sha1algid.c

voltage 公司提供的一个开发Ibe的工具包

/* Copyright 2003-2005, Voltage Security, all rights reserved.
 */
#include "vibe.h"
#include "environment.h"
#include "base.h"
#include "libctx.h"
#include "algobj.h"
#include "oidlist.h"
#include "algid.h"

int VtDerCoderSHA1 (
   VtDerCoderInfo *coderInfo,
   Pointer object,
   unsigned int flag
   )
{
  unsigned int bufferSize;
  VoltAlgorithmObject **obj = (VoltAlgorithmObject **) 0;
  VoltDerCoderEncodeData *encodeData = &(coderInfo->info.encodeData);
  VoltDerCoderGetAlgData *getAlgData = &(coderInfo->info.getAlgData);
  VoltDerCoderDecodeData *decodeData = &(coderInfo->info.decodeData);
  Asn1AlgorithmId *algId;
  VoltLibCtx *libCtx;
  unsigned char sha1AlgID[VoltSHA1AlgIdBytesLen] = { VoltSHA1AlgIdBytes };

  switch (flag)
  {
    default:
      return (VT_ERROR_INVALID_TYPE);

    case VOLT_DER_TYPE_ENCODE_FLAG:
      /* If the flag is ENCODE, return the SHA-1 algID.
       */

      /* Check the args.
       */
      if (object != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      /* The SHA-1 info should be NULL.
       */
      if (encodeData->info != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      /* We need a place to drop the length.
       */
      if (encodeData->encodingLen == (unsigned int *)0)
        return (VT_ERROR_NULL_ARG);

      bufferSize = encodeData->bufferSize;
      if (encodeData->encoding == (unsigned char *)0)
        bufferSize = 0;

      *(encodeData->encodingLen) = VoltSHA1AlgIdBytesLen;
      if (bufferSize < VoltSHA1AlgIdBytesLen)
        return (VT_ERROR_BUFFER_TOO_SMALL);

      /* There's only one possible SHA-1 alg ID.
       */
      libCtx = encodeData->libCtx;
      Z2Memcpy (encodeData->encoding, sha1AlgID, VoltSHA1AlgIdBytesLen);
      return (0);

    case VOLT_DER_TYPE_DECODE_FLAG:
      /* If the flag is decode, set the object to perform SHA-1.
       */
      if(object == (Pointer) 0)
        return VT_ERROR_NULL_ARG;
      obj = (VoltAlgorithmObject **) object;

      /* Check the args, the info should be a pointer to a
       * VoltDerCoderDecodeData struct, with the type
       * VOLT_DER_TYPE_ALG_ID_FLAG.
       */
      if (decodeData->type != VOLT_DER_TYPE_ALG_ID_FLAG)
        return (VT_ERROR_UNKNOWN_BER);

      /* Make sure this is the algId for SHA-1.
       */
      algId = (Asn1AlgorithmId *)(decodeData->asn1Object);
      if (algId->oid->base.length != VoltSHA1OidBytesLen)
        return (VT_ERROR_UNKNOWN_BER);

      libCtx = (VoltLibCtx *)((*obj)->voltObject.libraryCtx);
      if (Z2Memcmp (
          algId->oid->base.data, sha1AlgID + VoltSHA1AlgIdOidOffset,
          VoltSHA1OidBytesLen) != 0)
        return (VT_ERROR_UNKNOWN_BER);

      VtDestroyAlgorithmObject ((VtAlgorithmObject *)object);
      return (VtCreateAlgorithmObject (
        libCtx, VtAlgorithmImplSHA1, (Pointer)0,
        (VtAlgorithmObject *)object));

    case VOLT_DER_TYPE_GET_ALG_FLAG:
      /* If the flag is get alg, check the input to see if it's the
       * SHA-1 OID.
       */

      /* Check the args.
       */
      if (object != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      if ( (getAlgData->algorithm == (unsigned int *)0) ||
           (getAlgData->oid == (unsigned char *)0) )
        return (VT_ERROR_NULL_ARG);

      if (getAlgData->oidLen != VoltSHA1OidBytesLen)
        return (VT_ERROR_UNKNOWN_BER);

      libCtx = getAlgData->libCtx;
      if (Z2Memcmp (
        getAlgData->oid, sha1AlgID + VoltSHA1AlgIdOidOffset,
        VoltSHA1OidBytesLen) != 0)
        return (VT_ERROR_UNKNOWN_BER);

      /* The OID matches, the algorithm is SHA-1.
       */
      *(getAlgData->algorithm) = VT_ALG_ID_SHA1;
      getAlgData->SymKeyParam = (VtKeyParam *)0;
      getAlgData->DigestImpl = VtAlgorithmImplSHA1;

      return (0);
  }
}

int VtDerCoderHMACwSHA1 (
   VtDerCoderInfo *coderInfo,
   Pointer object,
   unsigned int flag
   )
{
  unsigned int bufferSize;
  VoltAlgorithmObject **obj = (VoltAlgorithmObject **) 0;
  VoltDerCoderEncodeData *encodeData = &(coderInfo->info.encodeData);
  VoltDerCoderGetAlgData *getAlgData = &(coderInfo->info.getAlgData);
  VoltDerCoderDecodeData *decodeData = &(coderInfo->info.decodeData);
  Asn1AlgorithmId *algId;
  VoltLibCtx *libCtx;
  VtHMACInfo hmacInfo;
  unsigned char hmacSha1AlgID[VoltHMACSHA1AlgIdBytesLen] = { VoltHMACSHA1AlgIdBytes };

  switch (flag)
  {
    default:
      return (VT_ERROR_INVALID_TYPE);

    case VOLT_DER_TYPE_ENCODE_FLAG:
      /* If the flag is ENCODE, return the SHA-1 algID.
       */

      /* Check the args.
       */
      if (object != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      /* The SHA-1 info should be NULL.
       */
      if (encodeData->info != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      /* We need a place to drop the length.
       */
      if (encodeData->encodingLen == (unsigned int *)0)
        return (VT_ERROR_NULL_ARG);

      bufferSize = encodeData->bufferSize;
      if (encodeData->encoding == (unsigned char *)0)
        bufferSize = 0;

      *(encodeData->encodingLen) = VoltHMACSHA1AlgIdBytesLen;
      if (bufferSize < VoltHMACSHA1AlgIdBytesLen)
        return (VT_ERROR_BUFFER_TOO_SMALL);

      /* There's only one possible SHA-1 alg ID.
       */
      libCtx = encodeData->libCtx;
      Z2Memcpy (encodeData->encoding, hmacSha1AlgID, VoltHMACSHA1AlgIdBytesLen);
      return (0);

    case VOLT_DER_TYPE_DECODE_FLAG:
      /* If the flag is decode, set the object to perform SHA-1.
       */
      if(object == (Pointer) 0)
        return VT_ERROR_NULL_ARG;
      obj = (VoltAlgorithmObject **) object;

      /* Check the args, the info should be a pointer to a
       * VoltDerCoderDecodeData struct, with the type
       * VOLT_DER_TYPE_ALG_ID_FLAG.
       */
      if (decodeData->type != VOLT_DER_TYPE_ALG_ID_FLAG)
        return (VT_ERROR_UNKNOWN_BER);

      /* Make sure this is the algId for HMAC-SHA-1.
       */
      algId = (Asn1AlgorithmId *)(decodeData->asn1Object);
      if (algId->oid->base.length != VoltHMACSHA1OidBytesLen)
        return (VT_ERROR_UNKNOWN_BER);

      libCtx = (VoltLibCtx *)((*obj)->voltObject.libraryCtx);
      if (Z2Memcmp (
          algId->oid->base.data, hmacSha1AlgID + VoltHMACSHA1AlgIdOidOffset,
          VoltHMACSHA1OidBytesLen) != 0)
        return (VT_ERROR_UNKNOWN_BER);

      VtDestroyAlgorithmObject((VtAlgorithmObject *)object);

      hmacInfo.digestImpl = VtAlgorithmImplSHA1;
      hmacInfo.digestImplInfo = (Pointer)0;
      return VtCreateAlgorithmObject(
          libCtx,
          VtAlgorithmImplHMAC,
          (Pointer)&hmacInfo,
          (VtAlgorithmObject *)object);

    case VOLT_DER_TYPE_GET_ALG_FLAG:
      /* If the flag is get alg, check the input to see if it's the
       * HMAC-SHA-1 OID.
       */

      /* Check the args.
       */
      if (object != (Pointer)0)
        return (VT_ERROR_NON_NULL_ARG);

      if ( (getAlgData->algorithm == (unsigned int *)0) ||
           (getAlgData->oid == (unsigned char *)0) )
        return (VT_ERROR_NULL_ARG);

      if (getAlgData->oidLen != VoltHMACSHA1OidBytesLen)
        return (VT_ERROR_UNKNOWN_BER);

      libCtx = getAlgData->libCtx;
      if (Z2Memcmp (
        getAlgData->oid, hmacSha1AlgID + VoltHMACSHA1AlgIdOidOffset,
        VoltHMACSHA1OidBytesLen) != 0)
        return (VT_ERROR_UNKNOWN_BER);

      /* The OID matches, the algorithm is HMAC-SHA-1.
       */
      *(getAlgData->algorithm) = VT_ALG_ID_HMAC_SHA1;
      getAlgData->SymKeyParam = (VtKeyParam *)0;
      getAlgData->DigestImpl = VtAlgorithmImplSHA1;

      return (0);
  }
}