/* * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright 2016-2019 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_common.h" #include "fsl_flexcomm.h" /******************************************************************************* * Definitions ******************************************************************************/ /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.flexcomm" #endif /*! * @brief Used for conversion between `void*` and `uint32_t`. */ typedef union pvoid_to_u32 { void *pvoid; uint32_t u32; } pvoid_to_u32_t; /******************************************************************************* * Prototypes ******************************************************************************/ /*! @brief Set the FLEXCOMM mode . */ static status_t FLEXCOMM_SetPeriph(FLEXCOMM_Type *base, FLEXCOMM_PERIPH_T periph, int lock); /*! @brief check whether flexcomm supports peripheral type */ static bool FLEXCOMM_PeripheralIsPresent(FLEXCOMM_Type *base, FLEXCOMM_PERIPH_T periph); /******************************************************************************* * Variables ******************************************************************************/ /*! @brief Pointers to real IRQ handlers installed by drivers for each instance. */ static flexcomm_irq_handler_t s_flexcommIrqHandler[FSL_FEATURE_SOC_FLEXCOMM_COUNT]; /*! @brief Pointers to handles for each instance to provide context to interrupt routines */ static void *s_flexcommHandle[FSL_FEATURE_SOC_FLEXCOMM_COUNT]; /*! @brief Array to map FLEXCOMM instance number to IRQ number. */ IRQn_Type const kFlexcommIrqs[] = FLEXCOMM_IRQS; /*! @brief Array to map FLEXCOMM instance number to base address. */ static const uint32_t s_flexcommBaseAddrs[FSL_FEATURE_SOC_FLEXCOMM_COUNT] = FLEXCOMM_BASE_ADDRS; #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /*! @brief IDs of clock for each FLEXCOMM module */ static const clock_ip_name_t s_flexcommClocks[] = FLEXCOMM_CLOCKS; #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ #if !(defined(FSL_FEATURE_FLEXCOMM_HAS_NO_RESET) && FSL_FEATURE_FLEXCOMM_HAS_NO_RESET) /*! @brief Pointers to FLEXCOMM resets for each instance. */ static const reset_ip_name_t s_flexcommResets[] = FLEXCOMM_RSTS; #endif /******************************************************************************* * Code ******************************************************************************/ /* check whether flexcomm supports peripheral type */ static bool FLEXCOMM_PeripheralIsPresent(FLEXCOMM_Type *base, FLEXCOMM_PERIPH_T periph) { if (periph == FLEXCOMM_PERIPH_NONE) { return true; } else if (periph <= FLEXCOMM_PERIPH_I2S_TX) { return (base->PSELID & (1UL << ((uint32_t)periph + 3U))) > 0UL ? true : false; } else if (periph == FLEXCOMM_PERIPH_I2S_RX) { return (base->PSELID & (1U << 7U)) > (uint32_t)0U ? true : false; } else { return false; } } /* Get the index corresponding to the FLEXCOMM */ /*! brief Returns instance number for FLEXCOMM module with given base address. */ uint32_t FLEXCOMM_GetInstance(void *base) { uint32_t i; pvoid_to_u32_t BaseAddr; BaseAddr.pvoid = base; for (i = 0U; i < (uint32_t)FSL_FEATURE_SOC_FLEXCOMM_COUNT; i++) { if (BaseAddr.u32 == s_flexcommBaseAddrs[i]) { break; } } assert(i < (uint32_t)FSL_FEATURE_SOC_FLEXCOMM_COUNT); return i; } /* Changes FLEXCOMM mode */ static status_t FLEXCOMM_SetPeriph(FLEXCOMM_Type *base, FLEXCOMM_PERIPH_T periph, int lock) { /* Check whether peripheral type is present */ if (!FLEXCOMM_PeripheralIsPresent(base, periph)) { return kStatus_OutOfRange; } /* Flexcomm is locked to different peripheral type than expected */ if (((base->PSELID & FLEXCOMM_PSELID_LOCK_MASK) != 0U) && ((base->PSELID & FLEXCOMM_PSELID_PERSEL_MASK) != (uint32_t)periph)) { return kStatus_Fail; } /* Check if we are asked to lock */ if (lock != 0) { base->PSELID = (uint32_t)periph | FLEXCOMM_PSELID_LOCK_MASK; } else { base->PSELID = (uint32_t)periph; } return kStatus_Success; } /*! brief Initializes FLEXCOMM and selects peripheral mode according to the second parameter. */ status_t FLEXCOMM_Init(void *base, FLEXCOMM_PERIPH_T periph) { uint32_t idx = FLEXCOMM_GetInstance(base); #if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) /* Enable the peripheral clock */ CLOCK_EnableClock(s_flexcommClocks[idx]); #endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ #if !(defined(FSL_FEATURE_FLEXCOMM_HAS_NO_RESET) && FSL_FEATURE_FLEXCOMM_HAS_NO_RESET) /* Reset the FLEXCOMM module */ RESET_PeripheralReset(s_flexcommResets[idx]); #endif /* Set the FLEXCOMM to given peripheral */ return FLEXCOMM_SetPeriph((FLEXCOMM_Type *)base, periph, 0); } /*! brief Sets IRQ handler for given FLEXCOMM module. It is used by drivers register IRQ handler according to FLEXCOMM * mode */ void FLEXCOMM_SetIRQHandler(void *base, flexcomm_irq_handler_t handler, void *flexcommHandle) { uint32_t instance; /* Look up instance number */ instance = FLEXCOMM_GetInstance(base); /* Clear handler first to avoid execution of the handler with wrong handle */ s_flexcommIrqHandler[instance] = NULL; s_flexcommHandle[instance] = flexcommHandle; s_flexcommIrqHandler[instance] = handler; SDK_ISR_EXIT_BARRIER; } /* IRQ handler functions overloading weak symbols in the startup */ #if defined(FLEXCOMM0) void FLEXCOMM0_DriverIRQHandler(void); void FLEXCOMM0_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[0]); s_flexcommIrqHandler[0]((uint32_t *)s_flexcommBaseAddrs[0], s_flexcommHandle[0]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM1) void FLEXCOMM1_DriverIRQHandler(void); void FLEXCOMM1_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[1]); s_flexcommIrqHandler[1]((uint32_t *)s_flexcommBaseAddrs[1], s_flexcommHandle[1]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM2) void FLEXCOMM2_DriverIRQHandler(void); void FLEXCOMM2_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[2]); s_flexcommIrqHandler[2]((uint32_t *)s_flexcommBaseAddrs[2], s_flexcommHandle[2]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM3) void FLEXCOMM3_DriverIRQHandler(void); void FLEXCOMM3_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[3]); s_flexcommIrqHandler[3]((uint32_t *)s_flexcommBaseAddrs[3], s_flexcommHandle[3]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM4) void FLEXCOMM4_DriverIRQHandler(void); void FLEXCOMM4_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[4]); s_flexcommIrqHandler[4]((uint32_t *)s_flexcommBaseAddrs[4], s_flexcommHandle[4]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM5) void FLEXCOMM5_DriverIRQHandler(void); void FLEXCOMM5_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[5]); s_flexcommIrqHandler[5]((uint32_t *)s_flexcommBaseAddrs[5], s_flexcommHandle[5]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM6) void FLEXCOMM6_DriverIRQHandler(void); void FLEXCOMM6_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[6]); s_flexcommIrqHandler[6]((uint32_t *)s_flexcommBaseAddrs[6], s_flexcommHandle[6]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM7) void FLEXCOMM7_DriverIRQHandler(void); void FLEXCOMM7_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[7]); s_flexcommIrqHandler[7]((uint32_t *)s_flexcommBaseAddrs[7], s_flexcommHandle[7]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM8) void FLEXCOMM8_DriverIRQHandler(void); void FLEXCOMM8_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[8]); s_flexcommIrqHandler[8]((uint32_t *)s_flexcommBaseAddrs[8], s_flexcommHandle[8]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM9) void FLEXCOMM9_DriverIRQHandler(void); void FLEXCOMM9_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[9]); s_flexcommIrqHandler[9]((uint32_t *)s_flexcommBaseAddrs[9], s_flexcommHandle[9]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM10) void FLEXCOMM10_DriverIRQHandler(void); void FLEXCOMM10_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[10]); s_flexcommIrqHandler[10]((uint32_t *)s_flexcommBaseAddrs[10], s_flexcommHandle[10]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM11) void FLEXCOMM11_DriverIRQHandler(void); void FLEXCOMM11_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[11]); s_flexcommIrqHandler[11]((uint32_t *)s_flexcommBaseAddrs[11], s_flexcommHandle[11]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM12) void FLEXCOMM12_DriverIRQHandler(void); void FLEXCOMM12_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[12]); s_flexcommIrqHandler[12]((uint32_t *)s_flexcommBaseAddrs[12], s_flexcommHandle[12]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM13) void FLEXCOMM13_DriverIRQHandler(void); void FLEXCOMM13_DriverIRQHandler(void) { assert(s_flexcommIrqHandler[13]); s_flexcommIrqHandler[13]((uint32_t *)s_flexcommBaseAddrs[13], s_flexcommHandle[13]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM14) void FLEXCOMM14_DriverIRQHandler(void); void FLEXCOMM14_DriverIRQHandler(void) { uint32_t instance; /* Look up instance number */ instance = FLEXCOMM_GetInstance(FLEXCOMM14); assert(s_flexcommIrqHandler[instance]); s_flexcommIrqHandler[instance]((uint32_t *)s_flexcommBaseAddrs[instance], s_flexcommHandle[instance]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM15) void FLEXCOMM15_DriverIRQHandler(void); void FLEXCOMM15_DriverIRQHandler(void) { uint32_t instance; /* Look up instance number */ instance = FLEXCOMM_GetInstance(FLEXCOMM15); assert(s_flexcommIrqHandler[instance]); s_flexcommIrqHandler[instance]((uint32_t *)s_flexcommBaseAddrs[instance], s_flexcommHandle[instance]); SDK_ISR_EXIT_BARRIER; } #endif #if defined(FLEXCOMM16) void FLEXCOMM16_DriverIRQHandler(void); void FLEXCOMM16_DriverIRQHandler(void) { uint32_t instance; /* Look up instance number */ instance = FLEXCOMM_GetInstance(FLEXCOMM16); assert(s_flexcommIrqHandler[instance]); s_flexcommIrqHandler[instance]((uint32_t *)s_flexcommBaseAddrs[instance], s_flexcommHandle[instance]); SDK_ISR_EXIT_BARRIER; } #endif