Hello, I've finally got to writing up some proposal how could look system calls allowing for online filesystem defragmentation and generally moving file blocks around for improving performance. Comments are welcome. Honza int sys_movedata(int datafd, int spacefd, loff_t from, size_t len) The call takes blocks used to carry data starting at offset @from of length @len in @spacefd and places them instead of corresponding blocks in @datafd. Data is copied from @datafd to newly spliced data blocks. If @spacefd contains a hole in the specified interval, a hole is created also in @datafd in the corresponding place. A data block from @spacefd and also replace a hole in @datafd - zeros are copied to such data block. @from and @len should be multiples of filesystem block size (otherwise EINVAL is returned). Data blocks from @datafd in the interval are released, a hole is created in @spacefd. The call returns either 0 (success) or an error code. Another possibility would be to just replace data blocks without any copying of data (that would have to be done by the caller to before calling sys_movedata()). The problem here is how to avoid data loss if someone writes to the file after userspace has copied the data and before sys_movedata() is called. ssize_t sys_allocate(int fd, int mode, loff_t goal, ssize_t len) Allocate new space to file @fd at offset defined by file position. Both file offset and @len should be a multiple of filesystem block size. The whole interval must not contain any allocated blocks. If the interval extends past EOF, the file size is changed accordingly. @mode defines a way the filesystem will search for blocks. @mode is a bitwise OR of the following flags: ALLOC_FIXED_START - allocation must start at @goal; if not specified, @goal is just a hint where to start an allocation ALLOC_FIXED_LEN - allocate exactly space for @len; if not specified, upto @len bytes may be allocated. ALLOC_CONTINGUOUS - allocation must be one continguous run of blocks If the allocation succeeds, number of allocated bytes is returned. Otherwise an error code is returned. The following syscall may be also useful - although I'm not completely convinced this is the right way to go. But on the other hand, disk optimizer should have a way to find out about free space so that he can decide what and where is beneficial to move. int sys_get_free_blocks(const char *fs, loff_t start, loff_t end, int count, struct alloc_extent *space) Get a description of free space on a filesystem between @start and @end (in bytes, should be blocksize aligned). @fs is a path where the filesystem is mounted (I guess it's better than dev_t, isn't it?). @space is a pointer to an array of 'struct alloc_extent'. In each struct alloc_extent is stored description of one extent of free space. Upto @count extents are stored. struct alloc_extent { loff_t start; size_t len; }; Function returns a number of extents stored. Note that the result of the function is unreliable as the space can be already allocated by the time system call returns. -- Jan Kara <jack@xxxxxxx> SuSE CR Labs - To unsubscribe from this list: send the line "unsubscribe linux-ext4" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html