Adding upstream version 124.0.1.upstream/124.0.1

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 280 insertions, 0 deletions

diff --git a/other-licenses/7zstub/src/CPP/7zip/Crypto/7zAes.cpp b/other-licenses/7zstub/src/CPP/7zip/Crypto/7zAes.cpp
new file mode 100644
index 0000000000..f412bf9d14
--- /dev/null
+++ b/other-licenses/7zstub/src/CPP/7zip/Crypto/7zAes.cpp
@@ -0,0 +1,280 @@
+// 7zAes.cpp

+

+#include "StdAfx.h"

+

+#include "../../../C/Sha256.h"

+

+#include "../../Common/ComTry.h"

+

+#ifndef _7ZIP_ST

+#include "../../Windows/Synchronization.h"

+#endif

+

+#include "../Common/StreamUtils.h"

+

+#include "7zAes.h"

+#include "MyAes.h"

+

+#ifndef EXTRACT_ONLY

+#include "RandGen.h"

+#endif

+

+namespace NCrypto {

+namespace N7z {

+

+static const unsigned k_NumCyclesPower_Supported_MAX = 24;

+

+bool CKeyInfo::IsEqualTo(const CKeyInfo &a) const

+{

+  if (SaltSize != a.SaltSize || NumCyclesPower != a.NumCyclesPower)

+    return false;

+  for (unsigned i = 0; i < SaltSize; i++)

+    if (Salt[i] != a.Salt[i])

+      return false;

+  return (Password == a.Password);

+}

+

+void CKeyInfo::CalcKey()

+{

+  if (NumCyclesPower == 0x3F)

+  {

+    unsigned pos;

+    for (pos = 0; pos < SaltSize; pos++)

+      Key[pos] = Salt[pos];

+    for (unsigned i = 0; i < Password.Size() && pos < kKeySize; i++)

+      Key[pos++] = Password[i];

+    for (; pos < kKeySize; pos++)

+      Key[pos] = 0;

+  }

+  else

+  {

+    size_t bufSize = 8 + SaltSize + Password.Size();

+    CObjArray<Byte> buf(bufSize);

+    memcpy(buf, Salt, SaltSize);

+    memcpy(buf + SaltSize, Password, Password.Size());

+    

+    CSha256 sha;

+    Sha256_Init(&sha);

+    

+    Byte *ctr = buf + SaltSize + Password.Size();

+    

+    for (unsigned i = 0; i < 8; i++)

+      ctr[i] = 0;

+    

+    UInt64 numRounds = (UInt64)1 << NumCyclesPower;

+

+    do

+    {

+      Sha256_Update(&sha, buf, bufSize);

+      for (unsigned i = 0; i < 8; i++)

+        if (++(ctr[i]) != 0)

+          break;

+    }

+    while (--numRounds != 0);

+

+    Sha256_Final(&sha, Key);

+  }

+}

+

+bool CKeyInfoCache::GetKey(CKeyInfo &key)

+{

+  FOR_VECTOR (i, Keys)

+  {

+    const CKeyInfo &cached = Keys[i];

+    if (key.IsEqualTo(cached))

+    {

+      for (unsigned j = 0; j < kKeySize; j++)

+        key.Key[j] = cached.Key[j];

+      if (i != 0)

+        Keys.MoveToFront(i);

+      return true;

+    }

+  }

+  return false;

+}

+

+void CKeyInfoCache::FindAndAdd(const CKeyInfo &key)

+{

+  FOR_VECTOR (i, Keys)

+  {

+    const CKeyInfo &cached = Keys[i];

+    if (key.IsEqualTo(cached))

+    {

+      if (i != 0)

+        Keys.MoveToFront(i);

+      return;

+    }

+  }

+  Add(key);

+}

+

+void CKeyInfoCache::Add(const CKeyInfo &key)

+{

+  if (Keys.Size() >= Size)

+    Keys.DeleteBack();

+  Keys.Insert(0, key);

+}

+

+static CKeyInfoCache g_GlobalKeyCache(32);

+

+#ifndef _7ZIP_ST

+  static NWindows::NSynchronization::CCriticalSection g_GlobalKeyCacheCriticalSection;

+  #define MT_LOCK NWindows::NSynchronization::CCriticalSectionLock lock(g_GlobalKeyCacheCriticalSection);

+#else

+  #define MT_LOCK

+#endif

+

+CBase::CBase():

+  _cachedKeys(16),

+  _ivSize(0)

+{

+  for (unsigned i = 0; i < sizeof(_iv); i++)

+    _iv[i] = 0;

+}

+

+void CBase::PrepareKey()

+{

+  // BCJ2 threads use same password. So we use long lock.

+  MT_LOCK

+  

+  bool finded = false;

+  if (!_cachedKeys.GetKey(_key))

+  {

+    finded = g_GlobalKeyCache.GetKey(_key);

+    if (!finded)

+      _key.CalcKey();

+    _cachedKeys.Add(_key);

+  }

+  if (!finded)

+    g_GlobalKeyCache.FindAndAdd(_key);

+}

+

+#ifndef EXTRACT_ONLY

+

+/*

+STDMETHODIMP CEncoder::ResetSalt()

+{

+  _key.SaltSize = 4;

+  g_RandomGenerator.Generate(_key.Salt, _key.SaltSize);

+  return S_OK;

+}

+*/

+

+STDMETHODIMP CEncoder::ResetInitVector()

+{

+  for (unsigned i = 0; i < sizeof(_iv); i++)

+    _iv[i] = 0;

+  _ivSize = 8;

+  g_RandomGenerator.Generate(_iv, _ivSize);

+  return S_OK;

+}

+

+STDMETHODIMP CEncoder::WriteCoderProperties(ISequentialOutStream *outStream)

+{

+  Byte props[2 + sizeof(_key.Salt) + sizeof(_iv)];

+  unsigned propsSize = 1;

+

+  props[0] = (Byte)(_key.NumCyclesPower

+      | (_key.SaltSize == 0 ? 0 : (1 << 7))

+      | (_ivSize       == 0 ? 0 : (1 << 6)));

+

+  if (_key.SaltSize != 0 || _ivSize != 0)

+  {

+    props[1] = (Byte)(

+        ((_key.SaltSize == 0 ? 0 : _key.SaltSize - 1) << 4)

+        | (_ivSize      == 0 ? 0 : _ivSize - 1));

+    memcpy(props + 2, _key.Salt, _key.SaltSize);

+    propsSize = 2 + _key.SaltSize;

+    memcpy(props + propsSize, _iv, _ivSize);

+    propsSize += _ivSize;

+  }

+

+  return WriteStream(outStream, props, propsSize);

+}

+

+CEncoder::CEncoder()

+{

+  // _key.SaltSize = 4; g_RandomGenerator.Generate(_key.Salt, _key.SaltSize);

+  // _key.NumCyclesPower = 0x3F;

+  _key.NumCyclesPower = 19;

+  _aesFilter = new CAesCbcEncoder(kKeySize);

+}

+

+#endif

+

+CDecoder::CDecoder()

+{

+  _aesFilter = new CAesCbcDecoder(kKeySize);

+}

+

+STDMETHODIMP CDecoder::SetDecoderProperties2(const Byte *data, UInt32 size)

+{

+  _key.ClearProps();

+ 

+  _ivSize = 0;

+  unsigned i;

+  for (i = 0; i < sizeof(_iv); i++)

+    _iv[i] = 0;

+  

+  if (size == 0)

+    return S_OK;

+  

+  Byte b0 = data[0];

+

+  _key.NumCyclesPower = b0 & 0x3F;

+  if ((b0 & 0xC0) == 0)

+    return size == 1 ? S_OK : E_INVALIDARG;

+

+  if (size <= 1)

+    return E_INVALIDARG;

+

+  Byte b1 = data[1];

+

+  unsigned saltSize = ((b0 >> 7) & 1) + (b1 >> 4);

+  unsigned ivSize   = ((b0 >> 6) & 1) + (b1 & 0x0F);

+  

+  if (size != 2 + saltSize + ivSize)

+    return E_INVALIDARG;

+  _key.SaltSize = saltSize;

+  data += 2;

+  for (i = 0; i < saltSize; i++)

+    _key.Salt[i] = *data++;

+  for (i = 0; i < ivSize; i++)

+    _iv[i] = *data++;

+  return (_key.NumCyclesPower <= k_NumCyclesPower_Supported_MAX

+      || _key.NumCyclesPower == 0x3F) ? S_OK : E_NOTIMPL;

+}

+

+

+STDMETHODIMP CBaseCoder::CryptoSetPassword(const Byte *data, UInt32 size)

+{

+  COM_TRY_BEGIN

+  

+  _key.Password.CopyFrom(data, (size_t)size);

+  return S_OK;

+  

+  COM_TRY_END

+}

+

+STDMETHODIMP CBaseCoder::Init()

+{

+  COM_TRY_BEGIN

+  

+  PrepareKey();

+  CMyComPtr<ICryptoProperties> cp;

+  RINOK(_aesFilter.QueryInterface(IID_ICryptoProperties, &cp));

+  if (!cp)

+    return E_FAIL;

+  RINOK(cp->SetKey(_key.Key, kKeySize));

+  RINOK(cp->SetInitVector(_iv, sizeof(_iv)));

+  return _aesFilter->Init();

+  

+  COM_TRY_END

+}

+

+STDMETHODIMP_(UInt32) CBaseCoder::Filter(Byte *data, UInt32 size)

+{

+  return _aesFilter->Filter(data, size);

+}

+

+}}