/* functions in other modules */
/* public variable declarations */
-U16 gTransId = 0;
+uint16_t gTransId = 0;
/* private variable declarations */
{
Data pkArray[PTRSIZE]; /* array for packing */
S16 ret; /* return code */
- U16 tmp; /* temporary value */
+ uint16_t tmp; /* temporary value */
#if (defined(ALPHA) || defined(BIT_64))
- U32 tmp32;
+ uint32_t tmp32;
#endif
case 4:
#ifndef FCSPKINT /* backward compatibility, packing order */
- tmp = (U16) GetHiWord(ptr);
+ tmp = (uint16_t) GetHiWord(ptr);
pkArray[0] = (Data) GetHiByte(tmp);
pkArray[1] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(ptr);
+ tmp = (uint16_t) GetLoWord(ptr);
pkArray[2] = (Data) GetHiByte(tmp);
pkArray[3] = (Data) GetLoByte(tmp);
#else /* forward compatibility, packing order */
- tmp = (U16) GetHiWord(ptr);
+ tmp = (uint16_t) GetHiWord(ptr);
pkArray[3] = (Data) GetHiByte(tmp);
pkArray[2] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(ptr);
+ tmp = (uint16_t) GetLoWord(ptr);
pkArray[1] = (Data) GetHiByte(tmp);
pkArray[0] = (Data) GetLoByte(tmp);
#endif
case 8:
#if (defined(ALPHA) || defined(BIT_64))
#ifndef FCSPKINT /* backward compatibility, packing order */
- tmp32 = (U32) GetHi32Bit(ptr);
- tmp = (U16) GetHiWord(tmp32);
+ tmp32 = (uint32_t) GetHi32Bit(ptr);
+ tmp = (uint16_t) GetHiWord(tmp32);
pkArray[0] = (Data) GetHiByte(tmp);
pkArray[1] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(tmp32);
+ tmp = (uint16_t) GetLoWord(tmp32);
pkArray[2] = (Data) GetHiByte(tmp);
pkArray[3] = (Data) GetLoByte(tmp);
- tmp32 = (U32) GetLo32Bit(ptr);
- tmp = (U16) GetHiWord(tmp32);
+ tmp32 = (uint32_t) GetLo32Bit(ptr);
+ tmp = (uint16_t) GetHiWord(tmp32);
pkArray[4] = (Data) GetHiByte(tmp);
pkArray[5] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(tmp32);
+ tmp = (uint16_t) GetLoWord(tmp32);
pkArray[6] = (Data) GetHiByte(tmp);
pkArray[7] = (Data) GetLoByte(tmp);
#else /* forward compatibility, packing order */
- tmp32 = (U32) GetHi32Bit(ptr);
- tmp = (U16) GetHiWord(tmp32);
+ tmp32 = (uint32_t) GetHi32Bit(ptr);
+ tmp = (uint16_t) GetHiWord(tmp32);
pkArray[7] = (Data) GetHiByte(tmp);
pkArray[6] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(tmp32);
+ tmp = (uint16_t) GetLoWord(tmp32);
pkArray[5] = (Data) GetHiByte(tmp);
pkArray[4] = (Data) GetLoByte(tmp);
- tmp32 = (U32) GetLo32Bit(ptr);
- tmp = (U16) GetHiWord(tmp32);
+ tmp32 = (uint32_t) GetLo32Bit(ptr);
+ tmp = (uint16_t) GetHiWord(tmp32);
pkArray[3] = (Data) GetHiByte(tmp);
pkArray[2] = (Data) GetLoByte(tmp);
- tmp = (U16) GetLoWord(tmp32);
+ tmp = (uint16_t) GetLoWord(tmp32);
pkArray[1] = (Data) GetHiByte(tmp);
pkArray[0] = (Data) GetLoByte(tmp);
#endif
break;
#endif
default:
- /* no support for U64 */
+ /* no support for uint64_t */
ret = RFAILED;
}
Buffer *mBuf; /* buffer */
#endif
{
- U8 j; /* Index */
+ uint8_t j; /* Index */
#ifdef CM_ARI2
Buffer *mBuf; /* buffer */
#endif
{
- U8 i; /* index */
- U8 j; /* Index */
+ uint8_t i; /* index */
+ uint8_t j; /* Index */
ProtAddr *pAddr; /* protocol Address */
Buffer *mBuf; /* message buffer */
#endif
{
- U8 i; /* loop counter */
+ uint8_t i; /* loop counter */
if (addrs->length > ADRLEN)
Buffer *mBuf; /* message buffer */
#endif
{
- U8 i; /* loop counter */
+ uint8_t i; /* loop counter */
if (addrs->length > SHRTADRLEN)
#ifdef ANSI
S16 cmPkAddrMask
(
-U8 *mask, /* pointer to address mask array */
+uint8_t *mask, /* pointer to address mask array */
Buffer *mBuf /* message buffer */
)
#else
S16 cmPkAddrMask(mask, mBuf)
-U8 *mask; /* pointer to address mask array */
+uint8_t *mask; /* pointer to address mask array */
Buffer *mBuf; /* message buffer */
#endif
{
\f
/*
*
- * Fun: cmPkTknU8
+ * Fun: cmPkTknUInt8
*
- * Desc: This function packs a token U8
+ * Desc: This function packs a token uint8_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmPkTknU8
+S16 cmPkTknUInt8
(
-TknU8 *tknU8, /* token U8 */
+TknUInt8 *tknUInt8, /* token uint8_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmPkTknU8(tknU8, mBuf)
-TknU8 *tknU8; /* token U8 */
+S16 cmPkTknUInt8(tknUInt8, mBuf)
+TknUInt8 *tknUInt8; /* token uint8_t */
Buffer *mBuf; /* message buffer */
#endif
{
- if (tknU8->pres)
+ if (tknUInt8->pres)
{
/* Value */
- CMCHKPK(oduUnpackUInt8, tknU8->val, mBuf);
+ CMCHKPK(oduUnpackUInt8, tknUInt8->val, mBuf);
}
/* Token Header */
- CMCHKPK(oduUnpackUInt8, tknU8->pres, mBuf);
+ CMCHKPK(oduUnpackUInt8, tknUInt8->pres, mBuf);
return ROK;
-} /* end of cmPkTknU8 */
+} /* end of cmPkTknUInt8 */
\f
/*
\f
/*
*
- * Fun: cmPkTknU16
+ * Fun: cmPkTknUInt16
*
- * Desc: This function packs a token U16
+ * Desc: This function packs a token uint16_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmPkTknU16
+S16 cmPkTknUInt16
(
-TknU16 *tknU16, /* token U16 */
+TknUInt16 *tknUInt16, /* token uint16_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmPkTknU16(tknU16, mBuf)
-TknU16 *tknU16; /* token U16 */
+S16 cmPkTknUInt16(tknUInt16, mBuf)
+TknUInt16 *tknUInt16; /* token uint16_t */
Buffer *mBuf; /* message buffer */
#endif
{
- if (tknU16->pres)
+ if (tknUInt16->pres)
{
/* Value */
- CMCHKPK(oduUnpackUInt16, tknU16->val, mBuf);
+ CMCHKPK(oduUnpackUInt16, tknUInt16->val, mBuf);
}
/* Token Header */
- CMCHKPK(oduUnpackUInt8, tknU16->pres, mBuf);
+ CMCHKPK(oduUnpackUInt8, tknUInt16->pres, mBuf);
return ROK;
-} /* end of cmPkTknU16 */
+} /* end of cmPkTknUInt16 */
\f
/*
*
- * Fun: cmPkTknU32
+ * Fun: cmPkTknUInt32
*
- * Desc: This function packs a token U32
+ * Desc: This function packs a token uint32_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmPkTknU32
+S16 cmPkTknUInt32
(
-TknU32 *tknU32, /* token U32 */
+TknUInt32 *tknUInt32, /* token uint32_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmPkTknU32(tknU32, mBuf)
-TknU32 *tknU32; /* token U32 */
+S16 cmPkTknUInt32(tknUInt32, mBuf)
+TknUInt32 *tknUInt32; /* token uint32_t */
Buffer *mBuf; /* message buffer */
#endif
{
- if (tknU32->pres)
+ if (tknUInt32->pres)
{
/* Value */
- CMCHKPK(oduUnpackUInt32, tknU32->val, mBuf);
+ CMCHKPK(oduUnpackUInt32, tknUInt32->val, mBuf);
}
/* Token Header */
- CMCHKPK(oduUnpackUInt8, tknU32->pres, mBuf);
+ CMCHKPK(oduUnpackUInt8, tknUInt32->pres, mBuf);
return ROK;
-} /* end of cmPkTknU32 */
+} /* end of cmPkTknUInt32 */
\f
/*
Buffer *mBuf; /* message buffer */
#endif
{
- U16 i;
+ uint16_t i;
if (tknOid->pres == TRUE)
{
/* Pack the value */
- for (i = 0; i < (U16)tknOid->len; i++)
+ for (i = 0; i < (uint16_t)tknOid->len; i++)
{
- /* cm_gen_c_001.main_33: changes for TknOid value from U16 to U32
- * with compilation flag TKNOID_U16 */
-#ifndef TKNOID_U16
+ /* cm_gen_c_001.main_33: changes for TknOid value from uint16_t to uint32_t
+ * with compilation flag TKNOID_UINT16 */
+#ifndef TKNOID_UINT16
CMCHKPK(oduUnpackUInt32, tknOid->val[i], mBuf);
#else
CMCHKPK(oduUnpackUInt16, tknOid->val[i], mBuf);
-#endif /* !TKNOID_U16 */
+#endif /* !TKNOID_UINT16 */
}
/* Pack the length */
CMCHKPK(oduUnpackUInt8, tknOid->len, mBuf);
Buffer *mBuf; /* message buffer */
#endif
{
- U16 tmp16; /* temporary value */
- U32 tmp32; /* temporary value */
+ uint16_t tmp16; /* temporary value */
+ uint32_t tmp32; /* temporary value */
Data unpkArray[PTRSIZE]; /* unpacking array */
S16 ret; /* return code */
#if (defined(ALPHA) || defined(BIT_64))
- U64 tmp64;
+ uint64_t tmp64;
#endif
tmp16 = 0;
#ifndef FCSPKINT /* backward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[1]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[0]);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[1]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[0]);
#else /* forward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[0]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[1]);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[0]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[1]);
#endif
*ptr = tmp16;
break;
tmp16 = 0;
tmp32 = 0;
#ifndef FCSPKINT /* backward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[3]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[2]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[1]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[0]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[3]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[2]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[1]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[0]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
#else /* forward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[0]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[1]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[2]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[3]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[0]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[1]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[2]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[3]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
#endif
*ptr = tmp32;
break;
tmp32 = 0;
tmp64 = 0;
#ifndef FCSPKINT /* backward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[7]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[6]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[5]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[4]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
- tmp64 = (U64) PutHi32Bit(tmp64, tmp32);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[3]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[2]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[1]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[0]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
- tmp64 = (U64) PutLo32Bit(tmp64, tmp32);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[7]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[6]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[5]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[4]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
+ tmp64 = (uint64_t) PutHi32Bit(tmp64, tmp32);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[3]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[2]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[1]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[0]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
+ tmp64 = (uint64_t) PutLo32Bit(tmp64, tmp32);
#else /* forward compatibility, packing order */
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[0]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[1]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[2]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[3]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
- tmp64 = (U64) PutHi32Bit(tmp64, tmp32);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[4]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[5]);
- tmp32 = (U32) PutHiWord(tmp32, (U16) tmp16);
- tmp16 = (U16) PutHiByte(tmp16, (U8) unpkArray[6]);
- tmp16 = (U16) PutLoByte(tmp16, (U8) unpkArray[7]);
- tmp32 = (U32) PutLoWord(tmp32, (U16) tmp16);
- tmp64 = (U64) PutLo32Bit(tmp64, tmp32);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[0]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[1]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[2]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[3]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
+ tmp64 = (uint64_t) PutHi32Bit(tmp64, tmp32);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[4]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[5]);
+ tmp32 = (uint32_t) PutHiWord(tmp32, (uint16_t) tmp16);
+ tmp16 = (uint16_t) PutHiByte(tmp16, (uint8_t) unpkArray[6]);
+ tmp16 = (uint16_t) PutLoByte(tmp16, (uint8_t) unpkArray[7]);
+ tmp32 = (uint32_t) PutLoWord(tmp32, (uint16_t) tmp16);
+ tmp64 = (uint64_t) PutLo32Bit(tmp64, tmp32);
#endif
*ptr = tmp64;
break;
#endif
default:
- /* no support for U64 */
+ /* no support for uint64_t */
ret = RFAILED;
}
Buffer *mBuf; /* buffer */
#endif
{
- U8 j; /* Index */
+ uint8_t j; /* Index */
CMCHKUNPK(oduPackUInt16, &(pAddr->protType), mBuf);
Buffer *mBuf; /* buffer */
#endif
{
- U8 i; /* index */
- U8 j; /* Index */
+ uint8_t i; /* index */
+ uint8_t j; /* Index */
ProtAddr *pAddr; /* Protocol Address */
Buffer *mBuf; /* message buffer */
#endif
{
- U8 i; /* loop counter */
+ uint8_t i; /* loop counter */
CMCHKUNPK(oduPackUInt8, &addrs->length, mBuf);
Buffer *mBuf; /* message buffer */
#endif
{
- U8 i; /* loop counter */
+ uint8_t i; /* loop counter */
CMCHKUNPK(oduPackUInt8, &addrs->length, mBuf);
#ifdef ANSI
S16 cmUnpkAddrMask
(
-U8 *mask, /* pointer to address mask */
+uint8_t *mask, /* pointer to address mask */
Buffer *mBuf /* message buffer */
)
#else
S16 cmUnpkAddrMask(mask, mBuf)
-U8 *mask; /* pointer to address mask */
+uint8_t *mask; /* pointer to address mask */
Buffer *mBuf; /* message buffer */
#endif
{
\f
/*
*
-* Fun: cmUnpkTknU8
+* Fun: cmUnpkTknUInt8
*
-* Desc: This function unpacks a token U8
+* Desc: This function unpacks a token uint8_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmUnpkTknU8
+S16 cmUnpkTknUInt8
(
-TknU8 *tknU8, /* token U8 */
+TknUInt8 *tknUInt8, /* token uint8_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmUnpkTknU8(tknU8, mBuf)
-TknU8 *tknU8; /* token U8 */
+S16 cmUnpkTknUInt8(tknUInt8, mBuf)
+TknUInt8 *tknUInt8; /* token uint8_t */
Buffer *mBuf; /* message buffer */
#endif
{
/* Token Header */
- CMCHKUNPK(oduPackUInt8, &tknU8->pres, mBuf);
+ CMCHKUNPK(oduPackUInt8, &tknUInt8->pres, mBuf);
- if (tknU8->pres)
+ if (tknUInt8->pres)
{
/* Value */
- CMCHKUNPK(oduPackUInt8, &tknU8->val, mBuf);
+ CMCHKUNPK(oduPackUInt8, &tknUInt8->val, mBuf);
}
return ROK;
-} /* end of cmUnpkTknU8 */
+} /* end of cmUnpkTknUInt8 */
\f
/*
\f
/*
*
-* Fun: cmUnpkTknU16
+* Fun: cmUnpkTknUInt16
*
-* Desc: This function unpacks a token U16
+* Desc: This function unpacks a token uint16_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmUnpkTknU16
+S16 cmUnpkTknUInt16
(
-TknU16 *tknU16, /* token U16 */
+TknUInt16 *tknUInt16, /* token uint16_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmUnpkTknU16(tknU16, mBuf)
-TknU16 *tknU16; /* token U16 */
+S16 cmUnpkTknUInt16(tknUInt16, mBuf)
+TknUInt16 *tknUInt16; /* token uint16_t */
Buffer *mBuf; /* message buffer */
#endif
{
/* Token Header */
- CMCHKUNPK(oduPackUInt8, &tknU16->pres, mBuf);
+ CMCHKUNPK(oduPackUInt8, &tknUInt16->pres, mBuf);
- if (tknU16->pres)
+ if (tknUInt16->pres)
{
/* Value */
- CMCHKUNPK(oduPackUInt16, &tknU16->val, mBuf);
+ CMCHKUNPK(oduPackUInt16, &tknUInt16->val, mBuf);
}
return ROK;
-} /* end of cmUnpkTknU16 */
+} /* end of cmUnpkTknUInt16 */
\f
/*
*
-* Fun: cmUnpkTknU32
+* Fun: cmUnpkTknUInt32
*
-* Desc: This function unpacks a token U32
+* Desc: This function unpacks a token uint32_t
*
* Ret: ROK - ok
*
*/
#ifdef ANSI
-S16 cmUnpkTknU32
+S16 cmUnpkTknUInt32
(
-TknU32 *tknU32, /* token U32 */
+TknUInt32 *tknUInt32, /* token uint32_t */
Buffer *mBuf /* message buffer */
)
#else
-S16 cmUnpkTknU32(tknU32, mBuf)
-TknU32 *tknU32; /* token U32 */
+S16 cmUnpkTknUInt32(tknUInt32, mBuf)
+TknUInt32 *tknUInt32; /* token uint32_t */
Buffer *mBuf; /* message buffer */
#endif
{
/* Token Header */
- CMCHKUNPK(oduPackUInt8, &tknU32->pres, mBuf);
+ CMCHKUNPK(oduPackUInt8, &tknUInt32->pres, mBuf);
- if (tknU32->pres)
+ if (tknUInt32->pres)
{
/* Value */
- CMCHKUNPK(oduPackUInt32, &tknU32->val, mBuf);
+ CMCHKUNPK(oduPackUInt32, &tknUInt32->val, mBuf);
}
return ROK;
-} /* end of cmUnpkTknU32 */
+} /* end of cmUnpkTknUInt32 */
/*
*
Buffer *mBuf; /* message buffer */
#endif
{
- U16 i;
+ uint16_t i;
/* Unpack the token header */
CMCHKUNPK(oduPackUInt8, &tknOid->len, mBuf);
/* Pack the value */
- for (i = 1; i <= (U16)tknOid->len; i++)
+ for (i = 1; i <= (uint16_t)tknOid->len; i++)
{
- /* cm_gen_c_001.main_33: changes for TknOid value from U16 to U32
- * with compilation flag TKNOID_U16 */
-#ifndef TKNOID_U16
+ /* cm_gen_c_001.main_33: changes for TknOid value from uint16_t to uint32_t
+ * with compilation flag TKNOID_UINT16 */
+#ifndef TKNOID_UINT16
CMCHKUNPK(oduPackUInt32, &tknOid->val[tknOid->len - i], mBuf);
#else
CMCHKUNPK(oduPackUInt16, &tknOid->val[tknOid->len - i], mBuf);
-#endif /* !TKNOID_U16 */
+#endif /* !TKNOID_UINT16 */
}
}
* File: cm_gen.c
*
*/
-U16 getTransId()
+uint16_t getTransId()
{
gTransId = (gTransId%65535) + 1;
return gTransId;