#include "packets.h" #include #include #include #include #include #include #include #ifdef _WIN32 #include #else #include #endif #define ANTOHS(data, i) \ (uint16_t)((data[i] << 8) + (uint8_t)data[i + 1]) #define SHTONA(data, i, x) \ data[i] = (uint8_t)((x) >> 8); \ data[i + 1] = ((x) & 0xff) char tls_data[517] = { "\x16\x03\x01\x02\x00\x01\x00\x01\xfc\x03\x03\x03\x5f" "\x6f\x2c\xed\x13\x22\xf8\xdc\xb2\xf2\x60\x48\x2d\x72" "\x66\x6f\x57\xdd\x13\x9d\x1b\x37\xdc\xfa\x36\x2e\xba" "\xf9\x92\x99\x3a\x20\xf9\xdf\x0c\x2e\x8a\x55\x89\x82" "\x31\x63\x1a\xef\xa8\xbe\x08\x58\xa7\xa3\x5a\x18\xd3" "\x96\x5f\x04\x5c\xb4\x62\xaf\x89\xd7\x0f\x8b\x00\x3e" "\x13\x02\x13\x03\x13\x01\xc0\x2c\xc0\x30\x00\x9f\xcc" "\xa9\xcc\xa8\xcc\xaa\xc0\x2b\xc0\x2f\x00\x9e\xc0\x24" "\xc0\x28\x00\x6b\xc0\x23\xc0\x27\x00\x67\xc0\x0a\xc0" "\x14\x00\x39\xc0\x09\xc0\x13\x00\x33\x00\x9d\x00\x9c" "\x00\x3d\x00\x3c\x00\x35\x00\x2f\x00\xff\x01\x00\x01" "\x75\x00\x00\x00\x16\x00\x14\x00\x00\x11\x77\x77\x77" "\x2e\x77\x69\x6b\x69\x70\x65\x64\x69\x61\x2e\x6f\x72" "\x67\x00\x0b\x00\x04\x03\x00\x01\x02\x00\x0a\x00\x16" "\x00\x14\x00\x1d\x00\x17\x00\x1e\x00\x19\x00\x18\x01" "\x00\x01\x01\x01\x02\x01\x03\x01\x04\x00\x10\x00\x0e" "\x00\x0c\x02\x68\x32\x08\x68\x74\x74\x70\x2f\x31\x2e" "\x31\x00\x16\x00\x00\x00\x17\x00\x00\x00\x31\x00\x00" "\x00\x0d\x00\x2a\x00\x28\x04\x03\x05\x03\x06\x03\x08" "\x07\x08\x08\x08\x09\x08\x0a\x08\x0b\x08\x04\x08\x05" "\x08\x06\x04\x01\x05\x01\x06\x01\x03\x03\x03\x01\x03" "\x02\x04\x02\x05\x02\x06\x02\x00\x2b\x00\x09\x08\x03" "\x04\x03\x03\x03\x02\x03\x01\x00\x2d\x00\x02\x01\x01" "\x00\x33\x00\x26\x00\x24\x00\x1d\x00\x20\x11\x8c\xb8" "\x8c\xe8\x8a\x08\x90\x1e\xee\x19\xd9\xdd\xe8\xd4\x06" "\xb1\xd1\xe2\xab\xe0\x16\x63\xd6\xdc\xda\x84\xa4\xb8" "\x4b\xfb\x0e\x00\x15\x00\xac\x00\x00\x00\x00\x00\x00" }; char http_data[43] = { "GET / HTTP/1.1\r\n" "Host: www.wikipedia.org\r\n\r\n" }; char udp_data[64] = { 0 }; char *strncasestr(char *a, size_t as, char *b, size_t bs) { for (char *p = a; ; p++) { p = memchr(p, *b, as - (p - a)); if (!p) { return 0; } if ((p + bs) > (a + as)) { return 0; } if (!strncasecmp(p, b, bs)) { return p; } } return 0; } size_t find_tls_ext_offset(uint16_t type, char *data, size_t size, size_t skip) { if (size <= (skip + 2)) { return 0; } uint16_t ext_len = ANTOHS(data, skip); skip += 2; if (ext_len < (size - skip)) { size = ext_len + skip; } while ((skip + 4) < size) { uint16_t epyt = ANTOHS(data, skip); if (type == epyt) { return skip; } uint16_t len = ANTOHS(data, skip + 2); skip += (len + 4); } return 0; } size_t chello_ext_offset(uint16_t type, char *data, size_t size) { if (size < 44) { return 0; } uint8_t sid_len = data[43]; if (size < 44 + sid_len + 2) { return 0; } uint16_t cip_len = ANTOHS(data, 44 + sid_len); size_t skip = 44 + sid_len + 2 + cip_len + 2; return find_tls_ext_offset(type, data, size, skip); } int change_tls_sni(const char *host, char *buffer, size_t bsize) { size_t sni_offs, pad_offs; if (!(sni_offs = chello_ext_offset(0x00, buffer, bsize))) { return -1; } if (!(pad_offs = chello_ext_offset(0x15, buffer, bsize))) { return -1; } char *sni = &buffer[sni_offs]; char *pad = &buffer[pad_offs]; uint16_t old_sz = ANTOHS(buffer, sni_offs + 2) - 5; uint16_t free_sz = ANTOHS(buffer, pad_offs + 2); uint16_t new_sz = strlen(host); ssize_t diff = new_sz - old_sz; if ((free_sz != (bsize - pad_offs - 4)) || free_sz < diff) { return -1; } SHTONA(sni, 2, old_sz + diff + 5); SHTONA(sni, 4, old_sz + diff + 3); SHTONA(sni, 7, old_sz + diff); SHTONA(pad, 2, free_sz - diff); char *host_end = sni + 9 + old_sz; int oth_sz = bsize - (sni_offs + 9 + old_sz); memmove(host_end + diff, host_end, oth_sz); memcpy(sni + 9, host, new_sz); return 0; } bool is_tls_chello(char *buffer, size_t bsize) { return (bsize > 5 && ANTOHS(buffer, 0) == 0x1603 && buffer[5] == 0x01); } int parse_tls(char *buffer, size_t bsize, char **hs) { if (!is_tls_chello(buffer, bsize)) { return 0; } size_t sni_offs = chello_ext_offset(0x00, buffer, bsize); if (!sni_offs || (sni_offs + 12) >= bsize) { return 0; } uint16_t len = ANTOHS(buffer, sni_offs + 7); if ((sni_offs + 9 + len) > bsize) { return 0; } *hs = &buffer[sni_offs + 9]; return len; } bool is_http(char *buffer, size_t bsize) { if (bsize < 16 || *buffer > 'T' || *buffer < 'C') { return 0; } const char *methods[] = { "HEAD", "GET", "POST", "PUT", "DELETE", "OPTIONS", "CONNECT", "TRACE", "PATCH", 0 }; for (const char **m = methods; *m; m++) { if (strncmp(buffer, *m, strlen(*m)) == 0) { return 1; } } return 0; } int parse_http(char *buffer, size_t bsize, char **hs, uint16_t *port) { char *host = buffer, *h_end; char *buff_end = buffer + bsize; if (!is_http(buffer, bsize)) { return 0; } host = strncasestr(buffer, bsize, "\nHost:", 6); if (!host) { return 0; } host += 6; while ((buff_end - host) > 0 && isblank(*host)) { host++; } char *l_end = memchr(host, '\n', buff_end - host); if (!l_end) { return 0; } for (; isspace(*(l_end - 1)); l_end--) {} if (!(isdigit(*(l_end - 1)))) h_end = 0; else { char *h = host; h_end = 0; do { h = memchr(h, ':', l_end - h); if (h) { h_end = h; h++; } } while (h && h < l_end); } if (!h_end) { if (port) *port = 80; h_end = l_end; } else if (port) { char *end; long i = strtol(h_end + 1, &end, 10); if (i <= 0 || end != l_end || i > 0xffff) return 0; *port = i; } *hs = host; return h_end - host; } int get_http_code(char *b, size_t n) { if (n < 13) return 0; if (strncmp(b, "HTTP/1.", 7)) { return 0; } if (!memchr(b + 13, '\n', n)) { return 0; } char *e; long num = strtol(b + 9, &e, 10); if (num < 100 || num > 511 || !isspace(*e)) { return 0; } return (int )num; } bool is_http_redirect(char *req, size_t qn, char *resp, size_t sn) { char *host = 0; int len = parse_http(req, qn, &host, 0); if (len <= 0 || sn < 29) { return 0; } int code = get_http_code(resp, sn); if (code > 308 || code < 300) { return 0; } char *location = strncasestr(resp, sn, "\nLocation:", 10); if (!location) { return 0; } location += 11; if ((location + 8) >= (resp + sn)) { return 0; } char *l_end = memchr(location, '\n', sn - (location - resp)); if (!l_end) { return 0; } for (; isspace(*(l_end - 1)); l_end--) {} if ((l_end - location) > 7) { if (!strncmp(location, "http://", 7)) { location += 7; } else if (!strncmp(location, "https://", 8)) { location += 8; } } char *e = memchr(location, '/', l_end - location); if (!e) e = l_end; for (; (e - location) > len; location++) { location = memchr(location, '.', e - location); if (!location) { return 1; } } for (; len > (e - location); host++) { char *p = memchr(host, '.', len); if (!p) { return 1; } len -= (host - p) + 1; host = p; } return (((e - location) != len) || strncmp(host, location, len)); } bool neq_tls_sid(char *req, size_t qn, char *resp, size_t sn) { if (qn < 75 || sn < 75) { return 0; } if (!is_tls_chello(req, qn) || ANTOHS(resp, 0) != 0x1603) { return 0; } uint8_t sid_len = req[43]; size_t skip = 44 + sid_len + 3; if (!find_tls_ext_offset(0x2b, resp, sn, skip)) { return 0; } if (req[43] != resp[43]) { return 1; } return memcmp(req + 44, resp + 44, sid_len); } bool is_tls_alert(char *resp, size_t sn) { return (sn >= 7 && resp[0] == 0x15 && resp[1] == 0x03 && !memcmp(resp + 3, "\x00\x02\x02", 3)); } /* bool is_dns_req(char *buffer, size_t n) { if (n < 12) { return 0; } return !memcmp(buffer + 2, "\1\0\0\1\0\0\0\0\0\0", 10); } bool is_quic_initial(char *buffer, size_t bsize) { return (bsize > 64 && (buffer[0] & 0xc0) == 0xc0); } */ int mod_http(char *buffer, size_t bsize, int m) { char *host = 0, *par; int hlen = parse_http(buffer, bsize, &host, 0); if (!hlen) return -1; for (par = host - 1; *par != ':'; par--) {} par -= 4; if (m & MH_HMIX) { par[0] = tolower(par[0]); par[1] = toupper(par[1]); par[3] = toupper(par[3]); } if (m & MH_DMIX) { for (int i = 0; i < hlen; i += 2) { host[i] = toupper(host[i]); } } if (m & MH_SPACE) { for (; !isspace(*(host + hlen)); hlen++) {} int sc = host - (par + 5); memmove(par + 5, host, hlen); memset(par + 5 + hlen, '\t', sc); } return 0; } int part_tls(char *buffer, size_t bsize, ssize_t n, long pos) { if ((n < 3) || (bsize - n < 5) || (pos < 0) || (pos + 5 > n)) { return 0; } uint16_t r_sz = ANTOHS(buffer, 3); if (r_sz < pos) { return n; } memmove(buffer + 5 + pos + 5, buffer + 5 + pos, n - (5 + pos)); memcpy(buffer + 5 + pos, buffer, 3); SHTONA(buffer, 3, pos); SHTONA(buffer, 5 + pos + 3, r_sz - pos); return 5; }