/*
Copyright (c) 1990-2005 Info-ZIP. All rights reserved.
See the accompanying file LICENSE, version 2000-Apr-09 or later
(the contents of which are also included in unzip.h) for terms of use.
If, for some reason, all these files are missing, the Info-ZIP license
also may be found at: ftp://ftp.info-zip.org/pub/infozip/license.html
*/
//******************************************************************************
//
// 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 "Uz_Globs".
//
// 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
// directories, 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. As of June 1999, Steve P. Miller has agreed to apply
// the Info-ZIP License (see citation on top of this module)
// to his work. See the contents of this License for terms
// and conditon of using the product "Pocket UnZip".
//
// 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 or the Info-ZIP
// mailing list Zip-Bugs@lists.wku.edu.
//
// Functions: DoListFiles
// DoExtractOrTestFiles
// DoGetComment
// SetExtractToDirectory
// InitGlobals
// FreeGlobals
// ExtractOrTestFilesThread
// IsFileOrDirectory
// SmartCreateDirectory
// CheckForAbort2
// SetCurrentFile
// UzpMessagePrnt2
// UzpInput2
// UzpMorePause
// UzpPassword
// UzpReplace
// UzpSound
// SendAppMsg
// win_fprintf
// test_NT
// utimeToFileTime
// GetFileTimes
// IsOldFileSystem
// SetFileSize
// close_outfile
// do_wild
// mapattr
// mapname
// checkdir
// match
// iswild
// conv_to_rule
// GetPlatformLocalTimezone
//
//
// Date Name History
// -------- ------------ -----------------------------------------------------
// 02/01/97 Steve Miller Created (Version 1.0 using Info-ZIP UnZip 5.30)
// 08/01/99 Johnny Lee, Christian Spieler, Steve Miller, and others
// Adapted to UnZip 5.41 (Version 1.1)
// 12/01/02 Chr. Spieler Updated interface for UnZip 5.50
// 02/23/05 Chr. Spieler Modified and optimized utimeToFileTime() to support
// the NO_W32TIMES_IZFIX compilation option
//
//*****************************************************************************
//*****************************************************************************
// 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_EAS
//
// USE_SMITH_CODE (optional - See INSTALL document)
// LZW_CLEAN (optional - See INSTALL document)
// NO_W32TIMES_IZFIX (optional - See INSTALL 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)
//
//****************************************************************************/
extern "C" {
#define __INTRFACE_CPP__
#define UNZIP_INTERNAL
#include "unzip.h"
#include "crypt.h" // Needed to pick up CRYPT define
#include <commctrl.h>
#include "intrface.h"
#include "winmain.h"
#ifndef _WIN32_WCE
#include <process.h> // _beginthreadex() and _endthreadex()
#endif
}
#include <tchar.h> // Must be outside of extern "C" block
#ifdef POCKET_UNZIP
//******************************************************************************
//***** "Local" Global Variables
//******************************************************************************
static USERFUNCTIONS g_uf;
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
//******************************************************************************
// Internal functions of the GUI interface.
static Uz_Globs* InitGlobals(LPCSTR szZipFile);
static void FreeGlobals(Uz_Globs *pG);
#ifdef _WIN32_WCE
static DWORD WINAPI ExtractOrTestFilesThread(LPVOID lpv);
#else
static unsigned __stdcall ExtractOrTestFilesThread(void *lpv);
#endif
static void SetCurrentFile(__GPRO);
#endif // POCKET_UNZIP
// Internal helper functions for the UnZip core.
static int IsFileOrDirectory(LPCTSTR szPath);
static BOOL SmartCreateDirectory(__GPRO__ LPCSTR szDirectory, BOOL *pNewDir);
static void utimeToFileTime(time_t ut, FILETIME *pft, BOOL fOldFileSystem);
static int GetFileTimes(Uz_Globs *pG, FILETIME *pftCreated,
FILETIME *pftAccessed, FILETIME *pftModified);
// Check for FAT, VFAT, HPFS, etc.
static BOOL IsOldFileSystem(char *szPath);
#ifdef POCKET_UNZIP
extern "C" {
// Local variants of callbacks from Info-ZIP code.
// (These functions are not referenced by name outside this source module.)
int UZ_EXP UzpMessagePrnt2(zvoid *pG, uch *buffer, ulg size, int flag);
int UZ_EXP UzpInput2(zvoid *pG, uch *buffer, int *size, int flag);
int UZ_EXP CheckForAbort2(zvoid *pG, int fnflag, ZCONST char *zfn,
ZCONST char *efn, ZCONST zvoid *details);
int WINAPI UzpReplace(LPSTR szFile);
void WINAPI UzpSound(void);
void WINAPI SendAppMsg(ulg dwSize, ulg dwCompressedSize, unsigned ratio,
unsigned month, unsigned day, unsigned year,
unsigned hour, unsigned minute, char uppercase,
LPSTR szPath, LPSTR szMethod, ulg dwCRC, char chCrypt);
} // 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.
Uz_Globs *pG = InitGlobals(szZipFile);
if (!pG) {
return PK_MEM;
}
pG->UzO.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 EXTRACT_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.
Uz_Globs *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 szZipFile) {
int result;
// Create our Globals struct and fill it in with some default values.
Uz_Globs *pG = InitGlobals(szZipFile);
if (!pG) {
return PK_MEM;
}
pG->UzO.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.
TSTRTOMBS(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
//******************************************************************************
static Uz_Globs* InitGlobals(LPCSTR szZipFile)
{
// Create our global structure - pG
CONSTRUCTGLOBALS();
// Bail out if we failed to allocate our Globals structure.
if (!pG) {
return NULL;
}
// Clear our USERFUNCTIONS structure
ZeroMemory(&g_uf, sizeof(g_uf));
// Initialize a global pointer to our USERFUNCTIONS structure that is
// used by WINMAIN.CPP to access it (without using the pG construction).
lpUserFunctions = &g_uf;
// Store a global pointer to our USERFUNCTIONS structure in pG so that
// the generic Info-ZIP code LIST.C and PROCESS.C can access it.
pG->lpUserFunctions = &g_uf;
// Fill in all our callback functions.
pG->message = UzpMessagePrnt2;
pG->input = UzpInput2;
pG->mpause = UzpMorePause;
pG->statreportcb = CheckForAbort2;
pG->lpUserFunctions->replace = UzpReplace;
pG->lpUserFunctions->sound = UzpSound;
pG->lpUserFunctions->SendApplicationMessage = SendAppMsg;
#if CRYPT
pG->decr_passwd = UzpPassword;
#endif
// Match filenames case-sensitively. We can do this since we can guarantee
// exact case because the user can only select files via our UI.
pG->UzO.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;
}
//******************************************************************************
static void FreeGlobals(Uz_Globs *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();
}
//******************************************************************************
#ifdef _WIN32_WCE
// On WinCE, we declare our thread function the way CreateThread() likes it.
static DWORD WINAPI ExtractOrTestFilesThread(LPVOID lpv)
#else
// On WinNT, we declare our thread function the way _beginthreadex likes it.
static unsigned __stdcall ExtractOrTestFilesThread(void *lpv)
#endif
{
Uz_Globs *pG = (Uz_Globs*)lpv;
if (g_pExtractInfo->fExtract) {
pG->extract_flag = TRUE;
switch (g_pExtractInfo->overwriteMode) {
case OM_NEWER: // Update (extract only newer/brand-new files)
pG->UzO.uflag = TRUE;
break;
case OM_ALWAYS: // OK to overwrite files without prompting
pG->UzO.overwrite_all = TRUE;
break;
case OM_NEVER: // Never overwrite files (no prompting)
pG->UzO.overwrite_none = TRUE;
break;
default: // Force a prompt
pG->UzO.overwrite_all = FALSE;
pG->UzO.overwrite_none = FALSE;
pG->UzO.uflag = FALSE;
break;
}
// Throw away paths if requested.
pG->UzO.jflag = !g_pExtractInfo->fRestorePaths;
} else {
pG->UzO.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;
}
// 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;
}
//******************************************************************************
static void SetCurrentFile(__GPRO)
{
// Reset all our counters as we about to process a new file.
g_pExtractInfo->dwFileOffset = (DWORD)G.pInfo->offset;
g_pExtractInfo->dwFile++;
g_pExtractInfo->dwBytesWrittenThisFile = 0;
g_pExtractInfo->dwBytesWrittenPreviousFiles += g_pExtractInfo->dwBytesTotalThisFile;
g_pExtractInfo->dwBytesTotalThisFile = G.lrec.ucsize;
g_pExtractInfo->szFile = G.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.
}
#endif // POCKET_UNZIP
//******************************************************************************
static 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);
}
//******************************************************************************
static BOOL SmartCreateDirectory(__GPRO__ LPCSTR szDirectory, BOOL *pNewDir)
{
// Copy path to a UNICODE buffer.
TCHAR szBuffer[_MAX_PATH];
MBSTOTSTR(szBuffer, szDirectory, countof(szBuffer));
switch (IsFileOrDirectory(szBuffer)) {
case 0:
// Create the directory if it does not exist.
if (!CreateDirectory(szBuffer, NULL)) {
Info(slide, 1, ((char *)slide, "error creating directory: %s\n",
FnFilter1( szDirectory)));
return FALSE;
}
if (pNewDir != NULL) *pNewDir = TRUE;
break;
case 1:
// If there is a file with the same name, then display an error.
Info(slide, 1, ((char *)slide,
"cannot create %s as a file with same name already exists.\n",
FnFilter1(szDirectory)));
return FALSE;
}
// If the directory already exists or was created, then return success.
return TRUE;
}
#ifdef POCKET_UNZIP
//******************************************************************************
//***** Callbacks from Info-ZIP code.
//******************************************************************************
int UZ_EXP 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 {
#ifdef UNICODE
DebugOut(TEXT("Unhandled call to UzpMessagePrnt2(\"%S\")"), buffer);
#else
DebugOut(TEXT("Unhandled call to UzpMessagePrnt2(\"%s\")"), buffer);
#endif
}
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)((Uz_Globs*)pG)->pInfo->offset) {
SetCurrentFile((Uz_Globs*)pG);
}
// Make sure this message was intended 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;
LPSTR pszn;
while ((pszn = MBSCHR(psz, ' ')) != NULL) {
for (psz = pszn+1; *psz == ' '; psz++);
if (*psz == '\0') {
*pszn = '\0';
break;
}
}
// 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 UZ_EXP UzpInput2(zvoid *pG, uch *buffer, int *size, int flag)
{
DebugOut(TEXT("WARNING: UzpInput2(...) called"));
return 0;
}
//******************************************************************************
void UZ_EXP UzpMorePause(zvoid *pG, const char *szPrompt, int flag)
{
DebugOut(TEXT("WARNING: UzpMorePause(...) called"));
}
//******************************************************************************
int UZ_EXP 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 UZ_EXP CheckForAbort2(zvoid *pG, int fnflag, ZCONST char *zfn,
ZCONST char *efn, ZCONST zvoid *details)
{
int rval = UZ_ST_CONTINUE;
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)((Uz_Globs *)pG)->outfile != 0) &&
((int)((Uz_Globs *)pG)->outfile != -1)) {
if (g_pExtractInfo->fExtract && *efn) {
// 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)efn);
SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT,
(LPARAM)" is probably truncated.\n");
}
}
// Display an aborted message in the log
SendMessage(g_hWndMain, WM_PRIVATE, MSG_ADD_TEXT_TO_EDIT,
(LPARAM)"Operation aborted by user.\n");
// Signal "Immediate Cancel" back to the UnZip engine.
rval = UZ_ST_BREAK;
}
return rval;
}
//******************************************************************************
int WINAPI UzpReplace(LPSTR 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, unsigned ratio,
unsigned month, unsigned day, unsigned year,
unsigned hour, unsigned minute, char uppercase,
LPSTR szPath, LPSTR szMethod, ulg dwCRC, char chCrypt)
{
// 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.
GETGLOBALS();
// 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(CHAR) * length)];
// Bail out if we failed to allocate the node.
if (!g_pFileLast) {
#ifdef UNICODE
DebugOut(TEXT("Failed to create a FILE_NODE for \"%S\"."), szPath);
#else
DebugOut(TEXT("Failed to create a FILE_NODE for \"%s\"."), szPath);
#endif
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 (chCrypt == 'E') {
g_pFileLast->dwAttributes |= ZFILE_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(zvoid *pG, 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 dwBytesWritten = 0;
#if (defined(_WIN32_WCE) && (_WIN32_WCE < 211))
// On WinCE all FILEs are really HANDLEs. See WINCE.CPP for more info.
WriteFile((HANDLE)file, buffer, dwCount, &dwBytesWritten, NULL);
#else
dwBytesWritten = fwrite(buffer, 1, dwCount, file);
#endif
// Update our bytes written count.
g_pExtractInfo->dwBytesWrittenThisFile += dwBytesWritten;
// 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);
return dwBytesWritten;
}
// 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.
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 (except tab, new line,
// and CR) to ^char.
int size = 1;
for (char *p2, *p1 = buffer; *p1; INCSTR(p1)) {
size += ((*p1 >= 32) || (*p1 == '\t') ||
(*p1 == '\r') || (*p1 == '\n')) ? CLEN(p1) : 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; INCSTR(p1)) {
if ((*p1 >= 32) || (*p1 == '\t') ||
(*p1 == '\r') || (*p1 == '\n')) {
memcpy(p2, p1, CLEN(p1));
p2 += CLEN(p1);
} else {
*(p2++) = '^';
*(p2++) = 64 + *p1;
}
}
*p2 = '\0';
}
// Update the attributes of the file node to include the comment attribute.
g_pFileLast->dwAttributes |= ZFILE_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';
}
#ifdef UNICODE
DebugOut(TEXT("Unhandled call to win_fprintf(\"%S\")"), buffer);
#else
DebugOut(TEXT("Unhandled call to win_fprintf(\"%S\")"), buffer);
#endif
return dwCount;
}
//******************************************************************************
void WINAPI Wiz_NoPrinting(int f) {
// Do nothing.
}
#endif // POCKET_UNZIP
//******************************************************************************
//***** Functions that Info-ZIP expects the port to write and export.
//***** Some of this code was stolen from the WIN32 port and highly modified.
//******************************************************************************
#ifdef NTSD_EAS
#ifndef SFX
//******************************************************************************
// Called from EXTRACT.C
int test_NTSD(__GPRO__ 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;
}
#endif /* !SFX */
#endif /* NTSD_EAS */
static 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 unsigned 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;
}
#ifndef NO_W32TIMES_IZFIX
// 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)
#endif
{
// We use the CRT's localtime() and Win32's LocalTimeToFileTime()
// functions to compute a FILETIME value that always shows the correct
// local time in Windows' file listings. 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 lftCRT;
// Get the CRT result - result is a "tm" struct.
struct tm *ptmCRT = localtime(&ut);
// Check if localtime() returned something useful; continue with the
// "NewFileSystem" code in case of an error. This failsafe method
// should give an "almost" correct filetime result.
if (ptmCRT != (struct tm *)NULL) {
// Convert the "tm" struct to a FILETIME.
SYSTEMTIME stCRT;
ZeroMemory(&stCRT, sizeof(stCRT));
if (fOldFileSystem && (ptmCRT->tm_year < 80)) {
stCRT.wYear = 1980;
stCRT.wMonth = 1;
stCRT.wDay = 1;
stCRT.wHour = 0;
stCRT.wMinute = 0;
stCRT.wSecond = 0;
} else {
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, &lftCRT);
LocalFileTimeToFileTime(&lftCRT, pft);
// we are finished!
return;
}
}
// For "Modern" file system that stores timestamps in UTC (or as second
// chance in case of localtime() errors) the conversion of time_t into
// 64-bit FILETIME is a simple arithmetic rescaling calculation.
// Compute the FILETIME for the given time_t.
DWORDLONG dwl = ((DWORDLONG)116444736000000000 +
((DWORDLONG)ut * (DWORDLONG)10000000));
// Store the return value.
*pft = *(FILETIME*)&dwl;
}
//******************************************************************************
static int GetFileTimes(__GPRO__ 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(G.filename);
#ifdef USE_EF_UT_TIME // Always true for WinCE build
#ifdef IZ_CHECK_TZ
if (G.extra_field && G.tz_is_valid) {
#else
if (G.extra_field) {
#endif
// 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(G.extra_field,
G.lrec.extra_field_length, 0,
G.lrec.last_mod_dos_datetime,
&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_dos_datetime);
utimeToFileTime(ux_modtime, pftModified, fOldFileSystem);
*pftAccessed = *pftModified;
return (EB_UT_FL_MTIME | EB_UT_FL_ATIME);
}
//******************************************************************************
//***** Functions to correct time stamp bugs on old file systems.
//******************************************************************************
//******************************************************************************
// Borrowed/Modified from win32.c
static 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
}
//******************************************************************************
int SetFileSize(FILE *file, ulg filesize)
{
#if (defined(_WIN32_WCE) || defined(__RSXNT__))
// For native Windows CE, it is not known whether the API supports
// presetting a file's size.
// RSXNT environment lacks a translation function from C file pointer
// to Win32-API file handle.
// So, simply do nothing.
return 0;
#else /* !(_WIN32_WCE || __RSXNT__) */
/* not yet verified, if that really creates an unfragmented file
rommel@ars.de
*/
HANDLE os_fh;
/* Win9x supports FAT file system, only; presetting file size does
not help to prevent fragmentation. */
if ((long)GetVersion() < 0) return 0;
/* Win32-API calls require access to the Win32 file handle.
The interface function used to retrieve the Win32 handle for
a file opened by the C rtl is non-standard and may not be
available for every Win32 compiler environment.
(see also win32/win32.c of the Zip distribution)
*/
os_fh = (HANDLE)_get_osfhandle(fileno(file));
/* move file pointer behind the last byte of the expected file size */
if (SetFilePointer(os_fh, filesize, 0, FILE_BEGIN) == 0xFFFFFFFF)
return -1;
/* extend/truncate file to the current position */
if (SetEndOfFile(os_fh) == 0)
return -1;
/* move file position pointer back to the start of the file! */
return (SetFilePointer(os_fh, 0, 0, FILE_BEGIN) == 0xFFFFFFFF) ? -1 : 0;
#endif /* ?(_WIN32_WCE || __RSXNT__) */
} /* end function SetFileSize() */
//******************************************************************************
void close_outfile(__GPRO)
{
HANDLE hFile;
// Get the 3 time stamps for the file.
FILETIME ftCreated, ftAccessed, ftModified;
int timeFlags = GetFileTimes(__G__ &ftCreated, &ftAccessed, &ftModified);
TCHAR szFile[_MAX_PATH];
MBSTOTSTR(szFile, G.filename, countof(szFile));
#if (defined(_WIN32_WCE) && (_WIN32_WCE < 211))
// 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().
hFile = (HANDLE)G.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(G.outfile);
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.
#ifdef POCKET_UNZIP
if (!G.disk_full && !g_pExtractInfo->fAbort) {
#else
if (!G.disk_full) {
#endif
if (!SetFileAttributes(szFile, G.pInfo->file_attr & 0x7F)) {
DebugOut(TEXT("SetFileAttributes() failed [%u]"), GetLastError());
}
}
// Clear outfile so we know it is closed.
G.outfile = 0;
return;
}
//******************************************************************************
// Called by PROCESS.C
char* do_wild(__GPRO__ ZCONST 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.
#ifndef POCKET_UNZIP
// Delete allocated storage for the match name
if (G.matchname != NULL)
{
delete G.matchname;
G.matchname = NULL;
}
#endif
// First call - must initialize everything.
if (!G.notfirstcall) {
G.notfirstcall = TRUE;
#ifdef POCKET_UNZIP
return strcpy(G.matchname, wildspec);
#else
// allocate some storage for the match name
G.matchname = new char[strlen(wildspec) + 1];
if (G.matchname != NULL)
return strcpy(G.matchname, wildspec);
#endif
}
// Last time through - reset for new wildspec.
G.notfirstcall = FALSE;
return (char *)NULL;
}
//******************************************************************************
// Called from EXTRACT.C
int mapattr(__GPRO)
{
#ifdef POCKET_UNZIP
// 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.
G.pInfo->file_attr = FILE_ATTRIBUTE_READONLY;
} else
#endif
{
/* set archive bit for file entries (file is not backed up): */
G.pInfo->file_attr = ((unsigned)G.crec.external_file_attributes |
(G.crec.external_file_attributes & FILE_ATTRIBUTE_DIRECTORY ?
0 : FILE_ATTRIBUTE_ARCHIVE)) & 0xff;
}
return 0;
} /* end function mapattr() */
//******************************************************************************
// Called from EXTRACT.C
//
// returns:
// MPN_OK - no problem detected
// MPN_INF_TRUNC - (on APPEND_NAME) truncated filename
// MPN_INF_SKIP - path doesn't exist, not allowed to create
// MPN_ERR_SKIP - path doesn't exist, tried to create and failed; or path
// exists and is not a directory, but is supposed to be
// MPN_ERR_TOOLONG - path is too long
// MPN_NOMEM - can't allocate memory for filename buffers
//
// MPN_VOL_LABEL - Path was a volume label, skip it.
// MPN_CREATED_DIR - Created a directory.
//
int mapname(__GPRO__ int renamed)
{
int error = MPN_OK;
CHAR szBuffer[countof(G.filename)] = "";
CHAR *pIn = NULL, *pOut, *pLastSemi = NULL;
CHAR *pPathComp, workch;
BOOL killed_ddot = FALSE, renamed_fullpath = FALSE, created_dir = FALSE;
#ifdef POCKET_UNZIP
// 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(__G);
#endif
// If Volume Label, skip the "extraction" quietly
if (G.pInfo->vollabel) {
return MPN_VOL_LABEL;
}
#ifndef POCKET_UNZIP // The GUI interface does not support renaming...
if (renamed) {
pIn = G.filename; // point to beginning of renamed name...
if (*pIn) do {
if (*pIn == '\\') // convert backslashes to forward
*pIn = '/';
} while (*PREINCSTR(pIn));
pIn = G.filename;
// use temporary rootpath if user gave full pathname
if (G.filename[0] == '/') {
renamed_fullpath = TRUE;
szBuffer[0] = '\\'; // copy the '/' and terminate
szBuffer[1] = '\0';
++pIn;
} else if (isalpha((uch)G.filename[0]) && G.filename[1] == ':') {
renamed_fullpath = TRUE;
pOut = szBuffer;
*pOut++ = *pIn++; // copy the "d:" (+ '/', possibly)
*pOut++ = *pIn++;
if (*pIn == '/') {
*pOut++ = '\\';
pIn++; // otherwise add "./"?
}
*pOut = '\0';
}
}
#endif
// Initialize file path buffer with our "extract to" path.
if (!renamed_fullpath) {
#ifdef POCKET_UNZIP
strcpy(szBuffer, g_szExtractToDirectory);
#else
strcpy(szBuffer, G.rootpath);
#endif
pOut = szBuffer + strlen(szBuffer);
}
pPathComp = pOut;
if (!renamed) {
// Point pIn to beginning of our internal pathname.
// If we are junking paths, then locate the file portion of the path.
if (uO.jflag)
pIn = (CHAR*)MBSRCHR(G.filename, '/');
if (pIn == NULL)
pIn = G.filename;
else
++pIn;
}
// Begin main loop through characters in filename.
for ( ; (workch = *pIn) != '\0'; INCSTR(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",
FnFilter1(G.filename)));
return MPN_ERR_TOOLONG;
}
// Examine the next character in our input buffer.
switch (workch) {
// Check for a directory wack.
case '/':
*pOut = '\0';
// Skip dir traversals unless they are explicitely allowed.
if (strcmp(pPathComp, ".") == 0) {
// don't bother appending "./" to the path
*pPathComp = '\0';
} else if (!uO.ddotflag && strcmp(pPathComp, "..") == 0) {
// "../" dir traversal detected, skip over it
*pPathComp = '\0';
killed_ddot = TRUE; // set "show message" flag
}
// When path component is not empty, append it now.
if (*pPathComp == '\0') {
// Reset insert pos to start of path component.
pOut = pPathComp;
} else {
if (!SmartCreateDirectory(__G__ szBuffer, &created_dir)) {
Info(slide, 1, ((char*)slide, "failure extracting: %s\n",
FnFilter1(G.filename)));
return MPN_ERR_SKIP;
}
*(pOut++) = '\\';
pPathComp = pOut; // Remember start pos of new path component
}
pLastSemi = NULL; // Leave any directory semi-colons alone
break;
// Check for illegal characters and replace with underscore.
case ':':
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++) = ';'; // Leave the semi-colon alone for now.
break;
default:
// Allow European characters and spaces in filenames.
#ifdef _MBCS
if ((UCHAR)workch >= 0x20) {
memcpy(pOut, pIn, CLEN(pIn));
INCSTR(pOut);
} else {
*(pOut++) = '_';
}
#else
*(pOut++) = (((UCHAR)workch >= 0x20) ? workch : '_');
#endif
}
}
// Show warning when stripping insecure "parent dir" path components
if (killed_ddot && QCOND2) {
Info(slide, 0, ((char *)slide,
"warning: skipped \"../\" path component(s) in %s\n",
FnFilter1(G.filename)));
if (!(error & ~MPN_MASK))
error = (error & MPN_MASK) | PK_WARN;
}
// 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(G.filename, szBuffer);
#ifdef POCKET_UNZIP
// Fill in the mapped name buffer if the original caller requested us to.
if (g_pExtractInfo->szMappedPath) {
strcpy(g_pExtractInfo->szMappedPath, szBuffer);
}
#endif
// If it is a directory, then display the "creating" status text.
if ((pOut > szBuffer) && (lastchar(szBuffer, pOut-szBuffer) == '\\')) {
if (created_dir) {
#ifdef UNICODE
TCHAR szFile[_MAX_PATH];
MBSTOTSTR(szFile, G.filename, countof(szFile));
# define T_Fname szFile
#else
# define T_Fname G.filename
#endif
if (QCOND2) {
Info(slide, 0, ((char *)slide, " creating: %-22s\n",
FnFilter1(G.filename)));
}
// set file attributes:
// The default for newly created directories is "DIR attribute
// flags set", so there is no need to change attributes unless
// one of the DOS style attribute flags is set. There is no need
// to mask the readonly attribute, because it does not prevent
// modifications in the new directory.
if(G.pInfo->file_attr & (0x7F & ~FILE_ATTRIBUTE_DIRECTORY)) {
if (!SetFileAttributes(T_Fname, G.pInfo->file_attr & 0x7F))
Info(slide, 1, ((char *)slide,
"\nwarning (%d): could not set file attributes for %s\n",
(int)GetLastError(), FnFilter1(G.filename)));
}
/* set dir time (note trailing '/') */
return (error & ~MPN_MASK) | MPN_CREATED_DIR;
}
/* dir existed already; don't look for data to extract */
return (error & ~MPN_MASK) | MPN_INF_SKIP;
}
return error;
}
//******************************************************************************
// Called from PROCESS.C
int checkdir(__GPRO__ char *pathcomp, int flag) {
#ifdef POCKET_UNZIP
// 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 MPN_OK;
#else // !POCKET_UNZIP
# define FN_MASK 7
# define FUNCTION (flag & FN_MASK)
int rc = MPN_OK;
switch (FUNCTION) {
case ROOT:
{
// User specified a root path. save the root without separator
char* pathcompStart;
if (pathcomp == NULL) {
G.rootlen = 0; // trivial NULL clause...
break;
}
if (G.rootlen > 0)
break; // nothing to do, rootpath was already set
G.rootlen = strlen(pathcomp);
pathcompStart = pathcomp;
// Strip the drive if given. CE does not support Drive
if (pathcomp[1] == ':') {
G.rootlen -= 2;
pathcompStart += 2;
}
// Check for trailing separator, Strip if given
// accomodate it if required.
if (pathcomp[G.rootlen - 1] == '/' || pathcomp[G.rootlen - 1] == '\\')
G.rootlen--;
// Save the root
memcpy(G.rootpath, pathcompStart, G.rootlen);
G.rootpath[G.rootlen] = '\0';
// Check if directory exists and try to create when neccessary.
if (!SmartCreateDirectory(__G__ G.rootpath, NULL)) {
rc = MPN_ERR_SKIP; // Create directory failed
}
// Add trailing path separator
G.rootpath[G.rootlen++] = '\\';
G.rootpath[G.rootlen] = '0';
break;
}
case END:
Trace((stderr, "freeing rootpath\n"));
if (G.rootlen > 0) {
G.rootlen = 0;
G.rootpath[0] = '\0';
}
break;
default:
rc = MPN_INVALID; /* should never reach */
break;
}
return rc;
#endif // !POCKET_UNZIP
} /* end function checkdir() */
#ifdef POCKET_UNZIP
//******************************************************************************
// Called from EXTRACT.C and LIST.C
int match(ZCONST char *string, ZCONST char *pattern, int ignore_case __WDLPRO)
{
// 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(ZCONST char *pattern) {
// Our file patterns never contain wild characters. They are always exact
// matches of file names in our Zip file.
return FALSE;
}
#else // !POCKET_UNZIP
/************************/
/* Function version() */
/************************/
void version(__GPRO)
{
// Dummy function, does nothing.
}
#ifndef WINDLL
/* Console input not supported on CE so just return -1 */
int getch_win32(void)
{
return -1;
}
#endif /* !WINDLL */
#endif // !POCKET_UNZIP