2022-08-26 15:44:59 +00:00
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// Copyright 2016 Google LLC. All rights reserved.
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2016-03-17 17:03:19 +00:00
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file or at
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// https://developers.google.com/open-source/licenses/bsd
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#include "packager/media/base/aes_decryptor.h"
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#include <openssl/aes.h>
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2016-08-19 22:32:27 +00:00
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#include <algorithm>
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2016-03-17 17:03:19 +00:00
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#include "packager/base/logging.h"
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namespace {
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// AES defines three key sizes: 128, 192 and 256 bits.
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bool IsKeySizeValidForAes(size_t key_size) {
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return key_size == 16 || key_size == 24 || key_size == 32;
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}
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} // namespace
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2016-05-20 21:19:33 +00:00
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namespace shaka {
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namespace media {
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2016-04-13 17:52:41 +00:00
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AesCbcDecryptor::AesCbcDecryptor(CbcPaddingScheme padding_scheme)
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: AesCbcDecryptor(padding_scheme, kDontUseConstantIv) {}
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2016-03-25 18:02:43 +00:00
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AesCbcDecryptor::AesCbcDecryptor(CbcPaddingScheme padding_scheme,
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ConstantIvFlag constant_iv_flag)
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: AesCryptor(constant_iv_flag), padding_scheme_(padding_scheme) {
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if (padding_scheme_ != kNoPadding) {
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CHECK_EQ(constant_iv_flag, kUseConstantIv)
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<< "non-constant iv (cipher block chain across calls) only makes sense "
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"if the padding_scheme is kNoPadding.";
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}
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}
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2016-04-06 00:19:16 +00:00
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AesCbcDecryptor::~AesCbcDecryptor() {}
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bool AesCbcDecryptor::InitializeWithIv(const std::vector<uint8_t>& key,
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const std::vector<uint8_t>& iv) {
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if (!IsKeySizeValidForAes(key.size())) {
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LOG(ERROR) << "Invalid AES key size: " << key.size();
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return false;
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}
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2016-04-06 00:19:16 +00:00
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CHECK_EQ(AES_set_decrypt_key(key.data(), key.size() * 8, mutable_aes_key()),
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0);
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return SetIv(iv);
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}
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2016-04-06 00:19:16 +00:00
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bool AesCbcDecryptor::CryptInternal(const uint8_t* ciphertext,
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size_t ciphertext_size,
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uint8_t* plaintext,
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size_t* plaintext_size) {
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DCHECK(plaintext_size);
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DCHECK(aes_key());
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// Plaintext size is the same as ciphertext size except for pkcs5 padding.
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// Will update later if using pkcs5 padding. For pkcs5 padding, we still
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// need at least |ciphertext_size| bytes for intermediate operation.
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if (*plaintext_size < ciphertext_size) {
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LOG(ERROR) << "Expecting output size of at least " << ciphertext_size
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<< " bytes.";
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return false;
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}
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*plaintext_size = ciphertext_size;
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if (ciphertext_size == 0) {
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if (padding_scheme_ == kPkcs5Padding) {
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LOG(ERROR) << "Expected ciphertext to be at least " << AES_BLOCK_SIZE
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<< " bytes with Pkcs5 padding.";
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return false;
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}
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return true;
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}
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DCHECK(plaintext);
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const size_t residual_block_size = ciphertext_size % AES_BLOCK_SIZE;
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const size_t cbc_size = ciphertext_size - residual_block_size;
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if (residual_block_size == 0) {
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AES_cbc_encrypt(ciphertext, plaintext, ciphertext_size, aes_key(),
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internal_iv_.data(), AES_DECRYPT);
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if (padding_scheme_ != kPkcs5Padding)
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return true;
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// Strip off PKCS5 padding bytes.
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const uint8_t num_padding_bytes = plaintext[ciphertext_size - 1];
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if (num_padding_bytes > AES_BLOCK_SIZE) {
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LOG(ERROR) << "Padding length is too large : "
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<< static_cast<int>(num_padding_bytes);
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return false;
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}
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*plaintext_size -= num_padding_bytes;
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return true;
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} else if (padding_scheme_ == kNoPadding) {
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AES_cbc_encrypt(ciphertext, plaintext, cbc_size, aes_key(),
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internal_iv_.data(), AES_DECRYPT);
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// The residual block is not encrypted.
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memcpy(plaintext + cbc_size, ciphertext + cbc_size, residual_block_size);
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return true;
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2016-03-25 18:02:43 +00:00
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} else if (padding_scheme_ != kCtsPadding) {
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LOG(ERROR) << "Expecting cipher text size to be multiple of "
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<< AES_BLOCK_SIZE << ", got " << ciphertext_size;
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return false;
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}
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2016-03-25 18:02:43 +00:00
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DCHECK_EQ(padding_scheme_, kCtsPadding);
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if (ciphertext_size < AES_BLOCK_SIZE) {
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// Don't have a full block, leave unencrypted.
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memcpy(plaintext, ciphertext, ciphertext_size);
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return true;
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}
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// AES-CBC decrypt everything up to the next-to-last full block.
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if (cbc_size > AES_BLOCK_SIZE) {
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AES_cbc_encrypt(ciphertext, plaintext, cbc_size - AES_BLOCK_SIZE, aes_key(),
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internal_iv_.data(), AES_DECRYPT);
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}
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const uint8_t* next_to_last_ciphertext_block =
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ciphertext + ciphertext_size - residual_block_size - AES_BLOCK_SIZE;
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uint8_t* next_to_last_plaintext_block =
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plaintext + ciphertext_size - residual_block_size - AES_BLOCK_SIZE;
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2016-03-17 17:03:19 +00:00
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// Determine what the last IV should be so that we can "skip ahead" in the
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// CBC decryption.
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std::vector<uint8_t> last_iv(
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ciphertext + ciphertext_size - residual_block_size,
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ciphertext + ciphertext_size);
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last_iv.resize(AES_BLOCK_SIZE, 0);
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// Decrypt the next-to-last block using the IV determined above. This decrypts
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// the residual block bits.
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AES_cbc_encrypt(next_to_last_ciphertext_block, next_to_last_plaintext_block,
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AES_BLOCK_SIZE, aes_key(), last_iv.data(), AES_DECRYPT);
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// Swap back the residual block bits and the next-to-last block.
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if (plaintext == ciphertext) {
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std::swap_ranges(next_to_last_plaintext_block,
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next_to_last_plaintext_block + residual_block_size,
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next_to_last_plaintext_block + AES_BLOCK_SIZE);
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} else {
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memcpy(next_to_last_plaintext_block + AES_BLOCK_SIZE,
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next_to_last_plaintext_block, residual_block_size);
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memcpy(next_to_last_plaintext_block,
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next_to_last_ciphertext_block + AES_BLOCK_SIZE, residual_block_size);
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}
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// Decrypt the next-to-last full block.
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AES_cbc_encrypt(next_to_last_plaintext_block, next_to_last_plaintext_block,
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AES_BLOCK_SIZE, aes_key(), internal_iv_.data(), AES_DECRYPT);
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return true;
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}
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2016-04-13 17:52:41 +00:00
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void AesCbcDecryptor::SetIvInternal() {
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internal_iv_ = iv();
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internal_iv_.resize(AES_BLOCK_SIZE, 0);
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}
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2016-03-17 17:03:19 +00:00
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} // namespace media
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2016-05-20 21:19:33 +00:00
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} // namespace shaka
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