#include "def.h" #include "pqp.h" /* libc */ #include #include #include /* posix */ #include #include #include #include /* libs */ #include #include "wglist.h" /* wireguard uses messy linked lists but doesn't * provide any routines for manipulating them; * wglist.h fills in the gap */ #include size_t dumpEndpoint(char* d, const wg_endpoint* const e) { const struct sockaddr* addr; size_t len; switch(e->addr.sa_family) { case AF_INET: addr = (void*)&(e->addr4); len = sizeof e->addr4; break; case AF_INET6: addr = (void*)&(e->addr6); len = sizeof e->addr6; break; case 0: strcpy(d, ""); return 16; default: strcpy(d, ""); return 14; } char bip[256], bsrv[16]; getnameinfo(addr, len, bip, sizeof bip, bsrv, sizeof bsrv, NI_NUMERICHOST | NI_NUMERICSERV); return sprintf(d, "%s:%s", bip, bsrv); } size_t dumpAllowedIP(char* d, const wg_allowedip* aip) { union { struct sockaddr_in ip4; struct sockaddr_in6 ip6; } kinds; size_t len; switch(aip->family) { case AF_INET: { kinds.ip4 = (struct sockaddr_in) { .sin_family = AF_INET, .sin_port = 0, .sin_addr = aip->ip4, }; len = sizeof kinds.ip4; break;} case AF_INET6: { kinds.ip6 = (struct sockaddr_in6) { .sin6_family = AF_INET6, .sin6_port = 0, .sin6_flowinfo = 0, .sin6_scope_id = 0, .sin6_addr = aip->ip6, }; len = sizeof kinds.ip6; break;} case 0: strcpy(d, ""); return 7; default: strcpy(d, ""); return 16; } char bip[256], bsrv[2]; getnameinfo((void*)&kinds, len, bip, sizeof bip, bsrv, sizeof bsrv, NI_NUMERICHOST | NI_NUMERICSERV); return sprintf(d, "%s/%u", bip, aip->cidr); } bool compare_allowedip ( const wg_allowedip* const a, const wg_allowedip* const b ) { if(a -> family != b -> family) return false; if(a -> cidr != b -> cidr) return false; switch(a->family) { case AF_INET: if(a -> ip4.s_addr != b -> ip4.s_addr) return false; break; case AF_INET6: if(memcmp(a -> ip6.s6_addr, b -> ip6.s6_addr, sizeof(a->ip6.s6_addr)) != 0) return false; break; } return true; } wg_allowedip inet_to_allowedip(const char* data) { pqp_sockstore ss; if(!pqp_inet_read(data, &ss.sock)) _fatal("bad IP value in database"); wg_allowedip wgip = { .family = ss.sock.sa_family, .next_allowedip = null, }; switch(ss.sock.sa_family) { case AF_INET: wgip.cidr = 32; wgip.ip4 = ss.sock_in.sin_addr; break; case AF_INET6: wgip.cidr = 128; wgip.ip6 = ss.sock_in6.sin6_addr; break; default: _fatal("unhandled address family"); } return wgip; } void wgd_free_peer(wg_peer* peer) { wg_allowedip *allowedip, *na; /* from ext/wglib/wireguard.c:1486 */ for ( allowedip = peer->first_allowedip, na = allowedip ? allowedip->next_allowedip : NULL; allowedip; allowedip = na, na = allowedip ? allowedip->next_allowedip : NULL ) free(allowedip); /* end import */ free(peer); } /* linked list manipulation routines */ #if 0 void wgd_drop_peer(wg_device* dev, wg_peer* peer) { if(dev -> first_peer == peer) { if(dev -> last_peer == peer) { dev -> first_peer = dev -> last_peer = null; } else { dev -> first_peer = peer -> next_peer; } } else { wg_peer* p; if(dev -> last_peer == peer) { wg_for_each_peer(dev, p) { if(p->next_peer == peer) { dev -> last_peer = p; p->next_peer = null; goto found1; } } _fatal("BUG in last peer deletion routine"); found1 :; } else /* in the middle */ { wg_for_each_peer(dev, p) { if(p->next_peer == peer) { p->next_peer = peer -> next_peer; goto found2; } } _fatal("BUG in peer deletion routine"); found2 :; } } wgd_free_peer(peer); } void wgd_peer_drop_ip(wg_peer* peer, wg_allowedip* ip) { if(peer -> first_allowedip == ip) { if(peer -> last_allowedip == ip) { peer -> first_allowedip = peer -> last_allowedip = null; } else { peer -> first_allowedip = peer -> next_allowedip; } } else { wg_allowedip* a; if(peer -> last_allowedip == ip) { wg_for_each_allowedip(peer, a) { if(a->next_allowedip == ip) { peer -> last_allowedip = a; a->next_allowedip = null; goto found1; } } _fatal("BUG in last aIP deletion routine"); found1 :; } else /* in the middle */ { wg_for_each_allowedip(peer, a) { if(a->next_allowedip == ip) { a->next_allowedip = ip -> next_allowedip; goto found2; } } _fatal("BUG in aIP deletion routine"); found2 :; } } free(ip); } #endif void syncauth(PGconn* db, const char* wgdev) { wg_device* wg; if (wg_get_device(&wg, wgdev)) _fatal("no wireguard device by that name"); bool dirty = false; size_t peerc = 0; { wg_peer* p; wg_for_each_peer(wg, p) ++ peerc; }; bool valid_peers [peerc]; _zero(valid_peers); PGresult* rows = PQexecPrepared(db, "get_hosts", 0, null, null, null, 1); if(!(rows && PQresultStatus(rows) == PGRES_TUPLES_OK)) _fatal(PQerrorMessage(db)); size_t rowc = PQntuples(rows); for(size_t i = 0; i < rowc; ++i) { const char* key_b64 = PQgetvalue(rows, i, 0); const char* aryraw = PQgetvalue(rows, i, 1); pqp_array* ips = pqp_array_read(aryraw); _dbgf("DB has peer %s", key_b64); if(ips->ty != pq_array_inet) _fatal("incorrect array type returned from DB"); wg_key key; if (wg_key_from_base64(key, key_b64) < 0) { _warnf("invalid key in database: %s", key_b64); continue; } wg_peer* found = null; { size_t j=0; wg_peer* p; wg_for_each_peer(wg, p) { if(memcmp(p->public_key, key, sizeof key) == 0) { _dbgf("validating peer %s", key_b64); valid_peers[j] = true; found = p; break; } ++j;}} if (found) { /* compare and update IPs if necessary */ bool goodIPs [ips -> sz]; _zero(goodIPs); /* extant IPs that are not marked good by the * end of the following loop must be deleted * from memory */ size_t goodIPc = 0; for (size_t j = 0; j < ips -> sz; ++j) { char inetstr[256]; wg_allowedip aip = inet_to_allowedip(ips -> elts[j].data); dumpAllowedIP(inetstr, &aip); _dbgf("IP PG%zu :: %s", j, inetstr); size_t l = 0; wg_allowedip* wgip; bool foundIP = false; wg_for_each_allowedip(found, wgip) { if (compare_allowedip(&aip, wgip)) { ++goodIPc; goodIPs[l] = true; foundIP = true; } ++l;} if(!foundIP) { /* this IP hasn't been loaded into the * kernel yet; upload it now */ _infof("inserting IP PG%zu %s", j, inetstr); // is this necessary? FIXME /* found -> flags |= WGPEER_REPLACE_ALLOWEDIPS; */ wg_allowedip* nip = wgd_peer_new_allowedip(found); memcpy(nip, &aip, sizeof aip); dirty = true; } } if(goodIPc < ips -> sz) { size_t l = 0; wg_allowedip* wgip; wg_for_each_allowedip(found, wgip) { char inetstr[256]; dumpAllowedIP(inetstr, wgip); _dbgf("IP WG%zu :: %s", l, inetstr); if(l flags |= WGPEER_REPLACE_ALLOWEDIPS; dirty = true; } ++l;} } } else { _infof("inserting key %s", key_b64); dirty = true; /* install new peer */ wg_peer* np = wgd_new_peer(wg); np -> flags = WGPEER_HAS_PUBLIC_KEY; memcpy(np -> public_key, key, sizeof key); for (size_t j = 0; j < ips -> sz; ++j) { char inetstr[256]; wg_allowedip aip = inet_to_allowedip(ips -> elts[j].data); dumpAllowedIP(inetstr, &aip); _dbgf("new IP %zu :: %s", j, inetstr); wg_allowedip* nip = wgd_peer_new_allowedip(np); memcpy(nip, &aip, sizeof aip); } } free(ips); } { size_t i=0; wg_peer* p; wg_for_each_peer(wg, p) { if(ipublic_key); _infof("dropping peer %s", b64); //wgd_drop_peer(wg, p); p -> flags |= WGPEER_REMOVE_ME; dirty = true; } ++i;}} _dbg("final peer list:"); { size_t j=0; wg_peer* p; wg_for_each_peer(wg, p) { char b64 [128]; wg_key_to_base64(b64, p->public_key); _dbgf("P%zu :: %s%s", j, b64, p->flags & WGPEER_REMOVE_ME ? " [DELETE]" : p->flags & WGPEER_REPLACE_ALLOWEDIPS ? " [CHGIP]" : ""); ++j;}} dirty = true; if(dirty) { int e = wg_set_device(wg); if(e != 0) _fatalf("could not set wg device (error %i)", -e); } PQclear(rows); } int main(int argc, char** argv) { setvbuf(stderr, null, _IONBF, 0); if (argc < 3) { _fatal("missing device name"); } const char* arg_mode = argv[1]; const char* arg_devname = argv[2]; /* mostly for the sake of debugging, allow the * binary to be run from sudo without losing * postgres peer credentials */ if(geteuid() == 0) { char* suid = getenv("SUDO_UID"); char* susr = getenv("SUDO_USER"); if(suid) seteuid(atoi(suid)); if(susr) setenv("USER",getenv("SUDO_USER"), 1); } PGconn* db = PQconnectdb("dbname=domain"); if(PQstatus(db) != CONNECTION_OK) _fatal(PQerrorMessage(db)); PGresult* q_get_hosts = PQprepare(db, "get_hosts", "select h.ref, array_remove(array_agg(wgv4::inet)" "|| array_agg(wgv6::inet), null)" "from ns, hostref h " "where ns.host = h.host and kind = 'pubkey' " " group by h.host, h.ref;", 0, null); /*"select ns.wgv4::inet, ns.wgv6::inet, h.ref from ns " "right join hostref h " "on h.host = ns.host " "where h.kind = 'pubkey';"*/ if(!(q_get_hosts && PQresultStatus(q_get_hosts) == PGRES_COMMAND_OK)) _fatal(PQerrorMessage(db)); PQclear(q_get_hosts); /* we're going to interact with WG now; * get our superpowers back if we lost them */ {uid_t svuid; getresuid(null, null, &svuid); if (svuid == 0) setuid(0);} if(strcmp(arg_mode, "sync") == 0) { syncauth(db, arg_devname); } else if(strcmp(arg_mode, "wait") == 0) { /* foreground daemon */ } else if(strcmp(arg_mode, "fork") == 0) { /* background daemon */ } else { _fatal("valid modes are sync, wait, and fork"); } /* other possibilities: a mode that generates an eventfd * and provides it on fd4 to a subordinate process, or * sends it with SCM_RIGHTS */ PQfinish(db); return 0; }