#ifndef _BLK_H #define _BLK_H #define NR_BLK_DEV 12 /* * NR_REQUEST is the number of entries in the request-queue. * NOTE that writes may use only the low 2/3 of these: reads * take precedence. * * 32 seems to be a reasonable number: enough to get some benefit * from the elevator-mechanism, but not so much as to lock a lot of * buffers when they are in the queue. 64 seems to be too many (easily * long pauses in reading when heavy writing/syncing is going on) */ #define NR_REQUEST 32 /* * Ok, this is an expanded form so that we can use the same * request for paging requests when that is implemented. In * paging, 'bh' is NULL, and 'waiting' is used to wait for * read/write completion. */ struct request { int dev; /* -1 if no request */ int cmd; /* READ or WRITE */ int errors; unsigned long sector; unsigned long nr_sectors; unsigned long current_nr_sectors; char * buffer; struct task_struct * waiting; struct buffer_head * bh; struct buffer_head * bhtail; struct request * next; }; /* * This is used in the elevator algorithm: Note that * reads always go before writes. This is natural: reads * are much more time-critical than writes. */ #define IN_ORDER(s1,s2) \ ((s1)->cmd < (s2)->cmd || ((s1)->cmd == (s2)->cmd && \ ((s1)->dev < (s2)->dev || (((s1)->dev == (s2)->dev && \ (s1)->sector < (s2)->sector))))) struct blk_dev_struct { void (*request_fn)(void); struct request * current_request; }; struct sec_size { unsigned block_size; unsigned block_size_bits; }; /* * These will have to be changed to be aware of different buffer * sizes etc.. */ #define SECTOR_MASK ((1 << (BLOCK_SIZE_BITS - 9)) -1) #define SUBSECTOR(block) ((block) & SECTOR_MASK) extern struct sec_size * blk_sec[NR_BLK_DEV]; extern struct blk_dev_struct blk_dev[NR_BLK_DEV]; extern struct request request[NR_REQUEST]; extern struct wait_queue * wait_for_request; extern int * blk_size[NR_BLK_DEV]; extern unsigned long hd_init(unsigned long mem_start, unsigned long mem_end); extern int is_read_only(int dev); extern void set_device_ro(int dev,int flag); #define RO_IOCTLS(dev,where) \ case BLKROSET: if (!suser()) return -EPERM; \ set_device_ro((dev),get_fs_long((long *) (where))); return 0; \ case BLKROGET: verify_area((void *) (where), sizeof(long)); \ put_fs_long(is_read_only(dev),(long *) (where)); return 0; #ifdef MAJOR_NR /* * Add entries as needed. Currently the only block devices * supported are hard-disks and floppies. */ #if (MAJOR_NR == 1) /* ram disk */ #define DEVICE_NAME "ramdisk" #define DEVICE_REQUEST do_rd_request #define DEVICE_NR(device) ((device) & 7) #define DEVICE_ON(device) #define DEVICE_OFF(device) #elif (MAJOR_NR == 2) /* floppy */ #define DEVICE_NAME "floppy" #define DEVICE_INTR do_floppy #define DEVICE_REQUEST do_fd_request #define DEVICE_NR(device) ((device) & 3) #define DEVICE_ON(device) floppy_on(DEVICE_NR(device)) #define DEVICE_OFF(device) floppy_off(DEVICE_NR(device)) #elif (MAJOR_NR == 3) /* harddisk: timeout is 6 seconds.. */ #define DEVICE_NAME "harddisk" #define DEVICE_INTR do_hd #define DEVICE_TIMEOUT HD_TIMER #define TIMEOUT_VALUE 600 #define DEVICE_REQUEST do_hd_request #define DEVICE_NR(device) (MINOR(device)>>6) #define DEVICE_ON(device) #define DEVICE_OFF(device) #elif (MAJOR_NR == 8) /* scsi disk */ #define DEVICE_NAME "scsidisk" #define DEVICE_INTR do_sd #define TIMEOUT_VALUE 200 #define DEVICE_REQUEST do_sd_request #define DEVICE_NR(device) (MINOR(device) >> 4) #define DEVICE_ON(device) #define DEVICE_OFF(device) #elif (MAJOR_NR == 9) /* scsi tape */ #define DEVICE_NAME "scsitape" #define DEVICE_INTR do_st #define DEVICE_REQUEST do_st_request #define DEVICE_NR(device) (MINOR(device)) #define DEVICE_ON(device) #define DEVICE_OFF(device) #elif (MAJOR_NR == 11) /* scsi CD-ROM */ #define DEVICE_NAME "CD-ROM" #define DEVICE_INTR do_sr #define DEVICE_REQUEST do_sr_request #define DEVICE_NR(device) (MINOR(device)) #define DEVICE_ON(device) #define DEVICE_OFF(device) #else /* unknown blk device */ #error "unknown blk device" #endif #ifndef CURRENT #define CURRENT (blk_dev[MAJOR_NR].current_request) #endif #define CURRENT_DEV DEVICE_NR(CURRENT->dev) #ifdef DEVICE_INTR void (*DEVICE_INTR)(void) = NULL; #endif #ifdef DEVICE_TIMEOUT #define SET_TIMER \ ((timer_table[DEVICE_TIMEOUT].expires = jiffies + TIMEOUT_VALUE), \ (timer_active |= 1<b_lock) printk(DEVICE_NAME ": free buffer being unlocked\n"); bh->b_lock=0; wake_up(&bh->b_wait); } static void end_request(int uptodate) { struct request * req; struct buffer_head * bh; struct task_struct * p; req = CURRENT; req->errors = 0; if (!uptodate) { printk(DEVICE_NAME " I/O error\n\r"); printk("dev %04x, sector %d\n\r",req->dev,req->sector); req->nr_sectors--; req->nr_sectors &= ~SECTOR_MASK; req->sector += (BLOCK_SIZE / 512); req->sector &= ~SECTOR_MASK; } if (bh = req->bh) { req->bh = bh->b_reqnext; bh->b_reqnext = NULL; bh->b_uptodate = uptodate; unlock_buffer(bh); if (bh = req->bh) { req->current_nr_sectors = bh->b_size >> 9; if (req->nr_sectors < req->current_nr_sectors) { req->nr_sectors = req->current_nr_sectors; printk("end_request: buffer-list destroyed\n"); } req->buffer = bh->b_data; return; } } DEVICE_OFF(req->dev); CURRENT = req->next; if (p = req->waiting) { req->waiting = NULL; p->state = TASK_RUNNING; if (p->counter > current->counter) need_resched = 1; } req->dev = -1; wake_up(&wait_for_request); } #ifdef DEVICE_INTR #define CLEAR_INTR SET_INTR(NULL) #else #define CLEAR_INTR #endif #define INIT_REQUEST \ if (!CURRENT) {\ CLEAR_INTR; \ return; \ } \ if (MAJOR(CURRENT->dev) != MAJOR_NR) \ panic(DEVICE_NAME ": request list destroyed"); \ if (CURRENT->bh) { \ if (!CURRENT->bh->b_lock) \ panic(DEVICE_NAME ": block not locked"); \ } #endif #endif