libgo/runtime/stack.c - gcc - Git at Google

 // Copyright 2009 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.

 // Stack scanning code for the garbage collector.

 #include "runtime.h"

 #ifdef USING_SPLIT_STACK

 extern void * __splitstack_find (void *, void *, size_t *, void **, void **,
 				 void **);

 extern void * __splitstack_find_context (void *context[10], size_t *, void **,
 					 void **, void **);

 #endif

 bool runtime_usestackmaps;

 // Calling unwind_init in doscanstack only works if it does not do a
 // tail call to doscanstack1.
 #pragma GCC optimize ("-fno-optimize-sibling-calls")

 extern void scanstackblock(uintptr addr, uintptr size, void *gcw)
   __asm__(GOSYM_PREFIX "runtime.scanstackblock");

 static bool doscanstack1(G*, void*)
   __attribute__ ((noinline));

 // Scan gp's stack, passing stack chunks to scanstackblock.
 bool doscanstack(G *gp, void* gcw) {
 	// Save registers on the stack, so that if we are scanning our
 	// own stack we will see them.
 	if (!runtime_usestackmaps) {
 		__builtin_unwind_init();
 		flush_registers_to_secondary_stack();
 	}

 	return doscanstack1(gp, gcw);
 }

 // Scan gp's stack after saving registers.
 static bool doscanstack1(G *gp, void *gcw) {
 #ifdef USING_SPLIT_STACK
 	void* sp;
 	size_t spsize;
 	void* next_segment;
 	void* next_sp;
 	void* initial_sp;
 	G* _g_;

 	_g_ = runtime_g();
 	if (runtime_usestackmaps) {
 		// If stack map is enabled, we get here only when we can unwind
 		// the stack being scanned. That is, either we are scanning our
 		// own stack, or we are scanning through a signal handler.
 		__go_assert((_g_ == gp) || ((_g_ == gp->m->gsignal) && (gp == gp->m->curg)));
 		return scanstackwithmap(gcw);
 	}
 	if (_g_ == gp) {
 		// Scanning our own stack.
 		// If we are on a signal stack, it can unwind through the signal
 		// handler and see the g stack, so just scan our own stack.
 		sp = __splitstack_find(nil, nil, &spsize, &next_segment,
 				       &next_sp, &initial_sp);
 	} else {
 		// Scanning another goroutine's stack.
 		// The goroutine is usually asleep (the world is stopped).

 		// The exception is that if the goroutine is about to enter or might
 		// have just exited a system call, it may be executing code such
 		// as schedlock and may have needed to start a new stack segment.
 		// Use the stack segment and stack pointer at the time of
 		// the system call instead, since that won't change underfoot.
 		if(gp->gcstack != 0) {
 			sp = (void*)(gp->gcstack);
 			spsize = gp->gcstacksize;
 			next_segment = (void*)(gp->gcnextsegment);
 			next_sp = (void*)(gp->gcnextsp);
 			initial_sp = (void*)(gp->gcinitialsp);
 		} else {
 			sp = __splitstack_find_context((void**)(&gp->stackcontext[0]),
 						       &spsize, &next_segment,
 						       &next_sp, &initial_sp);
 		}
 	}
 	if(sp != nil) {
 		scanstackblock((uintptr)(sp), (uintptr)(spsize), gcw);
 		while((sp = __splitstack_find(next_segment, next_sp,
 					      &spsize, &next_segment,
 					      &next_sp, &initial_sp)) != nil)
 			scanstackblock((uintptr)(sp), (uintptr)(spsize), gcw);
 	}
 #else
 	byte* bottom;
 	byte* top;
 	byte* nextsp2;
 	byte* initialsp2;

 	if(gp == runtime_g()) {
 		// Scanning our own stack.
 		bottom = (byte*)&gp;
 		nextsp2 = secondary_stack_pointer();
 	} else {
 		// Scanning another goroutine's stack.
 		// The goroutine is usually asleep (the world is stopped).
 		bottom = (void*)gp->gcnextsp;
 		if(bottom == nil)
 			return true;
 		nextsp2 = (void*)gp->gcnextsp2;
 	}
 	top = (byte*)(void*)(gp->gcinitialsp) + gp->gcstacksize;
 	if(top > bottom)
 		scanstackblock((uintptr)(bottom), (uintptr)(top - bottom), gcw);
 	else
 		scanstackblock((uintptr)(top), (uintptr)(bottom - top), gcw);
 	if (nextsp2 != nil) {
 		initialsp2 = (byte*)(void*)(gp->gcinitialsp2);
 		if(initialsp2 > nextsp2)
 			scanstackblock((uintptr)(nextsp2), (uintptr)(initialsp2 - nextsp2), gcw);
 		else
 			scanstackblock((uintptr)(initialsp2), (uintptr)(nextsp2 - initialsp2), gcw);
 	}
 #endif
 	return true;
 }

 extern bool onCurrentStack(uintptr p)
   __asm__(GOSYM_PREFIX "runtime.onCurrentStack");

 bool onCurrentStack(uintptr p)
 {
 #ifdef USING_SPLIT_STACK

 	void* sp;
 	size_t spsize;
 	void* next_segment;
 	void* next_sp;
 	void* initial_sp;

 	sp = __splitstack_find(nil, nil, &spsize, &next_segment, &next_sp,
 			       &initial_sp);
 	while (sp != nil) {
 		if (p >= (uintptr)(sp) && p < (uintptr)(sp) + spsize) {
 			return true;
 		}
 		sp = __splitstack_find(next_segment, next_sp, &spsize,
 				       &next_segment, &next_sp, &initial_sp);
 	}
 	return false;

 #else

 	G* gp;
 	byte* bottom;
 	byte* top;
 	byte* temp;
 	byte* nextsp2;
 	byte* initialsp2;

 	gp = runtime_g();
 	bottom = (byte*)(&p);
 	top = (byte*)(void*)(gp->gcinitialsp) + gp->gcstacksize;
 	if ((uintptr)(top) < (uintptr)(bottom)) {
 		temp = top;
 		top = bottom;
 		bottom = temp;
 	}
 	if (p >= (uintptr)(bottom) && p < (uintptr)(top)) {
 		return true;
 	}

 	nextsp2 = secondary_stack_pointer();
 	if (nextsp2 != nil) {
 		initialsp2 = (byte*)(void*)(gp->gcinitialsp2);
 		if ((uintptr)(initialsp2) < (uintptr)(nextsp2)) {
 			temp = initialsp2;
 			initialsp2 = nextsp2;
 			nextsp2 = temp;
 		}
 		if (p >= (uintptr)(nextsp2) && p < (uintptr)(initialsp2)) {
 			return true;
 		}
 	}

 	return false;

 #endif
 }
	// Copyright 2009 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.

	// Stack scanning code for the garbage collector.

	#include "runtime.h"

	#ifdef USING_SPLIT_STACK

	extern void * __splitstack_find (void , void , size_t , void , void *,
	void **);

	extern void * __splitstack_find_context (void context[10], size_t , void **,
	void , void );

	#endif

	bool runtime_usestackmaps;

	// Calling unwind_init in doscanstack only works if it does not do a
	// tail call to doscanstack1.
	#pragma GCC optimize ("-fno-optimize-sibling-calls")

	extern void scanstackblock(uintptr addr, uintptr size, void *gcw)
	__asm__(GOSYM_PREFIX "runtime.scanstackblock");

	static bool doscanstack1(G, void)
	__attribute__ ((noinline));

	// Scan gp's stack, passing stack chunks to scanstackblock.
	bool doscanstack(G gp, void gcw) {
	// Save registers on the stack, so that if we are scanning our
	// own stack we will see them.
	if (!runtime_usestackmaps) {
	__builtin_unwind_init();
	flush_registers_to_secondary_stack();
	}

	return doscanstack1(gp, gcw);
	}

	// Scan gp's stack after saving registers.
	static bool doscanstack1(G gp, void gcw) {
	#ifdef USING_SPLIT_STACK
	void* sp;
	size_t spsize;
	void* next_segment;
	void* next_sp;
	void* initial_sp;
	G* _g_;

	_g_ = runtime_g();
	if (runtime_usestackmaps) {
	// If stack map is enabled, we get here only when we can unwind
	// the stack being scanned. That is, either we are scanning our
	// own stack, or we are scanning through a signal handler.
	__go_assert((_g_ == gp) \|\| ((_g_ == gp->m->gsignal) && (gp == gp->m->curg)));
	return scanstackwithmap(gcw);
	}
	if (_g_ == gp) {
	// Scanning our own stack.
	// If we are on a signal stack, it can unwind through the signal
	// handler and see the g stack, so just scan our own stack.
	sp = __splitstack_find(nil, nil, &spsize, &next_segment,
	&next_sp, &initial_sp);
	} else {
	// Scanning another goroutine's stack.
	// The goroutine is usually asleep (the world is stopped).

	// The exception is that if the goroutine is about to enter or might
	// have just exited a system call, it may be executing code such
	// as schedlock and may have needed to start a new stack segment.
	// Use the stack segment and stack pointer at the time of
	// the system call instead, since that won't change underfoot.
	if(gp->gcstack != 0) {
	sp = (void*)(gp->gcstack);
	spsize = gp->gcstacksize;
	next_segment = (void*)(gp->gcnextsegment);
	next_sp = (void*)(gp->gcnextsp);
	initial_sp = (void*)(gp->gcinitialsp);
	} else {
	sp = __splitstack_find_context((void**)(&gp->stackcontext[0]),
	&spsize, &next_segment,
	&next_sp, &initial_sp);
	}
	}
	if(sp != nil) {
	scanstackblock((uintptr)(sp), (uintptr)(spsize), gcw);
	while((sp = __splitstack_find(next_segment, next_sp,
	&spsize, &next_segment,
	&next_sp, &initial_sp)) != nil)
	scanstackblock((uintptr)(sp), (uintptr)(spsize), gcw);
	}
	#else
	byte* bottom;
	byte* top;
	byte* nextsp2;
	byte* initialsp2;

	if(gp == runtime_g()) {
	// Scanning our own stack.
	bottom = (byte*)&gp;
	nextsp2 = secondary_stack_pointer();
	} else {
	// Scanning another goroutine's stack.
	// The goroutine is usually asleep (the world is stopped).
	bottom = (void*)gp->gcnextsp;
	if(bottom == nil)
	return true;
	nextsp2 = (void*)gp->gcnextsp2;
	}
	top = (byte)(void)(gp->gcinitialsp) + gp->gcstacksize;
	if(top > bottom)
	scanstackblock((uintptr)(bottom), (uintptr)(top - bottom), gcw);
	else
	scanstackblock((uintptr)(top), (uintptr)(bottom - top), gcw);
	if (nextsp2 != nil) {
	initialsp2 = (byte)(void)(gp->gcinitialsp2);
	if(initialsp2 > nextsp2)
	scanstackblock((uintptr)(nextsp2), (uintptr)(initialsp2 - nextsp2), gcw);
	else
	scanstackblock((uintptr)(initialsp2), (uintptr)(nextsp2 - initialsp2), gcw);
	}
	#endif
	return true;
	}

	extern bool onCurrentStack(uintptr p)
	__asm__(GOSYM_PREFIX "runtime.onCurrentStack");

	bool onCurrentStack(uintptr p)
	{
	#ifdef USING_SPLIT_STACK

	void* sp;
	size_t spsize;
	void* next_segment;
	void* next_sp;
	void* initial_sp;

	sp = __splitstack_find(nil, nil, &spsize, &next_segment, &next_sp,
	&initial_sp);
	while (sp != nil) {
	if (p >= (uintptr)(sp) && p < (uintptr)(sp) + spsize) {
	return true;
	}
	sp = __splitstack_find(next_segment, next_sp, &spsize,
	&next_segment, &next_sp, &initial_sp);
	}
	return false;

	#else

	G* gp;
	byte* bottom;
	byte* top;
	byte* temp;
	byte* nextsp2;
	byte* initialsp2;

	gp = runtime_g();
	bottom = (byte*)(&p);
	top = (byte)(void)(gp->gcinitialsp) + gp->gcstacksize;
	if ((uintptr)(top) < (uintptr)(bottom)) {
	temp = top;
	top = bottom;
	bottom = temp;
	}
	if (p >= (uintptr)(bottom) && p < (uintptr)(top)) {
	return true;
	}

	nextsp2 = secondary_stack_pointer();
	if (nextsp2 != nil) {
	initialsp2 = (byte)(void)(gp->gcinitialsp2);
	if ((uintptr)(initialsp2) < (uintptr)(nextsp2)) {
	temp = initialsp2;
	initialsp2 = nextsp2;
	nextsp2 = temp;
	}
	if (p >= (uintptr)(nextsp2) && p < (uintptr)(initialsp2)) {
	return true;
	}
	}

	return false;

	#endif
	}