mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-27 14:16:39 +00:00
695 lines
15 KiB
Go
695 lines
15 KiB
Go
// Copyright 2021 The Libc 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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package libc // import "modernc.org/libc"
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import (
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"runtime"
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"sync"
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"sync/atomic"
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"time"
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"unsafe"
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"modernc.org/libc/errno"
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"modernc.org/libc/pthread"
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"modernc.org/libc/sys/types"
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ctime "modernc.org/libc/time"
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)
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var (
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mutexes = map[uintptr]*mutex{}
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mutexesMu sync.Mutex
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threads = map[int32]*TLS{}
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threadsMu sync.Mutex
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threadKey pthread.Pthread_key_t
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threadKeyDestructors = map[pthread.Pthread_key_t][]uintptr{} // key: []destructor
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threadsKeysMu sync.Mutex
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conds = map[uintptr]*cond{}
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condsMu sync.Mutex
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)
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// Thread local storage.
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type TLS struct {
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errnop uintptr
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allocaStack [][]uintptr
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allocas []uintptr
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pthreadData
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stack stackHeader
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ID int32
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reentryGuard int32 // memgrind
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stackHeaderBalance int32
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}
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var errno0 int32 // Temp errno for NewTLS
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func NewTLS() *TLS {
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return newTLS(false)
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}
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func newTLS(detached bool) *TLS {
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id := atomic.AddInt32(&tid, 1)
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t := &TLS{ID: id, errnop: uintptr(unsafe.Pointer(&errno0))}
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t.pthreadData.init(t, detached)
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if memgrind {
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atomic.AddInt32(&tlsBalance, 1)
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}
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t.errnop = t.Alloc(int(unsafe.Sizeof(int32(0))))
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*(*int32)(unsafe.Pointer(t.errnop)) = 0
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return t
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}
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func (t *TLS) alloca(n size_t) (r uintptr) {
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r = Xmalloc(t, n)
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t.allocas = append(t.allocas, r)
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return r
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}
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func (t *TLS) FreeAlloca() func() {
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t.allocaStack = append(t.allocaStack, t.allocas)
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t.allocas = nil
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return func() {
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for _, v := range t.allocas {
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Xfree(t, v)
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}
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n := len(t.allocaStack)
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t.allocas = t.allocaStack[n-1]
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t.allocaStack = t.allocaStack[:n-1]
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}
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}
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func Xalloca(tls *TLS, size size_t) uintptr {
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if __ccgo_strace {
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trc("tls=%v size=%v, (%v:)", tls, size, origin(2))
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}
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return tls.alloca(size)
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}
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func X__builtin_alloca(tls *TLS, size size_t) uintptr {
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if __ccgo_strace {
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trc("tls=%v size=%v, (%v:)", tls, size, origin(2))
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}
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return Xalloca(tls, size)
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}
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// Pthread specific part of a TLS.
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type pthreadData struct {
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done chan struct{}
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kv map[pthread.Pthread_key_t]uintptr
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retVal uintptr
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wait chan struct{} // cond var interaction
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detached bool
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}
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func (d *pthreadData) init(t *TLS, detached bool) {
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d.detached = detached
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d.wait = make(chan struct{}, 1)
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if detached {
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return
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}
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d.done = make(chan struct{})
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threadsMu.Lock()
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defer threadsMu.Unlock()
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threads[t.ID] = t
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}
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func (d *pthreadData) close(t *TLS) {
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threadsMu.Lock()
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defer threadsMu.Unlock()
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delete(threads, t.ID)
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}
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// int pthread_attr_destroy(pthread_attr_t *attr);
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func Xpthread_attr_destroy(t *TLS, pAttr uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pAttr=%v, (%v:)", t, pAttr, origin(2))
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}
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return 0
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}
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// int pthread_attr_setscope(pthread_attr_t *attr, int contentionscope);
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func Xpthread_attr_setscope(t *TLS, pAttr uintptr, contentionScope int32) int32 {
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if __ccgo_strace {
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trc("t=%v pAttr=%v contentionScope=%v, (%v:)", t, pAttr, contentionScope, origin(2))
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}
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switch contentionScope {
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case pthread.PTHREAD_SCOPE_SYSTEM:
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return 0
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default:
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panic(todo("", contentionScope))
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}
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}
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// int pthread_attr_setstacksize(pthread_attr_t *attr, size_t stacksize);
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func Xpthread_attr_setstacksize(t *TLS, attr uintptr, stackSize types.Size_t) int32 {
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if __ccgo_strace {
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trc("t=%v attr=%v stackSize=%v, (%v:)", t, attr, stackSize, origin(2))
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}
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panic(todo(""))
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}
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// Go side data of pthread_cond_t.
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type cond struct {
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sync.Mutex
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waiters map[*TLS]struct{}
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}
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func newCond() *cond {
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return &cond{
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waiters: map[*TLS]struct{}{},
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}
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}
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func (c *cond) signal(all bool) int32 {
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if c == nil {
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return errno.EINVAL
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}
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c.Lock()
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defer c.Unlock()
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// The pthread_cond_broadcast() and pthread_cond_signal() functions shall have
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// no effect if there are no threads currently blocked on cond.
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for tls := range c.waiters {
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tls.wait <- struct{}{}
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delete(c.waiters, tls)
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if !all {
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break
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}
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}
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return 0
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}
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// The pthread_cond_init() function shall initialize the condition variable
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// referenced by cond with attributes referenced by attr. If attr is NULL, the
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// default condition variable attributes shall be used; the effect is the same
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// as passing the address of a default condition variable attributes object.
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// Upon successful initialization, the state of the condition variable shall
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// become initialized.
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//
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// If successful, the pthread_cond_destroy() and pthread_cond_init() functions
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// shall return zero; otherwise, an error number shall be returned to indicate
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// the error.
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//
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// int pthread_cond_init(pthread_cond_t *restrict cond, const pthread_condattr_t *restrict attr);
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func Xpthread_cond_init(t *TLS, pCond, pAttr uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pAttr=%v, (%v:)", t, pAttr, origin(2))
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}
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if pCond == 0 {
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return errno.EINVAL
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}
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if pAttr != 0 {
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panic(todo("%#x %#x", pCond, pAttr))
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}
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condsMu.Lock()
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defer condsMu.Unlock()
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conds[pCond] = newCond()
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return 0
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}
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// int pthread_cond_destroy(pthread_cond_t *cond);
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func Xpthread_cond_destroy(t *TLS, pCond uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pCond=%v, (%v:)", t, pCond, origin(2))
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}
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if pCond == 0 {
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return errno.EINVAL
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}
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condsMu.Lock()
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defer condsMu.Unlock()
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cond := conds[pCond]
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if cond == nil {
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return errno.EINVAL
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}
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cond.Lock()
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defer cond.Unlock()
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if len(cond.waiters) != 0 {
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return errno.EBUSY
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}
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delete(conds, pCond)
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return 0
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}
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// int pthread_cond_signal(pthread_cond_t *cond);
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func Xpthread_cond_signal(t *TLS, pCond uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pCond=%v, (%v:)", t, pCond, origin(2))
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}
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return condSignal(pCond, false)
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}
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// int pthread_cond_broadcast(pthread_cond_t *cond);
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func Xpthread_cond_broadcast(t *TLS, pCond uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pCond=%v, (%v:)", t, pCond, origin(2))
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}
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return condSignal(pCond, true)
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}
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func condSignal(pCond uintptr, all bool) int32 {
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if pCond == 0 {
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return errno.EINVAL
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}
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condsMu.Lock()
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cond := conds[pCond]
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condsMu.Unlock()
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return cond.signal(all)
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}
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// int pthread_cond_wait(pthread_cond_t *restrict cond, pthread_mutex_t *restrict mutex);
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func Xpthread_cond_wait(t *TLS, pCond, pMutex uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pMutex=%v, (%v:)", t, pMutex, origin(2))
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}
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if pCond == 0 {
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return errno.EINVAL
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}
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condsMu.Lock()
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cond := conds[pCond]
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if cond == nil { // static initialized condition variables are valid
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cond = newCond()
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conds[pCond] = cond
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}
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cond.Lock()
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cond.waiters[t] = struct{}{}
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cond.Unlock()
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condsMu.Unlock()
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mutexesMu.Lock()
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mu := mutexes[pMutex]
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mutexesMu.Unlock()
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mu.Unlock()
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<-t.wait
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mu.Lock()
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return 0
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}
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// int pthread_cond_timedwait(pthread_cond_t *restrict cond, pthread_mutex_t *restrict mutex, const struct timespec *restrict abstime);
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func Xpthread_cond_timedwait(t *TLS, pCond, pMutex, pAbsTime uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pAbsTime=%v, (%v:)", t, pAbsTime, origin(2))
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}
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if pCond == 0 {
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return errno.EINVAL
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}
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condsMu.Lock()
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cond := conds[pCond]
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if cond == nil { // static initialized condition variables are valid
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cond = newCond()
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conds[pCond] = cond
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}
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cond.Lock()
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cond.waiters[t] = struct{}{}
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cond.Unlock()
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condsMu.Unlock()
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mutexesMu.Lock()
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mu := mutexes[pMutex]
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mutexesMu.Unlock()
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deadlineSecs := (*ctime.Timespec)(unsafe.Pointer(pAbsTime)).Ftv_sec
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deadlineNsecs := (*ctime.Timespec)(unsafe.Pointer(pAbsTime)).Ftv_nsec
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deadline := time.Unix(int64(deadlineSecs), int64(deadlineNsecs))
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d := deadline.Sub(time.Now())
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switch {
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case d <= 0:
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return errno.ETIMEDOUT
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default:
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to := time.After(d)
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mu.Unlock()
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defer mu.Lock()
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select {
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case <-t.wait:
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return 0
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case <-to:
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cond.Lock()
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defer cond.Unlock()
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delete(cond.waiters, t)
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return errno.ETIMEDOUT
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}
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}
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}
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// Go side data of pthread_mutex_t
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type mutex struct {
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sync.Mutex
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typ int // PTHREAD_MUTEX_NORMAL, ...
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wait sync.Mutex
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id int32 // owner's t.ID
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cnt int32
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robust bool
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}
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func newMutex(typ int) *mutex {
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return &mutex{
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typ: typ,
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}
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}
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func (m *mutex) lock(id int32) int32 {
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if m.robust {
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panic(todo(""))
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}
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// If successful, the pthread_mutex_lock() and pthread_mutex_unlock() functions
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// shall return zero; otherwise, an error number shall be returned to indicate
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// the error.
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switch m.typ {
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case pthread.PTHREAD_MUTEX_NORMAL:
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// If the mutex type is PTHREAD_MUTEX_NORMAL, deadlock detection shall not be
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// provided. Attempting to relock the mutex causes deadlock. If a thread
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// attempts to unlock a mutex that it has not locked or a mutex which is
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// unlocked, undefined behavior results.
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m.Lock()
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m.id = id
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return 0
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case pthread.PTHREAD_MUTEX_RECURSIVE:
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for {
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m.Lock()
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switch m.id {
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case 0:
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m.cnt = 1
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m.id = id
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m.wait.Lock()
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m.Unlock()
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return 0
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case id:
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m.cnt++
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m.Unlock()
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return 0
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}
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m.Unlock()
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m.wait.Lock()
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m.wait.Unlock()
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}
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default:
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panic(todo("", m.typ))
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}
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}
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func (m *mutex) tryLock(id int32) int32 {
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if m.robust {
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panic(todo(""))
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}
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switch m.typ {
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case pthread.PTHREAD_MUTEX_NORMAL:
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return errno.EBUSY
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case pthread.PTHREAD_MUTEX_RECURSIVE:
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m.Lock()
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switch m.id {
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case 0:
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m.cnt = 1
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m.id = id
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m.wait.Lock()
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m.Unlock()
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return 0
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case id:
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m.cnt++
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m.Unlock()
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return 0
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}
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m.Unlock()
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return errno.EBUSY
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default:
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panic(todo("", m.typ))
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}
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}
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func (m *mutex) unlock() int32 {
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if m.robust {
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panic(todo(""))
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}
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// If successful, the pthread_mutex_lock() and pthread_mutex_unlock() functions
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// shall return zero; otherwise, an error number shall be returned to indicate
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// the error.
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switch m.typ {
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case pthread.PTHREAD_MUTEX_NORMAL:
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// If the mutex type is PTHREAD_MUTEX_NORMAL, deadlock detection shall not be
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// provided. Attempting to relock the mutex causes deadlock. If a thread
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// attempts to unlock a mutex that it has not locked or a mutex which is
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// unlocked, undefined behavior results.
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m.id = 0
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m.Unlock()
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return 0
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case pthread.PTHREAD_MUTEX_RECURSIVE:
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m.Lock()
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m.cnt--
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if m.cnt == 0 {
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m.id = 0
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m.wait.Unlock()
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}
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m.Unlock()
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return 0
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default:
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panic(todo("", m.typ))
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}
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}
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// int pthread_mutex_destroy(pthread_mutex_t *mutex);
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func Xpthread_mutex_destroy(t *TLS, pMutex uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pMutex=%v, (%v:)", t, pMutex, origin(2))
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}
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mutexesMu.Lock()
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defer mutexesMu.Unlock()
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delete(mutexes, pMutex)
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return 0
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}
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// int pthread_mutex_lock(pthread_mutex_t *mutex);
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func Xpthread_mutex_lock(t *TLS, pMutex uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pMutex=%v, (%v:)", t, pMutex, origin(2))
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}
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mutexesMu.Lock()
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mu := mutexes[pMutex]
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if mu == nil { // static initialized mutexes are valid
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mu = newMutex(int(X__ccgo_getMutexType(t, pMutex)))
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mutexes[pMutex] = mu
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}
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mutexesMu.Unlock()
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return mu.lock(t.ID)
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}
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// int pthread_mutex_trylock(pthread_mutex_t *mutex);
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func Xpthread_mutex_trylock(t *TLS, pMutex uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pMutex=%v, (%v:)", t, pMutex, origin(2))
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}
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mutexesMu.Lock()
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mu := mutexes[pMutex]
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if mu == nil { // static initialized mutexes are valid
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mu = newMutex(int(X__ccgo_getMutexType(t, pMutex)))
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mutexes[pMutex] = mu
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}
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mutexesMu.Unlock()
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return mu.tryLock(t.ID)
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}
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// int pthread_mutex_unlock(pthread_mutex_t *mutex);
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func Xpthread_mutex_unlock(t *TLS, pMutex uintptr) int32 {
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if __ccgo_strace {
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trc("t=%v pMutex=%v, (%v:)", t, pMutex, origin(2))
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}
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mutexesMu.Lock()
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defer mutexesMu.Unlock()
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return mutexes[pMutex].unlock()
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}
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// int pthread_key_create(pthread_key_t *key, void (*destructor)(void*));
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func Xpthread_key_create(t *TLS, pKey, destructor uintptr) int32 {
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threadsKeysMu.Lock()
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defer threadsKeysMu.Unlock()
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threadKey++
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r := threadKey
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if destructor != 0 {
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threadKeyDestructors[r] = append(threadKeyDestructors[r], destructor)
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}
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*(*pthread.Pthread_key_t)(unsafe.Pointer(pKey)) = pthread.Pthread_key_t(r)
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return 0
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}
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|
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// int pthread_key_delete(pthread_key_t key);
|
|
func Xpthread_key_delete(t *TLS, key pthread.Pthread_key_t) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v key=%v, (%v:)", t, key, origin(2))
|
|
}
|
|
if _, ok := t.kv[key]; ok {
|
|
delete(t.kv, key)
|
|
return 0
|
|
}
|
|
|
|
panic(todo(""))
|
|
|
|
}
|
|
|
|
// void *pthread_getspecific(pthread_key_t key);
|
|
func Xpthread_getspecific(t *TLS, key pthread.Pthread_key_t) uintptr {
|
|
if __ccgo_strace {
|
|
trc("t=%v key=%v, (%v:)", t, key, origin(2))
|
|
}
|
|
return t.kv[key]
|
|
}
|
|
|
|
// int pthread_setspecific(pthread_key_t key, const void *value);
|
|
func Xpthread_setspecific(t *TLS, key pthread.Pthread_key_t, value uintptr) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v key=%v value=%v, (%v:)", t, key, value, origin(2))
|
|
}
|
|
if t.kv == nil {
|
|
t.kv = map[pthread.Pthread_key_t]uintptr{}
|
|
}
|
|
t.kv[key] = value
|
|
return 0
|
|
}
|
|
|
|
// int pthread_create(pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine) (void *), void *arg);
|
|
func Xpthread_create(t *TLS, pThread, pAttr, startRoutine, arg uintptr) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v arg=%v, (%v:)", t, arg, origin(2))
|
|
}
|
|
fn := (*struct {
|
|
f func(*TLS, uintptr) uintptr
|
|
})(unsafe.Pointer(&struct{ uintptr }{startRoutine})).f
|
|
detached := pAttr != 0 && X__ccgo_pthreadAttrGetDetachState(t, pAttr) == pthread.PTHREAD_CREATE_DETACHED
|
|
tls := newTLS(detached)
|
|
*(*pthread.Pthread_t)(unsafe.Pointer(pThread)) = pthread.Pthread_t(tls.ID)
|
|
|
|
go func() {
|
|
Xpthread_exit(tls, fn(tls, arg))
|
|
}()
|
|
|
|
return 0
|
|
}
|
|
|
|
// int pthread_detach(pthread_t thread);
|
|
func Xpthread_detach(t *TLS, thread pthread.Pthread_t) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v thread=%v, (%v:)", t, thread, origin(2))
|
|
}
|
|
threadsMu.Lock()
|
|
threads[int32(thread)].detached = true
|
|
threadsMu.Unlock()
|
|
return 0
|
|
}
|
|
|
|
// int pthread_equal(pthread_t t1, pthread_t t2);
|
|
func Xpthread_equal(t *TLS, t1, t2 pthread.Pthread_t) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v t2=%v, (%v:)", t, t2, origin(2))
|
|
}
|
|
return Bool32(t1 == t2)
|
|
}
|
|
|
|
// void pthread_exit(void *value_ptr);
|
|
func Xpthread_exit(t *TLS, value uintptr) {
|
|
if __ccgo_strace {
|
|
trc("t=%v value=%v, (%v:)", t, value, origin(2))
|
|
}
|
|
t.retVal = value
|
|
|
|
// At thread exit, if a key value has a non-NULL destructor pointer, and the
|
|
// thread has a non-NULL value associated with that key, the value of the key
|
|
// is set to NULL, and then the function pointed to is called with the
|
|
// previously associated value as its sole argument. The order of destructor
|
|
// calls is unspecified if more than one destructor exists for a thread when it
|
|
// exits.
|
|
for k, v := range t.kv {
|
|
if v == 0 {
|
|
continue
|
|
}
|
|
|
|
threadsKeysMu.Lock()
|
|
destructors := threadKeyDestructors[k]
|
|
threadsKeysMu.Unlock()
|
|
|
|
for _, destructor := range destructors {
|
|
delete(t.kv, k)
|
|
panic(todo("%#x", destructor)) //TODO call destructor(v)
|
|
}
|
|
}
|
|
|
|
switch {
|
|
case t.detached:
|
|
threadsMu.Lock()
|
|
delete(threads, t.ID)
|
|
threadsMu.Unlock()
|
|
default:
|
|
close(t.done)
|
|
}
|
|
runtime.Goexit()
|
|
}
|
|
|
|
// int pthread_join(pthread_t thread, void **value_ptr);
|
|
func Xpthread_join(t *TLS, thread pthread.Pthread_t, pValue uintptr) int32 {
|
|
if __ccgo_strace {
|
|
trc("t=%v thread=%v pValue=%v, (%v:)", t, thread, pValue, origin(2))
|
|
}
|
|
threadsMu.Lock()
|
|
tls := threads[int32(thread)]
|
|
delete(threads, int32(thread))
|
|
threadsMu.Unlock()
|
|
<-tls.done
|
|
if pValue != 0 {
|
|
*(*uintptr)(unsafe.Pointer(pValue)) = tls.retVal
|
|
}
|
|
return 0
|
|
}
|
|
|
|
// pthread_t pthread_self(void);
|
|
func Xpthread_self(t *TLS) pthread.Pthread_t {
|
|
if __ccgo_strace {
|
|
trc("t=%v, (%v:)", t, origin(2))
|
|
}
|
|
return pthread.Pthread_t(t.ID)
|
|
}
|