hebinlong
/
aria2


			
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							#include "MSEHandshake.h"

#include <cstring>

#include <cppunit/extensions/HelperMacros.h>

#include "Exception.h"
#include "util.h"
#include "prefs.h"
#include "SocketCore.h"
#include "Option.h"
#include "DownloadContext.h"
#include "FileEntry.h"
#include "array_fun.h"
#include "bittorrent_helper.h"

namespace aria2 {

class MSEHandshakeTest:public CppUnit::TestFixture {

  CPPUNIT_TEST_SUITE(MSEHandshakeTest);
  CPPUNIT_TEST(testHandshake);
  CPPUNIT_TEST_SUITE_END();
private:
  std::shared_ptr<DownloadContext> dctx_;

  void doHandshake(const std::shared_ptr<MSEHandshake>& initiator,
                   const std::shared_ptr<MSEHandshake>& receiver);

public:
  void setUp()
  {
    dctx_.reset(new DownloadContext());
    unsigned char infoHash[20];
    memset(infoHash, 0, sizeof(infoHash));
    {
      auto torrentAttrs = make_unique<TorrentAttribute>();
      torrentAttrs->infoHash.assign(std::begin(infoHash), std::end(infoHash));
      dctx_->setAttribute(CTX_ATTR_BT, std::move(torrentAttrs));
    }
  }

  void testHandshake();
};


CPPUNIT_TEST_SUITE_REGISTRATION(MSEHandshakeTest);

namespace {
std::pair<std::shared_ptr<SocketCore>, std::shared_ptr<SocketCore> >
createSocketPair()
{
  std::shared_ptr<SocketCore> initiatorSock(new SocketCore());

  SocketCore receiverServerSock;
  receiverServerSock.bind(0);
  receiverServerSock.beginListen();
  receiverServerSock.setBlockingMode();

  std::pair<std::string, uint16_t> receiverAddrInfo;
  receiverServerSock.getAddrInfo(receiverAddrInfo);
  initiatorSock->establishConnection("localhost", receiverAddrInfo.second);
  initiatorSock->setBlockingMode();

  std::shared_ptr<SocketCore> receiverSock(receiverServerSock.acceptConnection());
  receiverSock->setBlockingMode();

  return std::pair<std::shared_ptr<SocketCore>,
    std::shared_ptr<SocketCore> >(initiatorSock, receiverSock);
}
} // namespace

void MSEHandshakeTest::doHandshake(const std::shared_ptr<MSEHandshake>& initiator, const std::shared_ptr<MSEHandshake>& receiver)
{
  initiator->sendPublicKey();
  while(initiator->getWantWrite()) {
    initiator->send();
  }
  while(!receiver->receivePublicKey()) {
    receiver->read();
  }
  receiver->sendPublicKey();
  while(receiver->getWantWrite()) {
    receiver->send();
  }

  while(!initiator->receivePublicKey()) {
    initiator->read();
  }
  initiator->initCipher(bittorrent::getInfoHash(dctx_));
  initiator->sendInitiatorStep2();
  while(initiator->getWantWrite()) {
    initiator->send();
  }

  while(!receiver->findReceiverHashMarker()) {
    receiver->read();
  }
  std::vector<std::shared_ptr<DownloadContext> > contexts;
  contexts.push_back(dctx_);
  while(!receiver->receiveReceiverHashAndPadCLength(contexts)) {
    receiver->read();
  }
  while(!receiver->receivePad()) {
    receiver->read();
  }
  while(!receiver->receiveReceiverIALength()) {
    receiver->read();
  }
  while(!receiver->receiveReceiverIA()) {
    receiver->read();
  }
  receiver->sendReceiverStep2();
  while(receiver->getWantWrite()) {
    receiver->send();
  }

  while(!initiator->findInitiatorVCMarker()) {
    initiator->read();
  }
  while(!initiator->receiveInitiatorCryptoSelectAndPadDLength()) {
    initiator->read();
  }
  while(!initiator->receivePad()) {
    initiator->read();
  }
}

namespace {
std::shared_ptr<MSEHandshake>
createMSEHandshake(std::shared_ptr<SocketCore> socket, bool initiator,
                   const Option* option)
{
  std::shared_ptr<MSEHandshake> h(new MSEHandshake(1, socket, option));
  h->initEncryptionFacility(initiator);
  return h;
}
} // namespace

void MSEHandshakeTest::testHandshake()
{
  {
    Option op;
    op.put(PREF_BT_MIN_CRYPTO_LEVEL, V_PLAIN);

    std::pair<std::shared_ptr<SocketCore>, std::shared_ptr<SocketCore> > sockPair =
      createSocketPair();
    std::shared_ptr<MSEHandshake> initiator = createMSEHandshake(sockPair.first, true, &op);
    std::shared_ptr<MSEHandshake> receiver = createMSEHandshake(sockPair.second, false, &op);

    doHandshake(initiator, receiver);

    CPPUNIT_ASSERT_EQUAL(MSEHandshake::CRYPTO_PLAIN_TEXT, initiator->getNegotiatedCryptoType());
    CPPUNIT_ASSERT_EQUAL(MSEHandshake::CRYPTO_PLAIN_TEXT, receiver->getNegotiatedCryptoType());
  }
  {
    Option op;
    op.put(PREF_BT_MIN_CRYPTO_LEVEL, V_ARC4);

    std::pair<std::shared_ptr<SocketCore>, std::shared_ptr<SocketCore> > sockPair =
      createSocketPair();
    std::shared_ptr<MSEHandshake> initiator = createMSEHandshake(sockPair.first, true, &op);
    std::shared_ptr<MSEHandshake> receiver = createMSEHandshake(sockPair.second, false, &op);

    doHandshake(initiator, receiver);

    CPPUNIT_ASSERT_EQUAL(MSEHandshake::CRYPTO_ARC4, initiator->getNegotiatedCryptoType());
    CPPUNIT_ASSERT_EQUAL(MSEHandshake::CRYPTO_ARC4, receiver->getNegotiatedCryptoType());
  }
}

} // namespace aria2