Mercurial > dropbear
view common-channel.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 | ab370c629d36 |
children | 9c61e7af0156 |
line wrap: on
line source
/* * Dropbear SSH * * Copyright (c) 2002-2004 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. */ /* Handle the multiplexed channels, such as sessions, x11, agent connections */ #include "includes.h" #include "session.h" #include "packet.h" #include "ssh.h" #include "buffer.h" #include "circbuffer.h" #include "dbutil.h" #include "channel.h" #include "ssh.h" #include "listener.h" static void send_msg_channel_open_failure(unsigned int remotechan, int reason, const unsigned char *text, const unsigned char *lang); static void send_msg_channel_open_confirmation(struct Channel* channel, unsigned int recvwindow, unsigned int recvmaxpacket); static void writechannel(struct Channel* channel, int fd, circbuffer *cbuf); static void send_msg_channel_window_adjust(struct Channel *channel, unsigned int incr); static void send_msg_channel_data(struct Channel *channel, int isextended); static void send_msg_channel_eof(struct Channel *channel); static void send_msg_channel_close(struct Channel *channel); static void remove_channel(struct Channel *channel); static void delete_channel(struct Channel *channel); static void check_in_progress(struct Channel *channel); static unsigned int write_pending(struct Channel * channel); static void check_close(struct Channel *channel); static void close_chan_fd(struct Channel *channel, int fd, int how); #define FD_UNINIT (-2) #define FD_CLOSED (-1) #define ERRFD_IS_READ(channel) ((channel)->extrabuf == NULL) #define ERRFD_IS_WRITE(channel) (!ERRFD_IS_READ(channel)) /* Initialise all the channels */ void chaninitialise(const struct ChanType *chantypes[]) { /* may as well create space for a single channel */ ses.channels = (struct Channel**)m_malloc(sizeof(struct Channel*)); ses.chansize = 1; ses.channels[0] = NULL; ses.chancount = 0; ses.chantypes = chantypes; #ifdef USING_LISTENERS listeners_initialise(); #endif } /* Clean up channels, freeing allocated memory */ void chancleanup() { unsigned int i; TRACE(("enter chancleanup")) for (i = 0; i < ses.chansize; i++) { if (ses.channels[i] != NULL) { TRACE(("channel %d closing", i)) remove_channel(ses.channels[i]); } } m_free(ses.channels); TRACE(("leave chancleanup")) } /* Create a new channel entry, send a reply confirm or failure */ /* If remotechan, transwindow and transmaxpacket are not know (for a new * outgoing connection, with them to be filled on confirmation), they should * all be set to 0 */ struct Channel* newchannel(unsigned int remotechan, const struct ChanType *type, unsigned int transwindow, unsigned int transmaxpacket) { struct Channel * newchan; unsigned int i, j; TRACE(("enter newchannel")) /* first see if we can use existing channels */ for (i = 0; i < ses.chansize; i++) { if (ses.channels[i] == NULL) { break; } } /* otherwise extend the list */ if (i == ses.chansize) { if (ses.chansize >= MAX_CHANNELS) { TRACE(("leave newchannel: max chans reached")) return NULL; } /* extend the channels */ ses.channels = (struct Channel**)m_realloc(ses.channels, (ses.chansize+CHAN_EXTEND_SIZE)*sizeof(struct Channel*)); ses.chansize += CHAN_EXTEND_SIZE; /* set the new channels to null */ for (j = i; j < ses.chansize; j++) { ses.channels[j] = NULL; } } newchan = (struct Channel*)m_malloc(sizeof(struct Channel)); newchan->type = type; newchan->index = i; newchan->sent_close = newchan->recv_close = 0; newchan->sent_eof = newchan->recv_eof = 0; newchan->remotechan = remotechan; newchan->transwindow = transwindow; newchan->transmaxpacket = transmaxpacket; newchan->typedata = NULL; newchan->writefd = FD_UNINIT; newchan->readfd = FD_UNINIT; newchan->errfd = FD_CLOSED; /* this isn't always set to start with */ newchan->initconn = 0; newchan->await_open = 0; newchan->flushing = 0; newchan->writebuf = cbuf_new(RECV_MAXWINDOW); newchan->extrabuf = NULL; /* The user code can set it up */ newchan->recvwindow = RECV_MAXWINDOW; newchan->recvdonelen = 0; newchan->recvmaxpacket = RECV_MAXPACKET; ses.channels[i] = newchan; ses.chancount++; TRACE(("leave newchannel")) return newchan; } /* Returns the channel structure corresponding to the channel in the current * data packet (ses.payload must be positioned appropriately). * A valid channel is always returns, it will fail fatally with an unknown * channel */ static struct Channel* getchannel_msg(const char* kind) { unsigned int chan; chan = buf_getint(ses.payload); if (chan >= ses.chansize || ses.channels[chan] == NULL) { if (kind) { dropbear_exit("%s for unknown channel %d", kind, chan); } else { dropbear_exit("Unknown channel %d", chan); } } return ses.channels[chan]; } struct Channel* getchannel() { return getchannel_msg(NULL); } /* Iterate through the channels, performing IO if available */ void channelio(fd_set *readfds, fd_set *writefds) { struct Channel *channel; unsigned int i; /* foreach channel */ for (i = 0; i < ses.chansize; i++) { channel = ses.channels[i]; if (channel == NULL) { /* only process in-use channels */ continue; } /* read data and send it over the wire */ if (channel->readfd >= 0 && FD_ISSET(channel->readfd, readfds)) { TRACE(("send normal readfd")) send_msg_channel_data(channel, 0); } /* read stderr data and send it over the wire */ if (ERRFD_IS_READ(channel) && channel->errfd >= 0 && FD_ISSET(channel->errfd, readfds)) { TRACE(("send normal errfd")) send_msg_channel_data(channel, 1); } /* write to program/pipe stdin */ if (channel->writefd >= 0 && FD_ISSET(channel->writefd, writefds)) { if (channel->initconn) { /* XXX should this go somewhere cleaner? */ check_in_progress(channel); continue; /* Important not to use the channel after check_in_progress(), as it may be NULL */ } writechannel(channel, channel->writefd, channel->writebuf); } /* stderr for client mode */ if (ERRFD_IS_WRITE(channel) && channel->errfd >= 0 && FD_ISSET(channel->errfd, writefds)) { writechannel(channel, channel->errfd, channel->extrabuf); } /* handle any channel closing etc */ check_close(channel); } /* Listeners such as TCP, X11, agent-auth */ #ifdef USING_LISTENERS handle_listeners(readfds); #endif } /* Returns true if there is data remaining to be written to stdin or * stderr of a channel's endpoint. */ static unsigned int write_pending(struct Channel * channel) { if (channel->writefd >= 0 && cbuf_getused(channel->writebuf) > 0) { return 1; } else if (channel->errfd >= 0 && channel->extrabuf && cbuf_getused(channel->extrabuf) > 0) { return 1; } return 0; } /* EOF/close handling */ static void check_close(struct Channel *channel) { TRACE(("check_close: writefd %d, readfd %d, errfd %d, sent_close %d, recv_close %d", channel->writefd, channel->readfd, channel->errfd, channel->sent_close, channel->recv_close)) TRACE(("writebuf size %d extrabuf size %d", cbuf_getused(channel->writebuf), channel->extrabuf ? cbuf_getused(channel->extrabuf) : 0)) if (!channel->flushing && channel->type->check_close && channel->type->check_close(channel)) { channel->flushing = 1; } if (channel->recv_close && !write_pending(channel)) { if (!channel->sent_close) { TRACE(("Sending MSG_CHANNEL_CLOSE in response to same.")) send_msg_channel_close(channel); } remove_channel(channel); return; } if (channel->recv_eof && !write_pending(channel)) { close_chan_fd(channel, channel->writefd, SHUT_WR); } /* Special handling for flushing read data after an exit. We read regardless of whether the select FD was set, and if there isn't data available, the channel will get closed. */ if (channel->flushing) { TRACE(("might send data, flushing")) if (channel->readfd >= 0 && channel->transwindow > 0) { TRACE(("send data readfd")) send_msg_channel_data(channel, 0); } if (ERRFD_IS_READ(channel) && channel->errfd >= 0 && channel->transwindow > 0) { TRACE(("send data errfd")) send_msg_channel_data(channel, 1); } } /* If we're not going to send any more data, send EOF */ if (!channel->sent_eof && channel->readfd == FD_CLOSED && (ERRFD_IS_WRITE(channel) || channel->errfd == FD_CLOSED)) { send_msg_channel_eof(channel); } /* And if we can't receive any more data from them either, close up */ if (!channel->sent_close && channel->readfd == FD_CLOSED && (ERRFD_IS_WRITE(channel) || channel->errfd == FD_CLOSED) && !write_pending(channel)) { TRACE(("sending close, readfd is closed")) send_msg_channel_close(channel); } } /* Check whether a deferred (EINPROGRESS) connect() was successful, and * if so, set up the channel properly. Otherwise, the channel is cleaned up, so * it is important that the channel reference isn't used after a call to this * function */ static void check_in_progress(struct Channel *channel) { int val; socklen_t vallen = sizeof(val); TRACE(("enter check_in_progress")) if (getsockopt(channel->writefd, SOL_SOCKET, SO_ERROR, &val, &vallen) || val != 0) { send_msg_channel_open_failure(channel->remotechan, SSH_OPEN_CONNECT_FAILED, "", ""); close(channel->writefd); delete_channel(channel); TRACE(("leave check_in_progress: fail")) } else { send_msg_channel_open_confirmation(channel, channel->recvwindow, channel->recvmaxpacket); channel->readfd = channel->writefd; channel->initconn = 0; TRACE(("leave check_in_progress: success")) } } /* Send the close message and set the channel as closed */ static void send_msg_channel_close(struct Channel *channel) { TRACE(("enter send_msg_channel_close")) if (channel->type->closehandler) { channel->type->closehandler(channel); } CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_CLOSE); buf_putint(ses.writepayload, channel->remotechan); encrypt_packet(); channel->sent_eof = 1; channel->sent_close = 1; close_chan_fd(channel, channel->readfd, SHUT_RD); close_chan_fd(channel, channel->errfd, SHUT_RDWR); close_chan_fd(channel, channel->writefd, SHUT_WR); TRACE(("leave send_msg_channel_close")) } /* call this when trans/eof channels are closed */ static void send_msg_channel_eof(struct Channel *channel) { TRACE(("enter send_msg_channel_eof")) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_EOF); buf_putint(ses.writepayload, channel->remotechan); encrypt_packet(); channel->sent_eof = 1; TRACE(("leave send_msg_channel_eof")) } /* Called to write data out to the local side of the channel. * Only called when we know we can write to a channel, writes as much as * possible */ static void writechannel(struct Channel* channel, int fd, circbuffer *cbuf) { int len, maxlen; TRACE(("enter writechannel fd %d", fd)) maxlen = cbuf_readlen(cbuf); /* Write the data out */ len = write(fd, cbuf_readptr(cbuf, maxlen), maxlen); if (len <= 0) { TRACE(("errno %d len %d", errno, len)) if (len < 0 && errno != EINTR) { close_chan_fd(channel, fd, SHUT_WR); } TRACE(("leave writechannel: len <= 0")) return; } TRACE(("writechannel wrote %d", len)) cbuf_incrread(cbuf, len); channel->recvdonelen += len; /* Window adjust handling */ if (channel->recvdonelen >= RECV_WINDOWEXTEND) { /* Set it back to max window */ send_msg_channel_window_adjust(channel, channel->recvdonelen); channel->recvwindow += channel->recvdonelen; channel->recvdonelen = 0; } dropbear_assert(channel->recvwindow <= RECV_MAXWINDOW); dropbear_assert(channel->recvwindow <= cbuf_getavail(channel->writebuf)); dropbear_assert(channel->extrabuf == NULL || channel->recvwindow <= cbuf_getavail(channel->extrabuf)); TRACE(("leave writechannel")) } /* Set the file descriptors for the main select in session.c * This avoid channels which don't have any window available, are closed, etc*/ void setchannelfds(fd_set *readfds, fd_set *writefds) { unsigned int i; struct Channel * channel; for (i = 0; i < ses.chansize; i++) { channel = ses.channels[i]; if (channel == NULL) { continue; } /* Stuff to put over the wire */ if (channel->transwindow > 0) { if (channel->readfd >= 0) { FD_SET(channel->readfd, readfds); } if (ERRFD_IS_READ(channel) && channel->errfd >= 0) { FD_SET(channel->errfd, readfds); } } /* Stuff from the wire */ if ((channel->writefd >= 0 && cbuf_getused(channel->writebuf) > 0 ) || channel->initconn) { FD_SET(channel->writefd, writefds); } if (ERRFD_IS_WRITE(channel) && channel->errfd >= 0 && cbuf_getused(channel->extrabuf) > 0 ) { FD_SET(channel->errfd, writefds); } } /* foreach channel */ #ifdef USING_LISTENERS set_listener_fds(readfds); #endif } /* handle the channel EOF event, by closing the channel filedescriptor. The * channel isn't closed yet, it is left until the incoming (from the program * etc) FD is also EOF */ void recv_msg_channel_eof() { struct Channel * channel; TRACE(("enter recv_msg_channel_eof")) channel = getchannel_msg("EOF"); channel->recv_eof = 1; check_close(channel); TRACE(("leave recv_msg_channel_eof")) } /* Handle channel closure(), respond in kind and close the channels */ void recv_msg_channel_close() { struct Channel * channel; TRACE(("enter recv_msg_channel_close")) channel = getchannel_msg("Close"); channel->recv_eof = 1; channel->recv_close = 1; check_close(channel); TRACE(("leave recv_msg_channel_close")) } /* Remove a channel entry, this is only executed after both sides have sent * channel close */ static void remove_channel(struct Channel * channel) { TRACE(("enter remove_channel")) TRACE(("channel index is %d", channel->index)) cbuf_free(channel->writebuf); channel->writebuf = NULL; if (channel->extrabuf) { cbuf_free(channel->extrabuf); channel->extrabuf = NULL; } /* close the FDs in case they haven't been done * yet (they might have been shutdown etc) */ TRACE(("CLOSE writefd %d", channel->writefd)) close(channel->writefd); TRACE(("CLOSE readfd %d", channel->readfd)) close(channel->readfd); TRACE(("CLOSE errfd %d", channel->errfd)) close(channel->errfd); channel->typedata = NULL; delete_channel(channel); TRACE(("leave remove_channel")) } /* Remove a channel entry */ static void delete_channel(struct Channel *channel) { ses.channels[channel->index] = NULL; m_free(channel); ses.chancount--; } /* Handle channel specific requests, passing off to corresponding handlers * such as chansession or x11fwd */ void recv_msg_channel_request() { struct Channel *channel; TRACE(("enter recv_msg_channel_request")) channel = getchannel(); if (channel->type->reqhandler) { channel->type->reqhandler(channel); } else { send_msg_channel_failure(channel); } TRACE(("leave recv_msg_channel_request")) } /* Reads data from the server's program/shell/etc, and puts it in a * channel_data packet to send. * chan is the remote channel, isextended is 0 if it is normal data, 1 * if it is extended data. if it is extended, then the type is in * exttype */ static void send_msg_channel_data(struct Channel *channel, int isextended) { int len; size_t maxlen, size_pos; int fd; CHECKCLEARTOWRITE(); TRACE(("enter send_msg_channel_data")) dropbear_assert(!channel->sent_close); if (isextended) { fd = channel->errfd; } else { fd = channel->readfd; } TRACE(("enter send_msg_channel_data isextended %d fd %d", isextended, fd)) dropbear_assert(fd >= 0); maxlen = MIN(channel->transwindow, channel->transmaxpacket); /* -(1+4+4) is SSH_MSG_CHANNEL_DATA, channel number, string length, and * exttype if is extended */ maxlen = MIN(maxlen, ses.writepayload->size - 1 - 4 - 4 - (isextended ? 4 : 0)); TRACE(("maxlen %d", maxlen)) if (maxlen == 0) { TRACE(("leave send_msg_channel_data: no window")) return; } buf_putbyte(ses.writepayload, isextended ? SSH_MSG_CHANNEL_EXTENDED_DATA : SSH_MSG_CHANNEL_DATA); buf_putint(ses.writepayload, channel->remotechan); if (isextended) { buf_putint(ses.writepayload, SSH_EXTENDED_DATA_STDERR); } /* a dummy size first ...*/ size_pos = ses.writepayload->pos; buf_putint(ses.writepayload, 0); /* read the data */ len = read(fd, buf_getwriteptr(ses.writepayload, maxlen), maxlen); if (len <= 0) { if (len == 0 || errno != EINTR) { /* This will also get hit in the case of EAGAIN. The only time we expect to receive EAGAIN is when we're flushing a FD, in which case it can be treated the same as EOF */ close_chan_fd(channel, fd, SHUT_RD); } ses.writepayload->len = ses.writepayload->pos = 0; TRACE(("leave send_msg_channel_data: len %d read err %d or EOF for fd %d", len, errno, fd)) return; } buf_incrwritepos(ses.writepayload, len); /* ... real size here */ buf_setpos(ses.writepayload, size_pos); buf_putint(ses.writepayload, len); channel->transwindow -= len; encrypt_packet(); /* If we receive less data than we requested when flushing, we've reached the equivalent of EOF */ if (channel->flushing && len < (ssize_t)maxlen) { TRACE(("closing from channel, flushing out.")) close_chan_fd(channel, fd, SHUT_RD); } TRACE(("leave send_msg_channel_data")) } /* We receive channel data */ void recv_msg_channel_data() { struct Channel *channel; channel = getchannel(); common_recv_msg_channel_data(channel, channel->writefd, channel->writebuf); } /* Shared for data and stderr data - when we receive data, put it in a buffer * for writing to the local file descriptor */ void common_recv_msg_channel_data(struct Channel *channel, int fd, circbuffer * cbuf) { unsigned int datalen; unsigned int maxdata; unsigned int buflen; unsigned int len; TRACE(("enter recv_msg_channel_data")) if (channel->recv_eof) { dropbear_exit("received data after eof"); } if (fd < 0) { /* If we have encountered failed write, the far side might still * be sending data without having yet received our close notification. * We just drop the data. */ return; } datalen = buf_getint(ses.payload); TRACE(("length %d", datalen)) maxdata = cbuf_getavail(cbuf); /* Whilst the spec says we "MAY ignore data past the end" this could * lead to corrupted file transfers etc (chunks missed etc). It's better to * just die horribly */ if (datalen > maxdata) { dropbear_exit("Oversized packet"); } /* We may have to run throught twice, if the buffer wraps around. Can't * just "leave it for next time" like with writechannel, since this * is payload data */ len = datalen; while (len > 0) { buflen = cbuf_writelen(cbuf); buflen = MIN(buflen, len); memcpy(cbuf_writeptr(cbuf, buflen), buf_getptr(ses.payload, buflen), buflen); cbuf_incrwrite(cbuf, buflen); buf_incrpos(ses.payload, buflen); len -= buflen; } dropbear_assert(channel->recvwindow >= datalen); channel->recvwindow -= datalen; dropbear_assert(channel->recvwindow <= RECV_MAXWINDOW); TRACE(("leave recv_msg_channel_data")) } /* Increment the outgoing data window for a channel - the remote end limits * the amount of data which may be transmitted, this window is decremented * as data is sent, and incremented upon receiving window-adjust messages */ void recv_msg_channel_window_adjust() { struct Channel * channel; unsigned int incr; channel = getchannel(); incr = buf_getint(ses.payload); TRACE(("received window increment %d", incr)) incr = MIN(incr, MAX_TRANS_WIN_INCR); channel->transwindow += incr; channel->transwindow = MIN(channel->transwindow, MAX_TRANS_WINDOW); } /* Increment the incoming data window for a channel, and let the remote * end know */ static void send_msg_channel_window_adjust(struct Channel* channel, unsigned int incr) { TRACE(("sending window adjust %d", incr)) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_WINDOW_ADJUST); buf_putint(ses.writepayload, channel->remotechan); buf_putint(ses.writepayload, incr); encrypt_packet(); } /* Handle a new channel request, performing any channel-type-specific setup */ void recv_msg_channel_open() { unsigned char *type; unsigned int typelen; unsigned int remotechan, transwindow, transmaxpacket; struct Channel *channel; const struct ChanType **cp; const struct ChanType *chantype; unsigned int errtype = SSH_OPEN_UNKNOWN_CHANNEL_TYPE; int ret; TRACE(("enter recv_msg_channel_open")) /* get the packet contents */ type = buf_getstring(ses.payload, &typelen); remotechan = buf_getint(ses.payload); transwindow = buf_getint(ses.payload); transwindow = MIN(transwindow, MAX_TRANS_WINDOW); transmaxpacket = buf_getint(ses.payload); transmaxpacket = MIN(transmaxpacket, MAX_TRANS_PAYLOAD_LEN); /* figure what type of packet it is */ if (typelen > MAX_NAME_LEN) { goto failure; } /* Get the channel type. Client and server style invokation will set up a * different list for ses.chantypes at startup. We just iterate through * this list and find the matching name */ for (cp = &ses.chantypes[0], chantype = (*cp); chantype != NULL; cp++, chantype = (*cp)) { if (strcmp(type, chantype->name) == 0) { break; } } if (chantype == NULL) { TRACE(("No matching type for '%s'", type)) goto failure; } TRACE(("matched type '%s'", type)) /* create the channel */ channel = newchannel(remotechan, chantype, transwindow, transmaxpacket); if (channel == NULL) { TRACE(("newchannel returned NULL")) goto failure; } if (channel->type->inithandler) { ret = channel->type->inithandler(channel); if (ret == SSH_OPEN_IN_PROGRESS) { /* We'll send the confirmation later */ goto cleanup; } if (ret > 0) { errtype = ret; delete_channel(channel); TRACE(("inithandler returned failure %d", ret)) goto failure; } } /* success */ send_msg_channel_open_confirmation(channel, channel->recvwindow, channel->recvmaxpacket); goto cleanup; failure: TRACE(("recv_msg_channel_open failure")) send_msg_channel_open_failure(remotechan, errtype, "", ""); cleanup: m_free(type); TRACE(("leave recv_msg_channel_open")) } /* Send a failure message */ void send_msg_channel_failure(struct Channel *channel) { TRACE(("enter send_msg_channel_failure")) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_FAILURE); buf_putint(ses.writepayload, channel->remotechan); encrypt_packet(); TRACE(("leave send_msg_channel_failure")) } /* Send a success message */ void send_msg_channel_success(struct Channel *channel) { TRACE(("enter send_msg_channel_success")) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_SUCCESS); buf_putint(ses.writepayload, channel->remotechan); encrypt_packet(); TRACE(("leave send_msg_channel_success")) } /* Send a channel open failure message, with a corresponding reason * code (usually resource shortage or unknown chan type) */ static void send_msg_channel_open_failure(unsigned int remotechan, int reason, const unsigned char *text, const unsigned char *lang) { TRACE(("enter send_msg_channel_open_failure")) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_OPEN_FAILURE); buf_putint(ses.writepayload, remotechan); buf_putint(ses.writepayload, reason); buf_putstring(ses.writepayload, text, strlen((char*)text)); buf_putstring(ses.writepayload, lang, strlen((char*)lang)); encrypt_packet(); TRACE(("leave send_msg_channel_open_failure")) } /* Confirm a channel open, and let the remote end know what number we've * allocated and the receive parameters */ static void send_msg_channel_open_confirmation(struct Channel* channel, unsigned int recvwindow, unsigned int recvmaxpacket) { TRACE(("enter send_msg_channel_open_confirmation")) CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_OPEN_CONFIRMATION); buf_putint(ses.writepayload, channel->remotechan); buf_putint(ses.writepayload, channel->index); buf_putint(ses.writepayload, recvwindow); buf_putint(ses.writepayload, recvmaxpacket); encrypt_packet(); TRACE(("leave send_msg_channel_open_confirmation")) } /* close a fd, how is SHUT_RD or SHUT_WR */ static void close_chan_fd(struct Channel *channel, int fd, int how) { int closein = 0, closeout = 0; if (channel->type->sepfds) { TRACE(("SHUTDOWN(%d, %d)", fd, how)) shutdown(fd, how); if (how == 0) { closeout = 1; } else { closein = 1; } } else { TRACE(("CLOSE some fd %d", fd)) close(fd); closein = closeout = 1; } if (closeout && (fd == channel->readfd)) { channel->readfd = FD_CLOSED; } if (closeout && ERRFD_IS_READ(channel) && (fd == channel->errfd)) { channel->errfd = FD_CLOSED; } if (closein && fd == channel->writefd) { channel->writefd = FD_CLOSED; } if (closein && ERRFD_IS_WRITE(channel) && (fd == channel->errfd)) { channel->errfd = FD_CLOSED; } /* if we called shutdown on it and all references are gone, then we * need to close() it to stop it lingering */ if (channel->type->sepfds && channel->readfd == FD_CLOSED && channel->writefd == FD_CLOSED && channel->errfd == FD_CLOSED) { TRACE(("CLOSE (finally) of %d", fd)) close(fd); } } #if defined(USING_LISTENERS) || defined(DROPBEAR_CLIENT) /* Create a new channel, and start the open request. This is intended * for X11, agent, tcp forwarding, and should be filled with channel-specific * options, with the calling function calling encrypt_packet() after * completion. It is mandatory for the caller to encrypt_packet() if * DROPBEAR_SUCCESS is returned */ int send_msg_channel_open_init(int fd, const struct ChanType *type) { struct Channel* chan; TRACE(("enter send_msg_channel_open_init()")) chan = newchannel(0, type, 0, 0); if (!chan) { TRACE(("leave send_msg_channel_open_init() - FAILED in newchannel()")) return DROPBEAR_FAILURE; } /* set fd non-blocking */ setnonblocking(fd); chan->writefd = chan->readfd = fd; ses.maxfd = MAX(ses.maxfd, fd); chan->await_open = 1; /* now open the channel connection */ CHECKCLEARTOWRITE(); buf_putbyte(ses.writepayload, SSH_MSG_CHANNEL_OPEN); buf_putstring(ses.writepayload, type->name, strlen(type->name)); buf_putint(ses.writepayload, chan->index); buf_putint(ses.writepayload, RECV_MAXWINDOW); buf_putint(ses.writepayload, RECV_MAXPACKET); TRACE(("leave send_msg_channel_open_init()")) return DROPBEAR_SUCCESS; } /* Confirmation that our channel open request (for forwardings) was * successful*/ void recv_msg_channel_open_confirmation() { struct Channel * channel; int ret; TRACE(("enter recv_msg_channel_open_confirmation")) channel = getchannel(); if (!channel->await_open) { dropbear_exit("unexpected channel reply"); } channel->await_open = 0; channel->remotechan = buf_getint(ses.payload); channel->transwindow = buf_getint(ses.payload); channel->transmaxpacket = buf_getint(ses.payload); TRACE(("new chan remote %d local %d", channel->remotechan, channel->index)) /* Run the inithandler callback */ if (channel->type->inithandler) { ret = channel->type->inithandler(channel); if (ret > 0) { remove_channel(channel); TRACE(("inithandler returned failure %d", ret)) } } TRACE(("leave recv_msg_channel_open_confirmation")) } /* Notification that our channel open request failed */ void recv_msg_channel_open_failure() { struct Channel * channel; channel = getchannel(); if (!channel->await_open) { dropbear_exit("unexpected channel reply"); } channel->await_open = 0; remove_channel(channel); } #endif /* USING_LISTENERS */