libdwfl/gzip.c - platform/external/elfutils - Git at Google

 /* Decompression support for libdwfl: zlib (gzip) and/or bzlib (bzip2).
    Copyright (C) 2009 Red Hat, Inc.
    This file is part of elfutils.

    This file is free software; you can redistribute it and/or modify
    it under the terms of either

      * the GNU Lesser General Public License as published by the Free
        Software Foundation; either version 3 of the License, or (at
        your option) any later version

    or

      * the GNU General Public License as published by the Free
        Software Foundation; either version 2 of the License, or (at
        your option) any later version

    or both in parallel, as here.

    elfutils is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    General Public License for more details.

    You should have received copies of the GNU General Public License and
    the GNU Lesser General Public License along with this program.  If
    not, see <http://www.gnu.org/licenses/>.  */

 #ifdef HAVE_CONFIG_H
 # include <config.h>
 #endif

 #include "libdwflP.h"
 #include "system.h"

 #include <unistd.h>

 #ifdef LZMA
 # define USE_INFLATE	1
 # include <lzma.h>
 # define unzip		__libdw_unlzma
 # define DWFL_E_ZLIB	DWFL_E_LZMA
 # define MAGIC		"\xFD" "7zXZ\0" /* XZ file format.  */
 # define MAGIC2		"\x5d\0"	/* Raw LZMA format.  */
 # define Z(what)	LZMA_##what
 # define LZMA_ERRNO	LZMA_PROG_ERROR
 # define z_stream	lzma_stream
 # define inflateInit(z)	lzma_auto_decoder (z, 1 << 30, 0)
 # define do_inflate(z)	lzma_code (z, LZMA_RUN)
 # define inflateEnd(z)	lzma_end (z)
 #elif defined ZSTD
 # define USE_INFLATE	1
 # include <zstd.h>
 # define unzip		__libdw_unzstd
 # define DWFL_E_ZLIB	DWFL_E_ZSTD
 # define MAGIC		"\x28\xb5\x2f\xfd"
 #elif defined BZLIB
 # define USE_INFLATE	1
 # include <bzlib.h>
 # define unzip		__libdw_bunzip2
 # define DWFL_E_ZLIB	DWFL_E_BZLIB
 # define MAGIC		"BZh"
 # define Z(what)	BZ_##what
 # define BZ_ERRNO	BZ_IO_ERROR
 # define z_stream	bz_stream
 # define inflateInit(z)	BZ2_bzDecompressInit (z, 0, 0)
 # define do_inflate(z)	BZ2_bzDecompress (z)
 # define inflateEnd(z)	BZ2_bzDecompressEnd (z)
 #else
 # define USE_INFLATE	0
 # define crc32		loser_crc32
 # include <zlib.h>
 # define unzip		__libdw_gunzip
 # define MAGIC		"\037\213"
 # define Z(what)	Z_##what
 #endif

 #define READ_SIZE		(1 << 20)

 struct unzip_state {
 #if !USE_INFLATE
   gzFile zf;
 #endif
   size_t mapped_size;
   void **whole;
   void *buffer;
   size_t size;
   void *input_buffer;
   off_t input_pos;
 };

 static inline bool
 bigger_buffer (struct unzip_state *state, size_t start)
 {
   size_t more = state->size ? state->size * 2 : start;
   char *b = realloc (state->buffer, more);
   while (unlikely (b == NULL) && more >= state->size + 1024)
     b = realloc (state->buffer, more -= 1024);
   if (unlikely (b == NULL))
     return false;
   state->buffer = b;
   state->size = more;
   return true;
 }

 static inline void
 smaller_buffer (struct unzip_state *state, size_t end)
 {
   state->buffer =
       realloc (state->buffer, end) ?: end == 0 ? NULL : state->buffer;
   state->size = end;
 }

 static inline Dwfl_Error
 fail (struct unzip_state *state, Dwfl_Error failure)
 {
   if (state->input_pos == (off_t) state->mapped_size)
     *state->whole = state->input_buffer;
   else
     {
       free (state->input_buffer);
       *state->whole = NULL;
     }
   free (state->buffer);
   return failure;
 }

 #ifndef ZSTD
 static inline Dwfl_Error
 zlib_fail (struct unzip_state *state, int result)
 {
   switch (result)
     {
     case Z (MEM_ERROR):
       return fail (state, DWFL_E_NOMEM);
     case Z (ERRNO):
       return fail (state, DWFL_E_ERRNO);
     default:
       return fail (state, DWFL_E_ZLIB);
     }
 }
 #endif

 #if !USE_INFLATE
 static Dwfl_Error
 open_stream (int fd, off_t start_offset, struct unzip_state *state)
 {
     int d = dup (fd);
     if (unlikely (d < 0))
       return DWFL_E_ERRNO;
     if (start_offset != 0)
       {
 	off_t off = lseek (d, start_offset, SEEK_SET);
 	if (off != start_offset)
 	  {
 	    close (d);
 	    return DWFL_E_ERRNO;
 	  }
       }
     state->zf = gzdopen (d, "r");
     if (unlikely (state->zf == NULL))
       {
 	close (d);
 	return DWFL_E_NOMEM;
       }

     /* From here on, zlib will close D.  */

     return DWFL_E_NOERROR;
 }
 #endif

 /* If this is not a compressed image, return DWFL_E_BADELF.
    If we uncompressed it into *WHOLE, *WHOLE_SIZE, return DWFL_E_NOERROR.
    Otherwise return an error for bad compressed data or I/O failure.
    If we return an error after reading the first part of the file,
    leave that portion malloc'd in *WHOLE, *WHOLE_SIZE.  If *WHOLE
    is not null on entry, we'll use it in lieu of repeating a read.  */

 Dwfl_Error internal_function
 unzip (int fd, off_t start_offset,
        void *mapped, size_t _mapped_size,
        void **_whole, size_t *whole_size)
 {
   struct unzip_state state =
     {
 #if !USE_INFLATE
       .zf = NULL,
 #endif
       .mapped_size = _mapped_size,
       .whole = _whole,
       .buffer = NULL,
       .size = 0,
       .input_buffer = NULL,
       .input_pos = 0
     };

   if (mapped == NULL)
     {
       if (*state.whole == NULL)
 	{
 	  state.input_buffer = malloc (READ_SIZE);
 	  if (unlikely (state.input_buffer == NULL))
 	    return DWFL_E_NOMEM;

 	  ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE, start_offset);
 	  if (unlikely (n < 0))
 	    return fail (&state, DWFL_E_ERRNO);

 	  state.input_pos = n;
 	  mapped = state.input_buffer;
 	  state.mapped_size = n;
 	}
       else
 	{
 	  state.input_buffer = *state.whole;
 	  state.input_pos = state.mapped_size = *whole_size;
 	}
     }

 #define NOMAGIC(magic) \
   (state.mapped_size <= sizeof magic || \
    memcmp (mapped, magic, sizeof magic - 1))

   /* First, look at the header.  */
   if (NOMAGIC (MAGIC)
 #ifdef MAGIC2
       && NOMAGIC (MAGIC2)
 #endif
       )
     /* Not a compressed file.  */
     return DWFL_E_BADELF;

 #ifdef ZSTD
   /* special case for libzstd since it is slightly different from the
      API provided by bzlib and liblzma.  */

   void *next_in = mapped;
   size_t avail_in = state.mapped_size;
   void *next_out = NULL;
   size_t avail_out = 0;
   size_t total_out = 0;

   size_t result;
   ZSTD_DCtx *dctx = ZSTD_createDCtx();
   if (dctx == NULL)
     return fail (&state, DWFL_E_NOMEM);

   do
     {
       if (avail_in == 0 && state.input_buffer != NULL)
 	{
 	  ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE,
 				   start_offset + state.input_pos);
 	  if (unlikely (n < 0))
 	    {
 	      ZSTD_freeDCtx (dctx);
 	      return fail (&state, DWFL_E_ERRNO);
 	    }
 	  next_in = state.input_buffer;
 	  avail_in = n;
 	  state.input_pos += n;
 	}
       if (avail_out == 0)
 	{
 	  ptrdiff_t pos = (void *) next_out - state.buffer;
 	  if (!bigger_buffer (&state, avail_in))
 	    {
 	      ZSTD_freeDCtx (dctx);
 	      return fail (&state, DWFL_E_NOMEM);
 	    }
 	  next_out = state.buffer + pos;
 	  avail_out = state.size - pos;
 	}

       ZSTD_inBuffer input = { next_in, avail_in, 0 };
       ZSTD_outBuffer output = { next_out, avail_out, 0 };
       result = ZSTD_decompressStream (dctx, &output, &input);

       if (! ZSTD_isError (result))
 	{
 	  total_out += output.pos;
 	  next_out += output.pos;
 	  avail_out -= output.pos;
 	  next_in += input.pos;
 	  avail_in -= input.pos;
 	}

       if (result == 0)
 	break;
     }
   while (avail_in > 0 && ! ZSTD_isError (result));

   ZSTD_freeDCtx (dctx);

   if (ZSTD_isError (result))
     return fail (&state, DWFL_E_ZSTD);

   smaller_buffer (&state, total_out);

 #elif USE_INFLATE

   /* This style actually only works with bzlib and liblzma.
      The stupid zlib interface has nothing to grok the
      gzip file headers except the slow gzFile interface.  */

   z_stream z = { .next_in = mapped, .avail_in = state.mapped_size };
   int result = inflateInit (&z);
   if (result != Z (OK))
     {
       inflateEnd (&z);
       return zlib_fail (&state, result);
     }

   do
     {
       if (z.avail_in == 0 && state.input_buffer != NULL)
 	{
 	  ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE,
 				   start_offset + state.input_pos);
 	  if (unlikely (n < 0))
 	    {
 	      inflateEnd (&z);
 	      return zlib_fail (&state, Z (ERRNO));
 	    }
 	  z.next_in = state.input_buffer;
 	  z.avail_in = n;
 	  state.input_pos += n;
 	}
       if (z.avail_out == 0)
 	{
 	  ptrdiff_t pos = (void *) z.next_out - state.buffer;
 	  if (!bigger_buffer (&state, z.avail_in))
 	    {
 	      result = Z (MEM_ERROR);
 	      break;
 	    }
 	  z.next_out = state.buffer + pos;
 	  z.avail_out = state.size - pos;
 	}
     }
   while ((result = do_inflate (&z)) == Z (OK));

 #ifdef BZLIB
   uint64_t total_out = (((uint64_t) z.total_out_hi32 << 32)
 			| z.total_out_lo32);
   smaller_buffer (&state, total_out);
 #else
   smaller_buffer (&state, z.total_out);
 #endif

   inflateEnd (&z);

   if (result != Z (STREAM_END))
     return zlib_fail (&state, result);

 #else  /* gzip only.  */

   /* Let the decompression library read the file directly.  */

   Dwfl_Error result = open_stream (fd, start_offset, &state);

   if (result == DWFL_E_NOERROR && gzdirect (state.zf))
     {
       gzclose (state.zf);
       /* Not a compressed stream after all.  */
       return fail (&state, DWFL_E_BADELF);
     }

   if (result != DWFL_E_NOERROR)
     return fail (&state, result);

   ptrdiff_t pos = 0;
   while (1)
     {
       if (!bigger_buffer (&state, 1024))
 	{
 	  gzclose (state.zf);
 	  return zlib_fail (&state, Z (MEM_ERROR));
 	}
       int n = gzread (state.zf, state.buffer + pos, state.size - pos);
       if (n < 0)
 	{
 	  int code;
 	  gzerror (state.zf, &code);
 	  gzclose (state.zf);
 	  return zlib_fail (&state, code);
 	}
       if (n == 0)
 	break;
       pos += n;
     }

   gzclose (state.zf);
   smaller_buffer (&state, pos);
 #endif

   free (state.input_buffer);

   *state.whole = state.buffer;
   *whole_size = state.size;

   return DWFL_E_NOERROR;
 }
	/* Decompression support for libdwfl: zlib (gzip) and/or bzlib (bzip2).
	Copyright (C) 2009 Red Hat, Inc.
	This file is part of elfutils.

	This file is free software; you can redistribute it and/or modify
	it under the terms of either

	* the GNU Lesser General Public License as published by the Free
	Software Foundation; either version 3 of the License, or (at
	your option) any later version

	or

	* the GNU General Public License as published by the Free
	Software Foundation; either version 2 of the License, or (at
	your option) any later version

	or both in parallel, as here.

	elfutils is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received copies of the GNU General Public License and
	the GNU Lesser General Public License along with this program. If
	not, see <http://www.gnu.org/licenses/>. */

	#ifdef HAVE_CONFIG_H
	# include <config.h>
	#endif

	#include "libdwflP.h"
	#include "system.h"

	#include <unistd.h>

	#ifdef LZMA
	# define USE_INFLATE 1
	# include <lzma.h>
	# define unzip __libdw_unlzma
	# define DWFL_E_ZLIB DWFL_E_LZMA
	# define MAGIC "\xFD" "7zXZ\0" /* XZ file format. */
	# define MAGIC2 "\x5d\0" /* Raw LZMA format. */
	# define Z(what) LZMA_##what
	# define LZMA_ERRNO LZMA_PROG_ERROR
	# define z_stream lzma_stream
	# define inflateInit(z) lzma_auto_decoder (z, 1 << 30, 0)
	# define do_inflate(z) lzma_code (z, LZMA_RUN)
	# define inflateEnd(z) lzma_end (z)
	#elif defined ZSTD
	# define USE_INFLATE 1
	# include <zstd.h>
	# define unzip __libdw_unzstd
	# define DWFL_E_ZLIB DWFL_E_ZSTD
	# define MAGIC "\x28\xb5\x2f\xfd"
	#elif defined BZLIB
	# define USE_INFLATE 1
	# include <bzlib.h>
	# define unzip __libdw_bunzip2
	# define DWFL_E_ZLIB DWFL_E_BZLIB
	# define MAGIC "BZh"
	# define Z(what) BZ_##what
	# define BZ_ERRNO BZ_IO_ERROR
	# define z_stream bz_stream
	# define inflateInit(z) BZ2_bzDecompressInit (z, 0, 0)
	# define do_inflate(z) BZ2_bzDecompress (z)
	# define inflateEnd(z) BZ2_bzDecompressEnd (z)
	#else
	# define USE_INFLATE 0
	# define crc32 loser_crc32
	# include <zlib.h>
	# define unzip __libdw_gunzip
	# define MAGIC "\037\213"
	# define Z(what) Z_##what
	#endif

	#define READ_SIZE (1 << 20)

	struct unzip_state {
	#if !USE_INFLATE
	gzFile zf;
	#endif
	size_t mapped_size;
	void **whole;
	void *buffer;
	size_t size;
	void *input_buffer;
	off_t input_pos;
	};

	static inline bool
	bigger_buffer (struct unzip_state *state, size_t start)
	{
	size_t more = state->size ? state->size * 2 : start;
	char *b = realloc (state->buffer, more);
	while (unlikely (b == NULL) && more >= state->size + 1024)
	b = realloc (state->buffer, more -= 1024);
	if (unlikely (b == NULL))
	return false;
	state->buffer = b;
	state->size = more;
	return true;
	}

	static inline void
	smaller_buffer (struct unzip_state *state, size_t end)
	{
	state->buffer =
	realloc (state->buffer, end) ?: end == 0 ? NULL : state->buffer;
	state->size = end;
	}

	static inline Dwfl_Error
	fail (struct unzip_state *state, Dwfl_Error failure)
	{
	if (state->input_pos == (off_t) state->mapped_size)
	*state->whole = state->input_buffer;
	else
	{
	free (state->input_buffer);
	*state->whole = NULL;
	}
	free (state->buffer);
	return failure;
	}

	#ifndef ZSTD
	static inline Dwfl_Error
	zlib_fail (struct unzip_state *state, int result)
	{
	switch (result)
	{
	case Z (MEM_ERROR):
	return fail (state, DWFL_E_NOMEM);
	case Z (ERRNO):
	return fail (state, DWFL_E_ERRNO);
	default:
	return fail (state, DWFL_E_ZLIB);
	}
	}
	#endif

	#if !USE_INFLATE
	static Dwfl_Error
	open_stream (int fd, off_t start_offset, struct unzip_state *state)
	{
	int d = dup (fd);
	if (unlikely (d < 0))
	return DWFL_E_ERRNO;
	if (start_offset != 0)
	{
	off_t off = lseek (d, start_offset, SEEK_SET);
	if (off != start_offset)
	{
	close (d);
	return DWFL_E_ERRNO;
	}
	}
	state->zf = gzdopen (d, "r");
	if (unlikely (state->zf == NULL))
	{
	close (d);
	return DWFL_E_NOMEM;
	}

	/* From here on, zlib will close D. */

	return DWFL_E_NOERROR;
	}
	#endif

	/* If this is not a compressed image, return DWFL_E_BADELF.
	If we uncompressed it into WHOLE, WHOLE_SIZE, return DWFL_E_NOERROR.
	Otherwise return an error for bad compressed data or I/O failure.
	If we return an error after reading the first part of the file,
	leave that portion malloc'd in WHOLE, WHOLE_SIZE. If *WHOLE
	is not null on entry, we'll use it in lieu of repeating a read. */

	Dwfl_Error internal_function
	unzip (int fd, off_t start_offset,
	void *mapped, size_t _mapped_size,
	void *_whole, size_t whole_size)
	{
	struct unzip_state state =
	{
	#if !USE_INFLATE
	.zf = NULL,
	#endif
	.mapped_size = _mapped_size,
	.whole = _whole,
	.buffer = NULL,
	.size = 0,
	.input_buffer = NULL,
	.input_pos = 0
	};

	if (mapped == NULL)
	{
	if (*state.whole == NULL)
	{
	state.input_buffer = malloc (READ_SIZE);
	if (unlikely (state.input_buffer == NULL))
	return DWFL_E_NOMEM;

	ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE, start_offset);
	if (unlikely (n < 0))
	return fail (&state, DWFL_E_ERRNO);

	state.input_pos = n;
	mapped = state.input_buffer;
	state.mapped_size = n;
	}
	else
	{
	state.input_buffer = *state.whole;
	state.input_pos = state.mapped_size = *whole_size;
	}
	}

	#define NOMAGIC(magic) \
	(state.mapped_size <= sizeof magic \|\| \
	memcmp (mapped, magic, sizeof magic - 1))

	/* First, look at the header. */
	if (NOMAGIC (MAGIC)
	#ifdef MAGIC2
	&& NOMAGIC (MAGIC2)
	#endif
	)
	/* Not a compressed file. */
	return DWFL_E_BADELF;

	#ifdef ZSTD
	/* special case for libzstd since it is slightly different from the
	API provided by bzlib and liblzma. */

	void *next_in = mapped;
	size_t avail_in = state.mapped_size;
	void *next_out = NULL;
	size_t avail_out = 0;
	size_t total_out = 0;

	size_t result;
	ZSTD_DCtx *dctx = ZSTD_createDCtx();
	if (dctx == NULL)
	return fail (&state, DWFL_E_NOMEM);

	do
	{
	if (avail_in == 0 && state.input_buffer != NULL)
	{
	ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE,
	start_offset + state.input_pos);
	if (unlikely (n < 0))
	{
	ZSTD_freeDCtx (dctx);
	return fail (&state, DWFL_E_ERRNO);
	}
	next_in = state.input_buffer;
	avail_in = n;
	state.input_pos += n;
	}
	if (avail_out == 0)
	{
	ptrdiff_t pos = (void *) next_out - state.buffer;
	if (!bigger_buffer (&state, avail_in))
	{
	ZSTD_freeDCtx (dctx);
	return fail (&state, DWFL_E_NOMEM);
	}
	next_out = state.buffer + pos;
	avail_out = state.size - pos;
	}

	ZSTD_inBuffer input = { next_in, avail_in, 0 };
	ZSTD_outBuffer output = { next_out, avail_out, 0 };
	result = ZSTD_decompressStream (dctx, &output, &input);

	if (! ZSTD_isError (result))
	{
	total_out += output.pos;
	next_out += output.pos;
	avail_out -= output.pos;
	next_in += input.pos;
	avail_in -= input.pos;
	}

	if (result == 0)
	break;
	}
	while (avail_in > 0 && ! ZSTD_isError (result));

	ZSTD_freeDCtx (dctx);

	if (ZSTD_isError (result))
	return fail (&state, DWFL_E_ZSTD);

	smaller_buffer (&state, total_out);

	#elif USE_INFLATE

	/* This style actually only works with bzlib and liblzma.
	The stupid zlib interface has nothing to grok the
	gzip file headers except the slow gzFile interface. */

	z_stream z = { .next_in = mapped, .avail_in = state.mapped_size };
	int result = inflateInit (&z);
	if (result != Z (OK))
	{
	inflateEnd (&z);
	return zlib_fail (&state, result);
	}

	do
	{
	if (z.avail_in == 0 && state.input_buffer != NULL)
	{
	ssize_t n = pread_retry (fd, state.input_buffer, READ_SIZE,
	start_offset + state.input_pos);
	if (unlikely (n < 0))
	{
	inflateEnd (&z);
	return zlib_fail (&state, Z (ERRNO));
	}
	z.next_in = state.input_buffer;
	z.avail_in = n;
	state.input_pos += n;
	}
	if (z.avail_out == 0)
	{
	ptrdiff_t pos = (void *) z.next_out - state.buffer;
	if (!bigger_buffer (&state, z.avail_in))
	{
	result = Z (MEM_ERROR);
	break;
	}
	z.next_out = state.buffer + pos;
	z.avail_out = state.size - pos;
	}
	}
	while ((result = do_inflate (&z)) == Z (OK));

	#ifdef BZLIB
	uint64_t total_out = (((uint64_t) z.total_out_hi32 << 32)
	\| z.total_out_lo32);
	smaller_buffer (&state, total_out);
	#else
	smaller_buffer (&state, z.total_out);
	#endif

	inflateEnd (&z);

	if (result != Z (STREAM_END))
	return zlib_fail (&state, result);

	#else /* gzip only. */

	/* Let the decompression library read the file directly. */

	Dwfl_Error result = open_stream (fd, start_offset, &state);

	if (result == DWFL_E_NOERROR && gzdirect (state.zf))
	{
	gzclose (state.zf);
	/* Not a compressed stream after all. */
	return fail (&state, DWFL_E_BADELF);
	}

	if (result != DWFL_E_NOERROR)
	return fail (&state, result);

	ptrdiff_t pos = 0;
	while (1)
	{
	if (!bigger_buffer (&state, 1024))
	{
	gzclose (state.zf);
	return zlib_fail (&state, Z (MEM_ERROR));
	}
	int n = gzread (state.zf, state.buffer + pos, state.size - pos);
	if (n < 0)
	{
	int code;
	gzerror (state.zf, &code);
	gzclose (state.zf);
	return zlib_fail (&state, code);
	}
	if (n == 0)
	break;
	pos += n;
	}

	gzclose (state.zf);
	smaller_buffer (&state, pos);
	#endif

	free (state.input_buffer);

	*state.whole = state.buffer;
	*whole_size = state.size;

	return DWFL_E_NOERROR;
	}