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/*****************************************************************************
* Copyright 2004 - 2008 Broadcom Corporation. All rights reserved.
*
* Unless you and Broadcom execute a separate written software license
* agreement governing use of this software, this software is licensed to you
* under the terms of the GNU General Public License version 2, available at
* http://www.broadcom.com/licenses/GPLv2.php (the "GPL").
*
* Notwithstanding the above, under no circumstances may you combine this
* software in any way with any other Broadcom software provided under a
* license other than the GPL, without Broadcom's express prior written
* consent.
*****************************************************************************/
/****************************************************************************/
/**
* @file dma.h
*
* @brief API definitions for the linux DMA interface.
*/
/****************************************************************************/
#if !defined(ASM_ARM_ARCH_BCMRING_DMA_H)
#define ASM_ARM_ARCH_BCMRING_DMA_H
/* ---- Include Files ---------------------------------------------------- */
#include <linux/kernel.h>
#include <linux/wait.h>
#include <linux/semaphore.h>
#include <csp/dmacHw.h>
#include <mach/timer.h>
#include <linux/scatterlist.h>
#include <linux/dma-mapping.h>
#include <linux/mm.h>
#include <linux/vmalloc.h>
#include <linux/pagemap.h>
/* ---- Constants and Types ---------------------------------------------- */
/* If DMA_DEBUG_TRACK_RESERVATION is set to a non-zero value, then the filename */
/* and line number of the reservation request will be recorded in the channel table */
#define DMA_DEBUG_TRACK_RESERVATION 1
#define DMA_NUM_CONTROLLERS 2
#define DMA_NUM_CHANNELS 8 /* per controller */
typedef enum {
DMA_DEVICE_MEM_TO_MEM, /* For memory to memory transfers */
DMA_DEVICE_I2S0_DEV_TO_MEM,
DMA_DEVICE_I2S0_MEM_TO_DEV,
DMA_DEVICE_I2S1_DEV_TO_MEM,
DMA_DEVICE_I2S1_MEM_TO_DEV,
DMA_DEVICE_APM_CODEC_A_DEV_TO_MEM,
DMA_DEVICE_APM_CODEC_A_MEM_TO_DEV,
DMA_DEVICE_APM_CODEC_B_DEV_TO_MEM,
DMA_DEVICE_APM_CODEC_B_MEM_TO_DEV,
DMA_DEVICE_APM_CODEC_C_DEV_TO_MEM, /* Additional mic input for beam-forming */
DMA_DEVICE_APM_PCM0_DEV_TO_MEM,
DMA_DEVICE_APM_PCM0_MEM_TO_DEV,
DMA_DEVICE_APM_PCM1_DEV_TO_MEM,
DMA_DEVICE_APM_PCM1_MEM_TO_DEV,
DMA_DEVICE_SPUM_DEV_TO_MEM,
DMA_DEVICE_SPUM_MEM_TO_DEV,
DMA_DEVICE_SPIH_DEV_TO_MEM,
DMA_DEVICE_SPIH_MEM_TO_DEV,
DMA_DEVICE_UART_A_DEV_TO_MEM,
DMA_DEVICE_UART_A_MEM_TO_DEV,
DMA_DEVICE_UART_B_DEV_TO_MEM,
DMA_DEVICE_UART_B_MEM_TO_DEV,
DMA_DEVICE_PIF_MEM_TO_DEV,
DMA_DEVICE_PIF_DEV_TO_MEM,
DMA_DEVICE_ESW_DEV_TO_MEM,
DMA_DEVICE_ESW_MEM_TO_DEV,
DMA_DEVICE_VPM_MEM_TO_MEM,
DMA_DEVICE_CLCD_MEM_TO_MEM,
DMA_DEVICE_NAND_MEM_TO_MEM,
DMA_DEVICE_MEM_TO_VRAM,
DMA_DEVICE_VRAM_TO_MEM,
/* Add new entries before this line. */
DMA_NUM_DEVICE_ENTRIES,
DMA_DEVICE_NONE = 0xff, /* Special value to indicate that no device is currently assigned. */
} DMA_Device_t;
/****************************************************************************
*
* The DMA_Handle_t is the primary object used by callers of the API.
*
*****************************************************************************/
#define DMA_INVALID_HANDLE ((DMA_Handle_t) -1)
typedef int DMA_Handle_t;
/****************************************************************************
*
* The DMA_DescriptorRing_t contains a ring of descriptors which is used
* to point to regions of memory.
*
*****************************************************************************/
typedef struct {
void *virtAddr; /* Virtual Address of the descriptor ring */
dma_addr_t physAddr; /* Physical address of the descriptor ring */
int descriptorsAllocated; /* Number of descriptors allocated in the descriptor ring */
size_t bytesAllocated; /* Number of bytes allocated in the descriptor ring */
} DMA_DescriptorRing_t;
/****************************************************************************
*
* The DMA_MemType_t and DMA_MemMap_t are helper structures used to setup
* DMA chains from a variety of memory sources.
*
*****************************************************************************/
#define DMA_MEM_MAP_MIN_SIZE 4096 /* Pages less than this size are better */
/* off not being DMA'd. */
typedef enum {
DMA_MEM_TYPE_NONE, /* Not a valid setting */
DMA_MEM_TYPE_VMALLOC, /* Memory came from vmalloc call */
DMA_MEM_TYPE_KMALLOC, /* Memory came from kmalloc call */
DMA_MEM_TYPE_DMA, /* Memory came from dma_alloc_xxx call */
DMA_MEM_TYPE_USER, /* Memory came from user space. */
} DMA_MemType_t;
/* A segment represents a physically and virtually contiguous chunk of memory. */
/* i.e. each segment can be DMA'd */
/* A user of the DMA code will add memory regions. Each region may need to be */
/* represented by one or more segments. */
typedef struct {
void *virtAddr; /* Virtual address used for this segment */
dma_addr_t physAddr; /* Physical address this segment maps to */
size_t numBytes; /* Size of the segment, in bytes */
} DMA_Segment_t;
/* A region represents a virtually contiguous chunk of memory, which may be */
/* made up of multiple segments. */
typedef struct {
DMA_MemType_t memType;
void *virtAddr;
size_t numBytes;
/* Each region (virtually contiguous) consists of one or more segments. Each */
/* segment is virtually and physically contiguous. */
int numSegmentsUsed;
int numSegmentsAllocated;
DMA_Segment_t *segment;
/* When a region corresponds to user memory, we need to lock all of the pages */
/* down before we can figure out the physical addresses. The lockedPage array contains */
/* the pages that were locked, and which subsequently need to be unlocked once the */
/* memory is unmapped. */
unsigned numLockedPages;
struct page **lockedPages;
} DMA_Region_t;
typedef struct {
int inUse; /* Is this mapping currently being used? */
struct semaphore lock; /* Acquired when using this structure */
enum dma_data_direction dir; /* Direction this transfer is intended for */
/* In the event that we're mapping user memory, we need to know which task */
/* the memory is for, so that we can obtain the correct mm locks. */
struct task_struct *userTask;
int numRegionsUsed;
int numRegionsAllocated;
DMA_Region_t *region;
} DMA_MemMap_t;
/****************************************************************************
*
* The DMA_DeviceAttribute_t contains information which describes a
* particular DMA device (or peripheral).
*
* It is anticipated that the arrary of DMA_DeviceAttribute_t's will be
* statically initialized.
*
*****************************************************************************/
/* The device handler is called whenever a DMA operation completes. The reaon */
/* for it to be called will be a bitmask with one or more of the following bits */
/* set. */
#define DMA_HANDLER_REASON_BLOCK_COMPLETE dmacHw_INTERRUPT_STATUS_BLOCK
#define DMA_HANDLER_REASON_TRANSFER_COMPLETE dmacHw_INTERRUPT_STATUS_TRANS
#define DMA_HANDLER_REASON_ERROR dmacHw_INTERRUPT_STATUS_ERROR
typedef void (*DMA_DeviceHandler_t) (DMA_Device_t dev, int reason,
void *userData);
#define DMA_DEVICE_FLAG_ON_DMA0 0x00000001
#define DMA_DEVICE_FLAG_ON_DMA1 0x00000002
#define DMA_DEVICE_FLAG_PORT_PER_DMAC 0x00000004 /* If set, it means that the port used on DMAC0 is different from the port used on DMAC1 */
#define DMA_DEVICE_FLAG_ALLOC_DMA1_FIRST 0x00000008 /* If set, allocate from DMA1 before allocating from DMA0 */
#define DMA_DEVICE_FLAG_IS_DEDICATED 0x00000100
#define DMA_DEVICE_FLAG_NO_ISR 0x00000200
#define DMA_DEVICE_FLAG_ALLOW_LARGE_FIFO 0x00000400
#define DMA_DEVICE_FLAG_IN_USE 0x00000800 /* If set, device is in use on a channel */
/* Note: Some DMA devices can be used from multiple DMA Controllers. The bitmask is used to */
/* determine which DMA controllers a given device can be used from, and the interface */
/* array determeines the actual interface number to use for a given controller. */
typedef struct {
uint32_t flags; /* Bitmask of DMA_DEVICE_FLAG_xxx constants */
uint8_t dedicatedController; /* Controller number to use if DMA_DEVICE_FLAG_IS_DEDICATED is set. */
uint8_t dedicatedChannel; /* Channel number to use if DMA_DEVICE_FLAG_IS_DEDICATED is set. */
const char *name; /* Will show up in the /proc entry */
uint32_t dmacPort[DMA_NUM_CONTROLLERS]; /* Specifies the port number when DMA_DEVICE_FLAG_PORT_PER_DMAC flag is set */
dmacHw_CONFIG_t config; /* Configuration to use when DMA'ing using this device */
void *userData; /* Passed to the devHandler */
DMA_DeviceHandler_t devHandler; /* Called when DMA operations finish. */
timer_tick_count_t transferStartTime; /* Time the current transfer was started */
/* The following statistical information will be collected and presented in a proc entry. */
/* Note: With a contiuous bandwidth of 1 Gb/sec, it would take 584 years to overflow */
/* a 64 bit counter. */
uint64_t numTransfers; /* Number of DMA transfers performed */
uint64_t transferTicks; /* Total time spent doing DMA transfers (measured in timer_tick_count_t's) */
uint64_t transferBytes; /* Total bytes transferred */
uint32_t timesBlocked; /* Number of times a channel was unavailable */
uint32_t numBytes; /* Last transfer size */
/* It's not possible to free memory which is allocated for the descriptors from within */
/* the ISR. So make the presumption that a given device will tend to use the */
/* same sized buffers over and over again, and we keep them around. */
DMA_DescriptorRing_t ring; /* Ring of descriptors allocated for this device */
/* We stash away some of the information from the previous transfer. If back-to-back */
/* transfers are performed from the same buffer, then we don't have to keep re-initializing */
/* the descriptor buffers. */
uint32_t prevNumBytes;
dma_addr_t prevSrcData;
dma_addr_t prevDstData;
} DMA_DeviceAttribute_t;
/****************************************************************************
*
* DMA_Channel_t, DMA_Controller_t, and DMA_State_t are really internal
* data structures and don't belong in this header file, but are included
* merely for discussion.
*
* By the time this is implemented, these structures will be moved out into
* the appropriate C source file instead.
*
*****************************************************************************/
/****************************************************************************
*
* The DMA_Channel_t contains state information about each DMA channel. Some
* of the channels are dedicated. Non-dedicated channels are shared
* amongst the other devices.
*
*****************************************************************************/
#define DMA_CHANNEL_FLAG_IN_USE 0x00000001
#define DMA_CHANNEL_FLAG_IS_DEDICATED 0x00000002
#define DMA_CHANNEL_FLAG_NO_ISR 0x00000004
#define DMA_CHANNEL_FLAG_LARGE_FIFO 0x00000008
typedef struct {
uint32_t flags; /* bitmask of DMA_CHANNEL_FLAG_xxx constants */
DMA_Device_t devType; /* Device this channel is currently reserved for */
DMA_Device_t lastDevType; /* Device type that used this previously */
char name[20]; /* Name passed onto request_irq */
#if (DMA_DEBUG_TRACK_RESERVATION)
const char *fileName; /* Place where channel reservation took place */
int lineNum; /* Place where channel reservation took place */
#endif
dmacHw_HANDLE_t dmacHwHandle; /* low level channel handle. */
} DMA_Channel_t;
/****************************************************************************
*
* The DMA_Controller_t contains state information about each DMA controller.
*
* The freeChannelQ is stored in the controller data structure rather than
* the channel data structure since several of the devices are accessible
* from multiple controllers, and there is no way to know which controller
* will become available first.
*
*****************************************************************************/
typedef struct {
DMA_Channel_t channel[DMA_NUM_CHANNELS];
} DMA_Controller_t;
/****************************************************************************
*
* The DMA_Global_t contains all of the global state information used by
* the DMA code.
*
* Callers which need to allocate a shared channel will be queued up
* on the freeChannelQ until a channel becomes available.
*
*****************************************************************************/
typedef struct {
struct semaphore lock; /* acquired when manipulating table entries */
wait_queue_head_t freeChannelQ;
DMA_Controller_t controller[DMA_NUM_CONTROLLERS];
} DMA_Global_t;
/* ---- Variable Externs ------------------------------------------------- */
extern DMA_DeviceAttribute_t DMA_gDeviceAttribute[DMA_NUM_DEVICE_ENTRIES];
/* ---- Function Prototypes ---------------------------------------------- */
#if defined(__KERNEL__)
/****************************************************************************/
/**
* Initializes the DMA module.
*
* @return
* 0 - Success
* < 0 - Error
*/
/****************************************************************************/
int dma_init(void);
#if (DMA_DEBUG_TRACK_RESERVATION)
DMA_Handle_t dma_request_channel_dbg(DMA_Device_t dev, const char *fileName,
int lineNum);
#define dma_request_channel(dev) dma_request_channel_dbg(dev, __FILE__, __LINE__)
#else
/****************************************************************************/
/**
* Reserves a channel for use with @a dev. If the device is setup to use
* a shared channel, then this function will block until a free channel
* becomes available.
*
* @return
* >= 0 - A valid DMA Handle.
* -EBUSY - Device is currently being used.
* -ENODEV - Device handed in is invalid.
*/
/****************************************************************************/
DMA_Handle_t dma_request_channel(DMA_Device_t dev /* Device to use with the allocated channel. */
);
#endif
/****************************************************************************/
/**
* Frees a previously allocated DMA Handle.
*
* @return
* 0 - DMA Handle was released successfully.
* -EINVAL - Invalid DMA handle
*/
/****************************************************************************/
int dma_free_channel(DMA_Handle_t channel /* DMA handle. */
);
/****************************************************************************/
/**
* Determines if a given device has been configured as using a shared
* channel.
*
* @return boolean
* 0 Device uses a dedicated channel
* non-zero Device uses a shared channel
*/
/****************************************************************************/
int dma_device_is_channel_shared(DMA_Device_t dev /* Device to check. */
);
/****************************************************************************/
/**
* Allocates memory to hold a descriptor ring. The descriptor ring then
* needs to be populated by making one or more calls to
* dna_add_descriptors.
*
* The returned descriptor ring will be automatically initialized.
*
* @return
* 0 Descriptor ring was allocated successfully
* -ENOMEM Unable to allocate memory for the desired number of descriptors.
*/
/****************************************************************************/
int dma_alloc_descriptor_ring(DMA_DescriptorRing_t *ring, /* Descriptor ring to populate */
int numDescriptors /* Number of descriptors that need to be allocated. */
);
/****************************************************************************/
/**
* Releases the memory which was previously allocated for a descriptor ring.
*/
/****************************************************************************/
void dma_free_descriptor_ring(DMA_DescriptorRing_t *ring /* Descriptor to release */
);
/****************************************************************************/
/**
* Initializes a descriptor ring, so that descriptors can be added to it.
* Once a descriptor ring has been allocated, it may be reinitialized for
* use with additional/different regions of memory.
*
* Note that if 7 descriptors are allocated, it's perfectly acceptable to
* initialize the ring with a smaller number of descriptors. The amount
* of memory allocated for the descriptor ring will not be reduced, and
* the descriptor ring may be reinitialized later
*
* @return
* 0 Descriptor ring was initialized successfully
* -ENOMEM The descriptor which was passed in has insufficient space
* to hold the desired number of descriptors.
*/
/****************************************************************************/
int dma_init_descriptor_ring(DMA_DescriptorRing_t *ring, /* Descriptor ring to initialize */
int numDescriptors /* Number of descriptors to initialize. */
);
/****************************************************************************/
/**
* Determines the number of descriptors which would be required for a
* transfer of the indicated memory region.
*
* This function also needs to know which DMA device this transfer will
* be destined for, so that the appropriate DMA configuration can be retrieved.
* DMA parameters such as transfer width, and whether this is a memory-to-memory
* or memory-to-peripheral, etc can all affect the actual number of descriptors
* required.
*
* @return
* > 0 Returns the number of descriptors required for the indicated transfer
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
* -ENOMEM Memory exhausted
*/
/****************************************************************************/
int dma_calculate_descriptor_count(DMA_Device_t device, /* DMA Device that this will be associated with */
dma_addr_t srcData, /* Place to get data to write to device */
dma_addr_t dstData, /* Pointer to device data address */
size_t numBytes /* Number of bytes to transfer to the device */
);
/****************************************************************************/
/**
* Adds a region of memory to the descriptor ring. Note that it may take
* multiple descriptors for each region of memory. It is the callers
* responsibility to allocate a sufficiently large descriptor ring.
*
* @return
* 0 Descriptors were added successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
* -ENOMEM Memory exhausted
*/
/****************************************************************************/
int dma_add_descriptors(DMA_DescriptorRing_t *ring, /* Descriptor ring to add descriptors to */
DMA_Device_t device, /* DMA Device that descriptors are for */
dma_addr_t srcData, /* Place to get data (memory or device) */
dma_addr_t dstData, /* Place to put data (memory or device) */
size_t numBytes /* Number of bytes to transfer to the device */
);
/****************************************************************************/
/**
* Sets the descriptor ring associated with a device.
*
* Once set, the descriptor ring will be associated with the device, even
* across channel request/free calls. Passing in a NULL descriptor ring
* will release any descriptor ring currently associated with the device.
*
* Note: If you call dma_transfer, or one of the other dma_alloc_ functions
* the descriptor ring may be released and reallocated.
*
* Note: This function will release the descriptor memory for any current
* descriptor ring associated with this device.
*/
/****************************************************************************/
int dma_set_device_descriptor_ring(DMA_Device_t device, /* Device to update the descriptor ring for. */
DMA_DescriptorRing_t *ring /* Descriptor ring to add descriptors to */
);
/****************************************************************************/
/**
* Retrieves the descriptor ring associated with a device.
*/
/****************************************************************************/
int dma_get_device_descriptor_ring(DMA_Device_t device, /* Device to retrieve the descriptor ring for. */
DMA_DescriptorRing_t *ring /* Place to store retrieved ring */
);
/****************************************************************************/
/**
* Allocates buffers for the descriptors. This is normally done automatically
* but needs to be done explicitly when initiating a dma from interrupt
* context.
*
* @return
* 0 Descriptors were allocated successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
* -ENOMEM Memory exhausted
*/
/****************************************************************************/
int dma_alloc_descriptors(DMA_Handle_t handle, /* DMA Handle */
dmacHw_TRANSFER_TYPE_e transferType, /* Type of transfer being performed */
dma_addr_t srcData, /* Place to get data to write to device */
dma_addr_t dstData, /* Pointer to device data address */
size_t numBytes /* Number of bytes to transfer to the device */
);
/****************************************************************************/
/**
* Allocates and sets up descriptors for a double buffered circular buffer.
*
* This is primarily intended to be used for things like the ingress samples
* from a microphone.
*
* @return
* > 0 Number of descriptors actually allocated.
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
* -ENOMEM Memory exhausted
*/
/****************************************************************************/
int dma_alloc_double_dst_descriptors(DMA_Handle_t handle, /* DMA Handle */
dma_addr_t srcData, /* Physical address of source data */
dma_addr_t dstData1, /* Physical address of first destination buffer */
dma_addr_t dstData2, /* Physical address of second destination buffer */
size_t numBytes /* Number of bytes in each destination buffer */
);
/****************************************************************************/
/**
* Initializes a DMA_MemMap_t data structure
*/
/****************************************************************************/
int dma_init_mem_map(DMA_MemMap_t *memMap /* Stores state information about the map */
);
/****************************************************************************/
/**
* Releases any memory currently being held by a memory mapping structure.
*/
/****************************************************************************/
int dma_term_mem_map(DMA_MemMap_t *memMap /* Stores state information about the map */
);
/****************************************************************************/
/**
* Looks at a memory address and categorizes it.
*
* @return One of the values from the DMA_MemType_t enumeration.
*/
/****************************************************************************/
DMA_MemType_t dma_mem_type(void *addr);
/****************************************************************************/
/**
* Sets the process (aka userTask) associated with a mem map. This is
* required if user-mode segments will be added to the mapping.
*/
/****************************************************************************/
static inline void dma_mem_map_set_user_task(DMA_MemMap_t *memMap,
struct task_struct *task)
{
memMap->userTask = task;
}
/****************************************************************************/
/**
* Looks at a memory address and determines if we support DMA'ing to/from
* that type of memory.
*
* @return boolean -
* return value != 0 means dma supported
* return value == 0 means dma not supported
*/
/****************************************************************************/
int dma_mem_supports_dma(void *addr);
/****************************************************************************/
/**
* Initializes a memory map for use. Since this function acquires a
* sempaphore within the memory map, it is VERY important that dma_unmap
* be called when you're finished using the map.
*/
/****************************************************************************/
int dma_map_start(DMA_MemMap_t *memMap, /* Stores state information about the map */
enum dma_data_direction dir /* Direction that the mapping will be going */
);
/****************************************************************************/
/**
* Adds a segment of memory to a memory map.
*
* @return 0 on success, error code otherwise.
*/
/****************************************************************************/
int dma_map_add_region(DMA_MemMap_t *memMap, /* Stores state information about the map */
void *mem, /* Virtual address that we want to get a map of */
size_t numBytes /* Number of bytes being mapped */
);
/****************************************************************************/
/**
* Creates a descriptor ring from a memory mapping.
*
* @return 0 on success, error code otherwise.
*/
/****************************************************************************/
int dma_map_create_descriptor_ring(DMA_Device_t dev, /* DMA device (where the ring is stored) */
DMA_MemMap_t *memMap, /* Memory map that will be used */
dma_addr_t devPhysAddr /* Physical address of device */
);
/****************************************************************************/
/**
* Maps in a memory region such that it can be used for performing a DMA.
*
* @return
*/
/****************************************************************************/
int dma_map_mem(DMA_MemMap_t *memMap, /* Stores state information about the map */
void *addr, /* Virtual address that we want to get a map of */
size_t count, /* Number of bytes being mapped */
enum dma_data_direction dir /* Direction that the mapping will be going */
);
/****************************************************************************/
/**
* Maps in a memory region such that it can be used for performing a DMA.
*
* @return
*/
/****************************************************************************/
int dma_unmap(DMA_MemMap_t *memMap, /* Stores state information about the map */
int dirtied /* non-zero if any of the pages were modified */
);
/****************************************************************************/
/**
* Initiates a transfer when the descriptors have already been setup.
*
* This is a special case, and normally, the dma_transfer_xxx functions should
* be used.
*
* @return
* 0 Transfer was started successfully
* -ENODEV Invalid handle
*/
/****************************************************************************/
int dma_start_transfer(DMA_Handle_t handle);
/****************************************************************************/
/**
* Stops a previously started DMA transfer.
*
* @return
* 0 Transfer was stopped successfully
* -ENODEV Invalid handle
*/
/****************************************************************************/
int dma_stop_transfer(DMA_Handle_t handle);
/****************************************************************************/
/**
* Waits for a DMA to complete by polling. This function is only intended
* to be used for testing. Interrupts should be used for most DMA operations.
*/
/****************************************************************************/
int dma_wait_transfer_done(DMA_Handle_t handle);
/****************************************************************************/
/**
* Initiates a DMA transfer
*
* @return
* 0 Transfer was started successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
*/
/****************************************************************************/
int dma_transfer(DMA_Handle_t handle, /* DMA Handle */
dmacHw_TRANSFER_TYPE_e transferType, /* Type of transfer being performed */
dma_addr_t srcData, /* Place to get data to write to device */
dma_addr_t dstData, /* Pointer to device data address */
size_t numBytes /* Number of bytes to transfer to the device */
);
/****************************************************************************/
/**
* Initiates a transfer from memory to a device.
*
* @return
* 0 Transfer was started successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _DEV_TO_MEM and not _MEM_TO_DEV)
*/
/****************************************************************************/
static inline int dma_transfer_to_device(DMA_Handle_t handle, /* DMA Handle */
dma_addr_t srcData, /* Place to get data to write to device (physical address) */
dma_addr_t dstData, /* Pointer to device data address (physical address) */
size_t numBytes /* Number of bytes to transfer to the device */
) {
return dma_transfer(handle,
dmacHw_TRANSFER_TYPE_MEM_TO_PERIPHERAL,
srcData, dstData, numBytes);
}
/****************************************************************************/
/**
* Initiates a transfer from a device to memory.
*
* @return
* 0 Transfer was started successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device is _MEM_TO_DEV and not _DEV_TO_MEM)
*/
/****************************************************************************/
static inline int dma_transfer_from_device(DMA_Handle_t handle, /* DMA Handle */
dma_addr_t srcData, /* Pointer to the device data address (physical address) */
dma_addr_t dstData, /* Place to store data retrieved from the device (physical address) */
size_t numBytes /* Number of bytes to retrieve from the device */
) {
return dma_transfer(handle,
dmacHw_TRANSFER_TYPE_PERIPHERAL_TO_MEM,
srcData, dstData, numBytes);
}
/****************************************************************************/
/**
* Initiates a memory to memory transfer.
*
* @return
* 0 Transfer was started successfully
* -EINVAL Invalid device type for this kind of transfer
* (i.e. the device wasn't DMA_DEVICE_MEM_TO_MEM)
*/
/****************************************************************************/
static inline int dma_transfer_mem_to_mem(DMA_Handle_t handle, /* DMA Handle */
dma_addr_t srcData, /* Place to transfer data from (physical address) */
dma_addr_t dstData, /* Place to transfer data to (physical address) */
size_t numBytes /* Number of bytes to transfer */
) {
return dma_transfer(handle,
dmacHw_TRANSFER_TYPE_MEM_TO_MEM,
srcData, dstData, numBytes);
}
/****************************************************************************/
/**
* Set the callback function which will be called when a transfer completes.
* If a NULL callback function is set, then no callback will occur.
*
* @note @a devHandler will be called from IRQ context.
*
* @return
* 0 - Success
* -ENODEV - Device handed in is invalid.
*/
/****************************************************************************/
int dma_set_device_handler(DMA_Device_t dev, /* Device to set the callback for. */
DMA_DeviceHandler_t devHandler, /* Function to call when the DMA completes */
void *userData /* Pointer which will be passed to devHandler. */
);
#endif
#endif /* ASM_ARM_ARCH_BCMRING_DMA_H */
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