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|
/**
* XMLSec library
*
* This is free software; see Copyright file in the source
* distribution for preciese wording.
*
* Copyright (C) 2002-2003 Aleksey Sanin <aleksey@aleksey.com>
*/
#include "globals.h"
#include <string.h>
#include <openssl/evp.h>
#include <openssl/rand.h>
#include <xmlsec/xmlsec.h>
#include <xmlsec/keys.h>
#include <xmlsec/transforms.h>
#include <xmlsec/errors.h>
#include <xmlsec/openssl/crypto.h>
#include <xmlsec/openssl/evp.h>
/* this is not defined in OpenSSL 0.9.6 */
#ifndef EVP_MAX_BLOCK_LENGTH
#define EVP_MAX_BLOCK_LENGTH 32
#endif /* EVP_MAX_BLOCK_LENGTH */
/**************************************************************************
*
* Internal OpenSSL Block cipher CTX
*
*****************************************************************************/
typedef struct _xmlSecOpenSSLEvpBlockCipherCtx xmlSecOpenSSLEvpBlockCipherCtx,
*xmlSecOpenSSLEvpBlockCipherCtxPtr;
struct _xmlSecOpenSSLEvpBlockCipherCtx {
const EVP_CIPHER* cipher;
xmlSecKeyDataId keyId;
EVP_CIPHER_CTX cipherCtx;
int keyInitialized;
int ctxInitialized;
xmlSecByte key[EVP_MAX_KEY_LENGTH];
xmlSecByte iv[EVP_MAX_IV_LENGTH];
xmlSecByte pad[EVP_MAX_BLOCK_LENGTH];
};
static int xmlSecOpenSSLEvpBlockCipherCtxInit (xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr in,
xmlSecBufferPtr out,
int encrypt,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx);
static int xmlSecOpenSSLEvpBlockCipherCtxUpdate (xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr in,
xmlSecBufferPtr out,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx);
static int xmlSecOpenSSLEvpBlockCipherCtxFinal (xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr out,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx);
static int
xmlSecOpenSSLEvpBlockCipherCtxInit(xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr in, xmlSecBufferPtr out,
int encrypt,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx) {
int ivLen;
int ret;
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->cipher != NULL, -1);
xmlSecAssert2(ctx->keyInitialized != 0, -1);
xmlSecAssert2(ctx->ctxInitialized == 0, -1);
xmlSecAssert2(in != NULL, -1);
xmlSecAssert2(out != NULL, -1);
xmlSecAssert2(transformCtx != NULL, -1);
ivLen = EVP_CIPHER_iv_length(ctx->cipher);
xmlSecAssert2(ivLen > 0, -1);
xmlSecAssert2((xmlSecSize)ivLen <= sizeof(ctx->iv), -1);
if(encrypt) {
/* generate random iv */
ret = RAND_bytes(ctx->iv, ivLen);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"RAND_bytes",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
"size=%d", ivLen);
return(-1);
}
/* write iv to the output */
ret = xmlSecBufferAppend(out, ctx->iv, ivLen);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferAppend",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", ivLen);
return(-1);
}
} else {
/* if we don't have enough data, exit and hope that
* we'll have iv next time */
if(xmlSecBufferGetSize(in) < (xmlSecSize)ivLen) {
return(0);
}
/* copy iv to our buffer*/
xmlSecAssert2(xmlSecBufferGetData(in) != NULL, -1);
memcpy(ctx->iv, xmlSecBufferGetData(in), ivLen);
/* and remove from input */
ret = xmlSecBufferRemoveHead(in, ivLen);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferRemoveHead",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", ivLen);
return(-1);
}
}
/* set iv */
ret = EVP_CipherInit(&(ctx->cipherCtx), ctx->cipher, ctx->key, ctx->iv, encrypt);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"EVP_CipherInit",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
ctx->ctxInitialized = 1;
/*
* The padding used in XML Enc does not follow RFC 1423
* and is not supported by OpenSSL. In the case of OpenSSL 0.9.7
* it is possible to disable padding and do it by yourself
* For OpenSSL 0.9.6 you have interop problems
*/
#ifndef XMLSEC_OPENSSL_096
EVP_CIPHER_CTX_set_padding(&(ctx->cipherCtx), 0);
#endif /* XMLSEC_OPENSSL_096 */
return(0);
}
static int
xmlSecOpenSSLEvpBlockCipherCtxUpdate(xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr in, xmlSecBufferPtr out,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx) {
int blockLen, fixLength = 0, outLen = 0;
xmlSecSize inSize, outSize;
xmlSecByte* outBuf;
int ret;
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->keyInitialized != 0, -1);
xmlSecAssert2(ctx->ctxInitialized != 0, -1);
xmlSecAssert2(in != NULL, -1);
xmlSecAssert2(out != NULL, -1);
xmlSecAssert2(transformCtx != NULL, -1);
blockLen = EVP_CIPHER_block_size(ctx->cipher);
xmlSecAssert2(blockLen > 0, -1);
inSize = xmlSecBufferGetSize(in);
outSize = xmlSecBufferGetSize(out);
if(inSize == 0) {
/* wait for more data */
return(0);
}
/* OpenSSL docs: The amount of data written depends on the block
* alignment of the encrypted data: as a result the amount of data
* written may be anything from zero bytes to (inl + cipher_block_size - 1).
*/
ret = xmlSecBufferSetMaxSize(out, outSize + inSize + blockLen);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferSetMaxSize",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", outSize + inSize + blockLen);
return(-1);
}
outBuf = xmlSecBufferGetData(out) + outSize;
/*
* The padding used in XML Enc does not follow RFC 1423
* and is not supported by OpenSSL. In the case of OpenSSL 0.9.7
* it is possible to disable padding and do it by yourself
* For OpenSSL 0.9.6 you have interop problems.
*
* The logic below is copied from EVP_DecryptUpdate() function.
* This is a hack but it's the only way I can provide binary
* compatibility with previous versions of xmlsec.
* This needs to be fixed in the next XMLSEC API refresh.
*/
#ifndef XMLSEC_OPENSSL_096
if(!ctx->cipherCtx.encrypt) {
if(ctx->cipherCtx.final_used) {
memcpy(outBuf, ctx->cipherCtx.final, blockLen);
outBuf += blockLen;
fixLength = 1;
} else {
fixLength = 0;
}
}
#endif /* XMLSEC_OPENSSL_096 */
/* encrypt/decrypt */
ret = EVP_CipherUpdate(&(ctx->cipherCtx), outBuf, &outLen, xmlSecBufferGetData(in), inSize);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"EVP_CipherUpdate",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
#ifndef XMLSEC_OPENSSL_096
if(!ctx->cipherCtx.encrypt) {
/*
* The logic below is copied from EVP_DecryptUpdate() function.
* This is a hack but it's the only way I can provide binary
* compatibility with previous versions of xmlsec.
* This needs to be fixed in the next XMLSEC API refresh.
*/
if (blockLen > 1 && !ctx->cipherCtx.buf_len) {
outLen -= blockLen;
ctx->cipherCtx.final_used = 1;
memcpy(ctx->cipherCtx.final, &outBuf[outLen], blockLen);
} else {
ctx->cipherCtx.final_used = 0;
}
if (fixLength) {
outLen += blockLen;
}
}
#endif /* XMLSEC_OPENSSL_096 */
/* set correct output buffer size */
ret = xmlSecBufferSetSize(out, outSize + outLen);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferSetSize",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", outSize + outLen);
return(-1);
}
/* remove the processed block from input */
ret = xmlSecBufferRemoveHead(in, inSize);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferRemoveHead",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", inSize);
return(-1);
}
return(0);
}
static int
xmlSecOpenSSLEvpBlockCipherCtxFinal(xmlSecOpenSSLEvpBlockCipherCtxPtr ctx,
xmlSecBufferPtr out,
const xmlChar* cipherName,
xmlSecTransformCtxPtr transformCtx) {
int blockLen, outLen = 0, outLen2 = 0;
xmlSecSize outSize;
xmlSecByte* outBuf;
int ret;
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->keyInitialized != 0, -1);
xmlSecAssert2(ctx->ctxInitialized != 0, -1);
xmlSecAssert2(out != NULL, -1);
xmlSecAssert2(transformCtx != NULL, -1);
blockLen = EVP_CIPHER_block_size(ctx->cipher);
xmlSecAssert2(blockLen > 0, -1);
outSize = xmlSecBufferGetSize(out);
/* OpenSSL docs: The encrypted final data is written to out which should
* have sufficient space for one cipher block. We might have to write
* one more block with padding
*/
ret = xmlSecBufferSetMaxSize(out, outSize + 2 * blockLen);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferSetMaxSize",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", outSize + 2 * blockLen);
return(-1);
}
outBuf = xmlSecBufferGetData(out) + outSize;
/*
* The padding used in XML Enc does not follow RFC 1423
* and is not supported by OpenSSL. In the case of OpenSSL 0.9.7
* it is possible to disable padding and do it by yourself
* For OpenSSL 0.9.6 you have interop problems.
*
* The logic below is copied from EVP_DecryptFinal() function.
* This is a hack but it's the only way I can provide binary
* compatibility with previous versions of xmlsec.
* This needs to be fixed in the next XMLSEC API refresh.
*/
#ifndef XMLSEC_OPENSSL_096
if(ctx->cipherCtx.encrypt) {
int padLen;
xmlSecAssert2(blockLen <= EVP_MAX_BLOCK_LENGTH, -1);
padLen = blockLen - ctx->cipherCtx.buf_len;
xmlSecAssert2(padLen > 0, -1);
/* generate random padding */
if(padLen > 1) {
ret = RAND_bytes(ctx->pad, padLen - 1);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"RAND_bytes",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
"size=%d", padLen - 1);
return(-1);
}
}
ctx->pad[padLen - 1] = padLen;
/* write padding */
ret = EVP_CipherUpdate(&(ctx->cipherCtx), outBuf, &outLen, ctx->pad, padLen);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"EVP_CipherUpdate",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
outBuf += outLen;
}
#endif /* XMLSEC_OPENSSL_096 */
/* finalize transform */
ret = EVP_CipherFinal(&(ctx->cipherCtx), outBuf, &outLen2);
if(ret != 1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"EVP_CipherFinal",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
/*
* The padding used in XML Enc does not follow RFC 1423
* and is not supported by OpenSSL. In the case of OpenSSL 0.9.7
* it is possible to disable padding and do it by yourself
* For OpenSSL 0.9.6 you have interop problems.
*
* The logic below is copied from EVP_DecryptFinal() function.
* This is a hack but it's the only way I can provide binary
* compatibility with previous versions of xmlsec.
* This needs to be fixed in the next XMLSEC API refresh.
*/
#ifndef XMLSEC_OPENSSL_096
if(!ctx->cipherCtx.encrypt) {
/* we instructed openssl to do not use padding so there
* should be no final block
*/
xmlSecAssert2(outLen2 == 0, -1);
xmlSecAssert2(ctx->cipherCtx.buf_len == 0, -1);
xmlSecAssert2(ctx->cipherCtx.final_used, -1);
if(blockLen > 1) {
outLen2 = blockLen - ctx->cipherCtx.final[blockLen - 1];
if(outLen2 > 0) {
memcpy(outBuf, ctx->cipherCtx.final, outLen2);
} else if(outLen2 < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
NULL,
XMLSEC_ERRORS_R_INVALID_DATA,
"padding=%d;buffer=%d",
ctx->cipherCtx.final[blockLen - 1], blockLen);
return(-1);
}
}
}
#endif /* XMLSEC_OPENSSL_096 */
/* set correct output buffer size */
ret = xmlSecBufferSetSize(out, outSize + outLen + outLen2);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(cipherName),
"xmlSecBufferSetSize",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", outSize + outLen + outLen2);
return(-1);
}
return(0);
}
/******************************************************************************
*
* EVP Block Cipher transforms
*
* xmlSecOpenSSLEvpBlockCipherCtx block is located after xmlSecTransform structure
*
*****************************************************************************/
#define xmlSecOpenSSLEvpBlockCipherSize \
(sizeof(xmlSecTransform) + sizeof(xmlSecOpenSSLEvpBlockCipherCtx))
#define xmlSecOpenSSLEvpBlockCipherGetCtx(transform) \
((xmlSecOpenSSLEvpBlockCipherCtxPtr)(((xmlSecByte*)(transform)) + sizeof(xmlSecTransform)))
static int xmlSecOpenSSLEvpBlockCipherInitialize (xmlSecTransformPtr transform);
static void xmlSecOpenSSLEvpBlockCipherFinalize (xmlSecTransformPtr transform);
static int xmlSecOpenSSLEvpBlockCipherSetKeyReq (xmlSecTransformPtr transform,
xmlSecKeyReqPtr keyReq);
static int xmlSecOpenSSLEvpBlockCipherSetKey (xmlSecTransformPtr transform,
xmlSecKeyPtr key);
static int xmlSecOpenSSLEvpBlockCipherExecute (xmlSecTransformPtr transform,
int last,
xmlSecTransformCtxPtr transformCtx);
static int xmlSecOpenSSLEvpBlockCipherCheckId (xmlSecTransformPtr transform);
static int
xmlSecOpenSSLEvpBlockCipherCheckId(xmlSecTransformPtr transform) {
#ifndef XMLSEC_NO_DES
if(xmlSecTransformCheckId(transform, xmlSecOpenSSLTransformDes3CbcId)) {
return(1);
}
#endif /* XMLSEC_NO_DES */
#ifndef XMLSEC_NO_AES
if(xmlSecTransformCheckId(transform, xmlSecOpenSSLTransformAes128CbcId) ||
xmlSecTransformCheckId(transform, xmlSecOpenSSLTransformAes192CbcId) ||
xmlSecTransformCheckId(transform, xmlSecOpenSSLTransformAes256CbcId)) {
return(1);
}
#endif /* XMLSEC_NO_AES */
return(0);
}
static int
xmlSecOpenSSLEvpBlockCipherInitialize(xmlSecTransformPtr transform) {
xmlSecOpenSSLEvpBlockCipherCtxPtr ctx;
xmlSecAssert2(xmlSecOpenSSLEvpBlockCipherCheckId(transform), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecOpenSSLEvpBlockCipherSize), -1);
ctx = xmlSecOpenSSLEvpBlockCipherGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
memset(ctx, 0, sizeof(xmlSecOpenSSLEvpBlockCipherCtx));
#ifndef XMLSEC_NO_DES
if(transform->id == xmlSecOpenSSLTransformDes3CbcId) {
ctx->cipher = EVP_des_ede3_cbc();
ctx->keyId = xmlSecOpenSSLKeyDataDesId;
} else
#endif /* XMLSEC_NO_DES */
#ifndef XMLSEC_NO_AES
if(transform->id == xmlSecOpenSSLTransformAes128CbcId) {
ctx->cipher = EVP_aes_128_cbc();
ctx->keyId = xmlSecOpenSSLKeyDataAesId;
} else if(transform->id == xmlSecOpenSSLTransformAes192CbcId) {
ctx->cipher = EVP_aes_192_cbc();
ctx->keyId = xmlSecOpenSSLKeyDataAesId;
} else if(transform->id == xmlSecOpenSSLTransformAes256CbcId) {
ctx->cipher = EVP_aes_256_cbc();
ctx->keyId = xmlSecOpenSSLKeyDataAesId;
} else
#endif /* XMLSEC_NO_AES */
if(1) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_TRANSFORM,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
EVP_CIPHER_CTX_init(&(ctx->cipherCtx));
return(0);
}
static void
xmlSecOpenSSLEvpBlockCipherFinalize(xmlSecTransformPtr transform) {
xmlSecOpenSSLEvpBlockCipherCtxPtr ctx;
xmlSecAssert(xmlSecOpenSSLEvpBlockCipherCheckId(transform));
xmlSecAssert(xmlSecTransformCheckSize(transform, xmlSecOpenSSLEvpBlockCipherSize));
ctx = xmlSecOpenSSLEvpBlockCipherGetCtx(transform);
xmlSecAssert(ctx != NULL);
EVP_CIPHER_CTX_cleanup(&(ctx->cipherCtx));
memset(ctx, 0, sizeof(xmlSecOpenSSLEvpBlockCipherCtx));
}
static int
xmlSecOpenSSLEvpBlockCipherSetKeyReq(xmlSecTransformPtr transform, xmlSecKeyReqPtr keyReq) {
xmlSecOpenSSLEvpBlockCipherCtxPtr ctx;
int cipherKeyLen;
xmlSecAssert2(xmlSecOpenSSLEvpBlockCipherCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationEncrypt) || (transform->operation == xmlSecTransformOperationDecrypt), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecOpenSSLEvpBlockCipherSize), -1);
xmlSecAssert2(keyReq != NULL, -1);
ctx = xmlSecOpenSSLEvpBlockCipherGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->cipher != NULL, -1);
xmlSecAssert2(ctx->keyId != NULL, -1);
keyReq->keyId = ctx->keyId;
keyReq->keyType = xmlSecKeyDataTypeSymmetric;
if(transform->operation == xmlSecTransformOperationEncrypt) {
keyReq->keyUsage = xmlSecKeyUsageEncrypt;
} else {
keyReq->keyUsage = xmlSecKeyUsageDecrypt;
}
cipherKeyLen = EVP_CIPHER_key_length(ctx->cipher);
xmlSecAssert2(cipherKeyLen > 0, -1);
keyReq->keyBitsSize = (xmlSecSize)(8 * cipherKeyLen);
return(0);
}
static int
xmlSecOpenSSLEvpBlockCipherSetKey(xmlSecTransformPtr transform, xmlSecKeyPtr key) {
xmlSecOpenSSLEvpBlockCipherCtxPtr ctx;
xmlSecBufferPtr buffer;
int cipherKeyLen;
xmlSecAssert2(xmlSecOpenSSLEvpBlockCipherCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationEncrypt) || (transform->operation == xmlSecTransformOperationDecrypt), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecOpenSSLEvpBlockCipherSize), -1);
xmlSecAssert2(key != NULL, -1);
ctx = xmlSecOpenSSLEvpBlockCipherGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->cipher != NULL, -1);
xmlSecAssert2(ctx->keyInitialized == 0, -1);
xmlSecAssert2(ctx->keyId != NULL, -1);
xmlSecAssert2(xmlSecKeyCheckId(key, ctx->keyId), -1);
cipherKeyLen = EVP_CIPHER_key_length(ctx->cipher);
xmlSecAssert2(cipherKeyLen > 0, -1);
xmlSecAssert2((xmlSecSize)cipherKeyLen <= sizeof(ctx->key), -1);
buffer = xmlSecKeyDataBinaryValueGetBuffer(xmlSecKeyGetValue(key));
xmlSecAssert2(buffer != NULL, -1);
if(xmlSecBufferGetSize(buffer) < (xmlSecSize)cipherKeyLen) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_KEY_DATA_SIZE,
"keySize=%d;expected=%d",
xmlSecBufferGetSize(buffer), cipherKeyLen);
return(-1);
}
xmlSecAssert2(xmlSecBufferGetData(buffer) != NULL, -1);
memcpy(ctx->key, xmlSecBufferGetData(buffer), cipherKeyLen);
ctx->keyInitialized = 1;
return(0);
}
static int
xmlSecOpenSSLEvpBlockCipherExecute(xmlSecTransformPtr transform, int last, xmlSecTransformCtxPtr transformCtx) {
xmlSecOpenSSLEvpBlockCipherCtxPtr ctx;
xmlSecBufferPtr in, out;
int ret;
xmlSecAssert2(xmlSecOpenSSLEvpBlockCipherCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationEncrypt) || (transform->operation == xmlSecTransformOperationDecrypt), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecOpenSSLEvpBlockCipherSize), -1);
xmlSecAssert2(transformCtx != NULL, -1);
in = &(transform->inBuf);
out = &(transform->outBuf);
ctx = xmlSecOpenSSLEvpBlockCipherGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
if(transform->status == xmlSecTransformStatusNone) {
transform->status = xmlSecTransformStatusWorking;
}
if(transform->status == xmlSecTransformStatusWorking) {
if(ctx->ctxInitialized == 0) {
ret = xmlSecOpenSSLEvpBlockCipherCtxInit(ctx, in, out,
(transform->operation == xmlSecTransformOperationEncrypt) ? 1 : 0,
xmlSecTransformGetName(transform), transformCtx);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"xmlSecOpenSSLEvpBlockCipherCtxInit",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
}
if((ctx->ctxInitialized == 0) && (last != 0)) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_DATA,
"not enough data to initialize transform");
return(-1);
}
if(ctx->ctxInitialized != 0) {
ret = xmlSecOpenSSLEvpBlockCipherCtxUpdate(ctx, in, out,
xmlSecTransformGetName(transform),
transformCtx);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"xmlSecOpenSSLEvpBlockCipherCtxUpdate",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
}
if(last != 0) {
/* by now there should be no input */
xmlSecAssert2(xmlSecBufferGetSize(in) == 0, -1);
ret = xmlSecOpenSSLEvpBlockCipherCtxFinal(ctx, out,
xmlSecTransformGetName(transform),
transformCtx);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"xmlSecOpenSSLEvpBlockCipherCtxFinal",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
transform->status = xmlSecTransformStatusFinished;
}
} else if(transform->status == xmlSecTransformStatusFinished) {
/* the only way we can get here is if there is no input */
xmlSecAssert2(xmlSecBufferGetSize(in) == 0, -1);
} else if(transform->status == xmlSecTransformStatusNone) {
/* the only way we can get here is if there is no enough data in the input */
xmlSecAssert2(last == 0, -1);
} else {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_STATUS,
"status=%d", transform->status);
return(-1);
}
return(0);
}
#ifndef XMLSEC_NO_AES
/*********************************************************************
*
* AES CBC cipher transforms
*
********************************************************************/
static xmlSecTransformKlass xmlSecOpenSSLAes128CbcKlass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecOpenSSLEvpBlockCipherSize, /* xmlSecSize objSize */
xmlSecNameAes128Cbc, /* const xmlChar* name; */
xmlSecHrefAes128Cbc, /* const xmlChar* href; */
xmlSecTransformUsageEncryptionMethod, /* xmlSecAlgorithmUsage usage; */
xmlSecOpenSSLEvpBlockCipherInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecOpenSSLEvpBlockCipherFinalize, /* xmlSecTransformFinalizeMethod finalize; */
NULL, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecOpenSSLEvpBlockCipherSetKeyReq, /* xmlSecTransformSetKeyMethod setKeyReq; */
xmlSecOpenSSLEvpBlockCipherSetKey, /* xmlSecTransformSetKeyMethod setKey; */
NULL, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecOpenSSLEvpBlockCipherExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecOpenSSLTransformAes128CbcGetKlass:
*
* AES 128 CBC encryption transform klass.
*
* Returns: pointer to AES 128 CBC encryption transform.
*/
xmlSecTransformId
xmlSecOpenSSLTransformAes128CbcGetKlass(void) {
return(&xmlSecOpenSSLAes128CbcKlass);
}
static xmlSecTransformKlass xmlSecOpenSSLAes192CbcKlass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecOpenSSLEvpBlockCipherSize, /* xmlSecSize objSize */
xmlSecNameAes192Cbc, /* const xmlChar* name; */
xmlSecHrefAes192Cbc, /* const xmlChar* href; */
xmlSecTransformUsageEncryptionMethod, /* xmlSecAlgorithmUsage usage; */
xmlSecOpenSSLEvpBlockCipherInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecOpenSSLEvpBlockCipherFinalize, /* xmlSecTransformFinalizeMethod finalize; */
NULL, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecOpenSSLEvpBlockCipherSetKeyReq, /* xmlSecTransformSetKeyMethod setKeyReq; */
xmlSecOpenSSLEvpBlockCipherSetKey, /* xmlSecTransformSetKeyMethod setKey; */
NULL, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecOpenSSLEvpBlockCipherExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecOpenSSLTransformAes192CbcGetKlass:
*
* AES 192 CBC encryption transform klass.
*
* Returns: pointer to AES 192 CBC encryption transform.
*/
xmlSecTransformId
xmlSecOpenSSLTransformAes192CbcGetKlass(void) {
return(&xmlSecOpenSSLAes192CbcKlass);
}
static xmlSecTransformKlass xmlSecOpenSSLAes256CbcKlass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecOpenSSLEvpBlockCipherSize, /* xmlSecSize objSize */
xmlSecNameAes256Cbc, /* const xmlChar* name; */
xmlSecHrefAes256Cbc, /* const xmlChar* href; */
xmlSecTransformUsageEncryptionMethod, /* xmlSecAlgorithmUsage usage; */
xmlSecOpenSSLEvpBlockCipherInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecOpenSSLEvpBlockCipherFinalize, /* xmlSecTransformFinalizeMethod finalize; */
NULL, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecOpenSSLEvpBlockCipherSetKeyReq, /* xmlSecTransformSetKeyMethod setKeyReq; */
xmlSecOpenSSLEvpBlockCipherSetKey, /* xmlSecTransformSetKeyMethod setKey; */
NULL, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecOpenSSLEvpBlockCipherExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecOpenSSLTransformAes256CbcGetKlass:
*
* AES 256 CBC encryption transform klass.
*
* Returns: pointer to AES 256 CBC encryption transform.
*/
xmlSecTransformId
xmlSecOpenSSLTransformAes256CbcGetKlass(void) {
return(&xmlSecOpenSSLAes256CbcKlass);
}
#endif /* XMLSEC_NO_AES */
#ifndef XMLSEC_NO_DES
static xmlSecTransformKlass xmlSecOpenSSLDes3CbcKlass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecOpenSSLEvpBlockCipherSize, /* xmlSecSize objSize */
xmlSecNameDes3Cbc, /* const xmlChar* name; */
xmlSecHrefDes3Cbc, /* const xmlChar* href; */
xmlSecTransformUsageEncryptionMethod, /* xmlSecAlgorithmUsage usage; */
xmlSecOpenSSLEvpBlockCipherInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecOpenSSLEvpBlockCipherFinalize, /* xmlSecTransformFinalizeMethod finalize; */
NULL, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecOpenSSLEvpBlockCipherSetKeyReq, /* xmlSecTransformSetKeyMethod setKeyReq; */
xmlSecOpenSSLEvpBlockCipherSetKey, /* xmlSecTransformSetKeyMethod setKey; */
NULL, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecOpenSSLEvpBlockCipherExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecOpenSSLTransformDes3CbcGetKlass:
*
* Triple DES CBC encryption transform klass.
*
* Returns: pointer to Triple DES encryption transform.
*/
xmlSecTransformId
xmlSecOpenSSLTransformDes3CbcGetKlass(void) {
return(&xmlSecOpenSSLDes3CbcKlass);
}
#endif /* XMLSEC_NO_DES */
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