Source code of Windows XP (NT5)
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/*** misc.c - Miscellaneous functions
*
* Copyright (c) 1996,1997 Microsoft Corporation
* Author: Michael Tsang (MikeTs)
* Created: 10/14/96
*
* MODIFICATION HISTORY
*/
#include "aslp.h"
/***LP ValidASLNameSeg - Check if the token is an ASL NameSeg
*
* ENTRY
* ptoken - token stream
* pszToken -> token string
* icbLen - length of the token to be considered a NameSeg
*
* EXIT-SUCCESS
* returns TRUE
* EXIT-FAILURE
* returns FALSE
*/
BOOL LOCAL ValidASLNameSeg(PTOKEN ptoken, PSZ pszToken, int icbLen)
{
BOOL rc = TRUE;
int i, j;
static PSZ apszReservedNames[] = {
"ADR", "ALN", "BAS", "BBN", "BCL", "BCM", "BDN", "BIF", "BM_", "BST",
"BTP", "CID", "CRS", "CRT", "DCK", "DCS", "DDC", "DDN", "DEC", "DGS",
"DIS", "DMA", "DOD", "DOS", "DSS", "EC_", "EJD", "FDE", "FDI", "GL_",
"GLK", "GPE", "GRA", "GTF", "GTM", "HE_", "HID", "INI", "INT", "IRC",
"LCK", "LEN", "LID", "LL_", "MAF", "MAX", "MEM", "MIF", "MIN", "MSG",
"OFF", "ON_", "OS_", "PCL", "PIC", "PR_", "PRS", "PRT", "PRW", "PSC",
"PSL", "PSR", "PSV", "PSW", "PTS", "PWR", "REG", "REV", "RMV", "RNG",
"ROM", "RQ_", "RW_", "SB_", "SBS", "SCP", "SHR", "SI_", "SIZ", "SRS",
"SST", "STA", "STM", "SUN", "TC1", "TC2", "TMP", "TRA", "TSP", "TYP",
"TZ_", "UID", "WAK", "AC0", "AC1", "AC2", "AC3", "AC4", "AC5", "AC6",
"AC7", "AC8", "AC9", "AL0", "AL1", "AL2", "AL3", "AL4", "AL5", "AL6",
"AL7", "AL8", "AL9", "EC0", "EC1", "EC2", "EC3", "EC4", "EC5", "EC6",
"EC7", "EC7", "EC9", "EJ0", "EJ1", "EJ2", "EJ3", "EJ4",
"Exx", "Lxx", "Qxx",
"S0_", "S1_", "S2_", "S3_", "S4_", "S5_",
"S0D", "S1D", "S2D", "S3D", "S4D", "S5D",
"PR0", "PR1", "PR2",
"PS0", "PS1", "PS2", "PS3"
};
#define NUM_RESERVED_NAMES (sizeof(apszReservedNames)/sizeof(PSZ))
ENTER((1, "ValidASLNameSeg(ptoken=%p, Token=%s,Len=%d)\n",
ptoken, pszToken, icbLen));
pszToken[0] = (char)toupper(pszToken[0]);
if ((icbLen > sizeof(NAMESEG)) || !ISLEADNAMECHAR(pszToken[0]))
{
rc = FALSE;
}
else
{
for (i = 1; i < icbLen; ++i)
{
pszToken[i] = (char)toupper(pszToken[i]);
if (!ISNAMECHAR(pszToken[i]))
{
rc = FALSE;
break;
}
}
if ((rc == TRUE) && (*pszToken == '_'))
{
char szName[sizeof(NAMESEG)] = "___";
memcpy(szName, &pszToken[1], icbLen - 1);
for (i = 0; i < NUM_RESERVED_NAMES; ++i)
{
if (strcmp(szName, apszReservedNames[i]) == 0)
break;
else
{
for (j = 0; j < sizeof(NAMESEG) - 1; ++j)
{
if (apszReservedNames[i][j] != szName[j])
{
if ((apszReservedNames[i][j] != 'x') ||
!isxdigit(szName[j]))
{
break;
}
}
}
if (j == sizeof(NAMESEG) - 1)
{
break;
}
}
}
if (i == NUM_RESERVED_NAMES)
{
PrintTokenErr(ptoken, "not a valid reserved NameSeg", FALSE);
}
}
}
EXIT((1, "ValidASLNameSeg=%d\n", rc));
return rc;
} //ValidASLNameSeg
/***LP ValidASLName - Check if the token is an ASL name
*
* ENTRY
* ptoken - token stream
* pszToken -> token string
*
* EXIT-SUCCESS
* returns TRUE
* EXIT-FAILURE
* returns FALSE
*/
BOOL LOCAL ValidASLName(PTOKEN ptoken, PSZ pszToken)
{
BOOL rc = TRUE;
PSZ psz1, psz2 = NULL;
int icbLen;
ENTER((1, "ValidASLName(ptoken=%p,Token=%s)\n", ptoken, pszToken));
if (*pszToken == CH_ROOT_PREFIX)
{
pszToken++;
}
else
{
while (*pszToken == CH_PARENT_PREFIX)
{
pszToken++;
}
}
for (psz1 = pszToken;
(rc == TRUE) && (psz1 != NULL) && (*psz1 != '\0');
psz1 = psz2)
{
psz2 = strchr(psz1, CH_NAMESEG_SEP);
icbLen = (psz2 != NULL)? (int)(psz2 - psz1): strlen(psz1);
if (((rc = ValidASLNameSeg(ptoken, psz1, icbLen)) == TRUE) &&
(psz2 != NULL))
{
psz2++;
}
}
EXIT((1, "ValidASLName=%d\n", rc));
return rc;
} //ValidASLName
/***LP EncodeName - Encode name string
*
* ENTRY
* pszName -> name string
* pbBuff -> buffer to hold name encoding
* pdwLen -> initially contains buffer size, but will be updated to show
* actual encoding length
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL EncodeName(PSZ pszName, PBYTE pbBuff, PDWORD pdwLen)
{
int rc = ASLERR_NONE;
PBYTE pb = pbBuff;
PSZ psz;
int icNameSegs, i;
ENTER((1, "EncodeName(Name=%s,pbBuff=%p,Len=%d)\n",
pszName, pbBuff, *pdwLen));
if (*pszName == CH_ROOT_PREFIX)
{
if (*pdwLen >= 1)
{
*pb = OP_ROOT_PREFIX;
pb++;
(*pdwLen)--;
pszName++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
else
{
while (*pszName == CH_PARENT_PREFIX)
{
if (*pdwLen >= 1)
{
*pb = OP_PARENT_PREFIX;
pb++;
(*pdwLen)--;
pszName++;
}
else
{
rc = ASLERR_NAME_TOO_LONG;
break;
}
}
}
for (psz = pszName, icNameSegs = 0; (psz != NULL) && (*psz != '\0');)
{
icNameSegs++;
if ((psz = strchr(psz, CH_NAMESEG_SEP)) != NULL)
psz++;
}
if (icNameSegs > 255)
rc = ASLERR_NAME_TOO_LONG;
else if (icNameSegs > 2)
{
if (*pdwLen >= sizeof(NAMESEG)*icNameSegs + 2)
{
*pb = OP_MULTI_NAME_PREFIX;
pb++;
*pb = (BYTE)icNameSegs;
pb++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
else if (icNameSegs == 2)
{
if (*pdwLen >= sizeof(NAMESEG)*2 + 1)
{
*pb = OP_DUAL_NAME_PREFIX;
pb++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
if (rc == ASLERR_NONE)
{
//
// If we have only name prefix characters, we must put a null name
// separator to tell the boundary from the next opcode which may happen
// to be a NameSeg.
//
if (icNameSegs == 0)
{
*pb = 0;
pb++;
}
else
{
while (icNameSegs > 0)
{
*((PDWORD)pb) = NAMESEG_BLANK;
for (i = 0;
(i < sizeof(NAMESEG)) && ISNAMECHAR(*pszName);
++i, pszName++)
{
pb[i] = *pszName;
}
if (*pszName == CH_NAMESEG_SEP)
pszName++;
pb += 4;
icNameSegs--;
}
}
*pdwLen = (DWORD)(pb - pbBuff);
}
EXIT((1, "EncodeName=%d (Len=%d)\n", rc, *pdwLen));
return rc;
} //EncodeName
/***LP EncodePktLen - Encode packet length
*
* ENTRY
* dwCodeLen - actual code length
* pdwPktLen -> to hold the encoded packet length
* picbEncoding -> to hold the number of encoding bytes
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL EncodePktLen(DWORD dwCodeLen, PDWORD pdwPktLen, PINT picbEncoding)
{
int rc = ASLERR_NONE;
ENTER((1, "EncodePktLen(CodeLen=%ld,pdwPktLen=%p)\n",
dwCodeLen, pdwPktLen));
if (dwCodeLen <= 0x3f)
{
*pdwPktLen = dwCodeLen;
*picbEncoding = 1;
}
else
{
*pdwPktLen = (dwCodeLen & 0x0ffffff0) << 4;
*pdwPktLen |= (dwCodeLen & 0xf);
if (dwCodeLen <= 0x0fff)
*picbEncoding = 2;
else if (dwCodeLen <= 0x0fffff)
*picbEncoding = 3;
else if (dwCodeLen <= 0x0fffffff)
*picbEncoding = 4;
else
rc = ASLERR_PKTLEN_TOO_LONG;
if (rc == ASLERR_NONE)
*pdwPktLen |= (*picbEncoding - 1) << 6;
}
EXIT((1, "EncodePktLen=%d (Encoding=%lx,icbEncoding=%d)\n",
rc, *pdwPktLen, *picbEncoding));
return rc;
} //EncodePktLen
/***LP EncodeKeywords - Encode keyword arguments
*
* ENTRY
* pArgs -> argument array
* dwSrcArgs - source argument bit vector
* iDstArgNum - destination argument number
*
* EXIT
* None
*/
VOID LOCAL EncodeKeywords(PCODEOBJ pArgs, DWORD dwSrcArgs, int iDstArgNum)
{
int i;
DWORD dwData = 0;
ENTER((1, "EncodeKeywords(pArgs=%p,SrcArgs=%lx,DstArgNum=%d)\n",
pArgs, dwSrcArgs, iDstArgNum));
for (i = 0; i < MAX_ARGS; ++i)
{
if (dwSrcArgs & (1 << i))
{
if (pArgs[i].dwCodeType == CODETYPE_KEYWORD)
{
dwData |= TermTable[pArgs[i].dwTermIndex].dwTermData & 0xff;
}
else if (pArgs[i].dwCodeType == CODETYPE_INTEGER)
{
pArgs[i].dwCodeType = CODETYPE_UNKNOWN;
dwData |= pArgs[i].dwCodeValue;
}
else
{
ASSERT(pArgs[i].dwCodeType == CODETYPE_INTEGER);
}
}
}
SetIntObject(&pArgs[iDstArgNum], dwData, sizeof(BYTE));
EXIT((1, "EncodeKeywords!\n"));
} //EncodeKeywords
/***LP DecodeName - Decode name encoding back to a name string
*
* ENTRY
* pb -> name encoding buffer
* pszName -> to hold the decoded name string
* iLen - length of name string buffer
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL DecodeName(PBYTE pb, PSZ pszName, int iLen)
{
int rc = ASLERR_NONE;
int i = 0, icNameSegs;
ENTER((1, "DecodeName(pb=%p,pszName=%p,iLen=%d)\n", pb, pszName, iLen));
iLen--; //reserve one space for NULL character
pszName[iLen] = '\0';
if (*pb == OP_ROOT_PREFIX)
{
if (i < iLen)
{
pszName[i] = CH_ROOT_PREFIX;
i++;
pb++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
while (*pb == OP_PARENT_PREFIX)
{
if (i < iLen)
{
pszName[i] = CH_PARENT_PREFIX;
i++;
pb++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
if (*pb == OP_DUAL_NAME_PREFIX)
{
icNameSegs = 2;
pb++;
}
else if (*pb == OP_MULTI_NAME_PREFIX)
{
pb++;
icNameSegs = (int)(*pb);
pb++;
}
else if (*pb == 0)
{
icNameSegs = 0;
}
else
{
icNameSegs = 1;
}
if (icNameSegs > 0)
{
do
{
if ((int)(i + sizeof(NAMESEG)) <= iLen)
{
strncpy(&pszName[i], (PCHAR)pb, sizeof(NAMESEG));
pb += sizeof(NAMESEG);
i += sizeof(NAMESEG);
icNameSegs--;
if (icNameSegs > 0)
{
if (i < iLen)
{
pszName[i] = CH_NAMESEG_SEP;
i++;
}
else
rc = ASLERR_NAME_TOO_LONG;
}
}
else
rc = ASLERR_NAME_TOO_LONG;
} while ((rc == ASLERR_NONE) && (icNameSegs > 0));
}
if (rc == ASLERR_NONE)
pszName[i] = '\0';
else
{
ERROR(("DecodeName: Name is too long - %s", pszName));
}
EXIT((1, "DecodeName=%d (Name=%s)\n", rc, pszName));
return rc;
} //DecodeName
/***LP SetDefMissingKW - Set default missing keyword
*
* ENTRY
* pArg -> argument code object
* dwDefID - default ID to be used if argument is missing
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL SetDefMissingKW(PCODEOBJ pArg, DWORD dwDefID)
{
int rc = ASLERR_NONE;
ENTER((2, "SetDefMissingKW(pArg=%p,ID=%d)\n", pArg, dwDefID));
if (pArg->dwfCode & CF_MISSING_ARG)
{
pArg->dwfCode &= ~CF_MISSING_ARG;
pArg->dwCodeType = CODETYPE_KEYWORD;
pArg->dwCodeValue = dwDefID;
rc = LookupIDIndex(pArg->dwCodeValue, &pArg->dwTermIndex);
}
EXIT((2, "SetDefMissingKW=%d (TermIndex=%ld)\n", rc, pArg->dwTermIndex));
return rc;
} //SetDefMissingKW
/***LP SetIntObject - Set an object to type integer
*
* ENTRY
* pc -> object
* dwData - integer data
* dwLen - data length
*
* EXIT
* None
*/
VOID LOCAL SetIntObject(PCODEOBJ pc, DWORD dwData, DWORD dwLen)
{
ENTER((2, "SetIntObject(pc=%p,Data=%x,Len=%d)\n", pc, dwData, dwLen));
pc->dwCodeType = CODETYPE_INTEGER;
pc->dwCodeValue = dwData;
pc->dwDataLen = pc->dwCodeLen = dwLen;
pc->bCodeChkSum = ComputeDataChkSum((PBYTE)&dwData, dwLen);
EXIT((2, "SetIntObject!\n"));
} //SetIntObject
/***LP ComputeChildChkSumLen - Compute len and chksum of child for parent
*
* ENTRY
* pcParent -> code block of parent
* pcChild -> code block of child
*
* EXIT
* None
*/
VOID LOCAL ComputeChildChkSumLen(PCODEOBJ pcParent, PCODEOBJ pcChild)
{
ENTER((1, "ComputeChildChkSumLen(pcParent=%p,pcChild=%p,ChildLen=%ld,ChildChkSum=%x)\n",
pcParent, pcChild, pcChild->dwCodeLen, pcChild->bCodeChkSum));
pcParent->dwCodeLen += pcChild->dwCodeLen;
pcParent->bCodeChkSum = (BYTE)(pcParent->bCodeChkSum +
pcChild->bCodeChkSum);
if (pcChild->dwCodeType == CODETYPE_ASLTERM)
{
int i;
for (i = 0; i < OPCODELEN(pcChild->dwCodeValue); ++i)
{
pcParent->bCodeChkSum = (BYTE)(pcParent->bCodeChkSum +
((PBYTE)(&pcChild->dwCodeValue))[i]);
pcParent->dwCodeLen++;
}
}
EXIT((1, "ComputeChildChkSumLen! (Len=%ld,ChkSum=%x)\n",
pcParent->dwCodeLen, pcParent->bCodeChkSum));
} //ComputeChildChkSumLen
/***LP ComputeArgsChkSumLen - Compute length and checksum of arguments
*
* ENTRY
* pcode -> code block
*
* EXIT
* None
*/
VOID LOCAL ComputeArgsChkSumLen(PCODEOBJ pcode)
{
PCODEOBJ pc;
int i;
ENTER((1, "ComputeArgsChkSumLen(pcode=%p)\n", pcode));
ASSERT((pcode->dwCodeType == CODETYPE_ASLTERM) ||
(pcode->dwCodeType == CODETYPE_USERTERM));
//
// Sum the length of arguments
//
for (i = 0, pc = (PCODEOBJ)pcode->pbDataBuff;
i < (int)pcode->dwDataLen;
++i)
{
ComputeChildChkSumLen(pcode, &pc[i]);
}
EXIT((1, "ComputeArgsChkSumLen! (Len=%ld,ChkSum=%x)\n",
pcode->dwCodeLen, pcode->bCodeChkSum));
} //ComputeArgsChkSumLen
/***LP ComputeChkSumLen - Compute length and checksum of code block
*
* Compute the length of the given code block and store it in the dwCodeLen
* field of the code block.
* Compute the checksum of the given code block and store it in the
* bCodeChkSum field of the code block.
*
* ENTRY
* pcode -> code block
*
* EXIT
* None
*
* NOTE
* This function does not count the opcode length of the given ASLTERM.
* The caller is responsible for adding it if necessary.
*/
VOID LOCAL ComputeChkSumLen(PCODEOBJ pcode)
{
PCODEOBJ pc;
int i, j;
ENTER((1, "ComputeChkSumLen(pcode=%p)\n", pcode));
ASSERT(pcode->dwCodeType == CODETYPE_ASLTERM);
if (!(TermTable[pcode->dwTermIndex].dwfTermClass & TC_COMPILER_DIRECTIVE))
{
ComputeArgsChkSumLen(pcode);
}
//
// Sum the lengths of children
//
for (pc = pcode->pcFirstChild; pc != NULL;)
{
ComputeChildChkSumLen(pcode, pc);
if ((PCODEOBJ)pc->list.plistNext == pcode->pcFirstChild)
pc = NULL;
else
pc = (PCODEOBJ)pc->list.plistNext;
}
//
// If this term requires a PkgLength encoding, we must include it in the
// length.
//
if (TermTable[pcode->dwTermIndex].dwfTerm & TF_PACKAGE_LEN)
{
DWORD dwPktLen;
if (pcode->dwCodeLen <= 0x3f - 1)
pcode->dwCodeLen++;
else if (pcode->dwCodeLen <= 0xfff - 2)
pcode->dwCodeLen += 2;
else if (pcode->dwCodeLen <= 0xfffff - 3)
pcode->dwCodeLen += 3;
else
pcode->dwCodeLen += 4;
if (EncodePktLen(pcode->dwCodeLen, &dwPktLen, &j) == ASLERR_NONE)
{
for (i = 0; i < j; ++i)
{
pcode->bCodeChkSum = (BYTE)(pcode->bCodeChkSum +
((PBYTE)&dwPktLen)[i]);
}
}
}
EXIT((1, "ComputeChkSumLen! (len=%ld,ChkSum=%x)\n",
pcode->dwCodeLen, pcode->bCodeChkSum));
} //ComputeChkSumLen
/***LP ComputeDataChkSum - Compute checksum of a data buffer
*
* ENTRY
* pb -> data buffer
* dwLen - size of data buffer
*
* EXIT
* returns the checksum byte
*/
BYTE LOCAL ComputeDataChkSum(PBYTE pb, DWORD dwLen)
{
BYTE bChkSum = 0;
ENTER((1, "ComputeDataChkSum(pb=%p,Len=%ld)\n", pb, dwLen));
while (dwLen > 0)
{
bChkSum = (BYTE)(bChkSum + *pb);
pb++;
dwLen--;
}
EXIT((1, "ComputeDataChkSum=%x\n", bChkSum));
return bChkSum;
} //ComputeChkSumLen
/***LP ComputeEISAID - Compute EISA ID from the ID string
*
* ENTRY
* pszID -> ID string
* pdwEISAID -> to hold the EISA ID
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL ComputeEISAID(PSZ pszID, PDWORD pdwEISAID)
{
int rc = ASLERR_NONE;
ENTER((1, "ComputeEISAID(pszID=%s,pdwEISAID=%p)\n", pszID, pdwEISAID));
if (*pszID == '*')
pszID++;
if (strlen(pszID) != 7)
rc = ASLERR_INVALID_EISAID;
else
{
int i;
*pdwEISAID = 0;
for (i = 0; i < 3; ++i)
{
if ((pszID[i] < '@') || (pszID[i] > '_'))
{
rc = ASLERR_INVALID_EISAID;
break;
}
else
{
(*pdwEISAID) <<= 5;
(*pdwEISAID) |= pszID[i] - '@';
}
}
if (rc == ASLERR_NONE)
{
PSZ psz;
WORD wData;
(*pdwEISAID) = ((*pdwEISAID & 0x00ff) << 8) |
((*pdwEISAID & 0xff00) >> 8);
wData = (WORD)strtoul(&pszID[3], &psz, 16);
if (*psz != '\0')
{
rc = ASLERR_INVALID_EISAID;
}
else
{
wData = (WORD)(((wData & 0x00ff) << 8) |
((wData & 0xff00) >> 8));
(*pdwEISAID) |= (DWORD)wData << 16;
}
}
}
EXIT((1, "ComputeEISAID=%d (EISAID=%lx)\n", rc, *pdwEISAID));
return rc;
} //ComputeEISAID
/***LP LookupIDIndex - lookup the given ID in the TermTable and return index
*
* ENTRY
* lID - ID to look up
* pdwTermIndex -> to hold term index found
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL LookupIDIndex(LONG lID, PDWORD pdwTermIndex)
{
int rc = ASLERR_NONE;
int i;
ENTER((1, "LookupIDIndex(ID=%ld,pdwTermIndex=%p)\n", lID, pdwTermIndex));
for (i = 0; TermTable[i].pszID != NULL; ++i)
{
if (lID == TermTable[i].lID)
{
*pdwTermIndex = (DWORD)i;
break;
}
}
if (TermTable[i].pszID == NULL)
{
ERROR(("LookupIDIndex: failed to find ID %ld in TermTable", lID));
rc = ASLERR_INTERNAL_ERROR;
}
EXIT((1, "LookupIDIndex=%d (Index=%d)\n", rc, *pdwTermIndex));
return rc;
} //LookupIDIndex
/***LP WriteAMLFile - Write code block to AML file
*
* ENTRY
* fhAML - AML image file handle
* pcode -> code block
* pdwOffset -> file offset
*
* EXIT-SUCCESS
* returns ASLERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
int LOCAL WriteAMLFile(int fhAML, PCODEOBJ pcode, PDWORD pdwOffset)
{
int rc = ASLERR_NONE;
int iLen;
DWORD dwPktLen, dwLen;
ENTER((1, "WriteAMLFile(fhAML=%x,pcode=%p,FileOffset=%x)\n",
fhAML, pcode, *pdwOffset));
if (pcode->dwfCode & CF_CREATED_NSOBJ)
{
ASSERT(pcode->pnsObj != NULL);
ASSERT(pcode->pnsObj->dwRefCount == 0);
pcode->pnsObj->dwRefCount = *pdwOffset;
}
switch (pcode->dwCodeType)
{
case CODETYPE_ASLTERM:
if (pcode->dwCodeValue != OP_NONE)
{
iLen = OPCODELEN(pcode->dwCodeValue);
*pdwOffset += iLen;
if (_write(fhAML, &pcode->dwCodeValue, iLen) != iLen)
rc = ASLERR_WRITE_FILE;
else if (TermTable[pcode->dwTermIndex].dwfTerm & TF_PACKAGE_LEN)
{
if ((rc = EncodePktLen(pcode->dwCodeLen, &dwPktLen, &iLen))
== ASLERR_NONE)
{
*pdwOffset += iLen;
if (_write(fhAML, &dwPktLen, iLen) != iLen)
{
rc = ASLERR_WRITE_FILE;
}
}
}
if (rc == ASLERR_NONE)
{
if (pcode->pbDataBuff != NULL)
{
PCODEOBJ pc;
int i;
for (i = 0, pc = (PCODEOBJ)pcode->pbDataBuff;
i < (int)pcode->dwDataLen;
++i)
{
if ((rc = WriteAMLFile(fhAML, &pc[i], pdwOffset))
!= ASLERR_NONE)
{
break;
}
}
}
}
}
if (rc == ASLERR_NONE)
{
PCODEOBJ pc;
for (pc = pcode->pcFirstChild; pc != NULL;)
{
if ((rc = WriteAMLFile(fhAML, pc, pdwOffset)) !=
ASLERR_NONE)
{
break;
}
if ((PCODEOBJ)pc->list.plistNext ==
pcode->pcFirstChild)
{
pc = NULL;
}
else
pc = (PCODEOBJ)pc->list.plistNext;
}
}
break;
case CODETYPE_USERTERM:
if (pcode->pbDataBuff != NULL)
{
PCODEOBJ pc;
int i;
for (i = 0, pc = (PCODEOBJ)pcode->pbDataBuff;
i < (int)pcode->dwDataLen;
++i)
{
if ((rc = WriteAMLFile(fhAML, &pc[i], pdwOffset)) !=
ASLERR_NONE)
{
break;
}
}
}
break;
case CODETYPE_FIELDOBJ:
dwPktLen = pcode->dwCodeValue? sizeof(NAMESEG): sizeof(BYTE);
dwLen = ((pcode->dwDataLen & 0xc0) >> 6) + 1;
*pdwOffset += dwPktLen + dwLen;
if ((_write(fhAML, &pcode->dwCodeValue, dwPktLen) !=
(int)dwPktLen) ||
(_write(fhAML, &pcode->dwDataLen, dwLen) != (int)dwLen))
{
rc = ASLERR_WRITE_FILE;
}
break;
case CODETYPE_NAME:
case CODETYPE_DATAOBJ:
*pdwOffset += pcode->dwDataLen;
if (_write(fhAML, pcode->pbDataBuff, (int)pcode->dwDataLen) !=
(int)pcode->dwDataLen)
{
rc = ASLERR_WRITE_FILE;
}
break;
case CODETYPE_INTEGER:
*pdwOffset += pcode->dwDataLen;
if (_write(fhAML, &pcode->dwCodeValue, (int)pcode->dwDataLen) !=
(int)pcode->dwDataLen)
{
rc = ASLERR_WRITE_FILE;
}
break;
case CODETYPE_UNKNOWN:
case CODETYPE_KEYWORD:
break;
default:
ERROR(("WriteAMLFile: unexpected code type - %x",
pcode->dwCodeType));
rc = ASLERR_INTERNAL_ERROR;
}
EXIT((1, "WriteAMLFile=%d\n", rc));
return rc;
} //WriteAMLFile
/***LP FreeCodeObjs - free code object tree
*
* ENTRY
* pcodeRoot -> root of code object subtree to be free
*
* EXIT
* None
*/
VOID LOCAL FreeCodeObjs(PCODEOBJ pcodeRoot)
{
PCODEOBJ pcode, pcodeNext;
ENTER((1, "FreeCodeObjs(pcodeRoot=%p,Type=%d,Term=%s,Buff=%p)\n",
pcodeRoot, pcodeRoot->dwCodeType,
pcodeRoot->dwCodeType == CODETYPE_ASLTERM?
TermTable[pcodeRoot->dwTermIndex].pszID: "<null>",
pcodeRoot->pbDataBuff));
//
// Free all my children
//
for (pcode = pcodeRoot->pcFirstChild; pcode != NULL; pcode = pcodeNext)
{
if ((pcodeNext = (PCODEOBJ)pcode->list.plistNext) ==
pcodeRoot->pcFirstChild)
{
pcodeNext = NULL;
}
FreeCodeObjs(pcode);
}
if (pcodeRoot->pbDataBuff != NULL)
MEMFREE(pcodeRoot->pbDataBuff);
MEMFREE(pcodeRoot);
EXIT((1, "FreeCodeObjs!\n"));
} //FreeCodeObjs