/* * netifd - network interface daemon * Copyright (C) 2012 Felix Fietkau * * 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. */ #include #include #include #include #include #include "netifd.h" #include "device.h" #include "interface.h" #include "system.h" #include "ubus.h" enum { BRIDGE_ATTR_PORTS, BRIDGE_ATTR_STP, BRIDGE_ATTR_FORWARD_DELAY, BRIDGE_ATTR_PRIORITY, BRIDGE_ATTR_IGMP_SNOOP, BRIDGE_ATTR_AGEING_TIME, BRIDGE_ATTR_HELLO_TIME, BRIDGE_ATTR_MAX_AGE, BRIDGE_ATTR_BRIDGE_EMPTY, BRIDGE_ATTR_MULTICAST_QUERIER, BRIDGE_ATTR_HASH_MAX, BRIDGE_ATTR_ROBUSTNESS, BRIDGE_ATTR_QUERY_INTERVAL, BRIDGE_ATTR_QUERY_RESPONSE_INTERVAL, BRIDGE_ATTR_LAST_MEMBER_INTERVAL, BRIDGE_ATTR_VLAN_FILTERING, BRIDGE_ATTR_HAS_VLANS, BRIDGE_ATTR_STP_KERNEL, BRIDGE_ATTR_STP_PROTO, __BRIDGE_ATTR_MAX }; static const struct blobmsg_policy bridge_attrs[__BRIDGE_ATTR_MAX] = { [BRIDGE_ATTR_PORTS] = { "ports", BLOBMSG_TYPE_ARRAY }, [BRIDGE_ATTR_STP] = { "stp", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_FORWARD_DELAY] = { "forward_delay", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_PRIORITY] = { "priority", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_AGEING_TIME] = { "ageing_time", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_HELLO_TIME] = { "hello_time", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_MAX_AGE] = { "max_age", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_IGMP_SNOOP] = { "igmp_snooping", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_BRIDGE_EMPTY] = { "bridge_empty", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_MULTICAST_QUERIER] = { "multicast_querier", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_HASH_MAX] = { "hash_max", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_ROBUSTNESS] = { "robustness", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_QUERY_INTERVAL] = { "query_interval", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_QUERY_RESPONSE_INTERVAL] = { "query_response_interval", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_LAST_MEMBER_INTERVAL] = { "last_member_interval", BLOBMSG_TYPE_INT32 }, [BRIDGE_ATTR_VLAN_FILTERING] = { "vlan_filtering", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_HAS_VLANS] = { "__has_vlans", BLOBMSG_TYPE_BOOL }, /* internal */ [BRIDGE_ATTR_STP_KERNEL] = { "stp_kernel", BLOBMSG_TYPE_BOOL }, [BRIDGE_ATTR_STP_PROTO] = { "stp_proto", BLOBMSG_TYPE_STRING }, }; static const struct uci_blob_param_info bridge_attr_info[__BRIDGE_ATTR_MAX] = { [BRIDGE_ATTR_PORTS] = { .type = BLOBMSG_TYPE_STRING }, }; static const struct uci_blob_param_list bridge_attr_list = { .n_params = __BRIDGE_ATTR_MAX, .params = bridge_attrs, .info = bridge_attr_info, .n_next = 1, .next = { &device_attr_list }, }; static struct blob_buf b; static struct device *bridge_create(const char *name, struct device_type *devtype, struct blob_attr *attr); static void bridge_config_init(struct device *dev); static void bridge_dev_vlan_update(struct device *dev); static void bridge_free(struct device *dev); static void bridge_stp_init(struct device *dev); static void bridge_dump_info(struct device *dev, struct blob_buf *b); static enum dev_change_type bridge_reload(struct device *dev, struct blob_attr *attr); static struct device_type bridge_device_type = { .name = "bridge", .config_params = &bridge_attr_list, .bridge_capability = true, .name_prefix = "br", .create = bridge_create, .config_init = bridge_config_init, .vlan_update = bridge_dev_vlan_update, .reload = bridge_reload, .free = bridge_free, .dump_info = bridge_dump_info, .stp_init = bridge_stp_init, }; struct bridge_state { struct device dev; device_state_cb set_state; struct blob_attr *config_data; struct bridge_config config; struct blob_attr *ports; bool active; bool force_active; bool has_vlans; struct uloop_timeout retry; struct bridge_member *primary_port; struct vlist_tree members; int n_present; int n_failed; }; struct bridge_member { struct vlist_node node; struct bridge_state *bst; struct device_user dev; struct uloop_timeout check_timer; uint16_t pvid; bool present; bool active; char name[]; }; static void bridge_reset_primary(struct bridge_state *bst) { struct bridge_member *bm; if (!bst->primary_port && (bst->dev.settings.flags & DEV_OPT_MACADDR)) return; bst->primary_port = NULL; bst->dev.settings.flags &= ~DEV_OPT_MACADDR; vlist_for_each_element(&bst->members, bm, node) { uint8_t *macaddr; if (!bm->present) continue; bst->primary_port = bm; if (bm->dev.dev->settings.flags & DEV_OPT_MACADDR) macaddr = bm->dev.dev->settings.macaddr; else macaddr = bm->dev.dev->orig_settings.macaddr; memcpy(bst->dev.settings.macaddr, macaddr, 6); bst->dev.settings.flags |= DEV_OPT_MACADDR; return; } } static struct bridge_vlan_port * bridge_find_vlan_member_port(struct bridge_member *bm, struct bridge_vlan *vlan) { struct bridge_vlan_hotplug_port *port; const char *ifname = bm->dev.dev->ifname; int i; for (i = 0; i < vlan->n_ports; i++) { if (strcmp(vlan->ports[i].ifname, ifname) != 0) continue; return &vlan->ports[i]; } list_for_each_entry(port, &vlan->hotplug_ports, list) { if (strcmp(port->port.ifname, ifname) != 0) continue; return &port->port; } return NULL; } static bool bridge_member_vlan_is_pvid(struct bridge_member *bm, struct bridge_vlan_port *port) { return (!bm->pvid && (port->flags & BRVLAN_F_UNTAGGED)) || (port->flags & BRVLAN_F_PVID); } static void __bridge_set_member_vlan(struct bridge_member *bm, struct bridge_vlan *vlan, struct bridge_vlan_port *port, bool add) { uint16_t flags; flags = port->flags; if (bm->pvid == vlan->vid) flags |= BRVLAN_F_PVID; system_bridge_vlan(port->ifname, vlan->vid, add, flags); } static void bridge_set_member_vlan(struct bridge_member *bm, struct bridge_vlan *vlan, bool add) { struct bridge_vlan_port *port; if (!bm->present) return; port = bridge_find_vlan_member_port(bm, vlan); if (!port) return; if (bridge_member_vlan_is_pvid(bm, port)) bm->pvid = vlan->vid; __bridge_set_member_vlan(bm, vlan, port, add); } static void bridge_set_local_vlan(struct bridge_state *bst, struct bridge_vlan *vlan, bool add) { if (!vlan->local && add) return; system_bridge_vlan(bst->dev.ifname, vlan->vid, add, BRVLAN_F_SELF); } static void bridge_set_local_vlans(struct bridge_state *bst, bool add) { struct bridge_vlan *vlan; vlist_for_each_element(&bst->dev.vlans, vlan, node) bridge_set_local_vlan(bst, vlan, add); } static struct bridge_vlan * bridge_recalc_member_pvid(struct bridge_member *bm) { struct bridge_state *bst = bm->bst; struct bridge_vlan_port *port; struct bridge_vlan *vlan, *ret = NULL; vlist_for_each_element(&bst->dev.vlans, vlan, node) { port = bridge_find_vlan_member_port(bm, vlan); if (!port) continue; if (!bridge_member_vlan_is_pvid(bm, port)) continue; ret = vlan; if (port->flags & BRVLAN_F_PVID) break; } return ret; } static void bridge_set_vlan_state(struct bridge_state *bst, struct bridge_vlan *vlan, bool add) { struct bridge_member *bm; struct bridge_vlan *vlan2; bridge_set_local_vlan(bst, vlan, add); vlist_for_each_element(&bst->members, bm, node) { struct bridge_vlan_port *port; int new_pvid = -1; port = bridge_find_vlan_member_port(bm, vlan); if (!port) continue; if (add) { if (bridge_member_vlan_is_pvid(bm, port)) bm->pvid = vlan->vid; } else if (bm->pvid == vlan->vid) { vlan2 = bridge_recalc_member_pvid(bm); if (vlan2 && vlan2->vid != vlan->vid) { bridge_set_member_vlan(bm, vlan2, false); bridge_set_member_vlan(bm, vlan2, true); } new_pvid = vlan2 ? vlan2->vid : 0; } if (!bm->present) continue; __bridge_set_member_vlan(bm, vlan, port, add); if (new_pvid >= 0) bm->pvid = new_pvid; } } static int bridge_disable_member(struct bridge_member *bm, bool keep_dev) { struct bridge_state *bst = bm->bst; struct bridge_vlan *vlan; if (!bm->present || !bm->active) return 0; bm->active = false; vlist_for_each_element(&bst->dev.vlans, vlan, node) bridge_set_member_vlan(bm, vlan, false); system_bridge_delif(&bst->dev, bm->dev.dev); if (!keep_dev) device_release(&bm->dev); device_broadcast_event(&bst->dev, DEV_EVENT_TOPO_CHANGE); return 0; } static void bridge_stp_notify(struct bridge_state *bst) { struct bridge_config *cfg = &bst->config; if (!cfg->stp || cfg->stp_kernel) return; blob_buf_init(&b, 0); blobmsg_add_string(&b, "name", bst->dev.ifname); if (cfg->stp_proto) blobmsg_add_string(&b, "proto", cfg->stp_proto); blobmsg_add_u32(&b, "forward_delay", cfg->forward_delay); blobmsg_add_u32(&b, "hello_time", cfg->hello_time); blobmsg_add_u32(&b, "max_age", cfg->max_age); if (cfg->flags & BRIDGE_OPT_AGEING_TIME) blobmsg_add_u32(&b, "ageing_time", cfg->ageing_time); netifd_ubus_device_notify("stp_init", b.head, 1000); } static int bridge_enable_interface(struct bridge_state *bst) { int ret; if (bst->active) return 0; bridge_stp_notify(bst); ret = system_bridge_addbr(&bst->dev, &bst->config); if (ret < 0) return ret; if (bst->has_vlans) { /* delete default VLAN 1 */ system_bridge_vlan(bst->dev.ifname, 1, false, BRVLAN_F_SELF); bridge_set_local_vlans(bst, true); } bst->active = true; return 0; } static void bridge_stp_init(struct device *dev) { struct bridge_state *bst; bst = container_of(dev, struct bridge_state, dev); if (!bst->config.stp || !bst->active) return; bridge_stp_notify(bst); system_bridge_set_stp_state(&bst->dev, false); system_bridge_set_stp_state(&bst->dev, true); } static void bridge_disable_interface(struct bridge_state *bst) { if (!bst->active) return; system_bridge_delbr(&bst->dev); bst->active = false; } static int bridge_enable_member(struct bridge_member *bm) { struct bridge_state *bst = bm->bst; struct bridge_vlan *vlan; struct device *dev; int ret; if (!bm->present) return 0; ret = bridge_enable_interface(bst); if (ret) goto error; /* Disable IPv6 for bridge members */ if (!(bm->dev.dev->settings.flags & DEV_OPT_IPV6)) { bm->dev.dev->settings.ipv6 = 0; bm->dev.dev->settings.flags |= DEV_OPT_IPV6; } ret = device_claim(&bm->dev); if (ret < 0) goto error; dev = bm->dev.dev; if (dev->settings.auth && !dev->auth_status) return -1; if (bm->active) return 0; ret = system_bridge_addif(&bst->dev, bm->dev.dev); if (ret < 0) { D(DEVICE, "Bridge device %s could not be added\n", bm->dev.dev->ifname); goto error; } bm->active = true; if (bst->has_vlans) { /* delete default VLAN 1 */ system_bridge_vlan(bm->dev.dev->ifname, 1, false, 0); vlist_for_each_element(&bst->dev.vlans, vlan, node) bridge_set_member_vlan(bm, vlan, true); } device_set_present(&bst->dev, true); device_broadcast_event(&bst->dev, DEV_EVENT_TOPO_CHANGE); return 0; error: bst->n_failed++; bm->present = false; bst->n_present--; device_release(&bm->dev); return ret; } static void bridge_remove_member(struct bridge_member *bm) { struct bridge_state *bst = bm->bst; if (!bm->present) return; if (bst->dev.active) bridge_disable_member(bm, false); bm->present = false; bm->bst->n_present--; if (bm == bst->primary_port) bridge_reset_primary(bst); if (bst->config.bridge_empty) return; bst->force_active = false; if (bst->n_present == 0) device_set_present(&bst->dev, false); } static void bridge_free_member(struct bridge_member *bm) { struct bridge_state *bst = bm->bst; struct device *dev = bm->dev.dev; const char *ifname = dev->ifname; struct bridge_vlan *vlan; bridge_remove_member(bm); restart: vlist_for_each_element(&bst->dev.vlans, vlan, node) { struct bridge_vlan_hotplug_port *port, *tmp; bool free_port = false; list_for_each_entry_safe(port, tmp, &vlan->hotplug_ports, list) { if (strcmp(port->port.ifname, ifname) != 0) continue; list_del(&port->list); free(port); free_port = true; } if (!free_port || !list_empty(&vlan->hotplug_ports) || vlan->n_ports || vlan->node.version != -1) continue; vlist_delete(&bst->dev.vlans, &vlan->node); goto restart; } device_remove_user(&bm->dev); uloop_timeout_cancel(&bm->check_timer); /* * When reloading the config and moving a device from one bridge to * another, the other bridge may have tried to claim this device * before it was removed here. * Ensure that claiming the device is retried by toggling its present * state */ if (dev->present) { device_set_present(dev, false); device_set_present(dev, true); } free(bm); } static void bridge_check_retry(struct bridge_state *bst) { if (!bst->n_failed) return; uloop_timeout_set(&bst->retry, 100); } static void bridge_member_check_cb(struct uloop_timeout *t) { struct bridge_member *bm; struct bridge_state *bst; bm = container_of(t, struct bridge_member, check_timer); bst = bm->bst; if (system_bridge_vlan_check(&bst->dev, bm->dev.dev->ifname) <= 0) return; bridge_disable_member(bm, true); bridge_enable_member(bm); } static void bridge_member_cb(struct device_user *dep, enum device_event ev) { struct bridge_member *bm = container_of(dep, struct bridge_member, dev); struct bridge_state *bst = bm->bst; struct device *dev = dep->dev; switch (ev) { case DEV_EVENT_ADD: assert(!bm->present); bm->present = true; bst->n_present++; if (bst->n_present == 1) device_set_present(&bst->dev, true); fallthrough; case DEV_EVENT_AUTH_UP: if (!bst->dev.active) break; if (bridge_enable_member(bm)) break; /* * Adding a bridge member can overwrite the bridge mtu * in the kernel, apply the bridge settings in case the * bridge mtu is set */ system_if_apply_settings(&bst->dev, &bst->dev.settings, DEV_OPT_MTU | DEV_OPT_MTU6); break; case DEV_EVENT_LINK_UP: if (bst->has_vlans) uloop_timeout_set(&bm->check_timer, 1000); break; case DEV_EVENT_LINK_DOWN: if (!dev->settings.auth) break; bridge_disable_member(bm, true); break; case DEV_EVENT_REMOVE: if (dep->hotplug) { vlist_delete(&bst->members, &bm->node); return; } if (bm->present) bridge_remove_member(bm); break; default: return; } } static int bridge_set_down(struct bridge_state *bst) { struct bridge_member *bm; bst->set_state(&bst->dev, false); vlist_for_each_element(&bst->members, bm, node) bridge_disable_member(bm, false); bridge_disable_interface(bst); return 0; } static int bridge_set_up(struct bridge_state *bst) { struct bridge_member *bm; int ret; bst->has_vlans = !avl_is_empty(&bst->dev.vlans.avl); if (!bst->n_present) { if (!bst->force_active) return -ENOENT; ret = bridge_enable_interface(bst); if (ret) return ret; } bst->n_failed = 0; vlist_for_each_element(&bst->members, bm, node) bridge_enable_member(bm); bridge_check_retry(bst); if (!bst->force_active && !bst->n_present) { /* initialization of all member interfaces failed */ bridge_disable_interface(bst); device_set_present(&bst->dev, false); return -ENOENT; } bridge_reset_primary(bst); ret = bst->set_state(&bst->dev, true); if (ret < 0) bridge_set_down(bst); return ret; } static int bridge_set_state(struct device *dev, bool up) { struct bridge_state *bst; bst = container_of(dev, struct bridge_state, dev); if (up) return bridge_set_up(bst); else return bridge_set_down(bst); } static struct bridge_member * bridge_create_member(struct bridge_state *bst, const char *name, struct device *dev, bool hotplug) { struct bridge_member *bm; bm = calloc(1, sizeof(*bm) + strlen(name) + 1); if (!bm) return NULL; bm->bst = bst; bm->dev.cb = bridge_member_cb; bm->dev.hotplug = hotplug; bm->check_timer.cb = bridge_member_check_cb; strcpy(bm->name, name); bm->dev.dev = dev; vlist_add(&bst->members, &bm->node, bm->name); /* * Need to look up the bridge member again as the above * created pointer will be freed in case the bridge member * already existed */ bm = vlist_find(&bst->members, name, bm, node); if (hotplug && bm) bm->node.version = -1; return bm; } static void bridge_member_update(struct vlist_tree *tree, struct vlist_node *node_new, struct vlist_node *node_old) { struct bridge_member *bm; struct device *dev; if (node_new) { bm = container_of(node_new, struct bridge_member, node); if (node_old) { free(bm); return; } dev = bm->dev.dev; bm->dev.dev = NULL; device_add_user(&bm->dev, dev); } if (node_old) { bm = container_of(node_old, struct bridge_member, node); bridge_free_member(bm); } } static void bridge_add_member(struct bridge_state *bst, const char *name) { struct device *dev; dev = device_get(name, true); if (!dev) return; bridge_create_member(bst, name, dev, false); } static struct bridge_vlan * bridge_hotplug_get_vlan(struct bridge_state *bst, uint16_t vid) { struct bridge_vlan *vlan; vlan = vlist_find(&bst->dev.vlans, &vid, vlan, node); if (vlan) return vlan; vlan = calloc(1, sizeof(*vlan)); vlan->vid = vid; vlan->local = true; INIT_LIST_HEAD(&vlan->hotplug_ports); vlist_add(&bst->dev.vlans, &vlan->node, &vlan->vid); vlan->node.version = -1; return vlan; } static struct bridge_vlan_hotplug_port * bridge_hotplug_get_vlan_port(struct bridge_vlan *vlan, const char *ifname) { struct bridge_vlan_hotplug_port *port; list_for_each_entry(port, &vlan->hotplug_ports, list) if (!strcmp(port->port.ifname, ifname)) return port; return NULL; } static void bridge_hotplug_set_member_vlans(struct bridge_state *bst, struct blob_attr *vlans, const char *ifname, struct bridge_member *bm, bool add) { struct bridge_vlan *vlan; struct blob_attr *cur; int rem; if (!vlans) return; blobmsg_for_each_attr(cur, vlans, rem) { struct bridge_vlan_hotplug_port *port; uint16_t flags = BRVLAN_F_UNTAGGED; char *name_buf; unsigned int vid; char *end; if (blobmsg_type(cur) != BLOBMSG_TYPE_STRING) continue; vid = strtoul(blobmsg_get_string(cur), &end, 0); if (!vid || vid > 4095) continue; vlan = bridge_hotplug_get_vlan(bst, vid); if (!vlan) continue; if (vlan->pending) { vlan->pending = false; bridge_set_vlan_state(bst, vlan, true); } if (end && *end) { if (*end != ':') continue; for (end++; *end; end++) { switch (*end) { case 't': flags &= ~BRVLAN_F_UNTAGGED; break; case '*': flags |= BRVLAN_F_PVID; break; } } } port = bridge_hotplug_get_vlan_port(vlan, ifname); if (!add) { if (!port) continue; __bridge_set_member_vlan(bm, vlan, &port->port, false); list_del(&port->list); free(port); continue; } if (port) { if (port->port.flags == flags) continue; __bridge_set_member_vlan(bm, vlan, &port->port, false); port->port.flags = flags; __bridge_set_member_vlan(bm, vlan, &port->port, true); continue; } port = calloc_a(sizeof(*port), &name_buf, strlen(ifname) + 1); if (!port) continue; port->port.flags = flags; port->port.ifname = strcpy(name_buf, ifname); list_add_tail(&port->list, &vlan->hotplug_ports); if (!bm) continue; __bridge_set_member_vlan(bm, vlan, &port->port, true); } } static int bridge_hotplug_add(struct device *dev, struct device *member, struct blob_attr *vlan) { struct bridge_state *bst = container_of(dev, struct bridge_state, dev); struct bridge_member *bm; bm = vlist_find(&bst->members, member->ifname, bm, node); bridge_hotplug_set_member_vlans(bst, vlan, member->ifname, bm, true); if (!bm) bridge_create_member(bst, member->ifname, member, true); return 0; } static int bridge_hotplug_del(struct device *dev, struct device *member, struct blob_attr *vlan) { struct bridge_state *bst = container_of(dev, struct bridge_state, dev); struct bridge_member *bm; bm = vlist_find(&bst->members, member->ifname, bm, node); if (!bm) return UBUS_STATUS_NOT_FOUND; bridge_hotplug_set_member_vlans(bst, vlan, member->ifname, bm, false); if (!bm->dev.hotplug) return 0; vlist_delete(&bst->members, &bm->node); return 0; } static int bridge_hotplug_prepare(struct device *dev, struct device **bridge_dev) { struct bridge_state *bst; if (bridge_dev) *bridge_dev = dev; bst = container_of(dev, struct bridge_state, dev); bst->force_active = true; device_set_present(&bst->dev, true); return 0; } static const struct device_hotplug_ops bridge_ops = { .prepare = bridge_hotplug_prepare, .add = bridge_hotplug_add, .del = bridge_hotplug_del }; static void bridge_free(struct device *dev) { struct bridge_state *bst; bst = container_of(dev, struct bridge_state, dev); vlist_flush_all(&bst->members); vlist_flush_all(&dev->vlans); kvlist_free(&dev->vlan_aliases); free(bst->config_data); free(bst); } static void bridge_dump_port(struct blob_buf *b, struct bridge_vlan_port *port) { bool tagged = !(port->flags & BRVLAN_F_UNTAGGED); bool pvid = (port->flags & BRVLAN_F_PVID); blobmsg_printf(b, NULL, "%s%s%s%s", port->ifname, tagged || pvid ? ":" : "", tagged ? "t" : "", pvid ? "*" : ""); } static void bridge_dump_vlan(struct blob_buf *b, struct bridge_vlan *vlan) { struct bridge_vlan_hotplug_port *port; void *c, *p; int i; c = blobmsg_open_table(b, NULL); blobmsg_add_u32(b, "id", vlan->vid); blobmsg_add_u8(b, "local", vlan->local); p = blobmsg_open_array(b, "ports"); for (i = 0; i < vlan->n_ports; i++) bridge_dump_port(b, &vlan->ports[i]); list_for_each_entry(port, &vlan->hotplug_ports, list) bridge_dump_port(b, &port->port); blobmsg_close_array(b, p); blobmsg_close_table(b, c); } static void bridge_dump_info(struct device *dev, struct blob_buf *b) { struct bridge_state *bst; struct bridge_member *bm; struct bridge_vlan *vlan; void *list; bst = container_of(dev, struct bridge_state, dev); system_if_dump_info(dev, b); list = blobmsg_open_array(b, "bridge-members"); vlist_for_each_element(&bst->members, bm, node) { if (bm->dev.dev->hidden) continue; blobmsg_add_string(b, NULL, bm->dev.dev->ifname); } blobmsg_close_array(b, list); if (avl_is_empty(&dev->vlans.avl)) return; list = blobmsg_open_array(b, "bridge-vlans"); vlist_for_each_element(&bst->dev.vlans, vlan, node) bridge_dump_vlan(b, vlan); blobmsg_close_array(b, list); } static void bridge_config_init(struct device *dev) { struct bridge_state *bst; struct bridge_vlan *vlan; struct blob_attr *cur; int i, rem; bst = container_of(dev, struct bridge_state, dev); if (bst->config.bridge_empty) { bst->force_active = true; device_set_present(&bst->dev, true); } bst->n_failed = 0; vlist_update(&bst->members); if (bst->ports) { blobmsg_for_each_attr(cur, bst->ports, rem) { bridge_add_member(bst, blobmsg_data(cur)); } } vlist_for_each_element(&bst->dev.vlans, vlan, node) for (i = 0; i < vlan->n_ports; i++) bridge_add_member(bst, vlan->ports[i].ifname); vlist_flush(&bst->members); bridge_check_retry(bst); } static void bridge_apply_settings(struct bridge_state *bst, struct blob_attr **tb) { struct bridge_config *cfg = &bst->config; struct blob_attr *cur; /* defaults */ memset(cfg, 0, sizeof(*cfg)); cfg->stp = false; cfg->stp_kernel = false; cfg->robustness = 2; cfg->igmp_snoop = false; cfg->multicast_querier = false; cfg->query_interval = 12500; cfg->query_response_interval = 1000; cfg->last_member_interval = 100; cfg->hash_max = 512; cfg->bridge_empty = false; cfg->priority = 0x7FFF; cfg->vlan_filtering = false; cfg->forward_delay = 8; cfg->max_age = 10; cfg->hello_time = 1; if ((cur = tb[BRIDGE_ATTR_STP])) cfg->stp = blobmsg_get_bool(cur); if ((cur = tb[BRIDGE_ATTR_STP_KERNEL])) cfg->stp = blobmsg_get_bool(cur); if ((cur = tb[BRIDGE_ATTR_STP_PROTO])) cfg->stp_proto = blobmsg_get_string(cur); if ((cur = tb[BRIDGE_ATTR_FORWARD_DELAY])) cfg->forward_delay = blobmsg_get_u32(cur); if ((cur = tb[BRIDGE_ATTR_PRIORITY])) cfg->priority = blobmsg_get_u32(cur); if ((cur = tb[BRIDGE_ATTR_IGMP_SNOOP])) cfg->multicast_querier = cfg->igmp_snoop = blobmsg_get_bool(cur); if ((cur = tb[BRIDGE_ATTR_MULTICAST_QUERIER])) cfg->multicast_querier = blobmsg_get_bool(cur); if ((cur = tb[BRIDGE_ATTR_HASH_MAX])) cfg->hash_max = blobmsg_get_u32(cur); if ((cur = tb[BRIDGE_ATTR_ROBUSTNESS])) { cfg->robustness = blobmsg_get_u32(cur); cfg->flags |= BRIDGE_OPT_ROBUSTNESS; } if ((cur = tb[BRIDGE_ATTR_QUERY_INTERVAL])) { cfg->query_interval = blobmsg_get_u32(cur); cfg->flags |= BRIDGE_OPT_QUERY_INTERVAL; } if ((cur = tb[BRIDGE_ATTR_QUERY_RESPONSE_INTERVAL])) { cfg->query_response_interval = blobmsg_get_u32(cur); cfg->flags |= BRIDGE_OPT_QUERY_RESPONSE_INTERVAL; } if ((cur = tb[BRIDGE_ATTR_LAST_MEMBER_INTERVAL])) { cfg->last_member_interval = blobmsg_get_u32(cur); cfg->flags |= BRIDGE_OPT_LAST_MEMBER_INTERVAL; } if ((cur = tb[BRIDGE_ATTR_AGEING_TIME])) { cfg->ageing_time = blobmsg_get_u32(cur); cfg->flags |= BRIDGE_OPT_AGEING_TIME; } if ((cur = tb[BRIDGE_ATTR_HELLO_TIME])) cfg->hello_time = blobmsg_get_u32(cur); if ((cur = tb[BRIDGE_ATTR_MAX_AGE])) cfg->max_age = blobmsg_get_u32(cur); if ((cur = tb[BRIDGE_ATTR_BRIDGE_EMPTY])) cfg->bridge_empty = blobmsg_get_bool(cur); if ((cur = tb[BRIDGE_ATTR_VLAN_FILTERING])) cfg->vlan_filtering = blobmsg_get_bool(cur); } static enum dev_change_type bridge_reload(struct device *dev, struct blob_attr *attr) { struct blob_attr *tb_dev[__DEV_ATTR_MAX]; struct blob_attr *tb_br[__BRIDGE_ATTR_MAX]; enum dev_change_type ret = DEV_CONFIG_APPLIED; unsigned long diff; struct bridge_state *bst; BUILD_BUG_ON(sizeof(diff) < __BRIDGE_ATTR_MAX / 8); BUILD_BUG_ON(sizeof(diff) < __DEV_ATTR_MAX / 8); bst = container_of(dev, struct bridge_state, dev); attr = blob_memdup(attr); blobmsg_parse(device_attr_list.params, __DEV_ATTR_MAX, tb_dev, blob_data(attr), blob_len(attr)); blobmsg_parse(bridge_attrs, __BRIDGE_ATTR_MAX, tb_br, blob_data(attr), blob_len(attr)); if (tb_dev[DEV_ATTR_MACADDR]) bst->primary_port = NULL; bst->ports = tb_br[BRIDGE_ATTR_PORTS]; device_init_settings(dev, tb_dev); bridge_apply_settings(bst, tb_br); if (bst->config_data) { struct blob_attr *otb_dev[__DEV_ATTR_MAX]; struct blob_attr *otb_br[__BRIDGE_ATTR_MAX]; blobmsg_parse(device_attr_list.params, __DEV_ATTR_MAX, otb_dev, blob_data(bst->config_data), blob_len(bst->config_data)); diff = 0; uci_blob_diff(tb_dev, otb_dev, &device_attr_list, &diff); if (diff) ret = DEV_CONFIG_RESTART; blobmsg_parse(bridge_attrs, __BRIDGE_ATTR_MAX, otb_br, blob_data(bst->config_data), blob_len(bst->config_data)); diff = 0; uci_blob_diff(tb_br, otb_br, &bridge_attr_list, &diff); if (diff & ~(1 << BRIDGE_ATTR_PORTS)) ret = DEV_CONFIG_RESTART; bridge_config_init(dev); } free(bst->config_data); bst->config_data = attr; return ret; } static void bridge_retry_members(struct uloop_timeout *timeout) { struct bridge_state *bst = container_of(timeout, struct bridge_state, retry); struct bridge_member *bm; bst->n_failed = 0; vlist_for_each_element(&bst->members, bm, node) { if (bm->present) continue; if (!bm->dev.dev->present) continue; bm->present = true; bst->n_present++; bridge_enable_member(bm); } } static int bridge_avl_cmp_u16(const void *k1, const void *k2, void *ptr) { const uint16_t *i1 = k1, *i2 = k2; return *i1 - *i2; } static bool bridge_vlan_equal(struct bridge_vlan *v1, struct bridge_vlan *v2) { int i; if (v1->n_ports != v2->n_ports) return false; for (i = 0; i < v1->n_ports; i++) if (v1->ports[i].flags != v2->ports[i].flags || strcmp(v1->ports[i].ifname, v2->ports[i].ifname) != 0) return false; return true; } static void bridge_vlan_free(struct bridge_vlan *vlan) { struct bridge_vlan_hotplug_port *port, *tmp; if (!vlan) return; list_for_each_entry_safe(port, tmp, &vlan->hotplug_ports, list) free(port); free(vlan); } static void bridge_vlan_update(struct vlist_tree *tree, struct vlist_node *node_new, struct vlist_node *node_old) { struct bridge_state *bst = container_of(tree, struct bridge_state, dev.vlans); struct bridge_vlan *vlan_new = NULL, *vlan_old = NULL; if (!bst->has_vlans || !bst->active) goto out; if (node_old) vlan_old = container_of(node_old, struct bridge_vlan, node); if (node_new) vlan_new = container_of(node_new, struct bridge_vlan, node); if (node_new && node_old && bridge_vlan_equal(vlan_old, vlan_new)) { list_splice_init(&vlan_old->hotplug_ports, &vlan_new->hotplug_ports); goto out; } if (node_old) bridge_set_vlan_state(bst, vlan_old, false); if (node_old && node_new) list_splice_init(&vlan_old->hotplug_ports, &vlan_new->hotplug_ports); if (node_new) vlan_new->pending = true; bst->dev.config_pending = true; out: bridge_vlan_free(vlan_old); } static void bridge_dev_vlan_update(struct device *dev) { struct bridge_state *bst = container_of(dev, struct bridge_state, dev); struct bridge_vlan *vlan; vlist_for_each_element(&dev->vlans, vlan, node) { if (!vlan->pending) continue; vlan->pending = false; bridge_set_vlan_state(bst, vlan, true); } } static struct device * bridge_create(const char *name, struct device_type *devtype, struct blob_attr *attr) { struct bridge_state *bst; struct device *dev = NULL; bst = calloc(1, sizeof(*bst)); if (!bst) return NULL; dev = &bst->dev; if (device_init(dev, devtype, name) < 0) { device_cleanup(dev); free(bst); return NULL; } dev->config_pending = true; bst->retry.cb = bridge_retry_members; bst->set_state = dev->set_state; dev->set_state = bridge_set_state; dev->hotplug_ops = &bridge_ops; vlist_init(&bst->members, avl_strcmp, bridge_member_update); bst->members.keep_old = true; vlist_init(&dev->vlans, bridge_avl_cmp_u16, bridge_vlan_update); bridge_reload(dev, attr); return dev; } static void __init bridge_device_type_init(void) { device_type_add(&bridge_device_type); }