gecko-dev/modules/libjar/nsZipArchive.h

403 lines
11 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef nsZipArchive_h_
#define nsZipArchive_h_
#include "mozilla/Attributes.h"
#define ZIP_TABSIZE 256
#define ZIP_BUFLEN (4*1024) /* Used as output buffer when deflating items to a file */
#ifndef PL_ARENA_CONST_ALIGN_MASK
#define PL_ARENA_CONST_ALIGN_MASK (sizeof(void*)-1)
#endif
#include "plarena.h"
#include "zlib.h"
#include "zipstruct.h"
#include "nsAutoPtr.h"
#include "nsIFile.h"
#include "mozilla/FileUtils.h"
#include "mozilla/FileLocation.h"
#if defined(XP_WIN) && defined(_MSC_VER)
#define MOZ_WIN_MEM_TRY_BEGIN __try {
#define MOZ_WIN_MEM_TRY_CATCH(cmd) } \
__except(GetExceptionCode()==EXCEPTION_IN_PAGE_ERROR ? \
EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) \
{ \
NS_WARNING("EXCEPTION_IN_PAGE_ERROR in " __FUNCTION__); \
cmd; \
}
#else
#define MOZ_WIN_MEM_TRY_BEGIN {
#define MOZ_WIN_MEM_TRY_CATCH(cmd) }
#endif
class nsZipFind;
struct PRFileDesc;
/**
* This file defines some of the basic structures used by libjar to
* read Zip files. It makes use of zlib in order to do the decompression.
*
* A few notes on the classes/structs:
* nsZipArchive represents a single Zip file, and maintains an index
* of all the items in the file.
* nsZipItem represents a single item (file) in the Zip archive.
* nsZipFind represents the metadata involved in doing a search,
* and current state of the iteration of found objects.
* 'MT''safe' reading from the zipfile is performed through JARInputStream,
* which maintains its own file descriptor, allowing for multiple reads
* concurrently from the same zip file.
*/
/**
* nsZipItem -- a helper struct for nsZipArchive
*
* each nsZipItem represents one file in the archive and all the
* information needed to manipulate it.
*/
class nsZipItem
{
public:
const char* Name() { return ((const char*)central) + ZIPCENTRAL_SIZE; }
uint32_t LocalOffset();
uint32_t Size();
uint32_t RealSize();
uint32_t CRC32();
uint16_t Date();
uint16_t Time();
uint16_t Compression();
bool IsDirectory();
uint16_t Mode();
const uint8_t* GetExtraField(uint16_t aTag, uint16_t *aBlockSize);
PRTime LastModTime();
#ifdef XP_UNIX
bool IsSymlink();
#endif
nsZipItem* next;
const ZipCentral* central;
uint16_t nameLength;
bool isSynthetic;
};
class nsZipHandle;
/**
* nsZipArchive -- a class for reading the PKZIP file format.
*
*/
class nsZipArchive
{
friend class nsZipFind;
public:
/** constructing does not open the archive. See OpenArchive() */
nsZipArchive();
/** destructing the object closes the archive */
~nsZipArchive();
/**
* OpenArchive
*
* It's an error to call this more than once on the same nsZipArchive
* object. If we were allowed to use exceptions this would have been
* part of the constructor
*
* @param aZipHandle The nsZipHandle used to access the zip
* @return status code
*/
nsresult OpenArchive(nsZipHandle *aZipHandle);
/**
* OpenArchive
*
* Convenience function that generates nsZipHandle
*
* @param aFile The file used to access the zip
* @return status code
*/
nsresult OpenArchive(nsIFile *aFile);
/**
* Test the integrity of items in this archive by running
* a CRC check after extracting each item into a memory
* buffer. If an entry name is supplied only the
* specified item is tested. Else, if null is supplied
* then all the items in the archive are tested.
*
* @return status code
*/
nsresult Test(const char *aEntryName);
/**
* Closes an open archive.
*/
nsresult CloseArchive();
/**
* GetItem
* @param aEntryName Name of file in the archive
* @return pointer to nsZipItem
*/
nsZipItem* GetItem(const char * aEntryName);
/**
* ExtractFile
*
* @param zipEntry Name of file in archive to extract
* @param outFD Filedescriptor to write contents to
* @param outname Name of file to write to
* @return status code
*/
nsresult ExtractFile(nsZipItem * zipEntry, const char *outname, PRFileDesc * outFD);
/**
* FindInit
*
* Initializes a search for files in the archive. FindNext() returns
* the actual matches. The nsZipFind must be deleted when you're done
*
* @param aPattern a string or RegExp pattern to search for
* (may be NULL to find all files in archive)
* @param aFind a pointer to a pointer to a structure used
* in FindNext. In the case of an error this
* will be set to NULL.
* @return status code
*/
nsresult FindInit(const char * aPattern, nsZipFind** aFind);
/*
* Gets an undependent handle to the mapped file.
*/
nsZipHandle* GetFD();
/**
* Get pointer to the data of the item.
* @param aItem Pointer to nsZipItem
* reutrns null when zip file is corrupt.
*/
const uint8_t* GetData(nsZipItem* aItem);
bool GetComment(nsACString &aComment);
/**
* Gets the amount of memory taken up by the archive's mapping.
* @return the size
*/
int64_t SizeOfMapping();
/*
* Refcounting
*/
NS_METHOD_(nsrefcnt) AddRef(void);
NS_METHOD_(nsrefcnt) Release(void);
private:
//--- private members ---
nsrefcnt mRefCnt; /* ref count */
nsZipItem* mFiles[ZIP_TABSIZE];
PLArenaPool mArena;
const char* mCommentPtr;
uint16_t mCommentLen;
// Whether we synthesized the directory entries
bool mBuiltSynthetics;
// file handle
nsRefPtr<nsZipHandle> mFd;
// file URI, for logging
nsCString mURI;
private:
//--- private methods ---
nsZipItem* CreateZipItem();
nsresult BuildFileList();
nsresult BuildSynthetics();
nsZipArchive& operator=(const nsZipArchive& rhs) MOZ_DELETE;
nsZipArchive(const nsZipArchive& rhs) MOZ_DELETE;
};
/**
* nsZipFind
*
* a helper class for nsZipArchive, representing a search
*/
class nsZipFind
{
public:
nsZipFind(nsZipArchive* aZip, char* aPattern, bool regExp);
~nsZipFind();
nsresult FindNext(const char** aResult, uint16_t* aNameLen);
private:
nsRefPtr<nsZipArchive> mArchive;
char* mPattern;
nsZipItem* mItem;
uint16_t mSlot;
bool mRegExp;
nsZipFind& operator=(const nsZipFind& rhs) MOZ_DELETE;
nsZipFind(const nsZipFind& rhs) MOZ_DELETE;
};
/**
* nsZipCursor -- a low-level class for reading the individual items in a zip.
*/
class nsZipCursor {
public:
/**
* Initializes the cursor
*
* @param aItem Item of interest
* @param aZip Archive
* @param aBuf Buffer used for decompression.
* This determines the maximum Read() size in the compressed case.
* @param aBufSize Buffer size
* @param doCRC When set to true Read() will check crc
*/
nsZipCursor(nsZipItem *aItem, nsZipArchive *aZip, uint8_t* aBuf = NULL, uint32_t aBufSize = 0, bool doCRC = false);
~nsZipCursor();
/**
* Performs reads. In the compressed case it uses aBuf(passed in constructor), for stored files
* it returns a zero-copy buffer.
*
* @param aBytesRead Outparam for number of bytes read.
* @return data read or NULL if item is corrupted.
*/
uint8_t* Read(uint32_t *aBytesRead) {
return ReadOrCopy(aBytesRead, false);
}
/**
* Performs a copy. It always uses aBuf(passed in constructor).
*
* @param aBytesRead Outparam for number of bytes read.
* @return data read or NULL if item is corrupted.
*/
uint8_t* Copy(uint32_t *aBytesRead) {
return ReadOrCopy(aBytesRead, true);
}
private:
/* Actual implementation for both Read and Copy above */
uint8_t* ReadOrCopy(uint32_t *aBytesRead, bool aCopy);
nsZipItem *mItem;
uint8_t *mBuf;
uint32_t mBufSize;
z_stream mZs;
uint32_t mCRC;
bool mDoCRC;
};
/**
* nsZipItemPtr - a RAII convenience class for reading the individual items in a zip.
* It reads whole files and does zero-copy IO for stored files. A buffer is allocated
* for decompression.
* Do not use when the file may be very large.
*/
class nsZipItemPtr_base {
public:
/**
* Initializes the reader
*
* @param aZip Archive
* @param aEntryName Archive membername
* @param doCRC When set to true Read() will check crc
*/
nsZipItemPtr_base(nsZipArchive *aZip, const char *aEntryName, bool doCRC);
uint32_t Length() const {
return mReadlen;
}
protected:
nsRefPtr<nsZipHandle> mZipHandle;
nsAutoArrayPtr<uint8_t> mAutoBuf;
uint8_t *mReturnBuf;
uint32_t mReadlen;
};
template <class T>
class nsZipItemPtr : public nsZipItemPtr_base {
public:
nsZipItemPtr(nsZipArchive *aZip, const char *aEntryName, bool doCRC = false) : nsZipItemPtr_base(aZip, aEntryName, doCRC) { }
/**
* @return buffer containing the whole zip member or NULL on error.
* The returned buffer is owned by nsZipItemReader.
*/
const T* Buffer() const {
return (const T*)mReturnBuf;
}
operator const T*() const {
return Buffer();
}
/**
* Relinquish ownership of zip member if compressed.
* Copy member into a new buffer if uncompressed.
* @return a buffer with whole zip member. It is caller's responsibility to free() it.
*/
T* Forget() {
if (!mReturnBuf)
return NULL;
// In uncompressed mmap case, give up buffer
if (mAutoBuf.get() == mReturnBuf) {
mReturnBuf = NULL;
return (T*) mAutoBuf.forget();
}
T *ret = (T*) malloc(Length());
memcpy(ret, mReturnBuf, Length());
mReturnBuf = NULL;
return ret;
}
};
class nsZipHandle {
friend class nsZipArchive;
friend class mozilla::FileLocation;
public:
static nsresult Init(nsIFile *file, nsZipHandle **ret);
static nsresult Init(nsZipArchive *zip, const char *entry,
nsZipHandle **ret);
NS_METHOD_(nsrefcnt) AddRef(void);
NS_METHOD_(nsrefcnt) Release(void);
int64_t SizeOfMapping();
protected:
const uint8_t * mFileData; /* pointer to mmaped file */
uint32_t mLen; /* length of file and memory mapped area */
mozilla::FileLocation mFile; /* source file if any, for logging */
private:
nsZipHandle();
~nsZipHandle();
PRFileMap * mMap; /* nspr datastructure for mmap */
nsAutoPtr<nsZipItemPtr<uint8_t> > mBuf;
nsrefcnt mRefCnt; /* ref count */
};
nsresult gZlibInit(z_stream *zs);
#endif /* nsZipArchive_h_ */