#include "params.h" #include #include #include #include "pools.h" #include "desync.h" #ifdef BSD const char *progname = "dvtws"; #elif defined(__CYGWIN__) const char *progname = "winws"; #elif defined(__linux__) const char *progname = "nfqws"; #else #error UNKNOWN_SYSTEM_TIME #endif int DLOG_FILE(FILE *F, const char *format, va_list args) { return vfprintf(F, format, args); } int DLOG_CON(const char *format, int syslog_priority, va_list args) { return DLOG_FILE(syslog_priority==LOG_ERR ? stderr : stdout, format, args); } int DLOG_FILENAME(const char *filename, const char *format, va_list args) { int r; FILE *F = fopen(filename,"at"); if (F) { r = DLOG_FILE(F, format, args); fclose(F); } else r=-1; return r; } static char syslog_buf[1024]; static size_t syslog_buf_sz=0; static void syslog_buffered(int priority, const char *format, va_list args) { if (vsnprintf(syslog_buf+syslog_buf_sz,sizeof(syslog_buf)-syslog_buf_sz,format,args)>0) { syslog_buf_sz=strlen(syslog_buf); // log when buffer is full or buffer ends with \n if (syslog_buf_sz>=(sizeof(syslog_buf)-1) || (syslog_buf_sz && syslog_buf[syslog_buf_sz-1]=='\n')) { syslog(priority,"%s",syslog_buf); syslog_buf_sz = 0; } } } static int DLOG_VA(const char *format, int syslog_priority, bool condup, va_list args) { int r=0; va_list args2; if (condup && !(params.debug && params.debug_target==LOG_TARGET_CONSOLE)) { va_copy(args2,args); DLOG_CON(format,syslog_priority,args2); } if (params.debug) { switch(params.debug_target) { case LOG_TARGET_CONSOLE: r = DLOG_CON(format,syslog_priority,args); break; case LOG_TARGET_FILE: r = DLOG_FILENAME(params.debug_logfile,format,args); break; case LOG_TARGET_SYSLOG: // skip newlines syslog_buffered(syslog_priority,format,args); r = 1; break; default: break; } } return r; } int DLOG(const char *format, ...) { int r; va_list args; va_start(args, format); r = DLOG_VA(format, LOG_DEBUG, false, args); va_end(args); return r; } int DLOG_CONDUP(const char *format, ...) { int r; va_list args; va_start(args, format); r = DLOG_VA(format, LOG_DEBUG, true, args); va_end(args); return r; } int DLOG_ERR(const char *format, ...) { int r; va_list args; va_start(args, format); r = DLOG_VA(format, LOG_ERR, true, args); va_end(args); return r; } int DLOG_PERROR(const char *s) { return DLOG_ERR("%s: %s\n", s, strerror(errno)); } int LOG_APPEND(const char *filename, const char *format, va_list args) { int r; FILE *F = fopen(filename,"at"); if (F) { fprint_localtime(F); fprintf(F, " : "); r = vfprintf(F, format, args); fprintf(F, "\n"); fclose(F); } else r=-1; return r; } int HOSTLIST_DEBUGLOG_APPEND(const char *format, ...) { if (*params.hostlist_auto_debuglog) { int r; va_list args; va_start(args, format); r = LOG_APPEND(params.hostlist_auto_debuglog, format, args); va_end(args); return r; } else return 0; } struct desync_profile_list *dp_list_add(struct desync_profile_list_head *head) { struct desync_profile_list *entry = calloc(1,sizeof(struct desync_profile_list)); if (!entry) return NULL; LIST_INIT(&entry->dp.hl_collection); LIST_INIT(&entry->dp.hl_collection_exclude); LIST_INIT(&entry->dp.ips_collection); LIST_INIT(&entry->dp.ips_collection_exclude); LIST_INIT(&entry->dp.pf_tcp); LIST_INIT(&entry->dp.pf_udp); memcpy(entry->dp.hostspell, "host", 4); // default hostspell entry->dp.desync_skip_nosni = true; entry->dp.desync_split_pos = 2; entry->dp.desync_ipfrag_pos_udp = IPFRAG_UDP_DEFAULT; entry->dp.desync_ipfrag_pos_tcp = IPFRAG_TCP_DEFAULT; entry->dp.desync_repeats = 1; entry->dp.fake_tls_size = sizeof(fake_tls_clienthello_default); memcpy(entry->dp.fake_tls,fake_tls_clienthello_default,entry->dp.fake_tls_size); randomize_default_tls_payload(entry->dp.fake_tls); entry->dp.fake_http_size = strlen(fake_http_request_default); memcpy(entry->dp.fake_http,fake_http_request_default,entry->dp.fake_http_size); entry->dp.fake_quic_size = 620; // must be 601+ for TSPU hack entry->dp.fake_quic[0] = 0x40; // russian TSPU QUIC short header fake entry->dp.fake_wg_size = 64; entry->dp.fake_dht_size = 64; entry->dp.fake_unknown_size = 256; entry->dp.fake_syndata_size = 16; entry->dp.fake_unknown_udp_size = 64; entry->dp.wscale=-1; // default - dont change scale factor (client) entry->dp.desync_ttl6 = 0xFF; // unused entry->dp.desync_badseq_increment = BADSEQ_INCREMENT_DEFAULT; entry->dp.desync_badseq_ack_increment = BADSEQ_ACK_INCREMENT_DEFAULT; entry->dp.wssize_cutoff_mode = entry->dp.desync_start_mode = entry->dp.desync_cutoff_mode = 'n'; // packet number by default entry->dp.udplen_increment = UDPLEN_INCREMENT_DEFAULT; entry->dp.hostlist_auto_fail_threshold = HOSTLIST_AUTO_FAIL_THRESHOLD_DEFAULT; entry->dp.hostlist_auto_fail_time = HOSTLIST_AUTO_FAIL_TIME_DEFAULT; entry->dp.hostlist_auto_retrans_threshold = HOSTLIST_AUTO_RETRANS_THRESHOLD_DEFAULT; entry->dp.filter_ipv4 = entry->dp.filter_ipv6 = true; // add to the tail struct desync_profile_list *dpn,*dpl=LIST_FIRST(¶ms.desync_profiles); if (dpl) { while ((dpn=LIST_NEXT(dpl,next))) dpl = dpn; LIST_INSERT_AFTER(dpl, entry, next); } else LIST_INSERT_HEAD(¶ms.desync_profiles, entry, next); return entry; } static void dp_entry_destroy(struct desync_profile_list *entry) { hostlist_collection_destroy(&entry->dp.hl_collection); hostlist_collection_destroy(&entry->dp.hl_collection_exclude); ipset_collection_destroy(&entry->dp.ips_collection); ipset_collection_destroy(&entry->dp.ips_collection_exclude); port_filters_destroy(&entry->dp.pf_tcp); port_filters_destroy(&entry->dp.pf_udp); HostFailPoolDestroy(&entry->dp.hostlist_auto_fail_counters); free(entry); } void dp_list_destroy(struct desync_profile_list_head *head) { struct desync_profile_list *entry; while ((entry = LIST_FIRST(head))) { LIST_REMOVE(entry, next); dp_entry_destroy(entry); } }