siaddr = event_get_param(event, "siaddr");
if (!siaddr) {
- pb_log("%s: next server option not found\n", __func__);
+ pb_log_fn("next server option not found\n");
return NULL;
}
boot_file = event_get_param(event, "bootfile");
if (!boot_file) {
- pb_log("%s: bootfile not found\n", __func__);
+ pb_log_fn("bootfile not found\n");
return NULL;
}
val = event_get_param(event, "name");
if (!val) {
- pb_log("%s: no name found\n", __func__);
+ pb_log_fn("no name found\n");
goto fail_opt;
}
d_opt->boot_image = user_event_resource(d_opt, event, false);
if (!d_opt->boot_image) {
- pb_log("%s: no boot image found for %s!\n", __func__,
+ pb_log_fn("no boot image found for %s!\n",
opt->name);
goto fail_opt;
}
struct pb_url *user_event_parse_conf_url(struct discover_context *ctx,
struct event *event, bool *is_complete)
{
- const char *conffile, *pathprefix, *host, *bootfile;
+ const char *conffile, *pathprefix, *host, *bootfile, *bootfile_url;
char *p, *basedir, *url_str;
struct pb_url *url;
conffile = event_get_param(event, "pxeconffile");
pathprefix = event_get_param(event, "pxepathprefix");
bootfile = event_get_param(event, "bootfile");
+ bootfile_url = event_get_param(event, "bootfile_url");
/* If we're given a conf file, we're able to generate a complete URL to
* the configuration file, and the parser doesn't need to do any
host = parse_host_addr(event);
if (!host) {
- pb_log("%s: host address not found\n", __func__);
+ pb_log_fn("host address not found\n");
+
+ /* No full URLs and no host address? Check for DHCPv6 options */
+ if (bootfile_url && is_url(bootfile_url)) {
+ *is_complete = true;
+ return pb_url_parse(ctx, bootfile_url);
+ }
return NULL;
}
}
if (!mac_addr && !ip_hex) {
- pb_log("%s: neither mac nor ip parameter found\n", __func__);
+ pb_log_fn("neither mac nor ip parameter found\n");
return NULL;
}
uint8_t hwaddr[MAC_ADDR_SIZE];
- if (!event_get_param(event, "mac") || !event_get_param(event, "ip"))
+ if (!event_get_param(event, "mac"))
+ return -1;
+ if (!event_get_param(event, "ip") && !event_get_param(event, "ipv6"))
return -1;
sscanf(event_get_param(event, "mac"),
hwaddr, hwaddr + 1, hwaddr + 2,
hwaddr + 3, hwaddr + 4, hwaddr + 5);
- system_info_set_interface_address(sizeof(hwaddr), hwaddr,
- event_get_param(event, "ip"));
+ if (event_get_param(event, "ipv6"))
+ system_info_set_interface_address(sizeof(hwaddr), hwaddr,
+ event_get_param(event, "ipv6"));
+ else
+ system_info_set_interface_address(sizeof(hwaddr), hwaddr,
+ event_get_param(event, "ip"));
dev = discover_device_create(handler, event_get_param(event, "mac"),
event->device);
static int user_event_boot(struct user_event *uev, struct event *event)
{
struct device_handler *handler = uev->handler;
- struct boot_command *cmd = talloc(handler, struct boot_command);
+ struct boot_command *cmd = talloc_zero(handler, struct boot_command);
+ struct discover_boot_option *opt;
+ const char *name;
+
+ name = event_get_param(event, "name");
+ if (name) {
+ pb_log("Finding boot option %s @ %s\n", name, event->device);
+ opt = device_handler_find_option_by_name(handler,
+ event->device, name);
+ if (!opt) {
+ pb_log("No option with name %s\n", name);
+ return -1;
+ }
- cmd->option_id = talloc_strdup(cmd, event_get_param(event, "id"));
- cmd->boot_image_file = talloc_strdup(cmd, event_get_param(event, "image"));
- cmd->initrd_file = talloc_strdup(cmd, event_get_param(event, "initrd"));
- cmd->dtb_file = talloc_strdup(cmd, event_get_param(event, "dtb"));
- cmd->boot_args = talloc_strdup(cmd, event_get_param(event, "args"));
+ pb_log("Found option with id %s!\n", opt->option->id);
+ cmd->option_id = talloc_strdup(cmd, opt->option->id);
+ } else {
+ pb_log("Booting based on full boot command\n");
+ cmd->option_id = talloc_strdup(cmd, event_get_param(event, "id"));
+ cmd->boot_image_file = talloc_strdup(cmd, event_get_param(event, "image"));
+ cmd->initrd_file = talloc_strdup(cmd, event_get_param(event, "initrd"));
+ cmd->dtb_file = talloc_strdup(cmd, event_get_param(event, "dtb"));
+ cmd->boot_args = talloc_strdup(cmd, event_get_param(event, "args"));
+ }
device_handler_boot(handler, cmd);
len = recvfrom(uev->socket, buf, PBOOT_USER_EVENT_SIZE, 0, NULL, NULL);
if (len < 0) {
- pb_log("%s: socket read failed: %s", __func__, strerror(errno));
+ pb_log_fn("socket read failed: %s\n", strerror(errno));
return 0;
}
if (len == 0) {
- pb_log("%s: empty", __func__);
+ pb_log_fn("empty\n");
return 0;
}