VeraCrypt
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path: root/src/Core/RandomNumberGenerator.cpp
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/*
 Derived from source code of TrueCrypt 7.1a, which is
 Copyright (c) 2008-2012 TrueCrypt Developers Association and which is governed
 by the TrueCrypt License 3.0.

 Modifications and additions to the original source code (contained in this file)
 and all other portions of this file are Copyright (c) 2013-2017 IDRIX
 and are governed by the Apache License 2.0 the full text of which is
 contained in the file License.txt included in VeraCrypt binary and source
 code distribution packages.
*/

#ifndef TC_WINDOWS
#include <sys/types.h>
#include <errno.h>
#include <fcntl.h>
#endif

#include "RandomNumberGenerator.h"
#include "Volume/Crc32.h"

namespace VeraCrypt
{
	void RandomNumberGenerator::AddSystemDataToPool (bool fast)
	{
		SecureBuffer buffer (PoolSize);

#ifdef TC_WINDOWS
#ifndef DEBUG
		throw NotImplemented (SRC_POS);
#endif
#else
		int urandom = open ("/dev/urandom", O_RDONLY);
		throw_sys_sub_if (urandom == -1, L"/dev/urandom");
		finally_do_arg (int, urandom, { close (finally_arg); });

		throw_sys_sub_if (read (urandom, buffer, buffer.Size()) == -1, L"/dev/urandom");
		AddToPool (buffer);

		if (!fast)
		{
			// Read all bytes available in /dev/random up to buffer size
			int random = open ("/dev/random", O_RDONLY | O_NONBLOCK);
			throw_sys_sub_if (random == -1, L"/dev/random");
			finally_do_arg (int, random, { close (finally_arg); });

			throw_sys_sub_if (read (random, buffer, buffer.Size()) == -1 && errno != EAGAIN, L"/dev/random");
			AddToPool (buffer);
		}
#endif
	}

	void RandomNumberGenerator::AddToPool (const ConstBufferPtr &data)
	{
		if (!Running)
			throw NotInitialized (SRC_POS);

		ScopeLock lock (AccessMutex);

		for (size_t i = 0; i < data.Size(); ++i)
		{
			Pool[WriteOffset++] += data[i];

			if (WriteOffset >= PoolSize)
				WriteOffset = 0;

			if (++BytesAddedSincePoolHashMix >= MaxBytesAddedBeforePoolHashMix)
				HashMixPool();
		}
	}

	void RandomNumberGenerator::GetData (const BufferPtr &buffer, bool fast, bool allowAnyLength)
	{
		if (!Running)
			throw NotInitialized (SRC_POS);

		if (!allowAnyLength && (buffer.Size() > PoolSize))
			throw ParameterIncorrect (SRC_POS);

		ScopeLock lock (AccessMutex);
		size_t bufferLen = buffer.Size(), loopLen;
		byte* pbBuffer = buffer.Get();

		// Poll system for data
		AddSystemDataToPool (fast);
		HashMixPool();

		while (bufferLen > 0)
		{
			if (bufferLen > PoolSize)
			{
				loopLen = PoolSize;
				bufferLen -= PoolSize;
			}
			else
			{
				loopLen = bufferLen;
				bufferLen = 0;
			}

			// Transfer bytes from pool to output buffer
			for (size_t i = 0; i < loopLen; ++i)
			{
				pbBuffer[i] += Pool[ReadOffset++];

				if (ReadOffset >= PoolSize)
					ReadOffset = 0;
			}

			// Invert and mix the pool
			for (size_t i = 0; i < Pool.Size(); ++i)
			{
				Pool[i] = ~Pool[i];
			}

			AddSystemDataToPool (true);
			HashMixPool();

			// XOR the current pool content into the output buffer to prevent pool state leaks
			for (size_t i = 0; i < loopLen; ++i)
			{
				pbBuffer[i] ^= Pool[ReadOffset++];

				if (ReadOffset >= PoolSize)
					ReadOffset = 0;
			}

			pbBuffer += loopLen;
		}
	}

	shared_ptr <Hash> RandomNumberGenerator::GetHash ()
	{
		ScopeLock lock (AccessMutex);
		return PoolHash;
	}

	void RandomNumberGenerator::HashMixPool ()
	{
		BytesAddedSincePoolHashMix = 0;

		for (size_t poolPos = 0; poolPos < Pool.Size(); )
		{
			// Compute the message digest of the entire pool using the selected hash function
			SecureBuffer digest (PoolHash->GetDigestSize());
			PoolHash->ProcessData (Pool);
			PoolHash->GetDigest (digest);

			// Add the message digest to the pool
			for (size_t digestPos = 0; digestPos < digest.Size() && poolPos < Pool.Size(); ++digestPos)
			{
				Pool[poolPos++] += digest[digestPos];
			}
		}
	}

	void RandomNumberGenerator::SetHash (shared_ptr <Hash> hash)
	{
		ScopeLock lock (AccessMutex);
		PoolHash = hash;
	}

	void RandomNumberGenerator::Start ()
	{
		ScopeLock lock (AccessMutex);

		if (IsRunning())
			return;

		BytesAddedSincePoolHashMix = 0;
		ReadOffset = 0;
		WriteOffset = 0;
		Running = true;
		EnrichedByUser = false;

		Pool.Allocate (PoolSize, 16);
		Test();

		if (!PoolHash)
		{
			// First hash algorithm is the default one
			PoolHash = Hash::GetAvailableAlgorithms().front();
		}

		AddSystemDataToPool (true);
	}

	void RandomNumberGenerator::Stop ()
	{
		ScopeLock lock (AccessMutex);

		if (Pool.IsAllocated())
			Pool.Free ();

		PoolHash.reset();

		EnrichedByUser = false;
		Running = false;
	}

	void RandomNumberGenerator::Test ()
	{
		shared_ptr <Hash> origPoolHash = PoolHash;
		PoolHash.reset (new Ripemd160());

		Pool.Zero();
		Buffer buffer (1);
		for (size_t i = 0; i < PoolSize * 10; ++i)
		{
			buffer[0] = (byte) i;
			AddToPool (buffer);
		}

		if (Crc32::ProcessBuffer (Pool) != 0x2de46d17)
			throw TestFailed (SRC_POS);

		buffer.Allocate (PoolSize);
		buffer.CopyFrom (PeekPool());
		AddToPool (buffer);

		if (Crc32::ProcessBuffer (Pool) != 0xcb88e019)
			throw TestFailed (SRC_POS);

		PoolHash = origPoolHash;
	}

	Mutex RandomNumberGenerator::AccessMutex;
	size_t RandomNumberGenerator::BytesAddedSincePoolHashMix;
	bool RandomNumberGenerator::EnrichedByUser;
	SecureBuffer RandomNumberGenerator::Pool;
	shared_ptr <Hash> RandomNumberGenerator::PoolHash;
	size_t RandomNumberGenerator::ReadOffset;
	bool RandomNumberGenerator::Running = false;
	size_t RandomNumberGenerator::WriteOffset;
}