/** * @file * * @brief Public APIs for the DMA drivers. */ /* * Copyright (c) 2016 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #ifndef _DMA_H_ #define _DMA_H_ #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief DMA Interface * @defgroup DMA_interface DMA Interface * @ingroup io_interfaces * @{ */ enum dma_channel_direction { MEMORY_TO_MEMORY = 0x0, MEMORY_TO_PERIPHERAL, PERIPHERAL_TO_MEMORY }; /** * @brief DMA block configuration structure. * * source_address is block starting address at source * source_gather_interval is the address adjustment at gather boundary * dest_address is block starting address at destination * dest_scatter_interval is the address adjustment at scatter boundary * dest_scatter_count is the continuous transfer count between scatter * boundaries * source_gather_count is the continuous transfer count between gather * boundaries * block_size is the number of bytes to be transferred for this block. * * config is a bit field with the following parts: * source_gather_en [ 0 ] - 0-disable, 1-enable * dest_scatter_en [ 1 ] - 0-disable, 1-enable * source_addr_adj [ 2 : 3 ] - 00-increment, 01-decrement, * 10-no change * dest_addr_adj [ 4 : 5 ] - 00-increment, 01-decrement, * 10-no change * source_reload_en [ 6 ] - reload source address at the end of * block transfer * 0-disable, 1-enable * dest_reload_en [ 7 ] - reload destination address at the end * of block transfer * 0-disable, 1-enable * fifo_mode_control [ 8 : 11 ] - How full of the fifo before transfer * start. HW specific. * flow_control_mode [ 12 ] - 0-source request served upon data * availability * 1-source request postponed until * destination request happens * reserved [ 13 : 15 ] */ struct dma_block_config { u32_t source_address; u32_t source_gather_interval; u32_t dest_address; u32_t dest_scatter_interval; u16_t dest_scatter_count; u16_t source_gather_count; u32_t block_size; struct dma_block_config *next_block; u16_t source_gather_en : 1; u16_t dest_scatter_en : 1; u16_t source_addr_adj : 2; u16_t dest_addr_adj : 2; u16_t source_reload_en : 1; u16_t dest_reload_en : 1; u16_t fifo_mode_control : 4; u16_t flow_control_mode : 1; u16_t reserved : 3; }; /** * @brief DMA configuration structure. * * dma_slot [ 0 : 5 ] - which peripheral and direction * (HW specific) * channel_direction [ 6 : 8 ] - 000-memory to memory, 001-memory to * peripheral, 010-peripheral to memory, * ... * complete_callback_en [ 9 ] - 0-callback invoked at completion only * 1-callback invoked at completion of * each block * error_callback_en [ 10 ] - 0-error callback enabled * 1-error callback disabled * source_handshake [ 11 ] - 0-HW, 1-SW * dest_handshake [ 12 ] - 0-HW, 1-SW * channel_priority [ 13 : 16 ] - DMA channel priority * source_chaining_en [ 17 ] - enable/disable source block chaining * 0-disable, 1-enable * dest_chaining_en [ 18 ] - enable/disable destination block * chaining. * 0-disable, 1-enable * reserved [ 19 : 31 ] * * source_data_size [ 0 : 15 ] - width of source data (in bytes) * dest_data_size [ 16 : 31 ] - width of dest data (in bytes) * source_burst_length [ 0 : 15 ] - number of source data units * dest_burst_length [ 16 : 31 ] - number of destination data units * * block_count is the number of blocks used for block chaining, this * depends on availability of the DMA controller. * * dma_callback is the callback function pointer. If enabled, callback function * will be invoked at transfer completion or when error happens * (error_code: zero-transfer success, non zero-error happens). */ struct dma_config { u32_t dma_slot : 6; u32_t channel_direction : 3; u32_t complete_callback_en : 1; u32_t error_callback_en : 1; u32_t source_handshake : 1; u32_t dest_handshake : 1; u32_t channel_priority : 4; u32_t source_chaining_en : 1; u32_t dest_chaining_en : 1; u32_t reserved : 13; u32_t source_data_size : 16; u32_t dest_data_size : 16; u32_t source_burst_length : 16; u32_t dest_burst_length : 16; u32_t block_count; struct dma_block_config *head_block; void (*dma_callback)(struct device *dev, u32_t channel, int error_code); }; /** * @cond INTERNAL_HIDDEN * * These are for internal use only, so skip these in * public documentation. */ typedef int (*dma_api_config)(struct device *dev, u32_t channel, struct dma_config *config); typedef int (*dma_api_start)(struct device *dev, u32_t channel); typedef int (*dma_api_stop)(struct device *dev, u32_t channel); struct dma_driver_api { dma_api_config config; dma_api_start start; dma_api_stop stop; }; /** * @endcond */ /** * @brief Configure individual channel for DMA transfer. * * @param dev Pointer to the device structure for the driver instance. * @param channel Numeric identification of the channel to configure * @param config Data structure containing the intended configuration for the * selected channel * * @retval 0 if successful. * @retval Negative errno code if failure. */ static inline int dma_config(struct device *dev, u32_t channel, struct dma_config *config) { const struct dma_driver_api *api = dev->driver_api; return api->config(dev, channel, config); } /** * @brief Enables DMA channel and starts the transfer, the channel must be * configured beforehand. * * @param dev Pointer to the device structure for the driver instance. * @param channel Numeric identification of the channel where the transfer will * be processed * * @retval 0 if successful. * @retval Negative errno code if failure. */ static inline int dma_start(struct device *dev, u32_t channel) { const struct dma_driver_api *api = dev->driver_api; return api->start(dev, channel); } /** * @brief Stops the DMA transfer and disables the channel. * * @param dev Pointer to the device structure for the driver instance. * @param channel Numeric identification of the channel where the transfer was * being processed * * @retval 0 if successful. * @retval Negative errno code if failure. */ static inline int dma_stop(struct device *dev, u32_t channel) { const struct dma_driver_api *api = dev->driver_api; return api->stop(dev, channel); } /** * @brief Look-up generic width index to be used in registers * * WARNING: This look-up works for most controllers, but *may* not work for * yours. Ensure your controller expects the most common register * bit values before using this convenience function. If your * controller does not support these values, you will have to write * your own look-up inside the controller driver. * * @param size: width of bus (in bytes) * * @retval common DMA index to be placed into registers. */ static inline u32_t dma_width_index(u32_t size) { /* Check boundaries (max supported width is 32 Bytes) */ if (size < 1 || size > 32) { return 0; /* Zero is the default (8 Bytes) */ } /* Ensure size is a power of 2 */ if (!is_power_of_two(size)) { return 0; /* Zero is the default (8 Bytes) */ } /* Convert to bit pattern for writing to a register */ return find_msb_set(size); } /** * @brief Look-up generic burst index to be used in registers * * WARNING: This look-up works for most controllers, but *may* not work for * yours. Ensure your controller expects the most common register * bit values before using this convenience function. If your * controller does not support these values, you will have to write * your own look-up inside the controller driver. * * @param burst: number of bytes to be sent in a single burst * * @retval common DMA index to be placed into registers. */ static inline u32_t dma_burst_index(u32_t burst) { /* Check boundaries (max supported burst length is 256) */ if (burst < 1 || burst > 256) { return 0; /* Zero is the default (1 burst length) */ } /* Ensure burst is a power of 2 */ if (!(burst & (burst - 1))) { return 0; /* Zero is the default (1 burst length) */ } /* Convert to bit pattern for writing to a register */ return find_msb_set(burst); } /** * @} */ #ifdef __cplusplus } #endif #endif /* _DMA_H_ */