FreeCalypso > hg > freecalypso-tools
view ffstools/tiffs-mkfs/output.c @ 921:74d284add54d
fc-fsio: guard against bogus readdir results from the target
If the FFS being operated on contains SE K2x0 extended filenames,
readdir will return strings that are bad for printing. We need to
guard against this possibility, and also against possible other
bogosity that could be sent by other alien firmwares.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 31 Dec 2022 22:55:23 +0000 |
| parents | 178ed445021d |
| children |
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#include <sys/types.h> #include <sys/param.h> #include <sys/file.h> #include <stdio.h> #include <stdint.h> #include <endian.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include <unistd.h> #include "struct.h" #include "globals.h" u_char tiffs_header[6] = {'F', 'f', 's', '#', 0x10, 0x02}; void prepare_output_buffers() { inode_block = malloc(ffs_sector_size); if (!inode_block) { perror("malloc of inode block buffer"); exit(1); } memset(inode_block, 0xFF, ffs_sector_size); bcopy(tiffs_header, inode_block, 6); inode_block[8] = 0xAB; inode_array = (struct tiffs_inode *) inode_block; inode_fill_level = 1; data_block = malloc(ffs_sector_size); if (!data_block) { perror("malloc of data block buffer"); exit(1); } memset(data_block, 0xFF, ffs_sector_size); bcopy(tiffs_header, data_block, 6); data_block[8] = 0xBD; data_fill_level = 0x10; objects_in_block = 0; chunk_buffer = malloc(chunk_size_max); if (!chunk_buffer) { perror("malloc of file chunk buffer"); exit(1); } } void open_output_file() { output_fd = open(output_filename, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (output_fd < 0) { perror(output_filename); exit(1); } lseek(output_fd, (off_t) ffs_sector_size, SEEK_SET); } void write_out_block(buf) u_char *buf; { if (write(output_fd, buf, ffs_sector_size) != ffs_sector_size) { perror("write of sector bits to output file"); exit(1); } } void flush_data_block() { write_out_block(data_block); blocks_written++; memset(data_block + 0x10, 0xFF, ffs_sector_size - 0x10); data_fill_level = 0x10; objects_in_block = 0; } create_object(name, type, data, datalen) char *name; u_char *data; unsigned datalen; { int ino; struct tiffs_inode *inp; unsigned size, location; u_char *dp; if (inode_fill_level >= (ffs_sector_size >> 4)) { fprintf(stderr, "error: inode block is full\n"); exit(1); } ino = inode_fill_level++; inp = inode_array + ino; if (name) size = strlen(name) + 1; else size = 0; if (datalen) size += datalen + 1; size = (size + 15) & ~15; if (ffs_sector_size - data_fill_level < size || objects_in_block >= block_files_max) flush_data_block(); if (blocks_written >= ffs_nsectors - 2) { fprintf(stderr, "error: wrote max number of data blocks\n"); exit(1); } location = (blocks_written + 1) * ffs_sector_size + data_fill_level; /* write the data */ dp = data_block + data_fill_level; if (name) { strcpy(dp, name); dp += strlen(name) + 1; } if (datalen) { if (data) bcopy(data, dp, datalen); dp += datalen; *dp++ = 0; } /* fill the inode */ inp->size = htole16(size); inp->type = type; inp->location = htole32(location >> 4); inp->sequence = htole16(ino - 1); inp->updates = 0; /* accounting */ data_fill_level += size; objects_in_block++; return ino; } void create_root_dir() { int rootino; rootino = create_object(format_name, OBJTYPE_DIR, (u_char *) 0, 0); root.u.d.ffs_link_ptr = &inode_array[rootino].child; } create_file_object(to) struct tree_object *to; { int fd, cc; int head, seg; struct tiffs_inode *inp; fd = open(to->u.f.host_pathname, O_RDONLY); if (fd < 0) { perror(to->u.f.host_pathname); exit(1); } cc = read(fd, chunk_buffer, chunk_size_max); if (cc < 0) { read_err: perror("error reading file content"); exit(1); } if (cc == 0) { /* zero length file */ close(fd); return create_object(to->name, OBJTYPE_FILE, (u_char *) 0, 0); } head = create_object(to->name, OBJTYPE_FILE, chunk_buffer, cc); inp = inode_array + head; for (;;) { cc = read(fd, chunk_buffer, chunk_size_max); if (cc < 0) goto read_err; if (cc == 0) break; seg = create_object((char *) 0, OBJTYPE_SEGMENT, chunk_buffer, cc); inp->child = htole16(seg); inp = inode_array + seg; } close(fd); return head; } create_subdir(to) struct tree_object *to; { int ino; ino = create_object(to->name, OBJTYPE_DIR, (u_char *) 0, 0); to->u.d.ffs_link_ptr = &inode_array[ino].child; return ino; } void process_dir_level(dto) struct tree_object *dto; { unsigned n; struct tree_object *cto; int child_ino; for (n = 0; n < dto->u.d.nchildren; n++) { cto = dto->u.d.children[n]; if (cto->is_dir) { child_ino = create_subdir(cto); process_dir_level(cto); } else child_ino = create_file_object(cto); *dto->u.d.ffs_link_ptr = htole16(child_ino); dto->u.d.ffs_link_ptr = &inode_array[child_ino].sibling; } } void create_journal() { int ino; ino = create_object(".journal", OBJTYPE_FILE_RO, (u_char *) 0, journal_size); *root.u.d.ffs_link_ptr = htole16(ino); root.u.d.ffs_link_ptr = &inode_array[ino].sibling; } void finish_output() { if (objects_in_block) flush_data_block(); while (blocks_written < ffs_nsectors - 2) { write_out_block(data_block); blocks_written++; } /* free block at the end */ data_block[8] = 0xBF; write_out_block(data_block); /* write out the inode block */ lseek(output_fd, (off_t) 0, SEEK_SET); write_out_block(inode_block); }