lokinet/llarp/path/pathbuilder.cpp

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#include <path/pathbuilder.hpp>
#include <crypto/crypto.hpp>
#include <messages/relay_commit.hpp>
#include <nodedb.hpp>
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#include <path/path_context.hpp>
#include <profiling.hpp>
#include <router/abstractrouter.hpp>
#include <util/buffer.hpp>
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#include <util/meta/memfn.hpp>
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#include <util/thread/logic.hpp>
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#include <functional>
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namespace llarp
{
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struct AsyncPathKeyExchangeContext
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: std::enable_shared_from_this< AsyncPathKeyExchangeContext >
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{
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using Path_t = path::Path_ptr;
using PathSet_t = path::PathSet_ptr;
PathSet_t pathset = nullptr;
Path_t path = nullptr;
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using Handler =
std::function< void(std::shared_ptr< AsyncPathKeyExchangeContext >) >;
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Handler result;
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size_t idx = 0;
AbstractRouter* router = nullptr;
std::shared_ptr< thread::ThreadPool > worker;
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std::shared_ptr< Logic > logic;
LR_CommitMessage LRCM;
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void
GenerateNextKey()
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{
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// current hop
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auto& hop = path->hops[idx];
auto& frame = LRCM.frames[idx];
auto crypto = CryptoManager::instance();
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// generate key
crypto->encryption_keygen(hop.commkey);
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hop.nonce.Randomize();
// do key exchange
if(!crypto->dh_client(hop.shared, hop.rc.enckey, hop.commkey, hop.nonce))
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{
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LogError(pathset->Name(),
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" Failed to generate shared key for path build");
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return;
}
// generate nonceXOR valueself->hop->pathKey
crypto->shorthash(hop.nonceXOR, llarp_buffer_t(hop.shared));
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++idx;
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bool isFarthestHop = idx == path->hops.size();
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LR_CommitRecord record;
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if(isFarthestHop)
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{
hop.upstream = hop.rc.pubkey;
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}
else
{
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hop.upstream = path->hops[idx].rc.pubkey;
record.nextRC = std::make_unique< RouterContact >(path->hops[idx].rc);
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}
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// build record
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record.lifetime = path::default_lifetime;
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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 = seckey_topublic(hop.commkey);
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llarp_buffer_t buf(frame.data(), frame.size());
buf.cur = buf.base + EncryptedFrameOverheadSize;
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// encode record
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if(!record.BEncode(&buf))
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{
// failed to encode?
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LogError(pathset->Name(), " Failed to generate Commit Record");
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DumpBuffer(buf);
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return;
}
// use ephemeral keypair for frame
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SecretKey framekey;
crypto->encryption_keygen(framekey);
if(!frame.EncryptInPlace(framekey, hop.rc.enckey))
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{
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LogError(pathset->Name(), " Failed to encrypt LRCR");
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return;
}
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if(isFarthestHop)
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{
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// farthest hop
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// TODO: encrypt junk frames because our public keys are not eligator
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logic->queue_func(std::bind(result, shared_from_this()));
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}
else
{
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// next hop
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worker->addJob(std::bind(&AsyncPathKeyExchangeContext::GenerateNextKey,
shared_from_this()));
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}
}
/// Generate all keys asynchronously and call handler when done
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void
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AsyncGenerateKeys(Path_t p, std::shared_ptr< Logic > l,
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std::shared_ptr< thread::ThreadPool > pool, Handler func)
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{
path = p;
logic = l;
result = func;
worker = pool;
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for(size_t i = 0; i < path::max_len; ++i)
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{
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LRCM.frames[i].Randomize();
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}
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pool->addJob(std::bind(&AsyncPathKeyExchangeContext::GenerateNextKey,
shared_from_this()));
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}
};
static void
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PathBuilderKeysGenerated(std::shared_ptr< AsyncPathKeyExchangeContext > ctx)
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{
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if(!ctx->pathset->IsStopped())
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{
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const RouterID remote = ctx->path->Upstream();
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const ILinkMessage* msg = &ctx->LRCM;
if(ctx->router->SendToOrQueue(remote, msg))
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{
// persist session with router until this path is done
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ctx->router->PersistSessionUntil(remote, ctx->path->ExpireTime());
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// add own path
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ctx->router->pathContext().AddOwnPath(ctx->pathset, ctx->path);
ctx->pathset->PathBuildStarted(ctx->path);
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}
else
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LogError(ctx->pathset->Name(), " failed to send LRCM to ", remote);
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}
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}
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namespace path
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{
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Builder::Builder(AbstractRouter* p_router, size_t pathNum, size_t hops)
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: path::PathSet(pathNum), _run(true), m_router(p_router), numHops(hops)
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{
CryptoManager::instance()->encryption_keygen(enckey);
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}
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void
Builder::ResetInternalState()
{
buildIntervalLimit = MIN_PATH_BUILD_INTERVAL;
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lastBuild = 0;
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}
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void
Builder::Tick(llarp_time_t now)
{
ExpirePaths(now);
if(ShouldBuildMore(now))
BuildOne();
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TickPaths(now, m_router);
if(m_BuildStats.attempts > 50)
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{
if(m_BuildStats.SuccsessRatio() <= BuildStats::MinGoodRatio
&& now - m_LastWarn > 5000)
{
LogWarn(Name(), " has a low path build success. ", m_BuildStats);
m_LastWarn = now;
}
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}
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}
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util::StatusObject
Builder::ExtractStatus() const
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{
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util::StatusObject obj{{"buildStats", m_BuildStats.ExtractStatus()},
{"numHops", uint64_t(numHops)},
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{"numPaths", uint64_t(numPaths)}};
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std::transform(m_Paths.begin(), m_Paths.end(),
std::back_inserter(obj["paths"]),
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[](const auto& item) -> util::StatusObject {
return item.second->ExtractStatus();
});
return obj;
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}
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bool
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Builder::SelectHop(llarp_nodedb* db, const std::set< RouterID >& exclude,
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RouterContact& cur, size_t hop, PathRole roles)
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{
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(void)roles;
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size_t tries = 10;
if(hop == 0)
{
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if(m_router->NumberOfConnectedRouters() == 0)
{
// persist connection
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m_router->ConnectToRandomRouters(1);
return false;
}
bool got = false;
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m_router->ForEachPeer(
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[&](const ILinkSession* s, bool isOutbound) {
if(s && s->IsEstablished() && isOutbound && !got)
{
const RouterContact rc = s->GetRemoteRC();
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#ifdef TESTNET
if(got || exclude.count(rc.pubkey))
#else
if(got || exclude.count(rc.pubkey)
|| m_router->IsBootstrapNode(rc.pubkey))
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#endif
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return;
cur = rc;
got = true;
}
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},
true);
return got;
}
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do
{
cur.Clear();
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--tries;
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std::set< RouterID > excluding = exclude;
if(db->select_random_hop_excluding(cur, excluding))
{
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excluding.insert(cur.pubkey);
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if(!m_router->routerProfiling().IsBadForPath(cur.pubkey))
return true;
}
} while(tries > 0);
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return false;
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}
bool
Builder::Stop()
{
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_run = false;
return true;
}
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bool
Builder::IsStopped() const
{
return !_run.load();
}
bool
Builder::ShouldRemove() const
{
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return IsStopped();
}
const SecretKey&
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Builder::GetTunnelEncryptionSecretKey() const
{
return enckey;
}
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bool
Builder::BuildCooldownHit(llarp_time_t now) const
{
return now < lastBuild || now - lastBuild < buildIntervalLimit;
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}
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bool
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Builder::ShouldBuildMore(llarp_time_t now) const
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{
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if(IsStopped())
return false;
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return PathSet::ShouldBuildMore(now) && !BuildCooldownHit(now);
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}
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void
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Builder::BuildOne(PathRole roles)
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{
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std::vector< RouterContact > hops(numHops);
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if(SelectHops(m_router->nodedb(), hops, roles))
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Build(hops, roles);
}
bool Builder::UrgentBuild(llarp_time_t) const
{
return buildIntervalLimit > MIN_PATH_BUILD_INTERVAL * 4;
}
bool
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Builder::DoUrgentBuildAlignedTo(const RouterID remote,
std::vector< RouterContact >& hops)
{
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const auto aligned =
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m_router->pathContext().FindOwnedPathsWithEndpoint(remote);
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/// pick the lowest latency path that aligns to remote
/// note: peer exhaustion is made worse happen here
Path_ptr p;
llarp_time_t min = std::numeric_limits< llarp_time_t >::max();
for(const auto& path : aligned)
{
if(path->intro.latency < min && path->hops.size() == numHops)
{
p = path;
min = path->intro.latency;
}
}
if(p)
{
for(const auto& hop : p->hops)
{
if(hop.rc.pubkey.IsZero())
return false;
hops.emplace_back(hop.rc);
}
}
return true;
}
bool
Builder::DoBuildAlignedTo(const RouterID remote,
std::vector< RouterContact >& hops)
{
std::set< RouterID > routers{remote};
hops.resize(numHops);
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auto nodedb = m_router->nodedb();
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for(size_t idx = 0; idx < hops.size(); idx++)
{
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hops[idx].Clear();
if(idx == numHops - 1)
{
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// last hop
if(!nodedb->Get(remote, hops[idx]))
{
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m_router->LookupRouter(remote, nullptr);
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return false;
}
}
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else
{
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if(!SelectHop(nodedb, routers, hops[idx], idx, path::ePathRoleAny))
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{
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return false;
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}
}
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if(hops[idx].pubkey.IsZero())
return false;
routers.insert(hops[idx].pubkey);
}
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return true;
}
bool
Builder::BuildOneAlignedTo(const RouterID remote)
{
std::vector< RouterContact > hops;
/// if we really need this path build it "dangerously"
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if(UrgentBuild(m_router->Now()))
{
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if(!DoUrgentBuildAlignedTo(remote, hops))
{
return false;
}
}
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if(hops.empty())
{
if(!DoBuildAlignedTo(remote, hops))
{
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return false;
}
}
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LogInfo(Name(), " building path to ", remote);
Build(hops);
return true;
}
bool
Builder::SelectHops(llarp_nodedb* nodedb,
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std::vector< RouterContact >& hops, PathRole roles)
{
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std::set< RouterID > exclude;
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for(size_t idx = 0; idx < hops.size(); ++idx)
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{
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hops[idx].Clear();
size_t tries = 32;
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while(tries > 0 && !SelectHop(nodedb, exclude, hops[idx], idx, roles))
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{
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--tries;
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}
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if(tries == 0 || hops[idx].pubkey.IsZero())
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{
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LogWarn(Name(), " failed to select hop ", idx);
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return false;
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}
exclude.emplace(hops[idx].pubkey);
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}
return true;
}
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llarp_time_t
Builder::Now() const
{
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return m_router->Now();
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}
void
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Builder::Build(const std::vector< RouterContact >& hops, PathRole roles)
{
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if(IsStopped())
return;
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lastBuild = Now();
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// async generate keys
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auto ctx = std::make_shared< AsyncPathKeyExchangeContext >();
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ctx->router = m_router;
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ctx->pathset = GetSelf();
auto path = std::make_shared< path::Path >(hops, this, roles);
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LogInfo(Name(), " build ", path->HopsString());
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path->SetBuildResultHook(
[this](Path_ptr p) { this->HandlePathBuilt(p); });
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ctx->AsyncGenerateKeys(path, m_router->logic(), m_router->threadpool(),
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&PathBuilderKeysGenerated);
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}
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void
Builder::HandlePathBuilt(Path_ptr p)
{
buildIntervalLimit = MIN_PATH_BUILD_INTERVAL;
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m_router->routerProfiling().MarkPathSuccess(p.get());
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LogInfo(p->Name(), " built latency=", p->intro.latency);
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m_BuildStats.success++;
}
void
Builder::HandlePathBuildFailed(Path_ptr p)
{
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m_router->routerProfiling().MarkPathFail(p.get());
PathSet::HandlePathBuildFailed(p);
DoPathBuildBackoff();
}
void
Builder::DoPathBuildBackoff()
{
// linear backoff
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static constexpr llarp_time_t MaxBuildInterval = 30 * 1000;
buildIntervalLimit = std::min(
MIN_PATH_BUILD_INTERVAL + buildIntervalLimit, MaxBuildInterval);
LogWarn(Name(), " build interval is now ", buildIntervalLimit);
}
void
Builder::HandlePathBuildTimeout(Path_ptr p)
{
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m_router->routerProfiling().MarkPathFail(p.get());
PathSet::HandlePathBuildTimeout(p);
DoPathBuildBackoff();
}
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void
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Builder::ManualRebuild(size_t num, PathRole roles)
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{
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LogDebug(Name(), " manual rebuild ", num);
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while(num--)
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BuildOne(roles);
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}
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} // namespace path
} // namespace llarp