change(esp_hw_support): modify the style of module argument from bitmap to number

This commit is contained in:
Li Shuai 2024-02-05 11:37:58 +08:00
parent f5c8cc2bef
commit f66e3f031d
5 changed files with 110 additions and 66 deletions

View File

@ -23,34 +23,63 @@ extern "C" {
* includes sleep retention list creation, destruction and debugging interfaces. * includes sleep retention list creation, destruction and debugging interfaces.
*/ */
typedef enum sleep_retention_module_bitmap { typedef enum sleep_retention_module {
SLEEP_RETENTION_MODULE_MIN = 0,
/* clock module, which includes system and modem */ /* clock module, which includes system and modem */
SLEEP_RETENTION_MODULE_CLOCK_SYSTEM = BIT(1), SLEEP_RETENTION_MODULE_CLOCK_SYSTEM = 1,
SLEEP_RETENTION_MODULE_CLOCK_MODEM = BIT(2), SLEEP_RETENTION_MODULE_CLOCK_MODEM = 2,
/* modem module, which includes WiFi, BLE and 802.15.4 */ /* modem module, which includes WiFi, BLE and 802.15.4 */
SLEEP_RETENTION_MODULE_WIFI_MAC = BIT(10), SLEEP_RETENTION_MODULE_WIFI_MAC = 10,
SLEEP_RETENTION_MODULE_WIFI_BB = BIT(11), SLEEP_RETENTION_MODULE_WIFI_BB = 11,
SLEEP_RETENTION_MODULE_BLE_MAC = BIT(12), SLEEP_RETENTION_MODULE_BLE_MAC = 12,
SLEEP_RETENTION_MODULE_BT_BB = BIT(13), SLEEP_RETENTION_MODULE_BT_BB = 13,
SLEEP_RETENTION_MODULE_802154_MAC = BIT(14), SLEEP_RETENTION_MODULE_802154_MAC = 14,
/* digital peripheral module, which includes Interrupt Matrix, HP_SYSTEM, /* digital peripheral module, which includes Interrupt Matrix, HP_SYSTEM,
* TEE, APM, UART, Timer Group, IOMUX, SPIMEM, SysTimer, etc.. */ * TEE, APM, UART, Timer Group, IOMUX, SPIMEM, SysTimer, etc.. */
SLEEP_RETENTION_MODULE_INTR_MATRIX = BIT(16), SLEEP_RETENTION_MODULE_INTR_MATRIX = 16,
SLEEP_RETENTION_MODULE_HP_SYSTEM = BIT(17), SLEEP_RETENTION_MODULE_HP_SYSTEM = 17,
SLEEP_RETENTION_MODULE_TEE_APM = BIT(18), SLEEP_RETENTION_MODULE_TEE_APM = 18,
SLEEP_RETENTION_MODULE_UART0 = BIT(19), SLEEP_RETENTION_MODULE_UART0 = 19,
SLEEP_RETENTION_MODULE_TG0 = BIT(20), SLEEP_RETENTION_MODULE_TG0 = 20,
SLEEP_RETENTION_MODULE_IOMUX = BIT(21), SLEEP_RETENTION_MODULE_IOMUX = 21,
SLEEP_RETENTION_MODULE_SPIMEM = BIT(22), SLEEP_RETENTION_MODULE_SPIMEM = 22,
SLEEP_RETENTION_MODULE_SYSTIMER = BIT(23), SLEEP_RETENTION_MODULE_SYSTIMER = 23,
SLEEP_RETENTION_MODULE_GDMA_CH0 = BIT(24), SLEEP_RETENTION_MODULE_GDMA_CH0 = 24,
SLEEP_RETENTION_MODULE_GDMA_CH1 = BIT(25), SLEEP_RETENTION_MODULE_GDMA_CH1 = 25,
SLEEP_RETENTION_MODULE_GDMA_CH2 = BIT(26), SLEEP_RETENTION_MODULE_GDMA_CH2 = 26,
SLEEP_RETENTION_MODULE_MAX = 31
} sleep_retention_module_t;
SLEEP_RETENTION_MODULE_ALL = (uint32_t)-1 typedef enum sleep_retention_module_bitmap {
/* clock module, which includes system and modem */
SLEEP_RETENTION_MODULE_BM_CLOCK_SYSTEM = BIT(SLEEP_RETENTION_MODULE_CLOCK_SYSTEM),
SLEEP_RETENTION_MODULE_BM_CLOCK_MODEM = BIT(SLEEP_RETENTION_MODULE_CLOCK_MODEM),
/* 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),
SLEEP_RETENTION_MODULE_BM_BLE_MAC = BIT(SLEEP_RETENTION_MODULE_BLE_MAC),
SLEEP_RETENTION_MODULE_BM_BT_BB = BIT(SLEEP_RETENTION_MODULE_BT_BB),
SLEEP_RETENTION_MODULE_BM_802154_MAC = BIT(SLEEP_RETENTION_MODULE_802154_MAC),
/* digital peripheral module, which includes Interrupt Matrix, HP_SYSTEM,
* TEE, APM, UART, Timer Group, IOMUX, SPIMEM, SysTimer, etc.. */
SLEEP_RETENTION_MODULE_BM_INTR_MATRIX = BIT(SLEEP_RETENTION_MODULE_INTR_MATRIX),
SLEEP_RETENTION_MODULE_BM_HP_SYSTEM = BIT(SLEEP_RETENTION_MODULE_HP_SYSTEM),
SLEEP_RETENTION_MODULE_BM_TEE_APM = BIT(SLEEP_RETENTION_MODULE_TEE_APM),
SLEEP_RETENTION_MODULE_BM_UART0 = BIT(SLEEP_RETENTION_MODULE_UART0),
SLEEP_RETENTION_MODULE_BM_TG0 = BIT(SLEEP_RETENTION_MODULE_TG0),
SLEEP_RETENTION_MODULE_BM_IOMUX = BIT(SLEEP_RETENTION_MODULE_IOMUX),
SLEEP_RETENTION_MODULE_BM_SPIMEM = BIT(SLEEP_RETENTION_MODULE_SPIMEM),
SLEEP_RETENTION_MODULE_BM_SYSTIMER = BIT(SLEEP_RETENTION_MODULE_SYSTIMER),
SLEEP_RETENTION_MODULE_BM_GDMA_CH0 = BIT(SLEEP_RETENTION_MODULE_GDMA_CH0),
SLEEP_RETENTION_MODULE_BM_GDMA_CH1 = BIT(SLEEP_RETENTION_MODULE_GDMA_CH1),
SLEEP_RETENTION_MODULE_BM_GDMA_CH2 = BIT(SLEEP_RETENTION_MODULE_GDMA_CH2),
SLEEP_RETENTION_MODULE_BM_ALL = (uint32_t)-1
} sleep_retention_module_bitmap_t; } sleep_retention_module_bitmap_t;
typedef regdma_entry_buf_t sleep_retention_entries_t; typedef regdma_entry_buf_t sleep_retention_entries_t;
@ -67,21 +96,21 @@ typedef struct {
* @param num the total number of sleep retention linked list configuration * @param num the total number of sleep retention linked list configuration
* items * items
* @param priority the priority of the created sleep retention linked list * @param priority the priority of the created sleep retention linked list
* @param module the bitmap of the module to which the created sleep retention * @param module the number of the module to which the created sleep retention
* linked list belongs * linked list belongs
* @return * @return
* - ESP_OK on success * - ESP_OK on success
* - ESP_ERR_NO_MEM not enough memory for sleep retention * - ESP_ERR_NO_MEM not enough memory for sleep retention
* - ESP_ERR_INVALID_ARG if either of the arguments is out of range * - ESP_ERR_INVALID_ARG if either of the arguments is out of range
*/ */
esp_err_t sleep_retention_entries_create(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, int module); esp_err_t sleep_retention_entries_create(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, sleep_retention_module_t module);
/** /**
* @brief Destroy a runtime sleep retention linked list * @brief Destroy a runtime sleep retention linked list
* *
* @param module the bitmap of the module to be destroyed * @param module the bitmap of the module to be destroyed
*/ */
void sleep_retention_entries_destroy(int module); void sleep_retention_entries_destroy(sleep_retention_module_t module);
/** /**
* @brief Print all runtime sleep retention linked lists * @brief Print all runtime sleep retention linked lists

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@ -80,9 +80,9 @@ bool clock_domain_pd_allowed(void)
{ {
const uint32_t created_modules = sleep_retention_get_created_modules(); const uint32_t created_modules = sleep_retention_get_created_modules();
const uint32_t mask = (const uint32_t) ( const uint32_t mask = (const uint32_t) (
SLEEP_RETENTION_MODULE_CLOCK_SYSTEM BIT(SLEEP_RETENTION_MODULE_CLOCK_SYSTEM)
#if CONFIG_MAC_BB_PD || CONFIG_BT_LE_SLEEP_ENABLE || CONFIG_IEEE802154_SLEEP_ENABLE #if CONFIG_MAC_BB_PD || CONFIG_BT_LE_SLEEP_ENABLE || CONFIG_IEEE802154_SLEEP_ENABLE
| SLEEP_RETENTION_MODULE_CLOCK_MODEM | BIT(SLEEP_RETENTION_MODULE_CLOCK_MODEM)
#endif #endif
); );
return ((created_modules & mask) == mask); return ((created_modules & mask) == mask);

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@ -286,12 +286,15 @@ bool modem_domain_pd_allowed(void)
{ {
#if SOC_PM_MODEM_RETENTION_BY_REGDMA #if SOC_PM_MODEM_RETENTION_BY_REGDMA
const uint32_t created_modules = sleep_retention_get_created_modules(); const uint32_t created_modules = sleep_retention_get_created_modules();
const uint32_t mask_wifi = (const uint32_t) (SLEEP_RETENTION_MODULE_WIFI_MAC | const uint32_t mask_wifi = (const uint32_t) ( \
SLEEP_RETENTION_MODULE_WIFI_BB); BIT(SLEEP_RETENTION_MODULE_WIFI_MAC) | \
const uint32_t mask_ble = (const uint32_t) (SLEEP_RETENTION_MODULE_BLE_MAC | BIT(SLEEP_RETENTION_MODULE_WIFI_BB));
SLEEP_RETENTION_MODULE_BT_BB); const uint32_t mask_ble = (const uint32_t) ( \
const uint32_t mask_154 = (const uint32_t) (SLEEP_RETENTION_MODULE_802154_MAC | BIT(SLEEP_RETENTION_MODULE_BLE_MAC) | \
SLEEP_RETENTION_MODULE_BT_BB); BIT(SLEEP_RETENTION_MODULE_BT_BB));
const uint32_t mask_154 = (const uint32_t) ( \
BIT(SLEEP_RETENTION_MODULE_802154_MAC) | \
BIT(SLEEP_RETENTION_MODULE_BT_BB));
return (((created_modules & mask_wifi) == mask_wifi) || return (((created_modules & mask_wifi) == mask_wifi) ||
((created_modules & mask_ble) == mask_ble) || ((created_modules & mask_ble) == mask_ble) ||
((created_modules & mask_154) == mask_154)); ((created_modules & mask_154) == mask_154));

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@ -82,6 +82,7 @@ typedef struct {
#define SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES (8u) #define SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES (8u)
#define SLEEP_RETENTION_REGDMA_LINK_HIGHEST_PRIORITY (0) #define SLEEP_RETENTION_REGDMA_LINK_HIGHEST_PRIORITY (0)
#define SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY (SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES - 1) #define SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY (SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES - 1)
#define SLEEP_RETENTION_MODULE_INVALID ((sleep_retention_module_t)(-1)) /* the final node does not belong to any module */
struct { struct {
sleep_retention_entries_t entries; sleep_retention_entries_t entries;
uint32_t entries_bitmap: REGDMA_LINK_ENTRY_NUM, uint32_t entries_bitmap: REGDMA_LINK_ENTRY_NUM,
@ -104,9 +105,14 @@ static DRAM_ATTR __attribute__((unused)) sleep_retention_t s_retention = {
#define SLEEP_RETENTION_ENTRY_BITMAP_MASK (BIT(REGDMA_LINK_ENTRY_NUM) - 1) #define SLEEP_RETENTION_ENTRY_BITMAP_MASK (BIT(REGDMA_LINK_ENTRY_NUM) - 1)
#define SLEEP_RETENTION_ENTRY_BITMAP(bitmap) ((bitmap) & SLEEP_RETENTION_ENTRY_BITMAP_MASK) #define SLEEP_RETENTION_ENTRY_BITMAP(bitmap) ((bitmap) & SLEEP_RETENTION_ENTRY_BITMAP_MASK)
static esp_err_t sleep_retention_entries_create_impl(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, int module); static esp_err_t sleep_retention_entries_create_impl(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, sleep_retention_module_t module);
static void sleep_retention_entries_join(void); static void sleep_retention_entries_join(void);
static inline sleep_retention_module_bitmap_t module_num2map(sleep_retention_module_t module)
{
return (module == SLEEP_RETENTION_MODULE_INVALID) ? 0 : BIT(module);
}
static inline bool sleep_retention_entries_require_branch(uint32_t owner, uint32_t runtime_bitmap) static inline bool sleep_retention_entries_require_branch(uint32_t owner, uint32_t runtime_bitmap)
{ {
bool use_new_entry = SLEEP_RETENTION_ENTRY_BITMAP(owner & ~runtime_bitmap) ? true : false; bool use_new_entry = SLEEP_RETENTION_ENTRY_BITMAP(owner & ~runtime_bitmap) ? true : false;
@ -114,7 +120,7 @@ static inline bool sleep_retention_entries_require_branch(uint32_t owner, uint32
return use_new_entry && intersection_exist; return use_new_entry && intersection_exist;
} }
static esp_err_t sleep_retention_entries_check_and_create_default(uint32_t owner, uint32_t runtime_bitmap, uint32_t entries_bitmap, regdma_link_priority_t priority, uint32_t module) static esp_err_t sleep_retention_entries_check_and_create_default(uint32_t owner, uint32_t runtime_bitmap, uint32_t entries_bitmap, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
assert(sleep_retention_entries_require_branch(owner, runtime_bitmap)); assert(sleep_retention_entries_require_branch(owner, runtime_bitmap));
@ -133,7 +139,7 @@ static esp_err_t sleep_retention_entries_check_and_create_final_default(void)
esp_err_t err = ESP_OK; esp_err_t err = ESP_OK;
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
if (s_retention.lists[SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY].entries_bitmap == 0) { if (s_retention.lists[SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY].entries_bitmap == 0) {
err = sleep_retention_entries_create_impl(&final_dummy, 1, SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY, 0); err = sleep_retention_entries_create_impl(&final_dummy, 1, SLEEP_RETENTION_REGDMA_LINK_LOWEST_PRIORITY, SLEEP_RETENTION_MODULE_INVALID);
} }
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
return err; return err;
@ -157,7 +163,7 @@ static void sleep_retention_entries_update(uint32_t owner, void *new_link, regdm
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
static void * sleep_retention_entries_try_create(const regdma_link_config_t *config, uint32_t owner, regdma_link_priority_t priority, uint32_t module) static void * sleep_retention_entries_try_create(const regdma_link_config_t *config, uint32_t owner, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
void *link = NULL; void *link = NULL;
assert(owner > 0 && owner < BIT(REGDMA_LINK_ENTRY_NUM)); assert(owner > 0 && owner < BIT(REGDMA_LINK_ENTRY_NUM));
@ -165,9 +171,9 @@ static void * sleep_retention_entries_try_create(const regdma_link_config_t *con
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
if (sleep_retention_entries_require_branch(owner, s_retention.lists[priority].runtime_bitmap)) { if (sleep_retention_entries_require_branch(owner, s_retention.lists[priority].runtime_bitmap)) {
if (sleep_retention_entries_check_and_create_default(owner, s_retention.lists[priority].runtime_bitmap, if (sleep_retention_entries_check_and_create_default(owner, s_retention.lists[priority].runtime_bitmap,
s_retention.lists[priority].entries_bitmap, priority, module) == ESP_OK) { /* branch node can't as tail node */ s_retention.lists[priority].entries_bitmap, priority, module_num2map(module)) == ESP_OK) { /* branch node can't as tail node */
link = regdma_link_init_safe( link = regdma_link_init_safe(
config, true, module, config, true, module_num2map(module),
(owner & BIT(0)) ? s_retention.lists[priority].entries[0] : NULL, (owner & BIT(0)) ? s_retention.lists[priority].entries[0] : NULL,
(owner & BIT(1)) ? s_retention.lists[priority].entries[1] : NULL, (owner & BIT(1)) ? s_retention.lists[priority].entries[1] : NULL,
(owner & BIT(2)) ? s_retention.lists[priority].entries[2] : NULL, (owner & BIT(2)) ? s_retention.lists[priority].entries[2] : NULL,
@ -175,18 +181,18 @@ static void * sleep_retention_entries_try_create(const regdma_link_config_t *con
); );
} }
} else { } else {
link = regdma_link_init_safe(config, false, module, s_retention.lists[priority].entries[__builtin_ffs(owner) - 1]); link = regdma_link_init_safe(config, false, module_num2map(module), s_retention.lists[priority].entries[__builtin_ffs(owner) - 1]);
} }
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
return link; return link;
} }
static void * sleep_retention_entries_try_create_bonding(const regdma_link_config_t *config, uint32_t owner, regdma_link_priority_t priority, uint32_t module) static void * sleep_retention_entries_try_create_bonding(const regdma_link_config_t *config, uint32_t owner, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
assert(owner > 0 && owner < BIT(REGDMA_LINK_ENTRY_NUM)); assert(owner > 0 && owner < BIT(REGDMA_LINK_ENTRY_NUM));
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
void *link = regdma_link_init_safe( void *link = regdma_link_init_safe(
config, true, module, config, true, module_num2map(module),
(owner & BIT(0)) ? s_retention.lists[priority].entries[0] : NULL, (owner & BIT(0)) ? s_retention.lists[priority].entries[0] : NULL,
(owner & BIT(1)) ? s_retention.lists[priority].entries[1] : NULL, (owner & BIT(1)) ? s_retention.lists[priority].entries[1] : NULL,
(owner & BIT(2)) ? s_retention.lists[priority].entries[2] : NULL, (owner & BIT(2)) ? s_retention.lists[priority].entries[2] : NULL,
@ -246,7 +252,7 @@ static uint32_t sleep_retention_entries_owner_bitmap(sleep_retention_entries_t *
return owner; return owner;
} }
static bool sleep_retention_entries_get_destroy_context(regdma_link_priority_t priority, uint32_t module, sleep_retention_entries_t *destroy_entries, void **destroy_tail, sleep_retention_entries_t *next_entries, void **prev_tail) static bool sleep_retention_entries_get_destroy_context(regdma_link_priority_t priority, sleep_retention_module_t module, sleep_retention_entries_t *destroy_entries, void **destroy_tail, sleep_retention_entries_t *next_entries, void **prev_tail)
{ {
bool exist = false; bool exist = false;
sleep_retention_entries_t destroy_tails, prev_tails; sleep_retention_entries_t destroy_tails, prev_tails;
@ -257,13 +263,13 @@ static bool sleep_retention_entries_get_destroy_context(regdma_link_priority_t p
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
for (int entry = 0; entry < ARRAY_SIZE(s_retention.lists[priority].entries); entry++) { for (int entry = 0; entry < ARRAY_SIZE(s_retention.lists[priority].entries); entry++) {
(*destroy_entries)[entry] = regdma_find_module_link_head( (*destroy_entries)[entry] = regdma_find_module_link_head(
s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module); s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module_num2map(module));
destroy_tails [entry] = regdma_find_module_link_tail( destroy_tails [entry] = regdma_find_module_link_tail(
s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module); s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module_num2map(module));
(*next_entries) [entry] = regdma_find_next_module_link_head( (*next_entries) [entry] = regdma_find_next_module_link_head(
s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module); s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module_num2map(module));
prev_tails [entry] = regdma_find_prev_module_link_tail( prev_tails [entry] = regdma_find_prev_module_link_tail(
s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module); s_retention.lists[priority].entries[entry], s_retention.lists[priority].entries_tail, entry, module_num2map(module));
if ((*destroy_entries)[entry] && destroy_tails[entry]) { if ((*destroy_entries)[entry] && destroy_tails[entry]) {
exist = true; exist = true;
} }
@ -327,7 +333,7 @@ static void sleep_retention_entries_check_and_distroy_final_default(void)
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
static void sleep_retention_entries_all_destroy_wrapper(uint32_t module) static void sleep_retention_entries_all_destroy_wrapper(sleep_retention_module_t module)
{ {
void *destroy_tail = NULL, *prev_tail = NULL; void *destroy_tail = NULL, *prev_tail = NULL;
sleep_retention_entries_t destroy_entries, next_entries; sleep_retention_entries_t destroy_entries, next_entries;
@ -348,13 +354,13 @@ static void sleep_retention_entries_all_destroy_wrapper(uint32_t module)
priority++; priority++;
} }
} while (priority < SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES); } while (priority < SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES);
s_retention.created_modules &= ~module; s_retention.created_modules &= ~module_num2map(module);
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
static void sleep_retention_entries_do_destroy(int module) static void sleep_retention_entries_do_destroy(sleep_retention_module_t module)
{ {
assert(module != 0); assert(SLEEP_RETENTION_MODULE_MIN <= module && module <= SLEEP_RETENTION_MODULE_MAX);
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
sleep_retention_entries_join(); sleep_retention_entries_join();
sleep_retention_entries_stats(); sleep_retention_entries_stats();
@ -362,9 +368,9 @@ static void sleep_retention_entries_do_destroy(int module)
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
void sleep_retention_entries_destroy(int module) void sleep_retention_entries_destroy(sleep_retention_module_t module)
{ {
assert(module != 0); assert(SLEEP_RETENTION_MODULE_MIN <= module && module <= SLEEP_RETENTION_MODULE_MAX);
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
sleep_retention_entries_do_destroy(module); sleep_retention_entries_do_destroy(module);
if (s_retention.created_modules == 0) { if (s_retention.created_modules == 0) {
@ -380,7 +386,7 @@ void sleep_retention_entries_destroy(int module)
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
static esp_err_t sleep_retention_entries_create_impl(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, int module) static esp_err_t sleep_retention_entries_create_impl(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
for (int i = num - 1; i >= 0; i--) { for (int i = num - 1; i >= 0; i--) {
@ -403,7 +409,7 @@ static esp_err_t sleep_retention_entries_create_impl(const sleep_retention_entri
return ESP_OK; return ESP_OK;
} }
static esp_err_t sleep_retention_entries_create_bonding(regdma_link_priority_t priority, uint32_t module) static esp_err_t sleep_retention_entries_create_bonding(regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
static const sleep_retention_entries_config_t bonding_dummy = { REGDMA_LINK_WAIT_INIT(0xffff, 0, 0, 0, 1, 1), SLEEP_RETENTION_ENTRY_BITMAP_MASK }; static const sleep_retention_entries_config_t bonding_dummy = { REGDMA_LINK_WAIT_INIT(0xffff, 0, 0, 0, 1, 1), SLEEP_RETENTION_ENTRY_BITMAP_MASK };
@ -442,7 +448,7 @@ static void sleep_retention_entries_join(void)
_lock_release_recursive(&s_retention.lock); _lock_release_recursive(&s_retention.lock);
} }
static esp_err_t sleep_retention_entries_create_wrapper(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, uint32_t module) static esp_err_t sleep_retention_entries_create_wrapper(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
_lock_acquire_recursive(&s_retention.lock); _lock_acquire_recursive(&s_retention.lock);
esp_err_t err = sleep_retention_entries_create_bonding(priority, module); esp_err_t err = sleep_retention_entries_create_bonding(priority, module);
@ -451,7 +457,7 @@ static esp_err_t sleep_retention_entries_create_wrapper(const sleep_retention_en
if(err) goto error; if(err) goto error;
err = sleep_retention_entries_create_bonding(priority, module); err = sleep_retention_entries_create_bonding(priority, module);
if(err) goto error; if(err) goto error;
s_retention.created_modules |= module; s_retention.created_modules |= module_num2map(module);
sleep_retention_entries_join(); sleep_retention_entries_join();
error: error:
@ -459,9 +465,15 @@ error:
return err; return err;
} }
esp_err_t sleep_retention_entries_create(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, int module) esp_err_t sleep_retention_entries_create(const sleep_retention_entries_config_t retent[], int num, regdma_link_priority_t priority, sleep_retention_module_t module)
{ {
if (!(retent && num > 0 && (priority < SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES) && (module != 0))) { if (retent == NULL || num <= 0) {
return ESP_ERR_INVALID_ARG;
}
if (priority >= SLEEP_RETENTION_REGDMA_LINK_NR_PRIORITIES) {
return ESP_ERR_INVALID_ARG;
}
if (module < SLEEP_RETENTION_MODULE_MIN || module > SLEEP_RETENTION_MODULE_MAX) {
return ESP_ERR_INVALID_ARG; return ESP_ERR_INVALID_ARG;
} }
if (s_retention.lock == NULL) { if (s_retention.lock == NULL) {

View File

@ -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 * SPDX-License-Identifier: Apache-2.0
*/ */
@ -247,14 +247,14 @@ bool peripheral_domain_pd_allowed(void)
{ {
const uint32_t created_modules = sleep_retention_get_created_modules(); const uint32_t created_modules = sleep_retention_get_created_modules();
const uint32_t mask = (const uint32_t) ( const uint32_t mask = (const uint32_t) (
SLEEP_RETENTION_MODULE_INTR_MATRIX | \ BIT(SLEEP_RETENTION_MODULE_INTR_MATRIX) | \
SLEEP_RETENTION_MODULE_HP_SYSTEM | \ BIT(SLEEP_RETENTION_MODULE_HP_SYSTEM) | \
SLEEP_RETENTION_MODULE_TEE_APM | \ BIT(SLEEP_RETENTION_MODULE_TEE_APM) | \
SLEEP_RETENTION_MODULE_UART0 | \ BIT(SLEEP_RETENTION_MODULE_UART0) | \
SLEEP_RETENTION_MODULE_TG0 | \ BIT(SLEEP_RETENTION_MODULE_TG0) | \
SLEEP_RETENTION_MODULE_IOMUX | \ BIT(SLEEP_RETENTION_MODULE_IOMUX) | \
SLEEP_RETENTION_MODULE_SPIMEM | \ BIT(SLEEP_RETENTION_MODULE_SPIMEM) | \
SLEEP_RETENTION_MODULE_SYSTIMER); BIT(SLEEP_RETENTION_MODULE_SYSTIMER));
return ((created_modules & mask) == mask); return ((created_modules & mask) == mask);
} }