1 files changed, 0 insertions, 432 deletions
diff --git a/src/modes/aead/ocb/ocb.cpp b/src/modes/aead/ocb/ocb.cpp
deleted file mode 100644
index fd66bb2e9..000000000
--- a/src/modes/aead/ocb/ocb.cpp
+++ /dev/null
@@ -1,432 +0,0 @@
-/*
-* OCB Mode
-* (C) 2013 Jack Lloyd
-*
-* Distributed under the terms of the Botan license
-*/
-
-#include <botan/ocb.h>
-#include <botan/cmac.h>
-#include <botan/internal/xor_buf.h>
-#include <botan/internal/bit_ops.h>
-#include <algorithm>
-
-namespace Botan {
-
-namespace {
-
-const size_t BS = 16; // intrinsic to OCB definition
-
-}
-
-// Has to be in Botan namespace so unique_ptr can reference it
-class L_computer
-   {
-   public:
-      L_computer(const BlockCipher& cipher)
-         {
-         m_L_star.resize(cipher.block_size());
-         cipher.encrypt(m_L_star);
-         m_L_dollar = poly_double(star());
-         m_L.push_back(poly_double(dollar()));
-         }
-
-      const secure_vector<byte>& star() const { return m_L_star; }
-
-      const secure_vector<byte>& dollar() const { return m_L_dollar; }
-
-      const secure_vector<byte>& operator()(size_t i) const { return get(i); }
-
-      const secure_vector<byte>& compute_offsets(secure_vector<byte>& offset,
-                                                 size_t block_index,
-                                                 size_t blocks) const
-         {
-         m_offset_buf.resize(blocks*BS);
-
-         for(size_t i = 0; i != blocks; ++i)
-            { // could be done in parallel
-            offset ^= get(ctz(block_index + 1 + i));
-            copy_mem(&m_offset_buf[BS*i], &offset[0], BS);
-            }
-
-         return m_offset_buf;
-         }
-
-   private:
-      const secure_vector<byte>& get(size_t i) const
-         {
-         while(m_L.size() <= i)
-            m_L.push_back(poly_double(m_L.back()));
-
-         return m_L.at(i);
-         }
-
-      secure_vector<byte> poly_double(const secure_vector<byte>& in) const
-         {
-         return CMAC::poly_double(in, 0x87);
-         }
-
-      secure_vector<byte> m_L_dollar, m_L_star;
-      mutable std::vector<secure_vector<byte>> m_L;
-      mutable secure_vector<byte> m_offset_buf;
-   };
-
-namespace {
-
-/*
-* OCB's HASH
-*/
-secure_vector<byte> ocb_hash(const L_computer& L,
-                             const BlockCipher& cipher,
-                             const byte ad[], size_t ad_len)
-   {
-   secure_vector<byte> sum(BS);
-   secure_vector<byte> offset(BS);
-
-   secure_vector<byte> buf(BS);
-
-   const size_t ad_blocks = (ad_len / BS);
-   const size_t ad_remainder = (ad_len % BS);
-
-   for(size_t i = 0; i != ad_blocks; ++i)
-      {
-      // this loop could run in parallel
-      offset ^= L(ctz(i+1));
-
-      buf = offset;
-      xor_buf(&buf[0], &ad[BS*i], BS);
-
-      cipher.encrypt(buf);
-
-      sum ^= buf;
-      }
-
-   if(ad_remainder)
-      {
-      offset ^= L.star();
-
-      buf = offset;
-      xor_buf(&buf[0], &ad[BS*ad_blocks], ad_remainder);
-      buf[ad_len % BS] ^= 0x80;
-
-      cipher.encrypt(buf);
-
-      sum ^= buf;
-      }
-
-   return sum;
-   }
-
-}
-
-OCB_Mode::OCB_Mode(BlockCipher* cipher, size_t tag_size) :
-   m_cipher(cipher),
-   m_checksum(m_cipher->parallel_bytes()),
-   m_offset(BS),
-   m_ad_hash(BS),
-   m_tag_size(tag_size)
-   {
-   if(m_cipher->block_size() != BS)
-      throw std::invalid_argument("OCB requires a 128 bit cipher so cannot be used with " +
-                                  m_cipher->name());
-
-   if(m_tag_size != 8 && m_tag_size != 12 && m_tag_size != 16)
-      throw std::invalid_argument("OCB cannot produce a " + std::to_string(m_tag_size) +
-                                  " byte tag");
-
-   }
-
-OCB_Mode::~OCB_Mode() { /* for unique_ptr destructor */ }
-
-void OCB_Mode::clear()
-   {
-   m_cipher.reset();
-   m_L.reset();
-
-   zeroise(m_ad_hash);
-   zeroise(m_offset);
-   zeroise(m_checksum);
-   }
-
-bool OCB_Mode::valid_nonce_length(size_t length) const
-   {
-   return (length > 0 && length < 16);
-   }
-
-std::string OCB_Mode::name() const
-   {
-   return m_cipher->name() + "/OCB"; // include tag size
-   }
-
-size_t OCB_Mode::update_granularity() const
-   {
-   return m_cipher->parallel_bytes();
-   }
-
-Key_Length_Specification OCB_Mode::key_spec() const
-   {
-   return m_cipher->key_spec();
-   }
-
-void OCB_Mode::key_schedule(const byte key[], size_t length)
-   {
-   m_cipher->set_key(key, length);
-   m_L.reset(new L_computer(*m_cipher));
-   }
-
-void OCB_Mode::set_associated_data(const byte ad[], size_t ad_len)
-   {
-   BOTAN_ASSERT(m_L, "A key was set");
-   m_ad_hash = ocb_hash(*m_L, *m_cipher, &ad[0], ad_len);
-   }
-
-secure_vector<byte>
-OCB_Mode::update_nonce(const byte nonce[], size_t nonce_len)
-   {
-   BOTAN_ASSERT(nonce_len < BS, "Nonce is less than 128 bits");
-
-   secure_vector<byte> nonce_buf(BS);
-
-   copy_mem(&nonce_buf[BS - nonce_len], nonce, nonce_len);
-   nonce_buf[0] = ((tag_size() * 8) % 128) << 1;
-   nonce_buf[BS - nonce_len - 1] = 1;
-
-   const byte bottom = nonce_buf[15] & 0x3F;
-   nonce_buf[15] &= 0xC0;
-
-   const bool need_new_stretch = (m_last_nonce != nonce_buf);
-
-   if(need_new_stretch)
-      {
-      m_last_nonce = nonce_buf;
-
-      m_cipher->encrypt(nonce_buf);
-
-      for(size_t i = 0; i != 8; ++i)
-         nonce_buf.push_back(nonce_buf[i] ^ nonce_buf[i+1]);
-
-      m_stretch = nonce_buf;
-      }
-
-   // now set the offset from stretch and bottom
-
-   const size_t shift_bytes = bottom / 8;
-   const size_t shift_bits  = bottom % 8;
-
-   secure_vector<byte> offset(BS);
-   for(size_t i = 0; i != BS; ++i)
-      {
-      offset[i]  = (m_stretch[i+shift_bytes] << shift_bits);
-      offset[i] |= (m_stretch[i+shift_bytes+1] >> (8-shift_bits));
-      }
-
-   return offset;
-   }
-
-secure_vector<byte> OCB_Mode::start(const byte nonce[], size_t nonce_len)
-   {
-   if(!valid_nonce_length(nonce_len))
-      throw Invalid_IV_Length(name(), nonce_len);
-
-   BOTAN_ASSERT(m_L, "A key was set");
-
-   m_offset = update_nonce(nonce, nonce_len);
-   zeroise(m_checksum);
-   m_block_index = 0;
-
-   return secure_vector<byte>();
-   }
-
-void OCB_Encryption::encrypt(byte buffer[], size_t blocks)
-   {
-   const L_computer& L = *m_L; // convenient name
-
-   const size_t par_blocks = m_checksum.size() / BS;
-
-   while(blocks)
-      {
-      const size_t proc_blocks = std::min(blocks, par_blocks);
-      const size_t proc_bytes = proc_blocks * BS;
-
-      const auto& offsets = L.compute_offsets(m_offset, m_block_index, proc_blocks);
-
-      xor_buf(&m_checksum[0], &buffer[0], proc_bytes);
-
-      xor_buf(&buffer[0], &offsets[0], proc_bytes);
-      m_cipher->encrypt_n(&buffer[0], &buffer[0], proc_blocks);
-      xor_buf(&buffer[0], &offsets[0], proc_bytes);
-
-      buffer += proc_bytes;
-      blocks -= proc_blocks;
-      m_block_index += proc_blocks;
-      }
-   }
-
-void OCB_Encryption::update(secure_vector<byte>& buffer, size_t offset)
-   {
-   BOTAN_ASSERT(buffer.size() >= offset, "Offset is sane");
-   const size_t sz = buffer.size() - offset;
-   byte* buf = &buffer[offset];
-
-   BOTAN_ASSERT(sz % BS == 0, "Input length is an even number of blocks");
-
-   encrypt(buf, sz / BS);
-   }
-
-void OCB_Encryption::finish(secure_vector<byte>& buffer, size_t offset)
-   {
-   BOTAN_ASSERT(buffer.size() >= offset, "Offset is sane");
-   const size_t sz = buffer.size() - offset;
-   byte* buf = &buffer[offset];
-
-   if(sz)
-      {
-      const size_t final_full_blocks = sz / BS;
-      const size_t remainder_bytes = sz - (final_full_blocks * BS);
-
-      encrypt(buf, final_full_blocks);
-
-      if(remainder_bytes)
-         {
-         BOTAN_ASSERT(remainder_bytes < BS, "Only a partial block left");
-         byte* remainder = &buf[sz - remainder_bytes];
-
-         xor_buf(&m_checksum[0], &remainder[0], remainder_bytes);
-         m_checksum[remainder_bytes] ^= 0x80;
-
-         m_offset ^= m_L->star(); // Offset_*
-
-         secure_vector<byte> buf(BS);
-         m_cipher->encrypt(m_offset, buf);
-         xor_buf(&remainder[0], &buf[0], remainder_bytes);
-         }
-      }
-
-   secure_vector<byte> checksum(BS);
-
-   // fold checksum
-   for(size_t i = 0; i != m_checksum.size(); ++i)
-      checksum[i % checksum.size()] ^= m_checksum[i];
-
-   // now compute the tag
-   secure_vector<byte> mac = m_offset;
-   mac ^= checksum;
-   mac ^= m_L->dollar();
-
-   m_cipher->encrypt(mac);
-
-   mac ^= m_ad_hash;
-
-   buffer += std::make_pair(&mac[0], tag_size());
-
-   zeroise(m_checksum);
-   zeroise(m_offset);
-   m_block_index = 0;
-   }
-
-void OCB_Decryption::decrypt(byte buffer[], size_t blocks)
-   {
-   const L_computer& L = *m_L; // convenient name
-
-   const size_t par_bytes = m_cipher->parallel_bytes();
-
-   BOTAN_ASSERT(par_bytes % BS == 0, "Cipher is parallel in full blocks");
-
-   const size_t par_blocks = par_bytes / BS;
-
-   while(blocks)
-      {
-      const size_t proc_blocks = std::min(blocks, par_blocks);
-      const size_t proc_bytes = proc_blocks * BS;
-
-      const auto& offsets = L.compute_offsets(m_offset, m_block_index, proc_blocks);
-
-      xor_buf(&buffer[0], &offsets[0], proc_bytes);
-      m_cipher->decrypt_n(&buffer[0], &buffer[0], proc_blocks);
-      xor_buf(&buffer[0], &offsets[0], proc_bytes);
-
-      xor_buf(&m_checksum[0], &buffer[0], proc_bytes);
-
-      buffer += proc_bytes;
-      blocks -= proc_blocks;
-      m_block_index += proc_blocks;
-      }
-   }
-
-void OCB_Decryption::update(secure_vector<byte>& buffer, size_t offset)
-   {
-   BOTAN_ASSERT(buffer.size() >= offset, "Offset is sane");
-   const size_t sz = buffer.size() - offset;
-   byte* buf = &buffer[offset];
-
-   BOTAN_ASSERT(sz % BS == 0, "Input length is an even number of blocks");
-
-   decrypt(buf, sz / BS);
-   }
-
-void OCB_Decryption::finish(secure_vector<byte>& buffer, size_t offset)
-   {
-   BOTAN_ASSERT(buffer.size() >= offset, "Offset is sane");
-   const size_t sz = buffer.size() - offset;
-   byte* buf = &buffer[offset];
-
-   BOTAN_ASSERT(sz >= tag_size(), "We have the tag");
-
-   const size_t remaining = sz - tag_size();
-
-   if(remaining)
-      {
-      const size_t final_full_blocks = remaining / BS;
-      const size_t final_bytes = remaining - (final_full_blocks * BS);
-
-      decrypt(&buf[0], final_full_blocks);
-
-      if(final_bytes)
-         {
-         BOTAN_ASSERT(final_bytes < BS, "Only a partial block left");
-
-         byte* remainder = &buf[remaining - final_bytes];
-
-         m_offset ^= m_L->star(); // Offset_*
-
-         secure_vector<byte> pad(BS);
-         m_cipher->encrypt(m_offset, pad); // P_*
-
-         xor_buf(&remainder[0], &pad[0], final_bytes);
-
-         xor_buf(&m_checksum[0], &remainder[0], final_bytes);
-         m_checksum[final_bytes] ^= 0x80;
-         }
-      }
-
-   secure_vector<byte> checksum(BS);
-
-   // fold checksum
-   for(size_t i = 0; i != m_checksum.size(); ++i)
-      checksum[i % checksum.size()] ^= m_checksum[i];
-
-   // compute the mac
-   secure_vector<byte> mac = m_offset;
-   mac ^= checksum;
-   mac ^= m_L->dollar();
-
-   m_cipher->encrypt(mac);
-
-   mac ^= m_ad_hash;
-
-   // reset state
-   zeroise(m_checksum);
-   zeroise(m_offset);
-   m_block_index = 0;
-
-   // compare mac
-   const byte* included_tag = &buf[remaining];
-
-   if(!same_mem(&mac[0], included_tag, tag_size()))
-      throw Integrity_Failure("OCB tag check failed");
-
-   // remove tag from end of message
-   buffer.resize(remaining + offset);
-   }
-
-}