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// Copyright 2023 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.
//go:build wasip1
package runtime
import "unsafe"
// WASI network poller.
//
// WASI preview 1 includes a poll_oneoff host function that behaves similarly
// to poll(2) on Linux. Like poll(2), poll_oneoff is level triggered. It
// accepts one or more subscriptions to FD read or write events.
//
// Major differences to poll(2):
// - the events are not written to the input entries (like pollfd.revents), and
// instead are appended to a separate events buffer. poll_oneoff writes zero
// or more events to the buffer (at most one per input subscription) and
// returns the number of events written. Although the index of the
// subscriptions might not match the index of the associated event in the
// events buffer, both the subscription and event structs contain a userdata
// field and when a subscription yields an event the userdata fields will
// match.
// - there's no explicit timeout parameter, although a time limit can be added
// by using "clock" subscriptions.
// - each FD subscription can either be for a read or a write, but not both.
// This is in contrast to poll(2) which accepts a mask with POLLIN and
// POLLOUT bits, allowing for a subscription to either, neither, or both
// reads and writes.
//
// Since poll_oneoff is similar to poll(2), the implementation here was derived
// from netpoll_aix.go.
const _EINTR = 27
var (
evts []event
subs []subscription
pds []*pollDesc
mtx mutex
)
func netpollinit() {
// Unlike poll(2), WASI's poll_oneoff doesn't accept a timeout directly. To
// prevent it from blocking indefinitely, a clock subscription with a
// timeout field needs to be submitted. Reserve a slot here for the clock
// subscription, and set fields that won't change between poll_oneoff calls.
subs = make([]subscription, 1, 128)
evts = make([]event, 0, 128)
pds = make([]*pollDesc, 0, 128)
timeout := &subs[0]
eventtype := timeout.u.eventtype()
*eventtype = eventtypeClock
clock := timeout.u.subscriptionClock()
clock.id = clockMonotonic
clock.precision = 1e3
}
func netpollIsPollDescriptor(fd uintptr) bool {
return false
}
func netpollopen(fd uintptr, pd *pollDesc) int32 {
lock(&mtx)
// We don't worry about pd.fdseq here,
// as mtx protects us from stale pollDescs.
pds = append(pds, pd)
// The 32-bit pd.user field holds the index of the read subscription in the
// upper 16 bits, and index of the write subscription in the lower bits.
// A disarmed=^uint16(0) sentinel is used to represent no subscription.
// There is thus a maximum of 65535 total subscriptions.
pd.user = uint32(disarmed)<<16 | uint32(disarmed)
unlock(&mtx)
return 0
}
const disarmed = 0xFFFF
func netpollarm(pd *pollDesc, mode int) {
lock(&mtx)
var s subscription
s.userdata = userdata(uintptr(unsafe.Pointer(pd)))
fdReadwrite := s.u.subscriptionFdReadwrite()
fdReadwrite.fd = int32(pd.fd)
ridx := int(pd.user >> 16)
widx := int(pd.user & 0xFFFF)
if (mode == 'r' && ridx != disarmed) || (mode == 'w' && widx != disarmed) {
unlock(&mtx)
return
}
eventtype := s.u.eventtype()
switch mode {
case 'r':
*eventtype = eventtypeFdRead
ridx = len(subs)
case 'w':
*eventtype = eventtypeFdWrite
widx = len(subs)
}
if len(subs) == disarmed {
throw("overflow")
}
pd.user = uint32(ridx)<<16 | uint32(widx)
subs = append(subs, s)
evts = append(evts, event{})
unlock(&mtx)
}
func netpolldisarm(pd *pollDesc, mode int32) {
switch mode {
case 'r':
removesub(int(pd.user >> 16))
case 'w':
removesub(int(pd.user & 0xFFFF))
case 'r' + 'w':
removesub(int(pd.user >> 16))
removesub(int(pd.user & 0xFFFF))
}
}
func removesub(i int) {
if i == disarmed {
return
}
j := len(subs) - 1
pdi := (*pollDesc)(unsafe.Pointer(uintptr(subs[i].userdata)))
pdj := (*pollDesc)(unsafe.Pointer(uintptr(subs[j].userdata)))
swapsub(pdi, i, disarmed)
swapsub(pdj, j, i)
subs = subs[:j]
}
func swapsub(pd *pollDesc, from, to int) {
if from == to {
return
}
ridx := int(pd.user >> 16)
widx := int(pd.user & 0xFFFF)
if ridx == from {
ridx = to
} else if widx == from {
widx = to
}
pd.user = uint32(ridx)<<16 | uint32(widx)
if to != disarmed {
subs[to], subs[from] = subs[from], subs[to]
}
}
func netpollclose(fd uintptr) int32 {
lock(&mtx)
for i := 0; i < len(pds); i++ {
if pds[i].fd == fd {
netpolldisarm(pds[i], 'r'+'w')
pds[i] = pds[len(pds)-1]
pds = pds[:len(pds)-1]
break
}
}
unlock(&mtx)
return 0
}
func netpollBreak() {}
func netpoll(delay int64) (gList, int32) {
lock(&mtx)
// If delay >= 0, we include a subscription of type Clock that we use as
// a timeout. If delay < 0, we omit the subscription and allow poll_oneoff
// to block indefinitely.
pollsubs := subs
if delay >= 0 {
timeout := &subs[0]
clock := timeout.u.subscriptionClock()
clock.timeout = uint64(delay)
} else {
pollsubs = subs[1:]
}
if len(pollsubs) == 0 {
unlock(&mtx)
return gList{}, 0
}
evts = evts[:len(pollsubs)]
for i := range evts {
evts[i] = event{}
}
retry:
var nevents size
errno := poll_oneoff(unsafe.Pointer(&pollsubs[0]), unsafe.Pointer(&evts[0]), uint32(len(pollsubs)), unsafe.Pointer(&nevents))
if errno != 0 {
if errno != _EINTR {
println("errno=", errno, " len(pollsubs)=", len(pollsubs))
throw("poll_oneoff failed")
}
// If a timed sleep was interrupted, just return to
// recalculate how long we should sleep now.
if delay > 0 {
unlock(&mtx)
return gList{}, 0
}
goto retry
}
var toRun gList
delta := int32(0)
for i := 0; i < int(nevents); i++ {
e := &evts[i]
if e.typ == eventtypeClock {
continue
}
hangup := e.fdReadwrite.flags&fdReadwriteHangup != 0
var mode int32
if e.typ == eventtypeFdRead || e.error != 0 || hangup {
mode += 'r'
}
if e.typ == eventtypeFdWrite || e.error != 0 || hangup {
mode += 'w'
}
if mode != 0 {
pd := (*pollDesc)(unsafe.Pointer(uintptr(e.userdata)))
netpolldisarm(pd, mode)
pd.setEventErr(e.error != 0, 0)
delta += netpollready(&toRun, pd, mode)
}
}
unlock(&mtx)
return toRun, delta
}
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