/* * Copyright (c) 2024 Nordic Semiconductor ASA. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include LOG_MODULE_REGISTER(soc, CONFIG_SOC_LOG_LEVEL); #if defined(NRF_APPLICATION) #define HSFLL_NODE DT_NODELABEL(cpuapp_hsfll) #elif defined(NRF_RADIOCORE) #define HSFLL_NODE DT_NODELABEL(cpurad_hsfll) #endif #define FICR_ADDR_GET(node_id, name) \ DT_REG_ADDR(DT_PHANDLE_BY_NAME(node_id, nordic_ficrs, name)) + \ DT_PHA_BY_NAME(node_id, nordic_ficrs, name, offset) #define SPU_INSTANCE_GET(p_addr) \ ((NRF_SPU_Type *)((p_addr) & (ADDRESS_REGION_Msk | \ ADDRESS_SECURITY_Msk | \ ADDRESS_DOMAIN_Msk | \ ADDRESS_BUS_Msk))) static void power_domain_init(void) { /* * Set: * - LRCCONF010.POWERON.MAIN: 1 * - LRCCONF010.POWERON.ACT: 1 * - LRCCONF010.RETAIN.MAIN: 1 * - LRCCONF010.RETAIN.ACT: 1 * * This is done here at boot so that when the idle routine will hit * WFI the power domain will be correctly retained. */ nrf_lrcconf_poweron_force_set(NRF_LRCCONF010, NRF_LRCCONF_POWER_MAIN, true); nrf_lrcconf_poweron_force_set(NRF_LRCCONF010, NRF_LRCCONF_POWER_DOMAIN_0, true); nrf_lrcconf_retain_set(NRF_LRCCONF010, NRF_LRCCONF_POWER_MAIN, true); nrf_lrcconf_retain_set(NRF_LRCCONF010, NRF_LRCCONF_POWER_DOMAIN_0, true); } static int trim_hsfll(void) { #if defined(HSFLL_NODE) NRF_HSFLL_Type *hsfll = (NRF_HSFLL_Type *)DT_REG_ADDR(HSFLL_NODE); nrf_hsfll_trim_t trim = { .vsup = sys_read32(FICR_ADDR_GET(HSFLL_NODE, vsup)), .coarse = sys_read32(FICR_ADDR_GET(HSFLL_NODE, coarse)), .fine = sys_read32(FICR_ADDR_GET(HSFLL_NODE, fine)) }; LOG_DBG("Trim: HSFLL VSUP: 0x%.8x", trim.vsup); LOG_DBG("Trim: HSFLL COARSE: 0x%.8x", trim.coarse); LOG_DBG("Trim: HSFLL FINE: 0x%.8x", trim.fine); nrf_hsfll_clkctrl_mult_set(hsfll, DT_PROP(HSFLL_NODE, clock_frequency) / DT_PROP(DT_CLOCKS_CTLR(HSFLL_NODE), clock_frequency)); nrf_hsfll_trim_set(hsfll, &trim); nrf_hsfll_task_trigger(hsfll, NRF_HSFLL_TASK_FREQ_CHANGE); LOG_DBG("NRF_HSFLL->TRIM.VSUP = %d", hsfll->TRIM.VSUP); LOG_DBG("NRF_HSFLL->TRIM.COARSE = %d", hsfll->TRIM.COARSE); LOG_DBG("NRF_HSFLL->TRIM.FINE = %d", hsfll->TRIM.FINE); #endif /* defined(HSFLL_NODE) */ return 0; } static int nordicsemi_nrf92_init(void) { sys_cache_instr_enable(); sys_cache_data_enable(); power_domain_init(); trim_hsfll(); #if DT_NODE_HAS_STATUS_OKAY(DT_NODELABEL(ccm030)) /* DMASEC is set to non-secure by default, which prevents CCM from * accessing secure memory. Change DMASEC to secure. */ uint32_t ccm030_addr = DT_REG_ADDR(DT_NODELABEL(ccm030)); NRF_SPU_Type *spu = SPU_INSTANCE_GET(ccm030_addr); nrf_spu_periph_perm_dmasec_set(spu, nrf_address_slave_get(ccm030_addr), true); #endif return 0; } void arch_busy_wait(uint32_t time_us) { nrfx_coredep_delay_us(time_us); } SYS_INIT(nordicsemi_nrf92_init, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);