#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "hostboot.h" #include "platform.h" #include "ipmi.h" #include "dt.h" static const char *partition = "common"; static const char *sysparams_dir = "/sys/firmware/opal/sysparams/"; static const char *devtree_dir = "/proc/device-tree/"; static const int ipmi_timeout = 5000; /* milliseconds. */ struct param { char *name; char *value; bool modified; struct list_item list; }; struct platform_powerpc { struct list params; struct ipmi *ipmi; bool ipmi_bootdev_persistent; int (*get_ipmi_bootdev)( struct platform_powerpc *platform, uint8_t *bootdev, bool *persistent); int (*clear_ipmi_bootdev)( struct platform_powerpc *platform, bool persistent); int (*set_os_boot_sensor)( struct platform_powerpc *platform); void (*get_platform_versions)(struct system_info *info); }; static const char *known_params[] = { "auto-boot?", "petitboot,network", "petitboot,timeout", "petitboot,bootdevs", "petitboot,language", "petitboot,debug?", "petitboot,write?", "petitboot,snapshots?", "petitboot,console", "petitboot,http_proxy", "petitboot,https_proxy", NULL, }; #define to_platform_powerpc(p) \ (struct platform_powerpc *)(p->platform_data) static bool param_is_known(const char *param, unsigned int len) { const char *known_param; unsigned int i; for (i = 0; known_params[i]; i++) { known_param = known_params[i]; if (len == strlen(known_param) && !strncmp(param, known_param, len)) return true; } return false; } static int parse_nvram_params(struct platform_powerpc *platform, char *buf, int len) { char *pos, *name, *value; unsigned int paramlen; int i, count; /* discard 2 header lines: * "common" partiton" * ------------------ */ pos = buf; count = 0; for (i = 0; i < len; i++) { if (pos[i] == '\n') count++; if (count == 2) break; } if (i == len) { fprintf(stderr, "failure parsing nvram output\n"); return -1; } for (pos = buf + i; pos < buf + len; pos += paramlen + 1) { unsigned int namelen; struct param *param; char *newline; newline = strchr(pos, '\n'); if (!newline) break; *newline = '\0'; paramlen = strlen(pos); name = pos; value = strchr(pos, '='); if (!value) continue; namelen = value - name; if (namelen == 0) continue; if (!param_is_known(name, namelen)) continue; value++; param = talloc(platform, struct param); param->modified = false; param->name = talloc_strndup(platform, name, namelen); param->value = talloc_strdup(platform, value); list_add(&platform->params, ¶m->list); } return 0; } static int parse_nvram(struct platform_powerpc *platform) { struct process *process; const char *argv[5]; int rc; argv[0] = "nvram"; argv[1] = "--print-config"; argv[2] = "--partition"; argv[3] = partition; argv[4] = NULL; process = process_create(platform); process->path = "nvram"; process->argv = argv; process->keep_stdout = true; rc = process_run_sync(process); if (rc || !process_exit_ok(process)) { fprintf(stderr, "nvram process returned " "non-zero exit status\n"); rc = -1; } else { rc = parse_nvram_params(platform, process->stdout_buf, process->stdout_len); } process_release(process); return rc; } static int write_nvram(struct platform_powerpc *platform) { struct process *process; struct param *param; const char *argv[6]; int rc = 0; argv[0] = "nvram"; argv[1] = "--update-config"; argv[2] = NULL; argv[3] = "--partition"; argv[4] = partition; argv[5] = NULL; process = process_create(platform); process->path = "nvram"; process->argv = argv; list_for_each_entry(&platform->params, param, list) { char *paramstr; if (!param->modified) continue; paramstr = talloc_asprintf(platform, "%s=%s", param->name, param->value); argv[2] = paramstr; rc = process_run_sync(process); talloc_free(paramstr); if (rc || !process_exit_ok(process)) { rc = -1; pb_log("nvram update process returned " "non-zero exit status\n"); break; } } process_release(process); return rc; } static const char *get_param(struct platform_powerpc *platform, const char *name) { struct param *param; list_for_each_entry(&platform->params, param, list) if (!strcmp(param->name, name)) return param->value; return NULL; } static void set_param(struct platform_powerpc *platform, const char *name, const char *value) { struct param *param; list_for_each_entry(&platform->params, param, list) { if (strcmp(param->name, name)) continue; if (!strcmp(param->value, value)) return; talloc_free(param->value); param->value = talloc_strdup(param, value); param->modified = true; return; } param = talloc(platform, struct param); param->modified = true; param->name = talloc_strdup(platform, name); param->value = talloc_strdup(platform, value); list_add(&platform->params, ¶m->list); } static int parse_hwaddr(struct interface_config *ifconf, char *str) { int i; if (strlen(str) != strlen("00:00:00:00:00:00")) return -1; for (i = 0; i < HWADDR_SIZE; i++) { char byte[3], *endp; unsigned long x; byte[0] = str[i * 3 + 0]; byte[1] = str[i * 3 + 1]; byte[2] = '\0'; x = strtoul(byte, &endp, 16); if (endp != byte + 2) return -1; ifconf->hwaddr[i] = x & 0xff; } return 0; } static int parse_one_interface_config(struct config *config, char *confstr) { struct interface_config *ifconf; char *tok, *saveptr; ifconf = talloc_zero(config, struct interface_config); if (!confstr || !strlen(confstr)) goto out_err; /* first token should be the mac address */ tok = strtok_r(confstr, ",", &saveptr); if (!tok) goto out_err; if (parse_hwaddr(ifconf, tok)) goto out_err; /* second token is the method */ tok = strtok_r(NULL, ",", &saveptr); if (!tok || !strlen(tok) || !strcmp(tok, "ignore")) { ifconf->ignore = true; } else if (!strcmp(tok, "dhcp")) { ifconf->method = CONFIG_METHOD_DHCP; } else if (!strcmp(tok, "static")) { ifconf->method = CONFIG_METHOD_STATIC; /* ip/mask, [optional] gateway, [optional] url */ tok = strtok_r(NULL, ",", &saveptr); if (!tok) goto out_err; ifconf->static_config.address = talloc_strdup(ifconf, tok); tok = strtok_r(NULL, ",", &saveptr); if (tok) { ifconf->static_config.gateway = talloc_strdup(ifconf, tok); } tok = strtok_r(NULL, ",", &saveptr); if (tok) { ifconf->static_config.url = talloc_strdup(ifconf, tok); } } else { pb_log("Unknown network configuration method %s\n", tok); goto out_err; } config->network.interfaces = talloc_realloc(config, config->network.interfaces, struct interface_config *, ++config->network.n_interfaces); config->network.interfaces[config->network.n_interfaces - 1] = ifconf; return 0; out_err: talloc_free(ifconf); return -1; } static int parse_one_dns_config(struct config *config, char *confstr) { char *tok, *saveptr = NULL; for (tok = strtok_r(confstr, ",", &saveptr); tok; tok = strtok_r(NULL, ",", &saveptr)) { char *server = talloc_strdup(config, tok); config->network.dns_servers = talloc_realloc(config, config->network.dns_servers, const char *, ++config->network.n_dns_servers); config->network.dns_servers[config->network.n_dns_servers - 1] = server; } return 0; } static void populate_network_config(struct platform_powerpc *platform, struct config *config) { char *val, *saveptr = NULL; const char *cval; int i; cval = get_param(platform, "petitboot,network"); if (!cval || !strlen(cval)) return; val = talloc_strdup(config, cval); for (i = 0; ; i++) { char *tok; tok = strtok_r(i == 0 ? val : NULL, " ", &saveptr); if (!tok) break; if (!strncasecmp(tok, "dns,", strlen("dns,"))) parse_one_dns_config(config, tok + strlen("dns,")); else parse_one_interface_config(config, tok); } talloc_free(val); } static int read_bootdev(void *ctx, char **pos, struct autoboot_option *opt) { char *delim = strchr(*pos, ' '); int len, prefix = 0, rc = -1; enum device_type type; if (!strncmp(*pos, "uuid:", strlen("uuid:"))) { prefix = strlen("uuid:"); opt->boot_type = BOOT_DEVICE_UUID; } else if (!strncmp(*pos, "mac:", strlen("mac:"))) { prefix = strlen("mac:"); opt->boot_type = BOOT_DEVICE_UUID; } else { type = find_device_type(*pos); if (type != DEVICE_TYPE_UNKNOWN) { opt->type = type; opt->boot_type = BOOT_DEVICE_TYPE; rc = 0; } } if (opt->boot_type == BOOT_DEVICE_UUID) { if (delim) len = (int)(delim - *pos) - prefix; else len = strlen(*pos) - prefix; if (len) { opt->uuid = talloc_strndup(ctx, *pos + prefix, len); rc = 0; } } /* Always advance pointer to next option or end */ if (delim) *pos = delim + 1; else *pos += strlen(*pos); return rc; } static void populate_bootdev_config(struct platform_powerpc *platform, struct config *config) { struct autoboot_option *opt, *new = NULL; char *pos, *end; unsigned int n_new = 0; const char *val; /* Check for ordered bootdevs */ val = get_param(platform, "petitboot,bootdevs"); if (!val || !strlen(val)) { pos = end = NULL; } else { pos = talloc_strdup(config, val); end = strchr(pos, '\0'); } while (pos && pos < end) { opt = talloc(config, struct autoboot_option); if (read_bootdev(config, &pos, opt)) { pb_log("bootdev config is in an unknown format " "(expected uuid:... or mac:...)\n"); talloc_free(opt); continue; } new = talloc_realloc(config, new, struct autoboot_option, n_new + 1); new[n_new] = *opt; n_new++; talloc_free(opt); } if (!n_new) { /* If autoboot has been disabled, clear the default options */ if (!config->autoboot_enabled) { talloc_free(config->autoboot_opts); config->n_autoboot_opts = 0; } return; } talloc_free(config->autoboot_opts); config->autoboot_opts = new; config->n_autoboot_opts = n_new; } static void populate_config(struct platform_powerpc *platform, struct config *config) { const char *val; char *end; unsigned long timeout; /* if the "auto-boot?' property is present and "false", disable auto * boot */ val = get_param(platform, "auto-boot?"); config->autoboot_enabled = !val || strcmp(val, "false"); val = get_param(platform, "petitboot,timeout"); if (val) { timeout = strtoul(val, &end, 10); if (end != val) { if (timeout >= INT_MAX) timeout = INT_MAX; config->autoboot_timeout_sec = (int)timeout; } } val = get_param(platform, "petitboot,language"); config->lang = val ? talloc_strdup(config, val) : NULL; populate_network_config(platform, config); populate_bootdev_config(platform, config); if (!config->debug) { val = get_param(platform, "petitboot,debug?"); config->debug = val && !strcmp(val, "true"); } val = get_param(platform, "petitboot,write?"); if (val) config->allow_writes = !strcmp(val, "true"); val = get_param(platform, "petitboot,snapshots?"); if (val) config->disable_snapshots = !strcmp(val, "false"); val = get_param(platform, "petitboot,console"); if (val) config->boot_console = talloc_strdup(config, val); /* If a full path is already set we don't want to override it */ config->manual_console = config->boot_console && !strchr(config->boot_console, '['); val = get_param(platform, "petitboot,http_proxy"); if (val) config->http_proxy = talloc_strdup(config, val); val = get_param(platform, "petitboot,https_proxy"); if (val) config->https_proxy = talloc_strdup(config, val); } static char *iface_config_str(void *ctx, struct interface_config *config) { char *str; /* todo: HWADDR size is hardcoded as 6, but we may need to handle * different hardware address formats */ str = talloc_asprintf(ctx, "%02x:%02x:%02x:%02x:%02x:%02x,", config->hwaddr[0], config->hwaddr[1], config->hwaddr[2], config->hwaddr[3], config->hwaddr[4], config->hwaddr[5]); if (config->ignore) { str = talloc_asprintf_append(str, "ignore"); } else if (config->method == CONFIG_METHOD_DHCP) { str = talloc_asprintf_append(str, "dhcp"); } else if (config->method == CONFIG_METHOD_STATIC) { str = talloc_asprintf_append(str, "static,%s%s%s%s%s", config->static_config.address, config->static_config.gateway ? "," : "", config->static_config.gateway ?: "", config->static_config.url ? "," : "", config->static_config.url ?: ""); } return str; } static char *dns_config_str(void *ctx, const char **dns_servers, int n) { char *str; int i; str = talloc_strdup(ctx, "dns,"); for (i = 0; i < n; i++) { str = talloc_asprintf_append(str, "%s%s", i == 0 ? "" : ",", dns_servers[i]); } return str; } static void update_string_config(struct platform_powerpc *platform, const char *name, const char *value) { const char *cur; cur = get_param(platform, name); /* don't set an empty parameter if it doesn't already exist */ if (!cur && !strlen(value)) return; set_param(platform, name, value); } static void update_network_config(struct platform_powerpc *platform, struct config *config) { unsigned int i; char *val; /* * Don't store IPMI overrides to NVRAM. If this was a persistent * override it was already stored in NVRAM by * get_ipmi_network_override() */ if (config->network.n_interfaces && config->network.interfaces[0]->override) return; val = talloc_strdup(platform, ""); for (i = 0; i < config->network.n_interfaces; i++) { char *iface_str = iface_config_str(platform, config->network.interfaces[i]); val = talloc_asprintf_append(val, "%s%s", *val == '\0' ? "" : " ", iface_str); talloc_free(iface_str); } if (config->network.n_dns_servers) { char *dns_str = dns_config_str(platform, config->network.dns_servers, config->network.n_dns_servers); val = talloc_asprintf_append(val, "%s%s", *val == '\0' ? "" : " ", dns_str); talloc_free(dns_str); } update_string_config(platform, "petitboot,network", val); talloc_free(val); } static void update_bootdev_config(struct platform_powerpc *platform, struct config *config) { char *val = NULL, *boot_str = NULL, *tmp = NULL; struct autoboot_option *opt; const char delim = ' '; unsigned int i; if (!config->n_autoboot_opts) val = ""; for (i = 0; i < config->n_autoboot_opts; i++) { opt = &config->autoboot_opts[i]; switch (opt->boot_type) { case BOOT_DEVICE_TYPE: boot_str = talloc_asprintf(config, "%s%c", device_type_name(opt->type), delim); break; case BOOT_DEVICE_UUID: boot_str = talloc_asprintf(config, "uuid:%s%c", opt->uuid, delim); break; } tmp = val = talloc_asprintf_append(val, "%s", boot_str); } update_string_config(platform, "petitboot,bootdevs", val); talloc_free(tmp); if (boot_str) talloc_free(boot_str); } static int update_config(struct platform_powerpc *platform, struct config *config, struct config *defaults) { char *tmp = NULL; const char *val; if (config->autoboot_enabled == defaults->autoboot_enabled) val = ""; else val = config->autoboot_enabled ? "true" : "false"; update_string_config(platform, "auto-boot?", val); if (config->autoboot_timeout_sec == defaults->autoboot_timeout_sec) val = ""; else val = tmp = talloc_asprintf(platform, "%d", config->autoboot_timeout_sec); if (config->ipmi_bootdev == IPMI_BOOTDEV_INVALID && platform->clear_ipmi_bootdev) { platform->clear_ipmi_bootdev(platform, config->ipmi_bootdev_persistent); config->ipmi_bootdev = IPMI_BOOTDEV_NONE; config->ipmi_bootdev_persistent = false; } update_string_config(platform, "petitboot,timeout", val); if (tmp) talloc_free(tmp); val = config->lang ?: ""; update_string_config(platform, "petitboot,language", val); if (config->allow_writes == defaults->allow_writes) val = ""; else val = config->allow_writes ? "true" : "false"; update_string_config(platform, "petitboot,write?", val); if (!config->manual_console) { val = config->boot_console ?: ""; update_string_config(platform, "petitboot,console", val); } val = config->http_proxy ?: ""; update_string_config(platform, "petitboot,http_proxy", val); val = config->https_proxy ?: ""; update_string_config(platform, "petitboot,https_proxy", val); update_network_config(platform, config); update_bootdev_config(platform, config); return write_nvram(platform); } static void set_ipmi_bootdev(struct config *config, enum ipmi_bootdev bootdev, bool persistent) { config->ipmi_bootdev = bootdev; config->ipmi_bootdev_persistent = persistent; if (bootdev == IPMI_BOOTDEV_SAFE) config->safe_mode = true; } static int read_bootdev_sysparam(const char *name, uint8_t *val) { uint8_t buf[2]; char path[50]; int fd, rc; assert(strlen(sysparams_dir) + strlen(name) < sizeof(path)); snprintf(path, sizeof(path), "%s%s", sysparams_dir, name); fd = open(path, O_RDONLY); if (fd < 0) { pb_debug("powerpc: can't access sysparam %s\n", name); return -1; } rc = read(fd, buf, sizeof(buf)); close(fd); /* bootdev definitions should only be one byte in size */ if (rc != 1) { pb_debug("powerpc: sysparam %s read returned %d\n", name, rc); return -1; } pb_debug("powerpc: sysparam %s: 0x%02x\n", name, buf[0]); if (!ipmi_bootdev_is_valid(buf[0])) return -1; *val = buf[0]; return 0; } static int write_bootdev_sysparam(const char *name, uint8_t val) { char path[50]; int fd, rc; assert(strlen(sysparams_dir) + strlen(name) < sizeof(path)); snprintf(path, sizeof(path), "%s%s", sysparams_dir, name); fd = open(path, O_WRONLY); if (fd < 0) { pb_debug("powerpc: can't access sysparam %s for writing\n", name); return -1; } for (;;) { errno = 0; rc = write(fd, &val, sizeof(val)); if (rc == sizeof(val)) { rc = 0; break; } if (rc <= 0 && errno != EINTR) { pb_log("powerpc: error updating sysparam %s: %s", name, strerror(errno)); rc = -1; break; } } close(fd); if (!rc) pb_debug("powerpc: set sysparam %s: 0x%02x\n", name, val); return rc; } static int clear_ipmi_bootdev_sysparams( struct platform_powerpc *platform __attribute__((unused)), bool persistent) { if (persistent) { /* invalidate default-boot-device setting */ write_bootdev_sysparam("default-boot-device", 0xff); } else { /* invalidate next-boot-device setting */ write_bootdev_sysparam("next-boot-device", 0xff); } return 0; } static int get_ipmi_bootdev_sysparams( struct platform_powerpc *platform __attribute__((unused)), uint8_t *bootdev, bool *persistent) { uint8_t next_bootdev, default_bootdev; bool next_valid, default_valid; int rc; rc = read_bootdev_sysparam("next-boot-device", &next_bootdev); next_valid = rc == 0; rc = read_bootdev_sysparam("default-boot-device", &default_bootdev); default_valid = rc == 0; /* nothing valid? no need to change the config */ if (!next_valid && !default_valid) return -1; *persistent = !next_valid; *bootdev = next_valid ? next_bootdev : default_bootdev; return 0; } static int clear_ipmi_bootdev_ipmi(struct platform_powerpc *platform, bool persistent __attribute__((unused))) { uint16_t resp_len; uint8_t resp[1]; uint8_t req[] = { 0x05, /* parameter selector: boot flags */ 0x80, /* data 1: valid */ 0x00, /* data 2: bootdev: no override */ 0x00, /* data 3: system defaults */ 0x00, /* data 4: no request for shared mode, mux defaults */ 0x00, /* data 5: no instance request */ }; resp_len = sizeof(resp); ipmi_transaction(platform->ipmi, IPMI_NETFN_CHASSIS, IPMI_CMD_CHASSIS_SET_SYSTEM_BOOT_OPTIONS, req, sizeof(req), resp, &resp_len, ipmi_timeout); return 0; } static int get_ipmi_bootdev_ipmi(struct platform_powerpc *platform, uint8_t *bootdev, bool *persistent) { uint16_t resp_len; uint8_t resp[8]; int rc; uint8_t req[] = { 0x05, /* parameter selector: boot flags */ 0x00, /* no set selector */ 0x00, /* no block selector */ }; resp_len = sizeof(resp); rc = ipmi_transaction(platform->ipmi, IPMI_NETFN_CHASSIS, IPMI_CMD_CHASSIS_GET_SYSTEM_BOOT_OPTIONS, req, sizeof(req), resp, &resp_len, ipmi_timeout); if (rc) { pb_log("platform: error reading IPMI boot options\n"); return -1; } if (resp_len != sizeof(resp)) { pb_log("platform: unexpected length (%d) in " "boot options response\n", resp_len); return -1; } pb_debug("IPMI get_bootdev response:\n"); for (int i = 0; i < resp_len; i++) pb_debug("%x ", resp[i]); pb_debug("\n"); if (resp[0] != 0) { pb_log("platform: non-zero completion code %d from IPMI req\n", resp[0]); return -1; } /* check for correct parameter version */ if ((resp[1] & 0xf) != 0x1) { pb_log("platform: unexpected version (0x%x) in " "boot options response\n", resp[0]); return -1; } /* check for valid paramters */ if (resp[2] & 0x80) { pb_debug("platform: boot options are invalid/locked\n"); return -1; } *persistent = false; /* check for valid flags */ if (!(resp[3] & 0x80)) { pb_debug("platform: boot flags are invalid, ignoring\n"); return -1; } *persistent = resp[3] & 0x40; *bootdev = (resp[4] >> 2) & 0x0f; return 0; } static int set_ipmi_os_boot_sensor(struct platform_powerpc *platform) { int sensor_number; uint16_t resp_len; uint8_t resp[1]; uint8_t req[] = { 0x00, /* sensor number: os boot */ 0xA9, /* operation: set everything */ 0x00, /* sensor reading: none */ 0x40, /* assertion mask lsb: set state 6 */ 0x00, /* assertion mask msb: none */ 0x00, /* deassertion mask lsb: none */ 0x00, /* deassertion mask msb: none */ 0x00, /* event data 1: none */ 0x00, /* event data 2: none */ 0x00, /* event data 3: none */ }; sensor_number = get_ipmi_sensor(platform, IPMI_SENSOR_ID_OS_BOOT); if (sensor_number < 0) { pb_log("Couldn't find OS boot sensor in device tree\n"); return -1; } req[0] = sensor_number; resp_len = sizeof(resp); ipmi_transaction(platform->ipmi, IPMI_NETFN_SE, IPMI_CMD_SENSOR_SET, req, sizeof(req), resp, &resp_len, ipmi_timeout); return 0; return 0; } static void get_ipmi_bmc_mac(struct platform *p, uint8_t *buf) { struct platform_powerpc *platform = p->platform_data; uint16_t resp_len = 8; uint8_t resp[8]; uint8_t req[] = { 0x1, 0x5, 0x0, 0x0 }; int i, rc; rc = ipmi_transaction(platform->ipmi, IPMI_NETFN_TRANSPORT, IPMI_CMD_TRANSPORT_GET_LAN_PARAMS, req, sizeof(req), resp, &resp_len, ipmi_timeout); pb_debug("BMC MAC resp [%d][%d]:\n", rc, resp_len); if (rc == 0 && resp_len > 0) { for (i = 2; i < resp_len; i++) { pb_debug(" %x", resp[i]); buf[i - 2] = resp[i]; } pb_debug("\n"); } } /* * Retrieve info from the "Get Device ID" IPMI commands. * See Chapter 20.1 in the IPMIv2 specification. */ static void get_ipmi_bmc_versions(struct platform *p, struct system_info *info) { struct platform_powerpc *platform = p->platform_data; uint16_t resp_len = 16; uint8_t resp[16], bcd; int i, rc; /* Retrieve info from current side */ rc = ipmi_transaction(platform->ipmi, IPMI_NETFN_APP, IPMI_CMD_APP_GET_DEVICE_ID, NULL, 0, resp, &resp_len, ipmi_timeout); pb_debug("BMC version resp [%d][%d]:\n", rc, resp_len); if (resp_len > 0) { for (i = 0; i < resp_len; i++) { pb_debug(" %x", resp[i]); } pb_debug("\n"); } if (rc == 0 && (resp_len == 12 || resp_len == 16)) { info->bmc_current = talloc_array(info, char *, 4); info->n_bmc_current = 4; info->bmc_current[0] = talloc_asprintf(info, "Device ID: 0x%x", resp[1]); info->bmc_current[1] = talloc_asprintf(info, "Device Rev: 0x%x", resp[2]); bcd = resp[4] & 0x0f; bcd += 10 * (resp[4] >> 4); /* rev1.rev2.aux_revision */ info->bmc_current[2] = talloc_asprintf(info, "Firmware version: %u.%02u", resp[3], bcd); if (resp_len == 16) { info->bmc_current[2] = talloc_asprintf_append( info->bmc_current[2], ".%02x%02x%02x%02x", resp[12], resp[13], resp[14], resp[15]); } bcd = resp[5] & 0x0f; bcd += 10 * (resp[5] >> 4); info->bmc_current[3] = talloc_asprintf(info, "IPMI version: %u", bcd); } else pb_log("Failed to retrieve Device ID from IPMI\n"); /* Retrieve info from golden side */ memset(resp, 0, sizeof(resp)); resp_len = 16; rc = ipmi_transaction(platform->ipmi, IPMI_NETFN_AMI, IPMI_CMD_APP_GET_DEVICE_ID_GOLDEN, NULL, 0, resp, &resp_len, ipmi_timeout); pb_debug("BMC golden resp [%d][%d]:\n", rc, resp_len); if (resp_len > 0) { for (i = 0; i < resp_len; i++) { pb_debug(" %x", resp[i]); } pb_debug("\n"); } if (rc == 0 && (resp_len == 12 || resp_len == 16)) { info->bmc_golden = talloc_array(info, char *, 4); info->n_bmc_golden = 4; info->bmc_golden[0] = talloc_asprintf(info, "Device ID: 0x%x", resp[1]); info->bmc_golden[1] = talloc_asprintf(info, "Device Rev: 0x%x", resp[2]); bcd = resp[4] & 0x0f; bcd += 10 * (resp[4] >> 4); /* rev1.rev2.aux_revision */ info->bmc_golden[2] = talloc_asprintf(info, "Firmware version: %u.%02u", resp[3], bcd); if (resp_len == 16) { info->bmc_golden[2] = talloc_asprintf_append( info->bmc_golden[2], ".%02x%02x%02x%02x", resp[12], resp[13], resp[14], resp[15]); } bcd = resp[5] & 0x0f; bcd += 10 * (resp[5] >> 4); info->bmc_golden[3] = talloc_asprintf(info, "IPMI version: %u", bcd); } else pb_log("Failed to retrieve Golden Device ID from IPMI\n"); } static void get_ipmi_network_override(struct platform_powerpc *platform, struct config *config) { uint16_t min_len = 12, resp_len = 53, version; const uint32_t magic_value = 0x21706221; uint8_t resp[resp_len]; uint32_t cookie; bool persistent; int i, rc; uint8_t req[] = { 0x61, /* parameter selector: OEM section (network) */ 0x00, /* no set selector */ 0x00, /* no block selector */ }; rc = ipmi_transaction(platform->ipmi, IPMI_NETFN_CHASSIS, IPMI_CMD_CHASSIS_GET_SYSTEM_BOOT_OPTIONS, req, sizeof(req), resp, &resp_len, ipmi_timeout); pb_debug("IPMI net override resp [%d][%d]:\n", rc, resp_len); if (resp_len > 0) { for (i = 0; i < resp_len; i++) { pb_debug(" %02x", resp[i]); if (i && (i + 1) % 16 == 0 && i != resp_len - 1) pb_debug("\n"); else if (i && (i + 1) % 8 == 0) pb_debug(" "); } pb_debug("\n"); } if (rc) { pb_debug("IPMI network config option unavailable\n"); return; } if (resp_len < min_len) { pb_debug("IPMI net response too small\n"); return; } if (resp[0] != 0) { pb_log("platform: non-zero completion code %d from IPMI network req\n", resp[0]); return; } /* Check for correct parameter version */ if ((resp[1] & 0xf) != 0x1) { pb_log("platform: unexpected version (0x%x) in network override response\n", resp[0]); return; } /* Check that the parameters are valid */ if (resp[2] & 0x80) { pb_debug("platform: network override is invalid/locked\n"); return; } /* Check for valid parameters in the boot flags section */ if (!(resp[3] & 0x80)) { pb_debug("platform: network override valid flag not set\n"); return; } /* Read the persistent flag; if it is set we need to save this config */ persistent = resp[3] & 0x40; if (persistent) pb_debug("platform: network override is persistent\n"); /* Check 4-byte cookie value */ i = 4; memcpy(&cookie, &resp[i], sizeof(cookie)); cookie = __be32_to_cpu(cookie); if (cookie != magic_value) { pb_log("%s: Incorrect cookie %x\n", __func__, cookie); return; } i += sizeof(cookie); /* Check 2-byte version number */ memcpy(&version, &resp[i], sizeof(version)); version = __be16_to_cpu(version); i += sizeof(version); if (version != 1) { pb_debug("Unexpected version: %u\n", version); return; } /* Interpret the rest of the interface config */ rc = parse_ipmi_interface_override(config, &resp[i], resp_len - i); if (!rc && persistent) { /* Write this new config to NVRAM */ update_network_config(platform, config); rc = write_nvram(platform); if (rc) pb_log("platform: Failed to save persistent interface override\n"); } } static void get_active_consoles(struct config *config) { struct stat sbuf; char *fsp_prop = NULL; config->n_consoles = 2; config->consoles = talloc_array(config, char *, config->n_consoles); if (!config->consoles) goto err; config->consoles[0] = talloc_asprintf(config->consoles, "/dev/hvc0 [IPMI / Serial]"); config->consoles[1] = talloc_asprintf(config->consoles, "/dev/tty1 [VGA]"); fsp_prop = talloc_asprintf(config, "%sfsps", devtree_dir); if (stat(fsp_prop, &sbuf) == 0) { /* FSP based machines also have a separate serial console */ config->consoles = talloc_realloc(config, config->consoles, char *, config->n_consoles + 1); if (!config->consoles) goto err; config->consoles[config->n_consoles++] = talloc_asprintf( config->consoles, "/dev/hvc1 [Serial]"); } return; err: config->n_consoles = 0; pb_log("Failed to allocate memory for consoles\n"); } static int load_config(struct platform *p, struct config *config) { struct platform_powerpc *platform = to_platform_powerpc(p); int rc; rc = parse_nvram(platform); if (rc) pb_log("%s: Failed to parse nvram\n", __func__); populate_config(platform, config); if (platform->get_ipmi_bootdev) { bool bootdev_persistent; uint8_t bootdev = IPMI_BOOTDEV_INVALID; rc = platform->get_ipmi_bootdev(platform, &bootdev, &bootdev_persistent); if (!rc && ipmi_bootdev_is_valid(bootdev)) { set_ipmi_bootdev(config, bootdev, bootdev_persistent); } } if (platform->ipmi) get_ipmi_network_override(platform, config); get_active_consoles(config); return 0; } static int save_config(struct platform *p, struct config *config) { struct platform_powerpc *platform = to_platform_powerpc(p); struct config *defaults; int rc; defaults = talloc_zero(platform, struct config); config_set_defaults(defaults); rc = update_config(platform, config, defaults); talloc_free(defaults); return rc; } static void pre_boot(struct platform *p, const struct config *config) { struct platform_powerpc *platform = to_platform_powerpc(p); if (!config->ipmi_bootdev_persistent && platform->clear_ipmi_bootdev) platform->clear_ipmi_bootdev(platform, false); if (platform->set_os_boot_sensor) platform->set_os_boot_sensor(platform); } static int get_sysinfo(struct platform *p, struct system_info *sysinfo) { struct platform_powerpc *platform = p->platform_data; char *buf, *filename; int len, rc; filename = talloc_asprintf(platform, "%smodel", devtree_dir); rc = read_file(platform, filename, &buf, &len); if (rc == 0) sysinfo->type = talloc_steal(sysinfo, buf); talloc_free(filename); filename = talloc_asprintf(platform, "%ssystem-id", devtree_dir); rc = read_file(platform, filename, &buf, &len); if (rc == 0) sysinfo->identifier = talloc_steal(sysinfo, buf); talloc_free(filename); sysinfo->bmc_mac = talloc_zero_size(sysinfo, HWADDR_SIZE); if (platform->ipmi) get_ipmi_bmc_mac(p, sysinfo->bmc_mac); if (platform->ipmi) get_ipmi_bmc_versions(p, sysinfo); if (platform->get_platform_versions) platform->get_platform_versions(sysinfo); return 0; } static bool probe(struct platform *p, void *ctx) { struct platform_powerpc *platform; struct stat statbuf; bool bmc_present; int rc; /* we need a device tree */ rc = stat("/proc/device-tree", &statbuf); if (rc) return false; if (!S_ISDIR(statbuf.st_mode)) return false; platform = talloc_zero(ctx, struct platform_powerpc); list_init(&platform->params); p->platform_data = platform; bmc_present = stat("/proc/device-tree/bmc", &statbuf) == 0; if (ipmi_present() && bmc_present) { pb_debug("platform: using direct IPMI for IPMI paramters\n"); platform->ipmi = ipmi_open(platform); platform->get_ipmi_bootdev = get_ipmi_bootdev_ipmi; platform->clear_ipmi_bootdev = clear_ipmi_bootdev_ipmi; platform->set_os_boot_sensor = set_ipmi_os_boot_sensor; } else if (!stat(sysparams_dir, &statbuf)) { pb_debug("platform: using sysparams for IPMI paramters\n"); platform->get_ipmi_bootdev = get_ipmi_bootdev_sysparams; platform->clear_ipmi_bootdev = clear_ipmi_bootdev_sysparams; } else { pb_log("platform: no IPMI parameter support\n"); } if (bmc_present) platform->get_platform_versions = hostboot_load_versions; return true; } static struct platform platform_powerpc = { .name = "powerpc", .dhcp_arch_id = 0x000e, .probe = probe, .load_config = load_config, .save_config = save_config, .pre_boot = pre_boot, .get_sysinfo = get_sysinfo, }; register_platform(platform_powerpc);