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author | Rob Landley <rob@landley.net> | 2007-01-29 17:44:28 -0500 |
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committer | Rob Landley <rob@landley.net> | 2007-01-29 17:44:28 -0500 |
commit | 9568d5afcfea1b5a5019c23e25bba33283970f30 (patch) | |
tree | 1d307aa95d15ba216fecfb93518bc26f39af8233 /toys/mke2fs.c | |
parent | 3ac8d261fd430c45f4827570cb5146336cbc656a (diff) | |
download | toybox-9568d5afcfea1b5a5019c23e25bba33283970f30.tar.gz |
mke2fs: Stopping for dinner. It compiles.
Diffstat (limited to 'toys/mke2fs.c')
-rw-r--r-- | toys/mke2fs.c | 132 |
1 files changed, 99 insertions, 33 deletions
diff --git a/toys/mke2fs.c b/toys/mke2fs.c index 6b13dd01..28aea87a 100644 --- a/toys/mke2fs.c +++ b/toys/mke2fs.c @@ -116,41 +116,65 @@ static void init_superblock(struct ext2_superblock *sb) sb->state = sb->errors = SWAP_LE16(1); sb->rev_level = SWAP_LE32(1); + sb->first_ino = SWAP_LE32(11); // First 10 reserved for special uses. sb->inode_size = SWAP_LE16(sizeof(struct ext2_inode)); sb->feature_incompat = SWAP_LE32(EXT2_FEATURE_INCOMPAT_FILETYPE); sb->feature_ro_compat = SWAP_LE32(EXT2_FEATURE_RO_COMPAT_SPARSE_SUPER); create_uuid(sb->uuid); - // If we're called as mke3fs or mkfs.ext3, do a journal. + // TODO If we're called as mke3fs or mkfs.ext3, do a journal. //if (strchr(toys.which->name,'3')) // sb->feature_compat = SWAP_LE32(EXT3_FEATURE_COMPAT_HAS_JOURNAL); + + // TODO fill out free_blocks, free_inodes, first_ino } // Number of blocks used in this group by superblock/group list backup. // Returns 0 if this group doesn't have a superblock backup. static int group_superblock_used(uint32_t group) { - int used ; + int used = 0, i; + + // Superblock backups are on groups 0, 1, and powers of 3, 5, and 7. + if(!group || group==1) used++; + for (i=3; i<9; i+=2) { + int j = i; + while (j<group) j*=i; + if (j==group) used++; + } - if (0) return 0; // todo, which groups have no superblock? - - // How blocks does the group table take up? - used = TT.groups * sizeof(struct ext2_group); - used += TT.blocksize - 1; - used /= TT.blocksize; - // Plus the superblock itself. - used++; - // And a corner case. - if (!group && TT.blocksize == 1024) used++; + if (used) { + // How blocks does the group table take up? + used = TT.groups * sizeof(struct ext2_group); + used += TT.blocksize - 1; + used /= TT.blocksize; + // Plus the superblock itself. + used++; + // And a corner case. + if (!group && TT.blocksize == 1024) used++; + } return used; } +static void bits_set(char *array, int start, int len) +{ + while(len) { + if ((start&7) || len<8) { + array[start/8]|=(1<<(start&7)); + start++; + } else { + array[start/8]=255; + start+=8; + } + } +} + int mke2fs_main(void) { - int i, temp; + int i, temp, blockbits; off_t length; // Handle command line arguments. @@ -160,7 +184,7 @@ int mke2fs_main(void) temp = O_RDWR|O_CREAT; } else temp = O_RDWR; - // TODO: collect gene2fs list, calculate requirements. + // TODO: collect gene2fs list/lost+found, calculate requirements. // TODO: Check if filesystem is mounted here @@ -170,9 +194,9 @@ int mke2fs_main(void) // Determine appropriate block size and block count from file length. length = fdlength(TT.fsfd); - if (length<1) error_exit("gene2fs is a todo item"); if (!TT.blocksize) TT.blocksize = (length && length < 1<<29) ? 1024 : 4096; if (!TT.blocks) TT.blocks = length/TT.blocksize; + if (!TT.blocks) error_exit("gene2fs is a TODO item"); // Skip the first 1k to avoid the boot sector (if any). Use this to // figure out if this file is seekable. @@ -184,14 +208,19 @@ int mke2fs_main(void) // Initialize superblock structure init_superblock(&TT.sb); + blockbits = 8*TT.blocksize; // Loop through block groups. for (i=0; i<TT.groups; i++) { + struct ext2_inode *in = (struct ext2_inode *)toybuf; + uint32_t start; + int j, slot; + // If a superblock goes here, write it out. - if (group_superblock_used(i)) { + start = group_superblock_used(i); + if (start) { struct ext2_group *bg = (struct ext2_group *)toybuf; - int j; TT.sb.block_group_nr = SWAP_LE16(i); @@ -204,16 +233,15 @@ int mke2fs_main(void) // Loop through groups to write group descriptor table. for(j=0; j<TT.groups; j++) { - uint32_t start, used, k; + uint32_t used; // Figure out what sector this group starts in. - start = j*TT.blocksize*8; used = group_superblock_used(j); // Find next array slot in this block (flush block if full). - k = j % (TT.blocksize/sizeof(struct ext2_group)); - if (!k) { - if (j) write(TT.fsfd, bg, TT.blocksize); + slot = j % (TT.blocksize/sizeof(struct ext2_group)); + if (!slot) { + if (j) xwrite(TT.fsfd, bg, TT.blocksize); memset(bg, 0, TT.blocksize); } @@ -221,22 +249,60 @@ int mke2fs_main(void) // is uint16_t. Add in endianness conversion and this little // dance is called for. temp = SWAP_LE32(TT.sb.inodes_per_group); - bg[k].free_inodes_count = SWAP_LE16(temp); + bg[slot].free_inodes_count = SWAP_LE16(temp); - // How many blocks used by inode table? + // How many blocks will the inode table use? temp *= sizeof(struct ext2_inode); temp /= TT.blocksize; - // Fill out rest of group structure - bg[k].block_bitmap = SWAP_LE32(start+(used++)); - bg[k].inode_bitmap = SWAP_LE32(start+(used++)); - bg[k].inode_table = SWAP_LE32(start+used); - temp = (TT.blocksize*8)-used-temp; - bg[k].free_blocks_count = SWAP_LE32(temp); - bg[k].used_dirs_count = 0; + // How many does that leave? (TODO: fill it up) + temp = blockbits-used-temp; + bg[slot].free_blocks_count = SWAP_LE32(temp); + + // Fill out rest of group structure (TODO: gene2fs allocation) + used += j*blockbits; + bg[slot].block_bitmap = SWAP_LE32(used++); + bg[slot].inode_bitmap = SWAP_LE32(used++); + bg[slot].inode_table = SWAP_LE32(used); + bg[slot].used_dirs_count = 0; // (TODO) + } + xwrite(TT.fsfd, bg, TT.blocksize); + } + + // Now write out stuff that every block group has. + + // Write block usage bitmap (TODO: fill it) + + // Blocks used by inode table + temp = (TT.inodes/TT.groups)*sizeof(struct ext2_inode); + temp += TT.blocksize-1; + temp /= TT.blocksize; + + memset(toybuf, 0, TT.blocksize); + bits_set(toybuf, 0, start+temp); + if ((i+1)*TT.blocksize*8 > TT.blocks) { + temp = TT.blocks & (blockbits-1); + bits_set(toybuf, temp, blockbits-temp); + } + xwrite(TT.fsfd, toybuf, TT.blocksize); + + temp = TT.inodes/TT.groups; + + // Write inode bitmap (TODO) + memset(toybuf, 0, TT.blocksize); + if (!i) bits_set(toybuf,0,10); + bits_set(toybuf, temp, blockbits-temp); + xwrite(TT.fsfd, toybuf, TT.blocksize); + + // Write inode table for this group + for (j = 0; j<temp; j++) { + slot = j % (TT.blocksize/sizeof(struct ext2_inode)); + if (!slot) { + if (j) xwrite(TT.fsfd, in, TT.blocksize); + memset(in, 0, TT.blocksize); } - write(TT.fsfd, bg, TT.blocksize); - } + } + xwrite(TT.fsfd, in, TT.blocksize); } return 0; |