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Fix g++ compiler implicit cast warnings

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This commit is contained in:
David Garske
2025-12-02 10:54:16 -08:00
parent 6deef7c14a
commit 628c1e5225
1 changed files with 51 additions and 45 deletions
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96
wolfcrypt/src/port/intel/quickassist.c
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@@ -473,11 +473,11 @@ int IntelQaHardwareStart(const char* process_name, int limitDevAccess)
}
#if defined(HAVE_ECC) && defined(HAVE_ECC_DHE)
g_qatEcdhY = XMALLOC(MAX_ECC_BYTES, NULL, DYNAMIC_TYPE_ASYNC_NUMA);
g_qatEcdhY = (Cpa8U*)XMALLOC(MAX_ECC_BYTES, NULL, DYNAMIC_TYPE_ASYNC_NUMA);
if (g_qatEcdhY == NULL) {
ret = MEMORY_E; goto error;
}
g_qatEcdhCofactor1 = XMALLOC(MAX_ECC_BYTES, NULL, DYNAMIC_TYPE_ASYNC_NUMA);
g_qatEcdhCofactor1 = (Cpa8U*)XMALLOC(MAX_ECC_BYTES, NULL, DYNAMIC_TYPE_ASYNC_NUMA);
if (g_qatEcdhCofactor1 == NULL) {
ret = MEMORY_E; goto error;
}
@@ -731,7 +731,7 @@ int IntelQaDevCopy(WC_ASYNC_DEV* src, WC_ASYNC_DEV* dst)
if (isHash) {
/* need to duplicate tmpIn */
if (src->qat.op.hash.tmpIn) {
dst->qat.op.hash.tmpIn = XMALLOC(src->qat.op.hash.tmpInBufSz,
dst->qat.op.hash.tmpIn = (byte*)XMALLOC(src->qat.op.hash.tmpInBufSz,
src->heap, DYNAMIC_TYPE_ASYNC_NUMA);
if (dst->qat.op.hash.tmpIn == NULL) {
return MEMORY_E;
@@ -1431,7 +1431,7 @@ int IntelQaRsaKeyGen(WC_ASYNC_DEV* dev, RsaKey* key, int keyBits, long e,
privateKey,
publicKey);
} while (IntelQaHandleCpaStatus(dev, status, &ret, 0,
callback, &retryCount));
(void*)callback, &retryCount));
exit:
@@ -1562,11 +1562,11 @@ int IntelQaRsaPrivate(WC_ASYNC_DEV* dev,
}
opData->inputData.dataLenInBytes = inLen;
opData->inputData.pData = XREALLOC((byte*)in, inLen, dev->heap,
opData->inputData.pData = (Cpa8U*)XREALLOC((byte*)in, inLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
outBuf->dataLenInBytes = *outLen;
outBuf->pData = XREALLOC(out, *outLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
outBuf->pData = (Cpa8U*)XREALLOC(out, *outLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
/* check allocations */
if (opData->inputData.pData == NULL || outBuf->pData == NULL) {
@@ -1592,8 +1592,8 @@ int IntelQaRsaPrivate(WC_ASYNC_DEV* dev,
dev,
opData,
outBuf);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -1667,11 +1667,11 @@ int IntelQaRsaCrtPrivate(WC_ASYNC_DEV* dev,
*outLen = inLen;
opData->inputData.dataLenInBytes = inLen;
opData->inputData.pData = XREALLOC((byte*)in, inLen, dev->heap,
opData->inputData.pData = (Cpa8U*)XREALLOC((byte*)in, inLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
outBuf->dataLenInBytes = *outLen;
outBuf->pData = XREALLOC(out, *outLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
outBuf->pData = (Cpa8U*)XREALLOC(out, *outLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
/* check allocations */
if (opData->inputData.pData == NULL || outBuf->pData == NULL) {
@@ -1697,8 +1697,8 @@ int IntelQaRsaCrtPrivate(WC_ASYNC_DEV* dev,
dev,
opData,
outBuf);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -1823,11 +1823,11 @@ int IntelQaRsaPublic(WC_ASYNC_DEV* dev,
*outLen = n->len;
opData->inputData.dataLenInBytes = inLen;
opData->inputData.pData = XREALLOC((byte*)in, inLen, dev->heap,
opData->inputData.pData = (Cpa8U*)XREALLOC((byte*)in, inLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
outBuf->dataLenInBytes = *outLen;
outBuf->pData = XREALLOC(out, *outLen, dev->heap,
outBuf->pData = (Cpa8U*)XREALLOC(out, *outLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA64);
/* check allocations */
@@ -1850,8 +1850,8 @@ int IntelQaRsaPublic(WC_ASYNC_DEV* dev,
dev,
opData,
outBuf);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_RSA_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -1963,11 +1963,12 @@ int IntelQaRsaExptMod(WC_ASYNC_DEV* dev,
}
opData->base.dataLenInBytes = inLen;
opData->base.pData = XREALLOC((byte*)in, inLen, dev->heap,
opData->base.pData = (Cpa8U*)XREALLOC((byte*)in, inLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
target->dataLenInBytes = *outLen;
target->pData = XREALLOC(out, *outLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
target->pData = (Cpa8U*)XREALLOC(out, *outLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
/* check allocations */
if (opData->base.pData == NULL || target->pData == NULL) {
@@ -1987,7 +1988,7 @@ int IntelQaRsaExptMod(WC_ASYNC_DEV* dev,
opData,
target);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_EXPTMOD_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -2336,9 +2337,10 @@ static int IntelQaSymCipher(WC_ASYNC_DEV* dev, byte* out, const byte* in,
opData = &ctx->opData;
bufferList = &dev->qat.op.cipher.bufferList;
flatBuffer = &dev->qat.op.cipher.flatBuffer;
metaBuf = XMALLOC(metaSize, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
dataBuf = XREALLOC((byte*)in, dataLen, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
ivBuf = XREALLOC((byte*)iv, AES_BLOCK_SIZE, dev->heap,
metaBuf = (Cpa8U*)XMALLOC(metaSize, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
dataBuf = (Cpa8U*)XREALLOC((byte*)in, dataLen, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
ivBuf = (Cpa8U*)XREALLOC((byte*)iv, AES_BLOCK_SIZE, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
/* check allocations */
@@ -2354,7 +2356,7 @@ static int IntelQaSymCipher(WC_ASYNC_DEV* dev, byte* out, const byte* in,
(authInSzAligned % AES_BLOCK_SIZE);
}
authInBuf = XREALLOC((byte*)authIn, authInSzAligned, dev->heap,
authInBuf = (Cpa8U*)XREALLOC((byte*)authIn, authInSzAligned, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (authInBuf == NULL) {
ret = MEMORY_E; goto exit;
@@ -2459,7 +2461,7 @@ static int IntelQaSymCipher(WC_ASYNC_DEV* dev, byte* out, const byte* in,
bufferList,
NULL);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_CIPHER_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -2856,7 +2858,8 @@ static int IntelQaSymHashCache(WC_ASYNC_DEV* dev, byte* out, const byte* in,
/* allocate buffer list */
bufferListSize = sizeof(CpaBufferList) +
(bufferCount * sizeof(CpaFlatBuffer)) + metaSize;
srcList = XMALLOC(bufferListSize, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
srcList = (CpaBufferList*)XMALLOC(bufferListSize, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (srcList == NULL) {
ret = MEMORY_E; goto exit;
}
@@ -2879,7 +2882,8 @@ static int IntelQaSymHashCache(WC_ASYNC_DEV* dev, byte* out, const byte* in,
/* build output */
if (out) {
/* use blockSize for alloc, but we are only returning digestSize */
digestBuf = XMALLOC(blockSize, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
digestBuf = (Cpa8U*)XMALLOC(blockSize, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (digestBuf == NULL) {
ret = MEMORY_E; goto exit;
}
@@ -2924,8 +2928,8 @@ static int IntelQaSymHashCache(WC_ASYNC_DEV* dev, byte* out, const byte* in,
srcList,
srcList,
NULL);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_HASH_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_HASH_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -3448,7 +3452,7 @@ int IntelQaSymSha3(WC_ASYNC_DEV* dev, byte* out, const byte* in, word32 sz)
int ret;
CpaCySymHashAlgorithm hashAlgorithm;
ret = IntelQaHmacGetType(macType, &hashAlgorithm);
ret = IntelQaHmacGetType(macType, (word32*)&hashAlgorithm);
if (ret != 0)
return ret;
@@ -3625,7 +3629,7 @@ int IntelQaEccPointMul(WC_ASYNC_DEV* dev, WC_BIGINT* k,
pXk,
pYk);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_ECMUL_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -3787,7 +3791,7 @@ int IntelQaEcdh(WC_ASYNC_DEV* dev, WC_BIGINT* k, WC_BIGINT* xG,
(void)cofactor;
pXk->dataLenInBytes = q->len; /* bytes key size / 8 (aligned) */
pXk->pData = XREALLOC(out, pXk->dataLenInBytes, dev->heap,
pXk->pData = (Cpa8U*)XREALLOC(out, pXk->dataLenInBytes, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
pYk->dataLenInBytes = q->len;
pYk->pData = g_qatEcdhY;
@@ -3807,7 +3811,7 @@ int IntelQaEcdh(WC_ASYNC_DEV* dev, WC_BIGINT* k, WC_BIGINT* xG,
pXk,
pYk);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_ECDHE_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -3945,9 +3949,9 @@ int IntelQaEcdsaSign(WC_ASYNC_DEV* dev,
pR->dataLenInBytes = n->len; /* bytes key size / 8 (aligned) */
pS->dataLenInBytes = n->len;
pR->pData = XREALLOC(r->buf, pR->dataLenInBytes, dev->heap,
pR->pData = (Cpa8U*)XREALLOC(r->buf, pR->dataLenInBytes, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
pS->pData = XREALLOC(s->buf, pS->dataLenInBytes, dev->heap,
pS->pData = (Cpa8U*)XREALLOC(s->buf, pS->dataLenInBytes, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (pR->pData == NULL || pS->pData == NULL) {
@@ -3969,7 +3973,7 @@ int IntelQaEcdsaSign(WC_ASYNC_DEV* dev,
pR,
pS);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_ECDSA_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -4094,7 +4098,7 @@ int IntelQaEcdsaVerify(WC_ASYNC_DEV* dev, WC_BIGINT* m,
opData,
verifyStatus);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_ECDSA_ASYNC,
callback, &retryCount));
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -4215,7 +4219,8 @@ int IntelQaDhKeyGen(WC_ASYNC_DEV* dev, WC_BIGINT* p, WC_BIGINT* g,
ret = BAD_FUNC_ARG; goto exit;
}
pOut->dataLenInBytes = p->len;
pOut->pData = XREALLOC(pub, p->len, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
pOut->pData = (Cpa8U*)XREALLOC(pub, p->len, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (pOut->pData == NULL) {
ret = MEMORY_E; goto exit;
}
@@ -4233,8 +4238,8 @@ int IntelQaDhKeyGen(WC_ASYNC_DEV* dev, WC_BIGINT* p, WC_BIGINT* g,
dev,
opData,
pOut);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_DH_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_DH_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;
@@ -4366,13 +4371,14 @@ int IntelQaDhAgree(WC_ASYNC_DEV* dev, WC_BIGINT* p,
}
opData->remoteOctetStringPV.dataLenInBytes = pubSz;
opData->remoteOctetStringPV.pData = XREALLOC((byte*)otherPub, pubSz,
opData->remoteOctetStringPV.pData = (Cpa8U*)XREALLOC((byte*)otherPub, pubSz,
dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
opData->privateValueX.dataLenInBytes = privSz;
opData->privateValueX.pData = XREALLOC((byte*)priv, privSz, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
opData->privateValueX.pData = (Cpa8U*)XREALLOC((byte*)priv, privSz,
dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
pOut->dataLenInBytes = p->len;
pOut->pData = XREALLOC(agree, p->len, dev->heap, DYNAMIC_TYPE_ASYNC_NUMA);
pOut->pData = (Cpa8U*)XREALLOC(agree, p->len, dev->heap,
DYNAMIC_TYPE_ASYNC_NUMA);
if (opData->remoteOctetStringPV.pData == NULL ||
opData->privateValueX.pData == NULL || pOut->pData == NULL) {
@@ -4391,8 +4397,8 @@ int IntelQaDhAgree(WC_ASYNC_DEV* dev, WC_BIGINT* p,
dev,
opData,
pOut);
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_DH_ASYNC, callback,
&retryCount));
} while (IntelQaHandleCpaStatus(dev, status, &ret, QAT_DH_ASYNC,
(void*)callback, &retryCount));
if (ret == WC_PENDING_E)
return ret;