/* SPDX-License-Identifier: GPL-2.0-only */ /* CSE Serger - Tool for stitching Intel CSE components */ #include #include #include #include #include #include #include #include "cse_serger.h" #define NO_PARTITION_TYPE (-1) static struct params { bool print_sub_parts; const char *partition_name; int partition_type; const char *output_dir; const char *image_name; const char *version_str; const char *input_file; struct region layout_regions[BP_TOTAL]; const char *layout_files[BP_TOTAL]; } params; static const struct { const char *version_str; const struct bpdt_ops *ops; } bpdt_ops_table[] = { { "1.6", &bpdt_1_6_ops }, { "1.7", &bpdt_1_7_ops }, }; static const struct { enum subpart_hdr_version version; const struct subpart_hdr_ops *ops; } subpart_hdr_ops_table[] = { { SUBPART_HDR_VERSION_1, &subpart_hdr_1_ops }, { SUBPART_HDR_VERSION_2, &subpart_hdr_2_ops }, }; static const struct { enum subpart_entry_version version; const struct subpart_entry_ops *ops; } subpart_entry_ops_table[] = { { SUBPART_ENTRY_VERSION_1, &subpart_entry_1_ops }, }; enum bpdt_entry_type { SMIP = 0, CSE_RBE = 1, CSE_BUP = 2, UCODE = 3, IBB = 4, S_BPDT = 5, OBB = 6, CSE_MAIN = 7, ISH = 8, CSE_IDLM = 9, IFP_OVERRIDE = 10, UTOK = 11, UFS_PHY = 12, UFS_GPP = 13, PMC = 14, IUNIT = 15, NVM_CFG = 16, UEP = 17, OEM_KM = 20, PAVP = 22, IOM_FW = 23, NPHY_FW = 24, TBT_FW = 25, ICC = 32, MAX_SUBPARTS, }; static struct { struct buffer input_buff; const struct bpdt_ops *bpdt_ops; const struct subpart_hdr_ops *subpart_hdr_ops; const struct subpart_entry_ops *subpart_entry_ops; bpdt_hdr_ptr bpdt_hdr; cse_layout_ptr cse_layout; struct bpdt_entry bpdt_entries[MAX_SUBPARTS]; struct buffer subpart_buff[MAX_SUBPARTS]; bool repack; size_t file_end_offset; } ifwi; #define SUBPART_WITH_ALT(_index, _rname, _name, _aname) \ [_index] = { _rname, _name, _aname } #define SUBPART(_index, _rname, _name) \ SUBPART_WITH_ALT(_index, _rname, _name, "") static const struct { const char *readable_name; const char *name; const char *alt_name; } subparts[] = { SUBPART(SMIP, "OEM SMIP", "SMIP"), SUBPART(CSE_RBE, "CSE RBE", "RBEP"), SUBPART_WITH_ALT(CSE_BUP, "CSE BUP", "FTPR", "MFTP"), SUBPART(UCODE, "Microcode", "UCOD"), SUBPART(IBB, "Initial Boot Block", "IBBP"), SUBPART(S_BPDT, "Secondary BPDT", "SBDT"), SUBPART(OBB, "OEM Boot Block", "OBBP"), SUBPART(CSE_MAIN, "CSE Main", "NFTP"), SUBPART(ISH, "ISH Firmware", "ISHP"), SUBPART(CSE_IDLM, "CSE IDLM", "DLMP"), SUBPART(IFP_OVERRIDE, "IFP override", "IFPP"), SUBPART(UTOK, "Debug tokens", "UTOK"), SUBPART(UFS_PHY, "UFS Phy", "UFSP"), SUBPART(UFS_GPP, "UFS GPP", "UFSG"), SUBPART(PMC, "PMC Firmware", "PMCP"), SUBPART(IUNIT, "IUNIT Firmware", "IUNP"), SUBPART(NVM_CFG, "NVM CFG", "NVMC"), SUBPART(UEP, "UEP", "UEPP"), SUBPART(OEM_KM, "OEM Key Manifest", "OEMP"), SUBPART(PAVP, "PAVP", "PAVP"), SUBPART(IOM_FW, "IOM Firmware", "IOMP"), SUBPART(NPHY_FW, "NPHY Firmware", "NPHY"), SUBPART(TBT_FW, "TBT Firmware", "TBTP"), SUBPART(ICC, "ICC Firmware", "PCHC"), }; static const char *subpart_readable_name(enum bpdt_entry_type type) { return subparts[type].readable_name; } static const char *subpart_name(enum bpdt_entry_type type) { return subparts[type].name; } static const char *subpart_alt_name(enum bpdt_entry_type type) { return subparts[type].alt_name; } static struct buffer *subpart_buff(int type) { return &ifwi.subpart_buff[type]; } static int subpart_get_type_from_name(const char *name) { int i; for (i = 0; i < MAX_SUBPARTS; i++) { if (subpart_name(i) == NULL) continue; if (!strcmp(subpart_name(i), name)) return i; if (!strcmp(subpart_alt_name(i), name)) return i; } return -1; } static const struct bpdt_ops *get_bpdt_ops(const struct buffer *buff) { assert(buff || params.version_str); for (size_t i = 0; i < ARRAY_SIZE(bpdt_ops_table); i++) { if (params.version_str) { if (!strcmp(params.version_str, bpdt_ops_table[i].version_str)) return bpdt_ops_table[i].ops; else continue; } if (bpdt_ops_table[i].ops->match_version(buff)) return bpdt_ops_table[i].ops; } return NULL; } static const struct subpart_hdr_ops *get_subpart_hdr_ops(void) { for (size_t i = 0; i < ARRAY_SIZE(subpart_hdr_ops_table); i++) { if (subpart_hdr_ops_table[i].version == ifwi.bpdt_ops->subpart_hdr_version) return subpart_hdr_ops_table[i].ops; } return NULL; } static const struct subpart_entry_ops *get_subpart_entry_ops(void) { for (size_t i = 0; i < ARRAY_SIZE(subpart_entry_ops_table); i++) { if (subpart_entry_ops_table[i].version == ifwi.bpdt_ops->subpart_entry_version) return subpart_entry_ops_table[i].ops; } return NULL; } static int subpart_read(struct buffer *input_buff) { size_t input_size = buffer_size(input_buff); struct bpdt_entry *e = &ifwi.bpdt_entries[0]; struct buffer *buff; for (size_t i = 0; i < ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); i++, e++) { if (e->size == 0) continue; if (e->type >= MAX_SUBPARTS) { ERROR("Invalid part type(%d)\n", e->type); return -1; } if (e->offset + e->size > input_size) { ERROR("Part(%d) exceeds file size. Part offset=0x%x, Part size = 0x%x, File size = 0x%zx\n", e->type, e->offset, e->size, input_size); return -1; } buff = subpart_buff(e->type); if (buffer_size(buff) != 0) { ERROR("Multiple subparts of same type(%d %s)!\n", e->type, subpart_name(e->type)); return -1; } buffer_splice(buff, input_buff, e->offset, e->size); } return 0; } static struct bpdt_entry *find_bpdt_entry(uint32_t type) { struct bpdt_entry *e = &ifwi.bpdt_entries[0]; for (size_t i = 0; i < ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); i++, e++) { if (e->type == type) return e; } return NULL; } static struct bpdt_entry *new_bpdt_entry(void) { size_t count = ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); if (count == MAX_SUBPARTS) { ERROR("No space for new BPDT entry!\n"); return NULL; } ifwi.bpdt_ops->inc_entry_count(ifwi.bpdt_hdr); return &ifwi.bpdt_entries[count]; } static void set_file_end_offset(struct buffer *buff) { struct bpdt_entry *e = &ifwi.bpdt_entries[0]; size_t end_offset; size_t count = ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); ifwi.file_end_offset = ALIGN_UP(buffer_offset(buff), BUFF_SIZE_ALIGN); for (size_t i = 0; i < count; i++, e++) { end_offset = e->offset + e->size; if (end_offset > ifwi.file_end_offset) ifwi.file_end_offset = end_offset; } } static void read_bpdt_entries(struct buffer *buff) { struct bpdt_entry *e = &ifwi.bpdt_entries[0]; size_t count = ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); for (size_t i = 0; i < count; i++, e++) { READ_MEMBER(buff, e->type); READ_MEMBER(buff, e->offset); READ_MEMBER(buff, e->size); } } static int write_bpdt_entries(struct buffer *buff) { struct bpdt_entry *e = &ifwi.bpdt_entries[0]; size_t count = ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); if (buffer_size(buff) < count * sizeof(*e)) { ERROR("Not enough buffer space for bpdt entries!\n"); return -1; } for (size_t i = 0; i < count; i++, e++) { WRITE_MEMBER(buff, e->type); WRITE_MEMBER(buff, e->offset); WRITE_MEMBER(buff, e->size); } return 0; } static void print_bpdt_entries(void) { const size_t count = ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); if (count == 0) return; const struct bpdt_entry *e = &ifwi.bpdt_entries[0]; printf("\n * BPDT entries\n"); printf("%-25s%-25s%-25s%-25s%-25s%-25s\n", "Entry #", "Partition Name", "Human readable name", "Type", "Offset", "Size"); printf("====================================================================" "====================================================================\n"); for (size_t i = 0; i < count; i++) { printf("%-25zd%-25s%-25s%-25d0x%-23x0x%-23x" "\n", i+1, subpart_name(e[i].type), subpart_readable_name(e[i].type), e[i].type, e[i].offset, e[i].size); } printf("====================================================================" "====================================================================\n"); } static int ifwi_parse(const char *image_name) { struct buffer *input_buff = &ifwi.input_buff; struct buffer bpdt_buff; if (buffer_from_file(input_buff, image_name)) { ERROR("Failed to read input file %s\n", image_name); return -1; } buffer_clone(&bpdt_buff, input_buff); ifwi.bpdt_ops = get_bpdt_ops(&bpdt_buff); if (!ifwi.bpdt_ops) { ERROR("No matching bpdt_ops!\n"); return -1; } ifwi.bpdt_hdr = ifwi.bpdt_ops->read_hdr(&bpdt_buff); if (ifwi.bpdt_hdr == NULL) return -1; read_bpdt_entries(&bpdt_buff); set_file_end_offset(&bpdt_buff); if (!ifwi.bpdt_ops->validate_checksum(ifwi.bpdt_hdr, &ifwi.bpdt_entries[0])) { ERROR("Checksum failed!\n"); return -1; } ifwi.subpart_hdr_ops = get_subpart_hdr_ops(); if (ifwi.subpart_hdr_ops == NULL) { ERROR("No matching subpart_hdr_ops for given BPDT!\n"); return -1; } ifwi.subpart_entry_ops = get_subpart_entry_ops(); if (ifwi.subpart_entry_ops == NULL) { ERROR("No matching subpart_entry_ops for given BPDT!\n"); return -1; } return subpart_read(&ifwi.input_buff); } static int subpart_write(struct buffer *buff) { struct bpdt_entry *e; struct buffer *s_buff; for (size_t i = 0; i < ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); i++) { e = &ifwi.bpdt_entries[i]; if (e->size == 0) continue; if (e->offset + e->size > buffer_size(buff)) { ERROR("Subpart end(0x%x) overflows buffer size(0x%zx)\n", e->offset + e->size, buffer_size(buff)); return -1; } s_buff = subpart_buff(e->type); if (buffer_size(s_buff) != e->size) { ERROR("Subpart buffer size does not match BPDT entry size!\n"); return -1; } memcpy(buffer_get(buff) + e->offset, buffer_get(s_buff), e->size); } return 0; } static int ifwi_repack(void) { if (!ifwi.repack) return 0; struct buffer output_buff; const size_t size = ifwi.file_end_offset; struct buffer bpdt_buff; if (buffer_create(&output_buff, size, "Output IFWI")) { ERROR("Unable to allocate output buff!\n"); return -1; } buffer_clone(&bpdt_buff, &output_buff); ifwi.bpdt_ops->update_checksum(ifwi.bpdt_hdr, &ifwi.bpdt_entries[0]); if (ifwi.bpdt_ops->write_hdr(&bpdt_buff, ifwi.bpdt_hdr)) return -1; if (write_bpdt_entries(&bpdt_buff)) return -1; subpart_write(&output_buff); if (buffer_write_file(&output_buff, params.image_name)) { ERROR("File write error!\n"); return -1; } printf("Image written successfully to %s.\n", params.image_name); return 0; } static bool should_process_partition(int type) { if (params.partition_name) { const char *name = subpart_name(type); if (!name) return false; if (strcmp(params.partition_name, name)) return false; } else if (params.partition_type != NO_PARTITION_TYPE) { if (params.partition_type != type) return false; } return true; } static int process_entries(int (*fn)(const struct bpdt_entry *e)) { struct bpdt_entry *e = &ifwi.bpdt_entries[0]; bool found = false; for (size_t i = 0; i < ifwi.bpdt_ops->get_entry_count(ifwi.bpdt_hdr); i++, e++) { if (e->size == 0) continue; if (!should_process_partition(e->type)) continue; if (fn(e)) return -1; found = true; } if (!found && params.partition_name) { ERROR("Partition %s not found!\n", params.partition_name); return -1; } if (!found && params.partition_type != NO_PARTITION_TYPE) { ERROR("Partition type %d not found!\n", params.partition_type); return -1; } return 0; } static int print_subpart(const struct bpdt_entry *e) { struct buffer buff; subpart_hdr_ptr hdr; printf("\n\n * Subpart entry #%d(%s)\n", e->type, subpart_readable_name(e->type)); buffer_clone(&buff, subpart_buff(e->type)); hdr = ifwi.subpart_hdr_ops->read(&buff); if (!hdr) { ERROR("Failed to read subpart header!\n"); return -1; } ifwi.subpart_hdr_ops->print(hdr); ifwi.subpart_entry_ops->print(&buff, ifwi.subpart_hdr_ops->get_entry_count(hdr)); ifwi.subpart_hdr_ops->free(hdr); return 0; } static int cmd_print(void) { ifwi.bpdt_ops->print_hdr(ifwi.bpdt_hdr); print_bpdt_entries(); if (!params.print_sub_parts && !params.partition_name && params.partition_type == NO_PARTITION_TYPE) return 0; return process_entries(print_subpart); } static char *get_file_path(const char *name) { size_t filename_len = strlen(name) + 1; /* output_dir name followed by '/' */ if (params.output_dir) filename_len += strlen(params.output_dir) + 1; char *filepath = malloc(filename_len); if (!filepath) return NULL; snprintf(filepath, filename_len, "%s%s%s", params.output_dir ? : "", params.output_dir ? "/" : "", name); return filepath; } static int write_partition_to_file(const struct bpdt_entry *e) { size_t end_offset = e->offset + e->size - 1; if (end_offset > buffer_size(&ifwi.input_buff)) { ERROR("Offset out of bounds!\n"); return -1; } const char *name = subpart_name(e->type); char *filepath = get_file_path(name); if (!filepath) { ERROR("Failed to allocate filepath!\n"); return -1; } printf("Dumping %.4s in %s\n", name, filepath); struct buffer buff; buffer_splice(&buff, &ifwi.input_buff, e->offset, e->size); buffer_write_file(&buff, filepath); free(filepath); return 0; } static int cmd_dump(void) { struct stat sb; if (params.output_dir && (stat(params.output_dir, &sb) == -1)) { ERROR("Failed to stat %s: %s\n", params.output_dir, strerror(errno)); return -1; } return process_entries(write_partition_to_file); } static int cmd_print_layout(void) { if (params.version_str == NULL) { ERROR("No version provided!\n"); return -1; } const struct bpdt_ops *ops = get_bpdt_ops(NULL); if (!ops) { ERROR("No matching bpdt_ops!\n"); return -1; } struct buffer buff; if (buffer_from_file(&buff, params.image_name)) { ERROR("Failed to read input file %s\n", params.image_name); return -1; } ifwi.cse_layout = ops->read_layout(&buff); if (!ifwi.cse_layout) { ERROR("Failed to read CSE layout!\n"); return -1; } ops->print_layout(ifwi.cse_layout); return 0; } static int allocate_buffer(struct buffer *buff, struct buffer *wbuff, const char *str) { if (params.version_str == NULL) { ERROR("No version provided!\n"); return -1; } ifwi.bpdt_ops = get_bpdt_ops(NULL); if (!ifwi.bpdt_ops) return -1; if (buffer_create(buff, BUFF_SIZE_ALIGN, str)) { ERROR("Buffer creation error!\n"); return -1; } void *data = buffer_get(buff); memset(data, 0xff, buffer_size(buff)); buffer_clone(wbuff, buff); return 0; } static size_t get_cse_region_end_offset(void) { size_t offset = 0; size_t end_offset; for (size_t i = 0; i < BP_TOTAL; i++) { end_offset = region_end(¶ms.layout_regions[i]); if (end_offset > offset) offset = end_offset; } return offset; } static int fill_layout_buffer(struct buffer *buff) { struct buffer wbuff; if (allocate_buffer(buff, &wbuff, "CSE layout")) return -1; ifwi.cse_layout = ifwi.bpdt_ops->create_layout(¶ms.layout_regions[0]); if (!ifwi.cse_layout) { ERROR("Failed to create layout!\n"); return -1; } if (ifwi.bpdt_ops->write_layout(&wbuff, ifwi.cse_layout)) { ERROR("Failed to write CSE layout!\n"); return -1; } return 0; } static int cmd_create_layout(void) { struct buffer buff; if (fill_layout_buffer(&buff)) return -1; buffer_write_file(&buff, params.image_name); return 0; } static int cmd_create_cse_region(void) { size_t file_size = get_cse_region_end_offset(); struct buffer cse_buff, layout_buff; if (fill_layout_buffer(&layout_buff)) return -1; if (file_size == 0) file_size = buffer_size(&layout_buff); file_size = ALIGN_UP(file_size, BUFF_SIZE_ALIGN); if (buffer_create(&cse_buff, file_size, "CSE buff")) { ERROR("CSE buffer creation error!\n"); return -1; } memset(buffer_get(&cse_buff), 0xff, buffer_size(&cse_buff)); memcpy(buffer_get(&cse_buff), buffer_get(&layout_buff), buffer_size(&layout_buff)); for (size_t i = 0; i < BP_TOTAL; i++) { struct buffer wbuff, rbuff; if (region_sz(¶ms.layout_regions[i]) == 0) continue; buffer_clone(&wbuff, &cse_buff); buffer_seek(&wbuff, region_offset(¶ms.layout_regions[i])); if (params.layout_files[i] == NULL) { if (i == 0) { ERROR("File name not provided for DP!\n"); } else { ERROR("File name not provided for BP%zd!\n", i); } return -1; } if (buffer_from_file(&rbuff, params.layout_files[i])) { ERROR("Failed to read %s\n", params.layout_files[i]); return -1; } assert(buffer_size(&wbuff) >= buffer_size(&rbuff)); memcpy(buffer_get(&wbuff), buffer_get(&rbuff), buffer_size(&rbuff)); } buffer_write_file(&cse_buff, params.image_name); return 0; } static int cmd_create_bpdt(void) { struct buffer buff; struct buffer wbuff; if (allocate_buffer(&buff, &wbuff, "BPDT header")) return -1; ifwi.bpdt_hdr = ifwi.bpdt_ops->create_hdr(); if (!ifwi.bpdt_hdr) { ERROR("Failed to create BPDT header!\n"); return -1; } ifwi.bpdt_ops->update_checksum(ifwi.bpdt_hdr, NULL); if (ifwi.bpdt_ops->write_hdr(&wbuff, ifwi.bpdt_hdr)) { ERROR("Failed to write BPDT header!\n"); return -1; } buffer_write_file(&buff, params.image_name); return 0; } static int cmd_add(void) { if (!params.partition_name && params.partition_type == NO_PARTITION_TYPE) { ERROR("Partition name/type is required for add!\n"); return -1; } int type; if (params.partition_name) { type = subpart_get_type_from_name(params.partition_name); if (type == NO_PARTITION_TYPE) { ERROR("Invalid partition %s\n", params.partition_name); return -1; } } else { type = params.partition_type; if (type > MAX_SUBPARTS) { ERROR("Invalid type %d\n", type); return -1; } } struct bpdt_entry *e = find_bpdt_entry(type); if (e) { ERROR("Partition %s(%d) already exists!\n", params.partition_name ? : "", type); return -1; } e = new_bpdt_entry(); if (e == NULL) return -1; e->type = type; e->offset = 0; e->size = 0; ifwi.repack = true; if (params.input_file == NULL) return 0; struct buffer *buff = subpart_buff(type); if (buffer_from_file_aligned_size(buff, params.input_file, BUFF_SIZE_ALIGN)) { ERROR("Failed to read input file %s\n", params.input_file); return -1; } e->offset = ALIGN_UP(ifwi.file_end_offset, BUFF_SIZE_ALIGN); e->size = buffer_size(buff); ifwi.file_end_offset = e->offset + e->size; return 0; } static void parse_region(struct region *r, char *arg) { char *tok; tok = strtok(arg, ":"); r->offset = strtol(tok, NULL, 0); tok = strtok(NULL, ":"); r->size = strtol(tok, NULL, 0); } static struct command { const char *name; const char *optstring; int (*cb)(void); bool parse_ifwi; } commands[] = { { "print", "n:st:?", cmd_print, true }, { "dump", "n:o:t:?", cmd_dump, true }, { "create-layout", "v:?", cmd_create_layout, false }, { "print-layout", "v:?", cmd_print_layout, false }, { "create-bpdt", "v:?", cmd_create_bpdt, false }, { "add", "f:n:t:v:?", cmd_add, true }, { "create-cse-region", "v:?", cmd_create_cse_region, false }, }; enum { LONGOPT_START = 256, LONGOPT_BP1 = LONGOPT_START, LONGOPT_BP2, LONGOPT_BP3, LONGOPT_BP4, LONGOPT_DATA, LONGOPT_BP1_FILE, LONGOPT_BP2_FILE, LONGOPT_BP3_FILE, LONGOPT_BP4_FILE, LONGOPT_DATA_FILE, LONGOPT_END, }; static struct option long_options[] = { {"help", required_argument, 0, 'h'}, {"parition_name", required_argument, 0, 'n'}, {"output_dir", required_argument, 0, 'o'}, {"sub_partition", no_argument, 0, 's'}, {"version", required_argument, 0, 'v'}, {"bp1", required_argument, 0, LONGOPT_BP1}, {"bp1_file", required_argument, 0, LONGOPT_BP1_FILE}, {"bp2", required_argument, 0, LONGOPT_BP2}, {"bp2_file", required_argument, 0, LONGOPT_BP2_FILE}, {"bp3", required_argument, 0, LONGOPT_BP3}, {"bp3_file", required_argument, 0, LONGOPT_BP3_FILE}, {"bp4", required_argument, 0, LONGOPT_BP4}, {"bp4_file", required_argument, 0, LONGOPT_BP4_FILE}, {"dp", required_argument, 0, LONGOPT_DATA}, {"dp_file", required_argument, 0, LONGOPT_DATA_FILE}, {NULL, 0, 0, 0 } }; static bool valid_opt(size_t i, int c) { /* Check if it is one of the optstrings supported by the command. */ if (strchr(commands[i].optstring, c)) return true; /* * Check if it is one of the non-ASCII characters. Currently, the * non-ASCII characters are only checked against the valid list * irrespective of the command. */ return c >= LONGOPT_START && c < LONGOPT_END; } static void usage(const char *name) { printf("%s: Utility for stitching CSE components\n" "USAGE:\n" " %s FILE COMMAND\n\n" "COMMANDs:\n" " print [-s][-n NAME][-t TYPE]\n" " dump [-o DIR][-n NAME]\n" " create-layout --dp --bp* -v VERSION\n" " create-cse-region --dp --dp_file --bp* " " --bp*_file -v VERSION\n" " print-layout -v VERSION\n" " create-bpdt -v VERSION\n" " add [-n NAME][-t TYPE][-f INPUT_FILE]\n" "\nOPTIONS:\n" " -f INPUT_FILE : Input file\n" " -n NAME : Sub-partition name\n" " -o DIR : Output directory\n" " -s : Print sub-partition info\n" " -t TYPE : Sub-partition type\n" " -v VERSION : BPDT version\n" " --dp : Offset and size of data partition\n" " --dp_file : File for data partition\n" " --bp1 : Offset and size of BP1\n" " --bp1_file : File for BP1 partition\n" " --bp2 : Offset and size of BP2\n" " --bp2_file : File for BP2 partition\n" " --bp3 : Offset and size of BP3\n" " --bp3_file : File for BP3 partition\n" " --bp4 : Offset and size of BP4\n" " --bp4_file : File for BP4 partition\n" "\n", name, name); } int main(int argc, char **argv) { if (argc < 3) { printf("Incorrect number of args(%d)!\n", argc); usage(argv[0]); return 1; } const char *prog_name = argv[0]; const char *image_name = argv[1]; const char *cmd = argv[2]; size_t i; params.partition_type = NO_PARTITION_TYPE; params.image_name = image_name; for (i = 0; i < ARRAY_SIZE(commands); i++) { if (strcmp(cmd, commands[i].name)) continue; int c; int option_index; while (1) { c = getopt_long(argc, argv, commands[i].optstring, long_options, &option_index); if (c == -1) break; if (!valid_opt(i, c)) { if (c < LONGOPT_START) { ERROR("Invalid option -- '%c'\n", c); } else { ERROR("Invalid option -- '%d'\n", c); } usage(prog_name); return 1; } switch (c) { case 'f': params.input_file = optarg; break; case 'n': params.partition_name = optarg; break; case 'o': params.output_dir = optarg; break; case 's': params.print_sub_parts = true; break; case 'v': params.version_str = optarg; break; case 't': params.partition_type = atoi(optarg); break; case LONGOPT_BP1: parse_region(¶ms.layout_regions[BP1], optarg); break; case LONGOPT_BP2: parse_region(¶ms.layout_regions[BP2], optarg); break; case LONGOPT_BP3: parse_region(¶ms.layout_regions[BP3], optarg); break; case LONGOPT_BP4: parse_region(¶ms.layout_regions[BP4], optarg); break; case LONGOPT_DATA: parse_region(¶ms.layout_regions[DP], optarg); break; case LONGOPT_BP1_FILE: params.layout_files[BP1] = optarg; break; case LONGOPT_BP2_FILE: params.layout_files[BP2] = optarg; break; case LONGOPT_BP3_FILE: params.layout_files[BP3] = optarg; break; case LONGOPT_BP4_FILE: params.layout_files[BP4] = optarg; break; case LONGOPT_DATA_FILE: params.layout_files[DP] = optarg; break; case 'h': case '?': default: usage(prog_name); return 1; } } break; } if (i == ARRAY_SIZE(commands)) { printf("No command match %s!\n", cmd); usage(prog_name); return 1; } if (commands[i].parse_ifwi && ifwi_parse(image_name)) return 1; if (commands[i].cb()) return 1; return ifwi_repack(); }