lokinet/llarp/dht/context.cpp
2018-08-04 12:59:32 +10:00

487 lines
15 KiB
C++

#include <llarp/dht/context.hpp>
#include <llarp/dht/messages/gotrouter.hpp>
#include <llarp/messages/dht.hpp>
#include <llarp/messages/dht_immediate.hpp>
#include <vector>
#include "router.hpp"
namespace llarp
{
namespace dht
{
Context::Context()
{
randombytes((byte_t *)&ids, sizeof(uint64_t));
}
Context::~Context()
{
if(nodes)
delete nodes;
if(services)
delete services;
}
void
Context::handle_cleaner_timer(void *u, uint64_t orig, uint64_t left)
{
if(left)
return;
Context *ctx = static_cast< Context * >(u);
ctx->CleanupTX();
if(ctx->services)
{
// expire intro sets
auto now = llarp_time_now_ms();
auto &nodes = ctx->services->nodes;
auto itr = nodes.begin();
while(itr != nodes.end())
{
if(itr->second.introset.IsExpired(now))
{
llarp::LogInfo("introset expired ", itr->second.introset.A.Addr());
itr = nodes.erase(itr);
}
else
++itr;
}
}
ctx->ScheduleCleanupTimer();
}
struct PathLookupJob
{
uint64_t txid;
PathID_t pathID;
llarp_router *m_router;
std::set< service::IntroSet > localIntroSets;
std::set< Key_t > asked;
PathLookupJob(llarp_router *r, const PathID_t &localpath, uint64_t tx)
: txid(tx), pathID(localpath), m_router(r)
{
}
void
OnResult(const std::vector< service::IntroSet > &results)
{
auto path =
m_router->paths.GetByUpstream(m_router->dht->impl.OurKey(), pathID);
if(path)
{
for(const auto &introset : results)
{
localIntroSets.insert(introset);
}
llarp::routing::DHTMessage msg;
auto sz = localIntroSets.size();
std::vector< service::IntroSet > intros(sz);
for(const auto &i : localIntroSets)
{
intros[--sz] = i;
}
llarp::LogInfo("found ", sz, " introsets for txid=", txid);
msg.M.push_back(new llarp::dht::GotIntroMessage(intros, txid));
path->SendRoutingMessage(&msg, m_router);
}
else
{
llarp::LogWarn("no local path for reply on PathTagLookupJob pathid=",
pathID);
}
delete this;
}
};
void
Context::PropagateIntroSetTo(const Key_t &from, uint64_t txid,
const service::IntroSet &introset,
const Key_t &peer, uint64_t S,
const std::set< Key_t > &exclude)
{
llarp::LogInfo("Propagate Introset for ", introset.A.Name(), " to ",
peer);
auto id = ++ids;
std::vector< Key_t > E;
for(const auto &ex : exclude)
E.push_back(ex);
TXOwner ownerKey;
ownerKey.node = peer;
ownerKey.txid = id;
SearchJob job(from, txid,
[](const std::vector< service::IntroSet > &) {});
pendingTX[ownerKey] = job;
auto msg = new llarp::DHTImmeidateMessage(peer);
msg->msgs.push_back(new PublishIntroMessage(introset, id, S, E));
router->SendToOrQueue(peer, msg);
}
void
Context::LookupTagForPath(const service::Tag &tag, uint64_t txid,
const llarp::PathID_t &path, const Key_t &askpeer)
{
auto id = ++ids;
TXOwner ownerKey;
ownerKey.node = askpeer;
ownerKey.txid = id;
PathLookupJob *j = new PathLookupJob(router, path, txid);
j->localIntroSets = FindRandomIntroSetsWithTag(tag);
SearchJob job(
OurKey(), txid,
std::bind(&PathLookupJob::OnResult, j, std::placeholders::_1));
pendingTX[ownerKey] = job;
auto msg = new llarp::DHTImmeidateMessage(askpeer);
auto dhtmsg = new FindIntroMessage(tag, id);
dhtmsg->R = 5;
msg->msgs.push_back(dhtmsg);
llarp::LogInfo("asking ", askpeer, " for tag ", tag.ToString(), " with ",
j->localIntroSets.size(), " local tags txid=", txid);
router->SendToOrQueue(askpeer, msg);
}
void
Context::LookupIntroSetForPath(const service::Address &addr, uint64_t txid,
const llarp::PathID_t &path,
const Key_t &askpeer)
{
auto id = ++ids;
TXOwner ownerKey;
ownerKey.node = askpeer;
ownerKey.txid = id;
PathLookupJob *j = new PathLookupJob(router, path, txid);
SearchJob job(
OurKey(), txid,
std::bind(&PathLookupJob::OnResult, j, std::placeholders::_1));
pendingTX[ownerKey] = job;
auto msg = new llarp::DHTImmeidateMessage(askpeer);
auto dhtmsg = new FindIntroMessage(addr, id);
msg->msgs.push_back(dhtmsg);
router->SendToOrQueue(askpeer, msg);
}
std::set< service::IntroSet >
Context::FindRandomIntroSetsWithTag(const service::Tag &tag, size_t max)
{
std::set< service::IntroSet > found;
auto &nodes = services->nodes;
if(nodes.size() == 0)
return found;
auto itr = nodes.begin();
// start at random middle point
auto start = llarp_randint() % nodes.size();
std::advance(itr, start);
auto end = itr;
std::string tagname = tag.ToString();
while(itr != nodes.end())
{
if(itr->second.introset.topic.ToString() == tagname)
{
found.insert(itr->second.introset);
if(found.size() == max)
return found;
}
++itr;
}
itr = nodes.begin();
while(itr != end)
{
if(itr->second.introset.topic.ToString() == tagname)
{
found.insert(itr->second.introset);
if(found.size() == max)
return found;
}
++itr;
}
return found;
}
void
Context::LookupRouterRelayed(const Key_t &requester, uint64_t txid,
const Key_t &target, bool recursive,
std::vector< IMessage * > &replies)
{
if(target == ourKey)
{
// we are the target, give them our RC
replies.push_back(new GotRouterMessage(requester, txid, &router->rc));
return;
}
Key_t next;
std::set< Key_t > excluding = {requester, ourKey};
if(nodes->FindCloseExcluding(target, next, excluding))
{
if(next == target)
{
// we know it
replies.push_back(
new GotRouterMessage(requester, txid, nodes->nodes[target].rc));
}
else if(recursive) // are we doing a recursive lookup?
{
if((requester ^ target) < (ourKey ^ target))
{
// we aren't closer to the target than next hop
// so we won't ask neighboor recursively, tell them we don't have it
llarp::LogInfo("we aren't closer to ", target, " than ", next,
" so we end it here");
replies.push_back(new GotRouterMessage(requester, txid, nullptr));
}
else
{
// yeah, ask neighboor recursively
// FIXME: we may need to pass a job here...
// auto sj = FindPendingTX(requester, txid);
// LookupRouter(target, requester, txid, next, sj->job);
LookupRouter(target, requester, txid, next);
}
}
else // otherwise tell them we don't have it
{
llarp::LogInfo("we don't have ", target,
" and this was an iterative request so telling ",
requester, " that we don't have it");
replies.push_back(new GotRouterMessage(requester, txid, nullptr));
}
}
else
{
// we don't know it and have no closer peers
llarp::LogInfo("we don't have ", target,
" and have no closer peers so telling ", requester,
" that we don't have it");
replies.push_back(new GotRouterMessage(requester, txid, nullptr));
}
}
const llarp::service::IntroSet *
Context::GetIntroSetByServiceAddress(
const llarp::service::Address &addr) const
{
auto itr = services->nodes.find(addr.data());
if(itr == services->nodes.end())
return nullptr;
return &itr->second.introset;
}
void
Context::RemovePendingLookup(const Key_t &owner, uint64_t id)
{
TXOwner search;
search.node = owner;
search.txid = id;
auto itr = pendingTX.find(search);
if(itr == pendingTX.end())
return;
pendingTX.erase(itr);
}
SearchJob *
Context::FindPendingTX(const Key_t &owner, uint64_t id)
{
TXOwner search;
search.node = owner;
search.txid = id;
auto itr = pendingTX.find(search);
if(itr == pendingTX.end())
return nullptr;
else
return &itr->second;
}
void
Context::CleanupTX()
{
auto now = llarp_time_now_ms();
llarp::LogDebug("DHT tick");
auto itr = pendingTX.begin();
while(itr != pendingTX.end())
{
if(itr->second.IsExpired(now))
{
itr->second.Timeout();
itr = pendingTX.erase(itr);
}
else
++itr;
}
}
void
Context::Init(const Key_t &us, llarp_router *r)
{
router = r;
ourKey = us;
nodes = new Bucket< RCNode >(ourKey);
services = new Bucket< ISNode >(ourKey);
llarp::LogDebug("intialize dht with key ", ourKey);
}
void
Context::ScheduleCleanupTimer()
{
llarp_logic_call_later(router->logic,
{1000, this, &handle_cleaner_timer});
}
bool
Context::RelayRequestForPath(const llarp::PathID_t &id, const IMessage *msg)
{
llarp::routing::DHTMessage reply;
if(!msg->HandleMessage(router->dht, reply.M))
return false;
auto path = router->paths.GetByUpstream(router->pubkey(), id);
return path && path->SendRoutingMessage(&reply, router);
}
/// handles replying with a GIM for a lookup
struct IntroSetInformJob
{
std::set< service::IntroSet > localIntroSets;
Key_t replyNode;
uint64_t txid;
llarp_router *m_Router;
IntroSetInformJob(llarp_router *r, const Key_t &replyTo, uint64_t id)
: replyNode(replyTo), txid(id), m_Router(r)
{
}
void
OnResult(const std::vector< llarp::service::IntroSet > &results)
{
for(const auto &introset : results)
{
localIntroSets.insert(introset);
}
if(replyNode != m_Router->dht->impl.OurKey())
{
std::vector< service::IntroSet > reply;
for(const auto &introset : localIntroSets)
{
reply.push_back(introset);
}
auto msg = new llarp::DHTImmeidateMessage(replyNode);
msg->msgs.push_back(new GotIntroMessage(reply, txid));
m_Router->SendToOrQueue(replyNode, msg);
}
delete this;
}
};
void
Context::LookupTag(const llarp::service::Tag &tag, const Key_t &whoasked,
uint64_t txid, const Key_t &askpeer,
const std::set< service::IntroSet > &include, uint64_t R)
{
auto id = ++ids;
if(txid == 0)
txid = id;
TXOwner ownerKey;
ownerKey.node = askpeer;
ownerKey.txid = id;
IntroSetInformJob *j = new IntroSetInformJob(router, whoasked, txid);
j->localIntroSets = include;
SearchJob job(
whoasked, txid,
std::bind(&IntroSetInformJob::OnResult, j, std::placeholders::_1));
pendingTX[ownerKey] = job;
auto msg = new llarp::DHTImmeidateMessage(askpeer);
auto dhtmsg = new FindIntroMessage(tag, id);
dhtmsg->R = R;
msg->msgs.push_back(dhtmsg);
router->SendToOrQueue(askpeer, msg);
}
void
Context::LookupIntroSet(const service::Address &addr, const Key_t &whoasked,
uint64_t txid, const Key_t &askpeer, bool iterative,
std::set< Key_t > excludes)
{
auto id = ++ids;
if(txid == 0)
txid = id;
TXOwner ownerKey;
ownerKey.node = askpeer;
ownerKey.txid = id;
IntroSetInformJob *j = new IntroSetInformJob(router, whoasked, txid);
SearchJob job(
whoasked, txid, addr, excludes,
std::bind(&IntroSetInformJob::OnResult, j, std::placeholders::_1));
pendingTX[ownerKey] = job;
auto msg = new llarp::DHTImmeidateMessage(askpeer);
auto dhtmsg = new FindIntroMessage(addr, id);
msg->msgs.push_back(dhtmsg);
router->SendToOrQueue(askpeer, msg);
}
void
Context::LookupRouter(const Key_t &target, const Key_t &whoasked,
uint64_t txid, const Key_t &askpeer,
llarp_router_lookup_job *job, bool iterative,
std::set< Key_t > excludes)
{
if(target.IsZero() || whoasked.IsZero() || askpeer.IsZero())
{
return;
}
auto id = ++ids;
TXOwner ownerKey;
ownerKey.node = askpeer;
ownerKey.txid = id;
if(txid == 0)
txid = id;
SearchJob j(whoasked, txid, target, excludes, job);
pendingTX[ownerKey] = j;
llarp::LogInfo("Asking ", askpeer, " for router ", target, " for ",
whoasked);
auto msg = new llarp::DHTImmeidateMessage(askpeer);
auto dhtmsg = new FindRouterMessage(askpeer, target, id);
dhtmsg->iterative = iterative;
msg->msgs.push_back(dhtmsg);
router->SendToOrQueue(askpeer, msg);
}
void
Context::LookupRouterViaJob(llarp_router_lookup_job *job)
{
Key_t peer;
/*
llarp::LogInfo("LookupRouterViaJob dumping nodes");
for(const auto &item : nodes->nodes)
{
llarp::LogInfo("LookupRouterViaJob dumping node: ", item.first);
}
*/
llarp::LogInfo("LookupRouterViaJob node count: ", nodes->nodes.size());
llarp::LogInfo("LookupRouterViaJob recursive: ",
job->iterative ? "yes" : "no");
if(nodes->FindClosest(job->target, peer))
LookupRouter(job->target, ourKey, 0, peer, job, job->iterative);
else if(job->hook)
{
job->found = false;
job->hook(job);
}
}
void
Context::queue_router_lookup(void *user)
{
llarp_router_lookup_job *job =
static_cast< llarp_router_lookup_job * >(user);
job->dht->impl.LookupRouterViaJob(job);
}
} // namespace dht
} // namespace llarp