lokinet/llarp/service/endpoint.cpp

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2018-08-04 02:59:32 +00:00
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#include <llarp/dht/messages/findintro.hpp>
#include <llarp/messages/dht.hpp>
#include <llarp/service/endpoint.hpp>
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#include <llarp/service/protocol.hpp>
#include "buffer.hpp"
#include "router.hpp"
namespace llarp
{
namespace service
{
Endpoint::Endpoint(const std::string& name, llarp_router* r)
: path::Builder(r, r->dht, 4, 4), m_Router(r), m_Name(name)
{
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m_Tag.Zero();
}
bool
Endpoint::SetOption(const std::string& k, const std::string& v)
{
if(k == "keyfile")
{
m_Keyfile = v;
}
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if(k == "tag")
{
m_Tag = v;
llarp::LogInfo("Setting tag to ", v);
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}
if(k == "prefetch-tag")
{
m_PrefetchTags.insert(v);
}
if(k == "prefetch-addr")
{
Address addr;
if(addr.FromString(v))
m_PrefetchAddrs.insert(addr);
}
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if(k == "netns")
{
m_NetNS = v;
m_OnInit.push_back(std::bind(&Endpoint::IsolateNetwork, this));
}
if(k == "min-latency")
{
auto val = atoi(v.c_str());
if(val > 0)
m_MinPathLatency = val;
}
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return true;
}
bool
Endpoint::IsolateNetwork()
{
llarp::LogInfo("isolating network to namespace ", m_NetNS);
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m_IsolatedWorker = llarp_init_isolated_net_threadpool(
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m_NetNS.c_str(), &SetupIsolatedNetwork, &RunIsolatedMainLoop, this);
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m_IsolatedLogic = llarp_init_single_process_logic(m_IsolatedWorker);
return true;
}
llarp_ev_loop*
Endpoint::EndpointNetLoop()
{
if(m_IsolatedNetLoop)
return m_IsolatedNetLoop;
else
return m_Router->netloop;
}
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bool
Endpoint::NetworkIsIsolated() const
{
return m_IsolatedLogic && m_IsolatedWorker;
}
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bool
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Endpoint::SetupIsolatedNetwork(void* user, bool failed)
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{
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return static_cast< Endpoint* >(user)->DoNetworkIsolation(!failed);
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}
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bool
Endpoint::HasPendingPathToService(const Address& addr) const
{
return m_PendingServiceLookups.find(addr)
!= m_PendingServiceLookups.end();
}
void
Endpoint::RegenAndPublishIntroSet(llarp_time_t now)
{
std::set< Introduction > I;
if(!GetCurrentIntroductions(I))
{
llarp::LogWarn("could not publish descriptors for endpoint ", Name(),
" because we couldn't get any introductions");
if(ShouldBuildMore())
ManualRebuild(1);
return;
}
IntroSet introset = m_IntroSet;
introset.I.clear();
for(const auto& intro : I)
{
llarp::LogInfo(intro);
if(!intro.ExpiresSoon(now))
introset.I.push_back(intro);
}
if(introset.I.size() == 0)
{
llarp::LogWarn("not enough intros to publish introset for ", Name());
return;
}
introset.topic = m_Tag;
if(!m_Identity.SignIntroSet(introset, &m_Router->crypto))
{
llarp::LogWarn("failed to sign introset for endpoint ", Name());
return;
}
m_IntroSet = introset;
if(PublishIntroSet(m_Router))
{
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llarp::LogInfo("(re)publishing introset for endpoint ", Name());
}
else
{
llarp::LogWarn("failed to publish intro set for endpoint ", Name());
}
}
void
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Endpoint::Tick(llarp_time_t now)
{
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// publish descriptors
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if(ShouldPublishDescriptors(now))
{
RegenAndPublishIntroSet(now);
}
// expire pending tx
{
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std::set< service::IntroSet > empty;
auto itr = m_PendingLookups.begin();
while(itr != m_PendingLookups.end())
{
if(itr->second->IsTimedOut(now))
{
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std::unique_ptr< IServiceLookup > lookup = std::move(itr->second);
llarp::LogInfo(lookup->name, " timed out txid=", lookup->txid);
lookup->HandleResponse(empty);
itr = m_PendingLookups.erase(itr);
}
else
++itr;
}
}
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// expire pending router lookups
{
auto itr = m_PendingRouters.begin();
while(itr != m_PendingRouters.end())
{
if(itr->second.IsExpired(now))
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{
llarp::LogInfo("lookup for ", itr->first, " timed out");
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itr = m_PendingRouters.erase(itr);
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}
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else
++itr;
}
}
// prefetch addrs
for(const auto& addr : m_PrefetchAddrs)
{
if(!HasPathToService(addr))
{
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if(!EnsurePathToService(
addr, [](Address addr, OutboundContext* ctx) {}, 10000))
{
llarp::LogWarn("failed to ensure path to ", addr);
}
}
}
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// prefetch tags
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for(const auto& tag : m_PrefetchTags)
{
auto itr = m_PrefetchedTags.find(tag);
if(itr == m_PrefetchedTags.end())
{
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itr =
m_PrefetchedTags.insert(std::make_pair(tag, CachedTagResult(tag)))
.first;
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}
for(const auto& introset : itr->second.result)
{
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if(HasPendingPathToService(introset.A.Addr()))
continue;
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if(!EnsurePathToService(introset.A.Addr(),
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[](Address addr, OutboundContext* ctx) {},
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10000))
{
llarp::LogWarn("failed to ensure path to ", introset.A.Addr(),
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" for tag ", tag.ToString());
}
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}
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itr->second.Expire(now);
if(itr->second.ShouldRefresh(now))
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{
auto path = PickRandomEstablishedPath();
if(path)
{
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auto job = new TagLookupJob(this, &itr->second);
job->SendRequestViaPath(path, Router());
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}
}
}
// tick remote sessions
{
auto itr = m_RemoteSessions.begin();
while(itr != m_RemoteSessions.end())
{
if(itr->second->Tick(now))
{
itr = m_RemoteSessions.erase(itr);
}
else
++itr;
}
}
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}
uint64_t
Endpoint::GenTXID()
{
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uint64_t txid = llarp_randint();
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while(m_PendingLookups.find(txid) != m_PendingLookups.end())
++txid;
return txid;
}
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std::string
Endpoint::Name() const
{
return m_Name + ":" + m_Identity.pub.Name();
}
bool
Endpoint::HasPathToService(const Address& addr) const
{
return m_RemoteSessions.find(addr) != m_RemoteSessions.end();
}
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void
Endpoint::PutLookup(IServiceLookup* lookup, uint64_t txid)
{
// std::unique_ptr< service::IServiceLookup > ptr(lookup);
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// m_PendingLookups.insert(std::make_pair(txid, ptr));
// m_PendingLookups[txid] = std::move(ptr);
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m_PendingLookups.insert(
std::make_pair(txid, std::unique_ptr< IServiceLookup >(lookup)));
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}
bool
Endpoint::HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg)
{
auto crypto = &m_Router->crypto;
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std::set< IntroSet > remote;
for(const auto& introset : msg->I)
{
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if(!introset.Verify(crypto))
{
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if(m_Identity.pub == introset.A && m_CurrentPublishTX == msg->T)
{
IntroSetPublishFail();
}
else
{
auto itr = m_PendingLookups.find(msg->T);
if(itr == m_PendingLookups.end())
{
llarp::LogWarn(
"invalid lookup response for hidden service endpoint ",
Name(), " txid=", msg->T);
return true;
}
std::unique_ptr< IServiceLookup > lookup = std::move(itr->second);
m_PendingLookups.erase(itr);
lookup->HandleResponse({});
return true;
}
return true;
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}
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if(m_Identity.pub == introset.A && m_CurrentPublishTX == msg->T)
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{
llarp::LogInfo(
"got introset publish confirmation for hidden service endpoint ",
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Name());
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IntroSetPublished();
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return true;
}
else
{
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remote.insert(introset);
}
}
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auto itr = m_PendingLookups.find(msg->T);
if(itr == m_PendingLookups.end())
{
llarp::LogWarn("invalid lookup response for hidden service endpoint ",
Name(), " txid=", msg->T);
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return true;
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}
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std::unique_ptr< IServiceLookup > lookup = std::move(itr->second);
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m_PendingLookups.erase(itr);
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lookup->HandleResponse(remote);
return true;
}
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void
Endpoint::PutSenderFor(const ConvoTag& tag, const ServiceInfo& info)
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
{
itr = m_Sessions.insert(std::make_pair(tag, Session{})).first;
}
itr->second.remote = info;
itr->second.lastUsed = llarp_time_now_ms();
}
bool
Endpoint::GetSenderFor(const ConvoTag& tag, ServiceInfo& si) const
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
return false;
si = itr->second.remote;
return true;
}
void
Endpoint::PutIntroFor(const ConvoTag& tag, const Introduction& intro)
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
{
itr = m_Sessions.insert(std::make_pair(tag, Session{})).first;
}
itr->second.intro = intro;
itr->second.lastUsed = llarp_time_now_ms();
}
bool
Endpoint::GetIntroFor(const ConvoTag& tag, Introduction& intro) const
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
return false;
intro = itr->second.intro;
return true;
}
bool
Endpoint::GetConvoTagsForService(const ServiceInfo& info,
std::set< ConvoTag >& tags) const
{
bool inserted = false;
auto itr = m_Sessions.begin();
while(itr != m_Sessions.end())
{
if(itr->second.remote == info)
{
inserted |= tags.insert(itr->first).second;
}
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++itr;
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}
return inserted;
}
bool
Endpoint::GetCachedSessionKeyFor(const ConvoTag& tag,
const byte_t*& secret) const
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{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
return false;
secret = itr->second.sharedKey.data();
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return true;
}
void
Endpoint::PutCachedSessionKeyFor(const ConvoTag& tag, const SharedSecret& k)
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
{
itr = m_Sessions.insert(std::make_pair(tag, Session{})).first;
}
itr->second.sharedKey = k;
itr->second.lastUsed = llarp_time_now_ms();
}
bool
Endpoint::Start()
{
auto crypto = &m_Router->crypto;
if(m_Keyfile.size())
{
if(!m_Identity.EnsureKeys(m_Keyfile, crypto))
return false;
}
else
{
m_Identity.RegenerateKeys(crypto);
}
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if(!m_DataHandler)
{
m_DataHandler = this;
}
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// this does network isolation
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while(m_OnInit.size())
{
if(m_OnInit.front()())
m_OnInit.pop_front();
else
return false;
}
return true;
}
Endpoint::~Endpoint()
{
}
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bool
Endpoint::CachedTagResult::HandleResponse(
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const std::set< IntroSet >& introsets)
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{
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auto now = llarp_time_now_ms();
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for(const auto& introset : introsets)
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if(result.insert(introset).second)
lastModified = now;
llarp::LogInfo("Tag result for ", tag.ToString(), " got ",
introsets.size(), " results from lookup, have ",
result.size(), " cached last modified at ", lastModified,
" is ", now - lastModified, "ms old");
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return true;
}
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void
Endpoint::CachedTagResult::Expire(llarp_time_t now)
{
auto itr = result.begin();
while(itr != result.end())
{
if(itr->HasExpiredIntros(now))
{
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llarp::LogInfo("Removing expired tag Entry ", itr->A.Name());
itr = result.erase(itr);
lastModified = now;
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}
else
{
++itr;
}
}
}
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llarp::routing::IMessage*
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Endpoint::CachedTagResult::BuildRequestMessage(uint64_t txid)
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{
llarp::routing::DHTMessage* msg = new llarp::routing::DHTMessage();
msg->M.emplace_back(new llarp::dht::FindIntroMessage(tag, txid));
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lastRequest = llarp_time_now_ms();
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return msg;
}
bool
Endpoint::PublishIntroSet(llarp_router* r)
{
auto path = GetEstablishedPathClosestTo(m_Identity.pub.Addr().data());
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if(path && PublishIntroSetVia(r, path))
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{
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path = PickRandomEstablishedPath();
return path && PublishIntroSetVia(r, path);
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}
return false;
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}
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struct PublishIntroSetJob : public IServiceLookup
{
IntroSet m_IntroSet;
Endpoint* m_Endpoint;
PublishIntroSetJob(Endpoint* parent, uint64_t id,
const IntroSet& introset)
: IServiceLookup(parent, id, "PublishIntroSet")
, m_IntroSet(introset)
, m_Endpoint(parent)
{
}
llarp::routing::IMessage*
BuildRequestMessage()
{
llarp::routing::DHTMessage* msg = new llarp::routing::DHTMessage();
msg->M.emplace_back(
new llarp::dht::PublishIntroMessage(m_IntroSet, txid, 4));
return msg;
}
bool
HandleResponse(const std::set< IntroSet >& response)
{
if(response.size())
m_Endpoint->IntroSetPublished();
else
m_Endpoint->IntroSetPublishFail();
return true;
}
};
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void
Endpoint::IntroSetPublishFail()
{
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// TODO: linear backoff
}
bool
Endpoint::PublishIntroSetVia(llarp_router* r, path::Path* path)
{
auto job = new PublishIntroSetJob(this, GenTXID(), m_IntroSet);
if(job->SendRequestViaPath(path, r))
{
m_LastPublishAttempt = llarp_time_now_ms();
return true;
}
return false;
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}
bool
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Endpoint::ShouldPublishDescriptors(llarp_time_t now) const
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{
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if(m_IntroSet.HasExpiredIntros(now))
return now - m_LastPublishAttempt >= INTROSET_PUBLISH_RETRY_INTERVAL;
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return now - m_LastPublishAttempt >= INTROSET_PUBLISH_INTERVAL;
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}
void
Endpoint::IntroSetPublished()
{
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m_LastPublish = llarp_time_now_ms();
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llarp::LogInfo(Name(), " IntroSet publish confirmed");
}
struct HiddenServiceAddressLookup : public IServiceLookup
{
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~HiddenServiceAddressLookup()
{
}
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Address remote;
typedef std::function< bool(const Address&, const IntroSet*) >
HandlerFunc;
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HandlerFunc handle;
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HiddenServiceAddressLookup(Endpoint* p, HandlerFunc h,
const Address& addr, uint64_t tx)
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: IServiceLookup(p, tx, "HSLookup"), remote(addr), handle(h)
{
}
bool
HandleResponse(const std::set< IntroSet >& results)
{
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llarp::LogInfo("found ", results.size(), " for ", remote.ToString());
if(results.size() > 0)
{
return handle(remote, &*results.begin());
}
return handle(remote, nullptr);
}
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llarp::routing::IMessage*
BuildRequestMessage()
{
llarp::routing::DHTMessage* msg = new llarp::routing::DHTMessage();
msg->M.emplace_back(new llarp::dht::FindIntroMessage(txid, remote, 5));
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llarp::LogInfo("build request for ", remote);
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return msg;
}
};
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bool
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Endpoint::DoNetworkIsolation(bool failed)
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{
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if(failed)
return IsolationFailed();
llarp_ev_loop_alloc(&m_IsolatedNetLoop);
return SetupNetworking();
}
void
Endpoint::RunIsolatedMainLoop(void* user)
{
Endpoint* self = static_cast< Endpoint* >(user);
llarp_ev_loop_run_single_process(self->m_IsolatedNetLoop,
self->m_IsolatedWorker,
self->m_IsolatedLogic);
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}
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void
Endpoint::PutNewOutboundContext(const llarp::service::IntroSet& introset)
{
Address addr;
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introset.A.CalculateAddress(addr.data());
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// only add new session if it's not there
if(m_RemoteSessions.find(addr) == m_RemoteSessions.end())
{
OutboundContext* ctx = new OutboundContext(introset, this);
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m_RemoteSessions.insert(
std::make_pair(addr, std::unique_ptr< OutboundContext >(ctx)));
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llarp::LogInfo("Created New outbound context for ", addr.ToString());
}
// inform pending
auto itr = m_PendingServiceLookups.find(addr);
if(itr != m_PendingServiceLookups.end())
{
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auto f = itr->second;
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m_PendingServiceLookups.erase(itr);
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f(itr->first, m_RemoteSessions.at(addr).get());
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}
}
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bool
Endpoint::HandleGotRouterMessage(const llarp::dht::GotRouterMessage* msg)
{
bool success = false;
if(msg->R.size() == 1)
{
auto itr = m_PendingRouters.find(msg->R[0].pubkey);
if(itr == m_PendingRouters.end())
return false;
llarp_async_verify_rc* job = new llarp_async_verify_rc;
job->nodedb = m_Router->nodedb;
job->cryptoworker = m_Router->tp;
job->diskworker = m_Router->disk;
job->logic = nullptr;
job->hook = nullptr;
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job->rc = msg->R[0];
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llarp_nodedb_async_verify(job);
return true;
}
return success;
}
void
Endpoint::EnsureRouterIsKnown(const RouterID& router)
{
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if(router.IsZero())
return;
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RouterContact rc;
if(!llarp_nodedb_get_rc(m_Router->nodedb, router, rc))
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{
if(m_PendingRouters.find(router) == m_PendingRouters.end())
{
auto path = GetEstablishedPathClosestTo(router);
routing::DHTMessage msg;
auto txid = GenTXID();
msg.M.emplace_back(
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new dht::FindRouterMessage({}, dht::Key_t(router), txid));
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if(path && path->SendRoutingMessage(&msg, m_Router))
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{
llarp::LogInfo(Name(), " looking up ", router);
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m_PendingRouters.insert(
std::make_pair(router, RouterLookupJob(this)));
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}
else
{
llarp::LogError("failed to send request for router lookup");
}
}
}
}
void
Endpoint::HandlePathBuilt(path::Path* p)
{
p->SetDataHandler(std::bind(&Endpoint::HandleHiddenServiceFrame, this,
std::placeholders::_1,
std::placeholders::_2));
p->SetDropHandler(std::bind(&Endpoint::HandleDataDrop, this,
std::placeholders::_1, std::placeholders::_2,
std::placeholders::_3));
p->SetDeadChecker(std::bind(&Endpoint::CheckPathIsDead, this,
std::placeholders::_1,
std::placeholders::_2));
RegenAndPublishIntroSet(llarp_time_now_ms());
}
bool
Endpoint::HandleDataDrop(path::Path* p, const PathID_t& dst, uint64_t seq)
{
llarp::LogWarn(Name(), " message ", seq, " dropped by endpoint ",
p->Endpoint(), " via ", dst);
return true;
}
bool
Endpoint::OutboundContext::HandleDataDrop(path::Path* p,
const PathID_t& dst, uint64_t seq)
{
llarp::LogWarn(Name(), " message ", seq, " dropped by endpoint ",
p->Endpoint(), " via ", dst);
// pick another intro
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if(dst == remoteIntro.pathID && remoteIntro.router == p->Endpoint())
{
MarkCurrentIntroBad();
ShiftIntroduction();
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UpdateIntroSet();
}
return true;
}
bool
Endpoint::HandleDataMessage(const PathID_t& src, ProtocolMessage* msg)
{
msg->sender.UpdateAddr();
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PutIntroFor(msg->tag, msg->introReply);
EnsureReplyPath(msg->sender);
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return ProcessDataMessage(msg);
}
bool
Endpoint::HandleHiddenServiceFrame(path::Path* p,
const ProtocolFrame* frame)
{
return frame->AsyncDecryptAndVerify(EndpointLogic(), Crypto(), p->RXID(),
Worker(), m_Identity, m_DataHandler);
}
Endpoint::SendContext::SendContext(const ServiceInfo& ident,
const Introduction& intro, PathSet* send,
Endpoint* ep)
: remoteIdent(ident)
, remoteIntro(intro)
, m_PathSet(send)
, m_DataHandler(ep)
, m_Endpoint(ep)
{
}
void
Endpoint::OutboundContext::HandlePathBuilt(path::Path* p)
{
p->SetDataHandler(
std::bind(&Endpoint::OutboundContext::HandleHiddenServiceFrame, this,
std::placeholders::_1, std::placeholders::_2));
p->SetDropHandler(std::bind(
&Endpoint::OutboundContext::HandleDataDrop, this,
std::placeholders::_1, std::placeholders::_2, std::placeholders::_3));
p->SetDeadChecker(std::bind(&Endpoint::CheckPathIsDead, m_Endpoint,
std::placeholders::_1,
std::placeholders::_2));
}
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void
Endpoint::HandlePathDead(void* user)
{
Endpoint* self = static_cast< Endpoint* >(user);
self->RegenAndPublishIntroSet(llarp_time_now_ms());
}
bool
Endpoint::CheckPathIsDead(path::Path*, llarp_time_t latency)
{
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if(latency >= m_MinPathLatency)
{
// rebuild path next tick
llarp_logic_queue_job(EndpointLogic(), {this, &HandlePathDead});
return true;
}
return false;
}
bool
Endpoint::OutboundContext::HandleHiddenServiceFrame(
path::Path* p, const ProtocolFrame* frame)
{
return m_Endpoint->HandleHiddenServiceFrame(p, frame);
}
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bool
Endpoint::OnOutboundLookup(const Address& addr, const IntroSet* introset)
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{
if(!introset)
{
auto itr = m_PendingServiceLookups.find(addr);
if(itr != m_PendingServiceLookups.end())
{
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m_PendingServiceLookups.erase(itr);
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itr->second(addr, nullptr);
}
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return false;
}
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PutNewOutboundContext(*introset);
return true;
}
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bool
Endpoint::EnsurePathToService(const Address& remote, PathEnsureHook hook,
llarp_time_t timeoutMS)
{
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auto path = GetEstablishedPathClosestTo(remote.ToRouter());
if(!path)
{
llarp::LogWarn("No outbound path for lookup yet");
return false;
}
llarp::LogInfo(Name(), " Ensure Path to ", remote.ToString());
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{
auto itr = m_RemoteSessions.find(remote);
if(itr != m_RemoteSessions.end())
{
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hook(itr->first, itr->second.get());
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return true;
}
}
auto itr = m_PendingServiceLookups.find(remote);
if(itr != m_PendingServiceLookups.end())
{
// duplicate
llarp::LogWarn("duplicate pending service lookup to ",
remote.ToString());
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return false;
}
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m_PendingServiceLookups.insert(std::make_pair(remote, hook));
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HiddenServiceAddressLookup* job = new HiddenServiceAddressLookup(
this,
std::bind(&Endpoint::OnOutboundLookup, this, std::placeholders::_1,
std::placeholders::_2),
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remote, GenTXID());
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if(job->SendRequestViaPath(path, Router()))
return true;
llarp::LogError("send via path failed");
return false;
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}
Endpoint::OutboundContext::OutboundContext(const IntroSet& intro,
Endpoint* parent)
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: path::Builder(parent->m_Router, parent->m_Router->dht, 2, 4)
, SendContext(intro.A, {}, this, parent)
, currentIntroSet(intro)
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{
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updatingIntroSet = false;
ShiftIntroduction();
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}
Endpoint::OutboundContext::~OutboundContext()
{
}
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bool
Endpoint::OutboundContext::OnIntroSetUpdate(const Address& addr,
const IntroSet* i)
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{
if(i)
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{
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currentIntroSet = *i;
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ShiftIntroduction();
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}
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updatingIntroSet = false;
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return true;
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}
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bool
Endpoint::SendToOrQueue(const Address& remote, llarp_buffer_t data,
ProtocolType t)
{
{
auto itr = m_AddressToService.find(remote);
if(itr != m_AddressToService.end())
{
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auto now = llarp_time_now_ms();
routing::PathTransferMessage transfer;
ProtocolFrame& f = transfer.T;
path::Path* p = nullptr;
std::set< ConvoTag > tags;
if(!GetConvoTagsForService(itr->second, tags))
{
llarp::LogError("no convo tag");
return false;
}
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Introduction remoteIntro;
const byte_t* K = nullptr;
for(const auto& tag : tags)
{
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if(p == nullptr && GetIntroFor(tag, remoteIntro))
{
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if(!remoteIntro.ExpiresSoon(now))
p = GetPathByRouter(remoteIntro.router);
if(p)
{
f.T = tag;
if(!GetCachedSessionKeyFor(tag, K))
{
llarp::LogError("no cached session key");
return false;
}
}
}
}
if(p)
{
// TODO: check expiration of our end
ProtocolMessage m(f.T);
m.proto = t;
m.introReply = p->intro;
m.sender = m_Identity.pub;
m.PutBuffer(data);
f.N.Randomize();
f.S = GetSeqNoForConvo(f.T);
f.C.Zero();
transfer.Y.Randomize();
transfer.P = remoteIntro.pathID;
if(!f.EncryptAndSign(&Router()->crypto, m, K, m_Identity))
{
llarp::LogError("failed to encrypt and sign");
return false;
}
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llarp::LogDebug(Name(), " send ", data.sz, " via ", remoteIntro);
return p->SendRoutingMessage(&transfer, Router());
}
}
}
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if(HasPathToService(remote))
{
llarp::LogDebug(Name(), " has session to ", remote, " sending ",
data.sz, " bytes");
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m_RemoteSessions[remote]->AsyncEncryptAndSendTo(data, t);
return true;
}
auto itr = m_PendingTraffic.find(remote);
if(itr == m_PendingTraffic.end())
{
m_PendingTraffic.insert(std::make_pair(remote, PendingBufferQueue()));
EnsurePathToService(
remote,
[&](Address addr, OutboundContext* ctx) {
if(ctx)
{
auto itr = m_PendingTraffic.find(addr);
if(itr != m_PendingTraffic.end())
{
while(itr->second.size())
{
auto& front = itr->second.front();
ctx->AsyncEncryptAndSendTo(front.Buffer(), front.protocol);
itr->second.pop();
}
}
}
else
{
llarp::LogWarn("failed to obtain outbound context to ", addr,
" within timeout");
}
m_PendingTraffic.erase(addr);
},
10000);
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}
m_PendingTraffic[remote].emplace(data, t);
return true;
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} // namespace service
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void
Endpoint::OutboundContext::MarkCurrentIntroBad()
{
m_BadIntros.insert(remoteIntro);
}
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void
Endpoint::OutboundContext::ShiftIntroduction()
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{
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auto now = llarp_time_now_ms();
if(now - lastShift < MIN_SHIFT_INTERVAL)
return;
bool shifted = false;
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for(const auto& intro : currentIntroSet.I)
{
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m_Endpoint->EnsureRouterIsKnown(intro.router);
if(intro.ExpiresSoon(now))
continue;
if(m_BadIntros.count(intro) == 0 && remoteIntro != intro)
{
shifted = intro.router != remoteIntro.router;
remoteIntro = intro;
break;
}
}
if(shifted)
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{
lastShift = now;
ManualRebuild(1);
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}
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}
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void
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Endpoint::SendContext::AsyncEncryptAndSendTo(llarp_buffer_t data,
ProtocolType protocol)
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{
if(sequenceNo)
{
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EncryptAndSendTo(data, protocol);
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}
else
{
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AsyncGenIntro(data, protocol);
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}
}
struct AsyncKeyExchange
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{
llarp_logic* logic;
llarp_crypto* crypto;
SharedSecret sharedKey;
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ServiceInfo remote;
const Identity& m_LocalIdentity;
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ProtocolMessage msg;
ProtocolFrame frame;
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Introduction intro;
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const PQPubKey introPubKey;
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Introduction remoteIntro;
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std::function< void(ProtocolFrame&) > hook;
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IDataHandler* handler;
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AsyncKeyExchange(llarp_logic* l, llarp_crypto* c, const ServiceInfo& r,
const Identity& localident,
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const PQPubKey& introsetPubKey,
const Introduction& remote, IDataHandler* h)
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: logic(l)
, crypto(c)
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, remote(r)
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, m_LocalIdentity(localident)
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, introPubKey(introsetPubKey)
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, remoteIntro(remote)
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, handler(h)
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{
}
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static void
Result(void* user)
{
AsyncKeyExchange* self = static_cast< AsyncKeyExchange* >(user);
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// put values
self->handler->PutCachedSessionKeyFor(self->msg.tag, self->sharedKey);
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self->handler->PutIntroFor(self->msg.tag, self->remoteIntro);
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self->handler->PutSenderFor(self->msg.tag, self->remote);
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self->hook(self->frame);
delete self;
}
/// given protocol message make protocol frame
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static void
Encrypt(void* user)
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{
AsyncKeyExchange* self = static_cast< AsyncKeyExchange* >(user);
// derive ntru session key component
SharedSecret K;
self->crypto->pqe_encrypt(self->frame.C, K, self->introPubKey);
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// randomize Nounce
self->frame.N.Randomize();
// compure post handshake session key
byte_t tmp[64];
// K
memcpy(tmp, K, 32);
// PKE (A, B, N)
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if(!self->m_LocalIdentity.KeyExchange(self->crypto->dh_client, tmp + 32,
self->remote, self->frame.N))
llarp::LogError("failed to derive x25519 shared key component");
// H (K + PKE(A, B, N))
self->crypto->shorthash(self->sharedKey,
llarp::StackBuffer< decltype(tmp) >(tmp));
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// randomize tag
self->msg.tag.Randomize();
// set sender
self->msg.sender = self->m_LocalIdentity.pub;
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// set version
self->msg.version = LLARP_PROTO_VERSION;
// set protocol
self->msg.proto = eProtocolTraffic;
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// encrypt and sign
if(self->frame.EncryptAndSign(self->crypto, self->msg, K,
self->m_LocalIdentity))
llarp_logic_queue_job(self->logic, {self, &Result});
else
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{
llarp::LogError("failed to encrypt and sign");
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delete self;
}
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}
};
void
Endpoint::EnsureReplyPath(const ServiceInfo& ident)
{
auto itr = m_AddressToService.find(ident.Addr());
if(itr == m_AddressToService.end())
m_AddressToService.insert(std::make_pair(ident.Addr(), ident));
}
void
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Endpoint::OutboundContext::AsyncGenIntro(llarp_buffer_t payload,
2018-08-14 21:17:18 +00:00
ProtocolType t)
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{
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auto path = m_PathSet->GetPathByRouter(remoteIntro.router);
if(path == nullptr)
return;
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AsyncKeyExchange* ex =
new AsyncKeyExchange(m_Endpoint->RouterLogic(), m_Endpoint->Crypto(),
remoteIdent, m_Endpoint->GetIdentity(),
currentIntroSet.K, remoteIntro, m_DataHandler);
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ex->hook = std::bind(&Endpoint::OutboundContext::Send, this,
std::placeholders::_1);
ex->msg.PutBuffer(payload);
ex->msg.introReply = path->intro;
llarp_threadpool_queue_job(m_Endpoint->Worker(),
{ex, &AsyncKeyExchange::Encrypt});
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}
void
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Endpoint::SendContext::Send(ProtocolFrame& msg)
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{
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auto path = m_PathSet->GetPathByRouter(remoteIntro.router);
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if(path)
{
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auto now = llarp_time_now_ms();
if(remoteIntro.ExpiresSoon(now))
{
MarkCurrentIntroBad();
ShiftIntroduction();
}
routing::PathTransferMessage transfer(msg, remoteIntro.pathID);
if(!path->SendRoutingMessage(&transfer, m_Endpoint->Router()))
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llarp::LogError("Failed to send frame on path");
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}
else
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llarp::LogError("cannot send becuase we have no path to ",
remoteIntro.router);
}
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std::string
Endpoint::OutboundContext::Name() const
{
return "OBContext:" + m_Endpoint->Name() + "-"
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+ currentIntroSet.A.Addr().ToString();
}
void
Endpoint::OutboundContext::UpdateIntroSet()
{
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if(updatingIntroSet)
return;
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auto addr = currentIntroSet.A.Addr();
auto path = m_Endpoint->GetEstablishedPathClosestTo(addr.data());
if(path)
{
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HiddenServiceAddressLookup* job = new HiddenServiceAddressLookup(
m_Endpoint,
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std::bind(&Endpoint::OutboundContext::OnIntroSetUpdate, this,
std::placeholders::_1, std::placeholders::_2),
addr, m_Endpoint->GenTXID());
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updatingIntroSet = job->SendRequestViaPath(path, m_Endpoint->Router());
}
else
{
llarp::LogWarn(
"Cannot update introset no path for outbound session to ",
currentIntroSet.A.Addr().ToString());
}
}
bool
Endpoint::OutboundContext::Tick(llarp_time_t now)
{
if(remoteIntro.ExpiresSoon(now))
{
MarkCurrentIntroBad();
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ShiftIntroduction();
}
m_Endpoint->EnsureRouterIsKnown(remoteIntro.router);
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auto itr = m_BadIntros.begin();
while(itr != m_BadIntros.end())
{
if(itr->IsExpired(now))
itr = m_BadIntros.erase(itr);
else
++itr;
}
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// TODO: check for expiration of outbound context
return false;
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}
bool
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Endpoint::OutboundContext::SelectHop(llarp_nodedb* db,
const RouterContact& prev,
RouterContact& cur, size_t hop)
{
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if(remoteIntro.router.IsZero())
return false;
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if(hop == numHops - 1)
{
if(llarp_nodedb_get_rc(db, remoteIntro.router, cur))
{
return true;
}
else
{
// we don't have it?
llarp::LogError(
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"cannot build aligned path, don't have router for "
"introduction ",
remoteIntro);
m_Endpoint->EnsureRouterIsKnown(remoteIntro.router);
return false;
}
}
return path::Builder::SelectHop(db, prev, cur, hop);
}
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uint64_t
Endpoint::GetSeqNoForConvo(const ConvoTag& tag)
{
auto itr = m_Sessions.find(tag);
if(itr == m_Sessions.end())
return 0;
return ++(itr->second.seqno);
}
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/// send on an established convo tag
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void
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Endpoint::SendContext::EncryptAndSendTo(llarp_buffer_t payload,
ProtocolType t)
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{
std::set< ConvoTag > tags;
if(!m_DataHandler->GetConvoTagsForService(remoteIdent, tags))
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{
llarp::LogError("no open converstations with remote endpoint?");
return;
}
auto crypto = m_Endpoint->Router()->crypto;
const byte_t* shared = nullptr;
routing::PathTransferMessage msg;
ProtocolFrame& f = msg.T;
f.N.Randomize();
f.T = *tags.begin();
f.S = m_Endpoint->GetSeqNoForConvo(f.T);
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auto now = llarp_time_now_ms();
if(remoteIntro.ExpiresSoon(now))
{
// shift intro
MarkCurrentIntroBad();
ShiftIntroduction();
}
auto path = m_PathSet->GetNewestPathByRouter(remoteIntro.router);
if(!path)
{
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llarp::LogError("cannot encrypt and send: no path for intro ",
remoteIntro);
return;
}
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if(m_DataHandler->GetCachedSessionKeyFor(f.T, shared))
{
ProtocolMessage m;
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m.proto = t;
m_DataHandler->PutIntroFor(f.T, remoteIntro);
m.introReply = path->intro;
m.sender = m_Endpoint->m_Identity.pub;
m.PutBuffer(payload);
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if(!f.EncryptAndSign(&crypto, m, shared, m_Endpoint->m_Identity))
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{
llarp::LogError("failed to sign");
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return;
}
}
else
{
llarp::LogError("No cached session key");
return;
}
msg.P = remoteIntro.pathID;
msg.Y.Randomize();
if(!path->SendRoutingMessage(&msg, m_Endpoint->Router()))
{
llarp::LogWarn("Failed to send routing message for data");
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}
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}
llarp_logic*
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Endpoint::RouterLogic()
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{
return m_Router->logic;
}
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llarp_logic*
Endpoint::EndpointLogic()
{
return m_IsolatedLogic ? m_IsolatedLogic : m_Router->logic;
}
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llarp_crypto*
Endpoint::Crypto()
{
return &m_Router->crypto;
}
llarp_threadpool*
Endpoint::Worker()
{
return m_Router->tp;
}
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} // namespace service
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} // namespace llarp