#include #include #include "pathbuilder.hpp" #include "router.hpp" namespace llarp { template < typename User > struct AsyncPathKeyExchangeContext { Path* path = nullptr; typedef void (*Handler)(AsyncPathKeyExchangeContext< User >*); User* user = nullptr; Handler result = nullptr; size_t idx = 0; llarp_threadpool* worker = nullptr; llarp_logic* logic = nullptr; llarp_crypto* crypto = nullptr; LR_CommitMessage* LRCM = nullptr; static void HandleDone(void* u) { AsyncPathKeyExchangeContext< User >* ctx = static_cast< AsyncPathKeyExchangeContext< User >* >(u); ctx->result(ctx); } static void GenerateNextKey(void* u) { AsyncPathKeyExchangeContext< User >* ctx = static_cast< AsyncPathKeyExchangeContext< User >* >(u); // current hop auto& hop = ctx->path->hops[ctx->idx]; auto& frame = ctx->LRCM->frames[ctx->idx]; // generate key ctx->crypto->encryption_keygen(hop.commkey); hop.nonce.Randomize(); // do key exchange if(!ctx->crypto->dh_client(hop.shared, hop.router.enckey, hop.commkey, hop.nonce)) { llarp::Error("Failed to generate shared key for path build"); abort(); return; } ++ctx->idx; bool isFarthestHop = ctx->idx == ctx->path->hops.size(); if(isFarthestHop) { hop.upstream = hop.router.pubkey; } else { hop.upstream = ctx->path->hops[ctx->idx].router.pubkey; } // build record LR_CommitRecord record; record.version = LLARP_PROTO_VERSION; record.txid = hop.txID; record.rxid = hop.rxID; record.tunnelNonce = hop.nonce; record.nextHop = hop.upstream; record.commkey = llarp::seckey_topublic(hop.commkey); auto buf = frame.Buffer(); buf->cur = buf->base + EncryptedFrame::OverheadSize; // encode record if(!record.BEncode(buf)) { // failed to encode? llarp::Error("Failed to generate Commit Record"); return; } // use ephameral keypair for frame SecretKey framekey; ctx->crypto->encryption_keygen(framekey); if(!frame.EncryptInPlace(framekey, hop.router.enckey, ctx->crypto)) { llarp::Error("Failed to encrypt LRCR"); return; } if(isFarthestHop) { // farthest hop llarp_logic_queue_job(ctx->logic, {ctx, &HandleDone}); } else { // next hop llarp_threadpool_queue_job(ctx->worker, {ctx, &GenerateNextKey}); } } AsyncPathKeyExchangeContext(llarp_crypto* c) : crypto(c) { } /// Generate all keys asynchronously and call hadler when done void AsyncGenerateKeys(Path* p, llarp_logic* l, llarp_threadpool* pool, User* u, Handler func) { path = p; logic = l; user = u; result = func; worker = pool; LRCM = new LR_CommitMessage; for(size_t idx = 0; idx < MAXHOPS; ++idx) { LRCM->frames.emplace_back(); LRCM->frames.back().Randomize(); } llarp_threadpool_queue_job(pool, {this, &GenerateNextKey}); } }; PathHopConfig::PathHopConfig() { llarp_rc_clear(&router); } PathHopConfig::~PathHopConfig() { llarp_rc_free(&router); } void pathbuilder_generated_keys( AsyncPathKeyExchangeContext< llarp_pathbuild_job >* ctx) { auto remote = ctx->path->Upstream(); llarp::Info("Generated LRCM to ", remote); auto router = ctx->user->router; if(!router->SendToOrQueue(remote, ctx->LRCM)) { llarp::Error("failed to send LRCM"); return; } ctx->path->status = ePathBuilding; router->paths.AddOwnPath(ctx->path); ctx->user->pathBuildStarted(ctx->user); } void pathbuilder_start_build(void* user) { llarp_pathbuild_job* job = static_cast< llarp_pathbuild_job* >(user); // select hops size_t idx = 0; llarp_rc* prev = nullptr; while(idx < job->hops.numHops) { llarp_rc* rc = &job->hops.hops[idx].router; llarp_rc_clear(rc); job->selectHop(job->router->nodedb, prev, rc, idx); prev = rc; ++idx; } // async generate keys AsyncPathKeyExchangeContext< llarp_pathbuild_job >* ctx = new AsyncPathKeyExchangeContext< llarp_pathbuild_job >( &job->router->crypto); ctx->AsyncGenerateKeys(new Path(&job->hops), job->router->logic, job->router->tp, job, &pathbuilder_generated_keys); } } // namespace llarp llarp_pathbuilder_context::llarp_pathbuilder_context( llarp_router* p_router, struct llarp_dht_context* p_dht) : router(p_router), dht(p_dht) { } extern "C" { struct llarp_pathbuilder_context* llarp_pathbuilder_context_new(struct llarp_router* router, struct llarp_dht_context* dht) { return new llarp_pathbuilder_context(router, dht); } void llarp_pathbuilder_context_free(struct llarp_pathbuilder_context* ctx) { delete ctx; } void llarp_pathbuilder_build_path(struct llarp_pathbuild_job* job) { if (!job->context) { llarp::Error("failed to build path because no context is set in job"); return; } job->router = job->context->router; if(job->selectHop == nullptr) job->selectHop = &llarp_nodedb_select_random_hop; llarp_logic_queue_job(job->router->logic, {job, &llarp::pathbuilder_start_build}); } } // end extern c