Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

2329 lines
75 KiB

//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: buildsrc.c
//
// Contents: Functions used to process SOURCES and DIRS files
//
// History: 16-May-89 SteveWo Created
// 26-Jul-94 LyleC Split out from buildmak.c
// 05-Dec-00 sbonev See SD changelist 2317
//
//----------------------------------------------------------------------------
#include "build.h"
//
// Definitions used by the macro functions
//
#define LPAREN '('
#define RPAREN ')'
// Legal character for a macro name.
#define MACRO_CHAR(ch) iscsym(ch)
#define CMACROMAX 1000 // maximum unique macros per sources/dirs file
typedef struct _MACRO {
LPSTR pszValue;
UCHAR szName[1];
} MACRO;
MACRO *apMacro[CMACROMAX];
UINT cMacro = 0;
LPSTR *ppCurrentDirsFileName;
DWORD StartTime;
DWORD DirectoryStartTime;
#define SOURCES_TARGETNAME 0
#define SOURCES_TARGETPATH 1
#define SOURCES_TARGETPATHLIB 2
#define SOURCES_TARGETTYPE 3
#define SOURCES_TARGETEXT 4
#define SOURCES_INCLUDES 5
#define SOURCES_NTTEST 6
#define SOURCES_UMTYPE 7
#define SOURCES_UMTEST 8
#define SOURCES_OPTIONAL_UMTEST 9
#define SOURCES_UMAPPL 10
#define SOURCES_UMAPPLEXT 11
#define SOURCES_NTTARGETFILE0 12
#define SOURCES_NTTARGETFILES 13
#define SOURCES_PRECOMPILED_INCLUDE 14
#define SOURCES_PRECOMPILED_PCH 15
#define SOURCES_PRECOMPILED_OBJ 16
#define SOURCES_PRECOMPILED_TARGET 17
#define SOURCES_CHICAGO_PRODUCT 18
#define SOURCES_CONDITIONAL_INCLUDES 19
#define SOURCES_SYNCHRONIZE_BLOCK 20
#define SOURCES_SYNCHRONIZE_DRAIN 21
#define SOURCES_PASS0_SOURCEDIR 22
#define SOURCES_PASS0_HEADERDIR 23
#define SOURCES_PASS0_UUIDDIR 24
#define SOURCES_PASS0_CLIENTDIR 25
#define SOURCES_PASS0_SERVERDIR 26
#define SOURCES_IDLTYPE 27
#define SOURCES_SOURCES_OPTIONS 28
#define SOURCES_MFC_INCLUDES 29
#define SOURCES_SDK_LIB_DEST 30
#define SOURCES_DDK_LIB_DEST 31
#define SOURCES_SDK_INC_PATH 32
#define SOURCES_CRT_INC_PATH 33
#define SOURCES_OAK_INC_PATH 34
#define SOURCES_DDK_INC_PATH 35
#define SOURCES_WDM_INC_PATH 36
#define SOURCES_PRIVATE_INC_PATH 37
#define SOURCES_CHECKED_ALT_DIR 38
#define SOURCES_PROJECT_NAME 39
#define SOURCES_PASS0_PUBLISH 40
#define SOURCES_USER_INCLUDES 41
#define SOURCES_LAST_INCLUDES 42
#define SOURCES_MIDL_UUIDDIR 43
#define SOURCES_SYNCHRONIZE_PASS2_BLOCK 44
#define SOURCES_SYNCHRONIZE_PASS2_DRAIN 45
#define SOURCES_MANAGED_CODE 46
#define SOURCES_SYNC_PRODUCES 47
#define SOURCES_SYNC_CONSUMES 48
#define SOURCES_MANAGED_VB 49
#define SOURCES_PASS0_BINPLACE 50
#define SOURCES_PASS1_LINK 51
LPSTR RelevantSourcesMacros[] = {
"TARGETNAME",
"TARGETPATH",
"TARGETPATHLIB",
"TARGETTYPE",
"TARGETEXT",
"INCLUDES",
"NTTEST",
"UMTYPE",
"UMTEST",
"OPTIONAL_UMTEST",
"UMAPPL",
"UMAPPLEXT",
"NTTARGETFILE0",
"NTTARGETFILES",
"PRECOMPILED_INCLUDE",
"PRECOMPILED_PCH",
"PRECOMPILED_OBJ",
"PRECOMPILED_TARGET",
"CHICAGO_PRODUCT",
"CONDITIONAL_INCLUDES",
"SYNCHRONIZE_BLOCK",
"SYNCHRONIZE_DRAIN",
"PASS0_SOURCEDIR",
"PASS0_HEADERDIR",
"PASS0_UUIDDIR",
"PASS0_CLIENTDIR",
"PASS0_SERVERDIR",
"IDL_TYPE",
"SOURCES_OPTIONS",
"MFC_INCLUDES",
"SDK_LIB_DEST",
"DDK_LIB_DEST",
"SDK_INC_PATH",
"CRT_INC_PATH",
"OAK_INC_PATH",
"DDK_INC_PATH",
"WDM_INC_PATH",
"PRIVATE_INC_PATH",
"CHECKED_ALT_DIR",
"_PROJECT_",
"PASS0_PUBLISH",
"USER_INCLUDES",
"LAST_INCLUDES",
"MIDL_UUIDDIR",
"SYNCHRONIZE_PASS2_BLOCK",
"SYNCHRONIZE_PASS2_DRAIN",
"MANAGED_CODE",
"BUILD_PRODUCES",
"BUILD_CONSUMES",
"MANAGED_VB",
"PASS0_BINPLACE",
"PASS1_LINK",
NULL
};
#define SOURCES_MAX (ARRAY_SIZE(RelevantSourcesMacros) - 1)
VOID
MarkDirNames(PDIRREC DirDB, LPSTR TextLine, BOOL Required);
//+---------------------------------------------------------------------------
//
// Function: CompressBlanks
//
// Synopsis: Compress multiple blank characters out of macro value, in
// place.
//
// Arguments: [psrc] -- String to compress
//
// Notes: Note that tabs, CRs, continuation lines (and their line
// breaks) have already been replaced with blanks.
//
//----------------------------------------------------------------------------
VOID
CompressBlanks(LPSTR psrc)
{
LPSTR pdst = psrc;
while (*psrc == ' ') {
psrc++; // skip leading macro value blanks
}
while (*psrc != '\0') {
if (*psrc == '#') { // stop at comment
break;
}
if ((*pdst++ = *psrc++) == ' ') {
while (*psrc == ' ') {
psrc++; // skip multiple blanks
}
}
}
*pdst = '\0'; // terminate the compressed copy
if (*--pdst == ' ') {
*pdst = '\0'; // trim trailing macro value blanks
}
}
//+---------------------------------------------------------------------------
//
// Function: GetBaseDir
//
// Synopsis: Return the value of BASEDIR, the base NT directory, if
// appropriate.
//
// Arguments: [pname] -- path to split
//
//----------------------------------------------------------------------------
LPSTR
GetBaseDir(LPSTR pname)
{
if (_stricmp("BASEDIR", pname) == 0) {
return (NtRoot);
}
return (NULL);
}
//+---------------------------------------------------------------------------
//
// Function: FindMacro
//
// Synopsis: Returns the value of a given macro by name.
//
// Arguments: [pszName] -- Name of macro who's value is desired.
//
// Returns: String containing the value of the macro
//
//----------------------------------------------------------------------------
LPSTR
FindMacro(LPSTR pszName)
{
MACRO **ppm;
for (ppm = apMacro; ppm < &apMacro[cMacro]; ppm++) {
if (_stricmp(pszName, (*ppm)->szName) == 0) {
return ((*ppm)->pszValue);
}
}
return (NULL);
}
//+---------------------------------------------------------------------------
//
// Function: SaveMacro
//
// Synopsis: Save the value of a macro
//
// Arguments: [pszName] -- Name of macro to save
// [pszValue] -- Value of macro
//
// Notes: A new string must be allocated and initialized prior to
// freeing the old string when updating a macro value.
//
//----------------------------------------------------------------------------
VOID
SaveMacro(LPSTR pszName, LPSTR pszValue)
{
MACRO **ppm;
for (ppm = apMacro; ppm < &apMacro[cMacro]; ppm++) {
if (_stricmp(pszName, (*ppm)->szName) == 0) {
break;
}
}
if (ppm == &apMacro[CMACROMAX]) {
BuildError("Macro table full, ignoring: %s = %s\r\n", pszName, pszValue);
return;
}
if (ppm == &apMacro[cMacro]) {
cMacro++;
AllocMem(sizeof(MACRO) + strlen(pszName), ppm, MT_MACRO);
strcpy((*ppm)->szName, pszName);
(*ppm)->pszValue = NULL;
}
MakeMacroString(&(*ppm)->pszValue, pszValue);
if (DEBUG_1) {
BuildMsg(
"SaveMacro(%s = %s)\r\n",
(*ppm)->szName,
(*ppm)->pszValue == NULL? "NULL" : (*ppm)->pszValue);
}
if ((*ppm)->pszValue == NULL) {
FreeMem(ppm, MT_MACRO);
*ppm = apMacro[--cMacro];
}
}
//+---------------------------------------------------------------------------
//
// Function: FreeMacros
//
// Synopsis: Free all macros
//
// Arguments: (none)
//
//----------------------------------------------------------------------------
VOID
FreeMacros(VOID)
{
MACRO **ppm;
for (ppm = apMacro; ppm < &apMacro[cMacro]; ppm++) {
FreeString(&(*ppm)->pszValue, MT_DIRSTRING);
FreeMem(ppm, MT_MACRO);
assert(*ppm == NULL);
}
cMacro = 0;
}
//+---------------------------------------------------------------------------
//
// Function: SplitMacro
//
// Synopsis: Take a string containing "MACRONAME = VALUE" and return
// the target and value.
//
// Arguments: [pline] -- String to split and target return.
//
// Returns: Value of macro.
//
//----------------------------------------------------------------------------
LPSTR
SplitMacro(LPSTR *pszTarget)
{
LPSTR pvalue, p, pline;
pvalue = NULL;
pline = *pszTarget;
// Quickly reject comments and ! directives.
if (*pline == '#' || *pline == '!') {
return NULL;
}
if ((p = strchr(pline, '=')) != NULL) {
pvalue = p + 1; // point past old '='
while (p > pline && p[-1] == ' ') {
p--; // point to start of trailing blanks
}
// Check for missing target.
if (p == pline) {
return NULL;
}
*p = '\0'; // trim trailing blanks & '='
// Perform macro substitution on target.
*pszTarget = NULL;
if (!MakeMacroString(pszTarget, pline)) {
return NULL;
}
// Validate target name. If must be a non-empty string of
// valid macro name characters.
if (**pszTarget == 0) {
FreeString(pszTarget, MT_DIRSTRING);
return NULL;
}
for (p = *pszTarget; *p != 0; p++) {
if (!MACRO_CHAR(*p)) {
FreeString(pszTarget, MT_DIRSTRING);
return NULL;
}
}
CompressBlanks(pvalue);
}
return (pvalue);
}
//+---------------------------------------------------------------------------
//
// Function: SubstituteString
//
// Synopsis: Perform any macro substitution. This code was copied from the
// nmake source.
//
// Arguments:
//
// Returns:
//
// Notes:
//
//----------------------------------------------------------------------------
void
SubstituteString(
char **result,
char **name,
char **dest,
char **end,
char *source,
unsigned *length
)
{
#define ESCH '^'
PVOID pReallocResult;
char *oldString, *newString;
char *pEq, *pPar, *t;
char *s;
unsigned i;
++*name;
for (pEq = *name; *pEq && *pEq != '='; pEq++)
if (*pEq == ESCH)
pEq++;
// Did we find the '=' sign?
if (*pEq != '=')
printf("Error1\n");
// Did the user forget the initial string?
if (pEq == *name)
printf("Error2\n");
for (pPar = pEq; *pPar && *pPar != ')'; pPar++)
if (*pPar == ESCH)
pPar++;
if (*pPar != ')')
printf("Error3\n");
oldString = (char *)malloc((UINT)((pEq - *name) + 1));
if (!oldString) {
BuildError("(Fatal Error) Out Of Memory: SubstituteString()\r\n");
exit(16);
}
for (s = oldString, t = *name; *t != '='; *s++ = *t++)
if (*t == ESCH)
++t;
*s = '\0';
i = strlen(oldString);
newString = (char *)malloc((UINT)(pPar - pEq));
if (!newString) {
BuildError("(Fatal Error) Out Of Memory: SubstituteString()\r\n");
exit(16);
}
for (s = newString, t++; *t != ')'; *s++ = *t++)
if (*t == ESCH)
++t;
*s = '\0';
*name = pPar + 1;
while (*source) {
if ((*source == *oldString) // check for match
&& !strncmp(source, oldString, i)) { // copy new in for
for (s = newString; *s; *(*dest)++ = *s++) // old string
if (*dest == *end) {
pReallocResult = realloc(*result, *length+100);
if (!pReallocResult) {
BuildError("(Fatal Error) Out Of Memory: SubstituteString()\r\n");
exit(16);
}
*result = pReallocResult;
*dest = *result + *length;
*length += 100;
*end = *result + *length;
}
source += i;
continue;
}
if (*dest == *end) {
pReallocResult = realloc(*result, *length+100);
if (!pReallocResult) {
BuildError("(Fatal Error) Out Of Memory: SubstituteString()\r\n");
exit(16);
}
*result = pReallocResult;
*dest = *result + *length;
*length += 100;
*end = *result + *length;
}
*(*dest)++ = *source++; // else copy 1 char
}
free(oldString);
free(newString);
}
//+---------------------------------------------------------------------------
//
// Function: MakeMacroString
//
// Synopsis: Take a string, and expand any macros in it. (e.g.
// "$(BASEDIR)\foobar\myfile.lib" is expanded to
// "f:\nt\private\foobar\myfile.lib" if $(BASEDIR) has a value of
// "f:\nt\private".
//
// Arguments: [pp] -- Output string
// [psrc] -- Input string
//
// Returns:
//
// Notes: Any previous string value in [pp] is freed before updating it.
//
//----------------------------------------------------------------------------
char MMSBuffer[64*1024];
BOOL
MakeMacroString(LPSTR *pp, LPSTR psrc)
{
LPSTR pname, p2, pdst, p3;
int cb;
char chTerminator;
int cNameChars;
int cChars;
pdst = MMSBuffer;
cb = strlen(psrc);
if (cb > sizeof(MMSBuffer) - 1) {
BuildError(
"(Fatal Error) Buffer overflow: MakeMacroString(%s)\r\n",
psrc);
exit(16);
}
while ((pname = strchr(psrc, '$')) != NULL &&
((pname[1] == LPAREN &&
(p2 = strchr(pname, RPAREN)) != NULL) ||
(MACRO_CHAR(pname[1]) &&
!MACRO_CHAR(pname[2])))) {
LPSTR pszvalue;
// Handle one-character non-paren macro usage.
if (pname[1] == LPAREN) {
// Initialize cNameChars with the number of chars to
// skip to get to the first name character.
cNameChars = 2;
} else {
p2 = pname + 2;
cNameChars = 1;
}
chTerminator = *p2;
*pname = *p2 = '\0';
// copy up to macro name
cChars = strlen(psrc);
memcpy(pdst, psrc, cChars + 1);
psrc += cChars;
pdst += cChars;
*pname = '$';
pname += cNameChars;
cNameChars += strlen(pname) + (chTerminator == RPAREN ? 1 : 0);
p3 = NULL;
if (chTerminator == RPAREN &&
(p3 = strchr(pname, ':')) != NULL) {
// macro substitution exists. ie: $(foo:old=new)
*p3 = '\0';
}
if ((pszvalue = FindMacro(pname)) == NULL &&
(pszvalue = getenv(pname)) == NULL &&
(pszvalue = GetBaseDir(pname)) == NULL) {
pszvalue = ""; // can't find macro name -- ignore it
}
if (p3) {
char *pNew = malloc(10);
char *pResult = pNew;
char *pEnd = pNew+10;
unsigned Len = 10;
if (!pNew) {
BuildError("(Fatal Error) Internal buffer overflow: MakeMacroString(%s[%s = %s]%s)\r\n",
MMSBuffer,
pname,
pszvalue,
p2 + 1);
exit(16);
}
*p3 = ':';
*p2=RPAREN;
SubstituteString(&pResult, &p3, &pNew, &pEnd, pszvalue, &Len);
*pNew = '\0';
*p2='\0';
pszvalue = pResult;
}
cb += strlen(pszvalue) - cNameChars;
assert(cb >= 0);
if (cb > sizeof(MMSBuffer) - 1) {
BuildError(
"(Fatal Error) Internal buffer overflow: MakeMacroString(%s[%s = %s]%s)\r\n",
MMSBuffer,
pname,
pszvalue,
p2 + 1);
exit(16);
}
strcpy(pdst, pszvalue); // copy expanded value
if (p3) {
free(pszvalue);
}
pdst += strlen(pdst);
*p2 = chTerminator;
psrc += cNameChars;
}
strcpy(pdst, psrc); // copy rest of string
if (pdst != MMSBuffer) {
CompressBlanks(MMSBuffer);
}
p2 = *pp;
*pp = NULL;
if (MMSBuffer[0] != '\0') {
MakeString(pp, MMSBuffer, TRUE, MT_DIRSTRING);
}
if (p2 != NULL) {
FreeMem(&p2, MT_DIRSTRING);
}
return (MMSBuffer[0] != '\0');
}
//+---------------------------------------------------------------------------
//
// Function: SetMacroString
//
// Synopsis: If the two macro names are the same, store the value in that
// macro
//
// Arguments: [pMacro1] -- Name of first macro
// [pMacro2] -- Name of second macro
// [pValue] -- Unexpanded value to store.
// [ppValue] -- Expanded value of macro.
//
// Returns: BOOL
//
//----------------------------------------------------------------------------
BOOL
SetMacroString(LPSTR pMacro1, LPSTR pMacro2, LPSTR pValue, LPSTR *ppValue)
{
if (_stricmp(pMacro1, pMacro2) == 0) {
MakeMacroString(ppValue, pValue);
return (TRUE); // return TRUE even if MakeMacroString stored a NULL
}
return (FALSE);
}
//+---------------------------------------------------------------------------
//
// Function: SplitToken
//
// Synopsis: Split the string at the given separator character or space.
//
// Arguments: [pbuf] -- First part of split string returned here.
// [chsep] -- Separator character.
// [ppstr] -- Source string to split. Becomes the second half.
//
// Returns: TRUE if the split was successful. FALSE if it wasn't split.
//
// Notes: If *ppstr = "path\filename" and chsep = '\' on input, then
// pbuf = "path" and *ppstr = "\filename" on output.
//
//----------------------------------------------------------------------------
BOOL
SplitToken(LPSTR pbuf, char chsep, LPSTR *ppstr)
{
LPSTR psrc, pdst;
psrc = *ppstr;
pdst = pbuf;
//BuildError("SplitToken('%c', '%s') ==> ", chsep, psrc);
while (*psrc == chsep || *psrc == ' ') {
psrc++;
}
while (*psrc != '\0' && *psrc != chsep && *psrc != ' ') {
*pdst = *psrc++;
if (*pdst == '/') {
*pdst = '\\';
}
pdst++;
}
*pdst = '\0';
*ppstr = psrc;
//BuildErrorRaw("('%s', '%s')\r\n", psrc, pbuf);
return (pdst != pbuf);
}
//+---------------------------------------------------------------------------
//
// Function: CrackSources
//
// Synopsis: Parse the SOURCES= line in a sources file and adds those source
// files to the list of sources in the DIRREC struct.
//
// Arguments: [pdr] -- Directory record
// [pds] -- Supplemental directory information
// [i] -- Which platform we're parsing
//
//----------------------------------------------------------------------------
VOID
CrackSources(
DIRREC *pdr,
DIRSUP *pds,
int i)
{
LPSTR pszsubdir, plist;
LPSTR pszfile, pszpath;
FILEREC *pfr;
DIRREC *pdrAssociate;
DIRREC *pdrParent;
DIRREC *pdrMachine;
DIRREC *pdrParentMachine;
DIRREC *pdrTarget;
DIRREC **ppdr;
LPSTR pszSources;
char path[DB_MAX_PATH_LENGTH];
TARGET_MACHINE_INFO *pMachine;
switch (i) {
case 0:
pMachine = TargetMachines[0];
pszSources = "SOURCES";
break;
case 1:
pMachine = TargetMachines[0];
pszSources = "OBJLIBFILES";
break;
default:
pMachine = PossibleTargetMachines[i - 2];
pszSources = pMachine->SourceVariable;
break;
}
pdrAssociate = pdrParent = pdrMachine = pdrParentMachine = pdrTarget = NULL;
plist = pds->SourcesVariables[i];
while (SplitToken(path, ' ', &plist)) {
UCHAR SubDirMask, SrcFlags;
SubDirMask = 0;
ppdr = &pdr; // assume current directory
pszsubdir = path;
if (pszsubdir[0] == '.' && pszsubdir[1] == '\\') {
BuildError(
"%s: Ignoring current directory prefix in %s= entry: %s\r\n",
pdr->Name,
pszSources,
path);
pszsubdir += 2;
}
if (pszsubdir[0] == '.' &&
pszsubdir[1] == '.' &&
pszsubdir[2] == '\\') {
SubDirMask = TMIDIR_PARENT;
ppdr = &pdrParent; // assume parent directory
pszsubdir += 3;
}
pszpath = path;
pszfile = strchr(pszsubdir, '\\');
if (pszfile == NULL) {
pszfile = pszsubdir;
} else {
LPSTR pszSecondSlash;
LPSTR pszAssociateDir;
LPSTR pszMachineDir;
// Check for second slash and handle $O\. If there is
// no second slash, check for a machine specific directory name.
// Second slashes are not legal if there's already been
// a '..'.
if ((SubDirMask & TMIDIR_PARENT) == 0) {
pszSecondSlash = strchr(pszfile + 1, '\\');
if (pszSecondSlash != NULL) {
pszfile = pszSecondSlash;
}
} else {
pszSecondSlash = NULL;
}
*pszfile = '\0';
if (pszSecondSlash != NULL) {
pszMachineDir = pMachine->ObjectDirectory[iObjectDir];
pszAssociateDir = pszMachineDir;
} else {
pszMachineDir = pMachine->SourceDirectory;
pszAssociateDir = pMachine->AssociateDirectory;
}
if (((_stricmp(pszsubdir, pszAssociateDir) != 0) &&
(_stricmp(pszsubdir, pszMachineDir) != 0)) ||
strchr(pszfile + 1, '\\') != NULL) {
*pszfile = '\\';
/*
* Managed code such as C# and VB.NET builds fine with a
* "prefix" directory, so don't complain in that case.
*/
if (!(pdr->DirFlags & DIRDB_MANAGED_CODE) && strcmp(pszSources, "OBJLIBFILES")) {
BuildError(
"%s: Ignoring invalid directory prefix in %s= entry: %s\r\n",
pdr->Name,
pszSources,
path);
}
pszpath = strrchr(path, '\\');
assert(pszpath != NULL);
pszpath++;
SubDirMask = 0;
ppdr = &pdr; // default to current direcory
} else {
SubDirMask |= pMachine->SourceSubDirMask;
*pszfile++ = '\\';
if (SubDirMask & TMIDIR_PARENT) {
ppdr = &pdrParentMachine;
} else if (pszSecondSlash != NULL) {
// Must have matched $O.
ppdr = &pdrTarget;
} else {
if (_stricmp(pszsubdir, pszMachineDir) != 0) {
ppdr = &pdrMachine;
} else {
ppdr = &pdrAssociate;
}
}
}
}
NewDirectory:
if (*ppdr == NULL) {
pfr = FindSourceFileDB(pdr, pszpath, ppdr);
} else {
pfr = LookupFileDB(*ppdr, pszfile);
}
SrcFlags = SOURCEDB_SOURCES_LIST;
if ((pfr == NULL) && !fPassZero) {
if (fDebug) {
BuildError("%s: Missing source file: %s\r\n", pdr->Name, path);
}
if (*ppdr == NULL) {
if (fDebug || pszpath == path) {
BuildError(
"%s: Directory does not exist: %s\r\n",
pdr->Name,
path);
}
// Probably an error in the subordinate sources file.
// since old versions of build managed to get these entries
// into the objects lists, we have to do the same...
//
// If ..\ prefix exists, strip it off and try again.
// Else try again with the current directory.
if (SubDirMask & TMIDIR_PARENT) {
SubDirMask &= ~TMIDIR_PARENT; // strip off "..\\"
} else {
SubDirMask = 0; // use current direcory
}
if (SubDirMask == 0) {
ppdr = &pdr; // current direcory
pszpath = pszfile;
} else {
ppdr = &pdrMachine; // machine sub dir
pszpath = pszsubdir;
}
goto NewDirectory;
}
pfr = InsertFileDB(*ppdr, pszfile, 0, 0, FILEDB_FILE_MISSING);
if (pfr == NULL && strcmp(pszSources, "OBJLIBFILES")) {
BuildError(
"%s: Ignoring invalid %s= entry: %s\r\n",
pdr->Name,
pszSources,
path);
}
}
if (pfr != NULL) {
AssertFile(pfr);
if (SubDirMask == 0) {
pfr->FileFlags |= FILEDB_OBJECTS_LIST;
}
if (pfr->FileFlags & FILEDB_FILE_MISSING) {
SrcFlags |= SOURCEDB_FILE_MISSING;
}
InsertSourceDB(&pds->psrSourcesList[i], pfr, SubDirMask, SrcFlags);
}
}
}
//+---------------------------------------------------------------------------
//
// Function: SaveUserTests
//
// Synopsis: Save the value of the UMTEST macro into the DIRREC struct.
//
// Arguments: [DirDB] -- Dir struct to save into
// [TextLine] -- String from UMTEST= line in sources file
//
//----------------------------------------------------------------------------
VOID
SaveUserTests(
PDIRREC DirDB,
LPSTR TextLine)
{
UINT i;
BOOL fSave = FALSE;
char name[DB_MAX_PATH_LENGTH];
char buf[512];
buf[0] = '\0';
if (DirDB->UserTests != NULL) {
strcpy(buf, DirDB->UserTests);
}
CopyString(TextLine, TextLine, TRUE);
while (SplitToken(name, '*', &TextLine)) {
for (i = 0; i < CountOptionalDirs; i++) {
if (!strcmp(name, OptionalDirs[i])) {
if (buf[0] != '\0') {
strcat(buf, "*");
DirDB->DirFlags |= DIRDB_FORCELINK; // multiple targets
}
strcat(buf, name);
fSave = TRUE;
break;
}
}
}
if (fSave) {
MakeMacroString(&DirDB->UserTests, buf);
DirDB->DirFlags |= DIRDB_LINKNEEDED;
}
}
void
AddProduceDependency(
DIRREC *DirDB,
LPSTR Value
)
{
char produces[DB_MAX_PATH_LENGTH];
PDEPENDENCY Dependency;
while (SplitToken(produces, ' ',&Value)) {
AllocMem(sizeof(DEPENDENCY)+strlen(produces), &Dependency, MT_DEPENDENCY);
InitializeListHead(&Dependency->WaitList);
InsertTailList(&DirDB->Produces, &Dependency->DependencyList);
Dependency->Producer = DirDB;
strcpy(Dependency->Name, produces);
Dependency->CheckSum = CheckSum(Dependency->Name);
Dependency->Next = AllDependencies;
Dependency->Done = FALSE;
Dependency->hEvent = CreateEvent(NULL, TRUE, FALSE, NULL);
if (Dependency->hEvent == NULL) {
BuildMsg("Failed to create dependency hEvent for dependency %s in directory %s\n",
Dependency, DirDB->Name);
}
AllDependencies = Dependency;
}
}
void
AddConsumeDependency(
DIRREC *DirDB,
LPSTR Value
)
{
char consumes[DB_MAX_PATH_LENGTH];
PDEPENDENCY Dependency;
PDEPENDENCY_WAIT Wait;
USHORT sum;
while (SplitToken(consumes, ' ',&Value)) {
//
// Find the dependency, which must have already been created by the
// producer.
//
sum = CheckSum(consumes);
Dependency = AllDependencies;
while (Dependency) {
if ((Dependency->CheckSum == sum) &&
(strcmp(Dependency->Name, consumes)==0)) {
break;
}
Dependency = Dependency->Next;
}
if (Dependency != NULL) {
AllocMem(sizeof(DEPENDENCY_WAIT), &Wait, MT_DEPENDENCY_WAIT);
InsertTailList(&DirDB->Consumes, &Wait->ListEntry);
Wait->Consumer = DirDB;
Wait->Dependency = Dependency;
}
}
}
//+---------------------------------------------------------------------------
//
// Function: ProcessSourcesFileLine
//
// Synopsis: Given a line from a sources file, do the right thing.
//
// Arguments: [DirDB] -- Directory containing sources file
// [pds] -- Supplementary info on directory
// [TextLine] -- Line to process
//
// Returns: void
//
//----------------------------------------------------------------------------
void
ProcessSourcesFileLine(
DIRREC *DirDB, // Current Directory record
DIRSUP *pds, // Supplemental Directory record
LPSTR TextLine, // Line to process
int iTarget // Index into target machine array.
)
{
LPSTR MacroName, p1;
UINT i, iMacro;
char path[DB_MAX_PATH_LENGTH];
BOOL fCleanNTTargetFile0 = FALSE;
LPSTR pValue; // right side of equal sign
LPSTR pszTemp=NULL;
pValue = SplitMacro(&TextLine);
if (pValue == NULL) {
return;
}
// Note: TextLine is now the left side of the equal sign. See if it's interesting.
//
// This sets pds->SourcesVariables[0] to the value of SOURCES= if
// the current line is SOURCES=...
//
if (SetMacroString(
"SOURCES",
TextLine,
pValue,
&pds->SourcesVariables[0])) {
DirDB->DirFlags |= DIRDB_SOURCES_SET;
goto SaveAndFreeMacro;
} else if (SetMacroString(
"OBJLIBFILES",
TextLine,
pValue,
&pds->SourcesVariables[1])) {
DirDB->DirFlags |= DIRDB_SOURCES_SET;
goto SaveAndFreeMacro;
} else {
for (i = 0; i < MAX_TARGET_MACHINES; i++) {
//
// This sets pds->SourcesVariables[0] to the value of
// PLAT_SOURCES= if the current line is PLAT_SOURCES=...
//
if (SetMacroString(
PossibleTargetMachines[i]->SourceVariable,
TextLine,
pValue,
&pds->SourcesVariables[i + 2])) {
DirDB->DirFlags |= DIRDB_SOURCES_SET;
goto SaveAndFreeMacro;
}
}
}
// Not a SOURCES or xxx_SOURCES macro, check against all the other interesting
// macro names.
iMacro = 0;
while ((MacroName = RelevantSourcesMacros[iMacro]) != NULL) {
if (_stricmp(TextLine, MacroName) == 0) {
break;
}
iMacro++;
}
if (MacroName != NULL) { // if macro name found in list
switch (iMacro) {
case SOURCES_TARGETNAME:
MakeMacroString(&DirDB->TargetName, pValue);
break;
case SOURCES_TARGETPATH:
if (strcmp(pValue, "obj") == 0) {
pValue = pszObjDir;
}
MakeMacroString(&DirDB->TargetPath, pValue);
if (DirDB->TargetPath != NULL) {
CreateBuildDirectory(DirDB->TargetPath);
for (i = 0; i < CountTargetMachines; i++) {
p1 = TargetMachines[i]->ObjectDirectory[iObjectDir];
assert(strncmp(pszObjDirSlash, p1, strlen(pszObjDirSlash)) == 0);
p1 += strlen(pszObjDirSlash);
sprintf(path, "%s\\%s", DirDB->TargetPath, p1);
CreateBuildDirectory(path);
}
}
break;
case SOURCES_TARGETPATHLIB:
if (strcmp(pValue, "obj") == 0) {
pValue = pszObjDir;
}
MakeMacroString(&DirDB->TargetPathLib, pValue);
if (DirDB->TargetPathLib != NULL) {
CreateBuildDirectory(DirDB->TargetPathLib);
for (i = 0; i < CountTargetMachines; i++) {
p1 = TargetMachines[i]->ObjectDirectory[iObjectDir];
assert(strncmp(pszObjDirSlash, p1, strlen(pszObjDirSlash)) == 0);
p1 += strlen(pszObjDirSlash);
sprintf(path, "%s\\%s", DirDB->TargetPathLib, p1);
CreateBuildDirectory(path);
}
}
break;
case SOURCES_TARGETTYPE:
if (!_stricmp(pValue, "PROGRAM") || !_stricmp(pValue, "PROGLIB")) {
MakeMacroString(&DirDB->TargetExt, ".exe");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "OBJLIB")) {
MakeMacroString(&DirDB->TargetExt, ".olb");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "DRIVER") || !_stricmp(pValue, "MINIPORT")) {
MakeMacroString(&DirDB->TargetExt, ".sys");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "GDI_DRIVER")) {
MakeMacroString(&DirDB->TargetExt, ".dll");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "EXPORT_DRIVER")) {
MakeMacroString(&DirDB->TargetExt, ".sys");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
DirDB->DirFlags |= DIRDB_DLLTARGET;
} else if (!_stricmp(pValue, "DYNLINK") || !_stricmp(pValue, "HAL")) {
MakeMacroString(&DirDB->TargetExt, ".dll");
DirDB->DirFlags |= DIRDB_LINKNEEDED;
DirDB->DirFlags |= DIRDB_DLLTARGET;
} else if ((!_stricmp(pValue, "LIBRARY")) || (!_stricmp(pValue, "DRIVER_LIBRARY"))) {
MakeMacroString(&DirDB->TargetExt, ".lib");
DirDB->DirFlags &= ~DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "UMAPPL_NOLIB")) {
DirDB->DirFlags &= ~DIRDB_LINKNEEDED;
} else if (!_stricmp(pValue, "NOTARGET")) {
//
// Used to indicate no target for a directory,
// e.g. if only pass0 files are generated
pds->fNoTarget = TRUE;
if (!fQuicky || (fQuickZero && fFirstScan)) {
DirDB->DirFlags |= DIRDB_PASS0NEEDED;
}
} else {
BuildError( "Unsupported TARGETTYPE value - %s\r\n", pValue);
}
break;
case SOURCES_TARGETEXT:
{
char TargetExt[_MAX_EXT] = ".";
strcat(TargetExt, pValue);
MakeMacroString(&DirDB->TargetExt, TargetExt);
}
break;
case SOURCES_INCLUDES:
MakeMacroString(&pds->LocalIncludePath, pValue);
if (DEBUG_1) {
BuildMsg(
" Found local INCLUDES=%s\r\n",
pds->LocalIncludePath);
}
break;
case SOURCES_USER_INCLUDES:
MakeMacroString(&pds->UserIncludePath, pValue);
if (DEBUG_1) {
BuildMsg(
" Found local USER_INCLUDES=%s\r\n",
pds->UserIncludePath);
}
break;
case SOURCES_LAST_INCLUDES:
MakeMacroString(&pds->LastIncludePath, pValue);
if (DEBUG_1) {
BuildMsg(
" Found local LAST_INCLUDES=%s\r\n",
pds->LastIncludePath);
}
break;
case SOURCES_MFC_INCLUDES:
// MFC_INCLUDES/SDK_INC/CRT_INC/OAK_INC really can't be changed
// in the sources file (yet) since we've already processed the
// system includes. Lay the groundwork for now.
MakeMacroString((char **)&pszIncMfc, pValue);
break;
case SOURCES_SDK_LIB_DEST:
MakeMacroString((char **)&pszSdkLibDest, pValue);
break;
case SOURCES_DDK_LIB_DEST:
MakeMacroString((char **)&pszDdkLibDest, pValue);
break;
case SOURCES_SDK_INC_PATH:
MakeMacroString((char **)&pszIncSdk, pValue);
break;
case SOURCES_CRT_INC_PATH:
MakeMacroString((char **)&pszIncCrt, pValue);
break;
case SOURCES_OAK_INC_PATH:
MakeMacroString((char **)&pszIncOak, pValue);
break;
case SOURCES_DDK_INC_PATH:
MakeMacroString((char **)&pszIncDdk, pValue);
break;
case SOURCES_WDM_INC_PATH:
MakeMacroString((char **)&pszIncWdm, pValue);
break;
case SOURCES_PRIVATE_INC_PATH:
MakeMacroString((char **)&pszIncPri, pValue);
break;
case SOURCES_PRECOMPILED_PCH:
MakeMacroString(&DirDB->Pch, pValue);
break;
case SOURCES_PRECOMPILED_OBJ:
MakeMacroString(&DirDB->PchObj, pValue);
break;
case SOURCES_PRECOMPILED_INCLUDE:
case SOURCES_PRECOMPILED_TARGET:
{
LPSTR *ppszPath, *ppszFile, p;
if (iMacro == SOURCES_PRECOMPILED_INCLUDE) {
ppszPath = &pds->PchIncludeDir;
ppszFile = &pds->PchInclude;
} else {
ppszPath = &pds->PchTargetDir;
ppszFile = &pds->PchTarget;
}
MakeMacroString(ppszPath, ""); // free old string
if (!MakeMacroString(ppszFile, pValue)) {
break;
}
p = *ppszFile + strlen(*ppszFile);
while (p > *ppszFile && *--p != '\\')
;
if (p > *ppszFile) {
*p = '\0';
MakeMacroString(ppszPath, *ppszFile);
MakeMacroString(ppszFile, p + 1);
}
if (DEBUG_1) {
BuildMsg(
"Precompiled header%s is %s in directory %s\r\n",
iMacro == SOURCES_PRECOMPILED_INCLUDE?
"" : " target",
*ppszFile,
*ppszPath != NULL?
*ppszPath : "'.'");
}
}
if (iMacro == SOURCES_PRECOMPILED_INCLUDE ||
pds->PchTargetDir == NULL) {
break;
}
EnsureDirectoriesExist(pds->PchTargetDir);
break;
case SOURCES_PASS0_HEADERDIR:
MakeMacroString(&pds->PassZeroHdrDir, pValue);
EnsureDirectoriesExist(pds->PassZeroHdrDir);
if (DEBUG_1) {
BuildMsg("Pass Zero Header Directory is '%s'\r\n",
pds->PassZeroHdrDir);
}
break;
case SOURCES_PASS0_SOURCEDIR:
// SOURCES_PASS0_SOURCEDIR and SOURCES_PASS0_CLIENTDIR
// are mutually exclusive - enforced by makefile.def
DirDB->DirFlags &= ~DIRDB_IDLTYPERPC;
MakeMacroString(&pds->PassZeroSrcDir1, pValue);
EnsureDirectoriesExist(pds->PassZeroSrcDir1);
if (DEBUG_1) {
BuildMsg("Pass Zero Source Directory is '%s'\r\n",
pds->PassZeroSrcDir1);
}
break;
case SOURCES_PASS0_CLIENTDIR:
// SOURCES_PASS0_SOURCEDIR and SOURCES_PASS0_CLIENTDIR
// are mutually exclusive - enforced by makefile.def
DirDB->DirFlags |= DIRDB_IDLTYPERPC;
MakeMacroString(&pds->PassZeroSrcDir1, pValue);
EnsureDirectoriesExist(pds->PassZeroSrcDir1);
if (DEBUG_1) {
BuildMsg("Pass Zero Client Directory is '%s'\r\n",
pds->PassZeroSrcDir1);
}
break;
case SOURCES_MIDL_UUIDDIR:
case SOURCES_PASS0_UUIDDIR:
// SOURCES_PASS0_UUIDDIR and SOURCES_PASS0_SERVERDIR
// are mutually exclusive - enforced by makefile.def
DirDB->DirFlags &= ~DIRDB_IDLTYPERPC;
MakeMacroString(&pds->PassZeroSrcDir2, pValue);
EnsureDirectoriesExist(pds->PassZeroSrcDir2);
if (DEBUG_1) {
BuildMsg("Pass Zero UUID Source Directory is '%s'\r\n",
pds->PassZeroSrcDir2);
}
break;
case SOURCES_PASS0_SERVERDIR:
// SOURCES_PASS0_UUIDDIR and SOURCES_PASS0_SERVERDIR
// are mutually exclusive - enforced by makefile.def
DirDB->DirFlags |= DIRDB_IDLTYPERPC;
MakeMacroString(&pds->PassZeroSrcDir2, pValue);
EnsureDirectoriesExist(pds->PassZeroSrcDir2);
if (DEBUG_1) {
BuildMsg("Pass Zero Server Directory is '%s'\r\n",
pds->PassZeroSrcDir2);
}
break;
case SOURCES_NTTEST:
if (MakeMacroString(&DirDB->KernelTest, pValue)) {
DirDB->DirFlags |= DIRDB_LINKNEEDED;
}
break;
case SOURCES_UMTYPE:
MakeMacroString(&pds->TestType, pValue);
if (DEBUG_1) {
BuildMsg(
" Found UMTYPE=%s\r\n",
pds->TestType);
}
break;
case SOURCES_UMTEST:
case SOURCES_OPTIONAL_UMTEST:
SaveUserTests(DirDB, pValue);
break;
case SOURCES_UMAPPL:
if (MakeMacroString(&DirDB->UserAppls, pValue)) {
DirDB->DirFlags |= DIRDB_LINKNEEDED;
}
break;
case SOURCES_UMAPPLEXT:
if (!_stricmp(pValue, ".exe")) {
MakeMacroString(&DirDB->TargetExt, ".exe");
} else
if (!_stricmp(pValue, ".com")) {
MakeMacroString(&DirDB->TargetExt, ".com");
} else
if (!_stricmp(pValue, ".scr")) {
MakeMacroString(&DirDB->TargetExt, ".scr");
} else {
BuildError(
"Unsupported UMAPPLEXT value - %s\r\n",
pValue);
}
break;
case SOURCES_IDLTYPE:
if (!_stricmp(pValue, "ole")) {
pds->IdlType = 0;
} else
if (!_stricmp(pValue, "rpc")) {
pds->IdlType = 1;
} else {
BuildError(
"Unsupported IDL_TYPE value - %s\r\n",
pValue);
}
break;
case SOURCES_SOURCES_OPTIONS:
fCleanNTTargetFile0 = fClean && strstr(pValue, "-c0");
break;
case SOURCES_NTTARGETFILE0:
DirDB->DirFlags |= DIRDB_TARGETFILE0;
if (fCleanNTTargetFile0) {
MakeMacroString(&DirDB->NTTargetFile0, pValue);
}
break;
case SOURCES_NTTARGETFILES:
DirDB->DirFlags |= DIRDB_TARGETFILES;
break;
case SOURCES_CHICAGO_PRODUCT:
DirDB->DirFlags |= DIRDB_CHICAGO_INCLUDES;
break;
case SOURCES_CONDITIONAL_INCLUDES:
MakeMacroString(&pds->ConditionalIncludes, pValue);
break;
case SOURCES_SYNCHRONIZE_BLOCK:
//if ((!fIgnoreSync) && !(DirDB->DirFlags & (DIRDB_SYNC_PRODUCES | DIRDB_SYNC_CONSUMES))) {
if (!fIgnoreSync) {
DirDB->DirFlags |= DIRDB_SYNCHRONIZE_BLOCK;
}
break;
case SOURCES_SYNCHRONIZE_PASS2_BLOCK:
DirDB->DirFlags |= DIRDB_SYNCHRONIZE_PASS2_BLOCK;
break;
case SOURCES_SYNCHRONIZE_DRAIN:
// if ((!fIgnoreSync) && !(DirDB->DirFlags & (DIRDB_SYNC_PRODUCES | DIRDB_SYNC_CONSUMES))) {
if ((!fIgnoreSync) && !(DirDB->DirFlags & DIRDB_SYNC_CONSUMES)) {
DirDB->DirFlags |= DIRDB_SYNCHRONIZE_DRAIN;
}
break;
case SOURCES_SYNCHRONIZE_PASS2_DRAIN:
DirDB->DirFlags |= DIRDB_SYNCHRONIZE_PASS2_DRAIN;
break;
case SOURCES_CHECKED_ALT_DIR:
if (!fBuildAltDirSet) {
DirDB->DirFlags |= DIRDB_CHECKED_ALT_DIR;
if (DEBUG_1) {
BuildMsg("Found CHECKED_ALT_DIR\r\n");
}
SetObjDir(TRUE);
if (fCheckedBuild) {
SaveMacro("_OBJ_DIR", pszObjDir);
if (iTarget < 0) {
SaveMacro("O", TargetMachines[0]->
ObjectDirectory[iObjectDir]);
} else {
SaveMacro("O",
PossibleTargetMachines[iTarget/2]->
ObjectDirectory[iObjectDir]);
}
}
}
break;
case SOURCES_PROJECT_NAME:
sprintf(path, "%s\\%s", NtRoot, pValue);
SaveMacro("PROJECT_ROOT", path);
break;
case SOURCES_PASS0_PUBLISH:
DirDB->DirFlags |= DIRDB_PASS0NEEDED;
break;
case SOURCES_MANAGED_CODE:
case SOURCES_MANAGED_VB:
DirDB->DirFlags |= DIRDB_MANAGED_CODE;
break;
case SOURCES_SYNC_PRODUCES:
DirDB->DirFlags |= DIRDB_SYNC_PRODUCES;
//A producer directory can be a BLOCK or a DRAIN.
//DirDB->DirFlags &= ~(DIRDB_SYNCHRONIZE_BLOCK | DIRDB_SYNCHRONIZE_DRAIN);
MakeMacroString(&pszTemp, pValue);
AddProduceDependency(DirDB, pszTemp);
break;
case SOURCES_SYNC_CONSUMES:
DirDB->DirFlags |= DIRDB_SYNC_CONSUMES;
//Changed so that the same directory can be the consumer as well as a block...
//DirDB->DirFlags &= ~(DIRDB_SYNCHRONIZE_BLOCK | DIRDB_SYNCHRONIZE_DRAIN);
DirDB->DirFlags &= ~(DIRDB_SYNCHRONIZE_DRAIN);
MakeMacroString(&pszTemp, pValue);
AddConsumeDependency(DirDB, pszTemp);
break;
case SOURCES_PASS0_BINPLACE:
DirDB->DirFlags |= DIRDB_PASS0NEEDED;
break;
case SOURCES_PASS1_LINK:
DirDB->DirFlags &= ~DIRDB_LINKNEEDED;
break;
}
}
SaveAndFreeMacro:
SaveMacro(TextLine, pValue);
// Make sure we cleanup from the SplitMacro call at the top.
FreeString(&TextLine, MT_DIRSTRING);
}
void
ReadProjectsInfo(
DIRREC *DirDB,
DIRSUP *pds
)
{
FILE *FileHandle;
LPSTR TextLine, pBackSlash, pszProject;
BOOL Found;
char pszProjectMkPath[DB_MAX_PATH_LENGTH];
char path[DB_MAX_PATH_LENGTH];
// First load project.mk for this project.
strcpy(pszProjectMkPath, DirDB->Name);
strcpy(path, pszProjectMkPath);
strcat(path, "\\project.mk");
Found = !_access(path, 0);
while (!Found && strlen(pszProjectMkPath)) {
pBackSlash=strrchr(pszProjectMkPath, '\\');
if (pBackSlash) {
*pBackSlash = '\0';
} else {
return;
}
strcpy(path, pszProjectMkPath);
strcat(path, "\\project.mk");
Found = !_access(path, 0);
}
if (!Found) {
return;
}
if (!OpenFilePush(pszProjectMkPath, "project.mk", "#", &FileHandle)) {
return;
}
SaveMacro("_PROJECT_MK_PATH", pszProjectMkPath);
while ((TextLine = ReadLine(FileHandle)) != NULL) {
ProcessSourcesFileLine(DirDB, pds, TextLine, -1);
}
CloseReadFile(NULL);
// Load the optional myproject.mk
if (OpenFilePush(pszProjectMkPath, "myproject.mk", "#", &FileHandle)) {
while ((TextLine = ReadLine(FileHandle)) != NULL) {
ProcessSourcesFileLine(DirDB, pds, TextLine, -1);
}
CloseReadFile(NULL);
}
// Then load ntmakeenv\projects.inc to get the other magic macro names.
if (!OpenFilePush(getenv("NTMAKEENV"), "projects.inc", "#", &FileHandle)) {
return;
}
while ((TextLine = ReadLine(FileHandle)) != NULL) {
ProcessSourcesFileLine(DirDB, pds, TextLine, -1);
}
CloseReadFile(NULL);
}
//+---------------------------------------------------------------------------
//
// Function: ReadSourcesFile
//
// Synopsis: Parses the sources files (common and platform specific)
//
// Arguments: [DirDB] -- Directory containing sources file
// [pds] -- Supplementary info on directory
// [pDateTimeSources] -- Timestamp of Sources file
//
// Returns: TRUE if read successfully
//
//----------------------------------------------------------------------------
#define SAVE_STATIC_MACRO(MacroName, InitialValue) \
{ \
static char sz[] = InitialValue; \
SaveMacro(MacroName, sz); \
} \
BOOL
ReadSourcesFile(DIRREC *DirDB, DIRSUP *pds, ULONG *pDateTimeSources)
{
FILE *InFileHandle;
LPSTR p, TextLine;
UINT i;
int iTarget;
ULONG DateTime;
char path[DB_MAX_PATH_LENGTH];
char temp[DB_MAX_PATH_LENGTH];
memset(pds, 0, sizeof(*pds));
pds->fNoTarget=FALSE;
assert(DirDB->TargetPath == NULL);
assert(DirDB->TargetPathLib == NULL);
assert(DirDB->TargetName == NULL);
assert(DirDB->TargetExt == NULL);
assert(DirDB->KernelTest == NULL);
assert(DirDB->UserAppls == NULL);
assert(DirDB->UserTests == NULL);
assert(DirDB->NTTargetFile0 == NULL);
assert(DirDB->Pch == NULL);
assert(DirDB->PchObj == NULL);
assert(cMacro == 0);
*pDateTimeSources = 0;
//
// Read the information in each of the target specific directories
// and simulate concatenation of all of the sources files.
//
// Possible sources files are read from DirDB->Name | target-source
// and DirDb->Name | ..\target-source.
//
// iTarget values, and the corresponding files processed are:
// -1 sources.
// 0 PossibleTargetMachines[0]\sources.
// 1 ..\PossibleTargetMachines[0]\sources.
// 2 PossibleTargetMachines[1]\sources.
// 3 ..\PossibleTargetMachines[1]\sources.
// 4 PossibleTargetMachines[2]\sources.
// 5 ..\PossibleTargetMachines[2]\sources.
SaveMacro("MAKEDIR", DirDB->Name);
SaveMacro("SDK_LIB_DEST", pszSdkLibDest);
SaveMacro("DDK_LIB_DEST", pszDdkLibDest);
SaveMacro("PUBLIC_INTERNAL_PATH", pszPublicInternalPath);
// Use the default architecture for now
SaveMacro("TARGET_DIRECTORY", TargetMachines[0]->SourceDirectory);
SetObjDir(FALSE);
SaveMacro("_OBJ_DIR", pszObjDir);
// Define a default CONDITIONAL_INCLUDES line to deal with the mac hdrs in windows/rpc/ole32.h.
MakeMacroString(&pds->ConditionalIncludes, "winwlm.h rpcmac.h rpcerr.h macapi.h macname1.h macname2.h macocidl.h macpub.h macwin32.h");
// Before processing the sources file, see if there's a projects.mk in the tree.
ReadProjectsInfo(DirDB, pds);
SAVE_STATIC_MACRO("PROJECT_PUBLIC_PATH", "$(PUBLIC_INTERNAL_PATH)\\$(_PROJECT_)");
SAVE_STATIC_MACRO("PROJECT_INC_PATH", "$(PROJECT_PUBLIC_PATH)\\inc");
strcpy(temp,"$(PROJECT_ROOT)\\inc;$(PROJECT_ROOT)\\inc\\$(O);$(PROJECT_INC_PATH)");
MakeMacroString(&pds->NTIncludePath, temp);
for (iTarget = -1; iTarget < 2*MAX_TARGET_MACHINES; iTarget++) {
path[0] = '\0';
if (iTarget >= 0) {
if (iTarget & 1) {
strcat(path, "..\\");
}
strcat(path, PossibleTargetMachines[iTarget/2]->SourceDirectory);
strcat(path, "\\");
}
strcat(path, "sources");
if (!OpenFilePush(DirDB->Name, path, "#", &InFileHandle)) {
if (iTarget == -1) {
FreeMacros();
return (FALSE);
}
continue; // skip non-existent subordinate sources files
}
if (DEBUG_1) {
BuildMsg(
" Scanning%s file %s\r\n",
iTarget >= 0 ? " subordinate" : "",
FormatPathName(DirDB->Name, path));
}
// Update per-target macros.
if (iTarget < 0) {
SaveMacro("TARGET_DIRECTORY",
TargetMachines[0]->SourceDirectory);
SaveMacro("O", TargetMachines[0]->
ObjectDirectory[iObjectDir]);
} else {
SaveMacro("TARGET_DIRECTORY",
PossibleTargetMachines[iTarget/2]->SourceDirectory);
SaveMacro("O", PossibleTargetMachines[iTarget/2]->
ObjectDirectory[iObjectDir]);
}
SAVE_STATIC_MACRO("SDK_LIB_PATH", "$(SDK_LIB_DEST)\\$(TARGET_DIRECTORY)");
SAVE_STATIC_MACRO("PROJECT_LIB_PATH", "$(PROJECT_PUBLIC_PATH)\\lib\\$(TARGET_DIRECTORY)");
DirDB->DirFlags |= DIRDB_SOURCESREAD;
while ((TextLine = ReadLine(InFileHandle)) != NULL) {
ProcessSourcesFileLine(DirDB, pds, TextLine, iTarget);
}
// Subordinate files close themselves at EOF. Timestamps
// are propagated in CloseReadFile so the primary
// file's timestamp is automatically updated.
}
// Close the primary file.
DateTime = CloseReadFile(NULL);
if (*pDateTimeSources < DateTime) {
*pDateTimeSources = DateTime; // keep newest timestamp
}
if (!pds->fNoTarget && (DirDB->TargetPath == NULL)) {
strcpy(path, "sources");
SetupReadFile(DirDB->Name, path, "#", &InFileHandle);
BuildError(
"Unknown TARGETPATH value\r\n",
NULL);
CloseReadFile(NULL);
}
FreeMacros();
if (fChicagoProduct) {
DirDB->DirFlags |= DIRDB_CHICAGO_INCLUDES;
}
//
// Directory has pass0 files in it (.idl, .mc, .asn, etc), check to make
// sure they specified where the generated files should go. Default to the
// obj subdirectories if they didn't. These always need to be non-null.
//
if (!pds->PassZeroHdrDir) {
MakeString(&pds->PassZeroHdrDir, ".", TRUE, MT_DIRSTRING);
}
if (!pds->PassZeroSrcDir1) {
MakeString(&pds->PassZeroSrcDir1, ".", TRUE, MT_DIRSTRING);
}
if (!pds->PassZeroSrcDir2)
MakeString(&pds->PassZeroSrcDir2, pds->PassZeroSrcDir1, TRUE, MT_DIRSTRING);
if (DirDB->UserTests != NULL) {
_strlwr(DirDB->UserTests);
}
if (DirDB->UserAppls != NULL) {
if (DirDB->UserTests != NULL || strchr(DirDB->UserAppls, '*') != NULL) {
DirDB->DirFlags |= DIRDB_FORCELINK; // multiple targets
}
}
PostProcessSources(DirDB, pds);
if (DEBUG_1) {
PrintDirDB(DirDB, 1|2);
PrintDirSupData(pds);
PrintDirDB(DirDB, 4);
}
pds->DateTimeSources = *pDateTimeSources;
return (TRUE);
}
#undef SAVE_STATIC_MACRO
//+---------------------------------------------------------------------------
//
// Function: PostProcessSources
//
// Synopsis: Scan the files in the given directory and add files to the
// directory's list of source files (SOURCEREC), including PCH
// files, UMTEST files, etc.
//
// Arguments: [pdr] -- Directory to process
// [pds] -- Directory supplemental information
//
//----------------------------------------------------------------------------
void
PostProcessSources(DIRREC *pdr, DIRSUP *pds)
{
PFILEREC FileDB, *FileDBNext;
char path[DB_MAX_PATH_LENGTH];
LPSTR p, p1;
UINT i;
for (i = 0; i < MAX_TARGET_MACHINES + 2; i++) {
if (pds->SourcesVariables[i] != NULL) {
CrackSources(pdr, pds, i);
}
}
FileDBNext = &pdr->Files;
while (FileDB = *FileDBNext) {
if (pds->PchInclude && strcmp(FileDB->Name, pds->PchInclude) == 0) {
InsertSourceDB(&pds->psrSourcesList[0], FileDB, 0, SOURCEDB_PCH);
if (DEBUG_1) {
BuildMsg("Adding PCH file to Sources List: %s.\r\n", FileDB->Name);
}
}
if ((FileDB->FileFlags & (FILEDB_SOURCE | FILEDB_OBJECTS_LIST)) ==
FILEDB_SOURCE) {
p = FileDB->Name;
p1 = path;
while (*p != '\0' && *p != '.') {
*p1++ = *p++;
}
*p1 = '\0';
_strlwr(path);
if (pdr->KernelTest != NULL &&
!strcmp(path, pdr->KernelTest)) {
FileDB->FileFlags |= FILEDB_OBJECTS_LIST;
} else
if (pdr->UserAppls != NULL &&
(p = strstr(pdr->UserAppls, path)) &&
(p == pdr->UserAppls || p[-1] == '*' || p[-1] == ' ')) {
FileDB->FileFlags |= FILEDB_OBJECTS_LIST;
} else
if (pdr->UserTests != NULL &&
(p = strstr(pdr->UserTests, path)) &&
(p == pdr->UserTests || p[-1] == '*' || p[-1] == ' ')) {
FileDB->FileFlags |= FILEDB_OBJECTS_LIST;
}
if (FileDB->FileFlags & FILEDB_OBJECTS_LIST) {
InsertSourceDB(&pds->psrSourcesList[0], FileDB, 0, 0);
}
}
FileDBNext = &FileDB->Next;
}
return;
}
//+---------------------------------------------------------------------------
//
// Function: ReadDirsFile
//
// Synopsis: Parse the DIRS file
//
// Arguments: [DirDB] -- Directory to look in
//
// Returns: TRUE if parsed
//
// Notes: The existence of a file named 'mydirs' or the name of the
// target specific dirs will override the normal 'dirs' file.
//
//----------------------------------------------------------------------------
BOOL
ReadDirsFile(
PDIRREC DirDB
)
{
FILE *InFileHandle;
LPSTR TextLine, pValue;
LPSTR apszDirs[] = { "mydirs", NULL, "dirs", NULL};
CHAR TargetName[16];
strcpy(&TargetName[0], pszTargetDirs);
strcat(&TargetName[0], ".");
apszDirs[1] = &TargetName[0];
for (ppCurrentDirsFileName = apszDirs;
*ppCurrentDirsFileName != NULL;
ppCurrentDirsFileName++) {
if (SetupReadFile(DirDB->Name, *ppCurrentDirsFileName, "#", &InFileHandle)) {
break;
}
}
if (*ppCurrentDirsFileName == NULL || !InFileHandle) {
FreeMacros();
return (FALSE);
}
if (fFirstScan && (ppCurrentDirsFileName <= &apszDirs[1])) {
BuildMsg("Using .\\%s instead of DIRS...\r\n",
FormatPathName(DirDB->Name, *ppCurrentDirsFileName));
}
if (DEBUG_1) {
BuildMsg(
" Scanning file %s\r\n",
FormatPathName(DirDB->Name, *ppCurrentDirsFileName));
}
assert(cMacro == 0);
while ((TextLine = ReadLine(InFileHandle)) != NULL) {
if ((pValue = SplitMacro(&TextLine)) != NULL) {
SaveMacro(TextLine, pValue);
FreeString(&TextLine, MT_DIRSTRING);
}
}
CloseReadFile(NULL);
if ((pValue = FindMacro("DIRS")) != NULL) {
MarkDirNames(DirDB, pValue, TRUE);
}
if ((pValue = FindMacro("OPTIONAL_DIRS")) != NULL) {
MarkDirNames(DirDB, pValue, BuildAllOptionalDirs);
}
if ((FindMacro("SYNCHRONIZE_DRAIN")) != NULL) {
if (!fIgnoreSync) {
DirDB->DirFlags |= DIRDB_SYNCHRONIZE_DRAIN;
}
}
FreeMacros();
return ( TRUE );
}
//
// Debugging and Utility Functions
//
VOID
PrintDirSupData(DIRSUP *pds)
{
int i;
if (pds->LocalIncludePath != NULL) {
BuildMsgRaw(" LocalIncludePath: %s\r\n", pds->LocalIncludePath);
}
if (pds->UserIncludePath != NULL) {
BuildMsgRaw(" UserIncludePath: %s\r\n", pds->UserIncludePath);
}
if (pds->LastIncludePath != NULL) {
BuildMsgRaw(" LastIncludePath: %s\r\n", pds->LastIncludePath);
}
if (pds->TestType != NULL) {
BuildMsgRaw(" TestType: %s\r\n", pds->TestType);
}
if (pds->PchIncludeDir != NULL) {
BuildMsgRaw(" PchIncludeDir: %s\r\n", pds->PchIncludeDir);
}
if (pds->PchInclude != NULL) {
BuildMsgRaw(" PchInclude: %s\r\n", pds->PchInclude);
}
if (pds->PchTargetDir != NULL) {
BuildMsgRaw(" PchTargetDir: %s\r\n", pds->PchTargetDir);
}
if (pds->PchTarget != NULL) {
BuildMsgRaw(" PchTarget: %s\r\n", pds->PchTarget);
}
if (pds->ConditionalIncludes != NULL) {
BuildMsgRaw(" ConditionalIncludes: %s\r\n", pds->ConditionalIncludes);
}
for (i = 0; i < MAX_TARGET_MACHINES + 2; i++) {
if (pds->SourcesVariables[i] != NULL) {
BuildMsgRaw(
" SourcesVariables[%d]: %s\r\n",
i,
pds->SourcesVariables[i]);
}
if (pds->psrSourcesList[i] != NULL) {
BuildMsgRaw(" SourcesList[%d]:\r\n", i);
PrintSourceDBList(pds->psrSourcesList[i], i);
}
}
}
VOID
FreeDirSupData(DIRSUP *pds)
{
int i;
if (pds->LocalIncludePath != NULL) {
FreeMem(&pds->LocalIncludePath, MT_DIRSTRING);
}
if (pds->UserIncludePath != NULL) {
FreeMem(&pds->UserIncludePath, MT_DIRSTRING);
}
if (pds->LastIncludePath != NULL) {
FreeMem(&pds->LastIncludePath, MT_DIRSTRING);
}
if (pds->NTIncludePath != NULL) {
FreeMem(&pds->NTIncludePath, MT_DIRSTRING);
}
if (pds->TestType != NULL) {
FreeMem(&pds->TestType, MT_DIRSTRING);
}
if (pds->PchInclude != NULL) {
FreeMem(&pds->PchInclude, MT_DIRSTRING);
}
if (pds->PchIncludeDir != NULL) {
FreeMem(&pds->PchIncludeDir, MT_DIRSTRING);
}
if (pds->PchTargetDir != NULL) {
FreeMem(&pds->PchTargetDir, MT_DIRSTRING);
}
if (pds->PchTarget != NULL) {
FreeMem(&pds->PchTarget, MT_DIRSTRING);
}
if (pds->ConditionalIncludes != NULL) {
FreeMem(&pds->ConditionalIncludes, MT_DIRSTRING);
}
if (pds->PassZeroHdrDir != NULL) {
FreeMem(&pds->PassZeroHdrDir, MT_DIRSTRING);
}
if (pds->PassZeroSrcDir1 != NULL) {
FreeMem(&pds->PassZeroSrcDir1, MT_DIRSTRING);
}
if (pds->PassZeroSrcDir2 != NULL) {
FreeMem(&pds->PassZeroSrcDir2, MT_DIRSTRING);
}
for (i = 0; i < MAX_TARGET_MACHINES + 2; i++) {
if (pds->SourcesVariables[i] != NULL) {
FreeMem(&pds->SourcesVariables[i], MT_DIRSTRING);
}
while (pds->psrSourcesList[i] != NULL) {
FreeSourceDB(&pds->psrSourcesList[i]);
}
}
}
VOID
FreeDirData(DIRREC *pdr)
{
if (pdr->TargetPath != NULL) {
FreeMem(&pdr->TargetPath, MT_DIRSTRING);
}
if (pdr->TargetPathLib != NULL) {
FreeMem(&pdr->TargetPathLib, MT_DIRSTRING);
}
if (pdr->TargetName != NULL) {
FreeMem(&pdr->TargetName, MT_DIRSTRING);
}
if (pdr->TargetExt != NULL) {
FreeMem(&pdr->TargetExt, MT_DIRSTRING);
}
if (pdr->KernelTest != NULL) {
FreeMem(&pdr->KernelTest, MT_DIRSTRING);
}
if (pdr->UserAppls != NULL) {
FreeMem(&pdr->UserAppls, MT_DIRSTRING);
}
if (pdr->UserTests != NULL) {
FreeMem(&pdr->UserTests, MT_DIRSTRING);
}
if (pdr->NTTargetFile0 != NULL) {
FreeMem(&pdr->NTTargetFile0, MT_DIRSTRING);
}
if (pdr->Pch != NULL) {
FreeMem(&pdr->Pch, MT_DIRSTRING);
}
if (pdr->PchObj != NULL) {
FreeMem(&pdr->PchObj, MT_DIRSTRING);
}
if (pdr->pds != NULL) {
FreeDirSupData(pdr->pds);
FreeMem(&pdr->pds, MT_DIRSUP);
pdr->pds = NULL;
}
}
//+---------------------------------------------------------------------------
//
// Function: MarkDirNames
//
// Synopsis: Parses a DIRS= or OPTIONAL_DIRS line and marks the directories
// appropriately.
//
// Arguments: [DirDB] -- Directory containing DIRS file
// [TextLine] -- DIRS= or OPTIONAL_DIRS= line
// [Required] -- Indicates if directories are optional or not.
//
//----------------------------------------------------------------------------
VOID
MarkDirNames(PDIRREC DirDB, LPSTR TextLine, BOOL Required)
{
UINT i;
LPSTR p, token;
PFILEREC FileDB, *FileDBNext;
char dirbuf[DB_MAX_PATH_LENGTH];
ULONG DirInclude;
AssertPathString(TextLine);
while (SplitToken(dirbuf, '*', &TextLine)) {
// Assume all platforms are included for this dir.
DirInclude = DIR_INCLUDE_ALL;
for (p = dirbuf; *p != '\0'; p++) {
if ( dirbuf != p && *p == '{' ) {
// An explicit include path was listed.
DirInclude = DIR_INCLUDE_NONE;
*p = '\0';
token = strtok(p+1, ",}");
while (token) {
if (!_stricmp(token, "X86") ||
!_stricmp(token, "I386") ||
!_stricmp(token, "386")) {
DirInclude |= DIR_INCLUDE_X86;
} else if (!_stricmp(token, "32") ||
!_stricmp(token, "Win32")) {
DirInclude |= DIR_INCLUDE_WIN32;
} else if (!_stricmp(token, "64") ||
!_stricmp(token, "Win64")) {
DirInclude |= DIR_INCLUDE_WIN64;
} else if (!_stricmp(token, "IA64")) {
DirInclude |= DIR_INCLUDE_IA64;
} else if (!_stricmp(token, "AMD64")) {
DirInclude |= DIR_INCLUDE_AMD64;
} else if (!_stricmp(token, "RISC")) {
DirInclude |= DIR_INCLUDE_RISC;
} else if (!_stricmp(token, "ARM")) {
DirInclude |= DIR_INCLUDE_ARM;
}
token = strtok(NULL, ",}");
}
break;
} else {
if (!iscsym(*p) && *p != '.' && *p != '-' ) {
BuildError(
"%s: ignoring bad subdirectory: %s\r\n",
DirDB->Name,
dirbuf);
p = NULL;
break;
}
}
}
if (!(DirInclude & TargetMachines[0]->DirIncludeMask)) {
continue;
}
if (p != NULL) {
if (!Required) {
for (i = 0; i < CountOptionalDirs; i++) {
if (!strcmp(dirbuf, OptionalDirs[i])) {
OptionalDirsUsed[i] = TRUE;
break;
}
}
if (i >= CountOptionalDirs) {
p = NULL;
}
} else {
for (i = 0; i < CountExcludeDirs; i++) {
if (!strcmp(dirbuf, ExcludeDirs[i])) {
ExcludeDirsUsed[i] = TRUE;
p = NULL;
break;
}
}
}
}
if (p != NULL) {
if ((fQuicky || fSemiQuicky) && (!fQuickZero)) {
FileDB = InsertFileDB(
DirDB,
dirbuf,
0,
FILE_ATTRIBUTE_DIRECTORY,
0);
if (FileDB != NULL) {
FileDB->SubDirIndex = ++DirDB->CountSubDirs;
}
} else {
FileDBNext = &DirDB->Files;
while (FileDB = *FileDBNext) {
if (FileDB->FileFlags & FILEDB_DIR) {
if (!strcmp(dirbuf, FileDB->Name)) {
FileDB->SubDirIndex = ++DirDB->CountSubDirs;
break;
}
}
FileDBNext = &FileDB->Next;
}
if (FileDB == NULL) {
BuildError(
"%s found in %s, is not a subdirectory of %s\r\n",
dirbuf,
FormatPathName(DirDB->Name, *ppCurrentDirsFileName),
DirDB->Name);
}
}
}
}
}
VOID
StartElapsedTime(VOID)
{
// we don't want to check for fElapsedTime since if we want XML file, we need it anyway
// and single GetTickCount() call is not a perf hit
if (StartTime == 0) {
StartTime = GetTickCount();
}
}
VOID
StartDirectoryElapsedTime(VOID)
{
DirectoryStartTime = GetTickCount();
}
VOID
PrintElapsedTime(VOID)
{
DWORD ElapsedTime;
DWORD ElapsedHours;
DWORD ElapsedMinutes;
DWORD ElapsedSeconds;
DWORD ElapsedMilliseconds;
CONSOLE_SCREEN_BUFFER_INFO csbi;
GetConsoleScreenBufferInfo(GetStdHandle(STD_ERROR_HANDLE), &csbi);
if (fPrintElapsed) {
ElapsedTime = GetTickCount() - StartTime;
ElapsedHours = ElapsedTime/(1000 * 60 * 60);
ElapsedTime = ElapsedTime % (1000 * 60 * 60);
ElapsedMinutes = ElapsedTime/(1000 * 60);
ElapsedTime = ElapsedTime % (1000 * 60);
ElapsedSeconds = ElapsedTime/1000;
ElapsedMilliseconds = ElapsedTime % 1000;
BuildColorMsg(
COLOR_STATUS,
"Elapsed time [%d:%02d:%02d.%03d]\r\n",
ElapsedHours,
ElapsedMinutes,
ElapsedSeconds,
ElapsedMilliseconds);
LogMsg(
"Elapsed time [%d:%02d:%02d.%03d]%s\r\n",
ElapsedHours,
ElapsedMinutes,
ElapsedSeconds,
ElapsedMilliseconds,
szAsterisks);
}
}
LPSTR
FormatElapsedTime(DWORD dwStartTime)
{
static char FormatElapsedTimeBuffer[16];
DWORD ElapsedTime;
DWORD ElapsedHours;
DWORD ElapsedMinutes;
DWORD ElapsedSeconds;
DWORD ElapsedMilliseconds;
ElapsedTime = GetTickCount() - dwStartTime;
ElapsedHours = ElapsedTime/(1000 * 60 * 60);
ElapsedTime = ElapsedTime % (1000 * 60 * 60);
ElapsedMinutes = ElapsedTime/(1000 * 60);
ElapsedTime = ElapsedTime % (1000 * 60);
ElapsedSeconds = ElapsedTime/1000;
ElapsedMilliseconds = ElapsedTime % 1000;
sprintf(
FormatElapsedTimeBuffer,
"%d:%02d:%02d.%03d",
ElapsedHours,
ElapsedMinutes,
ElapsedSeconds,
ElapsedMilliseconds);
return ( FormatElapsedTimeBuffer );
}
LPSTR
FormatCurrentDateTime()
{
static char FormatCurrentDateTimeBuffer[18];
SYSTEMTIME st;
GetLocalTime(&st);
sprintf(
FormatCurrentDateTimeBuffer,
"%04d%02d%02d%02d%02d%02d%03d",
st.wYear, st.wMonth, st.wDay,
st.wHour, st.wMinute, st.wSecond, st.wMilliseconds);
return ( FormatCurrentDateTimeBuffer );
}