llvm-project/compiler-rt/lib/asan/asan_win_dll_thunk.cc

377 lines
16 KiB
C++

//===-- asan_win_dll_thunk.cc ---------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is a part of AddressSanitizer, an address sanity checker.
//
// This file defines a family of thunks that should be statically linked into
// the DLLs that have ASan instrumentation in order to delegate the calls to the
// shared runtime that lives in the main binary.
// See https://code.google.com/p/address-sanitizer/issues/detail?id=209 for the
// details.
//===----------------------------------------------------------------------===//
// Only compile this code when buidling asan_dll_thunk.lib
// Using #ifdef rather than relying on Makefiles etc.
// simplifies the build procedure.
#ifdef ASAN_DLL_THUNK
#include "asan_init_version.h"
#include "interception/interception.h"
// ---------- Function interception helper functions and macros ----------- {{{1
extern "C" {
void *__stdcall GetModuleHandleA(const char *module_name);
void *__stdcall GetProcAddress(void *module, const char *proc_name);
void abort();
}
static void *getRealProcAddressOrDie(const char *name) {
void *ret = GetProcAddress(GetModuleHandleA(0), name);
if (!ret)
abort();
return ret;
}
// We need to intercept some functions (e.g. ASan interface, memory allocator --
// let's call them "hooks") exported by the DLL thunk and forward the hooks to
// the runtime in the main module.
// However, we don't want to keep two lists of these hooks.
// To avoid that, the list of hooks should be defined using the
// INTERCEPT_WHEN_POSSIBLE macro. Then, all these hooks can be intercepted
// at once by calling INTERCEPT_HOOKS().
// Use macro+template magic to automatically generate the list of hooks.
// Each hook at line LINE defines a template class with a static
// FunctionInterceptor<LINE>::Execute() method intercepting the hook.
// The default implementation of FunctionInterceptor<LINE> is to call
// the Execute() method corresponding to the previous line.
template<int LINE>
struct FunctionInterceptor {
static void Execute() { FunctionInterceptor<LINE-1>::Execute(); }
};
// There shouldn't be any hooks with negative definition line number.
template<>
struct FunctionInterceptor<0> {
static void Execute() {}
};
#define INTERCEPT_WHEN_POSSIBLE(main_function, dll_function) \
template<> struct FunctionInterceptor<__LINE__> { \
static void Execute() { \
void *wrapper = getRealProcAddressOrDie(main_function); \
if (!__interception::OverrideFunction((uptr)dll_function, \
(uptr)wrapper, 0)) \
abort(); \
FunctionInterceptor<__LINE__-1>::Execute(); \
} \
};
// Special case of hooks -- ASan own interface functions. Those are only called
// after __asan_init, thus an empty implementation is sufficient.
#define INTERFACE_FUNCTION(name) \
extern "C" __declspec(noinline) void name() { \
volatile int prevent_icf = (__LINE__ << 8); (void)prevent_icf; \
__debugbreak(); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name)
// INTERCEPT_HOOKS must be used after the last INTERCEPT_WHEN_POSSIBLE.
#define INTERCEPT_HOOKS FunctionInterceptor<__LINE__>::Execute
// We can't define our own version of strlen etc. because that would lead to
// link-time or even type mismatch errors. Instead, we can declare a function
// just to be able to get its address. Me may miss the first few calls to the
// functions since it can be called before __asan_init, but that would lead to
// false negatives in the startup code before user's global initializers, which
// isn't a big deal.
#define INTERCEPT_LIBRARY_FUNCTION(name) \
extern "C" void name(); \
INTERCEPT_WHEN_POSSIBLE(WRAPPER_NAME(name), name)
// Disable compiler warnings that show up if we declare our own version
// of a compiler intrinsic (e.g. strlen).
#pragma warning(disable: 4391)
#pragma warning(disable: 4392)
static void InterceptHooks();
// }}}
// ---------- Function wrapping helpers ----------------------------------- {{{1
#define WRAP_V_V(name) \
extern "C" void name() { \
typedef void (*fntype)(); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
fn(); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_V_W(name) \
extern "C" void name(void *arg) { \
typedef void (*fntype)(void *arg); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
fn(arg); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_V_WW(name) \
extern "C" void name(void *arg1, void *arg2) { \
typedef void (*fntype)(void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
fn(arg1, arg2); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_V_WWW(name) \
extern "C" void name(void *arg1, void *arg2, void *arg3) { \
typedef void *(*fntype)(void *, void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
fn(arg1, arg2, arg3); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_V(name) \
extern "C" void *name() { \
typedef void *(*fntype)(); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_W(name) \
extern "C" void *name(void *arg) { \
typedef void *(*fntype)(void *arg); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_WW(name) \
extern "C" void *name(void *arg1, void *arg2) { \
typedef void *(*fntype)(void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg1, arg2); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_WWW(name) \
extern "C" void *name(void *arg1, void *arg2, void *arg3) { \
typedef void *(*fntype)(void *, void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg1, arg2, arg3); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_WWWW(name) \
extern "C" void *name(void *arg1, void *arg2, void *arg3, void *arg4) { \
typedef void *(*fntype)(void *, void *, void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg1, arg2, arg3, arg4); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_WWWWW(name) \
extern "C" void *name(void *arg1, void *arg2, void *arg3, void *arg4, \
void *arg5) { \
typedef void *(*fntype)(void *, void *, void *, void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg1, arg2, arg3, arg4, arg5); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
#define WRAP_W_WWWWWW(name) \
extern "C" void *name(void *arg1, void *arg2, void *arg3, void *arg4, \
void *arg5, void *arg6) { \
typedef void *(*fntype)(void *, void *, void *, void *, void *, void *); \
static fntype fn = (fntype)getRealProcAddressOrDie(#name); \
return fn(arg1, arg2, arg3, arg4, arg5, arg6); \
} \
INTERCEPT_WHEN_POSSIBLE(#name, name);
// }}}
// ----------------- ASan own interface functions --------------------
// Don't use the INTERFACE_FUNCTION machinery for this function as we actually
// want to call it in the __asan_init interceptor.
WRAP_W_V(__asan_should_detect_stack_use_after_return)
extern "C" {
int __asan_option_detect_stack_use_after_return;
// Manually wrap __asan_init as we need to initialize
// __asan_option_detect_stack_use_after_return afterwards.
void __asan_init() {
typedef void (*fntype)();
static fntype fn = 0;
// __asan_init is expected to be called by only one thread.
if (fn) return;
fn = (fntype)getRealProcAddressOrDie(__asan_init_name);
fn();
__asan_option_detect_stack_use_after_return =
(__asan_should_detect_stack_use_after_return() != 0);
InterceptHooks();
}
}
INTERFACE_FUNCTION(__asan_handle_no_return)
INTERFACE_FUNCTION(__asan_report_store1)
INTERFACE_FUNCTION(__asan_report_store2)
INTERFACE_FUNCTION(__asan_report_store4)
INTERFACE_FUNCTION(__asan_report_store8)
INTERFACE_FUNCTION(__asan_report_store16)
INTERFACE_FUNCTION(__asan_report_store_n)
INTERFACE_FUNCTION(__asan_report_load1)
INTERFACE_FUNCTION(__asan_report_load2)
INTERFACE_FUNCTION(__asan_report_load4)
INTERFACE_FUNCTION(__asan_report_load8)
INTERFACE_FUNCTION(__asan_report_load16)
INTERFACE_FUNCTION(__asan_report_load_n)
INTERFACE_FUNCTION(__asan_store1)
INTERFACE_FUNCTION(__asan_store2)
INTERFACE_FUNCTION(__asan_store4)
INTERFACE_FUNCTION(__asan_store8)
INTERFACE_FUNCTION(__asan_store16)
INTERFACE_FUNCTION(__asan_storeN)
INTERFACE_FUNCTION(__asan_load1)
INTERFACE_FUNCTION(__asan_load2)
INTERFACE_FUNCTION(__asan_load4)
INTERFACE_FUNCTION(__asan_load8)
INTERFACE_FUNCTION(__asan_load16)
INTERFACE_FUNCTION(__asan_loadN)
INTERFACE_FUNCTION(__asan_memcpy);
INTERFACE_FUNCTION(__asan_memset);
INTERFACE_FUNCTION(__asan_memmove);
INTERFACE_FUNCTION(__asan_register_globals)
INTERFACE_FUNCTION(__asan_unregister_globals)
INTERFACE_FUNCTION(__asan_before_dynamic_init)
INTERFACE_FUNCTION(__asan_after_dynamic_init)
INTERFACE_FUNCTION(__asan_poison_stack_memory)
INTERFACE_FUNCTION(__asan_unpoison_stack_memory)
INTERFACE_FUNCTION(__asan_poison_memory_region)
INTERFACE_FUNCTION(__asan_unpoison_memory_region)
INTERFACE_FUNCTION(__asan_address_is_poisoned)
INTERFACE_FUNCTION(__asan_region_is_poisoned)
INTERFACE_FUNCTION(__asan_get_current_fake_stack)
INTERFACE_FUNCTION(__asan_addr_is_in_fake_stack)
INTERFACE_FUNCTION(__asan_stack_malloc_0)
INTERFACE_FUNCTION(__asan_stack_malloc_1)
INTERFACE_FUNCTION(__asan_stack_malloc_2)
INTERFACE_FUNCTION(__asan_stack_malloc_3)
INTERFACE_FUNCTION(__asan_stack_malloc_4)
INTERFACE_FUNCTION(__asan_stack_malloc_5)
INTERFACE_FUNCTION(__asan_stack_malloc_6)
INTERFACE_FUNCTION(__asan_stack_malloc_7)
INTERFACE_FUNCTION(__asan_stack_malloc_8)
INTERFACE_FUNCTION(__asan_stack_malloc_9)
INTERFACE_FUNCTION(__asan_stack_malloc_10)
INTERFACE_FUNCTION(__asan_stack_free_0)
INTERFACE_FUNCTION(__asan_stack_free_1)
INTERFACE_FUNCTION(__asan_stack_free_2)
INTERFACE_FUNCTION(__asan_stack_free_4)
INTERFACE_FUNCTION(__asan_stack_free_5)
INTERFACE_FUNCTION(__asan_stack_free_6)
INTERFACE_FUNCTION(__asan_stack_free_7)
INTERFACE_FUNCTION(__asan_stack_free_8)
INTERFACE_FUNCTION(__asan_stack_free_9)
INTERFACE_FUNCTION(__asan_stack_free_10)
INTERFACE_FUNCTION(__sanitizer_cov_module_init)
// TODO(timurrrr): Add more interface functions on the as-needed basis.
// ----------------- Memory allocation functions ---------------------
WRAP_V_W(free)
WRAP_V_WW(_free_dbg)
WRAP_W_W(malloc)
WRAP_W_WWWW(_malloc_dbg)
WRAP_W_WW(calloc)
WRAP_W_WWWWW(_calloc_dbg)
WRAP_W_WWW(_calloc_impl)
WRAP_W_WW(realloc)
WRAP_W_WWW(_realloc_dbg)
WRAP_W_WWW(_recalloc)
WRAP_W_W(_msize)
WRAP_W_W(_expand)
WRAP_W_W(_expand_dbg)
// TODO(timurrrr): Might want to add support for _aligned_* allocation
// functions to detect a bit more bugs. Those functions seem to wrap malloc().
// TODO(timurrrr): Do we need to add _Crt* stuff here? (see asan_malloc_win.cc).
INTERCEPT_LIBRARY_FUNCTION(atoi);
INTERCEPT_LIBRARY_FUNCTION(atol);
INTERCEPT_LIBRARY_FUNCTION(_except_handler3);
// _except_handler4 checks -GS cookie which is different for each module, so we
// can't use INTERCEPT_LIBRARY_FUNCTION(_except_handler4).
INTERCEPTOR(int, _except_handler4, void *a, void *b, void *c, void *d) {
__asan_handle_no_return();
return REAL(_except_handler4)(a, b, c, d);
}
INTERCEPT_LIBRARY_FUNCTION(frexp);
INTERCEPT_LIBRARY_FUNCTION(longjmp);
INTERCEPT_LIBRARY_FUNCTION(memchr);
INTERCEPT_LIBRARY_FUNCTION(memcmp);
INTERCEPT_LIBRARY_FUNCTION(memcpy);
INTERCEPT_LIBRARY_FUNCTION(memmove);
INTERCEPT_LIBRARY_FUNCTION(memset);
INTERCEPT_LIBRARY_FUNCTION(strcat); // NOLINT
INTERCEPT_LIBRARY_FUNCTION(strchr);
INTERCEPT_LIBRARY_FUNCTION(strcmp);
INTERCEPT_LIBRARY_FUNCTION(strcpy); // NOLINT
INTERCEPT_LIBRARY_FUNCTION(strlen);
INTERCEPT_LIBRARY_FUNCTION(strncat);
INTERCEPT_LIBRARY_FUNCTION(strncmp);
INTERCEPT_LIBRARY_FUNCTION(strncpy);
INTERCEPT_LIBRARY_FUNCTION(strnlen);
INTERCEPT_LIBRARY_FUNCTION(strtol);
INTERCEPT_LIBRARY_FUNCTION(wcslen);
// Must be after all the interceptor declarations due to the way INTERCEPT_HOOKS
// is defined.
void InterceptHooks() {
INTERCEPT_HOOKS();
INTERCEPT_FUNCTION(_except_handler4);
}
// We want to call __asan_init before C/C++ initializers/constructors are
// executed, otherwise functions like memset might be invoked.
// For some strange reason, merely linking in asan_preinit.cc doesn't work
// as the callback is never called... Is link.exe doing something too smart?
// In DLLs, the callbacks are expected to return 0,
// otherwise CRT initialization fails.
static int call_asan_init() {
__asan_init();
return 0;
}
#pragma section(".CRT$XIB", long, read) // NOLINT
__declspec(allocate(".CRT$XIB")) int (*__asan_preinit)() = call_asan_init;
#endif // ASAN_DLL_THUNK