5 Author: Pekka Riikonen <priikone@silcnet.org>
7 Copyright (C) 1997 - 2003 Pekka Riikonen
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; version 2 of the License.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
20 * These are general utility functions that doesn't belong to any specific
25 #include "silcincludes.h"
27 /* Gets line from a buffer. Stops reading when a newline or EOF occurs.
28 This doesn't remove the newline sign from the destination buffer. The
29 argument begin is returned and should be passed again for the function. */
31 int silc_gets(char *dest, int destlen, const char *src, int srclen,
37 memset(dest, 0, destlen);
40 for ( ; off <= srclen; i++) {
53 if (off + 1 >= srclen)
59 /* Checks line for illegal characters. Return -1 when illegal character
60 were found. This is used to check for bad lines when reading data from
61 for example a configuration file. */
63 int silc_check_line(char *buf)
65 /* Illegal characters in line */
66 if (strchr(buf, '#')) return -1;
67 if (strchr(buf, '\'')) return -1;
68 if (strchr(buf, '\\')) return -1;
69 if (strchr(buf, '\r')) return -1;
70 if (strchr(buf, '\a')) return -1;
71 if (strchr(buf, '\b')) return -1;
72 if (strchr(buf, '\f')) return -1;
81 /* Returns time as string. If the the `timeval' is non-zero that
82 value is returned as string. If it is zero the current time of the
83 local machine is returned. */
85 const char *silc_get_time(SilcUInt32 timeval)
93 curtime = (time_t)timeval;
94 return_time = ctime(&curtime);
95 return_time[strlen(return_time) - 1] = '\0';
97 return (const char *)return_time;
100 /* Converts string to capital characters. */
102 bool silc_to_upper(const char *string, char *dest, SilcUInt32 dest_size)
106 if (strlen(string) > dest_size)
109 for (i = 0; i < strlen(string); i++)
110 dest[i] = toupper(string[i]);
115 /* Converts string to lower letter characters. */
117 bool silc_to_lower(const char *string, char *dest, SilcUInt32 dest_size)
121 if (strlen(string) > dest_size)
124 for (i = 0; i < strlen(string); i++)
125 dest[i] = tolower(string[i]);
130 /* Parse userfqdn string which is in user@fqdn format. */
132 bool silc_parse_userfqdn(const char *string, char **left, char **right)
139 if (string[0] == '@') {
141 *left = strdup(string);
145 if (strchr(string, '@')) {
146 tlen = strcspn(string, "@");
149 *left = silc_calloc(tlen + 1, sizeof(char));
150 memcpy(*left, string, tlen);
154 *right = silc_calloc((strlen(string) - tlen) + 1, sizeof(char));
155 memcpy(*right, string + tlen + 1, strlen(string) - tlen - 1);
159 *left = strdup(string);
165 /* Parses command line. At most `max_args' is taken. Rest of the line
166 will be allocated as the last argument if there are more than `max_args'
167 arguments in the line. Note that the command name is counted as one
168 argument and is saved. */
170 void silc_parse_command_line(unsigned char *buffer,
171 unsigned char ***parsed,
172 SilcUInt32 **parsed_lens,
173 SilcUInt32 **parsed_types,
174 SilcUInt32 *parsed_num,
179 const char *cp = buffer;
182 *parsed = silc_calloc(1, sizeof(**parsed));
183 *parsed_lens = silc_calloc(1, sizeof(**parsed_lens));
185 /* Get the command first */
186 len = strcspn(cp, " ");
187 tmp = silc_calloc(strlen(cp) + 1, sizeof(*tmp));
190 silc_to_upper(cp, tmp, strlen(cp));
191 (*parsed)[0] = silc_calloc(len + 1, sizeof(char));
192 memcpy((*parsed)[0], tmp, len);
194 (*parsed_lens)[0] = len;
200 /* Parse arguments */
201 if (strchr(cp, ' ') || strlen(cp) != 0) {
202 for (i = 1; i < max_args; i++) {
204 if (i != max_args - 1)
205 len = strcspn(cp, " ");
208 while (len && cp[len - 1] == ' ')
213 *parsed = silc_realloc(*parsed, sizeof(**parsed) * (argc + 1));
214 *parsed_lens = silc_realloc(*parsed_lens,
215 sizeof(**parsed_lens) * (argc + 1));
216 (*parsed)[argc] = silc_calloc(len + 1, sizeof(char));
217 memcpy((*parsed)[argc], cp, len);
218 (*parsed_lens)[argc] = len;
230 /* Save argument types. Protocol defines all argument types but
231 this implementation makes sure that they are always in correct
232 order hence this simple code. */
233 *parsed_types = silc_calloc(argc, sizeof(**parsed_types));
234 for (i = 0; i < argc; i++)
235 (*parsed_types)[i] = i;
240 /* Formats arguments to a string and returns it after allocating memory
241 for it. It must be remembered to free it later. */
243 char *silc_format(char *fmt, ...)
246 static char buf[8192];
248 memset(buf, 0, sizeof(buf));
250 vsnprintf(buf, sizeof(buf) - 1, fmt, args);
256 /* Renders ID to suitable to print for example to log file. */
258 static char rid[256];
259 #define _PUT_STRING(__d__, __s__) \
261 int __sp = sizeof(__d__) - 1 - strlen(__d__); \
262 if (__sp < strlen(__s__)) { \
264 strncat(__d__, __s__, (sizeof(__d__) - 1) - strlen(__d__)); \
266 strncat(__d__, __s__, strlen(__s__)); \
270 char *silc_id_render(void *id, SilcUInt16 type)
273 unsigned char tmps[2];
276 memset(rid, 0, sizeof(rid));
280 SilcServerID *server_id = (SilcServerID *)id;
281 if (server_id->ip.data_len > 4) {
283 struct sockaddr_in6 ipv6;
284 memset(&ipv6, 0, sizeof(ipv6));
285 ipv6.sin6_family = AF_INET6;
286 memmove(&ipv6.sin6_addr, server_id->ip.data, sizeof(ipv6.sin6_addr));
287 if (!getnameinfo((struct sockaddr *)&ipv6, sizeof(ipv6),
288 tmp, sizeof(tmp) - 1, NULL, 0, NI_NUMERICHOST))
289 _PUT_STRING(rid, tmp);
293 memmove(&ipv4.s_addr, server_id->ip.data, 4);
294 cp = inet_ntoa(ipv4);
296 _PUT_STRING(rid, cp);
299 memset(tmp, 0, sizeof(tmp));
300 snprintf(tmp, sizeof(tmp) - 1, ",%d,", ntohs(server_id->port));
301 _PUT_STRING(rid, tmp);
302 SILC_PUT16_MSB(server_id->rnd, tmps);
303 memset(tmp, 0, sizeof(tmp));
304 snprintf(tmp, sizeof(tmp) - 1, "[%02x %02x]", tmps[0], tmps[1]);
305 _PUT_STRING(rid, tmp);
310 SilcClientID *client_id = (SilcClientID *)id;
311 if (client_id->ip.data_len > 4) {
313 struct sockaddr_in6 ipv6;
314 memset(&ipv6, 0, sizeof(ipv6));
315 ipv6.sin6_family = AF_INET6;
316 memmove(&ipv6.sin6_addr, client_id->ip.data, sizeof(ipv6.sin6_addr));
317 if (!getnameinfo((struct sockaddr *)&ipv6, sizeof(ipv6),
318 tmp, sizeof(tmp) - 1, NULL, 0, NI_NUMERICHOST))
319 _PUT_STRING(rid, tmp);
323 memmove(&ipv4.s_addr, client_id->ip.data, 4);
324 cp = inet_ntoa(ipv4);
326 _PUT_STRING(rid, cp);
329 memset(tmp, 0, sizeof(tmp));
330 snprintf(tmp, sizeof(tmp) - 1, ",%02x,", client_id->rnd);
331 _PUT_STRING(rid, tmp);
332 memset(tmp, 0, sizeof(tmp));
333 snprintf(tmp, sizeof(tmp) - 1, "[%02x %02x %02x %02x...]",
334 client_id->hash[0], client_id->hash[1],
335 client_id->hash[2], client_id->hash[3]);
336 _PUT_STRING(rid, tmp);
339 case SILC_ID_CHANNEL:
341 SilcChannelID *channel_id = (SilcChannelID *)id;
342 if (channel_id->ip.data_len > 4) {
344 struct sockaddr_in6 ipv6;
345 memset(&ipv6, 0, sizeof(ipv6));
346 ipv6.sin6_family = AF_INET6;
347 memmove(&ipv6.sin6_addr, channel_id->ip.data, sizeof(ipv6.sin6_addr));
348 if (!getnameinfo((struct sockaddr *)&ipv6, sizeof(ipv6),
349 tmp, sizeof(tmp) - 1, NULL, 0, NI_NUMERICHOST))
350 _PUT_STRING(rid, tmp);
354 memmove(&ipv4.s_addr, channel_id->ip.data, 4);
355 cp = inet_ntoa(ipv4);
357 _PUT_STRING(rid, cp);
360 memset(tmp, 0, sizeof(tmp));
361 snprintf(tmp, sizeof(tmp) - 1, ",%d,", ntohs(channel_id->port));
362 _PUT_STRING(rid, tmp);
363 SILC_PUT16_MSB(channel_id->rnd, tmps);
364 memset(tmp, 0, sizeof(tmp));
365 snprintf(tmp, sizeof(tmp) - 1, "[%02x %02x]", tmps[0], tmps[1]);
366 _PUT_STRING(rid, tmp);
375 /* Compares two strings. Strings may include wildcards '*' and '?'.
376 Returns TRUE if strings match. */
378 int silc_string_compare(char *string1, char *string2)
383 char *tmpstr1, *tmpstr2;
385 if (!string1 || !string2)
388 slen1 = strlen(string1);
389 slen2 = strlen(string2);
391 /* See if they are same already */
392 if (!strncmp(string1, string2, slen2) && slen2 == slen1)
396 if (!strchr(string1, '*'))
399 /* Take copies of the original strings as we will change them */
400 tmpstr1 = silc_calloc(slen1 + 1, sizeof(char));
401 memcpy(tmpstr1, string1, slen1);
402 tmpstr2 = silc_calloc(slen2 + 1, sizeof(char));
403 memcpy(tmpstr2, string2, slen2);
405 for (i = 0; i < slen1; i++) {
407 /* * wildcard. Only one * wildcard is possible. */
408 if (tmpstr1[i] == '*')
409 if (!strncmp(tmpstr1, tmpstr2, i)) {
410 memset(tmpstr2, 0, slen2);
411 strncpy(tmpstr2, tmpstr1, i);
416 if (tmpstr1[i] == '?') {
417 if (!strncmp(tmpstr1, tmpstr2, i)) {
418 if (!(slen1 < i + 1))
419 if (tmpstr1[i + 1] != '?' &&
420 tmpstr1[i + 1] != tmpstr2[i + 1])
423 if (!(slen1 < slen2))
429 /* if using *, remove it */
430 if (strchr(tmpstr1, '*'))
431 *strchr(tmpstr1, '*') = 0;
433 if (!strcmp(tmpstr1, tmpstr2)) {
434 memset(tmpstr1, 0, slen1);
435 memset(tmpstr2, 0, slen2);
441 memset(tmpstr1, 0, slen1);
442 memset(tmpstr2, 0, slen2);
448 /* Basic has function to hash strings. May be used with the SilcHashTable.
449 Note that this lowers the characters of the string (with tolower()) so
450 this is used usually with nicknames, channel and server names to provide
451 case insensitive keys. */
453 SilcUInt32 silc_hash_string(void *key, void *user_context)
455 char *s = (char *)key;
459 h = (h << 4) + tolower(*s);
460 if ((g = h & 0xf0000000)) {
470 /* Basic hash function to hash integers. May be used with the SilcHashTable. */
472 SilcUInt32 silc_hash_uint(void *key, void *user_context)
474 return *(SilcUInt32 *)key;
477 /* Basic hash funtion to hash pointers. May be used with the SilcHashTable. */
479 SilcUInt32 silc_hash_ptr(void *key, void *user_context)
481 return (SilcUInt32)key;
484 /* Hash a ID. The `user_context' is the ID type. */
486 SilcUInt32 silc_hash_id(void *key, void *user_context)
488 SilcIdType id_type = (SilcIdType)(SilcUInt32)user_context;
495 SilcClientID *id = (SilcClientID *)key;
497 /* The client ID is hashed by hashing the hash of the ID
498 (which is a truncated MD5 hash of the nickname) so that we
499 can access the entry from the cache with both Client ID but
500 with just a hash from the ID as well. */
501 return silc_hash_client_id_hash(id->hash, NULL);
506 SilcServerID *id = (SilcServerID *)key;
508 h = id->port * id->rnd;
509 for (i = 0; i < id->ip.data_len; i++)
515 case SILC_ID_CHANNEL:
517 SilcChannelID *id = (SilcChannelID *)key;
519 h = id->port * id->rnd;
520 for (i = 0; i < id->ip.data_len; i++)
533 /* Hash Client ID's hash. */
535 SilcUInt32 silc_hash_client_id_hash(void *key, void *user_context)
538 unsigned char *hash = key;
541 for (i = 0; i < CLIENTID_HASH_LEN; i++) {
542 h = (h << 4) + hash[i];
543 if ((g = h & 0xf0000000)) {
552 /* Hash binary data. The `user_context' is the data length. */
554 SilcUInt32 silc_hash_data(void *key, void *user_context)
556 SilcUInt32 len = (SilcUInt32)user_context, h = 0;
557 unsigned char *data = (unsigned char *)key;
560 h = (data[0] * data[len - 1] + 1) * len;
561 for (i = 0; i < len; i++)
567 /* Hashed SILC Public key. */
569 SilcUInt32 silc_hash_public_key(void *key, void *user_context)
571 SilcPublicKey pk = (SilcPublicKey)key;
572 return (pk->len + silc_hash_string(pk->name, NULL) +
573 silc_hash_string(pk->identifier, NULL) +
574 silc_hash_data(pk->pk, (void *)pk->pk_len));
577 /* Compares two strings. It may be used as SilcHashTable comparison
580 bool silc_hash_string_compare(void *key1, void *key2, void *user_context)
582 return !strcasecmp((char *)key1, (char *)key2);
585 /* Compares two ID's. May be used as SilcHashTable comparison function.
586 The Client ID's compares only the hash of the Client ID not any other
587 part of the Client ID. Other ID's are fully compared. */
589 bool silc_hash_id_compare(void *key1, void *key2, void *user_context)
591 SilcIdType id_type = (SilcIdType)(SilcUInt32)user_context;
592 return (id_type == SILC_ID_CLIENT ?
593 SILC_ID_COMPARE_HASH((SilcClientID *)key1, (SilcClientID *)key2) :
594 SILC_ID_COMPARE_TYPE(key1, key2, id_type));
597 /* Compare two Client ID's entirely and not just the hash from the ID. */
599 bool silc_hash_client_id_compare(void *key1, void *key2, void *user_context)
601 return SILC_ID_COMPARE_TYPE(key1, key2, SILC_ID_CLIENT);
604 /* Compares binary data. May be used as SilcHashTable comparison function. */
606 bool silc_hash_data_compare(void *key1, void *key2, void *user_context)
608 SilcUInt32 len = (SilcUInt32)user_context;
609 return !memcmp(key1, key2, len);
612 /* Compares two SILC Public keys. It may be used as SilcHashTable
613 comparison function. */
615 bool silc_hash_public_key_compare(void *key1, void *key2, void *user_context)
617 return silc_pkcs_public_key_compare(key1, key2);
620 /* Parses mode mask and returns the mode as string. */
622 char *silc_client_chmode(SilcUInt32 mode, const char *cipher, const char *hmac)
629 memset(string, 0, sizeof(string));
631 if (mode & SILC_CHANNEL_MODE_PRIVATE)
632 strncat(string, "p", 1);
634 if (mode & SILC_CHANNEL_MODE_SECRET)
635 strncat(string, "s", 1);
637 if (mode & SILC_CHANNEL_MODE_PRIVKEY)
638 strncat(string, "k", 1);
640 if (mode & SILC_CHANNEL_MODE_INVITE)
641 strncat(string, "i", 1);
643 if (mode & SILC_CHANNEL_MODE_TOPIC)
644 strncat(string, "t", 1);
646 if (mode & SILC_CHANNEL_MODE_ULIMIT)
647 strncat(string, "l", 1);
649 if (mode & SILC_CHANNEL_MODE_PASSPHRASE)
650 strncat(string, "a", 1);
652 if (mode & SILC_CHANNEL_MODE_FOUNDER_AUTH)
653 strncat(string, "f", 1);
655 if (mode & SILC_CHANNEL_MODE_SILENCE_USERS)
656 strncat(string, "m", 1);
658 if (mode & SILC_CHANNEL_MODE_SILENCE_OPERS)
659 strncat(string, "M", 1);
661 if (mode & SILC_CHANNEL_MODE_CIPHER)
662 strncat(string, "c", 1);
664 if (mode & SILC_CHANNEL_MODE_HMAC)
665 strncat(string, "h", 1);
667 if (mode & SILC_CHANNEL_MODE_CIPHER) {
668 if (strlen(cipher) + strlen(string) + 1< sizeof(string)) {
669 strncat(string, " ", 1);
670 strncat(string, cipher, strlen(cipher));
674 if (mode & SILC_CHANNEL_MODE_HMAC) {
675 if (strlen(hmac) + strlen(string) + 1< sizeof(string)) {
676 strncat(string, " ", 1);
677 strncat(string, hmac, strlen(hmac));
681 /* Rest of mode is ignored */
683 return strdup(string);
686 /* Parses channel user mode mask and returns te mode as string */
688 char *silc_client_chumode(SilcUInt32 mode)
695 memset(string, 0, sizeof(string));
697 if (mode & SILC_CHANNEL_UMODE_CHANFO)
698 strncat(string, "f", 1);
700 if (mode & SILC_CHANNEL_UMODE_CHANOP)
701 strncat(string, "o", 1);
703 if (mode & SILC_CHANNEL_UMODE_BLOCK_MESSAGES)
704 strncat(string, "b", 1);
706 if (mode & SILC_CHANNEL_UMODE_BLOCK_MESSAGES_USERS)
707 strncat(string, "u", 1);
709 if (mode & SILC_CHANNEL_UMODE_BLOCK_MESSAGES_ROBOTS)
710 strncat(string, "r", 1);
712 if (mode & SILC_CHANNEL_UMODE_QUIET)
713 strncat(string, "q", 1);
715 return strdup(string);
718 /* Parses channel user mode and returns it as special mode character. */
720 char *silc_client_chumode_char(SilcUInt32 mode)
727 memset(string, 0, sizeof(string));
729 if (mode & SILC_CHANNEL_UMODE_CHANFO)
730 strncat(string, "*", 1);
732 if (mode & SILC_CHANNEL_UMODE_CHANOP)
733 strncat(string, "@", 1);
735 if (mode & SILC_CHANNEL_UMODE_QUIET)
736 strncat(string, "&", 1);
738 return strdup(string);
741 /* Creates fingerprint from data, usually used with SHA1 digests */
743 char *silc_fingerprint(const unsigned char *data, SilcUInt32 data_len)
745 char fingerprint[64], *cp;
748 memset(fingerprint, 0, sizeof(fingerprint));
750 for (i = 0; i < data_len; i++) {
751 snprintf(cp, sizeof(fingerprint), "%02X", data[i]);
754 if ((i + 1) % 2 == 0)
755 snprintf(cp++, sizeof(fingerprint), " ");
757 if ((i + 1) % 10 == 0)
758 snprintf(cp++, sizeof(fingerprint), " ");
761 if ((i + 1) % 2 == 0)
763 if ((i + 1) % 10 == 0)
766 return strdup(fingerprint);
769 /* Return TRUE if the `data' is ASCII string. */
771 bool silc_string_is_ascii(const unsigned char *data, SilcUInt32 data_len)
775 for (i = 0; i < data_len; i++) {
776 if (!isascii(data[i]))
783 /* Parses SILC protocol style version string. */
785 bool silc_parse_version_string(const char *version,
786 SilcUInt32 *protocol_version,
787 char **protocol_version_string,
788 SilcUInt32 *software_version,
789 char **software_version_string,
790 char **vendor_version)
793 int maj = 0, min = 0;
795 if (!strstr(version, "SILC-"))
798 cp = (char *)version + 5;
802 /* Take protocol version */
805 if (!strchr(cp, '.'))
807 cp = strchr(cp, '.') + 1;
812 memset(buf, 0, sizeof(buf));
813 snprintf(buf, sizeof(buf) - 1, "%d%d", maj, min);
814 if (protocol_version)
815 *protocol_version = atoi(buf);
816 memset(buf, 0, sizeof(buf));
817 snprintf(buf, sizeof(buf) - 1, "%d.%d", maj, min);
818 if (protocol_version_string)
819 *protocol_version_string = strdup(buf);
821 /* Take software version */
825 if (!strchr(cp, '-'))
827 cp = strchr(cp, '-') + 1;
832 if (strchr(cp, '.')) {
833 cp = strchr(cp, '.') + 1;
838 memset(buf, 0, sizeof(buf));
839 snprintf(buf, sizeof(buf) - 1, "%d%d", maj, min);
840 if (software_version)
841 *software_version = atoi(buf);
842 memset(buf, 0, sizeof(buf));
843 snprintf(buf, sizeof(buf) - 1, "%d.%d", maj, min);
844 if (software_version_string)
845 *software_version_string = strdup(buf);
847 /* Take vendor string */
849 if (strchr(cp, '.')) {
850 cp = strchr(cp, '.') + 1;
851 if (cp && *cp && vendor_version)
852 *vendor_version = strdup(cp);
858 /* Converts version string x.x into number representation. */
860 SilcUInt32 silc_version_to_num(const char *version)
862 int maj = 0, min = 0;
868 cp = (char *)version;
870 cp = strchr(cp, '.');
874 memset(buf, 0, sizeof(buf));
875 snprintf(buf, sizeof(buf) - 1, "%d%d", maj, min);
876 return (SilcUInt32)atoi(buf);
879 /* Displays input prompt on command line and takes input data from user */
881 char *silc_get_input(const char *prompt, bool echo_off)
889 #ifdef HAVE_TERMIOS_H
891 struct termios to_old;
893 fd = open("/dev/tty", O_RDONLY);
895 fprintf(stderr, "silc: %s\n", strerror(errno));
899 signal(SIGINT, SIG_IGN);
901 /* Get terminal info */
905 /* Echo OFF, and assure we can prompt and get input */
906 to.c_lflag &= ~(ECHO | ECHOE | ECHOK | ECHONL);
907 to.c_lflag |= ICANON;
909 tcsetattr(fd, TCSANOW, &to);
911 memset(input, 0, sizeof(input));
913 printf("%s", prompt);
916 if ((read(fd, input, sizeof(input))) < 0) {
917 fprintf(stderr, "silc: %s\n", strerror(errno));
918 tcsetattr(fd, TCSANOW, &to_old);
922 if (strlen(input) <= 1) {
923 tcsetattr(fd, TCSANOW, &to_old);
927 if (strchr(input, '\n'))
928 *strchr(input, '\n') = '\0';
930 /* Restore old terminfo */
931 tcsetattr(fd, TCSANOW, &to_old);
932 signal(SIGINT, SIG_DFL);
934 ret = silc_memdup(input, strlen(input));
935 memset(input, 0, sizeof(input));
936 #endif /* HAVE_TERMIOS_H */
939 fd = open("/dev/tty", O_RDONLY);
941 fprintf(stderr, "silc: %s\n", strerror(errno));
945 memset(input, 0, sizeof(input));
947 printf("%s", prompt);
950 if ((read(fd, input, sizeof(input))) < 0) {
951 fprintf(stderr, "silc: %s\n", strerror(errno));
955 if (strlen(input) <= 1)
958 if (strchr(input, '\n'))
959 *strchr(input, '\n') = '\0';
961 return strdup(input);
965 #endif /* SILC_UNIX */
968 /* Return mode list */
970 bool silc_get_mode_list(SilcBuffer mode_list, SilcUInt32 mode_list_count,
975 if (mode_list->len / 4 != mode_list_count)
978 *list = silc_calloc(mode_list_count, sizeof(**list));
980 for (i = 0; i < mode_list_count; i++) {
981 SILC_GET32_MSB((*list)[i], mode_list->data);
982 silc_buffer_pull(mode_list, 4);
985 silc_buffer_push(mode_list, mode_list->data - mode_list->head);
990 /* Status message structure. Messages are defined below. */
996 #define STAT(x) SILC_STATUS_ERR_##x
997 static const SilcStatusMessage silc_status_messages[] = {
999 { STAT(NO_SUCH_NICK), "There was no such nickname" },
1000 { STAT(NO_SUCH_CHANNEL), "There was no such channel" },
1001 { STAT(NO_SUCH_SERVER), "There was no such server" },
1002 { STAT(INCOMPLETE_INFORMATION), "Incomplete registration information" },
1003 { STAT(NO_RECIPIENT), "No recipient given" },
1004 { STAT(UNKNOWN_COMMAND), "Unknown command" },
1005 { STAT(WILDCARDS), "Wilcrads not allowed" },
1006 { STAT(NO_CLIENT_ID), "No Client ID given" },
1007 { STAT(NO_CHANNEL_ID), "No Channel ID given" },
1008 { STAT(NO_SERVER_ID), "No Server ID given" },
1009 { STAT(BAD_CLIENT_ID), "Bad Client ID" },
1010 { STAT(BAD_CHANNEL_ID), "Bad Channel ID" },
1011 { STAT(NO_SUCH_CLIENT_ID), "There is no such client" },
1012 { STAT(NO_SUCH_CHANNEL_ID),"There is no such channel" },
1013 { STAT(NICKNAME_IN_USE), "Nickname already exists" },
1014 { STAT(NOT_ON_CHANNEL), "You are not on that channel" },
1015 { STAT(USER_NOT_ON_CHANNEL),"They are not on the channel" },
1016 { STAT(USER_ON_CHANNEL), "User already on the channel" },
1017 { STAT(NOT_REGISTERED), "You have not registered" },
1018 { STAT(NOT_ENOUGH_PARAMS), "Not enough parameters" },
1019 { STAT(TOO_MANY_PARAMS), "Too many parameters" },
1020 { STAT(PERM_DENIED), "Permission denied" },
1021 { STAT(BANNED_FROM_SERVER),"You are not allowed to connect" },
1022 { STAT(BAD_PASSWORD), "Cannot join channel. Incorrect password" },
1023 { STAT(CHANNEL_IS_FULL), "Cannot join channel. Channel is full" },
1024 { STAT(NOT_INVITED), "Cannot join channel. You have not been invited" },
1025 { STAT(BANNED_FROM_CHANNEL), "Cannot join channel. You have been banned" },
1026 { STAT(UNKNOWN_MODE), "Unknown mode" },
1027 { STAT(NOT_YOU), "Cannot change mode for other users" },
1028 { STAT(NO_CHANNEL_PRIV), "Permission denied. You are not channel operator" },
1029 { STAT(NO_CHANNEL_FOPRIV),"Permission denied. You are not channel founder" },
1030 { STAT(NO_SERVER_PRIV), "Permission denied. You are not server operator" },
1031 { STAT(NO_ROUTER_PRIV), "Permission denied. You are not SILC operator" },
1032 { STAT(BAD_NICKNAME), "Bad nickname" },
1033 { STAT(BAD_CHANNEL), "Bad channel name" },
1034 { STAT(AUTH_FAILED), "Authentication failed" },
1035 { STAT(UNKNOWN_ALGORITHM), "Unsupported algorithm" },
1036 { STAT(NO_SUCH_SERVER_ID), "No such Server ID" },
1037 { STAT(RESOURCE_LIMIT), "No more free resources" },
1038 { STAT(NO_SUCH_SERVICE), "Service doesn't exist" },
1039 { STAT(NOT_AUTHENTICATED), "You have not been authenticated" },
1040 { STAT(BAD_SERVER_ID), "Server ID is not valid" },
1041 { STAT(KEY_EXCHANGE_FAILED), "Key exchange failed" },
1042 { STAT(BAD_VERSION), "Bad version" },
1043 { STAT(TIMEDOUT), "Service timed out" },
1044 { STAT(UNSUPPORTED_PUBLIC_KEY), "Unsupported public key type" },
1045 { STAT(OPERATION_ALLOWED), "Operation is not allowed" },
1050 /* Returns status message string */
1052 const char *silc_get_status_message(unsigned char status)
1056 for (i = 0; silc_status_messages[i].message; i++) {
1057 if (silc_status_messages[i].status == status)
1061 if (silc_status_messages[i].message == NULL)
1064 return silc_status_messages[i].message;
1067 static const char *packet_name[] = {
1078 "PRIVATE MESSAGE KEY",
1084 "CONNECTION AUTH REQUEST",
1099 /* Returns packet type name */
1101 const char *silc_get_packet_name(unsigned char type)
1103 if (type >= SILC_PACKET_MAX)
1105 if (type >= SILC_PACKET_PRIVATE)
1106 return "PRIVATE RANGE";
1107 if (type > (sizeof(packet_name) / sizeof(*packet_name)))
1109 return packet_name[type];
1112 static const char *command_name[] = {
1143 /* Returns command name */
1145 const char *silc_get_command_name(unsigned char command)
1147 if (command >= SILC_COMMAND_RESERVED)
1149 if (command >= SILC_COMMAND_PRIVATE)
1150 return "PRIVATE RANGE";
1151 if (command > (sizeof(command_name) / sizeof(*command_name)))
1153 return command_name[command];
1156 /* Return TRUE if `smaller' is smaller than `bigger'. */
1158 bool silc_compare_timeval(struct timeval *smaller,
1159 struct timeval *bigger)
1161 if ((smaller->tv_sec < bigger->tv_sec) ||
1162 ((smaller->tv_sec == bigger->tv_sec) &&
1163 (smaller->tv_usec < bigger->tv_usec)))