feat(uart): support uart module sleep retention on c6/h2/p4

This commit is contained in:
Song Ruo Jing 2024-05-15 19:07:58 +08:00
parent 13e5b6f335
commit dca7c286d0
66 changed files with 707 additions and 277 deletions

View File

@ -46,6 +46,13 @@ typedef struct {
lp_uart_sclk_t lp_source_clk; /*!< LP_UART source clock selection */
#endif
};
struct {
#if SOC_UART_SUPPORT_SLEEP_RETENTION
uint32_t backup_before_sleep: 1; /*!< If set, the driver will backup/restore the HP UART registers before entering/after exiting sleep mode.
By this approach, the system can power off HP UART's power domain.
This can save power, but at the expense of more RAM being consumed */
#endif
} flags; /*!< Configuration flags */
} uart_config_t;
/**

View File

@ -5,6 +5,7 @@
*/
#include <string.h>
#include <sys/param.h>
#include <sys/lock.h>
#include "esp_types.h"
#include "esp_attr.h"
#include "esp_intr_alloc.h"
@ -32,6 +33,7 @@
#include "esp_rom_gpio.h"
#include "clk_ctrl_os.h"
#include "esp_pm.h"
#include "esp_private/sleep_retention.h"
#ifdef CONFIG_UART_ISR_IN_IRAM
#define UART_ISR_ATTR IRAM_ATTR
@ -95,10 +97,11 @@ static const char *UART_TAG = "uart";
// Check actual UART mode set
#define UART_IS_MODE_SET(uart_number, mode) ((p_uart_obj[uart_number]->uart_mode == mode))
#define UART_CONTEXT_INIT_DEF(uart_num) {\
.hal.dev = UART_LL_GET_HW(uart_num),\
INIT_CRIT_SECTION_LOCK_IN_STRUCT(spinlock)\
.hw_enabled = false,\
#define UART_CONTEXT_INIT_DEF(uart_num) { \
.port_id = uart_num, \
.hal.dev = UART_LL_GET_HW(uart_num), \
INIT_CRIT_SECTION_LOCK_IN_STRUCT(spinlock) \
.hw_enabled = false, \
}
typedef struct {
@ -155,9 +158,15 @@ typedef struct {
} uart_obj_t;
typedef struct {
_lock_t mutex; /*!< Protect uart_module_enable, uart_module_disable, retention, etc. */
uart_port_t port_id;
uart_hal_context_t hal; /*!< UART hal context*/
DECLARE_CRIT_SECTION_LOCK_IN_STRUCT(spinlock)
bool hw_enabled;
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
bool retention_link_inited; /*!< Mark whether the retention link is inited */
bool retention_link_created; /*!< Mark whether the retention link is created */
#endif
} uart_context_t;
static uart_obj_t *p_uart_obj[UART_NUM_MAX] = {0};
@ -181,9 +190,13 @@ static uart_context_t uart_context[UART_NUM_MAX] = {
static portMUX_TYPE uart_selectlock = portMUX_INITIALIZER_UNLOCKED;
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
static esp_err_t uart_create_sleep_retention_link_cb(void *arg);
#endif
static void uart_module_enable(uart_port_t uart_num)
{
UART_ENTER_CRITICAL(&(uart_context[uart_num].spinlock));
_lock_acquire(&(uart_context[uart_num].mutex));
if (uart_context[uart_num].hw_enabled != true) {
if (uart_num < SOC_UART_HP_NUM) {
HP_UART_BUS_CLK_ATOMIC() {
@ -194,6 +207,28 @@ static void uart_module_enable(uart_port_t uart_num)
uart_ll_reset_register(uart_num);
}
}
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
// Initialize sleep retention module for HP UART
if (uart_num != CONFIG_ESP_CONSOLE_UART_NUM) { // Console uart retention has been taken care in sleep_sys_periph_stdout_console_uart_retention_init
assert(!uart_context[uart_num].retention_link_inited);
sleep_retention_module_t module = UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num);
sleep_retention_module_init_param_t init_param = {
.cbs = {
.create = {
.handle = uart_create_sleep_retention_link_cb,
.arg = &uart_context[uart_num],
},
},
.depends = BIT(SLEEP_RETENTION_MODULE_CLOCK_SYSTEM),
};
if (sleep_retention_module_init(module, &init_param) == ESP_OK) {
uart_context[uart_num].retention_link_inited = true;
} else {
ESP_LOGW(UART_TAG, "init sleep retention failed for uart%d, power domain may be turned off during sleep", uart_num);
}
}
#endif
}
#if (SOC_UART_LP_NUM >= 1)
else {
@ -205,14 +240,24 @@ static void uart_module_enable(uart_port_t uart_num)
#endif
uart_context[uart_num].hw_enabled = true;
}
UART_EXIT_CRITICAL(&(uart_context[uart_num].spinlock));
_lock_release(&(uart_context[uart_num].mutex));
}
static void uart_module_disable(uart_port_t uart_num)
{
UART_ENTER_CRITICAL(&(uart_context[uart_num].spinlock));
_lock_acquire(&(uart_context[uart_num].mutex));
if (uart_context[uart_num].hw_enabled != false) {
if (uart_num != CONFIG_ESP_CONSOLE_UART_NUM && uart_num < SOC_UART_HP_NUM) {
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
// Uninitialize sleep retention module for HP UART
sleep_retention_module_t module = UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num);
assert(!uart_context[uart_num].retention_link_created); // HP UART sleep retention should have been freed at this moment
if (uart_context[uart_num].retention_link_inited) {
sleep_retention_module_deinit(module);
uart_context[uart_num].retention_link_inited = false;
}
#endif
HP_UART_BUS_CLK_ATOMIC() {
uart_ll_enable_bus_clock(uart_num, false);
}
@ -226,7 +271,7 @@ static void uart_module_disable(uart_port_t uart_num)
#endif
uart_context[uart_num].hw_enabled = false;
}
UART_EXIT_CRITICAL(&(uart_context[uart_num].spinlock));
_lock_release(&(uart_context[uart_num].mutex));
}
esp_err_t uart_get_sclk_freq(uart_sclk_t sclk, uint32_t *out_freq_hz)
@ -799,6 +844,31 @@ esp_err_t uart_param_config(uart_port_t uart_num, const uart_config_t *uart_conf
uart_module_enable(uart_num);
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
// Create sleep retention link if desired
if (uart_num != CONFIG_ESP_CONSOLE_UART_NUM && uart_num < SOC_UART_HP_NUM) {
_lock_acquire(&(uart_context[uart_num].mutex));
sleep_retention_module_t module = UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num);
if (uart_config->flags.backup_before_sleep && !uart_context[uart_num].retention_link_created) {
if (uart_context[uart_num].retention_link_inited) {
if (sleep_retention_module_allocate(module) == ESP_OK) {
uart_context[uart_num].retention_link_created = true;
} else {
// Even though the sleep retention module create failed, UART driver should still work, so just warning here
ESP_LOGW(UART_TAG, "create retention module failed, power domain can't turn off");
}
} else {
ESP_LOGW(UART_TAG, "retention module not initialized first, unable to create retention module");
}
} else if (!uart_config->flags.backup_before_sleep && uart_context[uart_num].retention_link_created) {
assert(uart_context[uart_num].retention_link_inited);
sleep_retention_module_free(module);
uart_context[uart_num].retention_link_created = false;
}
_lock_release(&(uart_context[uart_num].mutex));
}
#endif
soc_module_clk_t uart_sclk_sel = 0; // initialize to an invalid module clock ID
if (uart_num < SOC_UART_HP_NUM) {
uart_sclk_sel = (soc_module_clk_t)((uart_config->source_clk) ? uart_config->source_clk : UART_SCLK_DEFAULT); // if no specifying the clock source (soc_module_clk_t starts from 1), then just use the default clock
@ -1712,6 +1782,20 @@ esp_err_t uart_driver_delete(uart_port_t uart_num)
periph_rtc_dig_clk8m_disable();
}
#endif
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
// Free sleep retention link for HP UART
if (uart_num != CONFIG_ESP_CONSOLE_UART_NUM && uart_num < SOC_UART_HP_NUM) {
sleep_retention_module_t module = UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num);
_lock_acquire(&(uart_context[uart_num].mutex));
if (uart_context[uart_num].retention_link_created) {
assert(uart_context[uart_num].retention_link_inited);
sleep_retention_module_free(module);
uart_context[uart_num].retention_link_created = false;
}
_lock_release(&(uart_context[uart_num].mutex));
}
#endif
uart_module_disable(uart_num);
return ESP_OK;
}
@ -1867,3 +1951,17 @@ void uart_set_always_rx_timeout(uart_port_t uart_num, bool always_rx_timeout)
p_uart_obj[uart_num]->rx_always_timeout_flg = false;
}
}
#if SOC_UART_SUPPORT_SLEEP_RETENTION && CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP
static esp_err_t uart_create_sleep_retention_link_cb(void *arg)
{
uart_context_t *group = (uart_context_t *)arg;
uart_port_t uart_num = group->port_id;
sleep_retention_module_t module = UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num);
esp_err_t err = sleep_retention_entries_create(uart_reg_retention_info[uart_num].regdma_entry_array,
uart_reg_retention_info[uart_num].array_size,
REGDMA_LINK_PRI_UART, module);
ESP_RETURN_ON_ERROR(err, UART_TAG, "create retention link failed");
return ESP_OK;
}
#endif

View File

@ -1,7 +1,19 @@
set(srcs "test_app_main.c"
"test_uart.c")
if(CONFIG_PM_ENABLE)
list(APPEND srcs "test_uart_auto_lightsleep.c")
endif()
# Only if the target supports uart retention and the sdkconfig.ci.xxx contains at least PM_ENABLE=y
if(CONFIG_SOC_UART_SUPPORT_SLEEP_RETENTION AND CONFIG_PM_ENABLE)
list(APPEND srcs "test_uart_retention.c")
endif()
# In order for the cases defined by `TEST_CASE` to be linked into the final elf,
# the component can be registered as WHOLE_ARCHIVE
idf_component_register(
SRCS "test_app_main.c" "test_uart.c" "test_uart_auto_lightsleep.c"
SRCS ${srcs}
REQUIRES esp_driver_uart unity esp_psram test_utils esp_driver_gpio esp_pm
PRIV_INCLUDE_DIRS .
WHOLE_ARCHIVE

View File

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2021-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -27,15 +27,14 @@
#if CONFIG_XTAL_FREQ_40
#define MIN_FREQ 10
#elif CONFIG_XTAL_FREQ_48
#define MIN_FREQ 12
#elif CONFIG_XTAL_FREQ_32
#define MIN_FREQ 8
#elif CONFIG_XTAL_FREQ_26
#define MIN_FREQ 13
#endif
#if !TEMPORARY_DISABLED_FOR_TARGETS(ESP32P4)
#if CONFIG_PM_ENABLE
TEST_CASE("uart tx won't be blocked by auto light sleep", "[uart]")
{
uart_port_param_t port_param = {};
@ -82,10 +81,8 @@ TEST_CASE("uart tx won't be blocked by auto light sleep", "[uart]")
uart_driver_delete(port_num);
free(data);
#if CONFIG_PM_POWER_DOWN_CPU_IN_LIGHT_SLEEP
//When PD_CPU enabled, retention may cause 14K memory leak. Workaround to release the memory
sleep_cpu_configure(false);
#if CONFIG_FREERTOS_USE_TICKLESS_IDLE
pm_config.light_sleep_enable = false;
TEST_ESP_OK(esp_pm_configure(&pm_config));
#endif
}
#endif // CONFIG_PM_ENABLE
#endif //!TEMPORARY_DISABLED_FOR_TARGETS(ESP32P4)

View File

@ -0,0 +1,148 @@
/*
* SPDX-FileCopyrightText: 2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <string.h>
#include "sdkconfig.h"
#include "unity.h"
#include "driver/uart.h"
#include "esp_pm.h"
#include "esp_private/sleep_cpu.h"
#include "esp_clk_tree.h"
#include "esp_sleep.h"
// UART retention test only need to be done on HP UART
static const uart_port_t uart_num = UART_NUM_1;
static void uart_init(bool backup_before_sleep)
{
uart_config_t uart_config = {
.baud_rate = 115200,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_DISABLE,
.source_clk = UART_SCLK_DEFAULT,
.flags.backup_before_sleep = backup_before_sleep,
};
TEST_ESP_OK(uart_driver_install(uart_num, 256, 0, 20, NULL, 0));
TEST_ESP_OK(uart_param_config(uart_num, &uart_config));
TEST_ESP_OK(uart_set_loop_back(uart_num, true));
}
TEST_CASE("uart restored correctly after auto light sleep", "[uart][hp-uart-only]")
{
// Configure dynamic frequency scaling:
// maximum and minimum frequencies are set in sdkconfig,
// automatic light sleep is enabled if tickless idle support is enabled.
uint32_t xtal_hz = 0;
esp_clk_tree_src_get_freq_hz(SOC_MOD_CLK_XTAL, ESP_CLK_TREE_SRC_FREQ_PRECISION_EXACT, &xtal_hz);
esp_pm_config_t pm_config = {
.max_freq_mhz = CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ,
.min_freq_mhz = xtal_hz / 1000000,
#if CONFIG_FREERTOS_USE_TICKLESS_IDLE
.light_sleep_enable = true,
#endif
};
TEST_ESP_OK(esp_pm_configure(&pm_config));
uart_init(true);
// Ensure UART is fully idle before starting loopback RX/TX test
TEST_ESP_OK(uart_wait_tx_done(uart_num, portMAX_DELAY));
vTaskDelay(pdMS_TO_TICKS(20)); // make sure last byte has flushed from TX FIFO
TEST_ESP_OK(uart_flush_input(uart_num));
for (int i = 0; i < 5; i++) {
char tx_data[20] = {0};
char rx_data[20] = {0};
int len = sprintf(tx_data, "Hello World %d!\n", i);
uart_write_bytes(uart_num, tx_data, len);
int size = 0;
// Polling to read the data back to avoid getting into auto light sleep
while (size < len) {
int bytes = uart_read_bytes(uart_num, (void *)((uint32_t)rx_data + size), 1, 0);
size += bytes;
}
rx_data[len] = '\0';
printf("%s", rx_data);
TEST_ASSERT_TRUE(strcmp(tx_data, rx_data) == 0);
vTaskDelay(pdMS_TO_TICKS(1000)); // auto light sleep
}
TEST_ESP_OK(uart_driver_delete(uart_num));
pm_config.light_sleep_enable = false;
TEST_ESP_OK(esp_pm_configure(&pm_config));
}
TEST_CASE("uart restored correctly after manually enter light sleep", "[uart][hp-uart-only]")
{
// Prepare a TOP PD sleep
TEST_ESP_OK(esp_sleep_enable_timer_wakeup(1 * 1000 * 1000));
sleep_cpu_configure(true);
uart_init(true);
// Ensure UART is fully idle before starting loopback RX/TX test
TEST_ESP_OK(uart_wait_tx_done(uart_num, portMAX_DELAY));
vTaskDelay(pdMS_TO_TICKS(20)); // make sure last byte has flushed from TX FIFO
TEST_ESP_OK(uart_flush_input(uart_num));
for (int i = 0; i < 5; i++) {
char tx_data[20] = {0};
char rx_data[20] = {0};
int len = sprintf(tx_data, "Hello World %d!\n", i);
uart_write_bytes(uart_num, tx_data, len);
int size = uart_read_bytes(uart_num, rx_data, len, pdMS_TO_TICKS(20));
TEST_ASSERT_EQUAL(len, size);
rx_data[len] = '\0';
printf("%s", rx_data);
TEST_ASSERT_TRUE(strcmp(tx_data, rx_data) == 0);
printf("Going into sleep...\n");
TEST_ESP_OK(esp_light_sleep_start());
printf("Waked up!\n");
}
TEST_ESP_OK(uart_driver_delete(uart_num));
TEST_ESP_OK(sleep_cpu_configure(false));
}
TEST_CASE("uart won't be powered down in light sleep if retention not created", "[uart][hp-uart-only]")
{
// Prepare a TOP PD sleep
TEST_ESP_OK(esp_sleep_enable_timer_wakeup(1 * 1000 * 1000));
sleep_cpu_configure(true);
uart_init(false); // backup_before_sleep set to false, sleep retention module will be inited, but not created
// Ensure UART is fully idle before starting loopback RX/TX test
TEST_ESP_OK(uart_wait_tx_done(uart_num, portMAX_DELAY));
vTaskDelay(pdMS_TO_TICKS(20)); // make sure last byte has flushed from TX FIFO
TEST_ESP_OK(uart_flush_input(uart_num));
for (int i = 0; i < 3; i++) {
char tx_data[20] = {0};
char rx_data[20] = {0};
int len = sprintf(tx_data, "Hello World %d!\n", i);
uart_write_bytes(uart_num, tx_data, len);
int size = uart_read_bytes(uart_num, rx_data, len, pdMS_TO_TICKS(20));
TEST_ASSERT_EQUAL(len, size);
rx_data[len] = '\0';
printf("%s", rx_data);
TEST_ASSERT_TRUE(strcmp(tx_data, rx_data) == 0);
printf("Going into sleep...\n");
TEST_ESP_OK(esp_light_sleep_start()); // sleep without powering down TOP domain
printf("Waked up!\n");
}
TEST_ESP_OK(uart_driver_delete(uart_num));
TEST_ESP_OK(sleep_cpu_configure(false));
}

View File

@ -28,15 +28,18 @@ input_argv = {
def test_uart_single_dev(case_tester) -> None: # type: ignore
dut = case_tester.first_dut
chip_type = dut.app.target
for uart_port in input_argv.get(chip_type, []):
for case in case_tester.test_menu:
dut.serial.hard_reset()
dut._get_ready()
dut.confirm_write(case.index, expect_str=f'Running {case.name}...')
for case in case_tester.test_menu:
if 'hp-uart-only' not in case.groups:
for uart_port in input_argv.get(chip_type, []):
dut.serial.hard_reset()
dut._get_ready()
dut.confirm_write(case.index, expect_str=f'Running {case.name}...')
dut.expect("select to test 'uart' or 'lp_uart' port", timeout=10)
dut.write(f'{uart_port}')
dut.expect_unity_test_output()
dut.expect("select to test 'uart' or 'lp_uart' port", timeout=10)
dut.write(f'{uart_port}')
dut.expect_unity_test_output()
else:
dut._run_normal_case(case, reset=True)
@pytest.mark.esp32s3

View File

@ -1,5 +1,6 @@
CONFIG_PM_ENABLE=y
CONFIG_FREERTOS_USE_TICKLESS_IDLE=y
CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP=y
CONFIG_COMPILER_OPTIMIZATION_SIZE=y
CONFIG_BOOTLOADER_COMPILER_OPTIMIZATION_SIZE=y
CONFIG_COMPILER_OPTIMIZATION_ASSERTIONS_SILENT=y

View File

@ -9,7 +9,7 @@
#include "esp_heap_caps.h"
// Some resources are lazy allocated, the threadhold is left for that case
#define TEST_MEMORY_LEAK_THRESHOLD (400)
#define TEST_MEMORY_LEAK_THRESHOLD (500)
void setUp(void)
{

View File

@ -980,7 +980,7 @@ static esp_err_t IRAM_ATTR esp_sleep_start(uint32_t pd_flags, esp_sleep_mode_t m
/* On esp32c6, only the lp_aon pad hold function can only hold the GPIO state in the active mode.
In order to avoid the leakage of the SPI cs pin, hold it here */
#if (CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP && CONFIG_ESP_SLEEP_FLASH_LEAKAGE_WORKAROUND)
#if !CONFIG_IDF_TARGET_ESP32H2 // ESP32H2 TODO IDF-7359: related rtcio ll func not supported yet
#if !CONFIG_IDF_TARGET_ESP32H2 // ESP32H2 TODO IDF-7359
if(!(pd_flags & RTC_SLEEP_PD_VDDSDIO)) {
/* Cache suspend also means SPI bus IDLE, then we can hold SPI CS pin safely */
gpio_ll_hold_en(&GPIO, SPI_CS0_GPIO_NUM);
@ -1031,7 +1031,7 @@ static esp_err_t IRAM_ATTR esp_sleep_start(uint32_t pd_flags, esp_sleep_mode_t m
/* Unhold the SPI CS pin */
#if (CONFIG_PM_POWER_DOWN_PERIPHERAL_IN_LIGHT_SLEEP && CONFIG_ESP_SLEEP_FLASH_LEAKAGE_WORKAROUND)
#if !CONFIG_IDF_TARGET_ESP32H2 // ESP32H2 TODO IDF-7359: related rtcio ll func not supported yet
#if !CONFIG_IDF_TARGET_ESP32H2 // ESP32H2 TODO IDF-7359
if(!(pd_flags & RTC_SLEEP_PD_VDDSDIO)) {
gpio_ll_hold_dis(&GPIO, SPI_CS0_GPIO_NUM);
}

View File

@ -10,6 +10,7 @@
#include "sdkconfig.h"
#include "soc/soc_caps.h"
#include "soc/system_periph_retention.h"
#include "soc/uart_periph.h"
#include "esp_sleep.h"
#include "esp_log.h"
@ -52,13 +53,17 @@ static __attribute__((unused)) esp_err_t sleep_sys_periph_tee_apm_retention_init
}
#endif
static __attribute__((unused)) esp_err_t sleep_sys_periph_uart0_retention_init(void *arg)
#if CONFIG_ESP_CONSOLE_UART
static __attribute__((unused)) esp_err_t sleep_sys_periph_stdout_console_uart_retention_init(void *arg)
{
esp_err_t err = sleep_retention_entries_create(uart_regs_retention, ARRAY_SIZE(uart_regs_retention), REGDMA_LINK_PRI_SYS_PERIPH_HIGH, SLEEP_RETENTION_MODULE_SYS_PERIPH);
esp_err_t err = sleep_retention_entries_create(uart_reg_retention_info[CONFIG_ESP_CONSOLE_UART_NUM].regdma_entry_array,
uart_reg_retention_info[CONFIG_ESP_CONSOLE_UART_NUM].array_size,
REGDMA_LINK_PRI_SYS_PERIPH_HIGH, SLEEP_RETENTION_MODULE_SYS_PERIPH);
ESP_RETURN_ON_ERROR(err, TAG, "failed to allocate memory for digital peripherals (%s) retention", "UART");
ESP_LOGD(TAG, "UART sleep retention initialization");
ESP_LOGD(TAG, "stdout console UART sleep retention initialization");
return ESP_OK;
}
#endif
static __attribute__((unused)) esp_err_t sleep_sys_periph_iomux_retention_init(void *arg)
{
@ -119,8 +124,10 @@ static __attribute__((unused)) esp_err_t sleep_sys_periph_retention_init(void *a
err = sleep_sys_periph_tee_apm_retention_init(arg);
if(err) goto error;
#endif
err = sleep_sys_periph_uart0_retention_init(arg);
#if CONFIG_ESP_CONSOLE_UART
err = sleep_sys_periph_stdout_console_uart_retention_init(arg);
if(err) goto error;
#endif
err = sleep_sys_periph_iomux_retention_init(arg);
if(err) goto error;
err = sleep_sys_periph_spimem_retention_init(arg);

View File

@ -312,7 +312,7 @@ FORCE_INLINE_ATTR void uart_ll_read_rxfifo(uart_dev_t *hw, uint8_t *buf, uint32_
*
* @param hw Beginning address of the peripheral registers.
* @param buf The data buffer.
* @param wr_len The data length needs to be writen.
* @param wr_len The data length needs to be written.
*
* @return None
*/
@ -535,7 +535,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -600,7 +600,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -894,7 +894,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -339,7 +339,7 @@ FORCE_INLINE_ATTR void uart_ll_read_rxfifo(uart_dev_t *hw, uint8_t *buf, uint32_
*
* @param hw Beginning address of the peripheral registers.
* @param buf The data buffer.
* @param wr_len The data length needs to be writen.
* @param wr_len The data length needs to be written.
*
* @return None
*/
@ -518,7 +518,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -583,7 +583,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -881,7 +881,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -342,7 +342,7 @@ FORCE_INLINE_ATTR void uart_ll_read_rxfifo(uart_dev_t *hw, uint8_t *buf, uint32_
*
* @param hw Beginning address of the peripheral registers.
* @param buf The data buffer.
* @param wr_len The data length needs to be writen.
* @param wr_len The data length needs to be written.
*
* @return None
*/
@ -521,7 +521,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -586,7 +586,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -884,7 +884,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -427,6 +427,7 @@ static inline void gpio_ll_get_drive_capability(gpio_dev_t *hw, uint32_t gpio_nu
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 |= GPIO_HOLD_MASK[gpio_num];
@ -438,6 +439,7 @@ static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_dis(gpio_dev_t *hw, uint32_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 &= ~GPIO_HOLD_MASK[gpio_num];

View File

@ -734,7 +734,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -801,7 +801,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -1132,7 +1132,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -396,6 +396,7 @@ static inline void gpio_ll_get_drive_capability(gpio_dev_t *hw, uint32_t gpio_nu
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 |= GPIO_HOLD_MASK[gpio_num];
@ -407,6 +408,7 @@ static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_dis(gpio_dev_t *hw, uint32_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 &= ~GPIO_HOLD_MASK[gpio_num];

View File

@ -61,6 +61,10 @@ extern "C" {
#define UART_LL_PCR_REG_GET(hw, reg_suffix, field_suffix) \
(((hw) == &UART0) ? PCR.uart0_##reg_suffix.uart0_##field_suffix : PCR.uart1_##reg_suffix.uart1_##field_suffix)
// UART sleep retention module
#define UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num) ((uart_num == UART_NUM_0) ? SLEEP_RETENTION_MODULE_UART0 : \
(uart_num == UART_NUM_1) ? SLEEP_RETENTION_MODULE_UART1 : -1)
// Define UART interrupts
typedef enum {
UART_INTR_RXFIFO_FULL = (0x1 << 0),
@ -704,7 +708,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -771,7 +775,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -1102,7 +1106,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -393,6 +393,7 @@ static inline void gpio_ll_get_drive_capability(gpio_dev_t *hw, uint32_t gpio_nu
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
{
uint32_t mask = LP_AON.gpio_hold0.gpio_hold0;
@ -405,6 +406,7 @@ static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_dis(gpio_dev_t *hw, uint32_t gpio_num)
{
uint32_t mask = LP_AON.gpio_hold0.gpio_hold0;

View File

@ -556,7 +556,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -623,7 +623,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -929,7 +929,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -440,6 +440,7 @@ static inline void gpio_ll_get_drive_capability(gpio_dev_t *hw, gpio_num_t gpio_
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_en(gpio_dev_t *hw, gpio_num_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 |= GPIO_HOLD_MASK[gpio_num];
@ -451,6 +452,7 @@ static inline void gpio_ll_hold_en(gpio_dev_t *hw, gpio_num_t gpio_num)
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_dis(gpio_dev_t *hw, gpio_num_t gpio_num)
{
LP_AON.gpio_hold0.gpio_hold0 &= ~GPIO_HOLD_MASK[gpio_num];

View File

@ -57,6 +57,10 @@ extern "C" {
#define UART_LL_PCR_REG_GET(hw, reg_suffix, field_suffix) \
(((hw) == &UART0) ? PCR.uart0_##reg_suffix.uart0_##field_suffix : PCR.uart1_##reg_suffix.uart1_##field_suffix)
// UART sleep retention module
#define UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num) ((uart_num == UART_NUM_0) ? SLEEP_RETENTION_MODULE_UART0 : \
(uart_num == UART_NUM_1) ? SLEEP_RETENTION_MODULE_UART1 : -1)
// Define UART interrupts
typedef enum {
UART_INTR_RXFIFO_FULL = (0x1 << 0),
@ -554,7 +558,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -621,7 +625,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -928,7 +932,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -473,6 +473,7 @@ static inline void gpio_ll_get_drive_capability(gpio_dev_t *hw, uint32_t gpio_nu
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
{
uint64_t bit_mask = 1ULL << gpio_num;
@ -498,6 +499,7 @@ static inline void gpio_ll_hold_en(gpio_dev_t *hw, uint32_t gpio_num)
* @param hw Peripheral GPIO hardware instance address.
* @param gpio_num GPIO number, only support output GPIOs
*/
__attribute__((always_inline))
static inline void gpio_ll_hold_dis(gpio_dev_t *hw, uint32_t gpio_num)
{
uint64_t bit_mask = 1ULL << gpio_num;

View File

@ -45,6 +45,13 @@ extern "C" {
#define UART_LL_FSM_IDLE (0x0)
#define UART_LL_FSM_TX_WAIT_SEND (0xf)
// UART sleep retention module
#define UART_LL_SLEEP_RETENTION_MODULE_ID(uart_num) ((uart_num == UART_NUM_0) ? SLEEP_RETENTION_MODULE_UART0 : \
(uart_num == UART_NUM_1) ? SLEEP_RETENTION_MODULE_UART1 : \
(uart_num == UART_NUM_2) ? SLEEP_RETENTION_MODULE_UART2 : \
(uart_num == UART_NUM_3) ? SLEEP_RETENTION_MODULE_UART3 : \
(uart_num == UART_NUM_4) ? SLEEP_RETENTION_MODULE_UART4 : -1)
// Define UART interrupts
typedef enum {
UART_INTR_RXFIFO_FULL = (0x1 << 0),
@ -817,7 +824,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -884,7 +891,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -1215,7 +1222,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -1,5 +1,5 @@
/*
* SPDX-FileCopyrightText: 2015-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
@ -298,7 +298,7 @@ FORCE_INLINE_ATTR void uart_ll_read_rxfifo(uart_dev_t *hw, uint8_t *buf, uint32_
*
* @param hw Beginning address of the peripheral registers.
* @param buf The data buffer.
* @param wr_len The data length needs to be writen.
* @param wr_len The data length needs to be written.
*
* @return None
*/
@ -476,7 +476,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -541,7 +541,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -832,7 +832,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -326,7 +326,7 @@ FORCE_INLINE_ATTR void uart_ll_read_rxfifo(uart_dev_t *hw, uint8_t *buf, uint32_
*
* @param hw Beginning address of the peripheral registers.
* @param buf The data buffer.
* @param wr_len The data length needs to be writen.
* @param wr_len The data length needs to be written.
*
* @return None
*/
@ -505,7 +505,7 @@ FORCE_INLINE_ATTR void uart_ll_set_tx_idle_num(uart_dev_t *hw, uint32_t idle_num
}
/**
* @brief Configure the transmiter to send break chars.
* @brief Configure the transmitter to send break chars.
*
* @param hw Beginning address of the peripheral registers.
* @param break_num The number of the break chars need to be send.
@ -569,7 +569,7 @@ FORCE_INLINE_ATTR void uart_ll_get_hw_flow_ctrl(uart_dev_t *hw, uart_hw_flowcont
* @brief Configure the software flow control.
*
* @param hw Beginning address of the peripheral registers.
* @param flow_ctrl The UART sofware flow control settings.
* @param flow_ctrl The UART software flow control settings.
* @param sw_flow_ctrl_en Set true to enable software flow control, otherwise set it false.
*
* @return None.
@ -860,7 +860,7 @@ FORCE_INLINE_ATTR bool uart_ll_is_hw_cts_en(uart_dev_t *hw)
* @brief Configure TX signal loop back to RX module, just for the testing purposes
*
* @param hw Beginning address of the peripheral registers.
* @param loop_back_en Set ture to enable the loop back function, else set it false.
* @param loop_back_en Set true to enable the loop back function, else set it false.
*
* @return None
*/

View File

@ -1,16 +1,8 @@
// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
@ -49,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -83,7 +74,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{
@ -117,6 +107,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART2_INTR_SOURCE,
.module = PERIPH_UART2_MODULE,
}
};

View File

@ -41,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -75,6 +74,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
};

View File

@ -1,16 +1,8 @@
// Copyright 2020 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*
* SPDX-FileCopyrightText: 2020-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
@ -49,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -83,6 +74,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
};

View File

@ -49,7 +49,7 @@ static const regdma_entries_config_t gdma_g0p0_regs_retention[] = {
g0p0_regs_map0[0], g0p0_regs_map0[1], \
g0p0_regs_map0[2], g0p0_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x01), \
G0P0_RETENTION_MAP_BASE_1, G0P0_RETENTION_MAP_BASE_1, \
G0P0_RETENTION_REGS_CNT_1, 0, 0, \
g0p0_regs_map1[0], g0p0_regs_map1[1], \
@ -76,7 +76,7 @@ static const regdma_entries_config_t gdma_g0p1_regs_retention[] = {
g0p1_regs_map0[0], g0p1_regs_map0[1], \
g0p1_regs_map0[2], g0p1_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x01), \
G0P1_RETENTION_MAP_BASE_1, G0P1_RETENTION_MAP_BASE_1, \
G0P1_RETENTION_REGS_CNT_1, 0, 0, \
g0p1_regs_map1[0], g0p1_regs_map1[1], \
@ -103,7 +103,7 @@ static const regdma_entries_config_t gdma_g0p2_regs_retention[] = {
g0p2_regs_map0[0], g0p2_regs_map0[1], \
g0p2_regs_map0[2], g0p2_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x01), \
G0P2_RETENTION_MAP_BASE_1, G0P2_RETENTION_MAP_BASE_1, \
G0P2_RETENTION_REGS_CNT_1, 0, 0, \
g0p2_regs_map1[0], g0p2_regs_map1[1], \

View File

@ -691,6 +691,10 @@ config SOC_UART_SUPPORT_FSM_TX_WAIT_SEND
bool
default y
config SOC_UART_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_COEX_HW_PTI
bool
default y

View File

@ -498,6 +498,8 @@
// UART has an extra TX_WAIT_SEND state when the FIFO is not empty and XOFF is enabled
#define SOC_UART_SUPPORT_FSM_TX_WAIT_SEND (1)
#define SOC_UART_SUPPORT_SLEEP_RETENTION (1) /*!< Support back up registers before sleep */
/*-------------------------- COEXISTENCE HARDWARE PTI CAPS -------------------------------*/
#define SOC_COEX_HW_PTI (1)

View File

@ -48,16 +48,6 @@ extern const regdma_entries_config_t tee_apm_regs_retention[TEE_APM_RETENTION_LI
#define TEE_APM_HIGH_PRI_RETENTION_LINK_LEN 1
extern const regdma_entries_config_t tee_apm_highpri_regs_retention[TEE_APM_HIGH_PRI_RETENTION_LINK_LEN];
/**
* @brief Provide access to uart configuration registers retention
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
*/
#define UART_RETENTION_LINK_LEN 3
extern const regdma_entries_config_t uart_regs_retention[UART_RETENTION_LINK_LEN];
/**
* @brief Provide access to timer group configuration registers retention
* context definition.

View File

@ -44,16 +44,6 @@ const regdma_entries_config_t tee_apm_highpri_regs_retention[] = {
};
_Static_assert((ARRAY_SIZE(tee_apm_regs_retention) == TEE_APM_RETENTION_LINK_LEN) && (ARRAY_SIZE(tee_apm_highpri_regs_retention) == TEE_APM_HIGH_PRI_RETENTION_LINK_LEN), "Inconsistent TEE_APM retention link length definitions");
/* UART0 Registers Context */
#define N_REGS_UART() (((UART_ID_REG(0) - UART_INT_RAW_REG(0)) / 4) + 1)
const regdma_entries_config_t uart_regs_retention[] = {
[0] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_UART_LINK(0x00), UART_INT_RAW_REG(0), UART_INT_RAW_REG(0), N_REGS_UART(), 0, 0), .owner = ENTRY(0) | ENTRY(2) }, /* uart */
/* Note: uart register should set update reg to make the configuration take effect */
[1] = { .config = REGDMA_LINK_WRITE_INIT (REGDMA_UART_LINK(0x01), UART_REG_UPDATE_REG(0), UART_REG_UPDATE, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) },
[2] = { .config = REGDMA_LINK_WAIT_INIT (REGDMA_UART_LINK(0x02), UART_REG_UPDATE_REG(0), 0x0, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) }
};
_Static_assert(ARRAY_SIZE(uart_regs_retention) == UART_RETENTION_LINK_LEN, "Inconsistent UART retention link length definitions");
/* IO MUX Registers Context */
#define N_REGS_IOMUX_0() (((IO_MUX_GPIO26_REG - REG_IO_MUX_BASE) / 4) + 1)
#define N_REGS_IOMUX_1() (((GPIO_FUNC30_OUT_SEL_CFG_REG - GPIO_FUNC0_OUT_SEL_CFG_REG) / 4) + 1)

View File

@ -5,6 +5,7 @@
*/
#include "soc/uart_periph.h"
#include "soc/uart_reg.h"
/*
Bunch of constants for every UART peripheral: GPIO signals, irqs, hw addr of registers etc
@ -41,7 +42,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{ // HP UART1
@ -75,7 +75,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{ // LP UART0
@ -109,6 +108,44 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_LP_UART_INTR_SOURCE,
.module = PERIPH_LP_UART0_MODULE,
},
};
/**
* UART registers to be saved during sleep retention
*
* Reset TXFIFO and RXFIFO
* UART registers require set the reg_update bit to make the configuration take effect
*/
#define N_REGS_UART(uart_num) (((UART_ID_REG(uart_num) - UART_INT_RAW_REG(uart_num)) / 4) + 1)
#define UART_SLEEP_RETENTION_ENTRIES(uart_num) { \
[0] = {.config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_UART_LINK(0x00), \
UART_INT_RAW_REG(uart_num), UART_INT_RAW_REG(uart_num), \
N_REGS_UART(uart_num), 0, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[1] = {.config = REGDMA_LINK_WRITE_INIT(REGDMA_UART_LINK(0x01), \
UART_REG_UPDATE_REG(uart_num), UART_REG_UPDATE, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[2] = {.config = REGDMA_LINK_WAIT_INIT(REGDMA_UART_LINK(0x02), \
UART_REG_UPDATE_REG(uart_num), 0x0, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
}
static const regdma_entries_config_t uart0_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(0);
static const regdma_entries_config_t uart1_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(1);
const uart_reg_retention_info_t uart_reg_retention_info[SOC_UART_HP_NUM] = {
[0] = {
.regdma_entry_array = uart0_regdma_entries,
.array_size = ARRAY_SIZE(uart0_regdma_entries),
},
[1] = {
.regdma_entry_array = uart1_regdma_entries,
.array_size = ARRAY_SIZE(uart1_regdma_entries),
},
};

View File

@ -56,7 +56,7 @@ static const regdma_entries_config_t gdma_g0p0_regs_retention[] = {
g0p0_regs_map0[0], g0p0_regs_map0[1], \
g0p0_regs_map0[2], g0p0_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) }, \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x01), \
G0P0_RETENTION_MAP_BASE_1, G0P0_RETENTION_MAP_BASE_1, \
G0P0_RETENTION_REGS_CNT_1, 0, 0, \
g0p0_regs_map1[0], g0p0_regs_map1[1], \
@ -90,7 +90,7 @@ static const regdma_entries_config_t gdma_g0p1_regs_retention[] = {
g0p1_regs_map0[0], g0p1_regs_map0[1], \
g0p1_regs_map0[2], g0p1_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x01), \
G0P1_RETENTION_MAP_BASE_1, G0P1_RETENTION_MAP_BASE_1, \
G0P1_RETENTION_REGS_CNT_1, 0, 0, \
g0p1_regs_map1[0], g0p1_regs_map1[1], \
@ -125,7 +125,7 @@ static const regdma_entries_config_t gdma_g0p2_regs_retention[] = {
g0p2_regs_map0[0], g0p2_regs_map0[1], \
g0p2_regs_map0[2], g0p2_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_AHB_DMA_LINK(0x01), \
G0P2_RETENTION_MAP_BASE_1, G0P2_RETENTION_MAP_BASE_1, \
G0P2_RETENTION_REGS_CNT_1, 0, 0, \
g0p2_regs_map1[0], g0p2_regs_map1[1], \

View File

@ -41,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{ // HP UART1
@ -75,7 +74,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{ // LP UART0
@ -109,6 +107,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_LP_UART_INTR_SOURCE,
.module = PERIPH_LP_UART0_MODULE,
},
};

View File

@ -84,7 +84,7 @@ static const regdma_entries_config_t gdma_g0p2_regs_retention[] = {
g0p2_regs_map0[0], g0p2_regs_map0[1], \
g0p2_regs_map0[2], g0p2_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x01), \
G0P2_RETENTION_MAP_BASE_1, G0P2_RETENTION_MAP_BASE_1, \
G0P2_RETENTION_REGS_CNT_1, 0, 0, \
g0p2_regs_map1[0], g0p2_regs_map1[1], \

View File

@ -615,6 +615,10 @@ config SOC_I2C_SLAVE_SUPPORT_SLAVE_UNMATCH
bool
default y
config SOC_I2C_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_LP_I2C_NUM
int
default 1
@ -1255,6 +1259,10 @@ config SOC_UART_HAS_LP_UART
bool
default y
config SOC_UART_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_UART_SUPPORT_FSM_TX_WAIT_SEND
bool
default y

View File

@ -34,6 +34,8 @@ typedef enum periph_retention_module {
SLEEP_RETENTION_MODULE_ADC = 11,
SLEEP_RETENTION_MODULE_I2C0 = 12,
SLEEP_RETENTION_MODULE_RMT0 = 13,
SLEEP_RETENTION_MODULE_UART0 = 14,
SLEEP_RETENTION_MODULE_UART1 = 15,
/* Modem module, which includes WiFi, BLE and 802.15.4 */
SLEEP_RETENTION_MODULE_WIFI_MAC = 26,
@ -64,6 +66,8 @@ typedef enum periph_retention_module_bitmap {
SLEEP_RETENTION_MODULE_BM_ADC = BIT(SLEEP_RETENTION_MODULE_ADC),
SLEEP_RETENTION_MODULE_BM_I2C0 = BIT(SLEEP_RETENTION_MODULE_I2C0),
SLEEP_RETENTION_MODULE_BM_RMT0 = BIT(SLEEP_RETENTION_MODULE_RMT0),
SLEEP_RETENTION_MODULE_BM_UART0 = BIT(SLEEP_RETENTION_MODULE_UART0),
SLEEP_RETENTION_MODULE_BM_UART1 = BIT(SLEEP_RETENTION_MODULE_UART1),
/* modem module, which includes WiFi, BLE and 802.15.4 */
SLEEP_RETENTION_MODULE_BM_WIFI_MAC = BIT(SLEEP_RETENTION_MODULE_WIFI_MAC),
SLEEP_RETENTION_MODULE_BM_WIFI_BB = BIT(SLEEP_RETENTION_MODULE_WIFI_BB),
@ -85,7 +89,10 @@ typedef enum periph_retention_module_bitmap {
| SLEEP_RETENTION_MODULE_BM_GDMA_CH2 \
| SLEEP_RETENTION_MODULE_BM_ADC \
| SLEEP_RETENTION_MODULE_BM_I2C0 \
| SLEEP_RETENTION_MODULE_BM_RMT0)
| SLEEP_RETENTION_MODULE_BM_RMT0 \
| SLEEP_RETENTION_MODULE_BM_UART0 \
| SLEEP_RETENTION_MODULE_BM_UART1 \
)
#ifdef __cplusplus
}

View File

@ -252,6 +252,7 @@
#define SOC_I2C_SLAVE_CAN_GET_STRETCH_CAUSE (1)
#define SOC_I2C_SLAVE_SUPPORT_I2CRAM_ACCESS (1)
#define SOC_I2C_SLAVE_SUPPORT_SLAVE_UNMATCH (1)
#define SOC_I2C_SUPPORT_SLEEP_RETENTION (1)
/*-------------------------- LP_I2C CAPS -------------------------------------*/
// ESP32-C6 has 1 LP_I2C
@ -491,6 +492,7 @@
#define SOC_UART_SUPPORT_XTAL_CLK (1) /*!< Support XTAL clock as the clock source */
#define SOC_UART_SUPPORT_WAKEUP_INT (1) /*!< Support UART wakeup interrupt */
#define SOC_UART_HAS_LP_UART (1) /*!< Support LP UART */
#define SOC_UART_SUPPORT_SLEEP_RETENTION (1) /*!< Support back up registers before sleep */
// UART has an extra TX_WAIT_SEND state when the FIFO is not empty and XOFF is enabled
#define SOC_UART_SUPPORT_FSM_TX_WAIT_SEND (1)

View File

@ -17,7 +17,7 @@ extern "C"
/**
* @brief Provide access to interrupt matrix configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -27,7 +27,7 @@ extern const regdma_entries_config_t intr_matrix_regs_retention[INT_MTX_RETENTIO
/**
* @brief Provide access to hp_system configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -37,7 +37,7 @@ extern const regdma_entries_config_t hp_system_regs_retention[HP_SYSTEM_RETENTIO
/**
* @brief Provide access to TEE_APM configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -47,19 +47,9 @@ extern const regdma_entries_config_t tee_apm_regs_retention[TEE_APM_RETENTION_LI
#define TEE_APM_HIGH_PRI_RETENTION_LINK_LEN 1
extern const regdma_entries_config_t tee_apm_highpri_regs_retention[TEE_APM_HIGH_PRI_RETENTION_LINK_LEN];
/**
* @brief Provide access to uart configuration registers retention
* context defination.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
*/
#define UART_RETENTION_LINK_LEN 3
extern const regdma_entries_config_t uart_regs_retention[UART_RETENTION_LINK_LEN];
/**
* @brief Provide access to timer group configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -69,7 +59,7 @@ extern const regdma_entries_config_t tg_regs_retention[TIMG_RETENTION_LINK_LEN];
/**
* @brief Provide access to IOMUX configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -79,7 +69,7 @@ extern const regdma_entries_config_t iomux_regs_retention[IOMUX_RETENTION_LINK_L
/**
* @brief Provide access to spimem configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -89,7 +79,7 @@ extern const regdma_entries_config_t spimem_regs_retention[SPIMEM_RETENTION_LINK
/**
* @brief Provide access to systimer configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.

View File

@ -44,16 +44,6 @@ const regdma_entries_config_t tee_apm_highpri_regs_retention[] = {
};
_Static_assert((ARRAY_SIZE(tee_apm_regs_retention) == TEE_APM_RETENTION_LINK_LEN) && (ARRAY_SIZE(tee_apm_highpri_regs_retention) == TEE_APM_HIGH_PRI_RETENTION_LINK_LEN), "Inconsistent TEE_APM retention link length definitions");
/* UART0 Registers Context */
#define N_REGS_UART() (((UART_ID_REG(0) - UART_INT_RAW_REG(0)) / 4) + 1)
const regdma_entries_config_t uart_regs_retention[] = {
[0] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_UART_LINK(0x00), UART_INT_RAW_REG(0), UART_INT_RAW_REG(0), N_REGS_UART(), 0, 0), .owner = ENTRY(0) | ENTRY(2) }, /* uart */
/* Note: uart register should set update reg to make the configuration take effect */
[1] = { .config = REGDMA_LINK_WRITE_INIT (REGDMA_UART_LINK(0x01), UART_REG_UPDATE_REG(0), UART_REG_UPDATE, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) },
[2] = { .config = REGDMA_LINK_WAIT_INIT (REGDMA_UART_LINK(0x02), UART_REG_UPDATE_REG(0), 0x0, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) }
};
_Static_assert(ARRAY_SIZE(uart_regs_retention) == UART_RETENTION_LINK_LEN, "Inconsistent UART retention link length definitions");
/* IO MUX Registers Context */
#define N_REGS_IOMUX_0() (((IO_MUX_GPIO30_REG - REG_IO_MUX_BASE) / 4) + 1)
#define N_REGS_IOMUX_1() (((GPIO_FUNC34_OUT_SEL_CFG_REG - GPIO_FUNC0_OUT_SEL_CFG_REG) / 4) + 1)

View File

@ -1,10 +1,11 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
#include "soc/uart_reg.h"
/*
Bunch of constants for every UART peripheral: GPIO signals, irqs, hw addr of registers etc
@ -41,7 +42,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{ // HP UART1
@ -75,7 +75,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{ // LP UART0
@ -109,6 +108,54 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_LP_UART_INTR_SOURCE,
.module = PERIPH_LP_UART0_MODULE,
},
};
/**
* UART registers to be saved during sleep retention
*
* Reset TXFIFO and RXFIFO
* UART registers require set the reg_update bit to make the configuration take effect
*
* UART_INT_ENA_REG, UART_CLKDIV_SYNC_REG, UART_RX_FILT_REG, UART_CONF0_SYNC_REG, UART_CONF1_REG,
* UART_HWFC_CONF_SYNC_REG, UART_SLEEP_CONF0_REG, UART_SLEEP_CONF1_REG, UART_SLEEP_CONF2_REG,
* UART_SWFC_CONF0_SYNC_REG, UART_SWFC_CONF1_REG, UART_TXBRK_CONF_SYNC_REG, UART_IDLE_CONF_SYNC_REG,
* UART_RS485_CONF_SYNC_REG, UART_AT_CMD_PRECNT_SYNC_REG, UART_AT_CMD_POSTCNT_SYNC_REG, UART_AT_CMD_GAPTOUT_SYNC_REG,
* UART_AT_CMD_CHAR_SYNC_REG, UART_MEM_CONF_REG, UART_TOUT_CONF_SYNC_REG, UART_ID_REG
*/
#define UART_RETENTION_ADDR_MAP_REGS_CNT 21
#define UART_RETENTION_REGS_BASE(i) UART_INT_ENA_REG(i)
static const uint32_t uart_regs_map[4] = {0x7fff6d, 0x10, 0x0, 0x0};
#define UART_SLEEP_RETENTION_ENTRIES(uart_num) { \
[0] = {.config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_UART_LINK(0x00), \
UART_RETENTION_REGS_BASE(uart_num), UART_RETENTION_REGS_BASE(uart_num), \
UART_RETENTION_ADDR_MAP_REGS_CNT, 0, 0, \
uart_regs_map[0], uart_regs_map[1], \
uart_regs_map[2], uart_regs_map[3] \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[1] = {.config = REGDMA_LINK_WRITE_INIT(REGDMA_UART_LINK(0x01), \
UART_REG_UPDATE_REG(uart_num), UART_REG_UPDATE, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[2] = {.config = REGDMA_LINK_WAIT_INIT(REGDMA_UART_LINK(0x02), \
UART_REG_UPDATE_REG(uart_num), 0x0, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
}
static const regdma_entries_config_t uart0_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(0);
static const regdma_entries_config_t uart1_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(1);
const uart_reg_retention_info_t uart_reg_retention_info[SOC_UART_HP_NUM] = {
[0] = {
.regdma_entry_array = uart0_regdma_entries,
.array_size = ARRAY_SIZE(uart0_regdma_entries),
},
[1] = {
.regdma_entry_array = uart1_regdma_entries,
.array_size = ARRAY_SIZE(uart1_regdma_entries),
},
};

View File

@ -41,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{ // HP UART1
@ -75,7 +74,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
#if 0 //TODO: [ESP32C61] IDF-9329, IDF-9341
{ // LP UART0
@ -109,7 +107,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_LP_UART_INTR_SOURCE,
.module = PERIPH_LP_UART0_MODULE,
},
#endif
};

View File

@ -84,7 +84,7 @@ static const regdma_entries_config_t gdma_g0p2_regs_retention[] = {
g0p2_regs_map0[0], g0p2_regs_map0[1], \
g0p2_regs_map0[2], g0p2_regs_map0[3]), \
.owner = ENTRY(0) | ENTRY(2) },
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x00), \
[1] = { .config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_GDMA_LINK(0x01), \
G0P2_RETENTION_MAP_BASE_1, G0P2_RETENTION_MAP_BASE_1, \
G0P2_RETENTION_REGS_CNT_1, 0, 0, \
g0p2_regs_map1[0], g0p2_regs_map1[1], \

View File

@ -615,6 +615,10 @@ config SOC_I2C_SLAVE_SUPPORT_SLAVE_UNMATCH
bool
default y
config SOC_I2C_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_I2S_NUM
int
default 1
@ -1251,6 +1255,10 @@ config SOC_UART_SUPPORT_FSM_TX_WAIT_SEND
bool
default y
config SOC_UART_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_COEX_HW_PTI
bool
default y

View File

@ -22,7 +22,7 @@ typedef enum periph_retention_module {
* TEE, APM, UART, IOMUX, SPIMEM, SysTimer, etc.. */
SLEEP_RETENTION_MODULE_SYS_PERIPH = 3,
/* Timer Group by target*/
SLEEP_RETENTION_MODULE_TG0_WDT = 4,
SLEEP_RETENTION_MODULE_TG0_WDT = 4,
SLEEP_RETENTION_MODULE_TG1_WDT = 5,
SLEEP_RETENTION_MODULE_TG0_TIMER = 6,
SLEEP_RETENTION_MODULE_TG1_TIMER = 7,
@ -35,6 +35,8 @@ typedef enum periph_retention_module {
SLEEP_RETENTION_MODULE_I2C0 = 12,
SLEEP_RETENTION_MODULE_I2C1 = 13,
SLEEP_RETENTION_MODULE_RMT0 = 14,
SLEEP_RETENTION_MODULE_UART0 = 15,
SLEEP_RETENTION_MODULE_UART1 = 16,
/* Modem module, which includes BLE and 802.15.4 */
SLEEP_RETENTION_MODULE_BLE_MAC = 28,
@ -64,6 +66,8 @@ typedef enum periph_retention_module_bitmap {
SLEEP_RETENTION_MODULE_BM_I2C0 = BIT(SLEEP_RETENTION_MODULE_I2C0),
SLEEP_RETENTION_MODULE_BM_I2C1 = BIT(SLEEP_RETENTION_MODULE_I2C1),
SLEEP_RETENTION_MODULE_BM_RMT0 = BIT(SLEEP_RETENTION_MODULE_RMT0),
SLEEP_RETENTION_MODULE_BM_UART0 = BIT(SLEEP_RETENTION_MODULE_UART0),
SLEEP_RETENTION_MODULE_BM_UART1 = BIT(SLEEP_RETENTION_MODULE_UART1),
/* modem module, which includes BLE and 802.15.4 */
SLEEP_RETENTION_MODULE_BM_BLE_MAC = BIT(SLEEP_RETENTION_MODULE_BLE_MAC),
SLEEP_RETENTION_MODULE_BM_BT_BB = BIT(SLEEP_RETENTION_MODULE_BT_BB),
@ -84,7 +88,10 @@ typedef enum periph_retention_module_bitmap {
| SLEEP_RETENTION_MODULE_BM_ADC \
| SLEEP_RETENTION_MODULE_BM_I2C0 \
| SLEEP_RETENTION_MODULE_BM_I2C1 \
| SLEEP_RETENTION_MODULE_BM_RMT0)
| SLEEP_RETENTION_MODULE_BM_RMT0 \
| SLEEP_RETENTION_MODULE_BM_UART0 \
| SLEEP_RETENTION_MODULE_BM_UART1 \
)
#ifdef __cplusplus
}

View File

@ -254,6 +254,7 @@
#define SOC_I2C_SLAVE_CAN_GET_STRETCH_CAUSE (1)
#define SOC_I2C_SLAVE_SUPPORT_I2CRAM_ACCESS (1)
#define SOC_I2C_SLAVE_SUPPORT_SLAVE_UNMATCH (1)
#define SOC_I2C_SUPPORT_SLEEP_RETENTION (1)
/*-------------------------- I2S CAPS ----------------------------------------*/
#define SOC_I2S_NUM (1U)
@ -491,6 +492,8 @@
// UART has an extra TX_WAIT_SEND state when the FIFO is not empty and XOFF is enabled
#define SOC_UART_SUPPORT_FSM_TX_WAIT_SEND (1)
#define SOC_UART_SUPPORT_SLEEP_RETENTION (1) /*!< Support back up registers before sleep */
// TODO: IDF-5679 (Copy from esp32c6, need check)
/*-------------------------- COEXISTENCE HARDWARE PTI CAPS -------------------------------*/
#define SOC_COEX_HW_PTI (1)

View File

@ -17,7 +17,7 @@ extern "C"
/**
* @brief Provide access to interrupt matrix configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -27,7 +27,7 @@ extern const regdma_entries_config_t intr_matrix_regs_retention[INT_MTX_RETENTIO
/**
* @brief Provide access to hp_system configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -37,7 +37,7 @@ extern const regdma_entries_config_t hp_system_regs_retention[HP_SYSTEM_RETENTIO
/**
* @brief Provide access to TEE_APM configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -47,19 +47,9 @@ extern const regdma_entries_config_t tee_apm_regs_retention[TEE_APM_RETENTION_LI
#define TEE_APM_HIGH_PRI_RETENTION_LINK_LEN 1
extern const regdma_entries_config_t tee_apm_highpri_regs_retention[TEE_APM_HIGH_PRI_RETENTION_LINK_LEN];
/**
* @brief Provide access to uart configuration registers retention
* context defination.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
*/
#define UART_RETENTION_LINK_LEN 3
extern const regdma_entries_config_t uart_regs_retention[UART_RETENTION_LINK_LEN];
/**
* @brief Provide access to timer group configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -69,7 +59,7 @@ extern const regdma_entries_config_t tg_regs_retention[TIMG_RETENTION_LINK_LEN];
/**
* @brief Provide access to IOMUX configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -79,7 +69,7 @@ extern const regdma_entries_config_t iomux_regs_retention[IOMUX_RETENTION_LINK_L
/**
* @brief Provide access to spimem configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
@ -89,7 +79,7 @@ extern const regdma_entries_config_t spimem_regs_retention[SPIMEM_RETENTION_LINK
/**
* @brief Provide access to systimer configuration registers retention
* context defination.
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.

View File

@ -44,16 +44,6 @@ const regdma_entries_config_t tee_apm_highpri_regs_retention[] = {
};
_Static_assert((ARRAY_SIZE(tee_apm_regs_retention) == TEE_APM_RETENTION_LINK_LEN) && (ARRAY_SIZE(tee_apm_highpri_regs_retention) == TEE_APM_HIGH_PRI_RETENTION_LINK_LEN), "Inconsistent TEE_APM retention link length definitions");
/* UART0 Registers Context */
#define N_REGS_UART() (((UART_ID_REG(0) - UART_INT_RAW_REG(0)) / 4) + 1)
const regdma_entries_config_t uart_regs_retention[] = {
[0] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_UART_LINK(0x00), UART_INT_RAW_REG(0), UART_INT_RAW_REG(0), N_REGS_UART(), 0, 0), .owner = ENTRY(0) | ENTRY(2) }, /* uart */
/* Note: uart register should set update reg to make the configuration take effect */
[1] = { .config = REGDMA_LINK_WRITE_INIT (REGDMA_UART_LINK(0x01), UART_REG_UPDATE_REG(0), UART_REG_UPDATE, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) },
[2] = { .config = REGDMA_LINK_WAIT_INIT (REGDMA_UART_LINK(0x02), UART_REG_UPDATE_REG(0), 0x0, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) | ENTRY(2) }
};
_Static_assert(ARRAY_SIZE(uart_regs_retention) == UART_RETENTION_LINK_LEN, "Inconsistent UART retention link length definitions");
/* IO MUX Registers Context */
#define N_REGS_IOMUX_0() (((IO_MUX_GPIO27_REG - REG_IO_MUX_BASE) / 4) + 1)
#define N_REGS_IOMUX_1() (((GPIO_FUNC31_OUT_SEL_CFG_REG - GPIO_FUNC0_OUT_SEL_CFG_REG) / 4) + 1)

View File

@ -1,10 +1,11 @@
/*
* SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2020-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
#include "soc/uart_reg.h"
/*
Bunch of constants for every UART peripheral: GPIO signals, irqs, hw addr of registers etc
@ -41,7 +42,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -75,6 +75,54 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
};
/**
* UART registers to be saved during sleep retention
*
* Reset TXFIFO and RXFIFO
* UART registers require set the reg_update bit to make the configuration take effect
*
* UART_INT_ENA_REG, UART_CLKDIV_SYNC_REG, UART_RX_FILT_REG, UART_CONF0_SYNC_REG, UART_CONF1_REG,
* UART_HWFC_CONF_SYNC_REG, UART_SLEEP_CONF0_REG, UART_SLEEP_CONF1_REG, UART_SLEEP_CONF2_REG,
* UART_SWFC_CONF0_SYNC_REG, UART_SWFC_CONF1_REG, UART_TXBRK_CONF_SYNC_REG, UART_IDLE_CONF_SYNC_REG,
* UART_RS485_CONF_SYNC_REG, UART_AT_CMD_PRECNT_SYNC_REG, UART_AT_CMD_POSTCNT_SYNC_REG, UART_AT_CMD_GAPTOUT_SYNC_REG,
* UART_AT_CMD_CHAR_SYNC_REG, UART_MEM_CONF_REG, UART_TOUT_CONF_SYNC_REG, UART_ID_REG
*/
#define UART_RETENTION_ADDR_MAP_REGS_CNT 21
#define UART_RETENTION_REGS_BASE(i) UART_INT_ENA_REG(i)
static const uint32_t uart_regs_map[4] = {0x7fff6d, 0x10, 0x0, 0x0};
#define UART_SLEEP_RETENTION_ENTRIES(uart_num) { \
[0] = {.config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_UART_LINK(0x00), \
UART_RETENTION_REGS_BASE(uart_num), UART_RETENTION_REGS_BASE(uart_num), \
UART_RETENTION_ADDR_MAP_REGS_CNT, 0, 0, \
uart_regs_map[0], uart_regs_map[1], \
uart_regs_map[2], uart_regs_map[3] \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[1] = {.config = REGDMA_LINK_WRITE_INIT(REGDMA_UART_LINK(0x01), \
UART_REG_UPDATE_REG(uart_num), UART_REG_UPDATE, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
[2] = {.config = REGDMA_LINK_WAIT_INIT(REGDMA_UART_LINK(0x02), \
UART_REG_UPDATE_REG(uart_num), 0x0, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) | ENTRY(2) }, \
}
static const regdma_entries_config_t uart0_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(0);
static const regdma_entries_config_t uart1_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(1);
const uart_reg_retention_info_t uart_reg_retention_info[SOC_UART_HP_NUM] = {
[0] = {
.regdma_entry_array = uart0_regdma_entries,
.array_size = ARRAY_SIZE(uart0_regdma_entries),
},
[1] = {
.regdma_entry_array = uart1_regdma_entries,
.array_size = ARRAY_SIZE(uart1_regdma_entries),
},
};

View File

@ -1503,6 +1503,10 @@ config SOC_UART_HAS_LP_UART
bool
default y
config SOC_UART_SUPPORT_SLEEP_RETENTION
bool
default y
config SOC_UART_SUPPORT_FSM_TX_WAIT_SEND
bool
default y

View File

@ -25,6 +25,12 @@ typedef enum periph_retention_module {
SLEEP_RETENTION_MODULE_TG1_WDT = 4,
SLEEP_RETENTION_MODULE_TG0_TIMER = 5,
SLEEP_RETENTION_MODULE_TG1_TIMER = 6,
/* MISC Peripherals */
SLEEP_RETENTION_MODULE_UART0 = 7,
SLEEP_RETENTION_MODULE_UART1 = 8,
SLEEP_RETENTION_MODULE_UART2 = 9,
SLEEP_RETENTION_MODULE_UART3 = 10,
SLEEP_RETENTION_MODULE_UART4 = 11,
SLEEP_RETENTION_MODULE_MAX = 31
} periph_retention_module_t;
@ -40,6 +46,12 @@ typedef enum periph_retention_module_bitmap {
SLEEP_RETENTION_MODULE_BM_TG1_WDT = BIT(SLEEP_RETENTION_MODULE_TG1_WDT),
SLEEP_RETENTION_MODULE_BM_TG0_TIMER = BIT(SLEEP_RETENTION_MODULE_TG0_TIMER),
SLEEP_RETENTION_MODULE_BM_TG1_TIMER = BIT(SLEEP_RETENTION_MODULE_TG1_TIMER),
/* MISC Peripherals */
SLEEP_RETENTION_MODULE_BM_UART0 = BIT(SLEEP_RETENTION_MODULE_UART0),
SLEEP_RETENTION_MODULE_BM_UART1 = BIT(SLEEP_RETENTION_MODULE_UART1),
SLEEP_RETENTION_MODULE_BM_UART2 = BIT(SLEEP_RETENTION_MODULE_UART2),
SLEEP_RETENTION_MODULE_BM_UART3 = BIT(SLEEP_RETENTION_MODULE_UART3),
SLEEP_RETENTION_MODULE_BM_UART4 = BIT(SLEEP_RETENTION_MODULE_UART4),
SLEEP_RETENTION_MODULE_BM_ALL = (uint32_t)-1
} periph_retention_module_bitmap_t;
@ -49,7 +61,13 @@ typedef enum periph_retention_module_bitmap {
| SLEEP_RETENTION_MODULE_BM_TG0_WDT \
| SLEEP_RETENTION_MODULE_BM_TG1_WDT \
| SLEEP_RETENTION_MODULE_BM_TG0_TIMER \
| SLEEP_RETENTION_MODULE_BM_TG1_TIMER)
| SLEEP_RETENTION_MODULE_BM_TG1_TIMER \
| SLEEP_RETENTION_MODULE_BM_UART0 \
| SLEEP_RETENTION_MODULE_BM_UART1 \
| SLEEP_RETENTION_MODULE_BM_UART2 \
| SLEEP_RETENTION_MODULE_BM_UART3 \
| SLEEP_RETENTION_MODULE_BM_UART4 \
)
#ifdef __cplusplus
}

View File

@ -591,6 +591,7 @@
#define SOC_UART_SUPPORT_XTAL_CLK (1) /*!< Support XTAL clock as the clock source */
#define SOC_UART_SUPPORT_WAKEUP_INT (1) /*!< Support UART wakeup interrupt */
#define SOC_UART_HAS_LP_UART (1) /*!< Support LP UART */
#define SOC_UART_SUPPORT_SLEEP_RETENTION (1) /*!< Support back up registers before sleep */
// UART has an extra TX_WAIT_SEND state when the FIFO is not empty and XOFF is enabled
#define SOC_UART_SUPPORT_FSM_TX_WAIT_SEND (1)

View File

@ -45,16 +45,6 @@ extern const regdma_entries_config_t l2_cache_regs_retention[L2_CACHE_RETENTION_
#define HP_SYSTEM_RETENTION_LINK_LEN 1
extern const regdma_entries_config_t hp_system_regs_retention[HP_SYSTEM_RETENTION_LINK_LEN];
/**
* @brief Provide access to uart configuration registers retention
* context definition.
*
* This is an internal function of the sleep retention driver, and is not
* useful for external use.
*/
#define UART_RETENTION_LINK_LEN 3
extern const regdma_entries_config_t uart_regs_retention[UART_RETENTION_LINK_LEN];
/**
* @brief Provide access to timer group configuration registers retention
* context definition.

View File

@ -42,16 +42,6 @@ const regdma_entries_config_t hp_system_regs_retention[] = {
};
_Static_assert(ARRAY_SIZE(hp_system_regs_retention) == HP_SYSTEM_RETENTION_LINK_LEN, "Inconsistent HP_SYSTEM retention link length definitions");
/* UART0 Registers Context */
#define N_REGS_UART() (((UART_CLK_CONF_REG(0) - REG_UART_BASE(0)) / 4) + 1)
const regdma_entries_config_t uart_regs_retention[] = {
[0] = { .config = REGDMA_LINK_CONTINUOUS_INIT(REGDMA_UART_LINK(0x00), REG_UART_BASE(0), REG_UART_BASE(0), N_REGS_UART(), 0, 0), .owner = ENTRY(0) }, /* uart */
/* Note: uart register should set update reg to make the configuration take effect */
[1] = { .config = REGDMA_LINK_WRITE_INIT (REGDMA_UART_LINK(0x01), UART_REG_UPDATE_REG(0), UART_REG_UPDATE, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) },
[2] = { .config = REGDMA_LINK_WAIT_INIT (REGDMA_UART_LINK(0x02), UART_REG_UPDATE_REG(0), 0x0, UART_REG_UPDATE_M, 1, 0), .owner = ENTRY(0) }
};
_Static_assert(ARRAY_SIZE(uart_regs_retention) == UART_RETENTION_LINK_LEN, "Inconsistent UART retention link length definitions");
/* IO MUX Registers Context */
#define N_REGS_IOMUX_0() (((IO_MUX_GPIO54_REG - REG_IO_MUX_BASE) / 4) + 1)
#define N_REGS_IOMUX_1() (((GPIO_ZERO_DET1_FILTER_CNT_REG - DR_REG_GPIO_BASE) / 4) + 1)

View File

@ -1,11 +1,12 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
#include "soc/lp_gpio_sig_map.h"
#include "soc/uart_reg.h"
/*
Bunch of constants for every UART peripheral: GPIO signals, irqs, hw addr of registers etc
@ -42,7 +43,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{ // HP UART1
@ -76,7 +76,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{ // HP UART2
@ -110,7 +109,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART2_INTR_SOURCE,
.module = PERIPH_UART2_MODULE,
},
{ // HP UART3
@ -144,7 +142,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART3_INTR_SOURCE,
.module = PERIPH_UART3_MODULE,
},
{ // HP UART4
@ -178,7 +175,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART4_INTR_SOURCE,
.module = PERIPH_UART4_MODULE,
},
{ // LP UART0
.pins = {
@ -211,6 +207,69 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_LP_UART_INTR_SOURCE,
.module = PERIPH_LP_UART0_MODULE,
},
};
/**
* UART registers to be saved during sleep retention
*
* Reset TXFIFO and RXFIFO
* UART registers require set the reg_update bit to make the configuration take effect
*
* UART_INT_ENA_REG, UART_CLKDIV_SYNC_REG, UART_RX_FILT_REG, UART_CONF0_SYNC_REG, UART_CONF1_REG,
* UART_HWFC_CONF_SYNC_REG, UART_SLEEP_CONF0_REG, UART_SLEEP_CONF1_REG, UART_SLEEP_CONF2_REG,
* UART_SWFC_CONF0_SYNC_REG, UART_SWFC_CONF1_REG, UART_TXBRK_CONF_SYNC_REG, UART_IDLE_CONF_SYNC_REG,
* UART_RS485_CONF_SYNC_REG, UART_AT_CMD_PRECNT_SYNC_REG, UART_AT_CMD_POSTCNT_SYNC_REG, UART_AT_CMD_GAPTOUT_SYNC_REG,
* UART_AT_CMD_CHAR_SYNC_REG, UART_MEM_CONF_REG, UART_TOUT_CONF_SYNC_REG, UART_ID_REG
*/
#define UART_RETENTION_ADDR_MAP_REGS_CNT 21
#define UART_RETENTION_REGS_BASE(i) UART_INT_ENA_REG(i)
static const uint32_t uart_regs_map[4] = {0x7fff6d, 0x10, 0x0, 0x0};
#define UART_SLEEP_RETENTION_ENTRIES(uart_num) { \
[0] = {.config = REGDMA_LINK_ADDR_MAP_INIT(REGDMA_UART_LINK(0x00), \
UART_RETENTION_REGS_BASE(uart_num), UART_RETENTION_REGS_BASE(uart_num), \
UART_RETENTION_ADDR_MAP_REGS_CNT, 0, 0, \
uart_regs_map[0], uart_regs_map[1], \
uart_regs_map[2], uart_regs_map[3] \
), \
.owner = ENTRY(0) }, \
[1] = {.config = REGDMA_LINK_WRITE_INIT(REGDMA_UART_LINK(0x01), \
UART_REG_UPDATE_REG(uart_num), UART_REG_UPDATE, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) }, \
[2] = {.config = REGDMA_LINK_WAIT_INIT(REGDMA_UART_LINK(0x02), \
UART_REG_UPDATE_REG(uart_num), 0x0, \
UART_REG_UPDATE_M, 1, 0 \
), \
.owner = ENTRY(0) }, \
}
static const regdma_entries_config_t uart0_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(0);
static const regdma_entries_config_t uart1_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(1);
static const regdma_entries_config_t uart2_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(2);
static const regdma_entries_config_t uart3_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(3);
static const regdma_entries_config_t uart4_regdma_entries[] = UART_SLEEP_RETENTION_ENTRIES(4);
const uart_reg_retention_info_t uart_reg_retention_info[SOC_UART_HP_NUM] = {
[0] = {
.regdma_entry_array = uart0_regdma_entries,
.array_size = ARRAY_SIZE(uart0_regdma_entries),
},
[1] = {
.regdma_entry_array = uart1_regdma_entries,
.array_size = ARRAY_SIZE(uart1_regdma_entries),
},
[2] = {
.regdma_entry_array = uart2_regdma_entries,
.array_size = ARRAY_SIZE(uart2_regdma_entries),
},
[3] = {
.regdma_entry_array = uart3_regdma_entries,
.array_size = ARRAY_SIZE(uart3_regdma_entries),
},
[4] = {
.regdma_entry_array = uart4_regdma_entries,
.array_size = ARRAY_SIZE(uart4_regdma_entries),
},
};

View File

@ -1,16 +1,8 @@
// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
@ -49,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -83,6 +74,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
};

View File

@ -1,16 +1,8 @@
// Copyright 2015-2020 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/*
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "soc/uart_periph.h"
@ -49,7 +41,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART0_INTR_SOURCE,
.module = PERIPH_UART0_MODULE,
},
{
@ -83,7 +74,6 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
},
},
.irq = ETS_UART1_INTR_SOURCE,
.module = PERIPH_UART1_MODULE,
},
{
@ -117,6 +107,5 @@ const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM] = {
}
},
.irq = ETS_UART2_INTR_SOURCE,
.module = PERIPH_UART2_MODULE,
}
};

View File

@ -8,10 +8,7 @@
#include "soc/soc_caps.h"
#include "soc/periph_defs.h"
#if SOC_PM_SUPPORT_TOP_PD
#include "soc/regdma.h"
#endif
#ifdef __cplusplus
extern "C" {

View File

@ -10,9 +10,7 @@
#include "soc/soc_caps.h"
#if SOC_I2C_SUPPORTED // TODO: [ESP32C5] IDF-8694
#include "soc/periph_defs.h"
#if SOC_PM_SUPPORT_TOP_PD
#include "soc/regdma.h"
#endif
#endif // SOC_I2C_SUPPORTED
#ifdef __cplusplus
@ -32,7 +30,7 @@ typedef struct {
extern const i2c_signal_conn_t i2c_periph_signal[SOC_I2C_NUM];
#if SOC_PM_SUPPORT_TOP_PD
#if SOC_I2C_SUPPORT_SLEEP_RETENTION
typedef struct {
const regdma_entries_config_t *link_list;
uint32_t link_num;

View File

@ -66,6 +66,7 @@ extern "C" {
#define REGDMA_LINK_PRI_RMT REGDMA_LINK_PRI_GENERAL_PERIPH
#define REGDMA_LINK_PRI_GPTIMER REGDMA_LINK_PRI_GENERAL_PERIPH
#define REGDMA_LINK_PRI_I2C REGDMA_LINK_PRI_GENERAL_PERIPH
#define REGDMA_LINK_PRI_UART REGDMA_LINK_PRI_GENERAL_PERIPH
typedef enum {
REGDMA_LINK_PRI_0 = 0,

View File

@ -1,17 +1,18 @@
/*
* SPDX-FileCopyrightText: 2019-2023 Espressif Systems (Shanghai) CO LTD
* SPDX-FileCopyrightText: 2019-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#pragma once
#include "soc/soc_caps.h"
#include "soc/periph_defs.h"
#include "soc/interrupts.h"
#include "soc/gpio_sig_map.h"
#include "soc/io_mux_reg.h"
#include "soc/uart_pins.h"
#include "soc/uart_struct.h"
#include "soc/uart_reg.h"
#include "soc/regdma.h"
#ifdef __cplusplus
extern "C" {
@ -45,13 +46,19 @@ typedef struct {
typedef struct {
const uart_periph_sig_t pins[SOC_UART_PINS_COUNT];
const uint8_t irq;
union {
const periph_module_t module;
};
} uart_signal_conn_t;
extern const uart_signal_conn_t uart_periph_signal[SOC_UART_NUM];
#if SOC_UART_SUPPORT_SLEEP_RETENTION
typedef struct {
const regdma_entries_config_t *regdma_entry_array;
uint32_t array_size;
} uart_reg_retention_info_t;
extern const uart_reg_retention_info_t uart_reg_retention_info[SOC_UART_HP_NUM];
#endif
#ifdef __cplusplus
}
#endif

View File

@ -68,6 +68,10 @@ Call the function :cpp:func:`uart_param_config` and pass to it a :cpp:type:`uart
For more information on how to configure the hardware flow control options, please refer to :example:`peripherals/uart/uart_echo`.
.. only:: SOC_UART_SUPPORT_SLEEP_RETENTION
Additionally, :cpp:member:`uart_config_t::backup_before_sleep` can be set to enable the backup of the UART configuration registers before entering sleep and restore these registers after exiting sleep. This allows the UART to continue working properly after waking up even when the UART module power domain is entirely off during sleep. This option implies an balance between power consumption and memory usage. If the power consumption is not a concern, you can disable this option to save memory.
Multiple Steps
""""""""""""""

View File

@ -68,6 +68,10 @@ UART 通信参数可以在一个步骤中完成全部配置,也可以在多个
了解配置硬件流控模式的更多信息,请参考 :example:`peripherals/uart/uart_echo`
.. only:: SOC_UART_SUPPORT_SLEEP_RETENTION
此外,置位 :cpp:member:`uart_config_t::backup_before_sleep` 会使能在进入睡眠模式前备份 UART 配置寄存器并在退出睡眠后恢复这些寄存器。这个功能使 UART 能够在系统唤醒后继续正常工作,即使其电源域在睡眠过程中被完全关闭。此选项需要用户在功耗和内存使用之间取得平衡。如果功耗不是一个问题,可以禁用这个选项来节省内存。
分步依次配置每个参数
"""""""""""""""""""""""""""""""

View File

@ -586,7 +586,6 @@ components/soc/esp32/include/soc/uhci_struct.h
components/soc/esp32/include/soc/wdev_reg.h
components/soc/esp32/ledc_periph.c
components/soc/esp32/spi_periph.c
components/soc/esp32/uart_periph.c
components/soc/esp32c3/i2c_periph.c
components/soc/esp32c3/include/soc/apb_saradc_reg.h
components/soc/esp32c3/include/soc/assist_debug_reg.h
@ -617,7 +616,6 @@ components/soc/esp32c3/include/soc/usb_serial_jtag_struct.h
components/soc/esp32c3/include/soc/wdev_reg.h
components/soc/esp32c3/interrupts.c
components/soc/esp32c3/ledc_periph.c
components/soc/esp32c3/uart_periph.c
components/soc/esp32s2/adc_periph.c
components/soc/esp32s2/dedic_gpio_periph.c
components/soc/esp32s2/i2c_periph.c
@ -655,7 +653,6 @@ components/soc/esp32s2/include/soc/usb_wrap_reg.h
components/soc/esp32s2/include/soc/usb_wrap_struct.h
components/soc/esp32s2/include/soc/wdev_reg.h
components/soc/esp32s2/ledc_periph.c
components/soc/esp32s2/uart_periph.c
components/soc/esp32s3/dedic_gpio_periph.c
components/soc/esp32s3/i2c_periph.c
components/soc/esp32s3/include/soc/apb_saradc_reg.h
@ -715,7 +712,6 @@ components/soc/esp32s3/include/soc/usb_wrap_reg.h
components/soc/esp32s3/include/soc/usb_wrap_struct.h
components/soc/esp32s3/include/soc/wdev_reg.h
components/soc/esp32s3/ledc_periph.c
components/soc/esp32s3/uart_periph.c
components/soc/include/soc/dedic_gpio_periph.h
components/soc/include/soc/gpio_periph.h
components/soc/include/soc/ledc_periph.h