rt-thread-official/bsp/lpc54114-lite/Libraries/devices/LPC54114/drivers/fsl_dma.h

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2018-12-05 11:44:53 +08:00
/*
* The Clear BSD License
* Copyright (c) 2016, Freescale Semiconductor, Inc.
* Copyright 2016-2017 NXP
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted (subject to the limitations in the disclaimer below) provided
* that the following conditions are met:
*
* o Redistributions of source code must retain the above copyright notice, this list
* of conditions and the following disclaimer.
*
* o Redistributions in binary form must reproduce the above copyright notice, this
* list of conditions and the following disclaimer in the documentation and/or
* other materials provided with the distribution.
*
* o Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE GRANTED BY THIS LICENSE.
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef _FSL_DMA_H_
#define _FSL_DMA_H_
#include "fsl_common.h"
/*!
* @addtogroup dma
* @{
*/
/*! @file */
/*******************************************************************************
* Definitions
******************************************************************************/
/*! @name Driver version */
/*@{*/
/*! @brief DMA driver version */
#define FSL_DMA_DRIVER_VERSION (MAKE_VERSION(2, 0, 0)) /*!< Version 2.0.0. */
/*@}*/
#define DMA_MAX_TRANSFER_COUNT 0x400
#if defined FSL_FEATURE_DMA_NUMBER_OF_CHANNELS
#define FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(x) FSL_FEATURE_DMA_NUMBER_OF_CHANNELS
#define FSL_FEATURE_DMA_MAX_CHANNELS FSL_FEATURE_DMA_NUMBER_OF_CHANNELS
#define FSL_FEATURE_DMA_ALL_CHANNELS (FSL_FEATURE_DMA_NUMBER_OF_CHANNELS * FSL_FEATURE_SOC_DMA_COUNT)
#define FSL_FEATURE_DMA_DESCRIPTOR_ALIGN_SIZE (512)
#endif
/* Channel group consists of 32 channels. channel_group = (channel / 32) */
#define DMA_CHANNEL_GROUP(channel) (((uint8_t)(channel)) >> 5U)
/* Channel index in channel group. channel_index = (channel % 32) */
#define DMA_CHANNEL_INDEX(channel) (((uint8_t)(channel)) & 0x1F)
#define DMA_COMMON_REG_GET(base, channel, reg) (((volatile uint32_t *)(&((base)->COMMON[0].reg)))[DMA_CHANNEL_GROUP(channel)])
#define DMA_COMMON_CONST_REG_GET(base, channel, reg) (((volatile const uint32_t *)(&((base)->COMMON[0].reg)))[DMA_CHANNEL_GROUP(channel)])
#define DMA_COMMON_REG_SET(base, channel, reg, value) \
(((volatile uint32_t *)(&((base)->COMMON[0].reg)))[DMA_CHANNEL_GROUP(channel)] = (value))
/*! @brief DMA descriptor structure */
typedef struct _dma_descriptor
{
uint32_t xfercfg; /*!< Transfer configuration */
void *srcEndAddr; /*!< Last source address of DMA transfer */
void *dstEndAddr; /*!< Last destination address of DMA transfer */
void *linkToNextDesc; /*!< Address of next DMA descriptor in chain */
} dma_descriptor_t;
/*! @brief DMA transfer configuration */
typedef struct _dma_xfercfg
{
bool valid; /*!< Descriptor is ready to transfer */
bool reload; /*!< Reload channel configuration register after
current descriptor is exhausted */
bool swtrig; /*!< Perform software trigger. Transfer if fired
when 'valid' is set */
bool clrtrig; /*!< Clear trigger */
bool intA; /*!< Raises IRQ when transfer is done and set IRQA status register flag */
bool intB; /*!< Raises IRQ when transfer is done and set IRQB status register flag */
uint8_t byteWidth; /*!< Byte width of data to transfer */
uint8_t srcInc; /*!< Increment source address by 'srcInc' x 'byteWidth' */
uint8_t dstInc; /*!< Increment destination address by 'dstInc' x 'byteWidth' */
uint16_t transferCount; /*!< Number of transfers */
} dma_xfercfg_t;
/*! @brief DMA channel priority */
typedef enum _dma_priority
{
kDMA_ChannelPriority0 = 0, /*!< Highest channel priority - priority 0 */
kDMA_ChannelPriority1, /*!< Channel priority 1 */
kDMA_ChannelPriority2, /*!< Channel priority 2 */
kDMA_ChannelPriority3, /*!< Channel priority 3 */
kDMA_ChannelPriority4, /*!< Channel priority 4 */
kDMA_ChannelPriority5, /*!< Channel priority 5 */
kDMA_ChannelPriority6, /*!< Channel priority 6 */
kDMA_ChannelPriority7, /*!< Lowest channel priority - priority 7 */
} dma_priority_t;
/*! @brief DMA interrupt flags */
typedef enum _dma_int
{
kDMA_IntA, /*!< DMA interrupt flag A */
kDMA_IntB, /*!< DMA interrupt flag B */
kDMA_IntError, /*!< DMA interrupt flag error */
} dma_irq_t;
/*! @brief DMA trigger type*/
typedef enum _dma_trigger_type
{
kDMA_NoTrigger = 0, /*!< Trigger is disabled */
kDMA_LowLevelTrigger = DMA_CHANNEL_CFG_HWTRIGEN(1) | DMA_CHANNEL_CFG_TRIGTYPE(1), /*!< Low level active trigger */
kDMA_HighLevelTrigger = DMA_CHANNEL_CFG_HWTRIGEN(1) | DMA_CHANNEL_CFG_TRIGTYPE(1) |
DMA_CHANNEL_CFG_TRIGPOL(1), /*!< High level active trigger */
kDMA_FallingEdgeTrigger = DMA_CHANNEL_CFG_HWTRIGEN(1), /*!< Falling edge active trigger */
kDMA_RisingEdgeTrigger =
DMA_CHANNEL_CFG_HWTRIGEN(1) | DMA_CHANNEL_CFG_TRIGPOL(1), /*!< Rising edge active trigger */
} dma_trigger_type_t;
/*! @brief DMA trigger burst */
typedef enum _dma_trigger_burst
{
kDMA_SingleTransfer = 0, /*!< Single transfer */
kDMA_LevelBurstTransfer = DMA_CHANNEL_CFG_TRIGBURST(1), /*!< Burst transfer driven by level trigger */
kDMA_EdgeBurstTransfer1 = DMA_CHANNEL_CFG_TRIGBURST(1), /*!< Perform 1 transfer by edge trigger */
kDMA_EdgeBurstTransfer2 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(1), /*!< Perform 2 transfers by edge trigger */
kDMA_EdgeBurstTransfer4 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(2), /*!< Perform 4 transfers by edge trigger */
kDMA_EdgeBurstTransfer8 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(3), /*!< Perform 8 transfers by edge trigger */
kDMA_EdgeBurstTransfer16 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(4), /*!< Perform 16 transfers by edge trigger */
kDMA_EdgeBurstTransfer32 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(5), /*!< Perform 32 transfers by edge trigger */
kDMA_EdgeBurstTransfer64 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(6), /*!< Perform 64 transfers by edge trigger */
kDMA_EdgeBurstTransfer128 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(7), /*!< Perform 128 transfers by edge trigger */
kDMA_EdgeBurstTransfer256 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(8), /*!< Perform 256 transfers by edge trigger */
kDMA_EdgeBurstTransfer512 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(9), /*!< Perform 512 transfers by edge trigger */
kDMA_EdgeBurstTransfer1024 =
DMA_CHANNEL_CFG_TRIGBURST(1) | DMA_CHANNEL_CFG_BURSTPOWER(10), /*!< Perform 1024 transfers by edge trigger */
} dma_trigger_burst_t;
/*! @brief DMA burst wrapping */
typedef enum _dma_burst_wrap
{
kDMA_NoWrap = 0, /*!< Wrapping is disabled */
kDMA_SrcWrap = DMA_CHANNEL_CFG_SRCBURSTWRAP(1), /*!< Wrapping is enabled for source */
kDMA_DstWrap = DMA_CHANNEL_CFG_DSTBURSTWRAP(1), /*!< Wrapping is enabled for destination */
kDMA_SrcAndDstWrap = DMA_CHANNEL_CFG_SRCBURSTWRAP(1) |
DMA_CHANNEL_CFG_DSTBURSTWRAP(1), /*!< Wrapping is enabled for source and destination */
} dma_burst_wrap_t;
/*! @brief DMA transfer type */
typedef enum _dma_transfer_type
{
kDMA_MemoryToMemory = 0x0U, /*!< Transfer from memory to memory (increment source and destination) */
kDMA_PeripheralToMemory, /*!< Transfer from peripheral to memory (increment only destination) */
kDMA_MemoryToPeripheral, /*!< Transfer from memory to peripheral (increment only source)*/
kDMA_StaticToStatic, /*!< Peripheral to static memory (do not increment source or destination) */
} dma_transfer_type_t;
/*! @brief DMA channel trigger */
typedef struct _dma_channel_trigger
{
dma_trigger_type_t type; /*!< Select hardware trigger as edge triggered or level triggered. */
dma_trigger_burst_t burst; /*!< Select whether hardware triggers cause a single or burst transfer. */
dma_burst_wrap_t wrap; /*!< Select wrap type, source wrap or dest wrap, or both. */
} dma_channel_trigger_t;
/*! @brief DMA transfer status */
enum _dma_transfer_status
{
kStatus_DMA_Busy = MAKE_STATUS(kStatusGroup_DMA, 0), /*!< Channel is busy and can't handle the
transfer request. */
};
/*! @brief DMA transfer configuration */
typedef struct _dma_transfer_config
{
uint8_t *srcAddr; /*!< Source data address */
uint8_t *dstAddr; /*!< Destination data address */
uint8_t *nextDesc; /*!< Chain custom descriptor */
dma_xfercfg_t xfercfg; /*!< Transfer options */
bool isPeriph; /*!< DMA transfer is driven by peripheral */
} dma_transfer_config_t;
/*! @brief Callback for DMA */
struct _dma_handle;
/*! @brief Define Callback function for DMA. */
typedef void (*dma_callback)(struct _dma_handle *handle, void *userData, bool transferDone, uint32_t intmode);
/*! @brief DMA transfer handle structure */
typedef struct _dma_handle
{
dma_callback callback; /*!< Callback function. Invoked when transfer
of descriptor with interrupt flag finishes */
void *userData; /*!< Callback function parameter */
DMA_Type *base; /*!< DMA peripheral base address */
uint8_t channel; /*!< DMA channel number */
} dma_handle_t;
/*******************************************************************************
* APIs
******************************************************************************/
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/*!
* @name DMA initialization and De-initialization
* @{
*/
/*!
* @brief Initializes DMA peripheral.
*
* This function enable the DMA clock, set descriptor table and
* enable DMA peripheral.
*
* @param base DMA peripheral base address.
*/
void DMA_Init(DMA_Type *base);
/*!
* @brief Deinitializes DMA peripheral.
*
* This function gates the DMA clock.
*
* @param base DMA peripheral base address.
*/
void DMA_Deinit(DMA_Type *base);
/* @} */
/*!
* @name DMA Channel Operation
* @{
*/
/*!
* @brief Return whether DMA channel is processing transfer
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @return True for active state, false otherwise.
*/
static inline bool DMA_ChannelIsActive(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
return (DMA_COMMON_CONST_REG_GET(base, channel, ACTIVE) & (1U << DMA_CHANNEL_INDEX(channel))) ? true : false;
}
/*!
* @brief Enables the interrupt source for the DMA transfer.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
static inline void DMA_EnableChannelInterrupts(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
DMA_COMMON_REG_GET(base, channel, INTENSET) |= 1U << DMA_CHANNEL_INDEX(channel);
}
/*!
* @brief Disables the interrupt source for the DMA transfer.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
static inline void DMA_DisableChannelInterrupts(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
DMA_COMMON_REG_GET(base, channel, INTENCLR) |= 1U << DMA_CHANNEL_INDEX(channel);
}
/*!
* @brief Enable DMA channel.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
static inline void DMA_EnableChannel(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
DMA_COMMON_REG_GET(base, channel, ENABLESET) |= 1U << DMA_CHANNEL_INDEX(channel);
}
/*!
* @brief Disable DMA channel.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
static inline void DMA_DisableChannel(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
DMA_COMMON_REG_GET(base, channel, ENABLECLR) |= 1U << DMA_CHANNEL_INDEX(channel);
}
/*!
* @brief Set PERIPHREQEN of channel configuration register.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
static inline void DMA_EnableChannelPeriphRq(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
base->CHANNEL[channel].CFG |= DMA_CHANNEL_CFG_PERIPHREQEN_MASK;
}
/*!
* @brief Get PERIPHREQEN value of channel configuration register.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @return True for enabled PeriphRq, false for disabled.
*/
static inline void DMA_DisableChannelPeriphRq(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
base->CHANNEL[channel].CFG &= ~DMA_CHANNEL_CFG_PERIPHREQEN_MASK;
}
/*!
* @brief Set trigger settings of DMA channel.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @param trigger trigger configuration.
*/
void DMA_ConfigureChannelTrigger(DMA_Type *base, uint32_t channel, dma_channel_trigger_t *trigger);
/*!
* @brief Gets the remaining bytes of the current DMA descriptor transfer.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @return The number of bytes which have not been transferred yet.
*/
uint32_t DMA_GetRemainingBytes(DMA_Type *base, uint32_t channel);
/*!
* @brief Set priority of channel configuration register.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @param priority Channel priority value.
*/
static inline void DMA_SetChannelPriority(DMA_Type *base, uint32_t channel, dma_priority_t priority)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
base->CHANNEL[channel].CFG =
(base->CHANNEL[channel].CFG & (~(DMA_CHANNEL_CFG_CHPRIORITY_MASK))) | DMA_CHANNEL_CFG_CHPRIORITY(priority);
}
/*!
* @brief Get priority of channel configuration register.
*
* @param base DMA peripheral base address.
* @param channel DMA channel number.
* @return Channel priority value.
*/
static inline dma_priority_t DMA_GetChannelPriority(DMA_Type *base, uint32_t channel)
{
assert(channel < FSL_FEATURE_DMA_NUMBER_OF_CHANNELSn(base));
return (dma_priority_t)((base->CHANNEL[channel].CFG & DMA_CHANNEL_CFG_CHPRIORITY_MASK) >>
DMA_CHANNEL_CFG_CHPRIORITY_SHIFT);
}
/*!
* @brief Create application specific DMA descriptor
* to be used in a chain in transfer
*
* @param desc DMA descriptor address.
* @param xfercfg Transfer configuration for DMA descriptor.
* @param srcAddr Address of last item to transmit
* @param dstAddr Address of last item to receive.
* @param nextDesc Address of next descriptor in chain.
*/
void DMA_CreateDescriptor(dma_descriptor_t *desc, dma_xfercfg_t *xfercfg, void *srcAddr, void *dstAddr, void *nextDesc);
/* @} */
/*!
* @name DMA Transactional Operation
* @{
*/
/*!
* @brief Abort running transfer by handle.
*
* This function aborts DMA transfer specified by handle.
*
* @param handle DMA handle pointer.
*/
void DMA_AbortTransfer(dma_handle_t *handle);
/*!
* @brief Creates the DMA handle.
*
* This function is called if using transaction API for DMA. This function
* initializes the internal state of DMA handle.
*
* @param handle DMA handle pointer. The DMA handle stores callback function and
* parameters.
* @param base DMA peripheral base address.
* @param channel DMA channel number.
*/
void DMA_CreateHandle(dma_handle_t *handle, DMA_Type *base, uint32_t channel);
/*!
* @brief Installs a callback function for the DMA transfer.
*
* This callback is called in DMA IRQ handler. Use the callback to do something after
* the current major loop transfer completes.
*
* @param handle DMA handle pointer.
* @param callback DMA callback function pointer.
* @param userData Parameter for callback function.
*/
void DMA_SetCallback(dma_handle_t *handle, dma_callback callback, void *userData);
/*!
* @brief Prepares the DMA transfer structure.
*
* This function prepares the transfer configuration structure according to the user input.
*
* @param config The user configuration structure of type dma_transfer_t.
* @param srcAddr DMA transfer source address.
* @param dstAddr DMA transfer destination address.
* @param byteWidth DMA transfer destination address width(bytes).
* @param transferBytes DMA transfer bytes to be transferred.
* @param type DMA transfer type.
* @param nextDesc Chain custom descriptor to transfer.
* @note The data address and the data width must be consistent. For example, if the SRC
* is 4 bytes, so the source address must be 4 bytes aligned, or it shall result in
* source address error(SAE).
*/
void DMA_PrepareTransfer(dma_transfer_config_t *config,
void *srcAddr,
void *dstAddr,
uint32_t byteWidth,
uint32_t transferBytes,
dma_transfer_type_t type,
void *nextDesc);
/*!
* @brief Submits the DMA transfer request.
*
* This function submits the DMA transfer request according to the transfer configuration structure.
* If the user submits the transfer request repeatedly, this function packs an unprocessed request as
* a TCD and enables scatter/gather feature to process it in the next time.
*
* @param handle DMA handle pointer.
* @param config Pointer to DMA transfer configuration structure.
* @retval kStatus_DMA_Success It means submit transfer request succeed.
* @retval kStatus_DMA_QueueFull It means TCD queue is full. Submit transfer request is not allowed.
* @retval kStatus_DMA_Busy It means the given channel is busy, need to submit request later.
*/
status_t DMA_SubmitTransfer(dma_handle_t *handle, dma_transfer_config_t *config);
/*!
* @brief DMA start transfer.
*
* This function enables the channel request. User can call this function after submitting the transfer request
* or before submitting the transfer request.
*
* @param handle DMA handle pointer.
*/
void DMA_StartTransfer(dma_handle_t *handle);
/*!
* @brief DMA IRQ handler for descriptor transfer complete.
*
* This function clears the channel major interrupt flag and call
* the callback function if it is not NULL.
*/
void DMA_HandleIRQ(void);
/* @} */
#if defined(__cplusplus)
}
#endif /* __cplusplus */
/* @} */
#endif /*_FSL_DMA_H_*/