/* This file is part of mhmake.
*
* Copyright (C) 2001-2009 Marc Haesen
*
* Mhmake is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Mhmake is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Mhmake. If not, see .
*/
/* $Rev$ */
#include "stdafx.h"
#include "mhmakefileparser.h"
#include "mhmakeparser.h"
#include "rule.h"
#include "util.h"
/* Calling py2exe is only implemented on windows for now. */
#ifdef WIN32
/* Python exe create script in parts:
import zipfile,tempfile,shutil,os
def UpdateZipFile(SrcZip,DestZip):
NewZip=tempfile.mktemp('.zip')
Src=zipfile.ZipFile(SrcZip)
New=zipfile.ZipFile(NewZip,'w')
InFile={}
for name in Src.namelist():
InFile[name]=1
New.writestr(name,Src.read(name))
Src.close()
try:
Dest=zipfile.ZipFile(DestZip)
for name in Dest.namelist():
if not InFile.has_key(name):
New.writestr(name,Dest.read(name))
Dest.close()
except IOError:
pass
New.close()
shutil.move(NewZip,DestZip)
OutFileName=tempfile.mktemp('.py')
pOut=open(OutFileName,'w')
Script=r''
DirScript=os.path.split(Script)[0]
pOut.write(r'''
from distutils.core import setup
import py2exe
import sys
sys.path.append(r'%s')
setup(zipfile=None, console=[r'%s'])
'''%(DirScript,Script))
pOut.close()
import os
stdin,stdout=os.popen4(r'"" %s py2exe'%OutFileName);
stdout.read()
stdout.close()
stdin.close()
OutDir=os.path.split(Script)[0]
import shutil
def CopyFiles(Src,Dest):
for File in os.listdir(Src):
SrcDir=os.path.join(Src,File)
if File=='library.zip':
UpdateZipFile(os.path.join(Src,File),os.path.join(Dest,File))
elif os.path.isdir(SrcDir):
DestDir=os.path.join(Dest,File)
os.mkdir(DestDir)
CopyFiles(SrcDir,DestDir)
else:
shutil.copy(os.path.join(Src,File),os.path.join(Dest,File))
if os.path.isdir('dist'):
CopyFiles('dist',OutDir)
try:
shutil.rmtree('dist')
except:
pass
try:
shutil.rmtree('build')
except:
pass
os.remove(OutFileName)
*/
static const string PythonScriptPart1=
"import zipfile,tempfile,shutil,os\n"
"\n"
"def UpdateZipFile(SrcZip,DestZip):\n"
" NewZip=tempfile.mktemp('.zip')\n"
"\n"
" Src=zipfile.ZipFile(SrcZip)\n"
"\n"
" New=zipfile.ZipFile(NewZip,'w')\n"
"\n"
" InFile={}\n"
" for name in Src.namelist():\n"
" InFile[name]=1\n"
" New.writestr(name,Src.read(name))\n"
" Src.close()\n"
"\n"
" try:\n"
" Dest=zipfile.ZipFile(DestZip)\n"
"\n"
" for name in Dest.namelist():\n"
" if not InFile.has_key(name):\n"
" New.writestr(name,Dest.read(name))\n"
" Dest.close()\n"
" except IOError:\n"
" pass\n"
" New.close()\n"
"\n"
" shutil.move(NewZip,DestZip)\n"
"\n"
"OutFileName=tempfile.mktemp('.py')\n"
"pOut=open(OutFileName,'w')\n"
"\n"
"Script=r'"
;
static const string PythonScriptPart2=
"'\n"
"DirScript=os.path.split(Script)[0]\n"
"\n"
"pOut.write(r'''\n"
"\n"
"from distutils.core import setup\n"
"import py2exe\n"
"import sys\n"
"sys.path.append(r'%s')\n"
"setup(console=[r'%s'])\n"
"'''%(DirScript,Script))\n"
"\n"
"pOut.close()\n"
"\n"
"import os\n"
"\n"
"stdin,stdout=os.popen4(r'"
;
static const string PythonScriptPart3=
"%s py2exe'%OutFileName);\n"
"stdout.read()\n"
"stdout.close()\n"
"stdin.close()\n"
"\n"
"OutDir=os.path.split(Script)[0]\n"
"\n"
"import shutil\n"
"def CopyFiles(Src,Dest):\n"
" for File in os.listdir(Src):\n"
" SrcDir=os.path.join(Src,File)\n"
" if File=='library.zip':\n"
" UpdateZipFile(os.path.join(Src,File),os.path.join(Dest,File))\n"
" elif os.path.isdir(SrcDir):\n"
" DestDir=os.path.join(Dest,File)\n"
" os.mkdir(DestDir)\n"
" CopyFiles(SrcDir,DestDir)\n"
" else:\n"
" shutil.copy(os.path.join(Src,File),os.path.join(Dest,File))\n"
"\n"
"if os.path.isdir('dist'):\n"
" CopyFiles('dist',OutDir)\n"
"\n"
" try:\n"
" shutil.rmtree('dist')\n"
" except:\n"
" pass\n"
" try:\n"
" shutil.rmtree('build')\n"
" except:\n"
" pass\n"
"os.remove(OutFileName)\n"
;
/*****************************************************************************/
/* Converts a python script to an executable if py2exe is installed */
void mhmakefileparser::CreatePythonExe(const string &FullCommand)
{
/* First create a python script to run */
cout << "Converting "<GetFullFileName().c_str(),Nr);
pFile=fopen(Filename,"r");
if (!pFile)
break;
fclose(pFile);
Nr++;
}
pFile=fopen(Filename,"w");
fprintf(pFile,"%s",PythonScript.c_str());
fclose(pFile);
string GenExeCommand=GetPythonExe();
GenExeCommand+=QuoteFileName(Filename);
string Output;
ExecuteCommand(GenExeCommand,&Output);
remove(Filename);
}
#endif
/*****************************************************************************/
int mhmakefileparser::SearchPath(const char *szCommand, const char *pExt, int Len, char *szFullCommand,char **pFilePart) const
{
static vector< refptr > vSearchPath;
string Command(szCommand);
if (pExt)
Command+=pExt;
vector< refptr >::iterator It;
vector< refptr >::iterator ItEnd;
refptr CommandFile=GetFileInfo(Command,m_MakeDir);
if (CommandFile->Exists())
{
goto found;
}
CommandFile->InvalidateDate(); // It could be created in the makefile later
if (!vSearchPath.size())
{
char *pPath=getenv(PATH);
if (!pPath)
return 0;
char *Path=strdup(pPath); // To be able to use strtok
char *pTok=strtok(Path,OSPATHENVSEPSTR);
while (pTok)
{
vSearchPath.push_back(GetFileInfo(pTok,m_MakeDir));
pTok=strtok(NULL,OSPATHENVSEPSTR);
}
free(Path);
}
It=vSearchPath.begin();
ItEnd=vSearchPath.end();
while (It!=ItEnd)
{
CommandFile=GetFileInfo(Command,*It);
if (CommandFile->Exists())
goto found;
It++;
}
return 0;
found:
string FullCommand=CommandFile->GetFullFileName();
int CommandLen=FullCommand.size();
if (CommandLen>Len-1)
{
throw string("Command to long: ") + FullCommand;
}
strcpy(szFullCommand,FullCommand.c_str());
return 1;
}
/*****************************************************************************/
string mhmakefileparser::SearchCommand(const string &Command, const string &Extension) const
{
char FullCommand[MAX_PATH]="";
unsigned long Size=sizeof(FullCommand);
const char *pExt;
if (Extension.empty())
pExt=NULL;
else
pExt=Extension.c_str();
if (SearchPath(UnquoteFileName(Command).c_str(),pExt,MAX_PATH,FullCommand,NULL))
return FullCommand;
#ifdef WIN32
/* See if we have a path for python.exe in the registry */
HKEY hKey;
string RegEntry=Command;
if (pExt)
{
RegEntry+=Extension;
}
string KeyName=string("SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\App Paths\\")+RegEntry;
if (ERROR_SUCCESS!=RegOpenKey(HKEY_LOCAL_MACHINE,KeyName.c_str(),&hKey))
return FullCommand;
RegQueryValueEx(hKey,NULL,NULL,NULL,(LPBYTE)FullCommand,&Size);
RegCloseKey(hKey);
#endif
return FullCommand;
}
/*****************************************************************************/
/* Deletes a complete directory or files with wildcard. It can be assumed that the Directory passed does exist */
static bool DeleteDir(const string &Dir,const string WildSearch="*",bool bRemoveDir=true)
{
bool Error=false;
string Pattern=Dir+OSPATHSEP+WildSearch;
#ifdef WIN32
WIN32_FIND_DATA FindData;
mh_pid_t hFind=FindFirstFile(Pattern.c_str(),&FindData);
if (hFind==INVALID_HANDLE_VALUE)
{
return Error;
}
do
{
/* Only handle items which are not . and .. */
if (FindData.cFileName[0]!='.' || (FindData.cFileName[1] && (FindData.cFileName[1]!='.' || FindData.cFileName[2])) )
{
string FileName=Dir+OSPATHSEP+FindData.cFileName;
if (FindData.dwFileAttributes&FILE_ATTRIBUTE_DIRECTORY)
{
Error = DeleteDir(FileName);
}
else
{
Error = (-1==remove(FileName.c_str()));
}
}
} while (FindNextFile(hFind,&FindData));
FindClose(hFind);
if (bRemoveDir)
Error = (0==RemoveDirectory(Dir.c_str()));
#else
glob_t Res;
if (glob (Pattern.c_str(), GLOB_ERR|GLOB_NOSORT|GLOB_MARK, NULL, &Res))
return Error;
for (int i=0; i > Files;
// First check if the first parameter is -e meaning don't give an error when file does not exist
if (Params[1]=='-')
{
if (Params[2]=='e')
{
IgnoreError=true;
SplitToItems(Params.substr(4),Files);
}
else
{
cerr << "Invalid option "< >::const_iterator It=Files.begin();
while (It!=Files.end())
{
refptr pFile=*It++;
string DirSearch="*";
bool bRemoveDir=true;
/* Now check if there is a wildcard */
if (pFile->GetFullFileName().find('*')!=string::npos)
{
DirSearch=pFile->GetName();
pFile=pFile->GetDir();
bRemoveDir=false;
}
pFile->InvalidateDate();
if (IgnoreError && !pFile->Exists() && !pFile->IsDir())
{
continue;
}
const string &FileName=pFile->GetFullFileName();
if (pFile->IsDir())
{
if (DeleteDir(FileName,DirSearch,bRemoveDir) && !IgnoreError)
{
cerr << "Error deleting "< pSrc, refptr pDest)
{
if (pDest->IsDir())
{
pDest=GetFileInfo(pSrc->GetName(),pDest);
}
string SrcFileName=pSrc->GetFullFileName();
string DestFileName=pDest->GetFullFileName();
/* Now copy the file */
FILE *pSrcFile=fopen(SrcFileName.c_str(),"rb");
if (!pSrcFile)
{
cerr << "copy: error opening file "< 0)
{
fwrite(Buf,1,Ret,pDestFile);
}
fclose(pSrcFile);
fclose(pDestFile);
pDest->InvalidateDate();
return true;
}
/*****************************************************************************/
/* Copies a complete directory to a destination (currenlty not recursive */
static bool CopyDir(refptr pDir,refptr pDest,const string WildSearch="*")
{
bool Error=true;
string Pattern=pDir->GetFullFileName()+OSPATHSEP+WildSearch;
#ifdef WIN32
WIN32_FIND_DATA FindData;
mh_pid_t hFind=FindFirstFile(Pattern.c_str(),&FindData);
if (hFind==INVALID_HANDLE_VALUE)
{
return false;
}
do
{
/* Only handle items which are not . and .. */
if (FindData.cFileName[0]!='.' || (FindData.cFileName[1] && (FindData.cFileName[1]!='.' || FindData.cFileName[2])) )
{
if (FindData.dwFileAttributes&FILE_ATTRIBUTE_HIDDEN)
continue;
refptr pSrc=GetFileInfo(FindData.cFileName,pDir);
if (pSrc->IsDir())
{
refptr pNewDest=GetFileInfo(FindData.cFileName,pDest);
if (!pNewDest->IsDir())
{
if (pNewDest->Exists())
{
cerr << pNewDest->GetFullFileName() << " exists and is not a directory.\n";
Error = false;
goto exit;
}
if (!CreateDirectory(pNewDest->GetFullFileName().c_str(),NULL))
{
cerr << "Error creating directory " << pNewDest->GetFullFileName() << endl;
Error = false;
goto exit;
}
pNewDest->InvalidateDate();
}
Error = CopyDir(pSrc,pNewDest);
if (!Error) goto exit;
}
else
{
Error = CopyFile(pSrc,pDest);
if (!Error) goto exit;
}
}
} while (FindNextFile(hFind,&FindData));
exit:
FindClose(hFind);
#else
glob_t Res;
if (glob (Pattern.c_str(), GLOB_ERR|GLOB_NOSORT|GLOB_MARK, NULL, &Res))
return Error;
for (int i=0; i pSrc=GetFileInfo(Res.gl_pathv[i],pDir);
if (pSrc->IsDir())
{
*(strrchr(Res.gl_pathv[i],'/'))='\0';
const char *SrcDirName=strrchr(Res.gl_pathv[i],'/')+1;
if (SrcDirName[0]=='.')
continue;
refptr pNewDest=GetFileInfo(SrcDirName,pDest);
if (!pNewDest->IsDir())
{
if (pNewDest->Exists())
{
cerr << pNewDest->GetQuotedFullFileName() << " exists and is not a directory.\n";
Error = false;
goto exit;
}
if (-1==mkdir(pNewDest->GetFullFileName().c_str(),0777))
{
cerr << "Error creating directory " << pNewDest->GetQuotedFullFileName() << endl;
Error = false;
goto exit;
}
pNewDest->InvalidateDate();
}
Error = CopyDir(pSrc,pNewDest);
if (!Error) goto exit;
}
else
{
Error = CopyFile(GetFileInfo(Res.gl_pathv[i],pDir),pDest);
if (!Error) goto exit;
}
}
exit:
globfree(&Res);
#endif
return Error;
}
/*****************************************************************************/
mh_pid_t mhmakefileparser::EchoCommand(const string &Params) const
{
// Find the first > character
size_t Pos=Params.find_first_of('>');
if (Pos==string::npos)
{
// Just echo it
cout << Params << endl;
}
else
{
FILE *pfFile;
/* Extra the filename */
string Filename;
if (Params[Pos+1]=='>')
{
NextItem(Params.substr(Pos+2).c_str(),Filename);
refptr pFile=GetFileInfo(Filename,m_MakeDir);
// Open file in append
pfFile=fopen(pFile->GetFullFileName().c_str(),"a");
}
else
{
NextItem(Params.substr(Pos+1).c_str(),Filename);
refptr pFile=GetFileInfo(Filename,m_MakeDir);
pfFile=fopen(pFile->GetFullFileName().c_str(),"w");
}
if (!pfFile)
{
cerr << "Error opening file "< > Files;
SplitToItems(Params,Files);
size_t NrSrcs=Files.size()-1;
if (NrSrcs<1)
{
cerr << "Wrong number of arguments in copy: "< pDest=Files[NrSrcs];
if (NrSrcs>1 && !pDest->IsDir())
{
cerr << "copy: Destination must be a directory when more then one source : "< pSrc=Files[i];
string SrcFileName=pSrc->GetFullFileName();
if (pSrc->IsDir())
{
SrcFileName+=OSPATHSEPSTR"*";
pSrc=GetFileInfo(SrcFileName,m_MakeDir);
}
//cerr << "copy "<GetFullFileName()<<" "<GetFullFileName()<GetDir(), pDest, pSrc->GetName()))
{
cerr << "copy: Error copying directory: " << Params << endl;
return (mh_pid_t)-1;
}
}
else
{
if (!CopyFile(pSrc,pDest))
{
cerr << "copy: Error copying file: " << Params << endl;
return (mh_pid_t)-1;
}
}
}
return (mh_pid_t)0;
}
/*****************************************************************************/
mh_pid_t mhmakefileparser::TouchFiles(const string &Params) const
{
vector< refptr > Files;
SplitToItems(Params,Files);
vector< refptr >::const_iterator It=Files.begin();
while (It!=Files.end())
{
refptr pFile=*It++;
const string &FileName=pFile->GetFullFileName();
/* Since this can be part of a list of commands for a certain rule, and it is possible that the file
* was generated by one on the previous commands, we first need the invalidate the date so that the
* existance checking is done again */
pFile->InvalidateDate();
if (pFile->IsDir())
{
cerr << "touch: Cannot touch a directory: " << FileName << endl;
return (mh_pid_t)-1;
}
if (pFile->Exists())
{
int fd;
char c;
int status = 0;
struct stat st;
int Ret;
int saved_errno = 0;
fd = open (FileName.c_str(), O_RDWR);
if (fd<0)
{
st.st_size=0;
}
else
{
if (fstat (fd, &st) < 0)
{
cerr << "touch: Cannot stat file " << FileName << endl;
return (mh_pid_t)-1;
}
}
if (st.st_size == 0)
{
FILE *pFile;
if (fd>=0 && close(fd) < 0)
{
cerr << "touch: Error closing file " << FileName << endl;
return (mh_pid_t)-1;
}
/*Re-Create an empty file */
pFile=fopen(FileName.c_str(),"wb");
if (!pFile)
{
cerr << "touch: Cannot create file: " << FileName << endl;
return (mh_pid_t)-1;
}
fclose(pFile);
}
else
{
Ret=read (fd, &c, sizeof(c));
if (Ret!=sizeof(c) && Ret!=EOF)
{
cerr << "touch: Cannot read file " << FileName << ": "<InvalidateDate();
}
return (mh_pid_t)0;
}
/*****************************************************************************/
const string &mhmakefileparser::GetPythonExe() const
{
static string PythonExe;
if (PythonExe.empty())
{
string FullCommand=SearchCommand(PYTHONEXE);
if (!FullCommand.empty())
{
PythonExe=QuoteFileName(FullCommand)+" ";
}
else
{
cerr<<"python executable not found in path and registry.\n";
exit(1);
}
}
return PythonExe;
}
/*****************************************************************************/
static const string &GetComspec()
{
static string Comspec;
if (Comspec.empty())
{
const char *pComspec=getenv(COMSPEC);
if (pComspec)
{
Comspec=getenv(COMSPEC);
#ifdef WIN32
Comspec+=" /c ";
#else
Comspec+=" -c \"";
#endif
}
else
{
#ifdef WIN32
Comspec="cmd.exe /c ";
#else
Comspec="sh -c \"";
#endif
}
}
return Comspec;
}
/*****************************************************************************/
string mhmakefileparser::GetFullCommand(string Command)
{
map::iterator pFound=m_CommandCache.find(Command);
string OriCommand=Command;
if (pFound==m_CommandCache.end())
{
bool Found=false;
// Not found in the stack, search in the environment path
// Check if an extension is specified
const char *pBeg=Command.c_str();
const char *pEnd=pBeg+Command.length()-1;
bool HasExt=false;
while (pEnd>pBeg && *pEnd!=OSPATHSEP)
{
if (*pEnd=='.')
{
HasExt=true;
break;
}
pEnd--;
}
if (HasExt)
{
string FullCommand=SearchCommand(Command);
if (!FullCommand.empty())
{
Found=true;
Command=FullCommand;
}
}
else
{
static bool s_Py2ExeInstalled=true;
/* First check for special internal commands */
if (OriCommand=="del")
{
m_CommandCache[OriCommand]="del";
return Command;
}
// Try with different extensions
string FullCommand=SearchCommand(Command,EXEEXT);
if (!FullCommand.empty())
{
Found=true;
#ifdef WIN32
/* Check if a python script also exists, is so try generating the executable again. */
string PythonFullCommand=SearchCommand(Command,".py");
Command=FullCommand;
if (!PythonFullCommand.empty()&&s_Py2ExeInstalled)
{
refptr pExeFile=GetFileInfo(FullCommand,m_MakeDir);
refptr pPyFile=GetFileInfo(PythonFullCommand,m_MakeDir);
bool bBuild=false;
if (pExeFile->GetDate().IsOlder(pPyFile->GetDate()))
{
bBuild=true;
}
if (!bBuild)
{
set< refptr > Autodeps;
GetAutoDeps(pPyFile, Autodeps);
set< refptr >::iterator It=Autodeps.begin();
while (It!=Autodeps.end())
{
if (pExeFile->GetDate().IsOlder((*It)->GetDate()))
{
bBuild=true;
break;
}
It++;
}
}
if (bBuild)
{
if (pExeFile->Exists())
remove(pExeFile->GetFullFileName().c_str());
CreatePythonExe(PythonFullCommand);
// Invalidate the exe date since it could have been recreated by the CreatePythonExe
pExeFile->InvalidateDate();
}
}
#else
Command=FullCommand;
#endif
}
else
{
FullCommand=SearchCommand(Command,".py");
if (!FullCommand.empty())
{
Found=true;
#ifdef WIN32
/* Now first try to create an executable for it */
if (s_Py2ExeInstalled)
{
refptr pExeFile;
CreatePythonExe(FullCommand);
string ExeFullCommand=SearchCommand(Command,EXEEXT);
if (!ExeFullCommand.empty())
{
pExeFile=GetFileInfo(ExeFullCommand,m_MakeDir);
pExeFile->InvalidateDate(); // The file was just generated, make sure the correct date is taken.
}
if (ExeFullCommand.empty() || !pExeFile->Exists())
{
s_Py2ExeInstalled=false;
cout << "\nWarning: cannot convert "<second;
}
mh_pid_t mhmakefileparser::OsExeCommand(const string &Command, const string &Params, bool IgnoreError, string *pOutput) const
{
string FullCommandLine;
string ComSpec=GetComspec();
#ifdef WIN32
STARTUPINFO StartupInfo;
memset(&StartupInfo,0,sizeof(StartupInfo));
StartupInfo.cb=sizeof(STARTUPINFO);
PROCESS_INFORMATION ProcessInfo;
if (Command.substr(0,ComSpec.size())==ComSpec)
{
string tmpCommand=Command.substr(ComSpec.size(),Command.size());
FullCommandLine=ComSpec;
FullCommandLine+=g_QuoteString+QuoteFileName(tmpCommand)+Params+g_QuoteString;
}
else
{
const string PythonExe=GetPythonExe();
if (!(Command.substr(0,PythonExe.size())==PythonExe))
FullCommandLine=QuoteFileName(Command)+Params;
else
FullCommandLine=Command+Params;
}
char *pFullCommand=new char[FullCommandLine.length()+1];
strcpy(pFullCommand,FullCommandLine.c_str());
if (pOutput || g_Quiet)
{
mh_pid_t hChildStdinRd;
mh_pid_t hChildStdinWr;
mh_pid_t hChildStdoutRd;
mh_pid_t hChildStdoutWr;
mh_pid_t hChildStdinWrDup;
mh_pid_t hChildStdoutRdDup;
SECURITY_ATTRIBUTES saAttr;
BOOL fSuccess;
saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
saAttr.bInheritHandle = TRUE;
saAttr.lpSecurityDescriptor = NULL;
if (!CreatePipe(&hChildStdinRd, &hChildStdinWr, &saAttr, 0))
return (mh_pid_t)-1;
/* Create new output read handle and the input write handle. Set
* the inheritance properties to FALSE. Otherwise, the child inherits
* the these handles; resulting in non-closeable handles to the pipes
* being created. */
fSuccess = DuplicateHandle(GetCurrentProcess(), hChildStdinWr,
GetCurrentProcess(), &hChildStdinWrDup, 0,
FALSE, DUPLICATE_SAME_ACCESS);
if (!fSuccess) return (mh_pid_t)-1;
/* Close the inheritable version of ChildStdin that we're using. */
CloseHandle(hChildStdinWr);
if (!CreatePipe(&hChildStdoutRd, &hChildStdoutWr, &saAttr, 0))
return (mh_pid_t)-1;
fSuccess = DuplicateHandle(GetCurrentProcess(), hChildStdoutRd,
GetCurrentProcess(), &hChildStdoutRdDup, 0,
FALSE, DUPLICATE_SAME_ACCESS);
if (!fSuccess) return (mh_pid_t)-1;
CloseHandle(hChildStdoutRd);
int hStdIn = _open_osfhandle((long)hChildStdinWrDup, _O_WRONLY|_O_TEXT);
FILE *pStdIn = _fdopen(hStdIn, "w");
int hStdOut = _open_osfhandle((long)hChildStdoutRdDup, _O_RDONLY|_O_TEXT);
FILE *pStdOut = _fdopen(hStdOut, "r");
StartupInfo.dwFlags = STARTF_USESTDHANDLES;
StartupInfo.hStdInput = hChildStdinRd;
StartupInfo.hStdOutput = hChildStdoutWr;
StartupInfo.hStdError = hChildStdoutWr;
if (!CreateProcess(NULL,pFullCommand,NULL,NULL,TRUE,CREATE_NO_WINDOW,m_pEnv,m_MakeDir->GetFullFileName().c_str(),&StartupInfo,&ProcessInfo))
{
delete[] pFullCommand;
string ErrorMessage=string("Error starting command: ") + FullCommandLine + " : " + stringify(GetLastError());
if (IgnoreError)
cerr << ErrorMessage << endl;
else
throw ErrorMessage;
}
delete[] pFullCommand;
if (!CloseHandle(hChildStdinRd)) return (mh_pid_t)-1;
if (!CloseHandle(hChildStdoutWr)) return (mh_pid_t)-1;
CloseHandle(ProcessInfo.hThread);
char Buf[256];
size_t Nbr;
while ( (Nbr=fread(Buf,1,sizeof(Buf)-1,pStdOut)) > 0)
{
if (pOutput)
{
Buf[Nbr]=0;
*pOutput+=Buf;
}
}
WaitForSingleObject(ProcessInfo.hProcess,INFINITE);
fclose(pStdIn);
fclose(pStdOut);
DWORD ExitCode=0;
if (!GetExitCodeProcess(ProcessInfo.hProcess,&ExitCode) || ExitCode)
{
if (IgnoreError)
{
cerr << "Error running command: "<GetFullFileName().c_str(),&StartupInfo,&ProcessInfo))
{
delete[] pFullCommand;
string ErrorMessage=string("Error starting command: ") + Command + " : " + stringify(GetLastError());
if (IgnoreError)
cerr << ErrorMessage << endl;
else
throw ErrorMessage;
}
delete[] pFullCommand;
CloseHandle(ProcessInfo.hThread);
return ProcessInfo.hProcess;
}
#else
if (Command.substr(0,ComSpec.size())==ComSpec)
{
string tmpCommand=Command.substr(ComSpec.size(),Command.size());
FullCommandLine=ComSpec;
FullCommandLine+=QuoteFileName(tmpCommand)+Params;
}
else
{
FullCommandLine=Command+Params;
}
if (pOutput || g_Quiet)
{
int pipeto[2]; /* pipe to feed the exec'ed program input */
int pipefrom[2]; /* pipe to get the exec'ed program output */
pipe( pipeto );
pipe( pipefrom );
pid_t ID=vfork();
if (ID==-1)
{
if (IgnoreError)
{
cerr << "Error forking when try to run command: "<GetFullFileName().c_str());
if (m_pEnv)
execve(pargv[0],(char *const*)pargv,m_pEnv);
else
execv(pargv[0],(char *const*)pargv);
free(pargv);
_exit (EXIT_FAILURE);
}
else
{
/* Close unused pipe ends. This is especially important for the
* pipefrom[1] write descriptor, otherwise readFromPipe will never
* get an EOF. */
close( pipeto[0] );
close( pipefrom[1] );
pid_t ID2=vfork();
if (ID2==-1)
{
if (IgnoreError)
{
cerr << "Error forking when try to run command: "< 0)
{
if (pOutput)
{
Buf[Nbr]=0;
*pOutput+=Buf;
}
}
close( pipefrom[0]);
_exit (EXIT_FAILURE);
}
else
{
/* close unused pipe end */
close( pipefrom[0] );
close( pipeto[1] );
int Status;
waitpid(ID2,&Status,0); // Wait until the reading of the output is finished
}
int Status;
int Ret=waitpid(ID,&Status,0);
if (Ret!=ID || Status)
{
if (IgnoreError)
{
cerr << "Error running command: "<GetFullFileName().c_str());
if (m_pEnv)
execve(pargv[0],(char *const*)pargv,m_pEnv);
else
execv(pargv[0],(char *const*)pargv);
free(pargv);
_exit (EXIT_FAILURE);
}
else
{
return (mh_pid_t)ID;
}
}
return (mh_pid_t)0;
#endif
}
///////////////////////////////////////////////////////////////////////////////
#ifndef WIN32
string EscapeQuotes(const string &Params)
{
int OldPos=0;
int Pos;
string Quote("\\\"");
string SemiColon(" ; ");
string Ret;
while (1)
{
int Pos=Params.find_first_of('"',OldPos);
int Pos2=Params.find(" & ",OldPos);
string ToReplace(Quote);
int Inc=1;
if (Pos==string::npos)
{
if (Pos2==string::npos)
break;
Pos=Pos2;
ToReplace=SemiColon;
Inc=3;
}
else
{
if (Pos2!=string::npos && Pos2|&",Params[i]))
{
break;
}
}
if (i==Params.size())
{
if (Command!="del" && Command!="touch" && Command!="copy" && Command!="echo")
Command=GetFullCommand(Command);
#ifndef WIN32
if (Command.substr(0,GetComspec().size())==GetComspec())
{
Params=EscapeQuotes(Params);
Params+="\"";
}
#endif
}
else
{
if (Command!="echo")
{
string FullCommand=GetFullCommand(Command);
string ComSpec=GetComspec();
if (FullCommand.substr(0,ComSpec.size())!=ComSpec)
Command=FullCommand; // Only use FullCommand when it was found and not prepending by the comspec.
Command=ComSpec+Command;
#ifndef WIN32
Params=EscapeQuotes(Params);
Params+="\"";
#endif
}
}
if (Echo
#ifdef _DEBUG
|| g_DoNotExecute
#endif
)
{
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
cout << Command << Params << endl;
else
cout << InCommand << endl;
#endif
}
/* first we check special internal commands */
#ifdef _DEBUG
if (pOutput || !g_DoNotExecute)
{
#endif
if (Command=="del")
{
return DeleteFiles(Params);
}
else if (Command=="touch")
{
return TouchFiles(Params);
}
else if (Command=="copy")
{
return CopyFiles(Params);
}
else if (Command=="echo")
{
return EchoCommand(Params);
}
return OsExeCommand(Command,Params,IgnoreError,pOutput);
#ifdef _DEBUG
}
#endif
return (mh_pid_t)0; /* No Error */
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::BuildDependencies(const refptr &pRule, const refptr &Target, mh_time_t TargetDate, mh_time_t &YoungestDate, bool &MakeTarget)
{
vector< refptr > &Deps=Target->GetDeps();
vector< refptr >::iterator pDepIt=Deps.begin();
while (pDepIt!=Deps.end())
{
StartBuildTarget(*pDepIt);
pDepIt++;
}
pDepIt=Deps.begin();
while (pDepIt!=Deps.end())
{
mh_time_t DepDate=WaitBuildTarget(*pDepIt);
if (DepDate.IsNewer(YoungestDate))
YoungestDate=DepDate;
if (DepDate.IsNewer(TargetDate))
{
#ifdef _DEBUG
if (pRule&&g_pPrintDependencyCheck && DepDate.IsExistingFile() && TargetDate.IsExistingFile())
cout<<"Going to build "<GetQuotedFullFileName()<<" because "<<(*pDepIt)->GetQuotedFullFileName()<<" is more recent\n";
#endif
MakeTarget=true;
}
pDepIt++;
}
}
///////////////////////////////////////////////////////////////////////////////
mh_time_t mhmakefileparser::StartBuildTarget(const refptr &Target,bool bCheckTargetDir)
{
#ifdef _DEBUG
if (g_CheckCircularDeps)
{
deque< refptr >::const_iterator pFind=find(m_TargetStack.begin(),m_TargetStack.end(),Target);
if (pFind!=m_TargetStack.end())
{
cout << "Circular dependency detected.\n"<GetQuotedFullFileName()<<" depending on itself.\n";
cout << "Dependency stack:\n";
deque< refptr >::const_iterator pIt=m_TargetStack.begin();
while (pIt!=m_TargetStack.end())
{
cout << " " << (*pIt)->GetQuotedFullFileName() << endl;
pIt++;
}
}
if (!Target->IsBuildStarted()) m_TargetStack.push_back(Target);
}
#endif
#ifdef _DEBUG
static int Indent;
#endif
if (g_StopCompiling)
{
throw string("Compilation Interrupted by user.");
}
if (Target->IsBuild())
{
#ifdef _DEBUG
if (g_pPrintDependencyCheck)
{
for (int i=0; iGetQuotedFullFileName()<<" : "<GetDate()<GetDate();
}
if (Target->IsBuilding())
return mh_time_t(); // Target is still building, so we have to wait
#ifdef _DEBUG
if (g_GenProjectTree)
cout << Target->GetQuotedFullFileName() << endl;
Indent++;
if (g_pPrintDependencyCheck)
{
for (int i=0; iGetQuotedFullFileName()<SetBuild();
/* Optimisation: do not build target when target dir does not exist,
but first build the target dir, in case there exists a rule for it*/
refptr pRule=Target->GetRule();
if (!pRule && bCheckTargetDir)
{
refptr TargetDir=Target->GetDir();
mh_time_t TargetDirDate=BuildTarget(TargetDir,false);
if (!TargetDir->Exists())
{
#ifdef _DEBUG
Indent--;
if (g_CheckCircularDeps)
{
m_TargetStack.pop_back();
}
#endif
return TargetDirDate;
}
}
mh_time_t TargetDate=Target->GetDate();
bool MakeTarget=false;
mh_time_t YoungestDate=TargetDate;
if (!pRule || !pRule->GetCommands().size())
{
vector< pair,refptr > > Result;
IMPLICITRULE::SearchImplicitRule(Target,Result);
vector< pair,refptr > >::iterator ResultIt=Result.begin();
while (ResultIt!=Result.end())
{
if (ResultIt->first==NullFileInfo)
{
pRule=ResultIt->second;
Target->SetRule(pRule);
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
{
cout<<"Found implicit rule for "<GetQuotedFullFileName()<PrintCommands(Target);
}
#endif
break;
}
else
{
#ifdef _DEBUG
m_ImplicitSearch++;
#endif
mh_time_t DepDate=BuildTarget(ResultIt->first);
#ifdef _DEBUG
m_ImplicitSearch--;
#endif
if (DepDate.DoesExist()) {
if (DepDate.IsNewer(YoungestDate))
YoungestDate=DepDate;
pRule=ResultIt->second;
Target->AddMainDep(ResultIt->first);
Target->SetRule(pRule); /* This is an implicit rule so do not add the target */
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
{
cout<<"Found implicit rule for "<GetQuotedFullFileName()<<". Dependent "<first->GetQuotedFullFileName()<PrintCommands(Target);
}
#endif
if (DepDate.IsNewer(TargetDate))
{
#ifdef _DEBUG
if (pRule,g_pPrintDependencyCheck && DepDate.IsExistingFile() && TargetDate.IsExistingFile())
cout<<"Going to build "<GetQuotedFullFileName()<<" because "<first->GetQuotedFullFileName()<<" is more recent\n";
#endif
MakeTarget=true;
}
break;
}
}
ResultIt++;
}
if (pRule)
{
#ifdef _DEBUG
Target->SetBuilding();
Target->SetRule(pRule);
Target->ClearBuilding();
#else
Target->SetRule(pRule);
#endif
}
}
mhmakeparser *pMakefile=NULL;
if (pRule)
{
pMakefile=pRule->GetMakefile();
if (pMakefile->ForceAutoDepRescan()||MakeTarget==true)
pMakefile->UpdateAutomaticDependencies(Target);
}
else if (Target->GetAutoDepsMakefile())
Target->GetAutoDepsMakefile()->UpdateNoRuleAutomaticDependencies(Target);
BuildDependencies(pRule,Target,TargetDate,YoungestDate,MakeTarget);
if (pRule)
{
#ifdef _DEBUG
if (g_pPrintDependencyCheck)
{
for (int i=0; iGetQuotedFullFileName()<m_RebuildAll) && TargetDate.IsOlder(m_sBuildTime)))
{
#ifdef _DEBUG
if (g_pPrintDependencyCheck)
{
if (!TargetDate.DoesExist())
{
if (!m_ImplicitSearch && !Target->IsPhony())
cout<<"Building "<GetQuotedFullFileName()<<" because it does not exist yet\n";
}
else if (TargetDate.IsOlder(m_sBuildTime))
{
cout<<"Building "<GetQuotedFullFileName()<<" because need to rebuild all (-a)\n";
}
}
#endif
MakeTarget=true;
}
}
// Now execute the commands
vector &Commands=pRule->GetCommands();
if (!MakeTarget)
{
vector::iterator CommandIt=Commands.begin();
md5_context ctx;
md5_starts( &ctx );
while (CommandIt!=Commands.end())
{
pMakefile->SetRuleThatIsBuild(Target); // Make sure that the command expension is correct
string Command=pMakefile->ExpandExpression(*CommandIt);
pMakefile->ClearRuleThatIsBuild(); /* Make sure that further expansion is not taking this rule into account.*/
md5_update( &ctx, (uint8 *)Command.c_str(), (unsigned long)Command.size());
CommandIt++;
}
uint32 Md5_32=md5_finish32( &ctx);
if (!Target->CompareMd5_32(Md5_32))
{
if (TargetDate.IsNewerOrSame(m_sBuildTime) || TargetDate.IsDir())
{
// Only rebuild if it is not yet rebuild in this current run. This may happen for implicit rules that have multiple targets (implicit rules that build more then one target at the same time
Target->SetCommandsMd5_32(Md5_32);
pMakefile->AddTarget(Target);
pMakefile->SetAutoDepsDirty(); /* We need to update the autodeps file if the md5 has been changed */
}
else
{
#ifdef _DEBUG
if (!g_GenProjectTree)
cout << "Md5 is different for " << Target->GetQuotedFullFileName() << " Old:"<GetCommandsMd5_32()<<", New: "<SetDate(YoungestDate);
if (sm_CommandQueue.QueueTarget(Target))
return mh_time_t();
mh_time_t NewDate=Target->GetDate();
if (NewDate.IsNewer(YoungestDate))
YoungestDate=NewDate;
}
}
#ifdef _DEBUG
if (g_pPrintDependencyCheck)
{
for (int i=0; iGetQuotedFullFileName()<<" finished : "<< YoungestDate << endl;
}
Indent--;
if (g_CheckCircularDeps)
{
m_TargetStack.pop_back();
}
if (!m_ImplicitSearch && !Target->Exists() && !Target->IsPhony() && !g_DoNotExecute && !g_GenProjectTree)
{
// This is only a warning for phony messages
cout<<"Warning: don't know how to make "<GetQuotedFullFileName()<<"\nMake the rule a phony rule to avoid this warning (but only do it when it is really phony).\n";;
}
#endif
Target->SetDate(YoungestDate); /* This is especially needed for phony targets in between real targets */
return YoungestDate;
}
///////////////////////////////////////////////////////////////////////////////
mh_time_t mhmakefileparser::WaitBuildTarget(const refptr &Target)
{
return sm_CommandQueue.WaitForTarget(Target);
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::BuildIncludedMakefiles()
{
vector< refptr >::iterator MakefileIt=m_IncludedMakefiles.begin();
while (MakefileIt!=m_IncludedMakefiles.end())
{
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
cout<<"Building include file "<<(*MakefileIt)->GetQuotedFullFileName()<