/* * luci - LuCI core functions plugin for rpcd * * Copyright (C) 2019 Jo-Philipp Wich * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static struct blob_buf blob; struct reply_context { struct ubus_context *context; struct ubus_request_data request; struct uloop_timeout timeout; struct blob_buf blob; struct avl_tree avl; int pending; }; struct invoke_context { struct ubus_request request; struct uloop_timeout timeout; struct ubus_context *context; void (*cb)(struct ubus_request *, int, struct blob_attr *); void *priv; }; static const char **iw_modenames; static struct iwinfo_ops *(*iw_backend)(const char *); static void (*iw_close)(void); static void invoke_data_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct invoke_context *ictx = container_of(req, struct invoke_context, request); if (ictx->cb != NULL) ictx->cb(req, type, msg); ictx->cb = NULL; } static void invoke_done_cb(struct ubus_request *req, int ret) { struct invoke_context *ictx = container_of(req, struct invoke_context, request); if (ictx->cb != NULL) ictx->cb(req, -1, NULL); uloop_timeout_cancel(&ictx->timeout); free(ictx); } static void invoke_timeout_cb(struct uloop_timeout *timeout) { struct invoke_context *ictx = container_of(timeout, struct invoke_context, timeout); if (ictx->cb != NULL) ictx->cb(&ictx->request, -1, NULL); ubus_abort_request(ictx->context, &ictx->request); free(ictx); } static struct reply_context * defer_request(struct ubus_context *ctx, struct ubus_request_data *req) { struct reply_context *rctx; rctx = calloc(1, sizeof(*rctx)); if (!rctx) return NULL; rctx->context = ctx; blob_buf_init(&rctx->blob, 0); ubus_defer_request(ctx, req, &rctx->request); return rctx; } static int finish_request(struct reply_context *rctx, int status) { if (status == UBUS_STATUS_OK) ubus_send_reply(rctx->context, &rctx->request, rctx->blob.head); ubus_complete_deferred_request(rctx->context, &rctx->request, status); blob_buf_free(&rctx->blob); free(rctx); return status; } static bool invoke_ubus(struct ubus_context *ctx, const char *object, const char *method, struct blob_buf *req, void (*cb)(struct ubus_request *, int, struct blob_attr *), void *priv) { struct invoke_context *ictx; struct blob_buf empty = {}; uint32_t id; bool rv; if (ubus_lookup_id(ctx, object, &id)) return false; if (req == NULL) { blob_buf_init(&empty, 0); req = ∅ } ictx = calloc(1, sizeof(*ictx)); if (ictx == NULL) return false; ictx->context = ctx; rv = !ubus_invoke_async(ctx, id, method, req->head, &ictx->request); if (rv) { ictx->cb = cb; ictx->request.priv = priv; ictx->request.data_cb = invoke_data_cb; ictx->request.complete_cb = invoke_done_cb; ubus_complete_request_async(ctx, &ictx->request); ictx->timeout.cb = invoke_timeout_cb; uloop_timeout_set(&ictx->timeout, 2000); } else { if (cb != NULL) cb(&ictx->request, -1, NULL); free(ictx); } if (req == &empty) blob_buf_free(req); return rv; } static char * readstr(const char *fmt, ...) { static char data[128]; char path[128]; va_list ap; size_t n; FILE *f; va_start(ap, fmt); vsnprintf(path, sizeof(path), fmt, ap); va_end(ap); data[0] = 0; f = fopen(path, "r"); if (f != NULL) { n = fread(data, 1, sizeof(data) - 1, f); data[n] = 0; while (n > 0 && isspace(data[n-1])) data[--n] = 0; fclose(f); } return data; } static bool ea_empty(struct ether_addr *ea) { struct ether_addr empty = { 0 }; return !memcmp(ea, &empty, sizeof(empty)); } static char * ea2str(struct ether_addr *ea) { static char mac[18]; if (!ea) return NULL; snprintf(mac, sizeof(mac), "%02X:%02X:%02X:%02X:%02X:%02X", ea->ether_addr_octet[0], ea->ether_addr_octet[1], ea->ether_addr_octet[2], ea->ether_addr_octet[3], ea->ether_addr_octet[4], ea->ether_addr_octet[5]); return mac; } static char * sa2str(struct sockaddr *sa) { static char buf[INET6_ADDRSTRLEN]; union { struct sockaddr_in6 *in6; struct sockaddr_in *in; struct sockaddr_ll *ll; struct sockaddr *sa; } s; s.sa = sa; if (s.sa->sa_family == AF_INET) inet_ntop(sa->sa_family, &s.in->sin_addr, buf, sizeof(buf)); else if (s.sa->sa_family == AF_INET6) inet_ntop(sa->sa_family, &s.in6->sin6_addr, buf, sizeof(buf)); else if (s.sa->sa_family == AF_PACKET) strcpy(buf, ea2str((struct ether_addr *)s.ll->sll_addr)); else buf[0] = 0; return buf; } static struct ether_addr * duid2ea(const char *duid) { static struct ether_addr ea; const char *p = NULL; size_t len; if (!duid) return NULL; for (len = 0; duid[len]; len++) if (!isxdigit(duid[len])) return NULL; #define hex(x) \ (((x) <= '9') ? ((x) - '0') : \ (((x) <= 'F') ? ((x) - 'A' + 10) : \ ((x) - 'a' + 10))) switch (len) { case 28: if (!strncmp(duid, "00010001", 8)) p = duid + 16; break; case 20: if (!strncmp(duid, "00030001", 8)) p = duid + 8; break; case 12: p = duid; break; } if (!p) return NULL; ea.ether_addr_octet[0] = hex(p[0]) * 16 + hex(p[1]); ea.ether_addr_octet[1] = hex(p[2]) * 16 + hex(p[3]); ea.ether_addr_octet[2] = hex(p[4]) * 16 + hex(p[5]); ea.ether_addr_octet[3] = hex(p[6]) * 16 + hex(p[7]); ea.ether_addr_octet[4] = hex(p[8]) * 16 + hex(p[9]); ea.ether_addr_octet[5] = hex(p[10]) * 16 + hex(p[11]); return &ea; } static struct { time_t now; size_t num, off; struct { FILE *fh; bool odhcpd; } *files; } lease_state = { }; struct lease_entry { int af, n_addr; char buf[512]; int32_t expire; struct ether_addr mac; char *hostname; char *duid; union { struct in_addr in; struct in6_addr in6; } addr[10]; }; static bool add_leasefile(const char *path, bool is_odhcpd) { void *ptr; FILE *fh; fh = fopen(path, "r"); if (!fh) return false; ptr = realloc(lease_state.files, sizeof(*lease_state.files) * (lease_state.num + 1)); if (!ptr) { fclose(fh); return false; } lease_state.files = ptr; lease_state.files[lease_state.num].fh = fh; lease_state.files[lease_state.num].odhcpd = is_odhcpd; lease_state.num++; return true; } static bool find_leasefiles(struct uci_context *uci, bool is_odhcpd) { struct uci_ptr ptr = { .package = "dhcp" }; struct uci_package *pkg = NULL; struct uci_section *s; struct uci_element *e; bool found = false; pkg = uci_lookup_package(uci, ptr.package); if (!pkg) { uci_load(uci, ptr.package, &pkg); if (!pkg) return NULL; } uci_foreach_element(&pkg->sections, e) { s = uci_to_section(e); if (strcmp(s->type, is_odhcpd ? "odhcpd" : "dnsmasq")) continue; ptr.flags = 0; ptr.section = s->e.name; ptr.s = NULL; ptr.option = "leasefile"; ptr.o = NULL; if (uci_lookup_ptr(uci, &ptr, NULL, true) || ptr.o == NULL) continue; if (ptr.o->type != UCI_TYPE_STRING) continue; if (add_leasefile(ptr.o->v.string, is_odhcpd)) found = true; } return found; } static void lease_close(void) { while (lease_state.num > 0) fclose(lease_state.files[--lease_state.num].fh); free(lease_state.files); lease_state.files = NULL; lease_state.num = 0; lease_state.off = 0; } static void lease_open(void) { struct uci_context *uci; lease_close(); uci = uci_alloc_context(); if (!uci) return; lease_state.now = time(NULL); if (!find_leasefiles(uci, false)) add_leasefile("/tmp/dhcp.leases", false); if (!find_leasefiles(uci, true)) add_leasefile("/tmp/hosts/odhcpd", true); uci_free_context(uci); } static struct lease_entry * lease_next(void) { static struct lease_entry e; struct ether_addr *ea; char *p; int n; while (lease_state.off < lease_state.num) { memset(&e, 0, sizeof(e)); while (fgets(e.buf, sizeof(e.buf), lease_state.files[lease_state.off].fh)) { if (lease_state.files[lease_state.off].odhcpd) { strtok(e.buf, " \t\n"); /* # */ strtok(NULL, " \t\n"); /* iface */ e.duid = strtok(NULL, " \t\n"); /* duid */ if (!e.duid) continue; p = strtok(NULL, " \t\n"); /* iaid */ if (p) e.af = strcmp(p, "ipv4") ? AF_INET6 : AF_INET; else continue; e.hostname = strtok(NULL, " \t\n"); /* name */ if (!e.hostname) continue; p = strtok(NULL, " \t\n"); /* ts */ if (!p) continue; n = strtol(p, NULL, 10); if (n > lease_state.now) e.expire = n - lease_state.now; else if (n >= 0) e.expire = 0; else e.expire = -1; strtok(NULL, " \t\n"); /* id */ strtok(NULL, " \t\n"); /* length */ for (e.n_addr = 0, p = strtok(NULL, "/ \t\n"); e.n_addr < ARRAY_SIZE(e.addr) && p != NULL; p = strtok(NULL, "/ \t\n")) { if (inet_pton(e.af, p, &e.addr[e.n_addr].in6)) e.n_addr++; } ea = duid2ea(e.duid); if (ea) e.mac = *ea; if (!strcmp(e.hostname, "-")) e.hostname = NULL; if (!strcmp(e.duid, "-")) e.duid = NULL; } else { p = strtok(e.buf, " \t\n"); if (!p) continue; n = strtol(p, NULL, 10); if (n > lease_state.now) e.expire = n - lease_state.now; else if (n > 0) e.expire = 0; else e.expire = -1; p = strtok(NULL, " \t\n"); if (!p) continue; ea = ether_aton(p); p = strtok(NULL, " \t\n"); if (p && inet_pton(AF_INET6, p, &e.addr[0].in6)) { e.af = AF_INET6; e.n_addr = 1; } else if (p && inet_pton(AF_INET, p, &e.addr[0].in)) { e.af = AF_INET; e.n_addr = 1; } else { continue; } if (!ea && e.af != AF_INET6) continue; e.hostname = strtok(NULL, " \t\n"); e.duid = strtok(NULL, " \t\n"); if (!e.hostname || !e.duid) continue; if (!strcmp(e.hostname, "*")) e.hostname = NULL; if (!strcmp(e.duid, "*")) e.duid = NULL; if (!ea && e.duid) ea = duid2ea(e.duid); if (ea) e.mac = *ea; } return &e; } lease_state.off++; } return NULL; } static void rpc_luci_parse_network_device_sys(const char *name, struct ifaddrs *ifaddr) { char link[64], buf[512], *p; unsigned int ifa_flags = 0; struct sockaddr_ll *sll; struct ifaddrs *ifa; struct dirent *e; void *o, *o2, *a; ssize_t len; uint64_t v; int n, af; DIR *d; const char *stats[] = { "rx_bytes", "tx_bytes", "tx_errors", "rx_errors", "tx_packets", "rx_packets", "multicast", "collisions", "rx_dropped", "tx_dropped" }; o = blobmsg_open_table(&blob, name); blobmsg_add_string(&blob, "name", name); snprintf(buf, sizeof(buf), "/sys/class/net/%s/brif", name); d = opendir(buf); if (d) { blobmsg_add_u8(&blob, "bridge", 1); a = blobmsg_open_array(&blob, "ports"); while (true) { e = readdir(d); if (e == NULL) break; if (strcmp(e->d_name, ".") && strcmp(e->d_name, "..")) blobmsg_add_string(&blob, NULL, e->d_name); } blobmsg_close_array(&blob, a); closedir(d); p = readstr("/sys/class/net/%s/bridge/bridge_id", name); blobmsg_add_string(&blob, "id", p); p = readstr("/sys/class/net/%s/bridge/stp_state", name); blobmsg_add_u8(&blob, "stp", strcmp(p, "0") ? 1 : 0); } snprintf(buf, sizeof(buf), "/sys/class/net/%s/master", name); len = readlink(buf, link, sizeof(link) - 1); if (len > 0) { link[len] = 0; blobmsg_add_string(&blob, "master", basename(link)); } p = readstr("/sys/class/net/%s/phy80211/index", name); blobmsg_add_u8(&blob, "wireless", *p ? 1 : 0); p = readstr("/sys/class/net/%s/operstate", name); blobmsg_add_u8(&blob, "up", !strcmp(p, "up") || !strcmp(p, "unknown")); n = atoi(readstr("/sys/class/net/%s/mtu", name)); if (n > 0) blobmsg_add_u32(&blob, "mtu", n); n = atoi(readstr("/sys/class/net/%s/tx_queue_len", name)); if (n > 0) blobmsg_add_u32(&blob, "qlen", n); p = readstr("/sys/class/net/%s/master", name); if (*p) blobmsg_add_string(&blob, "master", p); p = strstr(readstr("/sys/class/net/%s/uevent", name), "DEVTYPE="); if (p) { for (n = 0, p += strlen("DEVTYPE=");; n++) { if (p[n] == '\0' || p[n] == '\n') { p[n] = 0; blobmsg_add_string(&blob, "devtype", p); break; } } } else { blobmsg_add_string(&blob, "devtype", "ethernet"); } for (af = AF_INET; af != 0; af = (af == AF_INET) ? AF_INET6 : 0) { a = blobmsg_open_array(&blob, (af == AF_INET) ? "ipaddrs" : "ip6addrs"); for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) { if (ifa->ifa_addr == NULL || ifa->ifa_addr->sa_family != af) continue; if (strcmp(ifa->ifa_name, name)) continue; o2 = blobmsg_open_table(&blob, NULL); blobmsg_add_string(&blob, "address", sa2str(ifa->ifa_addr)); blobmsg_add_string(&blob, "netmask", sa2str(ifa->ifa_netmask)); if (ifa->ifa_dstaddr && (ifa->ifa_flags & IFF_POINTOPOINT)) blobmsg_add_string(&blob, "remote", sa2str(ifa->ifa_dstaddr)); else if (ifa->ifa_broadaddr && (ifa->ifa_flags & IFF_BROADCAST)) blobmsg_add_string(&blob, "broadcast", sa2str(ifa->ifa_broadaddr)); blobmsg_close_table(&blob, o2); ifa_flags |= ifa->ifa_flags; } blobmsg_close_array(&blob, a); } for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) { if (ifa->ifa_addr == NULL || ifa->ifa_addr->sa_family != AF_PACKET) continue; if (strcmp(ifa->ifa_name, name)) continue; sll = (struct sockaddr_ll *)ifa->ifa_addr; if (sll->sll_hatype == 1) blobmsg_add_string(&blob, "mac", sa2str(ifa->ifa_addr)); blobmsg_add_u32(&blob, "type", sll->sll_hatype); blobmsg_add_u32(&blob, "ifindex", sll->sll_ifindex); ifa_flags |= ifa->ifa_flags; n = atoi(readstr("/sys/class/net/%s/iflink", name)); if (n != sll->sll_ifindex) { for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) { if (ifa->ifa_addr == NULL || ifa->ifa_addr->sa_family != AF_PACKET) continue; sll = (struct sockaddr_ll *)ifa->ifa_addr; if (sll->sll_ifindex != n) continue; blobmsg_add_string(&blob, "parent", ifa->ifa_name); break; } } break; } o2 = blobmsg_open_table(&blob, "stats"); for (n = 0; n < ARRAY_SIZE(stats); n++) { v = strtoull(readstr("/sys/class/net/%s/statistics/%s", name, stats[n]), NULL, 10); blobmsg_add_u64(&blob, stats[n], v); } blobmsg_close_table(&blob, o2); o2 = blobmsg_open_table(&blob, "flags"); blobmsg_add_u8(&blob, "up", ifa_flags & IFF_UP); blobmsg_add_u8(&blob, "broadcast", ifa_flags & IFF_BROADCAST); blobmsg_add_u8(&blob, "promisc", ifa_flags & IFF_PROMISC); blobmsg_add_u8(&blob, "loopback", ifa_flags & IFF_LOOPBACK); blobmsg_add_u8(&blob, "noarp", ifa_flags & IFF_NOARP); blobmsg_add_u8(&blob, "multicast", ifa_flags & IFF_MULTICAST); blobmsg_add_u8(&blob, "pointtopoint", ifa_flags & IFF_POINTOPOINT); blobmsg_close_table(&blob, o2); o2 = blobmsg_open_table(&blob, "link"); p = readstr("/sys/class/net/%s/speed", name); if (*p) blobmsg_add_u32(&blob, "speed", atoi(p)); p = readstr("/sys/class/net/%s/duplex", name); if (*p) blobmsg_add_string(&blob, "duplex", p); n = atoi(readstr("/sys/class/net/%s/carrier", name)); blobmsg_add_u8(&blob, "carrier", n == 1); n = atoi(readstr("/sys/class/net/%s/carrier_changes", name)); blobmsg_add_u32(&blob, "changes", n); n = atoi(readstr("/sys/class/net/%s/carrier_up_count", name)); blobmsg_add_u32(&blob, "up_count", n); n = atoi(readstr("/sys/class/net/%s/carrier_down_count", name)); blobmsg_add_u32(&blob, "down_count", n); blobmsg_close_table(&blob, o2); blobmsg_close_table(&blob, o); } static int rpc_luci_get_network_devices(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct ifaddrs *ifaddr; struct dirent *e; DIR *d; blob_buf_init(&blob, 0); d = opendir("/sys/class/net"); if (d != NULL) { if (getifaddrs(&ifaddr) == 1) ifaddr = NULL; while (true) { e = readdir(d); if (e == NULL) break; if (strcmp(e->d_name, ".") && strcmp(e->d_name, "..")) rpc_luci_parse_network_device_sys(e->d_name, ifaddr); } if (ifaddr != NULL) freeifaddrs(ifaddr); closedir(d); } ubus_send_reply(ctx, req, blob.head); return 0; } static void iw_call_str(int (*method)(const char *, char *), const char *dev, struct blob_buf *blob, const char *field) { char buf[IWINFO_BUFSIZE] = {}; if (method(dev, buf) == 0) blobmsg_add_string(blob, field, buf); } static void iw_call_num(int (*method)(const char *, int *), const char *dev, struct blob_buf *blob, const char *field) { int val = 0; if (method(dev, &val) == 0) blobmsg_add_u32(blob, field, val); } static bool rpc_luci_get_iwinfo(struct blob_buf *buf, const char *devname, bool phy_only) { struct iwinfo_crypto_entry crypto = {}; struct iwinfo_hardware_id ids = {}; const struct iwinfo_ops *iw; void *iwlib = NULL; void *o, *o2, *a; glob_t paths; int nret, i; if (!iw_backend || !iw_close || !iw_modenames) { if (glob("/usr/lib/libiwinfo.so*", 0, NULL, &paths) != 0) return false; for (i = 0; i < paths.gl_pathc && !iwlib; i++) iwlib = dlopen(paths.gl_pathv[i], RTLD_LAZY | RTLD_LOCAL); globfree(&paths); if (!iwlib) return false; iw_backend = dlsym(iwlib, "iwinfo_backend"); iw_close = dlsym(iwlib, "iwinfo_close"); iw_modenames = dlsym(iwlib, "IWINFO_OPMODE_NAMES"); if (!iw_backend || !iw_close || !iw_modenames) return false; } iw = iw_backend(devname); if (!iw) return false; o = blobmsg_open_table(buf, "iwinfo"); iw_call_num(iw->signal, devname, buf, "signal"); iw_call_num(iw->noise, devname, buf, "noise"); iw_call_num(iw->channel, devname, buf, "channel"); iw_call_str(iw->country, devname, buf, "country"); iw_call_str(iw->phyname, devname, buf, "phy"); iw_call_num(iw->txpower, devname, buf, "txpower"); iw_call_num(iw->txpower_offset, devname, buf, "txpower_offset"); iw_call_num(iw->frequency, devname, buf, "frequency"); iw_call_num(iw->frequency_offset, devname, buf, "frequency_offset"); if (!iw->hwmodelist(devname, &nret)) { a = blobmsg_open_array(buf, "hwmodes"); if (nret & IWINFO_80211_AX) blobmsg_add_string(buf, NULL, "ax"); if (nret & IWINFO_80211_AC) blobmsg_add_string(buf, NULL, "ac"); if (nret & IWINFO_80211_A) blobmsg_add_string(buf, NULL, "a"); if (nret & IWINFO_80211_B) blobmsg_add_string(buf, NULL, "b"); if (nret & IWINFO_80211_G) blobmsg_add_string(buf, NULL, "g"); if (nret & IWINFO_80211_N) blobmsg_add_string(buf, NULL, "n"); blobmsg_close_array(buf, a); } if (!iw->htmodelist(devname, &nret)) { a = blobmsg_open_array(buf, "htmodes"); if (nret & IWINFO_HTMODE_HT20) blobmsg_add_string(buf, NULL, "HT20"); if (nret & IWINFO_HTMODE_HT40) blobmsg_add_string(buf, NULL, "HT40"); if (nret & IWINFO_HTMODE_VHT20) blobmsg_add_string(buf, NULL, "VHT20"); if (nret & IWINFO_HTMODE_VHT40) blobmsg_add_string(buf, NULL, "VHT40"); if (nret & IWINFO_HTMODE_VHT80) blobmsg_add_string(buf, NULL, "VHT80"); if (nret & IWINFO_HTMODE_VHT80_80) blobmsg_add_string(buf, NULL, "VHT80+80"); if (nret & IWINFO_HTMODE_VHT160) blobmsg_add_string(buf, NULL, "VHT160"); if (nret & IWINFO_HTMODE_HE20) blobmsg_add_string(buf, NULL, "HE20"); if (nret & IWINFO_HTMODE_HE40) blobmsg_add_string(buf, NULL, "HE40"); if (nret & IWINFO_HTMODE_HE80) blobmsg_add_string(buf, NULL, "HE80"); if (nret & IWINFO_HTMODE_HE160) blobmsg_add_string(buf, NULL, "HE160"); blobmsg_close_array(buf, a); } if (!iw->hardware_id(devname, (char *)&ids)) { o2 = blobmsg_open_table(buf, "hardware"); a = blobmsg_open_array(buf, "id"); blobmsg_add_u32(buf, NULL, ids.vendor_id); blobmsg_add_u32(buf, NULL, ids.device_id); blobmsg_add_u32(buf, NULL, ids.subsystem_vendor_id); blobmsg_add_u32(buf, NULL, ids.subsystem_device_id); blobmsg_close_array(buf, a); iw_call_str(iw->hardware_name, devname, buf, "name"); blobmsg_close_table(buf, o2); } if (!phy_only) { iw_call_num(iw->quality, devname, buf, "quality"); iw_call_num(iw->quality_max, devname, buf, "quality_max"); iw_call_num(iw->bitrate, devname, buf, "bitrate"); if (!iw->mode(devname, &nret)) blobmsg_add_string(buf, "mode", iw_modenames[nret]); iw_call_str(iw->ssid, devname, buf, "ssid"); iw_call_str(iw->bssid, devname, buf, "bssid"); if (!iw->encryption(devname, (char *)&crypto)) { o2 = blobmsg_open_table(buf, "encryption"); blobmsg_add_u8(buf, "enabled", crypto.enabled); if (crypto.enabled) { if (!crypto.wpa_version) { a = blobmsg_open_array(buf, "wep"); if (crypto.auth_algs & IWINFO_AUTH_OPEN) blobmsg_add_string(buf, NULL, "open"); if (crypto.auth_algs & IWINFO_AUTH_SHARED) blobmsg_add_string(buf, NULL, "shared"); blobmsg_close_array(buf, a); } else { a = blobmsg_open_array(buf, "wpa"); for (nret = 1; nret <= 3; nret++) if (crypto.wpa_version & (1 << (nret - 1))) blobmsg_add_u32(buf, NULL, nret); blobmsg_close_array(buf, a); a = blobmsg_open_array(buf, "authentication"); if (crypto.auth_suites & IWINFO_KMGMT_PSK) blobmsg_add_string(buf, NULL, "psk"); if (crypto.auth_suites & IWINFO_KMGMT_8021x) blobmsg_add_string(buf, NULL, "802.1x"); if (crypto.auth_suites & IWINFO_KMGMT_SAE) blobmsg_add_string(buf, NULL, "sae"); if (crypto.auth_suites & IWINFO_KMGMT_OWE) blobmsg_add_string(buf, NULL, "owe"); if (!crypto.auth_suites || (crypto.auth_suites & IWINFO_KMGMT_NONE)) blobmsg_add_string(buf, NULL, "none"); blobmsg_close_array(buf, a); } a = blobmsg_open_array(buf, "ciphers"); nret = crypto.pair_ciphers | crypto.group_ciphers; if (nret & IWINFO_CIPHER_WEP40) blobmsg_add_string(buf, NULL, "wep-40"); if (nret & IWINFO_CIPHER_WEP104) blobmsg_add_string(buf, NULL, "wep-104"); if (nret & IWINFO_CIPHER_TKIP) blobmsg_add_string(buf, NULL, "tkip"); if (nret & IWINFO_CIPHER_CCMP) blobmsg_add_string(buf, NULL, "ccmp"); if (nret & IWINFO_CIPHER_WRAP) blobmsg_add_string(buf, NULL, "wrap"); if (nret & IWINFO_CIPHER_AESOCB) blobmsg_add_string(buf, NULL, "aes-ocb"); if (nret & IWINFO_CIPHER_CKIP) blobmsg_add_string(buf, NULL, "ckip"); if (!nret || (nret & IWINFO_CIPHER_NONE)) blobmsg_add_string(buf, NULL, "none"); blobmsg_close_array(buf, a); } blobmsg_close_table(buf, o2); } } blobmsg_close_table(buf, o); iw_close(); return true; } static void rpc_luci_get_wireless_devices_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct blob_attr *wifi, *cur, *iface, *cur2; struct reply_context *rctx = req->priv; const char *name, *first_ifname; int rem, rem2, rem3, rem4; void *o, *a, *o2; blob_for_each_attr(wifi, msg, rem) { if (blobmsg_type(wifi) != BLOBMSG_TYPE_TABLE || blobmsg_name(wifi) == NULL) continue; o = blobmsg_open_table(&rctx->blob, blobmsg_name(wifi)); rem2 = blobmsg_data_len(wifi); first_ifname = NULL; __blob_for_each_attr(cur, blobmsg_data(wifi), rem2) { name = blobmsg_name(cur); if (!name || !strcmp(name, "iwinfo")) { continue; } else if (!strcmp(name, "interfaces")) { if (blobmsg_type(cur) != BLOBMSG_TYPE_ARRAY) continue; a = blobmsg_open_array(&rctx->blob, "interfaces"); rem3 = blobmsg_data_len(cur); __blob_for_each_attr(iface, blobmsg_data(cur), rem3) { if (blobmsg_type(iface) != BLOBMSG_TYPE_TABLE) continue; o2 = blobmsg_open_table(&rctx->blob, NULL); rem4 = blobmsg_data_len(iface); name = NULL; __blob_for_each_attr(cur2, blobmsg_data(iface), rem4) { if (!strcmp(blobmsg_name(cur2), "ifname")) name = blobmsg_get_string(cur2); else if (!strcmp(blobmsg_name(cur2), "iwinfo")) continue; blobmsg_add_blob(&rctx->blob, cur2); } if (name) if (rpc_luci_get_iwinfo(&rctx->blob, name, false)) first_ifname = first_ifname ? first_ifname : name; blobmsg_close_table(&rctx->blob, o2); } blobmsg_close_array(&rctx->blob, a); } else { blobmsg_add_blob(&rctx->blob, cur); } } rpc_luci_get_iwinfo(&rctx->blob, first_ifname ? first_ifname : blobmsg_name(wifi), true); blobmsg_close_table(&rctx->blob, o); } finish_request(rctx, UBUS_STATUS_OK); } static int rpc_luci_get_wireless_devices(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct reply_context *rctx = defer_request(ctx, req); if (!rctx) return UBUS_STATUS_UNKNOWN_ERROR; if (!invoke_ubus(ctx, "network.wireless", "status", NULL, rpc_luci_get_wireless_devices_cb, rctx)) return finish_request(rctx, UBUS_STATUS_NOT_FOUND); return UBUS_STATUS_OK; } struct host_hint { struct avl_node avl; char *hostname; struct avl_tree ipaddrs; struct avl_tree ip6addrs; }; /* used to ignore priority with avl_find_element */ #define HOST_HINT_PRIO_IGNORE -1 /* higher (larger) priority addresses are listed first */ #define HOST_HINT_PRIO_NL 10 /* neighbor table */ #define HOST_HINT_PRIO_ETHER 50 /* /etc/ethers */ #define HOST_HINT_PRIO_LEASEFILE 100 /* dhcp leasefile */ #define HOST_HINT_PRIO_IFADDRS 200 /* getifaddrs() */ #define HOST_HINT_PRIO_STATIC_LEASE 250 /* uci static leases */ struct host_hint_addr { struct avl_node avl; int af; int prio; union { struct in_addr in; struct in6_addr in6; } addr; }; static int host_hint_addr_avl_cmp(const void *k1, const void *k2, void *ptr) { struct host_hint_addr *a1 = (struct host_hint_addr *)k1; struct host_hint_addr *a2 = (struct host_hint_addr *)k2; if (a1->prio != a2->prio && a1->prio != HOST_HINT_PRIO_IGNORE && a2->prio != HOST_HINT_PRIO_IGNORE) return a1->prio < a2->prio ? 1 : -1; if (a1->af != a2->af) return a1->af < a2->af ? -1 : 1; return memcmp(&a1->addr, &a2->addr, sizeof(a1->addr)); } static int nl_cb_done(struct nl_msg *msg, void *arg) { struct reply_context *rctx = arg; rctx->pending = 0; return NL_STOP; } static int nl_cb_error(struct sockaddr_nl *nla, struct nlmsgerr *err, void *arg) { struct reply_context *rctx = arg; rctx->pending = 0; return NL_STOP; } static struct host_hint * rpc_luci_get_host_hint(struct reply_context *rctx, struct ether_addr *ea) { struct host_hint *hint; char *p, *mac; if (!ea) return NULL; mac = ea2str(ea); hint = avl_find_element(&rctx->avl, mac, hint, avl); if (!hint) { hint = calloc_a(sizeof(*hint), &p, strlen(mac) + 1); if (!hint) return NULL; hint->avl.key = strcpy(p, mac); avl_init(&hint->ipaddrs, host_hint_addr_avl_cmp, false, NULL); avl_init(&hint->ip6addrs, host_hint_addr_avl_cmp, false, NULL); avl_insert(&rctx->avl, &hint->avl); } return hint; } static void rpc_luci_add_host_hint_addr(struct host_hint *hint, int af, int prio, void *addr) { struct host_hint_addr e, *a; struct avl_tree *addrs = af == AF_INET ? &hint->ipaddrs : &hint->ip6addrs; if (!addr) return; memset(&e, 0, sizeof(e)); e.af = af; /* ignore prio when comparing against existing addresses */ e.prio = HOST_HINT_PRIO_IGNORE; if (af == AF_INET) memcpy(&e.addr.in, (struct in_addr *)addr, sizeof(e.addr.in)); else memcpy(&e.addr.in6, (struct in6_addr *)addr, sizeof(e.addr.in6)); a = avl_find_element(addrs, &e, a, avl); if (a) { /* update prio of existing address if higher */ if (prio <= a->prio) return; avl_delete(addrs, &a->avl); a->prio = prio; avl_insert(addrs, &a->avl); return; } a = calloc(1, sizeof(*a)); if (!a) return; memcpy(a, &e, sizeof(*a)); a->prio = prio; a->avl.key = a; avl_insert(addrs, &a->avl); } static void rpc_luci_add_host_hint_ipaddr(struct host_hint *hint, int prio, struct in_addr *addr) { return rpc_luci_add_host_hint_addr(hint, AF_INET, prio, (void *)addr); } static void rpc_luci_add_host_hint_ip6addr(struct host_hint *hint, int prio, struct in6_addr *addr) { return rpc_luci_add_host_hint_addr(hint, AF_INET6, prio, (void *)addr); } static int nl_cb_dump_neigh(struct nl_msg *msg, void *arg) { struct reply_context *rctx = arg; struct ether_addr *mac; struct in6_addr *dst; struct nlmsghdr *hdr = nlmsg_hdr(msg); struct ndmsg *nd = NLMSG_DATA(hdr); struct nlattr *tb[NDA_MAX+1]; struct host_hint *hint; rctx->pending = !!(hdr->nlmsg_flags & NLM_F_MULTI); if (hdr->nlmsg_type != RTM_NEWNEIGH || (nd->ndm_family != AF_INET && nd->ndm_family != AF_INET6)) return NL_SKIP; if (!(nd->ndm_state & (0xFF & ~NUD_NOARP))) return NL_SKIP; nlmsg_parse(hdr, sizeof(*nd), tb, NDA_MAX, NULL); mac = tb[NDA_LLADDR] ? RTA_DATA(tb[NDA_LLADDR]) : NULL; dst = tb[NDA_DST] ? RTA_DATA(tb[NDA_DST]) : NULL; if (!mac || !dst) return NL_SKIP; hint = rpc_luci_get_host_hint(rctx, mac); if (!hint) return NL_SKIP; if (nd->ndm_family == AF_INET) rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_NL, (struct in_addr *)dst); else rpc_luci_add_host_hint_ip6addr(hint, HOST_HINT_PRIO_NL, (struct in6_addr *)dst); return NL_SKIP; } static void rpc_luci_get_host_hints_nl(struct reply_context *rctx) { struct nl_sock *sock = NULL; struct nl_msg *msg = NULL; struct nl_cb *cb = NULL; struct ndmsg ndm = {}; sock = nl_socket_alloc(); if (!sock) goto out; if (nl_connect(sock, NETLINK_ROUTE)) goto out; cb = nl_cb_alloc(NL_CB_DEFAULT); if (!cb) goto out; msg = nlmsg_alloc_simple(RTM_GETNEIGH, NLM_F_REQUEST | NLM_F_DUMP); if (!msg) goto out; nlmsg_append(msg, &ndm, sizeof(ndm), 0); nl_cb_set(cb, NL_CB_VALID, NL_CB_CUSTOM, nl_cb_dump_neigh, rctx); nl_cb_set(cb, NL_CB_FINISH, NL_CB_CUSTOM, nl_cb_done, rctx); nl_cb_err(cb, NL_CB_CUSTOM, nl_cb_error, rctx); avl_init(&rctx->avl, avl_strcmp, false, NULL); rctx->pending = 1; nl_send_auto_complete(sock, msg); while (rctx->pending) nl_recvmsgs(sock, cb); out: if (sock) nl_socket_free(sock); if (cb) nl_cb_put(cb); if (msg) nlmsg_free(msg); } static void rpc_luci_get_host_hints_ether(struct reply_context *rctx) { struct host_hint *hint; struct in_addr in; char buf[512], *p; FILE *f; f = fopen("/etc/ethers", "r"); if (!f) return; while (fgets(buf, sizeof(buf), f)) { p = strtok(buf, " \t\n"); hint = rpc_luci_get_host_hint(rctx, p ? ether_aton(p) : NULL); if (!hint) continue; p = strtok(NULL, " \t\n"); if (!p) continue; if (inet_pton(AF_INET, p, &in) == 1) { rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_ETHER, &in); } else if (*p && !hint->hostname) { hint->hostname = strdup(p); } } fclose(f); } static void rpc_luci_get_host_hints_uci(struct reply_context *rctx) { struct uci_ptr ptr = { .package = "dhcp" }; struct uci_context *uci = NULL; struct uci_package *pkg = NULL; struct lease_entry *lease; struct host_hint *hint; struct uci_element *e, *l; struct uci_section *s; struct in_addr in; char *p, *n; int i; uci = uci_alloc_context(); if (!uci) goto out; uci_load(uci, ptr.package, &pkg); if (!pkg) goto out; uci_foreach_element(&pkg->sections, e) { s = uci_to_section(e); if (strcmp(s->type, "host")) continue; ptr.section = s->e.name; ptr.s = NULL; ptr.option = "ip"; ptr.o = NULL; if (!uci_lookup_ptr(uci, &ptr, NULL, true) && ptr.o != NULL && ptr.o->type != UCI_TYPE_STRING) n = ptr.o->v.string; else n = NULL; if (!n || inet_pton(AF_INET, n, &in) != 1) in.s_addr = 0; ptr.option = "name"; ptr.o = NULL; if (!uci_lookup_ptr(uci, &ptr, NULL, true) && ptr.o != NULL && ptr.o->type == UCI_TYPE_STRING) n = ptr.o->v.string; else n = NULL; ptr.option = "mac"; ptr.o = NULL; if (uci_lookup_ptr(uci, &ptr, NULL, true) || ptr.o == NULL) continue; if (ptr.o->type == UCI_TYPE_STRING) { for (p = strtok(ptr.o->v.string, " \t"); p != NULL; p = strtok(NULL, " \t")) { hint = rpc_luci_get_host_hint(rctx, ether_aton(p)); if (!hint) continue; if (in.s_addr != 0) rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_STATIC_LEASE, &in); if (n && !hint->hostname) hint->hostname = strdup(n); } } else if (ptr.o->type == UCI_TYPE_LIST) { uci_foreach_element(&ptr.o->v.list, l) { hint = rpc_luci_get_host_hint(rctx, ether_aton(l->name)); if (!hint) continue; if (in.s_addr != 0) rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_STATIC_LEASE, &in); if (n && !hint->hostname) hint->hostname = strdup(n); } } } lease_open(); while ((lease = lease_next()) != NULL) { if (ea_empty(&lease->mac)) continue; hint = rpc_luci_get_host_hint(rctx, &lease->mac); if (!hint) continue; for (i = 0; i < lease->n_addr; i++) { if (lease->af == AF_INET) rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_LEASEFILE, &lease->addr[i].in); else if (lease->af == AF_INET6) rpc_luci_add_host_hint_ip6addr(hint, HOST_HINT_PRIO_LEASEFILE, &lease->addr[i].in6); } if (lease->hostname && !hint->hostname) hint->hostname = strdup(lease->hostname); } lease_close(); out: if (uci) uci_free_context(uci); } static void rpc_luci_get_host_hints_ifaddrs(struct reply_context *rctx) { struct ifaddrs *ifaddr, *ifa; struct sockaddr_ll *sll; struct avl_tree devices; struct host_hint *hint; struct { struct avl_node avl; struct ether_addr ea; struct in6_addr in6; struct in_addr in; } *device, *nextdevice; char *p; avl_init(&devices, avl_strcmp, false, NULL); if (getifaddrs(&ifaddr) == -1) return; for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) { if (!ifa->ifa_addr) continue; device = avl_find_element(&devices, ifa->ifa_name, device, avl); if (!device) { device = calloc_a(sizeof(*device), &p, strlen(ifa->ifa_name) + 1); if (!device) continue; device->avl.key = strcpy(p, ifa->ifa_name); avl_insert(&devices, &device->avl); } switch (ifa->ifa_addr->sa_family) { case AF_PACKET: sll = (struct sockaddr_ll *)ifa->ifa_addr; if (sll->sll_halen == 6) memcpy(&device->ea, sll->sll_addr, 6); break; case AF_INET6: device->in6 = ((struct sockaddr_in6 *)ifa->ifa_addr)->sin6_addr; break; case AF_INET: device->in = ((struct sockaddr_in *)ifa->ifa_addr)->sin_addr; break; } } freeifaddrs(ifaddr); avl_remove_all_elements(&devices, device, avl, nextdevice) { if (!ea_empty(&device->ea) && (!IN6_IS_ADDR_UNSPECIFIED(&device->in6) || device->in.s_addr != 0)) { hint = rpc_luci_get_host_hint(rctx, &device->ea); if (hint) { if (device->in.s_addr != 0) rpc_luci_add_host_hint_ipaddr(hint, HOST_HINT_PRIO_IFADDRS, &device->in); if (!IN6_IS_ADDR_UNSPECIFIED(&device->in6)) rpc_luci_add_host_hint_ip6addr(hint, HOST_HINT_PRIO_IFADDRS, &device->in6); } } free(device); } } static int rpc_luci_get_host_hints_finish(struct reply_context *rctx); static void rpc_luci_get_host_hints_rrdns_cb(struct ubus_request *req, int type, struct blob_attr *msg) { struct reply_context *rctx = req->priv; struct host_hint_addr *addr; struct host_hint *hint; struct blob_attr *cur; struct in6_addr in6; struct in_addr in; int rem; if (msg) { blob_for_each_attr(cur, msg, rem) { if (blobmsg_type(cur) != BLOBMSG_TYPE_STRING) continue; if (inet_pton(AF_INET6, blobmsg_name(cur), &in6) == 1) { avl_for_each_element(&rctx->avl, hint, avl) { avl_for_each_element(&hint->ip6addrs, addr, avl) { if (!memcmp(&addr->addr.in6, &in6, sizeof(in6))) { free(hint->hostname); hint->hostname = strdup(blobmsg_get_string(cur)); break; } } } } else if (inet_pton(AF_INET, blobmsg_name(cur), &in) == 1) { avl_for_each_element(&rctx->avl, hint, avl) { avl_for_each_element(&hint->ipaddrs, addr, avl) { if (addr->addr.in.s_addr == in.s_addr) { free(hint->hostname); hint->hostname = strdup(blobmsg_get_string(cur)); break; } } } } } } rpc_luci_get_host_hints_finish(rctx); } static void rpc_luci_get_host_hints_rrdns(struct reply_context *rctx) { char buf[INET6_ADDRSTRLEN]; struct blob_buf req = {}; struct host_hint *hint; struct host_hint_addr *addr; int n = 0; void *a; blob_buf_init(&req, 0); a = blobmsg_open_array(&req, "addrs"); avl_for_each_element(&rctx->avl, hint, avl) { avl_for_each_element(&hint->ipaddrs, addr, avl) { if (addr->addr.in.s_addr != 0) { inet_ntop(AF_INET, &addr->addr.in, buf, sizeof(buf)); blobmsg_add_string(&req, NULL, buf); n++; } } avl_for_each_element(&hint->ip6addrs, addr, avl) { if (!IN6_IS_ADDR_UNSPECIFIED(&addr->addr.in6)) { inet_ntop(AF_INET6, &addr->addr.in6, buf, sizeof(buf)); blobmsg_add_string(&req, NULL, buf); n++; } } } blobmsg_close_array(&req, a); if (n > 0) { blobmsg_add_u32(&req, "timeout", 250); blobmsg_add_u32(&req, "limit", n); if (!invoke_ubus(rctx->context, "network.rrdns", "lookup", &req, rpc_luci_get_host_hints_rrdns_cb, rctx)) rpc_luci_get_host_hints_finish(rctx); } else { rpc_luci_get_host_hints_finish(rctx); } blob_buf_free(&req); } static int rpc_luci_get_host_hints_finish(struct reply_context *rctx) { struct host_hint *hint, *nexthint; struct host_hint_addr *addr, *nextaddr; char buf[INET6_ADDRSTRLEN]; struct in6_addr in6 = {}; void *o, *a; avl_remove_all_elements(&rctx->avl, hint, avl, nexthint) { o = blobmsg_open_table(&rctx->blob, hint->avl.key); a = blobmsg_open_array(&rctx->blob, "ipaddrs"); avl_remove_all_elements(&hint->ipaddrs, addr, avl, nextaddr) { if (addr->addr.in.s_addr != 0) { inet_ntop(AF_INET, &addr->addr.in, buf, sizeof(buf)); blobmsg_add_string(&rctx->blob, NULL, buf); } free(addr); } blobmsg_close_array(&rctx->blob, a); a = blobmsg_open_array(&rctx->blob, "ip6addrs"); avl_remove_all_elements(&hint->ip6addrs, addr, avl, nextaddr) { if (memcmp(&addr->addr.in6, &in6, sizeof(in6))) { inet_ntop(AF_INET6, &addr->addr.in6, buf, sizeof(buf)); blobmsg_add_string(&rctx->blob, NULL, buf); } free(addr); } blobmsg_close_array(&rctx->blob, a); if (hint->hostname) blobmsg_add_string(&rctx->blob, "name", hint->hostname); blobmsg_close_table(&rctx->blob, o); if (hint->hostname) free(hint->hostname); free(hint); } return finish_request(rctx, UBUS_STATUS_OK); } static int rpc_luci_get_host_hints(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct reply_context *rctx = defer_request(ctx, req); if (!rctx) return UBUS_STATUS_UNKNOWN_ERROR; rpc_luci_get_host_hints_nl(rctx); rpc_luci_get_host_hints_uci(rctx); rpc_luci_get_host_hints_ether(rctx); rpc_luci_get_host_hints_ifaddrs(rctx); rpc_luci_get_host_hints_rrdns(rctx); return UBUS_STATUS_OK; } static int rpc_luci_get_duid_hints(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct { struct avl_node avl; } *e, *next; char s[INET6_ADDRSTRLEN], *p; struct lease_entry *lease; struct avl_tree avl; void *o, *a; int n; avl_init(&avl, avl_strcmp, false, NULL); blob_buf_init(&blob, 0); lease_open(); while ((lease = lease_next()) != NULL) { if (lease->af != AF_INET6 || lease->duid == NULL) continue; e = avl_find_element(&avl, lease->duid, e, avl); if (e) continue; e = calloc_a(sizeof(*e), &p, strlen(lease->duid) + 1); if (!e) continue; o = blobmsg_open_table(&blob, lease->duid); inet_ntop(AF_INET6, &lease->addr[0].in6, s, sizeof(s)); blobmsg_add_string(&blob, "ip6addr", s); a = blobmsg_open_array(&blob, "ip6addrs"); for (n = 0; n < lease->n_addr; n++) { inet_ntop(AF_INET6, &lease->addr[n].in6, s, sizeof(s)); blobmsg_add_string(&blob, NULL, s); } blobmsg_close_array(&blob, a); if (lease->hostname) blobmsg_add_string(&blob, "hostname", lease->hostname); if (!ea_empty(&lease->mac)) blobmsg_add_string(&blob, "macaddr", ea2str(&lease->mac)); blobmsg_close_table(&blob, o); e->avl.key = strcpy(p, lease->duid); avl_insert(&avl, &e->avl); } lease_close(); avl_remove_all_elements(&avl, e, avl, next) { free(e); } ubus_send_reply(ctx, req, blob.head); return UBUS_STATUS_OK; } static int rpc_luci_get_board_json(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { blob_buf_init(&blob, 0); if (!blobmsg_add_json_from_file(&blob, "/etc/board.json")) return UBUS_STATUS_UNKNOWN_ERROR; ubus_send_reply(ctx, req, blob.head); return UBUS_STATUS_OK; } enum { RPC_L_FAMILY, __RPC_L_MAX, }; static const struct blobmsg_policy rpc_get_leases_policy[__RPC_L_MAX] = { [RPC_L_FAMILY] = { .name = "family", .type = BLOBMSG_TYPE_INT32 } }; static int rpc_luci_get_dhcp_leases(struct ubus_context *ctx, struct ubus_object *obj, struct ubus_request_data *req, const char *method, struct blob_attr *msg) { struct blob_attr *tb[__RPC_L_MAX]; struct lease_entry *lease; char s[INET6_ADDRSTRLEN]; int af, family = 0; void *a, *a2, *o; int n; blobmsg_parse(rpc_get_leases_policy, __RPC_L_MAX, tb, blob_data(msg), blob_len(msg)); switch (tb[RPC_L_FAMILY] ? blobmsg_get_u32(tb[RPC_L_FAMILY]) : 0) { case 0: family = 0; break; case 4: family = AF_INET; break; case 6: family = AF_INET6; break; default: return UBUS_STATUS_INVALID_ARGUMENT; } blob_buf_init(&blob, 0); for (af = family ? family : AF_INET; af != 0; af = (family == 0) ? (af == AF_INET ? AF_INET6 : 0) : 0) { a = blobmsg_open_array(&blob, (af == AF_INET) ? "dhcp_leases" : "dhcp6_leases"); lease_open(); while ((lease = lease_next()) != NULL) { if (lease->af != af) continue; o = blobmsg_open_table(&blob, NULL); if (lease->expire == -1) blobmsg_add_u8(&blob, "expires", 0); else blobmsg_add_u32(&blob, "expires", lease->expire); if (lease->hostname) blobmsg_add_string(&blob, "hostname", lease->hostname); if (!ea_empty(&lease->mac)) blobmsg_add_string(&blob, "macaddr", ea2str(&lease->mac)); if (lease->duid) blobmsg_add_string(&blob, "duid", lease->duid); inet_ntop(lease->af, &lease->addr[0].in6, s, sizeof(s)); blobmsg_add_string(&blob, (af == AF_INET) ? "ipaddr" : "ip6addr", s); if (af == AF_INET6) { a2 = blobmsg_open_array(&blob, "ip6addrs"); for (n = 0; n < lease->n_addr; n++) { inet_ntop(lease->af, &lease->addr[n].in6, s, sizeof(s)); blobmsg_add_string(&blob, NULL, s); } blobmsg_close_array(&blob, a2); } blobmsg_close_table(&blob, o); } lease_close(); blobmsg_close_array(&blob, a); } ubus_send_reply(ctx, req, blob.head); return UBUS_STATUS_OK; } static int rpc_luci_api_init(const struct rpc_daemon_ops *o, struct ubus_context *ctx) { static const struct ubus_method luci_methods[] = { UBUS_METHOD_NOARG("getNetworkDevices", rpc_luci_get_network_devices), UBUS_METHOD_NOARG("getWirelessDevices", rpc_luci_get_wireless_devices), UBUS_METHOD_NOARG("getHostHints", rpc_luci_get_host_hints), UBUS_METHOD_NOARG("getDUIDHints", rpc_luci_get_duid_hints), UBUS_METHOD_NOARG("getBoardJSON", rpc_luci_get_board_json), UBUS_METHOD("getDHCPLeases", rpc_luci_get_dhcp_leases, rpc_get_leases_policy) }; static struct ubus_object_type luci_type = UBUS_OBJECT_TYPE("rpcd-luci", luci_methods); static struct ubus_object obj = { .name = "luci-rpc", .type = &luci_type, .methods = luci_methods, .n_methods = ARRAY_SIZE(luci_methods), }; return ubus_add_object(ctx, &obj); } struct rpc_plugin rpc_plugin = { .init = rpc_luci_api_init };