CryptoAlgorithmHKDFGCrypt.cpp   [plain text]

/*
 * Copyright (C) 2017 Apple Inc. All rights reserved.
 * Copyright (C) 2017 Metrological Group B.V.
 * Copyright (C) 2017 Igalia S.L.
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#include "config.h"
#include "CryptoAlgorithmHKDF.h"

#if ENABLE(WEB_CRYPTO)

#include "CryptoAlgorithmHkdfParams.h"
#include "CryptoKeyRaw.h"
#include "GCryptUtilities.h"

namespace WebCore {

// libgcrypt doesn't provide HKDF functionality, so we have to implement it manually.
// We should switch to the libgcrypt-provided implementation once it's available.
// https://bugs.webkit.org/show_bug.cgi?id=171536

static Optional<Vector<uint8_t>> gcryptDeriveBits(const Vector<uint8_t>& key, const Vector<uint8_t>& salt, const Vector<uint8_t>& info, size_t lengthInBytes, CryptoAlgorithmIdentifier identifier)
{
    // libgcrypt doesn't provide HKDF support, so we have to implement
    // the functionality ourselves as specified in RFC5869.
    // https://www.ietf.org/rfc/rfc5869.txt

    auto macAlgorithm = hmacAlgorithm(identifier);
    if (!macAlgorithm)
        return WTF::nullopt;

    // We can immediately discard invalid output lengths, otherwise needed for the expand step.
    size_t macLength = gcry_mac_get_algo_maclen(*macAlgorithm);
    if (lengthInBytes > macLength * 255)
        return WTF::nullopt;

    PAL::GCrypt::Handle<gcry_mac_hd_t> handle;
    gcry_error_t error = gcry_mac_open(&handle, *macAlgorithm, 0, nullptr);
    if (error != GPG_ERR_NO_ERROR) {
        PAL::GCrypt::logError(error);
        return WTF::nullopt;
    }

    // Step 1 -- Extract. A pseudo-random key is generated with the specified algorithm
    // for the given salt value (used as a key) and the 'input keying material'.
    Vector<uint8_t> pseudoRandomKey(macLength);
    {
        // If the salt vector is empty, a zeroed-out key of macLength size should be used.
        if (salt.isEmpty()) {
            Vector<uint8_t> zeroedKey(macLength, 0);
            error = gcry_mac_setkey(handle, zeroedKey.data(), zeroedKey.size());
        } else
            error = gcry_mac_setkey(handle, salt.data(), salt.size());
        if (error != GPG_ERR_NO_ERROR) {
            PAL::GCrypt::logError(error);
            return WTF::nullopt;
        }

        error = gcry_mac_write(handle, key.data(), key.size());
        if (error != GPG_ERR_NO_ERROR) {
            PAL::GCrypt::logError(error);
            return WTF::nullopt;
        }

        size_t pseudoRandomKeySize = pseudoRandomKey.size();
        error = gcry_mac_read(handle, pseudoRandomKey.data(), &pseudoRandomKeySize);
        if (error != GPG_ERR_NO_ERROR) {
            PAL::GCrypt::logError(error);
            return WTF::nullopt;
        }

        // Something went wrong if libgcrypt didn't write out the proper amount of data.
        if (pseudoRandomKeySize != macLength)
            return WTF::nullopt;
    }

    // Step #2 -- Expand.
    Vector<uint8_t> output;
    {
        // Deduce the number of needed iterations to retrieve the necessary amount of data.
        size_t numIterations = (lengthInBytes + macLength) / macLength;
        // Block from the previous iteration is used in the current one, except
        // in the first iteration when it's empty.
        Vector<uint8_t> lastBlock(macLength);

        for (size_t i = 0; i < numIterations; ++i) {
            error = gcry_mac_reset(handle);
            if (error != GPG_ERR_NO_ERROR) {
                PAL::GCrypt::logError(error);
                return WTF::nullopt;
            }

            error = gcry_mac_setkey(handle, pseudoRandomKey.data(), pseudoRandomKey.size());
            if (error != GPG_ERR_NO_ERROR) {
                PAL::GCrypt::logError(error);
                return WTF::nullopt;
            }

            // T(0) = empty string (zero length) -- i.e. empty lastBlock
            // T(i) = HMAC-Hash(PRK, T(i-1) | info | hex(i)) -- | represents concatenation
            Vector<uint8_t> blockData;
            if (i)
                blockData.appendVector(lastBlock);
            blockData.appendVector(info);
            blockData.append(i + 1);

            error = gcry_mac_write(handle, blockData.data(), blockData.size());
            if (error != GPG_ERR_NO_ERROR) {
                PAL::GCrypt::logError(error);
                return WTF::nullopt;
            }

            size_t blockSize = lastBlock.size();
            error = gcry_mac_read(handle, lastBlock.data(), &blockSize);
            if (error != GPG_ERR_NO_ERROR) {
                PAL::GCrypt::logError(error);
                return WTF::nullopt;
            }

            // Something went wrong if libgcrypt didn't write out the proper amount of data.
            if (blockSize != lastBlock.size())
                return WTF::nullopt;

            // Append the current block data to the output vector.
            output.appendVector(lastBlock);
        }
    }

    // Clip output vector to the requested size.
    output.resize(lengthInBytes);
    return output;
}

ExceptionOr<Vector<uint8_t>> CryptoAlgorithmHKDF::platformDeriveBits(const CryptoAlgorithmHkdfParams& parameters, const CryptoKeyRaw& key, size_t length)
{
    auto output = gcryptDeriveBits(key.key(), parameters.saltVector(), parameters.infoVector(), length / 8, parameters.hashIdentifier);
    if (!output)
        return Exception { OperationError };
    return WTFMove(*output);
}

} // namespace WebCore

#endif // ENABLE(WEB_CRYPTO)