/* * Copyright (c) 2015, Freescale Semiconductor, Inc. * Copyright 2016-2020 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef FSL_XBAR_H_ #define FSL_XBAR_H_ #include "fsl_common.h" /*! * @addtogroup xbar * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ #define FSL_XBAR_DRIVER_VERSION (MAKE_VERSION(2, 1, 0)) /* Macros for entire XBAR_SELx register. */ #define XBAR_SELx(base, output) (((volatile uint16_t *)(&((base)->SEL0)))[(uint32_t)(output) / 2UL]) /* Set the XBAR_SELx_SELx field to a new value. */ #define XBAR_WR_SELx_SELx(base, input, output) XBAR_SetSignalsConnection((base), (input), (output)) /*! * @brief XBAR active edge for detection */ typedef enum _xbar_active_edge { kXBAR_EdgeNone = 0U, /*!< Edge detection status bit never asserts. */ kXBAR_EdgeRising = 1U, /*!< Edge detection status bit asserts on rising edges. */ kXBAR_EdgeFalling = 2U, /*!< Edge detection status bit asserts on falling edges. */ kXBAR_EdgeRisingAndFalling = 3U /*!< Edge detection status bit asserts on rising and falling edges. */ } xbar_active_edge_t; /*! * @brief Defines the XBAR DMA and interrupt configurations. */ typedef enum _xbar_request { kXBAR_RequestDisable = 0U, /*!< Interrupt and DMA are disabled. */ kXBAR_RequestDMAEnable = 1U, /*!< DMA enabled, interrupt disabled. */ kXBAR_RequestInterruptEnalbe = 2U /*!< Interrupt enabled, DMA disabled. */ } xbar_request_t; /*! * @brief XBAR status flags. * * This provides constants for the XBAR status flags for use in the XBAR * functions. */ typedef enum _xbar_status_flag_t { kXBAR_EdgeDetectionOut0 = (XBAR_CTRL0_STS0_MASK), /*!< XBAR_OUT0 active edge interrupt flag, sets when active edge detected. */ #if FSL_FEATURE_XBAR_INTERRUPT_COUNT > 1 kXBAR_EdgeDetectionOut1 = (XBAR_CTRL0_STS1_MASK), /*!< XBAR_OUT1 active edge interrupt flag, sets when active edge detected. */ #endif #if FSL_FEATURE_XBAR_INTERRUPT_COUNT > 2 kXBAR_EdgeDetectionOut2 = (XBAR_CTRL1_STS2_MASK << 16U), /*!< XBAR_OUT2 active edge interrupt flag, sets when active edge detected. */ #endif #if FSL_FEATURE_XBAR_INTERRUPT_COUNT > 3 kXBAR_EdgeDetectionOut3 = (XBAR_CTRL1_STS3_MASK << 16U), /*!< XBAR_OUT3 active edge interrupt flag, sets when active edge detected. */ #endif } xbar_status_flag_t; /*! * @brief Defines the configuration structure of the XBAR control register. * * This structure keeps the configuration of XBAR control register for one output. * Control registers are available only for a few outputs. Not every XBAR module has * control registers. */ typedef struct _xbar_control_config { xbar_active_edge_t activeEdge; /*!< Active edge to be detected. */ xbar_request_t requestType; /*!< Selects DMA/Interrupt request. */ } xbar_control_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* __cplusplus */ /*! * @name XBAR functional Operation * @{ */ /*! * @brief Initializes the XBAR modules. * * This function un-gates the XBAR clock. * * @param base XBAR peripheral address. */ void XBAR_Init(XBAR_Type *base); /*! * @brief Shutdown the XBAR modules. * * This function disables XBAR clock. * * @param base XBAR peripheral address. */ void XBAR_Deinit(XBAR_Type *base); /*! * @brief Set connection between the selected XBAR_IN[*] input and the XBAR_OUT[*] output signal. * * This function connects the XBAR input to the selected XBAR output. * If more than one XBAR module is available, only the inputs and outputs from the same module * can be connected. * * Example: @code XBAR_SetSignalsConnection(XBAR, kXBAR_InputTMR_CH0_Output, kXBAR_OutputXB_DMA_INT2); @endcode * * @param base XBAR peripheral address * @param input XBAR input signal. * @param output XBAR output signal. */ void XBAR_SetSignalsConnection(XBAR_Type *base, xbar_input_signal_t input, xbar_output_signal_t output); /*! * @brief Clears the edge detection status flags of relative mask. * * @param base XBAR peripheral address * @param mask the status flags to clear. */ void XBAR_ClearStatusFlags(XBAR_Type *base, uint32_t mask); /*! * @brief Gets the active edge detection status. * * This function gets the active edge detect status of all XBAR_OUTs. If the * active edge occurs, the return value is asserted. When the interrupt or the DMA * functionality is enabled for the XBAR_OUTx, this field is 1 when the interrupt * or DMA request is asserted and 0 when the interrupt or DMA request has been * cleared. * * Example: @code uint32_t status; status = XBAR_GetStatusFlags(XBAR); @endcode * * @param base XBAR peripheral address. * @return the mask of these status flag bits. */ uint32_t XBAR_GetStatusFlags(XBAR_Type *base); /*! * @brief Configures the XBAR control register. * * This function configures an XBAR control register. The active edge detection * and the DMA/IRQ function on the corresponding XBAR output can be set. * * Example: @code xbar_control_config_t userConfig; userConfig.activeEdge = kXBAR_EdgeRising; userConfig.requestType = kXBAR_RequestInterruptEnalbe; XBAR_SetOutputSignalConfig(XBAR, kXBAR_OutputXB_DMA_INT0, &userConfig); @endcode * * @param base XBAR peripheral address * @param output XBAR output number. * @param controlConfig Pointer to structure that keeps configuration of control register. */ void XBAR_SetOutputSignalConfig(XBAR_Type *base, xbar_output_signal_t output, const xbar_control_config_t *controlConfig); #if defined(__cplusplus) } #endif /* __cplusplus */ /*! @}*/ /*! @}*/ #endif /* FSL_XBAR_H_ */