#include "router.hpp" #include #include #include #include #include #include "buffer.hpp" #include "encode.hpp" #include "logger.hpp" #include "net.hpp" #include "str.hpp" #include namespace llarp { void router_iter_config(llarp_config_iterator *iter, const char *section, const char *key, const char *val); } // namespace llarp llarp_router::llarp_router() : ready(false), inbound_msg_handler(this) { llarp_rc_clear(&rc); } llarp_router::~llarp_router() { llarp_rc_free(&rc); } bool llarp_router::HandleRecvLinkMessage(llarp_link_session *session, llarp_buffer_t buf) { if(inbound_msg_handler.ProcessFrom(session, buf)) { return inbound_msg_handler.FlushReplies(); } else return false; } bool llarp_router::ProcessLRCM(llarp::LR_CommitMessage msg) { return false; } void llarp_router::try_connect(fs::path rcfile) { byte_t tmp[MAX_RC_SIZE]; llarp_rc remote = {0}; llarp_buffer_t buf; llarp::StackBuffer< decltype(tmp) >(buf, tmp); // open file { std::ifstream f(rcfile, std::ios::binary); if(f.is_open()) { f.seekg(0, std::ios::end); size_t sz = f.tellg(); f.seekg(0, std::ios::beg); if(sz <= buf.sz) { f.read((char *)buf.base, sz); } else llarp::Error(__FILE__, rcfile, " too large"); } else { llarp::Error(__FILE__, "failed to open ", rcfile); return; } } if(llarp_rc_bdecode(&remote, &buf)) { if(llarp_rc_verify_sig(&crypto, &remote)) { llarp::Debug(__FILE__, "verified signature"); if(!llarp_router_try_connect(this, &remote)) { llarp::Warn(__FILE__, "session already made"); } } else llarp::Error(__FILE__, "failed to verify signature of RC"); } else llarp::Error(__FILE__, "failed to decode RC"); llarp_rc_free(&remote); } bool llarp_router::EnsureIdentity() { return llarp_findOrCreateIdentity(&crypto, ident_keyfile.c_str(), identity); } void llarp_router::AddLink(struct llarp_link *link) { links.push_back(link); ready = true; } bool llarp_router::Ready() { return ready; } bool llarp_router::SaveRC() { llarp::Debug(__FILE__, "verify RC signature"); if(!llarp_rc_verify_sig(&crypto, &rc)) { llarp::Error(__FILE__, "RC has bad signature not saving"); return false; } byte_t tmp[MAX_RC_SIZE]; auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); if(llarp_rc_bencode(&rc, &buf)) { std::ofstream f(our_rc_file); if(f.is_open()) { f.write((char *)buf.base, buf.cur - buf.base); llarp::Info(__FILE__, "our RC saved to ", our_rc_file.c_str()); return true; } } llarp::Error(__FILE__, "did not save RC to ", our_rc_file.c_str()); return false; } void llarp_router::Close() { for(auto &link : links) { link->stop_link(link); link->free_impl(link); delete link; } links.clear(); } void llarp_router::on_try_connect_result(llarp_link_establish_job *job) { llarp_router *router = static_cast< llarp_router * >(job->user); if(job->session) { llarp_rc *remote = job->session->get_remote_router(job->session); if(remote) { llarp::pubkey pubkey; memcpy(&pubkey[0], remote->pubkey, 32); char tmp[68] = {0}; const char *pubkeystr = llarp::HexEncode< decltype(pubkey), decltype(tmp) >(pubkey, tmp); llarp::Info(__FILE__, "session established with ", pubkeystr); auto itr = router->pendingMessages.find(pubkey); if(itr != router->pendingMessages.end()) { // flush pending if(itr->second.size()) { llarp::Info(__FILE__, pubkeystr, " flush ", itr->second.size(), " pending messages"); } for(auto &msg : itr->second) { auto buf = llarp::Buffer< decltype(msg) >(msg); job->session->sendto(job->session, buf); } router->pendingMessages.erase(itr); } delete job; return; } } llarp::Info(__FILE__, "session not established"); job->link->try_establish(job->link, job); } void llarp_router::Run() { // zero out router contact llarp::Zero(&rc, sizeof(llarp_rc)); // fill our address list rc.addrs = llarp_ai_list_new(); for(auto link : links) { llarp_ai addr; link->get_our_address(link, &addr); llarp_ai_list_pushback(rc.addrs, &addr); }; // set public key llarp_rc_set_pubkey(&rc, pubkey()); llarp_rc_sign(&crypto, identity, &rc); if(!SaveRC()) { return; } char tmp[68] = {0}; llarp::pubkey ourPubkey; memcpy(&ourPubkey[0], pubkey(), 32); const char *us = llarp::HexEncode< llarp::pubkey, decltype(tmp) >(ourPubkey, tmp); llarp::Debug(__FILE__, "our router has public key ", us); // start links for(auto link : links) { int result = link->start_link(link, logic); if(result == -1) llarp::Warn(__FILE__, "Link ", link->name(), " failed to start"); else llarp::Debug(__FILE__, "Link ", link->name(), " started"); } for(const auto &itr : connect) { llarp::Info(__FILE__, "connecting to node ", itr.first); try_connect(itr.second); } } bool llarp_router::iter_try_connect(llarp_router_link_iter *iter, llarp_router *router, llarp_link *link) { if(!link) return true; llarp_link_establish_job *job = new llarp_link_establish_job; if(!job) return true; llarp_ai *ai = static_cast< llarp_ai * >(iter->user); llarp_ai_copy(&job->ai, ai); job->timeout = 1000; job->result = &llarp_router::on_try_connect_result; // give router as user pointer job->user = router; link->try_establish(link, job); return true; } extern "C" { struct llarp_router * llarp_init_router(struct llarp_threadpool *tp, struct llarp_ev_loop *netloop, struct llarp_logic *logic) { llarp_router *router = new llarp_router(); if(router) { router->netloop = netloop; router->tp = tp; router->logic = logic; llarp_crypto_libsodium_init(&router->crypto); } return router; } bool llarp_configure_router(struct llarp_router *router, struct llarp_config *conf) { llarp_config_iterator iter; iter.user = router; iter.visit = llarp::router_iter_config; llarp_config_iter(conf, &iter); if(!router->Ready()) { return false; } return router->EnsureIdentity(); } void llarp_run_router(struct llarp_router *router) { router->Run(); } bool llarp_router_try_connect(struct llarp_router *router, struct llarp_rc *remote) { // try first address only llarp_ai addr; if(llarp_ai_list_index(remote->addrs, 0, &addr)) { llarp_router_iterate_links(router, {&addr, &llarp_router::iter_try_connect}); return true; } return false; } void llarp_rc_clear(struct llarp_rc *rc) { // zero out router contact llarp::Zero(rc, sizeof(llarp_rc)); } bool llarp_rc_addr_list_iter(struct llarp_ai_list_iter *iter, struct llarp_ai *ai) { struct llarp_rc *rc = (llarp_rc *)iter->user; llarp_ai_list_pushback(rc->addrs, ai); return true; } void llarp_rc_set_addrs(struct llarp_rc *rc, struct llarp_alloc *mem, struct llarp_ai_list *addr) { rc->addrs = llarp_ai_list_new(); struct llarp_ai_list_iter ai_itr; ai_itr.user = rc; ai_itr.visit = &llarp_rc_addr_list_iter; llarp_ai_list_iterate(addr, &ai_itr); } void llarp_rc_set_pubkey(struct llarp_rc *rc, uint8_t *pubkey) { // set public key memcpy(rc->pubkey, pubkey, 32); } bool llarp_findOrCreateIdentity(llarp_crypto *crypto, const char *fpath, byte_t *secretkey) { fs::path path(fpath); std::error_code ec; if(!fs::exists(path, ec)) { crypto->identity_keygen(secretkey); std::ofstream f(path, std::ios::binary); if(f.is_open()) { f.write((char *)secretkey, sizeof(llarp_seckey_t)); } } std::ifstream f(path, std::ios::binary); if(f.is_open()) { f.read((char *)secretkey, sizeof(llarp_seckey_t)); return true; } return false; } bool llarp_rc_write(struct llarp_rc *rc, const char *fpath) { fs::path our_rc_file(fpath); byte_t tmp[MAX_RC_SIZE]; auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); if(llarp_rc_bencode(rc, &buf)) { std::ofstream f(our_rc_file, std::ios::binary); if(f.is_open()) { f.write((char *)buf.base, buf.cur - buf.base); return true; } } return false; } void llarp_rc_sign(llarp_crypto *crypto, const byte_t *seckey, struct llarp_rc *rc) { byte_t buf[MAX_RC_SIZE]; auto signbuf = llarp::StackBuffer< decltype(buf) >(buf); // zero out previous signature llarp::Zero(rc->signature, sizeof(rc->signature)); // encode if(llarp_rc_bencode(rc, &signbuf)) { // sign signbuf.sz = signbuf.cur - signbuf.base; crypto->sign(rc->signature, seckey, signbuf); } } void llarp_stop_router(struct llarp_router *router) { if(router) router->Close(); } void llarp_router_iterate_links(struct llarp_router *router, struct llarp_router_link_iter i) { for(auto link : router->links) if(!i.visit(&i, router, link)) return; } void llarp_free_router(struct llarp_router **router) { if(*router) { delete *router; } *router = nullptr; } } namespace llarp { void router_iter_config(llarp_config_iterator *iter, const char *section, const char *key, const char *val) { llarp_router *self = static_cast< llarp_router * >(iter->user); int af; uint16_t proto; if(StrEq(val, "eth")) { #ifdef AF_LINK af = AF_LINK; #endif #ifdef AF_PACKET af = AF_PACKET; #endif proto = LLARP_ETH_PROTO; } else { // try IPv4 first af = AF_INET; proto = std::atoi(val); } struct llarp_link *link = nullptr; if(StrEq(section, "iwp-links")) { link = new llarp_link; llarp::Zero(link, sizeof(llarp_link)); llarp_iwp_args args = { .crypto = &self->crypto, .logic = self->logic, .cryptoworker = self->tp, .router = self, .keyfile = self->transport_keyfile.c_str(), }; iwp_link_init(link, args); if(llarp_link_initialized(link)) { //printf("router -> link initialized\n"); if(link->configure(link, self->netloop, key, af, proto)) { llarp_ai ai; link->get_our_address(link, &ai); llarp::Addr addr = ai; self->AddLink(link); return; } if (af == AF_INET6) { // we failed to configure IPv6 // try IPv4 llarp::Info(__FILE__, "link ", key, " failed to configure IPv6, trying IPv4"); af = AF_INET; if(link->configure(link, self->netloop, key, af, proto)) { llarp_ai ai; link->get_our_address(link, &ai); llarp::Addr addr = ai; self->AddLink(link); return; } } } llarp::Error(__FILE__, "link ", key, " failed to configure"); } else if(StrEq(section, "iwp-connect")) { self->connect[key] = val; } else if(StrEq(section, "router")) { if(StrEq(key, "contact-file")) { self->our_rc_file = val; } if(StrEq(key, "transport-privkey")) { self->transport_keyfile = val; } if(StrEq(key, "ident-privkey")) { self->ident_keyfile = val; } } } } // namespace llarp