/* * Copyright (c) 2020 Nuvoton Technology Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #define DT_DRV_COMPAT nuvoton_npcx_pcc #include #include #include #include LOG_MODULE_REGISTER(clock_control_npcx, LOG_LEVEL_ERR); /* Driver config */ struct npcx_pcc_config { /* cdcg device base address */ uintptr_t base_cdcg; /* pmc device base address */ uintptr_t base_pmc; }; /* Driver convenience defines */ #define HAL_CDCG_INST(dev) \ ((struct cdcg_reg *)((const struct npcx_pcc_config *)(dev)->config)->base_cdcg) #define HAL_PMC_INST(dev) \ ((struct pmc_reg *)((const struct npcx_pcc_config *)(dev)->config)->base_pmc) static uint8_t pddwn_ctl_val[] = {NPCX_PWDWN_CTL_INIT}; /* Clock controller local functions */ static inline int npcx_clock_control_on(const struct device *dev, clock_control_subsys_t sub_system) { ARG_UNUSED(dev); struct npcx_clk_cfg *clk_cfg = (struct npcx_clk_cfg *)(sub_system); const uint32_t pmc_base = ((const struct npcx_pcc_config *)dev->config)->base_pmc; if (clk_cfg->ctrl >= NPCX_PWDWN_CTL_COUNT) { return -EINVAL; } /* Clear related PD (Power-Down) bit of module to turn on clock */ NPCX_PWDWN_CTL(pmc_base, clk_cfg->ctrl) &= ~(BIT(clk_cfg->bit)); return 0; } static inline int npcx_clock_control_off(const struct device *dev, clock_control_subsys_t sub_system) { ARG_UNUSED(dev); struct npcx_clk_cfg *clk_cfg = (struct npcx_clk_cfg *)(sub_system); const uint32_t pmc_base = ((const struct npcx_pcc_config *)dev->config)->base_pmc; if (clk_cfg->ctrl >= NPCX_PWDWN_CTL_COUNT) { return -EINVAL; } /* Set related PD (Power-Down) bit of module to turn off clock */ NPCX_PWDWN_CTL(pmc_base, clk_cfg->ctrl) |= BIT(clk_cfg->bit); return 0; } static int npcx_clock_control_get_subsys_rate(const struct device *dev, clock_control_subsys_t sub_system, uint32_t *rate) { ARG_UNUSED(dev); struct npcx_clk_cfg *clk_cfg = (struct npcx_clk_cfg *)(sub_system); switch (clk_cfg->bus) { case NPCX_CLOCK_BUS_APB1: *rate = NPCX_APB_CLOCK(1); break; case NPCX_CLOCK_BUS_APB2: *rate = NPCX_APB_CLOCK(2); break; case NPCX_CLOCK_BUS_APB3: *rate = NPCX_APB_CLOCK(3); break; #if defined(APB4DIV_VAL) case NPCX_CLOCK_BUS_APB4: *rate = NPCX_APB_CLOCK(4); break; #endif case NPCX_CLOCK_BUS_AHB6: *rate = CORE_CLK/(AHB6DIV_VAL + 1); break; case NPCX_CLOCK_BUS_FIU: *rate = CORE_CLK/(FIUDIV_VAL + 1); break; #if defined(FIU1DIV_VAL) case NPCX_CLOCK_BUS_FIU1: *rate = CORE_CLK/(FIU1DIV_VAL + 1); break; #endif case NPCX_CLOCK_BUS_CORE: *rate = CORE_CLK; break; case NPCX_CLOCK_BUS_LFCLK: *rate = LFCLK; break; case NPCX_CLOCK_BUS_FMCLK: *rate = FMCLK; break; case NPCX_CLOCK_BUS_MCLKD: *rate = OFMCLK/(MCLKD_SL + 1); break; default: *rate = 0U; /* Invalid parameters */ return -EINVAL; } return 0; } /* Platform specific clock controller functions */ #if defined(CONFIG_PM) void npcx_clock_control_turn_on_system_sleep(bool is_deep, bool is_instant) { const struct device *const clk_dev = DEVICE_DT_GET(NPCX_CLK_CTRL_NODE); struct pmc_reg *const inst_pmc = HAL_PMC_INST(clk_dev); /* Configure that ec enters system sleep mode if receiving 'wfi' */ uint8_t pm_flags = BIT(NPCX_PMCSR_IDLE); /* Add 'Disable High-Frequency' flag (ie. 'deep sleep' mode) */ if (is_deep) { pm_flags |= BIT(NPCX_PMCSR_DHF); /* Add 'Instant Wake-up' flag if sleep time is within 200 ms */ if (is_instant) pm_flags |= BIT(NPCX_PMCSR_DI_INSTW); } inst_pmc->PMCSR = pm_flags; } void npcx_clock_control_turn_off_system_sleep(void) { const struct device *const clk_dev = DEVICE_DT_GET(NPCX_CLK_CTRL_NODE); struct pmc_reg *const inst_pmc = HAL_PMC_INST(clk_dev); inst_pmc->PMCSR = 0; } #endif /* CONFIG_PM */ /* Clock controller driver registration */ static const struct clock_control_driver_api npcx_clock_control_api = { .on = npcx_clock_control_on, .off = npcx_clock_control_off, .get_rate = npcx_clock_control_get_subsys_rate, }; /* valid clock frequency check */ BUILD_ASSERT(OFMCLK <= MAX_OFMCLK, "Exceed maximum OFMCLK setting"); BUILD_ASSERT(CORE_CLK <= MAX_OFMCLK && CORE_CLK >= MHZ(4) && OFMCLK % CORE_CLK == 0 && OFMCLK / CORE_CLK <= 10, "Invalid CORE_CLK setting"); BUILD_ASSERT(CORE_CLK / (FIUDIV_VAL + 1) <= (MAX_OFMCLK / 2) && CORE_CLK / (FIUDIV_VAL + 1) >= MHZ(4), "Invalid FIUCLK setting"); #if defined(FIU1DIV_VAL) BUILD_ASSERT(CORE_CLK / (FIU1DIV_VAL + 1) <= (MAX_OFMCLK / 2) && CORE_CLK / (FIU1DIV_VAL + 1) >= MHZ(4), "Invalid FIU1CLK setting"); #endif BUILD_ASSERT(CORE_CLK / (AHB6DIV_VAL + 1) <= (MAX_OFMCLK / 2) && CORE_CLK / (AHB6DIV_VAL + 1) >= MHZ(4), "Invalid AHB6_CLK setting"); BUILD_ASSERT(APBSRC_CLK / (APB1DIV_VAL + 1) <= (MAX_OFMCLK / 2) && APBSRC_CLK / (APB1DIV_VAL + 1) >= MHZ(4) && (APB1DIV_VAL + 1) % (FPRED_VAL + 1) == 0, "Invalid APB1_CLK setting"); BUILD_ASSERT(APBSRC_CLK / (APB2DIV_VAL + 1) <= (MAX_OFMCLK / 2) && APBSRC_CLK / (APB2DIV_VAL + 1) >= MHZ(8) && (APB2DIV_VAL + 1) % (FPRED_VAL + 1) == 0, "Invalid APB2_CLK setting"); BUILD_ASSERT(APBSRC_CLK / (APB3DIV_VAL + 1) <= (MAX_OFMCLK / 2) && APBSRC_CLK / (APB3DIV_VAL + 1) >= KHZ(12500) && (APB3DIV_VAL + 1) % (FPRED_VAL + 1) == 0, "Invalid APB3_CLK setting"); #if defined(APB4DIV_VAL) BUILD_ASSERT(APBSRC_CLK / (APB4DIV_VAL + 1) <= MAX_OFMCLK && APBSRC_CLK / (APB4DIV_VAL + 1) >= MHZ(8) && (APB4DIV_VAL + 1) % (FPRED_VAL + 1) == 0, "Invalid APB4_CLK setting"); #endif #if defined(CONFIG_I3C_NPCX) BUILD_ASSERT(OFMCLK / (MCLKD_SL + 1) <= MHZ(50) && OFMCLK / (MCLKD_SL + 1) >= MHZ(40), "Invalid MCLKD_SL setting"); BUILD_ASSERT(APBSRC_CLK / (APB4DIV_VAL + 1) >= MHZ(20), "Invalid PDMA CLK setting"); #endif static int npcx_clock_control_init(const struct device *dev) { struct cdcg_reg *const inst_cdcg = HAL_CDCG_INST(dev); const uint32_t pmc_base = ((const struct npcx_pcc_config *)dev->config)->base_pmc; if (IS_ENABLED(CONFIG_CLOCK_CONTROL_NPCX_EXTERNAL_SRC)) { inst_cdcg->LFCGCTL2 |= BIT(NPCX_LFCGCTL2_XT_OSC_SL_EN); } /* * Resetting the OFMCLK (even to the same value) will make the clock * unstable for a little which can affect peripheral communication like * eSPI. Skip this if not needed. */ if (inst_cdcg->HFCGN != HFCGN_VAL || inst_cdcg->HFCGML != HFCGML_VAL || inst_cdcg->HFCGMH != HFCGMH_VAL) { /* * Configure frequency multiplier M/N values according to * the requested OFMCLK (Unit:Hz). */ inst_cdcg->HFCGN = HFCGN_VAL; inst_cdcg->HFCGML = HFCGML_VAL; inst_cdcg->HFCGMH = HFCGMH_VAL; /* Load M and N values into the frequency multiplier */ inst_cdcg->HFCGCTRL |= BIT(NPCX_HFCGCTRL_LOAD); /* Wait for stable */ while (IS_BIT_SET(inst_cdcg->HFCGCTRL, NPCX_HFCGCTRL_CLK_CHNG)) { ; } } /* Set all clock prescalers of core and peripherals. */ inst_cdcg->HFCGP = VAL_HFCGP; inst_cdcg->HFCBCD = VAL_HFCBCD; inst_cdcg->HFCBCD1 = VAL_HFCBCD1; inst_cdcg->HFCBCD2 = VAL_HFCBCD2; #if defined(CONFIG_SOC_SERIES_NPCX4) inst_cdcg->HFCBCD3 = VAL_HFCBCD3; #endif /* * Power-down (turn off clock) the modules initially for better * power consumption. */ for (int i = 0; i < ARRAY_SIZE(pddwn_ctl_val); i++) { NPCX_PWDWN_CTL(pmc_base, i) = pddwn_ctl_val[i]; } /* Turn off the clock of the eSPI module only if eSPI isn't required */ if (!IS_ENABLED(CONFIG_ESPI)) { NPCX_PWDWN_CTL(pmc_base, NPCX_PWDWN_CTL6) |= BIT(7); } return 0; } const struct npcx_pcc_config pcc_config = { .base_cdcg = DT_INST_REG_ADDR_BY_NAME(0, cdcg), .base_pmc = DT_INST_REG_ADDR_BY_NAME(0, pmc), }; DEVICE_DT_INST_DEFINE(0, npcx_clock_control_init, NULL, NULL, &pcc_config, PRE_KERNEL_1, CONFIG_CLOCK_CONTROL_INIT_PRIORITY, &npcx_clock_control_api);