lokinet/llarp/pathbuilder.cpp

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#include <llarp/nodedb.hpp>
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#include <llarp/path.hpp>
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#include <llarp/pathbuilder.hpp>
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#include <functional>
#include "buffer.hpp"
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#include "router.hpp"
namespace llarp
{
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template < typename User >
struct AsyncPathKeyExchangeContext
{
typedef llarp::path::Path Path_t;
typedef llarp::path::PathSet PathSet_t;
PathSet_t* pathset = nullptr;
Path_t* path = nullptr;
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typedef std::function< void(AsyncPathKeyExchangeContext< User >*) > Handler;
User* user = nullptr;
Handler result;
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size_t idx = 0;
llarp_threadpool* worker = nullptr;
llarp_logic* logic = nullptr;
llarp_crypto* crypto = nullptr;
LR_CommitMessage LRCM;
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static void
HandleDone(void* u)
{
AsyncPathKeyExchangeContext< User >* ctx =
static_cast< AsyncPathKeyExchangeContext< User >* >(u);
ctx->result(ctx);
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delete ctx;
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}
static void
GenerateNextKey(void* u)
{
AsyncPathKeyExchangeContext< User >* ctx =
static_cast< AsyncPathKeyExchangeContext< User >* >(u);
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// current hop
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auto& hop = ctx->path->hops[ctx->idx];
auto& frame = ctx->LRCM.frames[ctx->idx];
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// generate key
ctx->crypto->encryption_keygen(hop.commkey);
hop.nonce.Randomize();
// do key exchange
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if(!ctx->crypto->dh_client(hop.shared, hop.rc.enckey, hop.commkey,
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hop.nonce))
{
llarp::LogError("Failed to generate shared key for path build");
delete ctx;
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return;
}
// generate nonceXOR valueself->hop->pathKey
ctx->crypto->shorthash(hop.nonceXOR, llarp::Buffer(hop.shared));
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++ctx->idx;
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bool isFarthestHop = ctx->idx == ctx->path->hops.size();
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if(isFarthestHop)
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{
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hop.upstream = hop.rc.pubkey;
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}
else
{
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hop.upstream = ctx->path->hops[ctx->idx].rc.pubkey;
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}
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// build record
LR_CommitRecord record;
record.version = LLARP_PROTO_VERSION;
record.txid = hop.txID;
record.rxid = hop.rxID;
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record.tunnelNonce = hop.nonce;
record.nextHop = hop.upstream;
record.commkey = llarp::seckey_topublic(hop.commkey);
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auto buf = frame.Buffer();
buf->cur = buf->base + EncryptedFrame::OverheadSize;
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// encode record
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if(!record.BEncode(buf))
{
// failed to encode?
llarp::LogError("Failed to generate Commit Record");
delete ctx;
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return;
}
// use ephameral keypair for frame
SecretKey framekey;
ctx->crypto->encryption_keygen(framekey);
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if(!frame.EncryptInPlace(framekey, hop.rc.enckey, ctx->crypto))
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{
llarp::LogError("Failed to encrypt LRCR");
delete ctx;
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return;
}
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if(isFarthestHop)
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{
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// farthest hop
llarp_logic_queue_job(ctx->logic, {ctx, &HandleDone});
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}
else
{
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// next hop
llarp_threadpool_queue_job(ctx->worker, {ctx, &GenerateNextKey});
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}
}
AsyncPathKeyExchangeContext(llarp_crypto* c) : crypto(c)
{
}
/// Generate all keys asynchronously and call hadler when done
void
AsyncGenerateKeys(Path_t* p, llarp_logic* l, llarp_threadpool* pool,
User* u, Handler func)
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{
path = p;
logic = l;
user = u;
result = func;
worker = pool;
for(size_t idx = 0; idx < MAXHOPS; ++idx)
{
LRCM.frames[idx].Randomize();
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}
llarp_threadpool_queue_job(pool, {this, &GenerateNextKey});
}
};
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void
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pathbuilder_generated_keys(AsyncPathKeyExchangeContext< path::Builder >* ctx)
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{
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RouterID remote = ctx->path->Upstream();
auto router = ctx->user->router;
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if(!router)
{
llarp::LogError("null router");
return;
}
if(!router->SendToOrQueue(remote, &ctx->LRCM))
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{
llarp::LogError("failed to send LRCM");
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return;
}
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// persist session with router until this path is done
router->PersistSessionUntil(remote, ctx->path->ExpireTime());
// add own path
router->paths.AddOwnPath(ctx->pathset, ctx->path);
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}
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namespace path
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{
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Builder::Builder(llarp_router* p_router, struct llarp_dht_context* p_dht,
size_t pathNum, size_t hops)
: llarp::path::PathSet(pathNum)
, router(p_router)
, dht(p_dht)
, numHops(hops)
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{
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p_router->paths.AddPathBuilder(this);
p_router->crypto.encryption_keygen(enckey);
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}
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Builder::~Builder()
{
router->paths.RemovePathBuilder(this);
}
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bool
Builder::SelectHop(llarp_nodedb* db, const RouterContact& prev,
RouterContact& cur, size_t hop)
{
if(hop == 0 && router->NumberOfConnectedRouters())
return router->GetRandomConnectedRouter(cur);
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size_t tries = 5;
do
{
--tries;
llarp_nodedb_select_random_hop(db, prev, cur, hop);
} while(router->routerProfiling.IsBad(cur.pubkey) && tries > 0);
return !router->routerProfiling.IsBad(cur.pubkey);
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}
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const byte_t*
Builder::GetTunnelEncryptionSecretKey() const
{
return enckey;
}
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bool
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Builder::ShouldBuildMore(llarp_time_t now) const
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{
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return llarp::path::PathSet::ShouldBuildMore(now) && now > lastBuild
&& now - lastBuild > buildIntervalLimit;
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}
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void
Builder::BuildOne()
{
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std::vector< RouterContact > hops;
if(SelectHops(router->nodedb, hops))
Build(hops);
}
bool
Builder::SelectHops(llarp_nodedb* nodedb,
std::vector< RouterContact >& hops)
{
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hops.resize(numHops);
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size_t idx = 0;
while(idx < numHops)
{
if(idx == 0)
{
if(!SelectHop(nodedb, hops[0], hops[0], 0))
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{
llarp::LogError("failed to select first hop");
return false;
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}
}
else
{
if(!SelectHop(nodedb, hops[idx - 1], hops[idx], idx))
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{
/// TODO: handle this failure properly
llarp::LogWarn("Failed to select hop ", idx);
return false;
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}
}
++idx;
}
return true;
}
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llarp_time_t
Builder::Now() const
{
return router->Now();
}
void
Builder::Build(const std::vector< RouterContact >& hops)
{
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lastBuild = Now();
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// async generate keys
AsyncPathKeyExchangeContext< Builder >* ctx =
new AsyncPathKeyExchangeContext< Builder >(&router->crypto);
ctx->pathset = this;
auto path = new llarp::path::Path(hops, this);
path->SetBuildResultHook(std::bind(&llarp::path::Builder::HandlePathBuilt,
this, std::placeholders::_1));
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ctx->AsyncGenerateKeys(path, router->logic, router->tp, this,
&pathbuilder_generated_keys);
}
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void
Builder::HandlePathBuilt(Path* p)
{
buildIntervalLimit = MIN_PATH_BUILD_INTERVAL;
PathSet::HandlePathBuilt(p);
}
void
Builder::HandlePathBuildTimeout(Path* p)
{
// linear backoff
buildIntervalLimit += 1000;
PathSet::HandlePathBuildTimeout(p);
}
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void
Builder::ManualRebuild(size_t num)
{
llarp::LogDebug("manual rebuild ", num);
while(num--)
BuildOne();
}
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} // namespace path
} // namespace llarp