Mercurial > dropbear
view svr-chansession.c @ 447:278805938dcf
Patch from Nicolai Ehemann to try binding before going to the background,
so that if it exits early (because something's already listening etc)
then it will return an exitcode of 1.
author | Matt Johnston <matt@ucc.asn.au> |
---|---|
date | Thu, 19 Jul 2007 15:54:18 +0000 |
parents | 5df05d0a5366 |
children | 1009980436c2 4317be8b7cf9 |
line wrap: on
line source
/* * Dropbear - a SSH2 server * * Copyright (c) 2002,2003 Matt Johnston * All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "includes.h" #include "packet.h" #include "buffer.h" #include "session.h" #include "dbutil.h" #include "channel.h" #include "chansession.h" #include "sshpty.h" #include "termcodes.h" #include "ssh.h" #include "random.h" #include "utmp.h" #include "x11fwd.h" #include "agentfwd.h" #include "runopts.h" /* Handles sessions (either shells or programs) requested by the client */ static int sessioncommand(struct Channel *channel, struct ChanSess *chansess, int iscmd, int issubsys); static int sessionpty(struct ChanSess * chansess); static int sessionsignal(struct ChanSess *chansess); static int noptycommand(struct Channel *channel, struct ChanSess *chansess); static int ptycommand(struct Channel *channel, struct ChanSess *chansess); static int sessionwinchange(struct ChanSess *chansess); static void execchild(struct ChanSess *chansess); static void addchildpid(struct ChanSess *chansess, pid_t pid); static void sesssigchild_handler(int val); static void closechansess(struct Channel *channel); static int newchansess(struct Channel *channel); static void chansessionrequest(struct Channel *channel); static void send_exitsignalstatus(struct Channel *channel); static void send_msg_chansess_exitstatus(struct Channel * channel, struct ChanSess * chansess); static void send_msg_chansess_exitsignal(struct Channel * channel, struct ChanSess * chansess); static void get_termmodes(struct ChanSess *chansess); /* required to clear environment */ extern char** environ; static int sesscheckclose(struct Channel *channel) { struct ChanSess *chansess = (struct ChanSess*)channel->typedata; TRACE(("sesscheckclose, pid is %d", chansess->exit.exitpid)) return chansess->exit.exitpid != -1; } /* Handler for childs exiting, store the state for return to the client */ /* There's a particular race we have to watch out for: if the forked child * executes, exits, and this signal-handler is called, all before the parent * gets to run, then the childpids[] array won't have the pid in it. Hence we * use the svr_ses.lastexit struct to hold the exit, which is then compared by * the parent when it runs. This work correctly at least in the case of a * single shell spawned (ie the usual case) */ static void sesssigchild_handler(int UNUSED(dummy)) { int status; pid_t pid; unsigned int i; struct sigaction sa_chld; struct exitinfo *exit = NULL; TRACE(("enter sigchld handler")) while ((pid = waitpid(-1, &status, WNOHANG)) > 0) { TRACE(("sigchld handler: pid %d", pid)) exit = NULL; /* find the corresponding chansess */ for (i = 0; i < svr_ses.childpidsize; i++) { if (svr_ses.childpids[i].pid == pid) { TRACE(("found match session")); exit = &svr_ses.childpids[i].chansess->exit; break; } } /* If the pid wasn't matched, then we might have hit the race mentioned * above. So we just store the info for the parent to deal with */ if (exit == NULL) { TRACE(("using lastexit")); exit = &svr_ses.lastexit; } exit->exitpid = pid; if (WIFEXITED(status)) { exit->exitstatus = WEXITSTATUS(status); } if (WIFSIGNALED(status)) { exit->exitsignal = WTERMSIG(status); #if !defined(AIX) && defined(WCOREDUMP) exit->exitcore = WCOREDUMP(status); #else exit->exitcore = 0; #endif } else { /* we use this to determine how pid exited */ exit->exitsignal = -1; } /* Make sure that the main select() loop wakes up */ while (1) { /* isserver is just a random byte to write. We can't do anything about an error so should just ignore it */ if (write(ses.signal_pipe[1], &ses.isserver, 1) == 1 || errno != EINTR) { break; } } } sa_chld.sa_handler = sesssigchild_handler; sa_chld.sa_flags = SA_NOCLDSTOP; sigaction(SIGCHLD, &sa_chld, NULL); TRACE(("leave sigchld handler")) } /* send the exit status or the signal causing termination for a session */ static void send_exitsignalstatus(struct Channel *channel) { struct ChanSess *chansess = (struct ChanSess*)channel->typedata; if (chansess->exit.exitpid >= 0) { if (chansess->exit.exitsignal > 0) { send_msg_chansess_exitsignal(channel, chansess); } else { send_msg_chansess_exitstatus(channel, chansess); } } } /* send the exitstatus to the client */ static void send_msg_chansess_exitstatus(struct Channel * channel, struct ChanSess * chansess) { dropbear_assert(chansess->exit.exitpid != -1); dropbear_assert(chansess->exit.exitsignal == -1); CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_REQUEST); buf_putint(ses.writepayload, channel->remotechan); buf_putstring(ses.writepayload, "exit-status", 11); buf_putbyte(ses.writepayload, 0); /* boolean FALSE */ buf_putint(ses.writepayload, chansess->exit.exitstatus); encrypt_packet(); } /* send the signal causing the exit to the client */ static void send_msg_chansess_exitsignal(struct Channel * channel, struct ChanSess * chansess) { int i; char* signame = NULL; dropbear_assert(chansess->exit.exitpid != -1); dropbear_assert(chansess->exit.exitsignal > 0); TRACE(("send_msg_chansess_exitsignal %d", chansess->exit.exitsignal)) CHECKCLEARTOWRITE(); /* we check that we can match a signal name, otherwise * don't send anything */ for (i = 0; signames[i].name != NULL; i++) { if (signames[i].signal == chansess->exit.exitsignal) { signame = signames[i].name; break; } } if (signame == NULL) { return; } buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_REQUEST); buf_putint(ses.writepayload, channel->remotechan); buf_putstring(ses.writepayload, "exit-signal", 11); buf_putbyte(ses.writepayload, 0); /* boolean FALSE */ buf_putstring(ses.writepayload, signame, strlen(signame)); buf_putbyte(ses.writepayload, chansess->exit.exitcore); buf_putstring(ses.writepayload, "", 0); /* error msg */ buf_putstring(ses.writepayload, "", 0); /* lang */ encrypt_packet(); } /* set up a session channel */ static int newchansess(struct Channel *channel) { struct ChanSess *chansess; dropbear_assert(channel->typedata == NULL); chansess = (struct ChanSess*)m_malloc(sizeof(struct ChanSess)); chansess->cmd = NULL; chansess->pid = 0; /* pty details */ chansess->master = -1; chansess->slave = -1; chansess->tty = NULL; chansess->term = NULL; chansess->exit.exitpid = -1; channel->typedata = chansess; #ifndef DISABLE_X11FWD chansess->x11listener = NULL; chansess->x11authprot = NULL; chansess->x11authcookie = NULL; #endif #ifndef DISABLE_AGENTFWD chansess->agentlistener = NULL; chansess->agentfile = NULL; chansess->agentdir = NULL; #endif return 0; } /* clean a session channel */ static void closechansess(struct Channel *channel) { struct ChanSess *chansess; unsigned int i; struct logininfo *li; TRACE(("enter closechansess")) chansess = (struct ChanSess*)channel->typedata; if (chansess == NULL) { TRACE(("leave closechansess: chansess == NULL")) return; } send_exitsignalstatus(channel); m_free(chansess->cmd); m_free(chansess->term); if (chansess->tty) { /* write the utmp/wtmp login record */ li = login_alloc_entry(chansess->pid, ses.authstate.username, ses.remotehost, chansess->tty); login_logout(li); login_free_entry(li); pty_release(chansess->tty); m_free(chansess->tty); } #ifndef DISABLE_X11FWD x11cleanup(chansess); #endif #ifndef DISABLE_AGENTFWD agentcleanup(chansess); #endif /* clear child pid entries */ for (i = 0; i < svr_ses.childpidsize; i++) { if (svr_ses.childpids[i].chansess == chansess) { dropbear_assert(svr_ses.childpids[i].pid > 0); TRACE(("closing pid %d", svr_ses.childpids[i].pid)) TRACE(("exitpid is %d", chansess->exit.exitpid)) svr_ses.childpids[i].pid = -1; svr_ses.childpids[i].chansess = NULL; } } m_free(chansess); TRACE(("leave closechansess")) } /* Handle requests for a channel. These can be execution requests, * or x11/authagent forwarding. These are passed to appropriate handlers */ static void chansessionrequest(struct Channel *channel) { unsigned char * type = NULL; unsigned int typelen; unsigned char wantreply; int ret = 1; struct ChanSess *chansess; TRACE(("enter chansessionrequest")) type = buf_getstring(ses.payload, &typelen); wantreply = buf_getbool(ses.payload); if (typelen > MAX_NAME_LEN) { TRACE(("leave chansessionrequest: type too long")) /* XXX send error?*/ goto out; } chansess = (struct ChanSess*)channel->typedata; dropbear_assert(chansess != NULL); TRACE(("type is %s", type)) if (strcmp(type, "window-change") == 0) { ret = sessionwinchange(chansess); } else if (strcmp(type, "shell") == 0) { ret = sessioncommand(channel, chansess, 0, 0); } else if (strcmp(type, "pty-req") == 0) { ret = sessionpty(chansess); } else if (strcmp(type, "exec") == 0) { ret = sessioncommand(channel, chansess, 1, 0); } else if (strcmp(type, "subsystem") == 0) { ret = sessioncommand(channel, chansess, 1, 1); #ifndef DISABLE_X11FWD } else if (strcmp(type, "x11-req") == 0) { ret = x11req(chansess); #endif #ifndef DISABLE_AGENTFWD } else if (strcmp(type, "[email protected]") == 0) { ret = agentreq(chansess); #endif } else if (strcmp(type, "signal") == 0) { ret = sessionsignal(chansess); } else { /* etc, todo "env", "subsystem" */ } out: if (wantreply) { if (ret == DROPBEAR_SUCCESS) { send_msg_channel_success(channel); } else { send_msg_channel_failure(channel); } } m_free(type); TRACE(("leave chansessionrequest")) } /* Send a signal to a session's process as requested by the client*/ static int sessionsignal(struct ChanSess *chansess) { int sig = 0; unsigned char* signame = NULL; int i; if (chansess->pid == 0) { /* haven't got a process pid yet */ return DROPBEAR_FAILURE; } signame = buf_getstring(ses.payload, NULL); i = 0; while (signames[i].name != 0) { if (strcmp(signames[i].name, signame) == 0) { sig = signames[i].signal; break; } i++; } m_free(signame); if (sig == 0) { /* failed */ return DROPBEAR_FAILURE; } if (kill(chansess->pid, sig) < 0) { return DROPBEAR_FAILURE; } return DROPBEAR_SUCCESS; } /* Let the process know that the window size has changed, as notified from the * client. Returns DROPBEAR_SUCCESS or DROPBEAR_FAILURE */ static int sessionwinchange(struct ChanSess *chansess) { int termc, termr, termw, termh; if (chansess->master < 0) { /* haven't got a pty yet */ return DROPBEAR_FAILURE; } termc = buf_getint(ses.payload); termr = buf_getint(ses.payload); termw = buf_getint(ses.payload); termh = buf_getint(ses.payload); pty_change_window_size(chansess->master, termr, termc, termw, termh); return DROPBEAR_SUCCESS; } static void get_termmodes(struct ChanSess *chansess) { struct termios termio; unsigned char opcode; unsigned int value; const struct TermCode * termcode; unsigned int len; TRACE(("enter get_termmodes")) /* Term modes */ /* We'll ignore errors and continue if we can't set modes. * We're ignoring baud rates since they seem evil */ if (tcgetattr(chansess->master, &termio) == -1) { return; } len = buf_getint(ses.payload); TRACE(("term mode str %d p->l %d p->p %d", len, ses.payload->len , ses.payload->pos)); if (len != ses.payload->len - ses.payload->pos) { dropbear_exit("bad term mode string"); } if (len == 0) { TRACE(("leave get_termmodes: empty terminal modes string")) return; } while (((opcode = buf_getbyte(ses.payload)) != 0x00) && opcode <= 159) { /* must be before checking type, so that value is consumed even if * we don't use it */ value = buf_getint(ses.payload); /* handle types of code */ if (opcode > MAX_TERMCODE) { continue; } termcode = &termcodes[(unsigned int)opcode]; switch (termcode->type) { case TERMCODE_NONE: break; case TERMCODE_CONTROLCHAR: termio.c_cc[termcode->mapcode] = value; break; case TERMCODE_INPUT: if (value) { termio.c_iflag |= termcode->mapcode; } else { termio.c_iflag &= ~(termcode->mapcode); } break; case TERMCODE_OUTPUT: if (value) { termio.c_oflag |= termcode->mapcode; } else { termio.c_oflag &= ~(termcode->mapcode); } break; case TERMCODE_LOCAL: if (value) { termio.c_lflag |= termcode->mapcode; } else { termio.c_lflag &= ~(termcode->mapcode); } break; case TERMCODE_CONTROL: if (value) { termio.c_cflag |= termcode->mapcode; } else { termio.c_cflag &= ~(termcode->mapcode); } break; } } if (tcsetattr(chansess->master, TCSANOW, &termio) < 0) { dropbear_log(LOG_INFO, "error setting terminal attributes"); } TRACE(("leave get_termmodes")) } /* Set up a session pty which will be used to execute the shell or program. * The pty is allocated now, and kept for when the shell/program executes. * Returns DROPBEAR_SUCCESS or DROPBEAR_FAILURE */ static int sessionpty(struct ChanSess * chansess) { unsigned int termlen; unsigned char namebuf[65]; TRACE(("enter sessionpty")) chansess->term = buf_getstring(ses.payload, &termlen); if (termlen > MAX_TERM_LEN) { /* TODO send disconnect ? */ TRACE(("leave sessionpty: term len too long")) return DROPBEAR_FAILURE; } /* allocate the pty */ if (chansess->master != -1) { dropbear_exit("multiple pty requests"); } if (pty_allocate(&chansess->master, &chansess->slave, namebuf, 64) == 0) { TRACE(("leave sessionpty: failed to allocate pty")) return DROPBEAR_FAILURE; } chansess->tty = (char*)m_strdup(namebuf); if (!chansess->tty) { dropbear_exit("out of memory"); /* TODO disconnect */ } pty_setowner(ses.authstate.pw, chansess->tty); /* Set up the rows/col counts */ sessionwinchange(chansess); /* Read the terminal modes */ get_termmodes(chansess); TRACE(("leave sessionpty")) return DROPBEAR_SUCCESS; } /* Handle a command request from the client. This is used for both shell * and command-execution requests, and passes the command to * noptycommand or ptycommand as appropriate. * Returns DROPBEAR_SUCCESS or DROPBEAR_FAILURE */ static int sessioncommand(struct Channel *channel, struct ChanSess *chansess, int iscmd, int issubsys) { unsigned int cmdlen; int ret; TRACE(("enter sessioncommand")) if (chansess->cmd != NULL) { /* Note that only one command can _succeed_. The client might try * one command (which fails), then try another. Ie fallback * from sftp to scp */ return DROPBEAR_FAILURE; } if (iscmd) { /* "exec" */ chansess->cmd = buf_getstring(ses.payload, &cmdlen); if (cmdlen > MAX_CMD_LEN) { m_free(chansess->cmd); /* TODO - send error - too long ? */ return DROPBEAR_FAILURE; } if (issubsys) { #ifdef SFTPSERVER_PATH if ((cmdlen == 4) && strncmp(chansess->cmd, "sftp", 4) == 0) { m_free(chansess->cmd); chansess->cmd = m_strdup(SFTPSERVER_PATH); } else #endif { m_free(chansess->cmd); return DROPBEAR_FAILURE; } } } #ifdef LOG_COMMANDS if (chansess->cmd) { dropbear_log(LOG_INFO, "user %s executing '%s'", ses.authstate.printableuser, chansess->cmd); } else { dropbear_log(LOG_INFO, "user %s executing login shell", ses.authstate.printableuser); } #endif if (chansess->term == NULL) { /* no pty */ ret = noptycommand(channel, chansess); } else { /* want pty */ ret = ptycommand(channel, chansess); } if (ret == DROPBEAR_FAILURE) { m_free(chansess->cmd); } return ret; } /* Execute a command and set up redirection of stdin/stdout/stderr without a * pty. * Returns DROPBEAR_SUCCESS or DROPBEAR_FAILURE */ static int noptycommand(struct Channel *channel, struct ChanSess *chansess) { int infds[2]; int outfds[2]; int errfds[2]; pid_t pid; unsigned int i; TRACE(("enter noptycommand")) /* redirect stdin/stdout/stderr */ if (pipe(infds) != 0) return DROPBEAR_FAILURE; if (pipe(outfds) != 0) return DROPBEAR_FAILURE; if (pipe(errfds) != 0) return DROPBEAR_FAILURE; #ifdef __uClinux__ pid = vfork(); #else pid = fork(); #endif if (pid < 0) return DROPBEAR_FAILURE; if (!pid) { /* child */ TRACE(("back to normal sigchld")) /* Revert to normal sigchld handling */ if (signal(SIGCHLD, SIG_DFL) == SIG_ERR) { dropbear_exit("signal() error"); } /* redirect stdin/stdout */ #define FDIN 0 #define FDOUT 1 if ((dup2(infds[FDIN], STDIN_FILENO) < 0) || (dup2(outfds[FDOUT], STDOUT_FILENO) < 0) || (dup2(errfds[FDOUT], STDERR_FILENO) < 0)) { TRACE(("leave noptycommand: error redirecting FDs")) return DROPBEAR_FAILURE; } close(infds[FDOUT]); close(infds[FDIN]); close(outfds[FDIN]); close(outfds[FDOUT]); close(errfds[FDIN]); close(errfds[FDOUT]); execchild(chansess); /* not reached */ } else { /* parent */ TRACE(("continue noptycommand: parent")) chansess->pid = pid; TRACE(("child pid is %d", pid)) addchildpid(chansess, pid); if (svr_ses.lastexit.exitpid != -1) { TRACE(("parent side: lastexitpid is %d", svr_ses.lastexit.exitpid)) /* The child probably exited and the signal handler triggered * possibly before we got around to adding the childpid. So we fill * out its data manually */ for (i = 0; i < svr_ses.childpidsize; i++) { if (svr_ses.childpids[i].pid == svr_ses.lastexit.exitpid) { TRACE(("found match for lastexitpid")) svr_ses.childpids[i].chansess->exit = svr_ses.lastexit; svr_ses.lastexit.exitpid = -1; } } } close(infds[FDIN]); close(outfds[FDOUT]); close(errfds[FDOUT]); channel->writefd = infds[FDOUT]; channel->readfd = outfds[FDIN]; channel->errfd = errfds[FDIN]; ses.maxfd = MAX(ses.maxfd, channel->writefd); ses.maxfd = MAX(ses.maxfd, channel->readfd); ses.maxfd = MAX(ses.maxfd, channel->errfd); setnonblocking(channel->readfd); setnonblocking(channel->writefd); setnonblocking(channel->errfd); } #undef FDIN #undef FDOUT TRACE(("leave noptycommand")) return DROPBEAR_SUCCESS; } /* Execute a command or shell within a pty environment, and set up * redirection as appropriate. * Returns DROPBEAR_SUCCESS or DROPBEAR_FAILURE */ static int ptycommand(struct Channel *channel, struct ChanSess *chansess) { pid_t pid; struct logininfo *li = NULL; #ifdef DO_MOTD buffer * motdbuf = NULL; int len; struct stat sb; char *hushpath = NULL; #endif TRACE(("enter ptycommand")) /* we need to have a pty allocated */ if (chansess->master == -1 || chansess->tty == NULL) { dropbear_log(LOG_WARNING, "no pty was allocated, couldn't execute"); return DROPBEAR_FAILURE; } #ifdef __uClinux__ pid = vfork(); #else pid = fork(); #endif if (pid < 0) return DROPBEAR_FAILURE; if (pid == 0) { /* child */ TRACE(("back to normal sigchld")) /* Revert to normal sigchld handling */ if (signal(SIGCHLD, SIG_DFL) == SIG_ERR) { dropbear_exit("signal() error"); } /* redirect stdin/stdout/stderr */ close(chansess->master); pty_make_controlling_tty(&chansess->slave, chansess->tty); if ((dup2(chansess->slave, STDIN_FILENO) < 0) || (dup2(chansess->slave, STDERR_FILENO) < 0) || (dup2(chansess->slave, STDOUT_FILENO) < 0)) { TRACE(("leave ptycommand: error redirecting filedesc")) return DROPBEAR_FAILURE; } close(chansess->slave); /* write the utmp/wtmp login record - must be after changing the * terminal used for stdout with the dup2 above */ li= login_alloc_entry(getpid(), ses.authstate.username, ses.remotehost, chansess->tty); login_login(li); login_free_entry(li); m_free(chansess->tty); #ifdef DO_MOTD if (svr_opts.domotd) { /* don't show the motd if ~/.hushlogin exists */ /* 11 == strlen("/hushlogin\0") */ len = strlen(ses.authstate.pw->pw_dir) + 11; hushpath = m_malloc(len); snprintf(hushpath, len, "%s/hushlogin", ses.authstate.pw->pw_dir); if (stat(hushpath, &sb) < 0) { /* more than a screenful is stupid IMHO */ motdbuf = buf_new(80 * 25); if (buf_readfile(motdbuf, MOTD_FILENAME) == DROPBEAR_SUCCESS) { buf_setpos(motdbuf, 0); while (motdbuf->pos != motdbuf->len) { len = motdbuf->len - motdbuf->pos; len = write(STDOUT_FILENO, buf_getptr(motdbuf, len), len); buf_incrpos(motdbuf, len); } } buf_free(motdbuf); } m_free(hushpath); } #endif /* DO_MOTD */ execchild(chansess); /* not reached */ } else { /* parent */ TRACE(("continue ptycommand: parent")) chansess->pid = pid; /* add a child pid */ addchildpid(chansess, pid); close(chansess->slave); channel->writefd = chansess->master; channel->readfd = chansess->master; /* don't need to set stderr here */ ses.maxfd = MAX(ses.maxfd, chansess->master); setnonblocking(chansess->master); } TRACE(("leave ptycommand")) return DROPBEAR_SUCCESS; } /* Add the pid of a child to the list for exit-handling */ static void addchildpid(struct ChanSess *chansess, pid_t pid) { unsigned int i; for (i = 0; i < svr_ses.childpidsize; i++) { if (svr_ses.childpids[i].pid == -1) { break; } } /* need to increase size */ if (i == svr_ses.childpidsize) { svr_ses.childpids = (struct ChildPid*)m_realloc(svr_ses.childpids, sizeof(struct ChildPid) * (svr_ses.childpidsize+1)); svr_ses.childpidsize++; } svr_ses.childpids[i].pid = pid; svr_ses.childpids[i].chansess = chansess; } /* Clean up, drop to user privileges, set up the environment and execute * the command/shell. This function does not return. */ static void execchild(struct ChanSess *chansess) { char *argv[4]; char * usershell = NULL; char * baseshell = NULL; unsigned int i; /* with uClinux we'll have vfork()ed, so don't want to overwrite the * hostkey. can't think of a workaround to clear it */ #ifndef __uClinux__ /* wipe the hostkey */ sign_key_free(svr_opts.hostkey); svr_opts.hostkey = NULL; /* overwrite the prng state */ reseedrandom(); #endif /* close file descriptors except stdin/stdout/stderr * Need to be sure FDs are closed here to avoid reading files as root */ for (i = 3; i <= (unsigned int)ses.maxfd; i++) { m_close(i); } /* clear environment */ /* if we're debugging using valgrind etc, we need to keep the LD_PRELOAD * etc. This is hazardous, so should only be used for debugging. */ #ifndef DEBUG_VALGRIND #ifdef HAVE_CLEARENV clearenv(); #else /* don't HAVE_CLEARENV */ /* Yay for posix. */ if (environ) { environ[0] = NULL; } #endif /* HAVE_CLEARENV */ #endif /* DEBUG_VALGRIND */ /* We can only change uid/gid as root ... */ if (getuid() == 0) { if ((setgid(ses.authstate.pw->pw_gid) < 0) || (initgroups(ses.authstate.pw->pw_name, ses.authstate.pw->pw_gid) < 0)) { dropbear_exit("error changing user group"); } if (setuid(ses.authstate.pw->pw_uid) < 0) { dropbear_exit("error changing user"); } } else { /* ... but if the daemon is the same uid as the requested uid, we don't * need to */ /* XXX - there is a minor issue here, in that if there are multiple * usernames with the same uid, but differing groups, then the * differing groups won't be set (as with initgroups()). The solution * is for the sysadmin not to give out the UID twice */ if (getuid() != ses.authstate.pw->pw_uid) { dropbear_exit("couldn't change user as non-root"); } } /* an empty shell should be interpreted as "/bin/sh" */ if (ses.authstate.pw->pw_shell[0] == '\0') { usershell = "/bin/sh"; } else { usershell = ses.authstate.pw->pw_shell; } /* set env vars */ addnewvar("USER", ses.authstate.pw->pw_name); addnewvar("LOGNAME", ses.authstate.pw->pw_name); addnewvar("HOME", ses.authstate.pw->pw_dir); addnewvar("SHELL", usershell); if (chansess->term != NULL) { addnewvar("TERM", chansess->term); } /* change directory */ if (chdir(ses.authstate.pw->pw_dir) < 0) { dropbear_exit("error changing directory"); } #ifndef DISABLE_X11FWD /* set up X11 forwarding if enabled */ x11setauth(chansess); #endif #ifndef DISABLE_AGENTFWD /* set up agent env variable */ agentset(chansess); #endif /* Re-enable SIGPIPE for the executed process */ if (signal(SIGPIPE, SIG_DFL) == SIG_ERR) { dropbear_exit("signal() error"); } baseshell = basename(usershell); if (chansess->cmd != NULL) { argv[0] = baseshell; } else { /* a login shell should be "-bash" for "/bin/bash" etc */ int len = strlen(baseshell) + 2; /* 2 for "-" */ argv[0] = (char*)m_malloc(len); snprintf(argv[0], len, "-%s", baseshell); } if (chansess->cmd != NULL) { argv[1] = "-c"; argv[2] = chansess->cmd; argv[3] = NULL; } else { /* construct a shell of the form "-bash" etc */ argv[1] = NULL; } execv(usershell, argv); /* only reached on error */ dropbear_exit("child failed"); } const struct ChanType svrchansess = { 0, /* sepfds */ "session", /* name */ newchansess, /* inithandler */ sesscheckclose, /* checkclosehandler */ chansessionrequest, /* reqhandler */ closechansess, /* closehandler */ }; /* Set up the general chansession environment, in particular child-exit * handling */ void svr_chansessinitialise() { struct sigaction sa_chld; /* single child process intially */ svr_ses.childpids = (struct ChildPid*)m_malloc(sizeof(struct ChildPid)); svr_ses.childpids[0].pid = -1; /* unused */ svr_ses.childpids[0].chansess = NULL; svr_ses.childpidsize = 1; svr_ses.lastexit.exitpid = -1; /* Nothing has exited yet */ sa_chld.sa_handler = sesssigchild_handler; sa_chld.sa_flags = SA_NOCLDSTOP; if (sigaction(SIGCHLD, &sa_chld, NULL) < 0) { dropbear_exit("signal() error"); } } /* add a new environment variable, allocating space for the entry */ void addnewvar(const char* param, const char* var) { char* newvar = NULL; int plen, vlen; plen = strlen(param); vlen = strlen(var); newvar = m_malloc(plen + vlen + 2); /* 2 is for '=' and '\0' */ memcpy(newvar, param, plen); newvar[plen] = '='; memcpy(&newvar[plen+1], var, vlen); newvar[plen+vlen+1] = '\0'; /* newvar is leaked here, but that's part of putenv()'s semantics */ if (putenv(newvar) < 0) { dropbear_exit("environ error"); } }