#include "U2FMessage.hpp" #include "Packet.hpp" #include #include #include #include "Streams.hpp" #include "u2f.hpp" using namespace std; shared_ptr U2FMessage::readNonBlock() { static size_t currSeq = -1; static uint16_t messageSize; static uint32_t cid; static uint8_t cmd; static vector dataBytes; shared_ptr p{}; if (currSeq == -1u) { cid = 0; cmd = 0; messageSize = 0; dataBytes = {}; shared_ptr initPack{}; do { p = Packet::getPacket(); if (!p) return {}; initPack = dynamic_pointer_cast(p); } while (!initPack); //Spurious cont. packet - spec states ignore messageSize = ((static_cast(initPack->bcnth) << 8u) + initPack->bcntl); const uint16_t copyByteCount = min(static_cast(initPack->data.size()), messageSize); cid = initPack->cid; cmd = initPack->cmd; copy(initPack->data.begin(), initPack->data.begin() + copyByteCount, back_inserter(dataBytes)); currSeq++; } while (messageSize > dataBytes.size() && static_cast(p = Packet::getPacket())) //While there is a packet { auto contPack = dynamic_pointer_cast(p); if (!contPack) //Spurious init. packet { currSeq = -1; //Reset return {}; } if (contPack->cid != cid) //Cont. packet of different CID { cerr << "Invalid CID: was handling channel 0x" << hex << cid << " and received packet from channel 0x" << contPack->cid << dec << endl; U2FMessage::error(contPack->cid, ERR_CHANNEL_BUSY); currSeq = -1; return {}; } if (contPack->seq != currSeq) { cerr << "Invalid packet seq. value" << endl; U2FMessage::error(cid, ERR_INVALID_SEQ); currSeq = -1; return {}; } const uint16_t remainingBytes = messageSize - dataBytes.size(); const uint16_t copyBytes = min(static_cast(contPack->data.size()), remainingBytes); dataBytes.insert(dataBytes.end(), contPack->data.begin(), contPack->data.begin() + copyBytes); currSeq++; } if (messageSize != dataBytes.size()) return {}; auto message = make_shared(cid, cmd); message->data.assign(dataBytes.begin(), dataBytes.end()); currSeq = -1u; std::clog << "Read all of message" << std::endl; return message; } void U2FMessage::write() { const uint16_t bytesToWrite = this->data.size(); uint16_t bytesWritten = 0; { const uint8_t bcnth = bytesToWrite >> 8; const uint8_t bcntl = bytesToWrite - (bcnth << 8); InitPacket p{}; p.cid = cid; p.cmd = cmd; p.bcnth = bcnth; p.bcntl = bcntl; { uint16_t initialByteCount = min(static_cast(p.data.size()), static_cast(bytesToWrite - bytesWritten)); copy(data.begin(), data.begin() + initialByteCount, p.data.begin()); bytesWritten += initialByteCount; } p.writePacket(); } uint8_t seq = 0; while (bytesWritten != bytesToWrite) { ContPacket p{}; p.cid = cid; p.seq = seq; uint16_t newByteCount = min(static_cast(p.data.size()), static_cast(bytesToWrite - bytesWritten)); copy(data.begin() + bytesWritten, data.begin() + bytesWritten + newByteCount, p.data.begin()); p.writePacket(); seq++; bytesWritten += newByteCount; } //auto stream = *getHostStream(); if (cmd == U2FHID_MSG) { auto dAS = getDevAPDUStream().get(); fprintf(dAS, "\n" "\t\t\t\n" "\t\t\t\t\n" "\t\t\t\t\t\n" "\t\t\t\t\t\n" "\t\t\t\t\n" "\t\t\t\n" "\t\t\t\n" "\t\t\t\t\n" "\t\t\t\t\t\n" "\t\t\t\t\t\n" "\t\t\t\t\n" "\t\t\t\n" "\t\t

DATA	ERR
"); for (size_t i = 0; i < data.size() - 2; i++) fprintf(dAS, "%3u ", data[i]); uint16_t err = data[data.size() - 2] << 8; err \|= data.back(); fprintf(dAS, "	0x%04X

\n" "\t\t
", err); } } U2FMessage::U2FMessage(const uint32_t nCID, const uint8_t nCMD) : cid{ nCID }, cmd{ nCMD } {} void U2FMessage::error(const uint32_t tCID, const uint16_t tErr) { U2FMessage msg{}; msg.cid = tCID; msg.cmd = U2FHID_ERROR; msg.data.push_back((tErr >> 8) & 0xFF); msg.data.push_back(tErr & 0xFF); }