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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>
*/
#ifndef XMLSEC_NO_HMAC
#include "globals.h"
#include <string.h>
#include <gcrypt.h>
#include <xmlsec/xmlsec.h>
#include <xmlsec/xmltree.h>
#include <xmlsec/keys.h>
#include <xmlsec/transforms.h>
#include <xmlsec/errors.h>
#include <xmlsec/gcrypt/app.h>
#include <xmlsec/gcrypt/crypto.h>
/* sizes in bits */
#define XMLSEC_GCRYPT_MIN_HMAC_SIZE 80
#define XMLSEC_GCRYPT_MAX_HMAC_SIZE (128 * 8)
/**************************************************************************
*
* Configuration
*
*****************************************************************************/
static int g_xmlsec_gcrypt_hmac_min_length = XMLSEC_GCRYPT_MIN_HMAC_SIZE;
/**
* xmlSecGCryptHmacGetMinOutputLength:
*
* Gets the value of min HMAC length.
*
* Returns: the min HMAC output length
*/
int xmlSecGCryptHmacGetMinOutputLength(void)
{
return g_xmlsec_gcrypt_hmac_min_length;
}
/**
* xmlSecGCryptHmacSetMinOutputLength:
* @min_length: the new min length
*
* Sets the min HMAC output length
*/
void xmlSecGCryptHmacSetMinOutputLength(int min_length)
{
g_xmlsec_gcrypt_hmac_min_length = min_length;
}
/**************************************************************************
*
* Internal GCRYPT HMAC CTX
*
*****************************************************************************/
typedef struct _xmlSecGCryptHmacCtx xmlSecGCryptHmacCtx, *xmlSecGCryptHmacCtxPtr;
struct _xmlSecGCryptHmacCtx {
int digest;
gcry_md_hd_t digestCtx;
xmlSecByte dgst[XMLSEC_GCRYPT_MAX_HMAC_SIZE / 8];
xmlSecSize dgstSize; /* dgst size in bits */
};
/******************************************************************************
*
* HMAC transforms
*
* xmlSecGCryptHmacCtx is located after xmlSecTransform
*
*****************************************************************************/
#define xmlSecGCryptHmacGetCtx(transform) \
((xmlSecGCryptHmacCtxPtr)(((xmlSecByte*)(transform)) + sizeof(xmlSecTransform)))
#define xmlSecGCryptHmacSize \
(sizeof(xmlSecTransform) + sizeof(xmlSecGCryptHmacCtx))
static int xmlSecGCryptHmacCheckId (xmlSecTransformPtr transform);
static int xmlSecGCryptHmacInitialize (xmlSecTransformPtr transform);
static void xmlSecGCryptHmacFinalize (xmlSecTransformPtr transform);
static int xmlSecGCryptHmacNodeRead (xmlSecTransformPtr transform,
xmlNodePtr node,
xmlSecTransformCtxPtr transformCtx);
static int xmlSecGCryptHmacSetKeyReq (xmlSecTransformPtr transform,
xmlSecKeyReqPtr keyReq);
static int xmlSecGCryptHmacSetKey (xmlSecTransformPtr transform,
xmlSecKeyPtr key);
static int xmlSecGCryptHmacVerify (xmlSecTransformPtr transform,
const xmlSecByte* data,
xmlSecSize dataSize,
xmlSecTransformCtxPtr transformCtx);
static int xmlSecGCryptHmacExecute (xmlSecTransformPtr transform,
int last,
xmlSecTransformCtxPtr transformCtx);
static int
xmlSecGCryptHmacCheckId(xmlSecTransformPtr transform) {
#ifndef XMLSEC_NO_SHA1
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha1Id)) {
return(1);
} else
#endif /* XMLSEC_NO_SHA1 */
#ifndef XMLSEC_NO_SHA256
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha256Id)) {
return(1);
} else
#endif /* XMLSEC_NO_SHA256 */
#ifndef XMLSEC_NO_SHA384
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha384Id)) {
return(1);
} else
#endif /* XMLSEC_NO_SHA384 */
#ifndef XMLSEC_NO_SHA512
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha512Id)) {
return(1);
} else
#endif /* XMLSEC_NO_SHA512 */
#ifndef XMLSEC_NO_RIPEMD160
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacRipemd160Id)) {
return(1);
} else
#endif /* XMLSEC_NO_RIPEMD160 */
#ifndef XMLSEC_NO_MD5
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacMd5Id)) {
return(1);
} else
#endif /* XMLSEC_NO_MD5 */
/* not found */
{
return(0);
}
/* just in case */
return(0);
}
static int
xmlSecGCryptHmacInitialize(xmlSecTransformPtr transform) {
xmlSecGCryptHmacCtxPtr ctx;
gcry_error_t err;
xmlSecAssert2(xmlSecGCryptHmacCheckId(transform), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
memset(ctx, 0, sizeof(xmlSecGCryptHmacCtx));
#ifndef XMLSEC_NO_SHA1
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha1Id)) {
ctx->digest = GCRY_MD_SHA1;
} else
#endif /* XMLSEC_NO_SHA1 */
#ifndef XMLSEC_NO_SHA256
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha256Id)) {
ctx->digest = GCRY_MD_SHA256;
} else
#endif /* XMLSEC_NO_SHA256 */
#ifndef XMLSEC_NO_SHA384
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha384Id)) {
ctx->digest = GCRY_MD_SHA384;
} else
#endif /* XMLSEC_NO_SHA384 */
#ifndef XMLSEC_NO_SHA512
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacSha512Id)) {
ctx->digest = GCRY_MD_SHA512;
} else
#endif /* XMLSEC_NO_SHA512 */
#ifndef XMLSEC_NO_RIPEMD160
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacRipemd160Id)) {
ctx->digest = GCRY_MD_RMD160;
} else
#endif /* XMLSEC_NO_RIPEMD160 */
#ifndef XMLSEC_NO_MD5
if(xmlSecTransformCheckId(transform, xmlSecGCryptTransformHmacMd5Id)) {
ctx->digest = GCRY_MD_MD5;
} else
#endif /* XMLSEC_NO_MD5 */
/* not found */
{
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_TRANSFORM,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
/* open context */
err = gcry_md_open(&ctx->digestCtx, ctx->digest, GCRY_MD_FLAG_HMAC | GCRY_MD_FLAG_SECURE); /* we are paranoid */
if(err != GPG_ERR_NO_ERROR) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"gcry_md_open",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_GCRYPT_REPORT_ERROR(err));
return(-1);
}
return(0);
}
static void
xmlSecGCryptHmacFinalize(xmlSecTransformPtr transform) {
xmlSecGCryptHmacCtxPtr ctx;
xmlSecAssert(xmlSecGCryptHmacCheckId(transform));
xmlSecAssert(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize));
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert(ctx != NULL);
if(ctx->digestCtx != NULL) {
gcry_md_close(ctx->digestCtx);
}
memset(ctx, 0, sizeof(xmlSecGCryptHmacCtx));
}
/**
* xmlSecGCryptHmacNodeRead:
*
* HMAC (http://www.w3.org/TR/xmldsig-core/#sec-HMAC):
*
* The HMAC algorithm (RFC2104 [HMAC]) takes the truncation length in bits
* as a parameter; if the parameter is not specified then all the bits of the
* hash are output. An example of an HMAC SignatureMethod element:
* <SignatureMethod Algorithm="http://www.w3.org/2000/09/xmldsig#hmac-sha1">
* <HMACOutputLength>128</HMACOutputLength>
* </SignatureMethod>
*
* Schema Definition:
*
* <simpleType name="HMACOutputLengthType">
* <restriction base="integer"/>
* </simpleType>
*
* DTD:
*
* <!ELEMENT HMACOutputLength (#PCDATA)>
*/
static int
xmlSecGCryptHmacNodeRead(xmlSecTransformPtr transform, xmlNodePtr node, xmlSecTransformCtxPtr transformCtx) {
xmlSecGCryptHmacCtxPtr ctx;
xmlNodePtr cur;
xmlSecAssert2(xmlSecGCryptHmacCheckId(transform), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
xmlSecAssert2(node != NULL, -1);
xmlSecAssert2(transformCtx != NULL, -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
cur = xmlSecGetNextElementNode(node->children);
if((cur != NULL) && xmlSecCheckNodeName(cur, xmlSecNodeHMACOutputLength, xmlSecDSigNs)) {
xmlChar *content;
content = xmlNodeGetContent(cur);
if(content != NULL) {
ctx->dgstSize = atoi((char*)content);
xmlFree(content);
}
/* Ensure that HMAC length is greater than min specified.
Otherwise, an attacker can set this length to 0 or very
small value
*/
if((int)ctx->dgstSize < xmlSecGCryptHmacGetMinOutputLength()) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
xmlSecErrorsSafeString(xmlSecNodeGetName(cur)),
XMLSEC_ERRORS_R_INVALID_NODE_ATTRIBUTE,
"HMAC output length is too small");
return(-1);
}
cur = xmlSecGetNextElementNode(cur->next);
}
if(cur != NULL) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
xmlSecErrorsSafeString(xmlSecNodeGetName(cur)),
XMLSEC_ERRORS_R_INVALID_NODE,
"no nodes expected");
return(-1);
}
return(0);
}
static int
xmlSecGCryptHmacSetKeyReq(xmlSecTransformPtr transform, xmlSecKeyReqPtr keyReq) {
xmlSecGCryptHmacCtxPtr ctx;
xmlSecAssert2(xmlSecGCryptHmacCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationSign) || (transform->operation == xmlSecTransformOperationVerify), -1);
xmlSecAssert2(keyReq != NULL, -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
keyReq->keyId = xmlSecGCryptKeyDataHmacId;
keyReq->keyType= xmlSecKeyDataTypeSymmetric;
if(transform->operation == xmlSecTransformOperationSign) {
keyReq->keyUsage = xmlSecKeyUsageSign;
} else {
keyReq->keyUsage = xmlSecKeyUsageVerify;
}
return(0);
}
static int
xmlSecGCryptHmacSetKey(xmlSecTransformPtr transform, xmlSecKeyPtr key) {
xmlSecGCryptHmacCtxPtr ctx;
xmlSecKeyDataPtr value;
xmlSecBufferPtr buffer;
gcry_error_t err;
xmlSecAssert2(xmlSecGCryptHmacCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationSign) || (transform->operation == xmlSecTransformOperationVerify), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
xmlSecAssert2(key != NULL, -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->digestCtx != NULL, -1);
value = xmlSecKeyGetValue(key);
xmlSecAssert2(xmlSecKeyDataCheckId(value, xmlSecGCryptKeyDataHmacId), -1);
buffer = xmlSecKeyDataBinaryValueGetBuffer(value);
xmlSecAssert2(buffer != NULL, -1);
if(xmlSecBufferGetSize(buffer) == 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_KEY_DATA_SIZE,
"key is empty");
return(-1);
}
err = gcry_md_setkey(ctx->digestCtx, xmlSecBufferGetData(buffer),
xmlSecBufferGetSize(buffer));
if(err != GPG_ERR_NO_ERROR) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"gcry_md_setkey",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_GCRYPT_REPORT_ERROR(err));
return(-1);
}
return(0);
}
static int
xmlSecGCryptHmacVerify(xmlSecTransformPtr transform,
const xmlSecByte* data, xmlSecSize dataSize,
xmlSecTransformCtxPtr transformCtx) {
static xmlSecByte last_byte_masks[] =
{ 0xFF, 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE };
xmlSecGCryptHmacCtxPtr ctx;
xmlSecByte mask;
xmlSecAssert2(xmlSecTransformIsValid(transform), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
xmlSecAssert2(transform->operation == xmlSecTransformOperationVerify, -1);
xmlSecAssert2(transform->status == xmlSecTransformStatusFinished, -1);
xmlSecAssert2(data != NULL, -1);
xmlSecAssert2(transformCtx != NULL, -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->digestCtx != NULL, -1);
xmlSecAssert2(ctx->dgstSize > 0, -1);
/* compare the digest size in bytes */
if(dataSize != ((ctx->dgstSize + 7) / 8)){
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_SIZE,
"data=%d;dgst=%d",
dataSize, ((ctx->dgstSize + 7) / 8));
transform->status = xmlSecTransformStatusFail;
return(0);
}
/* we check the last byte separatelly */
xmlSecAssert2(dataSize > 0, -1);
mask = last_byte_masks[ctx->dgstSize % 8];
if((ctx->dgst[dataSize - 1] & mask) != (data[dataSize - 1] & mask)) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_DATA_NOT_MATCH,
"data and digest do not match (last byte)");
transform->status = xmlSecTransformStatusFail;
return(0);
}
/* now check the rest of the digest */
if((dataSize > 1) && (memcmp(ctx->dgst, data, dataSize - 1) != 0)) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_DATA_NOT_MATCH,
"data and digest do not match");
transform->status = xmlSecTransformStatusFail;
return(0);
}
transform->status = xmlSecTransformStatusOk;
return(0);
}
static int
xmlSecGCryptHmacExecute(xmlSecTransformPtr transform, int last, xmlSecTransformCtxPtr transformCtx) {
xmlSecGCryptHmacCtxPtr ctx;
xmlSecBufferPtr in, out;
xmlSecByte* dgst;
xmlSecSize dgstSize;
int ret;
xmlSecAssert2(xmlSecGCryptHmacCheckId(transform), -1);
xmlSecAssert2((transform->operation == xmlSecTransformOperationSign) || (transform->operation == xmlSecTransformOperationVerify), -1);
xmlSecAssert2(xmlSecTransformCheckSize(transform, xmlSecGCryptHmacSize), -1);
xmlSecAssert2(transformCtx != NULL, -1);
ctx = xmlSecGCryptHmacGetCtx(transform);
xmlSecAssert2(ctx != NULL, -1);
xmlSecAssert2(ctx->digestCtx != NULL, -1);
in = &(transform->inBuf);
out = &(transform->outBuf);
if(transform->status == xmlSecTransformStatusNone) {
transform->status = xmlSecTransformStatusWorking;
}
if(transform->status == xmlSecTransformStatusWorking) {
xmlSecSize inSize;
inSize = xmlSecBufferGetSize(in);
if(inSize > 0) {
gcry_md_write(ctx->digestCtx, xmlSecBufferGetData(in), inSize);
ret = xmlSecBufferRemoveHead(in, inSize);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"xmlSecBufferRemoveHead",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", inSize);
return(-1);
}
}
if(last) {
/* get the final digest */
gcry_md_final(ctx->digestCtx);
dgst = gcry_md_read(ctx->digestCtx, ctx->digest);
if(dgst == NULL) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"gcry_md_read",
XMLSEC_ERRORS_R_CRYPTO_FAILED,
XMLSEC_ERRORS_NO_MESSAGE);
return(-1);
}
/* copy it to our internal buffer */
dgstSize = gcry_md_get_algo_dlen(ctx->digest);
xmlSecAssert2(dgstSize > 0, -1);
xmlSecAssert2(dgstSize <= sizeof(ctx->dgst), -1);
memcpy(ctx->dgst, dgst, dgstSize);
/* check/set the result digest size */
if(ctx->dgstSize == 0) {
ctx->dgstSize = dgstSize * 8; /* no dgst size specified, use all we have */
} else if(ctx->dgstSize <= 8 * dgstSize) {
dgstSize = ((ctx->dgstSize + 7) / 8); /* we need to truncate result digest */
} else {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_SIZE,
"result-bits=%d;required-bits=%d",
8 * dgstSize, ctx->dgstSize);
return(-1);
}
if(transform->operation == xmlSecTransformOperationSign) {
ret = xmlSecBufferAppend(out, ctx->dgst, dgstSize);
if(ret < 0) {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
"xmlSecBufferAppend",
XMLSEC_ERRORS_R_XMLSEC_FAILED,
"size=%d", dgstSize);
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(&(transform->inBuf)) == 0, -1);
} else {
xmlSecError(XMLSEC_ERRORS_HERE,
xmlSecErrorsSafeString(xmlSecTransformGetName(transform)),
NULL,
XMLSEC_ERRORS_R_INVALID_STATUS,
"size=%d", transform->status);
return(-1);
}
return(0);
}
#ifndef XMLSEC_NO_SHA1
/******************************************************************************
*
* HMAC SHA1
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacSha1Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacSha1, /* const xmlChar* name; */
xmlSecHrefHmacSha1, /* const xmlChar *href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacSha1GetKlass:
*
* The HMAC-SHA1 transform klass.
*
* Returns: the HMAC-SHA1 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacSha1GetKlass(void) {
return(&xmlSecGCryptHmacSha1Klass);
}
#endif /* XMLSEC_NO_SHA1 */
#ifndef XMLSEC_NO_SHA256
/******************************************************************************
*
* HMAC SHA256
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacSha256Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacSha256, /* const xmlChar* name; */
xmlSecHrefHmacSha256, /* const xmlChar *href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacSha256GetKlass:
*
* The HMAC-SHA256 transform klass.
*
* Returns: the HMAC-SHA256 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacSha256GetKlass(void) {
return(&xmlSecGCryptHmacSha256Klass);
}
#endif /* XMLSEC_NO_SHA256 */
#ifndef XMLSEC_NO_SHA384
/******************************************************************************
*
* HMAC SHA384
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacSha384Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacSha384, /* const xmlChar* name; */
xmlSecHrefHmacSha384, /* const xmlChar *href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacSha384GetKlass:
*
* The HMAC-SHA384 transform klass.
*
* Returns: the HMAC-SHA384 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacSha384GetKlass(void) {
return(&xmlSecGCryptHmacSha384Klass);
}
#endif /* XMLSEC_NO_SHA384 */
#ifndef XMLSEC_NO_SHA512
/******************************************************************************
*
* HMAC SHA512
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacSha512Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacSha512, /* const xmlChar* name; */
xmlSecHrefHmacSha512, /* const xmlChar *href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacSha512GetKlass:
*
* The HMAC-SHA512 transform klass.
*
* Returns: the HMAC-SHA512 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacSha512GetKlass(void) {
return(&xmlSecGCryptHmacSha512Klass);
}
#endif /* XMLSEC_NO_SHA512 */
#ifndef XMLSEC_NO_RIPEMD160
/******************************************************************************
*
* HMAC Ripemd160
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacRipemd160Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacRipemd160, /* const xmlChar* name; */
xmlSecHrefHmacRipemd160, /* const xmlChar* href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacRipemd160GetKlass:
*
* The HMAC-RIPEMD160 transform klass.
*
* Returns: the HMAC-RIPEMD160 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacRipemd160GetKlass(void) {
return(&xmlSecGCryptHmacRipemd160Klass);
}
#endif /* XMLSEC_NO_RIPEMD160 */
#ifndef XMLSEC_NO_MD5
/******************************************************************************
*
* HMAC MD5
*
******************************************************************************/
static xmlSecTransformKlass xmlSecGCryptHmacMd5Klass = {
/* klass/object sizes */
sizeof(xmlSecTransformKlass), /* xmlSecSize klassSize */
xmlSecGCryptHmacSize, /* xmlSecSize objSize */
xmlSecNameHmacMd5, /* const xmlChar* name; */
xmlSecHrefHmacMd5, /* const xmlChar* href; */
xmlSecTransformUsageSignatureMethod, /* xmlSecTransformUsage usage; */
xmlSecGCryptHmacInitialize, /* xmlSecTransformInitializeMethod initialize; */
xmlSecGCryptHmacFinalize, /* xmlSecTransformFinalizeMethod finalize; */
xmlSecGCryptHmacNodeRead, /* xmlSecTransformNodeReadMethod readNode; */
NULL, /* xmlSecTransformNodeWriteMethod writeNode; */
xmlSecGCryptHmacSetKeyReq, /* xmlSecTransformSetKeyReqMethod setKeyReq; */
xmlSecGCryptHmacSetKey, /* xmlSecTransformSetKeyMethod setKey; */
xmlSecGCryptHmacVerify, /* xmlSecTransformValidateMethod validate; */
xmlSecTransformDefaultGetDataType, /* xmlSecTransformGetDataTypeMethod getDataType; */
xmlSecTransformDefaultPushBin, /* xmlSecTransformPushBinMethod pushBin; */
xmlSecTransformDefaultPopBin, /* xmlSecTransformPopBinMethod popBin; */
NULL, /* xmlSecTransformPushXmlMethod pushXml; */
NULL, /* xmlSecTransformPopXmlMethod popXml; */
xmlSecGCryptHmacExecute, /* xmlSecTransformExecuteMethod execute; */
NULL, /* void* reserved0; */
NULL, /* void* reserved1; */
};
/**
* xmlSecGCryptTransformHmacMd5GetKlass:
*
* The HMAC-MD5 transform klass.
*
* Returns: the HMAC-MD5 transform klass.
*/
xmlSecTransformId
xmlSecGCryptTransformHmacMd5GetKlass(void) {
return(&xmlSecGCryptHmacMd5Klass);
}
#endif /* XMLSEC_NO_MD5 */
#endif /* XMLSEC_NO_HMAC */
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