// multi thread dns resolver // domain list stdout // errors, verbose >stderr // transparent for valid ip or ip/subnet of allowed address family #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #define RESOLVER_EAGAIN_ATTEMPTS 2 static void trimstr(char *s) { char *p; for (p = s + strlen(s) - 1; p >= s && (*p == '\n' || *p == '\r'); p--) *p = '\0'; } static const char* eai_str(int r) { switch (r) { case EAI_NONAME: return "EAI_NONAME"; case EAI_AGAIN: return "EAI_AGAIN"; #ifdef EAI_ADDRFAMILY case EAI_ADDRFAMILY: return "EAI_ADDRFAMILY"; #endif #ifdef EAI_NODATA case EAI_NODATA: return "EAI_NODATA"; #endif case EAI_BADFLAGS: return "EAI_BADFLAGS"; case EAI_FAIL: return "EAI_FAIL"; case EAI_MEMORY: return "EAI_MEMORY"; case EAI_FAMILY: return "EAI_FAMILY"; case EAI_SERVICE: return "EAI_SERVICE"; case EAI_SOCKTYPE: return "EAI_SOCKTYPE"; case EAI_SYSTEM: return "EAI_SYSTEM"; default: return "UNKNOWN"; } } bool dom_valid(char *dom) { if (!dom || *dom=='.') return false; for (; *dom; dom++) if (*dom < 0x20 || *dom>0x7F || !(*dom == '.' || *dom == '-' || *dom == '_' || *dom >= '0' && *dom <= '9' || *dom >= 'a' && *dom <= 'z' || *dom >= 'A' && *dom <= 'Z')) return false; return true; } void invalid_domain_beautify(char *dom) { for (int i = 0; *dom && i < 64; i++, dom++) if (*dom < 0x20 || *dom>0x7F) *dom = '?'; if (*dom) *dom = 0; } #define FAMILY4 1 #define FAMILY6 2 static struct { char verbose; char family; int threads; time_t start_time; pthread_mutex_t flock; pthread_mutex_t slock; // stats lock int stats_every, stats_ct, stats_ct_ok; // stats FILE *F_log_resolved, *F_log_failed; } glob; // get next domain. return 0 if failure static char interlocked_get_dom(char *dom, size_t size) { char *s; pthread_mutex_lock(&glob.flock); s = fgets(dom, size, stdin); pthread_mutex_unlock(&glob.flock); if (!s) return 0; trimstr(s); return 1; } static void interlocked_fprintf(FILE *stream, const char * format, ...) { if (stream) { va_list args; va_start(args, format); pthread_mutex_lock(&glob.flock); vfprintf(stream, format, args); pthread_mutex_unlock(&glob.flock); va_end(args); } } #define ELOG(format, ...) interlocked_fprintf(stderr, "[%d] " format "\n", tid, ##__VA_ARGS__) #define VLOG(format, ...) {if (glob.verbose) ELOG(format, ##__VA_ARGS__);} static void print_addrinfo(struct addrinfo *ai) { char str[64]; while (ai) { switch (ai->ai_family) { case AF_INET: if (inet_ntop(ai->ai_family, &((struct sockaddr_in*)ai->ai_addr)->sin_addr, str, sizeof(str))) interlocked_fprintf(stdout, "%s\n", str); break; case AF_INET6: if (inet_ntop(ai->ai_family, &((struct sockaddr_in6*)ai->ai_addr)->sin6_addr, str, sizeof(str))) interlocked_fprintf(stdout, "%s\n", str); break; } ai = ai->ai_next; } } static void stat_print(int ct, int ct_ok) { if (glob.stats_every > 0) { time_t tm = time(NULL)-glob.start_time; interlocked_fprintf(stderr, "mdig stats : %02u:%02u:%02u : domains=%d success=%d error=%d\n", tm/3600, (tm/60)%60, tm%60, ct, ct_ok, ct - ct_ok); } } static void stat_plus(char is_ok) { int ct, ct_ok; if (glob.stats_every > 0) { pthread_mutex_lock(&glob.slock); ct = ++glob.stats_ct; ct_ok = glob.stats_ct_ok += !!is_ok; pthread_mutex_unlock(&glob.slock); if (!(ct % glob.stats_every)) stat_print(ct, ct_ok); } } static uint16_t GetAddrFamily(const char *saddr) { struct in_addr a4; struct in6_addr a6; if (inet_pton(AF_INET, saddr, &a4)) return AF_INET; else if (inet_pton(AF_INET6, saddr, &a6)) return AF_INET6; return 0; } static void *t_resolver(void *arg) { int tid = (int)(size_t)arg; int i, r; char dom[256], is_ok; struct addrinfo hints; struct addrinfo *result; VLOG("started"); memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = (glob.family == FAMILY4) ? AF_INET : (glob.family == FAMILY6) ? AF_INET6 : AF_UNSPEC; hints.ai_socktype = SOCK_DGRAM; while (interlocked_get_dom(dom, sizeof(dom))) { if (*dom) { is_ok = 0; uint16_t family; char *s_mask, s_ip[sizeof(dom)]; strncpy(s_ip, dom, sizeof(s_ip)); s_mask = strchr(s_ip, '/'); if (s_mask) *s_mask++ = 0; family = GetAddrFamily(s_ip); if (family) { if (family == AF_INET && (glob.family & FAMILY4) || family == AF_INET6 && (glob.family & FAMILY6)) { unsigned int mask; bool mask_needed = false; if (s_mask) { if (sscanf(s_mask, "%u", &mask)==1) { switch (family) { case AF_INET: is_ok = mask <= 32; mask_needed = mask < 32; break; case AF_INET6: is_ok = mask <= 128; mask_needed = mask < 128; break; } } } else is_ok = 1; if (is_ok) interlocked_fprintf(stdout, mask_needed ? "%s/%u\n" : "%s\n", s_ip, mask); else VLOG("bad ip/subnet %s", dom); } else VLOG("wrong address family %s", s_ip); } else if (dom_valid(dom)) { VLOG("resolving %s", dom); for (i = 0; i < RESOLVER_EAGAIN_ATTEMPTS; i++) { if ((r = getaddrinfo(dom, NULL, &hints, &result))) { VLOG("failed to resolve %s : result %d (%s)", dom, r, eai_str(r)); if (r == EAI_AGAIN) continue; // temporary failure. should retry } else { print_addrinfo(result); freeaddrinfo(result); is_ok = 1; } break; } } else if (glob.verbose) { char dom2[sizeof(dom)]; strcpy(dom2,dom); invalid_domain_beautify(dom2); VLOG("invalid domain : %s", dom2); } interlocked_fprintf(is_ok ? glob.F_log_resolved : glob.F_log_failed,"%s\n",dom); } stat_plus(is_ok); } VLOG("ended"); return NULL; } static int run_threads() { int i, thread; pthread_t *t; glob.stats_ct = glob.stats_ct_ok = 0; time(&glob.start_time); if (pthread_mutex_init(&glob.flock, NULL) != 0) { fprintf(stderr, "mutex init failed\n"); return 10; } if (pthread_mutex_init(&glob.slock, NULL) != 0) { fprintf(stderr, "mutex init failed\n"); pthread_mutex_destroy(&glob.flock); return 10; } t = (pthread_t*)malloc(sizeof(pthread_t)*glob.threads); if (!t) { fprintf(stderr, "out of memory\n"); pthread_mutex_destroy(&glob.slock); pthread_mutex_destroy(&glob.flock); return 11; } for (thread = 0; thread < glob.threads; thread++) { if (pthread_create(t + thread, NULL, t_resolver, (void*)(size_t)thread)) { interlocked_fprintf(stderr, "failed to create thread #%d\n", thread); break; } } for (i = 0; i < thread; i++) { pthread_join(t[i], NULL); } free(t); stat_print(glob.stats_ct, glob.stats_ct_ok); pthread_mutex_destroy(&glob.slock); pthread_mutex_destroy(&glob.flock); return thread ? 0 : 12; } static void exithelp() { printf( " --threads=\n" " --family=<4|6|46>\t; ipv4, ipv6, ipv4+ipv6\n" " --verbose\t\t; print query progress to stderr\n" " --stats=N\t\t; print resolve stats to stderr every N domains\n" " --log-resolved=\t; log successfully resolved domains to a file\n" " --log-failed=\t; log failed domains to a file\n" ); exit(1); } int main(int argc, char **argv) { int r, v, option_index = 0; char fn1[256],fn2[256]; static const struct option long_options[] = { {"help",no_argument,0,0}, // optidx=0 {"threads",required_argument,0,0}, // optidx=1 {"family",required_argument,0,0}, // optidx=2 {"verbose",no_argument,0,0}, // optidx=3 {"stats",required_argument,0,0}, // optidx=4 {"log-resolved",required_argument,0,0}, // optidx=5 {"log-failed",required_argument,0,0}, // optidx=6 {NULL,0,NULL,0} }; memset(&glob, 0, sizeof(glob)); *fn1 = *fn2 = 0; glob.family = FAMILY4; glob.threads = 1; while ((v = getopt_long_only(argc, argv, "", long_options, &option_index)) != -1) { if (v) exithelp(); switch (option_index) { case 0: /* help */ exithelp(); break; case 1: /* threads */ glob.threads = optarg ? atoi(optarg) : 0; if (glob.threads <= 0 || glob.threads > 100) { fprintf(stderr, "thread number must be within 1..100\n"); return 1; } break; case 2: /* family */ if (!strcmp(optarg, "4")) glob.family = FAMILY4; else if (!strcmp(optarg, "6")) glob.family = FAMILY6; else if (!strcmp(optarg, "46")) glob.family = FAMILY4 | FAMILY6; else { fprintf(stderr, "ip family must be 4,6 or 46\n"); return 1;; } break; case 3: /* verbose */ glob.verbose = '\1'; break; case 4: /* stats */ glob.stats_every = optarg ? atoi(optarg) : 0; break; case 5: /* log-resolved */ strncpy(fn1,optarg,sizeof(fn1)); fn1[sizeof(fn1)-1] = 0; break; case 6: /* log-failed */ strncpy(fn2,optarg,sizeof(fn2)); fn2[sizeof(fn2)-1] = 0; break; } } if (*fn1) { glob.F_log_resolved = fopen(fn1,"wt"); if (!glob.F_log_resolved) { fprintf(stderr,"failed to create %s\n",fn1); r=5; goto ex; } } if (*fn2) { glob.F_log_failed = fopen(fn2,"wt"); if (!glob.F_log_failed) { fprintf(stderr,"failed to create %s\n",fn2); r=5; goto ex; } } r = run_threads(); ex: if (glob.F_log_resolved) fclose(glob.F_log_resolved); if (glob.F_log_failed) fclose(glob.F_log_failed); return r; }