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[/] [or1k_old/] [trunk/] [uclinux/] [uClinux-2.0.x/] [fs/] [block_dev.c] - Rev 199
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/* * linux/fs/block_dev.c * * Copyright (C) 1991, 1992 Linus Torvalds */ #include <linux/errno.h> #include <linux/sched.h> #include <linux/kernel.h> #include <linux/locks.h> #include <linux/fcntl.h> #include <linux/mm.h> #include <asm/segment.h> #include <asm/system.h> extern int *blk_size[]; extern int *blksize_size[]; #define MAX_BUF_PER_PAGE (PAGE_SIZE / 512) #define NBUF 64 int block_write(struct inode * inode, struct file * filp, const char * buf, int count) { int blocksize, blocksize_bits, i, buffercount,write_error; int block, blocks; loff_t offset; int chars; int written = 0; struct buffer_head * bhlist[NBUF]; unsigned int size; kdev_t dev; struct buffer_head * bh, *bufferlist[NBUF]; register char * p; write_error = buffercount = 0; dev = inode->i_rdev; if ( is_read_only( inode->i_rdev )) return -EPERM; blocksize = BLOCK_SIZE; if (blksize_size[MAJOR(dev)] && blksize_size[MAJOR(dev)][MINOR(dev)]) blocksize = blksize_size[MAJOR(dev)][MINOR(dev)]; i = blocksize; blocksize_bits = 0; while(i != 1) { blocksize_bits++; i >>= 1; } block = filp->f_pos >> blocksize_bits; offset = (loff_t)filp->f_pos & (blocksize-1); if (blk_size[MAJOR(dev)]) size = ((loff_t) blk_size[MAJOR(dev)][MINOR(dev)] << BLOCK_SIZE_BITS) >> blocksize_bits; else size = INT_MAX; while (count>0) { if (block >= size) return written ? written : -ENOSPC; chars = blocksize - offset; if (chars > count) chars=count; #if 0 /* get the buffer head */ { struct buffer_head * (*fn)(kdev_t, int, int) = getblk; if (chars != blocksize) fn = bread; bh = fn(dev, block, blocksize); } #else bh = getblk(dev, block, blocksize); if (chars != blocksize && !buffer_uptodate(bh)) { if(!filp->f_reada || !read_ahead[MAJOR(dev)]) { /* We do this to force the read of a single buffer */ brelse(bh); bh = bread(dev,block,blocksize); } else { /* Read-ahead before write */ blocks = read_ahead[MAJOR(dev)] / (blocksize >> 9) / 2; if (block + blocks > size) blocks = size - block; if (blocks > NBUF) blocks=NBUF; bhlist[0] = bh; for(i=1; i<blocks; i++){ bhlist[i] = getblk (dev, block+i, blocksize); if(!bhlist[i]){ while(i >= 0) brelse(bhlist[i--]); return written ? written : -EIO; }; }; ll_rw_block(READ, blocks, bhlist); for(i=1; i<blocks; i++) brelse(bhlist[i]); wait_on_buffer(bh); }; }; #endif block++; if (!bh) return written ? written : -EIO; p = offset + bh->b_data; offset = 0; filp->f_pos += chars; written += chars; count -= chars; memcpy_fromfs(p,buf,chars); p += chars; buf += chars; mark_buffer_uptodate(bh, 1); mark_buffer_dirty(bh, 0); if (filp->f_flags & O_SYNC) bufferlist[buffercount++] = bh; else brelse(bh); if (buffercount == NBUF){ ll_rw_block(WRITE, buffercount, bufferlist); for(i=0; i<buffercount; i++){ wait_on_buffer(bufferlist[i]); if (!buffer_uptodate(bufferlist[i])) write_error=1; brelse(bufferlist[i]); } buffercount=0; } if(write_error) break; } if ( buffercount ){ ll_rw_block(WRITE, buffercount, bufferlist); for(i=0; i<buffercount; i++){ wait_on_buffer(bufferlist[i]); if (!buffer_uptodate(bufferlist[i])) write_error=1; brelse(bufferlist[i]); } } filp->f_reada = 1; if(write_error) return -EIO; return written; } int block_read(struct inode * inode, struct file * filp, char * buf, int count) { unsigned int block; loff_t offset; int blocksize; int blocksize_bits, i; unsigned int blocks, rblocks, left; int bhrequest, uptodate; struct buffer_head ** bhb, ** bhe; struct buffer_head * buflist[NBUF]; struct buffer_head * bhreq[NBUF]; unsigned int chars; loff_t size; kdev_t dev; int read; extern struct file_operations * get_blkfops(unsigned int); dev = inode->i_rdev; blocksize = BLOCK_SIZE; if (blksize_size[MAJOR(dev)] && blksize_size[MAJOR(dev)][MINOR(dev)]) blocksize = blksize_size[MAJOR(dev)][MINOR(dev)]; i = blocksize; blocksize_bits = 0; while (i != 1) { blocksize_bits++; i >>= 1; } offset = filp->f_pos; if (blk_size[MAJOR(dev)]) size = (loff_t) blk_size[MAJOR(dev)][MINOR(dev)] << BLOCK_SIZE_BITS; else size = INT_MAX; if (offset > size) left = 0; /* size - offset might not fit into left, so check explicitly. */ else if (size - offset > INT_MAX) left = INT_MAX; else left = size - offset; if (left > count) left = count; if (left <= 0) return 0; #ifdef MAGIC_ROM_PTR /* Logic: if romptr f_op is available on device, attempt to locate a * pointer into ROM for the desired data. If available, copy the data * directly to the caller's buffer. If any of this fails, proceed * with traditional approach of invoking block device. * * Note that this path only requires that the pointer (and the data * it points to) to be valid until the memcpy_tofs is complete. * * -- Kenneth Albanowski */ if (get_blkfops(MAJOR(dev))->romptr) { struct vm_area_struct vma; vma.vm_start = 0; vma.vm_offset = offset; if (!get_blkfops(MAJOR(dev))->romptr(inode, filp, &vma)) { memcpy_tofs(buf, (void*)vma.vm_start, left); filp->f_pos += count; return count; } } #endif /* MAGIC_ROM_PTR */ read = 0; block = offset >> blocksize_bits; offset &= blocksize-1; size >>= blocksize_bits; rblocks = blocks = (left + offset + blocksize - 1) >> blocksize_bits; bhb = bhe = buflist; if (filp->f_reada) { if (blocks < read_ahead[MAJOR(dev)] / (blocksize >> 9)) blocks = read_ahead[MAJOR(dev)] / (blocksize >> 9); if (rblocks > blocks) blocks = rblocks; } if (block + blocks > size) { blocks = size - block; if (blocks == 0) return 0; } /* We do this in a two stage process. We first try to request as many blocks as we can, then we wait for the first one to complete, and then we try to wrap up as many as are actually done. This routine is rather generic, in that it can be used in a filesystem by substituting the appropriate function in for getblk. This routine is optimized to make maximum use of the various buffers and caches. */ do { bhrequest = 0; uptodate = 1; while (blocks) { --blocks; *bhb = getblk(dev, block++, blocksize); if (*bhb && !buffer_uptodate(*bhb)) { uptodate = 0; bhreq[bhrequest++] = *bhb; } if (++bhb == &buflist[NBUF]) bhb = buflist; /* If the block we have on hand is uptodate, go ahead and complete processing. */ if (uptodate) break; if (bhb == bhe) break; } /* Now request them all */ if (bhrequest) { ll_rw_block(READ, bhrequest, bhreq); } do { /* Finish off all I/O that has actually completed */ if (*bhe) { wait_on_buffer(*bhe); if (!buffer_uptodate(*bhe)) { /* read error? */ brelse(*bhe); if (++bhe == &buflist[NBUF]) bhe = buflist; left = 0; break; } } if (left < blocksize - offset) chars = left; else chars = blocksize - offset; filp->f_pos += chars; left -= chars; read += chars; if (*bhe) { memcpy_tofs(buf,offset+(*bhe)->b_data,chars); brelse(*bhe); buf += chars; } else { while (chars-- > 0) put_user(0,buf++); } offset = 0; if (++bhe == &buflist[NBUF]) bhe = buflist; } while (left > 0 && bhe != bhb && (!*bhe || !buffer_locked(*bhe))); } while (left > 0); /* Release the read-ahead blocks */ while (bhe != bhb) { brelse(*bhe); if (++bhe == &buflist[NBUF]) bhe = buflist; }; if (!read) return -EIO; filp->f_reada = 1; return read; } void invalidate_buffers_by_byte(kdev_t dev, unsigned long pos, unsigned long len) { int blocksize; int startblock, endblock; blocksize = BLOCK_SIZE; if (blksize_size[MAJOR(dev)] && blksize_size[MAJOR(dev)][MINOR(dev)]) blocksize = blksize_size[MAJOR(dev)][MINOR(dev)]; startblock = pos / blocksize; endblock = (pos+len-1) / blocksize; invalidate_buffers_by_block(dev, startblock, endblock-startblock+1); } int block_fsync(struct inode *inode, struct file *filp) { return fsync_dev (inode->i_rdev); }
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