mirror of
https://github.com/autc04/Retro68.git
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280 lines
8.5 KiB
Go
280 lines
8.5 KiB
Go
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// Copyright 2009 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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// Cgo call and callback support.
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//
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// To call into the C function f from Go, the cgo-generated code calls
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// runtime.cgocall(_cgo_Cfunc_f, frame), where _cgo_Cfunc_f is a
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// gcc-compiled function written by cgo.
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//
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// runtime.cgocall (below) locks g to m, calls entersyscall
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// so as not to block other goroutines or the garbage collector,
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// and then calls runtime.asmcgocall(_cgo_Cfunc_f, frame).
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//
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// runtime.asmcgocall (in asm_$GOARCH.s) switches to the m->g0 stack
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// (assumed to be an operating system-allocated stack, so safe to run
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// gcc-compiled code on) and calls _cgo_Cfunc_f(frame).
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//
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// _cgo_Cfunc_f invokes the actual C function f with arguments
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// taken from the frame structure, records the results in the frame,
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// and returns to runtime.asmcgocall.
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//
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// After it regains control, runtime.asmcgocall switches back to the
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// original g (m->curg)'s stack and returns to runtime.cgocall.
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//
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// After it regains control, runtime.cgocall calls exitsyscall, which blocks
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// until this m can run Go code without violating the $GOMAXPROCS limit,
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// and then unlocks g from m.
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//
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// The above description skipped over the possibility of the gcc-compiled
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// function f calling back into Go. If that happens, we continue down
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// the rabbit hole during the execution of f.
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//
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// To make it possible for gcc-compiled C code to call a Go function p.GoF,
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// cgo writes a gcc-compiled function named GoF (not p.GoF, since gcc doesn't
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// know about packages). The gcc-compiled C function f calls GoF.
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//
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// GoF calls crosscall2(_cgoexp_GoF, frame, framesize). Crosscall2
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// (in cgo/gcc_$GOARCH.S, a gcc-compiled assembly file) is a two-argument
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// adapter from the gcc function call ABI to the 6c function call ABI.
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// It is called from gcc to call 6c functions. In this case it calls
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// _cgoexp_GoF(frame, framesize), still running on m->g0's stack
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// and outside the $GOMAXPROCS limit. Thus, this code cannot yet
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// call arbitrary Go code directly and must be careful not to allocate
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// memory or use up m->g0's stack.
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//
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// _cgoexp_GoF calls runtime.cgocallback(p.GoF, frame, framesize).
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// (The reason for having _cgoexp_GoF instead of writing a crosscall3
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// to make this call directly is that _cgoexp_GoF, because it is compiled
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// with 6c instead of gcc, can refer to dotted names like
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// runtime.cgocallback and p.GoF.)
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//
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// runtime.cgocallback (in asm_$GOARCH.s) switches from m->g0's
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// stack to the original g (m->curg)'s stack, on which it calls
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// runtime.cgocallbackg(p.GoF, frame, framesize).
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// As part of the stack switch, runtime.cgocallback saves the current
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// SP as m->g0->sched.sp, so that any use of m->g0's stack during the
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// execution of the callback will be done below the existing stack frames.
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// Before overwriting m->g0->sched.sp, it pushes the old value on the
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// m->g0 stack, so that it can be restored later.
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//
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// runtime.cgocallbackg (below) is now running on a real goroutine
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// stack (not an m->g0 stack). First it calls runtime.exitsyscall, which will
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// block until the $GOMAXPROCS limit allows running this goroutine.
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// Once exitsyscall has returned, it is safe to do things like call the memory
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// allocator or invoke the Go callback function p.GoF. runtime.cgocallbackg
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// first defers a function to unwind m->g0.sched.sp, so that if p.GoF
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// panics, m->g0.sched.sp will be restored to its old value: the m->g0 stack
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// and the m->curg stack will be unwound in lock step.
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// Then it calls p.GoF. Finally it pops but does not execute the deferred
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// function, calls runtime.entersyscall, and returns to runtime.cgocallback.
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//
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// After it regains control, runtime.cgocallback switches back to
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// m->g0's stack (the pointer is still in m->g0.sched.sp), restores the old
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// m->g0.sched.sp value from the stack, and returns to _cgoexp_GoF.
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//
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// _cgoexp_GoF immediately returns to crosscall2, which restores the
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// callee-save registers for gcc and returns to GoF, which returns to f.
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package runtime
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import "unsafe"
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// Call from Go to C.
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//go:nosplit
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func cgocall(fn, arg unsafe.Pointer) {
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cgocall_errno(fn, arg)
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}
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//go:nosplit
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func cgocall_errno(fn, arg unsafe.Pointer) int32 {
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if !iscgo && GOOS != "solaris" && GOOS != "windows" {
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gothrow("cgocall unavailable")
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}
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if fn == nil {
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gothrow("cgocall nil")
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}
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if raceenabled {
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racereleasemerge(unsafe.Pointer(&racecgosync))
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}
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// Create an extra M for callbacks on threads not created by Go on first cgo call.
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if needextram == 1 && cas(&needextram, 1, 0) {
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onM(newextram)
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}
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/*
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* Lock g to m to ensure we stay on the same stack if we do a
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* cgo callback. Add entry to defer stack in case of panic.
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*/
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lockOSThread()
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mp := getg().m
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mp.ncgocall++
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mp.ncgo++
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defer endcgo(mp)
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/*
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* Announce we are entering a system call
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* so that the scheduler knows to create another
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* M to run goroutines while we are in the
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* foreign code.
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*
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* The call to asmcgocall is guaranteed not to
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* split the stack and does not allocate memory,
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* so it is safe to call while "in a system call", outside
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* the $GOMAXPROCS accounting.
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*/
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entersyscall()
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errno := asmcgocall_errno(fn, arg)
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exitsyscall()
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return errno
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}
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//go:nosplit
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func endcgo(mp *m) {
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mp.ncgo--
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if mp.ncgo == 0 {
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// We are going back to Go and are not in a recursive
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// call. Let the GC collect any memory allocated via
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// _cgo_allocate that is no longer referenced.
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mp.cgomal = nil
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}
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if raceenabled {
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raceacquire(unsafe.Pointer(&racecgosync))
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}
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unlockOSThread() // invalidates mp
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}
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// Helper functions for cgo code.
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// Filled by schedinit from corresponding C variables,
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// which are in turn filled in by dynamic linker when Cgo is available.
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var cgoMalloc, cgoFree unsafe.Pointer
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func cmalloc(n uintptr) unsafe.Pointer {
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var args struct {
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n uint64
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ret unsafe.Pointer
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}
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args.n = uint64(n)
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cgocall(cgoMalloc, unsafe.Pointer(&args))
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if args.ret == nil {
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gothrow("C malloc failed")
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}
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return args.ret
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}
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func cfree(p unsafe.Pointer) {
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cgocall(cgoFree, p)
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}
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// Call from C back to Go.
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//go:nosplit
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func cgocallbackg() {
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gp := getg()
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if gp != gp.m.curg {
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println("runtime: bad g in cgocallback")
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exit(2)
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}
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// entersyscall saves the caller's SP to allow the GC to trace the Go
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// stack. However, since we're returning to an earlier stack frame and
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// need to pair with the entersyscall() call made by cgocall, we must
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// save syscall* and let reentersyscall restore them.
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savedsp := unsafe.Pointer(gp.syscallsp)
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savedpc := gp.syscallpc
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exitsyscall() // coming out of cgo call
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cgocallbackg1()
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// going back to cgo call
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reentersyscall(savedpc, savedsp)
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}
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func cgocallbackg1() {
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gp := getg()
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if gp.m.needextram {
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gp.m.needextram = false
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onM(newextram)
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}
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// Add entry to defer stack in case of panic.
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restore := true
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defer unwindm(&restore)
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if raceenabled {
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raceacquire(unsafe.Pointer(&racecgosync))
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}
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type args struct {
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fn *funcval
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arg unsafe.Pointer
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argsize uintptr
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}
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var cb *args
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// Location of callback arguments depends on stack frame layout
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// and size of stack frame of cgocallback_gofunc.
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sp := gp.m.g0.sched.sp
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switch GOARCH {
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default:
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gothrow("cgocallbackg is unimplemented on arch")
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case "arm":
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// On arm, stack frame is two words and there's a saved LR between
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// SP and the stack frame and between the stack frame and the arguments.
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cb = (*args)(unsafe.Pointer(sp + 4*ptrSize))
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case "amd64":
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// On amd64, stack frame is one word, plus caller PC.
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cb = (*args)(unsafe.Pointer(sp + 2*ptrSize))
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case "386":
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// On 386, stack frame is three words, plus caller PC.
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cb = (*args)(unsafe.Pointer(sp + 4*ptrSize))
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}
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// Invoke callback.
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reflectcall(unsafe.Pointer(cb.fn), unsafe.Pointer(cb.arg), uint32(cb.argsize), 0)
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if raceenabled {
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racereleasemerge(unsafe.Pointer(&racecgosync))
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}
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// Do not unwind m->g0->sched.sp.
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// Our caller, cgocallback, will do that.
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restore = false
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}
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func unwindm(restore *bool) {
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if !*restore {
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return
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}
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// Restore sp saved by cgocallback during
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// unwind of g's stack (see comment at top of file).
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mp := acquirem()
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sched := &mp.g0.sched
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switch GOARCH {
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default:
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gothrow("unwindm not implemented")
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case "386", "amd64":
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sched.sp = *(*uintptr)(unsafe.Pointer(sched.sp))
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case "arm":
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sched.sp = *(*uintptr)(unsafe.Pointer(sched.sp + 4))
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}
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releasem(mp)
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}
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// called from assembly
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func badcgocallback() {
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gothrow("misaligned stack in cgocallback")
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}
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// called from (incomplete) assembly
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func cgounimpl() {
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gothrow("cgo not implemented")
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}
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var racecgosync uint64 // represents possible synchronization in C code
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