/*
    * netifd - network interface daemon
    * Copyright (C) 2013 Felix Fietkau <nbd@openwrt.org>
    *
    * This program is free software; you can redistribute it and/or modify
    * it under the terms of the GNU General Public License version 2
    * as published by the Free Software Foundation
    *
    * This program is distributed in the hope that it will be useful,
   * but WITHOUT ANY WARRANTY; without even the implied warranty of
   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   * GNU General Public License for more details.
   */
  
  /* The wireless configuration is projected on the following objects
   *
   * 1. wireless device
   * 2. wireless interface
   * 3. wireless vlan
   * 4. wireless station
   *
   * A wireless device is a phy or simplified a wireless card.
   * A wireless interface is a SSID on a phy.
   * A wireless vlan can be assigned to a wireless interface. A wireless interface can
   *   have multiple vlans.
   * A wireless station is a client connected to an wireless interface.
   */
  
  #include <signal.h>
  #include "netifd.h"
  #include "wireless.h"
  #include "handler.h"
  #include "ubus.h"
  
  #define WIRELESS_SETUP_RETRY    3
  
  struct vlist_tree wireless_devices;
  struct avl_tree wireless_drivers;
  static struct blob_buf b;
  static int drv_fd;
  static LIST_HEAD(handlers);
  static bool handler_pending;
  
  enum {
          WDEV_ATTR_DISABLED,
          WDEV_ATTR_RECONF,
          WDEV_ATTR_SERIALIZE,
          __WDEV_ATTR_MAX,
  };
  
  static const struct blobmsg_policy wdev_policy[__WDEV_ATTR_MAX] = {
          [WDEV_ATTR_DISABLED] = { .name = "disabled", .type = BLOBMSG_TYPE_BOOL },
          [WDEV_ATTR_RECONF] = { .name = "reconf", .type = BLOBMSG_TYPE_BOOL },
          [WDEV_ATTR_SERIALIZE] = { .name = "serialize", .type = BLOBMSG_TYPE_BOOL },
  };
  
  static const struct uci_blob_param_list wdev_param = {
          .n_params = ARRAY_SIZE(wdev_policy),
          .params = wdev_policy,
  };
  
  enum {
          VIF_ATTR_DISABLED,
          VIF_ATTR_NETWORK,
          VIF_ATTR_NETWORK_VLAN,
          VIF_ATTR_BRIDGE_ISOLATE,
          VIF_ATTR_ISOLATE,
          VIF_ATTR_MODE,
          VIF_ATTR_PROXYARP,
          VIF_ATTR_MCAST_TO_UCAST,
          __VIF_ATTR_MAX,
  };
  
  static const struct blobmsg_policy vif_policy[__VIF_ATTR_MAX] = {
          [VIF_ATTR_DISABLED] = { .name = "disabled", .type = BLOBMSG_TYPE_BOOL },
          [VIF_ATTR_NETWORK] = { .name = "network", .type = BLOBMSG_TYPE_ARRAY },
          [VIF_ATTR_NETWORK_VLAN] = { .name = "network_vlan", .type = BLOBMSG_TYPE_ARRAY },
          [VIF_ATTR_BRIDGE_ISOLATE] = { .name = "bridge_isolate", .type = BLOBMSG_TYPE_BOOL },
          [VIF_ATTR_ISOLATE] = { .name = "isolate", .type = BLOBMSG_TYPE_BOOL },
          [VIF_ATTR_MODE] = { .name = "mode", .type = BLOBMSG_TYPE_STRING },
          [VIF_ATTR_PROXYARP] = { .name = "proxy_arp", .type = BLOBMSG_TYPE_BOOL },
          [VIF_ATTR_MCAST_TO_UCAST] = { .name = "multicast_to_unicast", .type = BLOBMSG_TYPE_BOOL },
  };
  
  static const struct uci_blob_param_list vif_param = {
          .n_params = ARRAY_SIZE(vif_policy),
          .params = vif_policy,
  };
  
  enum {
          VLAN_ATTR_DISABLED,
          VLAN_ATTR_NETWORK,
          VLAN_ATTR_NETWORK_VLAN,
          VLAN_ATTR_BRIDGE_ISOLATE,
          VLAN_ATTR_ISOLATE,
          VLAN_ATTR_MCAST_TO_UCAST,
          __VLAN_ATTR_MAX,
  };
  
 static const struct blobmsg_policy vlan_policy[__VLAN_ATTR_MAX] = {
         [VLAN_ATTR_DISABLED] = { .name = "disabled", .type = BLOBMSG_TYPE_BOOL },
         [VLAN_ATTR_NETWORK] = { .name = "network", .type = BLOBMSG_TYPE_ARRAY },
         [VLAN_ATTR_NETWORK_VLAN] = { .name = "network_vlan", .type = BLOBMSG_TYPE_ARRAY },
         [VLAN_ATTR_BRIDGE_ISOLATE] = { .name = "bridge_isolate", .type = BLOBMSG_TYPE_BOOL },
         [VLAN_ATTR_ISOLATE] = { .name = "isolate", .type = BLOBMSG_TYPE_BOOL },
         [VLAN_ATTR_MCAST_TO_UCAST] = { .name = "multicast_to_unicast", .type = BLOBMSG_TYPE_BOOL },
 };
 
 static const struct uci_blob_param_list vlan_param = {
         .n_params = ARRAY_SIZE(vlan_policy),
         .params = vlan_policy,
 };
 
 enum {
         STA_ATTR_DISABLED,
         __STA_ATTR_MAX,
 };
 
 static const struct blobmsg_policy sta_policy[__STA_ATTR_MAX] = {
         [STA_ATTR_DISABLED] = { .name = "disabled", .type = BLOBMSG_TYPE_BOOL },
 };
 
 static const struct uci_blob_param_list station_param = {
         .n_params = ARRAY_SIZE(sta_policy),
         .params = sta_policy,
 };
 
 static void
 wireless_handler_stop(struct wireless_device *wdev)
 {
         if (wdev->handler_pending) {
                 wdev->handler_pending = false;
                 list_del(&wdev->handler);
         }
 }
 
 static void
 put_container(struct blob_buf *buf, struct blob_attr *attr, const char *name)
 {
         void *c = blobmsg_open_table(buf, name);
         blob_put_raw(buf, blob_data(attr), blob_len(attr));
         blobmsg_close_table(buf, c);
 }
 
 static void
 vif_config_add_bridge(struct blob_buf *buf, struct blob_attr *networks, bool prepare)
 {
         struct interface *iface;
         struct device *dev = NULL, *orig_dev;
         struct blob_attr *cur;
         const char *network;
         size_t rem;
 
         if (!networks)
                 return;
 
         blobmsg_for_each_attr(cur, networks, rem) {
                 network = blobmsg_data(cur);
 
                 iface = vlist_find(&interfaces, network, iface, node);
                 if (!iface)
                         continue;
 
                 dev = iface->main_dev.dev;
                 if (!dev)
                         return;
 
                 if (!dev->hotplug_ops)
                         return;
         }
 
         if (!dev)
                 return;
 
         orig_dev = dev;
         if (dev->hotplug_ops && dev->hotplug_ops->prepare)
                 dev->hotplug_ops->prepare(dev, &dev);
 
         if (!dev || !dev->type->bridge_capability)
                 return;
 
         blobmsg_add_string(buf, "bridge", dev->ifname);
         blobmsg_add_string(buf, "bridge-ifname", orig_dev->ifname);
 
         if (dev->settings.flags & DEV_OPT_MULTICAST_TO_UNICAST)
                 blobmsg_add_u8(buf, "multicast_to_unicast",
                                dev->settings.multicast_to_unicast);
 }
 
 static void
 prepare_config(struct wireless_device *wdev, struct blob_buf *buf, bool up)
 {
         struct wireless_interface *vif;
         struct wireless_vlan *vlan;
         struct wireless_station *sta;
         void *l, *i, *j, *k;
 
         blob_buf_init(&b, 0);
         put_container(&b, wdev->config, "config");
         if (wdev->data)
                 blobmsg_add_blob(&b, wdev->data);
 
         l = blobmsg_open_table(&b, "interfaces");
         vlist_for_each_element(&wdev->interfaces, vif, node) {
                 if (vif->disabled)
                         continue;
 
                 i = blobmsg_open_table(&b, vif->name);
                 vif_config_add_bridge(&b, vif->network, up);
                 put_container(&b, vif->config, "config");
                 if (vif->data)
                         blobmsg_add_blob(&b, vif->data);
 
                 j = blobmsg_open_table(&b, "vlans");
                 vlist_for_each_element(&vif->vlans, vlan, node) {
                         k = blobmsg_open_table(&b, vlan->name);
                         vif_config_add_bridge(&b, vlan->network, up);
                         put_container(&b, vlan->config, "config");
                         if (vlan->data)
                                 blobmsg_add_blob(&b, vlan->data);
                         blobmsg_close_table(&b, k);
                 }
                 blobmsg_close_table(&b, j);
 
                 j = blobmsg_open_table(&b, "stas");
                 vlist_for_each_element(&vif->stations, sta, node) {
                         k = blobmsg_open_table(&b, sta->name);
                         put_container(&b, sta->config, "config");
                         if (sta->data)
                                 blobmsg_add_blob(&b, sta->data);
                         blobmsg_close_table(&b, k);
                 }
                 blobmsg_close_table(&b, j);
                 blobmsg_close_table(&b, i);
         }
         blobmsg_close_table(&b, l);
 
 }
 
 static bool
 wireless_process_check(struct wireless_process *proc)
 {
         return check_pid_path(proc->pid, proc->exe);
 }
 
 static void
 wireless_complete_kill_request(struct wireless_device *wdev)
 {
         if (!wdev->kill_request)
                 return;
 
         ubus_complete_deferred_request(ubus_ctx, wdev->kill_request, 0);
         free(wdev->kill_request);
         wdev->kill_request = NULL;
 }
 
 static void
 wireless_process_free(struct wireless_device *wdev, struct wireless_process *proc)
 {
         D(WIRELESS, "Wireless device '%s' free pid %d\n", wdev->name, proc->pid);
         list_del(&proc->list);
         free(proc);
 
         if (list_empty(&wdev->script_proc))
                 wireless_complete_kill_request(wdev);
 }
 
 static void
 wireless_close_script_proc_fd(struct wireless_device *wdev)
 {
         if (wdev->script_proc_fd.fd < 0)
                 return;
 
         uloop_fd_delete(&wdev->script_proc_fd);
         close(wdev->script_proc_fd.fd);
         wdev->script_proc_fd.fd = -1;
 }
 
 static void
 wireless_process_kill_all(struct wireless_device *wdev, int signal, bool free)
 {
         struct wireless_process *proc, *tmp;
 
         list_for_each_entry_safe(proc, tmp, &wdev->script_proc, list) {
                 bool check = wireless_process_check(proc);
 
                 if (check && !proc->keep) {
                         D(WIRELESS, "Wireless device '%s' kill pid %d\n", wdev->name, proc->pid);
                         kill(proc->pid, signal);
                 }
 
                 if (free || !check)
                         wireless_process_free(wdev, proc);
         }
 
         if (free)
                 wireless_close_script_proc_fd(wdev);
 }
 
 static void
 wireless_device_free_state(struct wireless_device *wdev)
 {
         struct wireless_interface *vif;
         struct wireless_vlan *vlan;
         struct wireless_station *sta;
 
         wireless_handler_stop(wdev);
         uloop_timeout_cancel(&wdev->script_check);
         uloop_timeout_cancel(&wdev->timeout);
         wireless_complete_kill_request(wdev);
         free(wdev->data);
         wdev->data = NULL;
         vlist_for_each_element(&wdev->interfaces, vif, node) {
                 free(vif->data);
                 vif->data = NULL;
                 vif->ifname = NULL;
                 vlist_for_each_element(&vif->vlans, vlan, node) {
                         free(vlan->data);
                         vlan->data = NULL;
                         vlan->ifname = NULL;
                 }
                 vlist_for_each_element(&vif->stations, sta, node) {
                         free(sta->data);
                         sta->data = NULL;
                 }
         }
 }
 
 static void wireless_device_set_mcast_to_unicast(struct device *dev, int val)
 {
         if (val < 0) {
                 dev->settings.flags &= ~DEV_OPT_MULTICAST_TO_UNICAST;
                 return;
         }
 
         dev->settings.multicast_to_unicast = !!val;
         dev->settings.flags |= DEV_OPT_MULTICAST_TO_UNICAST;
 }
 
 static void wireless_interface_handle_link(struct wireless_interface *vif, const char *ifname, bool up)
 {
         struct interface *iface;
         struct blob_attr *cur;
         const char *network;
         struct device *dev;
         size_t rem;
 
         if (!vif->network || !vif->ifname)
                 return;
 
         if (!ifname)
                 ifname = vif->ifname;
 
         if (!up)
                 goto out;
 
         dev = __device_get(ifname, 2, false);
         if (!dev)
                 goto out;
 
         dev->wireless = true;
         dev->settings.flags |= DEV_OPT_ISOLATE;
         dev->settings.isolate = vif->bridge_isolate;
 
         if (strcmp(ifname, vif->ifname) != 0)
                 goto out;
 
         dev->wireless_isolate = vif->isolate;
         dev->wireless_proxyarp = vif->proxyarp;
         dev->wireless_ap = vif->ap_mode;
         wireless_device_set_mcast_to_unicast(dev, vif->multicast_to_unicast);
         dev->bpdu_filter = dev->wireless_ap;
 
 out:
         blobmsg_for_each_attr(cur, vif->network, rem) {
                 network = blobmsg_data(cur);
 
                 iface = vlist_find(&interfaces, network, iface, node);
                 if (!iface)
                         continue;
 
                 interface_handle_link(iface, ifname, vif->network_vlan, up, true);
         }
 }
 
 static void wireless_vlan_handle_link(struct wireless_vlan *vlan, bool up)
 {
         struct interface *iface;
         struct blob_attr *cur;
         const char *network;
         size_t rem;
 
         if (!vlan->network || !vlan->ifname)
                 return;
 
         if (up) {
                 struct device *dev = device_get(vlan->ifname, 2);
                 if (dev) {
                         dev->wireless_isolate = vlan->isolate;
                         dev->wireless = true;
                         dev->wireless_ap = true;
                         dev->bpdu_filter = true;
                         dev->settings.flags |= DEV_OPT_ISOLATE;
                         dev->settings.isolate = vlan->bridge_isolate;
                         wireless_device_set_mcast_to_unicast(dev, vlan->multicast_to_unicast);
                 }
         }
 
         blobmsg_for_each_attr(cur, vlan->network, rem) {
                 network = blobmsg_data(cur);
 
                 iface = vlist_find(&interfaces, network, iface, node);
                 if (!iface)
                         continue;
 
                 interface_handle_link(iface, vlan->ifname, vlan->network_vlan, up, true);
         }
 }
 
 static void
 wireless_device_setup_cancel(struct wireless_device *wdev)
 {
         if (wdev->cancel)
                 return;
 
         wireless_handler_stop(wdev);
         D(WIRELESS, "Cancel wireless device '%s' setup\n", wdev->name);
         wdev->cancel = true;
         uloop_timeout_set(&wdev->timeout, 10 * 1000);
 }
 
 static void
 wireless_device_run_handler(struct wireless_device *wdev, bool up)
 {
         const char *action = up ? "setup" : "teardown";
         const char *argv[6];
         char *config;
         int i = 0;
         int fds[2] = { -1, -1 };
 
         wireless_handler_stop(wdev);
 
         if (handler_pending && wdev->serialize) {
                 wdev->handler_action = up;
                 wdev->handler_pending = true;
                 list_add_tail(&wdev->handler, &handlers);
                 return;
         }
         if (wdev->serialize)
                 handler_pending = true;
 
         D(WIRELESS, "Wireless device '%s' run %s handler\n", wdev->name, action);
         if (!up && wdev->prev_config) {
                 config = blobmsg_format_json(wdev->prev_config, true);
                 free(wdev->prev_config);
                 wdev->prev_config = NULL;
         } else {
                 prepare_config(wdev, &b, up);
                 free(wdev->prev_config);
                 wdev->prev_config = up ? blob_memdup(b.head) : NULL;
                 config = blobmsg_format_json(b.head, true);
         }
 
         argv[i++] = wdev->drv->script;
         argv[i++] = wdev->drv->name;
         argv[i++] = action;
         argv[i++] = wdev->name;
         argv[i++] = config;
         argv[i] = NULL;
 
         if (up && pipe(fds) == 0) {
                 if (wdev->script_proc_fd.fd >= 0)
                         wireless_close_script_proc_fd(wdev);
 
                 wdev->script_proc_fd.fd = fds[0];
                 uloop_fd_add(&wdev->script_proc_fd,
                              ULOOP_READ | ULOOP_EDGE_TRIGGER);
         }
 
         netifd_start_process(argv, NULL, &wdev->script_task);
 
         if (fds[1] >= 0)
                 close(fds[1]);
 
         free(config);
 }
 
 static void
 wireless_handler_next(void)
 {
         struct wireless_device *wdev;
 
         if (handler_pending)
                 return;
         if (list_empty(&handlers))
                 return;
         wdev = list_first_entry(&handlers, struct wireless_device, handler);
         list_del(&wdev->handler);
         wdev->handler_pending = false;
         wireless_device_run_handler(wdev, wdev->handler_action);
 }
 
 static void
 __wireless_device_set_up(struct wireless_device *wdev, int force)
 {
         if (wdev->disabled)
                 return;
 
         if (wdev->retry_setup_failed)
                 return;
 
         if (!wdev->autostart)
                 return;
 
         if ((!force && wdev->state != IFS_DOWN) || config_init)
                 return;
 
         wdev->state = IFS_SETUP;
         wireless_device_run_handler(wdev, true);
 }
 
 static void
 wireless_device_free(struct wireless_device *wdev)
 {
         wireless_handler_stop(wdev);
         vlist_flush_all(&wdev->interfaces);
         avl_delete(&wireless_devices.avl, &wdev->node.avl);
         free(wdev->config);
         free(wdev->prev_config);
         free(wdev);
 }
 
 static void
 wdev_handle_config_change(struct wireless_device *wdev)
 {
         enum interface_config_state state = wdev->config_state;
 
         switch(state) {
         case IFC_RELOAD:
                 wdev->retry = WIRELESS_SETUP_RETRY;
                 wdev->retry_setup_failed = false;
                 fallthrough;
         case IFC_NORMAL:
                 __wireless_device_set_up(wdev, 0);
 
                 wdev->config_state = IFC_NORMAL;
                 break;
         case IFC_REMOVE:
                 wireless_device_free(wdev);
                 break;
         }
 }
 
 static void
 wireless_device_mark_down(struct wireless_device *wdev)
 {
         struct wireless_interface *vif;
         struct wireless_vlan *vlan;
 
         netifd_log_message(L_NOTICE, "Wireless device '%s' is now down\n", wdev->name);
 
 
         vlist_for_each_element(&wdev->interfaces, vif, node) {
                 wireless_interface_handle_link(vif, NULL, false);
                 vlist_for_each_element(&vif->vlans, vlan, node)
                         wireless_vlan_handle_link(vlan, false);
         }
 
         wireless_process_kill_all(wdev, SIGTERM, true);
 
         wdev->cancel = false;
         wdev->state = IFS_DOWN;
         wireless_device_free_state(wdev);
         wdev_handle_config_change(wdev);
 }
 
 /* timeout callback to protect the tear down */
 static void
 wireless_device_setup_timeout(struct uloop_timeout *timeout)
 {
         struct wireless_device *wdev = container_of(timeout, struct wireless_device, timeout);
 
         if (wdev->handler_pending) {
                 wdev->handler_pending = false;
                 list_del(&wdev->handler);
         }
         netifd_kill_process(&wdev->script_task);
         wdev->script_task.cb(&wdev->script_task, -1);
         wireless_device_mark_down(wdev);
 }
 
 void
 wireless_device_set_up(struct wireless_device *wdev)
 {
         wdev->retry = WIRELESS_SETUP_RETRY;
         wdev->autostart = true;
         __wireless_device_set_up(wdev, 0);
 }
 
 void
 wireless_device_reconf(struct wireless_device *wdev)
 {
         wdev->retry = WIRELESS_SETUP_RETRY;
         wdev->autostart = true;
         __wireless_device_set_up(wdev, wdev->reconf && (wdev->state == IFS_UP));
 }
 
 static void
 __wireless_device_set_down(struct wireless_device *wdev)
 {
         if (wdev->state == IFS_TEARDOWN || wdev->state == IFS_DOWN)
                 return;
 
         if (wdev->script_task.uloop.pending) {
                 wireless_device_setup_cancel(wdev);
                 return;
         }
 
         wdev->state = IFS_TEARDOWN;
         wireless_device_run_handler(wdev, false);
 }
 
 /* ubus callback network.wireless.notify, command = up */
 static void
 wireless_device_mark_up(struct wireless_device *wdev)
 {
         struct wireless_interface *vif;
         struct wireless_vlan *vlan;
 
         if (wdev->cancel) {
                 wdev->cancel = false;
                 __wireless_device_set_down(wdev);
                 return;
         }
 
         netifd_log_message(L_NOTICE, "Wireless device '%s' is now up\n", wdev->name);
         wdev->retry = WIRELESS_SETUP_RETRY;
         wdev->state = IFS_UP;
         vlist_for_each_element(&wdev->interfaces, vif, node) {
                 wireless_interface_handle_link(vif, NULL, true);
                 vlist_for_each_element(&vif->vlans, vlan, node)
                         wireless_vlan_handle_link(vlan, true);
         }
 }
 
 static void
 wireless_device_retry_setup(struct wireless_device *wdev)
 {
         if (wdev->state == IFS_TEARDOWN || wdev->state == IFS_DOWN || wdev->cancel)
                 return;
 
         netifd_log_message(wdev->retry ? L_WARNING : L_CRIT,
                            "Wireless device '%s' setup failed, retry=%d\n",
                            wdev->name, wdev->retry);
         if (--wdev->retry < 0)
                 wdev->retry_setup_failed = true;
 
         __wireless_device_set_down(wdev);
 }
 
 static void
 wireless_device_script_task_cb(struct netifd_process *proc, int ret)
 {
         struct wireless_device *wdev = container_of(proc, struct wireless_device, script_task);
 
         switch (wdev->state) {
         case IFS_SETUP:
                 wireless_device_retry_setup(wdev);
                 break;
         case IFS_TEARDOWN:
                 wireless_device_mark_down(wdev);
                 break;
         default:
                 break;
         }
 
         if (wdev->serialize) {
                 handler_pending = false;
                 wireless_handler_next();
         }
 }
 
 void
 wireless_device_set_down(struct wireless_device *wdev)
 {
         wdev->retry_setup_failed = false;
         wdev->autostart = false;
         __wireless_device_set_down(wdev);
 }
 
 static void
 wdev_set_config_state(struct wireless_device *wdev, enum interface_config_state s)
 {
         if (wdev->config_state != IFC_NORMAL)
                 return;
 
         wdev->config_update = false;
         if (!wdev->disabled && s == IFC_RELOAD && wdev->reconf && wdev->state == IFS_UP) {
                 wireless_device_reconf(wdev);
                 return;
         }
 
         wdev->config_state = s;
         if (wdev->state == IFS_DOWN)
                 wdev_handle_config_change(wdev);
         else
                 __wireless_device_set_down(wdev);
 }
 
 static void
 wdev_prepare_prev_config(struct wireless_device *wdev)
 {
         prepare_config(wdev, &b, false);
         free(wdev->prev_config);
         wdev->prev_config = blob_memdup(b.head);
 }
 
 static void
 wdev_change_config(struct wireless_device *wdev, struct wireless_device *wd_new)
 {
         struct blob_attr *new_config = wd_new->config;
         bool disabled = wd_new->disabled;
 
         wdev->reconf = wd_new->reconf;
         wdev->serialize = wd_new->serialize;
         free(wd_new);
 
         if (blob_attr_equal(wdev->config, new_config) && wdev->disabled == disabled)
                 return;
 
         D(WIRELESS, "Update configuration of wireless device '%s'\n", wdev->name);
         free(wdev->config);
         wdev->config = blob_memdup(new_config);
         wdev->disabled = disabled;
         wdev->config_update = true;
 }
 
 static void
 wdev_create(struct wireless_device *wdev)
 {
         wdev->retry = WIRELESS_SETUP_RETRY;
         wdev->config = blob_memdup(wdev->config);
 }
 
 /* vlist update call for wireless device list */
 static void
 wdev_update(struct vlist_tree *tree, struct vlist_node *node_new,
             struct vlist_node *node_old)
 {
         struct wireless_device *wd_old = container_of(node_old, struct wireless_device, node);
         struct wireless_device *wd_new = container_of(node_new, struct wireless_device, node);
 
         if (wd_old && wd_new) {
                 D(WIRELESS, "Update wireless device '%s'\n", wd_old->name);
                 wdev_change_config(wd_old, wd_new);
         } else if (wd_old) {
                 D(WIRELESS, "Delete wireless device '%s'\n", wd_old->name);
                 wdev_set_config_state(wd_old, IFC_REMOVE);
         } else if (wd_new) {
                 D(WIRELESS, "Create wireless device '%s'\n", wd_new->name);
                 wdev_create(wd_new);
         }
 }
 
 /* wireless netifd script handler */
 static void
 wireless_add_handler(const char *script, const char *name, json_object *obj)
 {
         struct wireless_driver *drv;
         char *name_str, *script_str;
         json_object *dev_config_obj, *iface_config_obj, *vlan_config_obj, *station_config_obj;
         struct uci_blob_param_list *dev_config, *iface_config, *vlan_config, *station_config;
 
         dev_config_obj = json_get_field(obj, "device", json_type_array);
         iface_config_obj = json_get_field(obj, "iface", json_type_array);
         vlan_config_obj = json_get_field(obj, "vlan", json_type_array);
         station_config_obj = json_get_field(obj, "station", json_type_array);
 
         if (!dev_config_obj || !iface_config_obj || !vlan_config_obj || !station_config_obj)
                 return;
 
         drv = calloc_a(sizeof(*drv),
                 &dev_config, sizeof(*dev_config) + sizeof(void *),
                 &iface_config, sizeof(*iface_config) + sizeof(void *),
                 &vlan_config, sizeof(*vlan_config) + sizeof(void *),
                 &station_config, sizeof(*station_config) + sizeof(void *),
                 &name_str, strlen(name) + 1,
                 &script_str, strlen(script) + 1);
 
         drv->name = strcpy(name_str, name);
         drv->script = strcpy(script_str, script);
 
         dev_config->n_next = 1;
         dev_config->next[0] = &wdev_param;
         drv->device.config = dev_config;
 
         iface_config->n_next = 1;
         iface_config->next[0] = &vif_param;
         drv->interface.config = iface_config;
 
         vlan_config->n_next = 1;
         vlan_config->next[0] = &vlan_param;
         drv->vlan.config = vlan_config;
 
         station_config->n_next = 1;
         station_config->next[0] = &station_param;
         drv->station.config = station_config;
 
         drv->device.buf = netifd_handler_parse_config(drv->device.config, dev_config_obj);
         drv->interface.buf = netifd_handler_parse_config(drv->interface.config, iface_config_obj);
         drv->vlan.buf = netifd_handler_parse_config(drv->vlan.config, vlan_config_obj);
         drv->station.buf = netifd_handler_parse_config(drv->station.config, station_config_obj);
 
         drv->node.key = drv->name;
         avl_insert(&wireless_drivers, &drv->node);
         D(WIRELESS, "Add handler for script %s: %s\n", script, name);
 }
 
 void wireless_init(void)
 {
         vlist_init(&wireless_devices, avl_strcmp, wdev_update);
         wireless_devices.keep_old = true;
         wireless_devices.no_delete = true;
 
         avl_init(&wireless_drivers, avl_strcmp, false, NULL);
         drv_fd = netifd_open_subdir("wireless");
         if (drv_fd < 0)
                 return;
 
         netifd_init_script_handlers(drv_fd, wireless_add_handler);
 }
 
 /* parse blob config into the wireless interface object */
 static void
 wireless_interface_init_config(struct wireless_interface *vif)
 {
         struct blob_attr *tb[__VIF_ATTR_MAX];
         struct blob_attr *cur;
 
         vif->network = NULL;
         blobmsg_parse(vif_policy, __VIF_ATTR_MAX, tb, blob_data(vif->config), blob_len(vif->config));
 
         if ((cur = tb[VIF_ATTR_NETWORK]))
                 vif->network = cur;
 
         if ((cur = tb[VIF_ATTR_NETWORK_VLAN]))
                 vif->network_vlan = cur;
 
         cur = tb[VIF_ATTR_MODE];
         vif->ap_mode = cur && !strcmp(blobmsg_get_string(cur), "ap");
 
         cur = tb[VIF_ATTR_BRIDGE_ISOLATE];
         vif->bridge_isolate = cur && blobmsg_get_bool(cur);
 
         cur = tb[VIF_ATTR_ISOLATE];
         vif->isolate = cur && blobmsg_get_bool(cur);
 
         cur = tb[VIF_ATTR_PROXYARP];
         vif->proxyarp = vif->ap_mode && cur && blobmsg_get_bool(cur);
 
         cur = tb[VIF_ATTR_MCAST_TO_UCAST];
         vif->multicast_to_unicast = cur ? blobmsg_get_bool(cur) : -1;
 }
 
 static void
 vif_free(struct wireless_interface *vif)
 {
         vlist_flush_all(&vif->vlans);
         vlist_flush_all(&vif->stations);
         free((void *) vif->section);
         free(vif->config);
         free(vif);
 }
 
 /* vlist update call for wireless interface list */
 static void
 vif_update(struct vlist_tree *tree, struct vlist_node *node_new,
            struct vlist_node *node_old)
 {
         struct wireless_interface *vif_old = container_of(node_old, struct wireless_interface, node);
         struct wireless_interface *vif_new = container_of(node_new, struct wireless_interface, node);
         struct wireless_device *wdev;
 
         if (vif_old)
                 wdev = vif_old->wdev;
         else
                 wdev = vif_new->wdev;
 
         if (vif_old && vif_new) {
                 free((void *) vif_old->section);
                 vif_old->section = strdup(vif_new->section);
                 if (blob_attr_equal(vif_old->config, vif_new->config)) {
                         free(vif_new);
                         return;
                 }
 
                 D(WIRELESS, "Update wireless interface %s on device %s\n", vif_new->name, wdev->name);
                 wireless_interface_handle_link(vif_old, NULL, false);
                 free(vif_old->config);
                 vif_old->config = blob_memdup(vif_new->config);
                 wireless_interface_init_config(vif_old);
                 free(vif_new);
         } else if (vif_new) {
                 D(WIRELESS, "Create new wireless interface %s on device %s\n", vif_new->name, wdev->name);
                 vif_new->section = strdup(vif_new->section);
                 vif_new->config = blob_memdup(vif_new->config);
                 wireless_interface_init_config(vif_new);
         } else if (vif_old) {
                 D(WIRELESS, "Delete wireless interface %s on device %s\n", vif_old->name, wdev->name);
                 wireless_interface_handle_link(vif_old, NULL, false);
                 vif_free(vif_old);
         }
 
         wdev->config_update = true;
 }
 
 /* parse blob config into the vlan object */
 static void
 wireless_vlan_init_config(struct wireless_vlan *vlan)
 {
         struct blob_attr *tb[__VLAN_ATTR_MAX];
         struct blob_attr *cur;
 
         vlan->network = NULL;
         blobmsg_parse(vlan_policy, __VLAN_ATTR_MAX, tb, blob_data(vlan->config), blob_len(vlan->config));
 
         if ((cur = tb[VLAN_ATTR_NETWORK]))
                 vlan->network = cur;
 
         if ((cur = tb[VLAN_ATTR_NETWORK_VLAN]))
                 vlan->network_vlan = cur;
 
         cur = tb[VLAN_ATTR_BRIDGE_ISOLATE];
         vlan->bridge_isolate = cur && blobmsg_get_bool(cur);
 
         cur = tb[VLAN_ATTR_ISOLATE];
         vlan->isolate = cur && blobmsg_get_bool(cur);
 
         cur = tb[VLAN_ATTR_MCAST_TO_UCAST];
         vlan->multicast_to_unicast = cur ? blobmsg_get_bool(cur) : -1;
 }
 
 /* vlist update call for vlan list */
 static void
 vlan_update(struct vlist_tree *tree, struct vlist_node *node_new,
             struct vlist_node *node_old)
 {
         struct wireless_vlan *vlan_old = container_of_safe(node_old, struct wireless_vlan, node);
         struct wireless_vlan *vlan_new = container_of_safe(node_new, struct wireless_vlan, node);
         struct wireless_interface *vif = container_of(tree, struct wireless_interface, vlans);
         struct wireless_device *wdev = vif->wdev;
 
         if (vlan_old && vlan_new) {
                 free((void *) vlan_old->section);
                 vlan_old->section = strdup(vlan_new->section);
                 if (blob_attr_equal(vlan_old->config, vlan_new->config)) {
                         free(vlan_new);
                         return;
                 }
 
                 D(WIRELESS, "Update wireless vlan %s on device %s\n", vlan_new->name, wdev->name);
                 wireless_vlan_handle_link(vlan_old, false);
                 free(vlan_old->config);
                 vlan_old->config = blob_memdup(vlan_new->config);
                 vlan_old->isolate = vlan_new->isolate;
                 wireless_vlan_init_config(vlan_old);
                 free(vlan_new);
         } else if (vlan_new) {
                 D(WIRELESS, "Create new wireless vlan %s on device %s\n", vlan_new->name, wdev->name);
                 vlan_new->section = strdup(vlan_new->section);
                 vlan_new->config = blob_memdup(vlan_new->config);
                 wireless_vlan_init_config(vlan_new);
         } else if (vlan_old) {
                 D(WIRELESS, "Delete wireless vlan %s on device %s\n", vlan_old->name, wdev->name);
                 wireless_vlan_handle_link(vlan_old, false);
                 free((void *) vlan_old->section);
                 free(vlan_old->config);
                 free(vlan_old);
         }
 
         wdev->config_update = true;
 }
 
 /* vlist update call for station list */
 static void
 station_update(struct vlist_tree *tree, struct vlist_node *node_new,
                struct vlist_node *node_old)
 {
         struct wireless_station *sta_old = container_of_safe(node_old, struct wireless_station, node);
         struct wireless_station *sta_new = container_of_safe(node_new, struct wireless_station, node);
         struct wireless_interface *vif = container_of(tree, struct wireless_interface, stations);
         struct wireless_device *wdev = vif->wdev;
 
         if (sta_old && sta_new) {
                 free((void *) sta_old->section);
                 sta_old->section = strdup(sta_new->section);
                 if (blob_attr_equal(sta_old->config, sta_new->config)) {
                         free(sta_new);
                         return;
                 }
 
                 D(WIRELESS, "Update wireless station %s on device %s\n", sta_new->name, wdev->name);
                 free(sta_old->config);
                 sta_old->config = blob_memdup(sta_new->config);
                 free(sta_new);
         } else if (sta_new) {
                 D(WIRELESS, "Create new wireless station %s on device %s\n", sta_new->name, wdev->name);
                 sta_new->section = strdup(sta_new->section);
                 sta_new->config = blob_memdup(sta_new->config);
         } else if (sta_old) {
                 D(WIRELESS, "Delete wireless station %s on device %s\n", sta_old->name, wdev->name);
                 free((void *) sta_old->section);
                 free(sta_old->config);
                 free(sta_old);
         }
 
         wdev->config_update = true;
 }
 
 static void
 wireless_proc_poll_fd(struct uloop_fd *fd, unsigned int events)
 {
         struct wireless_device *wdev = container_of(fd, struct wireless_device, script_proc_fd);
         char buf[128];
 
         while (1) {
                 int b = read(fd->fd, buf, sizeof(buf));
                 if (b < 0) {
                         if (errno == EINTR)
                                 continue;
 
                         if (errno == EAGAIN)
                                 return;
 
                         goto done;
                 }
 
                 if (!b)
                         goto done;
         }
 
 done:
         uloop_timeout_set(&wdev->script_check, 0);
         wireless_close_script_proc_fd(wdev);
 }
 
 /* watchdog and garbage collector for wireless processes.
  * It cleans up terminated processes. If a process is a requirement for the wireless device, it retries the setup */
 static void
 wireless_device_check_script_tasks(struct uloop_timeout *timeout)
 {
         struct wireless_device *wdev = container_of(timeout, struct wireless_device, script_check);
         struct wireless_process *proc, *tmp;
         bool restart = false;
 
         list_for_each_entry_safe(proc, tmp, &wdev->script_proc, list) {
                 if (wireless_process_check(proc))
                         continue;
 
                 D(WIRELESS, "Wireless device '%s' pid %d has terminated\n", wdev->name, proc->pid);
                 if (proc->required)
                         restart = true;
 
                 wireless_process_free(wdev, proc);
         }
 
         if (restart)
                 wireless_device_retry_setup(wdev);
         else
                 uloop_timeout_set(&wdev->script_check, 1000);
 }
 
 /* creates a wireless device object. Called by config */
 void
 wireless_device_create(struct wireless_driver *drv, const char *name, struct blob_attr *data)
 {
         struct wireless_device *wdev;
         char *name_buf;
         struct blob_attr *tb[__WDEV_ATTR_MAX];
         struct blob_attr *cur;
 
         blobmsg_parse(wdev_policy, __WDEV_ATTR_MAX, tb, blob_data(data), blob_len(data));
 
         wdev = calloc_a(sizeof(*wdev), &name_buf, strlen(name) + 1);
 
         cur = tb[WDEV_ATTR_DISABLED];
         wdev->disabled = cur && blobmsg_get_bool(cur);
 
         wdev->drv = drv;
         wdev->state = IFS_DOWN;
         wdev->config_state = IFC_NORMAL;
         wdev->name = strcpy(name_buf, name);
         wdev->config = data;
         wdev->handler_pending = false;
 
         cur = tb[WDEV_ATTR_SERIALIZE];
         wdev->serialize = cur && blobmsg_get_bool(cur);
 
         cur = tb[WDEV_ATTR_RECONF];
         wdev->reconf = !cur || blobmsg_get_bool(cur);
 
         wdev->retry_setup_failed = false;
         wdev->autostart = true;
         INIT_LIST_HEAD(&wdev->script_proc);
         vlist_init(&wdev->interfaces, avl_strcmp, vif_update);
         wdev->interfaces.keep_old = true;
 
         wdev->timeout.cb = wireless_device_setup_timeout;
         wdev->script_task.cb = wireless_device_script_task_cb;
         wdev->script_task.dir_fd = drv_fd;
         wdev->script_task.log_prefix = wdev->name;
 
         wdev->script_proc_fd.fd = -1;
         wdev->script_proc_fd.cb = wireless_proc_poll_fd;
 
         wdev->script_check.cb = wireless_device_check_script_tasks;
 
         vlist_add(&wireless_devices, &wdev->node, wdev->name);
 }
 
 /* creates a wireless station object. Called by config */
 void
 wireless_station_create(struct wireless_interface *vif, struct blob_attr *data, const char *section)
 {
         struct wireless_station *sta;
         struct blob_attr *tb[__STA_ATTR_MAX];
         struct blob_attr *cur;
         char *name_buf;
         char name[8];
 
         blobmsg_parse(sta_policy, __STA_ATTR_MAX, tb, blob_data(data), blob_len(data));
 
         cur = tb[STA_ATTR_DISABLED];
         if (cur && blobmsg_get_bool(cur))
                 return;
 
         sprintf(name, "%d", vif->sta_idx++);
 
         sta = calloc_a(sizeof(*sta),
                        &name_buf, strlen(name) + 1);
         sta->name = strcpy(name_buf, name);
         sta->config = data;
         sta->section = section;
 
         vlist_add(&vif->stations, &sta->node, sta->name);
 }
 
 /* ubus callback network.wireless.status, runs for every interface, encode the station */
 static void
 wireless_station_status(struct wireless_station *sta, struct blob_buf *b)
 {
         void *i;
 
         i = blobmsg_open_table(b, NULL);
         if (sta->section)
                 blobmsg_add_string(b, "section", sta->section);
         put_container(b, sta->config, "config");
         blobmsg_close_table(b, i);
 }
 
 /* create a vlan object. Called by config */
 void
 wireless_vlan_create(struct wireless_interface *vif, struct blob_attr *data, const char *section)
 {
         struct wireless_vlan *vlan;
         struct blob_attr *tb[__VLAN_ATTR_MAX];
         struct blob_attr *cur;
         char *name_buf;
         char name[8];
 
         blobmsg_parse(vlan_policy, __VLAN_ATTR_MAX, tb, blob_data(data), blob_len(data));
 
         cur = tb[VLAN_ATTR_DISABLED];
         if (cur && blobmsg_get_bool(cur))
                 return;
 
         sprintf(name, "%d", vif->vlan_idx++);
 
         vlan = calloc_a(sizeof(*vlan), &name_buf, strlen(name) + 1);
         vlan->name = strcpy(name_buf, name);
         vlan->config = data;
         vlan->section = section;
 
         vlist_add(&vif->vlans, &vlan->node, vlan->name);
 }
 
 /* ubus callback network.wireless.status, runs for every interface, encode the vlan informations */
 static void
 wireless_vlan_status(struct wireless_vlan *vlan, struct blob_buf *b)
 {
         void *i;
 
         i = blobmsg_open_table(b, NULL);
         if (vlan->section)
                 blobmsg_add_string(b, "section", vlan->section);
         if (vlan->ifname)
                 blobmsg_add_string(b, "ifname", vlan->ifname);
         put_container(b, vlan->config, "config");
         blobmsg_close_table(b, i);
 }
 
 /* create a wireless interface object. Called by config */
 struct wireless_interface* wireless_interface_create(struct wireless_device *wdev, struct blob_attr *data, const char *section)
 {
         struct wireless_interface *vif;
         struct blob_attr *tb[__VIF_ATTR_MAX];
         struct blob_attr *cur;
         char *name_buf;
         char name[8];
 
         blobmsg_parse(vif_policy, __VIF_ATTR_MAX, tb, blob_data(data), blob_len(data));
 
         cur = tb[VIF_ATTR_DISABLED];
         if (cur && blobmsg_get_bool(cur))
                 return NULL;
 
         sprintf(name, "%d", wdev->vif_idx++);
 
         vif = calloc_a(sizeof(*vif),
                        &name_buf, strlen(name) + 1);
         vif->name = strcpy(name_buf, name);
         vif->wdev = wdev;
         vif->config = data;
         vif->section = section;
         vif->isolate = false;
 
         vlist_init(&vif->vlans, avl_strcmp, vlan_update);
         vif->vlans.keep_old = true;
 
         vlist_init(&vif->stations, avl_strcmp, station_update);
         vif->stations.keep_old = true;
 
         vlist_add(&wdev->interfaces, &vif->node, vif->name);
 
         return vlist_find(&wdev->interfaces, name, vif, node);
 }
 
 /* ubus callback network.wireless.status, runs for every interface */
 static void
 wireless_interface_status(struct wireless_interface *iface, struct blob_buf *b)
 {
         struct wireless_vlan *vlan;
         struct wireless_station *sta;
         void *i, *j;
 
         i = blobmsg_open_table(b, NULL);
         if (iface->section)
                 blobmsg_add_string(b, "section", iface->section);
         if (iface->ifname)
                 blobmsg_add_string(b, "ifname", iface->ifname);
         put_container(b, iface->config, "config");
         j = blobmsg_open_array(b, "vlans");
         vlist_for_each_element(&iface->vlans, vlan, node)
                 wireless_vlan_status(vlan, b);
         blobmsg_close_array(b, j);
         j = blobmsg_open_array(b, "stations");
         vlist_for_each_element(&iface->stations, sta, node)
                 wireless_station_status(sta, b);
         blobmsg_close_array(b, j);
         blobmsg_close_table(b, i);
 }
 
 /* ubus callback network.wireless.status */
 void
 wireless_device_status(struct wireless_device *wdev, struct blob_buf *b)
 {
         struct wireless_interface *iface;
         void *c, *i;
 
         c = blobmsg_open_table(b, wdev->name);
         blobmsg_add_u8(b, "up", wdev->state == IFS_UP);
         blobmsg_add_u8(b, "pending", wdev->state == IFS_SETUP || wdev->state == IFS_TEARDOWN);
         blobmsg_add_u8(b, "autostart", wdev->autostart);
         blobmsg_add_u8(b, "disabled", wdev->disabled);
         blobmsg_add_u8(b, "retry_setup_failed", wdev->retry_setup_failed);
         put_container(b, wdev->config, "config");
 
         i = blobmsg_open_array(b, "interfaces");
         vlist_for_each_element(&wdev->interfaces, iface, node)
                 wireless_interface_status(iface, b);
         blobmsg_close_array(b, i);
         blobmsg_close_table(b, c);
 }
 
 /* ubus callback network.wireless.get_validate */
 void
 wireless_device_get_validate(struct wireless_device *wdev, struct blob_buf *b)
 {
         struct uci_blob_param_list *p;
         void *c, *d;
         int i;
 
         c = blobmsg_open_table(b, wdev->name);
 
         d = blobmsg_open_table(b, "device");
         p = wdev->drv->device.config;
         for (i = 0; i < p->n_params; i++)
                 blobmsg_add_string(b, p->params[i].name, uci_get_validate_string(p, i));
         blobmsg_close_table(b, d);
 
         d = blobmsg_open_table(b, "interface");
         p = wdev->drv->interface.config;
         for (i = 0; i < p->n_params; i++)
                 blobmsg_add_string(b, p->params[i].name, uci_get_validate_string(p, i));
         blobmsg_close_table(b, d);
 
         blobmsg_close_table(b, c);
 }
 
 /* ubus callback network.wireless.notify, command = set data, for vif */
 static void
 wireless_interface_set_data(struct wireless_interface *vif)
 {
         enum {
                 VIF_DATA_IFNAME,
                 __VIF_DATA_MAX,
         };
         static const struct blobmsg_policy data_policy[__VIF_DATA_MAX] = {
                 [VIF_DATA_IFNAME] = { .name = "ifname", .type = BLOBMSG_TYPE_STRING },
         };
         struct blob_attr *tb[__VIF_DATA_MAX];
         struct blob_attr *cur;
 
         blobmsg_parse(data_policy, __VIF_DATA_MAX, tb,
                       blobmsg_data(vif->data), blobmsg_data_len(vif->data));
 
         if ((cur = tb[VIF_DATA_IFNAME]))
                 vif->ifname = blobmsg_data(cur);
 }
 
 /* ubus callback network.wireless.notify, command = set data, for vlan */
 static void
 wireless_vlan_set_data(struct wireless_vlan *vlan)
 {
         enum {
                 VLAN_DATA_IFNAME,
                 __VLAN_DATA_MAX,
         };
         static const struct blobmsg_policy data_policy[__VLAN_DATA_MAX] = {
                 [VLAN_DATA_IFNAME] = { .name = "ifname", .type = BLOBMSG_TYPE_STRING },
         };
         struct blob_attr *tb[__VLAN_DATA_MAX];
         struct blob_attr *cur;
 
         blobmsg_parse(data_policy, __VLAN_DATA_MAX, tb,
                       blobmsg_data(vlan->data), blobmsg_data_len(vlan->data));
 
         if ((cur = tb[VLAN_DATA_IFNAME]))
                 vlan->ifname = blobmsg_data(cur);
 }
 
 /* ubus callback network.wireless.notify, command = process add */
 static int
 wireless_device_add_process(struct wireless_device *wdev, struct blob_attr *data)
 {
         enum {
                 PROC_ATTR_PID,
                 PROC_ATTR_EXE,
                 PROC_ATTR_REQUIRED,
                 PROC_ATTR_KEEP,
                 __PROC_ATTR_MAX
         };
         static const struct blobmsg_policy proc_policy[__PROC_ATTR_MAX] = {
                 [PROC_ATTR_PID] = { .name = "pid", .type = BLOBMSG_TYPE_INT32 },
                 [PROC_ATTR_EXE] = { .name = "exe", .type = BLOBMSG_TYPE_STRING },
                 [PROC_ATTR_REQUIRED] = { .name = "required", .type = BLOBMSG_TYPE_BOOL },
                 [PROC_ATTR_KEEP] = { .name = "keep", .type = BLOBMSG_TYPE_BOOL },
         };
         struct blob_attr *tb[__PROC_ATTR_MAX];
         struct wireless_process *proc;
         char *name;
         int pid;
 
         if (!data)
                 return UBUS_STATUS_INVALID_ARGUMENT;
 
         blobmsg_parse(proc_policy, __PROC_ATTR_MAX, tb, blobmsg_data(data), blobmsg_data_len(data));
         if (!tb[PROC_ATTR_PID] || !tb[PROC_ATTR_EXE])
                 return UBUS_STATUS_INVALID_ARGUMENT;
 
         pid = blobmsg_get_u32(tb[PROC_ATTR_PID]);
         if (pid < 2)
                 return UBUS_STATUS_INVALID_ARGUMENT;
 
         proc = calloc_a(sizeof(*proc),
                 &name, strlen(blobmsg_data(tb[PROC_ATTR_EXE])) + 1);
 
         proc->pid = pid;
         proc->exe = strcpy(name, blobmsg_data(tb[PROC_ATTR_EXE]));
 
         if (tb[PROC_ATTR_REQUIRED])
                 proc->required = blobmsg_get_bool(tb[PROC_ATTR_REQUIRED]);
 
         if (tb[PROC_ATTR_KEEP])
                 proc->keep = blobmsg_get_bool(tb[PROC_ATTR_KEEP]);
 
         D(WIRELESS, "Wireless device '%s' add pid %d\n", wdev->name, proc->pid);
         list_add(&proc->list, &wdev->script_proc);
         uloop_timeout_set(&wdev->script_check, 0);
 
         return 0;
 }
 
 /* ubus callback network.wireless.notify, command = process kill all */
 static int
 wireless_device_process_kill_all(struct wireless_device *wdev, struct blob_attr *data,
                                  struct ubus_request_data *req)
 {
         enum {
                 KILL_ATTR_SIGNAL,
                 KILL_ATTR_IMMEDIATE,
                 __KILL_ATTR_MAX
         };
         static const struct blobmsg_policy kill_policy[__KILL_ATTR_MAX] = {
                 [KILL_ATTR_SIGNAL] = { .name = "signal", .type = BLOBMSG_TYPE_INT32 },
                 [KILL_ATTR_IMMEDIATE] = { .name = "immediate", .type = BLOBMSG_TYPE_BOOL },
         };
         struct blob_attr *tb[__KILL_ATTR_MAX];
         struct blob_attr *cur;
         bool immediate = false;
         int signal = SIGTERM;
 
         blobmsg_parse(kill_policy, __KILL_ATTR_MAX, tb, blobmsg_data(data), blobmsg_data_len(data));
 
         if ((cur = tb[KILL_ATTR_SIGNAL]))
                 signal = blobmsg_get_u32(cur);
 
         if ((cur = tb[KILL_ATTR_IMMEDIATE]))
                 immediate = blobmsg_get_bool(cur);
 
         if (wdev->state != IFS_TEARDOWN || wdev->kill_request)
                 return UBUS_STATUS_PERMISSION_DENIED;
 
         wireless_process_kill_all(wdev, signal, immediate);
 
         if (list_empty(&wdev->script_proc))
                 return 0;
 
         wdev->kill_request = calloc(1, sizeof(*wdev->kill_request));
         ubus_defer_request(ubus_ctx, req, wdev->kill_request);
 
         return 0;
 }
 
 /* ubus callback network.wireless.notify, command = set_retry */
 static int
 wireless_device_set_retry(struct wireless_device *wdev, struct blob_attr *data)
 {
         static const struct blobmsg_policy retry_policy = {
                 .name = "retry", .type = BLOBMSG_TYPE_INT32
         };
         struct blob_attr *val;
 
         blobmsg_parse(&retry_policy, 1, &val, blobmsg_data(data), blobmsg_data_len(data));
         if (val)
                 wdev->retry = blobmsg_get_u32(val);
         else
                 wdev->retry = WIRELESS_SETUP_RETRY;
         __wireless_device_set_up(wdev, 0);
         netifd_log_message(L_NOTICE, "Wireless device '%s' set retry=%d\n", wdev->name, wdev->retry);
         return 0;
 }
 
 enum {
         NOTIFY_CMD_UP = 0,
         NOTIFY_CMD_SET_DATA = 1,
         NOTIFY_CMD_PROCESS_ADD = 2,
         NOTIFY_CMD_PROCESS_KILL_ALL = 3,
         NOTIFY_CMD_SET_RETRY = 4,
 };
 
 /* ubus callback network.wireless.notify */
 int
 wireless_device_notify(struct wireless_device *wdev, struct blob_attr *data,
                        struct ubus_request_data *req)
 {
         enum {
                 NOTIFY_ATTR_COMMAND,
                 NOTIFY_ATTR_VIF,
                 NOTIFY_ATTR_VLAN,
                 NOTIFY_ATTR_DATA,
                 __NOTIFY_MAX,
         };
         static const struct blobmsg_policy notify_policy[__NOTIFY_MAX] = {
                 [NOTIFY_ATTR_COMMAND] = { .name = "command", .type = BLOBMSG_TYPE_INT32 },
                 [NOTIFY_ATTR_VIF] = { .name = "interface", .type = BLOBMSG_TYPE_STRING },
                 [NOTIFY_ATTR_VLAN] = { .name = "vlan", .type = BLOBMSG_TYPE_STRING },
                 [NOTIFY_ATTR_DATA] = { .name = "data", .type = BLOBMSG_TYPE_TABLE },
         };
         struct wireless_interface *vif = NULL;
         struct wireless_vlan *vlan = NULL;
         struct blob_attr *tb[__NOTIFY_MAX];
         struct blob_attr *cur, **pdata;
 
         blobmsg_parse(notify_policy, __NOTIFY_MAX, tb, blob_data(data), blob_len(data));
 
         if (!tb[NOTIFY_ATTR_COMMAND])
                 return UBUS_STATUS_INVALID_ARGUMENT;
 
         if ((cur = tb[NOTIFY_ATTR_VIF]) != NULL) {
                 vif = vlist_find(&wdev->interfaces, blobmsg_data(cur), vif, node);
                 if (!vif)
                         return UBUS_STATUS_NOT_FOUND;
         }
 
         if ((cur = tb[NOTIFY_ATTR_VLAN]) != NULL) {
                 if (!vif)
                         return UBUS_STATUS_NOT_FOUND;
                 vlan = vlist_find(&vif->vlans, blobmsg_data(cur), vlan, node);
                 if (!vlan)
                         return UBUS_STATUS_NOT_FOUND;
         }
 
         cur = tb[NOTIFY_ATTR_DATA];
         if (!cur)
                 return UBUS_STATUS_INVALID_ARGUMENT;
 
         switch (blobmsg_get_u32(tb[NOTIFY_ATTR_COMMAND])) {
         case NOTIFY_CMD_UP:
                 if (vif || vlan)
                         return UBUS_STATUS_INVALID_ARGUMENT;
 
                 if (wdev->state != IFS_SETUP)
                         return UBUS_STATUS_PERMISSION_DENIED;
 
                 wireless_device_mark_up(wdev);
                 break;
         case NOTIFY_CMD_SET_DATA:
                 if (vlan)
                         pdata = &vlan->data;
                 else if (vif)
                         pdata = &vif->data;
                 else
                         pdata = &wdev->data;
 
                 free(*pdata);
                 *pdata = blob_memdup(cur);
                 if (vlan)
                         wireless_vlan_set_data(vlan);
                 else if (vif)
                         wireless_interface_set_data(vif);
                 wdev_prepare_prev_config(wdev);
                 break;
         case NOTIFY_CMD_PROCESS_ADD:
                 return wireless_device_add_process(wdev, cur);
         case NOTIFY_CMD_PROCESS_KILL_ALL:
                 return wireless_device_process_kill_all(wdev, cur, req);
         case NOTIFY_CMD_SET_RETRY:
                 return wireless_device_set_retry(wdev, cur);
         default:
                 return UBUS_STATUS_INVALID_ARGUMENT;
         }
 
         return 0;
 }
 
 static void
 wdev_check_network_enabled(struct wireless_device *wdev)
 {
         struct wireless_interface *vif;
         struct interface *iface;
         struct blob_attr *cur;
         size_t rem;
 
         vlist_for_each_element(&wdev->interfaces, vif, node) {
                 int enabled = -1;
 
                 blobmsg_for_each_attr(cur, vif->network, rem) {
                         iface = vlist_find(&interfaces, blobmsg_get_string(cur), iface, node);
                         if (!iface)
                                 continue;
 
                         if (iface->autostart) {
                                 enabled = 1;
                                 break;
                         }
                         if (enabled != 1)
                                 enabled = 0;
                 }
 
                 if (vif->disabled == !enabled)
                         continue;
 
                 vif->disabled = !enabled;
                 wdev->config_update = true;
         }
 }
 
 static void
 __wireless_start_pending(struct uloop_timeout *t)
 {
         struct wireless_device *wdev;
 
         vlist_for_each_element(&wireless_devices, wdev, node) {
                 wdev_check_network_enabled(wdev);
                 if (wdev->config_update)
                         wdev_set_config_state(wdev, IFC_RELOAD);
                 __wireless_device_set_up(wdev, 0);
         }
 }
 
 void wireless_start_pending(int timeout)
 {
         static struct uloop_timeout timer = {
                 .cb = __wireless_start_pending
         };
 
         if (timeout) {
                 uloop_timeout_set(&timer, timeout);
                 return;
         }
 
         uloop_timeout_cancel(&timer);
         timer.cb(&timer);
 }
 
 void wireless_check_network_enabled(void)
 {
         struct wireless_device *wdev;
 
         vlist_for_each_element(&wireless_devices, wdev, node) {
                 wdev_check_network_enabled(wdev);
 
                 if (wdev->config_update)
                         wireless_start_pending(1000);
         }
 }
 
 void wireless_device_hotplug_event(const char *name, bool add)
 {
         struct wireless_interface *vif;
         struct wireless_device *wdev;
         const char *s;
         size_t len;
 
         s = strstr(name, ".sta");
         if (s) {
                 if (strchr(s + 4, '.'))
                         return;
 
                 len = s - name;
         } else if (!device_find(name)) {
                 len = strlen(name);
         } else {
                 return;
         }
 
         vlist_for_each_element(&wireless_devices, wdev, node) {
                 vlist_for_each_element(&wdev->interfaces, vif, node) {
                         if (!vif->ifname)
                                 continue;
 
                         if (strlen(vif->ifname) != len ||
                             strncmp(vif->ifname, name, len) != 0)
                                 continue;
 
                         wireless_interface_handle_link(vif, name, add);
                 }
         }
 }
 

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