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go/src/runtime/defs1_netbsd_386.go
Ian Lance Taylor 23aad448b1 runtime: for kqueue treat EVFILT_READ with EV_EOF as permitting a write 
On systems that use kqueue, we always register descriptors for both
EVFILT_READ and EVFILT_WRITE. On at least FreeBSD and OpenBSD, when
the write end of a pipe is registered for EVFILT_READ and EVFILT_WRITE
events, and the read end of the pipe is closed, kqueue reports an
EVFILT_READ event with EV_EOF set, but does not report an EVFILT_WRITE
event. Since the write to the pipe is waiting for an EVFILT_WRITE
event, closing the read end of a pipe can cause the write end to hang
rather than attempt another write which will fail with EPIPE.

Fix this by treating EVFILT_READ with EV_EOF set as making both reads
and writes ready to proceed.

The real test for this is in CL 71770, which tests using various
timeouts with pipes.

Updates #22114

Change-Id: Ib23fbaaddbccd8eee77bdf18f27a7f0aa50e2742
Reviewed-on: https://go-review.googlesource.com/71973
Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2017-10-20 22:26:30 +00:00

179 lines
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// created by cgo -cdefs and then converted to Go
// cgo -cdefs defs_netbsd.go defs_netbsd_386.go
package runtime
const (
_EINTR = 0x4
_EFAULT = 0xe
_PROT_NONE = 0x0
_PROT_READ = 0x1
_PROT_WRITE = 0x2
_PROT_EXEC = 0x4
_MAP_ANON = 0x1000
_MAP_PRIVATE = 0x2
_MAP_FIXED = 0x10
_MADV_FREE = 0x6
_SA_SIGINFO = 0x40
_SA_RESTART = 0x2
_SA_ONSTACK = 0x1
_SIGHUP = 0x1
_SIGINT = 0x2
_SIGQUIT = 0x3
_SIGILL = 0x4
_SIGTRAP = 0x5
_SIGABRT = 0x6
_SIGEMT = 0x7
_SIGFPE = 0x8
_SIGKILL = 0x9
_SIGBUS = 0xa
_SIGSEGV = 0xb
_SIGSYS = 0xc
_SIGPIPE = 0xd
_SIGALRM = 0xe
_SIGTERM = 0xf
_SIGURG = 0x10
_SIGSTOP = 0x11
_SIGTSTP = 0x12
_SIGCONT = 0x13
_SIGCHLD = 0x14
_SIGTTIN = 0x15
_SIGTTOU = 0x16
_SIGIO = 0x17
_SIGXCPU = 0x18
_SIGXFSZ = 0x19
_SIGVTALRM = 0x1a
_SIGPROF = 0x1b
_SIGWINCH = 0x1c
_SIGINFO = 0x1d
_SIGUSR1 = 0x1e
_SIGUSR2 = 0x1f
_FPE_INTDIV = 0x1
_FPE_INTOVF = 0x2
_FPE_FLTDIV = 0x3
_FPE_FLTOVF = 0x4
_FPE_FLTUND = 0x5
_FPE_FLTRES = 0x6
_FPE_FLTINV = 0x7
_FPE_FLTSUB = 0x8
_BUS_ADRALN = 0x1
_BUS_ADRERR = 0x2
_BUS_OBJERR = 0x3
_SEGV_MAPERR = 0x1
_SEGV_ACCERR = 0x2
_ITIMER_REAL = 0x0
_ITIMER_VIRTUAL = 0x1
_ITIMER_PROF = 0x2
_EV_ADD = 0x1
_EV_DELETE = 0x2
_EV_CLEAR = 0x20
_EV_RECEIPT = 0
_EV_ERROR = 0x4000
_EV_EOF = 0x8000
_EVFILT_READ = 0x0
_EVFILT_WRITE = 0x1
)
type sigset struct {
__bits [4]uint32
}
type siginfo struct {
_signo int32
_code int32
_errno int32
_reason [20]byte
}
type stackt struct {
ss_sp uintptr
ss_size uintptr
ss_flags int32
}
type timespec struct {
tv_sec int64
tv_nsec int32
}
func (ts *timespec) set_sec(x int32) {
ts.tv_sec = int64(x)
}
func (ts *timespec) set_nsec(x int32) {
ts.tv_nsec = x
}
type timeval struct {
tv_sec int64
tv_usec int32
}
func (tv *timeval) set_usec(x int32) {
tv.tv_usec = x
}
type itimerval struct {
it_interval timeval
it_value timeval
}
type mcontextt struct {
__gregs [19]uint32
__fpregs [644]byte
_mc_tlsbase int32
}
type ucontextt struct {
uc_flags uint32
uc_link *ucontextt
uc_sigmask sigset
uc_stack stackt
uc_mcontext mcontextt
__uc_pad [4]int32
}
type keventt struct {
ident uint32
filter uint32
flags uint32
fflags uint32
data int64
udata *byte
}
// created by cgo -cdefs and then converted to Go
// cgo -cdefs defs_netbsd.go defs_netbsd_386.go
const (
_REG_GS = 0x0
_REG_FS = 0x1
_REG_ES = 0x2
_REG_DS = 0x3
_REG_EDI = 0x4
_REG_ESI = 0x5
_REG_EBP = 0x6
_REG_ESP = 0x7
_REG_EBX = 0x8
_REG_EDX = 0x9
_REG_ECX = 0xa
_REG_EAX = 0xb
_REG_TRAPNO = 0xc
_REG_ERR = 0xd
_REG_EIP = 0xe
_REG_CS = 0xf
_REG_EFL = 0x10
_REG_UESP = 0x11
_REG_SS = 0x12
)
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