ethminer/libp2p/RLPxFrameIO.cpp

/*
 This file is part of cpp-ethereum.
 
 cpp-ethereum is free software: you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation, either version 3 of the License, or
 (at your option) any later version.
 
 cpp-ethereum is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.
 
 You should have received a copy of the GNU General Public License
 along with cpp-ethereum.  If not, see <http://www.gnu.org/licenses/>.
 */
/** @file RLPXFrameIO.cpp
 * @author Alex Leverington <nessence@gmail.com>
 * @date 2015
 */

#include "Host.h"
#include "Session.h"
#include "Peer.h"
#include "RLPxHandshake.h"
#include "RLPxFrameIO.h"
using namespace std;
using namespace dev;
using namespace dev::p2p;
using namespace CryptoPP;

RLPXFrameIO::RLPXFrameIO(RLPXHandshake const& _init): m_socket(_init.m_socket)
{
	// we need:
	// originated?
	// Secret == output of ecdhe agreement
	// authCipher
	// ackCipher

	bytes keyMaterialBytes(64);
	bytesRef keyMaterial(&keyMaterialBytes);

	// shared-secret = sha3(ecdhe-shared-secret || sha3(nonce || initiator-nonce))
	Secret ephemeralShared;
	_init.m_ecdhe.agree(_init.m_remoteEphemeral, ephemeralShared);
	ephemeralShared.ref().copyTo(keyMaterial.cropped(0, h256::size));
	h512 nonceMaterial;
	h256 const& leftNonce = _init.m_originated ? _init.m_remoteNonce : _init.m_nonce;
	h256 const& rightNonce = _init.m_originated ? _init.m_nonce : _init.m_remoteNonce;
	leftNonce.ref().copyTo(nonceMaterial.ref().cropped(0, h256::size));
	rightNonce.ref().copyTo(nonceMaterial.ref().cropped(h256::size, h256::size));
	auto outRef(keyMaterial.cropped(h256::size, h256::size));
	sha3(nonceMaterial.ref(), outRef); // output h(nonces)
	
	sha3(keyMaterial, outRef); // output shared-secret
	// token: sha3(outRef, bytesRef(&token)); -> m_host (to be saved to disk)
	
	// aes-secret = sha3(ecdhe-shared-secret || shared-secret)
	sha3(keyMaterial, outRef); // output aes-secret
	m_frameEncKey.resize(h256::size);
	memcpy(m_frameEncKey.data(), outRef.data(), h256::size);
	m_frameDecKey.resize(h256::size);
	memcpy(m_frameDecKey.data(), outRef.data(), h256::size);
	h128 iv;
	m_frameEnc.SetKeyWithIV(m_frameEncKey, h256::size, iv.data());
	m_frameDec.SetKeyWithIV(m_frameDecKey, h256::size, iv.data());

	// mac-secret = sha3(ecdhe-shared-secret || aes-secret)
	sha3(keyMaterial, outRef); // output mac-secret
	m_macEncKey.resize(h256::size);
	memcpy(m_macEncKey.data(), outRef.data(), h256::size);
	m_macEnc.SetKey(m_macEncKey, h256::size);

	// Initiator egress-mac: sha3(mac-secret^recipient-nonce || auth-sent-init)
	//           ingress-mac: sha3(mac-secret^initiator-nonce || auth-recvd-ack)
	// Recipient egress-mac: sha3(mac-secret^initiator-nonce || auth-sent-ack)
	//           ingress-mac: sha3(mac-secret^recipient-nonce || auth-recvd-init)
 
	(*(h256*)outRef.data() ^ _init.m_remoteNonce).ref().copyTo(keyMaterial);
	bytes const& egressCipher = _init.m_originated ? _init.m_authCipher : _init.m_ackCipher;
	keyMaterialBytes.resize(h256::size + egressCipher.size());
	keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size());
	bytesConstRef(&egressCipher).copyTo(keyMaterial.cropped(h256::size, egressCipher.size()));
	m_egressMac.Update(keyMaterial.data(), keyMaterial.size());

	// recover mac-secret by re-xoring remoteNonce
	(*(h256*)keyMaterial.data() ^ _init.m_remoteNonce ^ _init.m_nonce).ref().copyTo(keyMaterial);
	bytes const& ingressCipher = _init.m_originated ? _init.m_ackCipher : _init.m_authCipher;
	keyMaterialBytes.resize(h256::size + ingressCipher.size());
	keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size());
	bytesConstRef(&ingressCipher).copyTo(keyMaterial.cropped(h256::size, ingressCipher.size()));
	m_ingressMac.Update(keyMaterial.data(), keyMaterial.size());
}

void RLPXFrameIO::writeSingleFramePacket(bytesConstRef _packet, bytes& o_bytes)
{
	// _packet = type || rlpList()

	RLPStream header;
	uint32_t len = (uint32_t)_packet.size();
	header.appendRaw(bytes({byte((len >> 16) & 0xff), byte((len >> 8) & 0xff), byte(len & 0xff)}));
	// zeroHeader: []byte{0xC2, 0x80, 0x80}. Should be rlpList(protocolType,seqId,totalPacketSize).
	header.appendRaw(bytes({0xc2,0x80,0x80}));
	
	// TODO: SECURITY check that header is <= 16 bytes

	bytes headerWithMac(h256::size);
	bytesConstRef(&header.out()).copyTo(bytesRef(&headerWithMac));
	m_frameEnc.ProcessData(headerWithMac.data(), headerWithMac.data(), 16);
	updateEgressMACWithHeader(bytesConstRef(&headerWithMac).cropped(0, 16));
	egressDigest().ref().copyTo(bytesRef(&headerWithMac).cropped(h128::size,h128::size));

	auto padding = (16 - (_packet.size() % 16)) % 16;
	o_bytes.swap(headerWithMac);
	o_bytes.resize(32 + _packet.size() + padding + h128::size);
	bytesRef packetRef(o_bytes.data() + 32, _packet.size());
	m_frameEnc.ProcessData(packetRef.data(), _packet.data(), _packet.size());
	bytesRef paddingRef(o_bytes.data() + 32 + _packet.size(), padding);
	if (padding)
		m_frameEnc.ProcessData(paddingRef.data(), paddingRef.data(), padding);
	bytesRef packetWithPaddingRef(o_bytes.data() + 32, _packet.size() + padding);
	updateEgressMACWithFrame(packetWithPaddingRef);
	bytesRef macRef(o_bytes.data() + 32 + _packet.size() + padding, h128::size);
	egressDigest().ref().copyTo(macRef);
}

bool RLPXFrameIO::authAndDecryptHeader(bytesRef io)
{
	asserts(io.size() == h256::size);
	updateIngressMACWithHeader(io);
	bytesConstRef macRef = io.cropped(h128::size, h128::size);
	h128 expected = ingressDigest();
	if (*(h128*)macRef.data() != expected)
		return false;
	m_frameDec.ProcessData(io.data(), io.data(), h128::size);
	return true;
}

bool RLPXFrameIO::authAndDecryptFrame(bytesRef io)
{
	bytesRef cipherText(io.cropped(0, io.size() - h128::size));
	updateIngressMACWithFrame(cipherText);
	bytesConstRef frameMac(io.data() + io.size() - h128::size, h128::size);
	if (*(h128*)frameMac.data() != ingressDigest())
		return false;
	m_frameDec.ProcessData(io.data(), io.data(), io.size() - h128::size);
	return true;
}

h128 RLPXFrameIO::egressDigest()
{
	SHA3_256 h(m_egressMac);
	h128 digest;
	h.TruncatedFinal(digest.data(), h128::size);
	return move(digest);
}

h128 RLPXFrameIO::ingressDigest()
{
	SHA3_256 h(m_ingressMac);
	h128 digest;
	h.TruncatedFinal(digest.data(), h128::size);
	return move(digest);
}

void RLPXFrameIO::updateEgressMACWithHeader(bytesConstRef _headerCipher)
{
	updateMAC(m_egressMac, _headerCipher.cropped(0, 16));
}

void RLPXFrameIO::updateEgressMACWithFrame(bytesConstRef _cipher)
{
	m_egressMac.Update(_cipher.data(), _cipher.size());
	updateMAC(m_egressMac);
}

void RLPXFrameIO::updateIngressMACWithHeader(bytesConstRef _headerCipher)
{
	updateMAC(m_ingressMac, _headerCipher.cropped(0, 16));
}

void RLPXFrameIO::updateIngressMACWithFrame(bytesConstRef _cipher)
{
	m_ingressMac.Update(_cipher.data(), _cipher.size());
	updateMAC(m_ingressMac);
}

void RLPXFrameIO::updateMAC(SHA3_256& _mac, bytesConstRef _seed)
{
	if (_seed.size() && _seed.size() != h128::size)
		asserts(false);

	SHA3_256 prevDigest(_mac);
	h128 encDigest(h128::size);
	prevDigest.TruncatedFinal(encDigest.data(), h128::size);
	h128 prevDigestOut = encDigest;

	{
		Guard l(x_macEnc);
		m_macEnc.ProcessData(encDigest.data(), encDigest.data(), 16);
	}
	if (_seed.size())
		encDigest ^= *(h128*)_seed.data();
	else
		encDigest ^= *(h128*)prevDigestOut.data();

	// update mac for final digest
	_mac.Update(encDigest.data(), h128::size);
}
sharedptr wrapper class for socket 10 years ago			`/*`
			`This file is part of cpp-ethereum.`

			`cpp-ethereum is free software: you can redistribute it and/or modify`
			`it under the terms of the GNU General Public License as published by`
			`the Free Software Foundation, either version 3 of the License, or`
			`(at your option) any later version.`

			`cpp-ethereum is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`GNU General Public License for more details.`

			`You should have received a copy of the GNU General Public License`
			`along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.`
			`*/`
			`/** @file RLPXFrameIO.cpp`
			`* @author Alex Leverington <nessence@gmail.com>`
			`* @date 2015`
			`*/`

			`#include "Host.h"`
			`#include "Session.h"`
			`#include "Peer.h"`
			`#include "RLPxHandshake.h"`
			`#include "RLPxFrameIO.h"`
			`using namespace std;`
			`using namespace dev;`
			`using namespace dev::p2p;`
			`using namespace CryptoPP;`

			`RLPXFrameIO::RLPXFrameIO(RLPXHandshake const& _init): m_socket(_init.m_socket)`
			`{`
			`// we need:`
			`// originated?`
			`// Secret == output of ecdhe agreement`
			`// authCipher`
			`// ackCipher`

			`bytes keyMaterialBytes(64);`
			`bytesRef keyMaterial(&keyMaterialBytes);`

			`// shared-secret = sha3(ecdhe-shared-secret \|\| sha3(nonce \|\| initiator-nonce))`
			`Secret ephemeralShared;`
			`_init.m_ecdhe.agree(_init.m_remoteEphemeral, ephemeralShared);`
			`ephemeralShared.ref().copyTo(keyMaterial.cropped(0, h256::size));`
			`h512 nonceMaterial;`
			`h256 const& leftNonce = _init.m_originated ? _init.m_remoteNonce : _init.m_nonce;`
			`h256 const& rightNonce = _init.m_originated ? _init.m_nonce : _init.m_remoteNonce;`
			`leftNonce.ref().copyTo(nonceMaterial.ref().cropped(0, h256::size));`
			`rightNonce.ref().copyTo(nonceMaterial.ref().cropped(h256::size, h256::size));`
			`auto outRef(keyMaterial.cropped(h256::size, h256::size));`
			`sha3(nonceMaterial.ref(), outRef); // output h(nonces)`

			`sha3(keyMaterial, outRef); // output shared-secret`
			`// token: sha3(outRef, bytesRef(&token)); -> m_host (to be saved to disk)`

			`// aes-secret = sha3(ecdhe-shared-secret \|\| shared-secret)`
			`sha3(keyMaterial, outRef); // output aes-secret`
aes256, as per the spec. 10 years ago			`m_frameEncKey.resize(h256::size);`
			`memcpy(m_frameEncKey.data(), outRef.data(), h256::size);`
			`m_frameDecKey.resize(h256::size);`
			`memcpy(m_frameDecKey.data(), outRef.data(), h256::size);`
don't deallocate keys 10 years ago			`h128 iv;`
aes256, as per the spec. 10 years ago			`m_frameEnc.SetKeyWithIV(m_frameEncKey, h256::size, iv.data());`
			`m_frameDec.SetKeyWithIV(m_frameDecKey, h256::size, iv.data());`
sharedptr wrapper class for socket 10 years ago
			`// mac-secret = sha3(ecdhe-shared-secret \|\| aes-secret)`
			`sha3(keyMaterial, outRef); // output mac-secret`
aes256, as per the spec. 10 years ago			`m_macEncKey.resize(h256::size);`
			`memcpy(m_macEncKey.data(), outRef.data(), h256::size);`
			`m_macEnc.SetKey(m_macEncKey, h256::size);`
sharedptr wrapper class for socket 10 years ago
			`// Initiator egress-mac: sha3(mac-secret^recipient-nonce \|\| auth-sent-init)`
			`// ingress-mac: sha3(mac-secret^initiator-nonce \|\| auth-recvd-ack)`
			`// Recipient egress-mac: sha3(mac-secret^initiator-nonce \|\| auth-sent-ack)`
			`// ingress-mac: sha3(mac-secret^recipient-nonce \|\| auth-recvd-init)`

			`((h256)outRef.data() ^ _init.m_remoteNonce).ref().copyTo(keyMaterial);`
			`bytes const& egressCipher = _init.m_originated ? _init.m_authCipher : _init.m_ackCipher;`
			`keyMaterialBytes.resize(h256::size + egressCipher.size());`
			`keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size());`
			`bytesConstRef(&egressCipher).copyTo(keyMaterial.cropped(h256::size, egressCipher.size()));`
			`m_egressMac.Update(keyMaterial.data(), keyMaterial.size());`

			`// recover mac-secret by re-xoring remoteNonce`
			`((h256)keyMaterial.data() ^ _init.m_remoteNonce ^ _init.m_nonce).ref().copyTo(keyMaterial);`
			`bytes const& ingressCipher = _init.m_originated ? _init.m_ackCipher : _init.m_authCipher;`
			`keyMaterialBytes.resize(h256::size + ingressCipher.size());`
			`keyMaterial.retarget(keyMaterialBytes.data(), keyMaterialBytes.size());`
			`bytesConstRef(&ingressCipher).copyTo(keyMaterial.cropped(h256::size, ingressCipher.size()));`
			`m_ingressMac.Update(keyMaterial.data(), keyMaterial.size());`
			`}`

			`void RLPXFrameIO::writeSingleFramePacket(bytesConstRef _packet, bytes& o_bytes)`
			`{`
			`// _packet = type \|\| rlpList()`

			`RLPStream header;`
separate packet type. add coding. 10 years ago			`uint32_t len = (uint32_t)_packet.size();`
			`header.appendRaw(bytes({byte((len >> 16) & 0xff), byte((len >> 8) & 0xff), byte(len & 0xff)}));`
sharedptr wrapper class for socket 10 years ago			`// zeroHeader: []byte{0xC2, 0x80, 0x80}. Should be rlpList(protocolType,seqId,totalPacketSize).`
			`header.appendRaw(bytes({0xc2,0x80,0x80}));`

			`// TODO: SECURITY check that header is <= 16 bytes`
separate packet type. add coding. 10 years ago
docs. ensure non-random memory allocation headermac bytes. 10 years ago			`bytes headerWithMac(h256::size);`
			`bytesConstRef(&header.out()).copyTo(bytesRef(&headerWithMac));`
packet-type interop w/go 10 years ago			`m_frameEnc.ProcessData(headerWithMac.data(), headerWithMac.data(), 16);`
sharedptr wrapper class for socket 10 years ago			`updateEgressMACWithHeader(bytesConstRef(&headerWithMac).cropped(0, 16));`
			`egressDigest().ref().copyTo(bytesRef(&headerWithMac).cropped(h128::size,h128::size));`

			`auto padding = (16 - (_packet.size() % 16)) % 16;`
			`o_bytes.swap(headerWithMac);`
			`o_bytes.resize(32 + _packet.size() + padding + h128::size);`
			`bytesRef packetRef(o_bytes.data() + 32, _packet.size());`
			`m_frameEnc.ProcessData(packetRef.data(), _packet.data(), _packet.size());`
			`bytesRef paddingRef(o_bytes.data() + 32 + _packet.size(), padding);`
			`if (padding)`
			`m_frameEnc.ProcessData(paddingRef.data(), paddingRef.data(), padding);`
			`bytesRef packetWithPaddingRef(o_bytes.data() + 32, _packet.size() + padding);`
docs. better method name. remove unused code. 10 years ago			`updateEgressMACWithFrame(packetWithPaddingRef);`
sharedptr wrapper class for socket 10 years ago			`bytesRef macRef(o_bytes.data() + 32 + _packet.size() + padding, h128::size);`
			`egressDigest().ref().copyTo(macRef);`
			`}`

separate packet type. add coding. 10 years ago			`bool RLPXFrameIO::authAndDecryptHeader(bytesRef io)`
sharedptr wrapper class for socket 10 years ago			`{`
separate packet type. add coding. 10 years ago			`asserts(io.size() == h256::size);`
			`updateIngressMACWithHeader(io);`
			`bytesConstRef macRef = io.cropped(h128::size, h128::size);`
packet-type interop w/go 10 years ago			`h128 expected = ingressDigest();`
			`if ((h128)macRef.data() != expected)`
sharedptr wrapper class for socket 10 years ago			`return false;`
separate packet type. add coding. 10 years ago			`m_frameDec.ProcessData(io.data(), io.data(), h128::size);`
sharedptr wrapper class for socket 10 years ago			`return true;`
			`}`

			`bool RLPXFrameIO::authAndDecryptFrame(bytesRef io)`
			`{`
			`bytesRef cipherText(io.cropped(0, io.size() - h128::size));`
docs. better method name. remove unused code. 10 years ago			`updateIngressMACWithFrame(cipherText);`
sharedptr wrapper class for socket 10 years ago			`bytesConstRef frameMac(io.data() + io.size() - h128::size, h128::size);`
			`if ((h128)frameMac.data() != ingressDigest())`
			`return false;`
			`m_frameDec.ProcessData(io.data(), io.data(), io.size() - h128::size);`
			`return true;`
			`}`

			`h128 RLPXFrameIO::egressDigest()`
			`{`
			`SHA3_256 h(m_egressMac);`
			`h128 digest;`
			`h.TruncatedFinal(digest.data(), h128::size);`
			`return move(digest);`
			`}`

			`h128 RLPXFrameIO::ingressDigest()`
			`{`
			`SHA3_256 h(m_ingressMac);`
			`h128 digest;`
			`h.TruncatedFinal(digest.data(), h128::size);`
			`return move(digest);`
			`}`

			`void RLPXFrameIO::updateEgressMACWithHeader(bytesConstRef _headerCipher)`
			`{`
separate packet type. add coding. 10 years ago			`updateMAC(m_egressMac, _headerCipher.cropped(0, 16));`
sharedptr wrapper class for socket 10 years ago			`}`

docs. better method name. remove unused code. 10 years ago			`void RLPXFrameIO::updateEgressMACWithFrame(bytesConstRef _cipher)`
sharedptr wrapper class for socket 10 years ago			`{`
			`m_egressMac.Update(_cipher.data(), _cipher.size());`
			`updateMAC(m_egressMac);`
			`}`

			`void RLPXFrameIO::updateIngressMACWithHeader(bytesConstRef _headerCipher)`
			`{`
separate packet type. add coding. 10 years ago			`updateMAC(m_ingressMac, _headerCipher.cropped(0, 16));`
sharedptr wrapper class for socket 10 years ago			`}`

docs. better method name. remove unused code. 10 years ago			`void RLPXFrameIO::updateIngressMACWithFrame(bytesConstRef _cipher)`
sharedptr wrapper class for socket 10 years ago			`{`
			`m_ingressMac.Update(_cipher.data(), _cipher.size());`
			`updateMAC(m_ingressMac);`
			`}`

separate packet type. add coding. 10 years ago			`void RLPXFrameIO::updateMAC(SHA3_256& _mac, bytesConstRef _seed)`
sharedptr wrapper class for socket 10 years ago			`{`
separate packet type. add coding. 10 years ago			`if (_seed.size() && _seed.size() != h128::size)`
			`asserts(false);`

sharedptr wrapper class for socket 10 years ago			`SHA3_256 prevDigest(_mac);`
separate packet type. add coding. 10 years ago			`h128 encDigest(h128::size);`
			`prevDigest.TruncatedFinal(encDigest.data(), h128::size);`
			`h128 prevDigestOut = encDigest;`

			`{`
			`Guard l(x_macEnc);`
			`m_macEnc.ProcessData(encDigest.data(), encDigest.data(), 16);`
			`}`
			`if (_seed.size())`
			`encDigest ^= (h128)_seed.data();`
			`else`
			`encDigest ^= (h128)prevDigestOut.data();`

sharedptr wrapper class for socket 10 years ago			`// update mac for final digest`
			`_mac.Update(encDigest.data(), h128::size);`
			`}`