#include #include #include #include #include #include "putty.h" #include "ssh.h" #include "scp.h" #ifndef FALSE #define FALSE 0 #endif #ifndef TRUE #define TRUE 1 #endif #define logevent(s) { logevent(s); \ if (IS_SCP && (scp_flags & SCP_VERBOSE) != 0) \ fprintf(stderr, "%s\n", s); } #define SSH1_MSG_DISCONNECT 1 #define SSH1_SMSG_PUBLIC_KEY 2 #define SSH1_CMSG_SESSION_KEY 3 #define SSH1_CMSG_USER 4 #define SSH1_CMSG_AUTH_PASSWORD 9 #define SSH1_CMSG_REQUEST_PTY 10 #define SSH1_CMSG_WINDOW_SIZE 11 #define SSH1_CMSG_EXEC_SHELL 12 #define SSH1_CMSG_EXEC_CMD 13 #define SSH1_SMSG_SUCCESS 14 #define SSH1_SMSG_FAILURE 15 #define SSH1_CMSG_STDIN_DATA 16 #define SSH1_SMSG_STDOUT_DATA 17 #define SSH1_SMSG_STDERR_DATA 18 #define SSH1_CMSG_EOF 19 #define SSH1_SMSG_EXIT_STATUS 20 #define SSH1_CMSG_EXIT_CONFIRMATION 33 #define SSH1_MSG_IGNORE 32 #define SSH1_MSG_DEBUG 36 #define SSH1_CMSG_AUTH_TIS 39 #define SSH1_SMSG_AUTH_TIS_CHALLENGE 40 #define SSH1_CMSG_AUTH_TIS_RESPONSE 41 #define SSH1_AUTH_TIS 5 #define SSH2_MSG_DISCONNECT 1 #define SSH2_MSG_IGNORE 2 #define SSH2_MSG_UNIMPLEMENTED 3 #define SSH2_MSG_DEBUG 4 #define SSH2_MSG_SERVICE_REQUEST 5 #define SSH2_MSG_SERVICE_ACCEPT 6 #define SSH2_MSG_KEXINIT 20 #define SSH2_MSG_NEWKEYS 21 #define SSH2_MSG_KEXDH_INIT 30 #define SSH2_MSG_KEXDH_REPLY 31 #define GET_32BIT(cp) \ (((unsigned long)(unsigned char)(cp)[0] << 24) | \ ((unsigned long)(unsigned char)(cp)[1] << 16) | \ ((unsigned long)(unsigned char)(cp)[2] << 8) | \ ((unsigned long)(unsigned char)(cp)[3])) #define PUT_32BIT(cp, value) { \ (cp)[0] = (unsigned char)((value) >> 24); \ (cp)[1] = (unsigned char)((value) >> 16); \ (cp)[2] = (unsigned char)((value) >> 8); \ (cp)[3] = (unsigned char)(value); } enum { PKT_END, PKT_INT, PKT_CHAR, PKT_DATA, PKT_STR }; /* Coroutine mechanics for the sillier bits of the code */ #define crBegin1 static int crLine = 0; #define crBegin2 switch(crLine) { case 0:; #define crBegin crBegin1; crBegin2; #define crFinish(z) } crLine = 0; return (z) #define crFinishV } crLine = 0; return #define crReturn(z) \ do {\ crLine=__LINE__; return (z); case __LINE__:;\ } while (0) #define crReturnV \ do {\ crLine=__LINE__; return; case __LINE__:;\ } while (0) #define crStop(z) do{ crLine = 0; return (z); }while(0) #define crStopV do{ crLine = 0; return; }while(0) #define crWaitUntil(c) do { crReturn(0); } while (!(c)) extern struct ssh_cipher ssh_3des; extern struct ssh_cipher ssh_des; extern struct ssh_cipher ssh_blowfish; /* for ssh 2; we miss out single-DES because it isn't supported */ struct ssh_cipher *ciphers[] = { &ssh_3des, &ssh_blowfish }; extern struct ssh_kex ssh_diffiehellman; struct ssh_kex *kex_algs[] = { &ssh_diffiehellman }; extern struct ssh_hostkey ssh_dss; struct ssh_hostkey *hostkey_algs[] = { &ssh_dss }; extern struct ssh_mac ssh_sha1; SHA_State exhash; static void nullmac_sesskey(unsigned char *key, int len) { } static void nullmac_generate(unsigned char *blk, int len, unsigned long seq) { } static int nullmac_verify(unsigned char *blk, int len, unsigned long seq) { return 1; } struct ssh_mac ssh_mac_none = { nullmac_sesskey, nullmac_generate, nullmac_verify, "none", 0 }; struct ssh_mac *macs[] = { &ssh_sha1, &ssh_mac_none }; struct ssh_compress ssh_comp_none = { "none" }; struct ssh_compress *compressions[] = { &ssh_comp_none }; static SOCKET s = INVALID_SOCKET; static unsigned char session_key[32]; static struct ssh_cipher *cipher = NULL; static struct ssh_cipher *cscipher = NULL; static struct ssh_cipher *sccipher = NULL; static struct ssh_mac *csmac = NULL; static struct ssh_mac *scmac = NULL; static struct ssh_compress *cscomp = NULL; static struct ssh_compress *sccomp = NULL; static struct ssh_kex *kex = NULL; static struct ssh_hostkey *hostkey = NULL; int scp_flags = 0; int (*ssh_get_password)(const char *prompt, char *str, int maxlen) = NULL; static char *savedhost; static enum { SSH_STATE_BEFORE_SIZE, SSH_STATE_INTERMED, SSH_STATE_SESSION, SSH_STATE_CLOSED } ssh_state = SSH_STATE_BEFORE_SIZE; static int size_needed = FALSE; static void s_write (char *buf, int len) { while (len > 0) { int i = send (s, buf, len, 0); if (IS_SCP) { noise_ultralight(i); if (i <= 0) fatalbox("Lost connection while sending"); } if (i > 0) len -= i, buf += i; } } static int s_read (char *buf, int len) { int ret = 0; while (len > 0) { int i = recv (s, buf, len, 0); if (IS_SCP) noise_ultralight(i); if (i > 0) len -= i, buf += i, ret += i; else return i; } return ret; } static void c_write (char *buf, int len) { if (IS_SCP) { if (len > 0 && buf[len-1] == '\n') len--; if (len > 0 && buf[len-1] == '\r') len--; if (len > 0) { fwrite(buf, len, 1, stderr); fputc('\n', stderr); } return; } while (len--) c_write1(*buf++); } struct Packet { long length; int type; unsigned char *data; unsigned char *body; long savedpos; long maxlen; }; static struct Packet pktin = { 0, 0, NULL, NULL, 0 }; static struct Packet pktout = { 0, 0, NULL, NULL, 0 }; static void (*ssh_protocol)(unsigned char *in, int inlen, int ispkt); static void ssh1_protocol(unsigned char *in, int inlen, int ispkt); static void ssh2_protocol(unsigned char *in, int inlen, int ispkt); static void ssh_size(void); static int (*s_rdpkt)(unsigned char **data, int *datalen); /* * Collect incoming data in the incoming packet buffer. * Decipher and verify the packet when it is completely read. * Drop SSH1_MSG_DEBUG and SSH1_MSG_IGNORE packets. * Update the *data and *datalen variables. * Return the additional nr of bytes needed, or 0 when * a complete packet is available. */ static int ssh1_rdpkt(unsigned char **data, int *datalen) { static long len, pad, biglen, to_read; static unsigned long realcrc, gotcrc; static unsigned char *p; static int i; crBegin; next_packet: pktin.type = 0; pktin.length = 0; for (i = len = 0; i < 4; i++) { while ((*datalen) == 0) crReturn(4-i); len = (len << 8) + **data; (*data)++, (*datalen)--; } #ifdef FWHACK if (len == 0x52656d6f) { /* "Remo"te server has closed ... */ len = 0x300; /* big enough to carry to end */ } #endif pad = 8 - (len % 8); biglen = len + pad; pktin.length = len - 5; if (pktin.maxlen < biglen) { pktin.maxlen = biglen; pktin.data = (pktin.data == NULL ? malloc(biglen+APIEXTRA) : realloc(pktin.data, biglen+APIEXTRA)); if (!pktin.data) fatalbox("Out of memory"); } to_read = biglen; p = pktin.data; while (to_read > 0) { static int chunk; chunk = to_read; while ((*datalen) == 0) crReturn(to_read); if (chunk > (*datalen)) chunk = (*datalen); memcpy(p, *data, chunk); *data += chunk; *datalen -= chunk; p += chunk; to_read -= chunk; } if (cipher) cipher->decrypt(pktin.data, biglen); pktin.type = pktin.data[pad]; pktin.body = pktin.data + pad + 1; realcrc = crc32(pktin.data, biglen-4); gotcrc = GET_32BIT(pktin.data+biglen-4); if (gotcrc != realcrc) { fatalbox("Incorrect CRC received on packet"); } if (pktin.type == SSH1_SMSG_STDOUT_DATA || pktin.type == SSH1_SMSG_STDERR_DATA || pktin.type == SSH1_MSG_DEBUG || pktin.type == SSH1_SMSG_AUTH_TIS_CHALLENGE) { long strlen = GET_32BIT(pktin.body); if (strlen + 4 != pktin.length) fatalbox("Received data packet with bogus string length"); } if (pktin.type == SSH1_MSG_DEBUG) { /* log debug message */ char buf[80]; int strlen = GET_32BIT(pktin.body); strcpy(buf, "Remote: "); if (strlen > 70) strlen = 70; memcpy(buf+8, pktin.body+4, strlen); buf[8+strlen] = '\0'; logevent(buf); goto next_packet; } else if (pktin.type == SSH1_MSG_IGNORE) { /* do nothing */ goto next_packet; } crFinish(0); } static int ssh2_rdpkt(unsigned char **data, int *datalen) { static long len, pad, payload, packetlen, maclen; static int i; static int cipherblk; static unsigned long incoming_sequence = 0; crBegin; next_packet: pktin.type = 0; pktin.length = 0; if (cipher) cipherblk = cipher->blksize; else cipherblk = 8; if (cipherblk < 8) cipherblk = 8; if (pktin.maxlen < cipherblk) { pktin.maxlen = cipherblk; pktin.data = (pktin.data == NULL ? malloc(cipherblk+APIEXTRA) : realloc(pktin.data, cipherblk+APIEXTRA)); if (!pktin.data) fatalbox("Out of memory"); } /* * Acquire and decrypt the first block of the packet. This will * contain the length and padding details. */ for (i = len = 0; i < cipherblk; i++) { while ((*datalen) == 0) crReturn(cipherblk-i); pktin.data[i] = *(*data)++; (*datalen)--; } #ifdef FWHACK if (!memcmp(pktin.data, "Remo", 4)) {/* "Remo"te server has closed ... */ /* FIXME */ } #endif if (sccipher) sccipher->decrypt(pktin.data, cipherblk); /* * Now get the length and padding figures. */ len = GET_32BIT(pktin.data); pad = pktin.data[4]; /* * This enables us to deduce the payload length. */ payload = len - pad - 1; pktin.length = payload + 5; /* * So now we can work out the total packet length. */ packetlen = len + 4; maclen = scmac ? scmac->len : 0; /* * Adjust memory allocation if packet is too big. */ if (pktin.maxlen < packetlen) { pktin.maxlen = packetlen; pktin.data = (pktin.data == NULL ? malloc(packetlen+APIEXTRA) : realloc(pktin.data, packetlen+APIEXTRA)); if (!pktin.data) fatalbox("Out of memory"); } /* * Read and decrypt the remainder of the packet. */ for (i = cipherblk; i < packetlen + maclen; i++) { while ((*datalen) == 0) crReturn(packetlen + maclen - i); pktin.data[i] = *(*data)++; (*datalen)--; } /* Decrypt everything _except_ the MAC. */ if (sccipher) sccipher->decrypt(pktin.data + cipherblk, packetlen - cipherblk); /* * Check the MAC. */ if (scmac && !scmac->verify(pktin.data, incoming_sequence++, len+4)) fatalbox("Incorrect MAC received on packet"); pktin.savedpos = 6; pktin.type = pktin.data[5]; #if 0 debug(("Got packet len=%d pad=%d\r\n", len, pad)); for (i = 0; i < payload; i++) debug((" %02x", (unsigned char)pktin.data[i])); debug(("\r\n")); #endif /* * FIXME: handle IGNORE and DEBUG messages. */ crFinish(0); } static void ssh_gotdata(unsigned char *data, int datalen) { while (datalen > 0) { if ( s_rdpkt(&data, &datalen) == 0 ) { ssh_protocol(NULL, 0, 1); if (ssh_state == SSH_STATE_CLOSED) { return; } } } } static void s_wrpkt_start(int type, int len) { int pad, biglen; len += 5; /* type and CRC */ pad = 8 - (len%8); biglen = len + pad; pktout.length = len-5; if (pktout.maxlen < biglen) { pktout.maxlen = biglen; #ifdef MSCRYPTOAPI /* Allocate enough buffer space for extra block * for MS CryptEncrypt() */ pktout.data = (pktout.data == NULL ? malloc(biglen+12) : realloc(pktout.data, biglen+12)); #else pktout.data = (pktout.data == NULL ? malloc(biglen+4) : realloc(pktout.data, biglen+4)); #endif if (!pktout.data) fatalbox("Out of memory"); } pktout.type = type; pktout.body = pktout.data+4+pad+1; } static void s_wrpkt(void) { int pad, len, biglen, i; unsigned long crc; len = pktout.length + 5; /* type and CRC */ pad = 8 - (len%8); biglen = len + pad; pktout.body[-1] = pktout.type; for (i=0; iencrypt(pktout.data+4, biglen); s_write(pktout.data, biglen+4); } /* * Construct a packet with the specified contents and * send it to the server. */ static void send_packet(int pkttype, ...) { va_list args; unsigned char *p, *argp, argchar; unsigned long argint; int pktlen, argtype, arglen; pktlen = 0; va_start(args, pkttype); while ((argtype = va_arg(args, int)) != PKT_END) { switch (argtype) { case PKT_INT: (void) va_arg(args, int); pktlen += 4; break; case PKT_CHAR: (void) va_arg(args, char); pktlen++; break; case PKT_DATA: (void) va_arg(args, unsigned char *); arglen = va_arg(args, int); pktlen += arglen; break; case PKT_STR: argp = va_arg(args, unsigned char *); arglen = strlen(argp); pktlen += 4 + arglen; break; default: assert(0); } } va_end(args); s_wrpkt_start(pkttype, pktlen); p = pktout.body; va_start(args, pkttype); while ((argtype = va_arg(args, int)) != PKT_END) { switch (argtype) { case PKT_INT: argint = va_arg(args, int); PUT_32BIT(p, argint); p += 4; break; case PKT_CHAR: argchar = va_arg(args, unsigned char); *p = argchar; p++; break; case PKT_DATA: argp = va_arg(args, unsigned char *); arglen = va_arg(args, int); memcpy(p, argp, arglen); p += arglen; break; case PKT_STR: argp = va_arg(args, unsigned char *); arglen = strlen(argp); PUT_32BIT(p, arglen); memcpy(p + 4, argp, arglen); p += 4 + arglen; break; } } va_end(args); s_wrpkt(); } /* * Connect to specified host and port. * Returns an error message, or NULL on success. * Also places the canonical host name into `realhost'. */ static char *connect_to_host(char *host, int port, char **realhost) { SOCKADDR_IN addr; struct hostent *h; unsigned long a; #ifdef FWHACK char *FWhost; int FWport; #endif savedhost = malloc(1+strlen(host)); if (!savedhost) fatalbox("Out of memory"); strcpy(savedhost, host); if (port < 0) port = 22; /* default ssh port */ #ifdef FWHACK FWhost = host; FWport = port; host = FWSTR; port = 23; #endif /* * Try to find host. */ if ( (a = inet_addr(host)) == (unsigned long) INADDR_NONE) { if ( (h = gethostbyname(host)) == NULL) switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; case WSAHOST_NOT_FOUND: case WSANO_DATA: return "Host does not exist"; case WSATRY_AGAIN: return "Host not found"; default: return "gethostbyname: unknown error"; } memcpy (&a, h->h_addr, sizeof(a)); *realhost = h->h_name; } else *realhost = host; #ifdef FWHACK *realhost = FWhost; #endif a = ntohl(a); /* * Open socket. */ s = socket(AF_INET, SOCK_STREAM, 0); if (s == INVALID_SOCKET) switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; case WSAEAFNOSUPPORT: return "TCP/IP support not present"; default: return "socket(): unknown error"; } /* * Bind to local address. */ addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(INADDR_ANY); addr.sin_port = htons(0); if (bind (s, (struct sockaddr *)&addr, sizeof(addr)) == SOCKET_ERROR) switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; default: return "bind(): unknown error"; } /* * Connect to remote address. */ addr.sin_addr.s_addr = htonl(a); addr.sin_port = htons((short)port); if (connect (s, (struct sockaddr *)&addr, sizeof(addr)) == SOCKET_ERROR) switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; case WSAECONNREFUSED: return "Connection refused"; case WSAENETUNREACH: return "Network is unreachable"; case WSAEHOSTUNREACH: return "No route to host"; default: return "connect(): unknown error"; } #ifdef FWHACK send(s, "connect ", 8, 0); send(s, FWhost, strlen(FWhost), 0); { char buf[20]; sprintf(buf, " %d\n", FWport); send (s, buf, strlen(buf), 0); } #endif return NULL; } static int ssh_versioncmp(char *a, char *b) { char *ae, *be; unsigned long av, bv; av = strtoul(a, &ae, 10); bv = strtoul(b, &be, 10); if (av != bv) return (av < bv ? -1 : +1); if (*ae == '.') ae++; if (*be == '.') be++; av = strtoul(ae, &ae, 10); bv = strtoul(be, &be, 10); if (av != bv) return (av < bv ? -1 : +1); return 0; } /* * Utility routine for putting an SSH-protocol `string' into a SHA * state. */ #include void sha_string(SHA_State *s, void *str, int len) { unsigned char lenblk[4]; static FILE *fp; PUT_32BIT(lenblk, len); if (!fp) fp = fopen("h:\\statham\\windows\\putty\\data","wb"); fwrite(lenblk, 4, 1, fp); SHA_Bytes(s, lenblk, 4); fwrite(str, len, 1, fp); fflush(fp); SHA_Bytes(s, str, len); } static int do_ssh_init(void) { char c, *vsp; char version[10]; char vstring[80]; char vlog[sizeof(vstring)+20]; int i; #ifdef FWHACK i = 0; while (s_read(&c, 1) == 1) { if (c == 'S' && i < 2) i++; else if (c == 'S' && i == 2) i = 2; else if (c == 'H' && i == 2) break; else i = 0; } #else if (s_read(&c,1) != 1 || c != 'S') return 0; if (s_read(&c,1) != 1 || c != 'S') return 0; if (s_read(&c,1) != 1 || c != 'H') return 0; #endif strcpy(vstring, "SSH-"); vsp = vstring+4; if (s_read(&c,1) != 1 || c != '-') return 0; i = 0; while (1) { if (s_read(&c,1) != 1) return 0; if (vsp < vstring+sizeof(vstring)-1) *vsp++ = c; if (i >= 0) { if (c == '-') { version[i] = '\0'; i = -1; } else if (i < sizeof(version)-1) version[i++] = c; } else if (c == '\n') break; } *vsp = 0; sprintf(vlog, "Server version: %s", vstring); vlog[strcspn(vlog, "\r\n")] = '\0'; logevent(vlog); if (ssh_versioncmp(version, "1.99") >= 0) { /* * This is a v2 server. Begin v2 protocol. */ char *verstring = "SSH-2.0-PuTTY"; SHA_Init(&exhash); /* * Hash our version string and their version string. */ sha_string(&exhash, verstring, strlen(verstring)); sha_string(&exhash, vstring, strcspn(vstring, "\r\n")); sprintf(vstring, "%s\n", verstring); sprintf(vlog, "We claim version: %s", verstring); logevent(vlog); logevent("Using SSH protocol version 2"); s_write(vstring, strlen(vstring)); ssh_protocol = ssh2_protocol; s_rdpkt = ssh2_rdpkt; } else { /* * This is a v1 server. Begin v1 protocol. */ sprintf(vstring, "SSH-%s-PuTTY\n", (ssh_versioncmp(version, "1.5") <= 0 ? version : "1.5")); sprintf(vlog, "We claim version: %s", vstring); vlog[strcspn(vlog, "\r\n")] = '\0'; logevent(vlog); logevent("Using SSH protocol version 1"); s_write(vstring, strlen(vstring)); ssh_protocol = ssh1_protocol; s_rdpkt = ssh1_rdpkt; } return 1; } /* * Handle the key exchange and user authentication phases. */ static int do_ssh1_login(unsigned char *in, int inlen, int ispkt) { int i, j, len; unsigned char session_id[16]; unsigned char *rsabuf, *keystr1, *keystr2; unsigned char cookie[8]; struct RSAKey servkey, hostkey; struct MD5Context md5c; static unsigned long supported_ciphers_mask, supported_auths_mask; int cipher_type; crBegin; if (!ispkt) crWaitUntil(ispkt); if (pktin.type != SSH1_SMSG_PUBLIC_KEY) fatalbox("Public key packet not received"); logevent("Received public keys"); memcpy(cookie, pktin.body, 8); i = makekey(pktin.body+8, &servkey, &keystr1); j = makekey(pktin.body+8+i, &hostkey, &keystr2); /* * Hash the host key and print the hash in the log box. Just as * a last resort in case the registry's host key checking is * compromised, we'll allow the user some ability to verify * host keys by eye. */ MD5Init(&md5c); MD5Update(&md5c, keystr2, hostkey.bytes); MD5Final(session_id, &md5c); { char logmsg[80]; int i; logevent("Host key MD5 is:"); strcpy(logmsg, " "); for (i = 0; i < 16; i++) sprintf(logmsg+strlen(logmsg), "%02x", session_id[i]); logevent(logmsg); } supported_ciphers_mask = GET_32BIT(pktin.body+12+i+j); supported_auths_mask = GET_32BIT(pktin.body+16+i+j); MD5Init(&md5c); MD5Update(&md5c, keystr2, hostkey.bytes); MD5Update(&md5c, keystr1, servkey.bytes); MD5Update(&md5c, pktin.body, 8); MD5Final(session_id, &md5c); for (i=0; i<32; i++) session_key[i] = random_byte(); len = (hostkey.bytes > servkey.bytes ? hostkey.bytes : servkey.bytes); rsabuf = malloc(len); if (!rsabuf) fatalbox("Out of memory"); /* * Verify the host key. */ { /* * First format the key into a string. */ int len = rsastr_len(&hostkey); char *keystr = malloc(len); if (!keystr) fatalbox("Out of memory"); rsastr_fmt(keystr, &hostkey); verify_ssh_host_key(savedhost, keystr); free(keystr); } for (i=0; i<32; i++) { rsabuf[i] = session_key[i]; if (i < 16) rsabuf[i] ^= session_id[i]; } if (hostkey.bytes > servkey.bytes) { rsaencrypt(rsabuf, 32, &servkey); rsaencrypt(rsabuf, servkey.bytes, &hostkey); } else { rsaencrypt(rsabuf, 32, &hostkey); rsaencrypt(rsabuf, hostkey.bytes, &servkey); } logevent("Encrypted session key"); cipher_type = cfg.cipher == CIPHER_BLOWFISH ? SSH_CIPHER_BLOWFISH : cfg.cipher == CIPHER_DES ? SSH_CIPHER_DES : SSH_CIPHER_3DES; if ((supported_ciphers_mask & (1 << cipher_type)) == 0) { c_write("Selected cipher not supported, falling back to 3DES\r\n", 53); cipher_type = SSH_CIPHER_3DES; } switch (cipher_type) { case SSH_CIPHER_3DES: logevent("Using 3DES encryption"); break; case SSH_CIPHER_DES: logevent("Using single-DES encryption"); break; case SSH_CIPHER_BLOWFISH: logevent("Using Blowfish encryption"); break; } send_packet(SSH1_CMSG_SESSION_KEY, PKT_CHAR, cipher_type, PKT_DATA, cookie, 8, PKT_CHAR, (len*8) >> 8, PKT_CHAR, (len*8) & 0xFF, PKT_DATA, rsabuf, len, PKT_INT, 0, PKT_END); logevent("Trying to enable encryption..."); free(rsabuf); cipher = cipher_type == SSH_CIPHER_BLOWFISH ? &ssh_blowfish : cipher_type == SSH_CIPHER_DES ? &ssh_des : &ssh_3des; cipher->sesskey(session_key); crWaitUntil(ispkt); if (pktin.type != SSH1_SMSG_SUCCESS) fatalbox("Encryption not successfully enabled"); logevent("Successfully started encryption"); fflush(stdout); { static char username[100]; static int pos = 0; static char c; if (!IS_SCP && !*cfg.username) { c_write("login as: ", 10); while (pos >= 0) { crWaitUntil(!ispkt); while (inlen--) switch (c = *in++) { case 10: case 13: username[pos] = 0; pos = -1; break; case 8: case 127: if (pos > 0) { c_write("\b \b", 3); pos--; } break; case 21: case 27: while (pos > 0) { c_write("\b \b", 3); pos--; } break; case 3: case 4: random_save_seed(); exit(0); break; default: if (((c >= ' ' && c <= '~') || ((unsigned char)c >= 160)) && pos < 40) { username[pos++] = c; c_write(&c, 1); } break; } } c_write("\r\n", 2); username[strcspn(username, "\n\r")] = '\0'; } else { char stuff[200]; strncpy(username, cfg.username, 99); username[99] = '\0'; if (!IS_SCP) { sprintf(stuff, "Sent username \"%s\".\r\n", username); c_write(stuff, strlen(stuff)); } } send_packet(SSH1_CMSG_USER, PKT_STR, username, PKT_END); { char userlog[20+sizeof(username)]; sprintf(userlog, "Sent username \"%s\"", username); logevent(userlog); } } crWaitUntil(ispkt); while (pktin.type == SSH1_SMSG_FAILURE) { static char password[100]; static int pos; static char c; static int pwpkt_type; /* * Show password prompt, having first obtained it via a TIS * exchange if we're doing TIS authentication. */ pwpkt_type = SSH1_CMSG_AUTH_PASSWORD; if (IS_SCP) { char prompt[200]; sprintf(prompt, "%s@%s's password: ", cfg.username, savedhost); if (!ssh_get_password(prompt, password, sizeof(password))) { /* * get_password failed to get a password (for * example because one was supplied on the command * line which has already failed to work). * Terminate. */ logevent("No more passwords to try"); ssh_state = SSH_STATE_CLOSED; crReturn(1); } } else { if (pktin.type == SSH1_SMSG_FAILURE && cfg.try_tis_auth && (supported_auths_mask & (1<= 0) { crWaitUntil(!ispkt); while (inlen--) switch (c = *in++) { case 10: case 13: password[pos] = 0; pos = -1; break; case 8: case 127: if (pos > 0) pos--; break; case 21: case 27: pos = 0; break; case 3: case 4: random_save_seed(); exit(0); break; default: if (((c >= ' ' && c <= '~') || ((unsigned char)c >= 160)) && pos < 40) password[pos++] = c; break; } } c_write("\r\n", 2); } send_packet(pwpkt_type, PKT_STR, password, PKT_END); logevent("Sent password"); memset(password, 0, strlen(password)); crWaitUntil(ispkt); if (pktin.type == SSH1_SMSG_FAILURE) { c_write("Access denied\r\n", 15); logevent("Authentication refused"); } else if (pktin.type == SSH1_MSG_DISCONNECT) { logevent("Received disconnect request"); ssh_state = SSH_STATE_CLOSED; crReturn(1); } else if (pktin.type != SSH1_SMSG_SUCCESS) { fatalbox("Strange packet received, type %d", pktin.type); } } logevent("Authentication successful"); crFinish(1); } static void ssh1_protocol(unsigned char *in, int inlen, int ispkt) { crBegin; random_init(); while (!do_ssh1_login(in, inlen, ispkt)) { crReturnV; } if (ssh_state == SSH_STATE_CLOSED) crReturnV; if (!cfg.nopty) { send_packet(SSH1_CMSG_REQUEST_PTY, PKT_STR, cfg.termtype, PKT_INT, rows, PKT_INT, cols, PKT_INT, 0, PKT_INT, 0, PKT_CHAR, 0, PKT_END); ssh_state = SSH_STATE_INTERMED; do { crReturnV; } while (!ispkt); if (pktin.type != SSH1_SMSG_SUCCESS && pktin.type != SSH1_SMSG_FAILURE) { fatalbox("Protocol confusion"); } else if (pktin.type == SSH1_SMSG_FAILURE) { c_write("Server refused to allocate pty\r\n", 32); } logevent("Allocated pty"); } send_packet(SSH1_CMSG_EXEC_SHELL, PKT_END); logevent("Started session"); ssh_state = SSH_STATE_SESSION; if (size_needed) ssh_size(); while (1) { crReturnV; if (ispkt) { if (pktin.type == SSH1_SMSG_STDOUT_DATA || pktin.type == SSH1_SMSG_STDERR_DATA) { long len = GET_32BIT(pktin.body); c_write(pktin.body+4, len); } else if (pktin.type == SSH1_MSG_DISCONNECT) { ssh_state = SSH_STATE_CLOSED; logevent("Received disconnect request"); } else if (pktin.type == SSH1_SMSG_SUCCESS) { /* may be from EXEC_SHELL on some servers */ } else if (pktin.type == SSH1_SMSG_FAILURE) { /* may be from EXEC_SHELL on some servers * if no pty is available or in other odd cases. Ignore */ } else if (pktin.type == SSH1_SMSG_EXIT_STATUS) { send_packet(SSH1_CMSG_EXIT_CONFIRMATION, PKT_END); } else { fatalbox("Strange packet received: type %d", pktin.type); } } else { send_packet(SSH1_CMSG_STDIN_DATA, PKT_INT, inlen, PKT_DATA, in, inlen, PKT_END); } } crFinishV; } /* * SSH2 packet construction functions. */ void ssh2_pkt_adddata(void *data, int len) { pktout.length += len; if (pktout.maxlen < pktout.length) { pktout.maxlen = pktout.length + 256; pktout.data = (pktout.data == NULL ? malloc(pktout.maxlen+APIEXTRA) : realloc(pktout.data, pktout.maxlen+APIEXTRA)); if (!pktout.data) fatalbox("Out of memory"); } memcpy(pktout.data+pktout.length-len, data, len); } void ssh2_pkt_addbyte(unsigned char byte) { ssh2_pkt_adddata(&byte, 1); } void ssh2_pkt_init(int pkt_type) { pktout.length = 5; ssh2_pkt_addbyte((unsigned char)pkt_type); } void ssh2_pkt_addbool(unsigned char value) { ssh2_pkt_adddata(&value, 1); } void ssh2_pkt_adduint32(unsigned long value) { unsigned char x[4]; PUT_32BIT(x, value); ssh2_pkt_adddata(x, 4); } void ssh2_pkt_addstring_start(void) { ssh2_pkt_adduint32(0); pktout.savedpos = pktout.length; } void ssh2_pkt_addstring_str(char *data) { ssh2_pkt_adddata(data, strlen(data)); PUT_32BIT(pktout.data + pktout.savedpos - 4, pktout.length - pktout.savedpos); } void ssh2_pkt_addstring_data(char *data, int len) { ssh2_pkt_adddata(data, len); PUT_32BIT(pktout.data + pktout.savedpos - 4, pktout.length - pktout.savedpos); } void ssh2_pkt_addstring(char *data) { ssh2_pkt_addstring_start(); ssh2_pkt_addstring_str(data); } char *ssh2_mpint_fmt(Bignum b, int *len) { unsigned char *p; int i, n = b[0]; p = malloc(n * 2 + 1); if (!p) fatalbox("out of memory"); p[0] = 0; for (i = 0; i < n; i++) { p[i*2+1] = (b[n-i] >> 8) & 0xFF; p[i*2+2] = (b[n-i] ) & 0xFF; } i = 0; while (p[i] == 0 && (p[i+1] & 0x80) == 0) i++; memmove(p, p+i, n*2+1-i); *len = n*2+1-i; return p; } void ssh2_pkt_addmp(Bignum b) { unsigned char *p; int len; p = ssh2_mpint_fmt(b, &len); ssh2_pkt_addstring_start(); ssh2_pkt_addstring_data(p, len); free(p); } void ssh2_pkt_send(void) { int cipherblk, maclen, padding, i; unsigned long outgoing_sequence = 0; /* * Add padding. At least four bytes, and must also bring total * length (minus MAC) up to a multiple of the block size. */ cipherblk = cipher ? cipher->blksize : 8; /* block size */ cipherblk = cipherblk < 8 ? 8 : cipherblk; /* or 8 if blksize < 8 */ padding = 4; padding += (cipherblk - (pktout.length + padding) % cipherblk) % cipherblk; pktout.data[4] = padding; for (i = 0; i < padding; i++) pktout.data[pktout.length + i] = random_byte(); PUT_32BIT(pktout.data, pktout.length + padding - 4); if (csmac) csmac->generate(pktout.data, outgoing_sequence++, pktout.length + padding); if (cscipher) cscipher->encrypt(pktout.data, pktout.length + padding); maclen = csmac ? csmac->len : 0; #if 0 debug(("Sending packet len=%d\r\n", pktout.length+padding+maclen)); for (i = 0; i < pktout.length+padding+maclen; i++) debug((" %02x", (unsigned char)pktout.data[i])); debug(("\r\n")); #endif s_write(pktout.data, pktout.length + padding + maclen); } void sha_mpint(SHA_State *s, Bignum b) { unsigned char *p; int len; p = ssh2_mpint_fmt(b, &len); sha_string(s, p, len); free(p); } /* * SSH2 packet decode functions. */ void ssh2_pkt_getstring(char **p, int *length) { *p = NULL; if (pktin.length - pktin.savedpos < 4) return; *length = GET_32BIT(pktin.data+pktin.savedpos); pktin.savedpos += 4; if (pktin.length - pktin.savedpos < *length) return; *p = pktin.data+pktin.savedpos; pktin.savedpos += *length; } Bignum ssh2_pkt_getmp(void) { char *p; int i, j, length; Bignum b; ssh2_pkt_getstring(&p, &length); if (!p) return NULL; if (p[0] & 0x80) fatalbox("internal error: Can't handle negative mpints"); b = newbn((length+1)/2); for (i = 0; i < length; i++) { j = length - 1 - i; if (j & 1) b[j/2+1] |= ((unsigned char)p[i]) << 8; else b[j/2+1] |= ((unsigned char)p[i]); } return b; } void bndebug(char *string, Bignum b) { unsigned char *p; int i, len; p = ssh2_mpint_fmt(b, &len); debug(("%s", string)); for (i = 0; i < len; i++) debug((" %02x", p[i])); debug(("\r\n")); free(p); } /* * Utility routine for decoding comma-separated strings in KEXINIT. */ int in_commasep_string(char *needle, char *haystack, int haylen) { int needlen = strlen(needle); while (1) { /* * Is it at the start of the string? */ if (haylen >= needlen && /* haystack is long enough */ !memcmp(needle, haystack, needlen) && /* initial match */ (haylen == needlen || haystack[needlen] == ',') /* either , or EOS follows */ ) return 1; /* * If not, search for the next comma and resume after that. * If no comma found, terminate. */ while (haylen > 0 && *haystack != ',') haylen--, haystack++; if (haylen == 0) return 0; haylen--, haystack++; /* skip over comma itself */ } } /* * Handle the SSH2 key exchange phase. */ static int do_ssh2_kex(unsigned char *in, int inlen, int ispkt) { static int i, len; static char *str; static Bignum e, f, K; static struct ssh_cipher *cscipher_tobe = NULL; static struct ssh_cipher *sccipher_tobe = NULL; static struct ssh_mac *csmac_tobe = NULL; static struct ssh_mac *scmac_tobe = NULL; static struct ssh_compress *cscomp_tobe = NULL; static struct ssh_compress *sccomp_tobe = NULL; static char *hostkeydata, *sigdata; static int hostkeylen, siglen; static unsigned char exchange_hash[20]; crBegin; /* * Construct and send our key exchange packet. */ ssh2_pkt_init(SSH2_MSG_KEXINIT); for (i = 0; i < 16; i++) ssh2_pkt_addbyte((unsigned char)random_byte()); /* List key exchange algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(kex_algs); i++) { ssh2_pkt_addstring_str(kex_algs[i]->name); if (i < lenof(kex_algs)-1) ssh2_pkt_addstring_str(","); } /* List server host key algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(hostkey_algs); i++) { ssh2_pkt_addstring_str(hostkey_algs[i]->name); if (i < lenof(hostkey_algs)-1) ssh2_pkt_addstring_str(","); } /* List client->server encryption algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(ciphers); i++) { ssh2_pkt_addstring_str(ciphers[i]->name); if (i < lenof(ciphers)-1) ssh2_pkt_addstring_str(","); } /* List server->client encryption algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(ciphers); i++) { ssh2_pkt_addstring_str(ciphers[i]->name); if (i < lenof(ciphers)-1) ssh2_pkt_addstring_str(","); } /* List client->server MAC algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(macs); i++) { ssh2_pkt_addstring_str(macs[i]->name); if (i < lenof(macs)-1) ssh2_pkt_addstring_str(","); } /* List server->client MAC algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(macs); i++) { ssh2_pkt_addstring_str(macs[i]->name); if (i < lenof(macs)-1) ssh2_pkt_addstring_str(","); } /* List client->server compression algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(compressions); i++) { ssh2_pkt_addstring_str(compressions[i]->name); if (i < lenof(compressions)-1) ssh2_pkt_addstring_str(","); } /* List server->client compression algorithms. */ ssh2_pkt_addstring_start(); for (i = 0; i < lenof(compressions); i++) { ssh2_pkt_addstring_str(compressions[i]->name); if (i < lenof(compressions)-1) ssh2_pkt_addstring_str(","); } /* List client->server languages. Empty list. */ ssh2_pkt_addstring_start(); /* List server->client languages. Empty list. */ ssh2_pkt_addstring_start(); /* First KEX packet does _not_ follow, because we're not that brave. */ ssh2_pkt_addbool(FALSE); /* Reserved. */ ssh2_pkt_adduint32(0); sha_string(&exhash, pktout.data+5, pktout.length-5); ssh2_pkt_send(); if (!ispkt) crWaitUntil(ispkt); sha_string(&exhash, pktin.data+5, pktin.length-5); /* * Now examine the other side's KEXINIT to see what we're up * to. */ if (pktin.type != SSH2_MSG_KEXINIT) fatalbox("expected key exchange packet from server"); kex = NULL; hostkey = NULL; cscipher_tobe = NULL; sccipher_tobe = NULL; csmac_tobe = NULL; scmac_tobe = NULL; cscomp_tobe = NULL; sccomp_tobe = NULL; pktin.savedpos += 16; /* skip garbage cookie */ ssh2_pkt_getstring(&str, &len); /* key exchange algorithms */ for (i = 0; i < lenof(kex_algs); i++) { if (in_commasep_string(kex_algs[i]->name, str, len)) { kex = kex_algs[i]; break; } } ssh2_pkt_getstring(&str, &len); /* host key algorithms */ for (i = 0; i < lenof(hostkey_algs); i++) { if (in_commasep_string(hostkey_algs[i]->name, str, len)) { hostkey = hostkey_algs[i]; break; } } ssh2_pkt_getstring(&str, &len); /* client->server cipher */ for (i = 0; i < lenof(ciphers); i++) { if (in_commasep_string(ciphers[i]->name, str, len)) { cscipher_tobe = ciphers[i]; break; } } ssh2_pkt_getstring(&str, &len); /* server->client cipher */ for (i = 0; i < lenof(ciphers); i++) { if (in_commasep_string(ciphers[i]->name, str, len)) { sccipher_tobe = ciphers[i]; break; } } ssh2_pkt_getstring(&str, &len); /* client->server mac */ for (i = 0; i < lenof(macs); i++) { if (in_commasep_string(macs[i]->name, str, len)) { csmac_tobe = macs[i]; break; } } ssh2_pkt_getstring(&str, &len); /* server->client mac */ for (i = 0; i < lenof(macs); i++) { if (in_commasep_string(macs[i]->name, str, len)) { scmac_tobe = macs[i]; break; } } ssh2_pkt_getstring(&str, &len); /* client->server compression */ for (i = 0; i < lenof(compressions); i++) { if (in_commasep_string(compressions[i]->name, str, len)) { cscomp_tobe = compressions[i]; break; } } ssh2_pkt_getstring(&str, &len); /* server->client compression */ for (i = 0; i < lenof(compressions); i++) { if (in_commasep_string(compressions[i]->name, str, len)) { sccomp_tobe = compressions[i]; break; } } debug(("key exchange is %s\r\n", kex ? kex->name : NULL)); debug(("host key alg is %s\r\n", hostkey ? hostkey->name : NULL)); debug(("cscipher alg is %s\r\n", cscipher_tobe ? cscipher_tobe->name : NULL)); debug(("sccipher alg is %s\r\n", sccipher_tobe ? sccipher_tobe->name : NULL)); debug(("csmac alg is %s\r\n", csmac_tobe ? csmac_tobe->name : NULL)); debug(("scmac alg is %s\r\n", scmac_tobe ? scmac_tobe->name : NULL)); debug(("cscomp alg is %s\r\n", cscomp_tobe ? cscomp_tobe->name : NULL)); debug(("sccomp alg is %s\r\n", sccomp_tobe ? sccomp_tobe->name : NULL)); /* * Currently we only support Diffie-Hellman and DSS, so let's * bomb out if those aren't selected. */ if (kex != &ssh_diffiehellman || hostkey != &ssh_dss) fatalbox("internal fault: chaos in SSH 2 transport layer"); /* * Now we begin the fun. Generate and send e for Diffie-Hellman. */ e = dh_create_e(); bndebug("e=", e); ssh2_pkt_init(SSH2_MSG_KEXDH_INIT); ssh2_pkt_addmp(e); ssh2_pkt_send(); crWaitUntil(ispkt); if (pktin.type != SSH2_MSG_KEXDH_REPLY) fatalbox("expected key exchange packet from server"); ssh2_pkt_getstring(&hostkeydata, &hostkeylen); f = ssh2_pkt_getmp(); bndebug("f=", f); ssh2_pkt_getstring(&sigdata, &siglen); K = dh_find_K(f); bndebug("K=", K); sha_string(&exhash, hostkeydata, hostkeylen); sha_mpint(&exhash, e); sha_mpint(&exhash, f); sha_mpint(&exhash, K); SHA_Final(&exhash, exchange_hash); debug(("Exchange hash is:\r\n")); for (i = 0; i < 20; i++) debug((" %02x", exchange_hash[i])); debug(("\r\n")); /* * FIXME: verify hostkeydata and sigdata. */ crWaitUntil(0); crFinish(1); } static void ssh2_protocol(unsigned char *in, int inlen, int ispkt) { crBegin; random_init(); while (!do_ssh2_kex(in, inlen, ispkt)) { crReturnV; } crFinishV; } /* * Called to set up the connection. Will arrange for WM_NETEVENT * messages to be passed to the specified window, whose window * procedure should then call telnet_msg(). * * Returns an error message, or NULL on success. */ static char *ssh_init (HWND hwnd, char *host, int port, char **realhost) { char *p; #ifdef MSCRYPTOAPI if(crypto_startup() == 0) return "Microsoft high encryption pack not installed!"; #endif p = connect_to_host(host, port, realhost); if (p != NULL) return p; if (!do_ssh_init()) return "Protocol initialisation error"; if (WSAAsyncSelect (s, hwnd, WM_NETEVENT, FD_READ | FD_CLOSE) == SOCKET_ERROR) switch (WSAGetLastError()) { case WSAENETDOWN: return "Network is down"; default: return "WSAAsyncSelect(): unknown error"; } return NULL; } /* * Process a WM_NETEVENT message. Will return 0 if the connection * has closed, or <0 for a socket error. */ static int ssh_msg (WPARAM wParam, LPARAM lParam) { int ret; char buf[256]; /* * Because reading less than the whole of the available pending * data can generate an FD_READ event, we need to allow for the * possibility that FD_READ may arrive with FD_CLOSE already in * the queue; so it's possible that we can get here even with s * invalid. If so, we return 1 and don't worry about it. */ if (s == INVALID_SOCKET) return 1; if (WSAGETSELECTERROR(lParam) != 0) return -WSAGETSELECTERROR(lParam); switch (WSAGETSELECTEVENT(lParam)) { case FD_READ: case FD_CLOSE: ret = recv(s, buf, sizeof(buf), 0); if (ret < 0 && WSAGetLastError() == WSAEWOULDBLOCK) return 1; if (ret < 0) /* any _other_ error */ return -10000-WSAGetLastError(); if (ret == 0) { s = INVALID_SOCKET; return 0; } ssh_gotdata (buf, ret); if (ssh_state == SSH_STATE_CLOSED) { closesocket(s); s = INVALID_SOCKET; return 0; } return 1; } return 1; /* shouldn't happen, but WTF */ } /* * Called to send data down the Telnet connection. */ static void ssh_send (char *buf, int len) { if (s == INVALID_SOCKET) return; ssh_protocol(buf, len, 0); } /* * Called to set the size of the window from Telnet's POV. */ static void ssh_size(void) { switch (ssh_state) { case SSH_STATE_BEFORE_SIZE: case SSH_STATE_CLOSED: break; /* do nothing */ case SSH_STATE_INTERMED: size_needed = TRUE; /* buffer for later */ break; case SSH_STATE_SESSION: if (!cfg.nopty) { send_packet(SSH1_CMSG_WINDOW_SIZE, PKT_INT, rows, PKT_INT, cols, PKT_INT, 0, PKT_INT, 0, PKT_END); } } } /* * (Send Telnet special codes) */ static void ssh_special (Telnet_Special code) { /* do nothing */ } /* * Read and decrypt one incoming SSH packet. * (only used by pSCP) */ static void get_packet(void) { unsigned char buf[4096], *p; long to_read; int len; assert(IS_SCP); p = NULL; len = 0; while ((to_read = s_rdpkt(&p, &len)) > 0) { if (to_read > sizeof(buf)) to_read = sizeof(buf); len = s_read(buf, to_read); if (len != to_read) { closesocket(s); s = INVALID_SOCKET; return; } p = buf; } assert(len == 0); } /* * Receive a block of data over the SSH link. Block until * all data is available. Return nr of bytes read (0 if lost connection). * (only used by pSCP) */ int ssh_scp_recv(unsigned char *buf, int len) { static int pending_input_len = 0; static unsigned char *pending_input_ptr; int to_read = len; assert(IS_SCP); if (pending_input_len >= to_read) { memcpy(buf, pending_input_ptr, to_read); pending_input_ptr += to_read; pending_input_len -= to_read; return len; } if (pending_input_len > 0) { memcpy(buf, pending_input_ptr, pending_input_len); buf += pending_input_len; to_read -= pending_input_len; pending_input_len = 0; } if (s == INVALID_SOCKET) return 0; while (to_read > 0) { get_packet(); if (s == INVALID_SOCKET) return 0; if (pktin.type == SSH1_SMSG_STDOUT_DATA) { int plen = GET_32BIT(pktin.body); if (plen <= to_read) { memcpy(buf, pktin.body + 4, plen); buf += plen; to_read -= plen; } else { memcpy(buf, pktin.body + 4, to_read); pending_input_len = plen - to_read; pending_input_ptr = pktin.body + 4 + to_read; to_read = 0; } } else if (pktin.type == SSH1_SMSG_STDERR_DATA) { int plen = GET_32BIT(pktin.body); fwrite(pktin.body + 4, plen, 1, stderr); } else if (pktin.type == SSH1_MSG_DISCONNECT) { logevent("Received disconnect request"); } else if (pktin.type == SSH1_SMSG_SUCCESS || pktin.type == SSH1_SMSG_FAILURE) { /* ignore */ } else if (pktin.type == SSH1_SMSG_EXIT_STATUS) { char logbuf[100]; sprintf(logbuf, "Remote exit status: %d", GET_32BIT(pktin.body)); logevent(logbuf); send_packet(SSH1_CMSG_EXIT_CONFIRMATION, PKT_END); logevent("Closing connection"); closesocket(s); s = INVALID_SOCKET; } else { fatalbox("Strange packet received: type %d", pktin.type); } } return len; } /* * Send a block of data over the SSH link. * Block until all data is sent. * (only used by pSCP) */ void ssh_scp_send(unsigned char *buf, int len) { assert(IS_SCP); if (s == INVALID_SOCKET) return; send_packet(SSH1_CMSG_STDIN_DATA, PKT_INT, len, PKT_DATA, buf, len, PKT_END); } /* * Send an EOF notification to the server. * (only used by pSCP) */ void ssh_scp_send_eof(void) { assert(IS_SCP); if (s == INVALID_SOCKET) return; send_packet(SSH1_CMSG_EOF, PKT_END); } /* * Set up the connection, login on the remote host and * start execution of a command. * Returns an error message, or NULL on success. * (only used by pSCP) */ char *ssh_scp_init(char *host, int port, char *cmd, char **realhost) { char buf[160], *p; assert(IS_SCP); #ifdef MSCRYPTOAPI if (crypto_startup() == 0) return "Microsoft high encryption pack not installed!"; #endif p = connect_to_host(host, port, realhost); if (p != NULL) return p; random_init(); if (!do_ssh_init()) return "Protocol initialisation error"; /* Exchange keys and login */ do { get_packet(); if (s == INVALID_SOCKET) return "Connection closed by remote host"; } while (!do_ssh1_login(NULL, 0, 1)); if (ssh_state == SSH_STATE_CLOSED) { closesocket(s); s = INVALID_SOCKET; return "Session initialisation error"; } /* Execute command */ sprintf(buf, "Sending command: %.100s", cmd); logevent(buf); send_packet(SSH1_CMSG_EXEC_CMD, PKT_STR, cmd, PKT_END); return NULL; } Backend ssh_backend = { ssh_init, ssh_msg, ssh_send, ssh_size, ssh_special };