X-Git-Url: https://asedeno.scripts.mit.edu/gitweb/?a=blobdiff_plain;f=windows%2Fwinhandl.c;h=b15d1f2620066b4fb4596a418477a26dfac11770;hb=cc66c86e7311c97db09da989c340ba3108c9e14f;hp=c0e8232d9dbab20a41de3a108a974d4240963256;hpb=201c2c295bd7b573d17480990c847553507da540;p=PuTTY.git diff --git a/windows/winhandl.c b/windows/winhandl.c index c0e8232d..b15d1f26 100644 --- a/windows/winhandl.c +++ b/windows/winhandl.c @@ -65,6 +65,8 @@ struct handle_generic { void *privdata; /* for client to remember who they are */ }; +typedef enum { HT_INPUT, HT_OUTPUT, HT_FOREIGN } HandleType; + /* ---------------------------------------------------------------------- * Input threads. */ @@ -250,6 +252,7 @@ struct handle_output { * 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 @@ -320,19 +323,52 @@ static void handle_try_output(struct handle_output *ctx) 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; } } +/* ---------------------------------------------------------------------- + * 'Foreign events'. These are handle structures which just contain a + * single event object passed to us by another module such as + * winnps.c, so that they can make use of our handle_get_events / + * handle_got_event mechanism for communicating with application main + * loops. + */ +struct handle_foreign { + /* + * Copy of the handle_generic structure. + */ + HANDLE h; /* the handle itself */ + HANDLE ev_to_main; /* event used to signal main thread */ + HANDLE ev_from_main; /* event used to signal back to us */ + int moribund; /* are we going to kill this soon? */ + int done; /* request subthread to terminate */ + int defunct; /* has the subthread already gone? */ + int busy; /* operation currently in progress? */ + void *privdata; /* for client to remember who they are */ + + /* + * Our own data, just consisting of knowledge of who to call back. + */ + void (*callback)(void *); + void *ctx; +}; + /* ---------------------------------------------------------------------- * Unified code handling both input and output threads. */ struct handle { - int output; + HandleType type; union { struct handle_generic g; struct handle_input i; struct handle_output o; + struct handle_foreign f; } u; }; @@ -370,7 +406,7 @@ struct handle *handle_input_new(HANDLE handle, handle_inputfn_t gotdata, struct handle *h = snew(struct handle); DWORD in_threadid; /* required for Win9x */ - h->output = FALSE; + h->type = HT_INPUT; h->u.i.h = handle; h->u.i.ev_to_main = CreateEvent(NULL, FALSE, FALSE, NULL); h->u.i.ev_from_main = CreateEvent(NULL, FALSE, FALSE, NULL); @@ -398,7 +434,7 @@ struct handle *handle_output_new(HANDLE handle, handle_outputfn_t sentdata, struct handle *h = snew(struct handle); DWORD out_threadid; /* required for Win9x */ - h->output = TRUE; + h->type = HT_OUTPUT; h->u.o.h = handle; h->u.o.ev_to_main = CreateEvent(NULL, FALSE, FALSE, NULL); h->u.o.ev_from_main = CreateEvent(NULL, FALSE, FALSE, NULL); @@ -408,6 +444,7 @@ struct handle *handle_output_new(HANDLE handle, handle_outputfn_t sentdata, 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; @@ -421,14 +458,55 @@ struct handle *handle_output_new(HANDLE handle, handle_outputfn_t sentdata, return h; } +struct handle *handle_add_foreign_event(HANDLE event, + void (*callback)(void *), void *ctx) +{ + struct handle *h = snew(struct handle); + + h->type = HT_FOREIGN; + h->u.f.h = INVALID_HANDLE_VALUE; + h->u.f.ev_to_main = event; + h->u.f.ev_from_main = INVALID_HANDLE_VALUE; + h->u.f.defunct = TRUE; /* we have no thread in the first place */ + h->u.f.moribund = FALSE; + h->u.f.done = FALSE; + h->u.f.privdata = NULL; + h->u.f.callback = callback; + h->u.f.ctx = ctx; + h->u.f.busy = TRUE; + + if (!handles_by_evtomain) + handles_by_evtomain = newtree234(handle_cmp_evtomain); + add234(handles_by_evtomain, h); + + return h; +} + int handle_write(struct handle *h, const void *data, int len) { - assert(h->output); + assert(h->type == HT_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->type == HT_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; @@ -459,7 +537,7 @@ HANDLE *handle_get_events(int *nevents) static void handle_destroy(struct handle *h) { - if (h->output) + if (h->type == HT_OUTPUT) bufchain_clear(&h->u.o.queued_data); CloseHandle(h->u.g.ev_from_main); CloseHandle(h->u.g.ev_to_main); @@ -536,9 +614,10 @@ void handle_got_event(HANDLE event) return; } - if (!h->output) { + switch (h->type) { int backlog; + case HT_INPUT: h->u.i.busy = FALSE; /* @@ -554,7 +633,9 @@ void handle_got_event(HANDLE event) backlog = h->u.i.gotdata(h, h->u.i.buffer, h->u.i.len); handle_throttle(&h->u.i, backlog); } - } else { + break; + + case HT_OUTPUT: h->u.o.busy = FALSE; /* @@ -575,18 +656,24 @@ void handle_got_event(HANDLE event) h->u.o.sentdata(h, bufchain_size(&h->u.o.queued_data)); handle_try_output(&h->u.o); } + break; + + case HT_FOREIGN: + /* Just call the callback. */ + h->u.f.callback(h->u.f.ctx); + break; } } void handle_unthrottle(struct handle *h, int backlog) { - assert(!h->output); + assert(h->type == HT_INPUT); handle_throttle(&h->u.i, backlog); } int handle_backlog(struct handle *h) { - assert(h->output); + assert(h->type == HT_OUTPUT); return bufchain_size(&h->u.o.queued_data); }