#include #include #include "logger.hpp" struct llarp_main *ctx = 0; llarp_main *sllarp = nullptr; void handle_signal(int sig) { if(ctx) llarp_main_signal(ctx, sig); } #ifndef TESTNET #define TESTNET 0 #endif #include #include #include #include #include "buffer.hpp" #include "crypto.hpp" #include "fs.hpp" #include "net.hpp" #include "router.hpp" bool printNode(struct llarp_nodedb_iter *iter) { char ftmp[68] = {0}; const char *hexname = llarp::HexEncode< llarp::PubKey, decltype(ftmp) >(iter->rc->pubkey, ftmp); printf("[%zu]=>[%s]\n", iter->index, hexname); return false; } // fwd declr struct check_online_request; void HandleDHTLocate(llarp_router_lookup_job *job) { llarp::LogInfo("DHT result: ", job->found ? "found" : "not found"); // save to nodedb? } bool aiLister(struct llarp_ai_list_iter *request, struct llarp_ai *addr) { static size_t count = 0; count++; llarp::Addr a(*addr); std::cout << "AddressInfo " << count << ": " << a << std::endl; return true; } int main(int argc, char *argv[]) { // take -c to set location of daemon.ini // --generate-blank /path/to/file.signed // --update-ifs /path/to/file.signed // --key /path/to/long_term_identity.key // --import // --export // --generate /path/to/file.signed // --update /path/to/file.signed // printf("has [%d]options\n", argc); if(argc < 2) { printf( "please specify: \n" "--generate with a path to a router contact file\n" "--update with a path to a router contact file\n" "--list \n" "--import with a path to a router contact file\n" "--export a hex formatted public key\n" "--locate a hex formatted public key" "\n"); return 0; } bool genMode = false; bool updMode = false; bool listMode = false; bool importMode = false; bool exportMode = false; bool locateMode = false; bool localMode = false; int c; char *conffname; char defaultConfName[] = "daemon.ini"; conffname = defaultConfName; char *rcfname; char defaultRcName[] = "other.signed"; rcfname = defaultRcName; bool haveRequiredOptions = false; while(1) { static struct option long_options[] = { {"config", required_argument, 0, 'c'}, {"generate", required_argument, 0, 'g'}, {"update", required_argument, 0, 'u'}, {"list", no_argument, 0, 'l'}, {"import", required_argument, 0, 'i'}, {"export", required_argument, 0, 'e'}, {"locate", required_argument, 0, 'q'}, {"localInfo", no_argument, 0, 'n'}, {0, 0, 0, 0}}; int option_index = 0; c = getopt_long(argc, argv, "cgluieqn", long_options, &option_index); if(c == -1) break; switch(c) { case 0: break; case 'c': conffname = optarg; break; case 'l': haveRequiredOptions = true; listMode = true; break; case 'i': // printf ("option -g with value `%s'\n", optarg); rcfname = optarg; haveRequiredOptions = true; importMode = true; break; case 'e': // printf ("option -g with value `%s'\n", optarg); rcfname = optarg; haveRequiredOptions = true; exportMode = true; break; case 'q': // printf ("option -g with value `%s'\n", optarg); rcfname = optarg; haveRequiredOptions = true; locateMode = true; break; case 'g': // printf ("option -g with value `%s'\n", optarg); rcfname = optarg; haveRequiredOptions = true; genMode = true; break; case 'u': // printf ("option -u with value `%s'\n", optarg); rcfname = optarg; haveRequiredOptions = true; updMode = true; break; case 'n': haveRequiredOptions = true; localMode = true; break; default: abort(); } } if(!haveRequiredOptions) { llarp::LogError("Parameters dont all have their required parameters.\n"); return 0; } printf("parsed options\n"); if(!genMode && !updMode && !listMode && !importMode && !exportMode && !locateMode && !localMode) { llarp::LogError( "I don't know what to do, no generate or update parameter\n"); return 0; } ctx = llarp_main_init(conffname, !TESTNET); if(!ctx) { llarp::LogError("Cant set up context"); return 0; } signal(SIGINT, handle_signal); llarp_rc tmp; if(genMode) { printf("Creating [%s]\n", rcfname); // Jeff wanted tmp to be stack created // do we still need to zero it out? llarp_rc_clear(&tmp); // if we zero it out then // allocate fresh pointers that the bencoder can expect to be ready tmp.addrs = llarp_ai_list_new(); tmp.exits = llarp_xi_list_new(); // set updated timestamp tmp.last_updated = llarp_time_now_ms(); // load longterm identity llarp_crypto crypt; llarp_crypto_libsodium_init(&crypt); // which is in daemon.ini config: router.encryption-privkey (defaults // "encryption.key") fs::path encryption_keyfile = "encryption.key"; llarp::SecretKey encryption; llarp_findOrCreateEncryption(&crypt, encryption_keyfile.c_str(), &encryption); llarp_rc_set_pubenckey(&tmp, llarp::seckey_topublic(encryption)); // get identity public sig key fs::path ident_keyfile = "identity.key"; byte_t identity[SECKEYSIZE]; llarp_findOrCreateIdentity(&crypt, ident_keyfile.c_str(), identity); llarp_rc_set_pubsigkey(&tmp, llarp::seckey_topublic(identity)); // this causes a segfault llarp_rc_sign(&crypt, identity, &tmp); // set filename fs::path our_rc_file = rcfname; // write file llarp_rc_write(&tmp, our_rc_file.c_str()); // release memory for tmp lists llarp_rc_free(&tmp); } if(updMode) { printf("rcutil.cpp - Loading [%s]\n", rcfname); llarp_rc *rc = llarp_rc_read(rcfname); // set updated timestamp rc->last_updated = llarp_time_now_ms(); // load longterm identity llarp_crypto crypt; llarp_crypto_libsodium_init(&crypt); fs::path ident_keyfile = "identity.key"; byte_t identity[SECKEYSIZE]; llarp_findOrCreateIdentity(&crypt, ident_keyfile.c_str(), identity); // get identity public key uint8_t *pubkey = llarp::seckey_topublic(identity); llarp_rc_set_pubsigkey(rc, pubkey); llarp_rc_sign(&crypt, identity, rc); // set filename fs::path our_rc_file_out = "update_debug.rc"; // write file llarp_rc_write(&tmp, our_rc_file_out.c_str()); } if(listMode) { llarp_main_loadDatabase(ctx); llarp_nodedb_iter iter; iter.visit = printNode; llarp_main_iterateDatabase(ctx, iter); } if(importMode) { llarp_main_loadDatabase(ctx); llarp::LogInfo("Loading ", rcfname); llarp_rc *rc = llarp_rc_read(rcfname); if(!rc) { llarp::LogError("Can't load RC"); return 0; } llarp_main_putDatabase(ctx, rc); } if(exportMode) { llarp_main_loadDatabase(ctx); // llarp::LogInfo("Looking for string: ", rcfname); llarp::PubKey binaryPK; llarp::HexDecode(rcfname, binaryPK.data()); llarp::LogInfo("Looking for binary: ", binaryPK); struct llarp_rc *rc = llarp_main_getDatabase(ctx, binaryPK.data()); if(!rc) { llarp::LogError("Can't load RC from database"); } std::string filename(rcfname); filename.append(".signed"); llarp::LogInfo("Writing out: ", filename); llarp_rc_write(rc, filename.c_str()); } if(locateMode) { llarp::LogInfo("Going online"); llarp_main_setup(ctx); llarp::PubKey binaryPK; llarp::HexDecode(rcfname, binaryPK.data()); // llarp::SetLogLevel(llarp::eLogDebug); llarp::LogInfo("Queueing job"); llarp_router_lookup_job *job = new llarp_router_lookup_job; job->found = false; job->hook = &HandleDHTLocate; memcpy(job->target, binaryPK, PUBKEYSIZE); // set job's target // create query DHT request check_online_request *request = new check_online_request; request->ptr = ctx; request->job = job; request->online = false; request->nodes = 0; request->first = false; llarp_main_queryDHT(request); llarp::LogInfo("Processing"); // run system and wait llarp_main_run(ctx); } if(localMode) { // llarp::LogInfo("find our local rc file"); // llarp_rc *rc = llarp_rc_read("router.signed"); llarp_rc *rc = llarp_main_getLocalRC(ctx); char ftmp[68] = {0}; const char *hexPubSigKey = llarp::HexEncode< llarp::PubKey, decltype(ftmp) >(rc->pubkey, ftmp); printf("PubSigKey [%s]\n", hexPubSigKey); struct llarp_ai_list_iter iter; // iter.user iter.visit = &aiLister; llarp_ai_list_iterate(rc->addrs, &iter); } llarp_main_free(ctx); return 1; // success }