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stream_win.cpp
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stream_win.cpp
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/* Copyright 2014-present Facebook, Inc.
* Licensed under the Apache License, Version 2.0 */
#include "watchman.h"
#include "make_unique.h"
using watchman::FileDescriptor;
// Things are more complicated here than on unix.
// We maintain an overlapped context for reads and
// another for writes. Actual write data is queued
// and dispatched to the underlying handle as prior
// writes complete.
struct win_handle;
namespace {
class WindowsEvent : public watchman_event {
public:
HANDLE hEvent;
explicit WindowsEvent(bool initialState = false)
: hEvent(CreateEvent(nullptr, TRUE, initialState, nullptr)) {}
~WindowsEvent() {
CloseHandle(hEvent);
}
void notify() override {
SetEvent(hEvent);
}
bool testAndClear() override {
bool was_set = WaitForSingleObject(hEvent, 0) == WAIT_OBJECT_0;
ResetEvent(hEvent);
return was_set;
}
void reset() {
ResetEvent(hEvent);
}
};
}
struct overlapped_op {
OVERLAPPED olap;
struct win_handle *h;
struct write_buf *wbuf;
};
struct write_buf {
struct write_buf *next;
int len;
char *cursor;
char data[1];
};
class win_handle : public watchman_stream {
public:
struct overlapped_op *read_pending{nullptr}, *write_pending{nullptr};
FileDescriptor h;
WindowsEvent waitable;
CRITICAL_SECTION mtx;
bool error_pending{false};
DWORD errcode{0};
DWORD file_type;
struct write_buf *write_head{nullptr}, *write_tail{nullptr};
char read_buf[8192];
char* read_cursor{read_buf};
int read_avail{0};
bool blocking{true};
explicit win_handle(FileDescriptor&& handle);
~win_handle();
int read(void* buf, int size) override;
int write(const void* buf, int size) override;
w_evt_t getEvents() override;
void setNonBlock(bool nonb) override;
bool rewind() override;
bool shutdown() override;
bool peerIsOwner() override;
const FileDescriptor& getFileDescriptor() const override {
return h;
}
// Helper to avoid sprinkling casts all over this file
inline HANDLE handle() const {
return (HANDLE)h.handle();
}
pid_t getPeerProcessID() const override {
return 0;
}
};
#if 1
#define stream_debug(x, ...) 0
#else
#define stream_debug(x, ...) \
do { \
time_t now; \
char timebuf[64]; \
struct tm tm; \
time(&now); \
localtime_s(&tm, &now); \
strftime(timebuf, sizeof(timebuf), "%Y-%m-%dT%H:%M:%S", &tm); \
fprintf(stderr, "%s : ", timebuf); \
fprintf(stderr, x, __VA_ARGS__); \
fflush(stderr); \
} while (0)
#endif
typedef BOOL (WINAPI *get_overlapped_result_ex_func)(
HANDLE file,
LPOVERLAPPED olap,
LPDWORD bytes,
DWORD millis,
BOOL alertable);
static BOOL WINAPI probe_get_overlapped_result_ex(
HANDLE file,
LPOVERLAPPED olap,
LPDWORD bytes,
DWORD millis,
BOOL alertable);
static get_overlapped_result_ex_func get_overlapped_result_ex =
probe_get_overlapped_result_ex;
static BOOL WINAPI get_overlapped_result_ex_impl(
HANDLE file,
LPOVERLAPPED olap,
LPDWORD bytes,
DWORD millis,
BOOL alertable) {
DWORD waitReturnCode, err;
stream_debug( "Preparing to wait for maximum %ums\n", millis );
if ( millis != 0 ) {
waitReturnCode = WaitForSingleObjectEx(olap->hEvent, millis, alertable);
switch (waitReturnCode)
{
case WAIT_OBJECT_0:
// Event is signaled, overlapped IO operation result should be available.
break;
case WAIT_IO_COMPLETION:
// WaitForSingleObjectEx returnes because the system added an I/O
// completion routine or an asynchronous procedure call (APC) to the
// thread queue.
SetLastError(WAIT_IO_COMPLETION);
break;
case WAIT_TIMEOUT:
// We reached the maximum allowed wait time, the IO operation failed
// to complete in timely fashion.
SetLastError(WAIT_TIMEOUT);
return FALSE;
case WAIT_FAILED:
// something went wrong calling WaitForSingleObjectEx
err = GetLastError();
stream_debug("WaitForSingleObjectEx failed: %s\n", win32_strerror(err));
return FALSE;
default:
// unexpected situation deserving investigation.
err = GetLastError();
stream_debug("Unexpected error: %s\n", win32_strerror(err));
return FALSE;
}
}
return GetOverlappedResult(file, olap, bytes, FALSE);
}
static BOOL WINAPI probe_get_overlapped_result_ex(
HANDLE file,
LPOVERLAPPED olap,
LPDWORD bytes,
DWORD millis,
BOOL alertable ) {
get_overlapped_result_ex_func func;
func = (get_overlapped_result_ex_func)GetProcAddress(
GetModuleHandle("kernel32.dll"),
"GetOverlappedResultEx");
if ((getenv("WATCHMAN_WIN7_COMPAT") &&
getenv("WATCHMAN_WIN7_COMPAT")[0] == '1') || !func) {
func = get_overlapped_result_ex_impl;
}
get_overlapped_result_ex = func;
return func(file, olap, bytes, millis, alertable);
}
win_handle::~win_handle() {
EnterCriticalSection(&mtx);
if (read_pending) {
if (CancelIoEx(handle(), &read_pending->olap)) {
free(read_pending);
read_pending = nullptr;
}
}
if (write_pending) {
if (CancelIoEx(handle(), &write_pending->olap)) {
free(write_pending);
write_pending = nullptr;
}
while (write_head) {
struct write_buf* b = write_head;
write_head = b->next;
free(b);
}
}
DeleteCriticalSection(&mtx);
}
static void move_from_read_buffer(struct win_handle *h,
int *total_read_ptr,
char **target_buf_ptr,
int *size_ptr) {
int nread = std::min(*size_ptr, h->read_avail);
size_t wasted;
if (!nread) {
return;
}
memcpy(*target_buf_ptr, h->read_cursor, nread);
*total_read_ptr += nread;
*target_buf_ptr += nread;
*size_ptr -= nread;
h->read_cursor += nread;
h->read_avail -= nread;
stream_debug("moved %d bytes from buffer\n", nread);
// Pack the buffer to free up space at the rear for reads
wasted = h->read_cursor - h->read_buf;
if (wasted) {
memmove(h->read_buf, h->read_cursor, h->read_avail);
h->read_cursor = h->read_buf;
}
}
static bool win_read_handle_completion(struct win_handle *h) {
BOOL olap_res;
DWORD bytes, err;
again:
EnterCriticalSection(&h->mtx);
if (!h->read_pending) {
LeaveCriticalSection(&h->mtx);
return false;
}
stream_debug("have read_pending, checking status\n");
h->waitable.reset();
// Don't hold the mutex while we're blocked
LeaveCriticalSection(&h->mtx);
olap_res = get_overlapped_result_ex(
h->handle(),
&h->read_pending->olap,
&bytes,
h->blocking ? INFINITE : 0,
true);
err = GetLastError();
EnterCriticalSection(&h->mtx);
if (olap_res) {
stream_debug("pending read completed, read %d bytes, %s\n",
(int)bytes, win32_strerror(err));
h->read_avail += bytes;
free(h->read_pending);
h->read_pending = nullptr;
} else {
if (err == WAIT_IO_COMPLETION) {
// Some other async thing completed and our wait was interrupted.
// This is similar to EINTR
LeaveCriticalSection(&h->mtx);
goto again;
}
stream_debug("pending read failed: %s\n", win32_strerror(err));
if (err != ERROR_IO_INCOMPLETE) {
// Failed
free(h->read_pending);
h->read_pending = nullptr;
h->errcode = err;
h->error_pending = true;
stream_debug("marking read as failed\n");
h->waitable.notify();
}
}
LeaveCriticalSection(&h->mtx);
return h->read_pending != nullptr;
}
static int win_read_blocking(struct win_handle* h, void* buf, int size) {
int total_read = 0;
DWORD bytes, err;
move_from_read_buffer(h, &total_read, (char**)&buf, &size);
if (size == 0) {
return total_read;
}
stream_debug("blocking read of %d bytes\n", (int)size);
if (ReadFile(h->handle(), buf, size, &bytes, nullptr)) {
total_read += bytes;
stream_debug("blocking read provided %d bytes, total=%d\n",
(int)bytes, total_read);
return total_read;
}
err = GetLastError();
stream_debug("blocking read failed: %s\n", win32_strerror(err));
if (total_read) {
stream_debug("but already got %d bytes from buffer\n", total_read);
return total_read;
}
errno = map_win32_err(err);
return -1;
}
static int win_read_non_blocking(struct win_handle* h, void* buf, int size) {
int total_read = 0;
char *target;
DWORD target_space;
DWORD bytes;
stream_debug("non_blocking read for %d bytes\n", size);
move_from_read_buffer(h, &total_read, (char**)&buf, &size);
target = h->read_cursor + h->read_avail;
target_space = (DWORD)((h->read_buf + sizeof(h->read_buf)) - target);
stream_debug("initiate read for %d\n", target_space);
// Create a unique olap for each request
h->read_pending = (overlapped_op*)calloc(1, sizeof(*h->read_pending));
if (h->read_avail == 0) {
stream_debug("ResetEvent because there is no read_avail right now\n");
h->waitable.reset();
}
h->read_pending->olap.hEvent = h->waitable.hEvent;
h->read_pending->h = h;
if (!ReadFile(
h->handle(), target, target_space, nullptr, &h->read_pending->olap)) {
DWORD err = GetLastError();
if (err != ERROR_IO_PENDING) {
free(h->read_pending);
h->read_pending = nullptr;
stream_debug("olap read failed immediately: %s\n",
win32_strerror(err));
h->waitable.notify();
} else {
stream_debug("olap read queued ok\n");
}
errno = map_win32_err(err);
return total_read == 0 ? -1 : total_read;
}
// Note: we obtain the bytes via GetOverlappedResult because the docs for
// ReadFile warn against passing the pointer to the ReadFile parameter for
// asynchronouse reads
GetOverlappedResult(h->handle(), &h->read_pending->olap, &bytes, FALSE);
stream_debug("olap read succeeded immediately bytes=%d\n", (int)bytes);
h->read_avail += bytes;
free(h->read_pending);
h->read_pending = nullptr;
move_from_read_buffer(h, &total_read, (char**)&buf, &size);
stream_debug("read returning %d\n", total_read);
h->waitable.notify();
return total_read;
}
int win_handle::read(void* buf, int size) {
if (win_read_handle_completion(this)) {
errno = EAGAIN;
return -1;
}
// Report a prior failure
if (error_pending) {
stream_debug(
"win_read: reporting prior failure err=%d errno=%d %s\n",
errcode,
map_win32_err(errcode),
win32_strerror(errcode));
errno = map_win32_err(errcode);
error_pending = false;
return -1;
}
if (blocking) {
return win_read_blocking(this, buf, size);
}
return win_read_non_blocking(this, buf, size);
}
static void initiate_write(struct win_handle *h);
static void CALLBACK write_completed(DWORD err, DWORD bytes,
LPOVERLAPPED olap) {
// Reverse engineer our handle from the olap pointer
struct overlapped_op *op = (overlapped_op*)olap;
struct win_handle *h = op->h;
struct write_buf *wbuf = op->wbuf;
stream_debug("WriteFileEx: completion callback invoked: bytes=%d %s\n",
(int)bytes, win32_strerror(err));
EnterCriticalSection(&h->mtx);
if (h->write_pending == op) {
h->write_pending = nullptr;
}
if (err == 0) {
wbuf->cursor += bytes;
wbuf->len -= bytes;
if (wbuf->len == 0) {
// Consumed this buffer
free(wbuf);
} else {
stream_debug("WriteFileEx: short write: %d written, %d remain\n",
bytes, wbuf->len);
// the initiate_write call will send the remainder
// but we need to re-insert this wbuf in the write queue
wbuf->next = h->write_head;
h->write_head = wbuf;
if (!h->write_tail) {
h->write_tail = wbuf;
}
}
} else {
stream_debug("WriteFilex: completion: failed: %s\n",
win32_strerror(err));
h->errcode = err;
h->error_pending = true;
}
stream_debug("SetEvent because WriteFileEx completed\n");
h->waitable.notify();
// Send whatever else we have waiting to go
initiate_write(h);
LeaveCriticalSection(&h->mtx);
// Free the prior struct after possibly initiating another write
// to minimize the chance of the same address being reused and
// confusing the completion status
free(op);
}
// Must be called with the mutex held
static void initiate_write(struct win_handle *h) {
struct write_buf *wbuf = h->write_head;
if (h->write_pending || !wbuf) {
return;
}
h->write_head = wbuf->next;
if (!h->write_head) {
h->write_tail = nullptr;
}
h->write_pending = (overlapped_op*)calloc(1, sizeof(*h->write_pending));
h->write_pending->h = h;
h->write_pending->wbuf = wbuf;
stream_debug(
"Calling WriteFileEx with wbuf=%p wbuf->cursor=%p len=%d olap=%p\n", wbuf,
wbuf->cursor, wbuf->len, &h->write_pending->olap);
if (!WriteFileEx(
h->handle(),
wbuf->cursor,
wbuf->len,
&h->write_pending->olap,
write_completed)) {
stream_debug("WriteFileEx: failed %s\n",
win32_strerror(GetLastError()));
free(h->write_pending);
h->write_pending = nullptr;
} else {
stream_debug("WriteFileEx: queued %d bytes for later\n", wbuf->len);
}
}
int win_handle::write(const void* buf, int size) {
struct write_buf *wbuf;
EnterCriticalSection(&mtx);
if (file_type != FILE_TYPE_PIPE && blocking && !write_head) {
DWORD bytes;
stream_debug("blocking write of %d\n", size);
if (WriteFile(handle(), buf, size, &bytes, nullptr)) {
LeaveCriticalSection(&mtx);
stream_debug("blocking write wrote %d bytes of %d\n", bytes, size);
return bytes;
}
errcode = GetLastError();
error_pending = true;
errno = map_win32_err(errcode);
stream_debug("SetEvent because blocking write completed (failed)\n");
waitable.notify();
stream_debug("write failed: %s\n", win32_strerror(errcode));
LeaveCriticalSection(&mtx);
return -1;
}
wbuf = (write_buf*)malloc(sizeof(*wbuf) + size - 1);
if (!wbuf) {
return -1;
}
wbuf->next = nullptr;
wbuf->cursor = wbuf->data;
wbuf->len = size;
memcpy(wbuf->data, buf, size);
if (write_tail) {
write_tail->next = wbuf;
} else {
write_head = wbuf;
}
write_tail = wbuf;
stream_debug("queue write of %d bytes to write_tail\n", size);
if (!write_pending) {
initiate_write(this);
}
LeaveCriticalSection(&mtx);
return size;
}
w_evt_t win_handle::getEvents() {
return &waitable;
}
void win_handle::setNonBlock(bool nonb) {
blocking = !nonb;
}
bool win_handle::rewind() {
bool res;
LARGE_INTEGER new_pos;
new_pos.QuadPart = 0;
res = SetFilePointerEx(handle(), new_pos, &new_pos, FILE_BEGIN);
errno = map_win32_err(GetLastError());
return res;
}
// Ensure that any data buffered for write are sent prior to setting
// ourselves up to close
bool win_handle::shutdown() {
BOOL olap_res;
DWORD bytes;
blocking = true;
while (write_pending) {
olap_res = get_overlapped_result_ex(
handle(), &write_pending->olap, &bytes, INFINITE, true);
}
return true;
}
bool win_handle::peerIsOwner() {
// TODO: implement this for Windows
return true;
}
std::unique_ptr<watchman_event> w_event_make(void) {
return watchman::make_unique<WindowsEvent>();
}
win_handle::win_handle(FileDescriptor&& handle)
: h(std::move(handle)),
// Initially signalled, meaning that they can try reading
waitable(true),
file_type(GetFileType((HANDLE)h.handle())) {
InitializeCriticalSection(&mtx);
}
std::unique_ptr<watchman_stream> w_stm_fdopen(FileDescriptor&& handle) {
if (!handle) {
return nullptr;
}
return watchman::make_unique<win_handle>(std::move(handle));
}
std::unique_ptr<watchman_stream> w_stm_connect_named_pipe(
const char* path,
int timeoutms) {
DWORD err;
DWORD64 deadline = GetTickCount64() + timeoutms;
if (strlen(path) > 255) {
w_log(W_LOG_ERR, "w_stm_connect_named_pipe(%s) path is too long\n", path);
errno = E2BIG;
return nullptr;
}
while (true) {
FileDescriptor handle(intptr_t(CreateFile(
path,
GENERIC_READ | GENERIC_WRITE,
0,
nullptr,
OPEN_EXISTING,
FILE_FLAG_OVERLAPPED,
nullptr)));
if (handle) {
return w_stm_fdopen(std::move(handle));
}
err = GetLastError();
if (timeoutms > 0) {
timeoutms -= (DWORD)(GetTickCount64() - deadline);
}
if (timeoutms <= 0 ||
(err != ERROR_PIPE_BUSY && err != ERROR_FILE_NOT_FOUND)) {
// either we're out of time, or retrying won't help with this error
errno = map_win32_err(err);
return nullptr;
}
// We can retry
if (!WaitNamedPipe(path, timeoutms)) {
err = GetLastError();
if (err == ERROR_SEM_TIMEOUT) {
errno = map_win32_err(err);
return nullptr;
}
if (err == ERROR_FILE_NOT_FOUND) {
// Grace to allow it to be created
SleepEx(10, true);
}
}
}
}
int w_poll_events(struct watchman_event_poll *p, int n, int timeoutms) {
HANDLE handles[MAXIMUM_WAIT_OBJECTS];
int i;
DWORD res;
if (n > MAXIMUM_WAIT_OBJECTS - 1) {
// Programmer error :-/
w_log(W_LOG_FATAL, "%d > MAXIMUM_WAIT_OBJECTS-1 (%d)\n", n,
MAXIMUM_WAIT_OBJECTS - 1);
}
for (i = 0; i < n; i++) {
auto evt = dynamic_cast<WindowsEvent*>(p[i].evt);
w_check(evt != nullptr, "!WindowsEvent");
handles[i] = evt->hEvent;
p[i].ready = false;
}
res = WaitForMultipleObjectsEx(n, handles, false,
timeoutms == -1 ? INFINITE : timeoutms, true);
if (res == WAIT_FAILED) {
errno = map_win32_err(GetLastError());
return -1;
}
if (res == WAIT_IO_COMPLETION) {
errno = EINTR;
return -1;
}
// Note: WAIT_OBJECT_0 == 0
if (/* res >= WAIT_OBJECT_0 && */ res < WAIT_OBJECT_0 + n) {
p[res - WAIT_OBJECT_0].ready = true;
return 1;
}
if (res >= WAIT_ABANDONED_0 && res < WAIT_ABANDONED_0 + n) {
p[res - WAIT_ABANDONED_0].ready = true;
return 1;
}
return 0;
}
// similar to open(2), but returns a handle
FileDescriptor w_handle_open(const char* path, int flags) {
DWORD access = 0, share = 0, create = 0, attrs = 0;
DWORD err;
SECURITY_ATTRIBUTES sec;
if (!strcmp(path, "/dev/null")) {
path = "NUL:";
}
auto wpath = w_string_piece(path).asWideUNC();
if (flags & (O_WRONLY|O_RDWR)) {
access |= GENERIC_WRITE;
}
if ((flags & O_WRONLY) == 0) {
access |= GENERIC_READ;
}
// We want more posix-y behavior by default
share = FILE_SHARE_DELETE|FILE_SHARE_READ|FILE_SHARE_WRITE;
memset(&sec, 0, sizeof(sec));
sec.nLength = sizeof(sec);
sec.bInheritHandle = TRUE;
if (flags & O_CLOEXEC) {
sec.bInheritHandle = FALSE;
}
if ((flags & (O_CREAT|O_EXCL)) == (O_CREAT|O_EXCL)) {
create = CREATE_NEW;
} else if ((flags & (O_CREAT|O_TRUNC)) == (O_CREAT|O_TRUNC)) {
create = CREATE_ALWAYS;
} else if (flags & O_CREAT) {
create = OPEN_ALWAYS;
} else if (flags & O_TRUNC) {
create = TRUNCATE_EXISTING;
} else {
create = OPEN_EXISTING;
}
attrs = FILE_ATTRIBUTE_NORMAL;
if (flags & O_DIRECTORY) {
attrs |= FILE_FLAG_BACKUP_SEMANTICS;
}
FileDescriptor h(intptr_t(
CreateFileW(wpath.c_str(), access, share, &sec, create, attrs, nullptr)));
err = GetLastError();
errno = map_win32_err(err);
return h;
}
std::unique_ptr<watchman_stream> w_stm_open(const char* path, int flags, ...) {
return w_stm_fdopen(w_handle_open(path, flags));
}