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zephyr/include/dma.h
Jun Li 74e320d859 api: dma: add api to retrieve runtime status 
Some applications using DMA, such as UART RX, could
need to complete the current DMA transaction earlier than
predefined, based on other termination conditions,
like UART's IDLE interrupts.

In that case, the client needs to know how many data are
still left in DMA transfer buffer so that it can figure
out how many data has been transfered. However, the current
DMA API doesn't provide any information for the client
to learn the transfer buffer information.

And some other information, like whether DMA transfer is busy
or not, transfer direction, etc, could interest a client.

So, added a dma API function to retrieve the current DMA
runtime status.

And implemented the API for STM32F4's DMA while keeping
others unimplemented.

Signed-off-by: Jun Li <jun.r.li@intel.com>
2019-05-07 22:14:36 -04:00

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/**
* @file
*
* @brief Public APIs for the DMA drivers.
*/
/*
* Copyright (c) 2016 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef ZEPHYR_INCLUDE_DMA_H_
#define ZEPHYR_INCLUDE_DMA_H_
#include <kernel.h>
#include <device.h>
#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
};
/** Valid values for @a source_addr_adj and @a dest_addr_adj */
enum dma_addr_adj {
DMA_ADDR_ADJ_INCREMENT,
DMA_ADDR_ADJ_DECREMENT,
DMA_ADDR_ADJ_NO_CHANGE,
};
/**
* @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.
*
* callback_arg private argument from DMA client.
*
* 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 *callback_arg;
void (*dma_callback)(void *callback_arg, u32_t channel,
int error_code);
};
/**
* DMA runtime status structure
*
* busy - is current DMA transfer busy or idle
* dir - DMA transfer direction
* pending_length - data length pending to be transferred in bytes
* or platform dependent.
*
*/
struct dma_status {
bool busy;
enum dma_channel_direction dir;
u32_t pending_length;
};
/**
* @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_reload)(struct device *dev, u32_t channel,
u32_t src, u32_t dst, size_t size);
typedef int (*dma_api_start)(struct device *dev, u32_t channel);
typedef int (*dma_api_stop)(struct device *dev, u32_t channel);
typedef int (*dma_api_get_status)(struct device *dev, u32_t channel,
struct dma_status *status);
struct dma_driver_api {
dma_api_config config;
dma_api_reload reload;
dma_api_start start;
dma_api_stop stop;
dma_api_get_status get_status;
};
/**
* @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 =
(const struct dma_driver_api *)dev->driver_api;
return api->config(dev, channel, config);
}
/**
* @brief Reload buffer(s) for a DMA channel
*
* @param dev Pointer to the device structure for the driver instance.
* @param channel Numeric identification of the channel to configure
* selected channel
* @param src source address for the DMA transfer
* @param dst destination address for the DMA transfer
* @param size size of DMA transfer
*
* @retval 0 if successful.
* @retval Negative errno code if failure.
*/
static inline int dma_reload(struct device *dev, u32_t channel,
u32_t src, u32_t dst, size_t size)
{
const struct dma_driver_api *api =
(const struct dma_driver_api *)dev->driver_api;
if (api->reload) {
return api->reload(dev, channel, src, dst, size);
}
return -ENOSYS;
}
/**
* @brief Enables DMA channel and starts the transfer, the channel must be
* configured beforehand.
*
* Implementations must check the validity of the channel ID passed in and
* return -EINVAL if it is invalid.
*
* @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.
*/
__syscall int dma_start(struct device *dev, u32_t channel);
static inline int z_impl_dma_start(struct device *dev, u32_t channel)
{
const struct dma_driver_api *api =
(const struct dma_driver_api *)dev->driver_api;
return api->start(dev, channel);
}
/**
* @brief Stops the DMA transfer and disables the channel.
*
* Implementations must check the validity of the channel ID passed in and
* return -EINVAL if it is invalid.
*
* @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.
*/
__syscall int dma_stop(struct device *dev, u32_t channel);
static inline int z_impl_dma_stop(struct device *dev, u32_t channel)
{
const struct dma_driver_api *api =
(const struct dma_driver_api *)dev->driver_api;
return api->stop(dev, channel);
}
/**
* @brief get current runtime status of DMA transfer
*
* Implementations must check the validity of the channel ID passed in and
* return -EINVAL if it is invalid or -ENOSYS if not supported.
*
* @param dev Pointer to the device structure for the driver instance.
* @param channel Numeric identification of the channel where the transfer was
* being processed
* @param stat a non-NULL dma_status object for storing DMA status
*
* @retval non-negative if successful.
* @retval Negative errno code if failure.
*/
static inline int dma_get_status(struct device *dev, u32_t channel,
struct dma_status *stat)
{
const struct dma_driver_api *api =
(const struct dma_driver_api *)dev->driver_api;
if (api->get_status) {
return api->get_status(dev, channel, stat);
}
return -ENOSYS;
}
/**
* @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
#include <syscalls/dma.h>
#endif /* ZEPHYR_INCLUDE_DMA_H_ */
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