*/
char buffer[4096]; /* the data read from the handle */
DWORD len; /* how much data that was */
- int readret; /* lets us know about read errors */
+ int readerr; /* lets us know about read errors */
/*
* Callback function called by this module when data arrives on
struct handle_input *ctx = (struct handle_input *) param;
OVERLAPPED ovl, *povl;
HANDLE oev;
- int readlen;
+ int readret, readlen;
if (ctx->flags & HANDLE_FLAG_OVERLAPPED) {
povl = &ovl;
memset(povl, 0, sizeof(OVERLAPPED));
povl->hEvent = oev;
}
- ctx->readret = ReadFile(ctx->h, ctx->buffer, readlen,
- &ctx->len, povl);
- if (!ctx->readret)
- error = GetLastError();
- if (povl && !ctx->readret && error == ERROR_IO_PENDING) {
+ readret = ReadFile(ctx->h, ctx->buffer,readlen, &ctx->len, povl);
+ if (!readret)
+ ctx->readerr = GetLastError();
+ else
+ ctx->readerr = 0;
+ if (povl && !readret && ctx->readerr == ERROR_IO_PENDING) {
WaitForSingleObject(povl->hEvent, INFINITE);
- ctx->readret = GetOverlappedResult(ctx->h, povl, &ctx->len, FALSE);
+ readret = GetOverlappedResult(ctx->h, povl, &ctx->len, FALSE);
+ if (!readret)
+ ctx->readerr = GetLastError();
+ else
+ ctx->readerr = 0;
}
- if (!ctx->readret) {
+ if (!readret) {
/*
* Windows apparently sends ERROR_BROKEN_PIPE when a
* pipe we're reading from is closed normally from the
* isn't a natural EOF, _nothing_ is. So if we get that
* particular error, we pretend it's EOF.
*/
- if (error == ERROR_BROKEN_PIPE)
- ctx->readret = 1;
+ if (ctx->readerr == ERROR_BROKEN_PIPE)
+ ctx->readerr = 0;
ctx->len = 0;
}
- if (ctx->readret && ctx->len == 0 &&
+ if (readret && ctx->len == 0 &&
(ctx->flags & HANDLE_FLAG_IGNOREEOF))
continue;
* and read by the main thread after receiving that signal.
*/
DWORD lenwritten; /* how much data we actually wrote */
- int writeret; /* return value from WriteFile */
+ int writeerr; /* return value from WriteFile */
/*
* Data only ever read or written by the main thread.
*/
bufchain queued_data; /* data still waiting to be written */
+ enum { EOF_NO, EOF_PENDING, EOF_SENT } outgoingeof;
/*
* Callback function called when the backlog in the bufchain
{
struct handle_output *ctx = (struct handle_output *) param;
OVERLAPPED ovl, *povl;
+ HANDLE oev;
+ int writeret;
- if (ctx->flags & HANDLE_FLAG_OVERLAPPED)
+ if (ctx->flags & HANDLE_FLAG_OVERLAPPED) {
povl = &ovl;
- else
+ oev = CreateEvent(NULL, TRUE, FALSE, NULL);
+ } else {
povl = NULL;
+ }
while (1) {
WaitForSingleObject(ctx->ev_from_main, INFINITE);
SetEvent(ctx->ev_to_main);
break;
}
- if (povl)
+ if (povl) {
memset(povl, 0, sizeof(OVERLAPPED));
- ctx->writeret = WriteFile(ctx->h, ctx->buffer, ctx->len,
- &ctx->lenwritten, povl);
- if (povl && !ctx->writeret && GetLastError() == ERROR_IO_PENDING)
- ctx->writeret = GetOverlappedResult(ctx->h, povl,
- &ctx->lenwritten, TRUE);
+ povl->hEvent = oev;
+ }
+
+ writeret = WriteFile(ctx->h, ctx->buffer, ctx->len,
+ &ctx->lenwritten, povl);
+ if (!writeret)
+ ctx->writeerr = GetLastError();
+ else
+ ctx->writeerr = 0;
+ if (povl && !writeret && GetLastError() == ERROR_IO_PENDING) {
+ writeret = GetOverlappedResult(ctx->h, povl,
+ &ctx->lenwritten, TRUE);
+ if (!writeret)
+ ctx->writeerr = GetLastError();
+ else
+ ctx->writeerr = 0;
+ }
SetEvent(ctx->ev_to_main);
- if (!ctx->writeret)
+ if (!writeret)
break;
}
+ if (povl)
+ CloseHandle(oev);
+
return 0;
}
ctx->len = sendlen;
SetEvent(ctx->ev_from_main);
ctx->busy = TRUE;
+ } else if (!ctx->busy && bufchain_size(&ctx->queued_data) == 0 &&
+ ctx->outgoingeof == EOF_PENDING) {
+ CloseHandle(ctx->h);
+ ctx->h = INVALID_HANDLE_VALUE;
+ ctx->outgoingeof = EOF_SENT;
}
}
h->u.o.done = FALSE;
h->u.o.privdata = privdata;
bufchain_init(&h->u.o.queued_data);
+ h->u.o.outgoingeof = EOF_NO;
h->u.o.sentdata = sentdata;
h->u.o.flags = flags;
add234(handles_by_evtomain, h);
CreateThread(NULL, 0, handle_output_threadfunc,
- &h->u.i, 0, &out_threadid);
+ &h->u.o, 0, &out_threadid);
return h;
}
int handle_write(struct handle *h, const void *data, int len)
{
assert(h->output);
+ assert(h->u.o.outgoingeof == EOF_NO);
bufchain_add(&h->u.o.queued_data, data, len);
handle_try_output(&h->u.o);
return bufchain_size(&h->u.o.queued_data);
}
+void handle_write_eof(struct handle *h)
+{
+ /*
+ * This function is called when we want to proactively send an
+ * end-of-file notification on the handle. We can only do this by
+ * actually closing the handle - so never call this on a
+ * bidirectional handle if we're still interested in its incoming
+ * direction!
+ */
+ assert(h->output);
+ if (!h->u.o.outgoingeof == EOF_NO) {
+ h->u.o.outgoingeof = EOF_PENDING;
+ handle_try_output(&h->u.o);
+ }
+}
+
HANDLE *handle_get_events(int *nevents)
{
HANDLE *ret;
/*
* EOF, or (nearly equivalently) read error.
*/
- h->u.i.gotdata(h, NULL, (h->u.i.readret ? 0 : -1));
+ h->u.i.gotdata(h, NULL, -h->u.i.readerr);
h->u.i.defunct = TRUE;
} else {
backlog = h->u.i.gotdata(h, h->u.i.buffer, h->u.i.len);
* write. Call the callback to indicate that the output
* buffer size has decreased, or to indicate an error.
*/
- if (!h->u.o.writeret) {
+ if (h->u.o.writeerr) {
/*
* Write error. Send a negative value to the callback,
* and mark the thread as defunct (because the output
* thread is terminating by now).
*/
- h->u.o.sentdata(h, -1);
+ h->u.o.sentdata(h, -h->u.o.writeerr);
h->u.o.defunct = TRUE;
} else {
bufchain_consume(&h->u.o.queued_data, h->u.o.lenwritten);