/**
* @file
*
* @ingroup rtems_blkdev
*
* Block device management.
*/
/*
* Copyright (C) 2001 OKTET Ltd., St.-Petersburg, Russia
* Author: Victor V. Vengerov <vvv@oktet.ru>
*/
#ifndef _RTEMS_BLKDEV_H
#define _RTEMS_BLKDEV_H
#include <rtems.h>
#include <rtems/diskdevs.h>
#include <rtems/bspIo.h>
#include <sys/ioctl.h>
#include <stdio.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @defgroup rtems_blkdev Block Device Management
*
* @ingroup rtems_libblock
*
* Interface between device drivers and the
* @ref rtems_bdbuf "block device buffer module".
*
* The heart of the block device driver is the @ref RTEMS_BLKIO_REQUEST IO
* control. This call puts IO @ref rtems_blkdev_request "requests" to the block
* device for asynchronous processing. When a driver executes a request, it
* invokes the request done callback function to finish the request.
*
* @{
*/
/**
* @brief Block device request type.
*
* @warning The sync request is an IO one and only used from the cache. Use the
* Block IO when operating at the device level. We need a sync request
* to avoid requests looping for ever.
*/
typedef enum rtems_blkdev_request_op {
RTEMS_BLKDEV_REQ_READ, /**< Read the requested blocks of data. */
RTEMS_BLKDEV_REQ_WRITE, /**< Write the requested blocks of data. */
RTEMS_BLKDEV_REQ_SYNC /**< Sync any data with the media. */
} rtems_blkdev_request_op;
struct rtems_blkdev_request;
/**
* @brief Block device request done callback function type.
*/
typedef void (*rtems_blkdev_request_cb)(
struct rtems_blkdev_request *req,
rtems_status_code status
);
/**
* @brief Block device scatter or gather buffer structure.
*/
typedef struct rtems_blkdev_sg_buffer {
/**
* Block index.
*/
rtems_blkdev_bnum block;
/**
* Buffer length.
*/
uint32_t length;
/**
* Buffer pointer.
*/
void *buffer;
/**
* User pointer.
*/
void *user;
} rtems_blkdev_sg_buffer;
/**
* @brief The block device transfer request is used to read or write a number
* of blocks from or to the device.
*
* Transfer requests are issued to the disk device driver with the
* @ref RTEMS_BLKIO_REQUEST IO control. The transfer request completion status
* must be signalled with rtems_blkdev_request_done(). This function must be
* called exactly once per request. The return value of the IO control will be
* ignored for transfer requests.
*
* @see rtems_blkdev_create().
*/
typedef struct rtems_blkdev_request {
/**
* Block device operation (read or write).
*/
rtems_blkdev_request_op req;
/**
* Request done callback function.
*/
rtems_blkdev_request_cb done;
/**
* Argument to be passed to callback function.
*/
void *done_arg;
/**
* Last IO operation completion status.
*/
rtems_status_code status;
/**
* Number of blocks for this request.
*/
uint32_t bufnum;
/**
* The task requesting the IO operation.
*/
rtems_id io_task;
/*
* TODO: The use of these req blocks is not a great design. The req is a
* struct with a single 'bufs' declared in the req struct and the
* others are added in the outer level struct. This relies on the
* structs joining as a single array and that assumes the compiler
* packs the structs. Why not just place on a list ? The BD has a
* node that can be used.
*/
/**
* List of scatter or gather buffers.
*/
rtems_blkdev_sg_buffer bufs[0];
} rtems_blkdev_request;
/**
* @brief Signals transfer request completion status.
*
* This function must be called exactly once per request.
*
* @param[in,out] req The transfer request.
* @param[in] status The status of the operation should be
* - @c RTEMS_SUCCESSFUL, if the operation was successful,
* - @c RTEMS_IO_ERROR, if some sort of input or output error occurred, or
* - @c RTEMS_UNSATISFIED, if media is no more present.
*/
static inline void rtems_blkdev_request_done(
rtems_blkdev_request *req,
rtems_status_code status
)
{
(*req->done)(req, status);
}
/**
* @brief The start block in a request.
*
* Only valid if the driver has returned the
* @ref RTEMS_BLKDEV_CAP_MULTISECTOR_CONT capability.
*/
#define RTEMS_BLKDEV_START_BLOCK(req) (req->bufs[0].block)
/**
* @name IO Control Request Codes
*
* @{
*/
#define RTEMS_BLKIO_REQUEST _IOWR('B', 1, rtems_blkdev_request)
#define RTEMS_BLKIO_GETMEDIABLKSIZE _IOR('B', 2, uint32_t)
#define RTEMS_BLKIO_GETBLKSIZE _IOR('B', 3, uint32_t)
#define RTEMS_BLKIO_SETBLKSIZE _IOW('B', 4, uint32_t)
#define RTEMS_BLKIO_GETSIZE _IOR('B', 5, rtems_blkdev_bnum)
#define RTEMS_BLKIO_SYNCDEV _IO('B', 6)
#define RTEMS_BLKIO_DELETED _IO('B', 7)
#define RTEMS_BLKIO_CAPABILITIES _IO('B', 8)
#define RTEMS_BLKIO_GETDISKDEV _IOR('B', 9, rtems_disk_device *)
#define RTEMS_BLKIO_PURGEDEV _IO('B', 10)
#define RTEMS_BLKIO_GETDEVSTATS _IOR('B', 11, rtems_blkdev_stats *)
#define RTEMS_BLKIO_RESETDEVSTATS _IO('B', 12)
/** @} */
static inline int rtems_disk_fd_get_media_block_size(
int fd,
uint32_t *media_block_size
)
{
return ioctl(fd, RTEMS_BLKIO_GETMEDIABLKSIZE, media_block_size);
}
static inline int rtems_disk_fd_get_block_size(int fd, uint32_t *block_size)
{
return ioctl(fd, RTEMS_BLKIO_GETBLKSIZE, block_size);
}
static inline int rtems_disk_fd_set_block_size(int fd, uint32_t block_size)
{
return ioctl(fd, RTEMS_BLKIO_SETBLKSIZE, &block_size);
}
static inline int rtems_disk_fd_get_block_count(
int fd,
rtems_blkdev_bnum *block_count
)
{
return ioctl(fd, RTEMS_BLKIO_GETSIZE, block_count);
}
static inline int rtems_disk_fd_get_disk_device(
int fd,
rtems_disk_device **dd_ptr
)
{
return ioctl(fd, RTEMS_BLKIO_GETDISKDEV, dd_ptr);
}
static inline int rtems_disk_fd_sync(int fd)
{
return ioctl(fd, RTEMS_BLKIO_SYNCDEV);
}
static inline int rtems_disk_fd_purge(int fd)
{
return ioctl(fd, RTEMS_BLKIO_PURGEDEV);
}
static inline int rtems_disk_fd_get_device_stats(
int fd,
rtems_blkdev_stats *stats
)
{
return ioctl(fd, RTEMS_BLKIO_GETDEVSTATS, stats);
}
static inline int rtems_disk_fd_reset_device_stats(int fd)
{
return ioctl(fd, RTEMS_BLKIO_RESETDEVSTATS);
}
/**
* @name Block Device Driver Capabilities
*
* @{
*/
/**
* @brief Only consecutive multi-sector buffer requests are supported.
*
* This option means the cache will only supply multiple buffers that are
* inorder so the ATA multi-sector command for example can be used. This is a
* hack to work around the current ATA driver.
*/
#define RTEMS_BLKDEV_CAP_MULTISECTOR_CONT (1 << 0)
/**
* @brief The driver will accept a sync call.
*
* A sync call is made to a driver after a bdbuf cache sync has finished.
*/
#define RTEMS_BLKDEV_CAP_SYNC (1 << 1)
/** @} */
/**
* @brief Common IO control primitive.
*
* Use this in all block devices to handle the common set of IO control
* requests.
*/
int
rtems_blkdev_ioctl(rtems_disk_device *dd, uint32_t req, void *argp);
/**
* @brief Creates a block device.
*
* The block size is set to the media block size.
*
* @param[in] device The path for the new block device.
* @param[in] media_block_size The media block size in bytes. Must be positive.
* @param[in] media_block_count The media block count. Must be positive.
* @param[in] handler The block device IO control handler. Must not be @c NULL.
* @param[in] driver_data The block device driver data.
*
* @retval RTEMS_SUCCESSFUL Successful operation.
* @retval RTEMS_INVALID_NUMBER Media block size or count is not positive.
* @retval RTEMS_NO_MEMORY Not enough memory.
* @retval RTEMS_UNSATISFIED Cannot create generic device node.
*
* @see rtems_blkdev_create_partition(), rtems_bdbuf_set_block_size(), and
* rtems_blkdev_request.
*/
rtems_status_code rtems_blkdev_create(
const char *device,
uint32_t media_block_size,
rtems_blkdev_bnum media_block_count,
rtems_block_device_ioctl handler,
void *driver_data
);
/**
* @brief Creates a partition within a parent block device.
*
* A partition manages a subset of consecutive blocks contained in a parent block
* device. The blocks must be within the range of blocks managed by the
* associated parent block device. The media block size and IO control
* handler are inherited by the parent block device. The block size is set to
* the media block size.
*
* @param[in] partition The path for the new partition device.
* @param[in] parent_block_device The parent block device path.
* @param[in] media_block_begin The media block begin of the partition within
* the parent block device.
* @param[in] media_block_count The media block count of the partition.
*
* @retval RTEMS_SUCCESSFUL Successful operation.
* @retval RTEMS_INVALID_ID Block device node does not exist.
* @retval RTEMS_INVALID_NODE File system node is not a block device.
* @retval RTEMS_NOT_IMPLEMENTED Block device implementation is incomplete.
* @retval RTEMS_INVALID_NUMBER Block begin or block count is invalid.
* @retval RTEMS_NO_MEMORY Not enough memory.
* @retval RTEMS_UNSATISFIED Cannot create generic device node.
*
* @see rtems_blkdev_create() and rtems_bdbuf_set_block_size().
*/
rtems_status_code rtems_blkdev_create_partition(
const char *partition,
const char *parent_block_device,
rtems_blkdev_bnum media_block_begin,
rtems_blkdev_bnum media_block_count
);
/**
* @brief Prints the block device statistics.
*/
void rtems_blkdev_print_stats(
const rtems_blkdev_stats *stats,
rtems_printk_plugin_t print,
void *print_arg
);
/**
* @brief Block device statistics command.
*/
void rtems_blkstats(
FILE *output,
const char *device,
bool reset
);
/** @} */
/**
* @defgroup rtems_blkdev_generic Generic Disk Device
*
* @ingroup rtems_blkdev
*
* Generic disk device operations for standard RTEMS IO drivers.
*
* @{
*/
/**
* The device driver interface conventions suppose that a driver may contain an
* initialize, open, close, read, write and IO control entry points. These
* primitives (except initialize) can be implemented in a generic fashion based
* upon the supplied block device driver IO control handler. Every block device
* driver should provide an initialize entry point, which registers the
* appropriate IO control handler.
*/
#define RTEMS_GENERIC_BLOCK_DEVICE_DRIVER_ENTRIES \
rtems_blkdev_generic_open, \
rtems_blkdev_generic_close, \
rtems_blkdev_generic_read, \
rtems_blkdev_generic_write, \
rtems_blkdev_generic_ioctl
/**
* Generic block device read primitive.
*
* Implemented using block device buffer management primitives.
*/
rtems_device_driver
rtems_blkdev_generic_read(
rtems_device_major_number major,
rtems_device_minor_number minor,
void * arg
);
/**
* Generic block device write primitive.
*
* Implemented using block device buffer management primitives.
*/
rtems_device_driver
rtems_blkdev_generic_write(
rtems_device_major_number major,
rtems_device_minor_number minor,
void * arg
);
/**
* Generic block device open primitive.
*
* Implemented using block device buffer management primitives.
*/
rtems_device_driver
rtems_blkdev_generic_open(
rtems_device_major_number major,
rtems_device_minor_number minor,
void * arg
);
/**
* Generic block device close primitive.
*
* Implemented using block device buffer management primitives.
*/
rtems_device_driver
rtems_blkdev_generic_close(
rtems_device_major_number major,
rtems_device_minor_number minor,
void * arg
);
/**
* Generic block device IO control primitive.
*
* Implemented using block device buffer management primitives.
*/
rtems_device_driver
rtems_blkdev_generic_ioctl(
rtems_device_major_number major,
rtems_device_minor_number minor,
void * arg
);
/**
* @brief Generic block operations driver address table.
*/
extern const rtems_driver_address_table rtems_blkdev_generic_ops;
/** @} */
#ifdef __cplusplus
}
#endif
#endif