/***************************************************************************//** * \file cy_dma.h * \version 2.40 * * \brief * The header file of the DMA driver. * ******************************************************************************** * \copyright * Copyright 2016-2020 Cypress Semiconductor Corporation * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *******************************************************************************/ /** * \addtogroup group_dma * \{ * Configures a DMA channel and its descriptor(s). * * The functions and other declarations used in this driver are in cy_dma.h. * You can include cy_pdl.h to get access to all functions * and declarations in the PDL. * * The DMA channel can be used in any project to transfer data * without CPU intervention basing on a hardware trigger signal from another component. * * A device may support more than one DMA hardware block. Each block has a set of * registers, a base hardware address, and supports multiple channels. * Many API functions for the DMA driver require a base hardware address and * channel number. Ensure that you use the correct hardware address for the DMA block in use. * * Features: * * Multiple DW blocks (device specific) * * Multiple channels per each DW block (device specific) * * Four priority levels for each channel * * Byte, half-word (2-byte), and word (4-byte) transfers * * Configurable source and destination addresses * * CRC calculation support (only for CPUSS_ver2) * * \section group_dma_configuration Configuration Considerations * * To set up a DMA driver, initialize a descriptor, * initialize and enable a channel, and enable the DMA block. * * To set up a descriptor, provide the configuration parameters for the * descriptor in the \ref cy_stc_dma_descriptor_config_t structure. Then call the * \ref Cy_DMA_Descriptor_Init function to initialize the descriptor in SRAM. You can * modify the source and destination addresses dynamically by calling * \ref Cy_DMA_Descriptor_SetSrcAddress and \ref Cy_DMA_Descriptor_SetDstAddress. * * To set up a DMA channel, provide a filled \ref cy_stc_dma_channel_config_t * structure. Call the \ref Cy_DMA_Channel_Init function, specifying the channel * number. Use \ref Cy_DMA_Channel_Enable to enable the configured DMA channel. * * Call \ref Cy_DMA_Channel_Enable for each DMA channel in use. * * When configured, another peripheral typically triggers the DMA. The trigger is * connected to the DMA using the trigger multiplexer. The trigger multiplexer * driver has a software trigger you can use in firmware to trigger the DMA. See the * Trigger Multiplexer documentation. * * The following is a simplified structure of the DMA driver API interdependencies * in a typical user application: * \image html dma.png * * NOTE: Even if a DMA channel is enabled, it is not operational until * the DMA block is enabled using function \ref Cy_DMA_Enable.\n * NOTE: If the DMA descriptor is configured to generate an interrupt, * the interrupt must be enabled using the \ref Cy_DMA_Channel_SetInterruptMask * function for each DMA channel. * * For example: * \snippet dma/snippet/main.c snippet_Cy_DMA_Enable * * \section group_dma_more_information More Information. * See: the DMA chapter of the device technical reference manual (TRM); * the DMA Component datasheet; * CE219940 - PSoC 6 MCU Multiple DMA Concatenation. * * \section group_dma_changelog Changelog * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
VersionChangesReason for Change
2.40Minor Bug fixes.Check for valid parameters.
2.30Fixed MISRA 2012 violations.MISRA 2012 compliance.
2.20.1Minor documentation updates.Documentation enhancement.
2.20The channel number validation method is updated.New devices support.
2.10Flattened the organization of the driver source code into the single source directory and the single include directory.Driver library directory-structure simplification.
Added CRC mode and the CRC descriptor support. \n Added the \ref Cy_DMA_Crc_Init function.New devices support.
Added register access layer. Use register access macros instead * of direct register access using dereferenced pointers.Makes register access device-independent, so that the PDL does * not need to be recompiled for each supported part number.
2.0.1Changed CY_DMA_BWC macro values from Boolean to numericImprovements made based on usability feedback
2.0 * All the API is refactored to be consistent within itself and with the * rest of the PDL content. * * The descriptor API is updated as follows: * The \ref Cy_DMA_Descriptor_Init function sets a full bunch of descriptor * settings, and the rest of the descriptor API is a get/set interface * to each of the descriptor settings. * * There is a group of macros to support the backward compatibility with most * of the driver version 1.0 API. But, you should use * the new v2.0 interface in new designs (do not just copy-paste from old * projects). To enable the backward compatibility support, the CY_DMA_BWC * definition should be changed to "1".
1.0Initial version
* * \defgroup group_dma_macros Macros * \defgroup group_dma_functions Functions * \{ * \defgroup group_dma_block_functions Block Functions * \defgroup group_dma_channel_functions Channel Functions * \defgroup group_dma_descriptor_functions Descriptor Functions * \} * \defgroup group_dma_data_structures Data Structures * \defgroup group_dma_enums Enumerated Types */ #if !defined (CY_DMA_H) #define CY_DMA_H #include "cy_device.h" #if defined (CY_IP_M4CPUSS_DMA) || defined (CY_IP_MXDW) #include "cy_syslib.h" #include #include #include #if defined(__cplusplus) extern "C" { #endif CY_MISRA_DEVIATE_BLOCK_START('MISRA C-2012 Rule 10.8', 15, \ 'Value extracted from _VAL2FLD macro will not exceed enum range.'); /****************************************************************************** * Macro definitions * ******************************************************************************/ /** * \addtogroup group_dma_macros * \{ */ /** The driver major version */ #define CY_DMA_DRV_VERSION_MAJOR 2 /** The driver minor version */ #define CY_DMA_DRV_VERSION_MINOR 40 /** The DMA driver identifier */ #define CY_DMA_ID (CY_PDL_DRV_ID(0x13U)) /** The DMA channel interrupt mask */ #define CY_DMA_INTR_MASK (0x01UL) /** The minimum X/Y Count API parameters */ #define CY_DMA_LOOP_COUNT_MIN (1UL) /** The maximum X/Y Count API parameters */ #define CY_DMA_LOOP_COUNT_MAX (256UL) /** The minimum X/Y Increment API parameters */ #define CY_DMA_LOOP_INCREMENT_MIN (-2048L) /** The maximum X/Y Increment API parameters */ #define CY_DMA_LOOP_INCREMENT_MAX (2047L) /** The backward compatibility flag. Enables a group of macros which provide * the backward compatibility with most of the DMA driver version 1.0 interface. */ #ifndef CY_DMA_BWC #define CY_DMA_BWC (0U) /* Disabled by default */ #endif /** \} group_dma_macros */ /** * \addtogroup group_dma_enums * \{ */ /** Contains the possible interrupt cause values */ typedef enum { CY_DMA_INTR_CAUSE_NO_INTR = 0U, /**< No interrupt. */ CY_DMA_INTR_CAUSE_COMPLETION = 1U, /**< Completion. */ CY_DMA_INTR_CAUSE_SRC_BUS_ERROR = 2U, /**< Source bus error. */ CY_DMA_INTR_CAUSE_DST_BUS_ERROR = 3U, /**< Destination bus error. */ CY_DMA_INTR_CAUSE_SRC_MISAL = 4U, /**< Source address is not aligned. */ CY_DMA_INTR_CAUSE_DST_MISAL = 5U, /**< Destination address is not aligned. */ CY_DMA_INTR_CAUSE_CURR_PTR_NULL = 6U, /**< Current descriptor pointer is NULL. */ CY_DMA_INTR_CAUSE_ACTIVE_CH_DISABLED = 7U, /**< Active channel is disabled. */ CY_DMA_INTR_CAUSE_DESCR_BUS_ERROR = 8U /**< Descriptor bus error. */ } cy_en_dma_intr_cause_t; /** Contains the options for the descriptor type */ typedef enum { CY_DMA_SINGLE_TRANSFER = 0UL, /**< Single transfer. */ CY_DMA_1D_TRANSFER = 1UL, /**< 1D transfer. */ CY_DMA_2D_TRANSFER = 2UL, /**< 2D transfer. */ CY_DMA_CRC_TRANSFER = 3UL, /**< CRC transfer. Supported by the CPUSS_ver2 only. */ } cy_en_dma_descriptor_type_t; /** Contains the options for the interrupt, trig-in and trig-out type parameters of the descriptor */ typedef enum { CY_DMA_1ELEMENT = 0UL, /**< One element transfer. */ CY_DMA_X_LOOP = 1UL, /**< One X loop transfer. */ CY_DMA_DESCR = 2UL, /**< One descriptor transfer. */ CY_DMA_DESCR_CHAIN = 3UL /**< Entire descriptor chain transfer. */ } cy_en_dma_trigger_type_t; /** Contains the options for the data size */ typedef enum { CY_DMA_BYTE = 0UL, /**< One byte. */ CY_DMA_HALFWORD = 1UL, /**< Half word (two bytes). */ CY_DMA_WORD = 2UL /**< Full word (four bytes). */ } cy_en_dma_data_size_t; /** Contains the options for descriptor retriggering */ typedef enum { CY_DMA_RETRIG_IM = 0UL, /**< Retrigger immediately. */ CY_DMA_RETRIG_4CYC = 1UL, /**< Retrigger after 4 Clk_Slow cycles. */ CY_DMA_RETRIG_16CYC = 2UL, /**< Retrigger after 16 Clk_Slow cycles. */ CY_DMA_WAIT_FOR_REACT = 3UL /**< Wait for trigger reactivation. */ } cy_en_dma_retrigger_t; /** Contains the options for the transfer size */ typedef enum { CY_DMA_TRANSFER_SIZE_DATA = 0UL, /**< As specified by dataSize. */ CY_DMA_TRANSFER_SIZE_WORD = 1UL, /**< A full word (four bytes). */ } cy_en_dma_transfer_size_t; /** Contains the options for the state of the channel when the descriptor is completed */ typedef enum { CY_DMA_CHANNEL_ENABLED = 0UL, /**< Channel stays enabled. */ CY_DMA_CHANNEL_DISABLED = 1UL /**< Channel is disabled. */ } cy_en_dma_channel_state_t; /** Contains the return values of the DMA driver */ typedef enum { CY_DMA_SUCCESS = 0x00UL, /**< Success. */ CY_DMA_BAD_PARAM = CY_DMA_ID | CY_PDL_STATUS_ERROR | 0x01UL /**< The input parameters passed to the DMA API are not valid. */ } cy_en_dma_status_t; /** \} group_dma_enums */ /** \cond Internal */ /* Macros for the conditions used by CY_ASSERT calls */ #define CY_DMA_IS_LOOP_COUNT_VALID(count) (((count) >= CY_DMA_LOOP_COUNT_MIN) && ((count) <= CY_DMA_LOOP_COUNT_MAX)) #define CY_DMA_IS_LOOP_INCR_VALID(incr) (((incr) >= CY_DMA_LOOP_INCREMENT_MIN) && ((incr) <= CY_DMA_LOOP_INCREMENT_MAX)) #define CY_DMA_IS_PRIORITY_VALID(prio) ((prio) <= 3UL) #define CY_DMA_IS_INTR_MASK_VALID(intr) (0UL == ((intr) & ((uint32_t) ~CY_DMA_INTR_MASK))) #define CY_DMA_IS_RETRIG_VALID(retrig) ((CY_DMA_RETRIG_IM == (retrig)) || \ (CY_DMA_RETRIG_4CYC == (retrig)) || \ (CY_DMA_RETRIG_16CYC == (retrig)) || \ (CY_DMA_WAIT_FOR_REACT == (retrig))) #define CY_DMA_IS_TRIG_TYPE_VALID(trigType) ((CY_DMA_1ELEMENT == (trigType)) || \ (CY_DMA_X_LOOP == (trigType)) || \ (CY_DMA_DESCR == (trigType)) || \ (CY_DMA_DESCR_CHAIN == (trigType))) #define CY_DMA_IS_XFER_SIZE_VALID(xferSize) ((CY_DMA_TRANSFER_SIZE_DATA == (xferSize)) || \ (CY_DMA_TRANSFER_SIZE_WORD == (xferSize))) #define CY_DMA_IS_CHANNEL_STATE_VALID(state) ((CY_DMA_CHANNEL_ENABLED == (state)) || \ (CY_DMA_CHANNEL_DISABLED == (state))) #define CY_DMA_IS_DATA_SIZE_VALID(dataSize) ((CY_DMA_BYTE == (dataSize)) || \ (CY_DMA_HALFWORD == (dataSize)) || \ (CY_DMA_WORD == (dataSize))) #define CY_DMA_IS_TYPE_VALID(descrType) ((CY_DMA_SINGLE_TRANSFER == (descrType)) || \ (CY_DMA_1D_TRANSFER == (descrType)) || \ (CY_DMA_2D_TRANSFER == (descrType)) || \ (CY_DMA_CRC_TRANSFER == (descrType))) #define CY_DMA_IS_CH_NR_VALID(base, chNr) ((CY_DW0_BASE == (base)) ? ((chNr) < CY_DW0_CH_NR) : \ ((chNr) < CY_DW1_CH_NR)) /* The descriptor structure bit field definitions */ #define CY_DMA_CTL_RETRIG_Pos (0UL) #define CY_DMA_CTL_RETRIG_Msk ((uint32_t)0x3UL << CY_DMA_CTL_RETRIG_Pos) #define CY_DMA_CTL_INTR_TYPE_Pos (2UL) #define CY_DMA_CTL_INTR_TYPE_Msk ((uint32_t)0x3UL << CY_DMA_CTL_INTR_TYPE_Pos) #define CY_DMA_CTL_TR_OUT_TYPE_Pos (4UL) #define CY_DMA_CTL_TR_OUT_TYPE_Msk ((uint32_t)0x3UL << CY_DMA_CTL_TR_OUT_TYPE_Pos) #define CY_DMA_CTL_TR_IN_TYPE_Pos (6UL) #define CY_DMA_CTL_TR_IN_TYPE_Msk ((uint32_t)0x3UL << CY_DMA_CTL_TR_IN_TYPE_Pos) #define CY_DMA_CTL_CH_DISABLE_Pos (24UL) #define CY_DMA_CTL_CH_DISABLE_Msk ((uint32_t)0x1UL << CY_DMA_CTL_CH_DISABLE_Pos) #define CY_DMA_CTL_SRC_SIZE_Pos (26UL) #define CY_DMA_CTL_SRC_SIZE_Msk ((uint32_t)0x1UL << CY_DMA_CTL_SRC_SIZE_Pos) #define CY_DMA_CTL_DST_SIZE_Pos (27UL) #define CY_DMA_CTL_DST_SIZE_Msk ((uint32_t)0x1UL << CY_DMA_CTL_DST_SIZE_Pos) #define CY_DMA_CTL_DATA_SIZE_Pos (28UL) #define CY_DMA_CTL_DATA_SIZE_Msk ((uint32_t)0x3UL << CY_DMA_CTL_DATA_SIZE_Pos) #define CY_DMA_CTL_TYPE_Pos (30UL) #define CY_DMA_CTL_TYPE_Msk ((uint32_t)0x3UL << CY_DMA_CTL_TYPE_Pos) #define CY_DMA_CTL_SRC_INCR_Pos (0UL) #define CY_DMA_CTL_SRC_INCR_Msk ((uint32_t)0xFFFUL << CY_DMA_CTL_SRC_INCR_Pos) #define CY_DMA_CTL_DST_INCR_Pos (12UL) #define CY_DMA_CTL_DST_INCR_Msk ((uint32_t)0xFFFUL << CY_DMA_CTL_DST_INCR_Pos) #define CY_DMA_CTL_COUNT_Pos (24UL) #define CY_DMA_CTL_COUNT_Msk ((uint32_t)0xFFUL << CY_DMA_CTL_COUNT_Pos) /** \endcond */ /** * \addtogroup group_dma_data_structures * \{ */ /** * DMA descriptor structure type. It is a user/component-declared structure * allocated in RAM. The DMA HW requires a pointer to this structure to work with it. * * For advanced users: the descriptor can be allocated even in flash, then the user * manually predefines all the structure items with constants. This is * because most of the driver's API (especially functions modifying * descriptors, including \ref Cy_DMA_Descriptor_Init()) can't work with * read-only descriptors. */ typedef struct { uint32_t ctl; /*!< 0x00000000 Descriptor control */ uint32_t src; /*!< 0x00000004 Descriptor source */ uint32_t dst; /*!< 0x00000008 Descriptor destination */ uint32_t xCtl; /*!< 0x0000000C Descriptor X loop control */ uint32_t yCtl; /*!< 0x00000010 Descriptor Y loop control */ uint32_t nextPtr; /*!< 0x00000014 Descriptor next pointer */ } cy_stc_dma_descriptor_t; /** * This structure is a configuration structure pre-initialized by the user and * passed as a parameter to the \ref Cy_DMA_Descriptor_Init(). * It can be allocated in RAM/flash (the user's choice). * In case of flash allocation, there is a possibility to reinitialize the descriptor in runtime. * This structure has all the parameters of the descriptor as separate parameters. * Most of these parameters are represented in the \ref cy_stc_dma_descriptor_t structure as bitfields. */ typedef struct { cy_en_dma_retrigger_t retrigger; /**< Specifies whether the DW controller should wait for the input trigger to be deactivated. */ cy_en_dma_trigger_type_t interruptType; /**< Sets the event that triggers an interrupt. See \ref cy_en_dma_trigger_type_t. */ cy_en_dma_trigger_type_t triggerOutType; /**< Sets the event that triggers an output. See \ref cy_en_dma_trigger_type_t. */ cy_en_dma_channel_state_t channelState; /**< Specifies whether the channel is enabled or disabled on completion of descriptor. See \ref cy_en_dma_channel_state_t. */ cy_en_dma_trigger_type_t triggerInType; /**< Sets what type of transfer is triggered. See \ref cy_en_dma_trigger_type_t. */ cy_en_dma_data_size_t dataSize; /**< The size of the data bus for transfer. See \ref cy_en_dma_data_size_t. */ cy_en_dma_transfer_size_t srcTransferSize; /**< The source transfer size. */ cy_en_dma_transfer_size_t dstTransferSize; /**< The destination transfer size. */ cy_en_dma_descriptor_type_t descriptorType; /**< The type of the descriptor. See \ref cy_en_dma_descriptor_type_t. */ void * srcAddress; /**< The source address of the transfer. */ void * dstAddress; /**< The destination address of the transfer. * For CPUSS_ver2 only: for CRC transfer, the CRC result without post-processing * (reversing and/or XORing, if used) is placed into the dstAddress. */ int32_t srcXincrement; /**< The address increment of the source after each X-loop transfer. Valid range is -2048 ... 2047. */ int32_t dstXincrement; /**< The address increment of the destination after each X-loop transfer. Valid range is -2048 ... 2047. */ uint32_t xCount; /**< The number of transfers in an X-loop. Valid range is 1 ... 256. */ int32_t srcYincrement; /**< The address increment of the source after each Y-loop transfer. Valid range is -2048 ... 2047. */ int32_t dstYincrement; /**< The address increment of the destination after each Y-loop transfer. Valid range is -2048 ... 2047. */ uint32_t yCount; /**< The number of X-loops in the Y-loop. Valid range is 1 ... 256. */ cy_stc_dma_descriptor_t * nextDescriptor; /**< The next descriptor to chain after completion. A NULL value will signify no chaining. */ } cy_stc_dma_descriptor_config_t; /** This structure holds the initialization values for the DMA channel */ typedef struct { cy_stc_dma_descriptor_t * descriptor; /**< The DMA descriptor associated with the channel being initialized. */ bool preemptable; /**< Specifies whether the channel is preemptable by another higher-priority channel. */ uint32_t priority; /**< This parameter specifies the channel's priority. */ bool enable; /**< This parameter specifies whether the channel is enabled after initializing. */ bool bufferable; /**< This parameter specifies whether a write transaction can complete. without waiting for the destination to accept the write transaction data. */ } cy_stc_dma_channel_config_t; /** This structure holds the initialization values for the CRC feature, only for CPUSS_ver2 */ typedef struct { bool dataReverse; /**< Specifies the bit order in which a data byte is processed (reversal is performed after XORing): * 'false': Most significant bit (bit 1) first. * 'true': Least significant bit (bit 0) first. */ uint32_t dataXor; /**< Specifies a byte mask with which each data byte is XORed. The XOR is performed before data reversal. */ bool reminderReverse; /**< Specifies whether the remainder is bit reversed (reversal is performed after XORing). * Note: this parameter doesn't affect the CRC value stored into the dstAddress. * The reversed value remains in the CRC_REM_RESULT register. */ uint32_t reminderXor; /**< Specifies a mask with which the remainder is XORed. The XOR is performed before remainder reversal. * Note: this parameter doesn't affect the CRC value stored into the dstAddress. * The XORed value remains in the CRC_REM_RESULT register. */ uint32_t polynomial; /**< CRC polynomial. The polynomial is represented WITHOUT the high order bit (this bit is always assumed '1'). * The polynomial should be aligned/shifted such that the more significant bits (bit 31 and down) contain the polynomial * and the less significant bits (bit 0 and up) contain padding '0's. Some frequently used polynomials: * - CRC32: POLYNOMIAL is 0x04c11db7 (x^32 + x^26 + x^23 + x^22 + x^16 + x^12 + x^11 + x^10 + x^8 + x^7 + x^5 + x^4 + x^2 + x + 1). * - CRC16: POLYNOMIAL is 0x80050000 (x^16 + x^15 + x^2 + 1, shifted by 16 bit positions). * - CRC16 CCITT: POLYNOMIAL is 0x10210000 (x^16 + x^12 + x^5 + 1, shifted by 16 bit positions). */ uint32_t lfsrInitVal; /**< The initial value of the Linear Feedback Shift Register */ } cy_stc_dma_crc_config_t; /** \} group_dma_data_structures */ /** * \addtogroup group_dma_functions * \{ */ /** * \addtogroup group_dma_block_functions * \{ */ __STATIC_INLINE void Cy_DMA_Enable (DW_Type * base); __STATIC_INLINE void Cy_DMA_Disable (DW_Type * base); __STATIC_INLINE uint32_t Cy_DMA_GetActiveChannel (DW_Type const * base); __STATIC_INLINE void * Cy_DMA_GetActiveSrcAddress(DW_Type const * base); __STATIC_INLINE void * Cy_DMA_GetActiveDstAddress(DW_Type const * base); cy_en_dma_status_t Cy_DMA_Crc_Init (DW_Type * base, cy_stc_dma_crc_config_t const * crcConfig); /** \} group_dma_block_functions */ /** * \addtogroup group_dma_channel_functions * \{ */ cy_en_dma_status_t Cy_DMA_Channel_Init (DW_Type * base, uint32_t channel, cy_stc_dma_channel_config_t const * channelConfig); void Cy_DMA_Channel_DeInit (DW_Type * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_SetDescriptor (DW_Type * base, uint32_t channel, cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE void Cy_DMA_Channel_Enable (DW_Type * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_Disable (DW_Type * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_SetPriority (DW_Type * base, uint32_t channel, uint32_t priority); __STATIC_INLINE uint32_t Cy_DMA_Channel_GetPriority (DW_Type const * base, uint32_t channel); __STATIC_INLINE cy_en_dma_intr_cause_t Cy_DMA_Channel_GetStatus (DW_Type const * base, uint32_t channel); __STATIC_INLINE cy_stc_dma_descriptor_t * Cy_DMA_Channel_GetCurrentDescriptor (DW_Type const * base, uint32_t channel); __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptStatus (DW_Type const * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_ClearInterrupt (DW_Type * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_SetInterrupt (DW_Type * base, uint32_t channel); __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptMask (DW_Type const * base, uint32_t channel); __STATIC_INLINE void Cy_DMA_Channel_SetInterruptMask (DW_Type * base, uint32_t channel, uint32_t interrupt); __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptStatusMasked(DW_Type const * base, uint32_t channel); /** \} group_dma_channel_functions */ /** * \addtogroup group_dma_descriptor_functions * \{ */ cy_en_dma_status_t Cy_DMA_Descriptor_Init (cy_stc_dma_descriptor_t * descriptor, cy_stc_dma_descriptor_config_t const * config); void Cy_DMA_Descriptor_DeInit(cy_stc_dma_descriptor_t * descriptor); void Cy_DMA_Descriptor_SetNextDescriptor (cy_stc_dma_descriptor_t * descriptor, cy_stc_dma_descriptor_t const * nextDescriptor); void Cy_DMA_Descriptor_SetDescriptorType (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_descriptor_type_t descriptorType); __STATIC_INLINE void Cy_DMA_Descriptor_SetSrcAddress (cy_stc_dma_descriptor_t * descriptor, void const * srcAddress); __STATIC_INLINE void Cy_DMA_Descriptor_SetDstAddress (cy_stc_dma_descriptor_t * descriptor, void const * dstAddress); __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopDataCount (cy_stc_dma_descriptor_t * descriptor, uint32_t xCount); __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopDataCount (cy_stc_dma_descriptor_t * descriptor, uint32_t yCount); __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopSrcIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t srcXincrement); __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopDstIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t dstXincrement); __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopSrcIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t srcYincrement); __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopDstIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t dstYincrement); __STATIC_INLINE void Cy_DMA_Descriptor_SetInterruptType (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t interruptType); __STATIC_INLINE void Cy_DMA_Descriptor_SetTriggerInType (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t triggerInType); __STATIC_INLINE void Cy_DMA_Descriptor_SetTriggerOutType (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t triggerOutType); __STATIC_INLINE void Cy_DMA_Descriptor_SetDataSize (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_data_size_t dataSize); __STATIC_INLINE void Cy_DMA_Descriptor_SetSrcTransferSize (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_transfer_size_t srcTransferSize); __STATIC_INLINE void Cy_DMA_Descriptor_SetDstTransferSize (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_transfer_size_t dstTransferSize); __STATIC_INLINE void Cy_DMA_Descriptor_SetRetrigger (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_retrigger_t retrigger); __STATIC_INLINE void Cy_DMA_Descriptor_SetChannelState (cy_stc_dma_descriptor_t * descriptor, cy_en_dma_channel_state_t channelState); cy_stc_dma_descriptor_t * Cy_DMA_Descriptor_GetNextDescriptor (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_descriptor_type_t Cy_DMA_Descriptor_GetDescriptorType (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE void * Cy_DMA_Descriptor_GetSrcAddress (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE void * Cy_DMA_Descriptor_GetDstAddress (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE uint32_t Cy_DMA_Descriptor_GetXloopDataCount (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE uint32_t Cy_DMA_Descriptor_GetYloopDataCount (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetXloopSrcIncrement(cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetXloopDstIncrement(cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetYloopSrcIncrement(cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetYloopDstIncrement(cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetInterruptType (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetTriggerInType (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetTriggerOutType (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_data_size_t Cy_DMA_Descriptor_GetDataSize (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_transfer_size_t Cy_DMA_Descriptor_GetSrcTransferSize (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_transfer_size_t Cy_DMA_Descriptor_GetDstTransferSize (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_retrigger_t Cy_DMA_Descriptor_GetRetrigger (cy_stc_dma_descriptor_t const * descriptor); __STATIC_INLINE cy_en_dma_channel_state_t Cy_DMA_Descriptor_GetChannelState (cy_stc_dma_descriptor_t const * descriptor); /** \} group_dma_descriptor_functions */ /*************************************** * In-line Function Implementation ***************************************/ /** * \addtogroup group_dma_block_functions * \{ */ /******************************************************************************* * Function Name: Cy_DMA_Enable ****************************************************************************//** * * Enables the DMA block. * * \param base * The pointer to the hardware DMA block. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Enable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Enable(DW_Type * base) { DW_CTL(base) |= DW_CTL_ENABLED_Msk; } /******************************************************************************* * Function Name: Cy_DMA_Disable ****************************************************************************//** * * Disables the DMA block. * * \param base * The pointer to the hardware DMA block. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Disable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Disable(DW_Type * base) { DW_CTL(base) &= (uint32_t) ~DW_CTL_ENABLED_Msk; } /******************************************************************************* * Function Name: Cy_DMA_GetActiveChannel ****************************************************************************//** * * Returns the status of the active/pending channels. * the DMA block. * * \param base * The pointer to the hardware DMA block. * * \return * Returns a bit-field with all of the currently active/pending channels in the * DMA block. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Disable * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_GetActiveChannel(DW_Type const * base) { return(_FLD2VAL(CY_DW_STATUS_CH_IDX, DW_STATUS(base))); } /******************************************************************************* * Function Name: Cy_DMA_GetActiveSrcAddress ****************************************************************************//** * * Returns the source address being used for the current transfer. * * \param base * The pointer to the hardware DMA block. * * \return * Returns the pointer to the source of transfer. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_GetActiveSrcAddress * *******************************************************************************/ __STATIC_INLINE void * Cy_DMA_GetActiveSrcAddress(DW_Type const * base) { return ((void *) DW_DESCR_SRC(base)); } /******************************************************************************* * Function Name: Cy_DMA_GetActiveDstAddress ****************************************************************************//** * * Returns the destination address being used for the current transfer. * * \param base * The pointer to the hardware DMA block. * * \return * Returns the pointer to the destination of transfer. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_GetActiveSrcAddress * *******************************************************************************/ __STATIC_INLINE void * Cy_DMA_GetActiveDstAddress(DW_Type const * base) { return ((void *) DW_DESCR_DST(base)); } /** \} group_dma_block_functions */ /** * \addtogroup group_dma_descriptor_functions * \{ */ /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetSrcAddress ****************************************************************************//** * * Sets the source address for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param srcAddress * The source address value for the descriptor. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetSrcAddress(cy_stc_dma_descriptor_t * descriptor, void const * srcAddress) { descriptor->src = (uint32_t) srcAddress; } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetSrcAddress ****************************************************************************//** * * Returns the source address parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The source address value of the descriptor. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE void * Cy_DMA_Descriptor_GetSrcAddress(cy_stc_dma_descriptor_t const * descriptor) { return ((void *) descriptor->src); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetDstAddress ****************************************************************************//** * * Sets the destination address for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param dstAddress * The destination address value for the descriptor. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetDstAddress(cy_stc_dma_descriptor_t * descriptor, void const * dstAddress) { descriptor->dst = (uint32_t) dstAddress; } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetDstAddress ****************************************************************************//** * * Returns the destination address parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The destination address value of the descriptor. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE void * Cy_DMA_Descriptor_GetDstAddress(cy_stc_dma_descriptor_t const * descriptor) { return ((void *) descriptor->dst); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetInterruptType ****************************************************************************//** * * Sets the interrupt type for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param interruptType * The interrupt type set for the descriptor. \ref cy_en_dma_trigger_type_t * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetInterruptType(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t interruptType) { CY_ASSERT_L3(CY_DMA_IS_TRIG_TYPE_VALID(interruptType)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_INTR_TYPE, interruptType); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetInterruptType ****************************************************************************//** * * Returns the Interrupt-Type of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Interrupt-Type \ref cy_en_dma_trigger_type_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetInterruptType(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_trigger_type_t) _FLD2VAL(CY_DMA_CTL_INTR_TYPE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetTriggerInType ****************************************************************************//** * * Sets the Trigger-In-Type for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param triggerInType * The Trigger In Type parameter \ref cy_en_dma_trigger_type_t * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetTriggerInType(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t triggerInType) { CY_ASSERT_L3(CY_DMA_IS_TRIG_TYPE_VALID(triggerInType)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_TR_IN_TYPE, triggerInType); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetTriggerInType ****************************************************************************//** * * Returns the Trigger-In-Type parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Trigger-In-Type \ref cy_en_dma_trigger_type_t * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetTriggerInType(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_trigger_type_t) _FLD2VAL(CY_DMA_CTL_TR_IN_TYPE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetTriggerOutType ****************************************************************************//** * * Sets the Trigger-Out-Type for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param triggerOutType * The Trigger-Out-Type set for the descriptor. \ref cy_en_dma_trigger_type_t * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetTriggerOutType(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_trigger_type_t triggerOutType) { CY_ASSERT_L3(CY_DMA_IS_TRIG_TYPE_VALID(triggerOutType)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_TR_OUT_TYPE, triggerOutType); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetTriggerOutType ****************************************************************************//** * * Returns the Trigger-Out-Type parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Trigger-Out-Type parameter \ref cy_en_dma_trigger_type_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_trigger_type_t Cy_DMA_Descriptor_GetTriggerOutType(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_trigger_type_t) _FLD2VAL(CY_DMA_CTL_TR_OUT_TYPE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetDataSize ****************************************************************************//** * * Sets the Data Element Size for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param dataSize * The Data Element Size \ref cy_en_dma_data_size_t * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetDataSize(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_data_size_t dataSize) { CY_ASSERT_L3(CY_DMA_IS_DATA_SIZE_VALID(dataSize)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_DATA_SIZE, dataSize); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetDataSize ****************************************************************************//** * * Returns the Data Element Size parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Data Element Size \ref cy_en_dma_data_size_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_data_size_t Cy_DMA_Descriptor_GetDataSize(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_data_size_t) _FLD2VAL(CY_DMA_CTL_DATA_SIZE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetSrcTransferSize ****************************************************************************//** * * Sets the Source Transfer Size for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param srcTransferSize * The Source Transfer Size \ref cy_en_dma_transfer_size_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetSrcTransferSize(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_transfer_size_t srcTransferSize) { CY_ASSERT_L3(CY_DMA_IS_XFER_SIZE_VALID(srcTransferSize)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_SRC_SIZE, srcTransferSize); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetSrcTransferSize ****************************************************************************//** * * Returns the Source Transfer Size parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Source Transfer Size \ref cy_en_dma_transfer_size_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_transfer_size_t Cy_DMA_Descriptor_GetSrcTransferSize(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_transfer_size_t) _FLD2VAL(CY_DMA_CTL_SRC_SIZE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetDstTransferSize ****************************************************************************//** * * Sets the Destination Transfer Size for the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param dstTransferSize * The Destination Transfer Size \ref cy_en_dma_transfer_size_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetDstTransferSize(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_transfer_size_t dstTransferSize) { CY_ASSERT_L3(CY_DMA_IS_XFER_SIZE_VALID(dstTransferSize)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_DST_SIZE, dstTransferSize); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetDstTransferSize ****************************************************************************//** * * Returns the Destination Transfer Size parameter of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Destination Transfer Size \ref cy_en_dma_transfer_size_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_transfer_size_t Cy_DMA_Descriptor_GetDstTransferSize(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_transfer_size_t) _FLD2VAL(CY_DMA_CTL_DST_SIZE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetRetrigger ****************************************************************************//** * * Sets the retrigger value that specifies whether the controller should * wait for the input trigger to be deactivated. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param retrigger * The \ref cy_en_dma_retrigger_t parameter specifies whether the controller * should wait for the input trigger to be deactivated. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetRetrigger(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_retrigger_t retrigger) { CY_ASSERT_L3(CY_DMA_IS_RETRIG_VALID(retrigger)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_RETRIG, retrigger); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetRetrigger ****************************************************************************//** * * Returns a value that specifies whether the controller should * wait for the input trigger to be deactivated. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Retrigger setting \ref cy_en_dma_retrigger_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_retrigger_t Cy_DMA_Descriptor_GetRetrigger(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_retrigger_t) _FLD2VAL(CY_DMA_CTL_RETRIG, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetDescriptorType ****************************************************************************//** * * Returns the descriptor's type of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The descriptor type \ref cy_en_dma_descriptor_type_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_descriptor_type_t Cy_DMA_Descriptor_GetDescriptorType(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_descriptor_type_t) _FLD2VAL(CY_DMA_CTL_TYPE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetChannelState ****************************************************************************//** * * Sets the channel state on completion of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param channelState * The channel state \ref cy_en_dma_channel_state_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetChannelState(cy_stc_dma_descriptor_t * descriptor, cy_en_dma_channel_state_t channelState) { CY_ASSERT_L3(CY_DMA_IS_CHANNEL_STATE_VALID(channelState)); CY_REG32_CLR_SET(descriptor->ctl, CY_DMA_CTL_CH_DISABLE, channelState); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetChannelState ****************************************************************************//** * * Returns the channel state on completion of the specified descriptor. * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The Channel State setting \ref cy_en_dma_channel_state_t. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE cy_en_dma_channel_state_t Cy_DMA_Descriptor_GetChannelState(cy_stc_dma_descriptor_t const * descriptor) { return((cy_en_dma_channel_state_t) _FLD2VAL(CY_DMA_CTL_CH_DISABLE, descriptor->ctl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetXloopDataCount ****************************************************************************//** * * Sets the number of data elements to transfer in the X loop * for the specified descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param xCount * The number of data elements to transfer in the X loop. Valid range is 1 ... 256. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopDataCount(cy_stc_dma_descriptor_t * descriptor, uint32_t xCount) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_COUNT_VALID(xCount)); /* Convert the data count from the user's range (1-256) into the machine range (0-255). */ CY_REG32_CLR_SET(descriptor->xCtl, CY_DMA_CTL_COUNT, xCount - 1UL); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetXloopDataCount ****************************************************************************//** * * Returns the number of data elements for the X loop of the specified * descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The number of data elements to transfer in the X loop. The range is 1 ... 256. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Descriptor_GetXloopDataCount(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); /* Convert the data count from the machine range (0-255) into the user's range (1-256). */ return (_FLD2VAL(CY_DMA_CTL_COUNT, descriptor->xCtl) + 1UL); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetXloopSrcIncrement ****************************************************************************//** * * Sets the source increment parameter for the X loop of the specified * descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param srcXincrement * The value of the source increment. The valid range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopSrcIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t srcXincrement) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_INCR_VALID(srcXincrement)); CY_REG32_CLR_SET(descriptor->xCtl, CY_DMA_CTL_SRC_INCR, srcXincrement); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetXloopSrcIncrement ****************************************************************************//** * * Returns the source increment parameter for the X loop of the specified * descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The value of the source increment. The range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetXloopSrcIncrement(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); return ((int32_t) _FLD2VAL(CY_DMA_CTL_SRC_INCR, descriptor->xCtl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetXloopDstIncrement ****************************************************************************//** * * Sets the destination increment parameter for the X loop for the specified * descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param dstXincrement * The value of the destination increment. The valid range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetXloopDstIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t dstXincrement) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_INCR_VALID(dstXincrement)); CY_REG32_CLR_SET(descriptor->xCtl, CY_DMA_CTL_DST_INCR, dstXincrement); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetXloopDstIncrement ****************************************************************************//** * * Returns the destination increment parameter for the X loop of the specified * descriptor (for 1D or 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The value of the destination increment. The range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetXloopDstIncrement(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_SINGLE_TRANSFER != Cy_DMA_Descriptor_GetDescriptorType(descriptor)); return ((int32_t) _FLD2VAL(CY_DMA_CTL_DST_INCR, descriptor->xCtl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetYloopDataCount ****************************************************************************//** * * Sets the number of data elements for the Y loop of the specified descriptor * (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param yCount * The number of X loops to execute in the Y loop. The valid range is 1 ... 256. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopDataCount(cy_stc_dma_descriptor_t * descriptor, uint32_t yCount) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_COUNT_VALID(yCount)); /* Convert the data count from the user's range (1-256) into the machine range (0-255). */ CY_REG32_CLR_SET(descriptor->yCtl, CY_DMA_CTL_COUNT, yCount - 1UL); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetYloopDataCount ****************************************************************************//** * * Returns the number of X loops to execute in the Y loop of the specified * descriptor (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The number of X loops to execute in the Y loop. The range is 1 ... 256. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Descriptor_GetYloopDataCount(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); /* Convert the data count from the machine range (0-255) into the user's range (1-256). */ return (_FLD2VAL(CY_DMA_CTL_COUNT, descriptor->yCtl) + 1UL); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetYloopSrcIncrement ****************************************************************************//** * * Sets the source increment parameter for the Y loop for the specified * descriptor (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param srcYincrement * The value of the source increment. The valid range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopSrcIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t srcYincrement) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_INCR_VALID(srcYincrement)); CY_REG32_CLR_SET(descriptor->yCtl, CY_DMA_CTL_SRC_INCR, srcYincrement); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetYloopSrcIncrement ****************************************************************************//** * * Returns the source increment parameter for the outer Y of the specified * descriptor (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The value of the source increment. The range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetYloopSrcIncrement(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); return ((int32_t) _FLD2VAL(CY_DMA_CTL_SRC_INCR, descriptor->yCtl)); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_SetYloopDstIncrement ****************************************************************************//** * * Sets the destination increment parameter for the Y loop of the specified * descriptor (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \param dstYincrement * The value of the destination increment. The valid range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_SetterFunctions * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descriptor_SetYloopDstIncrement(cy_stc_dma_descriptor_t * descriptor, int32_t dstYincrement) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); CY_ASSERT_L2(CY_DMA_IS_LOOP_INCR_VALID(dstYincrement)); CY_REG32_CLR_SET(descriptor->yCtl, CY_DMA_CTL_DST_INCR, dstYincrement); } /******************************************************************************* * Function Name: Cy_DMA_Descriptor_GetYloopDstIncrement ****************************************************************************//** * * Returns the destination increment parameter for the Y loop of the specified * descriptor (for 2D descriptors only). * * \param descriptor * The descriptor structure instance declared by the user/component. * * \return * The value of the destination increment. The range is -2048 ... 2047. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_GetterFunctions * *******************************************************************************/ __STATIC_INLINE int32_t Cy_DMA_Descriptor_GetYloopDstIncrement(cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_2D_TRANSFER == Cy_DMA_Descriptor_GetDescriptorType(descriptor)); return ((int32_t) _FLD2VAL(CY_DMA_CTL_DST_INCR, descriptor->yCtl)); } /** \} group_dma_descriptor_functions */ /** * \addtogroup group_dma_channel_functions * \{ */ /******************************************************************************* * Function Name: Cy_DMA_Channel_SetDescriptor ****************************************************************************//** * * Sets a descriptor as current for the specified DMA channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \param descriptor * This is the descriptor to be associated with the channel. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Enable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_SetDescriptor(DW_Type * base, uint32_t channel, cy_stc_dma_descriptor_t const * descriptor) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); DW_CH_CURR_PTR(base, channel) = (uint32_t)descriptor; DW_CH_IDX(base, channel) &= (uint32_t) ~(DW_CH_STRUCT_CH_IDX_X_IDX_Msk | DW_CH_STRUCT_CH_IDX_Y_IDX_Msk); } /******************************************************************************* * Function Name: Cy_DMA_Channel_Enable ****************************************************************************//** * * The function is used to enable a DMA channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Enable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_Enable(DW_Type * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); DW_CH_CTL(base, channel) |= DW_CH_STRUCT_CH_CTL_ENABLED_Msk; } /******************************************************************************* * Function Name: Cy_DMA_Channel_Disable ****************************************************************************//** * * The function is used to disable a DMA channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Disable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_Disable(DW_Type * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); DW_CH_CTL(base, channel) &= (uint32_t) ~DW_CH_STRUCT_CH_CTL_ENABLED_Msk; } /******************************************************************************* * Function Name: Cy_DMA_Channel_SetPriority ****************************************************************************//** * * The function is used to set a priority for the DMA channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \param priority * The priority to be set for the DMA channel. The allowed values are 0,1,2,3. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Enable * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_SetPriority(DW_Type * base, uint32_t channel, uint32_t priority) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); CY_ASSERT_L2(CY_DMA_IS_PRIORITY_VALID(priority)); CY_REG32_CLR_SET(DW_CH_CTL(base, channel), CY_DW_CH_CTL_PRIO, priority); } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetPriority ****************************************************************************//** * * Returns the priority of the DMA channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \return * The priority of the channel. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Disable * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Channel_GetPriority(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return ((uint32_t) _FLD2VAL(CY_DW_CH_CTL_PRIO, DW_CH_CTL(base, channel))); } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetCurrentDescriptor ****************************************************************************//** * * Returns the descriptor that is active in the channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \return * The pointer to the descriptor associated with the channel. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_Descriptor_Deinit * *******************************************************************************/ __STATIC_INLINE cy_stc_dma_descriptor_t * Cy_DMA_Channel_GetCurrentDescriptor(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return ((cy_stc_dma_descriptor_t*)(DW_CH_CURR_PTR(base, channel))); } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetInterruptStatus ****************************************************************************//** * * Returns the interrupt status of the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \return * The status of an interrupt for the specified channel. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_GetInterruptStatus * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptStatus(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return (DW_CH_INTR(base, channel)); } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetStatus ****************************************************************************//** * * Returns the interrupt reason of the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \return * The cause \ref cy_en_dma_intr_cause_t of the interrupt. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_ClearInterrupt * *******************************************************************************/ __STATIC_INLINE cy_en_dma_intr_cause_t Cy_DMA_Channel_GetStatus(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return ((cy_en_dma_intr_cause_t) _FLD2VAL(DW_CH_STRUCT_CH_STATUS_INTR_CAUSE, DW_CH_STATUS(base, channel))); } /******************************************************************************* * Function Name: Cy_DMA_Channel_ClearInterrupt ****************************************************************************//** * * Clears the interrupt status of the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_ClearInterrupt * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_ClearInterrupt(DW_Type * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); DW_CH_INTR(base, channel) = CY_DMA_INTR_MASK; (void) DW_CH_INTR(base, channel); } /******************************************************************************* * Function Name: Cy_DMA_Channel_SetInterrupt ****************************************************************************//** * * Sets the interrupt for the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_SetInterruptMask * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_SetInterrupt(DW_Type * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); DW_CH_INTR_SET(base, channel) = CY_DMA_INTR_MASK; } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetInterruptMask ****************************************************************************//** * * Returns the interrupt mask value of the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \return * The interrupt mask value. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_SetInterruptMask * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptMask(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return (DW_CH_INTR_MASK(base, channel)); } /******************************************************************************* * Function Name: Cy_DMA_Channel_SetInterruptMask ****************************************************************************//** * * Sets an interrupt mask value for the specified channel. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \param interrupt * The interrupt mask: * CY_DMA_INTR_MASK to enable the interrupt or 0UL to disable the interrupt. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_SetInterruptMask * *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Channel_SetInterruptMask(DW_Type * base, uint32_t channel, uint32_t interrupt) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); CY_ASSERT_L2(CY_DMA_IS_INTR_MASK_VALID(interrupt)); DW_CH_INTR_MASK(base, channel) = interrupt; } /******************************************************************************* * Function Name: Cy_DMA_Channel_GetInterruptStatusMasked ****************************************************************************//** * * Returns the logical AND of the corresponding INTR and INTR_MASK fields * in a single-load operation. * * \param base * The pointer to the hardware DMA block. * * \param channel * The channel number. * * \funcusage * \snippet dma/snippet/main.c snippet_Cy_DMA_ClearInterrupt * *******************************************************************************/ __STATIC_INLINE uint32_t Cy_DMA_Channel_GetInterruptStatusMasked(DW_Type const * base, uint32_t channel) { CY_ASSERT_L1(CY_DMA_IS_CH_NR_VALID(base, channel)); return (DW_CH_INTR_MASKED(base, channel)); } /** \} group_dma_channel_functions */ /** \} group_dma_functions */ /** \cond The definitions to support the backward compatibility, do not use them in new designs */ #if(0U != CY_DMA_BWC) /* Type definitions */ #define cy_stc_dma_chnl_config_t cy_stc_dma_channel_config_t #define cy_stc_dma_descr_t cy_stc_dma_descriptor_t #define cy_stc_dma_descr_config_t cy_stc_dma_descriptor_config_t #define cy_en_dma_trig_type_t cy_en_dma_trigger_type_t /* Structure items */ #define DMA_Descriptor descriptor #define deact retrigger #define intrType interruptType #define chStateAtCmplt channelState #define srcTxfrSize srcTransferSize #define destTxfrSize dstTransferSize #define trigoutType triggerOutType #define triginType triggerInType #define descrType descriptorType #define srcAddr srcAddress #define destAddr dstAddress #define srcXincr srcXincrement #define srcYincr srcYincrement #define destXincr dstXincrement #define destYincr dstYincrement #define descrNext nextDescriptor /* Constants */ #define CY_DMA_CH_DISABLED (CY_DMA_CHANNEL_DISABLED) #define CY_DMA_CH_ENABLED (CY_DMA_CHANNEL_ENABLED) #define CY_DMA_TXFR_SIZE_DATA_SIZE (CY_DMA_TRANSFER_SIZE_DATA) #define CY_DMA_TXFR_SIZE_WORD (CY_DMA_TRANSFER_SIZE_WORD) #define CY_DMA_INTR_1ELEMENT_CMPLT (CY_DMA_1ELEMENT) #define CY_DMA_INTR_X_LOOP_CMPLT (CY_DMA_X_LOOP) #define CY_DMA_INTR_DESCR_CMPLT (CY_DMA_DESCR) #define CY_DMA_INTR_DESCRCHAIN_CMPLT (CY_DMA_DESCR_CHAIN) #define CY_DMA_TRIGOUT_1ELEMENT_CMPLT (CY_DMA_1ELEMENT) #define CY_DMA_TRIGOUT_X_LOOP_CMPLT (CY_DMA_X_LOOP) #define CY_DMA_TRIGOUT_DESCR_CMPLT (CY_DMA_DESCR) #define CY_DMA_TRIGOUT_DESCRCHAIN_CMPLT (CY_DMA_DESCR_CHAIN) #define CY_DMA_TRIGIN_1ELEMENT (CY_DMA_1ELEMENT) #define CY_DMA_TRIGIN_XLOOP (CY_DMA_X_LOOP) #define CY_DMA_TRIGIN_DESCR (CY_DMA_DESCR) #define CY_DMA_TRIGIN_DESCRCHAIN (CY_DMA_DESCR_CHAIN) #define CY_DMA_INVALID_INPUT_PARAMETERS (CY_DMA_BAD_PARAM) #define CY_DMA_RETDIG_IM (CY_DMA_RETRIG_IM) #define CY_DMA_RETDIG_4CYC (CY_DMA_RETRIG_4CYC) #define CY_DMA_RETDIG_16CYC (CY_DMA_RETRIG_16CYC) /* Descriptor structure items */ #define DESCR_CTL ctl #define DESCR_SRC src #define DESCR_DST dst #define DESCR_X_CTL xCtl #define DESCR_Y_CTL yCtl #define DESCR_NEXT_PTR nextPtr /* Descriptor structure bitfields */ #define DW_DESCR_STRUCT_DESCR_CTL_WAIT_FOR_DEACT_Pos 0UL #define DW_DESCR_STRUCT_DESCR_CTL_WAIT_FOR_DEACT_Msk 0x3UL #define DW_DESCR_STRUCT_DESCR_CTL_INTR_TYPE_Pos 2UL #define DW_DESCR_STRUCT_DESCR_CTL_INTR_TYPE_Msk 0xCUL #define DW_DESCR_STRUCT_DESCR_CTL_TR_OUT_TYPE_Pos 4UL #define DW_DESCR_STRUCT_DESCR_CTL_TR_OUT_TYPE_Msk 0x30UL #define DW_DESCR_STRUCT_DESCR_CTL_TR_IN_TYPE_Pos 6UL #define DW_DESCR_STRUCT_DESCR_CTL_TR_IN_TYPE_Msk 0xC0UL #define DW_DESCR_STRUCT_DESCR_CTL_CH_DISABLE_Pos 24UL #define DW_DESCR_STRUCT_DESCR_CTL_CH_DISABLE_Msk 0x1000000UL #define DW_DESCR_STRUCT_DESCR_CTL_SRC_TRANSFER_SIZE_Pos 26UL #define DW_DESCR_STRUCT_DESCR_CTL_SRC_TRANSFER_SIZE_Msk 0x4000000UL #define DW_DESCR_STRUCT_DESCR_CTL_DST_TRANSFER_SIZE_Pos 27UL #define DW_DESCR_STRUCT_DESCR_CTL_DST_TRANSFER_SIZE_Msk 0x8000000UL #define DW_DESCR_STRUCT_DESCR_CTL_DATA_SIZE_Pos 28UL #define DW_DESCR_STRUCT_DESCR_CTL_DATA_SIZE_Msk 0x30000000UL #define DW_DESCR_STRUCT_DESCR_CTL_DESCR_TYPE_Pos 30UL #define DW_DESCR_STRUCT_DESCR_CTL_DESCR_TYPE_Msk 0xC0000000UL #define DW_DESCR_STRUCT_DESCR_SRC_SRC_ADDR_Pos 0UL #define DW_DESCR_STRUCT_DESCR_SRC_SRC_ADDR_Msk 0xFFFFFFFFUL #define DW_DESCR_STRUCT_DESCR_DST_DST_ADDR_Pos 0UL #define DW_DESCR_STRUCT_DESCR_DST_DST_ADDR_Msk 0xFFFFFFFFUL #define DW_DESCR_STRUCT_DESCR_X_CTL_SRC_X_INCR_Pos 0UL #define DW_DESCR_STRUCT_DESCR_X_CTL_SRC_X_INCR_Msk 0xFFFUL #define DW_DESCR_STRUCT_DESCR_X_CTL_DST_X_INCR_Pos 12UL #define DW_DESCR_STRUCT_DESCR_X_CTL_DST_X_INCR_Msk 0xFFF000UL #define DW_DESCR_STRUCT_DESCR_X_CTL_X_COUNT_Pos 24UL #define DW_DESCR_STRUCT_DESCR_X_CTL_X_COUNT_Msk 0xFF000000UL #define DW_DESCR_STRUCT_DESCR_Y_CTL_SRC_Y_INCR_Pos 0UL #define DW_DESCR_STRUCT_DESCR_Y_CTL_SRC_Y_INCR_Msk 0xFFFUL #define DW_DESCR_STRUCT_DESCR_Y_CTL_DST_Y_INCR_Pos 12UL #define DW_DESCR_STRUCT_DESCR_Y_CTL_DST_Y_INCR_Msk 0xFFF000UL #define DW_DESCR_STRUCT_DESCR_Y_CTL_Y_COUNT_Pos 24UL #define DW_DESCR_STRUCT_DESCR_Y_CTL_Y_COUNT_Msk 0xFF000000UL #define DW_DESCR_STRUCT_DESCR_NEXT_PTR_ADDR_Pos 2UL #define DW_DESCR_STRUCT_DESCR_NEXT_PTR_ADDR_Msk 0xFFFFFFFCUL /* Functions */ #define Cy_DMA_GetActiveChnl Cy_DMA_GetActiveChannel #define Cy_DMA_GetActiveSrcAddr Cy_DMA_GetActiveSrcAddress #define Cy_DMA_GetActiveDstAddr Cy_DMA_GetActiveDstAddress #define Cy_DMA_Descr_Init Cy_DMA_Descriptor_Init #define Cy_DMA_Descr_DeInit Cy_DMA_Descriptor_DeInit #define Cy_DMA_Descr_SetSrcAddr Cy_DMA_Descriptor_SetSrcAddress #define Cy_DMA_Descr_SetDestAddr Cy_DMA_Descriptor_SetDstAddress #define Cy_DMA_Descr_SetNxtDescr Cy_DMA_Descriptor_SetNextDescriptor #define Cy_DMA_Descr_SetIntrType Cy_DMA_Descriptor_SetInterruptType #define Cy_DMA_Descr_SetTrigInType Cy_DMA_Descriptor_SetTriggerInType #define Cy_DMA_Descr_SetTrigOutType Cy_DMA_Descriptor_SetTriggerOutType #define Cy_DMA_Chnl_Init Cy_DMA_Channel_Init #define Cy_DMA_Chnl_DeInit Cy_DMA_Channel_DeInit #define Cy_DMA_Chnl_SetDescr Cy_DMA_Channel_SetDescriptor #define Cy_DMA_Chnl_Enable Cy_DMA_Channel_Enable #define Cy_DMA_Chnl_Disable Cy_DMA_Channel_Disable #define Cy_DMA_Chnl_GetCurrentDescr Cy_DMA_Channel_GetCurrentDescriptor #define Cy_DMA_Chnl_SetPriority Cy_DMA_Channel_SetPriority #define Cy_DMA_Chnl_GetPriority Cy_DMA_Channel_GetPriority #define Cy_DMA_Chnl_GetInterruptStatus Cy_DMA_Channel_GetInterruptStatus #define Cy_DMA_Chnl_GetInterruptCause Cy_DMA_Channel_GetStatus #define Cy_DMA_Chnl_ClearInterrupt Cy_DMA_Channel_ClearInterrupt #define Cy_DMA_Chnl_SetInterrupt Cy_DMA_Channel_SetInterrupt #define Cy_DMA_Chnl_GetInterruptMask Cy_DMA_Channel_GetInterruptMask #define Cy_DMA_Chnl_GetInterruptStatusMasked Cy_DMA_Channel_GetInterruptStatusMasked #define Cy_DMA_Chnl_SetInterruptMask(base, channel) (Cy_DMA_Channel_SetInterruptMask(base, channel, CY_DMA_INTR_MASK)) /******************************************************************************* * Function Name: Cy_DMA_Descr_SetTxfrWidth ****************************************************************************//** * This is a legacy API function. It is left here just for backward compatibility. * Do not use it in new designs. *******************************************************************************/ __STATIC_INLINE void Cy_DMA_Descr_SetTxfrWidth(cy_stc_dma_descr_t * descriptor, uint32_t dataElementSize, uint32_t srcTxfrWidth, uint32_t dstTxfrWidth) { uint32_t regValue; regValue = descriptor->ctl & ((uint32_t)(~(DW_DESCR_STRUCT_DESCR_CTL_DATA_SIZE_Msk | DW_DESCR_STRUCT_DESCR_CTL_SRC_TRANSFER_SIZE_Msk | DW_DESCR_STRUCT_DESCR_CTL_DST_TRANSFER_SIZE_Msk))); descriptor->ctl = regValue | _VAL2FLD(DW_DESCR_STRUCT_DESCR_CTL_DATA_SIZE, dataElementSize) | _VAL2FLD(DW_DESCR_STRUCT_DESCR_CTL_SRC_TRANSFER_SIZE, srcTxfrWidth) | _VAL2FLD(DW_DESCR_STRUCT_DESCR_CTL_DST_TRANSFER_SIZE, dstTxfrWidth); } #endif /* CY_DMA_BWC */ /** \endcond */ CY_MISRA_BLOCK_END('MISRA C-2012 Rule 10.8'); #if defined(__cplusplus) } #endif #endif /* CY_IP_M4CPUSS_DMA, CY_IP_MXDW */ #endif /* (CY_DMA_H) */ /** \} group_dma */ /* [] END OF FILE */