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| 1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. |
| 2 // Use of this source code is governed by a BSD-style license that can be |
| 3 // found in the LICENSE file. |
| 4 |
| 5 #include "crypto/encryptor.h" |
| 6 |
| 7 #include "base/logging.h" |
| 8 #include "base/sys_byteorder.h" |
| 9 |
| 10 namespace crypto { |
| 11 |
| 12 ///////////////////////////////////////////////////////////////////////////// |
| 13 // Encyptor::Counter Implementation. |
| 14 Encryptor::Counter::Counter(const base::StringPiece& counter) { |
| 15 CHECK(sizeof(counter_) == counter.length()); |
| 16 |
| 17 memcpy(&counter_, counter.data(), sizeof(counter_)); |
| 18 } |
| 19 |
| 20 Encryptor::Counter::~Counter() { |
| 21 } |
| 22 |
| 23 bool Encryptor::Counter::Increment() { |
| 24 uint64 low_num = base::NetToHost64(counter_.components64[1]); |
| 25 uint64 new_low_num = low_num + 1; |
| 26 counter_.components64[1] = base::HostToNet64(new_low_num); |
| 27 |
| 28 // If overflow occured then increment the most significant component. |
| 29 if (new_low_num < low_num) { |
| 30 counter_.components64[0] = |
| 31 base::HostToNet64(base::NetToHost64(counter_.components64[0]) + 1); |
| 32 } |
| 33 |
| 34 // TODO(hclam): Return false if counter value overflows. |
| 35 return true; |
| 36 } |
| 37 |
| 38 void Encryptor::Counter::Write(void* buf) { |
| 39 uint8* buf_ptr = reinterpret_cast<uint8*>(buf); |
| 40 memcpy(buf_ptr, &counter_, sizeof(counter_)); |
| 41 } |
| 42 |
| 43 size_t Encryptor::Counter::GetLengthInBytes() const { |
| 44 return sizeof(counter_); |
| 45 } |
| 46 |
| 47 ///////////////////////////////////////////////////////////////////////////// |
| 48 // Partial Encryptor Implementation. |
| 49 |
| 50 bool Encryptor::SetCounter(const base::StringPiece& counter) { |
| 51 if (mode_ != CTR) |
| 52 return false; |
| 53 if (counter.length() != 16u) |
| 54 return false; |
| 55 |
| 56 counter_.reset(new Counter(counter)); |
| 57 return true; |
| 58 } |
| 59 |
| 60 bool Encryptor::GenerateCounterMask(size_t plaintext_len, |
| 61 uint8* mask, |
| 62 size_t* mask_len) { |
| 63 DCHECK_EQ(CTR, mode_); |
| 64 CHECK(mask); |
| 65 CHECK(mask_len); |
| 66 |
| 67 const size_t kBlockLength = counter_->GetLengthInBytes(); |
| 68 size_t blocks = (plaintext_len + kBlockLength - 1) / kBlockLength; |
| 69 CHECK(blocks); |
| 70 |
| 71 *mask_len = blocks * kBlockLength; |
| 72 |
| 73 for (size_t i = 0; i < blocks; ++i) { |
| 74 counter_->Write(mask); |
| 75 mask += kBlockLength; |
| 76 |
| 77 bool ret = counter_->Increment(); |
| 78 if (!ret) |
| 79 return false; |
| 80 } |
| 81 return true; |
| 82 } |
| 83 |
| 84 void Encryptor::MaskMessage(const void* plaintext, |
| 85 size_t plaintext_len, |
| 86 const void* mask, |
| 87 void* ciphertext) const { |
| 88 DCHECK_EQ(CTR, mode_); |
| 89 const uint8* plaintext_ptr = reinterpret_cast<const uint8*>(plaintext); |
| 90 const uint8* mask_ptr = reinterpret_cast<const uint8*>(mask); |
| 91 uint8* ciphertext_ptr = reinterpret_cast<uint8*>(ciphertext); |
| 92 |
| 93 for (size_t i = 0; i < plaintext_len; ++i) |
| 94 ciphertext_ptr[i] = plaintext_ptr[i] ^ mask_ptr[i]; |
| 95 } |
| 96 |
| 97 } // namespace crypto |
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