/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ #include #include #include #include #include "ciphercontext.hxx" using namespace ::com::sun::star; uno::Reference< xml::crypto::XCipherContext > OCipherContext::Create( CK_MECHANISM_TYPE nNSSCipherID, const uno::Sequence< ::sal_Int8 >& aKey, const uno::Sequence< ::sal_Int8 >& aInitializationVector, bool bEncryption, bool bW3CPadding ) { ::rtl::Reference< OCipherContext > xResult = new OCipherContext; xResult->m_pSlot = PK11_GetBestSlot( nNSSCipherID, NULL ); if ( xResult->m_pSlot ) { SECItem aKeyItem = { siBuffer, const_cast< unsigned char* >( reinterpret_cast< const unsigned char* >( aKey.getConstArray() ) ), static_cast(aKey.getLength()) }; xResult->m_pSymKey = PK11_ImportSymKey( xResult->m_pSlot, nNSSCipherID, PK11_OriginDerive, bEncryption ? CKA_ENCRYPT : CKA_DECRYPT, &aKeyItem, NULL ); if ( xResult->m_pSymKey ) { SECItem aIVItem = { siBuffer, const_cast< unsigned char* >( reinterpret_cast< const unsigned char* >( aInitializationVector.getConstArray() ) ), static_cast(aInitializationVector.getLength()) }; xResult->m_pSecParam = PK11_ParamFromIV( nNSSCipherID, &aIVItem ); if ( xResult->m_pSecParam ) { xResult->m_pContext = PK11_CreateContextBySymKey( nNSSCipherID, bEncryption ? CKA_ENCRYPT : CKA_DECRYPT, xResult->m_pSymKey, xResult->m_pSecParam); if ( xResult->m_pContext ) { xResult->m_bEncryption = bEncryption; xResult->m_bW3CPadding = bW3CPadding; xResult->m_bPadding = bW3CPadding || ( PK11_GetPadMechanism( nNSSCipherID ) == nNSSCipherID ); xResult->m_nBlockSize = PK11_GetBlockSize( nNSSCipherID, xResult->m_pSecParam ); if ( xResult->m_nBlockSize <= SAL_MAX_INT8 ) return xResult.get(); } } } } return uno::Reference< xml::crypto::XCipherContext >(); } void OCipherContext::Dispose() { ::osl::MutexGuard aGuard( m_aMutex ); if ( m_pContext ) { PK11_DestroyContext( m_pContext, PR_TRUE ); m_pContext = NULL; } if ( m_pSecParam ) { SECITEM_FreeItem( m_pSecParam, PR_TRUE ); m_pSecParam = NULL; } if ( m_pSymKey ) { PK11_FreeSymKey( m_pSymKey ); m_pSymKey = NULL; } if ( m_pSlot ) { PK11_FreeSlot( m_pSlot ); m_pSlot = NULL; } m_bDisposed = true; } uno::Sequence< ::sal_Int8 > SAL_CALL OCipherContext::convertWithCipherContext( const uno::Sequence< ::sal_Int8 >& aData ) throw ( lang::IllegalArgumentException, lang::DisposedException, uno::RuntimeException) { ::osl::MutexGuard aGuard( m_aMutex ); if ( m_bBroken ) throw uno::RuntimeException(); if ( m_bDisposed ) throw lang::DisposedException(); uno::Sequence< sal_Int8 > aToConvert; if ( aData.getLength() ) { sal_Int32 nOldLastBlockLen = m_aLastBlock.getLength(); OSL_ENSURE( nOldLastBlockLen <= m_nBlockSize, "Unexpected last block size!" ); sal_Int32 nAvailableData = nOldLastBlockLen + aData.getLength(); sal_Int32 nToConvertLen = nAvailableData; if ( m_bEncryption || !m_bW3CPadding ) { if ( nAvailableData % m_nBlockSize == 0 ) nToConvertLen = nAvailableData; else if ( nAvailableData < m_nBlockSize ) nToConvertLen = 0; else nToConvertLen = nAvailableData - nAvailableData % m_nBlockSize; } else { // decryption with W3C padding needs at least one block for finalizing if ( nAvailableData < m_nBlockSize * 2 ) nToConvertLen = 0; else nToConvertLen = nAvailableData - nAvailableData % m_nBlockSize - m_nBlockSize; } aToConvert.realloc( nToConvertLen ); if ( nToConvertLen == 0 ) { m_aLastBlock.realloc( nOldLastBlockLen + aData.getLength() ); rtl_copyMemory( m_aLastBlock.getArray() + nOldLastBlockLen, aData.getConstArray(), aData.getLength() ); // aToConvert stays empty } else if ( nToConvertLen < nOldLastBlockLen ) { rtl_copyMemory( aToConvert.getArray(), m_aLastBlock.getConstArray(), nToConvertLen ); rtl_copyMemory( m_aLastBlock.getArray(), m_aLastBlock.getConstArray() + nToConvertLen, nOldLastBlockLen - nToConvertLen ); m_aLastBlock.realloc( nOldLastBlockLen - nToConvertLen + aData.getLength() ); rtl_copyMemory( m_aLastBlock.getArray() + nOldLastBlockLen - nToConvertLen, aData.getConstArray(), aData.getLength() ); } else { rtl_copyMemory( aToConvert.getArray(), m_aLastBlock.getConstArray(), nOldLastBlockLen ); if ( nToConvertLen > nOldLastBlockLen ) rtl_copyMemory( aToConvert.getArray() + nOldLastBlockLen, aData.getConstArray(), nToConvertLen - nOldLastBlockLen ); m_aLastBlock.realloc( nAvailableData - nToConvertLen ); rtl_copyMemory( m_aLastBlock.getArray(), aData.getConstArray() + nToConvertLen - nOldLastBlockLen, nAvailableData - nToConvertLen ); } } uno::Sequence< sal_Int8 > aResult; OSL_ENSURE( aToConvert.getLength() % m_nBlockSize == 0, "Unexpected size of the data to encrypt!" ); if ( aToConvert.getLength() ) { int nResultLen = 0; aResult.realloc( aToConvert.getLength() + m_nBlockSize ); if ( PK11_CipherOp( m_pContext, reinterpret_cast< unsigned char* >( aResult.getArray() ), &nResultLen, aResult.getLength(), const_cast< unsigned char* >( reinterpret_cast< const unsigned char* >( aToConvert.getConstArray() ) ), aToConvert.getLength() ) != SECSuccess ) { m_bBroken = true; Dispose(); throw uno::RuntimeException(); } m_nConverted += aToConvert.getLength(); aResult.realloc( nResultLen ); } return aResult; } uno::Sequence< ::sal_Int8 > SAL_CALL OCipherContext::finalizeCipherContextAndDispose() throw (lang::DisposedException, uno::RuntimeException) { ::osl::MutexGuard aGuard( m_aMutex ); if ( m_bBroken ) throw uno::RuntimeException(); if ( m_bDisposed ) throw lang::DisposedException(); OSL_ENSURE( m_nBlockSize <= SAL_MAX_INT8, "Unexpected block size!" ); OSL_ENSURE( m_nConverted % m_nBlockSize == 0, "Unexpected amount of bytes is already converted!" ); sal_Int32 nSizeForPadding = ( m_nConverted + m_aLastBlock.getLength() ) % m_nBlockSize; // if it is decryption, the amount of data should be rounded to the block size even in case of padding if ( ( !m_bPadding || !m_bEncryption ) && nSizeForPadding ) throw uno::RuntimeException( ::rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "The data should contain complete blocks only." ) ), uno::Reference< uno::XInterface >() ); if ( m_bW3CPadding && m_bEncryption ) { // in this case the last block should be smaller than standtard block // it will be increased with the padding OSL_ENSURE( m_aLastBlock.getLength() < m_nBlockSize, "Unexpected size of cashed incomplete last block!" ); // W3CPadding handling for encryption sal_Int32 nPaddingSize = m_nBlockSize - nSizeForPadding; sal_Int32 nOldLastBlockLen = m_aLastBlock.getLength(); m_aLastBlock.realloc( nOldLastBlockLen + nPaddingSize ); if ( nPaddingSize > 1 ) { TimeValue aTime; osl_getSystemTime( &aTime ); rtlRandomPool aRandomPool = rtl_random_createPool(); rtl_random_addBytes( aRandomPool, &aTime, 8 ); rtl_random_getBytes( aRandomPool, m_aLastBlock.getArray() + nOldLastBlockLen, nPaddingSize - 1 ); rtl_random_destroyPool ( aRandomPool ); } m_aLastBlock[m_aLastBlock.getLength() - 1] = static_cast< sal_Int8 >( nPaddingSize ); } // finally should the last block be smaller than two standard blocks OSL_ENSURE( m_aLastBlock.getLength() < m_nBlockSize * 2 , "Unexpected size of cashed incomplete last block!" ); uno::Sequence< sal_Int8 > aResult; if ( m_aLastBlock.getLength() ) { int nPrefResLen = 0; aResult.realloc( m_aLastBlock.getLength() + m_nBlockSize ); if ( PK11_CipherOp( m_pContext, reinterpret_cast< unsigned char* >( aResult.getArray() ), &nPrefResLen, aResult.getLength(), const_cast< unsigned char* >( reinterpret_cast< const unsigned char* >( m_aLastBlock.getConstArray() ) ), m_aLastBlock.getLength() ) != SECSuccess ) { m_bBroken = true; Dispose(); throw uno::RuntimeException(); } aResult.realloc( nPrefResLen ); m_aLastBlock.realloc( 0 ); } sal_Int32 nPrefixLen = aResult.getLength(); aResult.realloc( nPrefixLen + m_nBlockSize * 2 ); unsigned nFinalLen = 0; if ( PK11_DigestFinal( m_pContext, reinterpret_cast< unsigned char* >( aResult.getArray() + nPrefixLen ), &nFinalLen, aResult.getLength() - nPrefixLen ) != SECSuccess ) { m_bBroken = true; Dispose(); throw uno::RuntimeException(); } aResult.realloc( nPrefixLen + nFinalLen ); if ( m_bW3CPadding && !m_bEncryption ) { // W3CPadding handling for decryption // aResult should have anough data, since we let m_aLastBlock be big enough in case of decryption OSL_ENSURE( aResult.getLength() >= m_nBlockSize, "Not enough data to handle the padding!" ); sal_Int8 nBytesToRemove = aResult[aResult.getLength() - 1]; if ( nBytesToRemove <= 0 || nBytesToRemove > aResult.getLength() ) { m_bBroken = true; Dispose(); throw uno::RuntimeException(); } aResult.realloc( aResult.getLength() - nBytesToRemove ); } Dispose(); return aResult; }