/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Daniel Veditz * Samir Gehani * Mitch Stoltz * Jeroen Dobbelaere * Jeff Walden * Taras Glek * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* * This module implements a simple archive extractor for the PKZIP format. * * The underlying nsZipArchive is NOT thread-safe. Do not pass references * or pointers to it across thread boundaries. */ #define READTYPE PRInt32 #include "zlib.h" #include "nsISupportsUtils.h" #include "nsRecyclingAllocator.h" #include "prio.h" #include "plstr.h" #include "prlog.h" #include "stdlib.h" #include "nsWildCard.h" #include "nsZipArchive.h" #include "nsString.h" #include "mozilla/FunctionTimer.h" #include "prenv.h" #if defined(XP_WIN) #include #endif /** * Global allocator used with zlib. Destroyed in module shutdown. */ #define NBUCKETS 6 nsRecyclingAllocator *gZlibAllocator = NULL; // For placement new used for arena allocations of zip file list #include NEW_H #define ZIP_ARENABLOCKSIZE (1*1024) #ifdef XP_UNIX #include #include #include #include #elif defined(XP_WIN) || defined(XP_OS2) #include #endif #ifdef __SYMBIAN32__ #include #endif /*__SYMBIAN32__*/ #ifndef XP_UNIX /* we need some constants defined in limits.h and unistd.h */ # ifndef S_IFMT # define S_IFMT 0170000 # endif # ifndef S_IFLNK # define S_IFLNK 0120000 # endif # ifndef PATH_MAX # define PATH_MAX 1024 # endif #endif /* XP_UNIX */ using namespace mozilla; static const PRUint32 kMaxNameLength = PATH_MAX; /* Maximum name length */ // For synthetic zip entries. Date/time corresponds to 1980-01-01 00:00. static const PRUint16 kSyntheticTime = 0; static const PRUint16 kSyntheticDate = (1 + (1 << 5) + (0 << 9)); static PRUint16 xtoint(const PRUint8 *ii); static PRUint32 xtolong(const PRUint8 *ll); static PRUint32 HashName(const char* aName, PRUint16 nameLen); #ifdef XP_UNIX static nsresult ResolveSymlink(const char *path); #endif //*********************************************************** // Allocators for use with zlib // // Use a recycling allocator, for re-use of of the zlib buffers. // For every inflation the following allocations are done: // zlibAlloc(1, 9520) // zlibAlloc(32768, 1) //*********************************************************** static void * zlibAlloc(void *opaque, uInt items, uInt size) { nsRecyclingAllocator *zallocator = (nsRecyclingAllocator *)opaque; if (zallocator) { return gZlibAllocator->Malloc(items * size); } return malloc(items * size); } static void zlibFree(void *opaque, void *ptr) { nsRecyclingAllocator *zallocator = (nsRecyclingAllocator *)opaque; if (zallocator) zallocator->Free(ptr); else free(ptr); } nsresult gZlibInit(z_stream *zs) { memset(zs, 0, sizeof(z_stream)); //-- ensure we have our zlib allocator for better performance if (!gZlibAllocator) { gZlibAllocator = new nsRecyclingAllocator(NBUCKETS, NS_DEFAULT_RECYCLE_TIMEOUT, "libjar"); } if (gZlibAllocator) { zs->zalloc = zlibAlloc; zs->zfree = zlibFree; zs->opaque = gZlibAllocator; } int zerr = inflateInit2(zs, -MAX_WBITS); if (zerr != Z_OK) return NS_ERROR_OUT_OF_MEMORY; return NS_OK; } nsZipHandle::nsZipHandle() : mFileData(nsnull) , mLen(0) , mMap(nsnull) , mRefCnt(0) { MOZ_COUNT_CTOR(nsZipHandle); } NS_IMPL_THREADSAFE_ADDREF(nsZipHandle) NS_IMPL_THREADSAFE_RELEASE(nsZipHandle) nsresult nsZipHandle::Init(nsILocalFile *file, nsZipHandle **ret) { mozilla::AutoFDClose fd; nsresult rv = file->OpenNSPRFileDesc(PR_RDONLY, 0000, &fd); if (NS_FAILED(rv)) return rv; PRInt64 size = PR_Available64(fd); if (size >= PR_INT32_MAX) return NS_ERROR_FILE_TOO_BIG; PRFileMap *map = PR_CreateFileMap(fd, size, PR_PROT_READONLY); if (!map) return NS_ERROR_FAILURE; PRUint8 *buf = (PRUint8*) PR_MemMap(map, 0, (PRUint32) size); // Bug 525755: PR_MemMap fails when fd points at something other than a normal file. if (!buf) { PR_CloseFileMap(map); return NS_ERROR_FAILURE; } nsRefPtr handle = new nsZipHandle(); if (!handle) { PR_MemUnmap(buf, (PRUint32) size); PR_CloseFileMap(map); return NS_ERROR_OUT_OF_MEMORY; } handle->mMap = map; handle->mFile = file; handle->mLen = (PRUint32) size; handle->mFileData = buf; *ret = handle.forget().get(); return NS_OK; } nsresult nsZipHandle::Init(nsZipArchive *zip, const char *entry, nsZipHandle **ret) { nsRefPtr handle = new nsZipHandle(); if (!handle) return NS_ERROR_OUT_OF_MEMORY; handle->mBuf = new nsZipItemPtr(zip, entry); if (!handle->mBuf) return NS_ERROR_OUT_OF_MEMORY; if (!handle->mBuf->Buffer()) return NS_ERROR_UNEXPECTED; handle->mMap = nsnull; handle->mLen = handle->mBuf->Length(); handle->mFileData = handle->mBuf->Buffer(); *ret = handle.forget().get(); return NS_OK; } nsZipHandle::~nsZipHandle() { if (mMap) { PR_MemUnmap((void *)mFileData, mLen); PR_CloseFileMap(mMap); } mFileData = nsnull; mMap = nsnull; mBuf = nsnull; MOZ_COUNT_DTOR(nsZipHandle); } //*********************************************************** // nsZipArchive -- public methods //*********************************************************** //--------------------------------------------- // nsZipArchive::OpenArchive //--------------------------------------------- nsresult nsZipArchive::OpenArchive(nsZipHandle *aZipHandle) { mFd = aZipHandle; // Initialize our arena PL_INIT_ARENA_POOL(&mArena, "ZipArena", ZIP_ARENABLOCKSIZE); //-- get table of contents for archive nsresult rv = BuildFileList(); char *env = PR_GetEnv("MOZ_JAR_LOG_DIR"); if (env && NS_SUCCEEDED(rv) && aZipHandle->mFile) { nsCOMPtr logFile; nsresult rv2 = NS_NewLocalFile(NS_ConvertUTF8toUTF16(env), PR_FALSE, getter_AddRefs(logFile)); if (!NS_SUCCEEDED(rv2)) return rv; // Create a directory for the log (in case it doesn't exist) logFile->Create(nsIFile::DIRECTORY_TYPE, 0700); nsAutoString name; aZipHandle->mFile->GetLeafName(name); name.Append(NS_LITERAL_STRING(".log")); logFile->Append(name); PRFileDesc* fd; rv2 = logFile->OpenNSPRFileDesc(PR_WRONLY|PR_CREATE_FILE|PR_APPEND, 0644, &fd); if (NS_SUCCEEDED(rv2)) mLog = fd; } return rv; } nsresult nsZipArchive::OpenArchive(nsIFile *aFile) { nsresult rv; nsCOMPtr localFile = do_QueryInterface(aFile, &rv); NS_ENSURE_SUCCESS(rv, rv); nsRefPtr handle; rv = nsZipHandle::Init(localFile, getter_AddRefs(handle)); if (NS_FAILED(rv)) return rv; return OpenArchive(handle); } //--------------------------------------------- // nsZipArchive::Test //--------------------------------------------- nsresult nsZipArchive::Test(const char *aEntryName) { nsZipItem* currItem; if (aEntryName) // only test specified item { currItem = GetItem(aEntryName); if (!currItem) return NS_ERROR_FILE_TARGET_DOES_NOT_EXIST; //-- don't test (synthetic) directory items if (currItem->IsDirectory()) return NS_OK; return ExtractFile(currItem, 0, 0); } // test all items in archive for (int i = 0; i < ZIP_TABSIZE; i++) { for (currItem = mFiles[i]; currItem; currItem = currItem->next) { //-- don't test (synthetic) directory items if (currItem->IsDirectory()) continue; nsresult rv = ExtractFile(currItem, 0, 0); if (rv != NS_OK) return rv; } } return NS_OK; } //--------------------------------------------- // nsZipArchive::CloseArchive //--------------------------------------------- nsresult nsZipArchive::CloseArchive() { if (mFd) { PL_FinishArenaPool(&mArena); mFd = NULL; } // CAUTION: // We don't need to delete each of the nsZipItem as the memory for // the zip item and the filename it holds are both allocated from the Arena. // Hence, destroying the Arena is like destroying all the memory // for all the nsZipItem in one shot. But if the ~nsZipItem is doing // anything more than cleaning up memory, we should start calling it. // Let us also cleanup the mFiles table for re-use on the next 'open' call memset(mFiles, 0, sizeof(mFiles)); mBuiltSynthetics = false; return NS_OK; } //--------------------------------------------- // nsZipArchive::GetItem //--------------------------------------------- nsZipItem* nsZipArchive::GetItem(const char * aEntryName) { if (aEntryName) { PRUint32 len = strlen(aEntryName); //-- If the request is for a directory, make sure that synthetic entries //-- are created for the directories without their own entry. if (!mBuiltSynthetics) { if ((len > 0) && (aEntryName[len-1] == '/')) { if (BuildSynthetics() != NS_OK) return 0; } } MOZ_WIN_MEM_TRY_BEGIN nsZipItem* item = mFiles[ HashName(aEntryName, len) ]; while (item) { if ((len == item->nameLength) && (!memcmp(aEntryName, item->Name(), len))) { if (mLog) { // Successful GetItem() is a good indicator that the file is about to be read char *tmp = PL_strdup(aEntryName); tmp[len]='\n'; PR_Write(mLog, tmp, len+1); PL_strfree(tmp); } return item; //-- found it } item = item->next; } MOZ_WIN_MEM_TRY_CATCH(return nsnull) } return nsnull; } //--------------------------------------------- // nsZipArchive::ExtractFile // This extracts the item to the filehandle provided. // If 'aFd' is null, it only tests the extraction. // On extraction error(s) it removes the file. // When needed, it also resolves the symlink. //--------------------------------------------- nsresult nsZipArchive::ExtractFile(nsZipItem *item, const char *outname, PRFileDesc* aFd) { if (!item) return NS_ERROR_ILLEGAL_VALUE; if (!mFd) return NS_ERROR_FAILURE; // Directory extraction is handled in nsJAR::Extract, // so the item to be extracted should never be a directory PR_ASSERT(!item->IsDirectory()); Bytef outbuf[ZIP_BUFLEN]; nsZipCursor cursor(item, this, outbuf, ZIP_BUFLEN, true); nsresult rv = NS_OK; while (true) { PRUint32 count = 0; PRUint8* buf = cursor.Read(&count); if (!buf) { rv = NS_ERROR_FILE_CORRUPTED; break; } else if (count == 0) { break; } if (aFd && PR_Write(aFd, buf, count) < (READTYPE)count) { rv = NS_ERROR_FILE_DISK_FULL; break; } } //-- delete the file on errors, or resolve symlink if needed if (aFd) { PR_Close(aFd); if (rv != NS_OK) PR_Delete(outname); #ifdef XP_UNIX else if (item->IsSymlink()) rv = ResolveSymlink(outname); #endif } return rv; } //--------------------------------------------- // nsZipArchive::FindInit //--------------------------------------------- PRInt32 nsZipArchive::FindInit(const char * aPattern, nsZipFind **aFind) { if (!aFind) return NS_ERROR_ILLEGAL_VALUE; // null out param in case an error happens *aFind = NULL; PRBool regExp = PR_FALSE; char* pattern = 0; // Create synthetic directory entries on demand nsresult rv = BuildSynthetics(); if (rv != NS_OK) return rv; // validate the pattern if (aPattern) { switch (NS_WildCardValid((char*)aPattern)) { case INVALID_SXP: return NS_ERROR_ILLEGAL_VALUE; case NON_SXP: regExp = PR_FALSE; break; case VALID_SXP: regExp = PR_TRUE; break; default: // undocumented return value from RegExpValid! PR_ASSERT(PR_FALSE); return NS_ERROR_ILLEGAL_VALUE; } pattern = PL_strdup(aPattern); if (!pattern) return NS_ERROR_OUT_OF_MEMORY; } *aFind = new nsZipFind(this, pattern, regExp); if (!*aFind) { PL_strfree(pattern); return NS_ERROR_OUT_OF_MEMORY; } return NS_OK; } //--------------------------------------------- // nsZipFind::FindNext //--------------------------------------------- nsresult nsZipFind::FindNext(const char ** aResult, PRUint16 *aNameLen) { if (!mArchive || !aResult || !aNameLen) return NS_ERROR_ILLEGAL_VALUE; *aResult = 0; *aNameLen = 0; MOZ_WIN_MEM_TRY_BEGIN // we start from last match, look for next while (mSlot < ZIP_TABSIZE) { // move to next in current chain, or move to new slot mItem = mItem ? mItem->next : mArchive->mFiles[mSlot]; PRBool found = PR_FALSE; if (!mItem) ++mSlot; // no more in this chain, move to next slot else if (!mPattern) found = PR_TRUE; // always match else if (mRegExp) { char buf[kMaxNameLength+1]; memcpy(buf, mItem->Name(), mItem->nameLength); buf[mItem->nameLength]='\0'; found = (NS_WildCardMatch(buf, mPattern, PR_FALSE) == MATCH); } else found = ((mItem->nameLength == strlen(mPattern)) && (memcmp(mItem->Name(), mPattern, mItem->nameLength) == 0)); if (found) { // Need also to return the name length, as it is NOT zero-terminatdd... *aResult = mItem->Name(); *aNameLen = mItem->nameLength; return NS_OK; } } MOZ_WIN_MEM_TRY_CATCH(return NS_ERROR_FAILURE) return NS_ERROR_FILE_TARGET_DOES_NOT_EXIST; } #ifdef XP_UNIX //--------------------------------------------- // ResolveSymlink //--------------------------------------------- static nsresult ResolveSymlink(const char *path) { PRFileDesc * fIn = PR_Open(path, PR_RDONLY, 0000); if (!fIn) return NS_ERROR_FILE_DISK_FULL; char buf[PATH_MAX+1]; PRInt32 length = PR_Read(fIn, (void*)buf, PATH_MAX); PR_Close(fIn); if ( (length <= 0) || ((buf[length] = 0, PR_Delete(path)) != 0) || (symlink(buf, path) != 0)) { return NS_ERROR_FILE_DISK_FULL; } return NS_OK; } #endif //*********************************************************** // nsZipArchive -- private implementation //*********************************************************** //--------------------------------------------- // nsZipArchive::CreateZipItem //--------------------------------------------- nsZipItem* nsZipArchive::CreateZipItem() { // Arena allocate the nsZipItem void *mem; PL_ARENA_ALLOCATE(mem, &mArena, sizeof(nsZipItem)); return (nsZipItem*)mem; } //--------------------------------------------- // nsZipArchive::BuildFileList //--------------------------------------------- nsresult nsZipArchive::BuildFileList() { #ifndef XP_WIN NS_TIME_FUNCTION; #endif // Get archive size using end pos const PRUint8* buf; const PRUint8* startp = mFd->mFileData; const PRUint8* endp = startp + mFd->mLen; MOZ_WIN_MEM_TRY_BEGIN PRUint32 centralOffset = 4; if (mFd->mLen > ZIPCENTRAL_SIZE && xtolong(startp + centralOffset) == CENTRALSIG) { // Success means optimized jar layout from bug 559961 is in effect } else { for (buf = endp - ZIPEND_SIZE; buf > startp; buf--) { if (xtolong(buf) == ENDSIG) { centralOffset = xtolong(((ZipEnd *)buf)->offset_central_dir); break; } } } if (!centralOffset) return NS_ERROR_FILE_CORRUPTED; //-- Read the central directory headers buf = startp + centralOffset; PRUint32 sig = 0; while (buf + PRInt32(sizeof(PRUint32)) <= endp && (sig = xtolong(buf)) == CENTRALSIG) { // Make sure there is enough data available. if (endp - buf < ZIPCENTRAL_SIZE) return NS_ERROR_FILE_CORRUPTED; // Read the fixed-size data. ZipCentral* central = (ZipCentral*)buf; PRUint16 namelen = xtoint(central->filename_len); PRUint16 extralen = xtoint(central->extrafield_len); PRUint16 commentlen = xtoint(central->commentfield_len); // Point to the next item at the top of loop buf += ZIPCENTRAL_SIZE + namelen + extralen + commentlen; // Sanity check variable sizes and refuse to deal with // anything too big: it's likely a corrupt archive. if (namelen > kMaxNameLength || buf >= endp) return NS_ERROR_FILE_CORRUPTED; nsZipItem* item = CreateZipItem(); if (!item) return NS_ERROR_OUT_OF_MEMORY; item->central = central; item->nameLength = namelen; item->isSynthetic = false; // Add item to file table PRUint32 hash = HashName(item->Name(), namelen); item->next = mFiles[hash]; mFiles[hash] = item; sig = 0; } /* while reading central directory records */ if (sig != ENDSIG) return NS_ERROR_FILE_CORRUPTED; MOZ_WIN_MEM_TRY_CATCH(return NS_ERROR_FAILURE) return NS_OK; } //--------------------------------------------- // nsZipArchive::BuildSynthetics //--------------------------------------------- nsresult nsZipArchive::BuildSynthetics() { if (mBuiltSynthetics) return NS_OK; mBuiltSynthetics = true; MOZ_WIN_MEM_TRY_BEGIN // Create synthetic entries for any missing directories. // Do this when all ziptable has scanned to prevent double entries. for (int i = 0; i < ZIP_TABSIZE; ++i) { for (nsZipItem* item = mFiles[i]; item != 0; item = item->next) { if (item->isSynthetic) continue; //-- add entries for directories in the current item's path //-- go from end to beginning, because then we can stop trying //-- to create diritems if we find that the diritem we want to //-- create already exists //-- start just before the last char so as to not add the item //-- twice if it's a directory PRUint16 namelen = item->nameLength; const char *name = item->Name(); for (PRUint16 dirlen = namelen - 1; dirlen > 0; dirlen--) { if (name[dirlen-1] != '/') continue; // Is the directory already in the file table? PRUint32 hash = HashName(item->Name(), dirlen); PRBool found = PR_FALSE; for (nsZipItem* zi = mFiles[hash]; zi != NULL; zi = zi->next) { if ((dirlen == zi->nameLength) && (0 == memcmp(item->Name(), zi->Name(), dirlen))) { // we've already added this dir and all its parents found = PR_TRUE; break; } } // if the directory was found, break out of the directory // creation loop now that we know all implicit directories // are there -- otherwise, start creating the zip item if (found) break; nsZipItem* diritem = CreateZipItem(); if (!diritem) return NS_ERROR_OUT_OF_MEMORY; // Point to the central record of the original item for the name part. diritem->central = item->central; diritem->nameLength = dirlen; diritem->isSynthetic = true; // add diritem to the file table diritem->next = mFiles[hash]; mFiles[hash] = diritem; } /* end processing of dirs in item's name */ } } MOZ_WIN_MEM_TRY_CATCH(return NS_ERROR_FAILURE) return NS_OK; } nsZipHandle* nsZipArchive::GetFD() { if (!mFd) return NULL; return mFd.get(); } //--------------------------------------------- // nsZipArchive::GetData //--------------------------------------------- const PRUint8* nsZipArchive::GetData(nsZipItem* aItem) { PR_ASSERT (aItem); MOZ_WIN_MEM_TRY_BEGIN //-- read local header to get variable length values and calculate //-- the real data offset PRUint32 len = mFd->mLen; const PRUint8* data = mFd->mFileData; PRUint32 offset = aItem->LocalOffset(); if (offset + ZIPLOCAL_SIZE > len) return nsnull; // -- check signature before using the structure, in case the zip file is corrupt ZipLocal* Local = (ZipLocal*)(data + offset); if ((xtolong(Local->signature) != LOCALSIG)) return nsnull; //-- NOTE: extralen is different in central header and local header //-- for archives created using the Unix "zip" utility. To set //-- the offset accurately we need the _local_ extralen. offset += ZIPLOCAL_SIZE + xtoint(Local->filename_len) + xtoint(Local->extrafield_len); // -- check if there is enough source data in the file if (offset + aItem->Size() > len) return nsnull; return data + offset; MOZ_WIN_MEM_TRY_CATCH(return nsnull) } //------------------------------------------ // nsZipArchive constructor and destructor //------------------------------------------ nsZipArchive::nsZipArchive() : mBuiltSynthetics(false) { MOZ_COUNT_CTOR(nsZipArchive); // initialize the table to NULL memset(mFiles, 0, sizeof(mFiles)); } nsZipArchive::~nsZipArchive() { CloseArchive(); MOZ_COUNT_DTOR(nsZipArchive); } //------------------------------------------ // nsZipFind constructor and destructor //------------------------------------------ nsZipFind::nsZipFind(nsZipArchive* aZip, char* aPattern, PRBool aRegExp) : mArchive(aZip), mPattern(aPattern), mItem(0), mSlot(0), mRegExp(aRegExp) { MOZ_COUNT_CTOR(nsZipFind); } nsZipFind::~nsZipFind() { PL_strfree(mPattern); MOZ_COUNT_DTOR(nsZipFind); } //------------------------------------------ // helper functions //------------------------------------------ /* * HashName * * returns a hash key for the entry name */ static PRUint32 HashName(const char* aName, PRUint16 len) { PR_ASSERT(aName != 0); const PRUint8* p = (const PRUint8*)aName; const PRUint8* endp = p + len; PRUint32 val = 0; while (p != endp) { val = val*37 + *p++; } return (val % ZIP_TABSIZE); } /* * x t o i n t * * Converts a two byte ugly endianed integer * to our platform's integer. */ static PRUint16 xtoint (const PRUint8 *ii) { return (PRUint16) ((ii [0]) | (ii [1] << 8)); } /* * x t o l o n g * * Converts a four byte ugly endianed integer * to our platform's integer. */ static PRUint32 xtolong (const PRUint8 *ll) { return (PRUint32)( (ll [0] << 0) | (ll [1] << 8) | (ll [2] << 16) | (ll [3] << 24) ); } /* * GetModTime * * returns last modification time in microseconds */ static PRTime GetModTime(PRUint16 aDate, PRUint16 aTime) { // Note that on DST shift we can't handle correctly the hour that is valid // in both DST zones PRExplodedTime time; time.tm_usec = 0; time.tm_hour = (aTime >> 11) & 0x1F; time.tm_min = (aTime >> 5) & 0x3F; time.tm_sec = (aTime & 0x1F) * 2; time.tm_year = (aDate >> 9) + 1980; time.tm_month = ((aDate >> 5) & 0x0F) - 1; time.tm_mday = aDate & 0x1F; time.tm_params.tp_gmt_offset = 0; time.tm_params.tp_dst_offset = 0; PR_NormalizeTime(&time, PR_GMTParameters); time.tm_params.tp_gmt_offset = PR_LocalTimeParameters(&time).tp_gmt_offset; PR_NormalizeTime(&time, PR_GMTParameters); time.tm_params.tp_dst_offset = PR_LocalTimeParameters(&time).tp_dst_offset; return PR_ImplodeTime(&time); } PRUint32 nsZipItem::LocalOffset() { return xtolong(central->localhdr_offset); } PRUint32 nsZipItem::Size() { return isSynthetic ? 0 : xtolong(central->size); } PRUint32 nsZipItem::RealSize() { return isSynthetic ? 0 : xtolong(central->orglen); } PRUint32 nsZipItem::CRC32() { return isSynthetic ? 0 : xtolong(central->crc32); } PRUint16 nsZipItem::Date() { return isSynthetic ? kSyntheticDate : xtoint(central->date); } PRUint16 nsZipItem::Time() { return isSynthetic ? kSyntheticTime : xtoint(central->time); } PRUint16 nsZipItem::Compression() { return isSynthetic ? STORED : xtoint(central->method); } bool nsZipItem::IsDirectory() { return isSynthetic || ((nameLength > 0) && ('/' == Name()[nameLength - 1])); } PRUint16 nsZipItem::Mode() { if (isSynthetic) return 0755; return ((PRUint16)(central->external_attributes[2]) | 0x100); } const PRUint8 * nsZipItem::GetExtraField(PRUint16 aTag, PRUint16 *aBlockSize) { if (isSynthetic) return nsnull; MOZ_WIN_MEM_TRY_BEGIN const unsigned char *buf = ((const unsigned char*)central) + ZIPCENTRAL_SIZE + nameLength; PRUint32 buflen = (PRUint32)xtoint(central->extrafield_len); PRUint32 pos = 0; PRUint16 tag, blocksize; while (buf && (pos + 4) <= buflen) { tag = xtoint(buf + pos); blocksize = xtoint(buf + pos + 2); if (aTag == tag && (pos + 4 + blocksize) <= buflen) { *aBlockSize = blocksize; return buf + pos; } pos += blocksize + 4; } MOZ_WIN_MEM_TRY_CATCH(return nsnull) return nsnull; } PRTime nsZipItem::LastModTime() { if (isSynthetic) return GetModTime(kSyntheticDate, kSyntheticTime); // Try to read timestamp from extra field PRUint16 blocksize; const PRUint8 *tsField = GetExtraField(EXTENDED_TIMESTAMP_FIELD, &blocksize); if (tsField && blocksize >= 5 && tsField[4] & EXTENDED_TIMESTAMP_MODTIME) { return (PRTime)(xtolong(tsField + 5)) * PR_USEC_PER_SEC; } return GetModTime(Date(), Time()); } #ifdef XP_UNIX bool nsZipItem::IsSymlink() { if (isSynthetic) return false; return (xtoint(central->external_attributes+2) & S_IFMT) == S_IFLNK; } #endif nsZipCursor::nsZipCursor(nsZipItem *item, nsZipArchive *aZip, PRUint8* aBuf, PRUint32 aBufSize, bool doCRC) : mItem(item), mBuf(aBuf), mBufSize(aBufSize), mDoCRC(doCRC) { if (mItem->Compression() == DEFLATED) { #ifdef DEBUG nsresult status = #endif gZlibInit(&mZs); NS_ASSERTION(status == NS_OK, "Zlib failed to initialize"); NS_ASSERTION(aBuf, "Must pass in a buffer for DEFLATED nsZipItem"); } mZs.avail_in = item->Size(); mZs.next_in = (Bytef*)aZip->GetData(item); if (doCRC) mCRC = crc32(0L, Z_NULL, 0); } nsZipCursor::~nsZipCursor() { if (mItem->Compression() == DEFLATED) { inflateEnd(&mZs); } } PRUint8* nsZipCursor::Read(PRUint32 *aBytesRead) { int zerr; PRUint8 *buf = nsnull; bool verifyCRC = true; if (!mZs.next_in) return nsnull; MOZ_WIN_MEM_TRY_BEGIN switch (mItem->Compression()) { case STORED: *aBytesRead = mZs.avail_in; buf = mZs.next_in; mZs.next_in += mZs.avail_in; mZs.avail_in = 0; break; case DEFLATED: buf = mBuf; mZs.next_out = buf; mZs.avail_out = mBufSize; zerr = inflate(&mZs, Z_PARTIAL_FLUSH); if (zerr != Z_OK && zerr != Z_STREAM_END) return nsnull; *aBytesRead = mZs.next_out - buf; verifyCRC = (zerr == Z_STREAM_END); break; default: return nsnull; } if (mDoCRC) { mCRC = crc32(mCRC, (const unsigned char*)buf, *aBytesRead); if (verifyCRC && mCRC != mItem->CRC32()) return nsnull; } MOZ_WIN_MEM_TRY_CATCH(return nsnull) return buf; } nsZipItemPtr_base::nsZipItemPtr_base(nsZipArchive *aZip, const char * aEntryName, bool doCRC) : mReturnBuf(nsnull) { // make sure the ziparchive hangs around mZipHandle = aZip->GetFD(); nsZipItem* item = aZip->GetItem(aEntryName); if (!item) return; PRUint32 size = 0; if (item->Compression() == DEFLATED) { size = item->RealSize(); mAutoBuf = new PRUint8[size]; } nsZipCursor cursor(item, aZip, mAutoBuf, size, doCRC); mReturnBuf = cursor.Read(&mReadlen); if (!mReturnBuf) { return; } if (mReadlen != item->RealSize()) { NS_ASSERTION(mReadlen == item->RealSize(), "nsZipCursor underflow"); mReturnBuf = nsnull; return; } }