flipperzero-firmware/applications/debug/bt_debug_app/views/bt_carrier_test.c
hedger 224d0aefe4
[FL-2733] multitarget support for fbt (#2209)
* First part of multitarget porting
* Delete firmware/targets/f7/Inc directory
* Delete firmware/targets/f7/Src directory
* gpio: cli fixes; about: using version from HAL
* sdk: path fixes
* gui: include fixes
* applications: more include fixes
* gpio: ported to new apis
* hal: introduced furi_hal_target_hw.h; libs: added one_wire
* hal: f18 target
* github: also build f18 by default
* typo fix
* fbt: removed extra checks on app list
* api: explicitly bundling select mlib headers with sdk
* hal: f18: changed INPUT_DEBOUNCE_TICKS to match f7
* cleaned up commented out code
* docs: added info on hw targets
* docs: targets: formatting fixes
* f18: fixed link error
* f18: fixed API version to match f7
* docs: hardware: minor wording fixes
* faploader: added fw target check
* docs: typo fixes
* github: not building komi target by default
* fbt: support for `targets` field for built-in apps
* github: reworked build flow to exclude app_set; fbt: removed komi-specific appset; added additional target buildset check
* github: fixed build; nfc: fixed pvs warnings
* attempt to fix target id
* f7, f18: removed certain HAL function from public API
* apps: debug: enabled bt_debug_app for f18
* Targets: backport input pins configuration routine from F7 to F18

Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
2023-02-08 01:33:05 +09:00

189 lines
6.8 KiB
C

#include "bt_carrier_test.h"
#include "bt_test.h"
#include "bt_test_types.h"
#include <furi_hal_bt.h>
struct BtCarrierTest {
BtTest* bt_test;
BtTestParam* bt_param_channel;
BtTestMode mode;
BtTestChannel channel;
BtTestPower power;
FuriTimer* timer;
};
static BtTestParamValue bt_param_mode[] = {
{.value = BtTestModeRx, .str = "Rx"},
{.value = BtTestModeTx, .str = "Tx"},
{.value = BtTestModeTxHopping, .str = "Hopping Tx"},
};
static BtTestParamValue bt_param_channel[] = {
{.value = BtTestChannel2402, .str = "2402 MHz"},
{.value = BtTestChannel2440, .str = "2440 MHz"},
{.value = BtTestChannel2480, .str = "2480 MHz"},
};
static BtTestParamValue bt_param_power[] = {
{.value = BtPower0dB, .str = "0 dB"},
{.value = BtPower2dB, .str = "2 dB"},
{.value = BtPower4dB, .str = "4 dB"},
{.value = BtPower6dB, .str = "6 dB"},
};
static void bt_carrier_test_start(BtCarrierTest* bt_carrier_test) {
furi_assert(bt_carrier_test);
if(bt_carrier_test->mode == BtTestModeRx) {
furi_hal_bt_start_packet_rx(bt_carrier_test->channel, 1);
furi_timer_start(bt_carrier_test->timer, furi_kernel_get_tick_frequency() / 4);
} else if(bt_carrier_test->mode == BtTestModeTxHopping) {
furi_hal_bt_start_tone_tx(bt_carrier_test->channel, bt_carrier_test->power);
furi_timer_start(bt_carrier_test->timer, furi_kernel_get_tick_frequency() * 2);
} else if(bt_carrier_test->mode == BtTestModeTx) {
furi_hal_bt_start_tone_tx(bt_carrier_test->channel, bt_carrier_test->power);
}
}
static void bt_carrier_test_switch_channel(BtCarrierTest* bt_carrier_test) {
furi_assert(bt_carrier_test);
furi_hal_bt_stop_tone_tx();
uint8_t channel_i = 0;
if(bt_carrier_test->channel == BtTestChannel2402) {
bt_carrier_test->channel = BtTestChannel2440;
channel_i = 1;
} else if(bt_carrier_test->channel == BtTestChannel2440) {
bt_carrier_test->channel = BtTestChannel2480;
channel_i = 2;
} else if(bt_carrier_test->channel == BtTestChannel2480) {
bt_carrier_test->channel = BtTestChannel2402;
channel_i = 0;
}
furi_hal_bt_start_tone_tx(bt_carrier_test->channel, bt_carrier_test->power);
bt_test_set_current_value_index(bt_carrier_test->bt_param_channel, channel_i);
bt_test_set_current_value_text(
bt_carrier_test->bt_param_channel, bt_param_channel[channel_i].str);
}
static void bt_carrier_test_stop(BtCarrierTest* bt_carrier_test) {
furi_assert(bt_carrier_test);
if(bt_carrier_test->mode == BtTestModeTxHopping) {
furi_hal_bt_stop_tone_tx();
furi_timer_stop(bt_carrier_test->timer);
} else if(bt_carrier_test->mode == BtTestModeTx) {
furi_hal_bt_stop_tone_tx();
} else if(bt_carrier_test->mode == BtTestModeRx) {
furi_hal_bt_stop_packet_test();
furi_timer_stop(bt_carrier_test->timer);
}
}
static uint32_t bt_carrier_test_param_changed(BtTestParam* param, BtTestParamValue* param_val) {
furi_assert(param);
uint8_t index = bt_test_get_current_value_index(param);
bt_test_set_current_value_text(param, param_val[index].str);
return param_val[index].value;
}
static void bt_carrier_test_mode_changed(BtTestParam* param) {
BtCarrierTest* bt_carrier_test = bt_test_get_context(param);
bt_carrier_test_stop(bt_carrier_test);
bt_carrier_test->mode = bt_carrier_test_param_changed(param, bt_param_mode);
}
static void bt_carrier_test_channel_changed(BtTestParam* param) {
BtCarrierTest* bt_carrier_test = bt_test_get_context(param);
bt_carrier_test_stop(bt_carrier_test);
bt_carrier_test->channel = bt_carrier_test_param_changed(param, bt_param_channel);
}
static void bt_carrier_test_param_channel(BtTestParam* param) {
BtCarrierTest* bt_carrier_test = bt_test_get_context(param);
bt_carrier_test_stop(bt_carrier_test);
bt_carrier_test->power = bt_carrier_test_param_changed(param, bt_param_power);
}
static void bt_carrier_test_change_state_callback(BtTestState state, void* context) {
furi_assert(context);
BtCarrierTest* bt_carrier_test = context;
furi_hal_bt_stop_tone_tx();
if(state == BtTestStateStarted) {
bt_carrier_test_start(bt_carrier_test);
} else if(state == BtTestStateStopped) {
bt_carrier_test_stop(bt_carrier_test);
}
}
static void bt_carrier_test_exit_callback(void* context) {
furi_assert(context);
BtCarrierTest* bt_carrier_test = context;
bt_carrier_test_stop(bt_carrier_test);
}
static void bt_test_carrier_timer_callback(void* context) {
furi_assert(context);
BtCarrierTest* bt_carrier_test = context;
if(bt_carrier_test->mode == BtTestModeRx) {
bt_test_set_rssi(bt_carrier_test->bt_test, furi_hal_bt_get_rssi());
} else if(bt_carrier_test->mode == BtTestModeTxHopping) {
bt_carrier_test_switch_channel(bt_carrier_test);
}
}
BtCarrierTest* bt_carrier_test_alloc() {
BtCarrierTest* bt_carrier_test = malloc(sizeof(BtCarrierTest));
bt_carrier_test->bt_test = bt_test_alloc();
bt_test_set_context(bt_carrier_test->bt_test, bt_carrier_test);
bt_test_set_change_state_callback(
bt_carrier_test->bt_test, bt_carrier_test_change_state_callback);
bt_test_set_back_callback(bt_carrier_test->bt_test, bt_carrier_test_exit_callback);
BtTestParam* param;
param = bt_test_param_add(
bt_carrier_test->bt_test,
"Mode",
COUNT_OF(bt_param_mode),
bt_carrier_test_mode_changed,
bt_carrier_test);
bt_test_set_current_value_index(param, 0);
bt_test_set_current_value_text(param, bt_param_mode[0].str);
bt_carrier_test->mode = BtTestModeRx;
param = bt_test_param_add(
bt_carrier_test->bt_test,
"Channel",
COUNT_OF(bt_param_channel),
bt_carrier_test_channel_changed,
bt_carrier_test);
bt_test_set_current_value_index(param, 0);
bt_test_set_current_value_text(param, bt_param_channel[0].str);
bt_carrier_test->channel = BtTestChannel2402;
bt_carrier_test->bt_param_channel = param;
param = bt_test_param_add(
bt_carrier_test->bt_test,
"Power",
COUNT_OF(bt_param_power),
bt_carrier_test_param_channel,
bt_carrier_test);
bt_test_set_current_value_index(param, 0);
bt_test_set_current_value_text(param, bt_param_power[0].str);
bt_carrier_test->power = BtPower0dB;
bt_carrier_test->timer =
furi_timer_alloc(bt_test_carrier_timer_callback, FuriTimerTypePeriodic, bt_carrier_test);
return bt_carrier_test;
}
void bt_carrier_test_free(BtCarrierTest* bt_carrier_test) {
furi_assert(bt_carrier_test);
bt_test_free(bt_carrier_test->bt_test);
furi_timer_free(bt_carrier_test->timer);
free(bt_carrier_test);
}
View* bt_carrier_test_get_view(BtCarrierTest* bt_carrier_test) {
furi_assert(bt_carrier_test);
return bt_test_get_view(bt_carrier_test->bt_test);
}