esp-idf/components/lwip/apps/sntp/sntp.c
David Cermak 5b75693522 esp_netif/lwip: Fix core-locking config (v5.0)
* Fix thread safety issues in non-core locking
* Add option to verify thread safety issues in lwip (core-lock assertion)
* Make esp_sntp.h thread safe API
* Fix sntp examples

Closes https://github.com/espressif/esp-idf/issues/9908
Closes https://github.com/espressif/esp-idf/issues/10502
Closes https://github.com/espressif/esp-idf/issues/10466
2023-03-21 11:09:56 +01:00

231 lines
5.8 KiB
C

/*
* SPDX-FileCopyrightText: 2015-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdlib.h>
#include <time.h>
#include <unistd.h>
#include <sys/time.h>
#include "esp_log.h"
#include "esp_sntp.h"
#include "lwip/tcpip.h"
static const char *TAG = "sntp";
ESP_STATIC_ASSERT(SNTP_OPMODE_POLL == ESP_SNTP_OPMODE_POLL, "SNTP mode in lwip doesn't match the IDF enum. Please make sure lwIP version is correct");
ESP_STATIC_ASSERT(SNTP_OPMODE_LISTENONLY == ESP_SNTP_OPMODE_LISTENONLY, "SNTP mode in lwip doesn't match the IDF enum. Please make sure lwIP version is correct");
static volatile sntp_sync_mode_t sntp_sync_mode = SNTP_SYNC_MODE_IMMED;
static volatile sntp_sync_status_t sntp_sync_status = SNTP_SYNC_STATUS_RESET;
static sntp_sync_time_cb_t time_sync_notification_cb = NULL;
static uint32_t s_sync_interval = CONFIG_LWIP_SNTP_UPDATE_DELAY;
inline void sntp_set_sync_status(sntp_sync_status_t sync_status)
{
sntp_sync_status = sync_status;
}
void __attribute__((weak)) sntp_sync_time(struct timeval *tv)
{
if (sntp_sync_mode == SNTP_SYNC_MODE_IMMED) {
settimeofday(tv, NULL);
sntp_set_sync_status(SNTP_SYNC_STATUS_COMPLETED);
} else if (sntp_sync_mode == SNTP_SYNC_MODE_SMOOTH) {
struct timeval tv_now;
gettimeofday(&tv_now, NULL);
int64_t cpu_time = (int64_t)tv_now.tv_sec * 1000000L + (int64_t)tv_now.tv_usec;
int64_t sntp_time = (int64_t)tv->tv_sec * 1000000L + (int64_t)tv->tv_usec;
int64_t delta = sntp_time - cpu_time;
struct timeval tv_delta = { .tv_sec = delta / 1000000L, .tv_usec = delta % 1000000L };
if (adjtime(&tv_delta, NULL) == -1) {
ESP_LOGD(TAG, "Function adjtime don't update time because the error is very big");
settimeofday(tv, NULL);
ESP_LOGD(TAG, "Time was synchronized through settimeofday");
sntp_set_sync_status(SNTP_SYNC_STATUS_COMPLETED);
} else {
sntp_set_sync_status(SNTP_SYNC_STATUS_IN_PROGRESS);
}
}
if (time_sync_notification_cb) {
time_sync_notification_cb(tv);
}
}
void sntp_set_sync_mode(sntp_sync_mode_t sync_mode)
{
sntp_sync_mode = sync_mode;
}
sntp_sync_mode_t sntp_get_sync_mode(void)
{
return sntp_sync_mode;
}
// set a callback function for time synchronization notification
void sntp_set_time_sync_notification_cb(sntp_sync_time_cb_t callback)
{
time_sync_notification_cb = callback;
}
sntp_sync_status_t sntp_get_sync_status(void)
{
sntp_sync_status_t ret_sync_status = SNTP_SYNC_STATUS_RESET;
sntp_sync_status_t sync_status = sntp_sync_status;
if (sync_status == SNTP_SYNC_STATUS_COMPLETED) {
sntp_set_sync_status(SNTP_SYNC_STATUS_RESET);
ret_sync_status = SNTP_SYNC_STATUS_COMPLETED;
} else if (sync_status == SNTP_SYNC_STATUS_IN_PROGRESS) {
struct timeval outdelta;
adjtime(NULL, &outdelta);
if (outdelta.tv_sec == 0 && outdelta.tv_usec == 0) {
sntp_set_sync_status(SNTP_SYNC_STATUS_RESET);
ret_sync_status = SNTP_SYNC_STATUS_COMPLETED;
} else {
ret_sync_status = SNTP_SYNC_STATUS_IN_PROGRESS;
}
}
return ret_sync_status;
}
void sntp_set_sync_interval(uint32_t interval_ms)
{
if (interval_ms < 15000) {
// SNTPv4 RFC 4330 enforces a minimum update time of 15 seconds
interval_ms = 15000;
}
s_sync_interval = interval_ms;
}
uint32_t sntp_get_sync_interval(void)
{
return s_sync_interval;
}
static void sntp_do_restart(void *ctx)
{
(void)ctx;
sntp_stop();
sntp_init();
}
bool sntp_restart(void)
{
if (sntp_enabled()) {
tcpip_callback(sntp_do_restart, NULL);
return true;
}
return false;
}
void sntp_set_system_time(uint32_t sec, uint32_t us)
{
struct timeval tv = { .tv_sec = sec, .tv_usec = us };
sntp_sync_time(&tv);
}
void sntp_get_system_time(uint32_t *sec, uint32_t *us)
{
struct timeval tv = { .tv_sec = 0, .tv_usec = 0 };
gettimeofday(&tv, NULL);
*(sec) = tv.tv_sec;
*(us) = tv.tv_usec;
sntp_set_sync_status(SNTP_SYNC_STATUS_RESET);
}
static void do_setoperatingmode(void *ctx)
{
esp_sntp_operatingmode_t operating_mode = (esp_sntp_operatingmode_t)ctx;
sntp_setoperatingmode(operating_mode);
}
void esp_sntp_setoperatingmode(esp_sntp_operatingmode_t operating_mode)
{
tcpip_callback(do_setoperatingmode, (void*)operating_mode);
}
static void do_init(void *ctx)
{
sntp_init();
}
void esp_sntp_init(void)
{
tcpip_callback(do_init, NULL);
}
static void do_stop(void *ctx)
{
sntp_stop();
}
void esp_sntp_stop(void)
{
tcpip_callback(do_stop, NULL);
}
struct do_setserver {
u8_t idx;
const ip_addr_t *addr;
};
static void do_setserver(void *ctx)
{
struct do_setserver *params = ctx;
sntp_setserver(params->idx, params->addr);
}
void esp_sntp_setserver(u8_t idx, const ip_addr_t *addr)
{
struct do_setserver params = {
.idx = idx,
.addr = addr
};
tcpip_callback(do_setserver, &params);
}
struct do_setservername {
u8_t idx;
const char *server;
};
static void do_setservername(void *ctx)
{
struct do_setservername *params = ctx;
sntp_setservername(params->idx, params->server);
}
void esp_sntp_setservername(u8_t idx, const char *server)
{
struct do_setservername params = {
.idx = idx,
.server = server
};
tcpip_callback(do_setservername, &params);
}
const char *esp_sntp_getservername(u8_t idx)
{
return sntp_getservername(idx);
}
const ip_addr_t* esp_sntp_getserver(u8_t idx)
{
return sntp_getserver(idx);
}
#if LWIP_DHCP_GET_NTP_SRV
static void do_servermode_dhcp(void* ctx)
{
u8_t servermode = (bool)ctx ? 1 : 0;
sntp_servermode_dhcp(servermode);
}
void esp_sntp_servermode_dhcp(bool enable)
{
tcpip_callback(do_servermode_dhcp, (void*)enable);
}
#endif /* LWIP_DHCP_GET_NTP_SRV */