/* $OpenBSD: getaddrinfo_async.c,v 1.4 2012/07/13 14:05:12 eric Exp $ */ /* * Copyright (c) 2012 Eric Faurot * * Permission to use, copy, modify, and 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. */ #include #include #include #include #include #include #include #include #include "asr.h" #include "asr_private.h" struct match { int family; int socktype; int protocol; }; static int getaddrinfo_async_run(struct async *, struct async_res *); static int get_port(const char *, const char *, int); static int iter_family(struct async *, int); static int add_sockaddr(struct async *, struct sockaddr *, const char *); static const struct match matches[] = { { PF_INET, SOCK_DGRAM, IPPROTO_UDP }, { PF_INET, SOCK_STREAM, IPPROTO_TCP }, { PF_INET, SOCK_RAW, 0 }, { PF_INET6, SOCK_DGRAM, IPPROTO_UDP }, { PF_INET6, SOCK_STREAM, IPPROTO_TCP }, { PF_INET6, SOCK_RAW, 0 }, { -1, 0, 0, }, }; #define MATCH_FAMILY(a, b) ((a) == matches[(b)].family || (a) == PF_UNSPEC) #define MATCH_PROTO(a, b) ((a) == matches[(b)].protocol || (a) == 0) /* Do not match SOCK_RAW unless explicitely specified */ #define MATCH_SOCKTYPE(a, b) ((a) == matches[(b)].socktype || ((a) == 0 && \ matches[(b)].socktype != SOCK_RAW)) struct async * getaddrinfo_async(const char *hostname, const char *servname, const struct addrinfo *hints, struct asr *asr) { struct asr_ctx *ac; struct async *as; ac = asr_use_resolver(asr); if ((as = async_new(ac, ASR_GETADDRINFO)) == NULL) goto abort; /* errno set */ as->as_run = getaddrinfo_async_run; if (hostname && (as->as.ai.hostname = strdup(hostname)) == NULL) goto abort; /* errno set */ if (servname && (as->as.ai.servname = strdup(servname)) == NULL) goto abort; /* errno set */ if (hints) memmove(&as->as.ai.hints, hints, sizeof *hints); else { memset(&as->as.ai.hints, 0, sizeof as->as.ai.hints); as->as.ai.hints.ai_family = PF_UNSPEC; } asr_ctx_unref(ac); return (as); abort: if (as) async_free(as); asr_ctx_unref(ac); return (NULL); } static int getaddrinfo_async_run(struct async *as, struct async_res *ar) { const char *str; struct addrinfo *ai; int i, family, r; char fqdn[MAXDNAME]; union { struct sockaddr sa; struct sockaddr_in sain; struct sockaddr_in6 sain6; } sa; next: switch(as->as_state) { case ASR_STATE_INIT: /* * First, make sure the parameters are valid. */ as->as_count = 0; async_set_state(as, ASR_STATE_HALT); ar->ar_errno = 0; ar->ar_h_errno = NETDB_SUCCESS; ar->ar_gai_errno = 0; if (as->as.ai.hostname == NULL && as->as.ai.servname == NULL) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_NONAME; break; } ai = &as->as.ai.hints; if (ai->ai_addrlen || ai->ai_canonname || ai->ai_addr || ai->ai_next) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_BADHINTS; break; } if (ai->ai_flags & ~AI_MASK || (ai->ai_flags & AI_CANONNAME && ai->ai_flags & AI_FQDN)) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_BADFLAGS; break; } if (ai->ai_family != PF_UNSPEC && ai->ai_family != PF_INET && ai->ai_family != PF_INET6) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_FAMILY; break; } if (ai->ai_socktype && ai->ai_socktype != SOCK_DGRAM && ai->ai_socktype != SOCK_STREAM && ai->ai_socktype != SOCK_RAW) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_SOCKTYPE; break; } if (ai->ai_protocol && ai->ai_protocol != IPPROTO_UDP && ai->ai_protocol != IPPROTO_TCP) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_PROTOCOL; break; } if (ai->ai_socktype == SOCK_RAW && as->as.ai.servname != NULL) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_SERVICE; break; } /* Make sure there is at least a valid combination */ for (i = 0; matches[i].family != -1; i++) if (MATCH_FAMILY(ai->ai_family, i) && MATCH_SOCKTYPE(ai->ai_socktype, i) && MATCH_PROTO(ai->ai_protocol, i)) break; if (matches[i].family == -1) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_BADHINTS; break; } if (ai->ai_protocol == 0 || ai->ai_protocol == IPPROTO_UDP) as->as.ai.port_udp = get_port(as->as.ai.servname, "udp", as->as.ai.hints.ai_flags & AI_NUMERICSERV); if (ai->ai_protocol == 0 || ai->ai_protocol == IPPROTO_TCP) as->as.ai.port_tcp = get_port(as->as.ai.servname, "tcp", as->as.ai.hints.ai_flags & AI_NUMERICSERV); if (as->as.ai.port_tcp == -2 || as->as.ai.port_udp == -2 || (as->as.ai.port_tcp == -1 && as->as.ai.port_udp == -1) || (ai->ai_protocol && (as->as.ai.port_udp == -1 || as->as.ai.port_tcp == -1))) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_SERVICE; break; } /* If hostname is NULL, use local address */ if (as->as.ai.hostname == NULL) { for(family = iter_family(as, 1); family != -1; family = iter_family(as, 0)) { /* * We could use statically built sockaddrs for * those, rather than parsing over and over. */ if (family == PF_INET) str = (ai->ai_flags & AI_PASSIVE) ? \ "0.0.0.0" : "127.0.0.1"; else /* PF_INET6 */ str = (ai->ai_flags & AI_PASSIVE) ? \ "::" : "::1"; /* This can't fail */ sockaddr_from_str(&sa.sa, family, str); if ((r = add_sockaddr(as, &sa.sa, NULL))) { ar->ar_errno = errno; ar->ar_h_errno = NETDB_INTERNAL; ar->ar_gai_errno = r; async_set_state(as, ASR_STATE_HALT); break; } } if (ar->ar_gai_errno == 0 && as->as_count == 0) { ar->ar_h_errno = NO_DATA; ar->ar_gai_errno = EAI_NODATA; } break; } /* Try numeric addresses first */ for(family = iter_family(as, 1); family != -1; family = iter_family(as, 0)) { if (sockaddr_from_str(&sa.sa, family, as->as.ai.hostname) == -1) continue; if ((r = add_sockaddr(as, &sa.sa, NULL))) { ar->ar_errno = errno; ar->ar_h_errno = NETDB_INTERNAL; ar->ar_gai_errno = r; async_set_state(as, ASR_STATE_HALT); break; } async_set_state(as, ASR_STATE_HALT); break; } if (ar->ar_gai_errno || as->as_count) break; if (ai->ai_flags & AI_NUMERICHOST) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_FAIL; async_set_state(as, ASR_STATE_HALT); break; } /* Starting domain lookup */ async_set_state(as, ASR_STATE_SEARCH_DOMAIN); break; case ASR_STATE_SEARCH_DOMAIN: r = asr_iter_domain(as, as->as.ai.hostname, fqdn, sizeof(fqdn)); if (r == -1) { async_set_state(as, ASR_STATE_NOT_FOUND); break; } if (r > (int)sizeof(fqdn)) { ar->ar_errno = EINVAL; ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_OVERFLOW; async_set_state(as, ASR_STATE_HALT); break; } /* * Create a subquery to lookup the host addresses. * We use the special hostaddr_async() API, which has the * nice property of honoring the "lookup" and "family" keyword * in the configuration, thus returning the right address * families in the right order, and thus fixing the current * getaddrinfo() feature documented in the BUGS section of * resolver.conf(5). */ as->as.ai.subq = hostaddr_async_ctx(fqdn, as->as.ai.hints.ai_family, as->as.ai.hints.ai_flags, as->as_ctx); if (as->as.ai.subq == NULL) { ar->ar_errno = errno; if (errno == EINVAL) { ar->ar_h_errno = NO_RECOVERY; ar->ar_gai_errno = EAI_FAIL; } else { ar->ar_h_errno = NETDB_INTERNAL; ar->ar_gai_errno = EAI_MEMORY; } async_set_state(as, ASR_STATE_HALT); break; } async_set_state(as, ASR_STATE_LOOKUP_DOMAIN); break; case ASR_STATE_LOOKUP_DOMAIN: /* Run the subquery */ if ((r = async_run(as->as.ai.subq, ar)) == ASYNC_COND) return (ASYNC_COND); /* Got one more address, use it to extend the result list. */ if (r == ASYNC_YIELD) { if ((r = add_sockaddr(as, &ar->ar_sa.sa, ar->ar_cname))) { ar->ar_errno = errno; ar->ar_h_errno = NETDB_INTERNAL; ar->ar_gai_errno = r; async_set_state(as, ASR_STATE_HALT); } if (ar->ar_cname) free(ar->ar_cname); break; } /* * The subquery is done. Stop there if we have at least one * answer. */ as->as.ai.subq = NULL; if (ar->ar_count) { async_set_state(as, ASR_STATE_HALT); break; } /* * No anwser for this domain, but we might be suggested to * try again later, so remember this. Then search the next * domain. */ if (ar->ar_gai_errno == EAI_AGAIN) as->as.ai.flags |= ASYNC_AGAIN; async_set_state(as, ASR_STATE_SEARCH_DOMAIN); break; case ASR_STATE_NOT_FOUND: /* * No result found. Maybe we can try again. */ ar->ar_errno = 0; if (as->as.ai.flags & ASYNC_AGAIN) { ar->ar_h_errno = TRY_AGAIN; ar->ar_gai_errno = EAI_AGAIN; } else { ar->ar_h_errno = NO_DATA; ar->ar_gai_errno = EAI_NODATA; } async_set_state(as, ASR_STATE_HALT); break; case ASR_STATE_HALT: /* Set the results. */ if (ar->ar_gai_errno == 0) { ar->ar_count = as->as_count; ar->ar_addrinfo = as->as.ai.aifirst; as->as.ai.aifirst = NULL; } else { ar->ar_count = 0; ar->ar_addrinfo = NULL; } return (ASYNC_DONE); default: ar->ar_errno = EOPNOTSUPP; ar->ar_h_errno = NETDB_INTERNAL; ar->ar_gai_errno = EAI_SYSTEM; async_set_state(as, ASR_STATE_HALT); break; } goto next; } /* * Retreive the port number for the service name "servname" and * the protocol "proto". */ static int get_port(const char *servname, const char *proto, int numonly) { struct servent se; struct servent_data sed; int port, r; const char* e; if (servname == NULL) return (0); e = NULL; port = strtonum(servname, 0, USHRT_MAX, &e); if (e == NULL) return (port); if (errno == ERANGE) return (-2); /* invalid */ if (numonly) return (-2); memset(&sed, 0, sizeof(sed)); r = getservbyname_r(servname, proto, &se, &sed); port = ntohs(se.s_port); endservent_r(&sed); if (r == -1) return (-1); /* not found */ return (port); } /* * Iterate over the address families that are to be queried. Use the * list on the async context, unless a specific family was given in hints. */ static int iter_family(struct async *as, int first) { if (first) { as->as_family_idx = 0; if (as->as.ai.hints.ai_family != PF_UNSPEC) return as->as.ai.hints.ai_family; return AS_FAMILY(as); } if (as->as.ai.hints.ai_family != PF_UNSPEC) return (-1); as->as_family_idx++; return AS_FAMILY(as); } /* * Use the sockaddr at "sa" to extend the result list on the "as" context, * with the specified canonical name "cname". This function adds one * entry per protocol/socktype match. */ static int add_sockaddr(struct async *as, struct sockaddr *sa, const char *cname) { struct addrinfo *ai; int i, port; for(i = 0; matches[i].family != -1; i++) { if (matches[i].family != sa->sa_family || !MATCH_SOCKTYPE(as->as.ai.hints.ai_socktype, i) || !MATCH_PROTO(as->as.ai.hints.ai_protocol, i)) continue; if (matches[i].protocol == IPPROTO_TCP) port = as->as.ai.port_tcp; else if (matches[i].protocol == IPPROTO_UDP) port = as->as.ai.port_udp; else port = 0; /* servname specified, but not defined for this protocol */ if (port == -1) continue; ai = calloc(1, sizeof(*ai) + sa->sa_len); if (ai == NULL) return (EAI_MEMORY); ai->ai_family = sa->sa_family; ai->ai_socktype = matches[i].socktype; ai->ai_protocol = matches[i].protocol; ai->ai_addrlen = sa->sa_len; ai->ai_addr = (void*)(ai + 1); if (cname && as->as.ai.hints.ai_flags & (AI_CANONNAME | AI_FQDN)) { if ((ai->ai_canonname = strdup(cname)) == NULL) { free(ai); return (EAI_MEMORY); } } memmove(ai->ai_addr, sa, sa->sa_len); if (sa->sa_family == PF_INET) ((struct sockaddr_in *)ai->ai_addr)->sin_port = htons(port); else if (sa->sa_family == PF_INET6) ((struct sockaddr_in6 *)ai->ai_addr)->sin6_port = htons(port); if (as->as.ai.aifirst == NULL) as->as.ai.aifirst = ai; if (as->as.ai.ailast) as->as.ai.ailast->ai_next = ai; as->as.ai.ailast = ai; as->as_count += 1; } return (0); }