honggfuzz.h - platform/external/honggfuzz - Git at Google

 /*
  *
  * honggfuzz - core structures and macros
  * -----------------------------------------
  *
  * Author: Robert Swiecki <swiecki@google.com>
  *
  * Copyright 2010-2017 by Google Inc. All Rights Reserved.
  *
  * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
  * implied. See the License for the specific language governing
  * permissions and limitations under the License.
  *
  */

 #ifndef _HF_HONGGFUZZ_H_
 #define _HF_HONGGFUZZ_H_

 #include <dirent.h>
 #include <inttypes.h>
 #include <limits.h>
 #include <pthread.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <sys/param.h>
 #include <sys/queue.h>
 #include <sys/types.h>
 #include <time.h>

 #include "libcommon/util.h"

 #define PROG_NAME "honggfuzz"
 #define PROG_VERSION "1.3"

 /* Name of the template which will be replaced with the proper name of the file */
 #define _HF_FILE_PLACEHOLDER "___FILE___"

 /* Default name of the report created with some architectures */
 #define _HF_REPORT_FILE "HONGGFUZZ.REPORT.TXT"

 /* Default stack-size of created threads. */
 #define _HF_PTHREAD_STACKSIZE (1024 * 1024 * 2) /* 2MB */

 /* Name of envvar which indicates sequential number of fuzzer */
 #define _HF_THREAD_NO_ENV "HFUZZ_THREAD_NO"

 /* Number of crash verifier iterations before tag crash as stable */
 #define _HF_VERIFIER_ITER 5

 /* Size (in bytes) for report data to be stored in stack before written to file */
 #define _HF_REPORT_SIZE 8192

 /* Perf bitmap size */
 #define _HF_PERF_BITMAP_SIZE_16M (1024U * 1024U * 16U)
 #define _HF_PERF_BITMAP_BITSZ_MASK 0x7ffffff
 /* Maximum number of PC guards (=trace-pc-guard) we support */
 #define _HF_PC_GUARD_MAX (1024U * 1024U * 16U)

 /* FD used to pass feedback bitmap a process */
 #define _HF_BITMAP_FD 1022
 /* FD used to pass data to a persistent process */
 #define _HF_PERSISTENT_FD 1023
 /* Maximum number of active fuzzing threads */
 #define _HF_THREAD_MAX 1024U

 typedef enum {
     _HF_DYNFILE_NONE = 0x0,
     _HF_DYNFILE_INSTR_COUNT = 0x1,
     _HF_DYNFILE_BRANCH_COUNT = 0x2,
     _HF_DYNFILE_BTS_EDGE = 0x10,
     _HF_DYNFILE_IPT_BLOCK = 0x20,
     _HF_DYNFILE_SOFT = 0x40,
 } dynFileMethod_t;

 typedef struct {
     uint64_t cpuInstrCnt;
     uint64_t cpuBranchCnt;
     uint64_t bbCnt;
     uint64_t newBBCnt;
     uint64_t softCntPc;
     uint64_t softCntEdge;
     uint64_t softCntCmp;
 } hwcnt_t;

 /* Sanitizer coverage specific data structures */
 typedef struct {
     uint64_t hitBBCnt;
     uint64_t totalBBCnt;
     uint64_t dsoCnt;
     uint64_t iDsoCnt;
     uint64_t newBBCnt;
     uint64_t crashesCnt;
 } sancovcnt_t;

 typedef struct {
     uint32_t capacity;
     uint32_t* pChunks;
     uint32_t nChunks;
 } bitmap_t;

 /* Memory map struct */
 typedef struct __attribute__((packed)) {
     uint64_t start;          // region start addr
     uint64_t end;            // region end addr
     uint64_t base;           // region base addr
     char mapName[NAME_MAX];  // bin/DSO name
     uint64_t bbCnt;
     uint64_t newBBCnt;
 } memMap_t;

 /* Trie node data struct */
 typedef struct __attribute__((packed)) {
     bitmap_t* pBM;
 } trieData_t;

 /* Trie node struct */
 typedef struct node {
     char key;
     trieData_t data;
     struct node* next;
     struct node* prev;
     struct node* children;
     struct node* parent;
 } node_t;

 /* EOF Sanitizer coverage specific data structures */

 typedef struct {
     char* asanOpts;
     char* msanOpts;
     char* ubsanOpts;
 } sanOpts_t;

 typedef enum {
     _HF_STATE_UNSET = 0,
     _HF_STATE_STATIC = 1,
     _HF_STATE_DYNAMIC_PRE = 2,
     _HF_STATE_DYNAMIC_MAIN = 3,
 } fuzzState_t;

 struct dynfile_t {
     uint8_t* data;
     size_t size;
     TAILQ_ENTRY(dynfile_t)
     pointers;
 };

 struct strings_t {
     char* s;
     size_t len;
     TAILQ_ENTRY(strings_t)
     pointers;
 };

 typedef struct {
     bool pcGuardMap[_HF_PC_GUARD_MAX];
     uint8_t bbMapPc[_HF_PERF_BITMAP_SIZE_16M];
     uint8_t bbMapCmp[_HF_PERF_BITMAP_SIZE_16M];
     uint64_t pidFeedbackPc[_HF_THREAD_MAX];
     uint64_t pidFeedbackEdge[_HF_THREAD_MAX];
     uint64_t pidFeedbackCmp[_HF_THREAD_MAX];
 } feedback_t;

 typedef struct {
     struct {
         const char* inputDir;
         DIR* inputDirPtr;
         size_t fileCnt;
         const char* fileExtn;
         bool fileCntDone;
         const char* workDir;
         const char* crashDir;
         const char* covDirAll;
         const char* covDirNew;
         bool saveUnique;
     } io;
     struct {
         const char* const* cmdline;
         bool nullifyStdio;
         bool fuzzStdin;
         char* externalCommand;
         char* postExternalCommand;
         uint64_t asLimit;
         uint64_t rssLimit;
         uint64_t dataLimit;
         bool clearEnv;
         char* envs[128];
     } exe;
     struct {
         size_t threadsMax;
         size_t threadsFinished;
         uint32_t threadsActiveCnt;
         pthread_t mainThread;
         pid_t mainPid;
     } threads;
     struct {
         time_t timeStart;
         time_t runEndTime;
         time_t tmOut;
         bool tmoutVTALRM;
     } timing;
     bool useScreen;
     bool useVerifier;
     char cmdline_txt[61];
     unsigned mutationsPerRun;
     const char* blacklistFile;
     uint64_t* blacklist;
     size_t blacklistCnt;
     size_t mutationsMax;
     size_t maxFileSz;
     char* reportFile;
     bool persistent;
     bool skipFeedbackOnTimeout;
     bool enableSanitizers;
     bool monitorSIGABRT;
     bool exitUponCrash;
     const char* dictionaryFile;
     TAILQ_HEAD(strq_t, strings_t) dictq;
     size_t dictionaryCnt;
     struct strings_t* dictqCurrent;

     fuzzState_t state;
     feedback_t* feedback;
     int bbFd;

     size_t dynfileqCnt;
     TAILQ_HEAD(dyns_t, dynfile_t) dynfileq;
     pthread_rwlock_t dynfileq_mutex;

     pthread_mutex_t feedback_mutex;

     struct {
         size_t mutationsCnt;
         size_t crashesCnt;
         size_t uniqueCrashesCnt;
         size_t verifiedCrashesCnt;
         size_t blCrashesCnt;
         size_t timeoutedCnt;
     } cnts;

     dynFileMethod_t dynFileMethod;
     sancovcnt_t sanCovCnts;
     pthread_mutex_t sanCov_mutex;
     sanOpts_t sanOpts;
     size_t dynFileIterExpire;
     bool useSanCov;
     node_t* covMetadata;

     pthread_mutex_t report_mutex;

     /* For the Linux code */
     struct {
         int exeFd;
         hwcnt_t hwCnts;
         uint64_t dynamicCutOffAddr;
         bool disableRandomization;
         void* ignoreAddr;
         size_t numMajorFrames;
         pid_t pid;
         const char* pidFile;
         char pidCmd[55];
         const char* symsBlFile;
         char** symsBl;
         size_t symsBlCnt;
         const char* symsWlFile;
         char** symsWl;
         size_t symsWlCnt;
         uintptr_t cloneFlags;
         bool kernelOnly;
         bool useClone;
     } linux;
 } honggfuzz_t;

 typedef struct {
     honggfuzz_t* global;
     pid_t pid;
     pid_t persistentPid;
     fuzzState_t state;
     int64_t timeStartedMillis;
     const char* origFileName;
     char fileName[PATH_MAX];
     char crashFileName[PATH_MAX];
     uint64_t pc;
     uint64_t backtrace;
     uint64_t access;
     int exception;
     char report[_HF_REPORT_SIZE];
     bool mainWorker;
     unsigned mutationsPerRun;
     struct dynfile_t* dynfileqCurrent;
     uint8_t* dynamicFile;
     size_t dynamicFileSz;
     uint32_t fuzzNo;
     int persistentSock;
     bool tmOutSignaled;
 #if !defined(_HF_ARCH_DARWIN)
     timer_t timerId;
 #endif  // !defined(_HF_ARCH_DARWIN)

     sancovcnt_t sanCovCnts;

     struct {
         /* For Linux code */
         uint8_t* perfMmapBuf;
         uint8_t* perfMmapAux;
         hwcnt_t hwCnts;
         pid_t attachedPid;
         int cpuInstrFd;
         int cpuBranchFd;
         int cpuIptBtsFd;
     } linux;
 } run_t;

 /* Go-style defer implementation */
 #define __STRMERGE(a, b) a##b
 #define _STRMERGE(a, b) __STRMERGE(a, b)
 #ifdef __clang__
 #if __has_extension(blocks)
 static void __attribute__((unused)) __clang_cleanup_func(void (^*dfunc)(void)) { (*dfunc)(); }

 #define defer                                        \
     void (^_STRMERGE(__defer_f_, __COUNTER__))(void) \
         __attribute__((cleanup(__clang_cleanup_func))) __attribute__((unused)) = ^
 #else /* __has_extension(blocks) */
 #define defer UNIMPLEMENTED - NO - SUPPORT - FOR - BLOCKS - IN - YOUR - CLANG - ENABLED
 #endif /*  __has_extension(blocks) */
 #else  /* __clang */
 #define __block
 #define _DEFER(a, count)                                                                      \
     auto void _STRMERGE(__defer_f_, count)(void* _defer_arg __attribute__((unused)));         \
     int _STRMERGE(__defer_var_, count) __attribute__((cleanup(_STRMERGE(__defer_f_, count)))) \
         __attribute__((unused));                                                              \
     void _STRMERGE(__defer_f_, count)(void* _defer_arg __attribute__((unused)))
 #define defer _DEFER(a, __COUNTER__)
 #endif /* __clang */

 #define MX_SCOPED_LOCK(m) \
     MX_LOCK(m);           \
     defer { MX_UNLOCK(m); }

 #define MX_SCOPED_RWLOCK_READ(m) \
     MX_RWLOCK_READ(m);           \
     defer { MX_RWLOCK_UNLOCK(m); }
 #define MX_SCOPED_RWLOCK_WRITE(m) \
     MX_RWLOCK_WRITE(m);           \
     defer { MX_RWLOCK_UNLOCK(m); }

 #endif
	/*
	*
	* honggfuzz - core structures and macros
	* -----------------------------------------
	*
	* Author: Robert Swiecki <swiecki@google.com>
	*
	* Copyright 2010-2017 by Google Inc. All Rights Reserved.
	*
	* Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* permissions and limitations under the License.
	*
	*/

	#ifndef _HF_HONGGFUZZ_H_
	#define _HF_HONGGFUZZ_H_

	#include <dirent.h>
	#include <inttypes.h>
	#include <limits.h>
	#include <pthread.h>
	#include <stdbool.h>
	#include <stdint.h>
	#include <sys/param.h>
	#include <sys/queue.h>
	#include <sys/types.h>
	#include <time.h>

	#include "libcommon/util.h"

	#define PROG_NAME "honggfuzz"
	#define PROG_VERSION "1.3"

	/* Name of the template which will be replaced with the proper name of the file */
	#define _HF_FILE_PLACEHOLDER "___FILE___"

	/* Default name of the report created with some architectures */
	#define _HF_REPORT_FILE "HONGGFUZZ.REPORT.TXT"

	/* Default stack-size of created threads. */
	#define _HF_PTHREAD_STACKSIZE (1024 * 1024 * 2) /* 2MB */

	/* Name of envvar which indicates sequential number of fuzzer */
	#define _HF_THREAD_NO_ENV "HFUZZ_THREAD_NO"

	/* Number of crash verifier iterations before tag crash as stable */
	#define _HF_VERIFIER_ITER 5

	/* Size (in bytes) for report data to be stored in stack before written to file */
	#define _HF_REPORT_SIZE 8192

	/* Perf bitmap size */
	#define _HF_PERF_BITMAP_SIZE_16M (1024U * 1024U * 16U)
	#define _HF_PERF_BITMAP_BITSZ_MASK 0x7ffffff
	/* Maximum number of PC guards (=trace-pc-guard) we support */
	#define _HF_PC_GUARD_MAX (1024U * 1024U * 16U)

	/* FD used to pass feedback bitmap a process */
	#define _HF_BITMAP_FD 1022
	/* FD used to pass data to a persistent process */
	#define _HF_PERSISTENT_FD 1023
	/* Maximum number of active fuzzing threads */
	#define _HF_THREAD_MAX 1024U

	typedef enum {
	_HF_DYNFILE_NONE = 0x0,
	_HF_DYNFILE_INSTR_COUNT = 0x1,
	_HF_DYNFILE_BRANCH_COUNT = 0x2,
	_HF_DYNFILE_BTS_EDGE = 0x10,
	_HF_DYNFILE_IPT_BLOCK = 0x20,
	_HF_DYNFILE_SOFT = 0x40,
	} dynFileMethod_t;

	typedef struct {
	uint64_t cpuInstrCnt;
	uint64_t cpuBranchCnt;
	uint64_t bbCnt;
	uint64_t newBBCnt;
	uint64_t softCntPc;
	uint64_t softCntEdge;
	uint64_t softCntCmp;
	} hwcnt_t;

	/* Sanitizer coverage specific data structures */
	typedef struct {
	uint64_t hitBBCnt;
	uint64_t totalBBCnt;
	uint64_t dsoCnt;
	uint64_t iDsoCnt;
	uint64_t newBBCnt;
	uint64_t crashesCnt;
	} sancovcnt_t;

	typedef struct {
	uint32_t capacity;
	uint32_t* pChunks;
	uint32_t nChunks;
	} bitmap_t;

	/* Memory map struct */
	typedef struct __attribute__((packed)) {
	uint64_t start; // region start addr
	uint64_t end; // region end addr
	uint64_t base; // region base addr
	char mapName[NAME_MAX]; // bin/DSO name
	uint64_t bbCnt;
	uint64_t newBBCnt;
	} memMap_t;

	/* Trie node data struct */
	typedef struct __attribute__((packed)) {
	bitmap_t* pBM;
	} trieData_t;

	/* Trie node struct */
	typedef struct node {
	char key;
	trieData_t data;
	struct node* next;
	struct node* prev;
	struct node* children;
	struct node* parent;
	} node_t;

	/* EOF Sanitizer coverage specific data structures */

	typedef struct {
	char* asanOpts;
	char* msanOpts;
	char* ubsanOpts;
	} sanOpts_t;

	typedef enum {
	_HF_STATE_UNSET = 0,
	_HF_STATE_STATIC = 1,
	_HF_STATE_DYNAMIC_PRE = 2,
	_HF_STATE_DYNAMIC_MAIN = 3,
	} fuzzState_t;

	struct dynfile_t {
	uint8_t* data;
	size_t size;
	TAILQ_ENTRY(dynfile_t)
	pointers;
	};

	struct strings_t {
	char* s;
	size_t len;
	TAILQ_ENTRY(strings_t)
	pointers;
	};

	typedef struct {
	bool pcGuardMap[_HF_PC_GUARD_MAX];
	uint8_t bbMapPc[_HF_PERF_BITMAP_SIZE_16M];
	uint8_t bbMapCmp[_HF_PERF_BITMAP_SIZE_16M];
	uint64_t pidFeedbackPc[_HF_THREAD_MAX];
	uint64_t pidFeedbackEdge[_HF_THREAD_MAX];
	uint64_t pidFeedbackCmp[_HF_THREAD_MAX];
	} feedback_t;

	typedef struct {
	struct {
	const char* inputDir;
	DIR* inputDirPtr;
	size_t fileCnt;
	const char* fileExtn;
	bool fileCntDone;
	const char* workDir;
	const char* crashDir;
	const char* covDirAll;
	const char* covDirNew;
	bool saveUnique;
	} io;
	struct {
	const char* const* cmdline;
	bool nullifyStdio;
	bool fuzzStdin;
	char* externalCommand;
	char* postExternalCommand;
	uint64_t asLimit;
	uint64_t rssLimit;
	uint64_t dataLimit;
	bool clearEnv;
	char* envs[128];
	} exe;
	struct {
	size_t threadsMax;
	size_t threadsFinished;
	uint32_t threadsActiveCnt;
	pthread_t mainThread;
	pid_t mainPid;
	} threads;
	struct {
	time_t timeStart;
	time_t runEndTime;
	time_t tmOut;
	bool tmoutVTALRM;
	} timing;
	bool useScreen;
	bool useVerifier;
	char cmdline_txt[61];
	unsigned mutationsPerRun;
	const char* blacklistFile;
	uint64_t* blacklist;
	size_t blacklistCnt;
	size_t mutationsMax;
	size_t maxFileSz;
	char* reportFile;
	bool persistent;
	bool skipFeedbackOnTimeout;
	bool enableSanitizers;
	bool monitorSIGABRT;
	bool exitUponCrash;
	const char* dictionaryFile;
	TAILQ_HEAD(strq_t, strings_t) dictq;
	size_t dictionaryCnt;
	struct strings_t* dictqCurrent;

	fuzzState_t state;
	feedback_t* feedback;
	int bbFd;

	size_t dynfileqCnt;
	TAILQ_HEAD(dyns_t, dynfile_t) dynfileq;
	pthread_rwlock_t dynfileq_mutex;

	pthread_mutex_t feedback_mutex;

	struct {
	size_t mutationsCnt;
	size_t crashesCnt;
	size_t uniqueCrashesCnt;
	size_t verifiedCrashesCnt;
	size_t blCrashesCnt;
	size_t timeoutedCnt;
	} cnts;

	dynFileMethod_t dynFileMethod;
	sancovcnt_t sanCovCnts;
	pthread_mutex_t sanCov_mutex;
	sanOpts_t sanOpts;
	size_t dynFileIterExpire;
	bool useSanCov;
	node_t* covMetadata;

	pthread_mutex_t report_mutex;

	/* For the Linux code */
	struct {
	int exeFd;
	hwcnt_t hwCnts;
	uint64_t dynamicCutOffAddr;
	bool disableRandomization;
	void* ignoreAddr;
	size_t numMajorFrames;
	pid_t pid;
	const char* pidFile;
	char pidCmd[55];
	const char* symsBlFile;
	char** symsBl;
	size_t symsBlCnt;
	const char* symsWlFile;
	char** symsWl;
	size_t symsWlCnt;
	uintptr_t cloneFlags;
	bool kernelOnly;
	bool useClone;
	} linux;
	} honggfuzz_t;

	typedef struct {
	honggfuzz_t* global;
	pid_t pid;
	pid_t persistentPid;
	fuzzState_t state;
	int64_t timeStartedMillis;
	const char* origFileName;
	char fileName[PATH_MAX];
	char crashFileName[PATH_MAX];
	uint64_t pc;
	uint64_t backtrace;
	uint64_t access;
	int exception;
	char report[_HF_REPORT_SIZE];
	bool mainWorker;
	unsigned mutationsPerRun;
	struct dynfile_t* dynfileqCurrent;
	uint8_t* dynamicFile;
	size_t dynamicFileSz;
	uint32_t fuzzNo;
	int persistentSock;
	bool tmOutSignaled;
	#if !defined(_HF_ARCH_DARWIN)
	timer_t timerId;
	#endif // !defined(_HF_ARCH_DARWIN)

	sancovcnt_t sanCovCnts;

	struct {
	/* For Linux code */
	uint8_t* perfMmapBuf;
	uint8_t* perfMmapAux;
	hwcnt_t hwCnts;
	pid_t attachedPid;
	int cpuInstrFd;
	int cpuBranchFd;
	int cpuIptBtsFd;
	} linux;
	} run_t;

	/* Go-style defer implementation */
	#define __STRMERGE(a, b) a##b
	#define _STRMERGE(a, b) __STRMERGE(a, b)
	#ifdef __clang__
	#if __has_extension(blocks)
	static void __attribute__((unused)) __clang_cleanup_func(void (^dfunc)(void)) { (dfunc)(); }

	#define defer \
	void (^_STRMERGE(__defer_f_, __COUNTER__))(void) \
	__attribute__((cleanup(__clang_cleanup_func))) __attribute__((unused)) = ^
	#else /* __has_extension(blocks) */
	#define defer UNIMPLEMENTED - NO - SUPPORT - FOR - BLOCKS - IN - YOUR - CLANG - ENABLED
	#endif /* __has_extension(blocks) */
	#else /* __clang */
	#define __block
	#define _DEFER(a, count) \
	auto void _STRMERGE(__defer_f_, count)(void* _defer_arg __attribute__((unused))); \
	int _STRMERGE(__defer_var_, count) __attribute__((cleanup(_STRMERGE(__defer_f_, count)))) \
	__attribute__((unused)); \
	void _STRMERGE(__defer_f_, count)(void* _defer_arg __attribute__((unused)))
	#define defer _DEFER(a, __COUNTER__)
	#endif /* __clang */

	#define MX_SCOPED_LOCK(m) \
	MX_LOCK(m); \
	defer { MX_UNLOCK(m); }

	#define MX_SCOPED_RWLOCK_READ(m) \
	MX_RWLOCK_READ(m); \
	defer { MX_RWLOCK_UNLOCK(m); }
	#define MX_SCOPED_RWLOCK_WRITE(m) \
	MX_RWLOCK_WRITE(m); \
	defer { MX_RWLOCK_UNLOCK(m); }

	#endif