/* added !(defined(CMINETFLATBUF) */
#if (!(defined(WIN32)) && !(defined(CMINETFLATBUF)))
/* Added another function parameter */
-PRIVATE S16 buildRecvBuf ARGS((CmInetMemInfo *info, MsgLen len,
- CmInetIovec rxArr[], Buffer *dBuf[], U16 maxSize,
+static S16 buildRecvBuf ARGS((CmInetMemInfo *info, MsgLen len,
+ CmInetIovec rxArr[], Buffer *dBuf[], uint16_t maxSize,
struct msghdr *msg, Bool isStrmMsg));
-PRIVATE S16 buildRecvMsg ARGS((CmInetMemInfo *info, CmInetIovec rxArr[],
+static S16 buildRecvMsg ARGS((CmInetMemInfo *info, CmInetIovec rxArr[],
S16 numBduf, MsgLen msgLen, Buffer *dBufs[],
Buffer **mPtr));
/* cm_inet_c_001.main_50 - Added parameter to get length of dbufs packed for partial
* send handling
*/
-PRIVATE S16 buildSendIovec ARGS((Buffer *mBuf, MsgLen msgLen,
+static S16 buildSendIovec ARGS((Buffer *mBuf, MsgLen msgLen,
CmInetIovec txArr[], S16 numDBuf,
- S16 *numIovElems, U32 *strtEndDBufNum,
+ S16 *numIovElems, uint32_t *strtEndDBufNum,
MsgLen *ioLen));
#endif /* (defined(WIN32)) && !(defined(CMINETFLATBUF)) */
#ifdef IPV6_SUPPORTED
#ifdef IPV6_OPTS_SUPPORTED
-PRIVATE S16 cmInet6BuildSendHBHOpts ARGS((CmInetIpv6HBHHdrArr *hbhOptsArr,
- U8 *cmsgBuf, U32 *curMsgIdx,
- U8 hdrId));
-PRIVATE S16 cmInet6BuildSendRouteOpts ARGS((CmInetIpv6RtHdr *rtOptsArr,
- U8 *cmsgBuf, U32 *curMsgIdx));
+static S16 cmInet6BuildSendHBHOpts ARGS((CmInetIpv6HBHHdrArr *hbhOptsArr,
+ uint8_t *cmsgBuf, uint32_t *curMsgIdx,
+ uint8_t hdrId));
+static S16 cmInet6BuildSendRouteOpts ARGS((CmInetIpv6RtHdr *rtOptsArr,
+ uint8_t *cmsgBuf, uint32_t *curMsgIdx));
-PRIVATE S16 cmInet6BuildRecvRtHdr ARGS((U8 *cmsgData, U32 rtDataLen,
+static S16 cmInet6BuildRecvRtHdr ARGS((uint8_t *cmsgData, uint32_t rtDataLen,
CmInetIpv6RtHdr0 *rtHdr0,
CmInetIpv6RtHdr *rtOptsArr,
CmInetMemInfo *info));
-PRIVATE S16 cmInet6BuildRecvHopOptsArr ARGS((U8 *cmsgData, U32 hbhDataLen,
+static S16 cmInet6BuildRecvHopOptsArr ARGS((uint8_t *cmsgData, uint32_t hbhDataLen,
CmInetIpv6HBHHdrArr *hbhOptsArr,
- U8 hdrId, CmInetMemInfo *info));
-PRIVATE S16 cmInet6GetHopLimitValue ARGS((U8 *cmsgData, U32 hopLimitDataLen,
+ uint8_t hdrId, CmInetMemInfo *info));
+static S16 cmInet6GetHopLimitValue ARGS((uint8_t *cmsgData, uint32_t hopLimitDataLen,
CmInetIpv6HdrParm *ipv6HdrParam));
#ifdef SS_LINUX
-PRIVATE S16 cmInetBuildSendHoplimit ARGS((U32 hoplimit, U8 *cmsgBuf,
- U32 *curMsgIdx));
+static S16 cmInetBuildSendHoplimit ARGS((uint32_t hoplimit, uint8_t *cmsgBuf,
+ uint32_t *curMsgIdx));
#endif /* SS_LINUX */
#ifdef LOCAL_INTF
-PRIVATE S16 cmInet6BuildSendPktinfo ARGS((CmInetIpAddr6 *srcAddr,
- U8 *cmsgBuf, U32 *curMsgIdx,
- U8 protType));
+static S16 cmInet6BuildSendPktinfo ARGS((CmInetIpAddr6 *srcAddr,
+ uint8_t *cmsgBuf, uint32_t *curMsgIdx,
+ uint8_t protType));
#endif /* LOCAL_INTF */
#endif /* IPV6_OPTS_SUPPORTED */
#endif /* IPV6_SUPPORTED */
*
*/
-#ifdef ANSI
S16 cmInetPoll
(
CmInetPollFd *pollFdArr, /* poll FD Array */
-U32 numFds, /* Number of Fds to be monitored */
+uint32_t numFds, /* Number of Fds to be monitored */
S16 *numRdyFds, /* number of ready descriptors */
-U32 timeout /* timeout value for Poll */
+uint32_t timeout /* timeout value for Poll */
)
-#else
-S16 cmInetPoll(pollFdArr,numFds,numRdyFds,timeout)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-U32 numFds; /* Number of Fds to be monitored */
-S16 *numRdyFds; /* number of ready descriptors */
-U32 timeout; /* timeout value for Poll */
-#endif
{
S32 ret;
*
*/
-#ifdef ANSI
S16 cmInetPollSetFd
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetPollFd *pollFdArr, /* poll FD Array */
S16 idx, /* poll Fd Array Index */
-U16 eventMask /* Event Mask to be set */
+uint16_t eventMask /* Event Mask to be set */
)
-#else
-S16 cmInetPollSetFd(sockFd,pollFdArr,idx,eventMask)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetPollFd *pollFdArr; /* poll FD Array */
-S16 idx; /* poll Fd Array Index */
-U16 eventMask; /* Event Mask to be set */
-#endif
{
*
*/
-#ifdef ANSI
S16 cmInetPollFdIsSet
(
CmInetPollFd *pollFdArr, /* poll FD Array */
S16 idx, /* poll Fd Array Index */
-U16 eventMask /* Event Mask to be set */
+uint16_t eventMask /* Event Mask to be set */
)
-#else
-S16 cmInetPollFdIsSet(pollFdArr,idx,eventMask)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-S16 idx; /* poll Fd Array Index */
-U16 eventMask; /* Event Mask to be set */
-#endif
{
S16 ret;
*
*/
-#ifdef ANSI
S16 cmInetPollClearFdREvent
(
CmInetPollFd *pollFdArr, /* poll FD Array */
S16 idx, /* poll Fd Array Index */
-U16 eventMask /* Event Mask to be set */
+uint16_t eventMask /* Event Mask to be set */
)
-#else
-S16 cmInetPollClearFdREvent(sockFd,pollFdArr,eventMask)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-S16 idx; /* poll Fd Array Index */
-U16 eventMask; /* Event Mask to be set */
-#endif
{
*
*/
-#ifdef ANSI
S16 cmInetPollClearFdEvent
(
CmInetPollFd *pollFdArr, /* poll FD Array */
S16 idx, /* poll Fd Array Index */
-U16 eventMask /* Event Mask to be set */
+uint16_t eventMask /* Event Mask to be set */
)
-#else
-S16 cmInetPollClearFdEvent(sockFd,pollFdArr,eventMask)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-S16 idx; /* poll Fd Array Index */
-U16 eventMask; /* Event Mask to be set */
-#endif
{
*
*/
-#ifdef ANSI
S16 cmInetPollDelFd
(
CmInetPollFd *pollFdArr, /* poll FD Array */
S16 delIdx, /* poll Fd Array Index for which fd has to be deleted*/
S16 lastIdx /* Last index of poll Fd Array */
)
-#else
-S16 cmInetPollDelFd(pollFdArr, delIdx, lastIdx)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-S16 delIdx; /* poll Fd Array Index for which fd has to be deleted*/
-S16 lastIdx; /* Last index of poll Fd Array */
-#endif
{
*
*/
-#ifdef ANSI
S16 cmInetPollInitFdArr
(
CmInetPollFd *pollFdArr /* poll FD Array */
)
-#else
-S16 cmInetPollInitFdArr(pollFdArr)
-CmInetPollFd *pollFdArr; /* poll FD Array */
-#endif
{
S16 idx;
*
*/
-#ifdef ANSI
-PRIVATE S16 buildRecvBuf
+static S16 buildRecvBuf
(
CmInetMemInfo *info, /* buffer allocation info */
MsgLen len, /* message length */
CmInetIovec rxArr[], /* gather array */
Buffer *dBuf[], /* allocated dBufs */
-U16 maxSize, /* size of rxArr/dBuf array */
+uint16_t maxSize, /* size of rxArr/dBuf array */
struct msghdr *msg, /* message header for recvmsg() */
Bool isStrmMsg /* Is a TCP message */
)
-#else
-PRIVATE S16 buildRecvBuf(info, len, rxArr, dBuf, maxSize, msg, isStrmMsg)
- CmInetMemInfo *info; /* buffer allocation info */
- MsgLen len; /* message length */
- CmInetIovec rxArr[]; /* gather array */
- Buffer *dBuf[]; /* allocated dBufs */
- U16 maxSize; /* size of rxArr/dBuf array */
- struct msghdr *msg; /* message header for recvmsg() */
- Bool isStrmMsg; /* Is a TCP message */
-#endif
{
S16 ret; /* temporary return value */
- U16 numBuf; /* number of dBufs */
- U16 i; /* dBuf index counter */
+ uint16_t numBuf; /* number of dBufs */
+ uint16_t i; /* dBuf index counter */
Data *dPtr; /* data pointer */
/* cm_inet_c_001.main_47: 102069 Changed from S32 to MsgLen for bufLen*/
MsgLen bufLen; /* entire receive buffer length, if S16
#ifdef T2K_MEM_LEAK_DBG
char * file = __FILE__;
- U32 line = __LINE__;
+ uint32_t line = __LINE__;
ret = SGetDBuf(info->region, info->pool, &dBuf[numBuf]);
#else
ret = SGetDBuf(info->region, info->pool, &dBuf[numBuf]);
#ifdef SS_LINUX
rxArr[numBuf].iov_base = (Void*)dPtr;
- rxArr[numBuf].iov_len = (U32)dLen;
+ rxArr[numBuf].iov_len = (uint32_t)dLen;
#else
rxArr[numBuf].iov_base = (S8*)dPtr;
rxArr[numBuf].iov_len = dLen;
}
#ifdef SS_LINUX
rxArr[numBuf].iov_base = (Void*)dPtr;
- rxArr[numBuf].iov_len = (U32)dLen;
+ rxArr[numBuf].iov_len = (uint32_t)dLen;
#else
rxArr[numBuf].iov_base = (S8*)dPtr;
rxArr[numBuf].iov_len = dLen;
*
*/
-#ifdef ANSI
-PRIVATE S16 buildRecvMsg
+static S16 buildRecvMsg
(
CmInetMemInfo *info, /* buffer allocation info */
CmInetIovec rxArr[], /* scatter array */
Buffer *dBufs[], /* dBufs */
Buffer **mPtr /* message built from dBufs */
)
-#else
-PRIVATE S16 buildRecvMsg(info, rxArr, numBuf, msgLen, dBufs, mPtr)
-CmInetMemInfo *info; /* buffer allocation info */
-CmInetIovec rxArr[]; /* scatter array */
-S16 numBuf; /* number of allocated dBufs */
-MsgLen msgLen; /* length of one particular dBuf */
-Buffer *dBufs[]; /* dBufs */
-Buffer **mPtr; /* message built from dBufs */
-#endif
{
S16 ret; /* return value */
S16 i; /* dBuf index counter */
{
#ifdef T2K_MEM_LEAK_DBG
char * file = __FILE__;
- U32 line = __LINE__;
+ uint32_t line = __LINE__;
SPutDBuf(info->region, info->pool, dBufs[i]);
#else
SPutDBuf(info->region, info->pool, dBufs[i]);
* File: cm_inet.c
*
*/
-#ifdef ANSI
-PRIVATE S16 buildSendIovec
+static S16 buildSendIovec
(
Buffer *mBuf, /* Message buffer */
MsgLen msgLen, /* Length of mBuf */
CmInetIovec txArr[], /* transmit scatter vector array */
S16 numDBufs, /* Maximum number of dBufs to use */
S16 *numIovElems, /* Number of iov elements in array */
-U32 *strtEndDBufNum, /* dBuf number to start and end */
+uint32_t *strtEndDBufNum, /* dBuf number to start and end */
MsgLen *ioLen /* cm_inet_c_001.main_50 - Len of dbuf packed into IO-vector */
)
-#else
-PRIVATE S16 buildSendIovec(mBuf, msgLen, txArr, numDBufs, numIovElems,
- strtEndDBufNum,ioLen)
-Buffer *mBuf; /* Message buffer */
-MsgLen msgLen; /* Length of mBuf */
-CmInetIovec txArr[]; /* transmit scatter vector array */
-S16 numDBufs; /* Maximum number of dBufs to use */
-S16 *numIovElems; /* Number of iov elements in array */
-U32 *strtEndDBufNum; /* dBuf number to start and end */
-MsgLen *ioLen; /* cm_inet_c_001.main_50 - Len of dbuf packed into IO-vector */
-#endif
{
S16 ret;
MsgLen dLen;
Buffer *dBuf;
Data *dPtr;
MsgLen allocLen;
- U32 dBufsToSkip;
+ uint32_t dBufsToSkip;
/* Initialisations */
(*numIovElems) = 0;
* File: cm_inet.c
*
*/
-#ifdef ANSI
#ifdef CM_INET2
#ifdef IPV6_SUPPORTED
S16 cmInetSocket
(
-U8 type, /* socket type */
+uint8_t type, /* socket type */
CmInetFd *sockFd, /* socket file descriptor */
-U8 protocol, /* protocol value */
-U8 domain /* domain */
+uint8_t protocol, /* protocol value */
+uint8_t domain /* domain */
)
#else
S16 cmInetSocket
(
-U8 type, /* socket type */
+uint8_t type, /* socket type */
CmInetFd *sockFd, /* socket file descriptor */
-U8 protocol /* protocol value */
+uint8_t protocol /* protocol value */
)
#endif /* IPV6_SUPPORTED */
#else /* CM_INET2 */
S16 cmInetSocket
(
-U8 type, /* socket type */
+uint8_t type, /* socket type */
CmInetFd *sockFd /* socket file descriptor */
)
#endif /* CM_INET2 */
-#else
-#ifdef CM_INET2
-#ifdef IPV6_SUPPORTED
-S16 cmInetSocket(type, sockFd, protocol, domain)
-U8 type; /* socket type */
-CmInetFd *sockFd; /* socket file descriptor */
-U8 protocol; /* protocol value */
-U8 domain; /* domain */
-#else
-S16 cmInetSocket(type, sockFd, protocol)
-U8 type; /* socket type */
-CmInetFd *sockFd; /* socket file descriptor */
-U8 protocol; /* protocol value */
-#endif /* IPV6_SUPPORTED */
-#else /* CM_INET2 */
-S16 cmInetSocket(type, sockFd)
-U8 type; /* socket type */
-CmInetFd *sockFd; /* socket file descriptor */
-#endif /* CM_INET2 */
-#endif /* ANSI */
{
S32 ret; /* temporary return value */
- U32 optVal;
+ uint32_t optVal;
#if (defined(WIN32) && defined(WIN2K))
S32 bytesReturned;
*
*/
-#ifdef ANSI
S16 cmInetBind
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetAddr *myAddr /* locale Internet address/port */
)
-#else
-S16 cmInetBind(sockFd, myAddr)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *myAddr; /* locale Internet address/port */
-#endif
{
S32 ret; /* temporary return value */
struct sockaddr_in srcAddr; /* local Internet address/port */
#ifdef IPV6_SUPPORTED
struct sockaddr_in6 srcAddr6; /* local IPV6 address/port */
#ifdef CMINETDBG
- U16 port;
+ uint16_t port;
#endif /* CMINETDBG */
#endif /* IPV6_SUPPORTED */
- U32 sizeOfAddr; /* sizeof address passed to the bind call */
+ uint32_t sizeOfAddr; /* sizeof address passed to the bind call */
CmInetSockAddr *sockAddrPtr;
{
memset(&srcAddr6, 0, sizeof(srcAddr6));
srcAddr6.sin6_family = AF_INET6;
- srcAddr6.sin6_port = CM_INET_HTON_U16(myAddr->u.ipv6Addr.port);
+ srcAddr6.sin6_port = CM_INET_HTON_UINT16(myAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&srcAddr6.sin6_addr,
&myAddr->u.ipv6Addr.ipv6NetAddr);
sizeOfAddr = sizeof(struct sockaddr_in6);
{
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);
+ srcAddr.sin_port = CM_INET_HTON_UINT16(myAddr->u.ipv4Addr.port);
+ srcAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(myAddr->u.ipv4Addr.address);
sizeOfAddr = sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr *)&srcAddr;
}
#else
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);
+ srcAddr.sin_port = CM_INET_HTON_UINT16(myAddr->port);
+ srcAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(myAddr->address);
sizeOfAddr = sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr *)&srcAddr;
#endif /* IPV6_SUPPORTED */
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpBindx
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetNetAddrLst *addrLst, /* local Internet address list */
-U16 port /* port number */
+uint16_t port /* port number */
)
-#else
-S16 cmInetSctpBindx(sockFd, addrLst, port)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetNetAddrLst *addrLst; /* locale Internet address list */
-U16 port; /* port number */
-#endif
{
S32 ret; /* temporary return value */
S32 idx;
S32 idx4 = 0;
- U32 ipv4_array_size = 0;
+ uint32_t ipv4_array_size = 0;
struct sockaddr_in addrs[CM_INET_NUM_NET_ADDR];
#ifndef IPV6_SUPPORTED
Data address_array[(CM_INET_NUM_NET_ADDR * sizeof(struct sockaddr_in))];
#ifdef SUN_KSCTP
Data *tempAddrPtr = NULLP;
#endif
- U32 addresses_array_size = 0;
+ uint32_t addresses_array_size = 0;
#ifdef IPV6_SUPPORTED
#ifdef SUN_KSCTP
S8 *addrString = NULLP;
- U32 addrLen = 0;
+ uint32_t addrLen = 0;
S8 ipv4Format[23] = "::ffff:";
#endif /* SUN_KSCTP */
S32 idx6 = 0;
- U32 ipv6_array_size = 0;
+ uint32_t ipv6_array_size = 0;
struct sockaddr_in6 addrs6[CM_INET_NUM_NET_ADDR];
#endif /* IPV6_SUPPORTED */
struct sockaddr *sockAddrPtr = NULLP;
- U32 sockAddrLen = 0;
+ uint32_t sockAddrLen = 0;
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
CM_INET_COPY_IPV6ADDR((addrs6[idx6].sin6_addr.s6_addr), &(addrLst->addrs[idx].u.ipv6NetAddr));
idx6++;
}
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
- addrLst->addrs[idx].u.ipv4NetAddr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
+ addrLst->addrs[idx].u.ipv4NetAddr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
cmInetNtoa(addrLst->addrs[idx].u.ipv4NetAddr, &addrString);
- addrLen = cmStrlen((U8*)addrString);
+ addrLen = cmStrlen((uint8_t*)addrString);
memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addrs6[idx6].sin6_addr.s6_addr), ipv4Format);
ipv4_array_size += sizeof(struct sockaddr_in);
addresses_array_size += sizeof(struct sockaddr_in);
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
idx4++;
#endif /* SUN_KSCTP */
}
ipv4_array_size += sizeof(struct sockaddr_in);
addresses_array_size += sizeof(struct sockaddr_in);
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
idx4++;
#endif /* IPV6_SUPPORTED */
}
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpConnectx
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetNetAddr *primAddr, /* primary destination Internet address */
CmInetNetAddrLst *addrLst, /* destination Internet address list */
-U16 port /* port number */
+uint16_t port /* port number */
)
-#else
-S16 cmInetSctpConnectx(sockFd, primAddr, addrLst, port)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetNetAddr *primAddr; /* primary destination Internet address */
-CmInetNetAddrLst *addrLst; /* destination Internet address list */
-U16 port; /* port number */
-#endif
{
S32 ret;
- U32 cnt;
+ uint32_t cnt;
/* cm_inet_c_001.main_46: Removed SS_LINUX flag */
S32 idx;
/* cm_inet_c_001.main_64: New variable used as an argument for sctp_connectx */
#ifdef SCTP_CONNECTX_NEW
- U32 assocId = 0;
+ uint32_t assocId = 0;
#endif
- U32 addresses_array_size = 0;
- U32 idx4 = 0;
+ uint32_t addresses_array_size = 0;
+ uint32_t idx4 = 0;
struct sockaddr_in addrs[CM_INET_NUM_NET_ADDR];
- U32 ipv4_array_size = 0;
+ uint32_t ipv4_array_size = 0;
#ifndef IPV6_SUPPORTED
Data address_array[(CM_INET_NUM_NET_ADDR * sizeof(struct sockaddr_in))];
#ifdef IPV6_SUPPORTED
#ifdef SUN_KSCTP
S8 *addrString = NULLP;
- U32 addrLen = 0;
+ uint32_t addrLen = 0;
S8 ipv4Format[23] = "::ffff:";
CmInetIpAddr ipv4NetAddr;
#endif /* SUN_KSCTP */
- U32 idx6 = 0;
+ uint32_t idx6 = 0;
struct sockaddr_in6 addrs6[CM_INET_NUM_NET_ADDR];
- U32 ipv6_array_size = 0;
+ uint32_t ipv6_array_size = 0;
#endif /* IPV6_SUPPORTED */
#ifndef SS_LINUX
- U32 sockAddrLen = 0;
+ uint32_t sockAddrLen = 0;
#endif /* sockAddrLen */
#ifndef SS_LINUX
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
CM_INET_COPY_IPV6ADDR(&(addrs6[idx6].sin6_addr.s6_addr), &(primAddr->u.ipv6NetAddr));
addresses_array_size += sizeof(struct sockaddr_in6);
ipv6_array_size += sizeof(struct sockaddr_in6);
return RFAILED;
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
- ipv4NetAddr = CM_INET_HTON_U32(primAddr->u.ipv4NetAddr);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
+ ipv4NetAddr = CM_INET_HTON_UINT32(primAddr->u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
- addrLen = cmStrlen((U8*)addrString);
+ addrLen = cmStrlen((uint8_t*)addrString);
memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)&(addrs6[idx6].sin6_addr), ipv4Format);
idx6++;
#else
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(primAddr->u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(primAddr->u.ipv4NetAddr);
addresses_array_size += sizeof(struct sockaddr_in);
ipv4_array_size += sizeof(struct sockaddr_in);
idx4++;
}
#else
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(primAddr->u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(primAddr->u.ipv4NetAddr);
addresses_array_size += sizeof(struct sockaddr_in);
ipv4_array_size += sizeof(struct sockaddr_in);
idx4++;
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
CM_INET_COPY_IPV6ADDR(&(addrs6[idx6].sin6_addr.s6_addr),
&(addrLst->addrs[idx].u.ipv6NetAddr));
addresses_array_size += sizeof(struct sockaddr_in6);
return RFAILED;
}
addrs6[idx6].sin6_family = AF_INET6;
- addrs6[idx6].sin6_port = CM_INET_HTON_U16(port);
- ipv4NetAddr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs6[idx6].sin6_port = CM_INET_HTON_UINT16(port);
+ ipv4NetAddr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
- addrLen = cmStrlen((U8*)addrString);
+ addrLen = cmStrlen((uint8_t*)addrString);
memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addrs6[idx6].sin6_addr.s6_addr), ipv4Format);
idx6++;
#else
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
addresses_array_size += sizeof(struct sockaddr_in);
ipv4_array_size += sizeof(struct sockaddr_in);
idx4++;
}
#else
addrs[idx4].sin_family = AF_INET;
- addrs[idx4].sin_port = CM_INET_HTON_U16(port);
- addrs[idx4].sin_addr.s_addr = CM_INET_HTON_U32(addrLst->addrs[idx].u.ipv4NetAddr);
+ addrs[idx4].sin_port = CM_INET_HTON_UINT16(port);
+ addrs[idx4].sin_addr.s_addr = CM_INET_HTON_UINT32(addrLst->addrs[idx].u.ipv4NetAddr);
addresses_array_size += sizeof(struct sockaddr_in);
ipv4_array_size += sizeof(struct sockaddr_in);
idx4++;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpPeelOff
(
CmInetFd *sockFd, /* socket file descriptor */
-U32 assocId, /* association id */
+uint32_t assocId, /* association id */
CmInetFdType *assocFd /* association fd */
)
-#else
-S16 cmInetSctpPeelOff(sockFd, assocId, assocFd)
-CmInetFd *sockFd; /* socket file descriptor */
-U32 assocId; /* association id */
-CmInetFdType *assocFd; /* association fd */
-#endif
{
S32 ret;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpSendMsg
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetNetAddr *dstAddr, /* destination Internet address/port */
-U16 port, /* destination port no. */
+uint16_t port, /* destination port no. */
CmInetMemInfo *info, /* buffer allocation info */
Buffer *mBuf, /* buffer structure to send */
MsgLen *len, /* number of actually sent octets */
-U16 strmId, /* sctp stream identifier */
-Bool unorderFlg, /* flag to enable the unordered delivery */
-U16 ttl, /* time to live */
-U32 ppId, /* opaque value passed along with the message */
-U32 context /* value to be passed back, if error occurs */
+uint16_t strmId, /* sctp stream identifier */
+Bool unorderFlg, /* flag to enable the unordered delivery */
+uint16_t ttl, /* time to live */
+uint32_t ppId, /* opaque value passed along with the message */
+uint32_t context /* value to be passed back, if error occurs */
)
-#else
-S16 cmInetSctpSendMsg(sockFd, dstAddr, port, info, mBuf, len, strmId,
- unorderFlg, ttl, ppId, context)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetNetAddr *dstAddr; /* destination Internet address/port */
-U16 port; /* destination port no. */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer *mBuf; /* buffer structure to send */
-MsgLen *len; /* number of actually sent octets */
-U16 strmId; /* sctp stream identifier */
-Bool unorderFlg; /* flag to enable the unordered delivery */
-U16 ttl; /* time to live */
-U32 ppId; /* opaque value passed along with the message */
-U32 context; /* value to be passed back, if error occurs */
-#endif
{
S32 ret;
/* cm_inet_c_001.main_58 : Fix for klockwork issue */
MsgLen msgLen = 0; /* message length */
MsgLen bufLen = 0; /* send buffer length */
Data *sendBuf = NULLP; /* plain send buffer */
- U32 flags;
+ uint32_t flags;
CmInetSockAddr *sockAddrPtr = NULLP;
/* cm_inet_c_001.main_58 : Fix for klockwork issue */
MsgLen sockAddrLen = 0;
#ifdef IPV6_SUPPORTED
#ifdef SUN_KSCTP
S8 *addrString = NULLP;
- U32 addrLen = 0;
+ uint32_t addrLen = 0;
S8 ipv4Format[23] = "::ffff:";
CmInetIpAddr ipv4NetAddr;
#endif /* SUN_KSCTP */
}
/* max message length is limited to control the memory usage */
/* casting bufLen to avoid warnings */
- if ((bufLen > 0) && ((U32)bufLen > CM_INET_MAX_MSG_LEN))
+ if ((bufLen > 0) && ((uint32_t)bufLen > CM_INET_MAX_MSG_LEN))
{
return RFAILED;
}
}
addr6.sin6_family = AF_INET6;
- addr6.sin6_port = CM_INET_HTON_U16(port);
+ addr6.sin6_port = CM_INET_HTON_UINT16(port);
CM_INET_COPY_IPV6ADDR(&addr6.sin6_addr.s6_addr, &dstAddr->u.ipv6NetAddr);
sockAddrLen = sizeof(struct sockaddr_in6);
sockAddrPtr = (CmInetSockAddr*)&addr6;
return RFAILED;
}
addr6.sin6_family = AF_INET6;
- addr6.sin6_port = CM_INET_HTON_U16(port);
- ipv4NetAddr = CM_INET_HTON_U32(dstAddr->u.ipv4NetAddr);
+ addr6.sin6_port = CM_INET_HTON_UINT16(port);
+ ipv4NetAddr = CM_INET_HTON_UINT32(dstAddr->u.ipv4NetAddr);
cmInetNtoa(ipv4NetAddr, &addrString);
- addrLen = cmStrlen((U8*)addrString);
+ addrLen = cmStrlen((uint8_t*)addrString);
memcpy((ipv4Format+7), addrString, addrLen);
ipv4Format[7+addrLen] = '\0';
cmInetPton6((CmInetIpAddr6*)(addr6.sin6_addr.s6_addr), ipv4Format);
sockAddrPtr = (CmInetSockAddr*)&addr6;
#else
addr.sin_family = AF_INET;
- addr.sin_port = CM_INET_HTON_U16(port);
- addr.sin_addr.s_addr = CM_INET_HTON_U32(dstAddr->u.ipv4NetAddr);
+ addr.sin_port = CM_INET_HTON_UINT16(port);
+ addr.sin_addr.s_addr = CM_INET_HTON_UINT32(dstAddr->u.ipv4NetAddr);
sockAddrLen = sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr*)&addr;
#endif /* SUN_KSCTP */
}
#else
addr.sin_family = AF_INET;
- addr.sin_port = CM_INET_HTON_U16(port);
- addr.sin_addr.s_addr = CM_INET_HTON_U32(dstAddr->u.ipv4NetAddr);
+ addr.sin_port = CM_INET_HTON_UINT16(port);
+ addr.sin_addr.s_addr = CM_INET_HTON_UINT32(dstAddr->u.ipv4NetAddr);
/* cm_inet_c_001.main_58 : Fix for Klockwork issue */
sockAddrLen = (MsgLen)sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr*)&addr;
#endif
}
/*cm_inet_c_001.main_54: converting ppid to network*/
- ppId = CM_INET_HTON_U32(ppId);
+ ppId = CM_INET_HTON_UINT32(ppId);
ret = sctp_sendmsg(sockFd->fd, (Void*)sendBuf, bufLen,
(struct sockaddr*)sockAddrPtr, (size_t)sockAddrLen,
ppId, flags, strmId, ttl, context);
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpRecvMsg
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetNetAddr *srcAddr, /* source Internet address/port */
-U16 *port, /* source port no. */
+uint16_t *port, /* source port no. */
CmInetMemInfo *meminfo, /* buffer allocation info */
Buffer **mBuf, /* buffer structure received */
MsgLen *len, /* number of octets received */
CmInetSctpSndRcvInfo *sinfo, /* sctp send-receive info */
-U32 *flag, /* flags */
+uint32_t *flag, /* flags */
CmInetSctpNotification *ntfy /* notification parameters */
)
-#else
-S16 cmInetSctpRecvMsg(sockFd, srcAddr, port, meminfo, mBuf, len,
- sinfo, flag, ntfy)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetNetAddr *srcAddr; /* source Internet address/port */
-U16 *port; /* source port no. */
-CmInetMemInfo *meminfo; /* buffer allocation info */
-Buffer **mBuf; /* buffer structure received */
-MsgLen *len; /* number of octets received */
-CmInetSctpSndRcvInfo *sinfo; /* sctp send-receive info */
-U32 *flag; /* flags */
-CmInetSctpNotification *ntfy; /* notification parameters */
-#endif
{
S32 ret;
S32 msgFlags;
#ifdef IPV6_SUPPORTED
if (addr.ss_family == AF_INET6)
{
- U8 ipv4Format[12] = {0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0xff,0xff};
+ uint8_t ipv4Format[12] = {0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0x0,0xff,0xff};
pAddr6 = (struct sockaddr_in6*)&addr;
- *port = CM_INET_NTOH_U16(pAddr6->sin6_port);
+ *port = CM_INET_NTOH_UINT16(pAddr6->sin6_port);
if((cmMemcmp(ipv4Format, pAddr6->sin6_addr.s6_addr, 12)) == 0)
{
srcAddr->type = CM_INET_IPV4ADDR_TYPE;
- memcpy(&srcAddr->u.ipv4NetAddr, ((pAddr6->sin6_addr.s6_addr) + 12), sizeof(U32));
- srcAddr->u.ipv4NetAddr = CM_INET_HTON_U32(srcAddr->u.ipv4NetAddr);
+ memcpy(&srcAddr->u.ipv4NetAddr, ((pAddr6->sin6_addr.s6_addr) + 12), sizeof(uint32_t));
+ srcAddr->u.ipv4NetAddr = CM_INET_HTON_uint32_t(srcAddr->u.ipv4NetAddr);
}
else
else
{
pAddr = (struct sockaddr_in*)&addr;
- *port = CM_INET_NTOH_U16(pAddr->sin_port);
+ *port = CM_INET_NTOH_UINT16(pAddr->sin_port);
srcAddr->type = CM_INET_IPV4ADDR_TYPE;
- srcAddr->u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ srcAddr->u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
}
#else
pAddr = (struct sockaddr_in*)&addr;
- *port = CM_INET_NTOH_U16(pAddr->sin_port);
+ *port = CM_INET_NTOH_UINT16(pAddr->sin_port);
srcAddr->type = CM_INET_IPV4ADDR_TYPE;
- srcAddr->u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ srcAddr->u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
/* fill sndrcv info */
sinfo->ssn = info.sinfo_ssn;
sinfo->flags = info.sinfo_flags;
/*cm_inet_c_001.main_54: converting ppid to host*/
- sinfo->ppid = CM_INET_NTOH_U32(info.sinfo_ppid);
+ sinfo->ppid = CM_INET_NTOH_UINT32(info.sinfo_ppid);
sinfo->context = info.sinfo_context;
sinfo->timetolive = info.sinfo_timetolive;
sinfo->tsn = info.sinfo_tsn;
{
pAddr = (struct sockaddr_in*)&(sctpNtfy->sn_paddr_change.spc_aaddr);
ntfy->u.paddrChange.addr.type = CM_INET_IPV4ADDR_TYPE;
- ntfy->u.paddrChange.addr.u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ ntfy->u.paddrChange.addr.u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
}
#else
pAddr = (struct sockaddr_in*)&(sctpNtfy->sn_paddr_change.spc_aaddr);
ntfy->u.paddrChange.addr.type = CM_INET_IPV4ADDR_TYPE;
- ntfy->u.paddrChange.addr.u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ ntfy->u.paddrChange.addr.u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
ntfy->u.paddrChange.error = sctpNtfy->sn_paddr_change.spc_error;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSctpGetPAddrs
(
CmInetFd *sockFd, /* socket file descriptor */
-U32 assocId, /* association id */
+uint32_t assocId, /* association id */
CmInetNetAddrLst *addrlst /* peer address list */
)
-#else
-S16 cmInetSctpGetPAddrs(sockFd, assocId, addrlst)
-CmInetFd *sockFd; /* socket file descriptor */
-U32 assocId; /* association id */
-CmInetNetAddrLst *addrlst; /* peer address list */
-#endif
{
/* cm_inet_c_001.main_58 : Fix for Klockwork issue */
S32 cnt;
S32 idx;
- U8 *byteAddress;
+ uint8_t *byteAddress;
struct sockaddr *peerAddrList;
struct sockaddr_in *pAddr;
#ifdef IPV6_SUPPORTED
return RFAILED;
}
- byteAddress = (U8*)peerAddrList;
+ byteAddress = (uint8_t*)peerAddrList;
for (idx = 0; idx < cnt; idx++)
{
#ifdef IPV6_SUPPORTED
{
pAddr = (struct sockaddr_in*)byteAddress;
addrlst->addrs[idx].type = CM_INET_IPV4ADDR_TYPE;
- addrlst->addrs[idx].u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ addrlst->addrs[idx].u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
byteAddress += sizeof(struct sockaddr_in);
}
#else
pAddr = (struct sockaddr_in*)byteAddress;
addrlst->addrs[idx].type = CM_INET_IPV4ADDR_TYPE;
- addrlst->addrs[idx].u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ addrlst->addrs[idx].u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
byteAddress += sizeof(struct sockaddr_in);
#endif /* IPV6_SUPPORTED */
}
/* cm_inet_c_001.main_58 : Fix for klockwork issue */
- addrlst->count = (U8)cnt;
+ addrlst->count = (uint8_t)cnt;
sctp_freepaddrs(peerAddrList);
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetGetOpt
(
CmInetFd *sockFd, /* socket file descriptor */
-U32 level, /* option level */
-U32 type, /* option type */
-Ptr value /* option value */
+uint32_t level, /* option level */
+uint32_t type, /* option type */
+Ptr value /* option value */
)
-#else
-S16 cmInetGetOpt(sockFd, level, type, value)
-CmInetFd *sockFd; /* socket file descriptor */
-U32 level; /* option level */
-U32 type; /* option type */
-Ptr value; /* option value */
-#endif
{
socklen_t len;
struct sctp_status status;
if (status.sstat_primary.spinfo_address.ss_family == AF_INET6)
{
pAddr6 = (struct sockaddr_in6*)&(status.sstat_primary.spinfo_address);
- pSctpStatus->primary.port = CM_INET_NTOH_U16(pAddr6->sin6_port);
+ pSctpStatus->primary.port = CM_INET_NTOH_UINT16(pAddr6->sin6_port);
pSctpStatus->primary.addr.type = CM_INET_IPV6ADDR_TYPE;
CM_INET_COPY_IPV6ADDR(&pSctpStatus->primary.addr.u.ipv6NetAddr,
else
{
pAddr = (struct sockaddr_in*)&(status.sstat_primary.spinfo_address);
- pSctpStatus->primary.port = CM_INET_NTOH_U16(pAddr->sin_port);
+ pSctpStatus->primary.port = CM_INET_NTOH_UINT16(pAddr->sin_port);
pSctpStatus->primary.addr.type = CM_INET_IPV4ADDR_TYPE;
- pSctpStatus->primary.addr.u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ pSctpStatus->primary.addr.u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
}
#else
pAddr = (struct sockaddr_in*)&(status.sstat_primary.spinfo_address);
- pSctpStatus->primary.port = CM_INET_NTOH_U16(pAddr->sin_port);
+ pSctpStatus->primary.port = CM_INET_NTOH_UINT16(pAddr->sin_port);
pSctpStatus->primary.addr.type = CM_INET_IPV4ADDR_TYPE;
- pSctpStatus->primary.addr.u.ipv4NetAddr = CM_INET_NTOH_U32(pAddr->sin_addr.s_addr);
+ pSctpStatus->primary.addr.u.ipv4NetAddr = CM_INET_NTOH_UINT32(pAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
pSctpStatus->primary.assocId = status.sstat_primary.spinfo_assoc_id;
pAddr6 = (struct sockaddr_in6*)&(addrInfo.spinfo_address);
pAddr6->sin6_family = AF_INET6;
- pAddr6->sin6_port = CM_INET_HTON_U16(pPeerAddrInfo->port);
+ pAddr6->sin6_port = CM_INET_HTON_UINT16(pPeerAddrInfo->port);
CM_INET_COPY_IPV6ADDR(&pAddr6->sin6_addr.s6_addr, &pPeerAddrInfo->addr.u.ipv6NetAddr);
}
else
{
pAddr = (struct sockaddr_in*)&(addrInfo.spinfo_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pPeerAddrInfo->port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pPeerAddrInfo->addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pPeerAddrInfo->port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pPeerAddrInfo->addr.u.ipv4NetAddr);
}
#else
pAddr = (struct sockaddr_in*)&(addrInfo.spinfo_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pPeerAddrInfo->port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pPeerAddrInfo->addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pPeerAddrInfo->port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pPeerAddrInfo->addr.u.ipv4NetAddr);
#endif /* IPV6_SUPPORTED */
/* Not validating the address, whether Addr is a valid address or not */
pAddr6 = (struct sockaddr_in6*)&(addrParams.spp_address);
pAddr6->sin6_family = AF_INET6;
- pAddr6->sin6_port = CM_INET_HTON_U16(pPeerAddrParams->s.port);
+ pAddr6->sin6_port = CM_INET_HTON_UINT16(pPeerAddrParams->s.port);
CM_INET_COPY_IPV6ADDR(&pAddr6->sin6_addr.s6_addr, &pPeerAddrParams->s.addr.u.ipv6NetAddr);
}
else
{
pAddr = (struct sockaddr_in*)&(addrParams.spp_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pPeerAddrParams->s.port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pPeerAddrParams->s.addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pPeerAddrParams->s.port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pPeerAddrParams->s.addr.u.ipv4NetAddr);
}
#else
pAddr = (struct sockaddr_in*)&(addrParams.spp_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pPeerAddrParams->s.port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pPeerAddrParams->s.addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pPeerAddrParams->s.port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pPeerAddrParams->s.addr.u.ipv4NetAddr);
#endif /* IPV6_SUPPORTED */
}
else
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetShutDownSctp
(
- CmInetFd *sockFd /* socket file descriptor */
- )
-#else
-S16 cmInetShutDownSctp(sockFd)
- CmInetFd *sockFd; /* socket file descriptor */
-#endif
+CmInetFd *sockFd /* socket file descriptor */
+)
{
/*cm_inet_c_001.main_58 : fix for klockwork issue */
S32 ret;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetAbortSctpAssoc
(
- CmInetFd *sockFd, /* socket file descriptor */
- UConnId assocId /* Association ID */
- )
-#else
-S16 cmInetAbortSctpAssoc(sockFd, assocId)
- CmInetFd *sockFd; /* socket file descriptor */
- UConnId assocId; /* Association ID */
-#endif
+CmInetFd *sockFd, /* socket file descriptor */
+UConnId assocId /* Association ID */
+)
{
- S32 ret;
+ S32 ret;
struct sctp_sndrcvinfo sndRcvInfo;
*
*/
-#ifdef ANSI
S16 cmInetConnect
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetAddr *servAddr /* foreign Internet address/port */
)
-#else
-S16 cmInetConnect(sockFd, servAddr)
- CmInetFd *sockFd; /* socket file descriptor */
- CmInetAddr *servAddr; /* foreign Internet address/port */
-#endif
{
S32 ret; /* temporary return value */
struct sockaddr_in dstAddr; /* foreign Internet address/port */
#ifdef IPV6_SUPPORTED
struct sockaddr_in6 dstAddr6; /* foreign Internet IPV6 address/port */
#ifdef CMINETDBG
- U16 port;
+ uint16_t port;
#endif /* CMINETDBG */
#endif /* IPV6_SUPPORTED */
S32 sizeOfAddr;
{
memset(&dstAddr6, 0, sizeof(dstAddr6));
dstAddr6.sin6_family = AF_INET6;
- dstAddr6.sin6_port = CM_INET_HTON_U16(servAddr->u.ipv6Addr.port);
+ dstAddr6.sin6_port = CM_INET_HTON_UINT16(servAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&dstAddr6.sin6_addr,
&servAddr->u.ipv6Addr.ipv6NetAddr);
sizeOfAddr = sizeof(struct sockaddr_in6);
{
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);
+ dstAddr.sin_port = CM_INET_HTON_UINT16(servAddr->u.ipv4Addr.port);
+ dstAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(servAddr->u.ipv4Addr.address);
sizeOfAddr = sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr *)&dstAddr;
}
#else
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);
+ dstAddr.sin_port = CM_INET_HTON_UINT16(servAddr->port);
+ dstAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(servAddr->address);
sizeOfAddr = sizeof(struct sockaddr_in);
sockAddrPtr = (CmInetSockAddr *)&dstAddr;
#endif /* IPV6_SUPPORTED */
*
*/
-#ifdef ANSI
S16 cmInetListen
(
CmInetFd *sockFd, /* socket file descriptor */
S16 backLog /* max. number of outstandig connections 0..5 */
)
-#else
-S16 cmInetListen(sockFd, backLog)
-CmInetFd *sockFd; /* socket file descriptor */
-S16 backLog; /* max. number of outstandig connections 0..5 */
-#endif
{
S32 ret; /* temporary return value */
*
*/
-#ifdef ANSI
S16 cmInetAccept
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetAddr *fromAddr, /* calling Internet address/port */
CmInetFd *newSockFd /* socket file descriptor for new connection*/
)
-#else
-S16 cmInetAccept(sockFd, fromAddr, newSockFd)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* calling Internet address/port */
-CmInetFd *newSockFd; /* socket file descriptor for new connection*/
-#endif
{
S32 ret; /* temporary return value */
S32 addrLen; /* address structure length */
CmInetSockAddr sockAddr;
#endif /* IPV6_SUPPORTED */
- U32 optVal;
+ uint32_t optVal;
/* added */
{
peerAddr = (struct sockaddr_in *)&sockAddr;
fromAddr->type = CM_INET_IPV4ADDR_TYPE;
- fromAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(peerAddr->sin_port);
+ fromAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(peerAddr->sin_port);
fromAddr->u.ipv4Addr.address =
- CM_INET_NTOH_U32(peerAddr->sin_addr.s_addr);
+ CM_INET_NTOH_UINT32(peerAddr->sin_addr.s_addr);
}
else if (addrLen == sizeof(struct sockaddr_in6))
{
peerAddr6 = (struct sockaddr_in6 *)&sockAddr;
fromAddr->type = CM_INET_IPV6ADDR_TYPE;
- fromAddr->u.ipv6Addr.port = CM_INET_NTOH_U16(peerAddr6->sin6_port);
+ fromAddr->u.ipv6Addr.port = CM_INET_NTOH_UINT16(peerAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&fromAddr->u.ipv6Addr.ipv6NetAddr,
&peerAddr6->sin6_addr);
}
#else
peerAddr = (struct sockaddr_in *)&sockAddr;
- fromAddr->port = CM_INET_NTOH_U16(peerAddr->sin_port);
- fromAddr->address = CM_INET_NTOH_U32(peerAddr->sin_addr.s_addr);
+ fromAddr->port = CM_INET_NTOH_UINT16(peerAddr->sin_port);
+ fromAddr->address = CM_INET_NTOH_UINT32(peerAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
return ROK;
} /* end of cmInetAccept */
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet4FillTos
+static S16 cmInet4FillTos
(
-U8 tos, /* tos value to be filled in ipheader */
-U8 *cmsgBuf, /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx /* idx in cmsgBuf where HBH/Dest ext hdr ends */
+uint8_t tos, /* tos value to be filled in ipheader */
+uint8_t *cmsgBuf, /* flat buffer where to build ext hdrs */
+uint32_t *curMsgIdx /* idx in cmsgBuf where HBH/Dest ext hdr ends */
)
-#else
-PRIVATE S16 cmInet4FillTos(tos, cmsgBuf, curMsgIdx, protType)
-U8 tos; /* tos value to be filled in ipheader */
-U8 *cmsgBuf; /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx; /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-#endif /* ANSI */
{
struct cmsghdr *tempHdr;
- U8 len;
+ uint8_t len;
len = 0;
/* fill up level & type of cmsghdr structure */
tempHdr->cmsg_level = IPPROTO_IPV6;
tempHdr->cmsg_type = IP_TOS;
- (*(U8*)CMSG_DATA(tempHdr)) = tos;
+ (*(uint8_t*)CMSG_DATA(tempHdr)) = tos;
len = CMSG_SPACE(sizeof tos);
*
*/
-#ifdef ANSI
S16 cmInetSendDscpMsg
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetIpHdrParm *ipHdrParams, /* IPv6 extensions headers */
S16 flags /* additional control flags, unused */
)
-#else
-/* added for IPv6 ext hdr */
-S16 cmInetSendDscpMsg(sockFd, dstAddr, info, mBuf, len, ipHdrParams, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *dstAddr; /* destination Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer *mBuf; /* buffer structure to send */
-MsgLen *len; /* number of actually sent octets */
-CmInetIpHdrParm *ipHdrParams; /* IPv6 extensions headers */
-S16 flags; /* additional control flags, unused */
-#endif /* ANSI */
{
#if (defined(WIN32) || defined(CMINETFLATBUF))
S32 ret; /* temporary return value */
S16 numDBufs; /* number of dBufs in message */
struct msghdr msg; /* sendmsg() message header */
MsgLen msgLen; /* message length */
- U32 strtEndDBufNum; /* starting/ending DBuf number */
+ uint32_t strtEndDBufNum; /* starting/ending DBuf number */
MsgLen unSentLen; /* sent len */
#ifdef IPV6_SUPPORTED
- U32 curMsgIdx; /* indx in cmsgData where to write an ext hdr */
+ uint32_t curMsgIdx; /* indx in cmsgData where to write an ext hdr */
/* added for IPv6 ext hdr */
#if (defined(SS_LINUX) || defined(_XPG4_2))
/* alloc from stack for IPv6 ancill data */
- U8 cmsgData[CM_INET_IPV6_ANCIL_DATA];
+ uint8_t cmsgData[CM_INET_IPV6_ANCIL_DATA];
#endif /* SS_LINUX || _XPG4_2 */
#else
- U32 curMsgIdx; /* indx in cmsgData where to write an ext hdr */
+ uint32_t curMsgIdx; /* indx in cmsgData where to write an ext hdr */
#if (defined(SS_LINUX) || defined(_XPG4_2))
/* alloc from stack for IPv4 ancill data */
- U8 cmsgData[CM_INET_IPV4_ANCIL_DATA];
+ uint8_t cmsgData[CM_INET_IPV4_ANCIL_DATA];
#endif /* SS_LINUX || _XPG4_2 */
#endif /* IPV6_SUPPORTED */
#endif /* WIN32 | CMINETFLATBUF */
#endif /* IPV8_SUPPORTED */
CmInetSockAddr *sockAddrPtr;
/* cm_inet_c_001.main_58 : Fix for klockwork issue */
- U32 sizeOfAddr;
+ uint32_t sizeOfAddr;
/* cm_inet_c_001.main_50 - Added for partial send handling */
/* cm_inet_c_001.main_59: Protected under if not defined WIN32*/
{
memset(&remAddr6, 0, sizeof(remAddr6));
remAddr6.sin6_family = AF_INET6;
- remAddr6.sin6_port = CM_INET_HTON_U16(dstAddr->u.ipv6Addr.port);
+ remAddr6.sin6_port = CM_INET_HTON_UINT16(dstAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&remAddr6.sin6_addr,
&dstAddr->u.ipv6Addr.ipv6NetAddr);
sizeOfAddr = sizeof(remAddr6);
{
memset(&remAddr, 0, sizeof(remAddr));
remAddr.sin_family = AF_INET;
- remAddr.sin_port = CM_INET_HTON_U16(dstAddr->u.ipv4Addr.port);
+ remAddr.sin_port = CM_INET_HTON_UINT16(dstAddr->u.ipv4Addr.port);
remAddr.sin_addr.s_addr =
- CM_INET_HTON_U32(dstAddr->u.ipv4Addr.address);
+ CM_INET_HTON_UINT32(dstAddr->u.ipv4Addr.address);
sizeOfAddr = sizeof(remAddr);
sockAddrPtr = (CmInetSockAddr *)&remAddr;
}
#else
/* 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);
+ remAddr.sin_port = CM_INET_HTON_UINT16(dstAddr->port);
+ remAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(dstAddr->address);
sizeOfAddr = sizeof(remAddr);
sockAddrPtr = (CmInetSockAddr *)&remAddr;
#endif /* IPV6_SUPPORTED */
}
/* max message length is limited to control the memory usage */
/* casting bufLen to avoid warnings */
- if ((bufLen > 0) && ((U32)bufLen > CM_INET_MAX_MSG_LEN))
+ if ((bufLen > 0) && ((uint32_t)bufLen > CM_INET_MAX_MSG_LEN))
{
return RFAILED;
}
(ipHdrParams->u.hdrParmIpv4.tos.val != 0))
{
cmInet4FillTos(ipHdrParams->u.hdrParmIpv4.tos.val,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx);
msg.msg_control = cmsgData; /* pointer to Ancillary Data */
msg.msg_controllen = curMsgIdx; /* total length of ancillary Data */
}
#ifdef SS_LINUX
if(ipHdrParams->u.ipv6HdrParm.ttl.pres == TRUE)
{
- cmInetBuildSendHoplimit((U32)ipHdrParams->u.ipv6HdrParm.ttl.val,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx);
+ cmInetBuildSendHoplimit((uint32_t)ipHdrParams->u.ipv6HdrParm.ttl.val,
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx);
}
#endif /* SS_LINUX */
{
cmInet6BuildSendPktinfo(
&ipHdrParams->u.ipv6HdrParm.srcAddr6.u.ipv6NetAddr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx,
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx,
sockFd->protType);
}
#endif /* LOCAL_INTF */
/* build HBH ext header in cmsgData starting at indx 0 */
cmInet6BuildSendHBHOpts(
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.hbhOptsArr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx, 0);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx, 0);
/* now copy the elements from the Destination Option array one by
* one to the Flat Buffer cmsgData. Start filling at indx curMsgIdx
/* build Dest opt hdr starting at (cmsgData + curMsgIdx) */
cmInet6BuildSendDestOpts(
&(ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.destOptsArr),
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx, 1);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx, 1);
/* copy Route header to to the Flat Buffer cmsgData */
if (ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.rtOptsPrsnt == TRUE)
/* curMsgIdx will be the indx where Dest opt ends in cmsgData */
cmInet6BuildSendRouteOpts(
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.rtOptsArr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx);
/* msghrd struc's msg_control will point cmsgData and msg_controllen
* will be the curMsgIdx */
#ifdef NTL_LIB
{
- extern int ntl_hLib;
+ int ntl_hLib;
if ( sockFd->fd >= 0xD001)
ret = ntl_sendmsg(ntl_hLib, sockFd->fd, &msg, 0);
else
*
*/
-#ifdef ANSI
S16 cmInetSendMsg
(
CmInetFd *sockFd, /* socket file descriptor */
#endif /* IPV6_OPTS_SUPPORTED */
S16 flags /* additional control flags, unused */
)
-#else
-/* added for IPv6 ext hdr */
-#ifdef IPV6_OPTS_SUPPORTED
-S16 cmInetSendMsg(sockFd, dstAddr, info, mBuf, len, ipHdrParams, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *dstAddr; /* destination Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer *mBuf; /* buffer structure to send */
-MsgLen *len; /* number of actually sent octets */
-CmInetIpHdrParm *ipHdrParams; /* IPv6 extensions headers */
-S16 flags; /* additional control flags, unused */
-#else
-S16 cmInetSendMsg(sockFd, dstAddr, info, mBuf, len, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *dstAddr; /* destination Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer *mBuf; /* buffer structure to send */
-MsgLen *len; /* number of actually sent octets */
-S16 flags; /* additional control flags, unused */
-#endif /* IPV6_OPTS_SUPPORTED */
-#endif /* ANSI */
{
#if (defined(WIN32) || defined(CMINETFLATBUF))
S32 ret; /* temporary return value */
S16 numDBufs; /* number of dBufs in message */
struct msghdr msg; /* sendmsg() message header */
MsgLen msgLen; /* message length */
- U32 strtEndDBufNum; /* starting/ending DBuf number */
+ uint32_t strtEndDBufNum; /* starting/ending DBuf number */
MsgLen unSentLen; /* sent len */
#ifdef IPV6_SUPPORTED
/* added for IPv6 ext hdr */
#ifdef IPV6_OPTS_SUPPORTED
- U32 curMsgIdx; /* indx in cmsgData where to write an ext hdr */
+ uint32_t curMsgIdx; /* indx in cmsgData where to write an ext hdr */
#if (defined(SS_LINUX) || defined(_XPG4_2))
/* alloc from stack for IPv6 ancill data */
- U8 cmsgData[CM_INET_IPV6_ANCIL_DATA];
+ uint8_t cmsgData[CM_INET_IPV6_ANCIL_DATA];
#endif /* SS_LINUX || _XPG4_2 */
#endif /* IPV6_OPTS_SUPPORTED */
#else
#if (defined(SS_LINUX) || defined(_XPG4_2))
/* alloc from stack for IPv4 ancill data */
- /* U8 cmsgData[CM_INET_IPV4_ANCIL_DATA];*/
+ /* uint8_t cmsgData[CM_INET_IPV4_ANCIL_DATA];*/
#endif /* SS_LINUX || _XPG4_2 */
#endif /* IPV6_SUPPORTED */
#endif /* WIN32 | CMINETFLATBUF */
#endif /* IPV8_SUPPORTED */
CmInetSockAddr *sockAddrPtr;
/* cm_inet_c_001.main_58 : Fix for klockwork issue */
- U32 sizeOfAddr;
+ uint32_t sizeOfAddr;
/* cm_inet_c_001.main_50 - Added for partial send handling */
/* cm_inet_c_001.main_59: Protected under if not defined WIN32*/
{
memset(&remAddr6, 0, sizeof(remAddr6));
remAddr6.sin6_family = AF_INET6;
- remAddr6.sin6_port = CM_INET_HTON_U16(dstAddr->u.ipv6Addr.port);
+ remAddr6.sin6_port = CM_INET_HTON_UINT16(dstAddr->u.ipv6Addr.port);
CM_INET_COPY_IPV6ADDR(&remAddr6.sin6_addr,
&dstAddr->u.ipv6Addr.ipv6NetAddr);
sizeOfAddr = sizeof(remAddr6);
{
memset(&remAddr, 0, sizeof(remAddr));
remAddr.sin_family = AF_INET;
- remAddr.sin_port = CM_INET_HTON_U16(dstAddr->u.ipv4Addr.port);
+ remAddr.sin_port = CM_INET_HTON_UINT16(dstAddr->u.ipv4Addr.port);
remAddr.sin_addr.s_addr =
- CM_INET_HTON_U32(dstAddr->u.ipv4Addr.address);
+ CM_INET_HTON_UINT32(dstAddr->u.ipv4Addr.address);
sizeOfAddr = sizeof(remAddr);
sockAddrPtr = (CmInetSockAddr *)&remAddr;
}
#else
/* 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);
+ remAddr.sin_port = CM_INET_HTON_UINT16(dstAddr->port);
+ remAddr.sin_addr.s_addr = CM_INET_HTON_UINT32(dstAddr->address);
sizeOfAddr = sizeof(remAddr);
sockAddrPtr = (CmInetSockAddr *)&remAddr;
#endif /* IPV6_SUPPORTED */
}
/* max message length is limited to control the memory usage */
/* casting bufLen to avoid warnings */
- if ((bufLen > 0) && ((U32)bufLen > CM_INET_MAX_MSG_LEN))
+ if ((bufLen > 0) && ((uint32_t)bufLen > CM_INET_MAX_MSG_LEN))
{
return RFAILED;
}
#ifdef SS_LINUX
if(ipHdrParams->u.ipv6HdrParm.ttl.pres == TRUE)
{
- cmInetBuildSendHoplimit((U32)ipHdrParams->u.ipv6HdrParm.ttl.val,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx);
+ cmInetBuildSendHoplimit((uint32_t)ipHdrParams->u.ipv6HdrParm.ttl.val,
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx);
}
#endif /* SS_LINUX */
{
cmInet6BuildSendPktinfo(
&ipHdrParams->u.ipv6HdrParm.srcAddr6.u.ipv6NetAddr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx,
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx,
sockFd->protType);
}
#endif /* LOCAL_INTF */
/* build HBH ext header in cmsgData starting at indx 0 */
cmInet6BuildSendHBHOpts(
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.hbhOptsArr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx, 0);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx, 0);
/* now copy the elements from the Destination Option array one by
* one to the Flat Buffer cmsgData. Start filling at indx curMsgIdx
/* build Dest opt hdr starting at (cmsgData + curMsgIdx) */
cmInet6BuildSendDestOpts(
&(ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.destOptsArr),
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx, 1);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx, 1);
/* copy Route header to to the Flat Buffer cmsgData */
if (ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.rtOptsPrsnt == TRUE)
/* curMsgIdx will be the indx where Dest opt ends in cmsgData */
cmInet6BuildSendRouteOpts(
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.rtOptsArr,
- (U8 *)(cmsgData + curMsgIdx), &curMsgIdx);
+ (uint8_t *)(cmsgData + curMsgIdx), &curMsgIdx);
/* msghrd struc's msg_control will point cmsgData and msg_controllen
* will be the curMsgIdx */
#ifdef NTL_LIB
{
- extern int ntl_hLib;
+ int ntl_hLib;
if ( sockFd->fd >= 0xD001)
ret = ntl_sendmsg(ntl_hLib, sockFd->fd, &msg, 0);
else
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6BuildSendPktinfo
+static S16 cmInet6BuildSendPktinfo
(
CmInetIpAddr6 *srcAddr, /* src ip addr to set on outgoing packet */
-U8 *cmsgBuf, /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx, /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-U8 protType /* whether IPv4/IPv6 socket */
+uint8_t *cmsgBuf, /* flat buffer where to build ext hdrs */
+uint32_t *curMsgIdx, /* idx in cmsgBuf where HBH/Dest ext hdr ends */
+uint8_t protType /* whether IPv4/IPv6 socket */
)
-#else
-PRIVATE S16 cmInet6BuildSendPktinfo(srcAddr, cmsgBuf, curMsgIdx, protType)
-CmInetIpAddr6 *srcAddr; /* src ip addr to set on outgoing packet */
-U8 *cmsgBuf; /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx; /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-U8 protType; /* whether IPv4/IPv6 socket */
-#endif /* ANSI */
{
struct cmsghdr *tempHdr;
struct in6_pktinfo *ipv6Pktinfo;
struct in6_addr lpBkAddr;
- U8 len;
+ uint8_t len;
len = 0;
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInetBuildSendHoplimit
+static S16 cmInetBuildSendHoplimit
(
-U32 hoplimit, /* the hoplimit value to be set on outgoing packet */
-U8 *cmsgBuf, /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx /* idx in cmsgBuf where HBH/Dest ext hdr ends */
+uint32_t hoplimit, /* the hoplimit value to be set on outgoing packet */
+uint8_t *cmsgBuf, /* flat buffer where to build ext hdrs */
+uint32_t *curMsgIdx /* idx in cmsgBuf where HBH/Dest ext hdr ends */
)
-#else
-PRIVATE S16 cmInetBuildSendHoplimit(hoplimit, cmsgBuf, curMsgIdx)
-U32 hoplimit; /* the hoplimit value to be sent on outgoing packet */
-U8 *cmsgBuf; /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx; /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-#endif /* ANSI */
{
struct cmsghdr *tempHdr;
- U8 len;
+ uint8_t len;
len = 0;
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6BuildSendHBHOpts
+static S16 cmInet6BuildSendHBHOpts
(
CmInetIpv6HBHHdrArr *hbhOptsArr,/* IPv6 extensions headers HBH/Dest opts */
-U8 *cmsgBuf, /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx, /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-U8 hdrId /* 0: HBH hdr, 1:Dest Hdr */
+uint8_t *cmsgBuf, /* flat buffer where to build ext hdrs */
+uint32_t *curMsgIdx, /* idx in cmsgBuf where HBH/Dest ext hdr ends */
+uint8_t hdrId /* 0: HBH hdr, 1:Dest Hdr */
)
-#else
-PRIVATE S16 cmInet6BuildSendHBHOpts(hbhOptsArr, cmsgBuf, curMsgIdx, hdrId)
-CmInetIpv6HBHHdrArr *hbhOptsArr;/* IPv6 extensions headers HBH/Dest opts */
-U8 *cmsgBuf; /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx; /* idx in cmsgBuf where HBH/Dest ext hdr ends */
-U8 hdrId; /* 0: HBH hdr, 1:Dest Hdr */
-#endif
{
struct cmsghdr *tempHdr;
- U8 len;
- U8 optsIdx;
+ uint8_t len;
+ uint8_t optsIdx;
len = 0;
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6BuildSendRouteOpts
+static S16 cmInet6BuildSendRouteOpts
(
CmInetIpv6RtHdr *rtOptsArr, /* IPv6 destination options array */
-U8 *cmsgBuf, /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx /* idx in cmsgBuf where to start building RT hdr */
+uint8_t *cmsgBuf, /* flat buffer where to build ext hdrs */
+uint32_t *curMsgIdx /* idx in cmsgBuf where to start building RT hdr */
)
-#else
-PRIVATE S16 cmInet6BuildSendRouteOpts(rtOptsArr, cmsgBuf, curMsgIdx)
-CmInetIpv6RtHdr *rtOptsArr; /* IPv6 destination options array */
-U8 *cmsgBuf; /* flat buffer where to build ext hdrs */
-U32 *curMsgIdx; /* idx in cmsgBuf where to start building RT hd */
-#endif /* ANSI */
{
struct cmsghdr *tempHdr;
CmInetIpv6RtHdr0 *tempRtHdr;
- U8 len;
- U8 addrIdx;
+ uint8_t len;
+ uint8_t addrIdx;
len = 0;
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6BuildRecvHopOptsArr
+static S16 cmInet6BuildRecvHopOptsArr
(
-U8 *cmsgData, /* flat buffer where to build ext hdrs */
-U32 hbhDataLen, /* byte len of cmsghdr + hbh ancil data */
+uint8_t *cmsgData, /* flat buffer where to build ext hdrs */
+uint32_t hbhDataLen, /* byte len of cmsghdr + hbh ancil data */
CmInetIpv6HBHHdrArr *hbhOptsArr, /* IPv6 extensions headers */
-U8 hdrId, /* 0: HBH, 1: DEST */
+uint8_t hdrId, /* 0: HBH, 1: DEST */
CmInetMemInfo *info /* Memory information */
)
-#else
-PRIVATE S16 cmInet6BuildRecvHopOptsArr(cmsgData, hbhDataLen, hbhOptsArr, hdrId,
- info)
-U8 *cmsgData; /* flat buffer where to build ext hdrs */
-U32 hbhDataLen; /* byte len of cmsghdr + hbh ancil data */
-CmInetIpv6HBHHdrArr *hbhOptsArr; /* IPv6 extensions headers */
-U8 hdrId; /* 0: HBH, 1: DEST */
-CmInetMemInfo *info; /* Memory information */
-#endif /* ANSI */
{
- U32 curDataIdx; /* to keep track where we are in the hbh Data */
- U8 optsIdx; /* how many hbh opts present in data */
- U8 numOpts; /* number of hbh opts present in data */
- U8 tempLen;
- U8 tempType;
+ uint32_t curDataIdx; /* to keep track where we are in the hbh Data */
+ uint8_t optsIdx; /* how many hbh opts present in data */
+ uint8_t numOpts; /* number of hbh opts present in data */
+ uint8_t tempLen;
+ uint8_t tempType;
S16 ret;
numOpts += 1;
/* get type */
- tempType = *(U8 *)(cmsgData + curDataIdx);
+ tempType = *(uint8_t *)(cmsgData + curDataIdx);
curDataIdx += 1;
/* take care of pad1 option */
}
/* get length */
- tempLen = *(U8 *)(cmsgData + curDataIdx);
+ tempLen = *(uint8_t *)(cmsgData + curDataIdx);
/* 1 is to skip length. tempLen to skip the value field */
curDataIdx += (1 + tempLen);
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6BuildRecvRtHdr
+static S16 cmInet6BuildRecvRtHdr
(
-U8 *cmsgData, /* flat buffer where to build Route hdr */
-U32 rtDataLen, /* byte len of cmsghdr struc+rtHdr ancil data */
+uint8_t *cmsgData, /* flat buffer where to build Route hdr */
+uint32_t rtDataLen, /* byte len of cmsghdr struc+rtHdr ancil data */
CmInetIpv6RtHdr0 *rtHdr0, /* rtHeader0 struct that precedes IPV6 addrss */
CmInetIpv6RtHdr *rtOptsArr,/* IPv6 extensions headers */
CmInetMemInfo *info /* Memory information */
)
-#else
-PRIVATE S16 cmInet6BuildRecvRtHdr(cmsgData, rtDataLen, rtHdr0, rtOptsArr, info)
-U8 *cmsgData; /* flat buffer where to build Route hdr */
-U32 rtDataLen; /* byte len of cmsghdr struc+rtHdr ancil data */
-CmInetIpv6RtHdr0 *rtHdr0; /* rtHeader0 struct that precedes IPV6 addrss */
-CmInetIpv6RtHdr *rtOptsArr;/* IPv6 extensions headers */
-CmInetMemInfo *info; /* Memory information */
-#endif /* ANSI */
{
- U32 curDataIdx; /* to keep track where we are in hbh Data */
- U8 i; /* loop counter */
+ uint32_t curDataIdx; /* to keep track where we are in hbh Data */
+ uint8_t i; /* loop counter */
S16 ret; /* temporary return value */
*
*/
-#ifdef ANSI
-PRIVATE S16 cmInet6GetHopLimitValue
+static S16 cmInet6GetHopLimitValue
(
-U8 *cmsgData, /* flat buffer where to build ext hdrs */
-U32 hopLimitDataLen, /* byte len of cmsghdr + hbh ancil data */
+uint8_t *cmsgData, /* flat buffer where to build ext hdrs */
+uint32_t hopLimitDataLen, /* byte len of cmsghdr + hbh ancil data */
CmInetIpv6HdrParm *ipv6HdrParam /* ipv6 header parameters */
)
-#else
-PRIVATE S16 cmInet6GetHopLimitValue(cmsgData, hopLimitDataLen, ipv6HdrParam)
-U8 *cmsgData; /* flat buffer where to build ext hdrs */
-U32 hopLimitDataLen; /* byte len of cmsghdr + hbh ancil data */
-CmInetIpv6HdrParm *ipv6HdrParam; /* ipv6 header parameters */
-#endif /* ANSI */
{
- U16 curDataIdx; /* to keep track where we are in the ancillary Data */
- U32 *hopLimitValue; /* ttl/hoplimit value */
+ uint16_t curDataIdx; /* to keep track where we are in the ancillary Data */
+ uint32_t *hopLimitValue; /* ttl/hoplimit value */
hopLimitValue = NULL;
curDataIdx = 0;
ipv6HdrParam->ttl.pres = TRUE;
/* the first byte will be the HopLimit value */
- hopLimitValue = (U32 *)(cmsgData);
- ipv6HdrParam->ttl.val = (U8)(*hopLimitValue);
+ hopLimitValue = (uint32_t *)(cmsgData);
+ ipv6HdrParam->ttl.val = (uint8_t)(*hopLimitValue);
return ROK;
}
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetRecvMsg
(
CmInetFd *sockFd, /* socket file descriptor */
#endif /* LOCAL_INTF */
S32 flags /* additional control flags */
)
-#else
-/* added for IPv6 */
-#ifdef IPV6_OPTS_SUPPORTED
-#ifdef LOCAL_INTF
-S16 cmInetRecvMsg(sockFd, fromAddr, info, mPtr, len,
- ipHdrParams, localIf, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* sender Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer **mPtr; /* received buffer structure */
-MsgLen *len; /* number of octets to read */
-CmInetIpHdrParm *ipHdrParams; /* IPv6 extensions headers */
-CmInetLocalInf *localIf; /* local interface on which pkt was recvd */
-S32 flags; /* additional control flags */
-#else
-S16 cmInetRecvMsg(sockFd, fromAddr, info, mPtr, len, ipHdrParams, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* sender Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer **mPtr; /* received buffer structure */
-MsgLen *len; /* number of octets to read */
-CmInetIpHdrParm *ipHdrParams; /* IPv6 extensions headers */
-S32 flags; /* additional control flags */
-#endif /* LOCAL_INTF */
-#else
-#ifdef LOCAL_INTF
-S16 cmInetRecvMsg(sockFd, fromAddr, info, mPtr, len, localIf, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* sender Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer **mPtr; /* received buffer structure */
-MsgLen *len; /* number of octets to read */
-CmInetLocalInf *localIf; /* local interface on which pkt was recvd */
-S32 flags; /* additional control flags */
-#else
-S16 cmInetRecvMsg(sockFd, fromAddr, info, mPtr, len, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* sender Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-Buffer **mPtr; /* received buffer structure */
-MsgLen *len; /* number of octets to read */
-S32 flags; /* additional control flags */
-#endif /* LOCAL_INTF */
-#endif /* IPV6_OPTS_SUPPORTED */
-#endif /* ANSI */
{
#if (defined(WIN32) || defined(CMINETFLATBUF))
S32 ret; /* temporary return value */
- U32 pendLen; /* pending data length */
+ uint32_t pendLen; /* pending data length */
S32 recvLen; /* number of received octets by recvmsg() */
MsgLen bufLen; /* entire number of received octets */
MsgLen curLen; /* current number of octets in buffer */
Data *recvBuf; /* receive buffer */
Data *bufPtr; /* current buffer position */
Buffer *mBuf; /* received message */
- U32 remAddrLen; /* length of remote address */
+ uint32_t remAddrLen; /* length of remote address */
struct sockaddr_in *remAddr; /* remote Internet address */
#ifdef IPV6_SUPPORTED
struct sockaddr_in6 *remAddr6; /* remote Internet address */
#else
S32 ret; /* temporary return value */
/* cm_inet_c_001.main_58: Fix for g++ compilation warning */
- U16 i; /* index */
- U32 pendLen; /* pending data length */
+ uint16_t i; /* index */
+ uint32_t pendLen; /* pending data length */
S32 numBuf; /* number of allocated dBufs */
S32 recvLen; /* number of received octets by recvmsg() */
MsgLen bufLen; /* entire number of received octets */
#endif /* LOCAL_INTF */
#if (defined(SS_LINUX) || defined(_XPG4_2))
- U8 ancillData[CM_INET_IPV6_ANCIL_DATA];
+ uint8_t ancillData[CM_INET_IPV6_ANCIL_DATA];
/* from stack for IPv6 ancill data */
#endif
#else
CmInetSockAddr remSockAddr; /* to get packet's src IP address */
#if (defined(SS_LINUX) || defined(_XPG4_2))
- U8 ancillData[CM_INET_IPV4_ANCIL_DATA];
+ uint8_t ancillData[CM_INET_IPV4_ANCIL_DATA];
/* from stack for IPv4 ancill data */
#endif
#endif /* IPV6_SUPPORTED */
/* cm_inet_c_001.main_50:
* cm_inet_c_001.main_56: Removed comment for cm_inet_c_001.main_50 as
* the current patch changes its functionality */
- U8 readBuf[1]; /* declaration of variable for Peek */
+ uint8_t readBuf[1]; /* declaration of variable for Peek */
/*
* cm_inet_c_001.main_56:
}
/* check if there are enough pending data to read */
- if ((*len == CM_INET_READ_ANY) || ((U32)*len <= pendLen))
+ if ((*len == CM_INET_READ_ANY) || ((uint32_t)*len <= pendLen))
{
if (*len == CM_INET_READ_ANY)
{
{
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
fromAddr->type = CM_INET_IPV6ADDR_TYPE;
- fromAddr->u.ipv6Addr.port = CM_INET_NTOH_U16(remAddr6->sin6_port);
+ fromAddr->u.ipv6Addr.port = CM_INET_NTOH_UINT16(remAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&fromAddr->u.ipv6Addr.ipv6NetAddr,
&remAddr6->sin6_addr);
}
{
remAddr = (struct sockaddr_in *)&remSockAddr;
fromAddr->type = CM_INET_IPV4ADDR_TYPE;
- fromAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(remAddr->sin_port);
- fromAddr->u.ipv4Addr.address = CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ fromAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(remAddr->sin_port);
+ fromAddr->u.ipv4Addr.address = CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
}
#else
remAddr = (struct sockaddr_in *)&remSockAddr;
- fromAddr->port = CM_INET_NTOH_U16(remAddr->sin_port);
- fromAddr->address = CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ fromAddr->port = CM_INET_NTOH_UINT16(remAddr->sin_port);
+ fromAddr->address = CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
}
* of TCP ignore this error condition. The user will call
* cmInetRecvMsg again */
/* cm_inet_c_001.main_62:Warning fix */
- if (sockFd->type != (U8)CM_INET_STREAM)/* G++ */
+ if (sockFd->type != (uint8_t)CM_INET_STREAM)/* G++ */
{
#ifdef T2K_MEM_LEAK_DBG
char * file = __FILE__;
- U32 line = __LINE__;
+ uint32_t line = __LINE__;
#endif
/* cleanup the dBuf array */
/* update the message structure */
#ifdef SS_LINUX
rxArr[0].iov_base = (Void*)recvBuf;
- rxArr[0].iov_len = (U32)bufLen;
+ rxArr[0].iov_len = (uint32_t)bufLen;
#else
rxArr[0].iov_base = (S8*)recvBuf;
rxArr[0].iov_len = bufLen;
{
#ifdef T2K_MEM_LEAK_DBG
char * file = __FILE__;
- U32 line = __LINE__;
+ uint32_t line = __LINE__;
#endif
SPutDBuf(info->region, info->pool, dBufs[i]);
{
/* build up HBH opt array from recvd ancillary data */
ret = cmInet6BuildRecvHopOptsArr(
- (U8 *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len,
+ (uint8_t *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len,
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.hbhOptsArr,
0, info);
if (ret != ROK)
{
/* build up Dest opt array from recvd ancillary data */
ret = cmInet6BuildRecvDstOptsArr(
- (U8 *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len,
+ (uint8_t *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len,
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.destOptsArr,
1, info);
if (ret != ROK)
{
/* build up Route Hdr from recvd ancillary data */
ret = cmInet6BuildRecvRtHdr(
- (U8 *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len, &rtHdr0,
+ (uint8_t *)CMSG_DATA(cmsgptr), cmsgptr->cmsg_len, &rtHdr0,
&ipHdrParams->u.ipv6HdrParm.ipv6ExtHdr.rtOptsArr,
info);
if (ret != ROK)
else if(cmsgptr->cmsg_type == IPV6_HOPLIMIT)
{
/* get the received hoplimit */
- ret = cmInet6GetHopLimitValue((U8 *)CMSG_DATA(cmsgptr),
+ ret = cmInet6GetHopLimitValue((uint8_t *)CMSG_DATA(cmsgptr),
cmsgptr->cmsg_len, &ipHdrParams->u.ipv6HdrParm);
if (ret != ROK)
return (ret);
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
fromAddr->type = CM_INET_IPV6ADDR_TYPE;
fromAddr->u.ipv6Addr.port =
- CM_INET_NTOH_U16(remAddr6->sin6_port);
+ CM_INET_NTOH_UINT16(remAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&fromAddr->u.ipv6Addr.ipv6NetAddr,
&remAddr6->sin6_addr);
}
{
remAddr = (struct sockaddr_in *)&remSockAddr;
fromAddr->type = CM_INET_IPV4ADDR_TYPE;
- fromAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(remAddr->sin_port);
+ fromAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(remAddr->sin_port);
fromAddr->u.ipv4Addr.address =
- CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
}
#else
remAddr = (struct sockaddr_in *)&remSockAddr;
- fromAddr->port = CM_INET_NTOH_U16(remAddr->sin_port);
- fromAddr->address = CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ fromAddr->port = CM_INET_NTOH_UINT16(remAddr->sin_port);
+ fromAddr->address = CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
}
* File: cm_inet.c
*/
-#ifdef ANSI
S16 cmInetPeekNew
(
- CmInetFd *sockFd, /* socket file descriptor */
- CmInetAddr *fromAddr, /* sender Internet address/port */
- CmInetMemInfo *info, /* buffer allocation info */
- MsgLen dataPos, /* position of data */
- MsgLen dataLen, /* length of read data */
- Data *data /* read data */
- )
-#else
-S16 cmInetPeekNew(sockFd, fromAddr, info, dataPos, dataLen, data)
- CmInetFd *sockFd; /* socket file descriptor */
- CmInetAddr *fromAddr; /* sender Internet address/port */
- CmInetMemInfo *info; /* buffer allocation info */
- MsgLen dataPos; /* position of data */
- MsgLen dataLen; /* length of read data */
- Data *data; /* read data */
-#endif
+CmInetFd *sockFd, /* socket file descriptor */
+CmInetAddr *fromAddr, /* sender Internet address/port */
+CmInetMemInfo *info, /* buffer allocation info */
+MsgLen dataPos, /* position of data */
+MsgLen dataLen, /* length of read data */
+Data *data /* read data */
+)
{
/* cm_inet_c_001.main_57 - Fix for validation and compilation warning */
S32 recvLen; /* number of received octets */
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
fromAddr->type = CM_INET_IPV6ADDR_TYPE;
fromAddr->u.ipv6Addr.port =
- CM_INET_NTOH_U16(remAddr6->sin6_port);
+ CM_INET_NTOH_UINT16(remAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&fromAddr->u.ipv6Addr.ipv6NetAddr,
&remAddr6->sin6_addr);
}
{
remAddr = (struct sockaddr_in *)&remSockAddr;
fromAddr->type = CM_INET_IPV4ADDR_TYPE;
- fromAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(remAddr->sin_port);
+ fromAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(remAddr->sin_port);
fromAddr->u.ipv4Addr.address =
- CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
}
#else
remAddr = (struct sockaddr_in *)&remSockAddr;
- fromAddr->port = CM_INET_NTOH_U16(remAddr->sin_port);
- fromAddr->address = CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ fromAddr->port = CM_INET_NTOH_UINT16(remAddr->sin_port);
+ fromAddr->address = CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
}
*
*/
-#ifdef ANSI
S16 cmInetPeek
(
CmInetFd *sockFd, /* socket file descriptor */
MsgLen dataLen, /* length of read data */
Data *data /* read data */
)
-#else
-S16 cmInetPeek(sockFd, fromAddr, info, dataPos, dataLen, data)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *fromAddr; /* sender Internet address/port */
-CmInetMemInfo *info; /* buffer allocation info */
-MsgLen dataPos; /* position of data */
-MsgLen dataLen; /* length of read data */
-Data *data; /* read data */
-#endif
{
/* cm_inet_c_001.main_54: Fix for Klockworks issue */
Data *recvBuf = NULLP; /* plain receive buffer */
MsgLen i; /* index */
MsgLen j; /* index */
S32 ret; /* temporary return value */
- U32 timeout; /* timeout for cmInetSelect() */
- U32 *timeoutPtr; /* pointer to timeout */
+ uint32_t timeout; /* timeout for cmInetSelect() */
+ uint32_t *timeoutPtr; /* pointer to timeout */
S16 numFdS; /* number of ready descriptors */
/* cm_inet_c_001.main_45 - fixing the UMR issue in 64bit linux */
- U32 pendLen = 0; /* pending data length */
+ uint32_t pendLen = 0; /* pending data length */
S32 recvLen; /* number of received octets */
S32 remAddrLen; /* length of remote address length */
CmInetFdSet readFdS; /* socket file descriptor set */
remAddr6 = (struct sockaddr_in6 *)&remSockAddr;
fromAddr->type = CM_INET_IPV6ADDR_TYPE;
fromAddr->u.ipv6Addr.port =
- CM_INET_NTOH_U16(remAddr6->sin6_port);
+ CM_INET_NTOH_UINT16(remAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&fromAddr->u.ipv6Addr.ipv6NetAddr,
&remAddr6->sin6_addr);
}
{
remAddr = (struct sockaddr_in *)&remSockAddr;
fromAddr->type = CM_INET_IPV4ADDR_TYPE;
- fromAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(remAddr->sin_port);
+ fromAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(remAddr->sin_port);
fromAddr->u.ipv4Addr.address =
- CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
}
#else
remAddr = (struct sockaddr_in *)&remSockAddr;
- fromAddr->port = CM_INET_NTOH_U16(remAddr->sin_port);
- fromAddr->address = CM_INET_NTOH_U32(remAddr->sin_addr.s_addr);
+ fromAddr->port = CM_INET_NTOH_UINT16(remAddr->sin_port);
+ fromAddr->address = CM_INET_NTOH_UINT32(remAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
}
*
*/
-#ifdef ANSI
S16 cmInetClose
(
CmInetFd *sockFd /* socket file descriptor */
)
-#else
-S16 cmInetClose(sockFd)
-CmInetFd *sockFd; /* socket file descriptor */
-#endif
{
S32 ret; /* temporary return value */
*
*/
-#ifdef ANSI
S16 cmInetShutdown
(
CmInetFd *sockFd, /* socket file descriptor */
S32 howTo /* operation flag */
)
-#else
-S16 cmInetShutdown(sockFd, howTo)
-CmInetFd *sockFd; /* socket file descriptor */
-S32 howTo; /* operation flag */
-#endif
{
S32 ret; /* temporary return value */
*
*/
-#ifdef ANSI
S16 cmInetSelect
(
CmInetFdSet *readFdS, /* read socket descriptor file set */
CmInetFdSet *writeFdS, /* write socket descriptor file set */
-U32 *mSecTimeout, /* timeout in msecs */
+uint32_t *mSecTimeout, /* timeout in msecs */
S16 *numFdS /* number of ready descriptors */
)
-#else
-S16 cmInetSelect(readFdS, writeFdS, mSecTimeout, numFdS)
-CmInetFdSet *readFdS; /* read socket descriptor file set */
-CmInetFdSet *writeFdS; /* write socket descriptor file set */
-U32 *mSecTimeout; /* timeout in msecs */
-S16 *numFdS; /* number of ready descriptors */
-#endif
{
S32 ret; /* temporary return value */
struct timeval timeout; /* timeout structure */
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetSetOpt
(
CmInetFd *sockFd, /* socket file descriptor */
-U32 level, /* option level */
-U32 type, /* option type */
-Ptr value /* option value */
+uint32_t level, /* option level */
+uint32_t type, /* option type */
+Ptr value /* option value */
)
-#else
-S16 cmInetSetOpt(sockFd, level, type, value)
-CmInetFd *sockFd; /* socket file descriptor */
-U32 level; /* option level */
-U32 type; /* option type */
-Ptr value; /* option value */
-#endif
{
S32 ret = ROK; /* temporary return value */
- U32 disable = 0; /* disable option */
- U32 enable = 1; /* enable option */
+ uint32_t disable = 0; /* disable option */
+ uint32_t enable = 1; /* enable option */
/* added for IPv4 options */
#ifdef IPV4_OPTS_SUPPORTED
#if (defined(SUNOS)|| defined(WIN32) || defined(SS_PS) || defined(SS_VW_MCAST)\
|| defined(HPOS))
- U8 lpEnable = 1; /* multicast loop enable */
- U8 lpDisable = 0; /* multicast loop disable */
+ uint8_t lpEnable = 1; /* multicast loop enable */
+ uint8_t lpDisable = 0; /* multicast loop disable */
#endif /* SUNOS || WIN32 || SS_PS || SS_VW_MCAST || HPOS */
#ifdef WIN32
#endif /* SUNOS || WIN32 || SS_PS || SS_VW_MCAST || HPOS */
#ifdef IPV6_SUPPORTED
- U32 loopEna = 1; /* IPv6 multicast loop enable */
- U32 loopDis = 0; /* IPv6 multicast loop disable */
+ uint32_t loopEna = 1; /* IPv6 multicast loop enable */
+ uint32_t loopDis = 0; /* IPv6 multicast loop disable */
struct ipv6_mreq *stMreq6Ptr;
/* cm_inet_c_001.main_44 : some operating system doesnt have icmp6_filter. so
this flag is gaurded under ICMPV6_FILTER_SUPPORTED. so if user want this
CmInetSctpAssocParams *pSctpAssocParams;
#endif
- U32 *optVal;
+ uint32_t *optVal;
/* cm_inet_c_001.main_58 : Added NULL check for value field */
switch (type)
{
case CM_INET_OPT_BLOCK:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
switch(*optVal)
{
case CM_INET_OPT_ENABLE:
#ifdef WIN32
/* cm_inet_c_001.main_59: Fix for compilation warning */
- ret = ioctlsocket(sockFd->fd, FIONBIO, (U32 *)&disable);
+ ret = ioctlsocket(sockFd->fd, FIONBIO, (uint32_t *)&disable);
#else
#ifdef SS_PS
ret = ioctl(sockFd->fd, FIONBIO, (char*)&disable);
case CM_INET_OPT_DISABLE:
#ifdef WIN32
/* cm_inet_c_001.main_59: Fix for compilation warning */
- ret = ioctlsocket(sockFd->fd, FIONBIO, (U32 *)&enable);
+ ret = ioctlsocket(sockFd->fd, FIONBIO, (uint32_t *)&enable);
#else
#ifdef SS_PS
ret = ioctl(sockFd->fd, FIONBIO, (char*)&enable);
break;
case CM_INET_OPT_REUSEADDR:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
break;
case CM_INET_OPT_BROADCAST:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
break;
case CM_INET_OPT_KEEPALIVE:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
break;
case CM_INET_OPT_RX_BUF_SIZE:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, SO_RCVBUF,
(char*)optVal, sizeof(*optVal));
break;
case CM_INET_OPT_TX_BUF_SIZE:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, SO_SNDBUF,
(char*)optVal, sizeof(*optVal));
break;
case CM_INET_OPT_TCP_NODELAY:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
/* Copy the addresses to stMreq structure */
#ifdef SS_PS
- stMreq.imr_mcastaddr.s_addr = CM_INET_HTON_U32(mCast->mCastAddr);
+ stMreq.imr_mcastaddr.s_addr = CM_INET_HTON_UINT32(mCast->mCastAddr);
#else
- stMreq.imr_multiaddr.s_addr = CM_INET_HTON_U32(mCast->mCastAddr);
+ stMreq.imr_multiaddr.s_addr = CM_INET_HTON_UINT32(mCast->mCastAddr);
#endif
- stMreq.imr_interface.s_addr = CM_INET_HTON_U32(mCast->localAddr);
+ stMreq.imr_interface.s_addr = CM_INET_HTON_UINT32(mCast->localAddr);
ret = setsockopt(sockFd->fd, level, IP_ADD_MEMBERSHIP,
(char*)&stMreq, sizeof(stMreq));
/* Copy the addresses to stMreq structure */
#ifdef SS_PS
- stMreq.imr_mcastaddr.s_addr = CM_INET_HTON_U32(mCast->mCastAddr);
+ stMreq.imr_mcastaddr.s_addr = CM_INET_HTON_UINT32(mCast->mCastAddr);
#else
- stMreq.imr_multiaddr.s_addr = CM_INET_HTON_U32(mCast->mCastAddr);
+ stMreq.imr_multiaddr.s_addr = CM_INET_HTON_UINT32(mCast->mCastAddr);
#endif
- stMreq.imr_interface.s_addr = CM_INET_HTON_U32(mCast->localAddr);
+ stMreq.imr_interface.s_addr = CM_INET_HTON_UINT32(mCast->localAddr);
ret = setsockopt(sockFd->fd, level, IP_DROP_MEMBERSHIP,
(char*)&stMreq, sizeof(stMreq));
support CM_INET_OPT_BSD_COMPAT */
#ifndef CMINET_BSDCOMPAT
case CM_INET_OPT_BSD_COMPAT:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
ret = setsockopt(sockFd->fd, level, SO_BSDCOMPAT,
#if (defined(SUNOS)|| defined(WIN32) || defined(SS_PS) || defined(SS_VW) \
|| defined(HPOS))
case CM_INET_OPT_HDR_INCLD:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
This socket option is MUST be set (when this server is opened)
if the RSVP server wants to intercept raw RSVP packets. */
case CM_INET_OPT_IP_ROUTER_ALERT:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
ret = setsockopt(sockFd->fd, level, IP_ROUTER_ALERT,
/* disable the IP_OPTIONS for Router Alert. */
#ifdef WIN32
ret = setsockopt(sockFd->fd, level, IP_OPTIONS,
- (CONSTANT char *)&disableOpt, sizeof(int));
+ (const char *)&disableOpt, sizeof(int));
#else
ret = setsockopt(sockFd->fd, level, IP_OPTIONS, NULL, 0);
#endif /* WIN32 */
#if (defined(SS_LINUX) && (!defined(SS_VW) && !defined(WIN32)))
#ifdef LOCAL_INTF
case CM_INET_OPT_IPV4_PKTINFO:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
/* set IP_PKTINFO option when IP_ROUTER_ALERT is set in linux */
#endif /* SUNOS || WIN32 || SS_PS || SS_VW || HPOS */
case CM_INET_OPT_DONTFRAGMENT:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef WIN32
/* also add these 2 options for VxWorks */
#if (defined(SUNOS)|| defined(WIN32) || defined(HPOS) || defined(SS_VW))
case CM_INET_OPT_TOS:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, IP_TOS,
(char*)optVal, sizeof(*optVal));
break;
case CM_INET_OPT_TTL:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, IP_TTL,
(char*)optVal, sizeof(*optVal));
break;
#if (defined(SUNOS)|| defined(WIN32) || defined(SS_PS) || defined(SS_VW_MCAST) \
|| defined(HPOS))
case CM_INET_OPT_MCAST_LOOP:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
#ifdef SS_VW
(char *)&lpEnable, sizeof(lpEnable));
#else
ret = setsockopt(sockFd->fd, level, IP_MULTICAST_LOOP,
- (CONSTANT char *)&lpEnable, sizeof(lpEnable));
+ (const char *)&lpEnable, sizeof(lpEnable));
#endif /* SS_VW */
}
else
(char *)&lpDisable, sizeof(lpDisable));
#else
ret = setsockopt(sockFd->fd, level, IP_MULTICAST_LOOP,
- (CONSTANT char *)&lpDisable, sizeof(lpDisable));
+ (const char *)&lpDisable, sizeof(lpDisable));
#endif /* SS_VW */
}
break;
case CM_INET_OPT_MCAST_IF:
- optVal = (U32*)value;
- *optVal = CM_INET_HTON_U32((U32)*optVal);
+ optVal = (uint32_t*)value;
+ *optVal = CM_INET_HTON_UINT32((uint32_t)*optVal);
ret = setsockopt(sockFd->fd, level, IP_MULTICAST_IF,
(char *)optVal, sizeof(struct in_addr));
break;
case CM_INET_OPT_MCAST_TTL:
- optVal = (U32*)value;
- /* remove CONSTANT in setsockopt for VW */
+ optVal = (uint32_t*)value;
+ /* remove const in setsockopt for VW */
#ifdef SS_VW
ret = setsockopt(sockFd->fd, level, IP_MULTICAST_TTL,
- (char *)optVal, sizeof(U8));
+ (char *)optVal, sizeof(uint8_t));
#else
ret = setsockopt(sockFd->fd, level, IP_MULTICAST_TTL,
- (CONSTANT char *)optVal, sizeof(U8));
+ (const char *)optVal, sizeof(uint8_t));
#endif /* SS_VW */
break;
#endif /* SUNOS || WIN32 || SS_PS || SS_VW_MCAST || HPOS */
#ifdef IPV6_SUPPORTED
case CM_INET_OPT_IPV6_TTL:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, IPV6_UNICAST_HOPS,
(char*)optVal, sizeof(*optVal));
break;
break;
case CM_INET_OPT_MCAST6_LOOP:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if (*optVal == CM_INET_OPT_ENABLE)
{
ret = setsockopt(sockFd->fd, level, IPV6_MULTICAST_LOOP,
case CM_INET_OPT_MCAST6_IF:
ret = setsockopt(sockFd->fd, level, IPV6_MULTICAST_IF,
- (U32 *)value, sizeof(U32));
+ (uint32_t *)value, sizeof(uint32_t));
break;
case CM_INET_OPT_MCAST6_HOPS:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, IPV6_MULTICAST_HOPS,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
break;
/* cm_inet_c_001.main_44 : some operating system doesnt have icmp6_filter. so
/* added new options */
#ifdef IPV6_OPTS_SUPPORTED
case CM_INET_OPT_RECVIPV6_HOPLIM:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
#ifdef SS_LINUX
ret = setsockopt(sockFd->fd, level, IPV6_HOPLIMIT,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#else
ret = setsockopt(sockFd->fd, level, IPV6_HOPLIMIT,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
/* enable the reception of IPv6 HopLimit value as ancillary data */
ret = setsockopt(sockFd->fd, level, IPV6_RECVHOPLIMIT,
(char*)&enable, sizeof(enable));
break;
case CM_INET_OPT_RECVIPV6_HBHOPTS:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
#ifdef SS_LINUX
ret = setsockopt(sockFd->fd, level, IPV6_HOPOPTS,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#else
ret = setsockopt(sockFd->fd, level, IPV6_RECVHOPOPTS,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#endif /* SS_LINUX */
break;
case CM_INET_OPT_RECVIPV6_DSTOPTS:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
#ifdef SS_LINUX
ret = setsockopt(sockFd->fd, level, IPV6_DSTOPTS,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#else
ret = setsockopt(sockFd->fd, level, IPV6_RECVDSTOPTS,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#endif /* SS_LINUX */
break;
case CM_INET_OPT_RECVIPV6_RTHDR:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
#ifdef SS_LINUX
ret = setsockopt(sockFd->fd, level, IPV6_RTHDR,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#else
ret = setsockopt(sockFd->fd, level, IPV6_RECVRTHDR,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#endif /* SS_LINUX */
break;
* type, then it will fail here due to above reason */
#ifdef SS_LINUX
case CM_INET_OPT_IP_ROUTER_ALERT6:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
if(*optVal == CM_INET_OPT_ENABLE)
ret = setsockopt(sockFd->fd, IPPROTO_IPV6, IPV6_ROUTER_ALERT,
(char *)&enable, sizeof(enable));
#ifdef LOCAL_INTF
case CM_INET_OPT_IPV6_PKTINFO:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
#ifdef SS_LINUX
ret = setsockopt(sockFd->fd, level, IPV6_PKTINFO,
- (char *)optVal, sizeof(U32));
+ (char *)optVal, sizeof(uint32_t));
#else
ret = setsockopt(sockFd->fd, level, IPV6_RECVPKTINFO,
(char *)&enable, sizeof(enable));
pAddr6 = (struct sockaddr_in6*)&(setPrim.ssp_addr);
pAddr6->sin6_family = AF_INET6;
- pAddr6->sin6_port = CM_INET_HTON_U16(pSctpPrimAddr->port);
+ pAddr6->sin6_port = CM_INET_HTON_UINT16(pSctpPrimAddr->port);
CM_INET_COPY_IPV6ADDR(&pAddr6->sin6_addr.s6_addr, &pSctpPrimAddr->addr.u.ipv6NetAddr);
}
else
{
pAddr = (struct sockaddr_in*)&(setPrim.ssp_addr);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pSctpPrimAddr->port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pSctpPrimAddr->addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pSctpPrimAddr->port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pSctpPrimAddr->addr.u.ipv4NetAddr);
}
#else
pAddr = (struct sockaddr_in*)&(setPrim.ssp_addr);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pSctpPrimAddr->port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pSctpPrimAddr->addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pSctpPrimAddr->port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pSctpPrimAddr->addr.u.ipv4NetAddr);
#endif /* IPV6_SUPPORTED */
setPrim.ssp_assoc_id = pSctpPrimAddr->assocId;
pAddr6 = (struct sockaddr_in6*)&(addrParams.spp_address);
pAddr6->sin6_family = AF_INET6;
- pAddr6->sin6_port = CM_INET_HTON_U16(pSctpPAddrParams->s.port);
+ pAddr6->sin6_port = CM_INET_HTON_UINT16(pSctpPAddrParams->s.port);
CM_INET_COPY_IPV6ADDR(&pAddr6->sin6_addr.s6_addr, &pSctpPAddrParams->s.addr.u.ipv6NetAddr);
}
else
{
pAddr = (struct sockaddr_in*)&(addrParams.spp_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pSctpPAddrParams->s.port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pSctpPAddrParams->s.addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pSctpPAddrParams->s.port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pSctpPAddrParams->s.addr.u.ipv4NetAddr);
}
#else
pAddr = (struct sockaddr_in*)&(addrParams.spp_address);
pAddr->sin_family = AF_INET;
- pAddr->sin_port = CM_INET_HTON_U16(pSctpPAddrParams->s.port);
- pAddr->sin_addr.s_addr = CM_INET_HTON_U32(pSctpPAddrParams->s.addr.u.ipv4NetAddr);
+ pAddr->sin_port = CM_INET_HTON_UINT16(pSctpPAddrParams->s.port);
+ pAddr->sin_addr.s_addr = CM_INET_HTON_UINT32(pSctpPAddrParams->s.addr.u.ipv4NetAddr);
#endif /* IPV6_SUPPORTED */
}
else
addrParams.spp_assoc_id = pSctpPAddrParams->assocId;
/*cm_inet_c_001.main_58 : fix for klockwork issue */
- addrParams.spp_pathmaxrxt = (U16)pSctpPAddrParams->pathMaxRxt;
+ addrParams.spp_pathmaxrxt = (uint16_t)pSctpPAddrParams->pathMaxRxt;
#ifdef SUN_KSCTP
if (pSctpPAddrParams->hbEnblFlag == CM_INET_OPT_ENABLE)
addrParams.spp_hbinterval = pSctpPAddrParams->hbInterval;
#ifdef SS_LINUX
#ifdef CM_ICMP_FILTER_SUPPORT
case CM_INET_OPT_ICMP_FILTER:
- optVal = (U32*)value;
+ optVal = (uint32_t*)value;
ret = setsockopt(sockFd->fd, level, ICMP_FILTER,
optVal, sizeof(icmpFilter));
break;
*
*/
-#ifdef ANSI
S16 cmInetGetNumRead
(
CmInetFd *sockFd, /* socket file descriptor */
-U32 *dataLen /* number of pending octets */
+uint32_t *dataLen /* number of pending octets */
/* removed 3rd argument memInfo */
)
-#else
-S16 cmInetGetNumRead(sockFd, dataLen)
-CmInetFd *sockFd; /* socket file descriptor */
-U32 *dataLen; /* number of pending octets */
-/* removed 3rd argument memInfo */
-#endif
{
S32 ret; /* temporary return value */
pending data in the socket recv buffer */
#ifdef WIN32
/* cm_inet_c_001.main_59: Fix for compilation warning */
- ret = ioctlsocket(sockFd->fd, FIONREAD, (U32 *)dataLen);
+ ret = ioctlsocket(sockFd->fd, FIONREAD, (uint32_t *)dataLen);
#else
#ifdef SS_PS
ret = ioctl(sockFd->fd, FIOREAD, (char*)dataLen);
*
*/
-#ifdef ANSI
S16 cmInetGetHostByName
(
S8 *hostName, /* host name */
CmInetIpAddrTbl *addrTbl /* Address Table of IPV4 Addresses */
)
-#else
-S16 cmInetGetHostByName (hostName, addrTbl)
-S8 *hostName; /* host name */
-CmInetIpAddrTbl *addrTbl; /* Address Table of IPV4 Addresses */
-#endif
{
#ifndef SS_VW
- U8 numAddrs; /* Number of Addresses */
+ uint8_t numAddrs; /* Number of Addresses */
#endif /* SS_VW */
#if (defined(WIN32) || defined(SS_LINUX) || defined(HPOS))
(hostid->h_addr_list[numAddrs] != NULLP))
{
addrTbl->netAddr[addrTbl->count++] =
- CM_INET_NTOH_U32 (*((U32 *) hostid->h_addr_list[numAddrs]));
+ CM_INET_NTOH_UINT32 (*((uint32_t *) hostid->h_addr_list[numAddrs]));
numAddrs += 1;
}
}
(hostid.h_addr_list[numAddrs] != NULLP))
{
addrTbl->netAddr[addrTbl->count++] =
- CM_INET_NTOH_U32 (*((U32 *) hostid.h_addr_list[numAddrs]));
+ CM_INET_NTOH_UINT32 (*((uint32_t *) hostid.h_addr_list[numAddrs]));
numAddrs += 1;
}
}
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetGetIpNodeByName
(
S8 *hostName, /* host name */
CmInetIpAddrArr *addrArr /* Array of addressed filled in */
)
-#else
-S16 cmInetGetIpNodeByName(hostName, addrArr)
-S8 *hostName; /* host name */
-CmInetIpAddrArr *addrArr; /* Array of addressed filled in */
-#endif
{
/* for return value from cmInetGetHostByName */
#ifndef IPV6_SUPPORTED
#else
#ifdef SUNOS
#ifndef SS_LINUX
- U8 numAddrs=0; /* Number of addresses */
+ uint8_t numAddrs=0; /* Number of addresses */
int err=0; /* error code */
struct hostent *hostid; /* host information */
#endif /* SS_LINUX */
{
addrArr->u.ipv4AddrArr.count ++;
addrArr->u.ipv4AddrArr.netAddr[numAddrs] =
- CM_INET_NTOH_U32 (*((U32 *) hostid->h_addr_list[numAddrs]));
+ CM_INET_NTOH_UINT32 (*((uint32_t *) hostid->h_addr_list[numAddrs]));
numAddrs += 1;
}
}
* Fun: cmInetAddr
*
* Desc: Converts an ASCII string containig an internet address
-* ("xxx.xxx.xxx.xxx") into a CmInetIpAddr (U32) format.
+* ("xxx.xxx.xxx.xxx") into a CmInetIpAddr (uint32_t) format.
* This function is a wrapper for the inet_addr() call.
*
* Ret: ROK - successful
*
*/
-#ifdef ANSI
S16 cmInetAddr(
S8 *asciiAddr, /* ascii address representation */
CmInetIpAddr *address /* 4 byte interent address */
)
-#else
-S16 cmInetAddr(asciiAddr, address)
-S8 *asciiAddr; /* ascii address representation */
-CmInetIpAddr *address; /* 4 byte interent address */
-#endif
{
#if (ERRCLASS & ERRCLS_INT_PAR)
#endif /* ERRCLASS & ERRCLS_INT_PAR */
*address = inet_addr(asciiAddr);
- if (*address == (U32)ERR_INADDRNONE)
+ if (*address == (uint32_t)ERR_INADDRNONE)
{
/* asciiAddr does not contain a valid internet address */
return RFAILED;
*
*/
-#ifdef ANSI
S16 cmInetNtoa(
CmInetIpAddr address, /* 4 byte interent address */
S8 **asciiAddr /* ascii address representation */
)
-#else
-S16 cmInetNtoa(address, asciiAddr)
-CmInetIpAddr address; /* 4 byte interent address */
-S8 **asciiAddr; /* ascii address representation */
-#endif
{
struct in_addr inetAddr; /* internet address structure */
*
*/
-#ifdef ANSI
S16 cmInetNtop(
-U8 type, /* ip address type */
+uint8_t type, /* ip address type */
Void *address, /* 4/16 byte interent address */
S8 *asciiAddr, /* ascii adress representation */
-U32 len
+uint32_t len
)
-#else
-S16 cmInetNtop(type,address, asciiAddr,len)
-U8 type; /* ip address type */
-Void *address; /* 4/16 byte interent address */
-S8 *asciiAddr; /* ascii adress representation */
-U32 len;
-#endif
{
S32 domain = 0;
*
*/
-#ifdef ANSI
S16 cmInetPton(
CmInetIpAddr *address, /* 4 byte interent address */
S8 *asciiAddr /* ascii address representation */
)
-#else
-S16 cmInetPton(address, asciiAddr)
-CmInetIpAddr *address; /* 4 byte interent address */
-S8 *asciiAddr; /* ascii address representation */
-#endif
{
S16 ret;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetPton6(
CmInetIpAddr6 *address6, /* 16 byte interent address */
S8 *asciiAddr /* ascii address representation */
)
-#else
-S16 cmInetPton6(address6, asciiAddr)
-CmInetIpAddr6 *address6; /* 16 byte interent address */
-S8 *asciiAddr; /* ascii address representation */
-#endif
{
S16 ret;
#ifdef WIN32
struct sockaddr_storage ss;
- U32 sslen = sizeof(ss);
+ uint32_t sslen = sizeof(ss);
#endif /* WIN32 */
#if (ERRCLASS & ERRCLS_INT_PAR)
*
*/
-#ifdef ANSI
S16 cmInetGetMemSize(
S32 *size /* max used memory size */
)
-#else
-S16 cmInetGetMemSize(size)
-S32 *size; /* max used memory size */
-#endif
{
#ifdef WIN32
/* max static memory size depends on max flat buffer size */
*
*/
-#ifdef ANSI
-S16 cmInetInit(
-Void
-)
-#else
S16 cmInetInit(Void)
-#endif
{
#ifdef WIN32
- U16 version;
+ uint16_t version;
S32 err;
WSADATA data;
*
*/
-#ifdef ANSI
-S16 cmInetDeInit(
-Void
-)
-#else
S16 cmInetDeInit(Void)
-#endif
{
#ifdef WIN32
S32 err;
*
*/
\f
-#ifdef ANSI
S16 cmInetGetSockName
(
CmInetFd *sockFd, /* socket file descriptor */
CmInetAddr *locAddr
)
-#else
-S16 cmInetGetSockName(sockFd, locAddr)
-CmInetFd *sockFd; /* socket file descriptor */
-CmInetAddr *locAddr;
-#endif
{
struct sockaddr_in *sockAddr;
#ifdef IPV6_SUPPORTED
#ifdef UNIX
socklen_t size;
#else
- U32 size;
+ uint32_t size;
#endif /* SS_LINUX */
S32 errCode;
/*cm_inet_c_001.main_58 : fix for klockwork issue */
sockAddr = (struct sockaddr_in *)&lclSockAddr;
#ifdef IPV6_SUPPORTED
locAddr->type = CM_INET_IPV4ADDR_TYPE;
- locAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(sockAddr->sin_port);
+ locAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(sockAddr->sin_port);
#else
- locAddr->port = CM_INET_NTOH_U16(sockAddr->sin_port);
+ locAddr->port = CM_INET_NTOH_UINT16(sockAddr->sin_port);
#endif /* IPV6_SUPPORTED */
return ROK;
{
sockAddr6 = (struct sockaddr_in6 *)&lclSockAddr;
locAddr->type = CM_INET_IPV6ADDR_TYPE;
- locAddr->u.ipv6Addr.port = CM_INET_NTOH_U16(sockAddr6->sin6_port);
+ locAddr->u.ipv6Addr.port = CM_INET_NTOH_UINT16(sockAddr6->sin6_port);
CM_INET_COPY_IPV6ADDR(&locAddr->u.ipv6Addr.ipv6NetAddr,
&sockAddr6->sin6_addr);
}
{
sockAddr = (struct sockaddr_in *)&lclSockAddr;
locAddr->type = CM_INET_IPV4ADDR_TYPE;
- locAddr->u.ipv4Addr.port = CM_INET_NTOH_U16(sockAddr->sin_port);
+ locAddr->u.ipv4Addr.port = CM_INET_NTOH_UINT16(sockAddr->sin_port);
locAddr->u.ipv4Addr.address =
- CM_INET_NTOH_U32(sockAddr->sin_addr.s_addr);
+ CM_INET_NTOH_UINT32(sockAddr->sin_addr.s_addr);
}
#else
sockAddr = (struct sockaddr_in *)&lclSockAddr;
- locAddr->port = CM_INET_NTOH_U16(sockAddr->sin_port);
- locAddr->address = CM_INET_NTOH_U32(sockAddr->sin_addr.s_addr);
+ locAddr->port = CM_INET_NTOH_UINT16(sockAddr->sin_port);
+ locAddr->address = CM_INET_NTOH_UINT32(sockAddr->sin_addr.s_addr);
#endif /* IPV6_SUPPORTED */
return ROK;
}/* end of cmInetGetSockName() */
*
*/
\f
-#ifdef ANSI
S16 cmInetFdSetInfoInit
(
CmInetFdSetInfo *fdSetInfo
)
-#else
-S16 cmInetFdSetInfoInit(fdSetInfo)
-CmInetFdSetInfo *fdSetInfo;
-#endif
{
#if (defined(SUNOS) || defined(SS_LINUX) || defined(SS_VW) || defined(HPOS))
- U16 arIdx;
- U8 curByte;
- U8 bitPos;
+ uint16_t arIdx;
+ uint8_t curByte;
+ uint8_t bitPos;
CmInetFdSet *fdSet;
#endif /* SUNOS || SS_LINUX || SS_VW */
#if (defined(SUNOS) || defined(SS_LINUX) || defined(SS_VW)|| defined(HPOS))
/* Check if we are on a big endian machine */
arIdx = 0x01;
- if (*(U8 *)&arIdx)
+ if (*(uint8_t *)&arIdx)
fdSetInfo->bigEndian = FALSE;
else
fdSetInfo->bigEndian = TRUE;
for (arIdx = 1; arIdx < 256; arIdx++)
{
/* cm_inet_c_001.main_54: Fix for Klockworks issue */
- curByte = (U8)arIdx;
+ curByte = (uint8_t)arIdx;
bitPos = 0;
while(bitPos < 8)
*
*/
\f
-#ifdef ANSI
S16 cmInetGetFd
(
CmInetFdSetInfo *fdSetInfo,
CmInetFdSet *fdSet,
CmInetFdType *sockFd
)
-#else
-S16 cmInetGetFd(fdSetInfo, fdSet, sockFd)
-CmInetFdSetInfo *fdSetInfo;
-CmInetFdSet *fdSet;
-CmInetFdType *sockFd;
-#endif
{
/*cm_inet_c_001.main_58 : Fix for klockwork issue */
#if (!defined (WIN32))
- U32 sizOfFdSetArElem;
- U8 bytesScanned;
+ uint32_t sizOfFdSetArElem;
+ uint8_t bytesScanned;
Bool found;
- U32 curIdx;
- U8 *tempByte;
- U8 bitPos;
+ uint32_t curIdx;
+ uint8_t *tempByte;
+ uint8_t bitPos;
#endif /* !defined (WIN32) */
#if (ERRCLASS & ERRCLS_INT_PAR)
{
/* Walk through the bytes in this element */
#if (defined(SS_LINUX) && !defined(_GNU_SOURCE))
- tempByte = (U8 *)&fdSet->__fds_bits[curIdx];
+ tempByte = (uint8_t *)&fdSet->__fds_bits[curIdx];
#else
- tempByte = (U8 *)&fdSet->fds_bits[curIdx];
+ tempByte = (uint8_t *)&fdSet->fds_bits[curIdx];
#endif /* SS_LINUX */
/* Set the starting byte offset */
{
bitPos = fdSetInfo->ar[*tempByte];
/* cm_inet_c_001.main_54: Fix for Klockworks issue */
- fdSetInfo->arIdx = (U16)curIdx;
+ fdSetInfo->arIdx = (uint16_t)curIdx;
/* Calculate fd depending on where we are */
*sockFd = ((bytesScanned << 3) + bitPos);
*sockFd += (curIdx * (sizOfFdSetArElem << 3));
*
*/
-#ifdef ANSI
S16 cmInetConvertStrToIpAddr
(
-U16 len, /* Length of IP address */
-U8 *val, /* Domain Name String */
+uint16_t len, /* Length of IP address */
+uint8_t *val, /* Domain Name String */
CmInetNetAddr *address /* IP Address */
)
-#else
-S16 cmInetConvertStrToIpAddr(len, val, address)
-U16 len; /* Length of IP address */
-U8 *val; /* Domain Name String */
-CmInetNetAddr *address; /* IP Address */
-#endif
{
- U8 idx; /* Index for string*/
- U8 ipv4[CM_INET_IPV4ADDR_SIZE]; /* IPV4 Address bytes */
+ uint8_t idx; /* Index for string*/
+ uint8_t ipv4[CM_INET_IPV4ADDR_SIZE]; /* IPV4 Address bytes */
#ifdef IPV6_SUPPORTED
- U16 *ipv6; /* IPV6 Address bytes */
- U16 ipv6Reg[8]; /* regular IPV6 Address bytes */
- U16 ipv6Cmp[8]; /* compressed IPV6 Address bytes */
- U8 numBlk; /* number of blocks in IPV6 addr */
+ uint16_t *ipv6; /* IPV6 Address bytes */
+ uint16_t ipv6Reg[8]; /* regular IPV6 Address bytes */
+ uint16_t ipv6Cmp[8]; /* compressed IPV6 Address bytes */
+ uint8_t numBlk; /* number of blocks in IPV6 addr */
Bool compressed; /* IPV6 in compressed format */
- U8 ipv6Idx; /* counter for IPV6 */
- U8 blkBeginIdx; /* IPV6, char index for the
+ uint8_t ipv6Idx; /* counter for IPV6 */
+ uint8_t blkBeginIdx; /* IPV6, char index for the
beginning of the block */
- U8 i; /* counter for IPV6 */
+ uint8_t i; /* counter for IPV6 */
S16 retVal; /* return value */
Bool embedIPV4 = FALSE; /* IPV4 embedded in IPV6 ? */
#endif /* IPV6_SUPPORTED*/
if (val[idx] == '.')
{
idx++;
- cmInetAsciiToIpv4(3, &(ipv4[1]), (U16)(len - idx), &(val[idx]));
+ cmInetAsciiToIpv4(3, &(ipv4[1]), (uint16_t)(len - idx), &(val[idx]));
address->type = CM_INET_IPV4ADDR_TYPE;
CM_INET_GET_IPV4_ADDR_FRM_STRING(address->u.ipv4NetAddr, ipv4);
numBlk = 7; /* copy from the last block */
} /* else, no embedded IPV4 */
- /* type cast U8 over -1 becasue we want to copy the last block,
+ /* type cast uint8_t over -1 becasue we want to copy the last block,
ipv6Cmp[0]
*/
- for (i = ipv6Idx; i != (U8) (-1); i --)
+ for (i = ipv6Idx; i != (uint8_t) (-1); i --)
{
ipv6Reg[numBlk] = ipv6Cmp[i];
numBlk--;
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetAsciiToIpv4
(
-U8 numBytes, /* number of Byte to convert */
-U8 *ipv4Addr, /* IPV4 Address */
-U16 len, /* Length of IP address */
-U8 *val /* Domain Name String */
+uint8_t numBytes, /* number of Byte to convert */
+uint8_t *ipv4Addr, /* IPV4 Address */
+uint16_t len, /* Length of IP address */
+uint8_t *val /* Domain Name String */
)
-#else
-S16 cmInetAsciiToIpv4(numBytes, ipv4Addr, len, val)
-U8 numBytes; /* number of Byte to convert */
-U8 *ipv4Addr; /* IPV4 Address */
-U16 len; /* Length of IP address */
-U8 *val; /* Domain Name String */
-#endif
{
- U8 byteCount; /* Byte Count */
- U8 idx; /* Index for string*/
+ uint8_t byteCount; /* Byte Count */
+ uint8_t idx; /* Index for string*/
idx = 0;
*
*/
-#ifdef ANSI
S32 cmInetGetAddrInfo
(
-CONSTANT S8 *node, /* Network addr which has to be resolved */
-CONSTANT S8 *service, /* Sets the port number in network addr */
-CONSTANT CmInetAddrInfo *hints, /* Specifies preferred socket type or protocol */
+const S8 *node, /* Network addr which has to be resolved */
+const S8 *service, /* Sets the port number in network addr */
+const CmInetAddrInfo *hints, /* Specifies preferred socket type or protocol */
CmInetAddrInfo **res /* Link list of addrInfo structure */
)
-#else
-S32 cmInetGetAddrInfo(node,service,hints,res)
-CONSTANT S8 *node; /* Network addr which has to be resolved */
-CONSTANT S8 *service; /* Sets the port number in network addr */
-CONSTANT CmInetAddrInfo *hints; /* Specifies preferred socket type or protocol */
-CmInetAddrInfo **res; /* Link list of addrInfo structure */
-#endif
{
S32 ret;
ret = ROK;
*
*/
-#ifdef ANSI
Void cmInetFreeAddrInfo
(
-CmInetAddrInfo *res /* Link list of addrInfo structure */
+CmInetAddrInfo *res /* Link list of addrInfo structure */
)
-#else
-Void cmInetFreeAddrInfo(res)
-CmInetAddrInfo *res; /* Link list of addrInfo structure */
-#endif
{
#if (ERRCLASS & ERRCLS_INT_PAR)
/* error check on parameters */
if (res == NULLP)
- RETVOID;
+ return;
#endif /* ERRCLASS & ERRCLS_INT_PAR */
freeaddrinfo(res);
* File: cm_inet.c
*
*/
-#ifdef ANSI
S16 cmInetFlushRecvBuf
(
CmInetFd *sockFd, /* socket file descriptor */
MsgLen *len, /* number of octects to be flushed */
S32 flags /* additional control flags */
)
-#else
-S16 cmInetFlushRecvBuf(sockFd, len, flags)
-CmInetFd *sockFd; /* socket file descriptor */
-MsgLen *len; /* number of octects to be flushed */
-S32 flags; /* additional control flags */
-#endif /* ANSI */
{
Data recvTempBuf[CM_INET_MAX_BYTES_READ];
#if (defined(WIN32) || defined(CMINETFLATBUF))
S32 ret; /* temporary return value */
- U32 pendLen; /* pending data length */
+ uint32_t pendLen; /* pending data length */
S32 recvLen; /* number of received octets by recvmsg() */
MsgLen curLen; /* current number of octets in buffer */
- U32 remAddrLen; /* length of remote address */
+ uint32_t remAddrLen; /* length of remote address */
struct sockaddr_in *remAddr; /* remote Internet address */
#ifdef IPV6_SUPPORTED
struct sockaddr_in6 remSockAddr; /* to get packet's source IP address */
#else
S32 ret; /* temporary return value */
MsgLen curLen; /* current number of octets in buffer */
- U32 pendLen; /* pending data length */
+ uint32_t pendLen; /* pending data length */
S32 recvLen; /* number of received octets by recvmsg() */
struct msghdr msg; /* message header */
CmInetIovec rxArr[CM_INET_MAX_DBUF]; /* dynamic gather array */
- U32 remAddrLen; /* length of remote address */
+ uint32_t remAddrLen; /* length of remote address */
#ifdef IPV6_SUPPORTED
struct sockaddr_in6 remSockAddr;/* to get packet's source IP address */
#if (defined(SS_LINUX) || defined(_XPG4_2))
- U8 ancillData[CM_INET_IPV6_ANCIL_DATA];
+ uint8_t ancillData[CM_INET_IPV6_ANCIL_DATA];
/* from stack for IPv6 ancill data */
#endif
#else
CmInetSockAddr remSockAddr; /* to get packet's src IP address */
#if (defined(SS_LINUX) || defined(_XPG4_2))
- U8 ancillData[CM_INET_IPV4_ANCIL_DATA];
+ uint8_t ancillData[CM_INET_IPV4_ANCIL_DATA];
/* from stack for IPv4 ancill data */
#endif
#endif /* IPV6_SUPPORTED */
#endif /* WIN32 | CMINETFLATBUF */
/* used by getsockopt */
- U32 errValue; /* error value */
- U32 optLen; /* option length */
+ uint32_t errValue; /* error value */
+ uint32_t optLen; /* option length */
#if (ERRCLASS & ERRCLS_INT_PAR)
}
else
{
- U8 tempBuf;
+ uint8_t tempBuf;
/* added separate recvfrom calls different OS */
#if( defined(SS_VW) || defined(HPOS) || defined(SS_PS))
recvLen = recvfrom(sockFd->fd, (S8 *)&tempBuf, pendLen, 0,
/* update the message structure */
#ifdef SS_LINUX
rxArr[0].iov_base = (Void*)recvTempBuf;
- rxArr[0].iov_len = (U32)curLen;
+ rxArr[0].iov_len = (uint32_t)curLen;
#else
rxArr[0].iov_base = (S8*)recvTempBuf;
rxArr[0].iov_len = curLen;