/* * * (c) 2004,2005 Laurent Vivier * */ #include #include #include #include #include #include #include #include #include "libemile.h" #include "libconfig.h" #include "emile_config.h" enum { ARG_NONE = 0, ARG_HELP ='h', ARG_VERBOSE = 'v', ARG_FIRST = 'f', ARG_SECOND = 's', ARG_KERNEL = 'k', ARG_RAMDISK = 'r', ARG_GETINFO = 'g', ARG_CONFIG = 'c', }; static struct option long_options[] = { {"help", 0, NULL, ARG_HELP }, {"verbose", 0, NULL, ARG_VERBOSE }, {"first", 1, NULL, ARG_FIRST }, {"second", 1, NULL, ARG_SECOND }, {"kernel", 1, NULL, ARG_KERNEL }, {"ramdisk", 1, NULL, ARG_RAMDISK }, {"getinfo", 1, NULL, ARG_GETINFO }, {"config", 1, NULL, ARG_CONFIG }, {NULL, 0, NULL, 0 }, }; static void usage(int argc, char** argv) { fprintf(stderr, "Usage: %s [OPTION] \n", argv[0]); fprintf(stderr, "Create an EMILE bootable floppy disk\n"); fprintf(stderr, "EMILE allows you to boot linux from a floppy disk\n"); fprintf(stderr, " -h, --help display this text\n"); fprintf(stderr, " -v, --verbose verbose mode\n"); fprintf(stderr, " -f, --first first level to copy to floppy\n"); fprintf(stderr, " -s, --second second level to copy to floppy\n"); fprintf(stderr, " -k, --kernel kernel to copy to floppy\n"); fprintf(stderr, " -r, --ramdisk ramdisk to copy to floppy\n"); fprintf(stderr, " -g, --getinfo get information from \n"); fprintf(stderr, " -c, --config " "set configuration according to a config file\n"); fprintf(stderr, "\nbuild: \n%s\n", SIGNATURE); } static int get_info(char *image, int verbose) { int fd; int drive_num; int second_offset; int second_size; int8_t * configuration; char property[1024]; char title[1024]; int index; char *known_properties[] = { "kernel", "parameters", "initrd", "chainloader", NULL }; int i; int current; int res; int ret; fd = open(image, O_RDONLY); if (fd == -1) { fprintf(stderr, "ERROR: cannot open \"%s\"\n", image); return 2; } /* first level info */ ret = emile_first_get_param(fd, &drive_num, &second_offset, &second_size); if (ret != 0) { printf("EMILE is not installed in this bootblock\n"); close(fd); return 0; } printf("EMILE boot block identified\n\n"); printf("Drive number: %d\n", drive_num); printf("Second level offset: %d\n", second_offset); printf("Second level size: %d\n", second_size); /* second level info */ printf("EMILE second level information\n"); configuration = emile_second_get_configuration(fd); if (configuration == NULL) { fprintf(stderr, "ERROR: cannot read second level\n"); return 3; } if (verbose) { printf("%s\n", configuration); return 0; } if (config_get_property(configuration, "gestaltID", property) != -1) printf("User forces gestalt ID to %ld\n", strtol(property, NULL, 0)); if (config_get_property(configuration, "default", property) != -1) printf("default %ld\n", strtol(property, NULL, 0)); if (config_get_property(configuration, "timeout", property) != -1) printf("timeout %ld\n", strtol(property, NULL, 0)); if (config_get_property(configuration, "vga", property) != -1) printf("vga %s\n", property); if (config_get_property(configuration, "modem", property) != -1) printf("modem %s\n", property); if (config_get_property(configuration, "printer", property) != -1) printf("printer %s\n", property); current = 0; for (index = 0; index < 20; index++) { res = config_get_property(configuration + current, "title", title); if (res == -1) { if (index) break; } else { printf("title %s\n", title); current += res; current = config_get_next_property( configuration, current, NULL, NULL); } for (i = 0; known_properties[i] != NULL; i++) { if (config_get_indexed_property( configuration, (res == -1) ? NULL : "title", title, known_properties[i], property) != -1) printf( " %s %s\n", known_properties[i], property); } } free(configuration); close(fd); return 0; } static int set_config(char *image, int verbose, char *config_path, char *first_level, char *second_level) { char *ramdisk_ondisk, *kernel_ondisk; char* kernel_image = NULL; char* ramdisk = NULL; char* chainloader = NULL; emile_config* config; int8_t *configuration; int timeout; int gestaltid; int default_entry; char *title, *args; char *output; char buf[64]; int fd; if (kernel_image || ramdisk) { fprintf(stderr, "ERROR: don't use --kernel or --ramdisk with --config\n"); return 4; } config = emile_config_open(config_path); if (config == NULL) { fprintf(stderr, "ERROR: cannot open %s\n", config_path); return 5; } if ((first_level == NULL) && (emile_config_get(config, CONFIG_FIRST_LEVEL, &first_level))) first_level = PREFIX "/lib/emile/first_floppy"; if ((second_level == NULL) && emile_config_get(config, CONFIG_SECOND_LEVEL, &second_level)) second_level = PREFIX "/lib/emile/second_floppy"; fd = emile_floppy_create(image, first_level, second_level); if (fd < 0) { fprintf(stderr, "ERROR: cannot create %s\n", image); return 6; } configuration = malloc(65536); if (configuration == NULL) { fprintf(stderr, "ERROR: cannot initalize configuration\n"); return 7; } memset(configuration, 0, 65536); if (!emile_config_get(config, CONFIG_GESTALTID, &gestaltid)) { sprintf(buf, "%d", gestaltid); config_set_property(configuration, "gestaltID", buf); } if (!emile_config_get(config, CONFIG_DEFAULT, &default_entry)) { sprintf(buf, "%d", default_entry); config_set_property(configuration, "default", buf); } if (!emile_config_get(config, CONFIG_TIMEOUT, &timeout)) { sprintf(buf, "%d", timeout); config_set_property(configuration, "timeout", buf); } if (!emile_config_get(config, CONFIG_VGA, &output)) config_set_property(configuration, "vga", output); if (!emile_config_get(config, CONFIG_MODEM, &output)) config_set_property(configuration, "modem", output); if (!emile_config_get(config, CONFIG_PRINTER, &output)) config_set_property(configuration, "printer", output); kernel_ondisk = NULL; ramdisk_ondisk = NULL; emile_config_read_first_entry(config); do { if (!emile_config_get(config, CONFIG_TITLE, &title)) config_add_property(configuration, "title", title); if (verbose) printf("title %s\n", title); if (!emile_config_get(config, CONFIG_CHAINLOADER, &chainloader)) { if (emile_is_url(chainloader)) { if (verbose) printf(" chainloader %s\n", chainloader); config_set_indexed_property(configuration, "title", title, "chainloader", chainloader); } continue; } if (!emile_config_get(config, CONFIG_KERNEL, &kernel_image)) { if (emile_is_url(kernel_image)) { if (verbose) printf(" kernel %s\n", kernel_image); config_set_indexed_property(configuration, "title", title, "kernel", kernel_image); } else { if (kernel_ondisk == NULL) kernel_ondisk = emile_floppy_add(fd, kernel_image); config_set_indexed_property(configuration, "title", title, "kernel", kernel_ondisk); if (verbose) printf(" kernel %s (%s)\n", kernel_image, kernel_ondisk); } } if (!emile_config_get(config, CONFIG_INITRD, &ramdisk)) { if (emile_is_url(ramdisk)) { if (verbose) printf(" initrd %s\n", ramdisk); config_set_indexed_property(configuration, "title", title, "initrd", ramdisk); } else { if (ramdisk_ondisk == NULL) ramdisk_ondisk = emile_floppy_add(fd, ramdisk); config_set_indexed_property(configuration, "title", title, "initrd", ramdisk_ondisk); if (verbose) printf(" initrd %s (%s)\n", ramdisk, ramdisk_ondisk); } } if (!emile_config_get(config, CONFIG_ARGS, &args)) { config_set_indexed_property(configuration, "title", title, "parameters", args); if (verbose) printf(" parameters %s\n", args); } } while (!emile_config_read_next(config)); emile_config_close(config); if (ramdisk_ondisk != NULL) free(ramdisk_ondisk); if (kernel_ondisk != NULL) free(kernel_ondisk); if (strlen((char*)configuration) > 1023) { int tmpfd; char *conf; char *tmpfile = strdup("/tmp/emile-install-XXXXXX"); fprintf(stderr, "WARNING: configuration doesn't fit in second level\n" " will store it at end of floppy\n"); tmpfd = mkstemp(tmpfile); write(tmpfd, configuration, strlen((char*)configuration) + 1); close(tmpfd); conf = emile_floppy_add(fd, tmpfile); free(configuration); unlink(tmpfile); free(tmpfile); configuration = malloc(1024); configuration[0] = 0; config_set_property(configuration, "configuration", conf); if (verbose) printf("configuration %s\n", conf); } emile_second_set_configuration(fd, configuration); emile_floppy_close(fd); free(configuration); return 0; } int main(int argc, char** argv) { int verbose = 0; int option_index = 0; char* first_level = NULL; char* second_level = NULL; char* kernel_image = NULL; char* ramdisk = NULL; char* image = NULL; char* config_path = NULL; int action_getinfo = 0; int c; int ret; while(1) { c = getopt_long(argc, argv, "hvf:s:k:r:gc:", long_options, &option_index); if (c == -1) break; switch(c) { case ARG_HELP: usage(argc, argv); return 0; case ARG_VERBOSE: verbose = 1; break; case ARG_FIRST: first_level = optarg; break; case ARG_SECOND: second_level = optarg; break; case ARG_KERNEL: kernel_image = optarg; break; case ARG_RAMDISK: ramdisk = optarg; break; case ARG_GETINFO: action_getinfo = 1; break; case ARG_CONFIG: config_path = optarg; break; } } if (optind < argc) image = argv[optind]; if (image == NULL) { fprintf(stderr, "ERROR: you must provide an image file or a block device.\n"); usage(argc, argv); return 1; } if (action_getinfo) return get_info(image, verbose); if (config_path != NULL) return set_config(image, verbose, config_path, first_level, second_level); if (first_level == NULL) first_level = PREFIX "/lib/emile/first_floppy"; if (second_level == NULL) second_level = PREFIX "/lib/emile/second_floppy"; if (kernel_image == NULL) kernel_image = PREFIX "/boot/vmlinuz"; if (verbose) { printf("first: %s\n", first_level); printf("second: %s\n", second_level); printf("kernel: %s\n", kernel_image); printf("ramdisk: %s\n", ramdisk); printf("image: %s\n", image); } ret = emile_floppy_create_image(first_level, second_level, kernel_image, ramdisk, image); switch(ret) { case 0: break; case EEMILE_CANNOT_WRITE_FIRST: fprintf(stderr, "ERROR: cannot write first\n"); break; case EEMILE_CANNOT_WRITE_SECOND: fprintf(stderr, "ERROR: cannot write second\n"); break; case EEMILE_CANNOT_WRITE_KERNEL: fprintf(stderr, "ERROR: cannot write kernel\n"); break; case EEMILE_CANNOT_WRITE_RAMDISK: fprintf(stderr, "ERROR: cannot write ramdisk\n"); break; case EEMILE_CANNOT_WRITE_PAD: fprintf(stderr, "ERROR: cannot write padding\n"); break; case EEMILE_CANNOT_CREATE_IMAGE: fprintf(stderr, "ERROR: cannot create image\n"); break; case EEMILE_CANNOT_OPEN_FILE: fprintf(stderr, "ERROR: cannot open one of provided files\n"); break; default: fprintf(stderr, "ERROR: unknown error :-P\n"); break; } return ret; }