Direct Memory Access (DMA)
Overview
Direct Memory Access (Controller) is a commonly provided type of co-processor that can typically offload transferring data to and from peripherals and memory.
The DMA API is not a portable API and really cannot be as each DMA has unique memory requirements, peripheral interactions, and features. The API in effect provides a union of all useful DMA functionality drivers have needed in the tree. It can still be a good abstraction, with care, for peripheral devices for vendors where the DMA IP might be very similar but have slight variances.
Driver Implementation Expectations
Synchronization and Ownership
From an API point of view, a DMA channel is a single-owner object, meaning the drivers should not attempt to wrap a channel with kernel synchronization primitives such as mutexes or semaphores. If DMA channels require mutating shared registers, those register updates should be wrapped in a spin lock.
This enables the entire API to be low-cost and callable from any call context, including ISRs where it may be very useful to start/stop/suspend/resume/reload a channel transfer.
Transfer Descriptor Memory Management
Drivers should not attempt to use heap allocations of any kind. If object pools are needed for transfer descriptors then those should be setup in a way that does not break the promise of ISR-allowable calls. Many drivers choose to create a simple static descriptor array per channel with the size of the descriptor array adjustable using Kconfig.
Channel State Machine Expectations
DMA channels should be viewed as state machines that the DMA API provides transition events for in
the form of API calls. Every driver is expected to maintain its own channel state tracking. The busy
state of the channel should be inspectable at any time with dma_get_status()
.
A diagram showing those expectated possible state transitions and their API calls is provided here for reference.
API Reference
- group dma_interface
DMA Interface.
- Since
1.5
- Version
1.0.0
Defines
-
DMA_STATUS_COMPLETE
The DMA callback event has occurred at the completion of a transfer list.
-
DMA_STATUS_BLOCK
The DMA callback has occurred at the completion of a single transfer block in a transfer list.
-
DMA_MAGIC
Magic code to identify context content.
-
DMA_BUF_ADDR_ALIGNMENT(node)
Get the device tree property describing the buffer address alignment.
Useful when statically defining or allocating buffers for DMA usage where memory alignment often matters.
- Parameters:
node – Node identifier, e.g. DT_NODELABEL(dma_0)
- Returns:
alignment Memory byte alignment required for DMA buffers
-
DMA_BUF_SIZE_ALIGNMENT(node)
Get the device tree property describing the buffer size alignment.
Useful when statically defining or allocating buffers for DMA usage where memory alignment often matters.
- Parameters:
node – Node identifier, e.g. DT_NODELABEL(dma_0)
- Returns:
alignment Memory byte alignment required for DMA buffers
-
DMA_COPY_ALIGNMENT(node)
Get the device tree property describing the minimal chunk of data possible to be copied.
- Parameters:
node – Node identifier, e.g. DT_NODELABEL(dma_0)
- Returns:
minimal Minimal chunk of data possible to be copied
Typedefs
-
typedef void (*dma_callback_t)(const struct device *dev, void *user_data, uint32_t channel, int status)
Callback function for DMA transfer completion.
If enabled, callback function will be invoked at transfer or block completion, or when an error happens. In circular mode,
status
indicates that the DMA device has reached either the end of the buffer (DMA_STATUS_COMPLETE) or a water mark (DMA_STATUS_BLOCK).- Param dev:
Pointer to the DMA device calling the callback.
- Param user_data:
A pointer to some user data or NULL
- Param channel:
The channel number
- Param status:
Status of the transfer
DMA_STATUS_COMPLETE buffer fully consumed
DMA_STATUS_BLOCK buffer consumption reached a configured block or water mark
A negative errno otherwise
Enums
-
enum dma_channel_direction
DMA channel direction.
Values:
-
enumerator MEMORY_TO_MEMORY = 0x0
Memory to memory.
-
enumerator MEMORY_TO_PERIPHERAL
Memory to peripheral.
-
enumerator PERIPHERAL_TO_MEMORY
Peripheral to memory.
-
enumerator PERIPHERAL_TO_PERIPHERAL
Peripheral to peripheral.
-
enumerator HOST_TO_MEMORY
Host to memory.
-
enumerator MEMORY_TO_HOST
Memory to host.
-
enumerator DMA_CHANNEL_DIRECTION_COMMON_COUNT
Number of all common channel directions.
-
enumerator DMA_CHANNEL_DIRECTION_PRIV_START = DMA_CHANNEL_DIRECTION_COMMON_COUNT
This and higher values are dma controller or soc specific.
Refer to the specified dma driver header file.
-
enumerator DMA_CHANNEL_DIRECTION_MAX = 0x7
Maximum allowed value (3 bit field!)
-
enumerator MEMORY_TO_MEMORY = 0x0
-
enum dma_addr_adj
DMA address adjustment.
Valid values for source_addr_adj and dest_addr_adj
Values:
-
enumerator DMA_ADDR_ADJ_INCREMENT
Increment the address.
-
enumerator DMA_ADDR_ADJ_DECREMENT
Decrement the address.
-
enumerator DMA_ADDR_ADJ_NO_CHANGE
No change the address.
-
enumerator DMA_ADDR_ADJ_INCREMENT
Functions
-
static inline int dma_config(const struct device *dev, uint32_t channel, struct dma_config *config)
Configure individual channel for DMA transfer.
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel to configure
config – Data structure containing the intended configuration for the selected channel
- Return values:
0 – if successful.
Negative – errno code if failure.
-
static inline int dma_reload(const struct device *dev, uint32_t channel, uint32_t src, uint32_t dst, size_t size)
Reload buffer(s) for a DMA channel.
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel to configure selected channel
src – source address for the DMA transfer
dst – destination address for the DMA transfer
size – size of DMA transfer
- Return values:
0 – if successful.
Negative – errno code if failure.
-
int dma_start(const struct device *dev, uint32_t channel)
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.
Start is allowed on channels that have already been started and must report success.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel where the transfer will be processed
- Return values:
0 – if successful.
Negative – errno code if failure.
-
int dma_stop(const struct device *dev, uint32_t channel)
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.
Stop is allowed on channels that have already been stopped and must report success.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel where the transfer was being processed
- Return values:
0 – if successful.
Negative – errno code if failure.
-
int dma_suspend(const struct device *dev, uint32_t channel)
Suspend a DMA channel transfer.
Implementations must check the validity of the channel state and ID passed in and return -EINVAL if either are invalid.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel to suspend
- Return values:
0 – If successful.
-ENOSYS – If not implemented.
-EINVAL – If invalid channel id or state.
-errno – Other negative errno code failure.
-
int dma_resume(const struct device *dev, uint32_t channel)
Resume a DMA channel transfer.
Implementations must check the validity of the channel state and ID passed in and return -EINVAL if either are invalid.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel to resume
- Return values:
0 – If successful.
-ENOSYS – If not implemented
-EINVAL – If invalid channel id or state.
-errno – Other negative errno code failure.
-
int dma_request_channel(const struct device *dev, void *filter_param)
request DMA channel.
request DMA channel resources return -EINVAL if there is no valid channel available.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
filter_param – filter function parameter
- Return values:
dma – channel if successful.
Negative – errno code if failure.
-
void dma_release_channel(const struct device *dev, uint32_t channel)
release DMA channel.
release DMA channel resources
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – channel number
-
int dma_chan_filter(const struct device *dev, int channel, void *filter_param)
DMA channel filter.
filter channel by attribute
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – channel number
filter_param – filter attribute
- Return values:
Negative – errno code if not support
-
static inline int dma_get_status(const struct device *dev, uint32_t channel, struct dma_status *stat)
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.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
channel – Numeric identification of the channel where the transfer was being processed
stat – a non-NULL dma_status object for storing DMA status
- Return values:
non-negative – if successful.
Negative – errno code if failure.
-
static inline int dma_get_attribute(const struct device *dev, uint32_t type, uint32_t *value)
get attribute of a dma controller
This function allows to get a device specific static or runtime attribute like required address and size alignment of a buffer. Implementations must check the validity of the type passed in and return -EINVAL if it is invalid or -ENOSYS if not supported.
- Function properties (list may not be complete)
- Parameters:
dev – Pointer to the device structure for the driver instance.
type – Numeric identification of the attribute
value – A non-NULL pointer to the variable where the read value is to be placed
- Return values:
non-negative – if successful.
Negative – errno code if failure.
-
static inline uint32_t dma_width_index(uint32_t size)
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.
- Parameters:
size – width of bus (in bytes)
- Return values:
common – DMA index to be placed into registers.
-
static inline uint32_t dma_burst_index(uint32_t burst)
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.
- Parameters:
burst – number of bytes to be sent in a single burst
- Return values:
common – DMA index to be placed into registers.
-
struct dma_block_config
- #include <dma.h>
DMA block configuration structure.
Aside from source address, destination address, and block size many of these options are hardware and driver dependent.
Public Members
-
uint32_t source_address
block starting address at source
-
uint32_t dest_address
block starting address at destination
-
uint32_t source_gather_interval
Address adjustment at gather boundary.
-
uint32_t dest_scatter_interval
Address adjustment at scatter boundary.
-
uint16_t dest_scatter_count
Continuous transfer count between scatter boundaries.
-
uint16_t source_gather_count
Continuous transfer count between gather boundaries.
-
uint32_t block_size
Number of bytes to be transferred for this block.
-
struct dma_block_config *next_block
Pointer to next block in a transfer list.
-
uint16_t source_gather_en
Enable source gathering when set to 1.
-
uint16_t dest_scatter_en
Enable destination scattering when set to 1.
-
uint16_t source_addr_adj
Source address adjustment option.
0b00 increment
0b01 decrement
0b10 no change
-
uint16_t dest_addr_adj
Destination address adjustment.
0b00 increment
0b01 decrement
0b10 no change
-
uint16_t source_reload_en
Reload source address at the end of block transfer.
-
uint16_t dest_reload_en
Reload destination address at the end of block transfer.
-
uint16_t fifo_mode_control
FIFO fill before starting transfer, HW specific meaning.
-
uint16_t flow_control_mode
Transfer flow control mode.
0b0 source request service upon data availability
0b1 source request postponed until destination request happens
-
uint32_t source_address
-
struct dma_config
- #include <dma.h>
DMA configuration structure.
Public Members
-
uint32_t dma_slot
Which peripheral and direction, HW specific.
-
uint32_t channel_direction
Direction the transfers are occurring.
0b000 memory to memory,
0b001 memory to peripheral,
0b010 peripheral to memory,
0b011 peripheral to peripheral,
0b100 host to memory
0b101 memory to host
others hardware specific
-
uint32_t complete_callback_en
Completion callback enable.
0b0 callback invoked at transfer list completion only
0b1 callback invoked at completion of each block
-
uint32_t error_callback_dis
Error callback disable.
0b0 error callback enabled
0b1 error callback disabled
-
uint32_t source_handshake
Source handshake, HW specific.
0b0 HW
0b1 SW
-
uint32_t dest_handshake
Destination handshake, HW specific.
0b0 HW
0b1 SW
-
uint32_t channel_priority
Channel priority for arbitration, HW specific.
-
uint32_t source_chaining_en
Source chaining enable, HW specific.
-
uint32_t dest_chaining_en
Destination chaining enable, HW specific.
-
uint32_t linked_channel
Linked channel, HW specific.
-
uint32_t cyclic
Cyclic transfer list, HW specific.
-
uint32_t source_data_size
Width of source data (in bytes)
-
uint32_t dest_data_size
Width of destination data (in bytes)
-
uint32_t source_burst_length
Source burst length in bytes.
-
uint32_t dest_burst_length
Destination burst length in bytes.
-
uint32_t block_count
Number of blocks in transfer list.
-
struct dma_block_config *head_block
Pointer to the first block in the transfer list.
-
void *user_data
Optional attached user data for callbacks.
-
dma_callback_t dma_callback
Optional callback for completion and error events.
-
uint32_t dma_slot
-
struct dma_status
- #include <dma.h>
DMA runtime status structure.
Public Members
-
bool busy
Is the current DMA transfer busy or idle.
-
enum dma_channel_direction dir
Direction fo the transfer.
-
uint32_t pending_length
Pending length to be transferred in bytes, HW specific.
-
uint32_t free
Available buffers space, HW specific.
-
uint32_t write_position
Write position in circular DMA buffer, HW specific.
-
uint32_t read_position
Read position in circular DMA buffer, HW specific.
-
uint64_t total_copied
Total copied, HW specific.
-
bool busy
-
struct dma_context
- #include <dma.h>
DMA context structure Note: the dma_context shall be the first member of DMA client driver Data, got by dev->data.