struct platform_powerpc *platform,
uint8_t *bootdev, bool *persistent);
int (*clear_ipmi_bootdev)(
- struct platform_powerpc *platform);
+ struct platform_powerpc *platform,
+ bool persistent);
int (*set_os_boot_sensor)(
struct platform_powerpc *platform);
};
opt->uuid, delim);
break;
}
- tmp = val = talloc_asprintf_append(val, boot_str);
+ tmp = val = talloc_asprintf_append(val, "%s", boot_str);
}
update_string_config(platform, "petitboot,bootdevs", val);
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);
}
static int clear_ipmi_bootdev_sysparams(
- struct platform_powerpc *platform __attribute__((unused)))
+ struct platform_powerpc *platform __attribute__((unused)),
+ bool persistent)
{
- /* invalidate next-boot-device setting */
- write_bootdev_sysparam("next-boot-device", 0xff);
+ 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;
}
return 0;
}
-static int clear_ipmi_bootdev_ipmi(struct platform_powerpc *platform)
+static int clear_ipmi_bootdev_ipmi(struct platform_powerpc *platform,
+ bool persistent __attribute__((unused)))
{
uint16_t resp_len;
uint8_t resp[1];
struct platform_powerpc *platform = to_platform_powerpc(p);
if (!config->ipmi_bootdev_persistent && platform->clear_ipmi_bootdev)
- platform->clear_ipmi_bootdev(platform);
+ platform->clear_ipmi_bootdev(platform, false);
if (platform->set_os_boot_sensor)
platform->set_os_boot_sensor(platform);