lokinet/llarp/service/protocol.cpp

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#include <service/protocol.hpp>
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#include <path/path.hpp>
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#include <routing/handler.hpp>
#include <util/buffer.hpp>
#include <util/mem.hpp>
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#include <util/meta/memfn.hpp>
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#include <util/thread/logic.hpp>
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#include <service/endpoint.hpp>
#include <router/abstractrouter.hpp>
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#include <utility>
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namespace llarp
{
namespace service
{
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ProtocolMessage::ProtocolMessage()
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{
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tag.Zero();
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}
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ProtocolMessage::ProtocolMessage(const ConvoTag& t) : tag(t)
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{
}
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ProtocolMessage::~ProtocolMessage() = default;
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void
ProtocolMessage::PutBuffer(const llarp_buffer_t& buf)
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{
payload.resize(buf.sz);
memcpy(payload.data(), buf.base, buf.sz);
}
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void
ProtocolMessage::ProcessAsync(
path::Path_ptr path, PathID_t from, std::shared_ptr<ProtocolMessage> self)
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{
if (!self->handler->HandleDataMessage(path, from, self))
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LogWarn("failed to handle data message from ", path->Name());
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}
bool
ProtocolMessage::DecodeKey(const llarp_buffer_t& k, llarp_buffer_t* buf)
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{
bool read = false;
if (!BEncodeMaybeReadDictInt("a", proto, read, k, buf))
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return false;
if (k == "d")
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{
llarp_buffer_t strbuf;
if (!bencode_read_string(buf, &strbuf))
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return false;
PutBuffer(strbuf);
return true;
}
if (!BEncodeMaybeReadDictEntry("i", introReply, read, k, buf))
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return false;
if (!BEncodeMaybeReadDictInt("n", seqno, read, k, buf))
return false;
if (!BEncodeMaybeReadDictEntry("s", sender, read, k, buf))
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return false;
if (!BEncodeMaybeReadDictEntry("t", tag, read, k, buf))
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return false;
if (!BEncodeMaybeReadDictInt("v", version, read, k, buf))
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return false;
return read;
}
bool
ProtocolMessage::BEncode(llarp_buffer_t* buf) const
{
if (!bencode_start_dict(buf))
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return false;
if (!BEncodeWriteDictInt("a", proto, buf))
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return false;
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if (not payload.empty())
{
if (!bencode_write_bytestring(buf, "d", 1))
return false;
if (!bencode_write_bytestring(buf, payload.data(), payload.size()))
return false;
}
if (!BEncodeWriteDictEntry("i", introReply, buf))
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return false;
if (!BEncodeWriteDictInt("n", seqno, buf))
return false;
if (!BEncodeWriteDictEntry("s", sender, buf))
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return false;
if (!tag.IsZero())
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{
if (!BEncodeWriteDictEntry("t", tag, buf))
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return false;
}
if (!BEncodeWriteDictInt("v", version, buf))
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return false;
return bencode_end(buf);
}
std::vector<char>
ProtocolMessage::EncodeAuthInfo() const
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{
std::array<byte_t, 1024> info;
llarp_buffer_t buf{info};
if (not bencode_start_dict(&buf))
throw std::runtime_error("impossibly small buffer");
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if (not BEncodeWriteDictInt("a", proto, &buf))
throw std::runtime_error("impossibly small buffer");
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if (not BEncodeWriteDictEntry("i", introReply, &buf))
throw std::runtime_error("impossibly small buffer");
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if (not BEncodeWriteDictEntry("s", sender, &buf))
throw std::runtime_error("impossibly small buffer");
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if (not BEncodeWriteDictEntry("t", tag, &buf))
throw std::runtime_error("impossibly small buffer");
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if (not BEncodeWriteDictInt("v", version, &buf))
throw std::runtime_error("impossibly small buffer");
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if (not bencode_end(&buf))
throw std::runtime_error("impossibly small buffer");
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const std::size_t encodedSize = buf.cur - buf.base;
std::vector<char> data;
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data.resize(encodedSize);
std::copy_n(buf.base, encodedSize, data.data());
return data;
}
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ProtocolFrame::~ProtocolFrame() = default;
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bool
ProtocolFrame::BEncode(llarp_buffer_t* buf) const
{
if (!bencode_start_dict(buf))
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return false;
if (!BEncodeWriteDictMsgType(buf, "A", "H"))
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return false;
if (!C.IsZero())
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{
if (!BEncodeWriteDictEntry("C", C, buf))
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return false;
}
if (D.size() > 0)
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{
if (!BEncodeWriteDictEntry("D", D, buf))
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return false;
}
if (!BEncodeWriteDictEntry("F", F, buf))
return false;
if (!N.IsZero())
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{
if (!BEncodeWriteDictEntry("N", N, buf))
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return false;
}
if (R)
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{
if (!BEncodeWriteDictInt("R", R, buf))
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return false;
}
if (!T.IsZero())
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{
if (!BEncodeWriteDictEntry("T", T, buf))
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return false;
}
if (!BEncodeWriteDictInt("V", version, buf))
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return false;
if (!BEncodeWriteDictEntry("Z", Z, buf))
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return false;
return bencode_end(buf);
}
bool
ProtocolFrame::DecodeKey(const llarp_buffer_t& key, llarp_buffer_t* val)
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{
bool read = false;
if (key == "A")
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{
llarp_buffer_t strbuf;
if (!bencode_read_string(val, &strbuf))
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return false;
if (strbuf.sz != 1)
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return false;
return *strbuf.cur == 'H';
}
if (!BEncodeMaybeReadDictEntry("D", D, read, key, val))
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return false;
if (!BEncodeMaybeReadDictEntry("F", F, read, key, val))
return false;
if (!BEncodeMaybeReadDictEntry("C", C, read, key, val))
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return false;
if (!BEncodeMaybeReadDictEntry("N", N, read, key, val))
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return false;
if (!BEncodeMaybeReadDictInt("S", S, read, key, val))
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return false;
if (!BEncodeMaybeReadDictInt("R", R, read, key, val))
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return false;
if (!BEncodeMaybeReadDictEntry("T", T, read, key, val))
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return false;
if (!BEncodeMaybeVerifyVersion("V", version, LLARP_PROTO_VERSION, read, key, val))
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return false;
if (!BEncodeMaybeReadDictEntry("Z", Z, read, key, val))
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return false;
return read;
}
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bool
ProtocolFrame::DecryptPayloadInto(const SharedSecret& sharedkey, ProtocolMessage& msg) const
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{
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Encrypted_t tmp = D;
auto buf = tmp.Buffer();
CryptoManager::instance()->xchacha20(*buf, sharedkey, N);
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return bencode_decode_dict(msg, buf);
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}
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bool
ProtocolFrame::Sign(const Identity& localIdent)
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{
Z.Zero();
std::array<byte_t, MAX_PROTOCOL_MESSAGE_SIZE> tmp;
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llarp_buffer_t buf(tmp);
// encode
if (!BEncode(&buf))
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{
LogError("message too big to encode");
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return false;
}
// rewind
buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
// sign
return localIdent.Sign(Z, buf);
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}
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bool
ProtocolFrame::EncryptAndSign(
const ProtocolMessage& msg, const SharedSecret& sessionKey, const Identity& localIdent)
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{
std::array<byte_t, MAX_PROTOCOL_MESSAGE_SIZE> tmp;
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llarp_buffer_t buf(tmp);
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// encode message
if (!msg.BEncode(&buf))
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{
LogError("message too big to encode");
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return false;
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}
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// rewind
buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
// encrypt
CryptoManager::instance()->xchacha20(buf, sessionKey, N);
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// put encrypted buffer
D = buf;
// zero out signature
Z.Zero();
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llarp_buffer_t buf2(tmp);
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// encode frame
if (!BEncode(&buf2))
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{
LogError("frame too big to encode");
DumpBuffer(buf2);
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return false;
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}
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// rewind
buf2.sz = buf2.cur - buf2.base;
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buf2.cur = buf2.base;
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// sign
if (!localIdent.Sign(Z, buf2))
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{
LogError("failed to sign? wtf?!");
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return false;
}
return true;
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}
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struct AsyncFrameDecrypt
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{
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path::Path_ptr path;
std::shared_ptr<Logic> logic;
std::shared_ptr<ProtocolMessage> msg;
const Identity& m_LocalIdentity;
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Endpoint* handler;
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const ProtocolFrame frame;
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const Introduction fromIntro;
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AsyncFrameDecrypt(
std::shared_ptr<Logic> l,
const Identity& localIdent,
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Endpoint* h,
std::shared_ptr<ProtocolMessage> m,
const ProtocolFrame& f,
const Introduction& recvIntro)
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: logic(std::move(l))
, msg(std::move(m))
, m_LocalIdentity(localIdent)
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, handler(h)
, frame(f)
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, fromIntro(recvIntro)
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{
}
static void
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Work(std::shared_ptr<AsyncFrameDecrypt> self)
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{
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auto crypto = CryptoManager::instance();
SharedSecret K;
SharedSecret sharedKey;
// copy
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ProtocolFrame frame(self->frame);
if (!crypto->pqe_decrypt(self->frame.C, K, pq_keypair_to_secret(self->m_LocalIdentity.pq)))
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{
LogError("pqke failed C=", self->frame.C);
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self->msg.reset();
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return;
}
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// decrypt
auto buf = frame.D.Buffer();
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crypto->xchacha20(*buf, K, self->frame.N);
if (!bencode_decode_dict(*self->msg, buf))
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{
LogError("failed to decode inner protocol message");
DumpBuffer(*buf);
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self->msg.reset();
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return;
}
// verify signature of outer message after we parsed the inner message
if (!self->frame.Verify(self->msg->sender))
{
LogError(
"intro frame has invalid signature Z=",
self->frame.Z,
" from ",
self->msg->sender.Addr());
Dump<MAX_PROTOCOL_MESSAGE_SIZE>(self->frame);
Dump<MAX_PROTOCOL_MESSAGE_SIZE>(*self->msg);
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self->msg.reset();
return;
}
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if (self->handler->HasConvoTag(self->msg->tag))
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{
LogError("dropping duplicate convo tag T=", self->msg->tag);
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// TODO: send convotag reset
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self->msg.reset();
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return;
}
// PKE (A, B, N)
SharedSecret sharedSecret;
path_dh_func dh_server = util::memFn(&Crypto::dh_server, CryptoManager::instance());
if (!self->m_LocalIdentity.KeyExchange(
dh_server, sharedSecret, self->msg->sender, self->frame.N))
{
LogError("x25519 key exchange failed");
Dump<MAX_PROTOCOL_MESSAGE_SIZE>(self->frame);
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self->msg.reset();
return;
}
std::array<byte_t, 64> tmp;
// K
std::copy(K.begin(), K.end(), tmp.begin());
// S = HS( K + PKE( A, B, N))
std::copy(sharedSecret.begin(), sharedSecret.end(), tmp.begin() + 32);
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crypto->shorthash(sharedKey, llarp_buffer_t(tmp));
std::shared_ptr<ProtocolMessage> msg = std::move(self->msg);
path::Path_ptr path = std::move(self->path);
const PathID_t from = self->frame.F;
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msg->handler = self->handler;
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self->handler->AsyncProcessAuthMessage(
msg,
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[path, msg, from, handler = self->handler, fromIntro = self->fromIntro, sharedKey](
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AuthResult result) {
if (result == AuthResult::eAuthAccepted)
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{
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LogInfo("Accepted Convo T=", msg->tag);
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handler->PutIntroFor(msg->tag, msg->introReply);
handler->PutReplyIntroFor(msg->tag, fromIntro);
handler->PutSenderFor(msg->tag, msg->sender, true);
handler->PutCachedSessionKeyFor(msg->tag, sharedKey);
ProtocolMessage::ProcessAsync(path, from, msg);
}
else
{
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LogInfo("Rejected Convo T=", msg->tag);
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handler->SendAuthReject(path, from, msg->tag, result);
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}
});
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}
};
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ProtocolFrame&
ProtocolFrame::operator=(const ProtocolFrame& other)
{
C = other.C;
D = other.D;
F = other.F;
N = other.N;
Z = other.Z;
T = other.T;
R = other.R;
S = other.S;
version = other.version;
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return *this;
}
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struct AsyncDecrypt
{
ServiceInfo si;
SharedSecret shared;
ProtocolFrame frame;
};
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bool
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ProtocolFrame::AsyncDecryptAndVerify(
std::shared_ptr<Logic> logic,
path::Path_ptr recvPath,
const Identity& localIdent,
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Endpoint* handler) const
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{
auto msg = std::make_shared<ProtocolMessage>();
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msg->handler = handler;
if (T.IsZero())
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{
LogInfo("Got protocol frame with new convo");
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// we need to dh
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auto dh = std::make_shared<AsyncFrameDecrypt>(
logic, localIdent, handler, msg, *this, recvPath->intro);
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dh->path = recvPath;
handler->Router()->QueueWork(std::bind(&AsyncFrameDecrypt::Work, dh));
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return true;
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}
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auto v = std::make_shared<AsyncDecrypt>();
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if (!handler->GetCachedSessionKeyFor(T, v->shared))
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{
LogError("No cached session for T=", T);
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return true;
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}
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if (!handler->GetSenderFor(T, v->si))
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{
LogError("No sender for T=", T);
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return false;
}
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v->frame = *this;
handler->Router()->QueueWork([v, msg = std::move(msg), recvPath = std::move(recvPath)]() {
if (not v->frame.Verify(v->si))
{
LogError("Signature failure from ", v->si.Addr());
return;
}
if (not v->frame.DecryptPayloadInto(v->shared, *msg))
{
LogError("failed to decrypt message");
return;
}
RecvDataEvent ev;
ev.fromPath = std::move(recvPath);
ev.pathid = v->frame.F;
ev.msg = std::move(msg);
msg->handler->QueueRecvData(std::move(ev));
});
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return true;
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}
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bool
ProtocolFrame::operator==(const ProtocolFrame& other) const
{
return C == other.C && D == other.D && N == other.N && Z == other.Z && T == other.T
&& S == other.S && version == other.version;
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}
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bool
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ProtocolFrame::Verify(const ServiceInfo& svc) const
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{
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ProtocolFrame copy(*this);
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// save signature
// zero out signature for verify
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copy.Z.Zero();
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// serialize
std::array<byte_t, MAX_PROTOCOL_MESSAGE_SIZE> tmp;
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llarp_buffer_t buf(tmp);
if (!copy.BEncode(&buf))
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{
LogError("bencode fail");
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return false;
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}
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// rewind buffer
buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
// verify
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return svc.Verify(buf, Z);
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}
bool
ProtocolFrame::HandleMessage(routing::IMessageHandler* h, AbstractRouter* /*r*/) const
{
return h->HandleHiddenServiceFrame(*this);
}
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} // namespace service
} // namespace llarp