#include "cmPrefix.h" #include "cmGlobal.h" #include "cmRpt.h" #include "cmErr.h" #include "cmCtx.h" #include "cmMem.h" #include "cmMallocDebug.h" #include "cmLinkedHeap.h" #include "cmFileSys.h" #include #include #include // basename(), dirname() #include // opendir()/readdir() #include // PATH_MAX #include // mkdir #ifdef OS_OSX #include "osx/cmFileSysOsx.h" #endif #ifdef OS_LINUX #include "linux/cmFileSysLinux.h" #endif cmFileSysH_t cmFileSysNullHandle = {NULL}; typedef struct { cmErr_t err; cmLHeapH_t heapH; const cmChar_t* appNameStr; #ifdef OS_OSX _cmFsOsx_t* p; #endif #ifdef OS_LINUX _cmFsLinux_t* p; #endif } cmFs_t; cmFsRC_t _cmFileSysError( cmFs_t* p, cmFsRC_t rc, int sysErr, const cmChar_t* fmt, ... ) { va_list vl; va_start(vl,fmt); if( sysErr == 0 ) rc = cmErrVMsg(&p->err,rc,fmt,vl); else { const unsigned bufCharCnt = 511; cmChar_t buf[bufCharCnt+1]; vsnprintf(buf,bufCharCnt,fmt,vl); rc = cmErrMsg(&p->err,rc,"%s\nSystem Msg:%s",buf,strerror(sysErr)); } va_end(vl); return rc; } cmFs_t* _cmFileSysHandleToPtr( cmFileSysH_t h ) { cmFs_t* p = (cmFs_t*)h.h; assert( p != NULL); return p; } cmFsRC_t _cmFileSysFinalize( cmFs_t* p ) { cmFsRC_t rc = kOkFsRC; if( cmLHeapIsValid(p->heapH) ) cmLHeapDestroy(&p->heapH); #ifdef OS_OSX if( p->p != NULL ) if((rc = _cmOsxFileSysFinalize(p->p) ) != kOkFsRC ) { _cmFileSysError(p,kOsxFailFsRC,0,"The OSX file system finalization failed."); return rc; } #endif #ifdef OS_LINUX if( p->p != NULL ) if((rc = _cmLinuxFileSysFinalize(p->p) ) != kOkFsRC ) { _cmFileSysError(p,kLinuxFailFsRC,0,"The Linux file system finalization failed."); return rc; } #endif cmMemPtrFree(&p); return rc; } cmFsRC_t cmFileSysInitialize( cmFileSysH_t* hp, cmCtx_t* ctx, const cmChar_t* appNameStr ) { cmFs_t* p; cmFsRC_t rc; cmErr_t err; if((rc = cmFileSysFinalize(hp)) != kOkFsRC ) return rc; cmErrSetup(&err,&ctx->rpt,"File System"); if((p = cmMemAllocZ( cmFs_t, 1 )) == NULL ) return cmErrMsg(&err,kMemAllocErrFsRC,"Unable to allocate the file system object."); cmErrClone(&p->err,&err); if(cmLHeapIsValid( p->heapH = cmLHeapCreate(1024,ctx)) == false ) { rc = _cmFileSysError(p,kLHeapAllocErrFsRC,0,"Unable to allocate the linked heap."); goto errLabel; } #ifdef OS_OSX if( (rc = _cmOsxFileSysInit(&p->p, p->heapH, &p->err)) != kOkFsRC ) { rc = _cmFileSysError(p,kOsxFailFsRC,0,"OSX file system initialization failed."); goto errLabel; } #endif #ifdef OS_LINUX if( (rc = _cmLinuxFileSysInit(&p->p, p->heapH, &p->err)) != kOkFsRC ) { rc = _cmFileSysError(p,kLinuxFailFsRC,0,"Linux file system initialization failed."); goto errLabel; } else { #endif p->appNameStr = cmLhAllocStr(p->heapH,appNameStr); hp->h = p; #ifdef OS_LINUX cmChar_t hidAppNameStr[ strlen(appNameStr) + 2 ]; strcpy(hidAppNameStr,"."); strcat(hidAppNameStr,appNameStr); p->p->prefDir = cmFileSysMakeFn( *hp, p->p->prefDir, hidAppNameStr, NULL, NULL ); // the resource directory must exist before the program can start p->p->rsrcDir = cmFileSysMakeFn( *hp, p->p->rsrcDir, appNameStr, NULL, NULL ); } #endif errLabel: if( rc != kOkFsRC ) return _cmFileSysFinalize(p); return kOkFsRC; } cmFsRC_t cmFileSysFinalize( cmFileSysH_t* hp ) { cmFsRC_t rc; if( hp==NULL || cmFileSysIsValid(*hp) == false ) return kOkFsRC; cmFs_t* p = _cmFileSysHandleToPtr(*hp); if((rc = _cmFileSysFinalize(p)) != kOkFsRC ) return rc; hp->h = NULL; return rc; } const cmChar_t* cmFileSysAppName( cmFileSysH_t h ) { cmFs_t* p = _cmFileSysHandleToPtr(h); return p->appNameStr; } const cmChar_t* cmFileSysPrefsDir( cmFileSysH_t h ) { cmFs_t* p = _cmFileSysHandleToPtr(h); #if defined OS_OSX || defined OS_LINUX return p->p->prefDir; #else return NULL; #endif } const cmChar_t* cmFileSysRsrcDir( cmFileSysH_t h ) { cmFs_t* p = _cmFileSysHandleToPtr(h); #if defined OS_OSX || defined OS_LINUX return p->p->rsrcDir; #else return NULL; #endif } const cmChar_t* cmFileSysUserDir( cmFileSysH_t h ) { cmFs_t* p = _cmFileSysHandleToPtr(h); #if defined OS_OSX || defined OS_LINUX return p->p->userDir; #else return NULL; #endif } bool cmFileSysIsValid( cmFileSysH_t h ) { return h.h != NULL; } bool _cmFileSysIsDir( cmFs_t* p, const cmChar_t* dirStr ) { struct stat s; errno = 0; if( stat(dirStr,&s) != 0 ) { // if the dir does not exist if( errno == ENOENT ) return false; _cmFileSysError( p, kStatFailFsRC, errno, "'stat' failed on '%s'",dirStr); return false; } return S_ISDIR(s.st_mode); } bool cmFileSysIsDir( cmFileSysH_t h, const cmChar_t* dirStr ) { cmFs_t* p = _cmFileSysHandleToPtr(h); return _cmFileSysIsDir(p,dirStr); } bool _cmFileSysIsFile( cmFs_t* p, const cmChar_t* fnStr ) { struct stat s; errno = 0; if( stat(fnStr,&s) != 0 ) { // if the file does not exist if( errno == ENOENT ) return false; _cmFileSysError( p, kStatFailFsRC, errno, "'stat' failed on '%s'.",fnStr); return false; } return S_ISREG(s.st_mode); } bool cmFileSysIsFile( cmFileSysH_t h, const cmChar_t* fnStr ) { cmFs_t* p = _cmFileSysHandleToPtr(h); return _cmFileSysIsFile(p,fnStr); } bool _cmFileSysIsLink( cmFs_t* p, const cmChar_t* fnStr ) { struct stat s; errno = 0; if( lstat(fnStr,&s) != 0 ) { // if the file does not exist if( errno == ENOENT ) return false; _cmFileSysError( p, kStatFailFsRC, errno, "'stat' failed on '%s'.",fnStr); return false; } return S_ISLNK(s.st_mode); } bool cmFileSysIsLink( cmFileSysH_t h, const cmChar_t* fnStr ) { cmFs_t* p = _cmFileSysHandleToPtr(h); return _cmFileSysIsLink(p,fnStr); } bool _cmFileSysIsSocket( cmFs_t* p, const cmChar_t* fnStr ) { struct stat s; errno = 0; if( stat(fnStr,&s) != 0 ) { // if the file does not exist if( errno == ENOENT ) return false; _cmFileSysError( p, kStatFailFsRC, errno, "'stat' failed on '%s'.",fnStr); return false; } return S_ISSOCK(s.st_mode); } bool _cmFileSysConcat( cmChar_t* rp, unsigned rn, char sepChar, const cmChar_t* suffixStr ) { unsigned m = strlen(rp); // m==0 if no sep needs to be inserted or removed //if( m == 0 ) // return false; if( m != 0 ) { // if a sep char needs to be inserted if( rp[m-1] != sepChar && suffixStr[0] != sepChar ) { assert((m+1)=rn) return false; rp[m] = sepChar; rp[m+1]= 0; ++m; } else // if a sep char needs to be removed if( rp[m-1] == sepChar && suffixStr[0] == sepChar ) { rp[m-1] = 0; --m; } } assert( rn>=m && strlen(rp)+strlen(suffixStr) <= rn ); strncat(rp,suffixStr,rn-m); return true; } const cmChar_t* cmFileSysVMakeFn( cmFileSysH_t h, const cmChar_t* dir, const cmChar_t* fn, const cmChar_t* ext, va_list vl ) { cmFsRC_t rc = kOkFsRC; cmChar_t* rp = NULL; const cmChar_t* dp = NULL; unsigned n = 0; cmFs_t* p = _cmFileSysHandleToPtr(h); char pathSep = cmPathSeparatorChar[0]; char extSep = '.'; va_list vl_t; va_copy(vl_t,vl); assert( fn != NULL ); // get prefix directory length if( dir != NULL ) n += strlen(dir) + 1; // add 1 for ending sep // get file name length n += strlen(fn); // get extension length if( ext != NULL ) n += strlen(ext) + 1; // add 1 for period // get length of all var args dir's while( (dp = va_arg(vl,const cmChar_t*)) != NULL ) n += strlen(dp) + 1; // add 1 for ending sep // add 1 for terminating zero and allocate memory if((rp = cmLHeapAllocZ( p->heapH, n+1 )) == NULL ) { rc = _cmFileSysError(p,kMemAllocErrFsRC,0,"Unable to allocate file name memory."); goto errLabel; } va_copy(vl,vl_t); rp[n] = 0; rp[0] = 0; // copy out the prefix dir if( dir != NULL ) strncat(rp,dir,n-strlen(rp)); // copy out ecmh of the var arg's directories while((dp = va_arg(vl,const cmChar_t*)) != NULL ) if(!_cmFileSysConcat(rp,n,pathSep,dp) ) { assert(0); rc = _cmFileSysError(p,kAssertFailFsRC,0,"Assert failed."); goto errLabel; } // copy out the file name if(!_cmFileSysConcat(rp,n,pathSep,fn)) { assert(0); rc = _cmFileSysError(p,kAssertFailFsRC,0,"Assert failed."); goto errLabel; } // copy out the extension if( ext != NULL ) if(!_cmFileSysConcat(rp,n,extSep,ext)) { assert(0); rc = _cmFileSysError(p,kAssertFailFsRC,0,"Assert failed."); goto errLabel; } assert(strlen(rp)<=n); errLabel: if( rc != kOkFsRC && rp != NULL ) cmLHeapFree(p->heapH, rp ); return rp; } const cmChar_t* cmFileSysMakeFn( cmFileSysH_t h, const cmChar_t* dir, const cmChar_t* fn, const cmChar_t* ext, ... ) { va_list vl; va_start(vl,ext); const cmChar_t* retPtr = cmFileSysVMakeFn(h,dir,fn,ext,vl); va_end(vl); return retPtr; } void cmFileSysFreeFn( cmFileSysH_t h, const cmChar_t* fn ) { cmFs_t* p = _cmFileSysHandleToPtr(h); if( fn == NULL ) return; cmLHeapFree(p->heapH, (void*)fn); } cmFsRC_t cmFileSysMkDir( cmFileSysH_t h, const cmChar_t* dir ) { cmFs_t* p = _cmFileSysHandleToPtr(h); if( mkdir(dir, S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH) != 0 ) return _cmFileSysError( p, kMkDirFailFsRC, errno, "The attempt to create the directory '%s' failed.",dir); return kOkFsRC; } cmFsRC_t cmFileSysMkDirAll( cmFileSysH_t h, const cmChar_t* dir ) { cmFsRC_t rc = kOkFsRC; cmFs_t* p = _cmFileSysHandleToPtr(h); cmChar_t** a = NULL; unsigned i; if((a = cmFileSysDirParts(h,dir)) == NULL ) return _cmFileSysError(p, kInvalidDirFsRC, 0, "The directory '%s' could not be parsed.",cmStringNullGuard(dir)); for(i=0; rc==kOkFsRC && a[i]!=NULL; ++i) { cmChar_t* d = cmFileSysFormDir(h,a,i+1); if( cmFileSysIsDir(h,d)==false ) if((rc = cmFileSysMkDir(h,d)) != kOkFsRC ) break; cmFileSysFreeDir(h,d); } cmFileSysFreeDirParts(h,a); return rc; } cmFileSysPathPart_t* cmFileSysPathParts( cmFileSysH_t h, const cmChar_t* pathStr ) { int n = 0; // char's in pathStr int dn = 0; // char's in the dir part int fn = 0; // char's in the name part int en = 0; // char's in the ext part cmChar_t* cp = NULL; cmFileSysPathPart_t* rp = NULL; cmFs_t* p = _cmFileSysHandleToPtr(h); if( pathStr==NULL ) return NULL; // skip leading white space while( *pathStr ) { if( isspace(*pathStr ) ) ++pathStr; else break; } // get the length of pathStr if((n = strlen(pathStr)) == 0 ) return NULL; // remove trailing spaces for(; n>0; --n) { if( isspace(pathStr[n-1]) ) --n; else break; } // if( n == 0 ) return NULL; char buf[n+1]; buf[n] = 0; // Get the last word (which may be a file name) from pathStr. // (pathStr must be copied into a buf because basename() // is allowed to change the values in its arg.) strncpy(buf,pathStr,n); cp = basename(buf); if( cp != NULL ) { cmChar_t* ep; // does the last word have a period in it if( (ep = strchr(cp,'.')) != NULL ) { *ep = 0; // end the file name at the period ++ep; // set the ext marker en = strlen(ep); // get the length of the ext } fn = strlen(cp); //get the length of the file name } // Get the directory part. // ( pathStr must be copied into a buf because dirname() // is allowed to change the values in its arg.) strncpy(buf,pathStr,n); // if the last char in pathStr[] is '/' then the whole string is a dir. // (this is not the answer that dirname() and basename() would give). if( pathStr[n-1] == cmPathSeparatorChar[0] ) { fn = 0; en = 0; dn = n; cp = buf; } else { cp = dirname(buf); } if( cp != NULL ) dn = strlen(cp); // get the total size of the returned memory. (add 3 for ecmh possible terminating zero) n = sizeof(cmFileSysPathPart_t) + dn + fn + en + 3; // alloc memory if((rp = (cmFileSysPathPart_t*)cmLHeapAllocZ( p->heapH, n )) == NULL ) { _cmFileSysError( p, kLHeapAllocErrFsRC, 0, "Unable to allocate the file system path part record for '%s'.",pathStr); return NULL; } // set the return pointers for ecmh of the parts rp->dirStr = (const cmChar_t* )(rp + 1); rp->fnStr = rp->dirStr + dn + 1; rp->extStr = rp->fnStr + fn + 1; // if there is a directory part if( dn>0 ) strcpy((cmChar_t*)rp->dirStr,cp); else rp->dirStr = NULL; if( fn || en ) { // Get the trailing word again. // pathStr must be copied into a buf because basename() may // is allowed to change the values in its arg. strncpy(buf,pathStr,n); cp = basename(buf); if( cp != NULL ) { cmChar_t* ep; if( (ep = strchr(cp,'.')) != NULL ) { *ep = 0; ++ep; assert( strlen(ep) == en ); strcpy((cmChar_t*)rp->extStr,ep); } assert( strlen(cp) == fn ); if(fn) strcpy((cmChar_t*)rp->fnStr,cp); } } if( fn == 0 ) rp->fnStr = NULL; if( en == 0 ) rp->extStr = NULL; return rp; } void cmFileSysFreePathParts( cmFileSysH_t h, cmFileSysPathPart_t* pp ) { if( pp == NULL ) return; cmFs_t* p = _cmFileSysHandleToPtr(h); cmLHeapFree(p->heapH, (void*)pp ); } cmChar_t** cmFileSysDirParts( cmFileSysH_t h, const cmChar_t* dirStr ) { cmFs_t* p = _cmFileSysHandleToPtr(h); const cmChar_t* s = dirStr; const cmChar_t* ep = dirStr + strlen(dirStr); char pathSep = cmPathSeparatorChar[0]; unsigned n = 2; unsigned i = 0; // skip leading white space or pathsep while( isspace(*s) && s < ep ) ++s; // if the directory string is empty if( s >= ep ) return NULL; // set the beginning of the input dirStr past any leading white space dirStr = s; // count the number of dir segments - this might overcount the // number of segments if there are multiple repeated path seperator // char's - but this is ok because 'n' is only used to determine // the size of the returned array - which will simply have some // NULL entries at the end. for(; s < ep; ++s ) if( *s == pathSep ) ++n; // allocate the array cmChar_t** a = cmLhAllocZ(p->heapH,cmChar_t*,n); // reset the cur location to the begin of the buf s = dirStr; // if the path starts at the root if( *s == pathSep ) { a[0] = cmPathSeparatorChar; // cmPathSeparatorChar is a static string in cmGlobal.h i = 1; ++s; } for(; iheapH,cmChar_t,sn); strncpy(a[i],s,sn-1); a[i][sn-1] = 0; } s = s1+1; } return a; } void cmFileSysFreeDirParts( cmFileSysH_t h, cmChar_t** dirStrArray ) { if( dirStrArray == NULL ) return; cmFs_t* p = _cmFileSysHandleToPtr(h); unsigned i; for(i=0; dirStrArray[i]!=NULL; ++i) { // cmPathSeparatorChar is statically alloc'd in cmGlobal.h if( dirStrArray[i] != cmPathSeparatorChar ) cmLHeapFree(p->heapH,dirStrArray[i]); } cmLHeapFree(p->heapH, (void*)dirStrArray ); } unsigned cmFileSysDirPartsCount(cmFileSysH_t h, cmChar_t** dirStrArray ) { unsigned i = 0; if( dirStrArray == NULL ) return 0; while(dirStrArray[i] != NULL ) ++i; return i; } cmChar_t* cmFileSysFormDir( cmFileSysH_t h, cmChar_t** a, unsigned m ) { cmFs_t* p = _cmFileSysHandleToPtr(h); unsigned n; unsigned i; // determine the length of the return string for(i=0,n=0; a[i]!=NULL && iheapH,cmChar_t,n); const cmChar_t* ep = r + n; // form the return string for(i=0; a[i]!=NULL && iheapH,(void*)dir); } typedef struct { cmFs_t* p; unsigned filterFlags; cmFileSysDirEntry_t* rp; cmChar_t* dataPtr; cmChar_t* endPtr; unsigned entryCnt; unsigned entryIdx; unsigned dataByteCnt; unsigned passIdx; } cmFileSysDeRecd_t; cmFsRC_t _cmFileSysDirGetEntries( cmFileSysDeRecd_t* drp, const cmChar_t* dirStr ) { cmFsRC_t rc = kOkFsRC; DIR* dirp = NULL; struct dirent* dp = NULL; char curDirPtr[] = "./"; unsigned dn = 0; if( dirStr == NULL || strlen(dirStr) == 0 ) dirStr = curDirPtr; if( _cmFileSysIsDir(drp->p,dirStr) == false ) return rc; unsigned fnCharCnt= strlen(dirStr) + PATH_MAX; char fn[ fnCharCnt + 1 ]; // copy the directory into fn[] ... fn[0] =0; fn[fnCharCnt] = 0; strcpy(fn,dirStr); assert( strlen(fn)+2 < fnCharCnt ); // ... and be sure that it is terminated with a path sep char if( fn[ strlen(fn)-1 ] != cmPathSeparatorChar[0] ) strcat(fn,cmPathSeparatorChar); // file names will be appended to the path at this location unsigned fni = strlen(fn); // open the directory if((dirp = opendir(dirStr)) == NULL) { rc = _cmFileSysError(drp->p,kOpenDirFailFsRC,errno,"Unable to open the directory:'%s'.",dirStr); goto errLabel; } // get the next directory entry while((dp = readdir(dirp)) != NULL ) { // validate d_name if( (dp->d_name != NULL) && ((dn = strlen(dp->d_name)) > 0) ) { unsigned flags = 0; // handle cases where d_name begins with '.' if( dp->d_name[0] == '.' ) { if( strcmp(dp->d_name,".") == 0 ) { if( cmIsFlag(drp->filterFlags,kCurDirFsFl) == false ) continue; flags |= kCurDirFsFl; } if( strcmp(dp->d_name,"..") == 0 ) { if( cmIsFlag(drp->filterFlags,kParentDirFsFl) == false ) continue; flags |= kParentDirFsFl; } if( flags == 0 ) { if( cmIsFlag(drp->filterFlags,kInvisibleFsFl) == false ) continue; flags |= kInvisibleFsFl; } } fn[fni] = 0; strncat( fn, dp->d_name, fnCharCnt-fni ); unsigned fnN = strlen(fn); // if the filename is too long for the buffer if( fnN > fnCharCnt ) { rc = _cmFileSysError(drp->p, kFnTooLongFsRC, errno, "The directory entry:'%s' was too long to be processed.",dp->d_name); goto errLabel; } // is the entry a file if( _cmFileSysIsFile(drp->p,fn) ) { if( cmIsFlag(drp->filterFlags,kFileFsFl)==false ) continue; flags |= kFileFsFl; } else { // is the entry a dir if( _cmFileSysIsDir(drp->p,fn) ) { if( cmIsFlag(drp->filterFlags,kDirFsFl) == false) continue; flags |= kDirFsFl; if( cmIsFlag(drp->filterFlags,kRecurseFsFl) ) if((rc = _cmFileSysDirGetEntries(drp,fn)) != kOkFsRC ) goto errLabel; } else { if( _cmFileSysIsLink(drp->p,fn) ) { if( cmIsFlag(drp->filterFlags,kLinkFsFl) == false ) continue; flags |= kLinkFsFl; if( cmIsFlag(drp->filterFlags,kRecurseLinksFsFl) ) if((rc = _cmFileSysDirGetEntries(drp,fn)) != kOkFsRC ) goto errLabel; } else { continue; } } } //assert(flags != 0); if( drp->passIdx == 0 ) { ++drp->entryCnt; // add 1 for the name terminating zero drp->dataByteCnt += sizeof(cmFileSysDirEntry_t) + 1; if( cmIsFlag(drp->filterFlags,kFullPathFsFl) ) drp->dataByteCnt += fnN; else drp->dataByteCnt += dn; } else { assert( drp->passIdx == 1 ); assert( drp->entryIdx < drp->entryCnt ); unsigned n = 0; if( cmIsFlag(drp->filterFlags,kFullPathFsFl) ) { n = fnN+1; assert( drp->dataPtr + n <= drp->endPtr ); strcpy(drp->dataPtr,fn); } else { n = dn+1; assert( drp->dataPtr + n <= drp->endPtr ); strcpy(drp->dataPtr,dp->d_name); } drp->rp[ drp->entryIdx ].flags = flags; drp->rp[ drp->entryIdx ].name = drp->dataPtr; drp->dataPtr += n; assert( drp->dataPtr <= drp->endPtr); ++drp->entryIdx; } } } errLabel: if( dirp != NULL ) closedir(dirp); return rc; } cmFileSysDirEntry_t* cmFileSysDirEntries( cmFileSysH_t h, const cmChar_t* dirStr, unsigned filterFlags, unsigned* dirEntryCntPtr ) { cmFsRC_t rc = kOkFsRC; cmFileSysDeRecd_t r; memset(&r,0,sizeof(r)); r.p = _cmFileSysHandleToPtr(h); r.filterFlags = filterFlags; assert( dirEntryCntPtr != NULL ); *dirEntryCntPtr = 0; for(r.passIdx=0; r.passIdx<2; ++r.passIdx) { if((rc = _cmFileSysDirGetEntries( &r, dirStr )) != kOkFsRC ) goto errLabel; if( r.passIdx == 0 && r.dataByteCnt>0 ) { // allocate memory to hold the return values if(( r.rp = (cmFileSysDirEntry_t *)cmLHeapAllocZ( r.p->heapH, r.dataByteCnt )) == NULL ) { rc= _cmFileSysError( r.p, kMemAllocErrFsRC, 0, "Unable to allocate %i bytes of dir entry memory.",r.dataByteCnt); goto errLabel; } r.dataPtr = (cmChar_t*)(r.rp + r.entryCnt); r.endPtr = ((cmChar_t*)r.rp) + r.dataByteCnt; } } errLabel: if( rc == kOkFsRC ) { assert( r.entryIdx == r.entryCnt ); *dirEntryCntPtr = r.entryCnt; } else { if( r.rp != NULL ) cmLHeapFree(r.p->heapH,r.rp); r.rp = NULL; } return r.rp; } void cmFileSysDirFreeEntries( cmFileSysH_t h, cmFileSysDirEntry_t* dp ) { cmFs_t* p = _cmFileSysHandleToPtr(h); if( dp != NULL ) cmLHeapFree(p->heapH,dp); } cmFsRC_t cmFileSysErrorCode( cmFileSysH_t h ) { cmFs_t* p = _cmFileSysHandleToPtr(h); return cmErrLastRC(&p->err); } // //====================================================================================================== // Begin global versions // cmFileSysH_t _cmFsH = { NULL }; cmFsRC_t cmFsInitialize( cmCtx_t* ctx, const cmChar_t* appNameStr ) { return cmFileSysInitialize(&_cmFsH,ctx,appNameStr); } cmFsRC_t cmFsFinalize() { return cmFileSysFinalize(&_cmFsH); } const cmChar_t* cmFsAppName() { return cmFileSysAppName(_cmFsH); } const cmChar_t* cmFsPrefsDir() { return cmFileSysPrefsDir(_cmFsH); } const cmChar_t* cmFsRsrcDir() { return cmFileSysRsrcDir(_cmFsH); } const cmChar_t* cmFsUserDir() { return cmFileSysUserDir(_cmFsH); } bool cmFsIsDir( const cmChar_t* dirStr ) { return cmFileSysIsDir(_cmFsH,dirStr); } bool cmFsIsFile( const cmChar_t* fnStr ) { return cmFileSysIsFile(_cmFsH,fnStr); } bool cmFsIsLink( const cmChar_t* fnStr ) { return cmFileSysIsLink(_cmFsH,fnStr); } const cmChar_t* cmFsVMakeFn( const cmChar_t* dirPrefix, const cmChar_t* fn, const cmChar_t* ext, va_list vl ) { return cmFileSysVMakeFn(_cmFsH,dirPrefix,fn,ext,vl); } const cmChar_t* cmFsMakeFn( const cmChar_t* dirPrefix, const cmChar_t* fn, const cmChar_t* ext, ... ) { va_list vl; va_start(vl,ext); const cmChar_t* retPtr = cmFsVMakeFn(dirPrefix,fn,ext,vl); va_end(vl); return retPtr; } void cmFsFreeFn( const cmChar_t* fn ) { cmFileSysFreeFn(_cmFsH, fn); } cmFsRC_t cmFsMkDir( const cmChar_t* dir ) { return cmFileSysMkDir(_cmFsH,dir); } cmFsRC_t cmFsMkDirAll( const cmChar_t* dir ) { return cmFileSysMkDirAll(_cmFsH,dir); } cmFileSysPathPart_t* cmFsPathParts( const cmChar_t* pathNameStr ) { return cmFileSysPathParts(_cmFsH,pathNameStr); } void cmFsFreePathParts( cmFileSysPathPart_t* p ) { cmFileSysFreePathParts(_cmFsH,p); } cmChar_t** cmFsDirParts( const cmChar_t* dirStr ) { return cmFileSysDirParts(_cmFsH,dirStr); } void cmFsFreeDirParts( cmChar_t** dirStrArray ) { cmFileSysFreeDirParts(_cmFsH,dirStrArray); } unsigned cmFsDirPartsCount( cmChar_t** dirStrArray ) { return cmFileSysDirPartsCount(_cmFsH, dirStrArray); } cmChar_t* cmFsFormDir( cmChar_t** dirStrArray, unsigned n ) { return cmFileSysFormDir(_cmFsH,dirStrArray,n); } void cmFsFreeDir( const cmChar_t* dir ) { cmFileSysFreeDir(_cmFsH,dir); } cmFileSysDirEntry_t* cmFsDirEntries( const cmChar_t* dirStr, unsigned includeFlags, unsigned* dirEntryCntPtr ) { return cmFileSysDirEntries(_cmFsH,dirStr,includeFlags,dirEntryCntPtr); } void cmFsDirFreeEntries( cmFileSysDirEntry_t* p ) { cmFileSysDirFreeEntries(_cmFsH,p); } cmFsRC_t cmFsErrorCode() { return cmFileSysErrorCode(_cmFsH); } // end global version //====================================================================================================== // //{ { label:cmFileSysEx } //( // // cmFileSysTest() function gives usage and testing examples // for some of the cmFileSys functions. // Note that the HOME_DIR macro should be set to your true // $HOME directroy and SRC_DIR should be set to any existing // and accessible directory. // //) //( #if defined(OS_OSX) #define HOME_DIR "/Users/kevin" #else #define HOME_DIR "/home/kevin" #endif #define SRC_DIR HOME_DIR"/src" void _cmFileSysTestFnParser( cmFileSysH_t h, cmRpt_t* rpt, const cmChar_t* fn ); cmFsRC_t cmFileSysTest( cmCtx_t* ctx ) { // The global heap manager must have been initialized // via cmMdInitialize() prior to running this function. cmFsRC_t rc = kOkFsRC; cmFileSysH_t h = cmFileSysNullHandle; const char dir0[] = SRC_DIR; const char dir1[] = HOME_DIR"/blah"; const char file0[] = HOME_DIR"/.emacs"; const char file1[] = HOME_DIR"/blah.txt"; const char not[] = " not "; const char e[] = " "; bool fl = false; const cmChar_t* fn = NULL; // Initialize the file system. if((rc = cmFileSysInitialize(&h,ctx,"fs_test")) != kOkFsRC ) return rc; //---------------------------------------------------------- // Print the standard directories // printf("Prefs Dir:%s\n",cmFsPrefsDir()); printf("Rsrc Dir: %s\n",cmFsRsrcDir()); printf("User Dir: %s\n",cmFsUserDir()); //---------------------------------------------------------- // Run the file system type checker // fl = cmFileSysIsDir(h,dir0); printf("'%s' is%sa directory.\n",dir0, (fl ? e : not)); fl = cmFileSysIsDir(h,dir1); printf("'%s' is%sa directory.\n",dir1, (fl ? e : not)); fl = cmFileSysIsFile(h,file0); printf("'%s' is%sa file.\n",file0, (fl ? e : not)); fl = cmFileSysIsFile(h,file1); printf("'%s' is%sa file.\n",file1, (fl ? e : not)); //---------------------------------------------------------- // Test the file name creation functions // if((fn = cmFileSysMakeFn(h,HOME_DIR,"cmFileSys", "c","src","cm","src",NULL)) != NULL) { printf("File:'%s'\n",fn); } cmFileSysFreeFn(h,fn); if((fn = cmFileSysMakeFn(h,HOME_DIR,"cmFileSys", ".c","/src/","/cm/","/src/",NULL)) != NULL ) { printf("File:'%s'\n",fn); } cmFileSysFreeFn(h,fn); //---------------------------------------------------------- // Test the file name parsing functions // _cmFileSysTestFnParser(h,&ctx->rpt, HOME_DIR"/src/cm/src/cmFileSys.c"); _cmFileSysTestFnParser(h,&ctx->rpt, HOME_DIR"/src/cm/src/cmFileSys"); _cmFileSysTestFnParser(h,&ctx->rpt, HOME_DIR"/src/cm/src/cmFileSys/"); _cmFileSysTestFnParser(h,&ctx->rpt,"cmFileSys.c"); _cmFileSysTestFnParser(h,&ctx->rpt,"/"); _cmFileSysTestFnParser(h,&ctx->rpt," "); //---------------------------------------------------------- // Test the directory tree walking routines. // cmRptPrintf(&ctx->rpt,"Dir Entry Test:\n"); cmFileSysDirEntry_t* dep; unsigned dirEntCnt; unsigned filterFlags = kDirFsFl | kFileFsFl | kRecurseFsFl | kFullPathFsFl; if((dep = cmFileSysDirEntries(h,SRC_DIR"/doc",filterFlags, &dirEntCnt)) != NULL) { unsigned i; for(i=0; irpt,"%s\n",dep[i].name); cmFileSysDirFreeEntries(h,dep); } //---------------------------------------------------------- // Test the directory parsing/building routines. // cmRptPrintf(&ctx->rpt,"Dir Parsing routings:\n"); cmChar_t** a; unsigned j; for(j=0; j<2; ++j) { const cmChar_t* dstr = dir0 + j; if((a = cmFileSysDirParts(h,dstr)) == NULL) cmRptPrint(&ctx->rpt,"cmFileSysDirParts() failed.\n"); else { unsigned i; cmRptPrintf(&ctx->rpt,"Input:%s\n",dstr); for(i=0; a[i]!=NULL; ++i) cmRptPrintf(&ctx->rpt,"%i : %s\n",i,a[i]); cmChar_t* d; if((d = cmFileSysFormDir(h,a, cmFileSysDirPartsCount(h,a))) != NULL ) { cmRptPrintf(&ctx->rpt,"Reformed:%s\n",d); } cmFileSysFreeDirParts(h,a); } } //---------------------------------------------------------- // Test the extended mkdir routine. // if( cmFileSysMkDirAll(h, HOME_DIR"/temp/doc/doc" )!=kOkFsRC ) { cmRptPrint(&ctx->rpt,"cmFileSysMkDirAll() failed.\n"); } // finalize the file system if((rc = cmFileSysFinalize(&h)) != kOkFsRC ) return rc; cmRptPrintf(&ctx->rpt,"File Test done\n"); return rc; } // Parse a file name and print the results. // Called by cmFileSysTest(). void _cmFileSysTestFnParser( cmFileSysH_t h, cmRpt_t* rpt, const cmChar_t* fn ) { cmFileSysPathPart_t* pp; cmRptPrintf(rpt,"Fn Parse Test:%s\n",fn); if((pp = cmFileSysPathParts(h,fn)) != NULL ) { if(pp->dirStr != NULL) cmRptPrintf(rpt,"Dir:%s\n",pp->dirStr); if(pp->fnStr != NULL) cmRptPrintf(rpt,"Fn:%s\n",pp->fnStr); if(pp->extStr != NULL ) cmRptPrintf(rpt,"Ext:%s\n",pp->extStr); cmFileSysFreePathParts(h,pp); } cmRptPrintf(rpt,"\n"); } //) //}