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runtime: find g in Windows profiler using SP
The architecture-specific interpretation of m->tls[0] is unnecessary and fragile. Delete it. This CL is part of a stack adding windows/arm64 support (#36439), intended to land in the Go 1.17 cycle. This CL is, however, not windows/arm64-specific. It is cleanup meant to make the port (and future ports) easier. Change-Id: I927345e52fa2f1741d4914478a29d1fb8acb0dc3 Reviewed-on: https://go-review.googlesource.com/c/go/+/288806 Trust: Russ Cox <rsc@golang.org> Trust: Jason A. Donenfeld <Jason@zx2c4.com> Reviewed-by: Jason A. Donenfeld <Jason@zx2c4.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
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@ -1132,21 +1132,21 @@ func profilem(mp *m, thread uintptr) {
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c.contextflags = _CONTEXT_CONTROL
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stdcall2(_GetThreadContext, thread, uintptr(unsafe.Pointer(c)))
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gp := gFromTLS(mp)
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gp := gFromSP(mp, c.sp())
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sigprof(c.ip(), c.sp(), c.lr(), gp, mp)
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}
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func gFromTLS(mp *m) *g {
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switch GOARCH {
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case "arm":
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tls := &mp.tls[0]
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return **((***g)(unsafe.Pointer(tls)))
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case "386", "amd64":
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tls := &mp.tls[0]
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return *((**g)(unsafe.Pointer(tls)))
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func gFromSP(mp *m, sp uintptr) *g {
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if gp := mp.g0; gp != nil && gp.stack.lo < sp && sp < gp.stack.hi {
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return gp
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}
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if gp := mp.gsignal; gp != nil && gp.stack.lo < sp && sp < gp.stack.hi {
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return gp
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}
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if gp := mp.curg; gp != nil && gp.stack.lo < sp && sp < gp.stack.hi {
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return gp
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}
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throw("unsupported architecture")
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return nil
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}
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@ -1295,7 +1295,7 @@ func preemptM(mp *m) {
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unlock(&suspendLock)
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// Does it want a preemption and is it safe to preempt?
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gp := gFromTLS(mp)
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gp := gFromSP(mp, c.sp())
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if wantAsyncPreempt(gp) {
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if ok, newpc := isAsyncSafePoint(gp, c.ip(), c.sp(), c.lr()); ok {
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// Inject call to asyncPreempt
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@ -350,9 +350,6 @@ TEXT runtime·tstart_stdcall(SB),NOSPLIT|NOFRAME,$0
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MOVW R0, g_m(g)
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BL runtime·save_g(SB)
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// do per-thread TLS initialization
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BL init_thread_tls<>(SB)
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// Layout new m scheduler stack on os stack.
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MOVW R13, R0
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MOVW R0, g_stack+stack_hi(g)
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@ -581,39 +578,8 @@ TEXT runtime·_initcgo(SB),NOSPLIT|NOFRAME,$0
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MOVW $runtime·tls_g(SB), R1
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MOVW R0, (R1)
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BL init_thread_tls<>(SB)
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MOVW R4, R13
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MOVM.IA.W (R13), [R4, R15] // pop {r4, pc}
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// void init_thread_tls()
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//
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// Does per-thread TLS initialization. Saves a pointer to the TLS slot
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// holding G, in the current m.
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//
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// g->m->tls[0] = &_TEB->TlsSlots[tls_g]
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//
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// The purpose of this is to enable the profiling handler to get the
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// current g associated with the thread. We cannot use m->curg because curg
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// only holds the current user g. If the thread is executing system code or
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// external code, m->curg will be NULL. The thread's TLS slot always holds
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// the current g, so save a reference to this location so the profiling
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// handler can get the real g from the thread's m.
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//
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// Clobbers R0-R3
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TEXT init_thread_tls<>(SB),NOSPLIT|NOFRAME,$0
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// compute &_TEB->TlsSlots[tls_g]
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MRC 15, 0, R0, C13, C0, 2
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ADD $0xe10, R0
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MOVW $runtime·tls_g(SB), R1
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MOVW (R1), R1
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MOVW R1<<2, R1
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ADD R1, R0
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// save in g->m->tls[0]
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MOVW g_m(g), R1
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MOVW R0, m_tls(R1)
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RET
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// Holds the TLS Slot, which was allocated by TlsAlloc()
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GLOBL runtime·tls_g+0(SB), NOPTR, $4
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