llvm-project/llvm/lib/Support/ErrorHandling.cpp

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//===- lib/Support/ErrorHandling.cpp - Callbacks for errors ---------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// 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/Signals.h"
#include "llvm/Support/Threading.h"
#include "llvm/Support/WindowsError.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdlib>
#include <mutex>
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
#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;
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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;
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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();
exit(1);
}
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
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.
char OOMMessage[] = "LLVM ERROR: out of memory\n";
ssize_t written = ::write(2, OOMMessage, strlen(OOMMessage));
(void)written;
abort();
[Support] - Add bad alloc error handler for handling allocation malfunctions Summary: Patch by Klaus Kretzschmar We would like to introduce a new type of llvm error handler for handling bad alloc fault situations. LLVM already provides a fatal error handler for serious non-recoverable error situations which by default writes some error information to stderr and calls exit(1) at the end (functions are marked as 'noreturn'). For long running processes (e.g. a server application), exiting the process is not an acceptable option, especially not when the system is in a temporary resource bottleneck with a good chance to recover from this fault situation. In such a situation you would rather throw an exception to stop the current compilation and try to overcome the resource bottleneck. The user should be aware of the problem of throwing an exception in bad alloc situations, e.g. you must not do any allocations in the unwind chain. This is especially true when adding exceptions in existing unfamiliar code (as already stated in the comment of the current fatal error handler) So the new handler can also be used to distinguish from general fatal error situations where recovering is no option. It should be used in cases where a clean unwind after the allocation is guaranteed. This patch contains: - A report_bad_alloc function which calls a user defined bad alloc error handler. If no user handler is registered the report_fatal_error function is called. This function is not marked as 'noreturn'. - A install/restore_bad_alloc_error_handler to install/restore the bad alloc handler. - An example (in Mutex.cpp) where the report_bad_alloc function is called in case of a malloc returns a nullptr. If this patch gets accepted we would create similar patches to fix corresponding malloc/calloc usages in the llvm code. Reviewers: chandlerc, greened, baldrick, rnk Reviewed By: rnk Subscribers: llvm-commits, MatzeB Differential Revision: https://reviews.llvm.org/D34753 llvm-svn: 307673
2017-07-12 00:45:30 +08:00
#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 does not
// need to be called explicitly, if this file is linked to application, because
// in this case it is called during construction of 'new_handler_installer'.
void llvm::install_out_of_memory_new_handler() {
static bool out_of_memory_new_handler_installed = false;
if (!out_of_memory_new_handler_installed) {
std::set_new_handler(out_of_memory_new_handler);
out_of_memory_new_handler_installed = true;
}
}
// Static object that causes installation of 'out_of_memory_new_handler' before
// execution of 'main'.
static class NewHandlerInstaller {
public:
NewHandlerInstaller() {
install_out_of_memory_new_handler();
}
} new_handler_installer;
#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 LLVM_ON_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