Merge bitcoin/bitcoin#22735: [net] Don't return an optional from TransportDeserializer::GetMessage()

f3e451bebf [net] Replace GetID() with id in TransportDeserializer constructor (Troy Giorshev)
8c96008ab1 [net] Don't return an optional from TransportDeserializer::GetMessage() (Troy Giorshev)

Pull request description:

  Also, access mapRecvBytesPerMsgCmd with `at()` not `find()`. This
  throws an error if COMMAND_OTHER doesn't exist, which should never
  happen. `find()` instead just accessed the last element, which could make
  debugging more difficult.

  Resolves review comments from PR19107:

  - https://github.com/bitcoin/bitcoin/pull/19107#discussion_r478718436
  - https://github.com/bitcoin/bitcoin/pull/19107#discussion_r478714497

ACKs for top commit:
  theStack:
    Code-review ACK f3e451bebf
  ryanofsky:
    Code review ACK f3e451bebf. Changes since last review in https://github.com/bitcoin/bitcoin/pull/20364#pullrequestreview-534369904 were simplifying by dropping the third commit, rebasing, and cleaning up some style & comments in the first commit.

Tree-SHA512: 37de4b25646116e45eba50206e82ed215b0d9942d4847a172c104da4ed76ea4cee29a6fb119f3c34106a9b384263c576cb8671d452965a468f358d4a3fa3c003
pull/826/head
MarcoFalke 3 years ago
commit 9e3f7dcaa2
No known key found for this signature in database
GPG Key ID: CE2B75697E69A548

@ -626,25 +626,26 @@ bool CNode::ReceiveMsgBytes(Span<const uint8_t> msg_bytes, bool& complete)
if (m_deserializer->Complete()) {
// decompose a transport agnostic CNetMessage from the deserializer
uint32_t out_err_raw_size{0};
std::optional<CNetMessage> result{m_deserializer->GetMessage(time, out_err_raw_size)};
if (!result) {
bool reject_message{false};
CNetMessage msg = m_deserializer->GetMessage(time, reject_message);
if (reject_message) {
// Message deserialization failed. Drop the message but don't disconnect the peer.
// store the size of the corrupt message
mapRecvBytesPerMsgCmd.find(NET_MESSAGE_COMMAND_OTHER)->second += out_err_raw_size;
mapRecvBytesPerMsgCmd.at(NET_MESSAGE_COMMAND_OTHER) += msg.m_raw_message_size;
continue;
}
//store received bytes per message command
//to prevent a memory DOS, only allow valid commands
mapMsgCmdSize::iterator i = mapRecvBytesPerMsgCmd.find(result->m_command);
if (i == mapRecvBytesPerMsgCmd.end())
// Store received bytes per message command
// to prevent a memory DOS, only allow valid commands
auto i = mapRecvBytesPerMsgCmd.find(msg.m_command);
if (i == mapRecvBytesPerMsgCmd.end()) {
i = mapRecvBytesPerMsgCmd.find(NET_MESSAGE_COMMAND_OTHER);
}
assert(i != mapRecvBytesPerMsgCmd.end());
i->second += result->m_raw_message_size;
i->second += msg.m_raw_message_size;
// push the message to the process queue,
vRecvMsg.push_back(std::move(*result));
vRecvMsg.push_back(std::move(msg));
complete = true;
}
@ -718,16 +719,18 @@ const uint256& V1TransportDeserializer::GetMessageHash() const
return data_hash;
}
std::optional<CNetMessage> V1TransportDeserializer::GetMessage(const std::chrono::microseconds time, uint32_t& out_err_raw_size)
CNetMessage V1TransportDeserializer::GetMessage(const std::chrono::microseconds time, bool& reject_message)
{
// Initialize out parameter
reject_message = false;
// decompose a single CNetMessage from the TransportDeserializer
std::optional<CNetMessage> msg(std::move(vRecv));
CNetMessage msg(std::move(vRecv));
// store command string, time, and sizes
msg->m_command = hdr.GetCommand();
msg->m_time = time;
msg->m_message_size = hdr.nMessageSize;
msg->m_raw_message_size = hdr.nMessageSize + CMessageHeader::HEADER_SIZE;
msg.m_command = hdr.GetCommand();
msg.m_time = time;
msg.m_message_size = hdr.nMessageSize;
msg.m_raw_message_size = hdr.nMessageSize + CMessageHeader::HEADER_SIZE;
uint256 hash = GetMessageHash();
@ -737,17 +740,15 @@ std::optional<CNetMessage> V1TransportDeserializer::GetMessage(const std::chrono
// Check checksum and header command string
if (memcmp(hash.begin(), hdr.pchChecksum, CMessageHeader::CHECKSUM_SIZE) != 0) {
LogPrint(BCLog::NET, "Header error: Wrong checksum (%s, %u bytes), expected %s was %s, peer=%d\n",
SanitizeString(msg->m_command), msg->m_message_size,
SanitizeString(msg.m_command), msg.m_message_size,
HexStr(Span<uint8_t>(hash.begin(), hash.begin() + CMessageHeader::CHECKSUM_SIZE)),
HexStr(hdr.pchChecksum),
m_node_id);
out_err_raw_size = msg->m_raw_message_size;
msg = std::nullopt;
reject_message = true;
} else if (!hdr.IsCommandValid()) {
LogPrint(BCLog::NET, "Header error: Invalid message type (%s, %u bytes), peer=%d\n",
SanitizeString(hdr.GetCommand()), msg->m_message_size, m_node_id);
out_err_raw_size = msg->m_raw_message_size;
msg.reset();
SanitizeString(hdr.GetCommand()), msg.m_message_size, m_node_id);
reject_message = true;
}
// Always reset the network deserializer (prepare for the next message)
@ -2980,7 +2981,7 @@ CNode::CNode(NodeId idIn, ServiceFlags nLocalServicesIn, SOCKET hSocketIn, const
LogPrint(BCLog::NET, "Added connection peer=%d\n", id);
}
m_deserializer = std::make_unique<V1TransportDeserializer>(V1TransportDeserializer(Params(), GetId(), SER_NETWORK, INIT_PROTO_VERSION));
m_deserializer = std::make_unique<V1TransportDeserializer>(V1TransportDeserializer(Params(), id, SER_NETWORK, INIT_PROTO_VERSION));
m_serializer = std::make_unique<V1TransportSerializer>(V1TransportSerializer());
}

@ -308,7 +308,7 @@ public:
/** read and deserialize data, advances msg_bytes data pointer */
virtual int Read(Span<const uint8_t>& msg_bytes) = 0;
// decomposes a message from the context
virtual std::optional<CNetMessage> GetMessage(std::chrono::microseconds time, uint32_t& out_err) = 0;
virtual CNetMessage GetMessage(std::chrono::microseconds time, bool& reject_message) = 0;
virtual ~TransportDeserializer() {}
};
@ -372,7 +372,7 @@ public:
}
return ret;
}
std::optional<CNetMessage> GetMessage(std::chrono::microseconds time, uint32_t& out_err_raw_size) override;
CNetMessage GetMessage(std::chrono::microseconds time, bool& reject_message) override;
};
/** The TransportSerializer prepares messages for the network transport

@ -68,18 +68,16 @@ FUZZ_TARGET_INIT(p2p_transport_serialization, initialize_p2p_transport_serializa
}
if (deserializer.Complete()) {
const std::chrono::microseconds m_time{std::numeric_limits<int64_t>::max()};
uint32_t out_err_raw_size{0};
std::optional<CNetMessage> result{deserializer.GetMessage(m_time, out_err_raw_size)};
if (result) {
assert(result->m_command.size() <= CMessageHeader::COMMAND_SIZE);
assert(result->m_raw_message_size <= mutable_msg_bytes.size());
assert(result->m_raw_message_size == CMessageHeader::HEADER_SIZE + result->m_message_size);
assert(result->m_time == m_time);
bool reject_message{false};
CNetMessage msg = deserializer.GetMessage(m_time, reject_message);
assert(msg.m_command.size() <= CMessageHeader::COMMAND_SIZE);
assert(msg.m_raw_message_size <= mutable_msg_bytes.size());
assert(msg.m_raw_message_size == CMessageHeader::HEADER_SIZE + msg.m_message_size);
assert(msg.m_time == m_time);
std::vector<unsigned char> header;
auto msg = CNetMsgMaker{result->m_recv.GetVersion()}.Make(result->m_command, MakeUCharSpan(result->m_recv));
serializer.prepareForTransport(msg, header);
}
std::vector<unsigned char> header;
auto msg2 = CNetMsgMaker{msg.m_recv.GetVersion()}.Make(msg.m_command, MakeUCharSpan(msg.m_recv));
serializer.prepareForTransport(msg2, header);
}
}
}

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