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llvm-mirror/lib/Support/ErrorHandling.cpp

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11 KiB
C++

//===- lib/Support/ErrorHandling.cpp - Callbacks for errors ---------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines an API used to indicate fatal error conditions. Non-fatal
// errors (most of them) should be handled through LLVMContext.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/ErrorHandling.h"
#include "llvm-c/ErrorHandling.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Config/config.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/Process.h"
#include "llvm/Support/Signals.h"
#include "llvm/Support/Threading.h"
#include "llvm/Support/WindowsError.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdlib>
#include <mutex>
#include <new>
#if defined(HAVE_UNISTD_H)
# include <unistd.h>
#endif
#if defined(_MSC_VER)
# include <io.h>
# include <fcntl.h>
#endif
using namespace llvm;
static fatal_error_handler_t ErrorHandler = nullptr;
static void *ErrorHandlerUserData = nullptr;
static fatal_error_handler_t BadAllocErrorHandler = nullptr;
static void *BadAllocErrorHandlerUserData = nullptr;
#if LLVM_ENABLE_THREADS == 1
// Mutexes to synchronize installing error handlers and calling error handlers.
// Do not use ManagedStatic, or that may allocate memory while attempting to
// report an OOM.
//
// This usage of std::mutex has to be conditionalized behind ifdefs because
// of this script:
// compiler-rt/lib/sanitizer_common/symbolizer/scripts/build_symbolizer.sh
// That script attempts to statically link the LLVM symbolizer library with the
// STL and hide all of its symbols with 'opt -internalize'. To reduce size, it
// cuts out the threading portions of the hermetic copy of libc++ that it
// builds. We can remove these ifdefs if that script goes away.
static std::mutex ErrorHandlerMutex;
static std::mutex BadAllocErrorHandlerMutex;
#endif
void llvm::install_fatal_error_handler(fatal_error_handler_t handler,
void *user_data) {
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(ErrorHandlerMutex);
#endif
assert(!ErrorHandler && "Error handler already registered!\n");
ErrorHandler = handler;
ErrorHandlerUserData = user_data;
}
void llvm::remove_fatal_error_handler() {
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(ErrorHandlerMutex);
#endif
ErrorHandler = nullptr;
ErrorHandlerUserData = nullptr;
}
void llvm::report_fatal_error(const char *Reason, bool GenCrashDiag) {
report_fatal_error(Twine(Reason), GenCrashDiag);
}
void llvm::report_fatal_error(const std::string &Reason, bool GenCrashDiag) {
report_fatal_error(Twine(Reason), GenCrashDiag);
}
void llvm::report_fatal_error(StringRef Reason, bool GenCrashDiag) {
report_fatal_error(Twine(Reason), GenCrashDiag);
}
void llvm::report_fatal_error(const Twine &Reason, bool GenCrashDiag) {
llvm::fatal_error_handler_t handler = nullptr;
void* handlerData = nullptr;
{
// Only acquire the mutex while reading the handler, so as not to invoke a
// user-supplied callback under a lock.
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(ErrorHandlerMutex);
#endif
handler = ErrorHandler;
handlerData = ErrorHandlerUserData;
}
if (handler) {
handler(handlerData, Reason.str(), GenCrashDiag);
} else {
// Blast the result out to stderr. We don't try hard to make sure this
// succeeds (e.g. handling EINTR) and we can't use errs() here because
// raw ostreams can call report_fatal_error.
SmallVector<char, 64> Buffer;
raw_svector_ostream OS(Buffer);
OS << "LLVM ERROR: " << Reason << "\n";
StringRef MessageStr = OS.str();
ssize_t written = ::write(2, MessageStr.data(), MessageStr.size());
(void)written; // If something went wrong, we deliberately just give up.
}
// If we reached here, we are failing ungracefully. Run the interrupt handlers
// to make sure any special cleanups get done, in particular that we remove
// files registered with RemoveFileOnSignal.
sys::RunInterruptHandlers();
abort();
}
void llvm::install_bad_alloc_error_handler(fatal_error_handler_t handler,
void *user_data) {
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(BadAllocErrorHandlerMutex);
#endif
assert(!ErrorHandler && "Bad alloc error handler already registered!\n");
BadAllocErrorHandler = handler;
BadAllocErrorHandlerUserData = user_data;
}
void llvm::remove_bad_alloc_error_handler() {
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(BadAllocErrorHandlerMutex);
#endif
BadAllocErrorHandler = nullptr;
BadAllocErrorHandlerUserData = nullptr;
}
void llvm::report_bad_alloc_error(const char *Reason, bool GenCrashDiag) {
fatal_error_handler_t Handler = nullptr;
void *HandlerData = nullptr;
{
// Only acquire the mutex while reading the handler, so as not to invoke a
// user-supplied callback under a lock.
#if LLVM_ENABLE_THREADS == 1
std::lock_guard<std::mutex> Lock(BadAllocErrorHandlerMutex);
#endif
Handler = BadAllocErrorHandler;
HandlerData = BadAllocErrorHandlerUserData;
}
if (Handler) {
Handler(HandlerData, Reason, GenCrashDiag);
llvm_unreachable("bad alloc handler should not return");
}
#ifdef LLVM_ENABLE_EXCEPTIONS
// If exceptions are enabled, make OOM in malloc look like OOM in new.
throw std::bad_alloc();
#else
// Don't call the normal error handler. It may allocate memory. Directly write
// an OOM to stderr and abort.
const char *OOMMessage = "LLVM ERROR: out of memory\n";
const char *Newline = "\n";
(void)!::write(2, OOMMessage, strlen(OOMMessage));
(void)!::write(2, Reason, strlen(Reason));
(void)!::write(2, Newline, strlen(Newline));
abort();
#endif
}
#ifdef LLVM_ENABLE_EXCEPTIONS
// Do not set custom new handler if exceptions are enabled. In this case OOM
// errors are handled by throwing 'std::bad_alloc'.
void llvm::install_out_of_memory_new_handler() {
}
#else
// Causes crash on allocation failure. It is called prior to the handler set by
// 'install_bad_alloc_error_handler'.
static void out_of_memory_new_handler() {
llvm::report_bad_alloc_error("Allocation failed");
}
// Installs new handler that causes crash on allocation failure. It is called by
// InitLLVM.
void llvm::install_out_of_memory_new_handler() {
std::new_handler old = std::set_new_handler(out_of_memory_new_handler);
(void)old;
assert((old == nullptr || old == out_of_memory_new_handler) &&
"new-handler already installed");
}
#endif
void llvm::llvm_unreachable_internal(const char *msg, const char *file,
unsigned line) {
// This code intentionally doesn't call the ErrorHandler callback, because
// llvm_unreachable is intended to be used to indicate "impossible"
// situations, and not legitimate runtime errors.
if (msg)
dbgs() << msg << "\n";
dbgs() << "UNREACHABLE executed";
if (file)
dbgs() << " at " << file << ":" << line;
dbgs() << "!\n";
abort();
#ifdef LLVM_BUILTIN_UNREACHABLE
// Windows systems and possibly others don't declare abort() to be noreturn,
// so use the unreachable builtin to avoid a Clang self-host warning.
LLVM_BUILTIN_UNREACHABLE;
#endif
}
static void bindingsErrorHandler(void *user_data, const std::string& reason,
bool gen_crash_diag) {
LLVMFatalErrorHandler handler =
LLVM_EXTENSION reinterpret_cast<LLVMFatalErrorHandler>(user_data);
handler(reason.c_str());
}
void LLVMInstallFatalErrorHandler(LLVMFatalErrorHandler Handler) {
install_fatal_error_handler(bindingsErrorHandler,
LLVM_EXTENSION reinterpret_cast<void *>(Handler));
}
void LLVMResetFatalErrorHandler() {
remove_fatal_error_handler();
}
#ifdef _WIN32
#include <winerror.h>
// I'd rather not double the line count of the following.
#define MAP_ERR_TO_COND(x, y) \
case x: \
return make_error_code(errc::y)
std::error_code llvm::mapWindowsError(unsigned EV) {
switch (EV) {
MAP_ERR_TO_COND(ERROR_ACCESS_DENIED, permission_denied);
MAP_ERR_TO_COND(ERROR_ALREADY_EXISTS, file_exists);
MAP_ERR_TO_COND(ERROR_BAD_UNIT, no_such_device);
MAP_ERR_TO_COND(ERROR_BUFFER_OVERFLOW, filename_too_long);
MAP_ERR_TO_COND(ERROR_BUSY, device_or_resource_busy);
MAP_ERR_TO_COND(ERROR_BUSY_DRIVE, device_or_resource_busy);
MAP_ERR_TO_COND(ERROR_CANNOT_MAKE, permission_denied);
MAP_ERR_TO_COND(ERROR_CANTOPEN, io_error);
MAP_ERR_TO_COND(ERROR_CANTREAD, io_error);
MAP_ERR_TO_COND(ERROR_CANTWRITE, io_error);
MAP_ERR_TO_COND(ERROR_CURRENT_DIRECTORY, permission_denied);
MAP_ERR_TO_COND(ERROR_DEV_NOT_EXIST, no_such_device);
MAP_ERR_TO_COND(ERROR_DEVICE_IN_USE, device_or_resource_busy);
MAP_ERR_TO_COND(ERROR_DIR_NOT_EMPTY, directory_not_empty);
MAP_ERR_TO_COND(ERROR_DIRECTORY, invalid_argument);
MAP_ERR_TO_COND(ERROR_DISK_FULL, no_space_on_device);
MAP_ERR_TO_COND(ERROR_FILE_EXISTS, file_exists);
MAP_ERR_TO_COND(ERROR_FILE_NOT_FOUND, no_such_file_or_directory);
MAP_ERR_TO_COND(ERROR_HANDLE_DISK_FULL, no_space_on_device);
MAP_ERR_TO_COND(ERROR_INVALID_ACCESS, permission_denied);
MAP_ERR_TO_COND(ERROR_INVALID_DRIVE, no_such_device);
MAP_ERR_TO_COND(ERROR_INVALID_FUNCTION, function_not_supported);
MAP_ERR_TO_COND(ERROR_INVALID_HANDLE, invalid_argument);
MAP_ERR_TO_COND(ERROR_INVALID_NAME, invalid_argument);
MAP_ERR_TO_COND(ERROR_LOCK_VIOLATION, no_lock_available);
MAP_ERR_TO_COND(ERROR_LOCKED, no_lock_available);
MAP_ERR_TO_COND(ERROR_NEGATIVE_SEEK, invalid_argument);
MAP_ERR_TO_COND(ERROR_NOACCESS, permission_denied);
MAP_ERR_TO_COND(ERROR_NOT_ENOUGH_MEMORY, not_enough_memory);
MAP_ERR_TO_COND(ERROR_NOT_READY, resource_unavailable_try_again);
MAP_ERR_TO_COND(ERROR_OPEN_FAILED, io_error);
MAP_ERR_TO_COND(ERROR_OPEN_FILES, device_or_resource_busy);
MAP_ERR_TO_COND(ERROR_OUTOFMEMORY, not_enough_memory);
MAP_ERR_TO_COND(ERROR_PATH_NOT_FOUND, no_such_file_or_directory);
MAP_ERR_TO_COND(ERROR_BAD_NETPATH, no_such_file_or_directory);
MAP_ERR_TO_COND(ERROR_READ_FAULT, io_error);
MAP_ERR_TO_COND(ERROR_RETRY, resource_unavailable_try_again);
MAP_ERR_TO_COND(ERROR_SEEK, io_error);
MAP_ERR_TO_COND(ERROR_SHARING_VIOLATION, permission_denied);
MAP_ERR_TO_COND(ERROR_TOO_MANY_OPEN_FILES, too_many_files_open);
MAP_ERR_TO_COND(ERROR_WRITE_FAULT, io_error);
MAP_ERR_TO_COND(ERROR_WRITE_PROTECT, permission_denied);
MAP_ERR_TO_COND(WSAEACCES, permission_denied);
MAP_ERR_TO_COND(WSAEBADF, bad_file_descriptor);
MAP_ERR_TO_COND(WSAEFAULT, bad_address);
MAP_ERR_TO_COND(WSAEINTR, interrupted);
MAP_ERR_TO_COND(WSAEINVAL, invalid_argument);
MAP_ERR_TO_COND(WSAEMFILE, too_many_files_open);
MAP_ERR_TO_COND(WSAENAMETOOLONG, filename_too_long);
default:
return std::error_code(EV, std::system_category());
}
}
#endif