third_party/gofrontend/libgo/runtime/lfstack.goc - llvm-project/llgo - Git at Google

 // Copyright 2012 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.

 // Lock-free stack.

 package runtime
 #include "runtime.h"
 #include "arch.h"

 #if __SIZEOF_POINTER__ == 8
 // SPARC64 and Solaris on AMD64 uses all 64 bits of virtual addresses.
 // Use low-order three bits as ABA counter.
 // http://docs.oracle.com/cd/E19120-01/open.solaris/816-5138/6mba6ua5p/index.html
 # if defined(__sparc__) || (defined(__sun__) && defined(__amd64__))
 static inline uint64 lfPack(LFNode *node, uintptr cnt) {
 	return ((uint64)(node)) | ((cnt)&7);
 }
 static inline LFNode* lfUnpack(uint64 val) {
 	return (LFNode*)(val&~7);
 }
 # else
 #  if defined(__aarch64__)
 // Depending on the kernel options, pointers on arm64 can have up to 48 significant
 // bits (see https://www.kernel.org/doc/Documentation/arm64/memory.txt).
 #   define PTR_BITS 48
 #  else
 // Amd64 uses 48-bit virtual addresses, 47-th bit is used as kernel/user flag.
 // So we use 17msb of pointers as ABA counter.
 #   define PTR_BITS 47
 #  endif
 # define CNT_BITS (64 - PTR_BITS + 3)
 static inline uint64 lfPack(LFNode *node, uintptr cnt) {
 	return ((uint64)(node)<<(64-PTR_BITS)) | (cnt&(((1<<CNT_BITS)-1)));
 }
 static inline LFNode* lfUnpack(uint64 val) {
 	return (LFNode*)((val >> CNT_BITS) << 3);
 }
 # endif
 #else
 static inline uint64 lfPack(LFNode *node, uintptr cnt) {
 	return ((uint64)(uintptr)(node)<<32) | cnt;
 }
 static inline LFNode* lfUnpack(uint64 val) {
 	return (LFNode*)(uintptr)(val >> 32);
 }
 #endif

 void
 runtime_lfstackpush(uint64 *head, LFNode *node)
 {
 	uint64 old, new;

 	if(node != lfUnpack(lfPack(node, 0))) {
 		runtime_printf("p=%p\n", node);
 		runtime_throw("runtime_lfstackpush: invalid pointer");
 	}

 	node->pushcnt++;
 	new = lfPack(node, node->pushcnt);
 	for(;;) {
 		old = runtime_atomicload64(head);
 		node->next = lfUnpack(old);
 		if(runtime_cas64(head, old, new))
 			break;
 	}
 }

 LFNode*
 runtime_lfstackpop(uint64 *head)
 {
 	LFNode *node, *node2;
 	uint64 old, new;

 	for(;;) {
 		old = runtime_atomicload64(head);
 		if(old == 0)
 			return nil;
 		node = lfUnpack(old);
 		node2 = runtime_atomicloadp(&node->next);
 		new = 0;
 		if(node2 != nil)
 			new = lfPack(node2, node2->pushcnt);
 		if(runtime_cas64(head, old, new))
 			return node;
 	}
 }

 func lfstackpush_go(head *uint64, node *LFNode) {
 	runtime_lfstackpush(head, node);
 }

 func lfstackpop_go(head *uint64) (node *LFNode) {
 	node = runtime_lfstackpop(head);
 }
	// Copyright 2012 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.

	// Lock-free stack.

	package runtime
	#include "runtime.h"
	#include "arch.h"

	#if __SIZEOF_POINTER__ == 8
	// SPARC64 and Solaris on AMD64 uses all 64 bits of virtual addresses.
	// Use low-order three bits as ABA counter.
	// http://docs.oracle.com/cd/E19120-01/open.solaris/816-5138/6mba6ua5p/index.html
	# if defined(__sparc__) \|\| (defined(__sun__) && defined(__amd64__))
	static inline uint64 lfPack(LFNode *node, uintptr cnt) {
	return ((uint64)(node)) \| ((cnt)&7);
	}
	static inline LFNode* lfUnpack(uint64 val) {
	return (LFNode*)(val&~7);
	}
	# else
	# if defined(__aarch64__)
	// Depending on the kernel options, pointers on arm64 can have up to 48 significant
	// bits (see https://www.kernel.org/doc/Documentation/arm64/memory.txt).
	# define PTR_BITS 48
	# else
	// Amd64 uses 48-bit virtual addresses, 47-th bit is used as kernel/user flag.
	// So we use 17msb of pointers as ABA counter.
	# define PTR_BITS 47
	# endif
	# define CNT_BITS (64 - PTR_BITS + 3)
	static inline uint64 lfPack(LFNode *node, uintptr cnt) {
	return ((uint64)(node)<<(64-PTR_BITS)) \| (cnt&(((1<<CNT_BITS)-1)));
	}
	static inline LFNode* lfUnpack(uint64 val) {
	return (LFNode*)((val >> CNT_BITS) << 3);
	}
	# endif
	#else
	static inline uint64 lfPack(LFNode *node, uintptr cnt) {
	return ((uint64)(uintptr)(node)<<32) \| cnt;
	}
	static inline LFNode* lfUnpack(uint64 val) {
	return (LFNode*)(uintptr)(val >> 32);
	}
	#endif

	void
	runtime_lfstackpush(uint64 head, LFNode node)
	{
	uint64 old, new;

	if(node != lfUnpack(lfPack(node, 0))) {
	runtime_printf("p=%p\n", node);
	runtime_throw("runtime_lfstackpush: invalid pointer");
	}

	node->pushcnt++;
	new = lfPack(node, node->pushcnt);
	for(;;) {
	old = runtime_atomicload64(head);
	node->next = lfUnpack(old);
	if(runtime_cas64(head, old, new))
	break;
	}
	}

	LFNode*
	runtime_lfstackpop(uint64 *head)
	{
	LFNode node, node2;
	uint64 old, new;

	for(;;) {
	old = runtime_atomicload64(head);
	if(old == 0)
	return nil;
	node = lfUnpack(old);
	node2 = runtime_atomicloadp(&node->next);
	new = 0;
	if(node2 != nil)
	new = lfPack(node2, node2->pushcnt);
	if(runtime_cas64(head, old, new))
	return node;
	}
	}

	func lfstackpush_go(head uint64, node LFNode) {
	runtime_lfstackpush(head, node);
	}

	func lfstackpop_go(head uint64) (node LFNode) {
	node = runtime_lfstackpop(head);
	}