#define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include "device-handler.h" #include "boot.h" #include "paths.h" #include "resource.h" static const char *boot_hook_dir = PKG_SYSCONF_DIR "/boot.d"; enum { BOOT_HOOK_EXIT_OK = 0, BOOT_HOOK_EXIT_UPDATE = 2, }; struct boot_task { char *local_image; char *local_initrd; char *local_dtb; char *args; bool dry_run; }; /** * kexec_load - kexec load helper. */ static int kexec_load(struct boot_task *boot_task) { int result; const char *argv[7]; const char **p; char *s_initrd = NULL; char *s_dtb = NULL; char *s_args = NULL; p = argv; *p++ = pb_system_apps.kexec; /* 1 */ *p++ = "-l"; /* 2 */ if (boot_task->local_initrd) { s_initrd = talloc_asprintf(boot_task, "--initrd=%s", boot_task->local_initrd); assert(s_initrd); *p++ = s_initrd; /* 3 */ } if (boot_task->local_dtb) { s_dtb = talloc_asprintf(boot_task, "--dtb=%s", boot_task->local_dtb); assert(s_dtb); *p++ = s_dtb; /* 4 */ } if (boot_task->args) { s_args = talloc_asprintf(boot_task, "--append=%s", boot_task->args); assert(s_args); *p++ = s_args; /* 5 */ } *p++ = boot_task->local_image; /* 6 */ *p++ = NULL; /* 7 */ result = process_run_simple_argv(boot_task, argv); if (result) pb_log("%s: failed: (%d)\n", __func__, result); return result; } /** * kexec_reboot - Helper to boot the new kernel. * * Must only be called after a successful call to kexec_load(). */ static int kexec_reboot(struct boot_task *task) { int result; /* First try running shutdown. Init scripts should run 'exec -e' */ result = process_run_simple(task, pb_system_apps.shutdown, "-r", "now", NULL); /* On error, force a kexec with the -e option */ if (result) { result = process_run_simple(task, pb_system_apps.kexec, "-e", NULL); } if (result) pb_log("%s: failed: (%d)\n", __func__, result); /* okay, kexec -e -f */ if (result) { result = process_run_simple(task, pb_system_apps.kexec, "-e", "-f", NULL); } if (result) pb_log("%s: failed: (%d)\n", __func__, result); return result; } static void update_status(boot_status_fn fn, void *arg, int type, char *message) { struct boot_status status; status.type = type; status.message = message; status.progress = -1; status.detail = NULL; fn(arg, &status); } static void boot_hook_update_param(void *ctx, struct boot_task *task, const char *name, const char *value) { struct p { const char *name; char **p; } *param, params[] = { { "boot_image", &task->local_image }, { "boot_initrd", &task->local_initrd }, { "boot_dtb", &task->local_dtb }, { "boot_args", &task->args }, { NULL, NULL }, }; for (param = params; param->name; param++) { if (strcmp(param->name, name)) continue; *param->p = talloc_strdup(ctx, value); return; } } static void boot_hook_update(struct boot_task *task, const char *hookname, char *buf) { char *line, *name, *val, *sep; char *saveptr; for (;; buf = NULL) { line = strtok_r(buf, "\n", &saveptr); if (!line) break; sep = strchr(line, '='); if (!sep) continue; *sep = '\0'; name = line; val = sep + 1; boot_hook_update_param(task, task, name, val); pb_log("boot hook %s specified %s=%s\n", hookname, name, val); } } static void boot_hook_setenv(struct boot_task *task) { unsetenv("boot_image"); unsetenv("boot_initrd"); unsetenv("boot_dtb"); unsetenv("boot_args"); setenv("boot_image", task->local_image, 1); if (task->local_initrd) setenv("boot_initrd", task->local_initrd, 1); if (task->local_dtb) setenv("boot_dtb", task->local_dtb, 1); if (task->args) setenv("boot_args", task->args, 1); } static int hook_filter(const struct dirent *dirent) { return dirent->d_type == DT_REG || dirent->d_type == DT_LNK; } static int hook_cmp(const struct dirent **a, const struct dirent **b) { return strcmp((*a)->d_name, (*b)->d_name); } static void run_boot_hooks(struct boot_task *task, boot_status_fn status_fn, void *status_arg) { struct dirent **hooks; int i, n; n = scandir(boot_hook_dir, &hooks, hook_filter, hook_cmp); if (n < 1) return; update_status(status_fn, status_arg, BOOT_STATUS_INFO, "running boot hooks"); boot_hook_setenv(task); for (i = 0; i < n; i++) { const char *argv[2] = { NULL, NULL }; struct process *process; char *path; int rc; path = join_paths(task, boot_hook_dir, hooks[i]->d_name); if (access(path, X_OK)) { talloc_free(path); continue; } process = process_create(task); argv[0] = path; process->path = path; process->argv = argv; process->keep_stdout = true; pb_log("running boot hook %s\n", hooks[i]->d_name); rc = process_run_sync(process); if (rc) { pb_log("boot hook exec failed!\n"); } else if (WIFEXITED(process->exit_status) && WEXITSTATUS(process->exit_status) == BOOT_HOOK_EXIT_UPDATE) { /* if the hook returned with BOOT_HOOK_EXIT_UPDATE, * then we process stdout to look for updated params */ if (rc == BOOT_HOOK_EXIT_UPDATE) { boot_hook_update(task, hooks[i]->d_name, process->stdout_buf); boot_hook_setenv(task); } } process_release(process); talloc_free(path); } free(hooks); } int boot(void *ctx, struct discover_boot_option *opt, struct boot_command *cmd, int dry_run, boot_status_fn status_fn, void *status_arg) { struct boot_task *boot_task; struct pb_url *image, *initrd, *dtb; unsigned int clean_image = 0; unsigned int clean_initrd = 0; unsigned int clean_dtb = 0; int result; image = NULL; initrd = NULL; dtb = NULL; if (cmd && cmd->boot_image_file) { image = pb_url_parse(opt, cmd->boot_image_file); } else if (opt && opt->boot_image) { image = opt->boot_image->url; } else { pb_log("%s: no image specified", __func__); return -1; } boot_task = talloc_zero(ctx, struct boot_task); boot_task->dry_run = dry_run; if (cmd && cmd->initrd_file) { initrd = pb_url_parse(opt, cmd->initrd_file); } else if (opt && opt->initrd) { initrd = opt->initrd->url; } if (cmd && cmd->dtb_file) { dtb = pb_url_parse(opt, cmd->dtb_file); } else if (opt && opt->dtb) { dtb = opt->dtb->url; } if (cmd && cmd->boot_args) { boot_task->args = talloc_strdup(boot_task, cmd->boot_args); } else if (opt && opt->option->boot_args) { boot_task->args = talloc_strdup(boot_task, opt->option->boot_args); } else { boot_task->args = NULL; } result = -1; update_status(status_fn, status_arg, BOOT_STATUS_INFO, "loading kernel"); boot_task->local_image = load_url(NULL, image, &clean_image); if (!boot_task->local_image) { update_status(status_fn, status_arg, BOOT_STATUS_ERROR, "Couldn't load kernel image"); goto no_load; } if (initrd) { update_status(status_fn, status_arg, BOOT_STATUS_INFO, "loading initrd"); boot_task->local_initrd = load_url(NULL, initrd, &clean_initrd); if (!boot_task->local_initrd) { update_status(status_fn, status_arg, BOOT_STATUS_ERROR, "Couldn't load initrd image"); goto no_load; } } if (dtb) { update_status(status_fn, status_arg, BOOT_STATUS_INFO, "loading device tree"); boot_task->local_dtb = load_url(NULL, dtb, &clean_dtb); if (!boot_task->local_dtb) { update_status(status_fn, status_arg, BOOT_STATUS_ERROR, "Couldn't load device tree"); goto no_load; } } run_boot_hooks(boot_task, status_fn, status_arg); update_status(status_fn, status_arg, BOOT_STATUS_INFO, "performing kexec_load"); result = kexec_load(boot_task); if (result) { update_status(status_fn, status_arg, BOOT_STATUS_ERROR, "kexec load failed"); } no_load: if (clean_image) unlink(boot_task->local_image); if (clean_initrd) unlink(boot_task->local_initrd); if (clean_dtb) unlink(boot_task->local_dtb); if (!result) { update_status(status_fn, status_arg, BOOT_STATUS_INFO, "performing kexec reboot"); result = kexec_reboot(boot_task); if (result) { update_status(status_fn, status_arg, BOOT_STATUS_ERROR, "kexec reboot failed"); } } talloc_free(boot_task); return result; }