AP_MSP: added multi screen and stats support to DJI FPV OSD

This commit is contained in:
yaapu 2021-09-06 16:07:39 +02:00 committed by Peter Barker
parent 934a4e26c9
commit 9f0d9a5652
10 changed files with 369 additions and 116 deletions

View File

@ -43,9 +43,9 @@ const AP_Param::GroupInfo AP_MSP::var_info[] = {
// @Param: _OPTIONS // @Param: _OPTIONS
// @DisplayName: MSP OSD Options // @DisplayName: MSP OSD Options
// @Description: A bitmask to set some MSP specific options // @Description: A bitmask to set some MSP specific options
// @Bitmask: 0:EnableTelemetryMode, 1: DJIWorkarounds // @Bitmask: 0:EnableTelemetryMode, 1: DisableDJIWorkarounds, 2:EnableBTFLFonts
// @User: Standard // @User: Standard
AP_GROUPINFO("_OPTIONS", 2, AP_MSP, _options, (uint8_t)MspOption::OPTION_TELEMETRY_DJI_WORKAROUNDS), AP_GROUPINFO("_OPTIONS", 2, AP_MSP, _options, 0),
AP_GROUPEND AP_GROUPEND
}; };
@ -93,10 +93,6 @@ void AP_MSP::init()
if (!init_backend(_msp_status.backend_count, uart, AP_SerialManager::SerialProtocol_DJI_FPV)) { if (!init_backend(_msp_status.backend_count, uart, AP_SerialManager::SerialProtocol_DJI_FPV)) {
break; break;
} }
// initialize osd settings from OSD backend
if (!_msp_status.osd_initialized) {
init_osd();
}
if (_backends[_msp_status.backend_count]->use_msp_thread()) { if (_backends[_msp_status.backend_count]->use_msp_thread()) {
backends_using_msp_thread++; backends_using_msp_thread++;
} }
@ -141,7 +137,7 @@ void AP_MSP::init()
} }
} }
void AP_MSP::init_osd() void AP_MSP::update_osd_item_settings()
{ {
#if OSD_ENABLED #if OSD_ENABLED
AP_OSD* osd = AP::osd(); AP_OSD* osd = AP::osd();
@ -149,35 +145,34 @@ void AP_MSP::init_osd()
if (osd == nullptr) { if (osd == nullptr) {
return; return;
} }
_osd_item_settings[OSD_RSSI_VALUE] = &osd->screen[_msp_status.current_screen].rssi; // OSDn_RSSI
_osd_item_settings[OSD_RSSI_VALUE] = &osd->screen[0].rssi; _osd_item_settings[OSD_MAIN_BATT_VOLTAGE] = &osd->screen[_msp_status.current_screen].bat_volt; // OSDn_BAT_VOLT
_osd_item_settings[OSD_MAIN_BATT_VOLTAGE] = &osd->screen[0].bat_volt; _osd_item_settings[OSD_CROSSHAIRS] = &osd->screen[_msp_status.current_screen].crosshair; // OSDn_CRSSHAIR
_osd_item_settings[OSD_CROSSHAIRS] = &osd->screen[0].crosshair; _osd_item_settings[OSD_ARTIFICIAL_HORIZON] = &osd->screen[_msp_status.current_screen].horizon; // OSDn_HORIZON
_osd_item_settings[OSD_ARTIFICIAL_HORIZON] = &osd->screen[0].horizon; _osd_item_settings[OSD_HORIZON_SIDEBARS] = &osd->screen[_msp_status.current_screen].sidebars; // OSDn_SIDEBARS
_osd_item_settings[OSD_HORIZON_SIDEBARS] = &osd->screen[0].sidebars; _osd_item_settings[OSD_CRAFT_NAME] = &osd->screen[_msp_status.current_screen].message; // OSDn_MESSAGE
_osd_item_settings[OSD_CRAFT_NAME] = &osd->screen[0].message; _osd_item_settings[OSD_FLYMODE] = &osd->screen[_msp_status.current_screen].fltmode; // OSDn_FLTMODE
_osd_item_settings[OSD_FLYMODE] = &osd->screen[0].fltmode; _osd_item_settings[OSD_CURRENT_DRAW] = &osd->screen[_msp_status.current_screen].current; // OSDn_CURRENT
_osd_item_settings[OSD_CURRENT_DRAW] = &osd->screen[0].current; _osd_item_settings[OSD_MAH_DRAWN] = &osd->screen[_msp_status.current_screen].batused; // OSDn_BATUSED
_osd_item_settings[OSD_MAH_DRAWN] = &osd->screen[0].batused; _osd_item_settings[OSD_GPS_SPEED] = &osd->screen[_msp_status.current_screen].gspeed; // OSDn_GSPEED
_osd_item_settings[OSD_GPS_SPEED] = &osd->screen[0].gspeed; _osd_item_settings[OSD_GPS_SATS] = &osd->screen[_msp_status.current_screen].sats; // OSDn_SATS
_osd_item_settings[OSD_GPS_SATS] = &osd->screen[0].sats; _osd_item_settings[OSD_ALTITUDE] = &osd->screen[_msp_status.current_screen].altitude; // OSDn_ALTITUDE
_osd_item_settings[OSD_ALTITUDE] = &osd->screen[0].altitude; _osd_item_settings[OSD_POWER] = &osd->screen[_msp_status.current_screen].power; // OSDn_POWER
_osd_item_settings[OSD_POWER] = &osd->screen[0].power; _osd_item_settings[OSD_AVG_CELL_VOLTAGE] = &osd->screen[_msp_status.current_screen].cell_volt; // OSDn_CELLVOLT
_osd_item_settings[OSD_AVG_CELL_VOLTAGE] = &osd->screen[0].cell_volt; _osd_item_settings[OSD_GPS_LON] = &osd->screen[_msp_status.current_screen].gps_longitude; // OSDn_GPSLONG
_osd_item_settings[OSD_GPS_LON] = &osd->screen[0].gps_longitude; _osd_item_settings[OSD_GPS_LAT] = &osd->screen[_msp_status.current_screen].gps_latitude; // OSDn_GPSLAT
_osd_item_settings[OSD_GPS_LAT] = &osd->screen[0].gps_latitude; _osd_item_settings[OSD_PITCH_ANGLE] = &osd->screen[_msp_status.current_screen].pitch_angle; // OSDn_PITCH
_osd_item_settings[OSD_PITCH_ANGLE] = &osd->screen[0].pitch_angle; _osd_item_settings[OSD_ROLL_ANGLE] = &osd->screen[_msp_status.current_screen].roll_angle; // OSDn_ROLL
_osd_item_settings[OSD_ROLL_ANGLE] = &osd->screen[0].roll_angle; _osd_item_settings[OSD_MAIN_BATT_USAGE] = &osd->screen[_msp_status.current_screen].batt_bar; // OSDn_BATBAR
_osd_item_settings[OSD_MAIN_BATT_USAGE] = &osd->screen[0].batt_bar; _osd_item_settings[OSD_DISARMED] = &osd->screen[_msp_status.current_screen].arming; // OSDn_ARMING
_osd_item_settings[OSD_DISARMED] = &osd->screen[0].arming; _osd_item_settings[OSD_HOME_DIR] = &osd->screen[_msp_status.current_screen].home_dir; // OSDn_HOMEDIR
_osd_item_settings[OSD_HOME_DIR] = &osd->screen[0].home_dir; _osd_item_settings[OSD_HOME_DIST] = &osd->screen[_msp_status.current_screen].home_dist; // OSDn_HOMEDIST
_osd_item_settings[OSD_HOME_DIST] = &osd->screen[0].home_dist; _osd_item_settings[OSD_NUMERICAL_HEADING] = &osd->screen[_msp_status.current_screen].heading; // OSDn_HEADING
_osd_item_settings[OSD_NUMERICAL_HEADING] = &osd->screen[0].heading; _osd_item_settings[OSD_NUMERICAL_VARIO] = &osd->screen[_msp_status.current_screen].vspeed; // OSDn_VSPEED
_osd_item_settings[OSD_NUMERICAL_VARIO] = &osd->screen[0].vspeed;
#if HAL_WITH_ESC_TELEM #if HAL_WITH_ESC_TELEM
_osd_item_settings[OSD_ESC_TMP] = &osd->screen[0].esc_temp; _osd_item_settings[OSD_ESC_TMP] = &osd->screen[_msp_status.current_screen].esc_temp; // OSDn_ESCTEMP
#endif #endif
_osd_item_settings[OSD_RTC_DATETIME] = &osd->screen[0].clk; _osd_item_settings[OSD_RTC_DATETIME] = &osd->screen[_msp_status.current_screen].clk; // OSDn_CLK
#endif // OSD_ENABLED #endif // OSD_ENABLED
_msp_status.osd_initialized = true; _msp_status.osd_initialized = true;
} }
@ -196,10 +191,13 @@ void AP_MSP::loop(void)
hal.scheduler->delay(10); // 115200 baud, 18 MSP packets @4Hz, 100Hz should be OK hal.scheduler->delay(10); // 115200 baud, 18 MSP packets @4Hz, 100Hz should be OK
const uint32_t now = AP_HAL::millis(); const uint32_t now = AP_HAL::millis();
// toggle flashing every 0.7 seconds // toggle flashing every 0.7 seconds and every 2 seconds
if (((now / 700) & 0x01) != _msp_status.flashing_on) { if ((uint32_t(now * 0.00143) & 0x01) != _msp_status.flashing_on) {
_msp_status.flashing_on = !_msp_status.flashing_on; _msp_status.flashing_on = !_msp_status.flashing_on;
} }
if ((uint32_t(now * 0.0005) & 0x01) != _msp_status.slow_flashing_on) {
_msp_status.slow_flashing_on = !_msp_status.slow_flashing_on;
}
// detect flight mode changes and steal focus from text messages // detect flight mode changes and steal focus from text messages
if (AP::notify().flags.flight_mode != _msp_status.last_flight_mode) { if (AP::notify().flags.flight_mode != _msp_status.last_flight_mode) {
@ -210,6 +208,19 @@ void AP_MSP::loop(void)
_msp_status.flight_mode_focus = false; _msp_status.flight_mode_focus = false;
} }
#if OSD_ENABLED
// check if we had a screen change
AP_OSD* osd = AP::osd();
if (osd != nullptr) {
const uint8_t screen = osd->is_readonly_screen() ? osd->get_current_screen() : _msp_status.current_screen;
if (_msp_status.current_screen != screen || !_msp_status.osd_initialized) {
_msp_status.current_screen = screen;
update_osd_item_settings();
}
}
#endif // OSD_ENABLED
for (uint8_t i=0; i< _msp_status.backend_count; i++) { for (uint8_t i=0; i< _msp_status.backend_count; i++) {
// note: we do not access a uart for a backend handled by another thread // note: we do not access a uart for a backend handled by another thread
if (_backends[i] != nullptr && _backends[i]->use_msp_thread()) { if (_backends[i] != nullptr && _backends[i]->use_msp_thread()) {
@ -233,6 +244,11 @@ AP_MSP_Telem_Backend* AP_MSP::find_protocol(const AP_SerialManager::SerialProtoc
return nullptr; return nullptr;
} }
bool AP_MSP::is_option_enabled(Option option) const
{
return (_options & (uint8_t)option) != 0;
}
namespace AP namespace AP
{ {
AP_MSP *msp() AP_MSP *msp()

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@ -53,13 +53,13 @@ public:
// init - perform required initialisation // init - perform required initialisation
void init(); void init();
enum class MspOption : uint8_t { enum class Option : uint8_t {
OPTION_TELEMETRY_MODE = 1U<<0, TELEMETRY_MODE = 1U<<0,
OPTION_TELEMETRY_DJI_WORKAROUNDS = 1U<<1, TELEMETRY_DISABLE_DJI_WORKAROUNDS = 1U<<1,
OPTION_DISPLAYPORT_BTFL_SYMBOLS = 1U<<2, DISPLAYPORT_BTFL_SYMBOLS = 1U<<2,
}; };
bool check_option(const MspOption option) const { return (_options & (uint8_t)option) != 0; }; bool is_option_enabled(const Option option) const;
static AP_MSP *get_singleton(void) static AP_MSP *get_singleton(void)
{ {
@ -67,7 +67,6 @@ public:
} }
private: private:
AP_MSP_Telem_Backend *_backends[MSP_MAX_INSTANCES]; AP_MSP_Telem_Backend *_backends[MSP_MAX_INSTANCES];
AP_Int8 _options; AP_Int8 _options;
@ -78,16 +77,18 @@ private:
MSP::osd_config_t _osd_config; MSP::osd_config_t _osd_config;
struct { struct {
bool flashing_on; // OSD item flashing support bool flashing_on; // OSD item flashing support @1.4Hz
bool slow_flashing_on; // OSD item flashing support @0.5H
uint8_t last_flight_mode = 255; uint8_t last_flight_mode = 255;
uint32_t last_flight_mode_change_ms; uint32_t last_flight_mode_change_ms;
bool flight_mode_focus; // do we need to steal focus from text messages bool flight_mode_focus; // do we need to steal focus from text messages
bool osd_initialized; // for one time osd initialization bool osd_initialized; // for one time osd initialization
uint8_t backend_count; // actual count of active bacends uint8_t backend_count; // actual count of active bacends
uint8_t current_screen; // defaults to screen 0
} _msp_status; } _msp_status;
bool init_backend(uint8_t backend_idx, AP_HAL::UARTDriver *uart, AP_SerialManager::SerialProtocol protocol); bool init_backend(uint8_t backend_idx, AP_HAL::UARTDriver *uart, AP_SerialManager::SerialProtocol protocol);
void init_osd(); void update_osd_item_settings();
void loop(void); void loop(void);
AP_MSP_Telem_Backend* find_protocol(const AP_SerialManager::SerialProtocol protocol) const; AP_MSP_Telem_Backend* find_protocol(const AP_SerialManager::SerialProtocol protocol) const;

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@ -158,7 +158,7 @@ uint8_t AP_MSP_Telem_Backend::calc_cell_count(const float battery_voltage)
return floorf((battery_voltage / CELLFULL) + 1); return floorf((battery_voltage / CELLFULL) + 1);
} }
float AP_MSP_Telem_Backend::get_vspeed_ms(void) float AP_MSP_Telem_Backend::get_vspeed_ms(void) const
{ {
{ {
// release semaphore as soon as possible // release semaphore as soon as possible
@ -254,7 +254,7 @@ void AP_MSP_Telem_Backend::update_airspeed(airspeed_state_t &airspeed_state)
MSP OSDs can display up to MSP_TXT_VISIBLE_CHARS chars (UTF8 characters are supported) MSP OSDs can display up to MSP_TXT_VISIBLE_CHARS chars (UTF8 characters are supported)
We display the flight mode string either with or without wind state We display the flight mode string either with or without wind state
*/ */
void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, bool wind_enabled) void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, uint8_t size, bool wind_enabled)
{ {
#if OSD_ENABLED #if OSD_ENABLED
AP_OSD *osd = AP::osd(); AP_OSD *osd = AP::osd();
@ -267,7 +267,7 @@ void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, bool wi
return; return;
} }
// clear // clear
memset(flight_mode_str, 0, MSP_TXT_BUFFER_SIZE); memset(flight_mode_str, 0, size);
if (wind_enabled) { if (wind_enabled) {
/* /*
@ -282,7 +282,12 @@ void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, bool wi
} }
bool invert_wind = false; bool invert_wind = false;
#if OSD_ENABLED #if OSD_ENABLED
invert_wind = osd->screen[0].check_option(AP_OSD::OPTION_INVERTED_WIND); AP_MSP *msp = AP::msp();
if (msp == nullptr) {
return;
}
invert_wind = osd->screen[msp->_msp_status.current_screen].check_option(AP_OSD::OPTION_INVERTED_WIND);
#endif #endif
if (invert_wind) { if (invert_wind) {
v = -v; v = -v;
@ -299,9 +304,9 @@ void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, bool wi
const int32_t angle = wrap_360_cd(DEGX100 * atan2f(v.y, v.x) - ahrs.yaw_sensor); const int32_t angle = wrap_360_cd(DEGX100 * atan2f(v.y, v.x) - ahrs.yaw_sensor);
const int32_t interval = 36000 / ARRAY_SIZE(arrows); const int32_t interval = 36000 / ARRAY_SIZE(arrows);
uint8_t arrow = arrows[((angle + interval / 2) / interval) % ARRAY_SIZE(arrows)]; uint8_t arrow = arrows[((angle + interval / 2) / interval) % ARRAY_SIZE(arrows)];
snprintf(flight_mode_str, MSP_TXT_BUFFER_SIZE, "%s %d%s%c%c%c", notify->get_flight_mode_str(), (uint8_t)roundf(v_length), unit, 0xE2, 0x86, arrow); snprintf(flight_mode_str, size, "%s %d%s%c%c%c", notify->get_flight_mode_str(), (uint8_t)roundf(v_length), unit, 0xE2, 0x86, arrow);
} else { } else {
snprintf(flight_mode_str, MSP_TXT_BUFFER_SIZE, "%s ---%s", notify->get_flight_mode_str(), unit); snprintf(flight_mode_str, size, "%s ---%s", notify->get_flight_mode_str(), unit);
} }
} else { } else {
/* /*
@ -312,16 +317,10 @@ void AP_MSP_Telem_Backend::update_flight_mode_str(char *flight_mode_str, bool wi
MANU [SS] MANU [SS]
*/ */
#ifndef HAL_NO_GCS #ifndef HAL_NO_GCS
const bool simple_mode = gcs().simple_input_active(); const char* simple_mode_str = gcs().simple_input_active() ? " [S]" : (gcs().supersimple_input_active() ? " [SS]" : "");
const bool supersimple_mode = gcs().supersimple_input_active(); snprintf(flight_mode_str, size, "%s%s", notify->get_flight_mode_str(), simple_mode_str);
const char* simple_mode_str = simple_mode ? " [S]" : (supersimple_mode ? " [SS]" : ""); #else
snprintf(flight_mode_str, size, "%s", notify->get_flight_mode_str());
char buffer[MSP_TXT_BUFFER_SIZE] {};
// flightmode
const uint8_t used = snprintf(buffer, ARRAY_SIZE(buffer), "%s%s", notify->get_flight_mode_str(), simple_mode_str);
// left pad
uint8_t left_padded_len = MSP_TXT_VISIBLE_CHARS - (MSP_TXT_VISIBLE_CHARS - used)/2;
snprintf(flight_mode_str, MSP_TXT_BUFFER_SIZE, "%*s", left_padded_len, buffer);
#endif #endif
} }
} }
@ -628,7 +627,12 @@ MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_raw_gps(sbuf_t *dst)
// handle airspeed override // handle airspeed override
bool airspeed_en = false; bool airspeed_en = false;
#if OSD_ENABLED #if OSD_ENABLED
airspeed_en = osd->screen[0].aspeed.enabled; AP_MSP *msp = AP::msp();
if (msp == nullptr) {
return MSP_RESULT_ERROR;
}
airspeed_en = osd->screen[msp->_msp_status.current_screen].aspeed.enabled;
#endif #endif
if (airspeed_en) { if (airspeed_en) {
airspeed_state_t airspeed_state; airspeed_state_t airspeed_state;
@ -736,9 +740,9 @@ MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_name(sbuf_t *dst)
bool wind_en = false; bool wind_en = false;
char flight_mode_str[MSP_TXT_BUFFER_SIZE]; char flight_mode_str[MSP_TXT_BUFFER_SIZE];
#if OSD_ENABLED #if OSD_ENABLED
wind_en = osd->screen[0].wind.enabled; wind_en = osd->screen[msp->_msp_status.current_screen].wind.enabled;
#endif #endif
update_flight_mode_str(flight_mode_str, wind_en); update_flight_mode_str(flight_mode_str, ARRAY_SIZE(flight_mode_str), wind_en);
sbuf_write_data(dst, flight_mode_str, ARRAY_SIZE(flight_mode_str)); // rendered as up to MSP_TXT_VISIBLE_CHARS chars with UTF8 support sbuf_write_data(dst, flight_mode_str, ARRAY_SIZE(flight_mode_str)); // rendered as up to MSP_TXT_VISIBLE_CHARS chars with UTF8 support
} }
} }
@ -889,28 +893,25 @@ MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_altitude(sbuf_t *dst)
MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_analog(sbuf_t *dst) MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_analog(sbuf_t *dst)
{ {
AP_RSSI* rssi = AP::rssi();
if (rssi == nullptr) {
return MSP_RESULT_ERROR;
}
battery_state_t battery_state; battery_state_t battery_state;
update_battery_state(battery_state); update_battery_state(battery_state);
float rssi;
const struct PACKED { const struct PACKED {
uint8_t voltage_dv; uint8_t voltage_dv;
uint16_t mah; uint16_t mah;
uint16_t rssi; uint16_t rssi;
int16_t current_ca; int16_t current_ca;
uint16_t voltage_cv; uint16_t voltage_cv;
} battery { } analog {
voltage_dv : (uint8_t)constrain_int16(battery_state.batt_voltage_v * 10, 0, 255), // battery voltage V to dV voltage_dv : (uint8_t)constrain_int16(battery_state.batt_voltage_v * 10, 0, 255), // battery voltage V to dV
mah : (uint16_t)constrain_int32(battery_state.batt_consumed_mah, 0, 0xFFFF), // milliamp hours drawn from battery mah : (uint16_t)constrain_int32(battery_state.batt_consumed_mah, 0, 0xFFFF), // milliamp hours drawn from battery
rssi : uint16_t(rssi->enabled() ? rssi->read_receiver_rssi() * 1023 : 0), // rssi 0-1 to 0-1023 rssi : uint16_t(get_rssi(rssi) ? (uint16_t)constrain_float(rssi,0,1) * 1023 : 0), // rssi 0-1 to 0-1023), // rssi 0-1 to 0-1023
current_ca : (int16_t)constrain_int32(battery_state.batt_current_a * 100, -0x8000, 0x7FFF), // current A to cA (0.01 steps, range is -320A to 320A) current_ca : (int16_t)constrain_int32(battery_state.batt_current_a * 100, -0x8000, 0x7FFF), // current A to cA (0.01 steps, range is -320A to 320A)
voltage_cv : (uint16_t)constrain_int32(battery_state.batt_voltage_v * 100,0,0xFFFF) // battery voltage in 0.01V steps voltage_cv : (uint16_t)constrain_int32(battery_state.batt_voltage_v * 100,0,0xFFFF) // battery voltage in 0.01V steps
}; };
sbuf_write_data(dst, &battery, sizeof(battery)); sbuf_write_data(dst, &analog, sizeof(analog));
return MSP_RESULT_ACK; return MSP_RESULT_ACK;
} }
@ -962,8 +963,8 @@ MSPCommandResult AP_MSP_Telem_Backend::msp_process_out_esc_sensor_data(sbuf_t *d
for (uint8_t i = 0; i < esc_sensor.num_motors; i++) { for (uint8_t i = 0; i < esc_sensor.num_motors; i++) {
int16_t temp = 0; int16_t temp = 0;
float rpm = 0.0f; float rpm = 0.0f;
telem.get_rpm(i, rpm); IGNORE_RETURN(telem.get_rpm(i, rpm));
telem.get_temperature(i, temp); IGNORE_RETURN(telem.get_temperature(i, temp));
esc_sensor.data[i].temp = uint8_t(temp * 0.01f); esc_sensor.data[i].temp = uint8_t(temp * 0.01f);
esc_sensor.data[i].rpm = uint16_t(rpm * 0.1f); esc_sensor.data[i].rpm = uint16_t(rpm * 0.1f);
} }
@ -1098,6 +1099,7 @@ void AP_MSP_Telem_Backend::hide_osd_items(void)
BIT_CLEAR(osd_hidden_items_bitmask, OSD_AVG_CELL_VOLTAGE); BIT_CLEAR(osd_hidden_items_bitmask, OSD_AVG_CELL_VOLTAGE);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_MAIN_BATT_VOLTAGE); BIT_CLEAR(osd_hidden_items_bitmask, OSD_MAIN_BATT_VOLTAGE);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_RTC_DATETIME); BIT_CLEAR(osd_hidden_items_bitmask, OSD_RTC_DATETIME);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_RSSI_VALUE);
if (msp->_msp_status.flashing_on) { if (msp->_msp_status.flashing_on) {
// flash satcount when no 3D Fix // flash satcount when no 3D Fix
@ -1116,7 +1118,7 @@ void AP_MSP_Telem_Backend::hide_osd_items(void)
// flash airspeed if there's no estimate // flash airspeed if there's no estimate
bool airspeed_en = false; bool airspeed_en = false;
#if OSD_ENABLED #if OSD_ENABLED
airspeed_en = osd->screen[0].aspeed.enabled; airspeed_en = osd->screen[msp->_msp_status.current_screen].aspeed.enabled;
#endif #endif
if (airspeed_en) { if (airspeed_en) {
airspeed_state_t airspeed_state; airspeed_state_t airspeed_state;
@ -1139,6 +1141,19 @@ void AP_MSP_Telem_Backend::hide_osd_items(void)
if (!AP::rtc().get_utc_usec(time_usec)) { if (!AP::rtc().get_utc_usec(time_usec)) {
BIT_SET(osd_hidden_items_bitmask, OSD_RTC_DATETIME); BIT_SET(osd_hidden_items_bitmask, OSD_RTC_DATETIME);
} }
// flash rssi if disabled
float rssi;
if (!get_rssi(rssi)) {
BIT_SET(osd_hidden_items_bitmask, OSD_RSSI_VALUE);
}
}
// disable flashing for min/max items
if (displaying_stats_screen()) {
BIT_CLEAR(osd_hidden_items_bitmask, OSD_HOME_DIST);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_GPS_SPEED);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_CRAFT_NAME);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_MAIN_BATT_VOLTAGE);
BIT_CLEAR(osd_hidden_items_bitmask, OSD_RSSI_VALUE);
} }
} }
@ -1202,4 +1217,33 @@ void AP_MSP_Telem_Backend::msp_displayport_write_string(uint8_t col, uint8_t row
msp_send_packet(MSP_DISPLAYPORT, MSP::MSP_V1, &packet, 4 + len, false); msp_send_packet(MSP_DISPLAYPORT, MSP::MSP_V1, &packet, 4 + len, false);
} }
#endif //HAL_WITH_MSP_DISPLAYPORT #endif //HAL_WITH_MSP_DISPLAYPORT
bool AP_MSP_Telem_Backend::displaying_stats_screen() const
{
#if OSD_ENABLED
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return false;
}
AP_MSP *msp = AP::msp();
if (msp == nullptr) {
return false;
}
return osd->screen[msp->_msp_status.current_screen].stat.enabled;
#else
return false;
#endif
}
bool AP_MSP_Telem_Backend::get_rssi(float &rssi) const
{
AP_RSSI* ap_rssi = AP::rssi();
if (ap_rssi == nullptr) {
return false;
}
if (!ap_rssi->enabled()) {
return false;
}
rssi = ap_rssi->read_receiver_rssi(); // range is [0-1]
return true;
}
#endif //HAL_MSP_ENABLED #endif //HAL_MSP_ENABLED

View File

@ -17,6 +17,8 @@
#pragma once #pragma once
#include <AP_RCTelemetry/AP_RCTelemetry.h> #include <AP_RCTelemetry/AP_RCTelemetry.h>
#include <AP_OSD/AP_OSD.h>
#include "msp.h" #include "msp.h"
#include <time.h> #include <time.h>
@ -155,12 +157,13 @@ protected:
// telemetry helpers // telemetry helpers
uint8_t calc_cell_count(float battery_voltage); uint8_t calc_cell_count(float battery_voltage);
float get_vspeed_ms(void); virtual float get_vspeed_ms(void) const;
void update_home_pos(home_state_t &home_state); virtual bool get_rssi(float &rssi) const;
void update_battery_state(battery_state_t &_battery_state); virtual void update_home_pos(home_state_t &home_state);
void update_gps_state(gps_state_t &gps_state); virtual void update_battery_state(battery_state_t &_battery_state);
void update_airspeed(airspeed_state_t &airspeed_state); virtual void update_gps_state(gps_state_t &gps_state);
void update_flight_mode_str(char *flight_mode_str, bool wind_enabled); virtual void update_airspeed(airspeed_state_t &airspeed_state);
virtual void update_flight_mode_str(char *flight_mode_str, uint8_t size, bool wind_enabled);
// MSP parsing // MSP parsing
void msp_process_received_command(); void msp_process_received_command();
@ -189,6 +192,7 @@ protected:
virtual bool is_scheduler_enabled() const = 0; // only osd backends should allow a push type telemetry virtual bool is_scheduler_enabled() const = 0; // only osd backends should allow a push type telemetry
virtual bool use_msp_thread() const {return true;}; // is this backend hanlded by the MSP thread? virtual bool use_msp_thread() const {return true;}; // is this backend hanlded by the MSP thread?
virtual AP_SerialManager::SerialProtocol get_serial_protocol() const = 0; virtual AP_SerialManager::SerialProtocol get_serial_protocol() const = 0;
virtual bool displaying_stats_screen() const;
// implementation specific MSP out command processing // implementation specific MSP out command processing
virtual MSP::MSPCommandResult msp_process_out_api_version(MSP::sbuf_t *dst); virtual MSP::MSPCommandResult msp_process_out_api_version(MSP::sbuf_t *dst);

View File

@ -15,10 +15,14 @@
#include <AP_Common/AP_FWVersion.h> #include <AP_Common/AP_FWVersion.h>
#include <AP_Vehicle/AP_Vehicle_Type.h> #include <AP_Vehicle/AP_Vehicle_Type.h>
#include <AP_Stats/AP_Stats.h>
#include <AP_RSSI/AP_RSSI.h>
#include "AP_MSP.h" #include "AP_MSP.h"
#include "AP_MSP_Telem_DJI.h" #include "AP_MSP_Telem_DJI.h"
#include <stdio.h>
#if HAL_MSP_ENABLED #if HAL_MSP_ENABLED
extern const AP_HAL::HAL& hal; extern const AP_HAL::HAL& hal;
@ -37,10 +41,7 @@ bool AP_MSP_Telem_DJI::init_uart()
bool AP_MSP_Telem_DJI::is_scheduler_enabled() const bool AP_MSP_Telem_DJI::is_scheduler_enabled() const
{ {
const AP_MSP *msp = AP::msp(); const AP_MSP *msp = AP::msp();
if (msp == nullptr) { return msp && msp->is_option_enabled(AP_MSP::Option::TELEMETRY_MODE);
return false;
}
return msp->check_option(AP_MSP::MspOption::OPTION_TELEMETRY_MODE);
} }
void AP_MSP_Telem_DJI::hide_osd_items(void) void AP_MSP_Telem_DJI::hide_osd_items(void)
@ -91,26 +92,158 @@ MSPCommandResult AP_MSP_Telem_DJI::msp_process_out_fc_variant(sbuf_t *dst)
MSPCommandResult AP_MSP_Telem_DJI::msp_process_out_esc_sensor_data(sbuf_t *dst) MSPCommandResult AP_MSP_Telem_DJI::msp_process_out_esc_sensor_data(sbuf_t *dst)
{ {
#if HAL_WITH_ESC_TELEM #if HAL_WITH_ESC_TELEM
const auto msp = AP::msp(); int16_t highest_temperature = 0;
if (msp && msp->check_option(AP_MSP::MspOption::OPTION_TELEMETRY_DJI_WORKAROUNDS)) { AP_ESC_Telem& telem = AP::esc_telem();
AP_ESC_Telem& telem = AP::esc_telem(); if (!displaying_stats_screen()) {
int16_t highest_temperature = 0;
telem.get_highest_motor_temperature(highest_temperature); telem.get_highest_motor_temperature(highest_temperature);
const struct PACKED {
uint8_t temp;
uint16_t rpm;
} esc_sensor_data {
temp : uint8_t(highest_temperature * 0.01f), // deg, report max temperature
rpm : uint16_t(telem.get_average_motor_rpm() * 0.1f) // rpm, report average RPM across all motors
};
sbuf_write_data(dst, &esc_sensor_data, sizeof(esc_sensor_data));
} else { } else {
return AP_MSP_Telem_Backend::msp_process_out_esc_sensor_data(dst); AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return MSP_RESULT_ERROR;
}
WITH_SEMAPHORE(osd->get_semaphore());
highest_temperature = osd->get_stats_info().max_esc_temp;
} }
const struct PACKED {
uint8_t temp;
uint16_t rpm;
} esc_sensor_data {
temp : uint8_t(highest_temperature * 0.01f), // deg, report max temperature
rpm : uint16_t(telem.get_average_motor_rpm() * 0.1f) // rpm, report average RPM across all motors
};
sbuf_write_data(dst, &esc_sensor_data, sizeof(esc_sensor_data));
#endif #endif
return MSP_RESULT_ACK; return MSP_RESULT_ACK;
} }
void AP_MSP_Telem_DJI::update_home_pos(home_state_t &home_state)
{
AP_MSP_Telem_Backend::update_home_pos(home_state);
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return;
}
AP_MSP *msp = AP::msp();
if (msp == nullptr) {
return;
}
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return;
}
WITH_SEMAPHORE(osd->get_semaphore());
// override telemetry with max distance and altitude info
// alternate max distance with traveled distance every 2 seconds
if (msp->_msp_status.slow_flashing_on) {
home_state.home_distance_m = osd->get_stats_info().max_dist_m;
} else {
home_state.home_distance_m = osd->get_stats_info().last_distance_m;
}
home_state.rel_altitude_cm = osd->get_stats_info().max_alt_m * 100;
#endif
}
void AP_MSP_Telem_DJI::update_battery_state(battery_state_t &_battery_state)
{
AP_MSP_Telem_Backend::update_battery_state(_battery_state);
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return;
}
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return;
}
WITH_SEMAPHORE(osd->get_semaphore());
// override telemetry with max current and voltage info
_battery_state.batt_current_a = osd->get_stats_info().max_current_a;
_battery_state.batt_voltage_v = osd->get_stats_info().min_voltage_v;
#endif
}
void AP_MSP_Telem_DJI::update_gps_state(gps_state_t &gps_state)
{
AP_MSP_Telem_Backend::update_gps_state(gps_state);
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return;
}
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return;
}
WITH_SEMAPHORE(osd->get_semaphore());
// override telemetry with max speed info
gps_state.speed_cms = osd->get_stats_info().max_speed_mps * 100;
#endif
}
void AP_MSP_Telem_DJI::update_airspeed(airspeed_state_t &airspeed_state)
{
AP_MSP_Telem_Backend::update_airspeed(airspeed_state);
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return;
}
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return;
}
WITH_SEMAPHORE(osd->get_semaphore());
// override telemetry with max speed info
airspeed_state.airspeed_estimate_ms = osd->get_stats_info().max_airspeed_mps;
#endif
}
void AP_MSP_Telem_DJI::update_flight_mode_str(char *flight_mode_str, uint8_t size, bool wind_enabled)
{
AP_MSP_Telem_Backend::update_flight_mode_str(flight_mode_str, size, wind_enabled);
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return;
}
AP_Stats *stats = AP::stats();
if (stats != nullptr) {
uint32_t t = stats->get_flight_time_s();
// need to check snprintf return value to prevent format-truncation warning in GCC because of -Werror=format-truncation
if (snprintf(flight_mode_str, size, "%s %3u:%02u", "STATS", unsigned(t/60), unsigned(t%60)) < 0) {
snprintf(flight_mode_str, size, "%s", "STATS --:--");
}
} else {
snprintf(flight_mode_str, size, "%s", "STATS");
}
#endif
}
bool AP_MSP_Telem_DJI::get_rssi(float &rssi) const
{
if (!AP_MSP_Telem_Backend::get_rssi(rssi)) {
return false;
}
#if OSD_ENABLED
if (!displaying_stats_screen()) {
return true;
}
AP_RSSI* ap_rssi = AP::rssi();
if (ap_rssi == nullptr) {
return false;
}
if (!ap_rssi->enabled()) {
return false;
}
AP_OSD *osd = AP::osd();
if (osd == nullptr) {
return false;
}
WITH_SEMAPHORE(osd->get_semaphore());
// override telemetry with min rssi info
// Note: return false when min_rssi has not been updated yet by AP_OSD::update_stats()
if (is_equal(osd->get_stats_info().min_rssi, FLT_MAX)) {
return false;
}
rssi = osd->get_stats_info().min_rssi; // range is [0-1]
#endif
return true;
}
#endif //HAL_MSP_ENABLED #endif //HAL_MSP_ENABLED

View File

@ -55,6 +55,14 @@ public:
AP_SerialManager::SerialProtocol get_serial_protocol() const override { return AP_SerialManager::SerialProtocol::SerialProtocol_DJI_FPV; }; AP_SerialManager::SerialProtocol get_serial_protocol() const override { return AP_SerialManager::SerialProtocol::SerialProtocol_DJI_FPV; };
uint32_t get_osd_flight_mode_bitmask(void) override; uint32_t get_osd_flight_mode_bitmask(void) override;
void hide_osd_items(void) override; void hide_osd_items(void) override;
bool get_rssi(float &rssi) const override;
void update_home_pos(home_state_t &home_state) override;
void update_battery_state(battery_state_t &_battery_state) override;
void update_gps_state(gps_state_t &gps_state) override;
void update_airspeed(airspeed_state_t &airspeed_state) override;
void update_flight_mode_str(char *flight_mode_str, uint8_t size, bool wind_enabled) override;
MSP::MSPCommandResult msp_process_out_fc_variant(MSP::sbuf_t *dst) override; MSP::MSPCommandResult msp_process_out_fc_variant(MSP::sbuf_t *dst) override;
MSP::MSPCommandResult msp_process_out_esc_sensor_data(MSP::sbuf_t *dst) override; MSP::MSPCommandResult msp_process_out_esc_sensor_data(MSP::sbuf_t *dst) override;

View File

@ -32,7 +32,7 @@ MSPCommandResult AP_MSP_Telem_DisplayPort::msp_process_out_fc_variant(sbuf_t *ds
return MSP_RESULT_ERROR; return MSP_RESULT_ERROR;
} }
// do we use backend specific symbols table? // do we use backend specific symbols table?
if (msp->check_option(AP_MSP::MspOption::OPTION_DISPLAYPORT_BTFL_SYMBOLS)) { if (msp->is_option_enabled(AP_MSP::Option::DISPLAYPORT_BTFL_SYMBOLS)) {
sbuf_write_data(dst, BETAFLIGHT_IDENTIFIER, FLIGHT_CONTROLLER_IDENTIFIER_LENGTH); sbuf_write_data(dst, BETAFLIGHT_IDENTIFIER, FLIGHT_CONTROLLER_IDENTIFIER_LENGTH);
} else { } else {
sbuf_write_data(dst, ARDUPILOT_IDENTIFIER, FLIGHT_CONTROLLER_IDENTIFIER_LENGTH); sbuf_write_data(dst, ARDUPILOT_IDENTIFIER, FLIGHT_CONTROLLER_IDENTIFIER_LENGTH);

View File

@ -212,10 +212,10 @@ def display_all():
display_text(msp.OSD_GPS_LAT, "Lat:%.07f" % (msp.get('RAW_GPS.Lat')*0.0000001)) display_text(msp.OSD_GPS_LAT, "Lat:%.07f" % (msp.get('RAW_GPS.Lat')*0.0000001))
display_text(msp.OSD_GPS_LON, "Lon:%.07f" % (msp.get('RAW_GPS.Lon')*0.0000001)) display_text(msp.OSD_GPS_LON, "Lon:%.07f" % (msp.get('RAW_GPS.Lon')*0.0000001))
display_text(msp.OSD_RTC_DATETIME, "%04d-%02d-%02d %02d:%02d:%02d" % (msp.get('RTC.year'),msp.get('RTC.mon'),msp.get('RTC.mday'),msp.get('RTC.hour'),msp.get('RTC.min'),msp.get('RTC.sec'))) display_text(msp.OSD_RTC_DATETIME, "%04d-%02d-%02d %02d:%02d:%02d" % (msp.get('RTC.year'),msp.get('RTC.mon'),msp.get('RTC.mday'),msp.get('RTC.hour'),msp.get('RTC.min'),msp.get('RTC.sec')))
display_text(msp.OSD_DISARMED, "%s" % ("ARMED" if msp.get('STATUS.mode_flags')&0X01==1 else "DISARMED")) display_text(msp.OSD_DISARMED, "%s" % ("" if msp.get('STATUS.mode_flags')&0X01==1 else "DISARMED"))
display_homedir() display_homedir()
display_text(msp.OSD_HOME_DIST, "Dist: %dm" % (msp.get('COMP_GPS.distanceToHome'))) display_text(msp.OSD_HOME_DIST, "Dist: %dm" % (msp.get('COMP_GPS.distanceToHome')))
display_text(msp.OSD_RSSI_VALUE, "Rssi:%02d" % (msp.get('ANALOG.rssi'))) display_text(msp.OSD_RSSI_VALUE, "Rssi:%02d" % (msp.get('ANALOG.rssi') * 0.097))
display_text(msp.OSD_GPS_SPEED, "%.1fm/s" % (msp.get('RAW_GPS.Speed')*0.01)) display_text(msp.OSD_GPS_SPEED, "%.1fm/s" % (msp.get('RAW_GPS.Speed')*0.01))
display_text(msp.OSD_GPS_SATS, "Sats:%u" % msp.get("RAW_GPS.numSat")) display_text(msp.OSD_GPS_SATS, "Sats:%u" % msp.get("RAW_GPS.numSat"))
display_text(msp.OSD_ROLL_ANGLE, "Roll:%.1f" % (msp.get("ATTITUDE.roll")*0.1)) display_text(msp.OSD_ROLL_ANGLE, "Roll:%.1f" % (msp.get("ATTITUDE.roll")*0.1))

View File

@ -1,3 +1,4 @@
OSD_CHAN 16.000000
OSD1_ALTITUDE_EN 1.000000 OSD1_ALTITUDE_EN 1.000000
OSD1_ALTITUDE_X 24.000000 OSD1_ALTITUDE_X 24.000000
OSD1_ALTITUDE_Y 8.000000 OSD1_ALTITUDE_Y 8.000000
@ -10,18 +11,12 @@ OSD1_ASPD1_Y 0.000000
OSD1_ASPD2_EN 0.000000 OSD1_ASPD2_EN 0.000000
OSD1_ASPD2_X 0.000000 OSD1_ASPD2_X 0.000000
OSD1_ASPD2_Y 0.000000 OSD1_ASPD2_Y 0.000000
OSD1_ASPEED_EN 0.000000 OSD1_ASPEED_EN 1.000000
OSD1_ASPEED_X 2.000000
OSD1_ASPEED_Y 13.000000
OSD1_ATEMP_EN 0.000000 OSD1_ATEMP_EN 0.000000
OSD1_ATEMP_X 0.000000 OSD1_ATEMP_X 0.000000
OSD1_ATEMP_Y 0.000000 OSD1_ATEMP_Y 0.000000
OSD1_BAT2USED_EN 0.000000 OSD1_BAT2USED_EN 0.000000
OSD1_BAT2USED_X 0.000000
OSD1_BAT2USED_Y 0.000000
OSD1_BAT2_VLT_EN 0.000000 OSD1_BAT2_VLT_EN 0.000000
OSD1_BAT2_VLT_X 0.000000
OSD1_BAT2_VLT_Y 0.000000
OSD1_BATTBAR_EN 1.000000 OSD1_BATTBAR_EN 1.000000
OSD1_BATTBAR_X 13.000000 OSD1_BATTBAR_X 13.000000
OSD1_BATTBAR_Y 15.000000 OSD1_BATTBAR_Y 15.000000
@ -79,18 +74,18 @@ OSD1_GSPEED_Y 8.000000
OSD1_HDOP_EN 0.000000 OSD1_HDOP_EN 0.000000
OSD1_HDOP_X 0.000000 OSD1_HDOP_X 0.000000
OSD1_HDOP_Y 0.000000 OSD1_HDOP_Y 0.000000
OSD1_HEADING_EN 1.000000 OSD1_HEADING_EN 0.000000
OSD1_HEADING_X 13.000000 OSD1_HEADING_X 0.000000
OSD1_HEADING_Y 2.000000 OSD1_HEADING_Y 0.000000
OSD1_HOMEDIR_EN 1.000000 OSD1_HOMEDIR_EN 1.000000
OSD1_HOMEDIR_X 1.000000 OSD1_HOMEDIR_X 1.000000
OSD1_HOMEDIR_Y 2.000000 OSD1_HOMEDIR_Y 2.000000
OSD1_HOMEDIST_EN 1.000000 OSD1_HOMEDIST_EN 1.000000
OSD1_HOMEDIST_X 1.000000 OSD1_HOMEDIST_X 1.000000
OSD1_HOMEDIST_Y 1.000000 OSD1_HOMEDIST_Y 1.000000
OSD1_HOME_EN 1.000000 OSD1_HOME_EN 0.000000
OSD1_HOME_X 14.000000 OSD1_HOME_X 0.000000
OSD1_HOME_Y 1.000000 OSD1_HOME_Y 0.000000
OSD1_HORIZON_EN 1.000000 OSD1_HORIZON_EN 1.000000
OSD1_HORIZON_X 14.000000 OSD1_HORIZON_X 14.000000
OSD1_HORIZON_Y 8.000000 OSD1_HORIZON_Y 8.000000
@ -131,8 +126,59 @@ OSD1_WAYPOINT_EN 0.000000
OSD1_WAYPOINT_X 0.000000 OSD1_WAYPOINT_X 0.000000
OSD1_WAYPOINT_Y 0.000000 OSD1_WAYPOINT_Y 0.000000
OSD1_WIND_EN 1.000000 OSD1_WIND_EN 1.000000
OSD1_WIND_X 2.000000
OSD1_WIND_Y 12.000000
OSD1_XTRACK_EN 0.000000 OSD1_XTRACK_EN 0.000000
OSD1_XTRACK_X 0.000000 OSD1_XTRACK_X 0.000000
OSD1_XTRACK_Y 0.000000 OSD1_XTRACK_Y 0.000000
OSD2_ENABLE 1.000000
OSD2_STATS_EN 1.000000
OSD2_ALTITUDE_EN 1.000000
OSD2_ALTITUDE_X 13.000000
OSD2_ALTITUDE_Y 6.000000
OSD2_ARMING_EN 1.000000
OSD2_ARMING_X 12.000000
OSD2_ARMING_Y 14.000000
OSD2_ASPEED_EN 1.000000
OSD2_BATTBAR_EN 1.000000
OSD2_BATTBAR_X 13.000000
OSD2_BATTBAR_Y 15.000000
OSD2_BATUSED_EN 1.000000
OSD2_BATUSED_X 10.000000
OSD2_BATUSED_Y 15.000000
OSD2_BAT_VOLT_EN 1.000000
OSD2_BAT_VOLT_X 13.000000
OSD2_BAT_VOLT_Y 8.000000
OSD2_CELLVOLT_EN 0.000000
OSD2_CLK_EN 1.000000
OSD2_CLK_X 22.000000
OSD2_CLK_Y 0.000000
OSD2_CURRENT_EN 1.000000
OSD2_CURRENT_X 13.000000
OSD2_CURRENT_Y 9.000000
OSD2_GPSLAT_EN 1.000000
OSD2_GPSLAT_X 13.000000
OSD2_GPSLAT_Y 0.000000
OSD2_GPSLONG_EN 1.000000
OSD2_GPSLONG_X 13.000000
OSD2_GPSLONG_Y 1.000000
OSD2_GSPEED_EN 1.000000
OSD2_GSPEED_X 13.000000
OSD2_GSPEED_Y 5.000000
OSD2_HDOP_EN 0.000000
OSD2_HOMEDIR_EN 0.000000
OSD2_HOMEDIST_EN 1.000000
OSD2_HOMEDIST_X 13.000000
OSD2_HOMEDIST_Y 7.000000
OSD2_MESSAGE_EN 1.000000
OSD2_MESSAGE_X 12.000000
OSD2_MESSAGE_Y 3.000000
OSD2_POWER_EN 1.000000
OSD2_POWER_X 13.000000
OSD2_POWER_Y 11.000000
OSD2_RSSI_EN 1.000000
OSD2_RSSI_X 13.000000
OSD2_RSSI_Y 10.000000
OSD2_SATS_EN 1.000000
OSD2_SATS_X 1.000000
OSD2_SATS_Y 0.000000
OSD2_VSPEED_EN 0.000000

View File

@ -236,6 +236,7 @@ class PyMSP:
MSP_MOTOR_PINS: MSPItem("MOTOR_PINS", "8H","MP"), MSP_MOTOR_PINS: MSPItem("MOTOR_PINS", "8H","MP"),
MSP_ANALOG: MSPItem("ANALOG", "BHHHH", "dV,consumed_mah,rssi,current,volt"), MSP_ANALOG: MSPItem("ANALOG", "BHHHH", "dV,consumed_mah,rssi,current,volt"),
MSP_STATUS: MSPItem("STATUS", "HHHIBHHBBIB", "task_delta,i2c_err_count,sensor_status,mode_flags,nop_1,system_load,gyro_time,nop_2,nop_3,armed,extra"), MSP_STATUS: MSPItem("STATUS", "HHHIBHHBBIB", "task_delta,i2c_err_count,sensor_status,mode_flags,nop_1,system_load,gyro_time,nop_2,nop_3,armed,extra"),
MSP_ESC_SENSOR_DATA: MSPItem('ESC', "BH", "temp1,rpm1"),
} }
def __init__(self): def __init__(self):