/* Serval DNA data interchange formats Copyright (C) 2010-2013 Serval Project Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #define __RHIZOME_TYPES_INLINE #include #include "serval_types.h" #include "rhizome_types.h" #include "os.h" #include "str.h" #include "dataformats.h" int cmp_sid_t(const sid_t *a, const sid_t *b) { return memcmp(a, b, sizeof a->binary); } int str_to_sid_t(sid_t *sidp, const char *hex) { return parse_sid_t(sidp, hex, -1, NULL); // checks for nul terminator } int strn_to_sid_t(sid_t *sidp, const char *hex, size_t hexlen) { return parse_sid_t(sidp, hex, hexlen, NULL); // does not check for nul terminator } int parse_sid_t(sid_t *sidp, const char *hex, ssize_t hexlen, const char **endp) { const char *end = NULL; if (strn_startswith(hex, hexlen, "broadcast", &end)) { if (endp) *endp = end; else if (hexlen == -1 && *end != '\0') return -1; if (sidp) *sidp = SID_BROADCAST; return 0; } if (hexlen != -1 && hexlen != SID_STRLEN) return -1; sid_t tmp; int n = fromhex(tmp.binary, hex, sizeof tmp.binary); if (n != sizeof tmp.binary) return -1; if (endp) *endp = hex + SID_STRLEN; else if (hexlen == -1 && hex[SID_STRLEN] != '\0') return -1; if (sidp) *sidp = tmp; return 0; } int str_is_subscriber_id(const char *sid) { size_t len = 0; return strn_is_subscriber_id(sid, &len) && sid[len] == '\0'; } int strn_is_subscriber_id(const char *sid, size_t *lenp) { if (strncasecmp(sid, "broadcast", 9) == 0) { if (lenp) *lenp = 9; return 1; } if (is_xsubstring(sid, SID_STRLEN)) { if (lenp) *lenp = SID_STRLEN; return 1; } return 0; } int cmp_rhizome_bid_t(const rhizome_bid_t *a, const rhizome_bid_t *b) { return memcmp(a, b, sizeof a->binary); } int str_to_rhizome_bid_t(rhizome_bid_t *bid, const char *hex) { return parse_rhizome_bid_t(bid, hex, -1, NULL); // checks for nul terminator } int strn_to_rhizome_bid_t(rhizome_bid_t *bid, const char *hex, size_t hexlen) { return parse_rhizome_bid_t(bid, hex, hexlen, NULL); // does not check for nul terminator } int parse_rhizome_bid_t(rhizome_bid_t *bid, const char *hex, ssize_t hexlen, const char **endp) { if (hexlen != -1 && hexlen != RHIZOME_BUNDLE_ID_STRLEN) return -1; rhizome_bid_t tmp; int n = fromhex(tmp.binary, hex, sizeof tmp.binary); if (n != sizeof tmp.binary) return -1; if (endp) *endp = hex + RHIZOME_BUNDLE_ID_STRLEN; else if (hexlen == -1 && hex[RHIZOME_BUNDLE_ID_STRLEN] != '\0') return -1; if (bid) *bid = tmp; return 0; } int cmp_rhizome_filehash_t(const rhizome_filehash_t *a, const rhizome_filehash_t *b) { return memcmp(a, b, sizeof a->binary); } int str_to_rhizome_filehash_t(rhizome_filehash_t *hashp, const char *hex) { return parse_rhizome_filehash_t(hashp, hex, -1, NULL); // checks for nul terminator } int strn_to_rhizome_filehash_t(rhizome_filehash_t *hashp, const char *hex, size_t hexlen) { return parse_rhizome_filehash_t(hashp, hex, hexlen, NULL); // does not check for nul terminator } int parse_rhizome_filehash_t(rhizome_filehash_t *hashp, const char *hex, ssize_t hexlen, const char **endp) { if (hexlen != -1 && hexlen != RHIZOME_FILEHASH_STRLEN) return -1; rhizome_filehash_t tmp; int n = fromhex(tmp.binary, hex, sizeof tmp.binary); if (n != sizeof tmp.binary) return -1; if (endp) *endp = hex + RHIZOME_FILEHASH_STRLEN; else if (hexlen == -1 && hex[RHIZOME_FILEHASH_STRLEN] != '\0') return -1; if (hashp) *hashp = tmp; return 0; } int str_to_rhizome_bk_t(rhizome_bk_t *bkp, const char *hex) { return parse_rhizome_bk_t(bkp, hex, -1, NULL); // checks for nul terminator } int strn_to_rhizome_bk_t(rhizome_bk_t *bkp, const char *hex, size_t hexlen) { return parse_rhizome_bk_t(bkp, hex, hexlen, NULL); // does not check for nul terminator } int parse_rhizome_bk_t(rhizome_bk_t *bkp, const char *hex, ssize_t hexlen, const char **endp) { if (hexlen != -1 && hexlen != RHIZOME_BUNDLE_KEY_STRLEN) return -1; rhizome_bk_t tmp; int n = fromhex(tmp.binary, hex, sizeof tmp.binary); if (n != sizeof tmp.binary) return -1; if (endp) *endp = hex + RHIZOME_BUNDLE_KEY_STRLEN; else if (hexlen == -1 && hex[RHIZOME_BUNDLE_KEY_STRLEN] != '\0') return -1; if (bkp) *bkp = tmp; return 0; } int str_to_rhizome_bsk_t(rhizome_bk_t *bskp, const char *text) { return strn_to_rhizome_bsk_t(bskp, text, strlen(text)); } int strn_to_rhizome_bsk_t(rhizome_bk_t *bskp, const char *text, size_t textlen) { if (textlen > 0 && text[0] == '#') { if (textlen <= 1) return -1; // missing pass phrase if (textlen > RHIZOME_BUNDLE_SECRET_MAX_STRLEN + 1) return -1; // pass phrase too long if (bskp) strn_digest_passphrase(bskp->binary, sizeof bskp->binary, text, textlen); return 0; } return strn_to_rhizome_bk_t(bskp, text, textlen); } int rhizome_strn_is_bundle_crypt_key(const char *key) { return is_xsubstring(key, RHIZOME_CRYPT_KEY_STRLEN); } int rhizome_str_is_bundle_crypt_key(const char *key) { return is_xstring(key, RHIZOME_CRYPT_KEY_STRLEN); } int rhizome_str_is_manifest_service(const char *text) { if (text[0] == '\0') return 0; while (*text && (isalnum(*text) || *text == '_' || *text == '.')) ++text; return *text == '\0'; } /* A name cannot contain a LF because that is the Rhizome text manifest field terminator. For the * time being, CR is not allowed either, because the Rhizome field terminator includes an optional * CR. See rhizome_manifest_parse(). * * @author Andrew Bettison */ int rhizome_str_is_manifest_name(const char *text) { while (*text && *text != '\n' && *text != '\r') ++text; return *text == '\0'; } int str_is_did(const char *did) { size_t len = 0; return strn_is_did(did, &len) && did[len] == '\0'; } int is_didchar(char c) { return isdigit(c) || c == '*' || c == '#' || c == '+'; } int strn_is_did(const char *did, size_t *lenp) { int i; for (i = 0; i < DID_MAXSIZE && is_didchar(did[i]); ++i) ; if (i < DID_MINSIZE) return 0; if (lenp) *lenp = i; return 1; } void write_uint64(unsigned char *o,uint64_t v) { int i; for(i=0;i<8;i++) { *(o++)=v&0xff; v=v>>8; } } void write_uint32(unsigned char *o,uint32_t v) { int i; for(i=0;i<4;i++) { *(o++)=v&0xff; v=v>>8; } } void write_uint16(unsigned char *o,uint16_t v) { int i; for(i=0;i<2;i++) { *(o++)=v&0xff; v=v>>8; } } uint64_t read_uint64(const unsigned char *o) { int i; uint64_t v=0; for(i=0;i<8;i++) v=(v<<8)|o[8-1-i]; return v; } uint32_t read_uint32(const unsigned char *o) { int i; uint32_t v=0; for(i=0;i<4;i++) v=(v<<8)|o[4-1-i]; return v; } uint16_t read_uint16(const unsigned char *o) { int i; uint16_t v=0; for(i=0;i<2;i++) v=(v<<8)|o[2-1-i]; return v; } int compare_wrapped_uint8(uint8_t one, uint8_t two) { return (int8_t)(one - two); } int compare_wrapped_uint16(uint16_t one, uint16_t two) { return (int16_t)(one - two); }