/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * Copyright (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include #include #include "includes.h" #include "atomicio.h" #include "auth.h" #include "bufaux.h" #include "buffer.h" #include "cipher.h" #include "compat.h" #include "dispatch.h" #include "getput.h" #include "kex.h" #include "log.h" #include "mac.h" #include "packet.h" #include "uidswap.h" #include "ssh2.h" #include "sshlogin.h" #include "xmalloc.h" #include "altprivsep.h" #include "canohost.h" #include "engine.h" #include "servconf.h" #ifdef HAVE_BSM #include "bsmaudit.h" adt_session_data_t *ah = NULL; #endif /* HAVE_BSM */ #ifdef GSSAPI #include "ssh-gss.h" extern Gssctxt *xxx_gssctxt; #endif /* GSSAPI */ extern Kex *xxx_kex; extern u_char *session_id2; extern int session_id2_len; static Buffer to_monitor; static Buffer from_monitor; /* * Sun's Alternative Privilege Separation basics: * * Abstract * -------- * * sshd(1M) fork()s and drops privs in the child while retaining privs * in the parent (a.k.a., the monitor). The unprivileged sshd and the * monitor talk over a pipe using a simple protocol. * * The monitor protocol is all about having the monitor carry out the * only operations that require privileges OR access to privileged * resources. These are: utmpx/wtmpx record keeping, auditing, and * SSHv2 re-keying. * * Re-Keying * --------- * * Re-keying is the only protocol version specific aspect of sshd in * which the monitor gets involved. * * The monitor processes all SSHv2 re-key protocol packets, but the * unprivileged sshd process does the transport layer crypto for those * packets. * * The monitor and its unprivileged sshd child process treat * SSH_MSG_NEWKEYS SSH2 messages specially: a) the monitor does not call * set_newkeys(), but b) the child asks the monitor for the set of * negotiated algorithms, key, IV and what not for the relevant * transport direction and then calls set_newkeys(). * * Monitor Protocol * ---------------- * * Monitor IPC message formats are similar to SSHv2 messages, minus * compression, encryption, padding and MACs: * * - 4 octet message length * - message data * - 1 octet message type * - message data * * In broad strokes: * * - IPC: pipe, exit(2)/wait4(2) * * - threads: the monitor and child are single-threaded * * - monitor main loop: a variant of server_loop2(), for re-keying only * - unpriv child main loop: server_loop2(), as usual * * - protocol: * - key exchange packets are always forwarded as is to the monitor * - newkeys, record_login(), record_logout() are special packets * using the packet type range reserved for local extensions * * - the child drops privs and runs like a normal sshd, except that it * sets dispatch handlers for key exchange packets that forward the * packets to the monitor * * Event loops: * * - all monitor protocols are synchronous: because the SSHv2 rekey * protocols are synchronous and because the other monitor operations * are synchronous (or have no replies), * * - server_loop2() is modified to check the monitor pipe for rekey * packets to forward to the client * * - and dispatch handlers are set, upon receipt of KEXINIT (and reset * when NEWKEYS is sent out) to forward incoming rekey packets to the * monitor. * * - the monitor runs an event loop not unlike server_loop2() and runs * key exchanges almost exactly as a pre-altprivsep sshd would * * - unpriv sshd exit -> monitor cleanup (including audit logout) and exit * * - fatal() in monitor -> forcibly shutdown() socket and kill/wait for * child (so that the audit event for the logout better reflects * reality -- i.e., logged out means logged out, but for bg jobs) * * Message formats: * * - key exchange packets/replies forwarded "as is" * * - all other monitor requests are sent as SSH2_PRIV_MSG_ALTPRIVSEP and have a * sub-type identifier (one octet) * - private request sub-types include: * - get new shared secret from last re-key * - record login (utmpx/wtmpx), request data contains three arguments: * pid, ttyname, program name * - record logout (utmpx/wtmpx), request data contains one argument: pid * * Reply sub-types include: * * - NOP (for record_login/logout) * - new shared secret from last re-key */ static int aps_started = 0; static int is_monitor = 0; static pid_t monitor_pid, child_pid; static int pipe_fds[2]; static int pipe_fd = -1; static Buffer input_pipe, output_pipe; /* for pipe I/O */ static Authctxt *xxx_authctxt; /* Monitor functions */ extern void aps_monitor_loop(Authctxt *authctxt, pid_t child_pid); static void aps_record_login(void); static void aps_record_logout(void); static void aps_start_rekex(void); Authctxt *aps_read_auth_context(void); /* main functions for handling the monitor */ static pid_t altprivsep_start_monitor(Authctxt **authctxt); static void altprivsep_do_monitor(Authctxt *authctxt, pid_t child_pid); static int altprivsep_started(void); static int altprivsep_is_monitor(void); /* calls _to_ monitor from unprivileged process */ static void altprivsep_get_newkeys(enum kex_modes mode); /* monitor-side fatal_cleanup callbacks */ static void altprivsep_shutdown_sock(void *arg); /* Altprivsep packet utilities for communication with the monitor */ static void altprivsep_packet_start(u_char); static int altprivsep_packet_send(void); static int altprivsep_fwd_packet(u_char type); static int altprivsep_packet_read(void); static void altprivsep_packet_read_expect(int type); static void altprivsep_packet_put_char(int ch); static void altprivsep_packet_put_int(u_int value); static void altprivsep_packet_put_cstring(const char *str); static void altprivsep_packet_put_raw(const void *buf, u_int len); static u_int altprivsep_packet_get_char(void); static void *altprivsep_packet_get_raw(u_int *length_ptr); static void *altprivsep_packet_get_string(u_int *length_ptr); Kex *prepare_for_ssh2_kex(void); /* * Start monitor from privileged sshd process. * * Return values are like fork(2); the parent is the monitor. The caller should * fatal() on error. * * Note that the monitor waits until the still privileged child finishes the * authentication. The child drops its privileges after the authentication. */ static pid_t altprivsep_start_monitor(Authctxt **authctxt) { pid_t pid; int junk; if (aps_started) fatal("Monitor startup failed: missing state"); buffer_init(&output_pipe); buffer_init(&input_pipe); if (pipe(pipe_fds) != 0) { error("Monitor startup failure: could not create pipes: %s", strerror(errno)); return (-1); } (void) fcntl(pipe_fds[0], F_SETFD, FD_CLOEXEC); (void) fcntl(pipe_fds[1], F_SETFD, FD_CLOEXEC); monitor_pid = getpid(); if ((pid = fork()) > 0) { /* * From now on, all debug messages from monitor will have prefix * "monitor " */ set_log_txt_prefix("monitor "); (void) prepare_for_ssh2_kex(); packet_set_server(); /* parent */ child_pid = pid; debug2("Monitor pid %ld, unprivileged child pid %ld", monitor_pid, child_pid); (void) close(pipe_fds[1]); pipe_fd = pipe_fds[0]; /* * Signal readiness of the monitor and then read the * authentication context from the child. */ (void) write(pipe_fd, &pid, sizeof (pid)); packet_set_monitor(pipe_fd); xxx_authctxt = *authctxt = aps_read_auth_context(); if (fcntl(pipe_fd, F_SETFL, O_NONBLOCK) < 0) error("fcntl O_NONBLOCK: %.100s", strerror(errno)); aps_started = 1; is_monitor = 1; debug2("Monitor started"); return (pid); } if (pid < 0) { debug2("Monitor startup failure: could not fork unprivileged" " process: %s", strerror(errno)); return (pid); } /* this is the child that will later drop privileges */ /* note that Solaris has bi-directional pipes so one pipe is enough */ (void) close(pipe_fds[0]); pipe_fd = pipe_fds[1]; /* wait for monitor to be ready */ debug2("Waiting for monitor"); (void) read(pipe_fd, &junk, sizeof (junk)); debug2("Monitor signalled readiness"); buffer_init(&to_monitor); buffer_init(&from_monitor); /* AltPrivSep interfaces are set up */ aps_started = 1; return (pid); } int altprivsep_get_pipe_fd(void) { return (pipe_fd); } /* * This function is used in the unprivileged child for all packets in the range * between SSH2_MSG_KEXINIT and SSH2_MSG_TRANSPORT_MAX. */ void altprivsep_rekey(int type, u_int32_t seq, void *ctxt) { Kex *kex = (Kex *)ctxt; if (kex == NULL) fatal("Missing key exchange context in unprivileged process"); if (type != SSH2_MSG_NEWKEYS) { debug2("Forwarding re-key packet (%d) to monitor", type); if (!altprivsep_fwd_packet(type)) fatal("altprivsep_rekey: Monitor not responding"); } /* tell server_loop2() that we're re-keying */ kex->done = 0; /* NEWKEYS is special: get the new keys for client->server direction */ if (type == SSH2_MSG_NEWKEYS) { debug2("received SSH2_MSG_NEWKEYS packet - " "getting new inbound keys from the monitor"); altprivsep_get_newkeys(MODE_IN); kex->done = 1; } } void altprivsep_process_input(fd_set *rset) { void *data; int type; u_int dlen; if (pipe_fd == -1) return; if (!FD_ISSET(pipe_fd, rset)) return; debug2("reading from pipe to monitor (%d)", pipe_fd); if ((type = altprivsep_packet_read()) == -1) fatal("altprivsep_process_input: Monitor not responding"); if (!compat20) return; /* shouldn't happen! but be safe */ if (type == 0) return; /* EOF -- nothing to do here */ if (type >= SSH2_MSG_MAX) fatal("Received garbage from monitor"); debug2("Read packet type %d from pipe to monitor", (u_int)type); if (type == SSH2_PRIV_MSG_ALTPRIVSEP) return; /* shouldn't happen! */ /* NEWKEYS is special: get the new keys for server->client direction */ if (type == SSH2_MSG_NEWKEYS) { debug2("forwarding SSH2_MSG_NEWKEYS packet we got from monitor to " "the client"); packet_start(SSH2_MSG_NEWKEYS); packet_send(); debug2("getting new outbound keys from the monitor"); altprivsep_get_newkeys(MODE_OUT); return; } data = altprivsep_packet_get_raw(&dlen); packet_start((u_char)type); if (data != NULL && dlen > 0) packet_put_raw(data, dlen); packet_send(); } static void altprivsep_do_monitor(Authctxt *authctxt, pid_t child_pid) { aps_monitor_loop(authctxt, child_pid); } static int altprivsep_started(void) { return (aps_started); } static int altprivsep_is_monitor(void) { return (is_monitor); } /* * A fatal cleanup function to forcibly shutdown the connection socket */ static void altprivsep_shutdown_sock(void *arg) { int sock; if (arg == NULL) return; sock = *(int *)arg; (void) shutdown(sock, SHUT_RDWR); } /* Calls _to_ monitor from unprivileged process */ static int altprivsep_fwd_packet(u_char type) { u_int len; void *data; altprivsep_packet_start(type); data = packet_get_raw(&len); altprivsep_packet_put_raw(data, len); /* packet_send()s any replies from the monitor to the client */ return (altprivsep_packet_send()); } extern Newkeys *current_keys[MODE_MAX]; /* To be called from packet.c:set_newkeys() before referencing current_keys */ static void altprivsep_get_newkeys(enum kex_modes mode) { Newkeys *newkeys; Comp *comp; Enc *enc; Mac *mac; u_int len; if (!altprivsep_started()) return; if (altprivsep_is_monitor()) return; /* shouldn't happen */ /* request new keys */ altprivsep_packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); altprivsep_packet_put_char(APS_MSG_NEWKEYS_REQ); altprivsep_packet_put_int((u_int)mode); altprivsep_packet_send(); altprivsep_packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); if (altprivsep_packet_get_char() != APS_MSG_NEWKEYS_REP) fatal("Received garbage from monitor during re-keying"); newkeys = xmalloc(sizeof (*newkeys)); memset(newkeys, 0, sizeof (*newkeys)); enc = &newkeys->enc; mac = &newkeys->mac; comp = &newkeys->comp; /* Cipher name, key, IV */ enc->name = altprivsep_packet_get_string(NULL); if ((enc->cipher = cipher_by_name(enc->name)) == NULL) fatal("Monitor negotiated an unknown cipher during re-key"); enc->key = altprivsep_packet_get_string(&enc->key_len); enc->iv = altprivsep_packet_get_string(&enc->block_size); /* MAC name */ mac->name = altprivsep_packet_get_string(NULL); if (mac_setup(mac, mac->name) < 0) fatal("Monitor negotiated an unknown MAC algorithm " "during re-key"); mac->key = altprivsep_packet_get_string(&len); if (len > mac->key_len) fatal("%s: bad mac key length: %d > %d", __func__, len, mac->key_len); /* Compression algorithm name */ comp->name = altprivsep_packet_get_string(NULL); if (strcmp(comp->name, "zlib") != 0 && strcmp(comp->name, "none") != 0) fatal("Monitor negotiated an unknown compression " "algorithm during re-key"); comp->type = 0; comp->enabled = 0; /* forces compression re-init, as per-spec */ if (strcmp(comp->name, "zlib") == 0) comp->type = 1; /* * Now install new keys * * For now abuse kex.c/packet.c non-interfaces. Someday, when * the many internal interfaces are parametrized, made reentrant * and thread-safe, made more consistent, and when necessary-but- * currently-missing interfaces are added then this bit of * ugliness can be revisited. * * The ugliness is in the set_newkeys(), its name and the lack * of a (Newkeys *) parameter, which forces us to pass the * newkeys through current_keys[mode]. But this saves us some * lines of code for now, though not comments. * * Also, we've abused, in the code above, knowledge of what * set_newkeys() expects the current_keys[mode] to contain. */ current_keys[mode] = newkeys; set_newkeys(mode); } void altprivsep_record_login(pid_t pid, const char *ttyname) { altprivsep_packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); altprivsep_packet_put_char(APS_MSG_RECORD_LOGIN); altprivsep_packet_put_int(pid); altprivsep_packet_put_cstring(ttyname); altprivsep_packet_send(); altprivsep_packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); } void altprivsep_record_logout(pid_t pid) { altprivsep_packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); altprivsep_packet_put_char(APS_MSG_RECORD_LOGOUT); altprivsep_packet_put_int(pid); altprivsep_packet_send(); altprivsep_packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); } void altprivsep_start_rekex(void) { altprivsep_packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); altprivsep_packet_put_char(APS_MSG_START_REKEX); altprivsep_packet_send(); altprivsep_packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); } /* * The monitor needs some information that its child learns during the * authentication process. Since the child was forked before the key exchange * and authentication started it must send some context to the monitor after the * authentication is finished. Less obvious part - monitor needs the session ID * since it is used in the key generation process after the key (re-)exchange is * finished. */ void altprivsep_send_auth_context(Authctxt *authctxt) { debug("sending auth context to the monitor"); altprivsep_packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); altprivsep_packet_put_char(APS_MSG_AUTH_CONTEXT); altprivsep_packet_put_int(authctxt->pw->pw_uid); altprivsep_packet_put_int(authctxt->pw->pw_gid); altprivsep_packet_put_cstring(authctxt->pw->pw_name); altprivsep_packet_put_raw(session_id2, session_id2_len); debug("will send %d bytes of auth context to the monitor", buffer_len(&to_monitor)); altprivsep_packet_send(); altprivsep_packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); } static void aps_send_newkeys(void); /* Monitor side dispatch handler for SSH2_PRIV_MSG_ALTPRIVSEP */ /* ARGSUSED */ void aps_input_altpriv_msg(int type, u_int32_t seq, void *ctxt) { u_char req_type; req_type = packet_get_char(); switch (req_type) { case APS_MSG_NEWKEYS_REQ: aps_send_newkeys(); break; case APS_MSG_RECORD_LOGIN: aps_record_login(); break; case APS_MSG_RECORD_LOGOUT: aps_record_logout(); break; case APS_MSG_START_REKEX: aps_start_rekex(); break; default: break; } } /* Monitor-side handlers for APS_MSG_* */ static void aps_send_newkeys(void) { Newkeys *newkeys; Enc *enc; Mac *mac; Comp *comp; enum kex_modes mode; /* get direction for which newkeys are wanted */ mode = (enum kex_modes) packet_get_int(); packet_check_eom(); /* get those newkeys */ newkeys = kex_get_newkeys(mode); enc = &newkeys->enc; mac = &newkeys->mac; comp = &newkeys->comp; /* * Negotiated algorithms, client->server and server->client, for * cipher, mac and compression. */ packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); packet_put_char(APS_MSG_NEWKEYS_REP); packet_put_cstring(enc->name); packet_put_string(enc->key, enc->key_len); packet_put_string(enc->iv, enc->block_size); packet_put_cstring(mac->name); packet_put_string(mac->key, mac->key_len); packet_put_cstring(comp->name); packet_send(); free_keys(newkeys); } struct _aps_login_rec { pid_t lr_pid; char *lr_tty; struct _aps_login_rec *next; }; typedef struct _aps_login_rec aps_login_rec; static aps_login_rec *aps_login_list = NULL; static void aps_record_login(void) { aps_login_rec *new_rec; struct stat sbuf; size_t proc_path_len; char *proc_path; new_rec = xmalloc(sizeof (aps_login_rec)); memset(new_rec, 0, sizeof (aps_login_rec)); new_rec->lr_pid = packet_get_int(); new_rec->lr_tty = packet_get_string(NULL); proc_path_len = snprintf(NULL, 0, "/proc/%d", new_rec->lr_pid); proc_path = xmalloc(proc_path_len + 1); (void) snprintf(proc_path, proc_path_len + 1, "/proc/%d", new_rec->lr_pid); if (stat(proc_path, &sbuf) || sbuf.st_uid != xxx_authctxt->pw->pw_uid || stat(new_rec->lr_tty, &sbuf) < 0 || sbuf.st_uid != xxx_authctxt->pw->pw_uid) { debug2("Spurious record_login request from unprivileged sshd"); xfree(proc_path); xfree(new_rec->lr_tty); xfree(new_rec); return; } /* Insert new record on list */ new_rec->next = aps_login_list; aps_login_list = new_rec; record_login(new_rec->lr_pid, new_rec->lr_tty, NULL, xxx_authctxt->user); packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); packet_send(); xfree(proc_path); } static void aps_record_logout(void) { aps_login_rec **p, *q; pid_t pid; pid = packet_get_int(); packet_check_eom(); for (p = &aps_login_list; *p != NULL; p = &q->next) { q = *p; if (q->lr_pid == pid) { record_logout(q->lr_pid, q->lr_tty, NULL, xxx_authctxt->user); /* dequeue */ *p = q->next; xfree(q->lr_tty); xfree(q); break; } } packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); packet_send(); } static void aps_start_rekex(void) { /* * Send confirmation. We could implement it without that but it doesn't * bring any harm to do that and we are consistent with other subtypes * of our private SSH2_PRIV_MSG_ALTPRIVSEP message type. */ packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); packet_send(); /* * KEX_INIT message could be the one that reached the limit. In that * case, it was already forwarded to us from the unnprivileged child, * and maybe even acted upon. Obviously we must not send another * KEX_INIT message. */ if (!(xxx_kex->flags & KEX_INIT_SENT)) kex_send_kexinit(xxx_kex); else debug2("rekeying already in progress"); } /* * This is the monitor side of altprivsep_send_auth_context(). */ Authctxt * aps_read_auth_context(void) { unsigned char *tmp; Authctxt *authctxt; /* * After the successful authentication we get the context. Getting * end-of-file means that authentication failed and we can exit as well. */ debug("reading the context from the child"); packet_read_expect(SSH2_PRIV_MSG_ALTPRIVSEP); debug3("got SSH2_PRIV_MSG_ALTPRIVSEP"); if (packet_get_char() != APS_MSG_AUTH_CONTEXT) { fatal("APS_MSG_AUTH_CONTEXT message subtype expected."); } authctxt = xcalloc(1, sizeof(Authctxt)); authctxt->pw = xcalloc(1, sizeof(struct passwd)); /* uid_t and gid_t are integers (UNIX spec) */ authctxt->pw->pw_uid = packet_get_int(); authctxt->pw->pw_gid = packet_get_int(); authctxt->pw->pw_name = packet_get_string(NULL); authctxt->user = xstrdup(authctxt->pw->pw_name); debug3("uid/gid/username %d/%d/%s", authctxt->pw->pw_uid, authctxt->pw->pw_gid, authctxt->user); session_id2 = (unsigned char *)packet_get_raw((unsigned int*)&session_id2_len); /* we don't have this for SSH1. In that case, session_id2_len is 0. */ if (session_id2_len > 0) { tmp = (unsigned char *)xmalloc(session_id2_len); memcpy(tmp, session_id2, session_id2_len); session_id2 = tmp; debug3("read session ID (%d B)", session_id2_len); xxx_kex->session_id = tmp; xxx_kex->session_id_len = session_id2_len; } debug("finished reading the context"); /* send confirmation */ packet_start(SSH2_PRIV_MSG_ALTPRIVSEP); packet_send(); return (authctxt); } /* Utilities for communication with the monitor */ static void altprivsep_packet_start(u_char type) { buffer_clear(&to_monitor); buffer_put_char(&to_monitor, type); } static void altprivsep_packet_put_char(int ch) { buffer_put_char(&to_monitor, ch); } static void altprivsep_packet_put_int(u_int value) { buffer_put_int(&to_monitor, value); } static void altprivsep_packet_put_cstring(const char *str) { buffer_put_cstring(&to_monitor, str); } static void altprivsep_packet_put_raw(const void *buf, u_int len) { buffer_append(&to_monitor, buf, len); } /* * Send a monitor packet to the monitor. This function is blocking. * * Returns -1 if the monitor pipe has been closed earlier, fatal()s if * there's any other problems. */ static int altprivsep_packet_send(void) { ssize_t len; u_int32_t plen; /* packet length */ u_char plen_buf[sizeof (plen)]; u_char padlen; /* padding length */ fd_set *setp; int err; if (pipe_fd == -1) return (-1); if ((plen = buffer_len(&to_monitor)) == 0) return (0); /* * We talk the SSHv2 binary packet protocol to the monitor, * using the none cipher, mac and compression algorithms. * * But, interestingly, the none cipher has a block size of 8 * bytes, thus we must pad the packet. * * Also, encryption includes the packet length, so the padding * must account for that field. I.e., (sizeof (packet length) + * sizeof (padding length) + packet length + padding length) % * block_size must == 0. * * Also, there must be at least four (4) bytes of padding. */ padlen = (8 - ((plen + sizeof (plen) + sizeof (padlen)) % 8)) % 8; if (padlen < 4) padlen += 8; /* packet length counts padding and padding length field */ plen += padlen + sizeof (padlen); PUT_32BIT(plen_buf, plen); setp = xmalloc(howmany(pipe_fd + 1, NFDBITS) * sizeof (fd_mask)); memset(setp, 0, howmany(pipe_fd + 1, NFDBITS) * sizeof (fd_mask)); FD_SET(pipe_fd, setp); while (select(pipe_fd + 1, NULL, setp, NULL, NULL) == -1) { if (errno == EAGAIN || errno == EINTR) continue; else goto pipe_gone; } xfree(setp); /* packet length field */ len = atomicio(write, pipe_fd, plen_buf, sizeof (plen)); if (len != sizeof (plen)) goto pipe_gone; /* padding length field */ len = atomicio(write, pipe_fd, &padlen, sizeof (padlen)); if (len != sizeof (padlen)) goto pipe_gone; len = atomicio(write, pipe_fd, buffer_ptr(&to_monitor), plen - 1); if (len != (plen - 1)) goto pipe_gone; buffer_clear(&to_monitor); return (1); pipe_gone: err = errno; (void) close(pipe_fd); pipe_fd = -1; fatal("altprvsep_packet_send: Monitor not responding: %.100s", strerror(err)); /* NOTREACHED */ return (0); } /* * Read a monitor packet from the monitor. This function is blocking. */ static int altprivsep_packet_read(void) { ssize_t len = -1; u_int32_t plen; u_char plen_buf[sizeof (plen)]; u_char padlen; fd_set *setp; int err; if (pipe_fd == -1) return (-1); setp = xmalloc(howmany(pipe_fd + 1, NFDBITS) * sizeof (fd_mask)); memset(setp, 0, howmany(pipe_fd + 1, NFDBITS) * sizeof (fd_mask)); FD_SET(pipe_fd, setp); while (select(pipe_fd + 1, setp, NULL, NULL, NULL) == -1) { if (errno == EAGAIN || errno == EINTR) continue; else goto pipe_gone; } xfree(setp); /* packet length field */ len = atomicio(read, pipe_fd, plen_buf, sizeof (plen)); plen = GET_32BIT(plen_buf); if (len != sizeof (plen)) goto pipe_gone; /* padding length field */ len = atomicio(read, pipe_fd, &padlen, sizeof (padlen)); if (len != sizeof (padlen)) goto pipe_gone; plen -= sizeof (padlen); buffer_clear(&from_monitor); buffer_append_space(&from_monitor, plen); /* packet data + padding */ len = atomicio(read, pipe_fd, buffer_ptr(&from_monitor), plen); if (len != plen) goto pipe_gone; /* remove padding */ if (padlen > 0) buffer_consume_end(&from_monitor, padlen); /* packet type */ return (buffer_get_char(&from_monitor)); pipe_gone: err = errno; (void) close(pipe_fd); pipe_fd = -1; if (len < 0) fatal("altpriv_packet_read: Monitor not responding %.100s", strerror(err)); debug2("Monitor pipe closed by monitor"); return (0); } static void altprivsep_packet_read_expect(int expected) { int type; type = altprivsep_packet_read(); if (type <= 0) fatal("altprivsep_packet_read_expect: Monitor not responding"); if (type != expected) fatal("Protocol error in privilege separation; expected " "packet type %d, got %d", expected, type); } static u_int altprivsep_packet_get_char(void) { return (buffer_get_char(&from_monitor)); } void *altprivsep_packet_get_raw(u_int *length_ptr) { if (length_ptr != NULL) *length_ptr = buffer_len(&from_monitor); return (buffer_ptr(&from_monitor)); } void *altprivsep_packet_get_string(u_int *length_ptr) { return (buffer_get_string(&from_monitor, length_ptr)); } /* * Start and execute the code for the monitor which never returns from this * function. The child will return and continue in the caller. */ void altprivsep_start_and_do_monitor(int use_engine, int inetd, int newsock, int statup_pipe) { pid_t aps_child; Authctxt *authctxt; /* * The monitor will packet_close() in packet_set_monitor() called from * altprivsep_start_monitor() below to clean up the socket stuff before * it switches to pipes for communication to the child. The socket fd is * closed there so we must dup it here - monitor needs that socket to * shutdown the connection in case of any problem; see comments below. * Note that current newsock was assigned to connection_(in|out) which * are the variables used in packet_close() to close the communication * socket. */ newsock = dup(newsock); if ((aps_child = altprivsep_start_monitor(&authctxt)) == -1) fatal("Monitor could not be started."); if (aps_child > 0) { /* ALTPRIVSEP Monitor */ /* * The ALTPRIVSEP monitor here does: * * - record keeping and auditing * - PAM cleanup */ /* this is for MaxStartups and the child takes care of that */ (void) close(statup_pipe); (void) pkcs11_engine_load(use_engine); /* * If the monitor fatal()s it will audit/record a logout, so * we'd better do something to really mean it: shutdown the * socket but leave the child alone -- it's been disconnected * and we hope it exits, but killing any pid from a privileged * monitor could be dangerous. * * NOTE: Order matters -- these fatal cleanups must come before * the audit logout fatal cleanup as these functions are called * in LIFO. */ fatal_add_cleanup((void (*)(void *))altprivsep_shutdown_sock, (void *)&newsock); if (compat20) { debug3("Recording SSHv2 session login in wtmpx"); /* * record_login() relies on connection_in to be the * socket to get the peer address. The problem is that * connection_in had to be set to the pipe descriptor in * altprivsep_start_monitor(). It's not nice but the * easiest way to get the peer's address is to * temporarily set connection_in to the socket's file * descriptor. */ packet_set_fds(inetd == 1 ? -1 : newsock, 0); record_login(getpid(), NULL, "sshd", authctxt->user); packet_set_fds(0, 1); } #ifdef HAVE_BSM /* Initialize the group list, audit sometimes needs it. */ if (initgroups(authctxt->pw->pw_name, authctxt->pw->pw_gid) < 0) { perror("initgroups"); exit (1); } /* * The monitor process fork()ed before the authentication * process started so at this point we have an unaudited * context. Thus we need to obtain the audit session data * from the authentication process (aps_child) which will * have the correct audit context for the user logging in. * To do so we pass along the process-ID of the aps_child * process so that it is referenced for this audit session * rather than referencing the monitor's unaudited context. */ audit_sshd_login(&ah, aps_child); fatal_add_cleanup((void (*)(void *))audit_sshd_logout, (void *)&ah); #endif /* HAVE_BSM */ #ifdef GSSAPI fatal_add_cleanup((void (*)(void *))ssh_gssapi_cleanup_creds, (void *)&xxx_gssctxt); #endif /* GSSAPI */ altprivsep_do_monitor(authctxt, aps_child); /* If we got here the connection is dead. */ fatal_remove_cleanup((void (*)(void *))altprivsep_shutdown_sock, (void *)&newsock); if (compat20) { debug3("Recording SSHv2 session logout in wtmpx"); record_logout(getpid(), NULL, "sshd", authctxt->user); } /* * Make sure the socket is closed. The monitor can't call * packet_close here as it's done a packet_set_connection() * with the pipe to the child instead of the socket. */ (void) shutdown(newsock, SHUT_RDWR); #ifdef GSSAPI fatal_remove_cleanup((void (*)(void *))ssh_gssapi_cleanup_creds, &xxx_gssctxt); ssh_gssapi_cleanup_creds(xxx_gssctxt); ssh_gssapi_server_mechs(NULL); /* release cached mechs list */ #endif /* GSSAPI */ #ifdef HAVE_BSM fatal_remove_cleanup((void (*)(void *))audit_sshd_logout, (void *)&ah); audit_sshd_logout(&ah); #endif /* HAVE_BSM */ exit(0); } else { /* * This is the child, close the dup()ed file descriptor for a * socket. It's not needed in the child. */ close(newsock); } }