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afl-staticinstr.c
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afl-staticinstr.c
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/*
WinAFL persistent loop implementation for statically instrumented target
-----------------------------------------------------------------------
Written by Axel "0vercl0k" Souchet <[email protected]>
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
*/
#include "afl-staticinstr.h"
#include <stdio.h>
#include <psapi.h>
#include <stdlib.h>
#ifdef __cplusplus
extern "C" {
#endif
#define MAP_SIZE 65536
#define STATIC_COV_SECTION_NAME ".syzyafl"
#define STATIC_COV_SECTION_NAME_LEN 8
#define AFL_STATIC_CONFIG_ENV TEXT("AFL_STATIC_CONFIG")
#define AFL_VARIABLE_BEHAVIOR_TRACES_BASE_DIR TEXT("C:\\traces")
#define AFL_VARIABLE_BEHAVIOR_ITERATIONS 10
#define MAX_STRING_SIZE 64
#pragma pack(push, 1)
typedef struct {
UINT32 __tls_index;
UINT32 __tls_slot_offset;
PUINT32 __afl_prev_loc;
PUCHAR __afl_area_ptr;
CHAR __afl_area[MAP_SIZE];
} STATIC_COVERAGE_DATA, *PSTATIC_COVERAGE_DATA;
#pragma pack(pop)
//
// The handle to the pipe used to talk with afl-fuzz.exe
//
HANDLE g_winafl_pipe = INVALID_HANDLE_VALUE;
//
// The no fuzzing mode is enabled when a binary is run without
// passing the fuzzing configuration in the AFL_STATIC_CONFIG
// environment variable (running a binary by itself, without
// being run via afl-fuzz.exe will enable this mode for example).
// Under this mode, the persistent loop exits after a single
// iteration.
//
BOOL g_nofuzzing_mode = FALSE;
//
// The no instrumentation mode means the binary is running
// without an AFL instrumented module in its address-space.
// As a result, it means there is no coverage information
// available (g_static_coverage_data is empty). This happens
// when the persistent loop is run without instrumenting any
// modules.
//
BOOL g_noinstrumentation = TRUE;
//
// The number of instrumented modules available in the
// address space.
//
SIZE_T g_ninstrumented_modules = 0;
//
// The coverage data is a pointer to a structure that
// can be found in an instrumented binary, in its '.syzyafl'
// section. A pointer to the coverage map can be found in it,
// but also what type of instrumentation it is using (single/multi thread).
// Note that, it is NULL when g_noinstrumentation is TRUE.
#define kMaximumInstrumentedModules 10
STATIC_COVERAGE_DATA *g_static_coverage_data[kMaximumInstrumentedModules];
//
// The current iterations track the number of iterations the persistent
// loop has been through.
//
SIZE_T g_current_iterations = 0;
//
// The n iterations is the total number total iterations that
// afl-fuzz.exe wants to be run every time the target process is
// spawned. This is configured via the AFL_STATIC_CONFIG environment
// variable.
//
SIZE_T g_niterations = 0;
//
// Some synchronization primitives.
//
CRITICAL_SECTION g_crit_section;
INIT_ONCE g_init_once = INIT_ONCE_STATIC_INIT, g_init_once_bareminimum = INIT_ONCE_STATIC_INIT;
LONG CALLBACK __afl_VectoredHandler(PEXCEPTION_POINTERS ExceptionInfo)
/*++
Routine Description:
Catch exceptions and let afl-fuzz.exe know when an interesting
one happened.
Arguments:
ExceptionInfo - A structure with information about the exception
that triggered the invocation of the vectored exception handler.
Return Value:
EXCEPTION_CONTINUE_SEARCH if exception not handled.
--*/
{
DWORD Dummy;
EnterCriticalSection(&g_crit_section);
if(
ExceptionInfo->ExceptionRecord->ExceptionCode == DBG_PRINTEXCEPTION_C
#ifdef DBG_PRINTEXCEPTION_WIDE_C
//
// This define has been introduced in the Windows 10 SDK and doesn't
// exist in older SDKs.
//
|| ExceptionInfo->ExceptionRecord->ExceptionCode == DBG_PRINTEXCEPTION_WIDE_C
#endif
) {
_tprintf(TEXT("[*] Received an OutputDebugString exception.\n"));
}
else if(ExceptionInfo->ExceptionRecord->ExceptionCode == 0xE06D7363) {
//
// https://support.microsoft.com/fr-fr/help/185294/prb-exception-code-0xe06d7363-when-calling-win32-seh-apis
// https://blogs.msdn.microsoft.com/oldnewthing/20100730-00/?p=13273
//
_tprintf(TEXT("[*] Received an MSVC C++ exception.\n"));
}
else {
_tprintf(TEXT("[*] The program just crashed.\n"));
if(g_nofuzzing_mode == FALSE) {
WriteFile(g_winafl_pipe, "C", 1, &Dummy, NULL);
TerminateProcess(GetCurrentProcess(), 0);
}
}
LeaveCriticalSection(&g_crit_section);
_tprintf(TEXT("[+] Passing it to the program (might trigger a JIT debugger if it can't handle it).\n"));
return EXCEPTION_CONTINUE_SEARCH;
}
VOID __afl_display_banner()
/*++
Routine Description:
Displays the AFL persistent loop banner.
Arguments:
None.
Return Value:
None.
--*/
{
_tprintf(TEXT("Persistent loop implementation by <[email protected]>\n"));
_tprintf(TEXT("Based on WinAFL by <[email protected]>\n"));
}
BOOL CALLBACK __afl_set_it_up(
PINIT_ONCE InitOnce, PVOID Parameter, PVOID *Context
)
/*++
Routine Description:
Sets up the environment: creates the pipe to talk with afl-fuzz.exe,
maps the coverage byte-map that afl-fuzz.exe will map in and fix-up
the instrumented module so that its coverage byte-map pointer points
inside the shared memory section.
Arguments:
InitOnce - Unused.
Parameter - Unused.
Context - Unused.
Return Value:
TRUE on success, FALSE otherwise.
--*/
{
BOOL Status = TRUE;
HANDLE MappedFile = NULL;
PVOID AreaPtr = NULL;
DWORD SizeNeeded;
HMODULE Modules[128];
SIZE_T i = 0;
TCHAR PipeName[MAX_STRING_SIZE], ShmName[MAX_STRING_SIZE],
FuzzerId[MAX_STRING_SIZE], StaticConfig[MAX_STRING_SIZE],
InstrumentedModuleName[MAX_STRING_SIZE];
UNREFERENCED_PARAMETER(InitOnce);
UNREFERENCED_PARAMETER(Parameter);
UNREFERENCED_PARAMETER(Context);
EnterCriticalSection(&g_crit_section);
//
// Let's first figure out if we are running with any instrumented module,
// in the address space.
// If not, we turn on the no instrumentation switch.
//
Status = EnumProcessModulesEx(GetCurrentProcess(), Modules, sizeof(Modules), &SizeNeeded, LIST_MODULES_32BIT);
if(Status == FALSE) {
_tprintf(TEXT("[-] EnumProcessModulesEx failed - too many modules loaded?.\n"));
TerminateProcess(GetCurrentProcess(), 0);
}
for(i = 0; i < SizeNeeded / sizeof(Modules[0]); ++i) {
PVOID Base = (PVOID)Modules[i];
PIMAGE_NT_HEADERS NtHeaders = (PIMAGE_NT_HEADERS)((PUCHAR)Base + ((PIMAGE_DOS_HEADER)Base)->e_lfanew);
PIMAGE_SECTION_HEADER Sections = (PIMAGE_SECTION_HEADER)(NtHeaders + 1);
USHORT j = 0;
for(j = 0; j < NtHeaders->FileHeader.NumberOfSections; ++j) {
if(memcmp(Sections[j].Name, STATIC_COV_SECTION_NAME, STATIC_COV_SECTION_NAME_LEN) != 0) {
continue;
}
//
// Make sure we haven't exhausted the number of slots for the static coverage
// information.
//
if(g_ninstrumented_modules == ARRAYSIZE(g_static_coverage_data)) {
_tprintf(
TEXT("[!] You have exhausted the number of instrumented modules (%d).\n"),
g_ninstrumented_modules
);
break;
}
GetModuleBaseName(GetCurrentProcess(), Modules[i], InstrumentedModuleName, MAX_STRING_SIZE);
g_static_coverage_data[g_ninstrumented_modules] = (STATIC_COVERAGE_DATA*)(
Sections[j].VirtualAddress + (DWORD)Base
);
_tprintf(
TEXT("[+] Found a statically instrumented module: %s (%s thread mode).\n"),
InstrumentedModuleName,
(g_static_coverage_data[g_ninstrumented_modules]->__tls_slot_offset == 0) ?
TEXT("single") : TEXT("multi")
);
g_ninstrumented_modules++;
g_noinstrumentation = FALSE;
break;
}
}
if(g_noinstrumentation == TRUE) {
_tprintf(TEXT("[-] No instrumented module found.\n"));
Status = FALSE;
}
//
// Let's figure out, if afl-fuzz.exe spawned us or not?
// If not, we can switch on the no fuzzing mode and exit.
//
if(GetEnvironmentVariable(AFL_STATIC_CONFIG_ENV, StaticConfig, MAX_STRING_SIZE) == 0) {
_tprintf(TEXT("[-] Not running under afl-fuzz.exe.\n"));
g_nofuzzing_mode = TRUE;
Status = FALSE;
goto clean;
}
//
// We are running under afl-fuzz.exe; let's open the pipe used for
// communication, create a named shared memory section to store the coverage
// data and fix-up the instrumented module so that its instrumentation writes
// in the shared memory section's content.
//
memset(PipeName, 0, MAX_STRING_SIZE * sizeof(PipeName[0]));
memset(ShmName, 0, MAX_STRING_SIZE * sizeof(ShmName[0]));
_tprintf(TEXT("[*] Setting up the environment (%s)..\n"), StaticConfig);
if(_stscanf_s(StaticConfig, TEXT("%[a-zA-Z0-9]:%u"), FuzzerId, _countof(FuzzerId), &g_niterations) != 2) {
_tprintf(
TEXT("[-] The ") AFL_STATIC_CONFIG_ENV TEXT(" environment variable isn't properly formated.\n")
);
Status = FALSE;
goto clean;
}
_stprintf_s(PipeName, _countof(PipeName), TEXT("\\\\.\\pipe\\afl_pipe_%s"), FuzzerId);
_stprintf_s(ShmName, _countof(ShmName), TEXT("afl_shm_%s"), FuzzerId);
//
// Connect to the named pipe.
//
g_winafl_pipe = CreateFile(
PipeName, // pipe name
GENERIC_READ | GENERIC_WRITE, // read and write access
0, // no sharing
NULL, // default security attributes
OPEN_EXISTING, // opens existing pipe
0, // default attributes
NULL // no template file
);
if(g_winafl_pipe == INVALID_HANDLE_VALUE) {
_tprintf(TEXT("[-] Opening the named pipe failed.\n"));
Status = FALSE;
goto clean;
}
//
// Get the named shared memory section mapped.
//
MappedFile = OpenFileMapping(
FILE_MAP_ALL_ACCESS,
FALSE,
ShmName
);
if(MappedFile == NULL) {
_tprintf(TEXT("[-] Opening the file mapping failed.\n"));
Status = FALSE;
goto clean;
}
AreaPtr = MapViewOfFile(
MappedFile,
FILE_MAP_ALL_ACCESS,
0,
0,
MAP_SIZE
);
if(AreaPtr == NULL) {
_tprintf(TEXT("[-] Mapping a view of the shared memory section failed.\n"));
Status = FALSE;
goto clean;
}
//
// Fix up the instrumented modules so that the pointer storing the base
// of the coverage map points to the shared memory section we just mapped in.
// The instrumented code will now write the coverage information directly
// in the shared section.
//
for(i = 0; i < g_ninstrumented_modules; ++i) {
g_static_coverage_data[i]->__afl_area_ptr = (PUCHAR)AreaPtr;
}
_tprintf(TEXT("[+] Fixed-up the %d instrumented modules.\n"), g_ninstrumented_modules);
clean:
if(g_nofuzzing_mode == FALSE && g_noinstrumentation == TRUE) {
//
// It means there is no instrumented module in the address space,
// and we are being run through AFL..weird. Display a pop-up!
//
_tprintf(TEXT("[-] You are running without instrumentation under afl-fuzz.exe.\n"));
MessageBox(
NULL,
TEXT("You are running without instrumentation under afl-fuzz.exe."),
NULL,
MB_OK | MB_ICONERROR
);
}
if(MappedFile != NULL) {
CloseHandle(MappedFile);
}
LeaveCriticalSection(&g_crit_section);
return Status;
}
BOOL CALLBACK __afl_set_up_bareminimum(
PINIT_ONCE InitOnce, PVOID Parameter, PVOID *Context
)
/*++
Routine Description:
Installs the vectored exception handler to ease reproducability.
The VEH gets installed even if running without afl-fuzz.exe, or
if running a non-instrumented module. This is particularly useful
for debugging issues found by afl-fuzz.exe on a vanilla target (in
the case the debugging symbols are a bit funky on an instrumented
binary for example). Also initialize the critical section.
Arguments:
InitOnce - Unused.
Parameter - Unused.
Context - Unused.
Return Value:
TRUE.
--*/
{
UNREFERENCED_PARAMETER(InitOnce);
UNREFERENCED_PARAMETER(Parameter);
UNREFERENCED_PARAMETER(Context);
InitializeCriticalSection(&g_crit_section);
//
// Set up the exception handler.
//
AddVectoredExceptionHandler(0, __afl_VectoredHandler);
//
// Display the banner to know the persistent loop is here.
//
__afl_display_banner();
return TRUE;
}
BOOL __afl_persistent_loop()
/*++
Routine Description:
Persistent loop implementation.
Arguments:
None.
Return Value:
TRUE until the iteration count gets hit, and then FALSE.
--*/
{
BOOL Status;
CHAR Command = 0;
DWORD Dummy;
SIZE_T i = 0;
if(g_nofuzzing_mode == TRUE) {
//
// Force exit at the first iteration when afl-fuzz isn't detected
// to fake "normal" execution of instrumented binary.
//
Status = FALSE;
goto clean;
}
Status = InitOnceExecuteOnce(
&g_init_once_bareminimum,
__afl_set_up_bareminimum,
NULL,
NULL
);
Status = InitOnceExecuteOnce(
&g_init_once,
__afl_set_it_up,
NULL,
NULL
);
if(Status == FALSE) {
_tprintf(TEXT("[+] Enabling the no fuzzing mode.\n"));
g_nofuzzing_mode = TRUE;
Status = TRUE;
goto clean;
}
//
// If this not the first time, it means we have to signal afl-fuzz that
// the previous test-case ended.
//
if(g_current_iterations > 0) {
WriteFile(g_winafl_pipe, "K", 1, &Dummy, NULL);
}
if(g_current_iterations == g_niterations) {
//
// It is time to stop the machine!
//
CloseHandle(g_winafl_pipe);
g_winafl_pipe = INVALID_HANDLE_VALUE;
UnmapViewOfFile(g_static_coverage_data[0]->__afl_area_ptr);
//
// Redirect the coverage map back into the instrumented binary's
// .syzyafl section so that the program doesn't crash while exiting.
//
for(i = 0; i < g_ninstrumented_modules; ++i) {
g_static_coverage_data[i]->__afl_area_ptr = (PUCHAR)g_static_coverage_data[i]->__afl_area;
}
Status = FALSE;
goto clean;
}
//
// Tell afl-fuzz that we are ready for the next iteration.
//
WriteFile(g_winafl_pipe, "P", 1, &Dummy, NULL);
//
// Wait until we have the go from afl-fuzz to go ahead (below call is blocking).
//
ReadFile(g_winafl_pipe, &Command, 1, &Dummy, NULL);
if(Command != 'F') {
if(Command == 'Q') {
_tprintf(TEXT("[+] Received the quit signal, exiting.\n"));
} else {
_tprintf(TEXT("[-] Received an unknown command from afl-fuzz, exiting (%.2x).\n"), Command);
}
TerminateProcess(GetCurrentProcess(), 0);
}
clean:
g_current_iterations++;
#ifdef AFL_STATIC_VARIABLE_BEHAVIOR_DEBUG
{
//
// To ease debugging of variable behavior, we fake a configuration
// where we run 10 iterations through the persistent loop, and
// we save to disk the coverage map at every iterations.
// You can then diff them and understand what parts of the map
// get changed, and you can then set hardware write access breakpoints
// to see what is the code writing in the coverage map.
//
FILE *CoverageFile = NULL;
TCHAR CoverageFilename[MAX_STRING_SIZE];
if(g_current_iterations == 1) {
//
// Check various things on the first iteration. This is the
// only time this block will get executed.
//
//
// We cannot run in this mode if no instrumentation has been found, as
// there won't be any coverage map.
//
if(g_noinstrumentation == TRUE) {
_tprintf(TEXT(
"[-] Cannot run the variable behavior debugging mode without an instrumented module.\n"
));
Status = FALSE;
goto end;
}
//
// We cannot run in this mode if we are fuzzing right now, display a message
// box as - most likely - afl-fuzz.exe is sink-holing stdout messages.
//
if(g_nofuzzing_mode == FALSE) {
MessageBox(
NULL,
TEXT("You are running the target under afl-fuzz.exe with the variable behavior debugging mode."),
NULL,
MB_OK | MB_ICONERROR
);
Status = FALSE;
goto end;
}
//
// Let the user knows that the variable behavior debugging mode is enabled,
// and configure the number of iterations.
//
_tprintf(TEXT("[+] Enabled the variable behavior debugging mode.\n"));
g_niterations = AFL_VARIABLE_BEHAVIOR_ITERATIONS;
//
// Fix-up all the coverage maps to point into the first one's.
//
for(i = 1; i < g_ninstrumented_modules; ++i) {
g_static_coverage_data[i]->__afl_area_ptr = (PUCHAR)g_static_coverage_data[0]->__afl_area;
}
if(IsDebuggerPresent()) {
//
// If we are under a debugger, let's give to the user the
// coverage map base address as it is useful to break on write
// access to certain bytes in the map to investigate variable
// behaviors test-cases.
//
_tprintf(
TEXT("[+] Coverage map base: %p.\n"),
g_static_coverage_data[0]->__afl_area_ptr
);
//
// Also breaking so that the user can set its breakpoints before
// we start running the persistent loop.
//
__debugbreak();
}
}
//
// Force the persistent loop to run again if we need it to.
//
if(g_current_iterations == g_niterations) {
//
// We are done!
//
Status = FALSE;
} else {
//
// Force re-entering the persistent loop again.
//
g_nofuzzing_mode = FALSE;
}
if(g_current_iterations > 1 && !IsDebuggerPresent()) {
//
// Write the coverage map to disk if this is not the first
// iteration as the instrumented code didn't get a chance
// to be executed yet. We also don't overwrite the traces if a
// debugger is attached, as it most likely means that an
// investigation is on-going.
//
_stprintf_s(
CoverageFilename, _countof(CoverageFilename),
AFL_VARIABLE_BEHAVIOR_TRACES_BASE_DIR "\\%u.bin", g_current_iterations - 1
);
if(_tfopen_s(&CoverageFile, CoverageFilename, TEXT("wb"))) {
_tprintf(TEXT("[-] Cannot open %s.\n"), CoverageFilename);
} else {
fwrite(g_static_coverage_data[0]->__afl_area_ptr, MAP_SIZE, 1, CoverageFile);
fclose(CoverageFile);
}
}
}
end:
#endif
if(g_noinstrumentation == FALSE) {
//
// Reset the global state only if we have found an instrumented
// module earlier - otherwise the g_static_coverage_data array
// is empty.
//
for(i = 0; i < g_ninstrumented_modules; ++i) {
PUINT32 PerThreadPrevLoc;
STATIC_COVERAGE_DATA *CurrentCoverageData = g_static_coverage_data[i];
if(CurrentCoverageData->__tls_slot_offset != 0) {
//
// TLS version if we are fuzzing a multithread instrumented binary.
//
PUINT32 Base = (PUINT32)(__readfsdword(0x2C) + (4 * CurrentCoverageData->__tls_index));
PerThreadPrevLoc = (PUINT32)(*Base + CurrentCoverageData->__tls_slot_offset);
} else {
PerThreadPrevLoc = (PUINT32)(&CurrentCoverageData->__afl_prev_loc);
}
*PerThreadPrevLoc = 0;
}
memset(g_static_coverage_data[0]->__afl_area_ptr, 0, MAP_SIZE);
}
#ifdef AFL_STATIC_VARIABLE_BEHAVIOR_DEBUG
//
// Make sure to reinitialize the counter to 0 in order
// to not exhaust all the slots.
//
g_ninstrumented_modules = 0;
#endif
return Status;
}
#ifdef __cplusplus
}
#endif