/************************************************************************* * (C) 2010 AITNET ltd - Sofia/Bulgaria - * by Michael Pounov * * $Author: misho $ * $Id: telnet.c,v 1.3 2012/07/22 22:37:08 misho Exp $ * ************************************************************************** The ELWIX and AITNET software is distributed under the following terms: All of the documentation and software included in the ELWIX and AITNET Releases is copyrighted by ELWIX - Sofia/Bulgaria Copyright 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012 by Michael Pounov . All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. All advertising materials mentioning features or use of this software must display the following acknowledgement: This product includes software developed by Michael Pounov ELWIX - Embedded LightWeight unIX and its contributors. 4. Neither the name of AITNET nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY AITNET AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef NDEBUG #define TELOPTS #define TELCMDS #endif #include "global.h" /* * cli_telnetRecv() Telnet receive commands, negotiate with telnet peer * @sock = socket for communication * @attr = received attributes list, must be free after use, but if NULL receive in binary mode * @nAttr = received attributes list size, if is NULL receive in binary mode * @pdata = received data in supplied buffer * @datLen = buffer pdata size * return: 0 not present data; -1 error:: can`t read; -2 timeout; -3 EOF; >0 number of received bytes */ int cli_telnetRecv(int sock, struct telnetAttrs **attr, int *nAttr, void *pdata, int datLen) { int readLen, ret, pos; u_char buf[BUFSIZ], *data = NULL; struct telnetAttrs ta; register int i; #ifdef SELECT_WAIT_FOR_READ fd_set fds; struct timeval tv = { DEFAULT_TELNET_TIMEOUT, 0 }; #endif if (attr && nAttr) { *attr = NULL; *nAttr = 0; } data = pdata ? pdata : NULL; if (!data || !datLen || BUFSIZ < datLen) { cli_SetErr(EINVAL, "Data buffer or size is not valid!"); return -1; } else memset(data, 0, datLen); #ifdef SELECT_WAIT_FOR_READ FD_ZERO(&fds); FD_SET(sock, &fds); if ((ret = select(sock + 1, &fds, NULL, NULL, &tv)) == -1) { LOGERR; return -1; } if (!ret) { cli_SetErr(ETIMEDOUT, "Timeout!"); return -2; // Timeout } else ret = 0; #endif memset(buf, 0, BUFSIZ); readLen = read(sock, buf, BUFSIZ); if (-1 == readLen) { LOGERR; return -1; } else if (!readLen) return -3; // EOF // receive in binary mode ... if (!attr || !nAttr) { memcpy(data, buf, readLen > datLen ? datLen : readLen); return readLen; } // telnet ascii mode ... for (ret = pos = i = 0; i < readLen && pos < datLen; i++) { // raw(clear) mode if (!ret) { if (IAC != buf[i]) { data[pos++] = buf[i]; } else { ret = 1; memset(&ta, 0, sizeof ta); } continue; } // check for command if (1 == ret) { if (xEOF > buf[i]) { data[pos++] = buf[i - 1]; data[pos++] = buf[i]; goto cmd_exit; } else ta.ta_cmd = buf[i]; if (SB > ta.ta_cmd) { (*nAttr)++; *attr = io_realloc(*attr, sizeof(struct telnetAttrs) * *nAttr); if (!*attr) { LOGERR; return -1; } else memcpy(&(*attr)[*nAttr - 1], &ta, sizeof(struct telnetAttrs)); goto cmd_exit; } if (IAC > ta.ta_cmd) { ret = 2; continue; } cmd_exit: ret = 0; continue; } // check for option if (2 == ret) { if (!(TELOPT_KERMIT >= buf[i]) && TELOPT_EXOPL != buf[i]) { data[pos++] = buf[i - 2]; data[pos++] = buf[i - 1]; data[pos++] = buf[i]; goto opt_exit; } else ta.ta_opt = buf[i]; if (SB != ta.ta_cmd) { (*nAttr)++; *attr = io_realloc(*attr, sizeof(struct telnetAttrs) * *nAttr); if (!*attr) { LOGERR; return -1; } else memcpy(&(*attr)[*nAttr - 1], &ta, sizeof(struct telnetAttrs)); goto opt_exit; } ret = 3; continue; opt_exit: ret = 0; continue; } // sub-option if (3 == ret) { if (ta.ta_sublen < MAX_SUB_LEN) { if (SE == buf[i] && IAC == ta.ta_sub[ta.ta_sublen - 1]) { ta.ta_sublen--; ta.ta_sub[ta.ta_sublen] = 0; (*nAttr)++; *attr = io_realloc(*attr, sizeof(struct telnetAttrs) * *nAttr); if (!*attr) { LOGERR; return -1; } else memcpy(&(*attr)[*nAttr - 1], &ta, sizeof(struct telnetAttrs)); ret = 0; } else ta.ta_sub[ta.ta_sublen++] = buf[i]; } else { cli_SetErr(EPROTONOSUPPORT, "Protocol limitation in sub-option to %d!", MAX_SUB_LEN); io_free(*attr); *nAttr = 0; return -1; } } } return pos; } #ifndef NDEBUG /* * cli_telnet_DumpAttrs() Telnet debug attributes list, if NDEBUG defined not include * @attr = attributes list * @nAttr = attributes list size * return: none */ void cli_telnet_DumpAttrs(struct telnetAttrs *attr, int nAttr) { register int i; for (i = 0; i < nAttr; i++) { printf("DUMP:: Attribute(%d) = %s %s Sub(%d) => %s\n", i, TELCMD(attr[i].ta_cmd), TELOPT(attr[i].ta_opt), attr[i].ta_sublen, attr[i].ta_sub); } } #endif /* * cli_telnetSend() Telnet send commands, negotiate with telnet peer * @sock = socket for communication * @attr = send attributes list * @nAttr = send attributes list size * @data = data for send * @datLen = data size * @Term = Terminate with GA (Go Ahead), 1 send after data GA command * return: 0 not sended commands; -1 error:: can`t send; >0 number of sended bytes */ int cli_telnetSend(int sock, struct telnetAttrs *attr, int nAttr, void *data, int datLen, int Term) { register int i; int writeLen, pos = 0, len = 0; u_char *buf = NULL; /* add commands */ if (attr && nAttr) { for (i = 0; i < nAttr; i++) { len = 2; // IAC CMD if (attr[i].ta_cmd > GA && attr[i].ta_cmd < IAC) { len++; // added OPT if (SB == attr[i].ta_cmd) { len += 2; // added IAC SE to end ;) len += attr[i].ta_sublen; } } buf = io_realloc(buf, pos + len); if (!buf) { LOGERR; return -1; } buf[pos++] = IAC; buf[pos++] = attr[i].ta_cmd; if (attr[i].ta_cmd > GA && attr[i].ta_cmd < IAC) { buf[pos++] = attr[i].ta_opt; if (SB == attr[i].ta_cmd) { memcpy(buf + pos, attr[i].ta_sub, attr[i].ta_sublen); pos += attr[i].ta_sublen; buf[pos++] = IAC; buf[pos++] = SE; } } } } /* add data */ if (data && datLen) { buf = io_realloc(buf, pos + datLen); if (!buf) { LOGERR; return -1; } memcpy(buf + pos, data, datLen); pos += datLen; } /* add GA after end of all */ if (Term) { buf = io_realloc(buf, pos + 2); if (!buf) { LOGERR; return -1; } buf[pos++] = IAC; buf[pos++] = GA; } writeLen = write(sock, buf, pos); if (-1 == writeLen) LOGERR; if (buf) io_free(buf); return writeLen; } /* * cli_telnet_Get_SubOpt() Telnet get sub option function * @attr = input attribute * @code = sub-option code for opt * @data = sub-option data * @datLen = data size set max size in input, output return copy size * return: -1 can`t get option; !=-1 option code */ inline int cli_telnet_Get_SubOpt(struct telnetAttrs *attr, u_char *code, void *data, u_char *datLen) { u_char *pos, len; if (!attr || !data || !datLen || !*datLen) return -1; if (SB != attr->ta_cmd || !attr->ta_sublen) { cli_SetErr(ENOTSUP, "Wrong attribute argument!"); return -1; } else { pos = attr->ta_sub; len = attr->ta_sublen; } memset(data, 0, *datLen); if (0xFF != *code) { *code = *pos++; len--; } *datLen = len > *datLen ? *datLen : len; memcpy(data, pos, *datLen); return attr->ta_opt; } /* * cli_telnet_Set_SubOpt() Telnet set sub option function * @attr = output attribute * @opt = attribute option * @code = sub-option code for opt, if 0xff not specified * @data = sub-option data, if NULL not specified * @datLen = data size, if 0 not specified * return: -1 can`t set sub-otion; 0 ok */ inline int cli_telnet_Set_SubOpt(struct telnetAttrs *attr, u_char opt, u_char code, void *data, u_char datLen) { u_char len; if (!attr) return -1; if (!(TELOPT_KERMIT >= opt) && TELOPT_EXOPL != opt) { cli_SetErr(EINVAL, "Invalid option argument!"); return -1; } memset(attr, 0, sizeof(struct telnetAttrs)); attr->ta_cmd = SB; attr->ta_opt = opt; if (0xFF != code) { attr->ta_sublen++; attr->ta_sub[0] = code; } if (data && datLen) { len = MAX_SUB_LEN > datLen ? datLen : MAX_SUB_LEN - 1; attr->ta_sublen += len; memcpy(attr->ta_sub + 1, data, len); } return 0; } /* * cli_telnet_GetCmd() Telnet get command * @attr = input attribute * return: -1 can`t get command; !=-1 command <<24 return sublen, <<8 return option, <<0 command */ inline u_int cli_telnet_GetCmd(struct telnetAttrs *attr) { u_int ret = 0; if (!attr) return -1; if (xEOF > attr->ta_cmd) { cli_SetErr(ENOTSUP, "Wrong attribute command argument!"); return -1; } if (GA < attr->ta_cmd && !(TELOPT_KERMIT >= attr->ta_opt) && TELOPT_EXOPL != attr->ta_opt) { cli_SetErr(ENOTSUP, "Wrong attribute option argument!"); return -1; } ret = attr->ta_sublen << 24; ret |= attr->ta_opt << 8; ret |= attr->ta_cmd; return ret; } /* * cli_telnet_SetCmd() Telnet set command * @attr = input attribute * @cmd = command * @opt = option, if 0xff not specified * @arg1 = sub-option code, if 0xff not specified * @arg2 = sub-option data, if NULL not specified * @arg3 = sub-option data size, if 0 not specified data * return: -1 can`t set command; !=-1 ok */ inline int cli_telnet_SetCmd(struct telnetAttrs *attr, u_char cmd, u_char opt, ...) { va_list lst; u_char res; void *ptr; if (!attr) return -1; else memset(attr, 0, sizeof(struct telnetAttrs)); if (xEOF > cmd) { cli_SetErr(EINVAL, "Invalid command argument!"); return -1; } else attr->ta_cmd = cmd; if (GA < attr->ta_cmd) { if (!(TELOPT_KERMIT >= attr->ta_opt) && TELOPT_EXOPL != attr->ta_opt) { cli_SetErr(EINVAL, "Invalid option argument!"); return -1; } else attr->ta_opt = opt; } if (SB == attr->ta_cmd) { va_start(lst, opt); res = (u_char) va_arg(lst, int); if (0xff != res) { *attr->ta_sub = res; attr->ta_sublen++; } ptr = va_arg(lst, void*); res = (u_char) va_arg(lst, int); if (ptr && MAX_SUB_LEN > res) { memcpy(attr->ta_sub + 1, ptr, res); attr->ta_sublen += res; } va_end(lst); } return 0; } /* * cli_telnet_Answer() Automatic generate commands answer to send from telnet * @caps = Array of capability options * @nCaps = number of capability options * @attr = input attribute * @nAttr = number of input attributes * @ans = output answered attributes, must be io_free() after use * @Ans = number of output answered attributes * return: -1 can`t answer; !=-1 ok */ int cli_telnet_Answer(u_char *caps, int nCaps, struct telnetAttrs *attr, int nAttr, struct telnetAttrs **ans, int *Ans) { register int i, j; int flg; struct telnetAttrs ta; if (!caps || !nCaps || !attr || !nAttr || !ans || !Ans) return -1; else { *ans = NULL; *Ans = 0; } for (i = 0; i < nAttr; i++) { if (SB > attr[i].ta_cmd || IAC == attr[i].ta_cmd || DONT == attr[i].ta_cmd || WONT == attr[i].ta_cmd) continue; for (flg = -1, j = 0; j < nCaps; j++) { if (!(TELOPT_KERMIT >= CAP(caps[j])) && TELOPT_EXOPL != CAP(caps[j])) continue; if (attr[i].ta_opt == CAP(caps[j])) { flg = j; break; } } // make attribute ... if (flg > -1) { (*Ans)++; *ans = io_realloc(*ans, sizeof(struct telnetAttrs) * *Ans); if (!*ans) { LOGERR; return -1; } else memset(&ta, 0, sizeof ta); ta.ta_opt = attr[i].ta_opt; switch (attr[i].ta_cmd) { case DO: ta.ta_cmd = SUP_CAPS(caps[flg]) ? WILL : WONT; break; case WILL: ta.ta_cmd = SUP_CAPS(caps[flg]) ? DO : DONT; break; case SB: ta.ta_cmd = SB; break; } memcpy(&(*ans)[*Ans - 1], &ta, sizeof(struct telnetAttrs)); } } return 0; }