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base: iarv:maps-1
Branches Tags
iarv:main iarv:dev iarv:pro_max_wip iarv:crowpanel-wip iarv:basic
iarv:v1.5 iarv:ota-1.3 iarv:ota-1 iarv:v1.2 iarv:v1.2-prerelease iarv:tdpro-v1.1 iarv:v1.0 iarv:t5s3-1 iarv:multi-byte-1 iarv:v0.9.8.1 iarv:wifi-1 iarv:maps-1 iarv:v0.9.5 iarv:phone-1 iarv:sms-app-1 iarv:consolidated iarv:v0.9.1A iarv:audio-updates iarv:three-versions iarv:notes-1 iarv:duty-cycle-1 iarv:settings-1 iarv:timesync-gps iarv:repeater-admin-1 iarv:dms-1 iarv:txt-reader-2 iarv:emojis-1 iarv:txt-reader-1 iarv:ble-queue-fix iarv:red-LED-fix iarv:text-entry-1 iarv:ble iarv:alpha iarv:minor-changes iarv:firstbuild
...
compare: iarv:audio-updates
Branches Tags
iarv:main iarv:dev iarv:pro_max_wip iarv:crowpanel-wip iarv:basic
iarv:v1.5 iarv:ota-1.3 iarv:ota-1 iarv:v1.2 iarv:v1.2-prerelease iarv:tdpro-v1.1 iarv:v1.0 iarv:t5s3-1 iarv:multi-byte-1 iarv:v0.9.8.1 iarv:wifi-1 iarv:maps-1 iarv:v0.9.5 iarv:phone-1 iarv:sms-app-1 iarv:consolidated iarv:v0.9.1A iarv:audio-updates iarv:three-versions iarv:notes-1 iarv:duty-cycle-1 iarv:settings-1 iarv:timesync-gps iarv:repeater-admin-1 iarv:dms-1 iarv:txt-reader-2 iarv:emojis-1 iarv:txt-reader-1 iarv:ble-queue-fix iarv:red-LED-fix iarv:text-entry-1 iarv:ble iarv:alpha iarv:minor-changes iarv:firstbuild

7 Commits
maps-1 ... audio-upda

Author SHA1 Message Date
pelgraine
56d1b99b77 msgread fix and newmsg alert suppression when in repeater admin login page 2026-02-16 18:00:31 +11:00
pelgraine
e056ea3c2c using different HAS_BQ27220 for renderbatteryindicator 2026-02-15 19:30:12 +11:00
pelgraine
b2967fc1a7 battery gauge implementation 2026-02-15 09:13:41 +11:00
pelgraine
addcbcd00e fix repeater admin and repeater admin exit behaviour and ui 2026-02-15 00:33:39 +11:00
pelgraine
8cdf19a848 applied same fixes as audio player branch with minor display edit 2026-02-14 16:31:32 +11:00
pelgraine
5019d12fb0 fixed home view so that pin isn't shown when ble off. Add instructions for keyboard nav to home screen 2026-02-14 16:05:40 +11:00
pelgraine
306e9815b4 updated mymesh and platformio firmware version and date; fixed settings page so corrected radio preset list options available and custom frequency edits refined. 2026-02-14 14:10:30 +11:00
10 changed files with 644 additions and 87 deletions
Expand all files Collapse all files

70
examples/companion_radio/MyMesh.cpp
View File

@@ -523,6 +523,13 @@ void MyMesh::onCommandDataRecv(const ContactInfo &from, mesh::Packet *pkt, uint3
const char *text) {
markConnectionActive(from); // in case this is from a server, and we have a connection
queueMessage(from, TXT_TYPE_CLI_DATA, pkt, sender_timestamp, NULL, 0, text);
// Forward CLI response to UI admin screen if admin session is active
#ifdef DISPLAY_CLASS
if (_admin_contact_idx >= 0 && _ui) {
_ui->onAdminCliResponse(from.name, text);
}
#endif
}
void MyMesh::onSignedMessageRecv(const ContactInfo &from, mesh::Packet *pkt, uint32_t sender_timestamp,
@@ -650,6 +657,53 @@ bool MyMesh::uiSendDirectMessage(uint32_t contact_idx, const char* text) {
return true;
}
bool MyMesh::uiLoginToRepeater(uint32_t contact_idx, const char* password) {
ContactInfo contact;
if (!getContactByIdx(contact_idx, contact)) return false;
ContactInfo* recipient = lookupContactByPubKey(contact.id.pub_key, PUB_KEY_SIZE);
if (!recipient) return false;
uint32_t est_timeout;
int result = sendLogin(*recipient, password, est_timeout);
if (result == MSG_SEND_FAILED) {
MESH_DEBUG_PRINTLN("UI: Admin login send failed to %s", recipient->name);
return false;
}
clearPendingReqs();
memcpy(&pending_login, recipient->id.pub_key, 4);
_admin_contact_idx = contact_idx;
MESH_DEBUG_PRINTLN("UI: Admin login sent to %s (%s), timeout=%dms",
recipient->name, result == MSG_SEND_SENT_FLOOD ? "flood" : "direct",
est_timeout);
return true;
}
bool MyMesh::uiSendCliCommand(uint32_t contact_idx, const char* command) {
ContactInfo contact;
if (!getContactByIdx(contact_idx, contact)) return false;
ContactInfo* recipient = lookupContactByPubKey(contact.id.pub_key, PUB_KEY_SIZE);
if (!recipient) return false;
uint32_t timestamp = getRTCClock()->getCurrentTimeUnique();
uint32_t est_timeout;
int result = sendCommandData(*recipient, timestamp, 0, command, est_timeout);
if (result == MSG_SEND_FAILED) {
MESH_DEBUG_PRINTLN("UI: CLI command send failed to %s: %s", recipient->name, command);
return false;
}
_admin_contact_idx = contact_idx;
MESH_DEBUG_PRINTLN("UI: CLI command sent to %s (%s): %s, timeout=%dms",
recipient->name, result == MSG_SEND_SENT_FLOOD ? "flood" : "direct",
command, est_timeout);
return true;
}
uint8_t MyMesh::onContactRequest(const ContactInfo &contact, uint32_t sender_timestamp, const uint8_t *data,
uint8_t len, uint8_t *reply) {
if (data[0] == REQ_TYPE_GET_TELEMETRY_DATA) {
@@ -708,6 +762,11 @@ void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data,
out_frame[i++] = 0; // legacy: is_admin = false
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
#ifdef DISPLAY_CLASS
// Notify UI of successful legacy login
if (_ui) _ui->onAdminLoginResult(true, 0, tag);
#endif
} else if (data[4] == RESP_SERVER_LOGIN_OK) { // new login response
uint16_t keep_alive_secs = ((uint16_t)data[5]) * 16;
if (keep_alive_secs > 0) {
@@ -721,11 +780,21 @@ void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data,
i += 4; // NEW: include server timestamp
out_frame[i++] = data[7]; // NEW (v7): ACL permissions
out_frame[i++] = data[12]; // FIRMWARE_VER_LEVEL
#ifdef DISPLAY_CLASS
// Notify UI of successful login
if (_ui) _ui->onAdminLoginResult(true, data[6], tag);
#endif
} else {
out_frame[i++] = PUSH_CODE_LOGIN_FAIL;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
#ifdef DISPLAY_CLASS
// Notify UI of login failure
if (_ui) _ui->onAdminLoginResult(false, 0, 0);
#endif
}
_serial->writeFrame(out_frame, i);
} else if (len > 4 && // check for status response
@@ -897,6 +966,7 @@ MyMesh::MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMe
memset(send_scope.key, 0, sizeof(send_scope.key));
memset(_sent_track, 0, sizeof(_sent_track));
_sent_track_idx = 0;
_admin_contact_idx = -1;
// defaults
memset(&_prefs, 0, sizeof(_prefs));

4
examples/companion_radio/MyMesh.h
View File

@@ -8,11 +8,11 @@
#define FIRMWARE_VER_CODE 8
#ifndef FIRMWARE_BUILD_DATE
#define FIRMWARE_BUILD_DATE "13 Feb 2026"
#define FIRMWARE_BUILD_DATE "15 Feb 2026"
#endif
#ifndef FIRMWARE_VERSION
#define FIRMWARE_VERSION "Meck v0.8.6"
#define FIRMWARE_VERSION "Meck v0.8.9"
#endif
#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)

85
examples/companion_radio/main.cpp
View File

@@ -15,6 +15,7 @@
#include "ContactsScreen.h"
#include "ChannelScreen.h"
#include "SettingsScreen.h"
#include "RepeaterAdminScreen.h"
extern SPIClass displaySpi; // From GxEPDDisplay.cpp, shared SPI bus
TCA8418Keyboard keyboard(I2C_ADDR_KEYBOARD, &Wire);
@@ -320,9 +321,6 @@ void setup() {
}
MESH_DEBUG_PRINTLN("setup() - radio_init() done");
// CPU frequency scaling — drop to 80 MHz for idle mesh listening
cpuPower.begin();
MESH_DEBUG_PRINTLN("setup() - about to call fast_rng.begin()");
fast_rng.begin(radio_get_rng_seed());
MESH_DEBUG_PRINTLN("setup() - fast_rng.begin() done");
@@ -407,7 +405,7 @@ void setup() {
MESH_DEBUG_PRINTLN("setup() - SPIFFS.begin() done");
// ---------------------------------------------------------------------------
// Early SD card init — needed BEFORE the_mesh.begin() so we can restore
// Early SD card init — needed BEFORE the_mesh.begin() so we can restore
// settings from a previous firmware flash. The display SPI bus is already
// up (display.begin() ran earlier), so SD can share it now.
// ---------------------------------------------------------------------------
@@ -543,7 +541,7 @@ void setup() {
}
#endif
// GPS duty cycle †honour saved pref, default to enabled on first boot
// GPS duty cycle — honour saved pref, default to enabled on first boot
#if HAS_GPS
{
bool gps_wanted = the_mesh.getNodePrefs()->gps_enabled;
@@ -558,6 +556,9 @@ void setup() {
}
#endif
// CPU frequency scaling — drop to 80 MHz for idle mesh listening
cpuPower.begin();
// T-Deck Pro: BLE starts disabled for standalone-first operation
// User can toggle it on from the Bluetooth home page (Enter or long-press)
#if defined(LilyGo_TDeck_Pro) && defined(BLE_PIN_CODE)
@@ -571,7 +572,7 @@ void setup() {
void loop() {
the_mesh.loop();
// GPS duty cycle †check for fix and manage power state
// GPS duty cycle — check for fix and manage power state
#if HAS_GPS
{
bool gps_hw_on = gpsDuty.loop();
@@ -982,11 +983,61 @@ void handleKeyboardInput() {
return;
}
// All other keys → settings screen via injectKey
// All other keys → settings screen via injectKey
ui_task.injectKey(key);
return;
}
// *** REPEATER ADMIN MODE ***
if (ui_task.isOnRepeaterAdmin()) {
RepeaterAdminScreen* admin = (RepeaterAdminScreen*)ui_task.getRepeaterAdminScreen();
RepeaterAdminScreen::AdminState astate = admin->getState();
bool shiftDel = (key == '\b' && keyboard.wasShiftConsumed());
// In password entry: Shift+Del exits, all other keys pass through normally
if (astate == RepeaterAdminScreen::STATE_PASSWORD_ENTRY) {
if (shiftDel) {
Serial.println("Nav: Back to contacts from admin login");
ui_task.gotoContactsScreen();
} else {
ui_task.injectKey(key);
}
return;
}
// In menu state: Shift+Del exits to contacts, C opens compose
if (astate == RepeaterAdminScreen::STATE_MENU) {
if (shiftDel) {
Serial.println("Nav: Back to contacts from admin menu");
ui_task.gotoContactsScreen();
return;
}
// C key: allow entering compose mode from admin menu
if (key == 'c' || key == 'C') {
composeDM = false;
composeDMContactIdx = -1;
composeMode = true;
composeBuffer[0] = '\0';
composePos = 0;
drawComposeScreen();
lastComposeRefresh = millis();
return;
}
// All other keys pass to admin screen
ui_task.injectKey(key);
return;
}
// In waiting/response/error states: convert Shift+Del to exit signal,
// pass all other keys through
if (shiftDel) {
ui_task.injectKey(KEY_ADMIN_EXIT);
} else {
ui_task.injectKey(key);
}
return;
}
// Normal mode - not composing
switch (key) {
case 'c':
@@ -1022,8 +1073,8 @@ void handleKeyboardInput() {
break;
case 's':
// Open settings (from home), or navigate down on channel/contacts
if (ui_task.isOnChannelScreen() || ui_task.isOnContactsScreen()) {
// Open settings (from home), or navigate down on channel/contacts/admin
if (ui_task.isOnChannelScreen() || ui_task.isOnContactsScreen() || ui_task.isOnRepeaterAdmin()) {
ui_task.injectKey('s'); // Pass directly for channel/contacts scrolling
} else {
Serial.println("Opening settings");
@@ -1033,7 +1084,7 @@ void handleKeyboardInput() {
case 'w':
// Navigate up/previous (scroll on channel screen)
if (ui_task.isOnChannelScreen() || ui_task.isOnContactsScreen()) {
if (ui_task.isOnChannelScreen() || ui_task.isOnContactsScreen() || ui_task.isOnRepeaterAdmin()) {
ui_task.injectKey('w'); // Pass directly for channel/contacts switching
} else {
Serial.println("Nav: Previous");
@@ -1062,7 +1113,8 @@ void handleKeyboardInput() {
break;
case '\r':
// Enter = compose (only from channel or contacts screen)
// Select/Enter - if on contacts screen, enter DM compose for chat contacts
// or repeater admin for repeater contacts
if (ui_task.isOnContactsScreen()) {
ContactsScreen* cs = (ContactsScreen*)ui_task.getContactsScreen();
int idx = cs->getSelectedContactIdx();
@@ -1077,8 +1129,15 @@ void handleKeyboardInput() {
Serial.printf("Entering DM compose to %s (idx %d)\n", composeDMName, idx);
drawComposeScreen();
lastComposeRefresh = millis();
} else if (idx >= 0 && ctype == ADV_TYPE_REPEATER) {
// Open repeater admin screen
char rname[32];
cs->getSelectedContactName(rname, sizeof(rname));
Serial.printf("Opening repeater admin for %s (idx %d)\n", rname, idx);
ui_task.gotoRepeaterAdmin(idx);
} else if (idx >= 0) {
Serial.printf("Selected non-chat contact type=%d idx=%d\n", ctype, idx);
// Non-chat, non-repeater contact (room, sensor, etc.) - future use
Serial.printf("Selected contact type=%d idx=%d\n", ctype, idx);
}
} else if (ui_task.isOnChannelScreen()) {
composeDM = false;
@@ -1098,7 +1157,7 @@ void handleKeyboardInput() {
case 'q':
case '\b':
// Go back to home screen
// Go back to home screen (admin mode handled above)
Serial.println("Nav: Back to home");
ui_task.gotoHomeScreen();
break;

38
examples/companion_radio/ui-new/Repeateradminscreen.h
View File

@@ -12,6 +12,7 @@ extern MyMesh the_mesh;
#define ADMIN_PASSWORD_MAX 32
#define ADMIN_RESPONSE_MAX 512 // CLI responses can be multi-line
#define ADMIN_TIMEOUT_MS 15000 // 15s timeout for login/commands
#define KEY_ADMIN_EXIT 0xFE // Special key: Shift+Backspace exit (injected by main.cpp)
class RepeaterAdminScreen : public UIScreen {
public:
@@ -280,31 +281,34 @@ public:
switch (_state) {
case STATE_PASSWORD_ENTRY:
display.print("Q:Back");
display.print("Sh+Del:Exit");
{
const char* right = "Enter:Login";
const char* right = "Ent:Login";
display.setCursor(display.width() - display.getTextWidth(right) - 2, footerY);
display.print(right);
}
break;
case STATE_LOGGING_IN:
case STATE_COMMAND_PENDING:
display.print("Q:Cancel");
display.print("Sh+Del:Cancel");
break;
case STATE_MENU:
display.print("Q:Back");
display.print("Sh+Del:Exit");
{
const char* mid = "W/S:Sel";
display.setCursor((display.width() - display.getTextWidth(mid)) / 2, footerY);
display.print(mid);
const char* right = "Ent:Run";
display.setCursor(display.width() - display.getTextWidth(right) - 2, footerY);
int leftEnd = display.getTextWidth("Sh+Del:Exit") + 2;
int rightStart = display.width() - display.getTextWidth(right) - 2;
int midX = leftEnd + (rightStart - leftEnd - display.getTextWidth(mid)) / 2;
display.setCursor(midX, footerY);
display.print(mid);
display.setCursor(rightStart, footerY);
display.print(right);
}
break;
case STATE_RESPONSE_VIEW:
case STATE_ERROR:
display.print("Q:Menu");
display.print("Sh+Del:Menu");
if (_responseLen > bodyHeight / 9) { // if scrollable
const char* right = "W/S:Scrll";
display.setCursor(display.width() - display.getTextWidth(right) - 2, footerY);
@@ -327,8 +331,8 @@ public:
return handlePasswordInput(c);
case STATE_LOGGING_IN:
case STATE_COMMAND_PENDING:
// Q to cancel and go back
if (c == 'q' || c == 'Q') {
// Shift+Del to cancel and go back
if (c == KEY_ADMIN_EXIT) {
_state = (_state == STATE_LOGGING_IN) ? STATE_PASSWORD_ENTRY : STATE_MENU;
return true;
}
@@ -370,9 +374,9 @@ private:
}
bool handlePasswordInput(char c) {
// Q without any password typed = go back (return false to signal "not handled")
if ((c == 'q' || c == 'Q') && _pwdLen == 0) {
return false;
// Shift+Del = exit (always, regardless of password content)
if (c == KEY_ADMIN_EXIT) {
return false; // signal main.cpp to navigate back
}
// Enter to submit
@@ -472,8 +476,8 @@ private:
if (c == '\r' || c == '\n' || c == KEY_ENTER) {
return executeMenuCommand((MenuItem)_menuSel);
}
// Q - back to contacts
if (c == 'q' || c == 'Q') {
// Shift+Del - back to contacts
if (c == KEY_ADMIN_EXIT) {
return false; // let UITask handle back navigation
}
// Number keys for quick selection
@@ -535,8 +539,8 @@ private:
_responseScroll++;
return true;
}
// Q - back to menu (or back to password on error)
if (c == 'q' || c == 'Q') {
// Shift+Del - back to menu (or back to password on error)
if (c == KEY_ADMIN_EXIT) {
if (_state == STATE_ERROR && _permissions == 0) {
// Not yet logged in, go back to password
_state = STATE_PASSWORD_ENTRY;

57
examples/companion_radio/ui-new/Settingsscreen.h
View File

@@ -24,10 +24,22 @@ struct RadioPreset {
};
static const RadioPreset RADIO_PRESETS[] = {
{ "MeshCore Default", 915.0f, 250.0f, 10, 5, 20 },
{ "Long Range", 915.0f, 125.0f, 12, 8, 20 },
{ "Fast/Short", 915.0f, 500.0f, 7, 5, 20 },
{ "EU Default", 869.4f, 250.0f, 10, 5, 14 },
{ "Australia", 915.800f, 250.0f, 10, 5, 22 },
{ "Australia (Narrow)", 916.575f, 62.5f, 7, 8, 22 },
{ "Australia: SA, WA", 923.125f, 62.5f, 8, 8, 22 },
{ "Australia: QLD", 923.125f, 62.5f, 8, 5, 22 },
{ "EU/UK (Narrow)", 869.618f, 62.5f, 8, 8, 14 },
{ "EU/UK (Long Range)", 869.525f, 250.0f, 11, 5, 14 },
{ "EU/UK (Medium Range)", 869.525f, 250.0f, 10, 5, 14 },
{ "Czech Republic (Narrow)",869.432f, 62.5f, 7, 5, 14 },
{ "EU 433 (Long Range)", 433.650f, 250.0f, 11, 5, 14 },
{ "New Zealand", 917.375f, 250.0f, 11, 5, 22 },
{ "New Zealand (Narrow)", 917.375f, 62.5f, 7, 5, 22 },
{ "Portugal 433", 433.375f, 62.5f, 9, 6, 14 },
{ "Portugal 868", 869.618f, 62.5f, 7, 6, 14 },
{ "Switzerland", 869.618f, 62.5f, 8, 8, 14 },
{ "USA/Canada (Recommended)",910.525f, 62.5f, 7, 5, 22 },
{ "Vietnam", 920.250f, 250.0f, 11, 5, 22 },
};
#define NUM_RADIO_PRESETS (sizeof(RADIO_PRESETS) / sizeof(RADIO_PRESETS[0]))
@@ -72,7 +84,7 @@ private:
mesh::RTCClock* _rtc;
NodePrefs* _prefs;
// Row table rebuilt whenever channels change
// Row table — rebuilt whenever channels change
struct Row {
SettingsRowType type;
uint8_t param; // channel index for ROW_CHANNEL, preset index for ROW_RADIO_PRESET
@@ -96,7 +108,7 @@ private:
// Onboarding mode
bool _onboarding;
// Dirty flag for radio params prompt to apply
// Dirty flag for radio params — prompt to apply
bool _radioChanged;
// ---------------------------------------------------------------------------
@@ -198,11 +210,11 @@ private:
strncpy(newCh.name, chanName, sizeof(newCh.name));
newCh.name[31] = '\0';
// SHA-256 the channel name first 16 bytes become the secret
// SHA-256 the channel name → first 16 bytes become the secret
uint8_t hash[32];
mesh::Utils::sha256(hash, 32, (const uint8_t*)chanName, strlen(chanName));
memcpy(newCh.channel.secret, hash, 16);
// Upper 16 bytes left as zero setChannel uses 128-bit mode
// Upper 16 bytes left as zero → setChannel uses 128-bit mode
// Find next empty slot
for (uint8_t i = 0; i < MAX_GROUP_CHANNELS; i++) {
@@ -400,8 +412,8 @@ public:
}
case ROW_FREQ:
if (editing && _editMode == EDIT_NUMBER) {
snprintf(tmp, sizeof(tmp), "Freq: %.3f <W/S>", _editFloat);
if (editing && _editMode == EDIT_TEXT) {
snprintf(tmp, sizeof(tmp), "Freq: %s_ MHz", _editBuf);
} else {
snprintf(tmp, sizeof(tmp), "Freq: %.3f MHz", _prefs->freq);
}
@@ -611,6 +623,15 @@ public:
_cursor = 1; // ROW_RADIO_PRESET
startEditPicker(max(0, detectCurrentPreset()));
}
} else if (type == ROW_FREQ) {
if (_editPos > 0) {
float f = strtof(_editBuf, nullptr);
f = constrain(f, 400.0f, 2500.0f);
_prefs->freq = f;
_radioChanged = true;
Serial.printf("Settings: Freq typed to %.3f\n", f);
}
_editMode = EDIT_NONE;
} else if (type == ROW_ADD_CHANNEL) {
if (_editPos > 0) {
createHashtagChannel(_editBuf);
@@ -684,7 +705,6 @@ public:
if (c == 'w' || c == 'W') {
switch (type) {
case ROW_FREQ: _editFloat += 0.1f; break;
case ROW_BW:
// Cycle through common bandwidths
if (_editFloat < 31.25f) _editFloat = 31.25f;
@@ -703,7 +723,6 @@ public:
}
if (c == 's' || c == 'S') {
switch (type) {
case ROW_FREQ: _editFloat -= 0.1f; break;
case ROW_BW:
if (_editFloat > 250.0f) _editFloat = 250.0f;
else if (_editFloat > 125.0f) _editFloat = 125.0f;
@@ -721,10 +740,6 @@ public:
if (c == '\r' || c == 13) {
// Confirm number edit
switch (type) {
case ROW_FREQ:
_prefs->freq = constrain(_editFloat, 400.0f, 2500.0f);
_radioChanged = true;
break;
case ROW_BW:
_prefs->bw = _editFloat;
_radioChanged = true;
@@ -787,9 +802,13 @@ public:
case ROW_RADIO_PRESET:
startEditPicker(max(0, detectCurrentPreset()));
break;
case ROW_FREQ:
startEditFloat(_prefs->freq);
case ROW_FREQ: {
// Use text input so user can type exact frequencies like 916.575
char freqStr[16];
snprintf(freqStr, sizeof(freqStr), "%.3f", _prefs->freq);
startEditText(freqStr);
break;
}
case ROW_BW:
startEditFloat(_prefs->bw);
break;
@@ -828,7 +847,7 @@ public:
}
}
// Q: back if radio changed, prompt to apply first
// Q: back — if radio changed, prompt to apply first
if (c == 'q' || c == 'Q') {
if (_radioChanged) {
_editMode = EDIT_CONFIRM;

191
examples/companion_radio/ui-new/UITask.cpp
View File

@@ -36,11 +36,12 @@
#include "ContactsScreen.h"
#include "TextReaderScreen.h"
#include "SettingsScreen.h"
#include "RepeaterAdminScreen.h"
class SplashScreen : public UIScreen {
UITask* _task;
unsigned long dismiss_after;
char _version_info[12];
char _version_info[24];
public:
SplashScreen(UITask* task) : _task(task) {
@@ -87,13 +88,18 @@ class HomeScreen : public UIScreen {
FIRST,
RECENT,
RADIO,
#ifdef BLE_PIN_CODE
BLUETOOTH,
#endif
ADVERT,
#if ENV_INCLUDE_GPS == 1
GPS,
#endif
#if UI_SENSORS_PAGE == 1
SENSORS,
#endif
#if HAS_BQ27220
BATTERY,
#endif
SHUTDOWN,
Count // keep as last
@@ -111,22 +117,21 @@ class HomeScreen : public UIScreen {
void renderBatteryIndicator(DisplayDriver& display, uint16_t batteryMilliVolts, int* outIconX = nullptr) {
// Use the BQ27220 fuel gauge SOC register for accurate percentage.
// Falls back to voltage estimation if the fuel gauge is uncalibrated.
uint8_t batteryPercentage = board.getBatteryPercent();
// Sanity check: if voltage says full but gauge disagrees significantly,
// the gauge hasn't calibrated yet — fall back to voltage estimate
int voltagePct = 0;
uint8_t batteryPercentage = 0;
#if HAS_BQ27220
// Use fuel gauge SOC directly — accurate across the full discharge curve
batteryPercentage = board.getBatteryPercent();
#else
// Fallback: voltage-based linear estimation for boards without fuel gauge
if (batteryMilliVolts > 0) {
voltagePct = ((batteryMilliVolts - 3000) * 100) / (4200 - 3000);
if (voltagePct < 0) voltagePct = 0;
if (voltagePct > 100) voltagePct = 100;
}
if (batteryPercentage == 0 || abs((int)batteryPercentage - voltagePct) > 30) {
batteryPercentage = (uint8_t)voltagePct;
const int minMilliVolts = 3000;
const int maxMilliVolts = 4200;
int pct = ((batteryMilliVolts - minMilliVolts) * 100) / (maxMilliVolts - minMilliVolts);
if (pct < 0) pct = 0;
if (pct > 100) pct = 100;
batteryPercentage = (uint8_t)pct;
}
#endif
display.setColor(DisplayDriver::GREEN);
@@ -212,12 +217,12 @@ public:
int render(DisplayDriver& display) override {
char tmp[80];
// node name
display.setTextSize(1);
// node name (tinyfont to avoid overlapping clock)
display.setTextSize(0);
display.setColor(DisplayDriver::GREEN);
char filtered_name[sizeof(_node_prefs->node_name)];
display.translateUTF8ToBlocks(filtered_name, _node_prefs->node_name, sizeof(filtered_name));
display.setCursor(0, 0);
display.setCursor(0, -3);
display.print(filtered_name);
// battery voltage
@@ -258,28 +263,54 @@ public:
}
if (_page == HomePage::FIRST) {
int y = 20;
display.setColor(DisplayDriver::YELLOW);
display.setTextSize(2);
sprintf(tmp, "MSG: %d", _task->getMsgCount());
display.drawTextCentered(display.width() / 2, 20, tmp);
display.drawTextCentered(display.width() / 2, y, tmp);
y += 18;
#ifdef WIFI_SSID
IPAddress ip = WiFi.localIP();
snprintf(tmp, sizeof(tmp), "IP: %d.%d.%d.%d", ip[0], ip[1], ip[2], ip[3]);
display.setTextSize(1);
display.drawTextCentered(display.width() / 2, 54, tmp);
display.drawTextCentered(display.width() / 2, y, tmp);
y += 12;
#endif
#if defined(BLE_PIN_CODE) || defined(WIFI_SSID)
if (_task->hasConnection()) {
display.setColor(DisplayDriver::GREEN);
display.setTextSize(1);
display.drawTextCentered(display.width() / 2, 43, "< Connected >");
} else if (the_mesh.getBLEPin() != 0) { // BT pin
display.drawTextCentered(display.width() / 2, y, "< Connected >");
y += 12;
#ifdef BLE_PIN_CODE
} else if (_task->isSerialEnabled() && the_mesh.getBLEPin() != 0) {
display.setColor(DisplayDriver::RED);
display.setTextSize(2);
sprintf(tmp, "Pin:%d", the_mesh.getBLEPin());
display.drawTextCentered(display.width() / 2, 43, tmp);
display.drawTextCentered(display.width() / 2, y, tmp);
y += 18;
#endif
}
#endif
// Menu shortcuts - tinyfont monospaced grid
y += 6;
display.setColor(DisplayDriver::LIGHT);
display.setTextSize(0); // tinyfont 6x8 monospaced
display.drawTextCentered(display.width() / 2, y, "Press:");
y += 12;
display.drawTextCentered(display.width() / 2, y, "[M] Messages [C] Contacts");
y += 10;
display.drawTextCentered(display.width() / 2, y, "[N] Notes [S] Settings");
y += 10;
display.drawTextCentered(display.width() / 2, y, "[E] Reader ");
y += 14;
// Nav hint
display.setColor(DisplayDriver::GREEN);
display.drawTextCentered(display.width() / 2, y, "Press A/D to cycle home views");
display.setTextSize(1); // restore
} else if (_page == HomePage::RECENT) {
the_mesh.getRecentlyHeard(recent, UI_RECENT_LIST_SIZE);
display.setColor(DisplayDriver::GREEN);
@@ -324,6 +355,7 @@ public:
display.setCursor(0, 53);
sprintf(tmp, "Noise floor: %d", radio_driver.getNoiseFloor());
display.print(tmp);
#ifdef BLE_PIN_CODE
} else if (_page == HomePage::BLUETOOTH) {
display.setColor(DisplayDriver::GREEN);
display.drawXbm((display.width() - 32) / 2, 18,
@@ -331,6 +363,7 @@ public:
32, 32);
display.setTextSize(1);
display.drawTextCentered(display.width() / 2, 64 - 11, "toggle: " PRESS_LABEL);
#endif
} else if (_page == HomePage::ADVERT) {
display.setColor(DisplayDriver::GREEN);
display.drawXbm((display.width() - 32) / 2, 18, advert_icon, 32, 32);
@@ -380,7 +413,7 @@ public:
display.drawTextRightAlign(display.width()-1, y, buf);
y = y + 12;
// NMEA sentence counter — confirms baud rate and data flow
// NMEA sentence counter — confirms baud rate and data flow
display.drawTextLeftAlign(0, y, "sentences");
if (gpsDuty.isHardwareOn()) {
uint16_t sps = gpsStream.getSentencesPerSec();
@@ -510,6 +543,51 @@ public:
}
if (sensors_scroll) sensors_scroll_offset = (sensors_scroll_offset+1)%sensors_nb;
else sensors_scroll_offset = 0;
#endif
#if HAS_BQ27220
} else if (_page == HomePage::BATTERY) {
char buf[30];
int y = 18;
// Title
display.setColor(DisplayDriver::GREEN);
display.drawTextCentered(display.width() / 2, y, "Battery Gauge");
y += 12;
display.setColor(DisplayDriver::LIGHT);
// Time to empty
uint16_t tte = board.getTimeToEmpty();
display.drawTextLeftAlign(0, y, "remaining");
if (tte == 0xFFFF || tte == 0) {
strcpy(buf, tte == 0 ? "depleted" : "charging");
} else if (tte >= 60) {
sprintf(buf, "%dh %dm", tte / 60, tte % 60);
} else {
sprintf(buf, "%d min", tte);
}
display.drawTextRightAlign(display.width()-1, y, buf);
y += 10;
// Average current
int16_t avgCur = board.getAvgCurrent();
display.drawTextLeftAlign(0, y, "avg current");
sprintf(buf, "%d mA", avgCur);
display.drawTextRightAlign(display.width()-1, y, buf);
y += 10;
// Average power
int16_t avgPow = board.getAvgPower();
display.drawTextLeftAlign(0, y, "avg power");
sprintf(buf, "%d mW", avgPow);
display.drawTextRightAlign(display.width()-1, y, buf);
y += 10;
// Voltage (already available)
uint16_t mv = board.getBattMilliVolts();
display.drawTextLeftAlign(0, y, "voltage");
sprintf(buf, "%d.%03d V", mv / 1000, mv % 1000);
display.drawTextRightAlign(display.width()-1, y, buf);
#endif
} else if (_page == HomePage::SHUTDOWN) {
display.setColor(DisplayDriver::GREEN);
@@ -570,6 +648,7 @@ public:
}
return true;
}
#ifdef BLE_PIN_CODE
if (c == KEY_ENTER && _page == HomePage::BLUETOOTH) {
if (_task->isSerialEnabled()) { // toggle Bluetooth on/off
_task->disableSerial();
@@ -578,6 +657,7 @@ public:
}
return true;
}
#endif
if (c == KEY_ENTER && _page == HomePage::ADVERT) {
_task->notify(UIEventType::ack);
if (the_mesh.advert()) {
@@ -756,6 +836,8 @@ void UITask::begin(DisplayDriver* display, SensorManager* sensors, NodePrefs* no
text_reader = new TextReaderScreen(this);
notes_screen = new NotesScreen(this);
settings_screen = new SettingsScreen(this, &rtc_clock, node_prefs);
repeater_admin = new RepeaterAdminScreen(this, &rtc_clock);
audiobook_screen = nullptr; // Created and assigned from main.cpp if audio hardware present
setCurrScreen(splash);
}
@@ -797,7 +879,7 @@ switch(t){
void UITask::msgRead(int msgcount) {
_msgcount = msgcount;
if (msgcount == 0) {
if (msgcount == 0 && curr == msg_preview) {
gotoHomeScreen();
}
}
@@ -826,9 +908,12 @@ void UITask::newMsg(uint8_t path_len, const char* from_name, const char* text, i
#if defined(LilyGo_TDeck_Pro)
// T-Deck Pro: Don't interrupt user with popup - just show brief notification
// Messages are stored in channel history, accessible via 'M' key
char alertBuf[40];
snprintf(alertBuf, sizeof(alertBuf), "New: %s", from_name);
showAlert(alertBuf, 2000);
// Suppress alert entirely on admin screen - it needs focused interaction
if (!isOnRepeaterAdmin()) {
char alertBuf[40];
snprintf(alertBuf, sizeof(alertBuf), "New: %s", from_name);
showAlert(alertBuf, 2000);
}
#else
// Other devices: Show full preview screen (legacy behavior)
setCurrScreen(msg_preview);
@@ -1088,13 +1173,13 @@ void UITask::toggleGPS() {
if (_sensors != NULL) {
if (_node_prefs->gps_enabled) {
// Disable GPS — cut hardware power
// Disable GPS — cut hardware power
_sensors->setSettingValue("gps", "0");
_node_prefs->gps_enabled = 0;
gpsDuty.disable();
notify(UIEventType::ack);
} else {
// Enable GPS — start duty cycle
// Enable GPS — start duty cycle
_sensors->setSettingValue("gps", "1");
_node_prefs->gps_enabled = 1;
gpsDuty.enable();
@@ -1225,6 +1310,36 @@ void UITask::gotoOnboarding() {
_next_refresh = 100;
}
void UITask::gotoAudiobookPlayer() {
if (audiobook_screen == nullptr) return; // No audio hardware
setCurrScreen(audiobook_screen);
if (_display != NULL && !_display->isOn()) {
_display->turnOn();
}
_auto_off = millis() + AUTO_OFF_MILLIS;
_next_refresh = 100;
}
void UITask::gotoRepeaterAdmin(int contactIdx) {
// Get contact name for the screen header
ContactInfo contact;
char name[32] = "Unknown";
if (the_mesh.getContactByIdx(contactIdx, contact)) {
strncpy(name, contact.name, sizeof(name) - 1);
name[sizeof(name) - 1] = '\0';
}
RepeaterAdminScreen* admin = (RepeaterAdminScreen*)repeater_admin;
admin->openForContact(contactIdx, name);
setCurrScreen(repeater_admin);
if (_display != NULL && !_display->isOn()) {
_display->turnOn();
}
_auto_off = millis() + AUTO_OFF_MILLIS;
_next_refresh = 100;
}
uint8_t UITask::getChannelScreenViewIdx() const {
return ((ChannelScreen *) channel_screen)->getViewChannelIdx();
}
@@ -1236,4 +1351,18 @@ void UITask::addSentChannelMessage(uint8_t channel_idx, const char* sender, cons
// Add to channel history with path_len=0 (local message)
((ChannelScreen *) channel_screen)->addMessage(channel_idx, 0, sender, formattedMsg);
}
void UITask::onAdminLoginResult(bool success, uint8_t permissions, uint32_t server_time) {
if (isOnRepeaterAdmin()) {
((RepeaterAdminScreen*)repeater_admin)->onLoginResult(success, permissions, server_time);
_next_refresh = 100; // trigger re-render
}
}
void UITask::onAdminCliResponse(const char* from_name, const char* text) {
if (isOnRepeaterAdmin()) {
((RepeaterAdminScreen*)repeater_admin)->onCliResponse(text);
_next_refresh = 100; // trigger re-render
}
}

13
examples/companion_radio/ui-new/UITask.h
View File

@@ -56,6 +56,8 @@ class UITask : public AbstractUITask {
UIScreen* text_reader; // *** NEW: Text reader screen ***
UIScreen* notes_screen; // Notes editor screen
UIScreen* settings_screen; // Settings/onboarding screen
UIScreen* repeater_admin; // Repeater admin screen
UIScreen* audiobook_screen; // Audiobook player screen (null if not available)
UIScreen* curr;
void userLedHandler();
@@ -84,6 +86,8 @@ public:
void gotoNotesScreen(); // Navigate to notes editor
void gotoSettingsScreen(); // Navigate to settings
void gotoOnboarding(); // Navigate to settings in onboarding mode
void gotoAudiobookPlayer(); // Navigate to audiobook player
void gotoRepeaterAdmin(int contactIdx); // Navigate to repeater admin
void showAlert(const char* text, int duration_millis) override;
void forceRefresh() override { _next_refresh = 100; }
int getMsgCount() const { return _msgcount; }
@@ -94,6 +98,8 @@ public:
bool isOnTextReader() const { return curr == text_reader; } // *** NEW ***
bool isOnNotesScreen() const { return curr == notes_screen; }
bool isOnSettingsScreen() const { return curr == settings_screen; }
bool isOnAudiobookPlayer() const { return curr == audiobook_screen; }
bool isOnRepeaterAdmin() const { return curr == repeater_admin; }
uint8_t getChannelScreenViewIdx() const;
void toggleBuzzer();
@@ -117,6 +123,9 @@ public:
UIScreen* getContactsScreen() const { return contacts_screen; }
UIScreen* getChannelScreen() const { return channel_screen; }
UIScreen* getSettingsScreen() const { return settings_screen; }
UIScreen* getAudiobookScreen() const { return audiobook_screen; }
UIScreen* getRepeaterAdminScreen() const { return repeater_admin; }
void setAudiobookScreen(UIScreen* s) { audiobook_screen = s; }
// from AbstractUITask
void msgRead(int msgcount) override;
@@ -124,5 +133,9 @@ public:
void notify(UIEventType t = UIEventType::none) override;
void loop() override;
// Repeater admin callbacks (from MyMesh via AbstractUITask)
void onAdminLoginResult(bool success, uint8_t permissions, uint32_t server_time) override;
void onAdminCliResponse(const char* from_name, const char* text) override;
void shutdown(bool restart = false);
};

232
variants/lilygo_tdeck_pro/TDeckBoard.cpp
View File

@@ -72,10 +72,11 @@ void TDeckBoard::begin() {
rtc_gpio_deinit((gpio_num_t)P_LORA_DIO_1);
}
// Test BQ27220 communication
// Test BQ27220 communication and configure design capacity
#if HAS_BQ27220
uint16_t voltage = getBattMilliVolts();
MESH_DEBUG_PRINTLN("TDeckBoard::begin() - Battery voltage: %d mV", voltage);
configureFuelGauge();
#endif
MESH_DEBUG_PRINTLN("TDeckBoard::begin() - complete");
@@ -123,4 +124,233 @@ uint8_t TDeckBoard::getBatteryPercent() {
#else
return 0;
#endif
}
// ---- BQ27220 extended register helpers ----
#if HAS_BQ27220
// Read a 16-bit register from BQ27220. Returns 0 on I2C error.
static uint16_t bq27220_read16(uint8_t reg) {
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(reg);
if (Wire.endTransmission(false) != 0) return 0;
if (Wire.requestFrom((uint8_t)BQ27220_I2C_ADDR, (uint8_t)2) != 2) return 0;
uint16_t val = Wire.read();
val |= (Wire.read() << 8);
return val;
}
// Read a single byte from BQ27220 register.
static uint8_t bq27220_read8(uint8_t reg) {
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(reg);
if (Wire.endTransmission(false) != 0) return 0;
if (Wire.requestFrom((uint8_t)BQ27220_I2C_ADDR, (uint8_t)1) != 1) return 0;
return Wire.read();
}
// Write a 16-bit subcommand to BQ27220 Control register (0x00).
// Subcommands control unsealing, config mode, sealing, etc.
static bool bq27220_writeControl(uint16_t subcmd) {
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(0x00); // Control register
Wire.write(subcmd & 0xFF); // LSB first
Wire.write((subcmd >> 8) & 0xFF); // MSB
return Wire.endTransmission() == 0;
}
#endif
// ---- BQ27220 Design Capacity configuration ----
// The BQ27220 ships with a 3000 mAh default. The T-Deck Pro uses a 1400 mAh
// cell. This function checks on boot and writes the correct value via the
// MAC Data Memory interface if needed. The value persists in battery-backed
// RAM, so this typically only writes once (or after a full battery disconnect).
//
// Procedure follows TI TRM SLUUBD4A Section 6.1:
// 1. Unseal → 2. Full Access → 3. Enter CFG_UPDATE
// 4. Write Design Capacity via MAC → 5. Exit CFG_UPDATE → 6. Seal
bool TDeckBoard::configureFuelGauge(uint16_t designCapacity_mAh) {
#if HAS_BQ27220
// Read current design capacity from standard command register
uint16_t currentDC = bq27220_read16(BQ27220_REG_DESIGN_CAP);
Serial.printf("BQ27220: Design Capacity = %d mAh (target %d)\n", currentDC, designCapacity_mAh);
if (currentDC == designCapacity_mAh) {
Serial.println("BQ27220: Design Capacity already correct, skipping");
return true;
}
Serial.printf("BQ27220: Updating Design Capacity from %d to %d mAh\n", currentDC, designCapacity_mAh);
// Step 1: Unseal (default unseal keys)
bq27220_writeControl(0x0414);
delay(2);
bq27220_writeControl(0x3672);
delay(2);
// Step 2: Enter Full Access mode
bq27220_writeControl(0xFFFF);
delay(2);
bq27220_writeControl(0xFFFF);
delay(2);
// Step 3: Enter CFG_UPDATE mode
bq27220_writeControl(0x0090);
// Wait for CFGUPMODE bit (bit 10) in OperationStatus register
bool cfgReady = false;
for (int i = 0; i < 50; i++) {
delay(20);
uint16_t opStatus = bq27220_read16(BQ27220_REG_OP_STATUS);
Serial.printf("BQ27220: OperationStatus = 0x%04X (attempt %d)\n", opStatus, i);
if (opStatus & 0x0400) { // CFGUPMODE is bit 10
cfgReady = true;
break;
}
}
if (!cfgReady) {
Serial.println("BQ27220: ERROR - Timeout waiting for CFGUPDATE mode");
bq27220_writeControl(0x0092); // Try to exit cleanly
bq27220_writeControl(0x0030); // Re-seal
return false;
}
Serial.println("BQ27220: Entered CFGUPDATE mode");
// Step 4: Write Design Capacity via MAC Data Memory interface
// Design Capacity mAh lives at data memory address 0x929F
// 4a. Select the data memory block by writing address to 0x3E-0x3F
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(0x3E); // MACDataControl register
Wire.write(0x9F); // Address low byte
Wire.write(0x92); // Address high byte
Wire.endTransmission();
delay(10);
// 4b. Read old data (MSB, LSB) and checksum for differential update
uint8_t oldMSB = bq27220_read8(0x40);
uint8_t oldLSB = bq27220_read8(0x41);
uint8_t oldChksum = bq27220_read8(0x60);
uint8_t dataLen = bq27220_read8(0x61);
Serial.printf("BQ27220: Old DC bytes=0x%02X 0x%02X chk=0x%02X len=%d\n",
oldMSB, oldLSB, oldChksum, dataLen);
// 4c. Compute new values (BQ27220 stores big-endian in data memory)
uint8_t newMSB = (designCapacity_mAh >> 8) & 0xFF;
uint8_t newLSB = designCapacity_mAh & 0xFF;
// Differential checksum: remove old bytes, add new bytes
uint8_t temp = (255 - oldChksum - oldMSB - oldLSB);
uint8_t newChksum = 255 - ((temp + newMSB + newLSB) & 0xFF);
Serial.printf("BQ27220: New DC bytes=0x%02X 0x%02X chk=0x%02X\n",
newMSB, newLSB, newChksum);
// 4d. Write address + new data as a single block transaction
// BQ27220 MAC requires: [0x3E] [addr_lo] [addr_hi] [data...]
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(0x3E); // Start at MACDataControl
Wire.write(0x9F); // Address low byte
Wire.write(0x92); // Address high byte
Wire.write(newMSB); // Data byte 0 (at 0x40)
Wire.write(newLSB); // Data byte 1 (at 0x41)
uint8_t writeResult = Wire.endTransmission();
Serial.printf("BQ27220: Write block result = %d\n", writeResult);
// 4e. Write updated checksum and length
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(0x60);
Wire.write(newChksum);
Wire.write(dataLen);
writeResult = Wire.endTransmission();
Serial.printf("BQ27220: Write checksum result = %d\n", writeResult);
delay(10);
// 4f. Verify the write took effect before exiting config mode
// Re-read the block to confirm
Wire.beginTransmission(BQ27220_I2C_ADDR);
Wire.write(0x3E);
Wire.write(0x9F);
Wire.write(0x92);
Wire.endTransmission();
delay(10);
uint8_t verMSB = bq27220_read8(0x40);
uint8_t verLSB = bq27220_read8(0x41);
Serial.printf("BQ27220: Verify in CFGUPDATE: DC bytes=0x%02X 0x%02X (%d mAh)\n",
verMSB, verLSB, (verMSB << 8) | verLSB);
// Step 5: Exit CFG_UPDATE (with reinit to apply changes immediately)
bq27220_writeControl(0x0091); // EXIT_CFG_UPDATE_REINIT
Serial.println("BQ27220: Sent EXIT_CFG_UPDATE_REINIT, waiting...");
delay(200); // Allow gauge to reinitialize
// Verify
uint16_t verifyDC = bq27220_read16(BQ27220_REG_DESIGN_CAP);
Serial.printf("BQ27220: Design Capacity now reads %d mAh (expected %d)\n",
verifyDC, designCapacity_mAh);
if (verifyDC == designCapacity_mAh) {
Serial.println("BQ27220: Configuration SUCCESS");
} else {
Serial.println("BQ27220: Configuration FAILED");
}
// Step 7: Seal the device
bq27220_writeControl(0x0030);
delay(5);
return verifyDC == designCapacity_mAh;
#else
return false;
#endif
}
int16_t TDeckBoard::getAvgCurrent() {
#if HAS_BQ27220
return (int16_t)bq27220_read16(BQ27220_REG_AVG_CURRENT);
#else
return 0;
#endif
}
int16_t TDeckBoard::getAvgPower() {
#if HAS_BQ27220
return (int16_t)bq27220_read16(BQ27220_REG_AVG_POWER);
#else
return 0;
#endif
}
uint16_t TDeckBoard::getTimeToEmpty() {
#if HAS_BQ27220
return bq27220_read16(BQ27220_REG_TIME_TO_EMPTY);
#else
return 0xFFFF;
#endif
}
uint16_t TDeckBoard::getRemainingCapacity() {
#if HAS_BQ27220
return bq27220_read16(BQ27220_REG_REMAIN_CAP);
#else
return 0;
#endif
}
uint16_t TDeckBoard::getFullChargeCapacity() {
#if HAS_BQ27220
return bq27220_read16(BQ27220_REG_FULL_CAP);
#else
return 0;
#endif
}
uint16_t TDeckBoard::getDesignCapacity() {
#if HAS_BQ27220
return bq27220_read16(BQ27220_REG_DESIGN_CAP);
#else
return 0;
#endif
}

39
variants/lilygo_tdeck_pro/TDeckBoard.h
View File

@@ -7,11 +7,23 @@
#include <driver/rtc_io.h>
// BQ27220 Fuel Gauge Registers
#define BQ27220_REG_VOLTAGE 0x08
#define BQ27220_REG_CURRENT 0x0C
#define BQ27220_REG_SOC 0x2C
#define BQ27220_REG_VOLTAGE 0x08
#define BQ27220_REG_CURRENT 0x0C // Instantaneous current (mA, signed)
#define BQ27220_REG_SOC 0x2C
#define BQ27220_REG_REMAIN_CAP 0x10 // Remaining capacity (mAh)
#define BQ27220_REG_FULL_CAP 0x12 // Full charge capacity (mAh)
#define BQ27220_REG_AVG_CURRENT 0x14 // Average current (mA, signed)
#define BQ27220_REG_TIME_TO_EMPTY 0x16 // Minutes until empty
#define BQ27220_REG_AVG_POWER 0x24 // Average power (mW, signed)
#define BQ27220_REG_DESIGN_CAP 0x3C // Design capacity (mAh, read-only standard cmd)
#define BQ27220_REG_OP_STATUS 0x3A // Operation status
#define BQ27220_I2C_ADDR 0x55
// T-Deck Pro battery capacity (all variants use 1400 mAh cell)
#ifndef BQ27220_DESIGN_CAPACITY_MAH
#define BQ27220_DESIGN_CAPACITY_MAH 1400
#endif
class TDeckBoard : public ESP32Board {
public:
void begin();
@@ -52,6 +64,27 @@ public:
// Read state of charge percentage from BQ27220
uint8_t getBatteryPercent();
// Read average current in mA (negative = discharging, positive = charging)
int16_t getAvgCurrent();
// Read average power in mW (negative = discharging, positive = charging)
int16_t getAvgPower();
// Read time-to-empty in minutes (0xFFFF if charging/unavailable)
uint16_t getTimeToEmpty();
// Read remaining capacity in mAh
uint16_t getRemainingCapacity();
// Read full charge capacity in mAh (learned value, may need cycling to update)
uint16_t getFullChargeCapacity();
// Read design capacity in mAh (the configured battery size)
uint16_t getDesignCapacity();
// Configure BQ27220 design capacity (checks on boot, writes only if wrong)
bool configureFuelGauge(uint16_t designCapacity_mAh = BQ27220_DESIGN_CAPACITY_MAH);
const char* getManufacturerName() const {
return "LilyGo T-Deck Pro";
}

2
variants/lilygo_tdeck_pro/platformio.ini
View File

@@ -80,7 +80,7 @@ build_flags =
-D PIN_DISPLAY_BL=45
-D PIN_USER_BTN=0
-D CST328_PIN_RST=38
-D FIRMWARE_VERSION='"Meck v0.8.6"'
-D FIRMWARE_VERSION='"Meck v0.8.9"'
build_src_filter = ${esp32_base.build_src_filter}
+<../variants/LilyGo_TDeck_Pro>
+<helpers/sensors/*.cpp>