From 71478fd62d8483483abb34609cdabb7f9cbadfd6 Mon Sep 17 00:00:00 2001 From: root Date: Sat, 19 Dec 2015 14:18:43 +0000 Subject: Add hostTools from https://github.com/Noltari/cfe_bcm63xx --- hostTools/cramfs/mkcramfs.cpp | 1049 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1049 insertions(+) create mode 100644 hostTools/cramfs/mkcramfs.cpp (limited to 'hostTools/cramfs') diff --git a/hostTools/cramfs/mkcramfs.cpp b/hostTools/cramfs/mkcramfs.cpp new file mode 100644 index 0000000..614bcce --- /dev/null +++ b/hostTools/cramfs/mkcramfs.cpp @@ -0,0 +1,1049 @@ +/* + * mkcramfs - make a cramfs file system + * + * Copyright (C) 1999-2002 Transmeta Corporation + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/* + * If you change the disk format of cramfs, please update fs/cramfs/README. + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/* BRCM Modification start */ +#include "7z.h" +/* BRCM Modification end */ + +/* Exit codes used by mkfs-type programs */ +#define MKFS_OK 0 /* No errors */ +#define MKFS_ERROR 8 /* Operational error */ +#define MKFS_USAGE 16 /* Usage or syntax error */ + +/* The kernel only supports PAD_SIZE of 0 and 512. */ +#define PAD_SIZE 512 + +/* The kernel assumes PAGE_CACHE_SIZE as block size. */ +#define PAGE_CACHE_SIZE (4096) + +/* + * The longest filename component to allow for in the input directory tree. + * ext2fs (and many others) allow up to 255 bytes. A couple of filesystems + * allow longer (e.g. smbfs 1024), but there isn't much use in supporting + * >255-byte names in the input directory tree given that such names get + * truncated to CRAMFS_MAXPATHLEN (252 bytes) when written to cramfs. + * + * Old versions of mkcramfs generated corrupted filesystems if any input + * filenames exceeded CRAMFS_MAXPATHLEN (252 bytes), however old + * versions of cramfsck seem to have been able to detect the corruption. + */ +#define MAX_INPUT_NAMELEN 255 + +/* + * Maximum size fs you can create is roughly 256MB. (The last file's + * data must begin within 256MB boundary but can extend beyond that.) + * + * Note that if you want it to fit in a ROM then you're limited to what the + * hardware and kernel can support. + */ +#define MAXFSLEN ((((1 << CRAMFS_OFFSET_WIDTH) - 1) << 2) /* offset */ \ + + (1 << CRAMFS_SIZE_WIDTH) - 1 /* filesize */ \ + + (1 << CRAMFS_SIZE_WIDTH) * 4 / PAGE_CACHE_SIZE /* block pointers */ ) + +static const char *progname = "mkcramfs"; +static unsigned int blksize = PAGE_CACHE_SIZE; +static long total_blocks = 0, total_nodes = 1; /* pre-count the root node */ +static int image_length = 0; + +/* + * If opt_holes is set, then mkcramfs can create explicit holes in the + * data, which saves 26 bytes per hole (which is a lot smaller a + * saving than most most filesystems). + * + * Note that kernels up to at least 2.3.39 don't support cramfs holes, + * which is why this is turned off by default. + * + * If opt_verbose is 1, be verbose. If it is higher, be even more verbose. + */ +static u32 opt_edition = 0; +static int opt_errors = 0; +static int opt_holes = 0; +static int opt_pad = 0; +static int opt_verbose = 0; +static char *opt_image = NULL; +static char *opt_name = NULL; +static int swap_endian = 0; +/* BRCM Modification start */ +static int opt_gzip = 0; +static int opt_compression_level = 1; +/* BRCM Modification end */ + + +static int warn_dev, warn_gid, warn_namelen, warn_skip, warn_size, warn_uid; + +/* In-core version of inode / directory entry. */ +struct entry { + /* stats */ + unsigned char *name; + unsigned int mode, size, uid, gid; + + /* these are only used for non-empty files */ + char *path; /* always null except non-empty files */ + int fd; /* temporarily open files while mmapped */ + + /* FS data */ + void *uncompressed; + /* points to other identical file */ + struct entry *same; + unsigned int offset; /* pointer to compressed data in archive */ + unsigned int dir_offset; /* Where in the archive is the directory entry? */ + + /* organization */ + struct entry *child; /* null for non-directories and empty directories */ + struct entry *next; +}; + +/* Input status of 0 to print help and exit without an error. */ +static void usage(int status) +{ + FILE *stream = status ? stderr : stdout; + + fprintf(stream, "usage: %s [-h] [-e edition] [-i file] [-n name] dirname outfile\n" + " -h print this help\n" + " -E make all warnings errors (non-zero exit status)\n" + " -e edition set edition number (part of fsid)\n" + " -g use gzip compression\n" + " -i file insert a file image into the filesystem (requires >= 2.4.0)\n" + " -l level set compression level\n" + " -n name set name of cramfs filesystem\n" + " -p pad by %d bytes for boot code\n" + " -r reverse endian-ness of filesystem\n" + " -s sort directory entries (old option, ignored)\n" + " -v be more verbose\n" + " -z make explicit holes (requires >= 2.3.39)\n" + " dirname root of the directory tree to be compressed\n" + " outfile output file\n", progname, PAD_SIZE); + + exit(status); +} + +static void die(int status, int syserr, const char *fmt, ...) +{ + va_list arg_ptr; + int save = errno; + + fflush(0); + va_start(arg_ptr, fmt); + fprintf(stderr, "%s: ", progname); + vfprintf(stderr, fmt, arg_ptr); + if (syserr) { + fprintf(stderr, ": %s", strerror(save)); + } + fprintf(stderr, "\n"); + va_end(arg_ptr); + exit(status); +} + +static void map_entry(struct entry *entry) +{ + if (entry->path) { + entry->fd = open(entry->path, O_RDONLY); + if (entry->fd < 0) { + die(MKFS_ERROR, 1, "open failed: %s", entry->path); + } + entry->uncompressed = mmap(NULL, entry->size, PROT_READ, MAP_PRIVATE, entry->fd, 0); + if (entry->uncompressed == MAP_FAILED) { + die(MKFS_ERROR, 1, "mmap failed: %s", entry->path); + } + } +} + +static void unmap_entry(struct entry *entry) +{ + if (entry->path) { + if (munmap(entry->uncompressed, entry->size) < 0) { + die(MKFS_ERROR, 1, "munmap failed: %s", entry->path); + } + close(entry->fd); + } +} + +static int find_identical_file(struct entry *orig, struct entry *newfile) +{ + if (orig == newfile) + return 1; + if (!orig) + return 0; + if (orig->size == newfile->size && (orig->path || orig->uncompressed)) + { + map_entry(orig); + map_entry(newfile); + if (!memcmp(orig->uncompressed, newfile->uncompressed, orig->size)) + { + newfile->same = orig; + unmap_entry(newfile); + unmap_entry(orig); + return 1; + } + unmap_entry(newfile); + unmap_entry(orig); + } + return (find_identical_file(orig->child, newfile) || + find_identical_file(orig->next, newfile)); +} + +static void eliminate_doubles(struct entry *root, struct entry *orig) { + if (orig) { + if (orig->size && (orig->path || orig->uncompressed)) + find_identical_file(root, orig); + eliminate_doubles(root, orig->child); + eliminate_doubles(root, orig->next); + } +} + +/* + * We define our own sorting function instead of using alphasort which + * uses strcoll and changes ordering based on locale information. + */ +static int cramsort (const void *a, const void *b) +{ + return strcmp ((*(const struct dirent **) a)->d_name, + (*(const struct dirent **) b)->d_name); +} + +static unsigned int parse_directory(struct entry *root_entry, const char *name, struct entry **prev, loff_t *fslen_ub) +{ + struct dirent **dirlist; + int totalsize = 0, dircount, dirindex; + char *path, *endpath; + size_t len = strlen(name); + + /* Set up the path. */ + /* TODO: Reuse the parent's buffer to save memcpy'ing and duplication. */ + path = (char *)malloc(len + 1 + MAX_INPUT_NAMELEN + 1); + if (!path) { + die(MKFS_ERROR, 1, "malloc failed"); + } + memcpy(path, name, len); + endpath = path + len; + *endpath = '/'; + endpath++; + + /* read in the directory and sort */ + dircount = scandir(name, &dirlist, 0, cramsort); + + if (dircount < 0) { + die(MKFS_ERROR, 1, "scandir failed: %s", name); + } + + /* process directory */ + for (dirindex = 0; dirindex < dircount; dirindex++) { + struct dirent *dirent; + struct entry *entry; + struct stat st; + int size; + size_t namelen; + + dirent = dirlist[dirindex]; + + /* Ignore "." and ".." - we won't be adding them to the archive */ + if (dirent->d_name[0] == '.') { + if (dirent->d_name[1] == '\0') + continue; + if (dirent->d_name[1] == '.') { + if (dirent->d_name[2] == '\0') + continue; + } + } + namelen = strlen(dirent->d_name); + if (namelen > MAX_INPUT_NAMELEN) { + die(MKFS_ERROR, 0, + "very long (%u bytes) filename found: %s\n" + "please increase MAX_INPUT_NAMELEN in mkcramfs.c and recompile", + namelen, dirent->d_name); + } + memcpy(endpath, dirent->d_name, namelen + 1); + + if (lstat(path, &st) < 0) { + warn_skip = 1; + continue; + } + entry = (struct entry *)calloc(1, sizeof(struct entry)); + if (!entry) { + die(MKFS_ERROR, 1, "calloc failed"); + } + entry->name = (unsigned char *)strdup(dirent->d_name); + if (!entry->name) { + die(MKFS_ERROR, 1, "strdup failed"); + } + /* truncate multi-byte UTF-8 filenames on character boundary */ + if (namelen > CRAMFS_MAXPATHLEN) { + namelen = CRAMFS_MAXPATHLEN; + warn_namelen = 1; + /* the first lost byte must not be a trail byte */ + while ((entry->name[namelen] & 0xc0) == 0x80) { + namelen--; + /* are we reasonably certain it was UTF-8 ? */ + if (entry->name[namelen] < 0x80 || !namelen) { + die(MKFS_ERROR, 0, "cannot truncate filenames not encoded in UTF-8"); + } + } + entry->name[namelen] = '\0'; + } + entry->mode = st.st_mode; + entry->size = st.st_size; + entry->uid = st.st_uid; + if (entry->uid >= 1 << CRAMFS_UID_WIDTH) + warn_uid = 1; + entry->gid = st.st_gid; + if (entry->gid >= 1 << CRAMFS_GID_WIDTH) + /* TODO: We ought to replace with a default + gid instead of truncating; otherwise there + are security problems. Maybe mode should + be &= ~070. Same goes for uid once Linux + supports >16-bit uids. */ + warn_gid = 1; + size = sizeof(struct cramfs_inode) + ((namelen + 3) & ~3); + *fslen_ub += size; + if (S_ISDIR(st.st_mode)) { + entry->size = parse_directory(root_entry, path, &entry->child, fslen_ub); + } else if (S_ISREG(st.st_mode)) { + if (entry->size) { + if (access(path, R_OK) < 0) { + warn_skip = 1; + continue; + } + entry->path = strdup(path); + if (!entry->path) { + die(MKFS_ERROR, 1, "strdup failed"); + } + if ((entry->size >= 1 << CRAMFS_SIZE_WIDTH)) { + warn_size = 1; + entry->size = (1 << CRAMFS_SIZE_WIDTH) - 1; + } + } + } else if (S_ISLNK(st.st_mode)) { + entry->uncompressed = malloc(entry->size); + if (!entry->uncompressed) { + die(MKFS_ERROR, 1, "malloc failed"); + } + if (readlink(path, (char *)entry->uncompressed, entry->size) < 0) { + warn_skip = 1; + continue; + } + } else if (S_ISFIFO(st.st_mode) || S_ISSOCK(st.st_mode)) { + /* maybe we should skip sockets */ + entry->size = 0; + } else if (S_ISCHR(st.st_mode) || S_ISBLK(st.st_mode)) { + entry->size = st.st_rdev; + if (entry->size & -(1<name); + } + + if (S_ISREG(st.st_mode) || S_ISLNK(st.st_mode)) { + int blocks = ((entry->size - 1) / blksize + 1); + + /* block pointers & data expansion allowance + data */ + if (entry->size) + *fslen_ub += (4+26)*blocks + entry->size + 3; + } + + /* Link it into the list */ + *prev = entry; + prev = &entry->next; + totalsize += size; + } + free(path); + free(dirlist); /* allocated by scandir() with malloc() */ + return totalsize; +} + +/* routines to swap endianness/bitfields in inode/superblock block data */ +static void fix_inode(struct cramfs_inode *inode) +{ +#define wswap(x) (((x)>>24) | (((x)>>8)&0xff00) | (((x)&0xff00)<<8) | (((x)&0xff)<<24)) + /* attempt #2 */ + inode->mode = (inode->mode >> 8) | ((inode->mode&0xff)<<8); + inode->uid = (inode->uid >> 8) | ((inode->uid&0xff)<<8); + inode->size = (inode->size >> 16) | (inode->size&0xff00) | + ((inode->size&0xff)<<16); + ((u32*)inode)[2] = wswap(inode->offset | (inode->namelen<<26)); +} + +static void fix_offset(struct cramfs_inode *inode, u32 offset) +{ + u32 tmp = wswap(((u32*)inode)[2]); + ((u32*)inode)[2] = wswap((offset >> 2) | (tmp&0xfc000000)); +} + +static void fix_block_pointer(u32 *p) +{ + *p = wswap(*p); +} + +static void fix_super(struct cramfs_super *super) +{ + u32 *p = (u32*)super; + + /* fix superblock fields */ + p[0] = wswap(p[0]); /* magic */ + p[1] = wswap(p[1]); /* size */ + p[2] = wswap(p[2]); /* flags */ + p[3] = wswap(p[3]); /* future */ + + /* fix filesystem info fields */ + p = (u32*)&super->fsid; + p[0] = wswap(p[0]); /* crc */ + p[1] = wswap(p[1]); /* edition */ + p[2] = wswap(p[2]); /* blocks */ + p[3] = wswap(p[3]); /* files */ + + fix_inode(&super->root); +#undef wswap +} + +/* Returns sizeof(struct cramfs_super), which includes the root inode. */ +static unsigned int write_superblock(struct entry *root, char *base, int size) +{ + struct cramfs_super *super = (struct cramfs_super *) base; + unsigned int offset = sizeof(struct cramfs_super) + image_length; + + offset += opt_pad; /* 0 if no padding */ + + super->magic = CRAMFS_MAGIC; + super->flags = CRAMFS_FLAG_FSID_VERSION_2 | CRAMFS_FLAG_SORTED_DIRS; + if (opt_holes) + super->flags |= CRAMFS_FLAG_HOLES; + if (image_length > 0) + super->flags |= CRAMFS_FLAG_SHIFTED_ROOT_OFFSET; + super->size = size; + memcpy(super->signature, CRAMFS_SIGNATURE, sizeof(super->signature)); + + super->fsid.crc = crc32(0L, Z_NULL, 0); + super->fsid.edition = opt_edition; + super->fsid.blocks = total_blocks; + super->fsid.files = total_nodes; + + memset(super->name, 0x00, sizeof(super->name)); + if (opt_name) + strncpy((char *)super->name, opt_name, sizeof(super->name)); + else + strncpy((char *)super->name, "Compressed", sizeof(super->name)); + + super->root.mode = root->mode; + super->root.uid = root->uid; + super->root.gid = root->gid; + super->root.size = root->size; + super->root.offset = offset >> 2; + if (swap_endian) fix_super(super); + + return offset; +} + +static void set_data_offset(struct entry *entry, char *base, unsigned long offset) +{ + struct cramfs_inode *inode = (struct cramfs_inode *) (base + entry->dir_offset); + + if ((offset & 3) != 0) { + die(MKFS_ERROR, 0, "illegal offset of %lu bytes", offset); + } + if (offset >= (1 << (2 + CRAMFS_OFFSET_WIDTH))) { + die(MKFS_ERROR, 0, "filesystem too big"); + } + if (swap_endian) + fix_offset(inode, offset); + else + inode->offset = (offset >> 2); +} + +/* + * TODO: Does this work for chars >= 0x80? Most filesystems use UTF-8 + * encoding for filenames, whereas the console is a single-byte + * character set like iso-latin-1. + */ +static void print_node(struct entry *e) +{ + char info[10]; + char type = '?'; + + if (S_ISREG(e->mode)) type = 'f'; + else if (S_ISDIR(e->mode)) type = 'd'; + else if (S_ISLNK(e->mode)) type = 'l'; + else if (S_ISCHR(e->mode)) type = 'c'; + else if (S_ISBLK(e->mode)) type = 'b'; + else if (S_ISFIFO(e->mode)) type = 'p'; + else if (S_ISSOCK(e->mode)) type = 's'; + + if (S_ISCHR(e->mode) || (S_ISBLK(e->mode))) { + /* major/minor numbers can be as high as 2^12 or 4096 */ + snprintf(info, 10, "%4d,%4d", major(e->size), minor(e->size)); + } + else { + /* size be as high as 2^24 or 16777216 */ + snprintf(info, 10, "%9d", e->size); + } + + printf("%c %04o %s %5d:%-3d %s\n", + type, e->mode & ~S_IFMT, info, e->uid, e->gid, e->name); +} + +/* + * We do a width-first printout of the directory + * entries, using a stack to remember the directories + * we've seen. + */ +static unsigned int write_directory_structure(struct entry *entry, char *base, unsigned int offset) +{ + int stack_entries = 0; + int stack_size = 64; + struct entry **entry_stack; + + entry_stack = (struct entry **)malloc(stack_size * sizeof(struct entry *)); + if (!entry_stack) { + die(MKFS_ERROR, 1, "malloc failed"); + } + + if (opt_verbose) { + printf("root:\n"); + } + + for (;;) { + int dir_start = stack_entries; + while (entry) { + struct cramfs_inode *inode = (struct cramfs_inode *) (base + offset); + size_t len = strlen((const char *)entry->name); + + entry->dir_offset = offset; + + inode->mode = entry->mode; + inode->uid = entry->uid; + inode->gid = entry->gid; + inode->size = entry->size; + inode->offset = 0; + /* Non-empty directories, regfiles and symlinks will + write over inode->offset later. */ + + offset += sizeof(struct cramfs_inode); + total_nodes++; /* another node */ + memcpy(base + offset, entry->name, len); + /* Pad up the name to a 4-byte boundary */ + while (len & 3) { + *(base + offset + len) = '\0'; + len++; + } + inode->namelen = len >> 2; + offset += len; + + if (opt_verbose) + print_node(entry); + + if (entry->child) { + if (stack_entries >= stack_size) { + stack_size *= 2; + entry_stack = (struct entry **)realloc(entry_stack, stack_size * sizeof(struct entry *)); + if (!entry_stack) { + die(MKFS_ERROR, 1, "realloc failed"); + } + } + entry_stack[stack_entries] = entry; + stack_entries++; + } + entry = entry->next; + if (swap_endian) fix_inode(inode); + } + + /* + * Reverse the order the stack entries pushed during + * this directory, for a small optimization of disk + * access in the created fs. This change makes things + * `ls -UR' order. + */ + { + struct entry **lo = entry_stack + dir_start; + struct entry **hi = entry_stack + stack_entries; + struct entry *tmp; + + while (lo < --hi) { + tmp = *lo; + *lo++ = *hi; + *hi = tmp; + } + } + + /* Pop a subdirectory entry from the stack, and recurse. */ + if (!stack_entries) + break; + stack_entries--; + entry = entry_stack[stack_entries]; + + set_data_offset(entry, base, offset); + if (opt_verbose) { + printf("%s:\n", entry->name); + } + entry = entry->child; + } + free(entry_stack); + return offset; +} + +static int is_zero(char const *begin, unsigned len) +{ + /* Returns non-zero iff the first LEN bytes from BEGIN are all NULs. */ + return (len-- == 0 || + (begin[0] == '\0' && + (len-- == 0 || + (begin[1] == '\0' && + (len-- == 0 || + (begin[2] == '\0' && + (len-- == 0 || + (begin[3] == '\0' && + memcmp(begin, begin + 4, len) == 0)))))))); +} + +/* BRCM Modification start */ +static void dumpHex(unsigned char *start, int len) +{ + unsigned char *ptr = start, + *end = start + len; + int i; + + while (ptr < end) { + for (i=0;i<16 && ptr < end;i++) + printf("%4x", *ptr++); + printf("\n"); + } +} +/* BRCM Modification end */ + +/* + * One 4-byte pointer per block and then the actual blocked + * output. The first block does not need an offset pointer, + * as it will start immediately after the pointer block; + * so the i'th pointer points to the end of the i'th block + * (i.e. the start of the (i+1)'th block or past EOF). + * + * Note that size > 0, as a zero-sized file wouldn't ever + * have gotten here in the first place. + */ +static unsigned int do_compress(char *base, unsigned int offset, char const *name, char *uncompressed, unsigned int size) +{ + unsigned long original_size = size; + unsigned long original_offset = offset; + unsigned long new_size; + unsigned long blocks = (size - 1) / blksize + 1; + unsigned long curr = offset + 4 * blocks; + int change; + static int one = 0; + + total_blocks += blocks; + + do { + unsigned long len = 2 * blksize; + unsigned int input = size; + int err; + + if (input > blksize) + input = blksize; + size -= input; + if (!(opt_holes && is_zero (uncompressed, input))) { + /* BRCM Modification start */ + if (opt_gzip) { + err = compress2((Bytef *)base + curr, &len, (const Bytef *)uncompressed, input, Z_BEST_COMPRESSION); + if (err != Z_OK) { + die(MKFS_ERROR, 0, "compression error: %s", zError(err)); + } + } else { + unsigned lzma_algo; + unsigned lzma_dictsize; + unsigned lzma_fastbytes; + switch (opt_compression_level) { + case 1 : + lzma_algo = 1; + lzma_dictsize = 1 << 20; + lzma_fastbytes = 64; + break; + case 2 : + lzma_algo = 2; + lzma_dictsize = 1 << 22; + lzma_fastbytes = 128; + break; + case 3 : + lzma_algo = 2; + lzma_dictsize = 1 << 24; + lzma_fastbytes = 255; + break; + default : + die(MKFS_ERROR, 0, "Invalid LZMA compression level. Must be 1,2,3."); + } + len = 8*PAGE_CACHE_SIZE; +#if 0 + if (one < 2) { + printf("Input data, size =%d\n",input); + dumpHex((unsigned char *)uncompressed,input); + } +#endif + err = compress_lzma_7z((const unsigned char*) uncompressed, + (unsigned) input, + (unsigned char*) (base+curr), + (unsigned &) len, + lzma_algo, + lzma_dictsize, + lzma_fastbytes); + if (!err) { + /* this should NEVER happen */ + die(MKFS_ERROR, 0, "Internal error - LZMA compression failed.\n"); + } +#if 0 + if (one < 2 ) { + printf("Output data, size =%d\n",len); + dumpHex((unsigned char *)(base+curr),len); + } + if (one < 2) { + printf("Input data, size =%d\n",input); + dumpHex((unsigned char *)uncompressed,input); + } + + one++; +#endif +#if 0 + printf("verify...\n"); + unsigned char verify[4096]; + memset((void *)verify,0,4096); + err = decompress_lzma_7z((unsigned char*) (base+curr), len, verify, 23*1024*1024); + if (err != 0) { + die(MKFS_ERROR, 0, "Internal error - LZMA decompression failed.\n"); + } + printf("Verifying...input=%d,",input); + if (memcmp(verify,uncompressed,input) != 0) { + die(MKFS_ERROR, 0, "Internal error - LZMA compression/decompression not matching.\n"); + } +#endif + } + if (opt_verbose) { + printf("(%ld) ",len); + } else { + printf("."); + } + /* BRCM Modification end*/ + curr += len; + } + uncompressed += input; + + if (len > blksize*2) { + /* (I don't think this can happen with zlib.) */ + die(MKFS_ERROR, 0, "AIEEE: block \"compressed\" to > 2*blocklength (%ld)", len); + } + + *(u32 *) (base + offset) = curr; + if (swap_endian) fix_block_pointer((u32*)(base + offset)); + offset += 4; + } while (size); + + curr = (curr + 3) & ~3; + new_size = curr - original_offset; + /* TODO: Arguably, original_size in these 2 lines should be + st_blocks * 512. But if you say that then perhaps + administrative data should also be included in both. */ + change = new_size - original_size; + if (opt_verbose > 1) { + printf("%6.2f%% (%+d bytes)\t%s\n", + (change * 100) / (double) original_size, change, name); + } + + return curr; +} + + +/* + * Traverse the entry tree, writing data for every item that has + * non-null entry->path (i.e. every non-empty regfile) and non-null + * entry->uncompressed (i.e. every symlink). + */ +static unsigned int write_data(struct entry *entry, char *base, unsigned int offset) +{ + do { + if (entry->path || entry->uncompressed) { + if (entry->same) { + set_data_offset(entry, base, entry->same->offset); + entry->offset = entry->same->offset; + } + else { + set_data_offset(entry, base, offset); + entry->offset = offset; + map_entry(entry); + offset = do_compress(base, offset, (const char *)entry->name, (char *)entry->uncompressed, entry->size); + unmap_entry(entry); + } + } + else if (entry->child) + offset = write_data(entry->child, base, offset); + entry=entry->next; + } while (entry); + return offset; +} + +static unsigned int write_file(char *file, char *base, unsigned int offset) +{ + int fd; + char *buf; + + fd = open(file, O_RDONLY); + if (fd < 0) { + die(MKFS_ERROR, 1, "open failed: %s", file); + } + buf = (char *)mmap(NULL, image_length, PROT_READ, MAP_PRIVATE, fd, 0); + if (buf == MAP_FAILED) { + die(MKFS_ERROR, 1, "mmap failed"); + } + memcpy(base + offset, buf, image_length); + munmap(buf, image_length); + close (fd); + /* Pad up the image_length to a 4-byte boundary */ + while (image_length & 3) { + *(base + offset + image_length) = '\0'; + image_length++; + } + return (offset + image_length); +} + +int main(int argc, char **argv) +{ + struct stat st; /* used twice... */ + struct entry *root_entry; + char *rom_image; + ssize_t offset, written; + int fd; + /* initial guess (upper-bound) of required filesystem size */ + loff_t fslen_ub = sizeof(struct cramfs_super); + char const *dirname, *outfile; + u32 crc; + int c; /* for getopt */ + char *ep; /* for strtoul */ + + total_blocks = 0; + + if (argc) + progname = argv[0]; + + /* command line options */ + while ((c = getopt(argc, argv, "hEe:i:l:n:gprsvz")) != EOF) { + switch (c) { + case 'h': + usage(MKFS_OK); + case 'E': + opt_errors = 1; + break; + case 'e': + errno = 0; + opt_edition = strtoul(optarg, &ep, 10); + if (errno || optarg[0] == '\0' || *ep != '\0') + usage(MKFS_USAGE); + break; + case 'g': + opt_gzip = 1; + printf("Using gzip to compress instead of default lzma\n"); + break; + case 'i': + opt_image = optarg; + if (lstat(opt_image, &st) < 0) { + die(MKFS_ERROR, 1, "lstat failed: %s", opt_image); + } + image_length = st.st_size; /* may be padded later */ + fslen_ub += (image_length + 3); /* 3 is for padding */ + break; + case 'l': + errno = 0; + opt_compression_level = strtoul(optarg, &ep, 10); + if (errno || optarg[0] == '\0' || *ep != '\0') + usage(MKFS_USAGE); + break; + case 'n': + opt_name = optarg; + break; + case 'p': + opt_pad = PAD_SIZE; + fslen_ub += PAD_SIZE; + break; + case 'r': + swap_endian = 1; + printf("Swapping filesystem endian-ness\n"); + break; + case 's': + /* old option, ignored */ + break; + case 'v': + opt_verbose++; + break; + case 'z': + opt_holes = 1; + break; + } + } + + if ((argc - optind) != 2) + usage(MKFS_USAGE); + dirname = argv[optind]; + outfile = argv[optind + 1]; + + if (stat(dirname, &st) < 0) { + die(MKFS_USAGE, 1, "stat failed: %s", dirname); + } + fd = open(outfile, O_WRONLY | O_CREAT | O_TRUNC, 0666); + if (fd < 0) { + die(MKFS_USAGE, 1, "open failed: %s", outfile); + } + + root_entry = (struct entry *)calloc(1, sizeof(struct entry)); + if (!root_entry) { + die(MKFS_ERROR, 1, "calloc failed"); + } + root_entry->mode = st.st_mode; + root_entry->uid = st.st_uid; + root_entry->gid = st.st_gid; + + root_entry->size = parse_directory(root_entry, dirname, &root_entry->child, &fslen_ub); + + /* always allocate a multiple of blksize bytes because that's + what we're going to write later on */ + fslen_ub = ((fslen_ub - 1) | (blksize - 1)) + 1; + + if (fslen_ub > MAXFSLEN) { + fprintf(stderr, + "warning: estimate of required size (upper bound) is %LdMB, but maximum image size is %uMB, we might die prematurely\n", + fslen_ub >> 20, + MAXFSLEN >> 20); + fslen_ub = MAXFSLEN; + } + + /* find duplicate files. TODO: uses the most inefficient algorithm + possible. */ + eliminate_doubles(root_entry, root_entry); + + /* TODO: Why do we use a private/anonymous mapping here + followed by a write below, instead of just a shared mapping + and a couple of ftruncate calls? Is it just to save us + having to deal with removing the file afterwards? If we + really need this huge anonymous mapping, we ought to mmap + in smaller chunks, so that the user doesn't need nn MB of + RAM free. If the reason is to be able to write to + un-mmappable block devices, then we could try shared mmap + and revert to anonymous mmap if the shared mmap fails. */ + rom_image = (char *)mmap(NULL, fslen_ub?fslen_ub:1, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); + + if (rom_image == MAP_FAILED) { + die(MKFS_ERROR, 1, "mmap failed"); + } + + /* Skip the first opt_pad bytes for boot loader code */ + offset = opt_pad; + memset(rom_image, 0x00, opt_pad); + + /* Skip the superblock and come back to write it later. */ + offset += sizeof(struct cramfs_super); + + /* Insert a file image. */ + if (opt_image) { + printf("Including: %s\n", opt_image); + offset = write_file(opt_image, rom_image, offset); + } + + offset = write_directory_structure(root_entry->child, rom_image, offset); + printf("Directory data: %d bytes\n", offset); + + printf("Compressing directory and files...\n"); + offset = write_data(root_entry, rom_image, offset); + + /* We always write a multiple of blksize bytes, so that + losetup works. */ + offset = ((offset - 1) | (blksize - 1)) + 1; + printf("\nEverything: %d kilobytes\n", offset >> 10); + + /* Write the superblock now that we can fill in all of the fields. */ + write_superblock(root_entry, rom_image+opt_pad, offset); + printf("Super block: %d bytes\n", sizeof(struct cramfs_super)); + + /* Put the checksum in. */ + crc = crc32(0L, Z_NULL, 0); + crc = crc32(crc, (const Bytef *)(rom_image+opt_pad), (offset-opt_pad)); + ((struct cramfs_super *) (rom_image+opt_pad))->fsid.crc = crc; + printf("CRC: %x\n", crc); + + /* Check to make sure we allocated enough space. */ + if (fslen_ub < offset) { + die(MKFS_ERROR, 0, "not enough space allocated for ROM image (%Ld allocated, %d used)", fslen_ub, offset); + } + + written = write(fd, rom_image, offset); + if (written < 0) { + die(MKFS_ERROR, 1, "write failed"); + } + if (offset != written) { + die(MKFS_ERROR, 0, "ROM image write failed (wrote %d of %d bytes)", written, offset); + } + + /* (These warnings used to come at the start, but they scroll off the + screen too quickly.) */ + if (warn_namelen) + fprintf(stderr, /* bytes, not chars: think UTF-8. */ + "warning: filenames truncated to %d bytes (possibly less if multi-byte UTF-8)\n", + CRAMFS_MAXPATHLEN); + if (warn_skip) + fprintf(stderr, "warning: files were skipped due to errors\n"); + if (warn_size) + fprintf(stderr, + "warning: file sizes truncated to %luMB (minus 1 byte)\n", + 1L << (CRAMFS_SIZE_WIDTH - 20)); + if (warn_uid) /* (not possible with current Linux versions) */ + fprintf(stderr, + "warning: uids truncated to %u bits (this may be a security concern)\n", + CRAMFS_UID_WIDTH); + /* + if (warn_gid) + fprintf(stderr, + "warning: gids truncated to %u bits (this may be a security concern)\n", + CRAMFS_GID_WIDTH); + */ + if (warn_dev) + fprintf(stderr, + "WARNING: device numbers truncated to %u bits (this almost certainly means\n" + "that some device files will be wrong)\n", + CRAMFS_OFFSET_WIDTH); + if (opt_errors && + (warn_namelen||warn_skip||warn_size||warn_uid||warn_gid||warn_dev)) + exit(MKFS_ERROR); + + exit(MKFS_OK); +} + +/* + * Local variables: + * c-file-style: "linux" + * End: + */ -- cgit v1.2.3