//****************************************************************************** // // File: INTRFACE.CPP // // Description: This module acts as the interface between the Info-ZIP code and // our Windows code in WINMAIN.CPP. We expose the needed // functions to query a file list, test file(s), extract file(s), // and display a zip file comment. The windows code is never // bothered with understanding the Globals structure. // // This module also catches all the callbacks from the Info-ZIP // code, cleans up the data provided in the callback, and then // forwards the information to the appropriate function in the // windows code. These callbacks include status messages, file // lists, comments, password prompt, and file overwrite prompts. // // Finally, this module implements the few functions that the // Info-ZIP code expects the port to implement. These functions are // OS dependent and are mostly related to validating file names and // directoies, and setting file attributes and dates of saved files. // // Copyright: All the source files for Pocket UnZip, except for components // written by the Info-ZIP group, are copyrighted 1997 by Steve P. // Miller. The product "Pocket UnZip" itself is property of the // author and cannot be altered in any way without written consent // from Steve P. Miller. // // Disclaimer: All project files are provided "as is" with no guarantee of // their correctness. The authors are not liable for any outcome // that is the result of using this source. The source for Pocket // UnZip has been placed in the public domain to help provide an // understanding of its implementation. You are hereby granted // full permission to use this source in any way you wish, except // to alter Pocket UnZip itself. For comments, suggestions, and // bug reports, please write to stevemil@pobox.com. // // Functions: DoListFiles // DoExtractOrTestFiles // DoGetComment // SetExtractToDirectory // InitGlobals // FreeGlobals // IsFileOrDirectory // SmartCreateDirectory // ExtractOrTestFilesThread // CheckForAbort // SetCurrentFile // UzpMessagePrnt2 // UzpInput2 // UzpMorePause // UzpPassword // UzpReplace // UzpSound // SendAppMsg // win_fprintf // mapattr // utimeToFileTime // GetFileTimes // close_outfile // do_wild // mapname // test_NT // checkdir // match // iswild // IsOldFileSystem // // // Date Name History // -------- ------------ ----------------------------------------------------- // 02/01/97 Steve Miller Created (Version 1.0 using Info-ZIP UnZip 5.30) // //****************************************************************************** //****************************************************************************** #if 0 // The following information and structure are here just for reference //****************************************************************************** // // The Windows CE version of Unzip builds with the following defines set: // // // WIN32 // _WINDOWS // UNICODE // _UNICODE // WIN32_LEAN_AND_MEAN // STRICT // // POCKET_UNZIP (Main define - Always set) // // UNZIP_INTERNAL // WINDLL // DLL // REENTRANT // USE_EF_UT_TIME // NO_ZIPINFO // NO_STDDEF_H // NO_NTSD_WITH_RSXNT // // USE_SMITH_CODE (optional - See COPYING document) // USE_UNSHRINK (optional - See COPYING document) // // DEBUG (When building for Debug) // _DEBUG (When building for Debug) // NDEBUG (When building for Retail) // _NDEBUG (When building for Retail) // // _WIN32_WCE=100 (When building for Windows CE native) // // This causes our Globals structure to look like the following. The only // things we care about is this Globals structure, the process_zipfiles() // function, and a few callback functions. The Info-ZIP code has not been // been modified in any way. // struct Globals { int zipinfo_mode; // behave like ZipInfo or like normal UnZip? int aflag; // -a: do ASCII-EBCDIC and/or end-of-line translation int cflag; // -c: output to stdout int C_flag; // -C: match filenames case-insensitively int dflag; // -d: all args are files/dirs to be extracted int fflag; // -f: "freshen" (extract only newer files) int hflag; // -h: header line (zipinfo) int jflag; // -j: junk pathnames (unzip) int lflag; // -12slmv: listing format (zipinfo) int L_flag; // -L: convert filenames from some OSes to lowercase int overwrite_none; // -n: never overwrite files (no prompting) int overwrite_all; // -o: OK to overwrite files without prompting int P_flag; // -P: give password on command line (ARGH!) int qflag; // -q: produce a lot less output int sflag; // -s: convert spaces in filenames to underscores int volflag; // -$: extract volume labels int tflag; // -t: test (unzip) or totals line (zipinfo) int T_flag; // -T: timestamps (unzip) or dec. time fmt (zipinfo) int uflag; // -u: "update" (extract only newer/brand-new files) int vflag; // -v: (verbosely) list directory int V_flag; // -V: don't strip VMS version numbers int X_flag; // -X: restore owner/protection or UID/GID or ACLs int zflag; // -z: display the zipfile comment (only, for unzip) int filespecs; // number of real file specifications to be matched int xfilespecs; // number of excluded filespecs to be matched int process_all_files; int create_dirs; // used by main(), mapname(), checkdir() int extract_flag; int newzip; // reset in extract.c; used in crypt.c LONGINT real_ecrec_offset; LONGINT expect_ecrec_offset; long csize; // used by decompr. (NEXTBYTE): must be signed long ucsize; // used by unReduce(), explode() long used_csize; // used by extract_or_test_member(), explode() int filenotfound; int redirect_data; // redirect data to memory buffer int redirect_text; // redirect text output to buffer unsigned _wsize; int stem_len; int putchar_idx; uch *redirect_pointer; uch *redirect_buffer; unsigned redirect_size; char **pfnames; char **pxnames; char sig[5]; char answerbuf[10]; min_info info[DIR_BLKSIZ]; min_info *pInfo; union work area; // see unzpriv.h for definition of work ulg near *crc_32_tab; ulg crc32val; // CRC shift reg. (was static in funzip) uch *inbuf; // input buffer (any size is OK) uch *inptr; // pointer into input buffer int incnt; ulg bitbuf; int bits_left; // unreduce and unshrink only int zipeof; char *argv0; // used for NT and EXE_EXTENSION char *wildzipfn; char *zipfn; // GRR: MSWIN: must nuke any malloc'd zipfn... int zipfd; // zipfile file handle LONGINT ziplen; LONGINT cur_zipfile_bufstart; // extract_or_test, readbuf, ReadByte LONGINT extra_bytes; // used in unzip.c, misc.c uch *extra_field; // Unix, VMS, Mac, OS/2, Acorn, ... uch *hold; char local_hdr_sig[5]; // initialize sigs at runtime so unzip char central_hdr_sig[5]; // executable won't look like a zipfile char end_central_sig[5]; local_file_hdr lrec; // used in unzip.c, extract.c cdir_file_hdr crec; // used in unzip.c, extract.c, misc.c ecdir_rec ecrec; // used in unzip.c, extract.c struct stat statbuf; // used by main, mapname, check_for_newer int mem_mode; uch *outbufptr; // extract.c static ulg outsize; // extract.c static int reported_backslash; // extract.c static int disk_full; int newfile; int didCRlast; // fileio static ulg numlines; // fileio static: number of lines printed int sol; // fileio static: at start of line int no_ecrec; // process static FILE *outfile; uch *outbuf; uch *realbuf; uch *outbuf2; // main() (never changes); else malloc'd uch *outptr; ulg outcnt; // number of chars stored in outbuf char *filename; char *pwdarg; // pointer to command-line password (-P option) int nopwd; // crypt static ulg keys[3]; // crypt static: keys defining pseudo-random sequence char *key; // crypt static: decryption password or NULL unsigned hufts; // track memory usage struct huft *fixed_tl; // inflate static struct huft *fixed_td; // inflate static int fixed_bl int fixed_bd; // inflate static unsigned wp; // inflate static: current position in slide ulg bb; // inflate static: bit buffer unsigned bk; // inflate static: bits in bit buffer MsgFn *message; InputFn *input; PauseFn *mpause; PasswdFn *decr_passwd; ReplaceFn *replace; SoundFn *sound; int incnt_leftover; // so improved NEXTBYTE does not waste input uch *inptr_leftover; // These are defined in PUNZIP.H. char matchname[FILNAMSIZ]; // used by do_wild() int notfirstcall; // used by do_wild() char *zipfnPtr; char *wildzipfnPtr; }; #endif // #if 0 - This struct is here just for reference //****************************************************************************** extern "C" { #define __INTRFACE_CPP__ #define UNZIP_INTERNAL #include "unzip.h" #include "crypt.h" // Needed to pick up CRYPT define #include #include "intrface.h" #include "winmain.h" #ifndef _WIN32_WCE #include // _beginthreadex() and _endthreadex() #endif } #include // Must be outside of extern "C" block //****************************************************************************** //***** "Local" Global Variables //****************************************************************************** static USERFUNCTIONS g_uf; static DCL g_dcl; static EXTRACT_INFO *g_pExtractInfo = NULL; static FILE_NODE *g_pFileLast = NULL; static CHAR g_szExtractToDirectory[_MAX_PATH]; static BOOL g_fOutOfMemory; //****************************************************************************** //***** Local Function Prototypes //****************************************************************************** extern "C" { // Our exposed interface functions to the Info-ZIP core. BOOL DoListFiles(LPCSTR szZipFile); BOOL DoExtractOrTestFiles(LPCSTR szZipFile, EXTRACT_INFO *pei); BOOL DoGetComment(LPCSTR szFile); BOOL SetExtractToDirectory(LPTSTR szDirectory); // Internal functions. struct Globals* InitGlobals(LPCSTR szZipFile); void FreeGlobals(Globals *pG); int IsFileOrDirectory(LPCTSTR szPath); BOOL SmartCreateDirectory(struct Globals *pG, LPCSTR szDirectory); #ifdef _WIN32_WCE DWORD WINAPI ExtractOrTestFilesThread(LPVOID lpv); #else unsigned __stdcall ExtractOrTestFilesThread(void *lpv); #endif void CheckForAbort(struct Globals *pG); void SetCurrentFile(struct Globals *pG); // Callbacks from Info-ZIP code. int UzpMessagePrnt2(zvoid *pG, uch *buffer, ulg size, int flag); int UzpInput2(zvoid *pG, uch *buffer, int *size, int flag); void UzpMorePause(zvoid *pG, const char *szPrompt, int flag); int UzpPassword(zvoid *pG, int *pcRetry, char *szPassword, int nSize, const char *szZipFile, const char *szFile); int WINAPI UzpReplace(char *szFile); void WINAPI UzpSound(void); void WINAPI SendAppMsg(ulg dwSize, ulg dwCompressedSize, int ratio, int month, int day, int year, int hour, int minute, int uppercase, char *szPath, char *szMethod, ulg dwCRC); int win_fprintf(FILE *file, unsigned int dwCount, char far *buffer); // Functions that Info-ZIP expects the port to write and export. void utimeToFileTime(time_t ut, FILETIME *pft, BOOL fOldFileSystem); int GetFileTimes(struct Globals *pG, FILETIME *pftCreated, FILETIME *pftAccessed, FILETIME *pftModified); int mapattr(struct Globals *pG); void close_outfile(struct Globals *pG); char* do_wild(struct Globals *pG, char *wildspec); int mapname(struct Globals *pG, int renamed); int test_NT(struct Globals *pG, uch *eb, unsigned eb_size); int checkdir(struct Globals *pG, char *pathcomp, int flag); // Check for FAT, VFAT, HPFS, etc. BOOL IsOldFileSystem(char *szPath); } // extern "C" //****************************************************************************** //***** Our exposed interface functions to the Info-ZIP core //****************************************************************************** int DoListFiles(LPCSTR szZipFile) { int result; // Create our Globals struct and fill it in whith some default values. struct Globals *pG = InitGlobals(szZipFile); if (!pG) { return PK_MEM; } pG->vflag = 1; // verbosely: list directory (for WIN32 it is 0 or 1) pG->process_all_files = TRUE; // improves speed g_pFileLast = NULL; g_fOutOfMemory = FALSE; // We wrap some exception handling around the entire Info-ZIP engine to be // safe. Since we are running on a device with tight memory configurations, // all sorts of problems can arise when we run out of memory. __try { // Call the unzip routine. We will catch the file information in a // callback to SendAppMsg(). result = process_zipfiles(pG); // Make sure we didn't run out of memory in the process. if (g_fOutOfMemory) { result = PK_MEM; } } __except(EXCEPTION_EXECUTE_HANDLER) { // Catch any exception here. DebugOut(TEXT("Exception 0x%08X occurred in DoListFiles()"), GetExceptionCode()); result = PK_EXCEPTION; } g_pFileLast = NULL; // It is possible that the ZIP engine change the file name a bit (like adding // a ".zip" if needed). If so, we will pick up the new name. if ((result != PK_EXCEPTION) && pG->zipfn && *pG->zipfn) { strcpy(g_szZipFile, pG->zipfn); } // Free our globals. FreeGlobals(pG); return result; } //****************************************************************************** BOOL DoExtractOrTestFiles(LPCSTR szZipFile, EXTRACT_INFO *pei) { // WARNING!!! This functions hands the EXTRACT_INFO structure of to a thread // to perform the actual extraction/test. When the thread is done, it will // send a message to the progress dialog. The calling function must not // delete the EXTRAT_INFO structure until it receives the message. Currently, // this is not a problem for us since the structure lives on the stack of the // calling thread. The calling thread then displays a dialog that blocks the // calling thread from clearing the stack until the dialog is dismissed, which // occurs when the dialog receives the message. // Create our globals so we can store the file name. struct Globals *pG = InitGlobals(szZipFile); if (!pG) { pei->result = PK_MEM; SendMessage(g_hDlgProgress, WM_PRIVATE, MSG_OPERATION_COMPLETE, (LPARAM)pei); return FALSE; } // Store a global pointer to the Extract structure so it can be reached from // our thread and callback functions. g_pExtractInfo = pei; // Spawn our thread DWORD dwThreadId; HANDLE hThread; #ifdef _WIN32_WCE // On CE, we use good old CreateThread() since the WinCE CRT does not // allocate per-thread storage. hThread = CreateThread(NULL, 0, ExtractOrTestFilesThread, pG, 0, &dwThreadId); #else // On NT, we need use the CRT's thread function so that we don't leak any // CRT allocated memory when the thread exits. hThread = (HANDLE)_beginthreadex(NULL, 0, ExtractOrTestFilesThread, pG, 0, (unsigned*)&dwThreadId); #endif // Bail out if our thread failed to create. if (!hThread) { DebugOut(TEXT("CreateThread() failed [%u]"), GetLastError()); // Set our error as a memory error. g_pExtractInfo->result = PK_MEM; // Free our globals. FreeGlobals(pG); // Tell the progress dialog that we are done. SendMessage(g_hDlgProgress, WM_PRIVATE, MSG_OPERATION_COMPLETE, (LPARAM)pei); g_pExtractInfo = NULL; return FALSE; } // Close our thread handle since we have no use for it. CloseHandle(hThread); return TRUE; } //****************************************************************************** int DoGetComment(LPCSTR szFile) { int result; // Create our Globals struct and fill it in whith some default values. struct Globals *pG = InitGlobals(szFile); if (!pG) { return PK_MEM; } pG->zflag = TRUE; // display the zipfile comment // We wrap some exception handling around the entire Info-ZIP engine to be // safe. Since we are running on a device with tight memory configurations, // all sorts of problems can arise when we run out of memory. __try { // Call the unzip routine. We will catch the comment string in a callback // to win_fprintf(). result = process_zipfiles(pG); } __except(EXCEPTION_EXECUTE_HANDLER) { // Catch any exception here. DebugOut(TEXT("Exception 0x%08X occurred in DoGetComment()"), GetExceptionCode()); result = PK_EXCEPTION; } // Free our globals. FreeGlobals(pG); return result; } //****************************************************************************** BOOL SetExtractToDirectory(LPTSTR szDirectory) { BOOL fNeedToAddWack = FALSE; // Remove any trailing wack from the path. int length = _tcslen(szDirectory); if ((length > 0) && (szDirectory[length - 1] == TEXT('\\'))) { szDirectory[--length] = TEXT('\0'); fNeedToAddWack = TRUE; } #ifndef _WIN32_WCE // Check to see if a root directory was specified. if ((length == 2) && isalpha(szDirectory[0]) && (szDirectory[1] == ':')) { // If just a root is specified, we need to only verify the drive letter. if (!(GetLogicalDrives() & (1 << (tolower(szDirectory[0]) - (int)'a')))) { // This drive does not exist. Bail out with a failure. return FALSE; } } else #endif // We only verify path if length is >0 since we know "\" is valid. if (length > 0) { // Verify the the path exists and that it is a directory. if (IsFileOrDirectory(szDirectory) != 2) { return FALSE; } } // Store the directory for when we do an extract. wcstombs(g_szExtractToDirectory, szDirectory, countof(g_szExtractToDirectory)); // We always want a wack at the end of our path. strcat(g_szExtractToDirectory, "\\"); // Add the wack back to the end of the path. if (fNeedToAddWack) { _tcscat(szDirectory, TEXT("\\")); } return TRUE; } //****************************************************************************** //***** Internal functions //****************************************************************************** struct Globals* InitGlobals(LPCSTR szZipFile) { // Store a global pointer to our USERFUNCTIONS structure so that LIST.C, // PROCESS.C, and WINMAIN can access it. lpUserFunctions = &g_uf; // Clear our USERFUNCTIONS structure and assign our SendAppMsg() function. ZeroMemory(&g_uf, sizeof(g_uf)); g_uf.SendApplicationMessage = SendAppMsg; // Store a global pointer to our DCL structure so that EXTRACT.C can access it. lpDCL = &g_dcl; // Clear our DCL structure. ZeroMemory(&g_dcl, sizeof(g_dcl)); // Create our global structure - pG CONSTRUCTGLOBALS(); // Bail out if we failed to allocate our Globals structure. if (!pG) { return NULL; } // Fill in all our callback functions. pG->message = UzpMessagePrnt2; pG->input = UzpInput2; pG->mpause = UzpMorePause; pG->replace = UzpReplace; pG->sound = UzpSound; #if CRYPT pG->decr_passwd = UzpPassword; #endif // Match filenames case-sensitively. We can do this since we can guarentee // exact case because the user can only select files via our UI. pG->C_flag = FALSE; // Allocate and store the ZIP file name in pG->zipfn if (!(pG->zipfnPtr = new char[FILNAMSIZ])) { FreeGlobals(pG); return NULL; } pG->zipfn = pG->zipfnPtr; strcpy(pG->zipfn, szZipFile); // Allocate and store the ZIP file name in pG->zipfn. This needs to done // so that do_wild() does not wind up clearing out the zip file name when // it returns in process.c if (!(pG->wildzipfnPtr = new char[FILNAMSIZ])) { FreeGlobals(pG); return NULL; } pG->wildzipfn = pG->wildzipfnPtr; strcpy(pG->wildzipfn, szZipFile); return pG; } //****************************************************************************** void FreeGlobals(Globals *pG) { // Free our ZIP file name if (pG->zipfnPtr) { delete[] pG->zipfnPtr; pG->zipfnPtr = pG->zipfn = NULL; } // Free our wild name buffer if (pG->wildzipfnPtr) { delete[] pG->wildzipfnPtr; pG->wildzipfnPtr = pG->wildzipfn = NULL; } // Free everything else. DESTROYGLOBALS() } //****************************************************************************** int IsFileOrDirectory(LPCTSTR szPath) { // Geth the attributes of the item. DWORD dwAttribs = GetFileAttributes(szPath); // Bail out now if we could not find the path at all. if (dwAttribs == 0xFFFFFFFF) { return 0; } // Return 1 for file and 2 for directory. return ((dwAttribs & FILE_ATTRIBUTE_DIRECTORY) ? 2 : 1); } //****************************************************************************** BOOL SmartCreateDirectory(struct Globals *pG, LPCSTR szDirectory) { // Copy path to a UNICODE buffer. TCHAR szBuffer[_MAX_PATH]; mbstowcs(szBuffer, szDirectory, countof(szBuffer)); int x = IsFileOrDirectory(szBuffer); // Create the directory if it does not exist. if (x == 0) { if (!CreateDirectory(szBuffer, NULL)) { Info(slide, 1, ((char *)slide, "error creating directory: %s\n", szDirectory)); return FALSE; } // If there is a file with the same name, then display an error. } else if (x == 1) { Info(slide, 1, ((char *)slide, "cannot create %s as a file with same name already exists.\n", szDirectory)); return FALSE; } // If the directory already exists or was created, then return success. return TRUE; } //****************************************************************************** #ifdef _WIN32_WCE // On WinCE, we declare our thread function the way CreateThread() likes it. DWORD WINAPI ExtractOrTestFilesThread(LPVOID lpv) { #else // On WinNT, we declare our thread function the way _beginthreadex likes it. unsigned __stdcall ExtractOrTestFilesThread(void *lpv) { #endif struct Globals *pG = (struct Globals*)lpv; if (g_pExtractInfo->fExtract) { pG->extract_flag = TRUE; switch (g_pExtractInfo->overwriteMode) { case OM_NEWER: pG->uflag = TRUE; // Update (extract only newer/brand-new files) break; case OM_ALWAYS: pG->overwrite_all = TRUE; // OK to overwrite files without prompting break; case OM_NEVER: pG->overwrite_none = TRUE; // Never overwrite files (no prompting) break; default: g_dcl.PromptToOverwrite = TRUE; // Force a prompt break; } // Throw away paths if requested. pG->jflag = !g_pExtractInfo->fRestorePaths; } else { pG->tflag = TRUE; } if (g_pExtractInfo->szFileList) { pG->filespecs = g_pExtractInfo->dwFileCount; pG->pfnames = g_pExtractInfo->szFileList; } else { // Improves performance if all files are being extracted. pG->process_all_files = TRUE; } // All args are files/dirs to be extracted. pG->dflag = TRUE; // Invalidate our file offset to show that we are starting a new operation. g_pExtractInfo->dwFileOffset = 0xFFFFFFFF; // We wrap some exception handling around the entire Info-ZIP engine to be // safe. Since we are running on a device with tight memory configurations, // all sorts of problems can arise when we run out of memory. __try { // Put a jump marker on our stack so the user can abort. int error = setjmp(dll_error_return); // If setjmp() returns 0, then we just set our jump marker and we can // continue with the operation. If setjmp() returned something else, // then we reached this point because the operation was aborted and // set our instruction pointer back here. if (error > 0) { // We already called process_zipfiles() and were thrown back here. g_pExtractInfo->result = (error == 1) ? PK_BADERR : error; } else { // Entering Info-ZIP... close your eyes. g_pExtractInfo->result = process_zipfiles(pG); } } __except(EXCEPTION_EXECUTE_HANDLER) { // Catch any exception here. DebugOut(TEXT("Exception 0x%08X occurred in ExtractOrTestFilesThread()"), GetExceptionCode()); g_pExtractInfo->result = PK_EXCEPTION; } // Free our globals. FreeGlobals(pG); // Tell the progress dialog that we are done. SendMessage(g_hDlgProgress, WM_PRIVATE, MSG_OPERATION_COMPLETE, (LPARAM)g_pExtractInfo); // Clear our global pointer as we are done with it. g_pExtractInfo = NULL; #ifndef _WIN32_WCE // On NT, we need to free any CRT allocated memory. _endthreadex(0); #endif return 0; } //****************************************************************************** void CheckForAbort(struct Globals *pG) { if (g_pExtractInfo->fAbort) { // Add a newline to our log if we are in the middle of a line of text. if (!g_pExtractInfo->fNewLineOfText) { SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)"\n"); } // Make sure whatever file we are currently processing gets closed. if (((int)pG->outfile != 0) && ((int)pG->outfile != -1)) { if (g_pExtractInfo->fExtract && *pG->filename) { // Make sure the user is aware that this file is screwed. SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)"warning: "); SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)pG->filename); SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)" is probably truncated.\n"); } // Close the file. close_outfile(pG); } // Display an aborted message in the log SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)"Operation aborted by user.\n"); // I hate to do this... Take a giant step out of here. longjmp(dll_error_return, PK_ABORTED); } } //****************************************************************************** void SetCurrentFile(struct Globals *pG) { // Reset all our counters as we about to process a new file. g_pExtractInfo->dwFileOffset = (DWORD)pG->pInfo->offset; g_pExtractInfo->dwFile++; g_pExtractInfo->dwBytesWrittenThisFile = 0; g_pExtractInfo->dwBytesWrittenPreviousFiles += g_pExtractInfo->dwBytesTotalThisFile; g_pExtractInfo->dwBytesTotalThisFile = pG->ucsize; g_pExtractInfo->szFile = pG->filename; g_pExtractInfo->fNewLineOfText = TRUE; // Pass control to our GUI thread to do a full update our progress dialog. SendMessage(g_hWndMain, WM_PRIVATE, MSG_UPDATE_PROGRESS_COMPLETE, (LPARAM)g_pExtractInfo); // Check our abort flag. CheckForAbort(pG); } //****************************************************************************** //***** Callbacks from Info-ZIP code. //****************************************************************************** int UzpMessagePrnt2(zvoid *pG, uch *buffer, ulg size, int flag) { // Some ZIP files cause us to get called during DoListFiles(). We only handle // messages while processing DoExtractFiles(). if (!g_pExtractInfo) { if (g_hWndEdit) { SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)buffer); } else { DebugOut(TEXT("Unhandled call to UzpMessagePrnt2(\"%S\")"), buffer); } return 0; } // When extracting, mapname() will get called for every file which in turn // will call SetCurrentFile(). For testing though, mapname() never gets // called so we need to be on the lookout for a new file. if (g_pExtractInfo->dwFileOffset != (DWORD)((struct Globals*)pG)->pInfo->offset) { SetCurrentFile((struct Globals*)pG); } // Make sure this message was inteded for us to display. if (!MSG_NO_WGUI(flag) && !MSG_NO_WDLL(flag)) { // Insert a leading newline if requested to do so. if (MSG_LNEWLN(flag) && !g_pExtractInfo->fNewLineOfText) { SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)"\n"); g_pExtractInfo->fNewLineOfText = TRUE; } // Since we use a proportional font, we need to do a little cleanup of the // text we are passed since it assumes a fixed font and adds padding to try // to line things up. We remove leading whitespace on any new line of text. if (g_pExtractInfo->fNewLineOfText) { while (*buffer == ' ') { buffer++; } } // We always remove trailing whitespace. LPSTR psz = (LPSTR)buffer + strlen((LPSTR)buffer) - 1; while ((psz >= (LPSTR)buffer) && (*psz == ' ')) { *(psz--) = '\0'; } // Determine if the next line of text will be a new line of text. g_pExtractInfo->fNewLineOfText = ((*psz == '\r') || (*psz == '\n')); // Change all forward slashes to back slashes in the buffer ForwardSlashesToBackSlashesA((LPSTR)buffer); // Add the cleaned-up text to our extraction log edit control. SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)buffer); // Append a trailing newline if requested to do so. if (MSG_TNEWLN(flag) || MSG_MNEWLN(flag) && !g_pExtractInfo->fNewLineOfText) { SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)"\n"); g_pExtractInfo->fNewLineOfText = TRUE; } } return 0; } //****************************************************************************** int UzpInput2(zvoid *pG, uch *buffer, int *size, int flag) { DebugOut(TEXT("WARNING: UzpInput2(...) called")); return 0; } //****************************************************************************** void UzpMorePause(zvoid *pG, const char *szPrompt, int flag) { DebugOut(TEXT("WARNING: UzpMorePause(...) called")); } //****************************************************************************** int UzpPassword(zvoid *pG, int *pcRetry, char *szPassword, int nSize, const char *szZipFile, const char *szFile) { // Return Values: // IZ_PW_ENTERED got some PWD string, use/try it // IZ_PW_CANCEL no password available (for this entry) // IZ_PW_CANCELALL no password, skip any further PWD request // IZ_PW_ERROR failure (no mem, no tty, ...) #if CRYPT // Build the data structure for our dialog. DECRYPT_INFO di; di.retry = *pcRetry; di.szPassword = szPassword; di.nSize = nSize; di.szFile = szFile; // Clear the password to be safe. *di.szPassword = '\0'; // On our first call for a file, *pcRetry == 0. If we would like to allow // for retries, then we set the value of *pcRetry to the number of retries we // are willing to allow. We will be recalled as neccessary, each time with // *pcRetry being decremented once. 1 is the last retry we will get. *pcRetry = (*pcRetry == 0) ? MAX_PASSWORD_RETRIES : (*pcRetry - 1); // Pass control to our GUI thread which will prompt the user for a password. return SendMessage(g_hWndMain, WM_PRIVATE, MSG_PROMPT_FOR_PASSWORD, (LPARAM)&di); #else return -2; #endif } //****************************************************************************** int WINAPI UzpReplace(char *szFile) { // Pass control to our GUI thread which will prompt the user to overwrite. return SendMessage(g_hWndMain, WM_PRIVATE, MSG_PROMPT_TO_REPLACE, (LPARAM)szFile); } //****************************************************************************** void WINAPI UzpSound(void) { // Do nothing. } //****************************************************************************** // Called from LIST.C void WINAPI SendAppMsg(ulg dwSize, ulg dwCompressedSize, int ratio, int month, int day, int year, int hour, int minute, int uppercase, char *szPath, char *szMethod, ulg dwCRC) { // If we are out of memory, then just bail since we will only make things worse. if (g_fOutOfMemory) { return; } // We get our Globals structure and then retrieve the real file name. GETGLOBALS() szPath = pG->filename; // Allocate a FILE_NODE large enough to hold this file. int length = strlen(szPath) + strlen(szMethod); g_pFileLast = (FILE_NODE*)new BYTE[sizeof(FILE_NODE) + (sizeof(TCHAR) * length)]; // Bail out if we failed to allocate the node. if (!g_pFileLast) { DebugOut(TEXT("Failed to create a FILE_NODE for \"%S\"."), szPath); g_fOutOfMemory = TRUE; return; } // Fill in our node. g_pFileLast->dwSize = dwSize; g_pFileLast->dwCompressedSize = dwCompressedSize; g_pFileLast->dwCRC = dwCRC; g_pFileLast->szComment = NULL; g_pFileLast->szType = NULL; // Fix the year value to contain the real year. year += 1900; // Year: 0 - 4095 (12) 1111 1111 1111 0000 0000 0000 0000 0000 (0xFFF00000) // Month: 1 - 12 ( 4) 0000 0000 0000 1111 0000 0000 0000 0000 (0x000F0000) // Day: 1 - 31 ( 5) 0000 0000 0000 0000 1111 1000 0000 0000 (0x0000F800) // Hour: 0 - 23 ( 5) 0000 0000 0000 0000 0000 0111 1100 0000 (0x000007C0) // Minute: 0 - 59 ( 6) 0000 0000 0000 0000 0000 0000 0011 1111 (0x0000003F) // Do some bit shifting to make the date and time fit in a DWORD. g_pFileLast->dwModified = (((DWORD)(year & 0x0FFF) << 20) | ((DWORD)(month & 0x000F) << 16) | ((DWORD)(day & 0x001F) << 11) | ((DWORD)(hour & 0x001F) << 6) | ((DWORD)(minute & 0x003F))); // We need to get our globals structure to determine our attributes and // encryption information. g_pFileLast->dwAttributes = (pG->crec.external_file_attributes & 0xFF); if (pG->crec.general_purpose_bit_flag & 1) { g_pFileLast->dwAttributes |= FILE_ATTRIBUTE_ENCRYPTED; } // Store the path and method in our string buffer. strcpy(g_pFileLast->szPathAndMethod, szPath); strcpy(g_pFileLast->szPathAndMethod + strlen(szPath) + 1, szMethod); // Pass the file object to our windows code to have it added to our list. AddFileToListView(g_pFileLast); } //****************************************************************************** int win_fprintf(FILE *file, unsigned int dwCount, char far *buffer) { // win_fprintf() is used within Info-ZIP to write to a file as well as log // information. If the "file" is a real file handle (not stdout or stderr), // then we write the data to the file and return. if ((file != stdout) && (file != stderr)) { DWORD dwBytesWriten = 0; #ifdef _WIN32_WCE // On WinCE all FILEs are really HANDLEs. See WINCE.CPP for more info. WriteFile((HANDLE)file, buffer, dwCount, &dwBytesWriten, NULL); #else dwBytesWriten = fwrite(buffer, 1, dwCount, file); #endif // Update our bytes written count. g_pExtractInfo->dwBytesWrittenThisFile += dwBytesWriten; // Pass control to our GUI thread to do a partial update our progress dialog. SendMessage(g_hWndMain, WM_PRIVATE, MSG_UPDATE_PROGRESS_PARTIAL, (LPARAM)g_pExtractInfo); // Check our abort flag. GETGLOBALS(); CheckForAbort(pG); return dwBytesWriten; } // Check to see if we are expecting a extraction progress string if (g_pExtractInfo) { // Most of our progress strings come to our UzpMessagePrnt2() callback, // but we occasionally get one here. We will just forward it to // UzpMessagePrnt2() as if it never came here. To do this, we need to // get a pointer to our Globals struct. Calling GETGLOBALS() sort of // breaks us from be REENTRANT, but we don't support that anyway. GETGLOBALS(); UzpMessagePrnt2(pG, (uch*)buffer, dwCount, 0); return dwCount; } // Check to see if we are expecting a zip file comment string. if (g_hWndEdit) { // Change all forward slashes to back slashes in the buffer ForwardSlashesToBackSlashesA((LPSTR)buffer); SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT, (LPARAM)buffer); return dwCount; } // Check to see if we are expecting a compressed file comment string. if (g_pFileLast) { // Calcalute the size of the buffer we will need to store this comment. // We are going to convert all ASC values 0 - 31 (excpet tab, new line, // and CR) to ^char. int size = 1; for (char *p2, *p1 = buffer; *p1; p1++) { size += ((*p1 >= 32) || (*p1 == '\t') || (*p1 == '\r') || (*p1 == '\n')) ? 1 : 2; } // Allocate a comment buffer and assign it to the last file node we saw. if (g_pFileLast->szComment = new CHAR[size]) { // Copy while formatting. for (p1 = buffer, p2 = (char*)g_pFileLast->szComment; *p1; p1++) { if ((*p1 >= 32) || (*p1 == '\t') || (*p1 == '\r') || (*p1 == '\n')) { *(p2++) = *p1; } else { *(p2++) = '^'; *(p2++) = 64 + *p1; } } *p2 = '\0'; } // Update the attributes of the file node to incldue the comment attribute. g_pFileLast->dwAttributes |= FILE_ATTRIBUTE_COMMENT; // Clear the file node so we don't try to add another bogus comment to it. g_pFileLast = NULL; return dwCount; } if (dwCount >= _MAX_PATH) { buffer[_MAX_PATH] = '\0'; } DebugOut(TEXT("Unhandled call to win_fprintf(\"%S\")"), buffer); return dwCount; } //****************************************************************************** //***** Functions that Info-ZIP expects the port to write and export. //***** Some of this code was stolen from the WIN32 port and highly modified. //****************************************************************************** int mapattr(struct Globals *pG) { // Check to see if we are extracting this file for viewing. Currently, we do // this by checking the szMappedPath member of our extract info stucture // since we know OnActionView() is the only one who sets this member. if (g_pExtractInfo && g_pExtractInfo->szMappedPath) { // If we are extracting for view only, then we ignore the file's real // attributes and force the file to create as read-only. We make the file // read-only to help prevent the user from making changes to the temporary // file and then trying to save the changes back to a file that we will // eventually delete. pG->pInfo->file_attr = FILE_ATTRIBUTE_READONLY; } else { // Store the attribute exactly as it appears for normal extraction/test. pG->pInfo->file_attr = (unsigned)pG->crec.external_file_attributes & 0xff; } return PK_OK; } //****************************************************************************** void utimeToFileTime(time_t ut, FILETIME *pft, BOOL fOldFileSystem) { // time_t is a 32-bit value for the seconds since January 1, 1970 // FILETIME is a 64-bit value for the number of 100-nanosecond intervals since // January 1, 1601 // DWORDLONG is a 64-bit int that we can use to perform large math operations. // time_t has minimum of 1/1/1970. Many file systems, such as FAT, have a // minimum date of 1/1/1980. If extracting to one of those file systems and // out time_t is less than 1980, then we make it 1/1/1980. // (365 days/yr * 10 yrs + 3 leap yr days) * (60 secs * 60 mins * 24 hrs). if (fOldFileSystem && (ut < 0x12CFF780)) { ut = 0x12CFF780; } // Compute the FILETIME for the given time_t. DWORDLONG dwl = ((DWORDLONG)116444736000000000 + ((DWORDLONG)ut * (DWORDLONG)10000000)); // Store the return value. *pft = *(FILETIME*)&dwl; // Now for the next fix for old file systems. If we are in Daylight Savings // Time (DST) and the file is not in DST, then we need subtract off the DST // bias from the filetime. This is due to a bug in Windows (NT, CE, and 95) // that causes the DST bias to be added to all file times when the system // is in DST, even if the file is not in DST. This only effects old file // systems since they store local times instead of UTC times. Newer file // systems like NTFS and CEFS store UTC times. if (fOldFileSystem) { // We use the CRT's localtime() and Win32's FileTimeToLocalTime() // functions to compute the DST bias. This works because localtime() // correctly adds the DST bias only if the file time is in DST. // FileTimeToLocalTime() always adds the DST bias to the time. // Therefore, if the functions return different results, we know we // are dealing with a non-DST file during a system DST. FILETIME ftCRT, ftWin32; // Get the CRT result - result is a "tm" struct. struct tm *ptmCRT = localtime(&ut); // Convert the "tm" struct to a FILETIME. SYSTEMTIME stCRT; ZeroMemory(&stCRT, sizeof(stCRT)); stCRT.wYear = ptmCRT->tm_year + 1900; stCRT.wMonth = ptmCRT->tm_mon + 1; stCRT.wDay = ptmCRT->tm_mday; stCRT.wHour = ptmCRT->tm_hour; stCRT.wMinute = ptmCRT->tm_min; stCRT.wSecond = ptmCRT->tm_sec; SystemTimeToFileTime(&stCRT, &ftCRT); // Get the Win32 result - result is a FILETIME. if (FileTimeToLocalFileTime(pft, &ftWin32)) { // Subtract the difference from our current filetime. *(DWORDLONG*)pft -= *(DWORDLONG*)&ftWin32 - *(DWORDLONG*)&ftCRT; } } } //****************************************************************************** int GetFileTimes(struct Globals *pG, FILETIME *pftCreated, FILETIME *pftAccessed, FILETIME *pftModified) { // We need to check to see if this file system is limited. This includes // FAT, VFAT, and HPFS. It does not include NTFS and CEFS. The limited // file systems can not support dates < 1980 and they store file local times // for files as opposed to UTC times. BOOL fOldFileSystem = IsOldFileSystem(pG->filename); #ifdef USE_EF_UT_TIME // Always true for WinCE build if (pG->extra_field) { // Structure for Unix style actime, modtime, creatime iztimes z_utime; // Get any date/time we can. This can return 0 to 3 unix time fields. unsigned eb_izux_flg = ef_scan_for_izux(pG->extra_field, pG->lrec.extra_field_length, 0, pG->lrec.last_mod_file_date, &z_utime, NULL); // We require at least a modified time. if (eb_izux_flg & EB_UT_FL_MTIME) { // We know we have a modified time, so get it first. utimeToFileTime(z_utime.mtime, pftModified, fOldFileSystem); // Get the accessed time if we have one. if (eb_izux_flg & EB_UT_FL_ATIME) { utimeToFileTime(z_utime.atime, pftAccessed, fOldFileSystem); } // Get the created time if we have one. if (eb_izux_flg & EB_UT_FL_CTIME) { utimeToFileTime(z_utime.ctime, pftCreated, fOldFileSystem); } // Return our flags. return (int)eb_izux_flg; } } #endif // USE_EF_UT_TIME // If all else fails, we can resort to using the DOS date and time data. time_t ux_modtime = dos_to_unix_time(G.lrec.last_mod_file_date, G.lrec.last_mod_file_time); utimeToFileTime(ux_modtime, pftModified, fOldFileSystem); *pftAccessed = *pftModified; return (EB_UT_FL_MTIME | EB_UT_FL_ATIME); } //****************************************************************************** void close_outfile(struct Globals *pG) { // Get the 3 time stamps for the file. FILETIME ftCreated, ftAccessed, ftModified; int timeFlags = GetFileTimes(pG, &ftCreated, &ftAccessed, &ftModified); TCHAR szFile[_MAX_PATH]; mbstowcs(szFile, pG->filename, countof(szFile)); #ifdef _WIN32_WCE // Cast the outfile to a HANDLE (since that is really what it is), and // flush the file. We need to flush, because any unsaved data that is // written to the file during CloseHandle() will step on the work done // by SetFileTime(). HANDLE hFile = (HANDLE)pG->outfile; FlushFileBuffers(hFile); #else // Close the file and then re-open it using the Win32 CreateFile() call. // SetFileTime() requires a Win32 file HANDLE created with GENERIC_WRITE // access. fclose(pG->outfile); HANDLE hFile = CreateFile(szFile, GENERIC_WRITE, FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); #endif // Set the file's date and time. if (hFile != INVALID_HANDLE_VALUE) { // Make sure we retrieved some valid time stamp(s) if (timeFlags) { // Set the various date and time fields. if (!SetFileTime(hFile, (timeFlags & EB_UT_FL_CTIME) ? &ftCreated : NULL, (timeFlags & EB_UT_FL_ATIME) ? &ftAccessed : NULL, (timeFlags & EB_UT_FL_MTIME) ? &ftModified : NULL)) { DebugOut(TEXT("SetFileTime() failed [%u]"), GetLastError()); } } else { DebugOut(TEXT("GetFileTimes() failed")); } // Close out file. CloseHandle(hFile); } else { DebugOut(TEXT("CreateFile() failed [%u]"), GetLastError()); } // If the file was successfully written, then set the attributes. if (!pG->disk_full && !g_pExtractInfo->fAbort) { if (!SetFileAttributes(szFile, G.pInfo->file_attr & 0x7F)) { DebugOut(TEXT("SetFileAttributes() failed [%u]"), GetLastError()); } } // Clear outfile so we know it is closed. pG->outfile = 0; return; } //****************************************************************************** // Called by PROCESS.C char* do_wild(struct Globals *pG, char *wildspec) { // This is a very slimmed down version of do_wild() taken from WIN32.C. // Since we don't support wildcards, we basically just return the wildspec // passed in as the filename. // First call - must initialize everything. if (!pG->notfirstcall) { pG->notfirstcall = TRUE; return strcpy(pG->matchname, wildspec); } // Last time through - reset for new wildspec. pG->notfirstcall = FALSE; return (char*)NULL; } //****************************************************************************** // Called from EXTRACT.C // // returns: 1 - (on APPEND_NAME) truncated filename // 2 - path doesn't exist, not allowed to create // 3 - path doesn't exist, tried to create and failed; or // path exists and is not a directory, but is supposed to be // 4 - path is too long // 10 - can't allocate memory for filename buffers // // IZ_VOL_LABEL - Path was a volume label, skip it. // IZ_CREATED_DIR - Created a directory. // int mapname(struct Globals *pG, int renamed) { // mapname() is a great place to reset all our status counters for the next // file to be processed since it is called for every zip file member before // any work is done with that member. SetCurrentFile(pG); // If Volume Label, skip the "extraction" quietly if (pG->pInfo->vollabel) { return IZ_VOL_LABEL; } CHAR szBuffer[countof(pG->filename)] = "", *pIn, *pOut, *pLastSemi = NULL; // Initialize file path buffer with our "extract to" path. strcpy(szBuffer, g_szExtractToDirectory); pOut = szBuffer + strlen(szBuffer); // Point pIn to beginning of our internal pathname. // If we are junking paths, then locate the file portion of the path. pIn = (pG->jflag) ? (CHAR*)GetFileFromPath(pG->filename) : pG->filename; // Begin main loop through characters in filename. for ( ; *pIn; pIn++) { // Make sure we don't overflow our output buffer. if (pOut >= (szBuffer + countof(szBuffer) - 2)) { Info(slide, 1, ((char*)slide, "path too long: %s\n", pG->filename)); return 4; } // Examine the next character in our input buffer. switch (*pIn) { // Check for a directory wack. case '/': case '\\': *pOut = '\0'; if (!SmartCreateDirectory(pG, szBuffer)) { Info(slide, 1, ((char*)slide, "failure extracting: %s\n", pG->filename)); return 3; } *(pOut++) = '\\'; pLastSemi = NULL; // Leave any directory semi-colons alone break; // Check for illegal characters and replace with underscore. case ':': case '*': case '?': case '"': case '<': case '>': case '|': *(pOut++) = '_'; break; // Check for start of VMS version. case ';': pLastSemi = pOut; // Make note as to where we are. *(pOut++) = *pIn; // Leave the semi-colon alone for now. break; default: // Allow European characters and spaces in filenames. *(pOut++) = ((*pIn >= 0x20) ? *pIn : '_'); } } // Done with output buffer, terminate it. *pOut = '\0'; // Remove any VMS version numbers if found (appended ";###"). if (pLastSemi) { // Walk over all digits following the semi-colon. for (pOut = pLastSemi + 1; (*pOut >= '0') && (*pOut <= '9'); pOut++) { } // If we reached the end, then nuke the semi-colon and digits. if (!*pOut) { *pLastSemi = '\0'; } } // Copy the mapped name back to the internal path buffer strcpy(pG->filename, szBuffer); // Fill in the mapped name buffer if the original caller requested us to. if (g_pExtractInfo->szMappedPath) { strcpy(g_pExtractInfo->szMappedPath, szBuffer); } // If it is a directory, then display the "creating" status text. if ((pOut > szBuffer) && (pOut[-1] == TEXT('\\'))) { Info(slide, 0, ((char *)slide, "creating: %s\n", pG->filename)); return IZ_CREATED_DIR; } return PK_OK; } //****************************************************************************** // Called from EXTRACT.C int test_NT(struct Globals *pG, uch *eb, unsigned eb_size) { // This function is called when an NT security descriptor is found in the // extra field. We have nothing to do, so we just return success. return PK_OK; } //****************************************************************************** // Called from PROCESS.C int checkdir(struct Globals *pG, char *pathcomp, int flag) { // This function is only called by free_G_buffers() from PROCESS.C with the // flag set to END. We have nothing to do, so we just return success. return PK_OK; } //****************************************************************************** // Called from EXTRACT.C and LIST.C int match(char *string, char *pattern, int ignore_case) { // match() for the other ports compares a file in the Zip file with some // command line file pattern. In our case, we always pass in exact matches, // so we can simply do a string compare to see if we have a match. return (strcmp(string, pattern) == 0); } //****************************************************************************** // Called from PROCESS.C int iswild(char *pattern) { // Our file patterns never contain wild characters. They are always exact // matches of file names in our Zip file. return FALSE; } //****************************************************************************** //***** Functions to correct time stamp bugs on old file systems. //****************************************************************************** //****************************************************************************** // Borrowed/Modified from win32.c BOOL IsOldFileSystem(char *szPath) { #ifdef _WIN32_WCE char szRoot[10]; // Get the first nine characters of the path. strncpy(szRoot, szPath, 9); szRoot[9] = '\0'; // Convert to uppercase to help with compare. _strupr(szRoot); // PC Cards are mounted off the root in a directory called "\PC Cards". // PC Cards are FAT, no CEOS. We need to check if the file is being // extracted to the PC card. return !strcmp(szRoot, "\\PC CARD\\"); #else char szRoot[_MAX_PATH] = "\0\0\0", szFS[64]; // Check to see if our path contains a drive letter. if (isalpha(szPath[0]) && (szPath[1] == ':') && (szPath[2] == '\\')) { // If so, then just copy the drive letter, colon, and wack to our root path. strncpy(szRoot, szPath, 3); } else { // Expand the path so we can get a drive letter. GetFullPathNameA(szPath, sizeof(szRoot), szRoot, NULL); // Make sure we actually got a drive letter back in our root path buffer.. if (!isalpha(szRoot[0]) || (szRoot[1] != ':') || (szRoot[2] != '\\')) { // When in doubt, return TRUE. return TRUE; } } // NULL terminate after the wack to ensure we have just the root path. szRoot[3] = '\0'; // Get the file system type string. GetVolumeInformationA(szRoot, NULL, 0, NULL, NULL, NULL, szFS, sizeof(szFS)); // Ensure that the file system type string is uppercase. strupr(szFS); // Return true for (V)FAT and (OS/2) HPFS format. return !strncmp(szFS, "FAT", 3) || !strncmp(szFS, "VFAT", 4) || !strncmp(szFS, "HPFS", 4); #endif // _WIN32_WCE }