fuzz/c/std/bzip2_fuzzer.c - third_party/wuffs - Git at Google

 // Copyright 2022 The Wuffs Authors.
 //
 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
 // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
 // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.
 //
 // SPDX-License-Identifier: Apache-2.0 OR MIT

 // ----------------

 // Silence the nested slash-star warning for the next comment's command line.
 #pragma clang diagnostic push
 #pragma clang diagnostic ignored "-Wcomment"

 /*
 This fuzzer (the fuzz function) is typically run indirectly, by a framework
 such as https://github.com/google/oss-fuzz calling LLVMFuzzerTestOneInput.

 When working on the fuzz implementation, or as a coherence check, defining
 WUFFS_CONFIG__FUZZLIB_MAIN will let you manually run fuzz over a set of files:

 gcc -DWUFFS_CONFIG__FUZZLIB_MAIN bzip2_fuzzer.c
 ./a.out ../../../test/data/*.bzip2
 rm -f ./a.out

 It should print "PASS", amongst other information, and exit(0).
 */

 #pragma clang diagnostic pop

 // Wuffs ships as a "single file C library" or "header file library" as per
 // https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
 //
 // To use that single file as a "foo.c"-like implementation, instead of a
 // "foo.h"-like header, #define WUFFS_IMPLEMENTATION before #include'ing or
 // compiling it.
 #define WUFFS_IMPLEMENTATION

 #if defined(WUFFS_CONFIG__FUZZLIB_MAIN)
 // Defining the WUFFS_CONFIG__STATIC_FUNCTIONS macro is optional, but when
 // combined with WUFFS_IMPLEMENTATION, it demonstrates making all of Wuffs'
 // functions have static storage.
 //
 // This can help the compiler ignore or discard unused code, which can produce
 // faster compiles and smaller binaries. Other motivations are discussed in the
 // "ALLOW STATIC IMPLEMENTATION" section of
 // https://raw.githubusercontent.com/nothings/stb/master/docs/stb_howto.txt
 #define WUFFS_CONFIG__STATIC_FUNCTIONS
 #endif  // defined(WUFFS_CONFIG__FUZZLIB_MAIN)

 // Defining the WUFFS_CONFIG__MODULE* macros are optional, but it lets users of
 // release/c/etc.c choose which parts of Wuffs to build. That file contains the
 // entire Wuffs standard library, implementing a variety of codecs and file
 // formats. Without this macro definition, an optimizing compiler or linker may
 // very well discard Wuffs code for unused codecs, but listing the Wuffs
 // modules we use makes that process explicit. Preprocessing means that such
 // code simply isn't compiled.
 #define WUFFS_CONFIG__MODULES
 #define WUFFS_CONFIG__MODULE__BASE
 #define WUFFS_CONFIG__MODULE__BZIP2

 // If building this program in an environment that doesn't easily accommodate
 // relative includes, you can use the script/inline-c-relative-includes.go
 // program to generate a stand-alone C file.
 #include "../../../release/c/wuffs-unsupported-snapshot.c"
 #include "../fuzzlib/fuzzlib.c"

 // 64 KiB.
 #define DST_BUFFER_ARRAY_SIZE 65536

 // Wuffs allows either statically or dynamically allocated work buffers. This
 // program exercises static allocation.
 #define WORK_BUFFER_ARRAY_SIZE \
   WUFFS_BZIP2__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
 #if WORK_BUFFER_ARRAY_SIZE > 0
 uint8_t g_work_buffer_array[WORK_BUFFER_ARRAY_SIZE];
 #else
 // Not all C/C++ compilers support 0-length arrays.
 uint8_t g_work_buffer_array[1];
 #endif

 const char*  //
 fuzz(wuffs_base__io_buffer* src, uint64_t hash) {
   wuffs_bzip2__decoder dec;
   wuffs_base__status status = wuffs_bzip2__decoder__initialize(
       &dec, sizeof dec, WUFFS_VERSION,
       (hash & 1) ? WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED : 0);
   if (!wuffs_base__status__is_ok(&status)) {
     return wuffs_base__status__message(&status);
   }

   // Ignore the checksum for 99.99%-ish of all input. When fuzzers generate
   // random input, the checkum is very unlikely to match. Still, it's useful to
   // verify that checksumming does not lead to e.g. buffer overflows.
   wuffs_bzip2__decoder__set_quirk(&dec, WUFFS_BASE__QUIRK_IGNORE_CHECKSUM,
                                   hash & 0xFFFE);

   static uint8_t dst_buffer[DST_BUFFER_ARRAY_SIZE];
   wuffs_base__io_buffer dst =
       wuffs_base__ptr_u8__writer(&dst_buffer[0], DST_BUFFER_ARRAY_SIZE);

   while (true) {
     dst.meta.wi = 0;
     status = wuffs_bzip2__decoder__transform_io(
         &dec, &dst, src,
         wuffs_base__make_slice_u8(g_work_buffer_array, WORK_BUFFER_ARRAY_SIZE));
     if (status.repr != wuffs_base__suspension__short_write) {
       break;
     }
     if (dst.meta.wi == 0) {
       fprintf(stderr, "wuffs_bzip2__decoder__transform_io made no progress\n");
       intentional_segfault();
     }
   }
   return wuffs_base__status__message(&status);
 }
	// Copyright 2022 The Wuffs Authors.
	//
	// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
	// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
	// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
	// option. This file may not be copied, modified, or distributed
	// except according to those terms.
	//
	// SPDX-License-Identifier: Apache-2.0 OR MIT

	// ----------------

	// Silence the nested slash-star warning for the next comment's command line.
	#pragma clang diagnostic push
	#pragma clang diagnostic ignored "-Wcomment"

	/*
	This fuzzer (the fuzz function) is typically run indirectly, by a framework
	such as https://github.com/google/oss-fuzz calling LLVMFuzzerTestOneInput.

	When working on the fuzz implementation, or as a coherence check, defining
	WUFFS_CONFIG__FUZZLIB_MAIN will let you manually run fuzz over a set of files:

	gcc -DWUFFS_CONFIG__FUZZLIB_MAIN bzip2_fuzzer.c
	./a.out ../../../test/data/*.bzip2
	rm -f ./a.out

	It should print "PASS", amongst other information, and exit(0).
	*/

	#pragma clang diagnostic pop

	// Wuffs ships as a "single file C library" or "header file library" as per
	// https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
	//
	// To use that single file as a "foo.c"-like implementation, instead of a
	// "foo.h"-like header, #define WUFFS_IMPLEMENTATION before #include'ing or
	// compiling it.
	#define WUFFS_IMPLEMENTATION

	#if defined(WUFFS_CONFIG__FUZZLIB_MAIN)
	// Defining the WUFFS_CONFIG__STATIC_FUNCTIONS macro is optional, but when
	// combined with WUFFS_IMPLEMENTATION, it demonstrates making all of Wuffs'
	// functions have static storage.
	//
	// This can help the compiler ignore or discard unused code, which can produce
	// faster compiles and smaller binaries. Other motivations are discussed in the
	// "ALLOW STATIC IMPLEMENTATION" section of
	// https://raw.githubusercontent.com/nothings/stb/master/docs/stb_howto.txt
	#define WUFFS_CONFIG__STATIC_FUNCTIONS
	#endif // defined(WUFFS_CONFIG__FUZZLIB_MAIN)

	// Defining the WUFFS_CONFIG__MODULE* macros are optional, but it lets users of
	// release/c/etc.c choose which parts of Wuffs to build. That file contains the
	// entire Wuffs standard library, implementing a variety of codecs and file
	// formats. Without this macro definition, an optimizing compiler or linker may
	// very well discard Wuffs code for unused codecs, but listing the Wuffs
	// modules we use makes that process explicit. Preprocessing means that such
	// code simply isn't compiled.
	#define WUFFS_CONFIG__MODULES
	#define WUFFS_CONFIG__MODULE__BASE
	#define WUFFS_CONFIG__MODULE__BZIP2

	// If building this program in an environment that doesn't easily accommodate
	// relative includes, you can use the script/inline-c-relative-includes.go
	// program to generate a stand-alone C file.
	#include "../../../release/c/wuffs-unsupported-snapshot.c"
	#include "../fuzzlib/fuzzlib.c"

	// 64 KiB.
	#define DST_BUFFER_ARRAY_SIZE 65536

	// Wuffs allows either statically or dynamically allocated work buffers. This
	// program exercises static allocation.
	#define WORK_BUFFER_ARRAY_SIZE \
	WUFFS_BZIP2__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
	#if WORK_BUFFER_ARRAY_SIZE > 0
	uint8_t g_work_buffer_array[WORK_BUFFER_ARRAY_SIZE];
	#else
	// Not all C/C++ compilers support 0-length arrays.
	uint8_t g_work_buffer_array[1];
	#endif

	const char* //
	fuzz(wuffs_base__io_buffer* src, uint64_t hash) {
	wuffs_bzip2__decoder dec;
	wuffs_base__status status = wuffs_bzip2__decoder__initialize(
	&dec, sizeof dec, WUFFS_VERSION,
	(hash & 1) ? WUFFS_INITIALIZE__LEAVE_INTERNAL_BUFFERS_UNINITIALIZED : 0);
	if (!wuffs_base__status__is_ok(&status)) {
	return wuffs_base__status__message(&status);
	}

	// Ignore the checksum for 99.99%-ish of all input. When fuzzers generate
	// random input, the checkum is very unlikely to match. Still, it's useful to
	// verify that checksumming does not lead to e.g. buffer overflows.
	wuffs_bzip2__decoder__set_quirk(&dec, WUFFS_BASE__QUIRK_IGNORE_CHECKSUM,
	hash & 0xFFFE);

	static uint8_t dst_buffer[DST_BUFFER_ARRAY_SIZE];
	wuffs_base__io_buffer dst =
	wuffs_base__ptr_u8__writer(&dst_buffer[0], DST_BUFFER_ARRAY_SIZE);

	while (true) {
	dst.meta.wi = 0;
	status = wuffs_bzip2__decoder__transform_io(
	&dec, &dst, src,
	wuffs_base__make_slice_u8(g_work_buffer_array, WORK_BUFFER_ARRAY_SIZE));
	if (status.repr != wuffs_base__suspension__short_write) {
	break;
	}
	if (dst.meta.wi == 0) {
	fprintf(stderr, "wuffs_bzip2__decoder__transform_io made no progress\n");
	intentional_segfault();
	}
	}
	return wuffs_base__status__message(&status);
	}