/* * SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include "sdkconfig.h" #include "esp_attr.h" #include "soc/soc.h" #include "soc/soc_caps.h" #include "freertos/FreeRTOS.h" #include "hal/clk_gate_ll.h" #include "esp_private/esp_modem_clock.h" #include "esp_private/esp_pmu.h" #include "esp_sleep.h" // Please define the frequently called modules in the low bit, // which will improve the execution efficiency typedef enum { MODEM_CLOCK_FE, MODEM_CLOCK_COEXIST, MODEM_CLOCK_I2C_MASTER, #if SOC_WIFI_SUPPORTED MODEM_CLOCK_WIFI_MAC, MODEM_CLOCK_WIFI_BB, #endif MODEM_CLOCK_ETM, #if SOC_BT_SUPPORTED MODEM_CLOCK_BLE_MAC, MODEM_CLOCK_BLE_BB, #endif #if SOC_IEEE802154_SUPPORTED MODEM_CLOCK_802154_MAC, #endif MODEM_CLOCK_DATADUMP, MODEM_CLOCK_DEVICE_MAX } modem_clock_device_t; typedef struct modem_clock_context { modem_clock_hal_context_t *hal; portMUX_TYPE lock; struct { int16_t refs; uint16_t reserved; /* reserved for 4 bytes aligned */ void (*configure)(struct modem_clock_context *, bool); } dev[MODEM_CLOCK_DEVICE_MAX]; /* the low-power clock source for each module */ modem_clock_lpclk_src_t lpclk_src[PERIPH_MODEM_MODULE_NUM]; } modem_clock_context_t; #if SOC_WIFI_SUPPORTED static void IRAM_ATTR modem_clock_wifi_mac_configure(modem_clock_context_t *ctx, bool enable) { if (enable) { modem_syscon_ll_enable_wifi_apb_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_wifi_mac_clock(ctx->hal->syscon_dev, enable); } } static void IRAM_ATTR modem_clock_wifi_bb_configure(modem_clock_context_t *ctx, bool enable) { if (enable) { modem_syscon_ll_clk_wifibb_configure(ctx->hal->syscon_dev, enable); } } #endif // SOC_WIFI_SUPPORTED #if SOC_BT_SUPPORTED static void IRAM_ATTR modem_clock_ble_mac_configure(modem_clock_context_t *ctx, bool enable) { modem_syscon_ll_enable_etm_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_modem_sec_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_ble_timer_clock(ctx->hal->syscon_dev, enable); } static void IRAM_ATTR modem_clock_ble_bb_configure(modem_clock_context_t *ctx, bool enable) { modem_syscon_ll_enable_bt_apb_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_bt_clock(ctx->hal->syscon_dev, enable); } #endif // SOC_BT_SUPPORTED #if SOC_IEEE802154_SUPPORTED static void IRAM_ATTR modem_clock_ieee802154_mac_configure(modem_clock_context_t *ctx, bool enable) { modem_syscon_ll_enable_etm_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_ieee802154_apb_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_ieee802154_mac_clock(ctx->hal->syscon_dev, enable); } #endif // SOC_IEEE802154_SUPPORTED static void IRAM_ATTR modem_clock_coex_configure(modem_clock_context_t *ctx, bool enable) { modem_lpcon_ll_enable_coex_clock(ctx->hal->lpcon_dev, enable); } static void IRAM_ATTR modem_clock_fe_configure(modem_clock_context_t *ctx, bool enable) { modem_clock_hal_enable_fe_clock(ctx->hal, enable); } static void IRAM_ATTR modem_clock_i2c_master_configure(modem_clock_context_t *ctx, bool enable) { modem_lpcon_ll_enable_i2c_master_clock(ctx->hal->lpcon_dev, enable); } static void IRAM_ATTR modem_clock_etm_configure(modem_clock_context_t *ctx, bool enable) { modem_syscon_ll_enable_etm_clock(ctx->hal->syscon_dev, enable); } static void IRAM_ATTR modem_clock_data_dump_configure(modem_clock_context_t *ctx, bool enable) { modem_syscon_ll_enable_data_dump_clock(ctx->hal->syscon_dev, enable); modem_syscon_ll_enable_data_dump_mux_clock(ctx->hal->syscon_dev, enable); } modem_clock_context_t * __attribute__((weak)) IRAM_ATTR MODEM_CLOCK_instance(void) { /* It should be explicitly defined in the internal RAM */ static DRAM_ATTR modem_clock_hal_context_t modem_clock_hal = { .syscon_dev = &MODEM_SYSCON, .lpcon_dev = &MODEM_LPCON }; static DRAM_ATTR modem_clock_context_t modem_clock_context = { .hal = &modem_clock_hal, .lock = portMUX_INITIALIZER_UNLOCKED, .dev = { [MODEM_CLOCK_FE] = { .refs = 0, .configure = modem_clock_fe_configure }, [MODEM_CLOCK_COEXIST] = { .refs = 0, .configure = modem_clock_coex_configure }, [MODEM_CLOCK_I2C_MASTER] = { .refs = 0, .configure = modem_clock_i2c_master_configure }, #if SOC_WIFI_SUPPORTED [MODEM_CLOCK_WIFI_MAC] = { .refs = 0, .configure = modem_clock_wifi_mac_configure }, [MODEM_CLOCK_WIFI_BB] = { .refs = 0, .configure = modem_clock_wifi_bb_configure }, #endif [MODEM_CLOCK_ETM] = { .refs = 0, .configure = modem_clock_etm_configure }, #if SOC_BT_SUPPORTED [MODEM_CLOCK_BLE_MAC] = { .refs = 0, .configure = modem_clock_ble_mac_configure }, [MODEM_CLOCK_BLE_BB] = { .refs = 0, .configure = modem_clock_ble_bb_configure }, #endif #if SOC_IEEE802154_SUPPORTED [MODEM_CLOCK_802154_MAC] = { .refs = 0, .configure = modem_clock_ieee802154_mac_configure }, #endif [MODEM_CLOCK_DATADUMP] = { .refs = 0, .configure = modem_clock_data_dump_configure } }, .lpclk_src = { [0 ... PERIPH_MODEM_MODULE_NUM - 1] = MODEM_CLOCK_LPCLK_SRC_INVALID } }; return &modem_clock_context; } #if SOC_PM_SUPPORT_PMU_MODEM_STATE static void IRAM_ATTR modem_clock_domain_power_state_icg_map_init(modem_clock_context_t *ctx) { #define ICG_NOGATING_SLEEP (BIT(PMU_HP_ICG_MODEM_CODE_SLEEP)) #define ICG_NOGATING_MODEM (BIT(PMU_HP_ICG_MODEM_CODE_MODEM)) #define ICG_NOGATING_ACTIVE (BIT(PMU_HP_ICG_MODEM_CODE_ACTIVE)) /* the ICG code's bit 0, 1 and 2 indicates the ICG state * of pmu SLEEP, MODEM and ACTIVE mode respectively */ const uint32_t code[MODEM_CLOCK_DOMAIN_MAX] = { [MODEM_CLOCK_DOMAIN_MODEM_APB] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_MODEM_PERIPH] = ICG_NOGATING_ACTIVE, [MODEM_CLOCK_DOMAIN_WIFI] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_BT] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_FE] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_IEEE802154] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_LP_APB] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_I2C_MASTER] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_COEX] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, [MODEM_CLOCK_DOMAIN_WIFIPWR] = ICG_NOGATING_ACTIVE | ICG_NOGATING_MODEM, }; for (modem_clock_domain_t domain = MODEM_CLOCK_DOMAIN_MODEM_APB; domain < MODEM_CLOCK_DOMAIN_MAX; domain++) { modem_clock_hal_set_clock_domain_icg_bitmap(ctx->hal, domain, code[domain]); } } void modem_clock_domain_pmu_state_icg_map_init(void) { modem_clock_domain_power_state_icg_map_init(MODEM_CLOCK_instance()); } #endif // #if SOC_PM_SUPPORT_PMU_MODEM_STATE static void IRAM_ATTR modem_clock_device_enable(modem_clock_context_t *ctx, uint32_t dev_map) { int16_t refs = 0; portENTER_CRITICAL_SAFE(&ctx->lock); for (int i = 0; dev_map; dev_map >>= 1, i++) { if (dev_map & BIT(0)) { refs = ctx->dev[i].refs++; if (refs == 0) { (*ctx->dev[i].configure)(ctx, true); } } } portEXIT_CRITICAL_SAFE(&ctx->lock); assert(refs >= 0); } static void IRAM_ATTR modem_clock_device_disable(modem_clock_context_t *ctx, uint32_t dev_map) { int16_t refs = 0; portENTER_CRITICAL_SAFE(&ctx->lock); for (int i = 0; dev_map; dev_map >>= 1, i++) { if (dev_map & BIT(0)) { refs = --ctx->dev[i].refs; if (refs == 0) { (*ctx->dev[i].configure)(ctx, false); } } } portEXIT_CRITICAL_SAFE(&ctx->lock); assert(refs >= 0); } void IRAM_ATTR modem_clock_module_mac_reset(periph_module_t module) { modem_clock_context_t *ctx = MODEM_CLOCK_instance(); portENTER_CRITICAL_SAFE(&ctx->lock); switch (module) { #if SOC_WIFI_SUPPORTED case PERIPH_WIFI_MODULE: modem_syscon_ll_reset_wifimac(ctx->hal->syscon_dev); break; #endif #if SOC_BT_SUPPORTED case PERIPH_BT_MODULE: modem_syscon_ll_reset_btmac(ctx->hal->syscon_dev); modem_syscon_ll_reset_btmac_apb(ctx->hal->syscon_dev); modem_syscon_ll_reset_ble_timer(ctx->hal->syscon_dev); modem_syscon_ll_reset_modem_sec(ctx->hal->syscon_dev); break; #endif #if SOC_IEEE802154_SUPPORTED case PERIPH_IEEE802154_MODULE: modem_syscon_ll_reset_zbmac(ctx->hal->syscon_dev); break; default: #endif assert(0); } portEXIT_CRITICAL_SAFE(&ctx->lock); } #define WIFI_CLOCK_DEPS (BIT(MODEM_CLOCK_WIFI_MAC) | BIT(MODEM_CLOCK_FE) | BIT(MODEM_CLOCK_WIFI_BB) | BIT(MODEM_CLOCK_COEXIST)) #define BLE_CLOCK_DEPS (BIT(MODEM_CLOCK_BLE_MAC) | BIT(MODEM_CLOCK_FE) | BIT(MODEM_CLOCK_BLE_BB) | BIT(MODEM_CLOCK_ETM) | BIT(MODEM_CLOCK_COEXIST)) #define IEEE802154_CLOCK_DEPS (BIT(MODEM_CLOCK_802154_MAC) | BIT(MODEM_CLOCK_FE) | BIT(MODEM_CLOCK_BLE_BB) | BIT(MODEM_CLOCK_ETM) | BIT(MODEM_CLOCK_COEXIST)) #define COEXIST_CLOCK_DEPS (BIT(MODEM_CLOCK_COEXIST)) #define PHY_CLOCK_DEPS (BIT(MODEM_CLOCK_I2C_MASTER) | BIT(MODEM_CLOCK_FE)) static inline uint32_t modem_clock_get_module_deps(periph_module_t module) { uint32_t deps = 0; if (module == PERIPH_PHY_MODULE) {deps = PHY_CLOCK_DEPS;} else if (module == PERIPH_COEX_MODULE) { deps = COEXIST_CLOCK_DEPS; } #if SOC_WIFI_SUPPORTED else if (module == PERIPH_WIFI_MODULE) { deps = WIFI_CLOCK_DEPS; } #endif #if SOC_BT_SUPPORTED else if (module == PERIPH_BT_MODULE) { deps = BLE_CLOCK_DEPS; } #endif #if SOC_IEEE802154_SUPPORTED else if (module == PERIPH_IEEE802154_MODULE) { deps = IEEE802154_CLOCK_DEPS; } #endif return deps; } void IRAM_ATTR modem_clock_module_enable(periph_module_t module) { assert(IS_MODEM_MODULE(module)); uint32_t deps = modem_clock_get_module_deps(module); modem_clock_device_enable(MODEM_CLOCK_instance(), deps); } void IRAM_ATTR modem_clock_module_disable(periph_module_t module) { assert(IS_MODEM_MODULE(module)); uint32_t deps = modem_clock_get_module_deps(module); modem_clock_device_disable(MODEM_CLOCK_instance(), deps); } void modem_clock_select_lp_clock_source(periph_module_t module, modem_clock_lpclk_src_t src, uint32_t divider) { assert(IS_MODEM_MODULE(module)); portENTER_CRITICAL_SAFE(&MODEM_CLOCK_instance()->lock); switch (module) { #if SOC_WIFI_SUPPORTED case PERIPH_WIFI_MODULE: modem_clock_hal_deselect_all_wifi_lpclk_source(MODEM_CLOCK_instance()->hal); modem_clock_hal_select_wifi_lpclk_source(MODEM_CLOCK_instance()->hal, src); modem_lpcon_ll_set_wifi_lpclk_divisor_value(MODEM_CLOCK_instance()->hal->lpcon_dev, divider); modem_lpcon_ll_enable_wifipwr_clock(MODEM_CLOCK_instance()->hal->lpcon_dev, true); break; #endif // SOC_WIFI_SUPPORTED #if SOC_BT_SUPPORTED case PERIPH_BT_MODULE: modem_clock_hal_deselect_all_ble_rtc_timer_lpclk_source(MODEM_CLOCK_instance()->hal); modem_clock_hal_select_ble_rtc_timer_lpclk_source(MODEM_CLOCK_instance()->hal, src); modem_clock_hal_set_ble_rtc_timer_divisor_value(MODEM_CLOCK_instance()->hal, divider); modem_clock_hal_enable_ble_rtc_timer_clock(MODEM_CLOCK_instance()->hal, true); break; #endif // SOC_BT_SUPPORTED case PERIPH_COEX_MODULE: modem_clock_hal_deselect_all_coex_lpclk_source(MODEM_CLOCK_instance()->hal); modem_clock_hal_select_coex_lpclk_source(MODEM_CLOCK_instance()->hal, src); modem_lpcon_ll_set_coex_lpclk_divisor_value(MODEM_CLOCK_instance()->hal->lpcon_dev, divider); // modem_lpcon_ll_enable_coex_clock(MODEM_CLOCK_instance()->hal->lpcon_dev, true); // TODO: IDF-5727 break; default: break; } modem_clock_lpclk_src_t last_src = MODEM_CLOCK_instance()->lpclk_src[module - PERIPH_MODEM_MODULE_MIN]; MODEM_CLOCK_instance()->lpclk_src[module - PERIPH_MODEM_MODULE_MIN] = src; portEXIT_CRITICAL_SAFE(&MODEM_CLOCK_instance()->lock); /* The power domain of the low-power clock source required by the modem * module remains powered on during sleep */ esp_sleep_pd_domain_t pd_domain = (esp_sleep_pd_domain_t) ( \ (last_src == MODEM_CLOCK_LPCLK_SRC_RC_FAST) ? ESP_PD_DOMAIN_RC_FAST \ : (last_src == MODEM_CLOCK_LPCLK_SRC_MAIN_XTAL) ? ESP_PD_DOMAIN_XTAL \ : (last_src == MODEM_CLOCK_LPCLK_SRC_RC32K) ? ESP_PD_DOMAIN_RC32K \ : (last_src == MODEM_CLOCK_LPCLK_SRC_XTAL32K) ? ESP_PD_DOMAIN_XTAL32K \ : ESP_PD_DOMAIN_MAX); esp_sleep_pd_domain_t pu_domain = (esp_sleep_pd_domain_t) ( \ (src == MODEM_CLOCK_LPCLK_SRC_RC_FAST) ? ESP_PD_DOMAIN_RC_FAST \ : (src == MODEM_CLOCK_LPCLK_SRC_MAIN_XTAL) ? ESP_PD_DOMAIN_XTAL \ : (src == MODEM_CLOCK_LPCLK_SRC_RC32K) ? ESP_PD_DOMAIN_RC32K \ : (src == MODEM_CLOCK_LPCLK_SRC_XTAL32K) ? ESP_PD_DOMAIN_XTAL32K \ : ESP_PD_DOMAIN_MAX); esp_sleep_pd_config(pd_domain, ESP_PD_OPTION_OFF); esp_sleep_pd_config(pu_domain, ESP_PD_OPTION_ON); } void modem_clock_deselect_lp_clock_source(periph_module_t module) { assert(IS_MODEM_MODULE(module)); portENTER_CRITICAL_SAFE(&MODEM_CLOCK_instance()->lock); switch (module) { #if SOC_WIFI_SUPPORTED case PERIPH_WIFI_MODULE: modem_clock_hal_deselect_all_wifi_lpclk_source(MODEM_CLOCK_instance()->hal); modem_lpcon_ll_enable_wifipwr_clock(MODEM_CLOCK_instance()->hal->lpcon_dev, false); break; #endif // SOC_WIFI_SUPPORTED #if SOC_BT_SUPPORTED case PERIPH_BT_MODULE: modem_clock_hal_deselect_all_ble_rtc_timer_lpclk_source(MODEM_CLOCK_instance()->hal); modem_clock_hal_enable_ble_rtc_timer_clock(MODEM_CLOCK_instance()->hal, false); break; #endif // SOC_BT_SUPPORTED case PERIPH_COEX_MODULE: modem_clock_hal_deselect_all_coex_lpclk_source(MODEM_CLOCK_instance()->hal); // modem_lpcon_ll_enable_coex_clock(MODEM_CLOCK_instance()->hal->lpcon_dev, false); // TODO: IDF-5727 break; default: break; } modem_clock_lpclk_src_t last_src = MODEM_CLOCK_instance()->lpclk_src[module - PERIPH_MODEM_MODULE_MIN]; MODEM_CLOCK_instance()->lpclk_src[module - PERIPH_MODEM_MODULE_MIN] = MODEM_CLOCK_LPCLK_SRC_INVALID; portEXIT_CRITICAL_SAFE(&MODEM_CLOCK_instance()->lock); esp_sleep_pd_domain_t pd_domain = (esp_sleep_pd_domain_t) ( \ (last_src == MODEM_CLOCK_LPCLK_SRC_RC_FAST) ? ESP_PD_DOMAIN_RC_FAST \ : (last_src == MODEM_CLOCK_LPCLK_SRC_MAIN_XTAL) ? ESP_PD_DOMAIN_XTAL \ : (last_src == MODEM_CLOCK_LPCLK_SRC_RC32K) ? ESP_PD_DOMAIN_RC32K \ : (last_src == MODEM_CLOCK_LPCLK_SRC_XTAL32K) ? ESP_PD_DOMAIN_XTAL32K \ : ESP_PD_DOMAIN_MAX); esp_sleep_pd_config(pd_domain, ESP_PD_OPTION_OFF); }