/* $Id: socket.c,v 1.25 2019/06/03 15:37:48 naddy Exp $ */ /* * Copyright (c) 2019 Kristaps Dzonsons * * 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 #include #include #include #include #include #include #include #include "extern.h" /* * Defines a resolved IP address for the host * There can be many, IPV4 or IPV6. */ struct source { int family; /* PF_INET or PF_INET6 */ char ip[INET6_ADDRSTRLEN]; /* formatted string */ struct sockaddr_storage sa; /* socket */ socklen_t salen; /* length of socket buffer */ }; /* * Connect to an IP address representing a host. * Return <0 on failure, 0 on try another address, >0 on success. */ static int inet_connect(int *sd, const struct source *src, const char *host) { int c, flags; if (*sd != -1) close(*sd); LOG2("trying: %s, %s", src->ip, host); if ((*sd = socket(src->family, SOCK_STREAM, 0)) == -1) { ERR("socket"); return -1; } /* * Initiate blocking connection. * We use the blocking connect() instead of passing NONBLOCK to * the socket() function because we don't need to do anything * while waiting for this to finish. */ c = connect(*sd, (const struct sockaddr *)&src->sa, src->salen); if (c == -1) { if (errno == ECONNREFUSED || errno == EHOSTUNREACH) { WARNX("connect refused: %s, %s", src->ip, host); return 0; } ERR("connect"); return -1; } /* Set up non-blocking mode. */ if ((flags = fcntl(*sd, F_GETFL, 0)) == -1) { ERR("fcntl"); return -1; } else if (fcntl(*sd, F_SETFL, flags|O_NONBLOCK) == -1) { ERR("fcntl"); return -1; } return 1; } /* * Resolve the socket addresses for host, both in IPV4 and IPV6. * Once completed, the "dns" pledge may be dropped. * Returns the addresses on success, NULL on failure (sz is always zero, * in this case). */ static struct source * inet_resolve(struct sess *sess, const char *host, size_t *sz) { struct addrinfo hints, *res0, *res; struct sockaddr *sa; struct source *src = NULL; size_t i, srcsz = 0; int error; *sz = 0; memset(&hints, 0, sizeof(hints)); hints.ai_family = PF_UNSPEC; hints.ai_socktype = SOCK_STREAM; error = getaddrinfo(host, sess->opts->port, &hints, &res0); LOG2("resolving: %s", host); if (error == EAI_AGAIN || error == EAI_NONAME) { ERRX("could not resolve hostname %s: %s", host, gai_strerror(error)); return NULL; } else if (error == EAI_SERVICE) { ERRX("could not resolve service rsync: %s", gai_strerror(error)); return NULL; } else if (error) { ERRX("getaddrinfo: %s: %s", host, gai_strerror(error)); return NULL; } /* Allocate for all available addresses. */ for (res = res0; res != NULL; res = res->ai_next) if (res->ai_family == AF_INET || res->ai_family == AF_INET6) srcsz++; if (srcsz == 0) { ERRX("no addresses resolved: %s", host); freeaddrinfo(res0); return NULL; } src = calloc(srcsz, sizeof(struct source)); if (src == NULL) { ERRX("calloc"); freeaddrinfo(res0); return NULL; } for (i = 0, res = res0; res != NULL; res = res->ai_next) { if (res->ai_family != AF_INET && res->ai_family != AF_INET6) continue; assert(i < srcsz); /* Copy the socket address. */ src[i].salen = res->ai_addrlen; memcpy(&src[i].sa, res->ai_addr, src[i].salen); /* Format as a string, too. */ sa = res->ai_addr; if (res->ai_family == AF_INET) { src[i].family = PF_INET; inet_ntop(AF_INET, &(((struct sockaddr_in *)sa)->sin_addr), src[i].ip, INET6_ADDRSTRLEN); } else { src[i].family = PF_INET6; inet_ntop(AF_INET6, &(((struct sockaddr_in6 *)sa)->sin6_addr), src[i].ip, INET6_ADDRSTRLEN); } LOG2("hostname resolved: %s: %s", host, src[i].ip); i++; } freeaddrinfo(res0); *sz = srcsz; return src; } /* * Process an rsyncd preamble line. * This is either free-form text or @RSYNCD commands. * Return <0 on failure, 0 on try more lines, >0 on finished. */ static int protocol_line(struct sess *sess, __attribute__((unused)) const char *host, const char *cp) { int major, minor; if (strncmp(cp, "@RSYNCD: ", 9)) { LOG0("%s", cp); return 0; } cp += 9; while (isspace((unsigned char)*cp)) cp++; /* @RSYNCD: OK indicates that we're finished. */ if (strcmp(cp, "OK") == 0) return 1; /* * Otherwise, all we have left is our version. * There are two formats: x.y (w/submodule) and x. */ if (sscanf(cp, "%d.%d", &major, &minor) == 2) { sess->rver = major; return 0; } else if (sscanf(cp, "%d", &major) == 1) { sess->rver = major; return 0; } ERRX("rsyncd protocol error: unknown command"); return -1; } /* * Connect to a remote rsync://-enabled server sender. * Returns exit code 0 on success, 1 on failure. */ int rsync_connect(const struct opts *opts, int *sd, const struct fargs *f) { struct sess sess; struct source *src = NULL; size_t i, srcsz = 0; int c, rc = 1; if (pledge("stdio unix rpath wpath cpath dpath inet fattr chown dns getpw unveil", NULL) == -1) err(1, "pledge"); memset(&sess, 0, sizeof(struct sess)); sess.opts = opts; assert(f->host != NULL); /* Resolve all IP addresses from the host. */ if ((src = inet_resolve(&sess, f->host, &srcsz)) == NULL) { ERRX1("inet_resolve"); exit(1); } /* Drop the DNS pledge. */ if (pledge("stdio unix rpath wpath cpath dpath fattr chown getpw inet unveil", NULL) == -1) { ERR("pledge"); exit(1); } /* * Iterate over all addresses, trying to connect. * When we succeed, then continue using the connected socket. */ assert(srcsz); for (i = 0; i < srcsz; i++) { c = inet_connect(sd, &src[i], f->host); if (c < 0) { ERRX1("inet_connect"); goto out; } else if (c > 0) break; } /* Drop the inet pledge. */ if (pledge("stdio unix rpath wpath cpath dpath fattr chown getpw unveil", NULL) == -1) { ERR("pledge"); goto out; } if (i == srcsz) { ERRX("cannot connect to host: %s", f->host); goto out; } LOG2("connected: %s, %s", src[i].ip, f->host); free(src); return 0; out: free(src); if (*sd != -1) close(*sd); return rc; } /* * Talk to a remote rsync://-enabled server sender. * Returns exit code 0 on success, 1 on failure, 2 on failure with * incompatible protocols. */ int rsync_socket(const struct opts *opts, int sd, const struct fargs *f) { struct sess sess; size_t i, skip; int c, rc = 1; char **args, buf[BUFSIZ]; uint8_t byte; if (pledge("stdio unix rpath wpath cpath dpath fattr chown getpw unveil", NULL) == -1) err(1, "pledge"); memset(&sess, 0, sizeof(struct sess)); sess.lver = RSYNC_PROTOCOL; sess.opts = opts; assert(f->host != NULL); assert(f->module != NULL); if ((args = fargs_cmdline(&sess, f, &skip)) == NULL) { ERRX1("fargs_cmdline"); exit(1); } /* Initiate with the rsyncd version and module request. */ (void)snprintf(buf, sizeof(buf), "@RSYNCD: %d", sess.lver); if (!io_write_line(&sess, sd, buf)) { ERRX1("io_write_line"); goto out; } LOG2("requesting module: %s, %s", f->module, f->host); if (!io_write_line(&sess, sd, f->module)) { ERRX1("io_write_line"); goto out; } /* * Now we read the server's response, byte-by-byte, one newline * terminated at a time, limited to BUFSIZ line length. * For this protocol version, this consists of either @RSYNCD * followed by some text (just "ok" and the remote version) or * the message of the day. */ for (;;) { for (i = 0; i < sizeof(buf); i++) { if (!io_read_byte(&sess, sd, &byte)) { ERRX1("io_read_byte"); goto out; } if ((buf[i] = byte) == '\n') break; } if (i == sizeof(buf)) { ERRX("line buffer overrun"); goto out; } else if (i == 0) continue; /* * The rsyncd protocol isn't very clear as to whether we * get a CRLF or not: I don't actually see this being * transmitted over the wire. */ assert(i > 0); buf[i] = '\0'; if (buf[i - 1] == '\r') buf[i - 1] = '\0'; if ((c = protocol_line(&sess, f->host, buf)) < 0) { ERRX1("protocol_line"); goto out; } else if (c > 0) break; } /* * Now we've exchanged all of our protocol information. * We want to send our command-line arguments over the wire, * each with a newline termination. * Use the same arguments when invoking the server, but leave * off the binary name(s). * Emit a standalone newline afterward. */ for (i = skip ; args[i] != NULL; i++) if (!io_write_line(&sess, sd, args[i])) { ERRX1("io_write_line"); goto out; } if (!io_write_byte(&sess, sd, '\n')) { ERRX1("io_write_line"); goto out; } /* * All data after this point is going to be multiplexed, so turn * on the multiplexer for our reads and writes. */ /* Protocol exchange: get the random seed. */ if (!io_read_int(&sess, sd, &sess.seed)) { ERRX1("io_read_int"); goto out; } /* Now we've completed the handshake. */ if (sess.rver < sess.lver) { ERRX("remote protocol is older than our own (%d < %d): " "this is not supported", sess.rver, sess.lver); rc = 2; goto out; } sess.mplex_reads = 1; LOG2("read multiplexing enabled"); LOG2("socket detected client version %d, server version %d, seed %d", sess.lver, sess.rver, sess.seed); assert(f->mode == FARGS_RECEIVER); LOG2("client starting receiver: %s", f->host); if (!rsync_receiver(&sess, sd, sd, f->sink)) { ERRX1("rsync_receiver"); goto out; } #if 0 /* Probably the EOF. */ if (io_read_check(&sess, sd)) WARNX("data remains in read pipe"); #endif rc = 0; out: free(args); return rc; }