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refactor(system): reformated esp_timer, linux and log comp with astyle

pull/12800/head
Marius Vikhammer 2024-02-04 14:50:54 +08:00
rodzic d749575648
commit 77dcb6d46e
19 zmienionych plików z 159 dodań i 181 usunięć
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2
components/esp_timer/include/esp_timer.h
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@ -52,7 +52,6 @@ typedef struct esp_timer* esp_timer_handle_t;
*/
typedef void (*esp_timer_cb_t)(void* arg);
/**
* @brief Method for dispatching timer callback
*/
@ -75,7 +74,6 @@ typedef struct {
bool skip_unhandled_events; //!< Skip unhandled events for periodic timers
} esp_timer_create_args_t;
/**
* @brief Minimal initialization of esp_timer
*

1
components/esp_timer/private_include/esp_timer_impl.h
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@ -112,7 +112,6 @@ uint64_t esp_timer_impl_get_min_period_us(void);
*/
void esp_timer_impl_lock(void);
/**
* @brief counterpart of esp_timer_impl_lock
*/

28
components/esp_timer/src/esp_timer.c
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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2017-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2017-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -62,8 +62,8 @@ typedef enum {
struct esp_timer {
uint64_t alarm;
uint64_t period:56;
flags_t flags:8;
uint64_t period: 56;
flags_t flags: 8;
union {
esp_timer_cb_t callback;
uint32_t event_id;
@ -95,13 +95,13 @@ __attribute__((unused)) static const char* TAG = "esp_timer";
// lists of currently armed timers for two dispatch methods: ISR and TASK
static LIST_HEAD(esp_timer_list, esp_timer) s_timers[ESP_TIMER_MAX] = {
[0 ... (ESP_TIMER_MAX - 1)] = LIST_HEAD_INITIALIZER(s_timers)
[0 ...(ESP_TIMER_MAX - 1)] = LIST_HEAD_INITIALIZER(s_timers)
};
#if WITH_PROFILING
// lists of unarmed timers for two dispatch methods: ISR and TASK,
// used only to be able to dump statistics about all the timers
static LIST_HEAD(esp_inactive_timer_list, esp_timer) s_inactive_timers[ESP_TIMER_MAX] = {
[0 ... (ESP_TIMER_MAX - 1)] = LIST_HEAD_INITIALIZER(s_timers)
[0 ...(ESP_TIMER_MAX - 1)] = LIST_HEAD_INITIALIZER(s_timers)
};
#endif
// task used to dispatch timer callbacks
@ -109,7 +109,7 @@ static TaskHandle_t s_timer_task;
// lock protecting s_timers, s_inactive_timers
static portMUX_TYPE s_timer_lock[ESP_TIMER_MAX] = {
[0 ... (ESP_TIMER_MAX - 1)] = portMUX_INITIALIZER_UNLOCKED
[0 ...(ESP_TIMER_MAX - 1)] = portMUX_INITIALIZER_UNLOCKED
};
#ifdef CONFIG_ESP_TIMER_SUPPORTS_ISR_DISPATCH_METHOD
@ -124,7 +124,7 @@ esp_err_t esp_timer_create(const esp_timer_create_args_t* args,
return ESP_ERR_INVALID_STATE;
}
if (args == NULL || args->callback == NULL || out_handle == NULL ||
args->dispatch_method < 0 || args->dispatch_method >= ESP_TIMER_MAX) {
args->dispatch_method < 0 || args->dispatch_method >= ESP_TIMER_MAX) {
return ESP_ERR_INVALID_ARG;
}
esp_timer_handle_t result = (esp_timer_handle_t) heap_caps_calloc(1, sizeof(*result), MALLOC_CAP_8BIT | MALLOC_CAP_INTERNAL);
@ -473,7 +473,7 @@ static bool timer_process_alarm(esp_timer_dispatch_t dispatch_method)
static void timer_task(void* arg)
{
while (true){
while (true) {
ulTaskNotifyTake(pdTRUE, portMAX_DELAY);
// all deferred events are processed at a time
timer_process_alarm(ESP_TIMER_TASK);
@ -531,9 +531,9 @@ static esp_err_t init_timer_task(void)
err = ESP_ERR_INVALID_STATE;
} else {
int ret = xTaskCreatePinnedToCore(
&timer_task, "esp_timer",
ESP_TASK_TIMER_STACK, NULL, ESP_TASK_TIMER_PRIO,
&s_timer_task, CONFIG_ESP_TIMER_TASK_AFFINITY);
&timer_task, "esp_timer",
ESP_TASK_TIMER_STACK, NULL, ESP_TASK_TIMER_PRIO,
&s_timer_task, CONFIG_ESP_TIMER_TASK_AFFINITY);
if (ret != pdPASS) {
ESP_EARLY_LOGE(TAG, "Not enough memory to create timer task");
err = ESP_ERR_NO_MEM;
@ -582,7 +582,6 @@ esp_err_t esp_timer_init(void)
#define ESP_TIMER_INIT_MASK ESP_SYSTEM_INIT_ALL_CORES
#endif // CONFIG_ESP_TIMER_ISR_AFFINITY_*
ESP_SYSTEM_INIT_FN(esp_timer_startup_init, SECONDARY, ESP_TIMER_INIT_MASK, 100)
{
return esp_timer_init();
@ -628,8 +627,8 @@ static void print_timer_info(esp_timer_handle_t t, char** dst, size_t* dst_size)
cb = snprintf(*dst, *dst_size, "timer@%-10p ", t);
}
cb += snprintf(*dst + cb, *dst_size + cb, "%-10lld %-12lld %-12d %-12d %-12d %-12lld\n",
(uint64_t)t->period, t->alarm, t->times_armed,
t->times_triggered, t->times_skipped, t->total_callback_run_time);
(uint64_t)t->period, t->alarm, t->times_armed,
t->times_triggered, t->times_skipped, t->total_callback_run_time);
/* keep this in sync with the format string, used in esp_timer_dump */
#define TIMER_INFO_LINE_LEN 90
#else
@ -640,7 +639,6 @@ static void print_timer_info(esp_timer_handle_t t, char** dst, size_t* dst_size)
*dst_size -= cb;
}
esp_err_t esp_timer_dump(FILE* stream)
{
/* Since timer lock is a critical section, we don't want to print directly

3
components/esp_timer/src/esp_timer_impl_common.c
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@ -38,7 +38,8 @@ void IRAM_ATTR esp_timer_impl_set_alarm(uint64_t timestamp)
}
#ifdef CONFIG_ESP_TIMER_SUPPORTS_ISR_DISPATCH_METHOD
void IRAM_ATTR esp_timer_impl_try_to_set_next_alarm(void) {
void IRAM_ATTR esp_timer_impl_try_to_set_next_alarm(void)
{
portENTER_CRITICAL_ISR(&s_time_update_lock);
unsigned now_alarm_idx; // ISR is called due to this current alarm
unsigned next_alarm_idx; // The following alarm after now_alarm_idx

16
components/esp_timer/src/esp_timer_impl_lac.c
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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2017-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2017-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -168,7 +168,7 @@ void IRAM_ATTR esp_timer_impl_set_alarm_id(uint64_t timestamp, unsigned alarm_id
// finish if either (alarm > counter) or the interrupt flag is already set.
break;
}
} while(1);
} while (1);
}
portEXIT_CRITICAL_SAFE(&s_time_update_lock);
}
@ -202,10 +202,10 @@ static void IRAM_ATTR timer_alarm_isr(void *arg)
(*s_alarm_handler)(arg);
portENTER_CRITICAL_ISR(&s_time_update_lock);
// Another alarm could have occurred while were handling the previous alarm.
// Check if we need to call the s_alarm_handler again:
// 1) if the alarm has already been fired, it helps to handle it immediately without an additional ISR call.
// 2) handle pending alarm that was cleared by the other core in time when this core worked with the current alarm.
// Another alarm could have occurred while were handling the previous alarm.
// Check if we need to call the s_alarm_handler again:
// 1) if the alarm has already been fired, it helps to handle it immediately without an additional ISR call.
// 2) handle pending alarm that was cleared by the other core in time when this core worked with the current alarm.
} while (REG_GET_FIELD(INT_ST_REG, TIMG_LACT_INT_ST) || pending_alarm);
processed_by = NOT_USED;
} else {
@ -262,8 +262,8 @@ esp_err_t esp_timer_impl_early_init(void)
REG_SET_BIT(INT_CLR_REG, TIMG_LACT_INT_CLR);
REG_SET_FIELD(CONFIG_REG, TIMG_LACT_DIVIDER, APB_CLK_FREQ / 1000000 / TICKS_PER_US);
REG_SET_BIT(CONFIG_REG, TIMG_LACT_INCREASE |
TIMG_LACT_LEVEL_INT_EN |
TIMG_LACT_EN);
TIMG_LACT_LEVEL_INT_EN |
TIMG_LACT_EN);
return ESP_OK;
}

10
components/esp_timer/src/esp_timer_impl_systimer.c
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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2017-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2017-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -112,10 +112,10 @@ static void IRAM_ATTR timer_alarm_isr(void *arg)
(*s_alarm_handler)(arg);
portENTER_CRITICAL_ISR(&s_time_update_lock);
// Another alarm could have occurred while were handling the previous alarm.
// Check if we need to call the s_alarm_handler again:
// 1) if the alarm has already been fired, it helps to handle it immediately without an additional ISR call.
// 2) handle pending alarm that was cleared by the other core in time when this core worked with the current alarm.
// Another alarm could have occurred while were handling the previous alarm.
// Check if we need to call the s_alarm_handler again:
// 1) if the alarm has already been fired, it helps to handle it immediately without an additional ISR call.
// 2) handle pending alarm that was cleared by the other core in time when this core worked with the current alarm.
} while (systimer_ll_is_alarm_int_fired(systimer_hal.dev, SYSTIMER_ALARM_ESPTIMER) || pending_alarm);
processed_by = NOT_USED;
} else {

26
components/esp_timer/src/ets_timer_legacy.c
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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2010-2022 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2010-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -65,25 +65,24 @@ void ets_timer_setfn(ETSTimer *ptimer, ETSTimerFunc *pfunction, void *parg)
if (ESP_TIMER(ptimer) == NULL) {
const esp_timer_create_args_t create_args = {
.callback = pfunction,
.arg = parg,
.name = "ETSTimer",
.dispatch_method = ESP_TIMER_TASK
.callback = pfunction,
.arg = parg,
.name = "ETSTimer",
.dispatch_method = ESP_TIMER_TASK
};
ESP_ERROR_CHECK( esp_timer_create(&create_args, (esp_timer_handle_t*)&(ptimer->timer_arg)) );
ESP_ERROR_CHECK(esp_timer_create(&create_args, (esp_timer_handle_t*) & (ptimer->timer_arg)));
}
}
void IRAM_ATTR ets_timer_arm_us(ETSTimer *ptimer, uint32_t time_us, bool repeat_flag)
{
assert(timer_initialized(ptimer));
esp_timer_stop(ESP_TIMER(ptimer)); // no error check
if (!repeat_flag) {
ESP_ERROR_CHECK( esp_timer_start_once(ESP_TIMER(ptimer), time_us) );
ESP_ERROR_CHECK(esp_timer_start_once(ESP_TIMER(ptimer), time_us));
} else {
ESP_ERROR_CHECK( esp_timer_start_periodic(ESP_TIMER(ptimer), time_us) );
ESP_ERROR_CHECK(esp_timer_start_periodic(ESP_TIMER(ptimer), time_us));
}
}
@ -93,9 +92,9 @@ void IRAM_ATTR ets_timer_arm(ETSTimer *ptimer, uint32_t time_ms, bool repeat_fla
assert(timer_initialized(ptimer));
esp_timer_stop(ESP_TIMER(ptimer)); // no error check
if (!repeat_flag) {
ESP_ERROR_CHECK( esp_timer_start_once(ESP_TIMER(ptimer), time_us) );
ESP_ERROR_CHECK(esp_timer_start_once(ESP_TIMER(ptimer), time_us));
} else {
ESP_ERROR_CHECK( esp_timer_start_periodic(ESP_TIMER(ptimer), time_us) );
ESP_ERROR_CHECK(esp_timer_start_periodic(ESP_TIMER(ptimer), time_us));
}
}
@ -115,7 +114,6 @@ void IRAM_ATTR ets_timer_disarm(ETSTimer *ptimer)
}
}
void ets_timer_init(void)
{
@ -128,6 +126,6 @@ void ets_timer_deinit(void)
void os_timer_setfn(ETSTimer *ptimer, ETSTimerFunc *pfunction, void *parg) __attribute__((alias("ets_timer_setfn")));
void os_timer_disarm(ETSTimer *ptimer) __attribute__((alias("ets_timer_disarm")));
void os_timer_arm_us(ETSTimer *ptimer,uint32_t u_seconds,bool repeat_flag) __attribute__((alias("ets_timer_arm_us")));
void os_timer_arm(ETSTimer *ptimer,uint32_t milliseconds,bool repeat_flag) __attribute__((alias("ets_timer_arm")));
void os_timer_arm_us(ETSTimer *ptimer, uint32_t u_seconds, bool repeat_flag) __attribute__((alias("ets_timer_arm_us")));
void os_timer_arm(ETSTimer *ptimer, uint32_t milliseconds, bool repeat_flag) __attribute__((alias("ets_timer_arm")));
void os_timer_done(ETSTimer *ptimer) __attribute__((alias("ets_timer_done")));

174
components/esp_timer/test_apps/main/test_esp_timer.c
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@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -23,12 +23,10 @@
#define SEC (1000000)
#ifdef CONFIG_ESP_TIMER_PROFILING
#define WITH_PROFILING 1
#endif
static void dummy_cb(void* arg)
{
}
@ -37,14 +35,14 @@ TEST_CASE("esp_timer orders timers correctly", "[esp_timer]")
{
uint64_t timeouts[] = { 10000, 1000, 10000, 5000, 20000, 1000 };
size_t indices[] = { 3, 0, 4, 2, 5, 1 };
const size_t num_timers = sizeof(timeouts)/sizeof(timeouts[0]);
const size_t num_timers = sizeof(timeouts) / sizeof(timeouts[0]);
esp_timer_handle_t handles[num_timers];
char* names[num_timers];
for (size_t i = 0; i < num_timers; ++i) {
asprintf(&names[i], "timer%d", i);
esp_timer_create_args_t args = {
.callback = &dummy_cb,
.name = names[i]
.callback = &dummy_cb,
.name = names[i]
};
TEST_ESP_OK(esp_timer_create(&args, &handles[i]));
TEST_ESP_OK(esp_timer_start_once(handles[i], timeouts[i] * 100));
@ -96,7 +94,7 @@ static void set_alarm_task(void* arg)
int64_t now = start;
int count = 0;
const int delays[] = {50, 5000, 10000000};
const int delays_count = sizeof(delays)/sizeof(delays[0]);
const int delays_count = sizeof(delays) / sizeof(delays[0]);
while (now - start < test_time_sec * 1000000) {
now = esp_timer_impl_get_time();
esp_timer_impl_set_alarm(now + delays[count % delays_count]);
@ -132,14 +130,14 @@ TEST_CASE("esp_timer produces correct delay", "[esp_timer]")
int64_t t_end;
esp_timer_handle_t timer1;
esp_timer_create_args_t args = {
.callback = &test_correct_delay_timer_func,
.arg = &t_end,
.name = "timer1"
.callback = &test_correct_delay_timer_func,
.arg = &t_end,
.name = "timer1"
};
TEST_ESP_OK(esp_timer_create(&args, &timer1));
const int delays_ms[] = {20, 100, 200, 250};
const size_t delays_count = sizeof(delays_ms)/sizeof(delays_ms[0]);
const size_t delays_count = sizeof(delays_ms) / sizeof(delays_ms[0]);
ref_clock_init();
for (size_t i = 0; i < delays_count; ++i) {
@ -157,7 +155,7 @@ TEST_CASE("esp_timer produces correct delay", "[esp_timer]")
}
ref_clock_deinit();
TEST_ESP_OK( esp_timer_dump(stdout) );
TEST_ESP_OK(esp_timer_dump(stdout));
esp_timer_delete(timer1);
}
@ -182,7 +180,7 @@ static void test_periodic_correct_delays_timer_func(void* arg)
p_args->intervals[p_args->cur_interval++] = ms_diff;
// Deliberately make timer handler run longer.
// We check that this doesn't affect the result.
esp_rom_delay_us(10*1000);
esp_rom_delay_us(10 * 1000);
if (p_args->cur_interval == NUM_INTERVALS) {
printf("done\n");
TEST_ESP_OK(esp_timer_stop(p_args->timer));
@ -196,9 +194,9 @@ TEST_CASE("periodic esp_timer produces correct delays", "[esp_timer]")
test_periodic_correct_delays_args_t args = {0};
esp_timer_handle_t timer1;
esp_timer_create_args_t create_args = {
.callback = &test_periodic_correct_delays_timer_func,
.arg = &args,
.name = "timer1",
.callback = &test_periodic_correct_delays_timer_func,
.arg = &args,
.name = "timer1",
};
TEST_ESP_OK(esp_timer_create(&create_args, &timer1));
ref_clock_init();
@ -214,14 +212,13 @@ TEST_CASE("periodic esp_timer produces correct delays", "[esp_timer]")
TEST_ASSERT_INT32_WITHIN(portTICK_PERIOD_MS, (i + 1) * delay_ms, args.intervals[i]);
}
ref_clock_deinit();
TEST_ESP_OK( esp_timer_dump(stdout) );
TEST_ESP_OK(esp_timer_dump(stdout));
TEST_ESP_OK( esp_timer_delete(timer1) );
TEST_ESP_OK(esp_timer_delete(timer1));
vSemaphoreDelete(args.done);
}
#undef NUM_INTERVALS
#define N 5
typedef struct {
@ -248,7 +245,7 @@ static void test_timers_ordered_correctly_timer_func(void* arg)
int expected_index = p_args->common->order[count];
int ms_since_start = (ref_clock_get() - p_args->t_start) / 1000;
printf("Time %dms, at count %d, expected timer %d, got timer %d\n",
ms_since_start, count, expected_index, p_args->timer_index);
ms_since_start, count, expected_index, p_args->timer_index);
if (expected_index != p_args->timer_index) {
p_args->pass = false;
esp_timer_stop(p_args->timer);
@ -263,7 +260,7 @@ static void test_timers_ordered_correctly_timer_func(void* arg)
}
int next_interval = p_args->intervals[p_args->intervals_count];
printf("starting timer %d interval #%d, %d ms\n",
p_args->timer_index, p_args->intervals_count, next_interval);
p_args->timer_index, p_args->intervals_count, next_interval);
esp_timer_start_once(p_args->timer, next_interval * 1000);
}
@ -280,37 +277,36 @@ TEST_CASE("multiple timers are ordered correctly", "[esp_timer]")
int64_t now = ref_clock_get();
test_timers_ordered_correctly_args_t args1 = {
.timer_index = 1,
.intervals = {10, 40, 20, 40, 30},
.common = &common,
.pass = true,
.done = done,
.t_start = now
.timer_index = 1,
.intervals = {10, 40, 20, 40, 30},
.common = &common,
.pass = true,
.done = done,
.t_start = now
};
test_timers_ordered_correctly_args_t args2 = {
.timer_index = 2,
.intervals = {20, 20, 60, 30, 40},
.common = &common,
.pass = true,
.done = done,
.t_start = now
.timer_index = 2,
.intervals = {20, 20, 60, 30, 40},
.common = &common,
.pass = true,
.done = done,
.t_start = now
};
test_timers_ordered_correctly_args_t args3 = {
.timer_index = 3,
.intervals = {30, 30, 60, 30, 10},
.common = &common,
.pass = true,
.done = done,
.t_start = now
.timer_index = 3,
.intervals = {30, 30, 60, 30, 10},
.common = &common,
.pass = true,
.done = done,
.t_start = now
};
esp_timer_create_args_t create_args = {
.callback = &test_timers_ordered_correctly_timer_func,
.arg = &args1,
.name = "1"
.callback = &test_timers_ordered_correctly_timer_func,
.arg = &args1,
.name = "1"
};
TEST_ESP_OK(esp_timer_create(&create_args, &args1.timer));
@ -337,16 +333,16 @@ TEST_CASE("multiple timers are ordered correctly", "[esp_timer]")
ref_clock_deinit();
TEST_ESP_OK( esp_timer_dump(stdout) );
TEST_ESP_OK(esp_timer_dump(stdout));
TEST_ESP_OK( esp_timer_delete(args1.timer) );
TEST_ESP_OK( esp_timer_delete(args2.timer) );
TEST_ESP_OK( esp_timer_delete(args3.timer) );
TEST_ESP_OK(esp_timer_delete(args1.timer));
TEST_ESP_OK(esp_timer_delete(args2.timer));
TEST_ESP_OK(esp_timer_delete(args3.timer));
}
#undef N
static void test_short_intervals_timer_func(void* arg) {
static void test_short_intervals_timer_func(void* arg)
{
SemaphoreHandle_t done = (SemaphoreHandle_t) arg;
xSemaphoreGive(done);
printf(".");
@ -361,19 +357,19 @@ TEST_CASE("esp_timer for very short intervals", "[esp_timer]")
SemaphoreHandle_t semaphore = xSemaphoreCreateCounting(2, 0);
esp_timer_create_args_t timer_args = {
.callback = &test_short_intervals_timer_func,
.arg = (void*) semaphore,
.name = "foo"
.callback = &test_short_intervals_timer_func,
.arg = (void*) semaphore,
.name = "foo"
};
esp_timer_handle_t timer1, timer2;
ESP_ERROR_CHECK( esp_timer_create(&timer_args, &timer1) );
ESP_ERROR_CHECK( esp_timer_create(&timer_args, &timer2) );
ESP_ERROR_CHECK(esp_timer_create(&timer_args, &timer1));
ESP_ERROR_CHECK(esp_timer_create(&timer_args, &timer2));
const int timeout_ms = 10;
for (int timeout_delta_us = -150; timeout_delta_us < 150; timeout_delta_us++) {
printf("delta=%d", timeout_delta_us);
ESP_ERROR_CHECK( esp_timer_start_once(timer1, timeout_ms * 1000) );
ESP_ERROR_CHECK( esp_timer_start_once(timer2, timeout_ms * 1000 + timeout_delta_us) );
ESP_ERROR_CHECK(esp_timer_start_once(timer1, timeout_ms * 1000));
ESP_ERROR_CHECK(esp_timer_start_once(timer2, timeout_ms * 1000 + timeout_delta_us));
TEST_ASSERT_EQUAL(pdPASS, xSemaphoreTake(semaphore, timeout_ms * 2));
TEST_ASSERT_EQUAL(pdPASS, xSemaphoreTake(semaphore, timeout_ms * 2));
printf("\n");
@ -394,7 +390,7 @@ TEST_CASE("esp_timer_get_time call takes less than 1us", "[esp_timer]")
for (int i = 0; i < iter_count; ++i) {
end = esp_timer_get_time();
}
int ns_per_call = (int) ((end - begin) * 1000 / iter_count);
int ns_per_call = (int)((end - begin) * 1000 / iter_count);
TEST_PERFORMANCE_LESS_THAN(ESP_TIMER_GET_TIME_PER_CALL, "%dns", ns_per_call);
}
@ -415,7 +411,8 @@ typedef struct {
int64_t dummy;
} test_monotonic_values_state_t;
static void timer_test_monotonic_values_task(void* arg) {
static void timer_test_monotonic_values_task(void* arg)
{
test_monotonic_values_state_t* state = (test_monotonic_values_state_t*) arg;
state->pass = true;
@ -455,7 +452,7 @@ static void timer_test_monotonic_values_task(void* arg) {
state->avg_diff /= state->test_cnt;
xSemaphoreGive(state->done);
vTaskDelete(NULL);
}
}
TEST_CASE("esp_timer_get_time returns monotonic values", "[esp_timer]")
{
@ -469,11 +466,11 @@ TEST_CASE("esp_timer_get_time returns monotonic values", "[esp_timer]")
}
for (int i = 0; i < portNUM_PROCESSORS; ++i) {
TEST_ASSERT_TRUE( xSemaphoreTake(done, portMAX_DELAY) );
TEST_ASSERT_TRUE(xSemaphoreTake(done, portMAX_DELAY));
printf("CPU%d: %s test_cnt=%d error_cnt=%d avg_diff=%d |max_error|=%d\n",
i, states[i].pass ? "PASS" : "FAIL",
states[i].test_cnt, states[i].error_cnt,
(int) states[i].avg_diff, (int) states[i].max_error);
i, states[i].pass ? "PASS" : "FAIL",
states[i].test_cnt, states[i].error_cnt,
(int) states[i].avg_diff, (int) states[i].max_error);
}
vSemaphoreDelete(done);
@ -505,13 +502,13 @@ static void test_delete_from_callback_timer_func(void* varg)
TEST_CASE("Can delete timer from callback", "[esp_timer]")
{
test_delete_from_callback_arg_t args = {
.notify_from_timer_cb = xSemaphoreCreateBinary(),
.notify_from_timer_cb = xSemaphoreCreateBinary(),
};
esp_timer_create_args_t timer_args = {
.callback = &test_delete_from_callback_timer_func,
.arg = &args,
.name = "self_deleter"
.callback = &test_delete_from_callback_timer_func,
.arg = &args,
.name = "self_deleter"
};
esp_timer_create(&timer_args, &args.timer);
esp_timer_start_once(args.timer, 10000);
@ -523,7 +520,6 @@ TEST_CASE("Can delete timer from callback", "[esp_timer]")
vSemaphoreDelete(args.notify_from_timer_cb);
}
typedef struct {
SemaphoreHandle_t delete_start;
SemaphoreHandle_t delete_done;
@ -561,8 +557,8 @@ TEST_CASE("Can delete timer from a separate task, triggered from callback", "[es
};
esp_timer_create_args_t timer_args = {
.callback = &timer_delete_test_callback,
.arg = &args
.callback = &timer_delete_test_callback,
.arg = &args
};
esp_timer_handle_t timer;
TEST_ESP_OK(esp_timer_create(&timer_args, &timer));
@ -593,7 +589,8 @@ typedef struct {
int64_t cb_time;
} test_run_when_expected_state_t;
static void test_run_when_expected_timer_func(void* varg) {
static void test_run_when_expected_timer_func(void* varg)
{
test_run_when_expected_state_t* arg = (test_run_when_expected_state_t*) varg;
arg->cb_time = ref_clock_get();
}
@ -605,8 +602,8 @@ TEST_CASE("after esp_timer_impl_advance, timers run when expected", "[esp_timer]
test_run_when_expected_state_t state = { 0 };
esp_timer_create_args_t timer_args = {
.callback = &test_run_when_expected_timer_func,
.arg = &state
.callback = &test_run_when_expected_timer_func,
.arg = &state
};
esp_timer_handle_t timer;
TEST_ESP_OK(esp_timer_create(&timer_args, &timer));
@ -668,7 +665,7 @@ TEST_CASE("Can start/stop timer from ISR context", "[esp_timer]")
esp_register_freertos_tick_hook(test_tick_hook);
TEST_ASSERT(xSemaphoreTake(sem, portMAX_DELAY));
esp_deregister_freertos_tick_hook(test_tick_hook);
TEST_ESP_OK( esp_timer_delete(timer1) );
TEST_ESP_OK(esp_timer_delete(timer1));
vSemaphoreDelete(sem);
}
@ -750,7 +747,6 @@ TEST_CASE("esp_timer_impl_set_alarm does not set an alarm below the current time
TEST_ASSERT(time_jumped == false);
}
static esp_timer_handle_t oneshot_timer;
static void oneshot_timer_callback(void* arg)
@ -820,7 +816,6 @@ TEST_CASE("Test case when esp_timer_impl_set_alarm needs set timer < now_time",
TEST_ASSERT(alarm_reg <= (count_reg + offset));
}
static void timer_callback5(void* arg)
{
*(int64_t *)arg = esp_timer_get_time();
@ -875,9 +870,9 @@ TEST_CASE("periodic esp_timer can be restarted", "[esp_timer]")
int timer_trig = 0;
esp_timer_handle_t timer1;
esp_timer_create_args_t create_args = {
.callback = &test_timer_triggered,
.arg = &timer_trig,
.name = "timer1",
.callback = &test_timer_triggered,
.arg = &timer_trig,
.name = "timer1",
};
TEST_ESP_OK(esp_timer_create(&create_args, &timer1));
TEST_ESP_OK(esp_timer_start_periodic(timer1, delay_ms * 1000));
@ -907,8 +902,8 @@ TEST_CASE("periodic esp_timer can be restarted", "[esp_timer]")
/* Check that the alarm was triggered twice */
TEST_ASSERT_EQUAL(2, timer_trig);
TEST_ESP_OK( esp_timer_stop(timer1) );
TEST_ESP_OK( esp_timer_delete(timer1) );
TEST_ESP_OK(esp_timer_stop(timer1));
TEST_ESP_OK(esp_timer_delete(timer1));
}
TEST_CASE("one-shot esp_timer can be restarted", "[esp_timer]")
@ -917,9 +912,9 @@ TEST_CASE("one-shot esp_timer can be restarted", "[esp_timer]")
int timer_trig = 0;
esp_timer_handle_t timer1;
esp_timer_create_args_t create_args = {
.callback = &test_timer_triggered,
.arg = &timer_trig,
.name = "timer1",
.callback = &test_timer_triggered,
.arg = &timer_trig,
.name = "timer1",
};
TEST_ESP_OK(esp_timer_create(&create_args, &timer1));
TEST_ESP_OK(esp_timer_start_once(timer1, delay_ms * 1000));
@ -942,10 +937,9 @@ TEST_CASE("one-shot esp_timer can be restarted", "[esp_timer]")
/* Make sure the timer was triggered */
TEST_ASSERT_EQUAL(0, timer_trig);
TEST_ESP_OK( esp_timer_delete(timer1) );
TEST_ESP_OK(esp_timer_delete(timer1));
}
#ifdef CONFIG_ESP_TIMER_SUPPORTS_ISR_DISPATCH_METHOD
static int64_t old_time[2];
@ -967,7 +961,7 @@ static void timer_isr_callback(void* arg)
TEST_CASE("Test ESP_TIMER_ISR dispatch method", "[esp_timer]")
{
TEST_ESP_OK(esp_timer_dump(stdout));
int timer[2]= {0, 1};
int timer[2] = {0, 1};
const esp_timer_create_args_t periodic_timer1_args = {
.callback = &timer_isr_callback,
.dispatch_method = ESP_TIMER_ISR,
@ -1222,7 +1216,8 @@ volatile uint64_t isr_t1;
const uint64_t period_task_ms = 200;
const uint64_t period_isr_ms = 20;
void task_timer_cb(void *arg) {
void task_timer_cb(void *arg)
{
uint64_t t2 = esp_timer_get_time();
uint64_t dt_task_ms = (t2 - task_t1) / 1000;
task_t1 = t2;
@ -1236,7 +1231,8 @@ void task_timer_cb(void *arg) {
}
}
void IRAM_ATTR isr_timer_cb(void *arg) {
void IRAM_ATTR isr_timer_cb(void *arg)
{
uint64_t t2 = esp_timer_get_time();
uint64_t dt_isr_ms = (t2 - isr_t1) / 1000;
isr_t1 = t2;

10
components/esp_timer/test_apps/main/test_esp_timer_light_sleep.c
Wyświetl plik

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -25,10 +25,10 @@ TEST_CASE("Test the periodic timer does not handle lost events during light slee
int count_calls;
const esp_timer_create_args_t timer_args = {
.name = "timer_cb1",
.arg = &count_calls,
.callback = &timer_cb1,
.skip_unhandled_events = true,
.name = "timer_cb1",
.arg = &count_calls,
.callback = &timer_cb1,
.skip_unhandled_events = true,
};
esp_timer_handle_t periodic_timer;
esp_timer_create(&timer_args, &periodic_timer);

42
components/esp_timer/test_apps/main/test_ets_timer.c
Wyświetl plik

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -123,7 +123,7 @@ static void test_timers_ordered_correctly_timer_func(void* arg)
size_t count = p_args->common->count;
int expected_index = p_args->common->order[count];
printf("At count %d, expected timer %d, got timer %d\n",
count, expected_index, p_args->timer_index);
count, expected_index, p_args->timer_index);
if (expected_index != p_args->timer_index) {
p_args->pass = false;
ets_timer_disarm(p_args->timer);
@ -138,7 +138,7 @@ static void test_timers_ordered_correctly_timer_func(void* arg)
}
int next_interval = p_args->intervals[p_args->intervals_count];
printf("timer %d interval #%d, %d ms\n",
p_args->timer_index, p_args->intervals_count, next_interval);
p_args->timer_index, p_args->intervals_count, next_interval);
ets_timer_arm(p_args->timer, next_interval, false);
}
@ -156,30 +156,30 @@ TEST_CASE("multiple ETSTimers are ordered correctly", "[ets_timer]")
SemaphoreHandle_t done = xSemaphoreCreateCounting(3, 0);
test_timers_ordered_correctly_args_t args1 = {
.timer_index = 1,
.intervals = {10, 40, 20, 40, 30},
.timer = &timer1,
.common = &common,
.pass = true,
.done = done
.timer_index = 1,
.intervals = {10, 40, 20, 40, 30},
.timer = &timer1,
.common = &common,
.pass = true,
.done = done
};
test_timers_ordered_correctly_args_t args2 = {
.timer_index = 2,
.intervals = {20, 20, 60, 30, 40},
.timer = &timer2,
.common = &common,
.pass = true,
.done = done
.timer_index = 2,
.intervals = {20, 20, 60, 30, 40},
.timer = &timer2,
.common = &common,
.pass = true,
.done = done
};
test_timers_ordered_correctly_args_t args3 = {
.timer_index = 3,
.intervals = {30, 30, 60, 30, 10},
.timer = &timer3,
.common = &common,
.pass = true,
.done = done
.timer_index = 3,
.intervals = {30, 30, 60, 30, 10},
.timer = &timer3,
.common = &common,
.pass = true,
.done = done
};
ets_timer_setfn(&timer1, &test_timers_ordered_correctly_timer_func, &args1);

1
components/linux/getrandom.c
Wyświetl plik

@ -10,7 +10,6 @@
#include <stdint.h>
#include <unistd.h>
// getrandom() is not available on macOS, so we read from /dev/urandom instead.
int getrandom(void *buf, size_t buflen, unsigned int flags)

3
components/linux/include/sys/lock.h
Wyświetl plik

@ -12,13 +12,11 @@
extern "C" {
#endif
/* newlib locks implementation for CONFIG_IDF_TARGET_LINUX, single threaded.
* Note, currently this doesn't implement the functions required
* when _RETARGETABLE_LOCKING is defined. They should be added.
*/
/* Compatibility definitions for legacy newlib locking functions */
typedef int _lock_t;
@ -39,7 +37,6 @@ static inline int _lock_try_acquire_recursive(_lock_t *plock)
static inline void _lock_release(_lock_t *plock) {}
static inline void _lock_release_recursive(_lock_t *plock) {}
#ifdef __cplusplus
}
#endif

4
components/log/include/esp_log.h
Wyświetl plik

@ -159,7 +159,7 @@ uint32_t esp_log_early_timestamp(void);
*
* This function or these macros should not be used from an interrupt.
*/
void esp_log_write(esp_log_level_t level, const char* tag, const char* format, ...) __attribute__ ((format (printf, 3, 4)));
void esp_log_write(esp_log_level_t level, const char* tag, const char* format, ...) __attribute__((format(printf, 3, 4)));
/**
* @brief Write message into the log, va_list variant
@ -279,7 +279,6 @@ void esp_log_writev(esp_log_level_t level, const char* tag, const char* format,
#define esp_log_buffer_hex ESP_LOG_BUFFER_HEX
#define esp_log_buffer_char ESP_LOG_BUFFER_CHAR
#if CONFIG_LOG_COLORS
#define LOG_COLOR_BLACK "30"
#define LOG_COLOR_RED "31"
@ -523,5 +522,4 @@ void esp_log_writev(esp_log_level_t level, const char* tag, const char* format,
}
#endif
#endif /* __ESP_LOG_H__ */

2
components/log/include/esp_log_internal.h
Wyświetl plik

@ -10,6 +10,6 @@
//these functions do not check level versus ESP_LOCAL_LEVEL, this should be done in esp_log.h
void esp_log_buffer_hex_internal(const char *tag, const void *buffer, uint16_t buff_len, esp_log_level_t level);
void esp_log_buffer_char_internal(const char *tag, const void *buffer, uint16_t buff_len, esp_log_level_t level);
void esp_log_buffer_hexdump_internal( const char *tag, const void *buffer, uint16_t buff_len, esp_log_level_t log_level);
void esp_log_buffer_hexdump_internal(const char *tag, const void *buffer, uint16_t buff_len, esp_log_level_t log_level);
#endif

10
components/log/log.c
Wyświetl plik

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2015-2021 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -76,7 +76,6 @@ static vprintf_like_t s_log_print_func = &vprintf;
static uint32_t s_log_cache_misses = 0;
#endif
static inline bool get_cached_log_level(const char *tag, esp_log_level_t *level);
static inline bool get_uncached_log_level(const char *tag, esp_log_level_t *level);
static inline void add_to_cache(const char *tag, esp_log_level_t level);
@ -156,7 +155,6 @@ void esp_log_level_set(const char *tag, esp_log_level_t level)
esp_log_impl_unlock();
}
/* Common code for getting the log level from cache, esp_log_impl_lock()
should be called before calling this function. The function unlocks,
as indicated in the name.
@ -200,9 +198,9 @@ void clear_log_level_list(void)
}
void esp_log_writev(esp_log_level_t level,
const char *tag,
const char *format,
va_list args)
const char *tag,
const char *format,
va_list args)
{
if (!esp_log_impl_lock_timeout()) {
return;

3
components/log/log_buffers.c
Wyświetl plik

@ -13,7 +13,8 @@
#ifndef CONFIG_IDF_TARGET_LINUX
#include "esp_memory_utils.h" // for esp_ptr_byte_accessible
#else
static inline bool esp_ptr_byte_accessible(const void* ptr) {
static inline bool esp_ptr_byte_accessible(const void* ptr)
{
(void) ptr;
return true;
}

1
components/log/log_freertos.c
Wyświetl plik

@ -15,7 +15,6 @@
#include "esp_log.h"
#include "esp_log_private.h"
// Maximum time to wait for the mutex in a logging statement.
//
// We don't expect this to happen in most cases, as contention is low. The most likely case is if a

1
components/log/test_apps/main/test_log.c
Wyświetl plik

@ -13,7 +13,6 @@
#include "esp_timer.h"
#include "sdkconfig.h"
static const char * TAG = "log_test";
static int calc_time_of_logging(int iterations)

3
tools/ci/astyle-rules.yml
Wyświetl plik

@ -68,7 +68,6 @@ components_not_formatted_temporary:
- "/components/esp_phy/"
- "/components/esp_pm/"
- "/components/esp_rom/"
- "/components/esp_timer/"
- "/components/esp_wifi/"
- "/components/esp-tls/"
- "/components/espcoredump/"
@ -80,8 +79,6 @@ components_not_formatted_temporary:
- "/components/idf_test/"
- "/components/ieee802154/"
- "/components/json/"
- "/components/linux/"
- "/components/log/"
- "/components/lwip/"
- "/components/mbedtls/"
- "/components/mqtt/"