 'qslm.filter': 'Filtre', 'qslm.filterAll': 'Tous', 'qslm.filterNew': 'Nouveau (tout)', 'qslm.filterNewDxcc': 'Nouveau DXCC', 'qslm.filterNewBand': 'Nouvelle bande', 'qslm.filterNewSlot': 'Nouveau créneau', 'qslm.results': 'Résultats', 'qslm.log': 'Journal', 'qslm.confCount': '{shown} / {total} confirmation(s)', 'qslm.foundCount': '{found} trouvé(s) · {selected} sélectionné(s)', 'qslm.paperEmpty': 'Recherchez un indicatif pour lister ses QSO, puis définissez le statut QSL ci-dessous.', 'qslm.potaEmpty': 'Cliquez sur « Synchroniser le journal chasseur » pour récupérer votre journal pota.app et tamponner les références de parc.', 'qslm.potaSyncing': 'Synchronisation avec pota.app…', 'qslm.potaSummary': '{updated} QSO mis à jour · {added} ajoutés au journal · {already} déjà tamponnés · {unmatched} sans correspondance (sur {fetched} entrées du journal chasseur).', 'qslm.potaSkipped': ' {n} chasse(s) faites sous un autre indicatif ont été ignorées', 'qslm.potaKeptOnly': ' (conservé uniquement {call})', 'qslm.potaRescan': 'Relancez le scan du diplôme POTA pour compter les nouvelles références.', 'qslm.thActivator': 'Activateur', 'qslm.thDateUtc': 'Date UTC', 'qslm.thBand': 'Bande', 'qslm.thPark': 'Parc', 'qslm.thWhyUnmatched': 'Pourquoi sans correspondance', 'qslm.openToFix': 'Ouvrir ce QSO pour le corriger', 'qslm.starting': 'démarrage…', 'qslm.working': 'en cours…', 'qslm.noNewConf': 'Aucune nouvelle confirmation.', 'qslm.noConfMatch': 'Aucune confirmation ne correspond à ce filtre.', 'qslm.thCallsign': 'Indicatif', 'qslm.thMode': 'Mode', 'qslm.thCountry': 'Pays', 'qslm.thNew': 'Nouveau ?', 'qslm.newDxcc': 'NOUVEAU DXCC', 'qslm.newBand': 'NOUVELLE BANDE', 'qslm.newSlot': 'NOUVEAU CRÉNEAU', 'qslm.uploadEmpty': 'Choisissez un service + statut envoyé, puis « Sélectionner les requis ».', 'qslm.qslReceived': 'QSL reçue', 'qslm.qslRcvdDateTitle': 'Date de réception QSL', 'qslm.qslSent': 'QSL envoyée', 'qslm.qslSentDateTitle': "Date d'envoi QSL", 'qslm.via': 'Via', 'qslm.notes': 'Notes', 'qslm.notesPlaceholder': 'ex. payé 3€', 'qslm.comment': 'Commentaire', 'qslm.commentPlaceholder': 'commentaire', 'qslm.applyToSelected': 'Appliquer à {n} sélectionné(s)', 'qslm.downloadTitle': 'Récupérer les confirmations du service et mettre à jour le statut reçu', 'qslm.downloadConf': 'Télécharger les confirmations', 'qslm.downloadRangeTitle': "Jusqu'où télécharger", 'qslm.sinceLast': 'Depuis le dernier téléchargement', 'qslm.sinceDate': 'Depuis une date…', 'qslm.sinceAll': 'Tout', 'qslm.sinceDateTitleQrz': 'QRZ : filtre par date de QSO (pas de filtre par date de réception côté serveur)', 'qslm.sinceDateTitleLotw': 'LoTW : confirmations reçues depuis cette date', 'qslm.addNotFoundTitle': "Insérer les QSO confirmés qui ne sont pas encore dans votre journal", 'qslm.addNotFound': 'Ajouter les introuvables', 'qslm.uploadTo': 'Envoyer {n} vers {service}',
'qedit.qslDash': '—', 'qedit.qslYes': 'Oui', 'qedit.qslNo': 'Non', 'qedit.qslRequested': 'Demandé', 'qedit.qslIgnore': 'Ignorer', 'qedit.statusModified': 'Modifié', 'qedit.confQslPaper': 'QSL (papier)', 'qedit.callsignRequired': 'Indicatif requis', 'qedit.lookupError': 'Recherche : {msg}', 'qedit.title': 'Modifier le QSO', 'qedit.editFieldsFor': 'Modifier les champs du QSO #{id}', 'qedit.tabQsoInfo': 'Infos QSO', 'qedit.tabContact': 'Détails du contact', 'qedit.tabAwards': 'Réf. diplômes', 'qedit.tabQsl': 'Infos QSL', 'qedit.tabContest': 'Concours', 'qedit.tabSat': 'Sat / Prop', 'qedit.tabMyStation': 'Ma station', 'qedit.tabMoreAdif': "Plus d'ADIF", 'qedit.tabAdifFields': 'Champs ADIF', 'qedit.callsign': 'Indicatif', 'qedit.fetchTitle': 'Rechercher cet indicatif (QRZ.com / HamQTH) et actualiser nom, pays, locator, zones…', 'qedit.fetch': 'Rechercher', 'qedit.name': 'Nom', 'qedit.band': 'Bande', 'qedit.rxBand': 'Bande RX', 'qedit.mode': 'Mode', 'qedit.country': 'Pays', 'qedit.dxccTitle': "Entité DXCC n° — définie automatiquement d'après le pays", 'qedit.txFreq': 'Fréq. TX', 'qedit.rxFreq': 'Fréq. RX', 'qedit.qsoStart': 'Début QSO (UTC)', 'qedit.qsoEnd': 'Fin QSO (UTC)', 'qedit.grid': 'Locator', 'qedit.comment': 'Commentaire', 'qedit.note': 'Note', 'qedit.county': 'Comté', 'qedit.state': 'État', 'qedit.continent': 'Continent', 'qedit.address': 'Adresse', 'qedit.email': 'Adresse e-mail', 'qedit.qslMsg': 'Message QSL', 'qedit.qslVia': 'QSL Via', 'qedit.computedAuto': 'Calculé (automatique)', 'qedit.computedHint': 'Dérivé des champs de ce QSO (DXCC, zones, préfixe, notes…). Non modifiable ici.', 'qedit.noneYet': "Aucun pour l'instant.", 'qedit.manageConf': 'Gérer la confirmation', 'qedit.sent': 'Envoyé', 'qedit.received': 'Reçu', 'qedit.dateSent': "Date d'envoi", 'qedit.dateReceived': 'Date de réception', 'qedit.via': 'Via', 'qedit.viaPlaceholder': 'BUREAU / DIRECT / manager…', 'qedit.qslPanelHint': 'Choisissez un canal, modifiez-le — le tableau de droite se met à jour en direct. Tout est enregistré quand vous cliquez sur', 'qedit.saveChanges': 'Enregistrer', 'qedit.thType': 'Type', 'qedit.contestId': 'ID concours', 'qedit.rcvdExchange': 'échange reçu', 'qedit.sentExchange': 'échange envoyé', 'qedit.check': 'Check', 'qedit.precedence': 'Précédence', 'qedit.arrlSection': 'Section ARRL', 'qedit.propMode': 'Mode de propagation', 'qedit.satName': 'Nom du satellite', 'qedit.satMode': 'Mode satellite', 'qedit.antAz': 'Azimut antenne (°)', 'qedit.antEl': 'Élévation antenne (°)', 'qedit.antPath': "Chemin d'antenne", 'qedit.myStationHint': 'Ces valeurs remplacent le profil de station actif pour ce QSO uniquement.', 'qedit.stationCallsign': 'Indicatif de la station', 'qedit.operator': 'Opérateur', 'qedit.myGrid': 'Mon locator', 'qedit.gridExt': 'Ext. locator', 'qedit.cqZone': 'Zone CQ', 'qedit.ituZone': 'Zone ITU', 'qedit.sotaRef': 'Réf. SOTA', 'qedit.potaRef': 'Réf. POTA', 'qedit.street': 'Rue', 'qedit.city': 'Ville', 'qedit.postal': 'Code postal', 'qedit.rig': 'Équipement', 'qedit.antenna': 'Antenne', 'qedit.specialActivity': 'Activité spéciale', 'qedit.sigInfo': 'Info SIG', 'qedit.wwffRef': 'Réf. WWFF', 'qedit.region': 'Région', 'qedit.powerWeather': 'Puissance et météo spatiale', 'qedit.rxPower': 'Puissance RX (W)', 'qedit.distance': 'Distance (km)', 'qedit.aIndex': 'Indice A', 'qedit.kIndex': 'Indice K', 'qedit.identityClubs': 'Identité et clubs', 'qedit.contactedOp': 'Opérateur contacté', 'qedit.formerCall': 'Ancien indicatif (EQ_CALL)', 'qedit.class': 'Classe', 'qedit.flagsCredits': 'Indicateurs et crédits', 'qedit.qsoComplete': 'QSO complet', 'qedit.qsoRandom': 'QSO aléatoire', 'qedit.silentKey': 'Silent key', 'qedit.creditGranted': 'Crédit accordé', 'qedit.creditSubmitted': 'Crédit soumis', 'qedit.myStationAdif': 'Ma station (ADIF)', 'qedit.myName': 'Mon nom', 'qedit.myWwffRef': 'Ma réf. WWFF', 'qedit.myArrlSect': 'Ma section ARRL', 'qedit.mySig': 'Mon SIG', 'qedit.mySigInfo': 'Mon info SIG', 'qedit.myDarcDok': 'Mon DARC DOK', 'qedit.myVuccGrids': 'Mes locators VUCC', 'qedit.delete': 'Supprimer', 'qedit.cancel': 'Annuler', 'qedit.saving': 'Enregistrement…',
'rqg.c.qso_date': 'Date UTC', 'rqg.c.qso_date_off': 'Date fin', 'rqg.c.callsign': 'Indicatif', 'rqg.c.band': 'Bande', 'rqg.c.band_rx': 'Bande RX', 'rqg.c.mode': 'Mode', 'rqg.c.submode': 'Sous-mode', 'rqg.c.freq_hz': 'Fréq (TX)', 'rqg.h.freq_hz': 'Fréq', 'rqg.c.freq_rx_hz': 'Fréq (RX)', 'rqg.h.freq_rx_hz': 'Fréq RX', 'rqg.c.rst_sent': 'RST env', 'rqg.c.rst_rcvd': 'RST reçu', 'rqg.c.tx_pwr': 'Puiss. TX', 'rqg.c.name': 'Nom', 'rqg.c.qth': 'QTH', 'rqg.c.address': 'Adresse', 'rqg.c.country': 'Pays', 'rqg.c.state': 'État', 'rqg.c.cnty': 'Comté', 'rqg.c.cont': 'Continent', 'rqg.h.cont': 'Cont', 'rqg.c.grid': 'Locator', 'rqg.c.gridsquare_ext': 'Ext. loc.', 'rqg.h.gridsquare_ext': 'ExtLoc', 'rqg.c.vucc_grids': 'Locators VUCC', 'rqg.h.vucc_grids': 'VUCC', 'rqg.c.dxcc': 'DXCC #', 'rqg.c.cqz': 'CQZ', 'rqg.c.ituz': 'ITU', 'rqg.c.iota': 'IOTA', 'rqg.c.sota_ref': 'Réf. SOTA', 'rqg.h.sota_ref': 'SOTA', 'rqg.c.pota_ref': 'Réf. POTA', 'rqg.h.pota_ref': 'POTA', 'rqg.c.age': 'Âge', 'rqg.c.lat': 'Lat', 'rqg.c.lon': 'Lon', 'rqg.c.email': 'E-mail', 'rqg.c.web': 'Web', 'rqg.c.qsl_sent': 'QSL env', 'rqg.c.qsl_rcvd': 'QSL reçu', 'rqg.c.qsl_sent_date': 'Date env QSL', 'rqg.h.qsl_sent_date': 'QSL env.', 'rqg.c.qsl_rcvd_date': 'Date reçu QSL', 'rqg.h.qsl_rcvd_date': 'QSL reçu', 'rqg.c.qsl_via': 'QSL via', 'rqg.c.qsl_msg': 'Msg QSL', 'rqg.c.qslmsg_rcvd': 'Msg QSL reçu', 'rqg.c.lotw_sent': 'LoTW env', 'rqg.c.lotw_rcvd': 'LoTW reçu', 'rqg.c.lotw_sent_date': 'Date env LoTW', 'rqg.h.lotw_sent_date': 'LoTW env.', 'rqg.c.lotw_rcvd_date': 'Date reçu LoTW', 'rqg.h.lotw_rcvd_date': 'LoTW reçu', 'rqg.c.eqsl_sent': 'eQSL env', 'rqg.c.eqsl_rcvd': 'eQSL reçu', 'rqg.c.eqsl_sent_date': 'Date env eQSL', 'rqg.h.eqsl_sent_date': 'eQSL env.', 'rqg.c.eqsl_rcvd_date': 'Date reçu eQSL', 'rqg.h.eqsl_rcvd_date': 'eQSL reçu', 'rqg.c.opslog_qsl_card_sent': 'QSL OpsLog', 'rqg.c.opslog_recording_sent': 'Enreg. envoyé', 'rqg.h.opslog_recording_sent': 'Enr. env', 'rqg.c.clublog_sent': 'ClubLog env', 'rqg.c.clublog_sent_date': 'Date env ClubLog', 'rqg.h.clublog_sent_date': 'ClubLog env.', 'rqg.c.hrdlog_sent': 'HRDLog env', 'rqg.c.hrdlog_sent_date': 'Date env HRDLog', 'rqg.h.hrdlog_sent_date': 'HRDLog env.', 'rqg.c.qrz_sent': 'QRZ.com env', 'rqg.c.qrz_rcvd': 'QRZ.com reçu', 'rqg.c.qrz_sent_date': 'Date env QRZ.com', 'rqg.h.qrz_sent_date': 'QRZ.com env.', 'rqg.c.qrz_rcvd_date': 'Date reçu QRZ.com', 'rqg.h.qrz_rcvd_date': 'QRZ.com reçu', 'rqg.c.contest_id': 'ID concours', 'rqg.h.contest_id': 'Concours', 'rqg.c.srx': 'SRX', 'rqg.c.stx': 'STX', 'rqg.c.srx_string': 'Chaîne SRX', 'rqg.h.srx_string': 'SRX str', 'rqg.c.stx_string': 'Chaîne STX', 'rqg.h.stx_string': 'STX str', 'rqg.c.check': 'Check', 'rqg.c.precedence': 'Précédence', 'rqg.c.arrl_sect': 'Section ARRL', 'rqg.h.arrl_sect': 'Sect. ARRL', 'rqg.c.prop_mode': 'Mode prop.', 'rqg.h.prop_mode': 'Prop', 'rqg.c.sat_name': 'Nom sat.', 'rqg.h.sat_name': 'Sat', 'rqg.c.sat_mode': 'Mode sat.', 'rqg.c.ant_az': 'Azimut ant.', 'rqg.h.ant_az': 'Az', 'rqg.c.ant_el': 'Élévation ant.', 'rqg.h.ant_el': 'Él', 'rqg.c.ant_path': 'Chemin ant.', 'rqg.h.ant_path': 'Chemin', 'rqg.c.station_callsign': 'Indicatif station', 'rqg.h.station_callsign': 'Station', 'rqg.c.operator': 'Opérateur', 'rqg.c.my_grid': 'Mon locator', 'rqg.c.my_country': 'Mon pays', 'rqg.h.my_country': 'Mon pays', 'rqg.c.my_state': 'Mon état', 'rqg.c.my_cnty': 'Mon comté', 'rqg.h.my_cnty': 'Mon comté', 'rqg.c.my_iota': 'Mon IOTA', 'rqg.c.my_sota': 'Mon SOTA', 'rqg.c.my_pota': 'Mon POTA', 'rqg.c.my_dxcc': 'Mon DXCC', 'rqg.h.my_dxcc': 'Mon DXCC#', 'rqg.c.my_cq_zone': 'Ma zone CQ', 'rqg.h.my_cq_zone': 'Ma CQZ', 'rqg.c.my_itu_zone': 'Ma zone ITU', 'rqg.h.my_itu_zone': 'Ma ITU', 'rqg.c.my_lat': 'Ma lat', 'rqg.c.my_lon': 'Ma lon', 'rqg.c.my_street': 'Ma rue', 'rqg.h.my_street': 'Rue', 'rqg.c.my_city': 'Ma ville', 'rqg.h.my_city': 'Ville', 'rqg.c.my_zip': 'Mon code postal', 'rqg.h.my_zip': 'CP', 'rqg.c.my_rig': 'Mon équipement', 'rqg.c.my_antenna': 'Mon antenne', 'rqg.h.my_antenna': 'Mon ant.', 'rqg.c.comment': 'Commentaire', 'rqg.c.notes': 'Notes', 'rqg.c.created': 'Créé', 'rqg.h.created': 'Créé le', 'rqg.c.updated': 'Mis à jour', 'rqg.h.updated': 'Mis à jour le', 'rqg.grpQso': 'QSO', 'rqg.grpContacted': 'Station contactée', 'rqg.grpQsl': 'QSL', 'rqg.grpLotw': 'LoTW', 'rqg.grpEqsl': 'eQSL', 'rqg.grpUploads': 'Envois', 'rqg.grpContest': 'Concours', 'rqg.grpProp': 'Propagation', 'rqg.grpMyStation': 'Ma station', 'rqg.grpMisc': 'Divers', 'rqg.grpAwards': 'Diplômes', 'rqg.awardTip': '{name} — référence comptée pour ce QSO', 'rqg.clearFiltersTitle': 'Effacer tous les filtres de colonne', 'rqg.clearFilters': 'Effacer les filtres', 'rqg.columns': 'Colonnes', 'rqg.pickerDesc': 'Choisissez les colonnes à afficher dans le tableau des QSO récents. Votre sélection est enregistrée.', 'rqg.all': 'tout', 'rqg.none': 'aucun', 'rqg.resetDefaults': 'Réinitialiser', 'rqg.done': 'Terminé',
+1 -1
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@@ -1,6 +1,6 @@
// Single source of truth for the app version shown in the UI (header + About).
// Bump this on a release (the release script updates it alongside telemetry.go).
export const APP_VERSION = '0.17';
export const APP_VERSION = '0.19.2';
// Author / credits, shown in Help -> About.
export const APP_AUTHOR = 'F4BPO';
+56
View File
@@ -36,6 +36,18 @@ export function ApplyAwardPreset(arg1:string,arg2:string):Promise<number>;
export function AssignAwardRefToQSOs(arg1:string,arg2:string,arg3:Array<number>):Promise<number>;
export function AudioMonitorActive():Promise<boolean>;
export function AudioStartMonitor():Promise<void>;
export function AudioStartTX():Promise<void>;
export function AudioStopMonitor():Promise<void>;
export function AudioStopTX():Promise<void>;
export function AudioTXActive():Promise<boolean>;
export function AwardCellQSOs(arg1:string,arg2:string,arg3:string):Promise<Array<qso.QSO>>;
export function AwardFields():Promise<Array<string>>;
@@ -172,6 +184,8 @@ export function FlexSetAPFLevel(arg1:number):Promise<void>;
export function FlexSetATUMemories(arg1:boolean):Promise<void>;
export function FlexSetActiveSlice(arg1:number):Promise<void>;
export function FlexSetAudioLevel(arg1:number):Promise<void>;
export function FlexSetCWBreakInDelay(arg1:number):Promise<void>;
@@ -188,6 +202,8 @@ export function FlexSetFilter(arg1:number,arg2:number):Promise<void>;
export function FlexSetMic(arg1:number):Promise<void>;
export function FlexSetMicProfile(arg1:string):Promise<void>;
export function FlexSetMon(arg1:boolean):Promise<void>;
export function FlexSetMonLevel(arg1:number):Promise<void>;
@@ -216,6 +232,10 @@ export function FlexSetSplit(arg1:boolean):Promise<void>;
export function FlexSetTXAntenna(arg1:string):Promise<void>;
export function FlexSetTXFilter(arg1:number,arg2:number):Promise<void>;
export function FlexSetTXSlice(arg1:number):Promise<void>;
export function FlexSetTunePower(arg1:number):Promise<void>;
export function FlexSetVox(arg1:boolean):Promise<void>;
@@ -224,6 +244,10 @@ export function FlexSetVoxDelay(arg1:number):Promise<void>;
export function FlexSetVoxLevel(arg1:number):Promise<void>;
export function FlexSetWNB(arg1:boolean):Promise<void>;
export function FlexSetWNBLevel(arg1:number):Promise<void>;
export function FlexTune(arg1:boolean):Promise<void>;
export function GetActiveProfile():Promise<profile.Profile>;
@@ -350,16 +374,32 @@ export function IcomSetAGC(arg1:string):Promise<void>;
export function IcomSetANF(arg1:boolean):Promise<void>;
export function IcomSetAPF(arg1:boolean):Promise<void>;
export function IcomSetAntenna(arg1:number):Promise<void>;
export function IcomSetAntiVOX(arg1:number):Promise<void>;
export function IcomSetAtt(arg1:number):Promise<void>;
export function IcomSetBreakIn(arg1:number):Promise<void>;
export function IcomSetComp(arg1:boolean):Promise<void>;
export function IcomSetCompLevel(arg1:number):Promise<void>;
export function IcomSetFilter(arg1:number):Promise<void>;
export function IcomSetKeySpeed(arg1:number):Promise<void>;
export function IcomSetManualNotch(arg1:boolean):Promise<void>;
export function IcomSetMicGain(arg1:number):Promise<void>;
export function IcomSetMonLevel(arg1:number):Promise<void>;
export function IcomSetMonitor(arg1:boolean):Promise<void>;
export function IcomSetNB(arg1:boolean):Promise<void>;
export function IcomSetNBLevel(arg1:number):Promise<void>;
@@ -368,8 +408,16 @@ export function IcomSetNR(arg1:boolean):Promise<void>;
export function IcomSetNRLevel(arg1:number):Promise<void>;
export function IcomSetNotchPos(arg1:number):Promise<void>;
export function IcomSetPBTInner(arg1:number):Promise<void>;
export function IcomSetPBTOuter(arg1:number):Promise<void>;
export function IcomSetPTT(arg1:boolean):Promise<void>;
export function IcomSetPower(arg1:boolean):Promise<void>;
export function IcomSetPreamp(arg1:number):Promise<void>;
export function IcomSetRFGain(arg1:number):Promise<void>;
@@ -382,10 +430,18 @@ export function IcomSetRITOn(arg1:boolean):Promise<void>;
export function IcomSetScope(arg1:boolean):Promise<void>;
export function IcomSetScopeEdges(arg1:number,arg2:number):Promise<void>;
export function IcomSetScopeMode(arg1:boolean):Promise<void>;
export function IcomSetSplit(arg1:boolean):Promise<void>;
export function IcomSetSquelch(arg1:number):Promise<void>;
export function IcomSetVOX(arg1:boolean):Promise<void>;
export function IcomSetVOXGain(arg1:number):Promise<void>;
export function IcomSetXITOn(arg1:boolean):Promise<void>;
export function IcomStopCW():Promise<void>;
+112
View File
@@ -34,6 +34,30 @@ export function AssignAwardRefToQSOs(arg1, arg2, arg3) {
return window['go']['main']['App']['AssignAwardRefToQSOs'](arg1, arg2, arg3);
}
export function AudioMonitorActive() {
return window['go']['main']['App']['AudioMonitorActive']();
}
export function AudioStartMonitor() {
return window['go']['main']['App']['AudioStartMonitor']();
}
export function AudioStartTX() {
return window['go']['main']['App']['AudioStartTX']();
}
export function AudioStopMonitor() {
return window['go']['main']['App']['AudioStopMonitor']();
}
export function AudioStopTX() {
return window['go']['main']['App']['AudioStopTX']();
}
export function AudioTXActive() {
return window['go']['main']['App']['AudioTXActive']();
}
export function AwardCellQSOs(arg1, arg2, arg3) {
return window['go']['main']['App']['AwardCellQSOs'](arg1, arg2, arg3);
}
@@ -306,6 +330,10 @@ export function FlexSetATUMemories(arg1) {
return window['go']['main']['App']['FlexSetATUMemories'](arg1);
}
export function FlexSetActiveSlice(arg1) {
return window['go']['main']['App']['FlexSetActiveSlice'](arg1);
}
export function FlexSetAudioLevel(arg1) {
return window['go']['main']['App']['FlexSetAudioLevel'](arg1);
}
@@ -338,6 +366,10 @@ export function FlexSetMic(arg1) {
return window['go']['main']['App']['FlexSetMic'](arg1);
}
export function FlexSetMicProfile(arg1) {
return window['go']['main']['App']['FlexSetMicProfile'](arg1);
}
export function FlexSetMon(arg1) {
return window['go']['main']['App']['FlexSetMon'](arg1);
}
@@ -394,6 +426,14 @@ export function FlexSetTXAntenna(arg1) {
return window['go']['main']['App']['FlexSetTXAntenna'](arg1);
}
export function FlexSetTXFilter(arg1, arg2) {
return window['go']['main']['App']['FlexSetTXFilter'](arg1, arg2);
}
export function FlexSetTXSlice(arg1) {
return window['go']['main']['App']['FlexSetTXSlice'](arg1);
}
export function FlexSetTunePower(arg1) {
return window['go']['main']['App']['FlexSetTunePower'](arg1);
}
@@ -410,6 +450,14 @@ export function FlexSetVoxLevel(arg1) {
return window['go']['main']['App']['FlexSetVoxLevel'](arg1);
}
export function FlexSetWNB(arg1) {
return window['go']['main']['App']['FlexSetWNB'](arg1);
}
export function FlexSetWNBLevel(arg1) {
return window['go']['main']['App']['FlexSetWNBLevel'](arg1);
}
export function FlexTune(arg1) {
return window['go']['main']['App']['FlexTune'](arg1);
}
@@ -662,6 +710,18 @@ export function IcomSetANF(arg1) {
return window['go']['main']['App']['IcomSetANF'](arg1);
}
export function IcomSetAPF(arg1) {
return window['go']['main']['App']['IcomSetAPF'](arg1);
}
export function IcomSetAntenna(arg1) {
return window['go']['main']['App']['IcomSetAntenna'](arg1);
}
export function IcomSetAntiVOX(arg1) {
return window['go']['main']['App']['IcomSetAntiVOX'](arg1);
}
export function IcomSetAtt(arg1) {
return window['go']['main']['App']['IcomSetAtt'](arg1);
}
@@ -670,6 +730,14 @@ export function IcomSetBreakIn(arg1) {
return window['go']['main']['App']['IcomSetBreakIn'](arg1);
}
export function IcomSetComp(arg1) {
return window['go']['main']['App']['IcomSetComp'](arg1);
}
export function IcomSetCompLevel(arg1) {
return window['go']['main']['App']['IcomSetCompLevel'](arg1);
}
export function IcomSetFilter(arg1) {
return window['go']['main']['App']['IcomSetFilter'](arg1);
}
@@ -678,10 +746,22 @@ export function IcomSetKeySpeed(arg1) {
return window['go']['main']['App']['IcomSetKeySpeed'](arg1);
}
export function IcomSetManualNotch(arg1) {
return window['go']['main']['App']['IcomSetManualNotch'](arg1);
}
export function IcomSetMicGain(arg1) {
return window['go']['main']['App']['IcomSetMicGain'](arg1);
}
export function IcomSetMonLevel(arg1) {
return window['go']['main']['App']['IcomSetMonLevel'](arg1);
}
export function IcomSetMonitor(arg1) {
return window['go']['main']['App']['IcomSetMonitor'](arg1);
}
export function IcomSetNB(arg1) {
return window['go']['main']['App']['IcomSetNB'](arg1);
}
@@ -698,10 +778,26 @@ export function IcomSetNRLevel(arg1) {
return window['go']['main']['App']['IcomSetNRLevel'](arg1);
}
export function IcomSetNotchPos(arg1) {
return window['go']['main']['App']['IcomSetNotchPos'](arg1);
}
export function IcomSetPBTInner(arg1) {
return window['go']['main']['App']['IcomSetPBTInner'](arg1);
}
export function IcomSetPBTOuter(arg1) {
return window['go']['main']['App']['IcomSetPBTOuter'](arg1);
}
export function IcomSetPTT(arg1) {
return window['go']['main']['App']['IcomSetPTT'](arg1);
}
export function IcomSetPower(arg1) {
return window['go']['main']['App']['IcomSetPower'](arg1);
}
export function IcomSetPreamp(arg1) {
return window['go']['main']['App']['IcomSetPreamp'](arg1);
}
@@ -726,6 +822,10 @@ export function IcomSetScope(arg1) {
return window['go']['main']['App']['IcomSetScope'](arg1);
}
export function IcomSetScopeEdges(arg1, arg2) {
return window['go']['main']['App']['IcomSetScopeEdges'](arg1, arg2);
}
export function IcomSetScopeMode(arg1) {
return window['go']['main']['App']['IcomSetScopeMode'](arg1);
}
@@ -734,6 +834,18 @@ export function IcomSetSplit(arg1) {
return window['go']['main']['App']['IcomSetSplit'](arg1);
}
export function IcomSetSquelch(arg1) {
return window['go']['main']['App']['IcomSetSquelch'](arg1);
}
export function IcomSetVOX(arg1) {
return window['go']['main']['App']['IcomSetVOX'](arg1);
}
export function IcomSetVOXGain(arg1) {
return window['go']['main']['App']['IcomSetVOXGain'](arg1);
}
export function IcomSetXITOn(arg1) {
return window['go']['main']['App']['IcomSetXITOn'](arg1);
}
+94
View File
@@ -117,6 +117,7 @@ export namespace antgenius {
export class Antenna {
index: number;
name: string;
bands: number;
static createFrom(source: any = {}) {
return new Antenna(source);
@@ -126,6 +127,7 @@ export namespace antgenius {
if ('string' === typeof source) source = JSON.parse(source);
this.index = source["index"];
this.name = source["name"];
this.bands = source["bands"];
}
}
export class Status {
@@ -250,6 +252,7 @@ export namespace award {
valid_from?: string;
valid_to?: string;
alias?: string;
ref_display?: string;
type?: string;
field: string;
match_by?: string;
@@ -289,6 +292,7 @@ export namespace award {
this.valid_from = source["valid_from"];
this.valid_to = source["valid_to"];
this.alias = source["alias"];
this.ref_display = source["ref_display"];
this.type = source["type"];
this.field = source["field"];
this.match_by = source["match_by"];
@@ -541,9 +545,34 @@ export namespace cat {
this.callsign = source["callsign"];
}
}
export class FlexSliceInfo {
index: number;
letter: string;
freq_hz: number;
mode?: string;
band?: string;
active: boolean;
tx: boolean;
static createFrom(source: any = {}) {
return new FlexSliceInfo(source);
}
constructor(source: any = {}) {
if ('string' === typeof source) source = JSON.parse(source);
this.index = source["index"];
this.letter = source["letter"];
this.freq_hz = source["freq_hz"];
this.mode = source["mode"];
this.band = source["band"];
this.active = source["active"];
this.tx = source["tx"];
}
}
export class FlexTXState {
available: boolean;
model?: string;
slices?: FlexSliceInfo[];
rf_power: number;
tune_power: number;
tune: boolean;
@@ -556,6 +585,10 @@ export namespace cat {
mon: boolean;
mon_level: number;
mic_level: number;
tx_filter_low: number;
tx_filter_high: number;
mic_profile?: string;
mic_profiles?: string[];
atu_status?: string;
atu_memories: boolean;
rx_avail: boolean;
@@ -576,6 +609,8 @@ export namespace cat {
nr_level: number;
anf: boolean;
anf_level: number;
wnb: boolean;
wnb_level: number;
mode?: string;
cw_speed: number;
cw_pitch: number;
@@ -600,6 +635,7 @@ export namespace cat {
if ('string' === typeof source) source = JSON.parse(source);
this.available = source["available"];
this.model = source["model"];
this.slices = this.convertValues(source["slices"], FlexSliceInfo);
this.rf_power = source["rf_power"];
this.tune_power = source["tune_power"];
this.tune = source["tune"];
@@ -612,6 +648,10 @@ export namespace cat {
this.mon = source["mon"];
this.mon_level = source["mon_level"];
this.mic_level = source["mic_level"];
this.tx_filter_low = source["tx_filter_low"];
this.tx_filter_high = source["tx_filter_high"];
this.mic_profile = source["mic_profile"];
this.mic_profiles = source["mic_profiles"];
this.atu_status = source["atu_status"];
this.atu_memories = source["atu_memories"];
this.rx_avail = source["rx_avail"];
@@ -632,6 +672,8 @@ export namespace cat {
this.nr_level = source["nr_level"];
this.anf = source["anf"];
this.anf_level = source["anf_level"];
this.wnb = source["wnb"];
this.wnb_level = source["wnb_level"];
this.mode = source["mode"];
this.cw_speed = source["cw_speed"];
this.cw_pitch = source["cw_pitch"];
@@ -690,10 +732,24 @@ export namespace cat {
nr: boolean;
nr_level: number;
anf: boolean;
apf: boolean;
agc?: string;
preamp: number;
att: number;
filter: number;
antenna: number;
pbt_inner: number;
pbt_outer: number;
manual_notch: boolean;
notch_pos: number;
squelch: number;
comp: boolean;
comp_level: number;
monitor: boolean;
mon_level: number;
vox: boolean;
vox_gain: number;
anti_vox: number;
static createFrom(source: any = {}) {
return new IcomTXState(source);
@@ -723,10 +779,24 @@ export namespace cat {
this.nr = source["nr"];
this.nr_level = source["nr_level"];
this.anf = source["anf"];
this.apf = source["apf"];
this.agc = source["agc"];
this.preamp = source["preamp"];
this.att = source["att"];
this.filter = source["filter"];
this.antenna = source["antenna"];
this.pbt_inner = source["pbt_inner"];
this.pbt_outer = source["pbt_outer"];
this.manual_notch = source["manual_notch"];
this.notch_pos = source["notch_pos"];
this.squelch = source["squelch"];
this.comp = source["comp"];
this.comp_level = source["comp_level"];
this.monitor = source["monitor"];
this.mon_level = source["mon_level"];
this.vox = source["vox"];
this.vox_gain = source["vox_gain"];
this.anti_vox = source["anti_vox"];
}
}
export class RigState {
@@ -1290,6 +1360,10 @@ export namespace main {
icom_port: string;
icom_baud: number;
icom_addr: number;
icom_net_host: string;
icom_net_user: string;
icom_net_pass: string;
icom_net_audio: boolean;
tci_host: string;
tci_port: number;
tci_spots: boolean;
@@ -1312,6 +1386,10 @@ export namespace main {
this.icom_port = source["icom_port"];
this.icom_baud = source["icom_baud"];
this.icom_addr = source["icom_addr"];
this.icom_net_host = source["icom_net_host"];
this.icom_net_user = source["icom_net_user"];
this.icom_net_pass = source["icom_net_pass"];
this.icom_net_audio = source["icom_net_audio"];
this.tci_host = source["tci_host"];
this.tci_port = source["tci_port"];
this.tci_spots = source["tci_spots"];
@@ -2257,6 +2335,14 @@ export namespace netctl {
dxcc?: number;
itu?: number;
cq?: number;
grid?: string;
address?: string;
state?: string;
cnty?: string;
cont?: string;
lat?: number;
lon?: number;
email?: string;
groups?: string;
sig?: string;
sig_info?: string;
@@ -2274,6 +2360,14 @@ export namespace netctl {
this.dxcc = source["dxcc"];
this.itu = source["itu"];
this.cq = source["cq"];
this.grid = source["grid"];
this.address = source["address"];
this.state = source["state"];
this.cnty = source["cnty"];
this.cont = source["cont"];
this.lat = source["lat"];
this.lon = source["lon"];
this.email = source["email"];
this.groups = source["groups"];
this.sig = source["sig"];
this.sig_info = source["sig_info"];
+21 -3
View File
@@ -32,9 +32,13 @@ const (
)
// Antenna is one configured antenna (index + name as stored on the device).
// Bands is the device's band bitmask for the antenna (which bands it covers);
// 0 = unknown/all. The UI uses it to show only band-appropriate antennas, like
// the native 4O3A app.
type Antenna struct {
Index int `json:"index"`
Name string `json:"name"`
Bands int `json:"bands"`
}
// Status is the snapshot the UI renders.
@@ -65,6 +69,8 @@ type Client struct {
statusMu sync.RWMutex
status Status
antennas map[int]string // index → name (rebuilt into status.Antennas)
antBands map[int]int // index → band bitmask (which bands the antenna covers)
antRawN int // one-shot: how many raw antenna lines we've logged
stop chan struct{}
running bool
@@ -80,6 +86,7 @@ func New(host string, port int, password string) *Client {
password: strings.TrimSpace(password),
stop: make(chan struct{}),
antennas: map[int]string{},
antBands: map[int]int{},
status: Status{Host: host},
}
}
@@ -356,13 +363,24 @@ func (c *Client) parseAntenna(msg string) {
// The device stores spaces as underscores in names.
name = strings.TrimSpace(strings.ReplaceAll(name, "_", " "))
}
// Band bitmask: which bands this antenna is configured for. The device sends
// it as "band=<mask>" (a bitmask). Kept so the UI can show only band-relevant
// antennas (like the native app). Log the first few raw antenna lines so the
// exact field name + bit values can be confirmed on real hardware.
bands := kvInt(msg, "band")
c.statusMu.Lock()
if c.antRawN < 8 {
c.antRawN++
applog.Printf("antgenius: antenna raw #%d: %q (parsed band mask=%d/0x%X)", c.antRawN, msg, bands, bands)
}
if name != "" && !isPlaceholderName(name) {
c.antennas[id] = name
c.antBands[id] = bands
} else {
delete(c.antennas, id) // unconfigured slot ("Antenna 4", etc.) → not shown
delete(c.antBands, id)
}
c.status.Antennas = sortedAntennas(c.antennas)
c.status.Antennas = sortedAntennas(c.antennas, c.antBands)
c.status.Connected = true
c.statusMu.Unlock()
}
@@ -431,10 +449,10 @@ func isPlaceholderName(name string) bool {
return err == nil
}
func sortedAntennas(m map[int]string) []Antenna {
func sortedAntennas(m map[int]string, bands map[int]int) []Antenna {
out := make([]Antenna, 0, len(m))
for idx, name := range m {
out = append(out, Antenna{Index: idx, Name: name})
out = append(out, Antenna{Index: idx, Name: name, Bands: bands[idx]})
}
sort.Slice(out, func(i, j int) bool { return out[i].Index < out[j].Index })
return out
+57
View File
@@ -0,0 +1,57 @@
package audio
import "fmt"
// Codec converts between the wire payload of a network audio stream (Icom 50003)
// and OpsLog's internal PCM (16 kHz mono 16-bit little-endian — the format the
// capture/render engine and the pcmRing use). It exists so the transport code
// (icomaudio.go) never hard-codes a format: today PCM is an identity passthrough;
// tomorrow an Opus codec implements the same two methods and drops in unchanged.
// This mirrors how civTransport abstracts the CAT byte stream from its transport.
type Codec interface {
// Name is a short label for logs/UI.
Name() string
// Decode turns one received audio payload into internal PCM. The returned
// slice is freshly allocated (the caller may retain it).
Decode(payload []byte) ([]byte, error)
// Encode turns internal PCM into a payload to transmit.
Encode(pcm []byte) ([]byte, error)
}
// pcm16Codec is the uncompressed 16-bit-PCM codec — the Icom "uncompressed"
// audio mode (rxcodec/txcodec in the conninfo). Icom sends little-endian 16-bit
// mono samples, which is byte-for-byte OpsLog's internal format, so decode/encode
// are copies. It is the Phase-4/5 default: zero-dependency, lossless, ideal on a
// LAN. Opus (for WAN/internet bandwidth) becomes another Codec later.
//
// NOTE: rate conversion is deliberately NOT this layer's job. The Icom RX audio
// is 16 kHz = our internal rate, so RX needs none. The rig's TX side may run at a
// different rate (the captured conninfo showed 8 kHz) — Phase 5 will resample in
// the TX path before Encode; keeping the codec rate-agnostic keeps that concern
// in one place.
type pcm16Codec struct{}
// NewPCM16Codec returns the uncompressed 16-bit PCM codec.
func NewPCM16Codec() Codec { return pcm16Codec{} }
func (pcm16Codec) Name() string { return "pcm16" }
func (pcm16Codec) Decode(payload []byte) ([]byte, error) {
// Icom PCM payloads are whole 16-bit samples; an odd length means a truncated
// packet — trim the stray byte rather than emit a half-sample click.
n := len(payload) &^ 1
if n != len(payload) {
if n == 0 {
return nil, fmt.Errorf("pcm16: payload too short (%d bytes)", len(payload))
}
}
out := make([]byte, n)
copy(out, payload[:n])
return out, nil
}
func (pcm16Codec) Encode(pcm []byte) ([]byte, error) {
out := make([]byte, len(pcm))
copy(out, pcm)
return out, nil
}
+37
View File
@@ -0,0 +1,37 @@
package audio
import "testing"
func TestPCM16CodecRoundTrip(t *testing.T) {
c := NewPCM16Codec()
in := []byte{0x01, 0x02, 0x03, 0x04, 0xff, 0x7f}
enc, err := c.Encode(in)
if err != nil {
t.Fatalf("encode: %v", err)
}
dec, err := c.Decode(enc)
if err != nil {
t.Fatalf("decode: %v", err)
}
if string(dec) != string(in) {
t.Fatalf("round-trip mismatch: got % X want % X", dec, in)
}
}
func TestPCM16CodecTrimsOddByte(t *testing.T) {
c := NewPCM16Codec()
dec, err := c.Decode([]byte{0x10, 0x20, 0x30}) // 3 bytes = 1 sample + stray
if err != nil {
t.Fatalf("decode: %v", err)
}
if len(dec) != 2 {
t.Fatalf("expected the stray byte trimmed to 2, got %d", len(dec))
}
}
func TestPCM16CodecRejectsSingleByte(t *testing.T) {
c := NewPCM16Codec()
if _, err := c.Decode([]byte{0x10}); err == nil {
t.Fatalf("expected an error for a sub-sample payload")
}
}
+149
View File
@@ -5,6 +5,7 @@ package audio
import (
"fmt"
"runtime"
"sync"
"time"
"unsafe"
@@ -269,3 +270,151 @@ func playPCM(deviceID string, pcm []byte, rate, ch, bits int, stop <-chan struct
time.Sleep(10 * time.Millisecond)
}
}
// pcmRing is a thread-safe, latency-bounded FIFO of PCM bytes feeding a live
// render stream. Producers (a USB-codec capture, or a decoded network audio
// stream) Push freshly-arrived samples; the render loop Pulls. It is the shared
// hand-off point between "where the audio comes from" (USB device / UDP 50003)
// and "where it's heard" (any WASAPI output) — so the transport can be swapped
// without touching the render side, mirroring the civTransport split on the CAT
// side. On overflow the oldest audio is dropped to keep latency bounded; on
// underrun Pull simply returns short and the render loop pads with silence.
type pcmRing struct {
mu sync.Mutex
buf []byte
max int // hard cap in bytes (drops oldest beyond this → bounded latency)
}
// newPCMRing makes a ring whose backlog is capped at maxBytes. Size it from the
// acceptable latency: bytesPerSec (=32000) worth ≈ 1 s.
func newPCMRing(maxBytes int) *pcmRing {
if maxBytes <= 0 {
maxBytes = bytesPerSec // 1 s default
}
return &pcmRing{max: maxBytes}
}
// Push appends samples, dropping the oldest audio if the backlog would exceed
// the cap (a slow/absent consumer never makes the producer block or grow without
// bound). A short glitch beats runaway latency for live monitoring.
func (r *pcmRing) Push(p []byte) {
if len(p) == 0 {
return
}
r.mu.Lock()
r.buf = append(r.buf, p...)
if len(r.buf) > r.max {
drop := len(r.buf) - r.max
r.buf = append(r.buf[:0], r.buf[drop:]...)
}
r.mu.Unlock()
}
// pull removes and returns up to maxBytes of queued PCM (a private copy), or nil
// when empty. The render loop pads any shortfall with silence.
func (r *pcmRing) pull(maxBytes int) []byte {
r.mu.Lock()
defer r.mu.Unlock()
if len(r.buf) == 0 || maxBytes <= 0 {
return nil
}
n := maxBytes
if n > len(r.buf) {
n = len(r.buf)
}
out := make([]byte, n)
copy(out, r.buf[:n])
r.buf = append(r.buf[:0], r.buf[n:]...)
return out
}
// renderStream continuously renders PCM pulled from src to a device until stop
// closes — the streaming counterpart to playPCM's fixed buffer. On underrun it
// writes silence rather than glitching, keeping the WASAPI clock steady so live
// monitor audio flows smoothly even when the source stalls briefly. Runs on a
// COM-initialised, OS-locked thread.
func renderStream(deviceID string, rate, ch, bits int, stop <-chan struct{}, src *pcmRing) error {
runtime.LockOSThread()
defer runtime.UnlockOSThread()
if err := coInit(); err != nil {
return fmt.Errorf("CoInitialize: %w", err)
}
defer ole.CoUninitialize()
dev, err := openDevice(wca.ERender, deviceID)
if err != nil {
return err
}
defer dev.Release()
var ac *wca.IAudioClient
if err := dev.Activate(wca.IID_IAudioClient, wca.CLSCTX_ALL, nil, &ac); err != nil {
return fmt.Errorf("activate render: %w", err)
}
defer ac.Release()
frameBytes := ch * bits / 8
if frameBytes <= 0 {
return fmt.Errorf("bad audio format")
}
wfx := &wca.WAVEFORMATEX{
WFormatTag: 1, NChannels: uint16(ch), NSamplesPerSec: uint32(rate),
NAvgBytesPerSec: uint32(rate * frameBytes), NBlockAlign: uint16(frameBytes),
WBitsPerSample: uint16(bits), CbSize: 0,
}
if err := ac.Initialize(wca.AUDCLNT_SHAREMODE_SHARED, autoConvert,
wca.REFERENCE_TIME(bufferDuration100ns), 0, wfx, nil); err != nil {
return fmt.Errorf("initialize render: %w", err)
}
var bufFrames uint32
if err := ac.GetBufferSize(&bufFrames); err != nil {
return err
}
var arc *wca.IAudioRenderClient
if err := ac.GetService(wca.IID_IAudioRenderClient, &arc); err != nil {
return fmt.Errorf("get render service: %w", err)
}
defer arc.Release()
// feed fills up to `frames` render frames: as much real audio as the ring
// has, the remainder silence (so the buffer stays full and the clock steady).
feed := func(frames int) error {
if frames <= 0 {
return nil
}
var data *byte
if err := arc.GetBuffer(uint32(frames), &data); err != nil {
return err
}
dst := unsafe.Slice(data, frames*frameBytes)
got := src.pull(frames * frameBytes)
n := copy(dst, got)
for i := n; i < len(dst); i++ {
dst[i] = 0 // silence-fill the shortfall
}
arc.ReleaseBuffer(uint32(frames), 0)
return nil
}
if err := feed(int(bufFrames)); err != nil { // pre-fill to avoid a start glitch
return err
}
if err := ac.Start(); err != nil {
return fmt.Errorf("start render: %w", err)
}
defer ac.Stop()
for {
select {
case <-stop:
return nil
default:
}
var padding uint32
ac.GetCurrentPadding(&padding)
if err := feed(int(bufFrames - padding)); err != nil {
return err
}
time.Sleep(8 * time.Millisecond)
}
}
+131 -1
View File
@@ -15,7 +15,10 @@ type Manager struct {
recStop chan struct{}
recDone chan recResult
playStop chan struct{}
onChange func() // fired on any record/playback state transition
monStop chan struct{} // RX monitor passthrough (capture → render)
monRing *pcmRing // live audio hand-off, also fed by the network stream
txStop chan struct{} // TX audio passthrough (mic → rig)
onChange func() // fired on any record/playback state transition
}
type recResult struct {
@@ -135,3 +138,130 @@ func (m *Manager) StopPlayback() {
m.notify()
}
}
// ---- RX audio monitor (Phase 2: USB codec passthrough) --------------------
//
// StartMonitor pipes live RX audio from inputDev (e.g. the rig's "USB Audio
// CODEC" capture endpoint) to outputDev (your speakers/headset) through a
// latency-bounded ring, so you HEAR the radio inside OpsLog. The very same ring
// is later fed by the network 50003 stream instead of a USB capture — the render
// half is transport-agnostic. inputDev "" = system default capture.
func (m *Manager) StartMonitor(inputDev, outputDev string) error {
return m.startMonitor(inputDev, outputDev, true)
}
// StartMonitorSink starts ONLY the render side (no USB capture) so an external
// producer — the network 50003 stream — can feed decoded RX PCM via
// PushMonitorAudio. Same output path as StartMonitor, minus the capture goroutine.
func (m *Manager) StartMonitorSink(outputDev string) error {
return m.startMonitor("", outputDev, false)
}
// startMonitor wires the RX monitor: always a render loop pulling from monRing;
// when capture is true it also captures inputDev into that ring (USB monitor).
// When false the ring is fed only by PushMonitorAudio (network audio).
func (m *Manager) startMonitor(inputDev, outputDev string, capture bool) error {
m.mu.Lock()
if m.monStop != nil {
m.mu.Unlock()
return fmt.Errorf("monitor already running")
}
stop := make(chan struct{})
ring := newPCMRing(bytesPerSec / 2) // ~500 ms cap — low latency for live monitor
m.monStop, m.monRing = stop, ring
m.mu.Unlock()
if capture {
// Producer: capture the rig's USB audio into the ring.
go func() {
_ = captureStream(inputDev, stop, func(chunk []byte) { ring.Push(chunk) })
}()
}
// Consumer: render the ring to the output device at the internal 16 kHz mono.
go func() {
_ = renderStream(outputDev, sampleRate, channels, bitsPerSample, stop, ring)
}()
m.notify()
return nil
}
// StopMonitor stops the RX monitor passthrough.
func (m *Manager) StopMonitor() {
m.mu.Lock()
stop := m.monStop
m.monStop, m.monRing = nil, nil
m.mu.Unlock()
if stop != nil {
close(stop)
m.notify()
}
}
// MonitorActive reports whether the RX monitor passthrough is running.
func (m *Manager) MonitorActive() bool {
m.mu.Lock()
defer m.mu.Unlock()
return m.monStop != nil
}
// PushMonitorAudio feeds externally-sourced PCM (16 kHz mono 16-bit) into the
// active monitor's output — the hook the network 50003 audio stream uses to play
// decoded RX through the very same output path a USB capture feeds. No-op when no
// monitor is running. Keeps the unexported ring inside the package.
func (m *Manager) PushMonitorAudio(pcm []byte) {
m.mu.Lock()
ring := m.monRing
m.mu.Unlock()
if ring != nil {
ring.Push(pcm)
}
}
// ---- TX audio passthrough (Phase 3: live mic → rig over USB) --------------
//
// StartTXAudio pipes your live microphone (micDev) into the rig's audio input
// (toRadioDev — for a USB-connected rig, its "USB Audio CODEC" render endpoint),
// so you talk through the PC. It is the mirror of StartMonitor (same ring +
// capture + render primitives, source/sink swapped). PTT keying is the caller's
// job (the app layer keys PTT before this and unkeys after) so this stays a pure
// audio route. The captured 16 kHz mono stream is also the exact shape the future
// network 50003 TX will encode and send — so Phase 5 reuses this capture side.
func (m *Manager) StartTXAudio(micDev, toRadioDev string) error {
m.mu.Lock()
if m.txStop != nil {
m.mu.Unlock()
return fmt.Errorf("TX audio already running")
}
stop := make(chan struct{})
ring := newPCMRing(bytesPerSec / 4) // ~250 ms — tighter for live TX latency
m.txStop = stop
m.mu.Unlock()
go func() {
_ = captureStream(micDev, stop, func(chunk []byte) { ring.Push(chunk) })
}()
go func() {
_ = renderStream(toRadioDev, sampleRate, channels, bitsPerSample, stop, ring)
}()
m.notify()
return nil
}
// StopTXAudio stops the TX mic→rig passthrough.
func (m *Manager) StopTXAudio() {
m.mu.Lock()
stop := m.txStop
m.txStop = nil
m.mu.Unlock()
if stop != nil {
close(stop)
m.notify()
}
}
// TXAudioActive reports whether the TX mic→rig passthrough is running.
func (m *Manager) TXAudioActive() bool {
m.mu.Lock()
defer m.mu.Unlock()
return m.txStop != nil
}
+5
View File
@@ -55,6 +55,11 @@ type Def struct {
ValidFrom string `json:"valid_from,omitempty"` // ISO date (QSOs before don't count)
ValidTo string `json:"valid_to,omitempty"` // ISO date (QSOs after don't count)
Alias string `json:"alias,omitempty"`
// RefDisplay picks what the grid's award column shows for a match: "" or "ref"
// = the reference (e.g. WAJA "36"), "name" = the reference's description (e.g.
// the prefecture name), "both" = "ref — name". DXCC always shows the country
// name under "ref" (unchanged).
RefDisplay string `json:"ref_display,omitempty"`
// --- Type & matching ---
Type AwardType `json:"type,omitempty"` // matching strategy (default QSOFIELDS)
+80 -3
View File
@@ -32,6 +32,16 @@ type Backend interface {
SetPTT(on bool) error
}
// interruptible is an OPTIONAL backend capability: abort an in-progress Connect
// quickly. The network Icom backend's Connect blocks for up to tens of seconds
// (UDP handshake + login + waiting for the rig to boot from standby); without a
// way to interrupt it, Stop()/Start() would freeze on the poll goroutine until
// the dial gives up — which is why Settings "Save & Close" hung for ~1 min once
// the link was lost. Backends that don't implement it are simply not interrupted.
type interruptible interface {
Interrupt()
}
// RigState is the snapshot exchanged with the frontend.
//
// FreqHz follows the ADIF FREQ convention: it is the TX frequency. When the
@@ -156,6 +166,7 @@ func (m *Manager) stopLocked() {
m.mu.Lock()
stop := m.stopCh
done := m.doneCh
b := m.backend
m.stopCh = nil
m.doneCh = nil
m.cmdCh = nil
@@ -164,6 +175,11 @@ func (m *Manager) stopLocked() {
if stop != nil {
close(stop)
}
// Abort any in-progress Connect so we don't block on a slow network dial
// (the poll goroutine can be tens of seconds deep in the Icom UDP handshake).
if iv, ok := b.(interruptible); ok {
iv.Interrupt()
}
if done != nil {
<-done
}
@@ -229,9 +245,24 @@ func (m *Manager) SendSpot(s SpotInfo) {
// FlexTXState is the FlexRadio transmit/ATU state surfaced to the dedicated
// FlexRadio control tab. Levels are 0-100. (Phase 1: controls + state pushed by
// the radio over TCP; live meters arrive over a separate UDP stream later.)
// FlexSliceInfo identifies one FlexRadio receiver slice (A/B/C/D…) for the
// panel, so the operator sees every slice and which one is active/TX.
type FlexSliceInfo struct {
Index int `json:"index"` // 0-based slice index
Letter string `json:"letter"` // A, B, C, D…
FreqHz int64 `json:"freq_hz"`
Mode string `json:"mode,omitempty"` // ADIF mode
Band string `json:"band,omitempty"`
Active bool `json:"active"` // the focused/operating slice
TX bool `json:"tx"` // this slice transmits
}
type FlexTXState struct {
Available bool `json:"available"` // backend is Flex and handshaked
Model string `json:"model,omitempty"`
// Slices lists every in-use receiver slice (A/B/C/D…) so the panel can show
// them all and highlight the active one. The active slice drives everything.
Slices []FlexSliceInfo `json:"slices,omitempty"`
RFPower int `json:"rf_power"`
TunePower int `json:"tune_power"`
Tune bool `json:"tune"` // tune carrier active
@@ -244,6 +275,11 @@ type FlexTXState struct {
Mon bool `json:"mon"`
MonLevel int `json:"mon_level"`
MicLevel int `json:"mic_level"`
TXFilterLow int `json:"tx_filter_low"` // TX filter low cut (Hz)
TXFilterHigh int `json:"tx_filter_high"` // TX filter high cut (Hz)
// Mic profiles (SmartSDR): the list of available profiles + the loaded one.
MicProfile string `json:"mic_profile,omitempty"`
MicProfiles []string `json:"mic_profiles,omitempty"`
ATUStatus string `json:"atu_status,omitempty"`
ATUMemories bool `json:"atu_memories"`
// Active RX slice DSP controls.
@@ -265,6 +301,8 @@ type FlexTXState struct {
NRLevel int `json:"nr_level"`
ANF bool `json:"anf"`
ANFLevel int `json:"anf_level"`
WNB bool `json:"wnb"`
WNBLevel int `json:"wnb_level"`
// CW / mode-specific controls.
Mode string `json:"mode,omitempty"` // active slice mode (CW/USB/LSB/DIGU…)
CWSpeed int `json:"cw_speed"`
@@ -313,6 +351,8 @@ type FlexController interface {
SetMon(bool) error
SetMonLevel(int) error
SetMic(int) error
SetTXFilter(low, high int) error // transmit-audio bandwidth (Hz)
SetMicProfile(string) error // load a SmartSDR mic profile by name
ATUStart() error
ATUBypass() error
SetATUMemories(bool) error
@@ -323,6 +363,8 @@ type FlexController interface {
SetMute(bool) error
SetRXAntenna(string) error
SetTXAntenna(string) error
SetActiveSlice(int) error // focus slice idx so commands target it
SetTXSlice(int) error // make slice idx the transmitter (tx=1)
SetSplit(bool) error
SetNB(bool) error
SetNBLevel(int) error
@@ -332,6 +374,8 @@ type FlexController interface {
SetANFLevel(int) error
SetAPF(bool) error
SetAPFLevel(int) error
SetWNB(bool) error
SetWNBLevel(int) error
// CW keyer + mode-specific controls.
SetCWSpeed(int) error
SetCWPitch(int) error
@@ -399,10 +443,27 @@ type IcomTXState struct {
NR bool `json:"nr"`
NRLevel int `json:"nr_level"`
ANF bool `json:"anf"`
APF bool `json:"apf"` // audio peak filter (CW only)
AGC string `json:"agc,omitempty"` // FAST | MID | SLOW
Preamp int `json:"preamp"` // 0=off, 1=P.AMP1, 2=P.AMP2
Att int `json:"att"` // dB attenuation, 0=off
Filter int `json:"filter"` // 1 | 2 | 3 (FIL1/2/3)
// Antenna (IC-7610 = ANT1/ANT2).
Antenna int `json:"antenna"` // 1 | 2 (0 = unknown)
// Filter fine controls: Twin PBT + manual notch (0-100, 50 = centre).
PBTInner int `json:"pbt_inner"`
PBTOuter int `json:"pbt_outer"`
ManualNotch bool `json:"manual_notch"`
NotchPos int `json:"notch_pos"`
// TX extras.
Squelch int `json:"squelch"`
Comp bool `json:"comp"`
CompLevel int `json:"comp_level"`
Monitor bool `json:"monitor"`
MonLevel int `json:"mon_level"`
VOX bool `json:"vox"`
VOXGain int `json:"vox_gain"`
AntiVOX int `json:"anti_vox"`
}
// IcomController is an OPTIONAL backend capability (the Icom CI-V backend): the
@@ -418,6 +479,7 @@ type IcomController interface {
SetNR(bool) error
SetNRLevel(int) error
SetANF(bool) error
SetAPF(bool) error
SetAGC(string) error
SetPreamp(int) error
SetAtt(int) error
@@ -426,9 +488,10 @@ type IcomController interface {
SetMicGain(int) error
SetIcomSplit(bool) error
TuneATU() error
SetScope(bool) error // enable/disable the spectrum-scope waveform stream
SetScopeMode(bool) error // true = fixed span, false = center-on-VFO
ScopeData() ScopeSweep // latest assembled sweep (empty until enabled)
SetScope(bool) error // enable/disable the spectrum-scope waveform stream
SetScopeMode(bool) error // true = fixed span, false = center-on-VFO
SetScopeEdges(int64, int64) error // point the fixed scope at low..high Hz (centre/pan)
ScopeData() ScopeSweep // latest assembled sweep (empty until enabled)
SetRIT(int) error // RIT/ΔTX offset in signed Hz
SetRITOn(bool) error // RIT on/off
SetXITOn(bool) error // ΔTX (XIT) on/off
@@ -436,6 +499,20 @@ type IcomController interface {
StopCW() error // abort the CW message being sent
SetKeySpeed(int) error // CW keyer speed in WPM
SetBreakIn(int) error // CW break-in: 0=OFF, 1=SEMI, 2=FULL
SetAntenna(int) error // 1 = ANT1, 2 = ANT2
SetPBTInner(int) error // Twin PBT inside (0-100, 50 = centre)
SetPBTOuter(int) error // Twin PBT outside (0-100, 50 = centre)
SetManualNotch(bool) error
SetNotchPos(int) error // manual-notch position (0-100, 50 = centre)
SetSquelch(int) error
SetComp(bool) error
SetCompLevel(int) error
SetMonitor(bool) error
SetMonLevel(int) error
SetVOX(bool) error
SetVOXGain(int) error
SetAntiVOX(int) error
SetPower(bool) error // turn the transceiver on/off (manual — never auto on connect)
}
// ScopeSweep is one complete spectrum-scope sweep reassembled from the Icom's
+21 -3
View File
@@ -37,7 +37,9 @@ const (
CmdPTT = 0x1C // sub 0x00 = PTT
CmdExtra = 0x1A // sub 0x06 = data mode on modern Icoms
CmdReadID = 0x19 // sub 0x00 = rig's own CI-V address (identifies model)
CmdPower = 0x18 // power on/off (sub 0x01 = on, 0x00 = off; on needs an FE wake preamble)
CmdAnt = 0x12 // antenna selector (sub 0x00 = ANT1, 0x01 = ANT2; read = no sub)
CmdAtt = 0x11 // attenuator (1 BCD byte of dB; 0x00 = off)
CmdLevel = 0x14 // analogue levels (sub + 2 BCD bytes, 0000-0255)
CmdMeter = 0x15 // meters (sub + 2 BCD bytes, 0000-0255): S-meter/Po/SWR
@@ -67,8 +69,16 @@ const (
// CmdLevel sub-commands.
SubLevelAF = 0x01 // AF (volume)
SubLevelRF = 0x02 // RF gain
SubLevelSQL = 0x03 // squelch level
SubLevelPBTIn = 0x07 // Twin PBT (inside) — 0-255, 128 = centre
SubLevelPBTOut = 0x08 // Twin PBT (outside) — 0-255, 128 = centre
SubLevelNR = 0x06 // noise-reduction depth
SubLevelNotch = 0x0D // manual-notch position — 0-255, 128 = centre
SubLevelComp = 0x0E // speech-compressor level
SubLevelNB = 0x12 // noise-blanker depth
SubLevelMon = 0x15 // monitor gain
SubLevelVOXGain = 0x16 // VOX gain
SubLevelAntiVOX = 0x17 // anti-VOX level
SubLevelRFPower = 0x0A // TX RF output power
SubLevelMic = 0x0B // mic gain
@@ -84,9 +94,10 @@ const (
SubScopeData = 0x00 // waveform data frame (divided across several frames)
SubScopeOnOff = 0x10 // turn the scope display itself on/off (00/01)
SubScopeOn = 0x11 // enable/disable waveform data output over CI-V (00/01)
SubScopeMode = 0x14 // center/fixed mode (0=center, 1=fixed) — VERIFY on rig
SubScopeSpan = 0x15 // span in center mode — VERIFY on rig
SubScopeEdge = 0x16 // fixed-mode edge frequencies — VERIFY on rig
SubScopeMode = 0x14 // center/fixed mode (0=center, 1=fixed)
SubScopeSpan = 0x15 // span in center mode (±span/2 as 5 LE-BCD)
SubScopeEdge = 0x16 // fixed-mode ACTIVE edge set 1-4 (vfo + set#)
SubScopeFixEdge = 0x1e // fixed-mode edge FREQUENCIES: [range][set#][low 5-BCD][high 5-BCD]
// CmdSwitch sub-commands.
SubSwPreamp = 0x02 // 0=off, 1=P.AMP1, 2=P.AMP2
@@ -94,7 +105,12 @@ const (
SubSwNB = 0x22 // noise blanker on/off
SubSwNR = 0x40 // noise reduction on/off
SubSwANF = 0x41 // auto-notch on/off
SubSwComp = 0x44 // speech compressor on/off
SubSwMon = 0x45 // monitor on/off
SubSwVOX = 0x46 // VOX on/off
SubSwBreakIn = 0x47 // CW break-in: 0=OFF, 1=SEMI, 2=FULL (needed so 0x17 CW keys TX)
SubSwMN = 0x48 // manual notch on/off
SubSwAPF = 0x32 // audio peak filter on/off (CW only)
)
// CW break-in modes (CmdSwitch 0x47).
@@ -297,6 +313,8 @@ func ModelName(addr byte) string {
return "IC-7300"
case 0x98:
return "IC-7610"
case 0x7C:
return "IC-9100"
case 0xA2:
return "IC-9700"
case 0xA4:
+338 -107
View File
@@ -4,6 +4,7 @@ package cat
import (
"bufio"
"context"
"encoding/binary"
"fmt"
"math"
@@ -25,9 +26,10 @@ type Flex struct {
host string
port int
mu sync.Mutex
conn net.Conn
wmu sync.Mutex // serialises writes to conn
mu sync.Mutex
conn net.Conn
dialCancel context.CancelFunc // cancels an in-flight Connect dial (Interrupt/Stop); nil when not dialing
wmu sync.Mutex // serialises writes to conn
seq int
handle string
model string
@@ -36,6 +38,8 @@ type Flex struct {
slices map[int]*flexSlice
tx flexTX // transmit/ATU state pushed by the radio (FlexRadio tab)
amp flexAmp // external amplifier (PowerGenius XL) state
micProfiles []string // available mic profiles (SmartSDR "profile mic list")
micProfile string // currently loaded mic profile
txSetAt map[string]time.Time // status field → when WE last set it (ignore the radio's lagging echo briefly)
lastStateSig string // last logged derived-state signature (log only on change)
boundClientID string // GUI client (SmartSDR) we bound to; "" until bound. Binding lets this non-GUI client receive GUI-tied data (CW pitch/speed, break-in delay, RF power).
@@ -83,6 +87,8 @@ type flexSlice struct {
anfLevel int
apf bool // CW audio peaking filter
apfLevel int
wnb bool // wideband noise blanker
wnbLevel int
filterLo int // slice filter low cut (Hz)
filterHi int // slice filter high cut (Hz)
rxAnt string // selected RX antenna (e.g. ANT1, ANT2, RX_A)
@@ -106,6 +112,8 @@ type flexTX struct {
mon bool
monLevel int
micLevel int
filterLow int // TX filter low cut (Hz)
filterHigh int // TX filter high cut (Hz)
atuStatus string
atuMemories bool
// CW keyer params (set via the top-level "cw" commands).
@@ -171,7 +179,19 @@ func (f *Flex) Connect() error {
if host == "" {
return fmt.Errorf("flex: no radio IP configured")
}
conn, err := net.DialTimeout("tcp", net.JoinHostPort(host, strconv.Itoa(port)), 5*time.Second)
// Cancellable dial: Interrupt() (called by Stop/Start) aborts it at once so a
// dead radio's 5 s dial timeout doesn't make Stop / Settings "Save & Close"
// wait several seconds for the poll goroutine to give up.
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
f.mu.Lock()
f.dialCancel = cancel
f.mu.Unlock()
var d net.Dialer
conn, err := d.DialContext(ctx, "tcp", net.JoinHostPort(host, strconv.Itoa(port)))
cancel()
f.mu.Lock()
f.dialCancel = nil
f.mu.Unlock()
if err != nil {
return fmt.Errorf("flex: connect %s:%d: %w", host, port, err)
}
@@ -195,6 +215,8 @@ func (f *Flex) Connect() error {
f.send("sub amplifier all") // external amplifier (PowerGenius XL) operate/standby
f.send("sub radio all") // radio-wide incl. interlock (TX/RX state)
f.send("sub cwx all") // CWX: the LIVE CW speed/pitch/break-in (transmit holds only a static default)
f.send("sub profile all") // mic/global/tx profiles (for the mic-profile dropdown)
f.send("profile mic info") // request the current mic profile list + selection
f.send("sub client all") // learn the GUI client (SmartSDR) so we can bind to it (below)
f.startMeters(conn) // open the UDP VITA-49 stream for live meters
if f.spotsEnabled {
@@ -224,6 +246,23 @@ func (f *Flex) Disconnect() {
}
}
// Interrupt aborts an in-flight Connect dial so Stop()/Start() (Settings
// "Save & Close", CAT backend switch) don't block on a dead radio's 5 s dial
// timeout. Satisfies the Manager's optional interruptible interface. Safe to call
// anytime and from another goroutine; a no-op when not dialing.
func (f *Flex) Interrupt() {
f.mu.Lock()
cancel := f.dialCancel
c := f.conn
f.mu.Unlock()
if cancel != nil {
cancel()
}
if c != nil {
_ = c.Close() // unblock the reader if we're already past the dial
}
}
// send writes a sequenced command (C<seq>|<cmd>) to the radio and returns the
// sequence number (so the caller can match the R<seq> response, e.g. to learn a
// new spot's index). Returns 0 when not connected. Best effort.
@@ -414,6 +453,12 @@ func (f *Flex) handleStatus(payload string) {
f.tx.cwBreakInDelay = atoiDefault(val, f.tx.cwBreakInDelay)
case "mic_level", "miclevel":
f.tx.micLevel = atoiDefault(val, f.tx.micLevel)
// TX filter: the transmit STATUS reports the passband as lo/hi (the
// SET command is filter_low/filter_high — a SmartSDR quirk).
case "lo", "filter_low":
f.tx.filterLow = atoiDefault(val, f.tx.filterLow)
case "hi", "filter_high":
f.tx.filterHigh = atoiDefault(val, f.tx.filterHigh)
}
}
f.mu.Unlock()
@@ -495,6 +540,35 @@ func (f *Flex) handleStatus(payload string) {
}
f.mu.Unlock()
}
// Mic-profile object — "profile mic list=A^B^C" (available profiles) and
// "profile mic current=<name>" (loaded one). Names can contain spaces, so
// values are taken from the raw payload after the key. Logged once so the
// exact field names are confirmable on real hardware.
if len(fields) >= 2 && fields[0] == "profile" && fields[1] == "mic" {
debugLog.Printf("Flex: profile status: %s", payload)
if i := strings.Index(payload, "list="); i >= 0 {
var profs []string
for _, p := range strings.Split(payload[i+len("list="):], "^") {
if p = strings.TrimSpace(p); p != "" {
profs = append(profs, p)
}
}
f.mu.Lock()
f.micProfiles = profs
f.mu.Unlock()
}
// The loaded profile arrives as current=<name> (some firmwares:
// selection=<name>); accept either.
for _, key := range []string{"current=", "selection="} {
if i := strings.Index(payload, key); i >= 0 {
cur := strings.TrimSpace(payload[i+len(key):])
f.mu.Lock()
f.micProfile = cur
f.mu.Unlock()
break
}
}
}
// Interlock object — transmit state (RECEIVE / TRANSMITTING / …).
if len(fields) >= 1 && fields[0] == "interlock" {
f.mu.Lock()
@@ -713,6 +787,10 @@ func (f *Flex) handleStatus(payload string) {
s.apf = val == "1"
case "apf_level":
s.apfLevel = atoiDefault(val, s.apfLevel)
case "wnb":
s.wnb = val == "1"
case "wnb_level":
s.wnbLevel = atoiDefault(val, s.wnbLevel)
case "filter_lo":
s.filterLo = atoiDefault(val, s.filterLo)
case "filter_hi":
@@ -743,21 +821,19 @@ func (f *Flex) ReadState() (RigState, error) {
if !f.gotHandle {
return st, nil // connected TCP but radio hasn't handshaked yet
}
rx, tx := f.pickSlicesLocked()
if rx == nil && tx == nil {
main, rxS, txSplit := f.operatingLocked()
if main == nil {
return st, nil
}
if tx == nil {
tx = rx
}
if rx == nil {
rx = tx
}
st.FreqHz = tx.freqHz
st.Mode = flexModeToADIF(tx.mode)
if rx.freqHz != tx.freqHz {
// Main frequency/mode = the ACTIVE slice (what the operator is on). Only a
// genuine same-band split adds a separate TX freq; then ADIF convention wants
// FreqHz = TX and RxFreqHz = RX.
st.FreqHz = main.freqHz
st.Mode = flexModeToADIF(main.mode)
if rxS != nil && txSplit != nil {
st.Split = true
st.RxFreqHz = rx.freqHz
st.RxFreqHz = rxS.freqHz
st.FreqHz = txSplit.freqHz
}
sig := fmt.Sprintf("%d/%d/%v/%s", st.FreqHz, st.RxFreqHz, st.Split, st.Mode)
if sig != f.lastStateSig {
@@ -767,76 +843,151 @@ func (f *Flex) ReadState() (RigState, error) {
return st, nil
}
// pickSlicesLocked chooses the TX and RX slices among in-use slices. TX is the
// slice flagged tx=1. RX is the slice you actually receive on — the NON-TX slice
// (preferring the active/focused one), NOT simply the active slice: tuning the
// TX slice makes it the active/focused slice, which would otherwise collapse RX
// onto TX and hide the split. Caller holds f.mu.
func (f *Flex) pickSlicesLocked() (rx, tx *flexSlice) {
idxs := make([]int, 0, len(f.slices))
for i, s := range f.slices {
if s.inUse {
idxs = append(idxs, i)
}
}
sort.Ints(idxs)
var active, txS, nonTx, first *flexSlice
for _, i := range idxs {
s := f.slices[i]
if first == nil {
first = s
}
if s.active {
active = s
}
if s.tx {
txS = s
} else if nonTx == nil {
nonTx = s
}
}
tx = txS
if tx == nil {
if active != nil {
tx = active
} else {
tx = first
}
}
// RX = the receive slice: the active one if it isn't the TX slice, else the
// first non-TX slice; fall back to TX (simplex) when there's only one slice.
switch {
case active != nil && active != tx:
rx = active
case nonTx != nil:
rx = nonTx
default:
rx = tx
}
return rx, tx
}
// activeSliceIndexLocked returns the slice index to send commands to (the active
// slice, else the lowest in-use index, else 0). Caller holds f.mu.
func (f *Flex) activeSliceIndexLocked() int {
best, found := 1<<30, false
for idx, s := range f.slices {
// mainSliceLocked is the operator's slice: the ACTIVE (focused) in-use slice, or
// the lowest-indexed in-use slice when none is flagged active. EVERYTHING the
// user does — freq/mode display, RX DSP, tuning, mode changes, spot clicks —
// follows this slice, so a second independent slice (e.g. monitoring another
// band) never hijacks the main frequency. Returns (-1, nil) when no slice is in
// use. Caller holds f.mu.
func (f *Flex) mainSliceLocked() (int, *flexSlice) {
// Iterate in ASCENDING index order — NEVER map-iteration order, which Go
// randomises. When two slices transiently BOTH report active=1 (e.g. an
// external controller like DXHunter activates a slice on another band while
// ours still holds active, before SmartSDR sends active=0 to the old one),
// map order returned a RANDOM active slice each call → the operating frequency
// flip-flopped 40m/20m every poll and the Ultrabeam motors chased it forever.
// Deterministic order = the lowest-indexed active slice wins, stably.
firstInUse := -1
for _, idx := range f.sortedSliceIdxLocked() {
s := f.slices[idx]
if !s.inUse {
continue
}
if s.active {
return idx
if firstInUse < 0 {
firstInUse = idx
}
if idx < best {
best, found = idx, true
if s.active {
return idx, s
}
}
if found {
return best
if firstInUse >= 0 {
return firstInUse, f.slices[firstInUse]
}
return -1, nil
}
// sortedSliceIdxLocked returns the slice indices in ascending order so every
// slice-selection helper is deterministic (map iteration is randomised). Caller
// holds f.mu.
func (f *Flex) sortedSliceIdxLocked() []int {
idxs := make([]int, 0, len(f.slices))
for idx := range f.slices {
idxs = append(idxs, idx)
}
sort.Ints(idxs)
return idxs
}
// activeSliceIndexLocked returns the slice index to send commands to (the main
// slice, else 0). Caller holds f.mu.
func (f *Flex) activeSliceIndexLocked() int {
if idx, _ := f.mainSliceLocked(); idx >= 0 {
return idx
}
return 0
}
// sliceLetter maps a slice index to its SmartSDR letter (0→A, 1→B, …).
func sliceLetter(idx int) string {
if idx < 0 || idx > 25 {
return fmt.Sprintf("%d", idx)
}
return string(rune('A' + idx))
}
// txSliceLocked returns the slice flagged as the transmitter (tx=1), or nil.
// Caller holds f.mu.
func (f *Flex) txSliceLocked() *flexSlice {
for _, idx := range f.sortedSliceIdxLocked() {
if s := f.slices[idx]; s.inUse && s.tx {
return s
}
}
return nil
}
// operatingLocked resolves the operator's slices: the MAIN (active) slice for the
// mode/display, and — ONLY for a GENUINE split — the RX and TX slices. Split is
// the tx-flagged slice PLUS a distinct in-use slice on the SAME band (different
// freq) — detected from the pair itself, NOT from which slice is active (the TX
// slice often steals focus right after "slice create", which must NOT read as
// "no split"). A slice on another band is an independent receiver, ignored.
// Caller holds f.mu.
func (f *Flex) operatingLocked() (main, rx, tx *flexSlice) {
_, main = f.mainSliceLocked()
txS := f.txSliceLocked()
if txS == nil {
return main, nil, nil
}
bt := BandFromHz(txS.freqHz)
if bt == "" {
return main, nil, nil
}
// RX = the active slice when it's a distinct same-band slice, else the first
// other in-use same-band slice.
if main != nil && main != txS && main.freqHz != txS.freqHz && BandFromHz(main.freqHz) == bt {
rx = main
} else {
for _, idx := range f.sortedSliceIdxLocked() {
s := f.slices[idx]
if s.inUse && s != txS && s.freqHz != txS.freqHz && BandFromHz(s.freqHz) == bt {
rx = s
break
}
}
}
if rx == nil {
return main, nil, nil // tx slice alone (simplex) → not split
}
return main, rx, txS
}
// SetActiveSlice focuses slice idx on the radio so every subsequent command
// (freq / mode / DSP / spot click) targets it. Lets the operator pick the
// operating slice from OpsLog (like SliceLogger's A/B selector).
func (f *Flex) SetActiveSlice(idx int) error {
f.mu.Lock()
_, exists := f.slices[idx]
connected := f.conn != nil
f.mu.Unlock()
if !connected {
return fmt.Errorf("flex: not connected")
}
if !exists {
return fmt.Errorf("flex: no slice %d", idx)
}
f.send(fmt.Sprintf("slice s %d active=1", idx))
return nil
}
// SetTXSlice makes slice idx the transmitter (tx=1) — e.g. "put TX on the active
// slice" so you transmit where you're listening. Only one slice can be TX; the
// radio clears the flag on the others.
func (f *Flex) SetTXSlice(idx int) error {
f.mu.Lock()
_, exists := f.slices[idx]
connected := f.conn != nil
f.mu.Unlock()
if !connected {
return fmt.Errorf("flex: not connected")
}
if !exists {
return fmt.Errorf("flex: no slice %d", idx)
}
f.send(fmt.Sprintf("slice s %d tx=1", idx))
return nil
}
func (f *Flex) SetFrequency(hz int64) error {
if hz <= 0 {
return fmt.Errorf("flex: invalid frequency")
@@ -844,6 +995,15 @@ func (f *Flex) SetFrequency(hz int64) error {
f.mu.Lock()
idx := f.activeSliceIndexLocked()
connected := f.conn != nil
// Optimistically update the active slice's cached freq NOW, before the radio
// echoes the slice status back. Otherwise ReadState/FlexState keep reporting
// the OLD freq for the round-trip: the top display (optimistic liveFreqHz)
// jumped to the new band while the slice cache — which the FlexPanel and the
// Ultrabeam follow loop read — still showed the old one, so the antenna chased
// the stale value. The real echo confirms/corrects this a moment later.
if s := f.slices[idx]; s != nil {
s.freqHz = hz
}
f.mu.Unlock()
if !connected {
return fmt.Errorf("flex: not connected")
@@ -869,6 +1029,13 @@ func (f *Flex) SetMode(mode string) error {
if fm == "" {
return fmt.Errorf("flex: unsupported mode %q", mode)
}
// Optimistically cache the new mode too (same reasoning as SetFrequency) so the
// panel reflects it immediately instead of lagging the radio's echo.
f.mu.Lock()
if s := f.slices[idx]; s != nil {
s.mode = fm
}
f.mu.Unlock()
// "slice s <rx> mode=<m>" — set command per the SmartSDR API.
f.send(fmt.Sprintf("slice s %d mode=%s", idx, fm))
return nil
@@ -1017,19 +1184,10 @@ func clampLevel(v int) int {
return v
}
// rxSliceLocked returns the active RX slice and its index (-1 when none), using
// the same RX-selection rule as ReadState. Caller holds f.mu.
// rxSliceLocked returns the operator's (main/active) slice and its index — the
// slice every RX-DSP control and read targets. Caller holds f.mu.
func (f *Flex) rxSliceLocked() (int, *flexSlice) {
rx, _ := f.pickSlicesLocked()
if rx == nil {
return -1, nil
}
for i, s := range f.slices {
if s == rx {
return i, rx
}
}
return -1, rx
return f.mainSliceLocked()
}
// FlexState returns a snapshot of the radio's transmit/ATU state plus the active
@@ -1053,6 +1211,10 @@ func (f *Flex) FlexState() FlexTXState {
Mon: f.tx.mon,
MonLevel: f.tx.monLevel,
MicLevel: f.tx.micLevel,
TXFilterLow: f.tx.filterLow,
TXFilterHigh: f.tx.filterHigh,
MicProfile: f.micProfile,
MicProfiles: f.micProfiles,
ATUStatus: f.tx.atuStatus,
ATUMemories: f.tx.atuMemories,
// CW keyer (defaults applied so the sliders show sane values pre-read).
@@ -1062,10 +1224,31 @@ func (f *Flex) FlexState() FlexTXState {
CWSidetone: f.tx.cwSidetone,
CWMonLevel: f.tx.cwMonLevel,
}
if rx, tx := f.pickSlicesLocked(); rx != nil && tx != nil && rx != tx && rx.freqHz != tx.freqHz {
if _, rxS, txSplit := f.operatingLocked(); rxS != nil && txSplit != nil {
st.Split = true
st.RXFreqHz = rx.freqHz
st.TXFreqHz = tx.freqHz
st.RXFreqHz = rxS.freqHz
st.TXFreqHz = txSplit.freqHz
}
// Every in-use slice (A/B/C/D…) so the panel shows them all and highlights the
// active/TX one — the active slice drives everything the operator does.
sidx := make([]int, 0, len(f.slices))
for i, s := range f.slices {
if s.inUse {
sidx = append(sidx, i)
}
}
sort.Ints(sidx)
for _, i := range sidx {
s := f.slices[i]
st.Slices = append(st.Slices, FlexSliceInfo{
Index: i,
Letter: sliceLetter(i),
FreqHz: s.freqHz,
Mode: flexModeToADIF(s.mode),
Band: BandFromHz(s.freqHz),
Active: s.active,
TX: s.tx,
})
}
if _, rx := f.rxSliceLocked(); rx != nil {
st.RXAvail = true
@@ -1082,6 +1265,8 @@ func (f *Flex) FlexState() FlexTXState {
st.ANFLevel = rx.anfLevel
st.APF = rx.apf
st.APFLevel = rx.apfLevel
st.WNB = rx.wnb
st.WNBLevel = rx.wnbLevel
st.FilterLo = rx.filterLo
st.FilterHi = rx.filterHi
st.RXAnt = rx.rxAnt
@@ -1198,35 +1383,40 @@ func (f *Flex) SetSplit(on bool) error {
f.mu.Unlock()
return fmt.Errorf("flex: not connected")
}
rx, tx := f.pickSlicesLocked()
// Split is built AROUND THE ACTIVE slice, and "already split" uses the SAME
// same-band-pair rule as the button state (operatingLocked) — otherwise two
// INDEPENDENT slices on different bands look "already split" and SPLIT ON does
// nothing (the bug the user hit: A on 20m + B on 80m).
main, rxS, txS := f.operatingLocked()
rxIdx, txIdx := -1, -1
for i, s := range f.slices {
if s == rx {
if s == rxS {
rxIdx = i
}
if s == tx {
if s == txS {
txIdx = i
}
}
alreadySplit := rx != nil && tx != nil && rx != tx
var rxFreq int64
var rxMode, rxAnt string
if rx != nil {
rxFreq, rxMode, rxAnt = rx.freqHz, rx.mode, rx.rxAnt
alreadySplit := rxS != nil && txS != nil
var baseFreq int64
var baseMode, baseAnt string
if main != nil {
baseFreq, baseMode, baseAnt = main.freqHz, main.mode, main.rxAnt
}
f.mu.Unlock()
if on {
if alreadySplit || rx == nil {
return nil // already split (or no slice)
if alreadySplit || main == nil {
return nil // already split, or no active slice
}
offset := int64(5000)
if strings.HasPrefix(strings.ToUpper(rxMode), "CW") {
if strings.HasPrefix(strings.ToUpper(baseMode), "CW") {
offset = 1000
}
cmd := fmt.Sprintf("slice create freq=%.6f mode=%s", float64(rxFreq+offset)/1e6, rxMode)
if rxAnt != "" {
cmd += " ant=" + rxAnt
// Create the TX slice at the ACTIVE slice's freq + offset (same band).
cmd := fmt.Sprintf("slice create freq=%.6f mode=%s", float64(baseFreq+offset)/1e6, baseMode)
if baseAnt != "" {
cmd += " ant=" + baseAnt
}
if seq := f.send(cmd); seq > 0 {
f.mu.Lock()
@@ -1239,10 +1429,10 @@ func (f *Flex) SetSplit(on bool) error {
return nil
}
if txIdx >= 0 {
f.send(fmt.Sprintf("slice remove %d", txIdx))
f.send(fmt.Sprintf("slice remove %d", txIdx)) // drop the extra TX slice
}
if rxIdx >= 0 {
f.send(fmt.Sprintf("slice s %d tx=1", rxIdx))
f.send(fmt.Sprintf("slice s %d tx=1", rxIdx)) // RX slice transmits again
}
return nil
}
@@ -1254,6 +1444,8 @@ func (f *Flex) SetANF(on bool) error { return f.sendSlice("anf", boolFlex(on)
func (f *Flex) SetANFLevel(l int) error { return f.sendSlice("anf_level", clampLevel(l)) }
func (f *Flex) SetAPF(on bool) error { return f.sendSlice("apf", boolFlex(on)) }
func (f *Flex) SetAPFLevel(l int) error { return f.sendSlice("apf_level", clampLevel(l)) }
func (f *Flex) SetWNB(on bool) error { return f.sendSlice("wnb", boolFlex(on)) }
func (f *Flex) SetWNBLevel(l int) error { return f.sendSlice("wnb_level", clampLevel(l)) }
// ── CW keyer controls (top-level "cw" commands) ──
@@ -1471,6 +1663,45 @@ func (f *Flex) SetMic(l int) error {
return f.txSet(fmt.Sprintf("transmit set miclevel=%d", l), "mic_level", func(t *flexTX) { t.micLevel = l })
}
// SetTXFilter sets the transmit-audio bandwidth (low + high cut, in Hz). SmartSDR
// clamps to legal values per mode; we just pass them through in one command so
// both edges move together.
func (f *Flex) SetTXFilter(low, high int) error {
if low < 0 {
low = 0
}
if high < low {
high = low
}
// Guard both status field names (the echo comes back as lo/hi, not
// filter_low/high) so the radio's lagging echo doesn't snap the inputs back.
f.mu.Lock()
f.txSetAt["hi"] = time.Now()
f.mu.Unlock()
return f.txSet(fmt.Sprintf("transmit set filter_low=%d filter_high=%d", low, high), "lo",
func(t *flexTX) { t.filterLow, t.filterHigh = low, high })
}
// SetMicProfile loads a SmartSDR mic profile by name (quoted, as names may hold
// spaces). Optimistically caches the selection.
func (f *Flex) SetMicProfile(name string) error {
name = strings.TrimSpace(name)
if name == "" {
return fmt.Errorf("flex: empty mic profile")
}
f.mu.Lock()
connected := f.conn != nil
if connected {
f.micProfile = name
}
f.mu.Unlock()
if !connected {
return fmt.Errorf("flex: not connected")
}
f.send(fmt.Sprintf("profile mic load \"%s\"", name))
return nil
}
func (f *Flex) ATUStart() error {
if !f.connected() {
return fmt.Errorf("flex: not connected")
+219
View File
@@ -0,0 +1,219 @@
package cat
// icomaudio.go — the NETWORK AUDIO stream (UDP 50003) for the Icom LAN protocol.
// It is the third stream alongside control (50001) and CI-V (50002): once the
// control login + conninfo (with rxenable=1) authorize audio, the rig streams RX
// audio here as data packets. This file dials/handshakes/keeps-alive that socket
// exactly like the CI-V stream (icomnet.go) — those parts are byte-for-byte the
// PROVEN transport — and hands each received audio payload to a sink callback
// (the app decodes it via an audio.Codec and plays it through the RX monitor).
//
// Reuses icomnet.go's helpers (icnCtrl, icnHandshake, icnPingReply, icnRecv,
// icnLocalID, icnLE) and the same seq/retransmit discipline.
//
// ⚠️ PAYLOAD OFFSET PENDING ON-RIG VERIFICATION. The stream framing (handshake,
// ping, idle, retransmit, common 16-byte header) is identical to CI-V and proven.
// The AUDIO data packet's inner layout — where the PCM starts and the datalen
// field — is reconstructed from wfview's audio_packet (ident@0x10, datalen@0x12,
// sendseq@0x14, audio@0x16) but NOT yet confirmed against a real 50003 capture.
// audioPump logs the first few raw packets (icaDumpFirst) so the offset can be
// confirmed/corrected on the first on-rig test without a packet capture, the same
// way the CI-V/scope framing was iterated. Nothing here can destabilize CAT: the
// audio stream is opt-in and entirely separate from control/CI-V.
import (
"net"
"sync"
"sync/atomic"
"time"
)
// icaAudioOffset is where the PCM payload begins inside an audio data packet
// (wfview audio_packet: 16-byte common header + ident@0x10 + datalen@0x12 +
// sendseq@0x14 → audio@0x16). Isolated as a const so a capture-confirmed change
// is a one-line edit.
const icaAudioOffset = 0x16
// icaDumpFirst is how many initial audio packets to hex-dump to the debug log for
// offset verification. After the layout is confirmed on a real rig this can go to
// 0 (or the const above corrected).
const icaDumpFirst = 6
// icomAudio is the connected audio stream. RX only for now (Phase 4); TX (Phase
// 5) will add an encode+send path mirroring icomNet.Write.
type icomAudio struct {
conn *net.UDPConn
aID, aRemote uint32
sink func([]byte) // receives each raw audio payload (app decodes + plays)
// Receive-side retransmit (audio is a heavy stream, like the scope): track the
// rig's data-packet send seq and ask it to resend gaps, or the rig drops the
// session. Same mechanism as icomNet. Owned solely by audioPump → no lock.
rxHaveSeq bool
rxLastSeq uint16
rxMissing map[uint16]int
dumped int // packets hex-dumped so far (≤ icaDumpFirst)
lastRx atomic.Int64 // UnixNano of last packet (liveness)
done chan struct{}
closeOnce sync.Once
}
func (a *icomAudio) markRx() { a.lastRx.Store(time.Now().UnixNano()) }
// Close tears the audio stream down (disconnect a few times; UDP is lossy).
func (a *icomAudio) Close() {
a.closeOnce.Do(func() {
close(a.done)
for i := 0; i < 3; i++ {
_, _ = a.conn.Write(icnCtrl(0x05, 0, a.aID, a.aRemote)) // disconnect
time.Sleep(15 * time.Millisecond)
}
_ = a.conn.Close()
debugLog.Printf("icom audio: stream closed")
})
}
// dialIcomAudio opens the audio UDP stream to rig:50003, binding LOCAL :50003
// (mirroring the civ stream's local :50002). The control conninfo (rxenable=1,
// audioport=50003) must already have authorized it. sink receives each raw audio
// payload. cancel aborts a slow dial (Stop/Start).
func dialIcomAudio(host string, sink func([]byte), cancel <-chan struct{}) (*icomAudio, error) {
araddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50003"))
if err != nil {
return nil, err
}
conn, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50003}, araddr)
if err != nil {
debugLog.Printf("icom audio: cannot bind local :50003 (Remote Utility running?): %v", err)
return nil, err
}
aID := icnLocalID(conn)
aRemote, err := icnHandshake(conn, aID, cancel)
if err != nil {
_ = conn.Close()
debugLog.Printf("icom audio: handshake FAILED: %v", err)
return nil, err
}
_ = conn.SetReadBuffer(1 << 20)
a := &icomAudio{
conn: conn, aID: aID, aRemote: aRemote,
sink: sink,
rxMissing: make(map[uint16]int),
done: make(chan struct{}),
}
a.markRx()
debugLog.Printf("icom audio: stream up (rig id 0x%08X) — awaiting RX audio", aRemote)
go a.audioPump()
return a, nil
}
// audioPump drains the audio socket: replies to pings, sends idle keepalives,
// requests retransmits for lost packets, and hands each audio payload to sink.
func (a *icomAudio) audioPump() {
buf := make([]byte, 8192)
lastIdle := time.Now()
lastReq := time.Now()
for {
select {
case <-a.done:
return
default:
}
_ = a.conn.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
if k, err := a.conn.Read(buf); err == nil && k >= 16 {
a.markRx()
switch typ := icnLE.Uint16(buf[4:]); {
case typ == 0x07: // ping
_, _ = a.conn.Write(icnPingReply(buf[:k], a.aID, a.aRemote))
case typ == 0x01: // retransmit request from the rig (we send no tracked audio yet)
case typ == 0x05: // rig-initiated disconnect
debugLog.Printf("icom audio: rig sent DISCONNECT — audio stream dropped by the rig")
case typ == 0x00 && k > icaAudioOffset: // audio data packet
a.trackRxSeq(icnLE.Uint16(buf[6:]))
if a.dumped < icaDumpFirst {
a.dumped++
debugLog.Printf("icom audio raw #%d: len=%d head=% X", a.dumped, k, buf[:min(icaAudioOffset+8, k)])
}
if a.sink != nil {
payload := append([]byte(nil), buf[icaAudioOffset:k]...)
a.sink(payload)
}
}
}
if time.Since(lastIdle) > 100*time.Millisecond {
_, _ = a.conn.Write(icnCtrl(0x00, 0, a.aID, a.aRemote))
lastIdle = time.Now()
}
if time.Since(lastReq) > 100*time.Millisecond {
a.sendRetransmitReq()
lastReq = time.Now()
}
}
}
// trackRxSeq / sendRetransmitReq mirror icomNet's receive-side retransmit exactly
// (audio is as loss-sensitive as the scope stream). Duplicated deliberately so
// the audio stream owns its own seq state with no shared locking.
func (a *icomAudio) trackRxSeq(seq uint16) {
if !a.rxHaveSeq {
a.rxHaveSeq = true
a.rxLastSeq = seq
return
}
switch d := int16(seq - a.rxLastSeq); {
case d == 0:
case d < 0:
delete(a.rxMissing, seq)
case d == 1:
a.rxLastSeq = seq
case int(d) <= icnMaxMissing:
for f := a.rxLastSeq + 1; f != seq; f++ {
a.rxMissing[f] = 0
}
a.rxLastSeq = seq
default:
a.rxMissing = make(map[uint16]int)
a.rxLastSeq = seq
}
}
func (a *icomAudio) sendRetransmitReq() {
if len(a.rxMissing) == 0 {
return
}
if len(a.rxMissing) > icnMaxMissing {
a.rxMissing = make(map[uint16]int)
return
}
var seqs []uint16
for s, cnt := range a.rxMissing {
if cnt >= 4 {
delete(a.rxMissing, s)
continue
}
a.rxMissing[s] = cnt + 1
seqs = append(seqs, s)
}
switch {
case len(seqs) == 0:
return
case len(seqs) == 1:
_, _ = a.conn.Write(icnCtrl(0x01, seqs[0], a.aID, a.aRemote))
default:
b := make([]byte, 16+4*len(seqs))
icnLE.PutUint32(b[0:], uint32(len(b)))
icnLE.PutUint16(b[4:], 0x01)
icnLE.PutUint32(b[8:], a.aID)
icnLE.PutUint32(b[12:], a.aRemote)
off := 16
for _, s := range seqs {
icnLE.PutUint16(b[off:], s)
icnLE.PutUint16(b[off+2:], s)
off += 4
}
_, _ = a.conn.Write(b)
}
}
+881
View File
@@ -0,0 +1,881 @@
package cat
// icomnet.go — the NETWORK transport for the Icom backend. It talks the Icom IP
// remote protocol (the LAN server built into the IC-7610, the one the Icom
// Remote Utility speaks) directly, and presents the tunnelled CI-V byte stream
// as a plain civTransport (Read/Write). So the entire IcomController surface —
// freq/mode, receive-DSP, TX, scope, RIT, CW — runs unchanged over the network;
// only the transport differs. OpsLog thus replaces BOTH the Remote Utility and
// RS-BA1.
//
// The protocol (framing, passcode table, packet offsets, power-on) was
// reimplemented from the public wfview protocol and verified byte-for-byte
// against real Remote-Utility captures. No GPLv3 code is copied.
//
// Three UDP streams exist on the rig (control 50001 / CI-V 50002 / audio 50003);
// this transport uses control + CI-V (audio is not needed for CAT). Connect:
// control: areYouThere→iAmHere→areYouReady→iAmReady → login → token → conninfo
// civ: areYouThere→…→iAmReady → openClose(open) → power-on
// then CI-V flows in data packets. A pump goroutine keeps both streams alive
// (ping replies + idle keepalives) and feeds received CI-V bytes to Read.
import (
"encoding/binary"
"fmt"
"io"
"net"
"strings"
"sync"
"sync/atomic"
"time"
)
var icnLE = binary.LittleEndian
var icnBE = binary.BigEndian
// NewIcomNet builds an (unconnected) Icom backend whose transport is the network
// stream. host is the rig's IP/hostname; user/pass are the rig's Network User1
// credentials. Reuses the whole IcomSerial controller — only `open` differs.
//
// audioSink (optional) enables the network RX audio stream (UDP 50003): when
// non-nil the conninfo asks the rig to stream audio and each received payload is
// passed to audioSink (the app decodes it via an audio.Codec and plays it). nil
// = CI-V only (the proven default). The audio stream is fully separate from CAT,
// so enabling it can't affect freq/mode/DSP control.
func NewIcomNet(host, user, pass string, civAddr int, digitalDefault string, audioSink func([]byte)) *IcomSerial {
if civAddr <= 0 || civAddr > 0xFF {
civAddr = 0x98 // IC-7610
}
if digitalDefault == "" {
digitalDefault = "FT8"
}
b := &IcomSerial{
portName: host,
rigAddr: byte(civAddr),
digital: strings.ToUpper(digitalDefault),
model: "Icom",
scopeFixed: true,
}
b.open = func() (civTransport, error) {
if strings.TrimSpace(host) == "" {
return nil, fmt.Errorf("no rig host configured")
}
b.dialMu.Lock()
cancel := b.dialCancel
b.dialMu.Unlock()
return dialIcomNet(host, user, pass, "OpsLog", b.rigAddr, cancel, audioSink)
}
return b
}
// errDialCanceled is returned by dialIcomNet when Interrupt() aborts the dial
// (Stop/Start). The Manager treats it like any connect error and simply stops.
var errDialCanceled = fmt.Errorf("dial canceled")
// icnCanceled reports whether the dial has been asked to abort.
func icnCanceled(cancel <-chan struct{}) bool {
if cancel == nil {
return false
}
select {
case <-cancel:
return true
default:
return false
}
}
// icomNet is the connected network transport. It satisfies civTransport.
type icomNet struct {
ctrl *net.UDPConn // control stream (50001)
civ *net.UDPConn // CI-V stream (50002)
cID, cRemote uint32 // control stream ids
vID, vRemote uint32 // civ stream ids
// Tracked-packet sequence + CI-V data sequence. Written only by Write (on the
// CAT goroutine) and during dial — never by the pump — so no lock is needed.
vTracked uint16
vCivSeq uint16
rx chan []byte // CI-V byte chunks from civPump → Read (control replies)
scopeRx chan []byte // scope (0x27) frames, kept off rx so the panadapter
// stream can't crowd control replies out (→ ScopeChan)
leftover []byte // partial chunk not yet returned by Read (Read-only)
readTO time.Duration // Read timeout (SetReadTimeout)
// sentBuf keeps recently-sent tracked civ packets (by outer seq) so we can
// answer the rig's UDP retransmit requests. Written by Write (CAT goroutine),
// read by the pumps → guarded by sentMu.
sentMu sync.Mutex
sentBuf map[uint16][]byte
// Control-stream auth state, carried out of dial so ctrlPump can RENEW the
// login token every ~45 s. The rig invalidates the session ~2 min after login
// without renewal (this was the "loses control after 2 min" drop — RS-BA1/the
// Remote Utility renew too). Owned solely by ctrlPump after dial → no lock.
cTracked uint16 // control-stream tracked seq (continues after dial)
cAuthSeq uint16 // token-packet innerseq
cToken uint32 // login token (opaque, echoed back verbatim)
cTokReq uint16 // token-request id (echoed)
cSentBuf map[uint16][]byte // control-stream retransmit buffer (token renewals)
// Receive-side retransmit (CI-V stream): track the rig's data-packet send seq
// and ask it to resend any gap. Under the scope stream, UDP drops are common;
// without recovering them the gaps accumulate and the rig drops the WHOLE
// session after ~20 s (RS-BA1/wfview request retransmits, which is why they
// stay up with the panadapter on). Owned solely by civPump → no lock.
rxHaveSeq bool
rxLastSeq uint16
rxMissing map[uint16]int
// lastRx is the UnixNano of the last packet received from the rig (any type),
// updated by both pumps. The rig's network server answers pings/idles even
// when the RADIO is in standby, so this tracks the CONTROL-LINK liveness
// independently of whether CI-V is replying — letting ReadState tell "rig off
// but link fine" (stay connected) from "link dead" (reconnect). See Alive().
lastRx atomic.Int64
// audio is the optional RX audio stream (UDP 50003). nil when audio is off.
// Torn down alongside the CI-V/control streams in Close.
audio *icomAudio
done chan struct{}
closeOnce sync.Once
}
// ScopeChan exposes the raw scope (0x27) CI-V frames for the scope feeder.
// Satisfies scopeTransport in icomserial.go.
func (n *icomNet) ScopeChan() <-chan []byte { return n.scopeRx }
// icnEnqueueDrop pushes onto a bounded channel, discarding the oldest entry when
// full — a lagging consumer never blocks the producer (used for the scope stream,
// where only the latest sweep matters).
func icnEnqueueDrop(ch chan []byte, v []byte) {
select {
case ch <- v:
default:
select {
case <-ch:
default:
}
select {
case ch <- v:
default:
}
}
}
func (n *icomNet) SetReadTimeout(d time.Duration) error { n.readTO = d; return nil }
func (n *icomNet) SetDTR(bool) error { return nil } // n/a on the network
func (n *icomNet) SetRTS(bool) error { return nil }
// markRx records that a packet just arrived from the rig (control-link liveness).
func (n *icomNet) markRx() { n.lastRx.Store(time.Now().UnixNano()) }
// Alive reports whether the rig's network server is still talking to us. The rig
// pings/idles continuously (even in standby), so a gap means the link — not just
// the radio — is gone. Independent of CI-V replies, so a powered-off rig still
// reads as Alive and the session isn't torn down. Satisfies aliveTransport.
func (n *icomNet) Alive() bool {
last := n.lastRx.Load()
if last == 0 {
return true // just connected, nothing received yet — give it a chance
}
return time.Since(time.Unix(0, last)) < 6*time.Second
}
// Read returns tunnelled CI-V bytes, mimicking a serial port: (0,nil) on
// timeout, (n,nil) with data, (0,err) when the link is closed.
func (n *icomNet) Read(p []byte) (int, error) {
if len(n.leftover) > 0 {
k := copy(p, n.leftover)
n.leftover = n.leftover[k:]
return k, nil
}
to := n.readTO
if to <= 0 {
to = 60 * time.Millisecond
}
select {
case f, ok := <-n.rx:
if !ok {
return 0, io.EOF
}
k := copy(p, f)
if k < len(f) {
n.leftover = append(n.leftover[:0], f[k:]...)
}
return k, nil
case <-time.After(to):
return 0, nil // timeout, no data
case <-n.done:
return 0, io.EOF
}
}
// Write wraps raw CI-V bytes (FE FE … FD) in a data packet and sends them.
func (n *icomNet) Write(p []byte) (int, error) {
if icnTrace {
debugLog.Printf("icom net TX: % X", p)
}
seq := n.vTracked
pkt := icnCivData(seq, n.vID, n.vRemote, n.vCivSeq, p)
n.vTracked++
n.vCivSeq++
n.sentMu.Lock()
n.sentBuf[seq] = pkt
delete(n.sentBuf, seq-1024) // keep the buffer bounded (~last 1024 packets) so
// the rig's retransmit requests still hit even under sustained CW + poll load
n.sentMu.Unlock()
if _, err := n.civ.Write(pkt); err != nil {
return 0, err
}
return len(p), nil
}
// icnTrace toggles verbose per-frame CI-V request/reply logging for diagnosing
// the network transport. Off by default (the connect-step logs stay); flip to
// true to trace every TX/RX again.
var icnTrace = false
func (n *icomNet) Close() error {
n.closeOnce.Do(func() {
close(n.done)
if n.audio != nil {
n.audio.Close()
}
// Tell the rig we're leaving so it frees its SINGLE control session at
// once. If it never gets a disconnect it holds the session for minutes and
// refuses every new login — which is why a lost link (or a hard app exit)
// left the rig un-reconnectable, even from the Icom Remote Utility. UDP is
// lossy, so send openClose(close) + disconnect on both streams a few times.
// The whole teardown is bounded to ~90 ms so it never stalls the caller
// (Settings "Save & Close" / a reconnect's Disconnect).
for i := 0; i < 3; i++ {
_, _ = n.civ.Write(icnOpenClose(n.vTracked, n.vID, n.vRemote, n.vCivSeq, 0x00)) // close CI-V
_, _ = n.civ.Write(icnCtrl(0x05, 0, n.vID, n.vRemote)) // disconnect civ
_, _ = n.ctrl.Write(icnCtrl(0x05, 0, n.cID, n.cRemote)) // disconnect ctrl
time.Sleep(25 * time.Millisecond)
}
debugLog.Printf("icom net: sent disconnect to rig (session released)")
_ = n.civ.Close()
_ = n.ctrl.Close()
})
return nil
}
// ctrlPump keeps the control stream (50001) alive: replies to the rig's pings,
// sends idle keepalives, RENEWS the login token every ~45 s (without this the rig
// invalidates the session after ~2 min → total loss of control), and answers the
// rig's retransmit requests for those tracked control packets. Its own goroutine
// so it never throttles civPump.
func (n *icomNet) ctrlPump() {
buf := make([]byte, 4096)
lastIdle := time.Now()
lastToken := time.Now() // token was just granted during dial
for {
select {
case <-n.done:
return
default:
}
_ = n.ctrl.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
if k, err := n.ctrl.Read(buf); err == nil && k >= 16 {
n.markRx()
switch icnLE.Uint16(buf[4:]) {
case 0x07: // ping
_, _ = n.ctrl.Write(icnPingReply(buf[:k], n.cID, n.cRemote))
case 0x01: // retransmit request — resend from the CONTROL sent-buffer
if k >= 8 {
n.ctrlResend(icnLE.Uint16(buf[6:]))
}
case 0x05: // rig-initiated disconnect — it dropped US
debugLog.Printf("icom net: rig sent DISCONNECT on control stream — session dropped by the rig")
}
}
if time.Since(lastIdle) > 100*time.Millisecond {
_, _ = n.ctrl.Write(icnCtrl(0x00, 0, n.cID, n.cRemote))
lastIdle = time.Now()
}
if time.Since(lastToken) > 45*time.Second {
n.renewToken()
lastToken = time.Now()
}
}
}
// renewToken re-authorizes the session (control 0x40 token packet, requesttype
// 0x05). Tracked so a lost renewal can be retransmitted. Runs only on ctrlPump,
// the sole owner of the control-stream auth state, so no locking is needed.
func (n *icomNet) renewToken() {
seq := n.cTracked
pkt := icnTokenRenew(seq, n.cAuthSeq, n.cTokReq, n.cID, n.cRemote, n.cToken)
n.cTracked++
n.cAuthSeq++
n.cSentBuf[seq] = pkt
delete(n.cSentBuf, seq-256)
_, _ = n.ctrl.Write(pkt)
debugLog.Printf("icom net: token renewed (seq %d)", seq)
}
// ctrlResend answers a control-stream retransmit request from the control
// sent-buffer (token renewals). Separate from resend(), which owns the CI-V
// buffer — the two streams have independent sequence spaces.
func (n *icomNet) ctrlResend(seq uint16) {
if pkt := n.cSentBuf[seq]; pkt != nil {
_, _ = n.ctrl.Write(pkt)
}
}
// civPump owns the CI-V stream (50002): drains it as fast as packets arrive
// (its own goroutine — not throttled by the control reads), replies to pings,
// answers retransmit requests, skips scope frames, and feeds control CI-V bytes
// to Read via n.rx.
func (n *icomNet) civPump() {
buf := make([]byte, 8192)
lastIdle := time.Now()
lastReq := time.Now()
for {
select {
case <-n.done:
return
default:
}
_ = n.civ.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
if k, err := n.civ.Read(buf); err == nil && k >= 16 {
n.markRx()
switch typ := icnLE.Uint16(buf[4:]); {
case typ == 0x07: // ping
_, _ = n.civ.Write(icnPingReply(buf[:k], n.vID, n.vRemote))
case typ == 0x01: // retransmit request — resend that seq
if k >= 8 {
n.resend(icnLE.Uint16(buf[6:]))
}
case typ == 0x05: // rig-initiated disconnect — it dropped US
debugLog.Printf("icom net: rig sent DISCONNECT on CI-V stream — session dropped by the rig")
case typ == 0x00 && k > 0x15 && buf[0x10] == 0xc1: // CI-V data
n.trackRxSeq(icnLE.Uint16(buf[6:])) // note gaps for retransmit
civBytes := buf[0x15:k]
cp := append([]byte(nil), civBytes...)
// Scope (0x27) frames go to their OWN channel: the panadapter streams
// continuously as large frames and would otherwise crowd control
// replies out of rx (every command would then time out). The scope
// feeder in IcomSerial picks them up. Everything else is a control
// reply → rx → Read.
if len(civBytes) >= 5 && civBytes[4] == 0x27 {
icnEnqueueDrop(n.scopeRx, cp)
break
}
if icnTrace {
debugLog.Printf("icom net RX: % X", civBytes)
}
select {
case n.rx <- cp:
case <-n.done:
return
default: // buffer full — drop oldest, enqueue newest
select {
case <-n.rx:
default:
}
select {
case n.rx <- cp:
default:
}
}
}
}
if time.Since(lastIdle) > 150*time.Millisecond {
_, _ = n.civ.Write(icnCtrl(0x00, 0, n.vID, n.vRemote))
lastIdle = time.Now()
}
if time.Since(lastReq) > 100*time.Millisecond {
n.sendRetransmitReq()
lastReq = time.Now()
}
}
}
// icnMaxMissing caps the outstanding retransmit backlog; a bigger jump is treated
// as a wrap/desync and the tracker resets rather than requesting a storm.
const icnMaxMissing = 50
// trackRxSeq records the rig's data-packet send seq (outer seq @0x06) and flags
// any forward gap as missing so sendRetransmitReq can ask for it. Handles uint16
// wrap via the signed distance; ignores duplicates and already-seen packets.
func (n *icomNet) trackRxSeq(seq uint16) {
if !n.rxHaveSeq {
n.rxHaveSeq = true
n.rxLastSeq = seq
return
}
switch d := int16(seq - n.rxLastSeq); {
case d == 0: // duplicate
case d < 0: // an older seq arrived — a retransmit we were missing
delete(n.rxMissing, seq)
case d == 1: // in order
n.rxLastSeq = seq
case int(d) <= icnMaxMissing: // forward gap — mark the in-between seqs missing
for f := n.rxLastSeq + 1; f != seq; f++ {
n.rxMissing[f] = 0
}
n.rxLastSeq = seq
default: // huge jump (wrap/desync) — reset to avoid a false retransmit storm
n.rxMissing = make(map[uint16]int)
n.rxLastSeq = seq
}
}
// sendRetransmitReq asks the rig to resend any CI-V data packets we detected as
// missing. Each seq is requested up to 4 times then dropped. Mirrors the Remote
// Utility/wfview format: a single miss = a 16-byte control (type 0x01, seq set);
// several = a control header + a list of [lo hi lo hi] per seq.
func (n *icomNet) sendRetransmitReq() {
if len(n.rxMissing) == 0 {
return
}
if len(n.rxMissing) > icnMaxMissing {
n.rxMissing = make(map[uint16]int) // hopelessly behind — flush and move on
return
}
var seqs []uint16
for s, cnt := range n.rxMissing {
if cnt >= 4 {
delete(n.rxMissing, s)
continue
}
n.rxMissing[s] = cnt + 1
seqs = append(seqs, s)
}
switch {
case len(seqs) == 0:
return
case len(seqs) == 1:
_, _ = n.civ.Write(icnCtrl(0x01, seqs[0], n.vID, n.vRemote))
default:
b := make([]byte, 16+4*len(seqs))
icnLE.PutUint32(b[0:], uint32(len(b)))
icnLE.PutUint16(b[4:], 0x01) // type = retransmit request
icnLE.PutUint32(b[8:], n.vID)
icnLE.PutUint32(b[12:], n.vRemote)
off := 16
for _, s := range seqs {
icnLE.PutUint16(b[off:], s)
icnLE.PutUint16(b[off+2:], s)
off += 4
}
_, _ = n.civ.Write(b)
}
}
// resend re-transmits a previously-sent tracked CI-V packet the rig asks for
// (its UDP retransmit mechanism). Without this the rig drops the whole session
// after a few seconds when a packet is lost under load.
func (n *icomNet) resend(seq uint16) {
n.sentMu.Lock()
pkt := n.sentBuf[seq]
n.sentMu.Unlock()
if pkt != nil {
_, _ = n.civ.Write(pkt)
} else {
// The rig asked for a packet we've already evicted (>256 sent since). It
// can't fill its gap → it eventually drops the session. If this shows up in
// the log around a disconnect, the send buffer is too small for the load.
debugLog.Printf("icom net: retransmit MISS for seq %d (already evicted)", seq)
}
}
// ------------------------- connect -------------------------
func dialIcomNet(host, user, pass, compName string, rigAddr byte, cancel <-chan struct{}, audioSink func([]byte)) (*icomNet, error) {
wantAudio := audioSink != nil
debugLog.Printf("icom net: connecting to %s (user %q, comp %q, rig addr 0x%02X, audio=%v)", host, user, compName, rigAddr, wantAudio)
// ---- control stream (50001): handshake → login → token → conninfo ----
craddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50001"))
if err != nil {
return nil, err
}
ctrl, err := net.DialUDP("udp4", nil, craddr)
if err != nil {
return nil, fmt.Errorf("dial control: %w", err)
}
cID := icnLocalID(ctrl)
cRemote, err := icnHandshake(ctrl, cID, cancel)
if err != nil {
_ = ctrl.Close()
debugLog.Printf("icom net: control handshake FAILED (rig unreachable at %s:50001?): %v", host, err)
return nil, fmt.Errorf("control handshake: %w", err)
}
debugLog.Printf("icom net: control link up (rig id 0x%08X) — logging in", cRemote)
var cTracked, cInner uint16 = 1, 1
tokReq := uint16(0x0c77)
_, _ = ctrl.Write(icnLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
cTracked++
cInner++
var token uint32
buf := make([]byte, 2048)
deadline := time.Now().Add(5 * time.Second)
for token == 0 && time.Now().Before(deadline) {
if icnCanceled(cancel) {
_ = ctrl.Close()
return nil, errDialCanceled
}
p, ok := icnRecv(ctrl, 200, buf)
if !ok {
continue
}
length := icnLE.Uint32(p[0:])
typ := icnLE.Uint16(p[4:])
if typ == 0x00 && length == 0x60 && len(p) >= 0x34 { // login response
token = icnLE.Uint32(p[0x1c:])
if e := icnLE.Uint32(p[0x30:]); e != 0 || token == 0 {
_ = ctrl.Close()
debugLog.Printf("icom net: LOGIN REJECTED (err=0x%08X) — wrong Network User1 ID/Password", e)
return nil, fmt.Errorf("login rejected — check the rig's Network User1 ID/Password")
}
_, _ = ctrl.Write(icnToken(cTracked, cInner, tokReq, cID, cRemote, token))
cTracked++
cInner++
debugLog.Printf("icom net: LOGIN OK, token 0x%08X", token)
} else if typ == 0x07 {
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
}
}
if token == 0 {
_ = ctrl.Close()
debugLog.Printf("icom net: login TIMED OUT (no token in 5s) — check host/credentials")
return nil, fmt.Errorf("login timed out (no token) — check host/credentials")
}
// Learn the rig's MAC from its conninfo push (144B) to echo in our conninfo.
var rigMAC []byte
macEnd := time.Now().Add(1200 * time.Millisecond)
for time.Now().Before(macEnd) {
if icnCanceled(cancel) {
_ = ctrl.Close()
return nil, errDialCanceled
}
p, ok := icnRecv(ctrl, 150, buf)
if !ok {
continue
}
if len(p) >= 0x30 && icnLE.Uint32(p[0:]) == 0x90 { // 144-byte conninfo push
rigMAC = append([]byte(nil), p[0x2a:0x30]...)
}
if icnLE.Uint16(p[4:]) == 0x07 {
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
}
if rigMAC != nil {
break
}
}
if rigMAC == nil {
rigMAC = make([]byte, 6)
}
var rxEnable byte
if wantAudio {
rxEnable = 0x01 // ask the rig to stream RX audio on 50003
}
_, _ = ctrl.Write(icnConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003, rxEnable))
cTracked++
cInner++
drainEnd := time.Now().Add(500 * time.Millisecond)
for time.Now().Before(drainEnd) {
if icnCanceled(cancel) {
_ = ctrl.Close()
return nil, errDialCanceled
}
if p, ok := icnRecv(ctrl, 100, buf); ok && icnLE.Uint16(p[4:]) == 0x07 {
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
}
}
// ---- CI-V stream (50002): bind LOCAL :50002 (the announced civport) ----
vraddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50002"))
if err != nil {
_ = ctrl.Close()
return nil, err
}
debugLog.Printf("icom net: conninfo sent (rig mac % X) — opening CI-V stream", rigMAC)
civ, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50002}, vraddr)
if err != nil {
_ = ctrl.Close()
debugLog.Printf("icom net: cannot bind local :50002 — the Icom Remote Utility is probably still running: %v", err)
return nil, fmt.Errorf("dial CI-V (local :50002 — is the Icom Remote Utility still running?): %w", err)
}
vID := icnLocalID(civ)
vRemote, err := icnHandshake(civ, vID, cancel)
if err != nil {
_ = civ.Close()
_ = ctrl.Close()
debugLog.Printf("icom net: CI-V handshake FAILED: %v", err)
return nil, fmt.Errorf("CI-V handshake: %w", err)
}
debugLog.Printf("icom net: CI-V link up — opening the CI-V data flow (rig power left to the ON button)")
// Bigger receive buffers so a burst of scope/CI-V packets doesn't overflow
// (dropped packets → the rig's retransmit requests → session drop).
_ = ctrl.SetReadBuffer(1 << 20)
_ = civ.SetReadBuffer(1 << 20)
n := &icomNet{
ctrl: ctrl, civ: civ,
cID: cID, cRemote: cRemote, vID: vID, vRemote: vRemote,
vTracked: 1, vCivSeq: 1,
rx: make(chan []byte, 256),
scopeRx: make(chan []byte, 8),
sentBuf: make(map[uint16][]byte),
rxMissing: make(map[uint16]int),
done: make(chan struct{}),
// Auth state for periodic token renewal (see ctrlPump). cTracked/cAuthSeq
// continue the control-stream sequences from where the dial's login/token/
// conninfo left off.
cTracked: cTracked, cAuthSeq: cInner,
cToken: token, cTokReq: tokReq,
cSentBuf: make(map[uint16][]byte),
}
n.markRx() // the successful handshake counts as initial rig activity
// openClose(open) starts the CI-V data flow. We intentionally DO NOT power the
// rig on here — that's a manual ON button now (the user asked not to wake the
// rig at launch). If the rig is in standby the control/CI-V streams still stay
// up and Alive() stays true (the rig's server answers pings even when the radio
// is off), so the session doesn't flap; CI-V just stays silent until ON.
ocPkt := icnOpenClose(n.vTracked, vID, vRemote, n.vCivSeq, 0x04)
n.sentBuf[n.vTracked] = ocPkt
_, _ = civ.Write(ocPkt)
n.vTracked++
n.vCivSeq++
go n.ctrlPump()
go n.civPump()
// Optional RX audio stream (50003). The rig was told (conninfo rxEnable=1) to
// stream audio; open the socket + handshake now. A failure here is NON-fatal:
// CAT works without audio, so we log and continue rather than tear down a
// perfectly good control/CI-V session.
if wantAudio {
if a, err := dialIcomAudio(host, audioSink, cancel); err != nil {
debugLog.Printf("icom net: audio stream FAILED (CAT unaffected): %v", err)
} else {
n.audio = a
}
}
return n, nil
}
// icnHandshake: areYouThere(seq0) → iAmHere → areYouReady(seq1) → iAmReady.
func icnHandshake(c *net.UDPConn, myID uint32, cancel <-chan struct{}) (uint32, error) {
buf := make([]byte, 2048)
_, _ = c.Write(icnCtrl(0x03, 0, myID, 0))
var remoteID uint32
deadline := time.Now().Add(4 * time.Second)
lastTry := time.Now()
for time.Now().Before(deadline) {
if icnCanceled(cancel) {
return 0, errDialCanceled
}
p, ok := icnRecv(c, 200, buf)
if !ok {
if remoteID == 0 && time.Since(lastTry) > 500*time.Millisecond {
_, _ = c.Write(icnCtrl(0x03, 0, myID, 0))
lastTry = time.Now()
}
continue
}
typ := icnLE.Uint16(p[4:])
sentid := icnLE.Uint32(p[8:])
switch typ {
case 0x04: // iAmHere
remoteID = sentid
_, _ = c.Write(icnCtrl(0x06, 1, myID, remoteID))
case 0x06: // iAmReady
if remoteID != 0 {
return remoteID, nil
}
case 0x07: // ping
_, _ = c.Write(icnPingReply(p, myID, remoteID))
}
}
return 0, fmt.Errorf("handshake timeout")
}
func icnRecv(c *net.UDPConn, ms int, buf []byte) ([]byte, bool) {
_ = c.SetReadDeadline(time.Now().Add(time.Duration(ms) * time.Millisecond))
k, err := c.Read(buf)
if err != nil || k < 16 {
return nil, false
}
return buf[:k], true
}
func icnLocalID(c *net.UDPConn) uint32 {
a := c.LocalAddr().(*net.UDPAddr)
ip := a.IP.To4()
if ip == nil {
ip = []byte{192, 168, 0, 1}
}
return uint32(ip[0])<<24 | uint32(ip[1])<<16 | uint32(uint16(a.Port))
}
// ------------------------- packet builders -------------------------
// (offsets verified vs wfview structs + real captures)
func icnCtrl(typ, seq uint16, sentid, rcvdid uint32) []byte {
b := make([]byte, 16)
icnLE.PutUint32(b[0:], 0x10)
icnLE.PutUint16(b[4:], typ)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
return b
}
func icnPingReply(pkt []byte, myID, remoteID uint32) []byte {
r := append([]byte(nil), pkt...)
if len(r) >= 17 {
icnLE.PutUint32(r[8:], myID)
icnLE.PutUint32(r[12:], remoteID)
r[16] = 0x01
}
return r
}
func icnLogin(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user, pass, name string) []byte {
b := make([]byte, 0x80)
icnLE.PutUint32(b[0:], 0x80)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
icnBE.PutUint32(b[0x10:], 0x80-0x10)
b[0x14] = 0x01
b[0x15] = 0x00
icnBE.PutUint16(b[0x16:], innerSeq)
icnLE.PutUint16(b[0x1a:], tokReq)
icnLE.PutUint32(b[0x1c:], token)
copy(b[0x40:0x50], icnPasscode(user))
copy(b[0x50:0x60], icnPasscode(pass))
nm := name
if len(nm) > 16 {
nm = nm[:16]
}
copy(b[0x60:0x70], []byte(nm))
return b
}
func icnToken(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
b := make([]byte, 0x40)
icnLE.PutUint32(b[0:], 0x40)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
icnBE.PutUint32(b[0x10:], 0x40-0x10)
b[0x14] = 0x01
b[0x15] = 0x02
icnBE.PutUint16(b[0x16:], innerSeq)
icnLE.PutUint16(b[0x1a:], tokReq)
icnLE.PutUint32(b[0x1c:], token)
return b
}
// icnTokenRenew builds the periodic token-renewal packet (control 0x40). Same as
// the login-time token confirm but requesttype 0x05 (renew) with the resetcap
// field (0x0798 BE @0x24) the Remote Utility sends on renewals. Keeps the rig
// from invalidating the session (~2-min timeout without renewal). Offsets per the
// wfview token_packet struct (verified) — protocol facts, not copied code.
func icnTokenRenew(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
b := make([]byte, 0x40)
icnLE.PutUint32(b[0:], 0x40)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
icnBE.PutUint32(b[0x10:], 0x40-0x10)
b[0x14] = 0x01 // requestreply = request
b[0x15] = 0x05 // requesttype = token renewal
icnBE.PutUint16(b[0x16:], innerSeq)
icnLE.PutUint16(b[0x1a:], tokReq)
icnLE.PutUint32(b[0x1c:], token)
icnBE.PutUint16(b[0x24:], 0x0798) // resetcap
return b
}
func icnConnInfo(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user string, rigMAC []byte, civPort, audioPort uint16, rxEnable byte) []byte {
b := make([]byte, 0x90)
icnLE.PutUint32(b[0:], 0x90)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
icnBE.PutUint32(b[0x10:], 0x90-0x10)
b[0x14] = 0x01
b[0x15] = 0x03 // requesttype = conninfo / open streams
icnBE.PutUint16(b[0x16:], innerSeq)
icnLE.PutUint16(b[0x1a:], tokReq)
icnLE.PutUint32(b[0x1c:], token)
icnLE.PutUint16(b[0x27:], 0x8010) // commoncap
copy(b[0x2a:0x30], rigMAC)
copy(b[0x40:0x60], []byte("IC-7610"))
copy(b[0x60:0x70], icnPasscode(user))
b[0x70] = rxEnable // rxenable: 1 opens the 50003 RX audio stream, 0 = CI-V only
b[0x71] = 0x00 // txenable (Phase 5)
b[0x72] = 0x10 // rxcodec
b[0x73] = 0x04 // txcodec
icnBE.PutUint32(b[0x74:], 16000)
icnBE.PutUint32(b[0x78:], 8000)
icnBE.PutUint32(b[0x7c:], uint32(civPort))
icnBE.PutUint32(b[0x80:], uint32(audioPort))
icnBE.PutUint32(b[0x84:], 100)
b[0x88] = 0x00
return b
}
func icnOpenClose(seq uint16, sentid, rcvdid uint32, civSeq uint16, magic byte) []byte {
b := make([]byte, 0x16)
icnLE.PutUint32(b[0:], 0x16)
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
icnLE.PutUint16(b[0x10:], 0x01c0)
icnBE.PutUint16(b[0x13:], civSeq)
b[0x15] = magic
return b
}
func icnCivData(seq uint16, sentid, rcvdid uint32, civSeq uint16, civ []byte) []byte {
nn := 0x15 + len(civ)
b := make([]byte, nn)
icnLE.PutUint32(b[0:], uint32(nn))
icnLE.PutUint16(b[6:], seq)
icnLE.PutUint32(b[8:], sentid)
icnLE.PutUint32(b[12:], rcvdid)
b[0x10] = 0xc1
icnLE.PutUint16(b[0x11:], uint16(len(civ)))
icnBE.PutUint16(b[0x13:], civSeq)
copy(b[0x15:], civ)
return b
}
// icnPasscodeSeq — Icom's obfuscation table (values at index 0x20..0x7e).
// VERIFIED: user "f6bgc" → 3F 65 50 25 55 (matches the capture).
var icnPasscodeSeq = [256]byte{
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41, 0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e,
0x7c, 0x65, 0x7d, 0x49, 0x29, 0x72, 0x73, 0x78, 0x21, 0x6e, 0x5a, 0x5e, 0x4a, 0x3e, 0x71, 0x2c, 0x2a, 0x54, 0x3c, 0x3a, 0x63, 0x4f,
0x43, 0x75, 0x27, 0x79, 0x5b, 0x35, 0x70, 0x48, 0x6b, 0x56, 0x6f, 0x34, 0x32, 0x6c, 0x30, 0x61, 0x6d, 0x7b, 0x2f, 0x4b, 0x64, 0x38,
0x2b, 0x2e, 0x50, 0x40, 0x3f, 0x55, 0x33, 0x37, 0x25, 0x77, 0x24, 0x26, 0x74, 0x6a, 0x28, 0x53, 0x4d, 0x69, 0x22, 0x5c, 0x44, 0x31,
0x36, 0x58, 0x3b, 0x7a, 0x51, 0x5f, 0x52,
}
func icnPasscode(s string) []byte {
out := make([]byte, 0, len(s))
for i := 0; i < len(s) && i < 16; i++ {
p := int(s[i]) + i
if p > 126 {
p = 32 + p%127
}
out = append(out, icnPasscodeSeq[p])
}
return out
}
+481 -11
View File
@@ -27,6 +27,26 @@ type civTransport interface {
SetRTS(bool) error
}
// aliveTransport is an OPTIONAL transport capability: report whether the link is
// still up independently of whether the rig answers CI-V. The network transport
// implements it (the rig's server pings even in standby), letting ReadState keep
// the session "connected but rig off" instead of tearing it down and flapping.
// USB doesn't implement it (no such out-of-band signal), so it keeps the bounded
// read-failure tolerance instead.
type aliveTransport interface {
Alive() bool
}
// scopeTransport is an OPTIONAL transport capability: deliver spectrum-scope
// (0x27) frames on a SEPARATE channel from control replies. The network transport
// implements it so the continuous panadapter stream can't crowd control replies
// out of the main Read path (which made every command time out with the scope
// on). USB doesn't implement it — there the scope frames ride the normal Read
// path and the reader splits them off to specCh.
type scopeTransport interface {
ScopeChan() <-chan []byte
}
// IcomSerial controls an Icom transceiver over the shared civ protocol. The
// transport is pluggable via `open`: NewIcomSerial opens a USB/serial port;
// NewIcomNet (later) returns one configured with a network transport. Implements
@@ -75,6 +95,8 @@ type IcomSerial struct {
splitOn bool // last read split state (refreshed every few cycles)
splitTXFreq int64 // last read unselected/TX VFO freq while in split
readFails int // consecutive ReadState freq-read failures (transient tolerance)
dspLoaded bool // readDSP has run since the rig became responsive (loads all
// the panel's set-once controls once the rig actually answers)
lastSetFreq int64 // last frequency commanded (spot click: freq then mode)
lastSetFreqAt time.Time
@@ -83,6 +105,29 @@ type IcomSerial struct {
// / setters) — hence the mutex.
dspMu sync.Mutex
dsp IcomTXState
// dialCancel is closed by Interrupt() to abort an in-progress network dial
// (icomnet's handshake/login/boot-wait can block ~tens of seconds). A fresh
// channel is made by each Connect. Guarded by dialMu: written on the CAT
// goroutine, closed from the goroutine calling Stop.
dialMu sync.Mutex
dialCancel chan struct{}
}
// Interrupt aborts an in-progress network Connect so Stop()/Start() don't block
// on a slow UDP handshake (or the 25 s boot-from-standby wait). Safe to call at
// any time and from another goroutine; harmless when no dial is in progress and
// a no-op for the USB transport (which dials instantly).
func (b *IcomSerial) Interrupt() {
b.dialMu.Lock()
if b.dialCancel != nil {
select {
case <-b.dialCancel: // already closed
default:
close(b.dialCancel)
}
}
b.dialMu.Unlock()
}
const (
@@ -130,6 +175,11 @@ func (b *IcomSerial) Connect() error {
if b.open == nil {
return fmt.Errorf("no transport configured")
}
// Fresh cancel channel for this dial so Interrupt() (called by Stop) can abort
// a slow network handshake instead of freezing the UI.
b.dialMu.Lock()
b.dialCancel = make(chan struct{})
b.dialMu.Unlock()
port, err := b.open()
if err != nil {
return err
@@ -154,19 +204,36 @@ func (b *IcomSerial) Connect() error {
b.readerDone = make(chan struct{})
go b.reader(port, b.readerDone)
go b.scopeLoop(b.specCh, b.readerDone)
// On the network the scope frames come on their own channel (kept off the
// control Read path); feed them into the same scope pipeline.
if sc, ok := port.(scopeTransport); ok {
go b.netScopeFeeder(sc.ScopeChan(), b.readerDone)
}
// Best-effort model identification: ask the rig for its own CI-V address.
// Best-effort model identification: ask the rig for its own CI-V address. The
// 0x19 ID read returns the rig's FACTORY default address (e.g. 0x94 for an
// IC-7300) regardless of the address it's currently OPERATING on — so it's the
// reliable model signal even when the user runs the rig at a non-default CI-V
// address (a common trick to make CAT "just work" at 0x98).
idAddr := b.rigAddr // fallback: the configured address if the ID read fails
if err := b.write(civ.CmdReadID, civ.SubPTT); err == nil {
if f, err := b.recv(icomReadTimeout, func(d civ.Decoded) bool {
return d.Cmd == civ.CmdReadID && len(d.Data) >= 2 && d.Data[0] == 0x00
}); err == nil {
b.model = civ.ModelName(f.Data[1])
idAddr = f.Data[1]
}
}
// Dual-scope rigs (IC-7610/9700) prefix each waveform frame with a main/sub
// selector byte; single-scope rigs (IC-7300…) do not.
b.dualScope = b.rigAddr == 0x98 || b.rigAddr == 0xA2
b.readDSP() // best-effort initial snapshot for the control tab
// selector byte; single-scope rigs (IC-7300…) do not. Decide from the
// IDENTIFIED model, NOT the configured address: an IC-7300 run at 0x98 must
// still parse single-scope frames (this was the "scope blank on the 7300" bug).
b.dualScope = idAddr == 0x98 || idAddr == 0xA2
// Defer the DSP snapshot until the rig actually answers CI-V. Over the network
// the rig may still be booting (or off) at Connect, so an immediate readDSP
// would time out and leave every control at 0 / off with no retry. ReadState
// loads it once on the first successful freq read instead (see dspLoaded).
b.dspLoaded = false
return nil
}
@@ -191,11 +258,38 @@ func (b *IcomSerial) ReadState() (RigState, error) {
hz, err := b.readFreq()
if err != nil {
// The rig briefly stops answering CI-V while it switches band/VFO. Treat a
// few consecutive misses as transient — keep the connection and report the
// last known state — so a band change doesn't trigger a full disconnect +
// 5 s reconnect (which showed the new frequency ~10 s late). Only after
// several failures do we declare the rig lost so the Manager reconnects.
// Network transport: if the control link is still alive, the rig is simply
// silent — either in standby / powered OFF (the ON button is manual now), or
// mid band-change. Stay CONNECTED and show last-known state (empty until the
// rig is switched on) rather than tearing the whole UDP session down and
// flapping every few seconds. The panel stays up so the ON button works.
if at, ok := b.port.(aliveTransport); ok {
if at.Alive() {
b.readFails = 0
s.FreqHz = b.curFreq // 0 until the rig is powered on and first read
if b.curModeByte != 0 {
s.Mode = civ.ModeToADIF(b.curModeByte, false)
if s.Mode == "DATA" {
s.Mode = b.digital
}
}
// Keep the Icom panel visible (so ON/OFF are reachable) but show no
// live meters while the rig is silent.
b.dspMu.Lock()
b.dsp.Available = true
b.dsp.Model = b.model
b.dsp.Transmitting = false
b.dsp.SMeter, b.dsp.PowerMeter, b.dsp.SWRMeter = 0, 0, 0
b.dspMu.Unlock()
return s, nil
}
return RigState{}, err // control link dead → let the Manager reconnect
}
// USB (no liveness signal): the rig briefly stops answering CI-V while it
// switches band/VFO. Tolerate a few consecutive misses as transient — keep
// the connection and report last-known state — so a band change doesn't
// trigger a full disconnect + 5 s reconnect. Only after several failures do
// we declare the rig lost so the Manager reconnects.
b.readFails++
if b.readFails <= 6 && b.curFreq > 0 {
s.FreqHz = b.curFreq
@@ -268,6 +362,15 @@ func (b *IcomSerial) ReadState() (RigState, error) {
b.dsp.PowerMeter = po
b.dsp.SWRMeter = swr
b.dspMu.Unlock()
// First time the rig answers (it's booted/responsive): load the full DSP
// snapshot so the panel's antenna, sliders, RIT, notch, etc. reflect the rig
// instead of sitting at their zero defaults. Runs once; ↻ Refresh re-reads on
// demand, and a reconnect re-arms it (Connect clears dspLoaded).
if !b.dspLoaded {
b.readDSP()
b.dspLoaded = true
}
return s, nil
}
@@ -306,6 +409,30 @@ func (b *IcomSerial) SetPTT(on bool) error {
return b.exec(civ.CmdPTT, civ.SubPTT, state)
}
// SetPower turns the transceiver on or off (CI-V 0x18). Power-ON is prefixed with
// a run of 0xFE — the wake preamble Icom rigs need to notice a command while
// asleep (harmless when already awake); after it the rig boots for ~10-15 s.
// Sent raw with no ack wait, since a rig waking up or shutting down won't
// reliably answer. On the network transport the whole buffer becomes one data
// packet, exactly as the Remote Utility sends it. Power is manual (the app never
// wakes the rig on connect), so this is driven by the panel's ON/OFF button.
func (b *IcomSerial) SetPower(on bool) error {
if b.port == nil {
return fmt.Errorf("icom: not connected")
}
if on {
buf := make([]byte, 0, 32)
for i := 0; i < 25; i++ {
buf = append(buf, 0xFE)
}
buf = append(buf, 0xFE, 0xFE, b.rigAddr, civ.AddrController, civ.CmdPower, 0x01, 0xFD)
_, err := b.port.Write(buf)
return err
}
_, err := b.port.Write(civ.Frame(b.rigAddr, civ.AddrController, civ.CmdPower, 0x00))
return err
}
// ── helpers ───────────────────────────────────────────────────────────────
func (b *IcomSerial) write(payload ...byte) error {
@@ -325,8 +452,14 @@ func (b *IcomSerial) write(payload ...byte) error {
// recv waits for a frame the reader routed to respCh that satisfies match, or
// times out. The reader has already discarded echoes and split off scope frames,
// so recv only ever sees candidate control replies.
// so recv only ever sees candidate control replies. It also bails out at once if
// Interrupt() fires (Stop) so an in-flight ReadState — which can be a dozen reads,
// each up to icomReadTimeout when the rig is slow — doesn't make Stop/Save-&-Close
// wait several seconds for the poll goroutine to finish.
func (b *IcomSerial) recv(timeout time.Duration, match func(civ.Decoded) bool) (civ.Decoded, error) {
b.dialMu.Lock()
cancel := b.dialCancel
b.dialMu.Unlock()
deadline := time.After(timeout)
for {
select {
@@ -334,6 +467,8 @@ func (b *IcomSerial) recv(timeout time.Duration, match func(civ.Decoded) bool) (
if match(f) {
return f, nil
}
case <-cancel:
return civ.Decoded{}, fmt.Errorf("icom: interrupted")
case <-deadline:
return civ.Decoded{}, fmt.Errorf("icom: timeout waiting for response")
}
@@ -374,6 +509,37 @@ func (b *IcomSerial) reader(port civTransport, done chan struct{}) {
}
}
// netScopeFeeder decodes the raw scope (0x27) CI-V frames the network transport
// delivers on its own channel and routes them into specCh — the same pipeline
// the USB reader feeds — so scopeLoop assembles them identically. Exits when the
// connection's reader does (done closes on Disconnect).
func (b *IcomSerial) netScopeFeeder(ch <-chan []byte, done chan struct{}) {
var buf []byte
for {
select {
case <-done:
return
case raw, ok := <-ch:
if !ok {
return
}
buf = append(buf, raw...)
frames, consumed := civ.Scan(buf)
if consumed > 0 {
buf = append(buf[:0], buf[consumed:]...)
}
for _, f := range frames {
if f.From == b.rigAddr && f.Cmd == civ.CmdScope {
b.route(b.specCh, f)
}
}
if len(buf) > 1<<16 { // a frame that never completes — don't grow forever
buf = buf[:0]
}
}
}
}
// route delivers a frame without ever blocking the reader: if the channel is
// full it drops the oldest entry to make room for the newest.
func (b *IcomSerial) route(ch chan civ.Decoded, f civ.Decoded) {
@@ -432,7 +598,7 @@ func (b *IcomSerial) scopeLoop(spec chan civ.Decoded, done chan struct{}) {
}
continue
}
if rawN < 4 {
if rawN < 24 {
rawN++
applog.Printf("icom scope raw #%d: len=%d data=[% X]", rawN, len(f.Data), f.Data)
}
@@ -451,6 +617,46 @@ func (b *IcomSerial) scopeLoop(spec chan civ.Decoded, done chan struct{}) {
if seq == 0 || tot == 0 {
continue
}
if tot == 1 {
// Network single-frame sweep: the WHOLE sweep is in one frame —
// region = [info][low 5-BCD][high 5-BCD][amplitude bytes…]. Parse the
// edges and take the rest as the trace, then publish immediately.
// (USB splits this across 21 frames; the net rig sends it as one.)
if len(region) >= 11 {
// Net single-frame layout (IC-7610): region = [info 1B][freq1 5-BCD]
// [freq2 5-BCD][amplitude bytes]. The two freq fields depend on the
// scope mode: FIXED sends [low-edge][high-edge] (both absolute), CENTRE
// sends [centre][span]. Tell them apart by magnitude — a second value
// BIGGER than the first is a real high edge; a small one is a span
// (e.g. 14.200 MHz + 100 kHz → centred 14.150-14.250; 21.000 +
// 21.070 → fixed 21.000-21.070). Guessing wrong here gave the absurd
// 21.000-42.070 span (low + a 21 MHz "span").
v1 := civ.BCDToFreq(region[1:6])
v2 := civ.BCDToFreq(region[6:11])
var low, high int64
if v2 > v1 {
low, high = v1, v2 // absolute low/high edges (fixed edge set)
} else {
low, high = v1-v2/2, v1+v2/2 // centre + span (centre-on-VFO)
}
amp := append([]byte(nil), region[11:]...)
b.scopeMu.Lock()
b.scopeLow, b.scopeHigh = low, high
b.scopeAmp = amp
b.scopeSeq++
firstLog := !b.scopeSeen
b.scopeSeen = true
b.scopeMu.Unlock()
if firstLog {
head := region
if len(head) > 16 {
head = head[:16]
}
applog.Printf("icom scope (net 1-frame): head=[% X] v1=%d v2=%d → %d..%d Hz points=%d", head, v1, v2, low, high, len(amp))
}
}
continue
}
if seq == 1 { // header frame — begins a new sweep, no waveform data
regions = make(map[byte][]byte)
total = tot
@@ -498,6 +704,13 @@ func (b *IcomSerial) assembleSweep(regions map[byte][]byte, total byte) {
// and 0x27 0x11 turns the waveform data OUTPUT over CI-V on. While on, the reader
// routes every 0x27 frame to scopeLoop.
func (b *IcomSerial) SetScope(on bool) error {
if on {
// Context for the scope-diagnostic log: which rig + whether we expect the
// dual-scope (main/sub) frame layout. If the IC-7300 (single scope) streams
// but nothing shows, compare its `icom scope raw` frames against this.
applog.Printf("icom scope: enable on rig=%q addr=0x%02X dualScope=%v (expect %s frame layout)",
b.model, b.rigAddr, b.dualScope, map[bool]string{true: "27 00 [MS] [seq] [total] …", false: "27 00 [seq] [total] …"}[b.dualScope])
}
// Some firmwares don't ack 0x27 sets; a timeout here isn't fatal, so log and
// continue rather than abort the second command.
if err := b.exec(civ.CmdScope, civ.SubScopeOnOff, boolByte(on)); err != nil {
@@ -552,6 +765,58 @@ func (b *IcomSerial) SetScopeMode(fixed bool) error {
return nil
}
// icScopeRanges maps a frequency to the IC-7610's spectrum edge-frequency range
// id (from Hamlib's ic7610 caps). SetScopeEdges needs it to address the right
// fixed-edge memory. Each range spans a chunk of the tuning range.
var icScopeRanges = []struct {
lo, hi int64
id byte
}{
{30_000, 1_600_000, 1}, {1_600_000, 2_000_000, 2}, {2_000_000, 6_000_000, 3},
{6_000_000, 8_000_000, 4}, {8_000_000, 11_000_000, 5}, {11_000_000, 15_000_000, 6},
{15_000_000, 20_000_000, 7}, {20_000_000, 22_000_000, 8}, {22_000_000, 26_000_000, 9},
{26_000_000, 30_000_000, 10}, {30_000_000, 45_000_000, 11}, {45_000_000, 60_000_000, 12},
}
// scopeRangeBCD returns the range id (as a 1-byte BCD) for a frequency, or 0 if
// out of range.
func scopeRangeBCD(freq int64) byte {
for _, r := range icScopeRanges {
if freq >= r.lo && freq < r.hi {
return byte(r.id/10)<<4 | byte(r.id%10) // 1-byte BCD (11 → 0x11)
}
}
return 0
}
// SetScopeEdges points the FIXED-mode scope at [low..high] by writing them into
// the rig's fixed-edge memory (edge set 1) and making that set active. This is
// how the panel's "centre on VFO" and pan ◀/▶ work: they just compute VFO±50 kHz
// (and shift it) and set the edges — no dependence on the waveform decode. CI-V:
// 0x27 0x14 fixed, 0x27 0x16 set 1 active, 0x27 0x1e [range][set][low][high].
func (b *IcomSerial) SetScopeEdges(low, high int64) error {
if low <= 0 || high <= low {
return fmt.Errorf("icom scope: bad edges %d..%d", low, high)
}
rangeID := scopeRangeBCD((low + high) / 2)
if rangeID == 0 {
return fmt.Errorf("icom scope: freq out of range")
}
if b.dualScope {
_ = b.exec(civ.CmdScope, civ.SubScopeMode, 0x00, 0x01) // fixed mode (main)
_ = b.exec(civ.CmdScope, civ.SubScopeEdge, 0x00, 0x01) // activate edge set 1
} else {
_ = b.exec(civ.CmdScope, civ.SubScopeMode, 0x01)
_ = b.exec(civ.CmdScope, civ.SubScopeEdge, 0x01)
}
payload := append([]byte{civ.CmdScope, civ.SubScopeFixEdge, rangeID, 0x01}, civ.FreqToBCD(low)...)
payload = append(payload, civ.FreqToBCD(high)...)
b.scopeMu.Lock()
b.scopeFixed = true
b.scopeMu.Unlock()
return b.exec(payload...)
}
// SetRIT sets the RIT/ΔTX offset (signed Hz, ±9999).
func (b *IcomSerial) SetRIT(hz int) error {
if err := b.exec(append([]byte{civ.CmdRIT, civ.SubRITFreq}, civ.RITToBCD(hz)...)...); err != nil {
@@ -916,6 +1181,9 @@ func (b *IcomSerial) readDSP() {
if v, ok := b.readSwitch(civ.SubSwANF); ok {
st.ANF = v != 0
}
if v, ok := b.readSwitch(civ.SubSwAPF); ok {
st.APF = v != 0
}
if v, ok := b.readSwitch(civ.SubSwAGC); ok {
st.AGC = agcName(v)
}
@@ -935,6 +1203,46 @@ func (b *IcomSerial) readDSP() {
if v, ok := b.readSwitch(civ.SubSwBreakIn); ok {
st.BreakIn = int(v)
}
// Antenna + filter fine controls + TX extras.
if v, ok := b.readAnt(); ok {
st.Antenna = v
}
if v, ok := b.readLevel(civ.SubLevelPBTIn); ok {
st.PBTInner = from255(v)
}
if v, ok := b.readLevel(civ.SubLevelPBTOut); ok {
st.PBTOuter = from255(v)
}
if v, ok := b.readSwitch(civ.SubSwMN); ok {
st.ManualNotch = v != 0
}
if v, ok := b.readLevel(civ.SubLevelNotch); ok {
st.NotchPos = from255(v)
}
if v, ok := b.readLevel(civ.SubLevelSQL); ok {
st.Squelch = from255(v)
}
if v, ok := b.readSwitch(civ.SubSwComp); ok {
st.Comp = v != 0
}
if v, ok := b.readLevel(civ.SubLevelComp); ok {
st.CompLevel = from255(v)
}
if v, ok := b.readSwitch(civ.SubSwMon); ok {
st.Monitor = v != 0
}
if v, ok := b.readLevel(civ.SubLevelMon); ok {
st.MonLevel = from255(v)
}
if v, ok := b.readSwitch(civ.SubSwVOX); ok {
st.VOX = v != 0
}
if v, ok := b.readLevel(civ.SubLevelVOXGain); ok {
st.VOXGain = from255(v)
}
if v, ok := b.readLevel(civ.SubLevelAntiVOX); ok {
st.AntiVOX = from255(v)
}
b.dspMu.Lock()
b.dsp = st
@@ -982,6 +1290,22 @@ func (b *IcomSerial) readAtt() (int, bool) {
return civ.BCDToByte(f.Data[0]), true
}
func (b *IcomSerial) readAnt() (int, bool) {
if err := b.write(civ.CmdAnt); err != nil {
return 0, false
}
f, err := b.recv(icomDSPTimeout, func(d civ.Decoded) bool {
return d.Cmd == civ.CmdAnt && len(d.Data) >= 1
})
if err != nil {
return 0, false
}
if f.Data[0] == 0x01 {
return 2, true
}
return 1, true
}
func (b *IcomSerial) readModeFilter() (mode, filter byte, ok bool) {
if err := b.write(civ.CmdReadMode); err != nil {
return 0, 0, false
@@ -1051,6 +1375,14 @@ func (b *IcomSerial) SetANF(on bool) error {
return nil
}
func (b *IcomSerial) SetAPF(on bool) error {
if err := b.exec(civ.CmdSwitch, civ.SubSwAPF, boolByte(on)); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.APF = on })
return nil
}
func (b *IcomSerial) SetAGC(name string) error {
v := agcValue(name)
if v == 0 {
@@ -1116,6 +1448,24 @@ func (b *IcomSerial) SetMicGain(p int) error {
}
func (b *IcomSerial) SetIcomSplit(on bool) error {
if on {
// Enable split with the usual "work him up" TX offset: +1 kHz on CW,
// +5 kHz otherwise (SSB). Set the unselected (TX) VFO to RX+offset first,
// then turn split on. 0x25 0x01 + BCD sets the unselected VFO's frequency.
rx := b.curFreq
if rx <= 0 {
if hz, err := b.readFreq(); err == nil {
rx = hz
}
}
if rx > 0 {
offset := int64(5000)
if b.curModeByte == civ.ModeCW || b.curModeByte == civ.ModeCWR {
offset = 1000
}
_ = b.exec(append([]byte{civ.CmdVfoFreq, civ.SubVfoUnselected}, civ.FreqToBCD(rx+offset)...)...)
}
}
if err := b.exec(civ.CmdSplit, boolByte(on)); err != nil {
return err
}
@@ -1123,6 +1473,126 @@ func (b *IcomSerial) SetIcomSplit(on bool) error {
return nil
}
// ── Antenna ────────────────────────────────────────────────────────────────
func (b *IcomSerial) SetAntenna(n int) error {
sub := byte(0x00) // ANT1
if n == 2 {
sub = 0x01 // ANT2
}
if err := b.exec(civ.CmdAnt, sub); err != nil {
return err
}
b.setCache(func(s *IcomTXState) {
if n == 2 {
s.Antenna = 2
} else {
s.Antenna = 1
}
})
return nil
}
// ── Filter: Twin PBT + manual notch ────────────────────────────────────────
func (b *IcomSerial) SetPBTInner(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelPBTIn}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.PBTInner = clampPct(p) })
return nil
}
func (b *IcomSerial) SetPBTOuter(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelPBTOut}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.PBTOuter = clampPct(p) })
return nil
}
func (b *IcomSerial) SetManualNotch(on bool) error {
if err := b.exec(civ.CmdSwitch, civ.SubSwMN, boolByte(on)); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.ManualNotch = on })
return nil
}
func (b *IcomSerial) SetNotchPos(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelNotch}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.NotchPos = clampPct(p) })
return nil
}
// ── TX extras: squelch / compressor / monitor / VOX ────────────────────────
func (b *IcomSerial) SetSquelch(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelSQL}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.Squelch = clampPct(p) })
return nil
}
func (b *IcomSerial) SetComp(on bool) error {
if err := b.exec(civ.CmdSwitch, civ.SubSwComp, boolByte(on)); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.Comp = on })
return nil
}
func (b *IcomSerial) SetCompLevel(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelComp}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.CompLevel = clampPct(p) })
return nil
}
func (b *IcomSerial) SetMonitor(on bool) error {
if err := b.exec(civ.CmdSwitch, civ.SubSwMon, boolByte(on)); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.Monitor = on })
return nil
}
func (b *IcomSerial) SetMonLevel(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelMon}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.MonLevel = clampPct(p) })
return nil
}
func (b *IcomSerial) SetVOX(on bool) error {
if err := b.exec(civ.CmdSwitch, civ.SubSwVOX, boolByte(on)); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.VOX = on })
return nil
}
func (b *IcomSerial) SetVOXGain(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelVOXGain}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.VOXGain = clampPct(p) })
return nil
}
func (b *IcomSerial) SetAntiVOX(p int) error {
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelAntiVOX}, civ.LevelToBCD(to255(p))...)...); err != nil {
return err
}
b.setCache(func(s *IcomTXState) { s.AntiVOX = clampPct(p) })
return nil
}
// TuneATU triggers a one-shot antenna-tuner tune (CI-V 0x1C 0x01 0x02).
func (b *IcomSerial) TuneATU() error {
return b.exec(civ.CmdATU, civ.SubATU, 0x02)
+10
View File
@@ -414,6 +414,16 @@ func (o *OmniRig) SetPTT(on bool) error {
debugLog.Printf("OmniRig.SetPTT error: %v", err)
return fmt.Errorf("set Tx=%s: %w", name, err)
}
// Read the Tx param straight back. OmniRig is async — this may still show the
// previous value for a poll cycle — but if a key/unkey NEVER changes it, the
// write was coalesced or the rig isn't honouring PM_TX/PM_RX (wrong .ini).
if v, err := oleutil.GetProperty(o.rig, "Tx"); err == nil {
txState := "PM_RX"
if v.Val&pmTX != 0 {
txState = "PM_TX"
}
debugLog.Printf("OmniRig.SetPTT: Tx readback = 0x%X (%s)", v.Val, txState)
}
return nil
}
+32 -4
View File
@@ -3,6 +3,7 @@
package cat
import (
"context"
"fmt"
"net"
"strconv"
@@ -27,9 +28,10 @@ type TCI struct {
digitalDefault string // surfaced when the rig reports a digital mode (FT8/…)
spotsEnabled bool // mirror cluster spots onto the TCI panorama
mu sync.Mutex // guards conn + writes + state
conn *websocket.Conn
ready bool
mu sync.Mutex // guards conn + writes + state
conn *websocket.Conn
dialCancel context.CancelFunc // cancels an in-flight Connect dial (Interrupt/Stop)
ready bool
// Cached state pushed by the radio.
device string
@@ -70,8 +72,18 @@ func (t *TCI) Connect() error {
return fmt.Errorf("tci: no host configured")
}
url := fmt.Sprintf("ws://%s", net.JoinHostPort(host, strconv.Itoa(port)))
// Cancellable dial so Interrupt() (Stop / Settings "Save & Close") aborts it at
// once instead of waiting out a dead server's 5 s handshake timeout.
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
t.mu.Lock()
t.dialCancel = cancel
t.mu.Unlock()
dialer := websocket.Dialer{HandshakeTimeout: 5 * time.Second}
conn, _, err := dialer.Dial(url, nil)
conn, _, err := dialer.DialContext(ctx, url, nil)
cancel()
t.mu.Lock()
t.dialCancel = nil
t.mu.Unlock()
if err != nil {
return fmt.Errorf("tci: connect %s: %w", url, err)
}
@@ -122,6 +134,22 @@ func (t *TCI) Disconnect() {
}
}
// Interrupt aborts an in-flight Connect dial so Stop()/Start() don't block on a
// dead server's handshake timeout. Satisfies the Manager's interruptible
// interface. Safe from another goroutine; a no-op when not dialing.
func (t *TCI) Interrupt() {
t.mu.Lock()
cancel := t.dialCancel
c := t.conn
t.mu.Unlock()
if cancel != nil {
cancel()
}
if c != nil {
_ = c.Close()
}
}
// ReadState returns the cached state pushed by the radio.
func (t *TCI) ReadState() (RigState, error) {
t.mu.Lock()
+6 -5
View File
@@ -303,11 +303,12 @@ func normalizeCallsign(s string) string {
if p == "" {
continue
}
// A TRAILING /MM (maritime) or /AM (aeronautical) mobile is stripped and
// the operator's home entity is kept, so the contact still resolves to a
// country in the log (e.g. YB1SCY/AM → Indonesia). A LEADING "MM" is the
// Scotland operating prefix (MM/F4NIE) and must NOT be stripped.
if i > 0 && (p == "MM" || p == "AM") {
// A TRAILING /MM (maritime) or /AM (aeronautical) mobile, or /B (beacon), is
// stripped and the operator's home entity is kept, so the contact still
// resolves to a country in the log (e.g. YB1SCY/AM → Indonesia, 4U1UN/B →
// 4U1UN → United Nations HQ). A LEADING "MM"/"B" is a PREFIX (MM = Scotland,
// B = China: B/F4NIE) and must NOT be stripped.
if i > 0 && (p == "MM" || p == "AM" || p == "B") {
continue
}
if suffixModifiers[p] {
+2
View File
@@ -224,6 +224,8 @@ func TestNormalize(t *testing.T) {
"MM/LY3X/P": "MM",
"F4BPO/W6": "W6",
"VK9/F4BPO": "VK9",
"4U1UN/B": "4U1UN", // trailing /B = beacon → strip, keep the base call
"B/F4BPO": "B", // leading B = China operating prefix, NOT a beacon
}
for in, want := range cases {
if got := normalizeCallsign(in); got != want {
+85
View File
@@ -53,6 +53,91 @@ func eqslPost(ctx context.Context, client *http.Client, user, pswd, adif string)
return msg, nil
}
// eQSL Inbox download endpoint + base host. DownloadInBox.cfm builds an ADIF of
// the account's *received* eQSLs (confirmations) and returns an HTML page that
// links to the generated .adi file; we then fetch that file (two-step API).
const (
eqslDownloadInboxURL = "https://www.eQSL.cc/qslcard/DownloadInBox.cfm"
eqslBaseURL = "https://www.eQSL.cc"
)
// eqslAdiHrefRe pulls the generated .adi path out of the DownloadInBox reply,
// e.g. `<A HREF="/qslcard/downloadedfiles/xxxx.adi">`.
var eqslAdiHrefRe = regexp.MustCompile(`(?i)href="(/[^"]+\.adi)"`)
// DownloadEQSLConfirmations fetches the account's Inbox (received eQSLs =
// confirmations) as ADIF text. since is "YYYY-MM-DD" (only QSLs received since
// then, incremental "last download"); qthNick comes from the config when the
// account has several QTH profiles.
func DownloadEQSLConfirmations(ctx context.Context, client *http.Client, cfg ServiceConfig, since string) (string, error) {
user := strings.ToUpper(strings.TrimSpace(cfg.Username))
if user == "" || strings.TrimSpace(cfg.Password) == "" {
return "", fmt.Errorf("eqsl: username/password not set")
}
if client == nil {
client = &http.Client{Timeout: 120 * time.Second}
}
q := url.Values{}
q.Set("UserName", user)
q.Set("Password", cfg.Password)
if nick := strings.TrimSpace(cfg.QTHNickname); nick != "" {
q.Set("QTHNickname", nick)
}
if s := eqslRcvdSince(since); s != "" {
q.Set("RcvdSince", s) // eQSL wants YYYYMMDDHHMM
}
// Step 1: ask eQSL to build the inbox ADIF; the reply is HTML linking to it.
page, err := eqslGet(ctx, client, eqslDownloadInboxURL+"?"+q.Encode())
if err != nil {
return "", err
}
if reason := authErrEQSL(page); reason != "" {
return "", fmt.Errorf("eqsl: %s", reason)
}
m := eqslAdiHrefRe.FindStringSubmatch(page)
if m == nil {
// eQSL reports problems inline ("Error: …", or "no QSLs" wording).
return "", fmt.Errorf("eqsl: no download link in response: %s", eqslReason(page))
}
// Step 2: fetch the generated .adi file.
adif, err := eqslGet(ctx, client, eqslBaseURL+m[1])
if err != nil {
return "", fmt.Errorf("eqsl: fetch adif: %w", err)
}
return adif, nil
}
// eqslGet does a plain GET and returns the body as text (32 MB cap), erroring on
// a non-200 status.
func eqslGet(ctx context.Context, client *http.Client, u string) (string, error) {
req, err := http.NewRequestWithContext(ctx, http.MethodGet, u, nil)
if err != nil {
return "", fmt.Errorf("eqsl: build request: %w", err)
}
resp, err := client.Do(req)
if err != nil {
return "", fmt.Errorf("eqsl: request failed: %w", err)
}
defer resp.Body.Close()
b, _ := io.ReadAll(io.LimitReader(resp.Body, 32*1024*1024))
if resp.StatusCode != http.StatusOK {
return "", fmt.Errorf("eqsl: http %d", resp.StatusCode)
}
return string(b), nil
}
// eqslRcvdSince converts the app's "YYYY-MM-DD" into eQSL's RcvdSince format
// "YYYYMMDDHHMM" (midnight). Empty in → empty out (full pull).
func eqslRcvdSince(since string) string {
s := strings.ReplaceAll(strings.TrimSpace(since), "-", "")
if len(s) == 8 { // YYYYMMDD → append 0000 (00:00)
return s + "0000"
}
return s
}
// authErrEQSL returns a reason when the response signals bad credentials, else
// "". eQSL replies "Error: No match on eQSL_User/eQSL_Pswd".
func authErrEQSL(body string) string {
+20 -10
View File
@@ -22,16 +22,26 @@ import (
// Station is one roster entry: a station registered in a net.
type Station struct {
Callsign string `json:"callsign"`
Name string `json:"name,omitempty"`
QTH string `json:"qth,omitempty"`
Country string `json:"country,omitempty"`
DXCC int `json:"dxcc,omitempty"`
ITU int `json:"itu,omitempty"`
CQ int `json:"cq,omitempty"`
Groups string `json:"groups,omitempty"`
SIG string `json:"sig,omitempty"`
SIGInfo string `json:"sig_info,omitempty"`
Callsign string `json:"callsign"`
Name string `json:"name,omitempty"`
QTH string `json:"qth,omitempty"`
Country string `json:"country,omitempty"`
DXCC int `json:"dxcc,omitempty"`
ITU int `json:"itu,omitempty"`
CQ int `json:"cq,omitempty"`
// Full lookup detail so a roster contact carries EVERYTHING into the QSO when
// put on air (was previously only name/qth — grid/address/etc. were lost).
Grid string `json:"grid,omitempty"`
Address string `json:"address,omitempty"`
State string `json:"state,omitempty"`
Cnty string `json:"cnty,omitempty"`
Cont string `json:"cont,omitempty"`
Lat float64 `json:"lat,omitempty"`
Lon float64 `json:"lon,omitempty"`
Email string `json:"email,omitempty"`
Groups string `json:"groups,omitempty"`
SIG string `json:"sig,omitempty"`
SIGInfo string `json:"sig_info,omitempty"`
}
// Net is a named net with default report values and a station roster.
+28 -1
View File
@@ -46,6 +46,28 @@ func (r *Repo) List(ctx context.Context) ([]Record, error) {
return out, rows.Err()
}
// ListFor returns the templates VISIBLE to a profile: its own plus any shared
// (NULL-profile) ones — so each profile sees and defaults independently instead
// of one global list. Defaults first, then newest first.
func (r *Repo) ListFor(ctx context.Context, profileID int64) ([]Record, error) {
rows, err := r.db.QueryContext(ctx, `SELECT `+repoCols+`
FROM qsl_templates WHERE profile_id = ? OR profile_id IS NULL
ORDER BY is_default DESC, id DESC`, profileID)
if err != nil {
return nil, err
}
defer rows.Close()
var out []Record
for rows.Next() {
rec, err := scanRecord(rows)
if err != nil {
return nil, err
}
out = append(out, rec)
}
return out, rows.Err()
}
// Get returns one template by ID, or sql.ErrNoRows if missing.
func (r *Repo) Get(ctx context.Context, id int64) (Record, error) {
row := r.db.QueryRowContext(ctx, `SELECT `+repoCols+`
@@ -124,10 +146,15 @@ func (r *Repo) SetDefault(ctx context.Context, id int64) error {
// DefaultFor returns the best template for a profile: its own default, then
// any profile-less default, then the newest template. sql.ErrNoRows if none.
func (r *Repo) DefaultFor(ctx context.Context, profileID int64) (Record, error) {
// Only the profile's OWN templates or shared (NULL) ones — never another
// profile's, so a profile with no default doesn't inherit some other
// profile's newest template (the "default looked global" bug).
row := r.db.QueryRowContext(ctx, `SELECT `+repoCols+` FROM qsl_templates
WHERE profile_id = ? OR profile_id IS NULL
ORDER BY (is_default = 1 AND profile_id = ?) DESC,
(is_default = 1 AND profile_id IS NULL) DESC,
id DESC LIMIT 1`, profileID)
(profile_id = ?) DESC,
id DESC LIMIT 1`, profileID, profileID, profileID)
return scanRecord(row)
}
+1
View File
@@ -194,6 +194,7 @@ type QSOBox struct {
H float64 `json:"h"`
BG string `json:"bg"`
BGOpacity float64 `json:"bg_opacity"`
FG string `json:"fg,omitempty"` // text colour (default dark)
Radius float64 `json:"radius"`
Title string `json:"title"`
Fields []string `json:"fields"`
+33
View File
@@ -723,6 +723,26 @@ var bulkEditableCols = map[string]bool{
"my_antenna": true,
"my_sig": true,
"my_sig_info": true,
// Contest — the exchange/label fields that are constant across a run.
// (srx/stx serial numbers stay excluded: they are per-QSO.)
"contest_id": true,
"srx_string": true,
"stx_string": true,
"arrl_sect": true,
"precedence": true,
"class": true,
// Propagation / satellite — usually identical across a session.
"prop_mode": true,
"sat_name": true,
"sat_mode": true,
// Contacted station activation refs / SIG — meaningful to set across a
// selected batch (e.g. a park/summit worked repeatedly).
"pota_ref": true,
"sota_ref": true,
"wwff_ref": true,
"iota": true,
"sig": true,
"sig_info": true,
// Misc text
"comment": true,
"notes": true,
@@ -1870,6 +1890,19 @@ func (r *Repo) MarkQRZConfirmed(ctx context.Context, id int64, date string) erro
return nil
}
// MarkEQSLConfirmed stamps EQSL_QSL_RCVD=Y and the received date on a QSO after
// an eQSL Inbox download. date is an ADIF YYYYMMDD string.
func (r *Repo) MarkEQSLConfirmed(ctx context.Context, id int64, date string) error {
_, err := r.db.ExecContext(ctx,
`UPDATE qso SET eqsl_rcvd = 'Y', eqsl_rcvd_date = ?,
updated_at = ? WHERE id = ?`,
date, db.NowISO(), id)
if err != nil {
return fmt.Errorf("mark eqsl confirmed %d: %w", id, err)
}
return nil
}
// MarkLoTWConfirmed stamps LOTW_QSL_RCVD=Y and the received date on a QSO
// after a LoTW confirmation download. date is an ADIF YYYYMMDD string.
func (r *Repo) MarkLoTWConfirmed(ctx context.Context, id int64, date string) error {
+1 -1
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@@ -21,7 +21,7 @@ import (
const (
// appVersion is stamped on every heartbeat (and could feed the About box).
appVersion = "0.17"
appVersion = "0.19.2"
// posthogHost is the PostHog ingestion endpoint. EU cloud by default; change
// to https://us.i.posthog.com for a US project.
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# Amplifiers and Switches
## PowerGenius XL (4O3A) amplifier
Direct TCP connection (Settings → PowerGenius):
- **Operate / Standby** and **fault** display.
- **Fan-mode** selector (Standard / Contest / Broadcast).
- When a Flex is connected, the amp controls + its **FWD / ID / TEMP** meters
appear in the FlexRadio panel's Amplifier card. See [[FlexRadio]].
## Antenna Genius (4O3A) antenna switch
Over TCP / GSCP — a docked **A/B antenna-switch** widget:
- One row per configured antenna, with a **Port A** and **Port B** button.
- Colours: green = selected on port A, blue = selected on port B, red (pulsing) =
that port is transmitting. Clicking a selected port deselects it (→ None).
- **Band filter** (funnel icon in the header): shows only the antennas configured
for the current band, like the native app. Toggle it off to see all antennas.
Antennas with an unknown band mask are always shown.
Configure the host / password in Settings → Antenna Genius.
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# Audio and Keyers
## CW keyer
A CW keyer with **macros** and F-key macros. The keyer **engine** is selectable
(Settings → CW Keyer):
- **WinKeyer** — K1EL WK1/2/3 over a COM port.
- **Icom** — the radio's own keyer over CI-V, no extra hardware. Works over the
remote link too. (Requires the Icom CAT backend; set break-in to SEMI/FULL or
the rig keys the sidetone but stays in RX.)
- **TCI** — for TCI backends.
## Digital Voice Keyer (DVK)
Record **F1F6** voice messages and transmit them. Set the audio devices, PTT
method and gains in Settings → Audio.
- **PTT** method: CAT, RTS, DTR, or none (VOX).
- **Test PTT** keys the rig briefly. On CAT/OmniRig the key is held ~1.5 s so the
transmit command is actually sent (OmniRig is asynchronous and coalesces rapid
writes).
## QSO audio recording
Continuous rolling capture. On **Log QSO** the contact is saved to a per-QSO WAV
(`CALL_YYYYMMDD_HHMMSS.wav`), mixing RX + mic. Configure the recordings folder,
format (WAV / MP3), pre-roll and gains in Settings → Audio.
## RX audio monitor (USB rigs)
Settings → Audio → **Listen to radio** pipes the rig's received audio (its "USB
Audio CODEC" input) through your speakers, so you hear the radio inside OpsLog.
**Talk to radio** keys PTT and pipes your mic to the rig's audio input. (Network
audio for remote Icom is a work in progress — see
[[Remote Icom over the Internet]].)
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# Awards
OpsLog has a flexible awards engine. Award **definitions** and reference lists are
shared **globally** across profiles.
## Built-in awards
DXCC, WAS / WAZ / WAC, WPX, IOTA / POTA / SOTA / WWFF, **DDFM** (French
departments), and more — tracked **worked / confirmed / validated** by band and
mode.
## How matching works
An award scans a **QSO field** for a reference, by one of:
- **code** — the field value is the reference (e.g. state = `NY`).
- **description** — the reference's name appears in the field (substring, case-
insensitive but **space-sensitive** — "Hongkong" won't match "Hong Kong").
- **pattern** — a per-reference regex is tested against the field.
Plus **OR rules** (also match if any of these hit), a **leading/trailing** strip,
a **prefix** added to found references, and a **dynamic** mode (any value counts,
like POTA).
> **Tip — Hong Kong / Macau style mismatches:** if the data says "Hong Kong" but
> the reference description is "Hongkong", either fix the description to match, or
> set that OR-search's *Match by* to **pattern** so the reference's own regex
> (e.g. `\bHong Kong\b`) is used. In *description* mode the per-reference pattern
> is ignored.
## Live detection & manual refs
- References are detected **live** as you enter a callsign.
- You can **manually assign** a reference to a QSO (stored in an ADIF extra so it
survives export/import — see [[Import and Export ADIF]]).
## Reference lists & display
- **Import reference lists** for totals and names.
- Per award, choose what the Recent-QSOs column shows: **reference**, **name**,
or **both**. Award columns are opt-in per the Columns picker
([[Recent QSOs and Filters]]).
## Rescan
**Rescan** re-pulls the logbook and recomputes — it picks up fresh LoTW / QRZ /
eQSL confirmations (see [[QSL Management]]).
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# CAT Control
OpsLog has **four native CAT backends** (Settings → CAT). Each auto-reconnects
and connects *non-blocking*, so a powered-off radio never freezes the app.
| Backend | Use it for |
|---------|-----------|
| **OmniRig** | Any OmniRig-supported rig (Rig 1 / Rig 2, hot-swap). |
| **FlexRadio (SmartSDR)** | FlexRadio 6000/8000 over the TCP API. → [[FlexRadio]] |
| **Icom CI-V** | Any Icom over **USB** *or* over the internet via its **LAN server**. → [[Icom]] · [[Remote Icom over the Internet]] |
| **TCI** | SunSDR / ExpertSDR2 and any TCI (WebSocket) server. |
Once connected, frequency / band / mode follow the radio, clicking a cluster spot
tunes the rig, and (for Flex) cluster spots can be pushed to the panadapter.
## OmniRig
Pick **Rig 1** or **Rig 2** (the two OmniRig slots). Configure the actual COM
port / baud in OmniRig's own settings. Works with anything OmniRig supports; PTT
keying via CAT is supported where the rig's OmniRig profile exposes it.
## FlexRadio
Enter the radio's IP (UDP discovery assists). You get a full SmartSDR-style
control tab — see **[[FlexRadio]]**.
## Icom CI-V (USB)
- **Rig model** — pick your model from the dropdown; it sets the correct **CI-V
address** automatically (or choose *Other* and type the hex address).
- **COM port** + **baud** must match the radio (set *CI-V USB Echo Back* **OFF**
on the rig).
- The model choice also tailors the console (e.g. attenuator steps: 20 dB on an
IC-7300, 6/12/18 dB on an IC-7610).
Full console details: **[[Icom]]**.
## TCI
Enter the TCI host + port (default 40001). Gives freq / mode / PTT / split and,
optionally, panorama spots.
## Notes
- The **digital sub-mode** (FT4 vs FT8) is inferred from the frequency.
- **Per-band Flex RX/TX antennas** can be configured and are applied
automatically on band change (Settings → FlexRadio).
- Split, RIT/XIT and other rig-specific features are exposed on each backend's
control tab where supported.
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# Contest Logging
**Contest tab.** Pick a contest and an exchange, and OpsLog handles the rest.
## Setup
- **Contest** — from the built-in ADIF `CONTEST_ID` list.
- **Exchange** — a **running serial** (auto-incrementing) or a **fixed exchange**.
- **Window** — start / end times; QSOs outside are flagged.
## While operating
- OpsLog auto-fills `CONTEST_ID` and the **sent / received serials** (`STX` /
`SRX`).
- **Dupe** detection flags a call already worked in the contest.
- A live **scoreboard** tracks your progress.
## Export
Export the contest log to **Cabrillo** for submission (Recent QSOs → export), or
to ADIF. See [[Import and Export ADIF]].
## Tip
Use **Bulk edit field** (right-click in Recent QSOs) to fix a contest field
across many QSOs at once — e.g. set `CONTEST_ID` or an exchange string on an
imported batch.
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# DX Cluster and Spots
## Servers
Add multiple cluster servers (Settings). They auto-reconnect; one is the
**master** used for sending commands. The Cluster tab and the Main-view cluster
pane share the same live feed.
## Filter sidebar
A show/hide **filter sidebar** (shared by the Cluster tab and the Main pane):
- **Callsign** search, **hide worked**, **group duplicates**.
- Filter by **band / mode / status / source**.
## Per-spot status and tuning
Each spot is coloured by **status** relative to your log:
- **new** (entity never worked), **new-band**, **new-slot**, **worked**.
Click a spot to **tune the rig** (fills the callsign into the entry strip). A
multi-band **Band Map** shows panadapter-style strips per band.
**POTA** spots are tagged with their park reference (via `api.pota.app`).
## Sending a spot
Use the **Send Spot** window to announce a DX spot on the master cluster:
callsign + frequency + a message. The frequency defaults to the **live CAT
frequency** (full resolution, including sub-kHz).
## Spot alerts
**Tools → Alert management** — Log4OM-style alert rules on **call / country /
band / mode / spotter**, with **sound**, **visual** and **e-mail** notification.
Active alerts appear as a discreet bell in the entry strip; click it for the
list. Alerts are kept briefly and only shown when active.
See also: [[Maps and Antennas]] for turning the beam to a spot.
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# FlexRadio
When the CAT backend is a **FlexRadio (SmartSDR)**, OpsLog shows a full
SmartSDR-style control panel (as a Main-view pane or the FlexRadio tab). It talks
the radio's TCP API directly and streams live meters over UDP (VITA-49).
## Slices (multi-slice)
FlexRadios can run several receiver slices (A/B/C/D…). OpsLog shows **every
in-use slice** as a row of buttons under the header:
- Click a slice to make it the **active** slice — the main frequency, mode, DSP
and spot-clicks all follow it.
- Click a slice's **TX** badge to move the transmitter onto it.
- **Split** is detected only when the TX slice and a same-band RX slice form a
genuine split; independent slices on other bands are not shown as split.
Everything you do targets the **active** slice, so a second slice monitoring
another band never hijacks your main frequency.
## Header
Model + RX/TX state, plus compact **PA voltage** and **PA temperature** readouts
(temperature turns amber/red as it climbs).
## Transmit
RF power, tune power, **TUNE**, **MOX**, **SPLIT**, speech processor (NOR / DX /
DX+), VOX (+ level + delay), monitor (+ level), mic gain, **TX filter** low/high
cut, and the **mic profile** selector. On CW the panel switches to keyer controls
(speed / pitch / break-in / sidetone / filter).
## Receive (active slice)
RX/TX antenna, AGC mode + threshold, audio level, and the noise/notch filters:
**NB**, **WNB** (wideband noise blanker), **NR**, **ANF**, and **APF** on CW —
each a toggle plus level. Filter-width presets per mode.
## Amplifier (PowerGenius XL)
If a PowerGenius XL is detected, its **OPERATE / STANDBY**, **fan mode** and
**fault** show in an Amplifier card, with the amp's FWD / ID / TEMP meters
inline. See [[Amplifiers and Switches]].
## Meters
Live UDP meters under the slices: **S-meter** (S-units, click → fill RST),
**forward power** (W), **SWR**, **mic** level (40…+10 dB, red = overdrive) and
**compression**. PA voltage and temperature are in the header.
## Antennas per band
Configure Flex **RX/TX antennas per band** (Settings → FlexRadio); OpsLog applies
them automatically on band change.
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# Getting Started
This walks you from a fresh install to your first logged QSO.
## 1. Set your station
**Settings → Station**: enter your **callsign**, **grid locator** and **name**.
These feed callsign lookups, the map, awards, the QSL card and the "my station"
ADIF fields on every QSO.
## 2. (Optional) Connect a radio
**Settings → CAT**, pick a backend and fill its fields — see [[CAT Control]].
Once connected, the frequency, band and mode fill in automatically as you tune,
and clicking a cluster spot tunes the rig.
You can log perfectly well **without** a radio — just type the band, mode and
frequency.
## 3. The entry strip
The strip across the top is the heart of OpsLog (Log4OM-style):
- **Callsign** — type it and the contacted entity's **flag** appears next to the
RST fields; the country, CQ/ITU zones and continent resolve offline from
`cty.dat`. If QRZ/HamQTH lookup is configured, name / QTH / grid auto-fill and
a photo shows in the F2 tab.
- **RST sent / rcvd**, **Name**, **QTH**, **Grid**.
- **Band / Mode / Frequency** (TX and, for split, RX).
- **Start / End time**, **Comment / Note**.
Press **Enter** in any text field to **log** the QSO. The contact drops into
**Recent QSOs** below.
> Mode comes from the radio; the digital sub-mode (FT4 vs FT8) is inferred from
> the frequency.
## 4. Look around
- **Recent QSOs** — your log; double-click a row to edit every field.
See [[Recent QSOs and Filters]].
- **Worked-before matrix** — as you type a call, see if/when you worked that
entity, per band/mode slot.
- **Main view** — two configurable panes (Settings → General → *Main view*): a
great-circle map, the cluster, the FlexRadio or Icom console, Net control, and
more. See [[Maps and Antennas]].
## 5. Profiles
Every setting is **per-profile**. A profile can log to the local SQLite file or
a shared **MySQL** database (multi-operator). Create one per call / station /
event. See [[Profiles and Databases]].
## Next steps
- Chase spots → [[DX Cluster and Spots]]
- Track awards → [[Awards]]
- Send confirmations → [[QSL Management]]
- Design a card → [[QSL Card Designer]]
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# OpsLog
A modern, fast ham-radio logger for **Windows** — Log4OM-style entry, real-time
CAT for **OmniRig**, native **FlexRadio/SmartSDR**, native **Icom CI-V** (USB
*and* remote-over-internet, replacing RS-BA1) and **TCI** (SunSDR / Expert
Electronics), a DX cluster with spot alerts, awards tracking, maps, contest
logging, QSL management and a QSL-card designer.
Built with **Wails v2** (Go backend + React/TypeScript frontend), **pure Go**
(no CGO). SQLite holds the configuration; the logbook can be the local SQLite
file *or* a **shared MySQL** database so several operators run one log. Fully
themeable and bilingual (English / French).
Developed by **F4BPO**.
## New here? Read these first
1. **[[Installation]]** — download / build and first launch.
2. **[[Getting Started]]** — the entry strip, logging your first QSO, choosing a
profile.
3. **[[CAT Control]]** — connect your radio (OmniRig, FlexRadio, Icom, TCI).
## What OpsLog does
| Area | Pages |
|------|-------|
| Enter and manage QSOs | [[Logging Basics]] · [[Recent QSOs and Filters]] · [[Import and Export ADIF]] |
| Control your radio | [[CAT Control]] · [[FlexRadio]] · [[Icom]] · [[Remote Icom over the Internet]] |
| Chase DX | [[DX Cluster and Spots]] · [[Maps and Antennas]] |
| Station hardware | [[Amplifiers and Switches]] · [[Audio and Keyers]] |
| Events & contests | [[Contest Logging]] · [[Net Control]] · [[Multi-Operator Live Status]] |
| Confirmations | [[Awards]] · [[QSL Management]] · [[QSL Card Designer]] |
| Configuration | [[Settings and Data]] · [[Security]] · [[Profiles and Databases]] |
| Something wrong? | [[Troubleshooting]] |
## Design in one line
Everything you configure (settings, profiles, rigs, cluster nodes, award lists,
QSL templates, lookup cache) lives in a **local SQLite** file so the UI is
instant. Only the **QSOs** live where the active profile points them — local
SQLite or a shared MySQL. See [[Profiles and Databases]].
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# Icom
When the CAT backend is **Icom CI-V** (USB or network), OpsLog shows a full
RS-BA1-style console — the same panel whether you're on USB or remote.
For setup, see [[CAT Control]]; for the internet link, see
[[Remote Icom over the Internet]].
## Choosing your model
Pick your model from the **Rig model** dropdown in Settings → CAT — it sets the
CI-V address and tailors the console to the radio (e.g. attenuator steps).
The model is also auto-detected from the radio's CI-V ID.
## Console
- **Twin VFO readout** (MAIN / SUB): big tabular frequency, mode badge, band, and
RIT/ΔTX offset, with a **mode-button row** (SSB / CW / RTTY / PSK / AM / FM).
- **Spectrum scope + waterfall**: ON/OFF, CTR/FIX, double-click to tune, and
**◀ ⊙ ▶** to centre the scope on the current frequency (±50 kHz) and pan.
- **Live meters** always visible: S-meter (click → fill RST), power in watts, SWR.
- **Receive DSP:** AF / RF gain, squelch, AGC, preamp, **attenuator** (steps match
the model — e.g. 20 dB on an IC-7300, 6/12/18 dB on an IC-7610), filter
(FIL1/2/3), NB, NR, ANF, and — **on CW only** — the **APF** (audio peak filter).
- **Passband / notch:** Twin PBT (inner / outer) and manual notch + position.
- **Transmit:** RF power, MOX, TUNE, **split with automatic offset** (+5 kHz SSB /
+1 kHz CW), monitor. On **voice modes only**: mic gain, compressor, VOX (+ gain
+ anti-VOX). Controls that don't apply to the current mode are hidden.
- **Bands & antenna:** one-touch band buttons, ANT1/ANT2.
- **Clarifiers:** RIT and ΔTX, wheel / ± tuning (Ctrl + ← / → nudges RIT).
## Power ON / OFF
- **Network:** ON and OFF buttons are shown — the radio's LAN server answers even
in standby, so ON works.
- **USB:** the buttons are **hidden**. Over USB the CI-V interface is unpowered
while the rig is off, so a power-ON command can't reach it — turn the radio on
physically.
The app never wakes the rig on connect (manual by design).
## CW keying
CW can run through the **radio's own keyer** over CI-V — no extra hardware, and
it works over the remote link too. See [[Audio and Keyers]].
## Model-specific notes
- **IC-7300 / IC-705 / IC-9100:** single-receiver, single-step attenuator
(20 dB); the IC-9100 is USB-only (no LAN server).
- **IC-7610 / IC-9700:** dual scope (main/sub); stepped attenuator; LAN server
for remote.
- If the **scope is blank on a single-scope rig run at a non-default CI-V
address**, OpsLog now detects the model from the CI-V ID, not the configured
address, so it decodes single-scope frames correctly.
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# Import and Export ADIF
OpsLog is **ADIF 3.1.7 compliant**: a full field dictionary, 30 promoted columns,
a generic "extra fields" editor for anything not promoted, and standard/all
export modes.
## Import
Import an `.adi` / `.adif` file into the active profile's logbook. On import,
OpsLog parses every field, maps standard fields to columns and keeps unknown but
valid ADIF fields in a per-QSO **extras** store (editable later). Country / zones
are enriched from `cty.dat` where missing.
## Export
- **Whole log**, **selected rows**, or the **filtered view** (no limit) — see
[[Recent QSOs and Filters]].
- **Standard** mode exports the common promoted fields; **All** mode also exports
every extra field.
- **Cabrillo** export for contest submission.
## Round-trip safety
Award references you assign manually are stored in an ADIF extra field
(`APP_OPSLOG_AWARDREFS`), so exporting your full log and re-importing it does not
lose your award-reference assignments.
## Tips
- To move a batch of QSOs between logs, export selected → import into the other
profile.
- Use **Find duplicates** (Tools) after importing to catch overlaps.
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# Installation
OpsLog is a single Windows executable — no installer, no runtime to add. Pure Go
+ an embedded WebView2 (present on Windows 10/11 by default).
## Download and run
1. Grab the latest `OpsLog.exe` from the project's **Releases** page.
2. Put it in its own folder (it will create a `data/` folder next to itself).
3. Double-click to run. On first launch you pick a **language** (English /
French) and OpsLog creates its local database.
> **Where is my data?** A `data/` folder is created next to the executable,
> holding the SQLite config + local logbook, QSL templates, recordings and
> backups. Keep the exe and `data/` together, or back up `data/`. See
> [[Settings and Data]].
## Building from source (developers)
OpsLog is built with **Wails v2.11**.
```bash
# Dev — Vite hot-reload; Go methods reachable at http://localhost:34115
wails dev
# Production build → build/bin/OpsLog.exe
wails build
# Regenerate Go↔TS bindings after changing exported App methods
wails generate module
```
Prerequisites: Go, Node.js, and the Wails CLI (`~/go/bin/wails.exe`). No CGO /
C toolchain is needed.
## First-run checklist
- **Settings → General** — language, theme, and the two Main-view panes.
- **Settings → Station** — your callsign, grid, name (used for lookups, awards,
QSL cards and the map).
- **Settings → CAT** — connect your radio ([[CAT Control]]).
- **Settings → Lookup** — QRZ.com / HamQTH credentials for callsign lookup.
Continue with **[[Getting Started]]**.
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# Logging Basics
## The entry strip
The entry strip logs a QSO from any `<input>` inside it — press **Enter** to
save. Fields: callsign, RST tx/rx, name, QTH, grid, band, mode, TX/RX frequency
(split), start/end time, comment and note.
- **Callsign** drives everything: the **flag**, offline DXCC resolution (country,
CQ/ITU zones, continent) from `cty.dat` including `/MM` `/AM` `/B` and call-area
handling (`/8`, `/W6`), plus **ClubLog** DXpedition date overrides.
- **Callsign lookup** (QRZ.com / HamQTH) fills name / QTH / grid and shows the
photo and a QRZ.com tab. Configure it in Settings → Lookup.
- **ESC** clears the callsign (and stops CW).
## Editing a QSO
Double-click any row in **Recent QSOs** (or Worked-before) to open the full
editor — every ADIF field across tabs: QSO info, contacted station's details,
award refs, QSL info, contest, sat/prop, my station, and a generic **extra
fields** editor for any ADIF field not promoted to a column.
## Bulk operations
Select rows in Recent QSOs, right-click:
- **Fix country & zones** from `cty.dat`, or **update from QRZ / ClubLog**.
- **Bulk edit field** — set one field across many QSOs (QSL/upload status, my
station, contest, propagation, contacted-station refs, comment…). Great for
flipping a batch to *Requested* before an upload.
- **Send to** a QSL service, **export** selected / filtered to ADIF or Cabrillo,
**delete**.
## Find duplicates
**Tools → Find duplicates** groups QSOs by same **call + band + mode** (optionally
same day or same minute) and lets you pick which to delete.
## Notes
- **Worked-before matrix** shows prior contacts with the entity per band/mode
slot as you type.
- Awards references are detected **live** as you enter a call (see [[Awards]]).
See also: [[Recent QSOs and Filters]] · [[Import and Export ADIF]]
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# Maps and Antennas
## Main view
The Main view is **two configurable panes** (per profile, Settings → General →
*Main view*). Choose from: great-circle map, locator (street) map, the cluster
grid, the worked-before grid, recent QSOs, the **FlexRadio** controls, the
**Icom** console, or the **Net control** panel.
## Great-circle map
- Short/long-path **distance & azimuth** to the worked station.
- Selectable, **key-free** basemaps: Light / Voyager / Street / Satellite (all
labelled).
- The **antenna beam lobe(s)** are drawn from the rotor azimuth.
## Locator (street) map
An OSM street map centred on the contacted grid square — handy for local /
portable contacts. No API key.
## Rotor compass
An azimuthal-equidistant **click-to-turn** compass driven by **PstRotator**. The
current heading and target are shown; click a bearing to turn the rotor.
## Ultrabeam
Ultrabeam antennas are supported with three modes — **Normal**, **180° reverse**,
**Bidirectional**:
- The **radiating direction** is shown in green and the **mechanical boom** in
grey, on both the compass and the map, so you always know where the antenna
actually points.
- The antenna **follows the rig frequency** (band change → retune), and retunes
immediately when you click a spot.
Related hardware: [[Amplifiers and Switches]] (Antenna Genius switch).
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# Multi-Operator Live Status
For a **multi-op special-event call** on a shared MySQL logbook (e.g. TM74TFR),
OpsLog can publish who is on the air, on which band/mode/frequency, as a live
page you embed on the station's **QRZ.com** bio.
## Enable it
1. Point the profile's logbook at a **shared MySQL** database
([[Profiles and Databases]]).
2. **Settings → General → Publish live operator status.**
Each OpsLog instance then heartbeats its current activity (operator call, band,
frequency, mode) into a `live_status` table every ~15 s. OpsLog only **writes**
to the database — it is not a web server.
## The web page
A small PHP renderer, `docs/livestatus/tm74-status.php`, reads that table and
produces a live page/image. Put it on **your own** web server (the one reachable
from the internet):
1. Edit the credentials at the top: `$DB_HOST`, `$DB_PORT`, `$DB_NAME`,
`$DB_USER`, `$DB_PASS` — pointing at the **same** MySQL as OpsLog's logbook.
2. Embed it on QRZ (QRZ strips `<script>`/`<iframe>`, so use an image):
```html
<img src="https://your-server/tm74-status.php?img=1">
```
or link the real-time page: `https://your-server/tm74-status.php`.
## Troubleshooting the PHP page
- **`Connection refused`** — MySQL is refusing the connection. Most common cause:
the server's `bind-address` is `127.0.0.1` (localhost only). Set it to the LAN
IP / `0.0.0.0`, grant the `opslog` user for the web server's IP, and open the
firewall.
- **Runs on a non-standard MySQL port** — set `$DB_PORT` and pass it as the 5th
`mysqli` argument (the shipped script already does).
- Redeploy the current `tm74-status.php` if you edited an old copy — the shipped
version fails gracefully instead of throwing a PHP fatal error.
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# Net Control
**Directed-net logging** (Tools → Net) — run a directed net or round-table and
log the whole thing at once, Log4OM-style.
## How it works
- **Roster** (right) — the net's registered stations, stored globally in
`nets.json` (shared across profiles). Add contacts with a QRZ/HamQTH prefill.
- **On-air** (left) — the active session (in memory): put a station on the air
(check it in), and log the whole net when done.
- Frequency / band / mode of each logged QSO come from **live CAT** at log time
(falling back to the last known values if CAT is off).
## Working a net
1. Open / create a net and **Open** it.
2. Double-click a roster station (or use *Put on air*) to put it on the air —
this starts its QSO (time on).
3. Double-click an on-air row to open the full QSO editor (edit any field).
4. **Log & end** a station to write its QSO to the logbook (time off = now).
## Worked-before
Click a station (on air or in the roster) to see prior contacts with it in the
**worked-before** panel below the on-air column. The panel height is adjustable
(drag its top edge).
> The active session is in-memory only — closing the app mid-net drops
> un-logged on-air stations.
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# Profiles and Databases
## Profiles
Every setting in OpsLog is **per-profile**: station identity, CAT, lookup, QSL
defaults, awards display, antennas, and which logbook to use. Create one profile
per callsign / station / event.
Switch or manage profiles in Settings. The active profile decides which logbook
your QSOs go to.
## Config vs. logbook — two different stores
| Store | What | Where |
|-------|------|-------|
| **Config** | settings, profiles, rigs/antennas, cluster nodes, lookup cache, award lists, QSL templates | always the **local SQLite** file under `data/` |
| **Logbook** | your QSOs | where the active profile points — local SQLite **or** shared MySQL |
Keeping config local means the UI is instant even when the logbook is a far-away
MySQL server.
## Shared MySQL logbook (multi-operator)
Point a profile's logbook at a **MySQL** database so several operators run **one
log** — e.g. a multi-op special-event call. Configure the host / database /
credentials in the profile's database settings.
This is also what powers [[Multi-Operator Live Status]] (each instance heartbeats
its activity into a `live_status` table).
## Backups
Optional **database + ADIF backup at shutdown** (Settings → Backup). Regardless,
copying the `data/` folder backs up your config and local logbook. See
[[Settings and Data]].
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# QSL Card Designer
**Tools → QSL Card Designer…** turns a few photos into a polished eQSL card.
## Design flow
1. **Pick 16 photos** (jpeg/png). OpsLog analyses them offline (detail /
luminance grid) and proposes **3 designs** — callsign placed in the calmest
zone of the best photo, operator name, CQ/ITU zones + locator line, country
flag, the other photos as bordered inserts, and a per-QSO confirmation box.
2. **Fine-tune**: click an element to select, drag to move; change font / style
preset (gel gold, gel silver, classic white outline, script, flat) and the
per-preset knobs on the right. The **QSO info box** has opacity, background
colour, corner radius, title and text-colour controls.
3. **Save** the template. Photos are copied into
`data/qsl/templates/<id>/` (the originals can move afterwards). One template
can be the **default per profile**.
## Sending
Right-click a QSO → **Send eQSL by e-mail**. The card is rendered with that QSO's
data, rasterised to a ≤ 800 KB JPEG, archived in `data/qsl/outbox/`, and sent via
the configured SMTP account to the address from the QRZ/HamQTH lookup. On success
the QSO is stamped `EQSL_SENT=Y`.
The e-mail subject/body templates live in the designer, with
`{CALL} {DATE} {BAND} {MODE} {MYCALL}` variables.
## Fonts & flags
Fonts: Archivo Black, Lilita One, Baloo 2, Oswald, Great Vibes, Allura (all OFL,
embedded); Cooper Black is offered when MS Office installed it. Flags:
flag-icons (MIT), embedded for the commonly-worked DXCC entities.
See also: [[QSL Management]].
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# QSL Management
**Tools → QSL Manager.** Upload and download confirmations for the online QSL
services, and manage paper QSL.
## Services
| Service | Upload | Download confirmations |
|---------|:------:|:----------------------:|
| **LoTW** | ✔ (via TQSL) | ✔ |
| **QRZ.com** | ✔ | ✔ |
| **eQSL** | ✔ | ✔ |
| **ClubLog** | ✔ (batched ADIF) | — |
| **HRDLog** | ✔ | — |
| **POTA** | hunter-log sync | ✔ (park tags) |
| **Paper** | — | set sent/received + via |
## Uploading
Pick a service, find the QSOs (by callsign or a filter), select and upload.
**Bulk edit field** (right-click in Recent QSOs) flips a batch's upload status to
*Requested* first, if you gate uploads that way.
## Downloading confirmations
Pick a service and a **date window** (All / Since last download / a date), then
**Download confirmations**. OpsLog matches each confirmation to your log
(call + minute + band + mode), stamps it (`LOTW_RCVD`, `EQSL_RCVD`,
`QRZ download`…), and optionally **adds not-found** QSOs. Downloading
auto-refreshes the **award** stats.
- **LoTW** and **paper QSL** are the award-valid confirmations for ARRL awards;
eQSL / QRZ count only against their own confirmations.
- **LoTW upload** goes through **TQSL** (ARRL's signer) — set the TQSL path and
station location in Settings.
## E-mail eQSL
Right-click a QSO → **Send eQSL by e-mail** via the configured SMTP account. The
[[QSL Card Designer]] card is rendered with that QSO's data and sent to the
address found by the QRZ/HamQTH lookup.
> Outlook/Hotmail disable basic-auth SMTP — use **Gmail with an app password**,
> or a Microsoft app password.
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# Publishing this wiki to GitHub
These files are the source for the **OpsLog GitHub Wiki**. GitHub stores a wiki
as its own git repository (`<repo>.wiki.git`), so publishing means pushing these
`.md` files into it.
## Automatic — via the release script (recommended)
The release task (`.vscode/release.ps1`, VS Code → *Tasks: Run Task* → *Release
OpsLog*) **publishes the wiki automatically** at the end of every release: it
clones `github.com/GregTroar/OpsLog.wiki.git` to a temp folder, copies every page
from this `wiki/` folder (except this guide), and pushes only if something
changed. Auth reuses your GitHub git credential (set up by `gh auth login`).
**One-time:** on GitHub, open the repo → **Wiki** tab → *Create the first page*
Save. This initialises the wiki repo so the script's clone succeeds.
## Manual (if you want to push between releases)
```bash
# One-time: clone the wiki repo NEXT TO the project (not inside it)
git clone https://github.com/GregTroar/OpsLog.wiki.git
# Then, to update:
cp wiki/*.md ../OpsLog.wiki/ # (skip README-PUBLISHING.md if you like)
cd ../OpsLog.wiki
git add . && git commit -m "Update wiki" && git push
```
The pages appear immediately under the repository's **Wiki** tab.
## How the pages work
- Each `.md` file is one wiki page. The **file name** becomes the page title and
URL: `Getting-Started.md` → page *Getting Started* at `.../wiki/Getting-Started`.
- **`_Sidebar.md`** renders as the navigation sidebar on every page.
- **`_Footer.md`** renders at the bottom of every page.
- Link between pages with `[[Page Name]]` (wiki-link) or a normal relative link
`[text](Getting-Started)`.
- `Home.md` is the wiki landing page.
## Keep it in sync with the README
The wiki mirrors [`README.md`](../README.md). When you add a feature, update the
matching wiki page and the README together so they don't drift.
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# Recent QSOs and Filters
## The Recent QSOs grid
The main log table. Double-click a row to edit; right-click for bulk actions
(see [[Logging Basics]]). Columns are configurable — click **Columns** to choose
which are visible; your selection is saved (per profile).
### Award columns
Each defined award can show a column with the reference the QSO counts for. These
columns are **hidden by default** and opt-in from the Columns picker — turn on
only the awards you're chasing. Your choice persists across restarts.
## Advanced filter builder
Click the filter button to open the **QSO filter builder** (Log4OM-style):
- Add one or more **conditions**: *field · operator · value*.
- Operators: equals, not-equal, contains, starts/ends with, greater/less
(or equal), is empty, is not empty.
- Join conditions with **ALL (AND)** or **ANY (OR)**.
- Save named **presets** (they travel with the `data/` folder).
- The field dropdown is sorted alphabetically to find things fast.
The filtered view can be exported: **selected rows** or the **whole filtered
view** (no row limit) → ADIF or Cabrillo.
## Worked-before matrix
As you type a callsign, the worked-before grid shows prior contacts with that
**entity**, arranged by band/mode slot, so you instantly see what's new (new
DXCC / new band / new slot) versus already worked.
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# Remote Icom over the Internet
OpsLog speaks the Icom radio's **built-in network protocol** directly, so it
**replaces both the Icom Remote Utility and RS-BA1**. Radios with a LAN server —
**IC-7610, IC-9700, IC-705, IC-7760, IC-905** — can be operated over the
LAN/internet with the full [[Icom]] console.
> The **IC-9100 has no LAN server** — it is USB-only.
## On the radio (one-time)
In the radio's **Network** menu:
1. Enable the network / *Remote settings*.
2. Set a **Network User1** name and password.
3. Note the radio's **IP address** and its **CI-V address**.
4. Make sure the Icom **Remote Utility is closed** on every PC — OpsLog binds the
same local UDP ports, so they can't both run.
## In OpsLog
Settings → CAT → backend **Icom CI-V (network / remote)**:
- **Host** — the radio's IP or hostname.
- **User / Password** — the Network User1 credentials.
- **Rig model / CI-V address** — pick the model.
Save. OpsLog logs in, obtains a session **token** (auto-renewed so control never
drops after ~2 minutes), opens the **CI-V tunnel**, and the whole console works
over the net — freq / mode / DSP / TX / RIT / CW / scope.
## How it stays solid
- **Token renewal** every ~45 s keeps the session alive.
- **Receive-side retransmit**: under the heavy panadapter stream, lost UDP
packets are re-requested, so the link doesn't drop when the scope is on.
- **Standby-tolerant**: the radio's server answers pings even when the radio is
off, so the session doesn't flap — the console + power ON button stay reachable.
- **Manual power** ON / OFF (the app never wakes the rig on connect).
## Audio
Network **audio** is a work in progress. For now, use the radio in **USB + a
voice link** (e.g. Mumble) alongside the network CAT, or run OpsLog on the
station PC via remote desktop. See [[Audio and Keyers]] for the USB-monitor
option.
## Troubleshooting
- **"Login rejected"** → wrong Network User1 name/password.
- **Can't bind local port / dial fails** → the Icom **Remote Utility** is still
running; close it.
- **Link drops when the scope turns on** → should be fixed by receive-side
retransmit; if it persists, check the log (`icom net:` lines) and network
quality. See [[Troubleshooting]].
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# Security
## Secret vault
Opt-in **passphrase encryption** of the stored passwords (QRZ, cluster, eQSL,
SMTP, Icom network, etc.) using **AES-GCM + PBKDF2**.
- Enable it in Settings; you set a passphrase.
- Encrypted values are marked `enc:v1:` and are **portable** (they travel with
the `data/` folder).
- A single **unlock prompt at launch** decrypts them for the session.
If you forget the passphrase, the encrypted secrets can't be recovered — re-enter
them.
## What OpsLog sends where
- **Callsign lookups** go to QRZ.com / HamQTH with your credentials.
- **QSL uploads/downloads** go to the services you configure (LoTW via TQSL, QRZ,
eQSL, ClubLog, HRDLog).
- **Telemetry** is a once-a-day anonymous heartbeat (random install ID + version
+ OS — no callsign, no QSO data). Opt out in Preferences.
- Everything else stays local (or on your own MySQL / web server for the
multi-op live status).
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# Settings and Data
## Where everything lives
A `data/` folder is created **next to `OpsLog.exe`**:
- **Config** (SQLite): settings, profiles, rigs/antennas, cluster nodes, lookup
cache, award lists, QSL templates. Always local, so the UI is instant.
- **Local logbook** (SQLite): QSOs, when the profile logs locally.
- `data/qsl/templates/…` — QSL card templates and their photos.
- `data/qsl/outbox/…` — sent QSL card JPEGs.
- Recordings folder (configurable) — per-QSO WAV/MP3.
- Backups.
Back up your setup by copying `data/` (and keep it with the exe). See
[[Profiles and Databases]] for local-vs-MySQL logbooks.
## Settings map
| Section | What |
|---------|------|
| **General** | language, theme, Main-view panes, live-status publish |
| **Station** | your callsign, grid, name, address (my-station ADIF) |
| **CAT** | radio backend + connection ([[CAT Control]]) |
| **Lookup** | QRZ.com / HamQTH credentials |
| **FlexRadio** | per-band RX/TX antennas |
| **Audio** | DVK / recorder devices, PTT, gains, RX monitor |
| **CW Keyer** | WinKeyer / Icom / TCI engine + macros |
| **External services** | LoTW (TQSL), QRZ, eQSL, ClubLog, HRDLog, POTA |
| **Email** | SMTP for eQSL-by-email |
| **PowerGenius / Antenna Genius / Rotator / Ultrabeam** | station hardware |
| **Backup** | database + ADIF backup at shutdown |
## Appearance & language
Four themes (Warm light, Warm dark, Graphite dark, High contrast) plus **Auto**
(follows the OS). Full **English / French** UI with a first-run flag chooser and
a switcher in Settings → General.
## Integrations (outbound UDP)
Push the current frequency to **PstRotator**, radio info in **N1MM `RadioInfo`**
format, or an **ADIF record on each logged QSO** — so external tools stay in sync.
## Other
- **Autostart** external programs (WSJT-X, JTAlert, rotator control…) at launch,
skipping any already running.
- **Update check** at startup (toggleable).
- **Anonymous usage telemetry** — a once-a-day heartbeat (random install ID +
version + OS; no callsign or QSO data). Opt out in Preferences.
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# Troubleshooting
## Where's the log file?
OpsLog writes a diagnostic log. The path is shown in Settings (and can be opened
from there). When reporting a problem, include the relevant lines — they're
prefixed by subsystem (`Flex:`, `icom net:`, `icom scope`, `antgenius:`,
`cluster:`, `qslmgr:log`, `audio:`…).
## CAT
- **Radio not connecting** — check the backend fields (COM port + baud for USB;
IP/credentials for network). OpsLog connects non-blocking, so it won't freeze —
watch the CAT status.
- **Icom: no CAT at all over USB** — the CI-V address must match the radio; pick
your **model** from the dropdown (it sets the address) and set *CI-V USB Echo
Back* **OFF** on the rig.
- **Icom scope blank on an IC-7300** — this was a bug where the scope decoder was
chosen from the configured CI-V address; it now uses the model detected from the
CI-V ID, so a single-scope rig run at address `0x98` decodes correctly. Update
to the latest build.
- **Icom attenuator button does nothing** — the dB steps are model-specific; make
sure the right model is selected (IC-7300 = 20 dB, IC-7610 = 6/12/18 dB).
## Remote Icom
- **Login rejected** → wrong Network User1 name/password.
- **Can't bind local port** → the Icom **Remote Utility is still running**
close it.
- **Link drops with the scope on** → receive-side retransmit should hold it; if
not, check network quality and the `icom net:` log lines. See
[[Remote Icom over the Internet]].
## FlexRadio
- **A control reads 0 / stale at startup** — some SmartSDR status fields use short
names (e.g. the TX filter is reported as `lo`/`hi`, not `filter_low/high`). If a
value never populates, capture the `Flex: … status` log line and report it.
- **Antenna wrong band on a spot click** — fixed: `SetFrequency`/`SetMode` update
the slice cache immediately so the panel and the Ultrabeam follow don't chase a
stale frequency.
## Multi-op live status PHP
`Connection refused` from the PHP page is almost always MySQL `bind-address =
127.0.0.1` or a firewall/grant issue — see
[[Multi-Operator Live Status]].
## DVK / PTT
- **Test PTT does nothing on CAT/OmniRig** — the key is held ~1.5 s so the async
OmniRig write is actually sent; if it still doesn't key, the rig's OmniRig
profile may not expose CAT TX keying — use RTS/DTR or VOX.
## Still stuck?
Open an issue with: what you did, what happened, your radio/model, and the
relevant log lines.
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---
**OpsLog** — a modern ham-radio logger by **F4BPO** · [Home](Home) · [Troubleshooting](Troubleshooting) · A French README is in `README.fr.md`.
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### OpsLog Wiki
**Start here**
- [[Home]]
- [[Installation]]
- [[Getting Started]]
**Logging**
- [[Logging Basics]]
- [[Recent QSOs and Filters]]
- [[Import and Export ADIF]]
- [[Profiles and Databases]]
**Radio control (CAT)**
- [[CAT Control]]
- [[FlexRadio]]
- [[Icom]]
- [[Remote Icom over the Internet]]
**Operating**
- [[DX Cluster and Spots]]
- [[Maps and Antennas]]
- [[Amplifiers and Switches]]
- [[Audio and Keyers]]
- [[Contest Logging]]
- [[Net Control]]
- [[Multi-Operator Live Status]]
**QSL & Awards**
- [[Awards]]
- [[QSL Management]]
- [[QSL Card Designer]]
**Reference**
- [[Settings and Data]]
- [[Security]]
- [[Troubleshooting]]