libgo/runtime/netpoll.goc - gcc - Git at Google

 // Copyright 2013 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // +build darwin linux

 package net

 #include "runtime.h"
 #include "defs.h"
 #include "arch.h"
 #include "malloc.h"

 // Map gccgo field names to gc field names.
 // Eface aka __go_empty_interface.
 #define type __type_descriptor
 #define data __object

 // Integrated network poller (platform-independent part).
 // A particular implementation (epoll/kqueue) must define the following functions:
 // void runtime_netpollinit(void);			// to initialize the poller
 // int32 runtime_netpollopen(int32 fd, PollDesc *pd);	// to arm edge-triggered notifications
 							// and associate fd with pd.
 // An implementation must call the following function to denote that the pd is ready.
 // void runtime_netpollready(G **gpp, PollDesc *pd, int32 mode);

 #define READY ((G*)1)

 struct PollDesc
 {
 	PollDesc* link;	// in pollcache, protected by pollcache.Lock
 	Lock;		// protectes the following fields
 	int32	fd;
 	bool	closing;
 	uintptr	seq;	// protects from stale timers and ready notifications
 	G*	rg;	// G waiting for read or READY (binary semaphore)
 	Timer	rt;	// read deadline timer (set if rt.fv != nil)
 	int64	rd;	// read deadline
 	G*	wg;	// the same for writes
 	Timer	wt;
 	int64	wd;
 };

 static struct
 {
 	Lock;
 	PollDesc*	first;
 	// PollDesc objects must be type-stable,
 	// because we can get ready notification from epoll/kqueue
 	// after the descriptor is closed/reused.
 	// Stale notifications are detected using seq variable,
 	// seq is incremented when deadlines are changed or descriptor is reused.
 } pollcache;

 static void	netpollblock(PollDesc*, int32);
 static G*	netpollunblock(PollDesc*, int32);
 static void	deadline(int64, Eface);
 static void	readDeadline(int64, Eface);
 static void	writeDeadline(int64, Eface);
 static PollDesc*	allocPollDesc(void);
 static intgo	checkerr(PollDesc *pd, int32 mode);

 static FuncVal deadlineFn	= {(void(*)(void))deadline};
 static FuncVal readDeadlineFn	= {(void(*)(void))readDeadline};
 static FuncVal writeDeadlineFn	= {(void(*)(void))writeDeadline};

 func runtime_pollServerInit() {
 	runtime_netpollinit();
 }

 func runtime_pollOpen(fd int) (pd *PollDesc, errno int) {
 	pd = allocPollDesc();
 	runtime_lock(pd);
 	if(pd->wg != nil && pd->wg != READY)
 		runtime_throw("runtime_pollOpen: blocked write on free descriptor");
 	if(pd->rg != nil && pd->rg != READY)
 		runtime_throw("runtime_pollOpen: blocked read on free descriptor");
 	pd->fd = fd;
 	pd->closing = false;
 	pd->seq++;
 	pd->rg = nil;
 	pd->rd = 0;
 	pd->wg = nil;
 	pd->wd = 0;
 	runtime_unlock(pd);

 	errno = runtime_netpollopen(fd, pd);
 }

 func runtime_pollClose(pd *PollDesc) {
 	if(!pd->closing)
 		runtime_throw("runtime_pollClose: close w/o unblock");
 	if(pd->wg != nil && pd->wg != READY)
 		runtime_throw("runtime_pollClose: blocked write on closing descriptor");
 	if(pd->rg != nil && pd->rg != READY)
 		runtime_throw("runtime_pollClose: blocked read on closing descriptor");
 	runtime_netpollclose(pd->fd);
 	runtime_lock(&pollcache);
 	pd->link = pollcache.first;
 	pollcache.first = pd;
 	runtime_unlock(&pollcache);
 }

 func runtime_pollReset(pd *PollDesc, mode int) (err int) {
 	runtime_lock(pd);
 	err = checkerr(pd, mode);
 	if(err)
 		goto ret;
 	if(mode == 'r')
 		pd->rg = nil;
 	else if(mode == 'w')
 		pd->wg = nil;
 ret:
 	runtime_unlock(pd);
 }

 func runtime_pollWait(pd *PollDesc, mode int) (err int) {
 	runtime_lock(pd);
 	err = checkerr(pd, mode);
 	if(err)
 		goto ret;
 	netpollblock(pd, mode);
 	err = checkerr(pd, mode);
 ret:
 	runtime_unlock(pd);
 }

 func runtime_pollSetDeadline(pd *PollDesc, d int64, mode int) {
 	runtime_lock(pd);
 	if(pd->closing)
 		goto ret;
 	pd->seq++;  // invalidate current timers
 	// Reset current timers.
 	if(pd->rt.fv) {
 		runtime_deltimer(&pd->rt);
 		pd->rt.fv = nil;
 	}
 	if(pd->wt.fv) {
 		runtime_deltimer(&pd->wt);
 		pd->wt.fv = nil;
 	}
 	// Setup new timers.
 	if(d != 0 && d <= runtime_nanotime()) {
 		d = -1;
 	}
 	if(mode == 'r' || mode == 'r'+'w')
 		pd->rd = d;
 	if(mode == 'w' || mode == 'r'+'w')
 		pd->wd = d;
 	if(pd->rd > 0 && pd->rd == pd->wd) {
 		pd->rt.fv = &deadlineFn;
 		pd->rt.when = pd->rd;
 		// Copy current seq into the timer arg.
 		// Timer func will check the seq against current descriptor seq,
 		// if they differ the descriptor was reused or timers were reset.
 		pd->rt.arg.type = (Type*)pd->seq;
 		pd->rt.arg.data = pd;
 		runtime_addtimer(&pd->rt);
 	} else {
 		if(pd->rd > 0) {
 			pd->rt.fv = &readDeadlineFn;
 			pd->rt.when = pd->rd;
 			pd->rt.arg.type = (Type*)pd->seq;
 			pd->rt.arg.data = pd;
 			runtime_addtimer(&pd->rt);
 		}
 		if(pd->wd > 0) {
 			pd->wt.fv = &writeDeadlineFn;
 			pd->wt.when = pd->wd;
 			pd->wt.arg.type = (Type*)pd->seq;
 			pd->wt.arg.data = pd;
 			runtime_addtimer(&pd->wt);
 		}
 	}
 ret:
 	runtime_unlock(pd);
 }

 func runtime_pollUnblock(pd *PollDesc) {
 	G *rg, *wg;

 	runtime_lock(pd);
 	if(pd->closing)
 		runtime_throw("runtime_pollUnblock: already closing");
 	pd->closing = true;
 	pd->seq++;
 	rg = netpollunblock(pd, 'r');
 	wg = netpollunblock(pd, 'w');
 	if(pd->rt.fv) {
 		runtime_deltimer(&pd->rt);
 		pd->rt.fv = nil;
 	}
 	if(pd->wt.fv) {
 		runtime_deltimer(&pd->wt);
 		pd->wt.fv = nil;
 	}
 	runtime_unlock(pd);
 	if(rg)
 		runtime_ready(rg);
 	if(wg)
 		runtime_ready(wg);
 }

 // make pd ready, newly runnable goroutines (if any) are enqueued info gpp list
 void
 runtime_netpollready(G **gpp, PollDesc *pd, int32 mode)
 {
 	G *rg, *wg;

 	rg = wg = nil;
 	runtime_lock(pd);
 	if(mode == 'r' || mode == 'r'+'w')
 		rg = netpollunblock(pd, 'r');
 	if(mode == 'w' || mode == 'r'+'w')
 		wg = netpollunblock(pd, 'w');
 	runtime_unlock(pd);
 	if(rg) {
 		rg->schedlink = *gpp;
 		*gpp = rg;
 	}
 	if(wg) {
 		wg->schedlink = *gpp;
 		*gpp = wg;
 	}
 }

 static intgo
 checkerr(PollDesc *pd, int32 mode)
 {
 	if(pd->closing)
 		return 1;  // errClosing
 	if((mode == 'r' && pd->rd < 0) || (mode == 'w' && pd->wd < 0))
 		return 2;  // errTimeout
 	return 0;
 }

 static void
 netpollblock(PollDesc *pd, int32 mode)
 {
 	G **gpp;

 	gpp = &pd->rg;
 	if(mode == 'w')
 		gpp = &pd->wg;
 	if(*gpp == READY) {
 		*gpp = nil;
 		return;
 	}
 	if(*gpp != nil)
 		runtime_throw("epoll: double wait");
 	*gpp = runtime_g();
 	runtime_park(runtime_unlock, &pd->Lock, "IO wait");
 	runtime_lock(pd);
 }

 static G*
 netpollunblock(PollDesc *pd, int32 mode)
 {
 	G **gpp, *old;

 	gpp = &pd->rg;
 	if(mode == 'w')
 		gpp = &pd->wg;
 	if(*gpp == READY)
 		return nil;
 	if(*gpp == nil) {
 		*gpp = READY;
 		return nil;
 	}
 	old = *gpp;
 	*gpp = nil;
 	return old;
 }

 static void
 deadlineimpl(int64 now, Eface arg, bool read, bool write)
 {
 	PollDesc *pd;
 	uint32 seq;
 	G *rg, *wg;

 	USED(now);
 	pd = (PollDesc*)arg.data;
 	// This is the seq when the timer was set.
 	// If it's stale, ignore the timer event.
 	seq = (uintptr)arg.type;
 	rg = wg = nil;
 	runtime_lock(pd);
 	if(seq != pd->seq) {
 		// The descriptor was reused or timers were reset.
 		runtime_unlock(pd);
 		return;
 	}
 	if(read) {
 		if(pd->rd <= 0 || pd->rt.fv == nil)
 			runtime_throw("deadlineimpl: inconsistent read deadline");
 		pd->rd = -1;
 		pd->rt.fv = nil;
 		rg = netpollunblock(pd, 'r');
 	}
 	if(write) {
 		if(pd->wd <= 0 || (pd->wt.fv == nil && !read))
 			runtime_throw("deadlineimpl: inconsistent write deadline");
 		pd->wd = -1;
 		pd->wt.fv = nil;
 		wg = netpollunblock(pd, 'w');
 	}
 	runtime_unlock(pd);
 	if(rg)
 		runtime_ready(rg);
 	if(wg)
 		runtime_ready(wg);
 }

 static void
 deadline(int64 now, Eface arg)
 {
 	deadlineimpl(now, arg, true, true);
 }

 static void
 readDeadline(int64 now, Eface arg)
 {
 	deadlineimpl(now, arg, true, false);
 }

 static void
 writeDeadline(int64 now, Eface arg)
 {
 	deadlineimpl(now, arg, false, true);
 }

 static PollDesc*
 allocPollDesc(void)
 {
 	PollDesc *pd;
 	uint32 i, n;

 	runtime_lock(&pollcache);
 	if(pollcache.first == nil) {
 		n = PageSize/sizeof(*pd);
 		if(n == 0)
 			n = 1;
 		// Must be in non-GC memory because can be referenced
 		// only from epoll/kqueue internals.
 		pd = runtime_SysAlloc(n*sizeof(*pd));
 		for(i = 0; i < n; i++) {
 			pd[i].link = pollcache.first;
 			pollcache.first = &pd[i];
 		}
 	}
 	pd = pollcache.first;
 	pollcache.first = pd->link;
 	runtime_unlock(&pollcache);
 	return pd;
 }
	// Copyright 2013 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// +build darwin linux

	package net

	#include "runtime.h"
	#include "defs.h"
	#include "arch.h"
	#include "malloc.h"

	// Map gccgo field names to gc field names.
	// Eface aka __go_empty_interface.
	#define type __type_descriptor
	#define data __object

	// Integrated network poller (platform-independent part).
	// A particular implementation (epoll/kqueue) must define the following functions:
	// void runtime_netpollinit(void); // to initialize the poller
	// int32 runtime_netpollopen(int32 fd, PollDesc *pd); // to arm edge-triggered notifications
	// and associate fd with pd.
	// An implementation must call the following function to denote that the pd is ready.
	// void runtime_netpollready(G *gpp, PollDesc pd, int32 mode);

	#define READY ((G*)1)

	struct PollDesc
	{
	PollDesc* link; // in pollcache, protected by pollcache.Lock
	Lock; // protectes the following fields
	int32 fd;
	bool closing;
	uintptr seq; // protects from stale timers and ready notifications
	G* rg; // G waiting for read or READY (binary semaphore)
	Timer rt; // read deadline timer (set if rt.fv != nil)
	int64 rd; // read deadline
	G* wg; // the same for writes
	Timer wt;
	int64 wd;
	};

	static struct
	{
	Lock;
	PollDesc* first;
	// PollDesc objects must be type-stable,
	// because we can get ready notification from epoll/kqueue
	// after the descriptor is closed/reused.
	// Stale notifications are detected using seq variable,
	// seq is incremented when deadlines are changed or descriptor is reused.
	} pollcache;

	static void netpollblock(PollDesc*, int32);
	static G* netpollunblock(PollDesc*, int32);
	static void deadline(int64, Eface);
	static void readDeadline(int64, Eface);
	static void writeDeadline(int64, Eface);
	static PollDesc* allocPollDesc(void);
	static intgo checkerr(PollDesc *pd, int32 mode);

	static FuncVal deadlineFn = {(void(*)(void))deadline};
	static FuncVal readDeadlineFn = {(void(*)(void))readDeadline};
	static FuncVal writeDeadlineFn = {(void(*)(void))writeDeadline};

	func runtime_pollServerInit() {
	runtime_netpollinit();
	}

	func runtime_pollOpen(fd int) (pd *PollDesc, errno int) {
	pd = allocPollDesc();
	runtime_lock(pd);
	if(pd->wg != nil && pd->wg != READY)
	runtime_throw("runtime_pollOpen: blocked write on free descriptor");
	if(pd->rg != nil && pd->rg != READY)
	runtime_throw("runtime_pollOpen: blocked read on free descriptor");
	pd->fd = fd;
	pd->closing = false;
	pd->seq++;
	pd->rg = nil;
	pd->rd = 0;
	pd->wg = nil;
	pd->wd = 0;
	runtime_unlock(pd);

	errno = runtime_netpollopen(fd, pd);
	}

	func runtime_pollClose(pd *PollDesc) {
	if(!pd->closing)
	runtime_throw("runtime_pollClose: close w/o unblock");
	if(pd->wg != nil && pd->wg != READY)
	runtime_throw("runtime_pollClose: blocked write on closing descriptor");
	if(pd->rg != nil && pd->rg != READY)
	runtime_throw("runtime_pollClose: blocked read on closing descriptor");
	runtime_netpollclose(pd->fd);
	runtime_lock(&pollcache);
	pd->link = pollcache.first;
	pollcache.first = pd;
	runtime_unlock(&pollcache);
	}

	func runtime_pollReset(pd *PollDesc, mode int) (err int) {
	runtime_lock(pd);
	err = checkerr(pd, mode);
	if(err)
	goto ret;
	if(mode == 'r')
	pd->rg = nil;
	else if(mode == 'w')
	pd->wg = nil;
	ret:
	runtime_unlock(pd);
	}

	func runtime_pollWait(pd *PollDesc, mode int) (err int) {
	runtime_lock(pd);
	err = checkerr(pd, mode);
	if(err)
	goto ret;
	netpollblock(pd, mode);
	err = checkerr(pd, mode);
	ret:
	runtime_unlock(pd);
	}

	func runtime_pollSetDeadline(pd *PollDesc, d int64, mode int) {
	runtime_lock(pd);
	if(pd->closing)
	goto ret;
	pd->seq++; // invalidate current timers
	// Reset current timers.
	if(pd->rt.fv) {
	runtime_deltimer(&pd->rt);
	pd->rt.fv = nil;
	}
	if(pd->wt.fv) {
	runtime_deltimer(&pd->wt);
	pd->wt.fv = nil;
	}
	// Setup new timers.
	if(d != 0 && d <= runtime_nanotime()) {
	d = -1;
	}
	if(mode == 'r' \|\| mode == 'r'+'w')
	pd->rd = d;
	if(mode == 'w' \|\| mode == 'r'+'w')
	pd->wd = d;
	if(pd->rd > 0 && pd->rd == pd->wd) {
	pd->rt.fv = &deadlineFn;
	pd->rt.when = pd->rd;
	// Copy current seq into the timer arg.
	// Timer func will check the seq against current descriptor seq,
	// if they differ the descriptor was reused or timers were reset.
	pd->rt.arg.type = (Type*)pd->seq;
	pd->rt.arg.data = pd;
	runtime_addtimer(&pd->rt);
	} else {
	if(pd->rd > 0) {
	pd->rt.fv = &readDeadlineFn;
	pd->rt.when = pd->rd;
	pd->rt.arg.type = (Type*)pd->seq;
	pd->rt.arg.data = pd;
	runtime_addtimer(&pd->rt);
	}
	if(pd->wd > 0) {
	pd->wt.fv = &writeDeadlineFn;
	pd->wt.when = pd->wd;
	pd->wt.arg.type = (Type*)pd->seq;
	pd->wt.arg.data = pd;
	runtime_addtimer(&pd->wt);
	}
	}
	ret:
	runtime_unlock(pd);
	}

	func runtime_pollUnblock(pd *PollDesc) {
	G rg, wg;

	runtime_lock(pd);
	if(pd->closing)
	runtime_throw("runtime_pollUnblock: already closing");
	pd->closing = true;
	pd->seq++;
	rg = netpollunblock(pd, 'r');
	wg = netpollunblock(pd, 'w');
	if(pd->rt.fv) {
	runtime_deltimer(&pd->rt);
	pd->rt.fv = nil;
	}
	if(pd->wt.fv) {
	runtime_deltimer(&pd->wt);
	pd->wt.fv = nil;
	}
	runtime_unlock(pd);
	if(rg)
	runtime_ready(rg);
	if(wg)
	runtime_ready(wg);
	}

	// make pd ready, newly runnable goroutines (if any) are enqueued info gpp list
	void
	runtime_netpollready(G *gpp, PollDesc pd, int32 mode)
	{
	G rg, wg;

	rg = wg = nil;
	runtime_lock(pd);
	if(mode == 'r' \|\| mode == 'r'+'w')
	rg = netpollunblock(pd, 'r');
	if(mode == 'w' \|\| mode == 'r'+'w')
	wg = netpollunblock(pd, 'w');
	runtime_unlock(pd);
	if(rg) {
	rg->schedlink = *gpp;
	*gpp = rg;
	}
	if(wg) {
	wg->schedlink = *gpp;
	*gpp = wg;
	}
	}

	static intgo
	checkerr(PollDesc *pd, int32 mode)
	{
	if(pd->closing)
	return 1; // errClosing
	if((mode == 'r' && pd->rd < 0) \|\| (mode == 'w' && pd->wd < 0))
	return 2; // errTimeout
	return 0;
	}

	static void
	netpollblock(PollDesc *pd, int32 mode)
	{
	G **gpp;

	gpp = &pd->rg;
	if(mode == 'w')
	gpp = &pd->wg;
	if(*gpp == READY) {
	*gpp = nil;
	return;
	}
	if(*gpp != nil)
	runtime_throw("epoll: double wait");
	*gpp = runtime_g();
	runtime_park(runtime_unlock, &pd->Lock, "IO wait");
	runtime_lock(pd);
	}

	static G*
	netpollunblock(PollDesc *pd, int32 mode)
	{
	G *gpp, old;

	gpp = &pd->rg;
	if(mode == 'w')
	gpp = &pd->wg;
	if(*gpp == READY)
	return nil;
	if(*gpp == nil) {
	*gpp = READY;
	return nil;
	}
	old = *gpp;
	*gpp = nil;
	return old;
	}

	static void
	deadlineimpl(int64 now, Eface arg, bool read, bool write)
	{
	PollDesc *pd;
	uint32 seq;
	G rg, wg;

	USED(now);
	pd = (PollDesc*)arg.data;
	// This is the seq when the timer was set.
	// If it's stale, ignore the timer event.
	seq = (uintptr)arg.type;
	rg = wg = nil;
	runtime_lock(pd);
	if(seq != pd->seq) {
	// The descriptor was reused or timers were reset.
	runtime_unlock(pd);
	return;
	}
	if(read) {
	if(pd->rd <= 0 \|\| pd->rt.fv == nil)
	runtime_throw("deadlineimpl: inconsistent read deadline");
	pd->rd = -1;
	pd->rt.fv = nil;
	rg = netpollunblock(pd, 'r');
	}
	if(write) {
	if(pd->wd <= 0 \|\| (pd->wt.fv == nil && !read))
	runtime_throw("deadlineimpl: inconsistent write deadline");
	pd->wd = -1;
	pd->wt.fv = nil;
	wg = netpollunblock(pd, 'w');
	}
	runtime_unlock(pd);
	if(rg)
	runtime_ready(rg);
	if(wg)
	runtime_ready(wg);
	}

	static void
	deadline(int64 now, Eface arg)
	{
	deadlineimpl(now, arg, true, true);
	}

	static void
	readDeadline(int64 now, Eface arg)
	{
	deadlineimpl(now, arg, true, false);
	}

	static void
	writeDeadline(int64 now, Eface arg)
	{
	deadlineimpl(now, arg, false, true);
	}

	static PollDesc*
	allocPollDesc(void)
	{
	PollDesc *pd;
	uint32 i, n;

	runtime_lock(&pollcache);
	if(pollcache.first == nil) {
	n = PageSize/sizeof(*pd);
	if(n == 0)
	n = 1;
	// Must be in non-GC memory because can be referenced
	// only from epoll/kqueue internals.
	pd = runtime_SysAlloc(nsizeof(pd));
	for(i = 0; i < n; i++) {
	pd[i].link = pollcache.first;
	pollcache.first = &pd[i];
	}
	}
	pd = pollcache.first;
	pollcache.first = pd->link;
	runtime_unlock(&pollcache);
	return pd;
	}