/* * Copyright 2002 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * usr/src/cmd/cmd-inet/usr.bin/telnet/encrypt.c */ /* * Copyright (c) 1991, 1993 * The Regents of the University of California. 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 the University of * California, Berkeley and its contributors. * 4. Neither the name of the University 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 THE REGENTS 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. */ /* based on @(#)encrypt.c 8.1 (Berkeley) 6/4/93 */ /* * Copyright (C) 1990 by the Massachusetts Institute of Technology * * Export of this software from the United States of America may * require a specific license from the United States Government. * It is the responsibility of any person or organization contemplating * export to obtain such a license before exporting. * * WITHIN THAT CONSTRAINT, permission to use, copy, modify, and * distribute this software and its documentation for any purpose and * without fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright notice and * this permission notice appear in supporting documentation, and that * the name of M.I.T. not be used in advertising or publicity pertaining * to distribution of the software without specific, written prior * permission. Furthermore if you modify this software you must label * your software as modified software and not distribute it in such a * fashion that it might be confused with the original M.I.T. software. * M.I.T. makes no representations about the suitability of * this software for any purpose. It is provided "as is" without express * or implied warranty. */ #ifdef lint static char *encrypt_names[] = {0}; static char *enctype_names[] = {0}; #else /* lint */ #define ENCRYPT_NAMES #endif /* lint */ #include #include "externs.h" #ifdef __STDC__ #include #endif /* * These functions pointers point to the current routines * for encrypting and decrypting data. */ void (*encrypt_output)(uchar_t *, int); int (*decrypt_input)(int); static void encrypt_start_output(int); static void encrypt_send_end(void); static void encrypt_send_request_start(void); static void encrypt_send_request_end(void); boolean_t encrypt_debug_mode = B_FALSE; static int decrypt_mode = 0; static int encrypt_mode = 0; static boolean_t encrypt_verbose = B_FALSE; static boolean_t autoencrypt = B_FALSE; static boolean_t autodecrypt = B_FALSE; static char *Name = "Noname"; #define typemask(x) ((x) > 0 ? 1 << ((x)-1) : 0) #define SUCCESS 0x00 #define UNKNOWN gettext("(unknown)") static int i_support_encrypt = typemask(TELOPT_ENCTYPE_DES_CFB64); static int i_support_decrypt = typemask(TELOPT_ENCTYPE_DES_CFB64); static int i_wont_support_encrypt = 0; static int i_wont_support_decrypt = 0; #define I_SUPPORT_ENCRYPT (i_support_encrypt & ~i_wont_support_encrypt) #define I_SUPPORT_DECRYPT (i_support_decrypt & ~i_wont_support_decrypt) static int remote_supports_encrypt = 0; static int remote_supports_decrypt = 0; static Encryptions encryptions[] = { { "DES_CFB64", TELOPT_ENCTYPE_DES_CFB64, cfb64_encrypt, cfb64_decrypt, cfb64_init, cfb64_start, cfb64_is, cfb64_reply, cfb64_session, cfb64_keyid, cfb64_printsub }, { 0, }, }; static uchar_t str_send[64] = { IAC, SB, TELOPT_ENCRYPT, ENCRYPT_SUPPORT }; static uchar_t str_suplen = 0; static uchar_t str_start[72] = { IAC, SB, TELOPT_ENCRYPT }; static uchar_t str_end[] = { IAC, SB, TELOPT_ENCRYPT, 0, IAC, SE }; static Encryptions * findencryption(int type) { Encryptions *ep = encryptions; if (!(I_SUPPORT_ENCRYPT & remote_supports_decrypt & typemask(type))) return (NULL); for (; (ep->type != 0) && (ep->type != type); ep++); return (ep->type ? ep : NULL); } static Encryptions * finddecryption(int type) { Encryptions *ep = encryptions; if (!(I_SUPPORT_DECRYPT & remote_supports_encrypt & typemask(type))) return (NULL); while (ep->type && ep->type != type) ++ep; return (ep->type ? ep : NULL); } #define MAXKEYLEN 64 static struct key_info { uchar_t keyid[MAXKEYLEN]; int keylen; int dir; int *modep; Encryptions *(*getcrypt)(); } ki[2] = { { { 0 }, 0, TELNET_DIR_ENCRYPT, &encrypt_mode, findencryption }, { { 0 }, 0, TELNET_DIR_DECRYPT, &decrypt_mode, finddecryption }, }; #define KI_ENCRYPT 0 #define KI_DECRYPT 1 void encrypt_init(char *name) { Encryptions *ep = encryptions; Name = name; i_support_encrypt = i_support_decrypt = 0; remote_supports_encrypt = remote_supports_decrypt = 0; encrypt_mode = 0; decrypt_mode = 0; encrypt_output = 0; decrypt_input = 0; #ifdef notdef encrypt_verbose = !server; #endif str_suplen = 4; while (ep->type) { if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: I will support %s\r\n"), Name, ENCTYPE_NAME(ep->type)); i_support_encrypt |= typemask(ep->type); i_support_decrypt |= typemask(ep->type); if ((i_wont_support_decrypt & typemask(ep->type)) == 0) if ((str_send[str_suplen++] = ep->type) == IAC) str_send[str_suplen++] = IAC; if (ep->init) (*ep->init)(); ++ep; } str_send[str_suplen++] = IAC; str_send[str_suplen++] = SE; } static void encrypt_list_types(void) { Encryptions *ep = encryptions; (void) printf(gettext("Valid encryption types:\n")); while (ep->type) { (void) printf("\t%s (%d)\r\n", ENCTYPE_NAME(ep->type), ep->type); ++ep; } } int EncryptEnable(char *type, char *mode) { if (isprefix(type, "help") || isprefix(type, "?")) { (void) printf(gettext( "Usage: encrypt enable [input|output]\n")); encrypt_list_types(); return (0); } if (EncryptType(type, mode)) return (EncryptStart(mode)); return (0); } int EncryptDisable(char *type, char *mode) { register Encryptions *ep; int ret = 0; if (isprefix(type, "help") || isprefix(type, "?")) { (void) printf(gettext( "Usage: encrypt disable [input|output]\n")); encrypt_list_types(); } else if ((ep = (Encryptions *)genget(type, (char **)encryptions, sizeof (Encryptions))) == 0) { (void) printf(gettext("%s: invalid encryption type\n"), type); } else if (Ambiguous(ep)) { (void) printf(gettext("Ambiguous type '%s'\n"), type); } else { if ((mode == 0) || (isprefix(mode, "input") ? 1 : 0)) { if (decrypt_mode == ep->type) (void) EncryptStopInput(); i_wont_support_decrypt |= typemask(ep->type); ret = 1; } if ((mode == 0) || (isprefix(mode, "output"))) { if (encrypt_mode == ep->type) (void) EncryptStopOutput(); i_wont_support_encrypt |= typemask(ep->type); ret = 1; } if (ret == 0) (void) printf(gettext( "%s: invalid encryption mode\n"), mode); } return (ret); } int EncryptType(char *type, char *mode) { register Encryptions *ep; int ret = 0; if (isprefix(type, "help") || isprefix(type, "?")) { (void) printf(gettext( "Usage: encrypt type [input|output]\n")); encrypt_list_types(); } else if ((ep = (Encryptions *)genget(type, (char **)encryptions, sizeof (Encryptions))) == 0) { (void) printf(gettext("%s: invalid encryption type\n"), type); } else if (Ambiguous(ep)) { (void) printf(gettext("Ambiguous type '%s'\n"), type); } else { if ((mode == 0) || isprefix(mode, "input")) { decrypt_mode = ep->type; i_wont_support_decrypt &= ~typemask(ep->type); ret = 1; } if ((mode == 0) || isprefix(mode, "output")) { encrypt_mode = ep->type; i_wont_support_encrypt &= ~typemask(ep->type); ret = 1; } if (ret == 0) (void) printf(gettext( "%s: invalid encryption mode\n"), mode); } return (ret); } int EncryptStart(char *mode) { register int ret = 0; if (mode) { if (isprefix(mode, "input")) return (EncryptStartInput()); if (isprefix(mode, "output")) return (EncryptStartOutput()); if (isprefix(mode, "help") || isprefix(mode, "?")) { (void) printf(gettext( "Usage: encrypt start [input|output]\n")); return (0); } (void) printf(gettext( "%s: invalid encryption mode 'encrypt start ?' " "for help\n"), mode); return (0); } ret += EncryptStartInput(); ret += EncryptStartOutput(); return (ret); } int EncryptStartInput(void) { if (decrypt_mode) { encrypt_send_request_start(); return (1); } (void) printf(gettext("No previous decryption mode, " "decryption not enabled\r\n")); return (0); } int EncryptStartOutput(void) { if (encrypt_mode) { encrypt_start_output(encrypt_mode); return (1); } (void) printf(gettext("No previous encryption mode, " "encryption not enabled\r\n")); return (0); } int EncryptStop(char *mode) { int ret = 0; if (mode) { if (isprefix(mode, "input")) return (EncryptStopInput()); if (isprefix(mode, "output")) return (EncryptStopOutput()); if (isprefix(mode, "help") || isprefix(mode, "?")) { (void) printf(gettext( "Usage: encrypt stop [input|output]\n")); return (0); } (void) printf(gettext( "%s: invalid encryption mode 'encrypt stop ?' " "for help\n"), mode); return (0); } ret += EncryptStopInput(); ret += EncryptStopOutput(); return (ret); } int EncryptStopInput(void) { encrypt_send_request_end(); return (1); } int EncryptStopOutput(void) { encrypt_send_end(); return (1); } void encrypt_display(void) { if (encrypt_output) (void) printf(gettext( "Currently encrypting output with %s\r\n"), ENCTYPE_NAME(encrypt_mode)); if (decrypt_input) (void) printf(gettext( "Currently decrypting input with %s\r\n"), ENCTYPE_NAME(decrypt_mode)); } int EncryptStatus(void) { if (encrypt_output) (void) printf(gettext( "Currently encrypting output with %s\r\n"), ENCTYPE_NAME(encrypt_mode)); else if (encrypt_mode) { (void) printf(gettext("Currently output is clear text.\r\n")); (void) printf(gettext("Last encryption mode was %s\r\n"), ENCTYPE_NAME(encrypt_mode)); } if (decrypt_input) { (void) printf(gettext( "Currently decrypting input with %s\r\n"), ENCTYPE_NAME(decrypt_mode)); } else if (decrypt_mode) { (void) printf(gettext("Currently input is clear text.\r\n")); (void) printf(gettext("Last decryption mode was %s\r\n"), ENCTYPE_NAME(decrypt_mode)); } return (1); } void encrypt_send_support(void) { if (str_suplen) { /* * If the user has requested that decryption start * immediatly, then send a "REQUEST START" before * we negotiate the type. */ if (autodecrypt) encrypt_send_request_start(); (void) net_write(str_send, str_suplen); printsub('>', &str_send[2], str_suplen - 2); str_suplen = 0; } } int EncryptDebug(int on) { encrypt_debug_mode = (on < 0) ? !encrypt_debug_mode : (on > 0) ? B_TRUE : B_FALSE; (void) printf(encrypt_debug_mode ? gettext("Encryption debugging enabled\r\n") : gettext("Encryption debugging disabled\r\n")); return (1); } int EncryptVerbose(int on) { encrypt_verbose = (on < 0) ? !encrypt_verbose : (on > 0) ? B_TRUE : B_FALSE; (void) printf(encrypt_verbose ? gettext("Encryption is verbose\r\n") : gettext("Encryption is not verbose\r\n")); return (1); } int EncryptAutoEnc(int on) { encrypt_auto(on); (void) printf(autoencrypt ? gettext("Automatic encryption of output is enabled\r\n") : gettext("Automatic encryption of output is disabled\r\n")); return (1); } int EncryptAutoDec(int on) { decrypt_auto(on); (void) printf(autodecrypt ? gettext("Automatic decryption of input is enabled\r\n") : gettext("Automatic decryption of input is disabled\r\n")); return (1); } /* * Called when ENCRYPT SUPPORT is received. */ void encrypt_support(uchar_t *typelist, int cnt) { register int type, use_type = 0; Encryptions *ep; /* * Forget anything the other side has previously told us. */ remote_supports_decrypt = 0; while (cnt-- > 0) { type = *typelist++; if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Remote host supports %s (%d)\r\n"), Name, ENCTYPE_NAME(type), type); if ((type < TELOPT_ENCTYPE_CNT) && (I_SUPPORT_ENCRYPT & typemask(type))) { remote_supports_decrypt |= typemask(type); if (use_type == 0) use_type = type; } } if (use_type) { ep = findencryption(use_type); if (!ep) return; type = ep->start ? (*ep->start)(TELNET_DIR_ENCRYPT) : 0; if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: (*ep->start)() returned %d\r\n"), Name, type); if (type < 0) return; encrypt_mode = use_type; if (type == 0) encrypt_start_output(use_type); } } void encrypt_is(uchar_t *data, int cnt) { Encryptions *ep; register int type, ret; if (--cnt < 0) return; type = *data++; if (type < TELOPT_ENCTYPE_CNT) remote_supports_encrypt |= typemask(type); if (!(ep = finddecryption(type))) { if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Can't find type %s (%d) for " "initial negotiation\r\n"), Name, ENCTYPE_NAME_OK(type) ? ENCTYPE_NAME(type) : UNKNOWN, type); return; } if (!ep->is) { if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: No initial negotiation needed " "for type %s (%d)\r\n"), Name, ENCTYPE_NAME_OK(type) ? ENCTYPE_NAME(type) : UNKNOWN, type); ret = 0; } else { ret = (*ep->is)(data, cnt); if (encrypt_debug_mode) (void) printf(gettext( "(*ep->is)(%x, %d) returned %s(%d)\n"), data, cnt, (ret < 0) ? "FAIL " : (ret == 0) ? "SUCCESS " : "MORE_TO_DO ", ret); } if (ret < 0) { autodecrypt = B_FALSE; } else { decrypt_mode = type; if (ret == 0 && autodecrypt) encrypt_send_request_start(); } } void encrypt_reply(uchar_t *data, int cnt) { Encryptions *ep; register int ret, type; if (--cnt < 0) return; type = *data++; if (!(ep = findencryption(type))) { if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Can't find type %s (%d) " "for initial negotiation\r\n"), Name, ENCTYPE_NAME_OK(type) ? ENCTYPE_NAME(type) : UNKNOWN, type); return; } if (!ep->reply) { if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: No initial negotiation needed " "for type %s (%d)\r\n"), Name, ENCTYPE_NAME_OK(type) ? ENCTYPE_NAME(type) : UNKNOWN, type); ret = 0; } else { ret = (*ep->reply)(data, cnt); if (encrypt_debug_mode) (void) printf(gettext( "(*ep->reply)(%x, %d) returned %s(%d)\n"), data, cnt, (ret < 0) ? "FAIL " : (ret == 0) ? "SUCCESS " : "MORE_TO_DO ", ret); } if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: encrypt_reply returned %d\n"), Name, ret); if (ret < 0) { autoencrypt = B_FALSE; } else { encrypt_mode = type; if (ret == 0 && autoencrypt) encrypt_start_output(type); } } /* * Called when a ENCRYPT START command is received. */ /* ARGSUSED */ void encrypt_start(uchar_t *data, int cnt) { Encryptions *ep; if (!decrypt_mode) { /* * Something is wrong. We should not get a START * command without having already picked our * decryption scheme. Send a REQUEST-END to * attempt to clear the channel... */ (void) printf(gettext("%s: Warning, cannot decrypt " "input stream!!!\r\n"), Name); encrypt_send_request_end(); return; } if (ep = finddecryption(decrypt_mode)) { decrypt_input = ep->input; if (encrypt_verbose) (void) printf(gettext( "[ Input is now decrypted with type %s ]\r\n"), ENCTYPE_NAME(decrypt_mode)); if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Start to decrypt input with type %s\r\n"), Name, ENCTYPE_NAME(decrypt_mode)); } else { (void) printf(gettext( "%s: Warning, cannot decrypt type %s (%d)!!!\r\n"), Name, ENCTYPE_NAME_OK(decrypt_mode) ? ENCTYPE_NAME(decrypt_mode) : UNKNOWN, decrypt_mode); encrypt_send_request_end(); } } void encrypt_session_key(Session_Key *key) { Encryptions *ep = encryptions; while (ep->type) { if (ep->session) (*ep->session)(key); #ifdef notdef if (!encrypt_output && autoencrypt) encrypt_start_output(ep->type); if (!decrypt_input && autodecrypt) encrypt_send_request_start(); #endif ++ep; } } /* * Called when ENCRYPT END is received. */ void encrypt_end(void) { decrypt_input = 0; if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Input is back to clear text\r\n"), Name); if (encrypt_verbose) (void) printf(gettext("[ Input is now clear text ]\r\n")); } /* * Called when ENCRYPT REQUEST-END is received. */ void encrypt_request_end(void) { encrypt_send_end(); } /* * Called when ENCRYPT REQUEST-START is received. If we receive * this before a type is picked, then that indicates that the * other side wants us to start encrypting data as soon as we * can. */ /* ARGSUSED */ void encrypt_request_start(uchar_t *data, int cnt) { if (encrypt_mode == 0) return; encrypt_start_output(encrypt_mode); } static uchar_t str_keyid[(MAXKEYLEN*2)+5] = { IAC, SB, TELOPT_ENCRYPT }; static void encrypt_keyid(struct key_info *, uchar_t *, int); void encrypt_enc_keyid(uchar_t *keyid, int len) { encrypt_keyid(&ki[KI_DECRYPT], keyid, len); } void encrypt_dec_keyid(uchar_t *keyid, int len) { encrypt_keyid(&ki[KI_ENCRYPT], keyid, len); } static void encrypt_keyid(struct key_info *kp, uchar_t *keyid, int len) { Encryptions *ep; int dir = kp->dir; register int ret = 0; if (!(ep = (*kp->getcrypt)(*kp->modep))) { if (len == 0) return; kp->keylen = 0; } else if (len == 0) { /* * Empty option, indicates a failure. */ if (kp->keylen == 0) return; kp->keylen = 0; if (ep->keyid) (void) (*ep->keyid)(dir, kp->keyid, &kp->keylen); } else if ((len != kp->keylen) || (memcmp(keyid, kp->keyid, len) != 0)) { /* * Length or contents are different */ kp->keylen = len; (void) memcpy(kp->keyid, keyid, len); if (ep->keyid) (void) (*ep->keyid)(dir, kp->keyid, &kp->keylen); } else { if (ep->keyid) ret = (*ep->keyid)(dir, kp->keyid, &kp->keylen); if ((ret == 0) && (dir == TELNET_DIR_ENCRYPT) && autoencrypt) encrypt_start_output(*kp->modep); return; } encrypt_send_keyid(dir, kp->keyid, kp->keylen, 0); } void encrypt_send_keyid(int dir, uchar_t *keyid, int keylen, int saveit) { uchar_t *strp; str_keyid[3] = (dir == TELNET_DIR_ENCRYPT) ? ENCRYPT_ENC_KEYID : ENCRYPT_DEC_KEYID; if (saveit) { struct key_info *kp = &ki[(dir == TELNET_DIR_ENCRYPT) ? 0 : 1]; (void) memcpy(kp->keyid, keyid, keylen); kp->keylen = keylen; } for (strp = &str_keyid[4]; keylen > 0; --keylen) { if ((*strp++ = *keyid++) == IAC) *strp++ = IAC; } *strp++ = IAC; *strp++ = SE; (void) net_write(str_keyid, strp - str_keyid); printsub('>', &str_keyid[2], strp - str_keyid - 2); } void encrypt_auto(int on) { autoencrypt = (on < 0) ? !autoencrypt : (on > 0) ? B_TRUE : B_FALSE; } void decrypt_auto(int on) { autodecrypt = (on < 0) ? !autodecrypt : (on > 0) ? B_TRUE : B_FALSE; } static void encrypt_start_output(int type) { Encryptions *ep; register uchar_t *p; register int i; if (!(ep = findencryption(type))) { if (encrypt_debug_mode) { (void) printf(gettext( ">>>%s: Can't encrypt with type %s (%d)\r\n"), Name, ENCTYPE_NAME_OK(type) ? ENCTYPE_NAME(type) : UNKNOWN, type); } return; } if (ep->start) { i = (*ep->start)(TELNET_DIR_ENCRYPT); if (encrypt_debug_mode) { (void) printf(gettext( ">>>%s: Encrypt start: %s (%d) %s\r\n"), Name, (i < 0) ? gettext("failed") : gettext("initial negotiation in progress"), i, ENCTYPE_NAME(type)); } if (i) return; } p = str_start + 3; *p++ = ENCRYPT_START; for (i = 0; i < ki[KI_ENCRYPT].keylen; ++i) { if ((*p++ = ki[KI_ENCRYPT].keyid[i]) == IAC) *p++ = IAC; } *p++ = IAC; *p++ = SE; (void) net_write(str_start, p - str_start); net_encrypt(); printsub('>', &str_start[2], p - &str_start[2]); /* * If we are already encrypting in some mode, then * encrypt the ring (which includes our request) in * the old mode, mark it all as "clear text" and then * switch to the new mode. */ encrypt_output = ep->output; encrypt_mode = type; if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Started to encrypt output with type %s\r\n"), Name, ENCTYPE_NAME(type)); if (encrypt_verbose) (void) printf(gettext( "[ Output is now encrypted with type %s ]\r\n"), ENCTYPE_NAME(type)); } static void encrypt_send_end(void) { if (!encrypt_output) return; str_end[3] = ENCRYPT_END; (void) net_write(str_end, sizeof (str_end)); net_encrypt(); printsub('>', &str_end[2], sizeof (str_end) - 2); /* * Encrypt the output buffer now because it will not be done by * netflush... */ encrypt_output = 0; if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Output is back to clear text\r\n"), Name); if (encrypt_verbose) (void) printf(gettext("[ Output is now clear text ]\r\n")); } static void encrypt_send_request_start(void) { register uchar_t *p; register int i; p = &str_start[3]; *p++ = ENCRYPT_REQSTART; for (i = 0; i < ki[KI_DECRYPT].keylen; ++i) { if ((*p++ = ki[KI_DECRYPT].keyid[i]) == IAC) *p++ = IAC; } *p++ = IAC; *p++ = SE; (void) net_write(str_start, p - str_start); printsub('>', &str_start[2], p - &str_start[2]); if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Request input to be encrypted\r\n"), Name); } static void encrypt_send_request_end(void) { str_end[3] = ENCRYPT_REQEND; (void) net_write(str_end, sizeof (str_end)); printsub('>', &str_end[2], sizeof (str_end) - 2); if (encrypt_debug_mode) (void) printf(gettext( ">>>%s: Request input to be clear text\r\n"), Name); } boolean_t encrypt_is_encrypting(void) { return (encrypt_output && decrypt_input ? B_TRUE : B_FALSE); } static void encrypt_gen_printsub(uchar_t *data, int cnt, uchar_t *buf, int buflen) { char lbuf[ENCR_LBUF_BUFSIZ], *cp; if (cnt < 2 || buflen < 2) return; cnt -= 2; data += 2; buf[buflen-1] = '\0'; buf[buflen-2] = '*'; buflen -= 2; for (; cnt > 0; cnt--, data++) { (void) snprintf(lbuf, ENCR_LBUF_BUFSIZ, " %d", *data); for (cp = lbuf; *cp && buflen > 0; --buflen) *buf++ = *cp++; if (buflen <= 0) return; } *buf = '\0'; } void encrypt_printsub(uchar_t *data, int cnt, uchar_t *buf, int buflen) { Encryptions *ep; register int type = data[1]; for (ep = encryptions; ep->type && ep->type != type; ep++) ; if (ep->printsub) (*ep->printsub)(data, cnt, buf, buflen); else encrypt_gen_printsub(data, cnt, buf, buflen); }