/* * Copyright (C) 2006-2008 Gabor Juhos * * 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., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #include #include #include #include #include /* for unlink() */ #include #include /* for getopt() */ #include #include #include #include /* for __BYTE_ORDER */ #if defined(__CYGWIN__) # include #endif #if (__BYTE_ORDER == __LITTLE_ENDIAN) # define HOST_TO_LE16(x) (x) # define HOST_TO_LE32(x) (x) #else # define HOST_TO_LE16(x) bswap_16(x) # define HOST_TO_LE32(x) bswap_32(x) #endif #include "myloader.h" #define MAX_FW_BLOCKS 32 #define MAX_ARG_COUNT 32 #define MAX_ARG_LEN 1024 #define FILE_BUF_LEN (16*1024) #define PART_NAME_LEN 32 struct fw_block { uint32_t addr; uint32_t blocklen; /* length of the block */ uint32_t flags; char *name; /* name of the file */ uint32_t size; /* length of the file */ uint32_t crc; /* crc value of the file */ }; struct fw_part { struct mylo_partition mylo; char name[PART_NAME_LEN]; }; #define BLOCK_FLAG_HAVEHDR 0x0001 struct cpx_board { char *model; /* model number*/ char *name; /* model name*/ char *desc; /* description */ uint16_t vid; /* vendor id */ uint16_t did; /* device id */ uint16_t svid; /* sub vendor id */ uint16_t sdid; /* sub device id */ uint32_t flash_size; /* size of flash */ uint32_t part_offset; /* offset of the partition_table */ uint32_t part_size; /* size of the partition_table */ }; #define BOARD(_vid, _did, _svid, _sdid, _flash, _mod, _name, _desc, _po, _ps) { \ .model = _mod, .name = _name, .desc = _desc, \ .vid = _vid, .did = _did, .svid = _svid, .sdid = _sdid, \ .flash_size = (_flash << 20), \ .part_offset = _po, .part_size = _ps } #define CPX_BOARD(_did, _flash, _mod, _name, _desc, _po, _ps) \ BOARD(VENID_COMPEX, _did, VENID_COMPEX, _did, _flash, _mod, _name, _desc, _po, _ps) #define CPX_BOARD_ADM(_did, _flash, _mod, _name, _desc) \ CPX_BOARD(_did, _flash, _mod, _name, _desc, 0x10000, 0x10000) #define CPX_BOARD_AR71XX(_did, _flash, _mod, _name, _desc) \ CPX_BOARD(_did, _flash, _mod, _name, _desc, 0x20000, 0x8000) #define CPX_BOARD_AR23XX(_did, _flash, _mod, _name, _desc) \ CPX_BOARD(_did, _flash, _mod, _name, _desc, 0x10000, 0x10000) #define ALIGN(x,y) ((x)+((y)-1)) & ~((y)-1) char *progname; char *ofname = NULL; uint32_t flash_size = 0; int fw_num_partitions = 0; int fw_num_blocks = 0; int verblevel = 0; struct mylo_fw_header fw_header; struct fw_part fw_parts[MYLO_MAX_PARTITIONS]; struct fw_block fw_blocks[MAX_FW_BLOCKS]; struct cpx_board *board; struct cpx_board boards[] = { CPX_BOARD_ADM(DEVID_COMPEX_NP18A, 4, "NP18A", "Compex NetPassage 18A", "Dualband Wireless A+G Internet Gateway"), CPX_BOARD_ADM(DEVID_COMPEX_NP26G8M, 2, "NP26G8M", "Compex NetPassage 26G (8M)", "Wireless-G Broadband Multimedia Gateway"), CPX_BOARD_ADM(DEVID_COMPEX_NP26G16M, 4, "NP26G16M", "Compex NetPassage 26G (16M)", "Wireless-G Broadband Multimedia Gateway"), CPX_BOARD_ADM(DEVID_COMPEX_NP27G, 4, "NP27G", "Compex NetPassage 27G", "Wireless-G 54Mbps eXtended Range Router"), CPX_BOARD_ADM(DEVID_COMPEX_NP28G, 4, "NP28G", "Compex NetPassage 28G", "Wireless 108Mbps Super-G XR Multimedia Router with 4 USB Ports"), CPX_BOARD_ADM(DEVID_COMPEX_NP28GHS, 4, "NP28GHS", "Compex NetPassage 28G (HotSpot)", "HotSpot Solution"), CPX_BOARD_ADM(DEVID_COMPEX_WP18, 4, "WP18", "Compex NetPassage WP18", "Wireless-G 54Mbps A+G Dualband Access Point"), CPX_BOARD_ADM(DEVID_COMPEX_WP54G, 4, "WP54G", "Compex WP54G", "Wireless-G 54Mbps XR Access Point"), CPX_BOARD_ADM(DEVID_COMPEX_WP54Gv1C, 2, "WP54Gv1C", "Compex WP54G rev.1C", "Wireless-G 54Mbps XR Access Point"), CPX_BOARD_ADM(DEVID_COMPEX_WP54AG, 4, "WP54AG", "Compex WP54AG", "Wireless-AG 54Mbps XR Access Point"), CPX_BOARD_ADM(DEVID_COMPEX_WPP54G, 4, "WPP54G", "Compex WPP54G", "Outdoor Access Point"), CPX_BOARD_ADM(DEVID_COMPEX_WPP54AG, 4, "WPP54AG", "Compex WPP54AG", "Outdoor Access Point"), CPX_BOARD_AR71XX(DEVID_COMPEX_WP543, 2, "WP543", "Compex WP543", "BareBoard"), CPX_BOARD_AR71XX(DEVID_COMPEX_WPE72, 8, "WPE72", "Compex WPE72", "BareBoard"), CPX_BOARD_AR23XX(DEVID_COMPEX_NP25G, 4, "NP25G", "Compex NetPassage 25G", "Wireless 54Mbps XR Router"), CPX_BOARD_AR23XX(DEVID_COMPEX_WPE53G, 4, "WPE53G", "Compex NetPassage 25G", "Wireless 54Mbps XR Access Point"), {.model = NULL} }; void errmsgv(int syserr, const char *fmt, va_list arg_ptr) { int save = errno; fflush(0); fprintf(stderr, "[%s] Error: ", progname); vfprintf(stderr, fmt, arg_ptr); if (syserr != 0) { fprintf(stderr, ": %s", strerror(save)); } fprintf(stderr, "\n"); } void errmsg(int syserr, const char *fmt, ...) { va_list arg_ptr; va_start(arg_ptr, fmt); errmsgv(syserr, fmt, arg_ptr); va_end(arg_ptr); } void dbgmsg(int level, const char *fmt, ...) { va_list arg_ptr; if (verblevel >= level) { fflush(0); va_start(arg_ptr, fmt); vfprintf(stderr, fmt, arg_ptr); fprintf(stderr, "\n"); va_end(arg_ptr); } } void usage(int status) { FILE *stream = (status != EXIT_SUCCESS) ? stderr : stdout; struct cpx_board *board; fprintf(stream, "Usage: %s [OPTION...] \n", progname); fprintf(stream, "\n" " write output to the \n" "\n" "Options:\n" " -B create firmware for the board specified with .\n" " This option set vendor id, device id, subvendor id,\n" " subdevice id, and flash size options to the right value.\n" " valid values:\n"); for (board = boards; board->model != NULL; board++){ fprintf(stream, " %-12s: %s\n", board->model, board->name); }; fprintf(stream, " -i :[:[:]]\n" " create firmware for board with vendor id , device\n" " id , subvendor id and subdevice id .\n" " -r set board revision to .\n" " -s set flash size to \n" " -b :[:[]:]\n" " define block at with length of .\n" " valid values:\n" " h : add crc header before the file data.\n" " -p :[:[:[:[:]]]]\n" " add partition at , with size of to the\n" " partition table, set partition name to , partition \n" " flags to and partition parameter to .\n" " If the is specified content of the file will be \n" " added to the firmware image.\n" " valid values:\n" " a: this is the active partition. The bootloader loads\n" " the firmware from this partition.\n" " h: the partition data have a header.\n" " l: the partition data uses LZMA compression.\n" " p: the bootloader loads data from this partition to\n" " the RAM before decompress it.\n" " -h show this screen\n" ); exit(status); } /* * Code to compute the CRC-32 table. Borrowed from * gzip-1.0.3/makecrc.c. */ static uint32_t crc_32_tab[256]; void init_crc_table(void) { /* Not copyrighted 1990 Mark Adler */ uint32_t c; /* crc shift register */ uint32_t e; /* polynomial exclusive-or pattern */ int i; /* counter for all possible eight bit values */ int k; /* byte being shifted into crc apparatus */ /* terms of polynomial defining this crc (except x^32): */ static const int p[] = {0,1,2,4,5,7,8,10,11,12,16,22,23,26}; /* Make exclusive-or pattern from polynomial */ e = 0; for (i = 0; i < sizeof(p)/sizeof(int); i++) e |= 1L << (31 - p[i]); crc_32_tab[0] = 0; for (i = 1; i < 256; i++) { c = 0; for (k = i | 256; k != 1; k >>= 1) { c = c & 1 ? (c >> 1) ^ e : c >> 1; if (k & 1) c ^= e; } crc_32_tab[i] = c; } } void update_crc(uint8_t *p, uint32_t len, uint32_t *crc) { uint32_t t; t = *crc ^ 0xFFFFFFFFUL; while (len--) { t = crc_32_tab[(t ^ *p++) & 0xff] ^ (t >> 8); } *crc = t ^ 0xFFFFFFFFUL; } uint32_t get_crc(uint8_t *p, uint32_t len) { uint32_t crc; crc = 0; update_crc(p ,len , &crc); return crc; } int str2u32(char *arg, uint32_t *val) { char *err = NULL; uint32_t t; errno=0; t = strtoul(arg, &err, 0); if (errno || (err==arg) || ((err != NULL) && *err)) { return -1; } *val = t; return 0; } int str2u16(char *arg, uint16_t *val) { char *err = NULL; uint32_t t; errno=0; t = strtoul(arg, &err, 0); if (errno || (err==arg) || ((err != NULL) && *err) || (t >= 0x10000)) { return -1; } *val = t & 0xFFFF; return 0; } struct cpx_board * find_board(char *model){ struct cpx_board *board; struct cpx_board *tmp; board = NULL; for (tmp = boards; tmp->model != NULL; tmp++){ if (strcasecmp(model, tmp->model) == 0) { board = tmp; break; } }; return board; } int get_file_crc(struct fw_block *ff) { FILE *f; uint8_t buf[FILE_BUF_LEN]; uint32_t readlen = sizeof(buf); int res = -1; size_t len; if ((ff->flags & BLOCK_FLAG_HAVEHDR) == 0) { res = 0; goto out; } errno = 0; f = fopen(ff->name,"r"); if (errno) { errmsg(1,"unable to open file %s", ff->name); goto out; } ff->crc = 0; len = ff->size; while (len > 0) { if (len < readlen) readlen = len; errno = 0; fread(buf, readlen, 1, f); if (errno) { errmsg(1,"unable to read from file %s", ff->name); goto out_close; } update_crc(buf, readlen, &ff->crc); len -= readlen; } res = 0; out_close: fclose(f); out: return res; } int process_files(void) { struct fw_block *b; struct stat st; int i; for (i = 0; i < fw_num_blocks; i++) { b = &fw_blocks[i]; if ((b->addr + b->blocklen) > flash_size) { errmsg(0, "block at 0x%08X is too big", b->addr); return -1; } if (b->name == NULL) continue; if (stat(b->name, &st) < 0) { errmsg(0, "stat failed on %s",b->name); return -1; } if (b->blocklen == 0) { b->blocklen = flash_size - b->addr; } if (st.st_size > b->blocklen) { errmsg(0,"file %s is too big",b->name); return -1; } b->size = st.st_size; } return 0; } int process_partitions(void) { struct mylo_partition *part; int i; for (i = 0; i < fw_num_partitions; i++) { part = &fw_parts[i].mylo; if (part->addr > flash_size) { errmsg(0, "invalid partition at 0x%08X", part->addr); return -1; } if ((part->addr + part->size) > flash_size) { errmsg(0, "partition at 0x%08X is too big", part->addr); return -1; } } return 0; } /* * routines to write data to the output file */ int write_out_data(FILE *outfile, uint8_t *data, size_t len, uint32_t *crc) { errno = 0; fwrite(data, len, 1, outfile); if (errno) { errmsg(1,"unable to write output file"); return -1; } if (crc) { update_crc(data, len, crc); } return 0; } int write_out_desc(FILE *outfile, struct mylo_fw_blockdesc *desc, uint32_t *crc) { return write_out_data(outfile, (uint8_t *)desc, sizeof(*desc), crc); } int write_out_padding(FILE *outfile, size_t len, uint8_t padc, uint32_t *crc) { uint8_t buff[512]; size_t buflen = sizeof(buff); memset(buff, padc, buflen); while (len > 0) { if (len < buflen) buflen = len; if (write_out_data(outfile, buff, buflen, crc)) return -1; len -= buflen; } return 0; } int write_out_file(FILE *outfile, struct fw_block *block, uint32_t *crc) { char buff[FILE_BUF_LEN]; size_t buflen = sizeof(buff); FILE *f; size_t len; errno = 0; if (block->name == NULL) { return 0; } if ((block->flags & BLOCK_FLAG_HAVEHDR) != 0) { struct mylo_partition_header ph; if (get_file_crc(block) != 0) return -1; ph.crc = HOST_TO_LE32(block->crc); ph.len = HOST_TO_LE32(block->size); if (write_out_data(outfile, (uint8_t *)&ph, sizeof(ph), crc) != 0) return -1; } f = fopen(block->name,"r"); if (errno) { errmsg(1,"unable to open file: %s", block->name); return -1; } len = block->size; while (len > 0) { if (len < buflen) buflen = len; /* read data from source file */ errno = 0; fread(buff, buflen, 1, f); if (errno != 0) { errmsg(1,"unable to read from file: %s",block->name); return -1; } if (write_out_data(outfile, buff, buflen, crc) != 0) return -1; len -= buflen; } fclose(f); /* align next block on a 4 byte boundary */ len = ALIGN(len,4) - block->size; if (write_out_padding(outfile, len, 0xFF, crc)) return -1; dbgmsg(1,"file %s written out", block->name); return 0; } int write_out_header(FILE *outfile, uint32_t *crc) { struct mylo_fw_header hdr; memset(&hdr, 0, sizeof(hdr)); hdr.magic = HOST_TO_LE32(MYLO_MAGIC_FIRMWARE); hdr.crc = HOST_TO_LE32(fw_header.crc); hdr.vid = HOST_TO_LE16(fw_header.vid); hdr.did = HOST_TO_LE16(fw_header.did); hdr.svid = HOST_TO_LE16(fw_header.svid); hdr.sdid = HOST_TO_LE16(fw_header.sdid); hdr.rev = HOST_TO_LE32(fw_header.rev); hdr.fwhi = HOST_TO_LE32(fw_header.fwhi); hdr.fwlo = HOST_TO_LE32(fw_header.fwlo); hdr.flags = HOST_TO_LE32(fw_header.flags); if (fseek(outfile, 0, SEEK_SET) != 0) { errmsg(1,"fseek failed on output file"); return -1; } return write_out_data(outfile, (uint8_t *)&hdr, sizeof(hdr), crc); } int write_out_partitions(FILE *outfile, uint32_t *crc) { struct mylo_partition_table p; char part_names[MYLO_MAX_PARTITIONS][PART_NAME_LEN]; int ret; int i; if (fw_num_partitions == 0) return 0; memset(&p, 0, sizeof(p)); memset(part_names, 0, sizeof(part_names)); p.magic = HOST_TO_LE32(MYLO_MAGIC_PARTITIONS); for (i = 0; i < fw_num_partitions; i++) { struct mylo_partition *mp; struct fw_part *fp; mp = &p.partitions[i]; fp = &fw_parts[i]; mp->flags = HOST_TO_LE16(fp->mylo.flags); mp->type = HOST_TO_LE16(PARTITION_TYPE_USED); mp->addr = HOST_TO_LE32(fp->mylo.addr); mp->size = HOST_TO_LE32(fp->mylo.size); mp->param = HOST_TO_LE32(fp->mylo.param); memcpy(part_names[i], fp->name, PART_NAME_LEN); } ret = write_out_data(outfile, (uint8_t *)&p, sizeof(p), crc); if (ret) return ret; ret = write_out_data(outfile, (uint8_t *)part_names, sizeof(part_names), crc); return ret; } int write_out_blocks(FILE *outfile, uint32_t *crc) { struct mylo_fw_blockdesc desc; struct fw_block *b; uint32_t dlen; int i; /* * if at least one partition specified, write out block descriptor * for the partition table */ if (fw_num_partitions > 0) { desc.type = HOST_TO_LE32(FW_DESC_TYPE_USED); desc.addr = HOST_TO_LE32(board->part_offset); desc.dlen = HOST_TO_LE32(sizeof(struct mylo_partition_table) + (MYLO_MAX_PARTITIONS * PART_NAME_LEN)); desc.blen = HOST_TO_LE32(board->part_size); if (write_out_desc(outfile, &desc, crc) != 0) return -1; } /* * write out block descriptors for each files */ for (i = 0; i < fw_num_blocks; i++) { b = &fw_blocks[i]; /* detect block size */ dlen = b->size; if ((b->flags & BLOCK_FLAG_HAVEHDR) != 0) { dlen += sizeof(struct mylo_partition_header); } /* round up to 4 bytes */ dlen = ALIGN(dlen, 4); /* setup the descriptor */ desc.type = HOST_TO_LE32(FW_DESC_TYPE_USED); desc.addr = HOST_TO_LE32(b->addr); desc.dlen = HOST_TO_LE32(dlen); desc.blen = HOST_TO_LE32(b->blocklen); if (write_out_desc(outfile, &desc, crc) != 0) return -1; } /* * write out the null block descriptor */ memset(&desc, 0, sizeof(desc)); if (write_out_desc(outfile, &desc, crc) != 0) return -1; if (write_out_partitions(outfile, crc) != 0) return -1; /* * write out data for each blocks */ for (i = 0; i < fw_num_blocks; i++) { b = &fw_blocks[i]; if (write_out_file(outfile, b, crc) != 0) return -1; } return 0; } /* * argument parsing */ int parse_arg(char *arg, char *buf, char *argv[]) { int res = 0; size_t argl; char *tok; char **ap = &buf; int i; if ((arg == NULL)) { /* invalid argument string */ return -1; } argl = strlen(arg); if (argl == 0) { /* no arguments */ return res; } if (argl >= MAX_ARG_LEN) { /* argument is too long */ argl = MAX_ARG_LEN-1; } memset(argv, 0, MAX_ARG_COUNT * sizeof(void *)); memcpy(buf, arg, argl); buf[argl] = '\0'; for (i = 0; i < MAX_ARG_COUNT; i++) { tok = strsep(ap, ":"); if (tok == NULL) { break; } #if 0 else if (tok[0] == '\0') { break; } #endif argv[i] = tok; res++; } return res; } int required_arg(char c, char *arg) { if ((optarg != NULL) && (*arg == '-')){ errmsg(0,"option %c requires an argument\n", c); return -1; } return 0; } int is_empty_arg(char *arg) { int ret = 1; if (arg != NULL) { if (*arg) ret = 0; }; return ret; } int parse_opt_flags(char ch, char *arg) { if (required_arg(ch, arg)) { goto err_out; } if (str2u32(arg, &fw_header.flags) != 0) { errmsg(0,"invalid firmware flags: %s", arg); goto err_out; } dbgmsg(1, "firmware flags set to %X bytes", fw_header.flags); return 0; err_out: return -1; } int parse_opt_size(char ch, char *arg) { if (required_arg(ch, arg)) { goto err_out; } if (str2u32(arg, &flash_size) != 0) { errmsg(0,"invalid flash size: %s", arg); goto err_out; } dbgmsg(1, "flash size set to %d bytes", flash_size); return 0; err_out: return -1; } int parse_opt_id(char ch, char *arg) { char buf[MAX_ARG_LEN]; char *argv[MAX_ARG_COUNT]; int argc; char *p; if (required_arg(ch, arg)) { goto err_out; } argc = parse_arg(arg, buf, argv); /* processing vendor ID*/ p = argv[0]; if (is_empty_arg(p)) { errmsg(0,"vendor id is missing from -%c %s",ch, arg); goto err_out; } else if (str2u16(p, &fw_header.vid) != 0) { errmsg(0,"invalid vendor id: %s", p); goto err_out; } dbgmsg(1, "vendor id is set to 0x%04X", fw_header.vid); /* processing device ID*/ p = argv[1]; if (is_empty_arg(p)) { errmsg(0,"device id is missing from -%c %s",ch, arg); goto err_out; } else if (str2u16(p, &fw_header.did) != 0) { errmsg(0,"invalid device id: %s", p); goto err_out; } dbgmsg(1, "device id is set to 0x%04X", fw_header.did); /* processing sub vendor ID*/ p = argv[2]; if (is_empty_arg(p)) { fw_header.svid = fw_header.vid; } else if (str2u16(p, &fw_header.svid) != 0) { errmsg(0,"invalid sub vendor id: %s", p); goto err_out; } dbgmsg(1, "sub vendor id is set to 0x%04X", fw_header.svid); /* processing device ID*/ p = argv[3]; if (is_empty_arg(p)) { fw_header.sdid = fw_header.did; } else if (str2u16(p, &fw_header.sdid) != 0) { errmsg(0,"invalid sub device id: %s", p); goto err_out; } dbgmsg(1, "sub device id is set to 0x%04X", fw_header.sdid); /* processing revision */ p = argv[4]; if (is_empty_arg(p)) { fw_header.rev = 0; } else if (str2u32(arg, &fw_header.rev) != 0) { errmsg(0,"invalid revision number: %s", p); goto err_out; } dbgmsg(1, "board revision is set to 0x%08X", fw_header.rev); return 0; err_out: return -1; } int parse_opt_block(char ch, char *arg) { char buf[MAX_ARG_LEN]; char *argv[MAX_ARG_COUNT]; int argc; struct fw_block *b; char *p; if (required_arg(ch, arg)) { goto err_out; } if (fw_num_blocks >= MAX_FW_BLOCKS) { errmsg(0,"too many blocks specified"); goto err_out; } argc = parse_arg(arg, buf, argv); dbgmsg(1,"processing block option %s, count %d", arg, argc); b = &fw_blocks[fw_num_blocks++]; /* processing block address */ p = argv[0]; if (is_empty_arg(p)) { errmsg(0,"no block address specified in %s", arg); goto err_out; } else if (str2u32(p, &b->addr) != 0) { errmsg(0,"invalid block address: %s", p); goto err_out; } /* processing block length */ p = argv[1]; if (is_empty_arg(p)) { errmsg(0,"no block length specified in %s", arg); goto err_out; } else if (str2u32(p, &b->blocklen) != 0) { errmsg(0,"invalid block length: %s", p); goto err_out; } if (argc < 3) { dbgmsg(1,"empty block %s", arg); goto success; } /* processing flags */ p = argv[2]; if (is_empty_arg(p) == 0) { for ( ; *p != '\0'; p++) { switch (*p) { case 'h': b->flags |= BLOCK_FLAG_HAVEHDR; break; default: errmsg(0, "invalid block flag \"%c\"", *p); goto err_out; } } } /* processing file name */ p = argv[3]; if (is_empty_arg(p)) { errmsg(0,"file name missing in %s", arg); goto err_out; } b->name = strdup(p); if (b->name == NULL) { errmsg(0,"not enough memory"); goto err_out; } success: return 0; err_out: return -1; } int parse_opt_partition(char ch, char *arg) { char buf[MAX_ARG_LEN]; char *argv[MAX_ARG_COUNT]; int argc; char *p; struct mylo_partition *part; struct fw_part *fp; if (required_arg(ch, arg)) { goto err_out; } if (fw_num_partitions >= MYLO_MAX_PARTITIONS) { errmsg(0, "too many partitions specified"); goto err_out; } fp = &fw_parts[fw_num_partitions++]; part = &fp->mylo; argc = parse_arg(arg, buf, argv); /* processing partition address */ p = argv[0]; if (is_empty_arg(p)) { errmsg(0,"partition address missing in -%c %s",ch, arg); goto err_out; } else if (str2u32(p, &part->addr) != 0) { errmsg(0,"invalid partition address: %s", p); goto err_out; } /* processing partition size */ p = argv[1]; if (is_empty_arg(p)) { errmsg(0,"partition size missing in -%c %s",ch, arg); goto err_out; } else if (str2u32(p, &part->size) != 0) { errmsg(0,"invalid partition size: %s", p); goto err_out; } /* processing partition flags */ p = argv[2]; if (is_empty_arg(p) == 0) { for ( ; *p != '\0'; p++) { switch (*p) { case 'a': part->flags |= PARTITION_FLAG_ACTIVE; break; case 'p': part->flags |= PARTITION_FLAG_PRELOAD; break; case 'l': part->flags |= PARTITION_FLAG_LZMA; break; case 'h': part->flags |= PARTITION_FLAG_HAVEHDR; break; default: errmsg(0, "invalid partition flag \"%c\"", *p); goto err_out; } } } /* processing partition parameter */ p = argv[3]; if (is_empty_arg(p)) { /* set default partition parameter */ part->param = 0; } else if (str2u32(p, &part->param) != 0) { errmsg(0,"invalid partition parameter: %s", p); goto err_out; } p = argv[4]; if (is_empty_arg(p)) { /* set default partition parameter */ fp->name[0] = '\0'; } else { strncpy(fp->name, p, PART_NAME_LEN); } #if 1 if (part->size == 0) { part->size = flash_size - part->addr; } /* processing file parameter */ p = argv[5]; if (is_empty_arg(p) == 0) { struct fw_block *b; if (fw_num_blocks == MAX_FW_BLOCKS) { errmsg(0,"too many blocks specified", p); goto err_out; } b = &fw_blocks[fw_num_blocks++]; b->name = strdup(p); b->addr = part->addr; b->blocklen = part->size; if (part->flags & PARTITION_FLAG_HAVEHDR) { b->flags |= BLOCK_FLAG_HAVEHDR; } } #endif return 0; err_out: return -1; } int parse_opt_board(char ch, char *arg) { if (required_arg(ch, arg)) { goto err_out; } board = find_board(arg); if (board == NULL){ errmsg(0,"invalid/unknown board specified: %s", arg); goto err_out; } fw_header.vid = board->vid; fw_header.did = board->did; fw_header.svid = board->svid; fw_header.sdid = board->sdid; flash_size = board->flash_size; return 0; err_out: return -1; } int parse_opt_rev(char ch, char *arg) { if (required_arg(ch, arg)) { return -1; } if (str2u32(arg, &fw_header.rev) != 0) { errmsg(0,"invalid revision number: %s", arg); return -1; } return 0; } /* * main */ int main(int argc, char *argv[]) { int optinvalid = 0; /* flag for invalid option */ int c; int res = EXIT_FAILURE; FILE *outfile; uint32_t crc; progname=basename(argv[0]); memset(&fw_header, 0, sizeof(fw_header)); /* init header defaults */ fw_header.vid = VENID_COMPEX; fw_header.did = DEVID_COMPEX_WP54G; fw_header.svid = VENID_COMPEX; fw_header.sdid = DEVID_COMPEX_WP54G; fw_header.fwhi = 0x20000; fw_header.fwlo = 0x20000; fw_header.flags = 0; opterr = 0; /* could not print standard getopt error messages */ while ((c = getopt(argc, argv, "b:B:f:hi:p:r:s:v")) != -1) { optinvalid = 0; switch (c) { case 'b': optinvalid = parse_opt_block(c,optarg); break; case 'B': optinvalid = parse_opt_board(c,optarg); break; case 'f': optinvalid = parse_opt_flags(c,optarg); break; case 'h': usage(EXIT_SUCCESS); break; case 'i': optinvalid = parse_opt_id(c,optarg); break; case 'p': optinvalid = parse_opt_partition(c,optarg); break; case 'r': optinvalid = parse_opt_rev(c,optarg); break; case 's': optinvalid = parse_opt_size(c,optarg); break; case 'v': verblevel++; break; default: optinvalid = 1; break; } if (optinvalid != 0 ){ errmsg(0, "invalid option: -%c", optopt); goto out; } } if (optind == argc) { errmsg(0, "no output file specified"); goto out; } ofname = argv[optind++]; if (optind < argc) { errmsg(0, "invalid option: %s", argv[optind]); goto out; } if (!board) { errmsg(0, "no board specified"); goto out; } if (flash_size == 0) { errmsg(0, "no flash size specified"); goto out; } if (process_files() != 0) { goto out; } if (process_partitions() != 0) { goto out; } outfile = fopen(ofname, "w"); if (outfile == NULL) { errmsg(1, "could not open \"%s\" for writing", ofname); goto out; } crc = 0; init_crc_table(); if (write_out_header(outfile, &crc) != 0) goto out_flush; if (write_out_blocks(outfile, &crc) != 0) goto out_flush; fw_header.crc = crc; if (write_out_header(outfile, NULL) != 0) goto out_flush; dbgmsg(1,"Firmware file %s completed.", ofname); res = EXIT_SUCCESS; out_flush: fflush(outfile); fclose(outfile); if (res != EXIT_SUCCESS) { unlink(ofname); } out: return res; }