{
S32 ret;
- TRC2(cmInetPoll);
ret = 0;
*numRdyFds = 0;
#endif
{
- TRC2(cmInetPollSetFd);
if ((idx) >= CM_INET_POLL_MAXFDSUPP || (idx) < 0)
{
{
S16 ret;
- TRC2(cmInetPollFdIsSet);
if((idx < 0) || (idx > CM_INET_POLL_MAXFDSUPP))
{
#endif
{
- TRC2(cmInetPollClearFdREvent);
if((idx < 0) || (idx > CM_INET_POLL_MAXFDSUPP))
#endif
{
- TRC2(cmInetPollClearFdEvent);
if((idx < 0) || (idx > CM_INET_POLL_MAXFDSUPP))
#endif
{
- TRC2(cmInetPollDelFd);
if(lastIdx < delIdx || lastIdx < 0 || delIdx < 0)
{
{
S16 idx;
- TRC2(cmInetPollInitFdArr);
/* Sets each element of pollFdArr to initial value
fd = -1
events = 0
Bool bNewBehavior;
#endif /* WIN2K && WIN32 */
- TRC2(cmInetSocket);
#if (defined(WIN32) && defined(WIN2K))
bytesReturned = 0;
U32 sizeOfAddr; /* sizeof address passed to the bind call */
CmInetSockAddr *sockAddrPtr;
- TRC2(cmInetBind);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#ifdef IPV6_SUPPORTED
if (myAddr->type == CM_INET_IPV6ADDR_TYPE)
{
- cmMemset((U8*)&srcAddr6, 0, sizeof(srcAddr6));
+ memset(&srcAddr6, 0, sizeof(srcAddr6));
srcAddr6.sin6_family = AF_INET6;
srcAddr6.sin6_port = CM_INET_HTON_U16(myAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&srcAddr6.sin6_addr,
}
else
{
- cmMemset((U8*)&srcAddr, 0, sizeof(srcAddr));
+ memset(&srcAddr, 0, sizeof(srcAddr));
srcAddr.sin_family = AF_INET;
srcAddr.sin_port = CM_INET_HTON_U16(myAddr->u.ipv4Addr.port);
srcAddr.sin_addr.s_addr = CM_INET_HTON_U32(myAddr->u.ipv4Addr.address);
sockAddrPtr = (CmInetSockAddr *)&srcAddr;
}
#else
- cmMemset((U8*)&srcAddr, 0, sizeof(srcAddr));
+ memset(&srcAddr, 0, sizeof(srcAddr));
srcAddr.sin_family = AF_INET;
srcAddr.sin_port = CM_INET_HTON_U16(myAddr->port);
srcAddr.sin_addr.s_addr = CM_INET_HTON_U32(myAddr->address);
}
#endif /* ERRCLASS & ERRCLS_INT_PAR */
- cmMemset((U8*)&addrs, 0, (sizeof(struct sockaddr_in) * CM_INET_NUM_NET_ADDR));
+ memset(&addrs, 0, (sizeof(struct sockaddr_in) * CM_INET_NUM_NET_ADDR));
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)&addrs6, 0, (sizeof(struct sockaddr_in6) * CM_INET_NUM_NET_ADDR));
+ memset(&addrs6, 0, (sizeof(struct sockaddr_in6) * CM_INET_NUM_NET_ADDR));
#endif /* IPV6_SUPPORTED */
for (idx = 0; idx < addrLst->count; idx++)
addrLst->addrs[idx].u.ipv4NetAddr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
cmInetNtoa(addrLst->addrs[idx].u.ipv4NetAddr, &addrString);
addrLen = cmStrlen((U8*)addrString);
- cmMemcpy((U8*)(ipv4Format+7), (U8*)addrString, addrLen);
+ memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addrs6[idx6].sin6_addr.s6_addr), ipv4Format);
idx6++;
{
sockAddrPtr = (struct sockaddr*)address_array;
sockAddrLen = sizeof(struct sockaddr_in);
- cmMemcpy((U8*)address_array, (U8*)addrs, ipv4_array_size);
+ memcpy(address_array, addrs, ipv4_array_size);
}
#ifdef IPV6_SUPPORTED
else
if(ipv6_array_size > 0)
{
- cmMemcpy((U8*)(address_array + ipv4_array_size), (U8*)addrs6, ipv6_array_size);
+ memcpy((address_array + ipv4_array_size), addrs6, ipv6_array_size);
}
#endif /* IPV6_SUPPORTED */
#endif /* ERRCLASS & ERRCLS_INT_PAR */
- cmMemset((U8*)&addrs, 0, (sizeof(struct sockaddr_in) * CM_INET_NUM_NET_ADDR));
+ memset(&addrs, 0, (sizeof(struct sockaddr_in) * CM_INET_NUM_NET_ADDR));
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)&addrs6, 0, (sizeof(struct sockaddr_in6) * CM_INET_NUM_NET_ADDR));
+ memset(&addrs6, 0, (sizeof(struct sockaddr_in6) * CM_INET_NUM_NET_ADDR));
#endif /* IPV6_SUPPORTED */
cnt = 0;
ipv4NetAddr = CM_INET_HTON_U32(primAddr->u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
addrLen = cmStrlen((U8*)addrString);
- cmMemcpy((U8*)(ipv4Format+7), (U8*)addrString, addrLen);
+ memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)&(addrs6[idx6].sin6_addr), ipv4Format);
addresses_array_size += sizeof(struct sockaddr_in6);
ipv4NetAddr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
addrLen = cmStrlen((U8*)addrString);
- cmMemcpy((U8*)(ipv4Format+7), (U8*)addrString, addrLen);
+ memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addrs6[idx6].sin6_addr.s6_addr), ipv4Format);
addresses_array_size += sizeof(struct sockaddr_in6);
if((ipv4_array_size > 0) && (ipv4_array_size <= (CM_INET_NUM_NET_ADDR * \
sizeof(struct sockaddr_in))))
{
- cmMemcpy((U8*)address_array, (U8*)&addrs[0], ipv4_array_size);
+ memcpy(address_array, &addrs[0], ipv4_array_size);
}
else
{
if((ipv6_array_size > 0) && (ipv6_array_size <= (CM_INET_NUM_NET_ADDR * \
sizeof(struct sockaddr_in))))
{
- cmMemcpy((U8*)(address_array + ipv4_array_size), (U8*)addrs6, ipv6_array_size);
+ memcpy((address_array + ipv4_array_size), addrs6, ipv6_array_size);
}
else
{
#endif /* ERRCLASS & ERRCLS_INT_PAR */
- cmMemset((U8*)&addr, 0, sizeof(struct sockaddr_in));
+ memset(&addr, 0, sizeof(struct sockaddr_in));
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)&addr6, 0, sizeof(struct sockaddr_in6));
+ memset(&addr6, 0, sizeof(struct sockaddr_in6));
#endif /* IPV6_SUPPORTED */
/* copy message to a flat buffer */
ipv4NetAddr = CM_INET_HTON_U32(dstAddr->u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
addrLen = cmStrlen((U8*)addrString);
- cmMemcpy((U8*)(ipv4Format+7), (U8*)addrString, addrLen);
+ memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addr6.sin6_addr.s6_addr), ipv4Format);
sockAddrLen = sizeof(struct sockaddr_in6);
*mBuf = NULLP;
*len = 0;
- cmMemset((U8*)ntfy, 0, sizeof(CmInetSctpNotification));
+ memset(ntfy, 0, sizeof(CmInetSctpNotification));
buflen = CM_INET_MAX_MSG_LEN;
addrlen = sizeof(struct sockaddr_storage);
msgFlags = 0;
- cmMemset((U8*)&addr, 0, sizeof(struct sockaddr_storage));
- cmMemset((U8*)&info, 0, sizeof(struct sctp_sndrcvinfo));
+ memset(&addr, 0, sizeof(struct sockaddr_storage));
+ memset(&info, 0, sizeof(struct sctp_sndrcvinfo));
ret = sctp_recvmsg(sockFd->fd, (Void *)recvbuf, (size_t)buflen,
(struct sockaddr*)&addr, &addrlen, &info,
if((cmMemcmp(ipv4Format, pAddr6->sin6_addr.s6_addr, 12)) == 0)
{
srcAddr->type = CM_INET_IPV4ADDR_TYPE;
- cmMemcpy((U8*)&srcAddr->u.ipv4NetAddr, (U8*)((pAddr6->sin6_addr.s6_addr) + 12), sizeof(U32));
+ memcpy(&srcAddr->u.ipv4NetAddr, ((pAddr6->sin6_addr.s6_addr) + 12), sizeof(U32));
srcAddr->u.ipv4NetAddr = CM_INET_HTON_U32(srcAddr->u.ipv4NetAddr);
}
ntfy->u.remoteErr.data = NULLP;
break;
}
- cmMemcpy(ntfy->u.remoteErr.data,\
+ memcpy(ntfy->u.remoteErr.data,\
sctpNtfy->sn_remote_error.sre_data, datlen);
#endif
break;
ntfy->u.sndFailed.data = NULLP;
break;
}
- cmMemcpy(ntfy->u.sndFailed.data,\
+ memcpy(ntfy->u.sndFailed.data,\
sctpNtfy->sn_send_failed.ssf_data, datlen );
#endif
ntfy->u.sndFailed.info.stream = sctpNtfy->sn_send_failed.ssf_info.sinfo_stream;
/*cm_inet_c_001.main_58 : fix for klockwork issue */
S32 ret;
- TRC2(cmInetGetOpt);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
{
case CM_INET_OPT_SCTP_GET_ASSOC_STA:
pSctpStatus = (CmInetSctpStatus*)value;
- cmMemset((U8*)&status, 0, sizeof(struct sctp_status));
+ memset(&status, 0, sizeof(struct sctp_status));
len = sizeof(status);
status.sstat_assoc_id = pSctpStatus->assocId;
case CM_INET_OPT_SCTP_GET_PADDR_INFO:
pPeerAddrInfo = (CmInetSctpPeerAddrInfo*)value;
- cmMemset((U8*)&addrInfo, 0, sizeof(struct sctp_paddrinfo));
+ memset(&addrInfo, 0, sizeof(struct sctp_paddrinfo));
len = sizeof(addrInfo);
addrInfo.spinfo_assoc_id = pPeerAddrInfo->assocId;
pPeerAddrParams = (CmInetSctpPeerAddrParams *)value;
- cmMemset((U8*)&addrParams, 0, sizeof(struct sctp_paddrparams));
+ memset(&addrParams, 0, sizeof(struct sctp_paddrparams));
addrParams.spp_assoc_id = pPeerAddrParams->assocId;
pAssocParams = (CmInetSctpAssocParams *)value;
- cmMemset((U8*)&assocParams, 0, sizeof(struct sctp_assocparams));
+ memset(&assocParams, 0, sizeof(struct sctp_assocparams));
assocParams.sasoc_assoc_id = pAssocParams->assocId;
pRtoInfo = (CmInetSctpRtoInfo *)value;
- cmMemset((U8*)&rtoInfo, 0, sizeof(struct sctp_rtoinfo));
+ memset(&rtoInfo, 0, sizeof(struct sctp_rtoinfo));
len = sizeof(rtoInfo);
pInitMsg = (CmInetSctpInitMsg *)value;
- cmMemset((U8*)&initMsg, 0, sizeof(struct sctp_initmsg));
+ memset(&initMsg, 0, sizeof(struct sctp_initmsg));
len = sizeof(initMsg);
S32 ret;
struct sctp_sndrcvinfo sndRcvInfo;
- TRC2(cmInetShutDownSctp);
- cmMemset((U8*)&sndRcvInfo, 0, sizeof(sndRcvInfo));
+ memset(&sndRcvInfo, 0, sizeof(sndRcvInfo));
#ifdef SUN_KSCTP
sndRcvInfo.sinfo_flags = MSG_EOF;
S32 ret;
struct sctp_sndrcvinfo sndRcvInfo;
- TRC2(cmInetAbortSctpAssoc);
- cmMemset((U8*)&sndRcvInfo, 0, sizeof(sndRcvInfo));
+ memset(&sndRcvInfo, 0, sizeof(sndRcvInfo));
#ifdef SUN_KSCTP
sndRcvInfo.sinfo_flags = MSG_ABORT;
S32 sizeOfAddr;
CmInetSockAddr *sockAddrPtr;
- TRC2(cmInetConnect);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#ifdef IPV6_SUPPORTED
if (servAddr->type == CM_INET_IPV6ADDR_TYPE)
{
- cmMemset((U8*)&dstAddr6, 0, sizeof(dstAddr6));
+ memset(&dstAddr6, 0, sizeof(dstAddr6));
dstAddr6.sin6_family = AF_INET6;
dstAddr6.sin6_port = CM_INET_HTON_U16(servAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&dstAddr6.sin6_addr,
}
else
{
- cmMemset((U8*)&dstAddr, 0, sizeof(dstAddr));
+ memset(&dstAddr, 0, sizeof(dstAddr));
dstAddr.sin_family = AF_INET;
dstAddr.sin_port = CM_INET_HTON_U16(servAddr->u.ipv4Addr.port);
dstAddr.sin_addr.s_addr = CM_INET_HTON_U32(servAddr->u.ipv4Addr.address);
sockAddrPtr = (CmInetSockAddr *)&dstAddr;
}
#else
- cmMemset((U8*)&dstAddr, 0, sizeof(dstAddr));
+ memset(&dstAddr, 0, sizeof(dstAddr));
dstAddr.sin_family = AF_INET;
dstAddr.sin_port = CM_INET_HTON_U16(servAddr->port);
dstAddr.sin_addr.s_addr = CM_INET_HTON_U32(servAddr->address);
{
S32 ret; /* temporary return value */
- TRC2(cmInetListen);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
U32 optVal;
/* added */
- TRC2(cmInetAccept)
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
}
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)fromAddr, 0, sizeof(fromAddr));
+ memset(fromAddr, 0, sizeof(fromAddr));
if (addrLen == sizeof(struct sockaddr_in))
{
peerAddr = (struct sockaddr_in *)&sockAddr;
struct cmsghdr *tempHdr;
U8 len;
- TRC2(cmInet4FillTos)
len = 0;
MsgLen ioLen;
#endif
- TRC2(cmInetSendDscpMsg)
UNUSED(flags);
/* added for IPv6 ext hdr */
#if !(defined(WIN32) || defined(CMINETFLATBUF))
#if (defined(SS_LINUX) || defined(_XPG4_2))
-/* cmMemset((U8*)cmsgData, 0, sizeof(cmsgData)); */
+/* memset(cmsgData, 0, sizeof(cmsgData)); */
#endif /* SS_LINUX || _XPG4_2 */
curMsgIdx = 0;
#endif /* WIN32 | CMINETFLATBUF */
#ifdef IPV6_SUPPORTED
if (dstAddr->type == CM_INET_IPV6ADDR_TYPE)
{
- cmMemset((U8*)&remAddr6, 0, sizeof(remAddr6));
+ memset(&remAddr6, 0, sizeof(remAddr6));
remAddr6.sin6_family = AF_INET6;
remAddr6.sin6_port = CM_INET_HTON_U16(dstAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&remAddr6.sin6_addr,
}
else
{
- cmMemset((U8*)&remAddr, 0, sizeof(remAddr));
+ memset(&remAddr, 0, sizeof(remAddr));
remAddr.sin_family = AF_INET;
remAddr.sin_port = CM_INET_HTON_U16(dstAddr->u.ipv4Addr.port);
remAddr.sin_addr.s_addr =
sockAddrPtr = (CmInetSockAddr *)&remAddr;
}
#else
-/* cmMemset((U8*)&remAddr, 0, sizeof(remAddr)); */
+/* memset(&remAddr, 0, sizeof(remAddr)); */
remAddr.sin_family = AF_INET;
remAddr.sin_port = CM_INET_HTON_U16(dstAddr->port);
remAddr.sin_addr.s_addr = CM_INET_HTON_U32(dstAddr->address);
}
/* added */
-/* cmMemset((U8*)&msg, 0, sizeof(msg)); */
+/* memset(&msg, 0, sizeof(msg)); */
msg.msg_flags = 0;
if (dstAddr != NULLP)
MsgLen ioLen;
#endif
- TRC2(cmInetSendMsg)
UNUSED(flags);
/* added for IPv6 ext hdr */
#if !(defined(WIN32) || defined(CMINETFLATBUF))
#if (defined(SS_LINUX) || defined(_XPG4_2))
-/* cmMemset((U8*)cmsgData, 0, sizeof(cmsgData)); */
+/* memset(cmsgData, 0, sizeof(cmsgData)); */
#endif /* SS_LINUX || _XPG4_2 */
#ifdef IPV6_OPTS_SUPPORTED
curMsgIdx = 0;
#ifdef IPV6_SUPPORTED
if (dstAddr->type == CM_INET_IPV6ADDR_TYPE)
{
- cmMemset((U8*)&remAddr6, 0, sizeof(remAddr6));
+ memset(&remAddr6, 0, sizeof(remAddr6));
remAddr6.sin6_family = AF_INET6;
remAddr6.sin6_port = CM_INET_HTON_U16(dstAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&remAddr6.sin6_addr,
}
else
{
- cmMemset((U8*)&remAddr, 0, sizeof(remAddr));
+ memset(&remAddr, 0, sizeof(remAddr));
remAddr.sin_family = AF_INET;
remAddr.sin_port = CM_INET_HTON_U16(dstAddr->u.ipv4Addr.port);
remAddr.sin_addr.s_addr =
sockAddrPtr = (CmInetSockAddr *)&remAddr;
}
#else
-/* cmMemset((U8*)&remAddr, 0, sizeof(remAddr)); */
+/* memset(&remAddr, 0, sizeof(remAddr)); */
remAddr.sin_family = AF_INET;
remAddr.sin_port = CM_INET_HTON_U16(dstAddr->port);
remAddr.sin_addr.s_addr = CM_INET_HTON_U32(dstAddr->address);
}
/* added */
-/* cmMemset((U8*)&msg, 0, sizeof(msg)); */
+/* memset(&msg, 0, sizeof(msg)); */
msg.msg_flags = 0;
if (dstAddr != NULLP)
struct in6_addr lpBkAddr;
U8 len;
- TRC2(cmInet6BuildSendPktinfo)
len = 0;
if(protType == AF_INET6)
{
/* store ipv6 src addr */
- cmMemcpy((U8 *)&(ipv6Pktinfo->ipi6_addr), (U8 *)srcAddr, 16);
+ memcpy(&(ipv6Pktinfo->ipi6_addr), srcAddr, 16);
len += 16;
/* store interface index */
struct cmsghdr *tempHdr;
U8 len;
- TRC2(cmInetBuildSendHoplimit)
len = 0;
U8 len;
U8 optsIdx;
- TRC2(cmInet6BuildSendHBHOpts)
len = 0;
optsIdx = 0;
len += sizeof(hbhOptsArr->hbhOpts[optsIdx].length);
/* copy all value bytes of current HBH/dest option to the flat buffer */
- cmMemcpy((U8 *)(cmsgBuf + len),
- (U8 *)(hbhOptsArr->hbhOpts[optsIdx].value),
+ memcpy((cmsgBuf + len),
+ (hbhOptsArr->hbhOpts[optsIdx].value),
hbhOptsArr->hbhOpts[optsIdx].length);
len += hbhOptsArr->hbhOpts[optsIdx].length;
}
U8 len;
U8 addrIdx;
- TRC2(cmInet6BuildSendRouteOpts);
len = 0;
addrIdx = 0;
/* fill up all IPV6 addresses from rtOptsArr in the flat buffer */
for (addrIdx = 0; addrIdx < rtOptsArr->numAddrs; addrIdx++)
{
- cmMemcpy((U8 *)(cmsgBuf + len),
- (U8 *)(rtOptsArr->ipv6Addrs[addrIdx]), 16);
+ memcpy((cmsgBuf + len),
+ (rtOptsArr->ipv6Addrs[addrIdx]), 16);
len += 16;
}
U8 tempType;
S16 ret;
- TRC2(cmInet6BuildRecvHopOptsArr)
/* get length of actual hbh ancillary data */
hbhDataLen -= sizeof(struct cmsghdr);
return (ROUTRES);
}
/* copy the value bytes */
- cmMemcpy((U8 *)hbhOptsArr->hbhOpts[optsIdx].value,
- (U8 *)(cmsgData + curDataIdx),
+ memcpy(hbhOptsArr->hbhOpts[optsIdx].value,
+ (cmsgData + curDataIdx),
hbhOptsArr->hbhOpts[optsIdx].length);
curDataIdx += hbhOptsArr->hbhOpts[optsIdx].length;
}
U8 i; /* loop counter */
S16 ret; /* temporary return value */
- TRC2(cmInet6BuildRecvRtHdr)
/* byte len of actual rtHdr ancil data */
rtDataLen -= sizeof(struct cmsghdr);
curDataIdx += 1;
/* copy 1 reserve byte + 3 strict/loose bytes */
- cmMemcpy((U8 *)(&rtOptsArr->slMap),
- (U8 *)(cmsgData + curDataIdx), 4);
+ memcpy((&rtOptsArr->slMap),
+ (cmsgData + curDataIdx), 4);
curDataIdx += 4;
/* also save reserv byte + 3 sl bytes to rtHdro struc */
/* copy all the ipv6 addresses */
for(i=0; i < rtOptsArr->numAddrs; i++)
{
- cmMemcpy((U8 *)(rtOptsArr->ipv6Addrs[i]),
- (U8 *)(cmsgData + curDataIdx), 16);
+ memcpy((rtOptsArr->ipv6Addrs[i]),
+ (cmsgData + curDataIdx), 16);
curDataIdx += 16;
}
/* cm_inet_c_001.main_55:Removed unused variables errValue and optLen */
- TRC2(cmInetRecvMsg)
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#endif /* IPV6_SUPPORTED */
#if (defined(SS_LINUX) || defined(_XPG4_2))
- cmMemset((U8*)ancillData, 0, sizeof(ancillData));
+ memset(ancillData, 0, sizeof(ancillData));
#endif /* SS_LINUX || _XPG4_2 */
#endif /* (WIN32 | CMINETFLATBUF) */
/* clear the structure */
- cmMemset((U8*)&remSockAddr, 0, sizeof(remSockAddr));
+ memset(&remSockAddr, 0, sizeof(remSockAddr));
/* get number of pending data */
/* removed 3rd arg memInfo. MemInfo is no longer
localIf->intfPrsnt = TRUE;
localIf->localIf = pkt6Info->ipi6_ifindex;
localIf->localIfAddr.type = CM_INET_IPV6ADDR_TYPE;
- cmMemcpy((U8 *)&localIf->localIfAddr.u.ipv6NetAddr,
- (U8 *)(int *)&pkt6Info->ipi6_addr, 16);
+ memcpy(&localIf->localIfAddr.u.ipv6NetAddr,
+ &pkt6Info->ipi6_addr, 16);
}
}
#endif /* LOCAL_INTF */
CmInetSockAddr remSockAddr; /* to get packet's source IP address */
#endif /* IPV6_SUPPORTED */
- TRC2(cmInetPeeknew);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
if ((fromAddr != NULLP) && (remAddrLen > 0))
{
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)fromAddr, 0, sizeof(fromAddr));
+ memset(fromAddr, 0, sizeof(fromAddr));
if (remAddrLen == sizeof(struct sockaddr_in6))
{
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
CmInetSockAddr remSockAddr; /* to get packet's source IP address */
#endif /* IPV6_SUPPORTED */
- TRC2(cmInetPeek);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
if ((fromAddr != NULLP) && (remAddrLen > 0))
{
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)fromAddr, 0, sizeof(fromAddr));
+ memset(fromAddr, 0, sizeof(fromAddr));
if (remAddrLen == sizeof(struct sockaddr_in6))
{
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
{
S32 ret; /* temporary return value */
- TRC2(cmInetClose);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
{
S32 ret; /* temporary return value */
- TRC2(cmInetShutdown);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
U32 *optVal;
- TRC2(cmInetSetOpt);
/* cm_inet_c_001.main_58 : Added NULL check for value field */
if(value == NULLP)
case CM_INET_OPT_LINGER:
pSockLinger = (CmInetSockLinger *)value;
- cmMemset((U8*)&lngr, 0, sizeof(struct linger));
+ memset(&lngr, 0, sizeof(struct linger));
if (pSockLinger->enable == TRUE)
lngr.l_onoff = 1;
case CM_INET_OPT_SCTP_EVENTS:
pSctpEvent = (CmInetSctpSockEvent *)value;
- cmMemset((U8*)&event, 0, sizeof(struct sctp_event_subscribe));
+ memset(&event, 0, sizeof(struct sctp_event_subscribe));
if (pSctpEvent->dataIoEvent == TRUE)
event.sctp_data_io_event = 1;
case CM_INET_OPT_SCTP_PRIM_ADDR:
pSctpPrimAddr = (CmInetSctpPrimAddr *)value;
- cmMemset((U8*)&setPrim, 0, sizeof(struct sctp_setprim));
+ memset(&setPrim, 0, sizeof(struct sctp_setprim));
#ifdef IPV6_SUPPORTED
if (pSctpPrimAddr->addr.type == CM_INET_IPV6ADDR_TYPE)
case CM_INET_OPT_SCTP_PEERADDR_PARAMS:
pSctpPAddrParams = (CmInetSctpPeerAddrParams *)value;
- cmMemset((U8*)&addrParams, 0, sizeof(struct sctp_paddrparams));
+ memset(&addrParams, 0, sizeof(struct sctp_paddrparams));
if (pSctpPAddrParams->s.addrPres == TRUE)
case CM_INET_OPT_SCTP_ASSOC_PARAMS:
pSctpAssocParams = (CmInetSctpAssocParams *)value;
- cmMemset((U8*)&assocParams, 0, sizeof(struct sctp_assocparams));
+ memset(&assocParams, 0, sizeof(struct sctp_assocparams));
assocParams.sasoc_cookie_life = pSctpAssocParams->cookieLife;
assocParams.sasoc_asocmaxrxt = pSctpAssocParams->assocMaxReTx;
case CM_INET_OPT_SCTP_RTO_INFO:
pSctpRtoInfo = (CmInetSctpRtoInfo *)value;
- cmMemset((U8*)&rtoinfo, 0, sizeof(struct sctp_rtoinfo));
+ memset(&rtoinfo, 0, sizeof(struct sctp_rtoinfo));
rtoinfo.srto_assoc_id = pSctpRtoInfo->assocId;
rtoinfo.srto_initial = pSctpRtoInfo->rtoInitial;
case CM_INET_OPT_SCTP_INIT_MSG:
pSctpInitMsg = (CmInetSctpInitMsg *)value;
- cmMemset((U8*)&initmsg, 0, sizeof(struct sctp_initmsg));
+ memset(&initmsg, 0, sizeof(struct sctp_initmsg));
initmsg.sinit_max_attempts = pSctpInitMsg->maxInitReTx;
initmsg.sinit_max_init_timeo = pSctpInitMsg->maxInitTimeout;
/* removed local variables added for recvfrom call */
- TRC2(cmInetGetNumRead);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#endif /* SS_VW */
#endif /* WIN32 || SS_LINUX || HPOS */
- TRC2(cmInetGetHostByName)
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#endif /* SUNOS */
#endif /* IPV6_SUPPORTED */
- TRC2(cmInetGetIpNodeByName)
#if (ERRCLASS & ERRCLS_INT_PAR)
CmInetIpAddr *address; /* 4 byte interent address */
#endif
{
- TRC2(cmInetAddr);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
{
struct in_addr inetAddr; /* internet address structure */
- TRC2(cmInetNtoa);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
{
S32 domain = 0;
- TRC2(cmInetNtop);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
{
S16 ret;
- TRC2(cmInetPton);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
struct sockaddr_storage ss;
U32 sslen = sizeof(ss);
#endif /* WIN32 */
- TRC2(cmInetPton);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
/* cm_inet_c_001.main_44 : In windows inet_pton is not implemented. so we are using the below function
* to convert the ipv6 address string to appropriate form */
WSAStringToAddressA((LPTSTR)asciiAddr, AF_INET6, NULL, (struct sockaddr*)&ss, &sslen);
- cmMemcpy((U8*)address6, (U8*)&(((struct sockaddr_in6 *)&ss)->sin6_addr), sizeof(CmInetIpAddr6));
+ memcpy(address6, &(((struct sockaddr_in6 *)&ss)->sin6_addr), sizeof(CmInetIpAddr6));
#endif /* WIN32 */
return ROK;
/*cm_inet_c_001.main_58 : fix for klockwork issue */
S32 ret;
- TRC2(cmInetGetSockName);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
}
#endif /* ERRCLASS & ERRCLS_INT_PAR */
- cmMemset((U8*)&lclSockAddr, 0, sizeof(lclSockAddr));
+ memset(&lclSockAddr, 0, sizeof(lclSockAddr));
size = sizeof(lclSockAddr);
#ifdef UNIX
/* Fill the returned address in to locAddr */
#ifdef IPV6_SUPPORTED
- cmMemset((U8*)locAddr, 0, sizeof(CmInetAddr));
+ memset(locAddr, 0, sizeof(CmInetAddr));
if (size == sizeof(struct sockaddr_in6))
{
sockAddr6 = (struct sockaddr_in6 *)&lclSockAddr;
Bool embedIPV4 = FALSE; /* IPV4 embedded in IPV6 ? */
#endif /* IPV6_SUPPORTED*/
- TRC2(cmInetConvertStrToIpAddr)
idx = 0;
#ifdef IPV6_SUPPORTED
compressed = FALSE;
embedIPV4 = FALSE;
ipv6 = ipv6Reg; /* assign pointer to IPV6 regular, uncompressed */
- cmMemset((U8 *)ipv6Reg, 0, CM_INET_IPV6ADDR_SIZE);
- cmMemset((U8 *)ipv6Cmp, 0, CM_INET_IPV6ADDR_SIZE);
+ memset(ipv6Reg, 0, CM_INET_IPV6ADDR_SIZE);
+ memset(ipv6Cmp, 0, CM_INET_IPV6ADDR_SIZE);
#endif /* IPV6_SUPPORTED*/
- cmMemset((U8 *)ipv4, 0, CM_INET_IPV4ADDR_SIZE);
+ memset(ipv4, 0, CM_INET_IPV4ADDR_SIZE);
/* Check for IP Address */
while ((val[idx] != '.') && (val[idx] != ':') &&
{
/* convert number to IPV4 */
ipv6[ipv6Idx] = 0; /* clear out whatever we did */
- cmMemset((U8 *)ipv4, 0, CM_INET_IPV4ADDR_SIZE);
+ memset(ipv4, 0, CM_INET_IPV4ADDR_SIZE);
retVal = cmInetAsciiToIpv4(4, ipv4, len - blkBeginIdx,
&(val[blkBeginIdx]));
/* stop the loop, embedded IPV4 is the last part of
/* convert IPV6 to cmInetIpv6 */
address->type = CM_INET_IPV6ADDR_TYPE;
- cmMemcpy((U8 *)address->u.ipv6NetAddr,
- (CONSTANT U8 *) ipv6Reg, CM_INET_IPV6ADDR_SIZE);
+ memcpy(address->u.ipv6NetAddr,
+ ipv6Reg, CM_INET_IPV6ADDR_SIZE);
} /* else, IPV6 */
#endif /* IPV6_SUPPORTED */
U8 byteCount; /* Byte Count */
U8 idx; /* Index for string*/
- TRC2(cmInetAsciiToIpv4)
idx = 0;
for (byteCount = 0; byteCount < numBytes; byteCount++)
#endif
{
S32 ret;
- TRC2(cmInetGetAddrInfo);
ret = ROK;
#if (ERRCLASS & ERRCLS_INT_PAR)
CmInetAddrInfo *res; /* Link list of addrInfo structure */
#endif
{
- TRC2(cmInetFreeAddrInfo);
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
U32 errValue; /* error value */
U32 optLen; /* option length */
- TRC2(cmInetFlushRcvBuf)
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
#endif /* (WIN32 | CMINETFLATBUF) */
/* clear the structure */
- cmMemset((U8*)&remSockAddr, 0, sizeof(remSockAddr));
+ memset(&remSockAddr, 0, sizeof(remSockAddr));
/* get number of pending data */
ret = cmInetGetNumRead(sockFd, &pendLen);
*/
while (curLen > 0)
{
- cmMemset((U8*)recvTempBuf, 0, CM_INET_MAX_BYTES_READ);
+ memset(recvTempBuf, 0, CM_INET_MAX_BYTES_READ);
/* added separate recvfrom calls different OS */
#if( defined(SS_VW) || defined(HPOS) || defined(SS_PS))
*/
while (curLen > 0)
{
- cmMemset((U8*)recvTempBuf, 0, CM_INET_MAX_BYTES_READ);
+ memset(recvTempBuf, 0, CM_INET_MAX_BYTES_READ);
/* update the message structure */
#ifdef SS_LINUX
rxArr[0].iov_base = (Void*)recvTempBuf;