mirror of
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473 lines
12 KiB
Plaintext
473 lines
12 KiB
Plaintext
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build darwin dragonfly freebsd linux nacl netbsd openbsd solaris windows
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package net
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#include "runtime.h"
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#include "defs.h"
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#include "arch.h"
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#include "malloc.h"
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// Map gccgo field names to gc field names.
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// Eface aka __go_empty_interface.
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#define type __type_descriptor
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#define data __object
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// Integrated network poller (platform-independent part).
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// A particular implementation (epoll/kqueue) must define the following functions:
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// void runtime_netpollinit(void); // to initialize the poller
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// int32 runtime_netpollopen(uintptr fd, PollDesc *pd); // to arm edge-triggered notifications
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// and associate fd with pd.
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// An implementation must call the following function to denote that the pd is ready.
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// void runtime_netpollready(G **gpp, PollDesc *pd, int32 mode);
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// PollDesc contains 2 binary semaphores, rg and wg, to park reader and writer
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// goroutines respectively. The semaphore can be in the following states:
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// READY - io readiness notification is pending;
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// a goroutine consumes the notification by changing the state to nil.
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// WAIT - a goroutine prepares to park on the semaphore, but not yet parked;
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// the goroutine commits to park by changing the state to G pointer,
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// or, alternatively, concurrent io notification changes the state to READY,
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// or, alternatively, concurrent timeout/close changes the state to nil.
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// G pointer - the goroutine is blocked on the semaphore;
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// io notification or timeout/close changes the state to READY or nil respectively
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// and unparks the goroutine.
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// nil - nothing of the above.
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#define READY ((G*)1)
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#define WAIT ((G*)2)
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enum
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{
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PollBlockSize = 4*1024,
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};
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struct PollDesc
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{
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PollDesc* link; // in pollcache, protected by pollcache.Lock
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// The lock protects pollOpen, pollSetDeadline, pollUnblock and deadlineimpl operations.
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// This fully covers seq, rt and wt variables. fd is constant throughout the PollDesc lifetime.
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// pollReset, pollWait, pollWaitCanceled and runtime_netpollready (IO rediness notification)
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// proceed w/o taking the lock. So closing, rg, rd, wg and wd are manipulated
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// in a lock-free way by all operations.
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Lock; // protectes the following fields
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uintptr fd;
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bool closing;
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uintptr seq; // protects from stale timers and ready notifications
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G* rg; // READY, WAIT, G waiting for read or nil
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Timer rt; // read deadline timer (set if rt.fv != nil)
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int64 rd; // read deadline
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G* wg; // READY, WAIT, G waiting for write or nil
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Timer wt; // write deadline timer
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int64 wd; // write deadline
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void* user; // user settable cookie
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};
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static struct
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{
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Lock;
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PollDesc* first;
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// PollDesc objects must be type-stable,
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// because we can get ready notification from epoll/kqueue
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// after the descriptor is closed/reused.
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// Stale notifications are detected using seq variable,
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// seq is incremented when deadlines are changed or descriptor is reused.
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} pollcache;
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static bool netpollblock(PollDesc*, int32, bool);
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static G* netpollunblock(PollDesc*, int32, bool);
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static void deadline(Eface, uintptr);
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static void readDeadline(Eface, uintptr);
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static void writeDeadline(Eface, uintptr);
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static PollDesc* allocPollDesc(void);
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static intgo checkerr(PollDesc *pd, int32 mode);
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static FuncVal deadlineFn = {(void(*)(void))deadline};
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static FuncVal readDeadlineFn = {(void(*)(void))readDeadline};
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static FuncVal writeDeadlineFn = {(void(*)(void))writeDeadline};
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// runtimeNano returns the current value of the runtime clock in nanoseconds.
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func runtimeNano() (ns int64) {
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ns = runtime_nanotime();
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}
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func runtime_pollServerInit() {
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runtime_netpollinit();
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}
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func runtime_pollOpen(fd uintptr) (pd *PollDesc, errno int) {
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pd = allocPollDesc();
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runtime_lock(pd);
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if(pd->wg != nil && pd->wg != READY)
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runtime_throw("runtime_pollOpen: blocked write on free descriptor");
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if(pd->rg != nil && pd->rg != READY)
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runtime_throw("runtime_pollOpen: blocked read on free descriptor");
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pd->fd = fd;
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pd->closing = false;
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pd->seq++;
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pd->rg = nil;
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pd->rd = 0;
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pd->wg = nil;
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pd->wd = 0;
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runtime_unlock(pd);
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errno = runtime_netpollopen(fd, pd);
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}
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func runtime_pollClose(pd *PollDesc) {
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if(!pd->closing)
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runtime_throw("runtime_pollClose: close w/o unblock");
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if(pd->wg != nil && pd->wg != READY)
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runtime_throw("runtime_pollClose: blocked write on closing descriptor");
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if(pd->rg != nil && pd->rg != READY)
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runtime_throw("runtime_pollClose: blocked read on closing descriptor");
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runtime_netpollclose(pd->fd);
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runtime_lock(&pollcache);
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pd->link = pollcache.first;
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pollcache.first = pd;
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runtime_unlock(&pollcache);
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}
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func runtime_pollReset(pd *PollDesc, mode int) (err int) {
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err = checkerr(pd, mode);
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if(err)
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goto ret;
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if(mode == 'r')
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pd->rg = nil;
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else if(mode == 'w')
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pd->wg = nil;
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ret:
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}
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func runtime_pollWait(pd *PollDesc, mode int) (err int) {
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err = checkerr(pd, mode);
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if(err == 0) {
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// As for now only Solaris uses level-triggered IO.
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if(Solaris)
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runtime_netpollarm(pd, mode);
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while(!netpollblock(pd, mode, false)) {
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err = checkerr(pd, mode);
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if(err != 0)
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break;
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// Can happen if timeout has fired and unblocked us,
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// but before we had a chance to run, timeout has been reset.
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// Pretend it has not happened and retry.
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}
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}
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}
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func runtime_pollWaitCanceled(pd *PollDesc, mode int) {
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// This function is used only on windows after a failed attempt to cancel
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// a pending async IO operation. Wait for ioready, ignore closing or timeouts.
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while(!netpollblock(pd, mode, true))
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;
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}
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func runtime_pollSetDeadline(pd *PollDesc, d int64, mode int) {
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G *rg, *wg;
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runtime_lock(pd);
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if(pd->closing) {
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runtime_unlock(pd);
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return;
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}
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pd->seq++; // invalidate current timers
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// Reset current timers.
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if(pd->rt.fv) {
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runtime_deltimer(&pd->rt);
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pd->rt.fv = nil;
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}
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if(pd->wt.fv) {
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runtime_deltimer(&pd->wt);
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pd->wt.fv = nil;
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}
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// Setup new timers.
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if(d != 0 && d <= runtime_nanotime())
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d = -1;
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if(mode == 'r' || mode == 'r'+'w')
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pd->rd = d;
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if(mode == 'w' || mode == 'r'+'w')
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pd->wd = d;
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if(pd->rd > 0 && pd->rd == pd->wd) {
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pd->rt.fv = &deadlineFn;
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pd->rt.when = pd->rd;
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// Copy current seq into the timer arg.
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// Timer func will check the seq against current descriptor seq,
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// if they differ the descriptor was reused or timers were reset.
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pd->rt.arg.type = nil; // should be *pollDesc type descriptor.
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pd->rt.arg.data = pd;
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pd->rt.seq = pd->seq;
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runtime_addtimer(&pd->rt);
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} else {
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if(pd->rd > 0) {
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pd->rt.fv = &readDeadlineFn;
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pd->rt.when = pd->rd;
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pd->rt.arg.type = nil; // should be *pollDesc type descriptor.
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pd->rt.arg.data = pd;
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pd->rt.seq = pd->seq;
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runtime_addtimer(&pd->rt);
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}
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if(pd->wd > 0) {
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pd->wt.fv = &writeDeadlineFn;
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pd->wt.when = pd->wd;
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pd->wt.arg.type = nil; // should be *pollDesc type descriptor.
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pd->wt.arg.data = pd;
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pd->wt.seq = pd->seq;
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runtime_addtimer(&pd->wt);
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}
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}
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// If we set the new deadline in the past, unblock currently pending IO if any.
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rg = nil;
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runtime_atomicstorep(&wg, nil); // full memory barrier between stores to rd/wd and load of rg/wg in netpollunblock
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if(pd->rd < 0)
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rg = netpollunblock(pd, 'r', false);
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if(pd->wd < 0)
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wg = netpollunblock(pd, 'w', false);
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runtime_unlock(pd);
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if(rg)
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runtime_ready(rg);
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if(wg)
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runtime_ready(wg);
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}
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func runtime_pollUnblock(pd *PollDesc) {
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G *rg, *wg;
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runtime_lock(pd);
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if(pd->closing)
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runtime_throw("runtime_pollUnblock: already closing");
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pd->closing = true;
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pd->seq++;
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runtime_atomicstorep(&rg, nil); // full memory barrier between store to closing and read of rg/wg in netpollunblock
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rg = netpollunblock(pd, 'r', false);
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wg = netpollunblock(pd, 'w', false);
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if(pd->rt.fv) {
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runtime_deltimer(&pd->rt);
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pd->rt.fv = nil;
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}
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if(pd->wt.fv) {
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runtime_deltimer(&pd->wt);
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pd->wt.fv = nil;
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}
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runtime_unlock(pd);
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if(rg)
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runtime_ready(rg);
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if(wg)
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runtime_ready(wg);
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}
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uintptr
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runtime_netpollfd(PollDesc *pd)
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{
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return pd->fd;
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}
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void**
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runtime_netpolluser(PollDesc *pd)
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{
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return &pd->user;
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}
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bool
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runtime_netpollclosing(PollDesc *pd)
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{
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return pd->closing;
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}
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void
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runtime_netpolllock(PollDesc *pd)
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{
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runtime_lock(pd);
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}
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void
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runtime_netpollunlock(PollDesc *pd)
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{
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runtime_unlock(pd);
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}
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// make pd ready, newly runnable goroutines (if any) are enqueued info gpp list
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void
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runtime_netpollready(G **gpp, PollDesc *pd, int32 mode)
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{
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G *rg, *wg;
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rg = wg = nil;
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if(mode == 'r' || mode == 'r'+'w')
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rg = netpollunblock(pd, 'r', true);
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if(mode == 'w' || mode == 'r'+'w')
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wg = netpollunblock(pd, 'w', true);
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if(rg) {
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rg->schedlink = *gpp;
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*gpp = rg;
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}
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if(wg) {
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wg->schedlink = *gpp;
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*gpp = wg;
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}
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}
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static intgo
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checkerr(PollDesc *pd, int32 mode)
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{
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if(pd->closing)
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return 1; // errClosing
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if((mode == 'r' && pd->rd < 0) || (mode == 'w' && pd->wd < 0))
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return 2; // errTimeout
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return 0;
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}
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static bool
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blockcommit(G *gp, G **gpp)
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{
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return runtime_casp(gpp, WAIT, gp);
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}
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// returns true if IO is ready, or false if timedout or closed
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// waitio - wait only for completed IO, ignore errors
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static bool
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netpollblock(PollDesc *pd, int32 mode, bool waitio)
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{
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G **gpp, *old;
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gpp = &pd->rg;
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if(mode == 'w')
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gpp = &pd->wg;
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// set the gpp semaphore to WAIT
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for(;;) {
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old = *gpp;
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if(old == READY) {
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*gpp = nil;
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return true;
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}
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if(old != nil)
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runtime_throw("netpollblock: double wait");
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if(runtime_casp(gpp, nil, WAIT))
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break;
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}
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// need to recheck error states after setting gpp to WAIT
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// this is necessary because runtime_pollUnblock/runtime_pollSetDeadline/deadlineimpl
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// do the opposite: store to closing/rd/wd, membarrier, load of rg/wg
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if(waitio || checkerr(pd, mode) == 0)
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runtime_park((bool(*)(G*, void*))blockcommit, gpp, "IO wait");
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// be careful to not lose concurrent READY notification
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old = runtime_xchgp(gpp, nil);
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if(old > WAIT)
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runtime_throw("netpollblock: corrupted state");
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return old == READY;
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}
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static G*
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netpollunblock(PollDesc *pd, int32 mode, bool ioready)
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{
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G **gpp, *old, *new;
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gpp = &pd->rg;
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if(mode == 'w')
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gpp = &pd->wg;
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for(;;) {
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old = *gpp;
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if(old == READY)
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return nil;
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if(old == nil && !ioready) {
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// Only set READY for ioready. runtime_pollWait
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// will check for timeout/cancel before waiting.
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return nil;
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}
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new = nil;
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if(ioready)
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new = READY;
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if(runtime_casp(gpp, old, new))
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break;
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}
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if(old > WAIT)
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return old; // must be G*
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return nil;
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}
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static void
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deadlineimpl(Eface arg, uintptr seq, bool read, bool write)
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{
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PollDesc *pd;
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G *rg, *wg;
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pd = (PollDesc*)arg.data;
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rg = wg = nil;
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runtime_lock(pd);
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// Seq arg is seq when the timer was set.
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// If it's stale, ignore the timer event.
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if(seq != pd->seq) {
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// The descriptor was reused or timers were reset.
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runtime_unlock(pd);
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return;
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}
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if(read) {
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if(pd->rd <= 0 || pd->rt.fv == nil)
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runtime_throw("deadlineimpl: inconsistent read deadline");
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pd->rd = -1;
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runtime_atomicstorep(&pd->rt.fv, nil); // full memory barrier between store to rd and load of rg in netpollunblock
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rg = netpollunblock(pd, 'r', false);
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}
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if(write) {
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if(pd->wd <= 0 || (pd->wt.fv == nil && !read))
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runtime_throw("deadlineimpl: inconsistent write deadline");
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pd->wd = -1;
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runtime_atomicstorep(&pd->wt.fv, nil); // full memory barrier between store to wd and load of wg in netpollunblock
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wg = netpollunblock(pd, 'w', false);
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}
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runtime_unlock(pd);
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if(rg)
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runtime_ready(rg);
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if(wg)
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runtime_ready(wg);
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}
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static void
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deadline(Eface arg, uintptr seq)
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{
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deadlineimpl(arg, seq, true, true);
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}
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static void
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readDeadline(Eface arg, uintptr seq)
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{
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deadlineimpl(arg, seq, true, false);
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}
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static void
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writeDeadline(Eface arg, uintptr seq)
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{
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deadlineimpl(arg, seq, false, true);
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}
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static PollDesc*
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allocPollDesc(void)
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{
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PollDesc *pd;
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uint32 i, n;
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runtime_lock(&pollcache);
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if(pollcache.first == nil) {
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n = PollBlockSize/sizeof(*pd);
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if(n == 0)
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n = 1;
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// Must be in non-GC memory because can be referenced
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// only from epoll/kqueue internals.
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pd = runtime_persistentalloc(n*sizeof(*pd), 0, &mstats.other_sys);
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for(i = 0; i < n; i++) {
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pd[i].link = pollcache.first;
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pollcache.first = &pd[i];
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}
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}
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pd = pollcache.first;
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pollcache.first = pd->link;
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runtime_unlock(&pollcache);
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return pd;
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}
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