dist/sljit_src/sljitUtils.c

1.1  alnsn /*
1.1  alnsn  *    Stack-less Just-In-Time compiler
1.1  alnsn  *
1.1  alnsn  *    Copyright 2009-2012 Zoltan Herczeg (hzmester (at) freemail.hu). All rights reserved.
1.1  alnsn  *
1.1  alnsn  * Redistribution and use in source and binary forms, with or without modification, are
1.1  alnsn  * permitted provided that the following conditions are met:
1.1  alnsn  *
1.1  alnsn  *   1. Redistributions of source code must retain the above copyright notice, this list of
1.1  alnsn  *      conditions and the following disclaimer.
1.1  alnsn  *
1.1  alnsn  *   2. Redistributions in binary form must reproduce the above copyright notice, this list
1.1  alnsn  *      of conditions and the following disclaimer in the documentation and/or other materials
1.1  alnsn  *      provided with the distribution.
1.1  alnsn  *
1.1  alnsn  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER(S) AND CONTRIBUTORS ``AS IS'' AND ANY
1.1  alnsn  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  alnsn  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
1.1  alnsn  * SHALL THE COPYRIGHT HOLDER(S) OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  alnsn  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
1.1  alnsn  * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
1.1  alnsn  * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  alnsn  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
1.1  alnsn  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  alnsn  */
1.1  alnsn
1.1  alnsn /* ------------------------------------------------------------------------ */
1.1  alnsn /*  Locks                                                                   */
1.1  alnsn /* ------------------------------------------------------------------------ */
1.1  alnsn
1.1  alnsn #if (defined SLJIT_EXECUTABLE_ALLOCATOR && SLJIT_EXECUTABLE_ALLOCATOR) || (defined SLJIT_UTIL_GLOBAL_LOCK && SLJIT_UTIL_GLOBAL_LOCK)
1.1  alnsn
1.1  alnsn #if (defined SLJIT_SINGLE_THREADED && SLJIT_SINGLE_THREADED)
1.1  alnsn
1.1  alnsn #if (defined SLJIT_EXECUTABLE_ALLOCATOR && SLJIT_EXECUTABLE_ALLOCATOR)
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	/* Always successful. */
1.1  alnsn }
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_release_lock(void)
1.1  alnsn {
1.1  alnsn 	/* Always successful. */
1.1  alnsn }
1.1  alnsn
1.1  alnsn #endif /* SLJIT_EXECUTABLE_ALLOCATOR */
1.1  alnsn
1.1  alnsn #if (defined SLJIT_UTIL_GLOBAL_LOCK && SLJIT_UTIL_GLOBAL_LOCK)
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	/* Always successful. */
1.1  alnsn }
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_release_lock(void)
1.1  alnsn {
1.1  alnsn 	/* Always successful. */
1.1  alnsn }
1.1  alnsn
1.1  alnsn #endif /* SLJIT_UTIL_GLOBAL_LOCK */
1.1  alnsn
1.1  alnsn #elif defined(_WIN32) /* SLJIT_SINGLE_THREADED */
1.1  alnsn
1.1  alnsn #include "windows.h"
1.1  alnsn
1.1  alnsn #if (defined SLJIT_EXECUTABLE_ALLOCATOR && SLJIT_EXECUTABLE_ALLOCATOR)
1.1  alnsn
1.1  alnsn static HANDLE allocator_mutex = 0;
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	/* No idea what to do if an error occures. Static mutexes should never fail... */
1.1  alnsn 	if (!allocator_mutex)
1.1  alnsn 		allocator_mutex = CreateMutex(NULL, TRUE, NULL);
1.1  alnsn 	else
1.1  alnsn 		WaitForSingleObject(allocator_mutex, INFINITE);
1.1  alnsn }
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_release_lock(void)
1.1  alnsn {
1.1  alnsn 	ReleaseMutex(allocator_mutex);
1.1  alnsn }
1.1  alnsn
1.1  alnsn #endif /* SLJIT_EXECUTABLE_ALLOCATOR */
1.1  alnsn
1.1  alnsn #if (defined SLJIT_UTIL_GLOBAL_LOCK && SLJIT_UTIL_GLOBAL_LOCK)
1.1  alnsn
1.1  alnsn static HANDLE global_mutex = 0;
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	/* No idea what to do if an error occures. Static mutexes should never fail... */
1.1  alnsn 	if (!global_mutex)
1.1  alnsn 		global_mutex = CreateMutex(NULL, TRUE, NULL);
1.1  alnsn 	else
1.1  alnsn 		WaitForSingleObject(global_mutex, INFINITE);
1.1  alnsn }
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_release_lock(void)
1.1  alnsn {
1.1  alnsn 	ReleaseMutex(global_mutex);
1.1  alnsn }
1.1  alnsn
1.1  alnsn #endif /* SLJIT_UTIL_GLOBAL_LOCK */
1.1  alnsn
1.1  alnsn #else /* _WIN32 */
1.1  alnsn
1.2  alnsn #if (defined SLJIT_EXECUTABLE_ALLOCATOR && SLJIT_EXECUTABLE_ALLOCATOR)
1.2  alnsn
1.3  alnsn #ifdef _KERNEL
1.3  alnsn
1.3  alnsn #include <sys/mutex.h>
1.3  alnsn
1.3  alnsn /* Defined in sljit_mod.c */
1.3  alnsn extern kmutex_t sljit_allocator_mutex;
1.3  alnsn
1.3  alnsn static SLJIT_INLINE void allocator_grab_lock(void)
1.3  alnsn {
1.3  alnsn 	mutex_enter(&sljit_allocator_mutex);
1.3  alnsn }
1.3  alnsn
1.3  alnsn static SLJIT_INLINE void allocator_release_lock(void)
1.3  alnsn {
1.3  alnsn 	mutex_exit(&sljit_allocator_mutex);
1.3  alnsn }
1.3  alnsn #else
1.3  alnsn
1.1  alnsn #include <pthread.h>
1.1  alnsn
1.1  alnsn static pthread_mutex_t allocator_mutex = PTHREAD_MUTEX_INITIALIZER;
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	pthread_mutex_lock(&allocator_mutex);
1.1  alnsn }
1.1  alnsn
1.1  alnsn static SLJIT_INLINE void allocator_release_lock(void)
1.1  alnsn {
1.1  alnsn 	pthread_mutex_unlock(&allocator_mutex);
1.1  alnsn }
1.3  alnsn #endif
1.1  alnsn
1.1  alnsn #endif /* SLJIT_EXECUTABLE_ALLOCATOR */
1.1  alnsn
1.1  alnsn #if (defined SLJIT_UTIL_GLOBAL_LOCK && SLJIT_UTIL_GLOBAL_LOCK)
1.1  alnsn
1.3  alnsn #ifdef _KERNEL
1.3  alnsn
1.3  alnsn #include <sys/mutex.h>
1.3  alnsn
1.3  alnsn /* Defined in sljit_mod.c */
1.3  alnsn extern kmutex_t sljit_global_mutex;
1.3  alnsn
1.3  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_grab_lock(void)
1.3  alnsn {
1.3  alnsn 	mutex_enter(&sljit_global_mutex);
1.3  alnsn }
1.3  alnsn
1.3  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_release_lock(void)
1.3  alnsn {
1.3  alnsn 	mutex_exit(&sljit_global_mutex);
1.3  alnsn }
1.3  alnsn #else
1.3  alnsn
1.2  alnsn #include <pthread.h>
1.2  alnsn
1.1  alnsn static pthread_mutex_t global_mutex = PTHREAD_MUTEX_INITIALIZER;
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_grab_lock(void)
1.1  alnsn {
1.1  alnsn 	pthread_mutex_lock(&global_mutex);
1.1  alnsn }
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_release_lock(void)
1.1  alnsn {
1.1  alnsn 	pthread_mutex_unlock(&global_mutex);
1.1  alnsn }
1.3  alnsn #endif
1.1  alnsn
1.1  alnsn #endif /* SLJIT_UTIL_GLOBAL_LOCK */
1.1  alnsn
1.1  alnsn #endif /* _WIN32 */
1.1  alnsn
1.1  alnsn /* ------------------------------------------------------------------------ */
1.1  alnsn /*  Stack                                                                   */
1.1  alnsn /* ------------------------------------------------------------------------ */
1.1  alnsn
1.1  alnsn #if (defined SLJIT_UTIL_STACK && SLJIT_UTIL_STACK)
1.1  alnsn
1.2  alnsn #ifdef _KERNEL
1.2  alnsn #include <sys/param.h>
1.2  alnsn #include <uvm/uvm.h>
1.2  alnsn #elif defined(_WIN32)
1.1  alnsn #include "windows.h"
1.1  alnsn #else
1.1  alnsn #include <sys/mman.h>
1.1  alnsn #include <unistd.h>
1.1  alnsn #endif
1.1  alnsn
1.1  alnsn /* Planning to make it even more clever in the future. */
1.1  alnsn static sljit_w sljit_page_align = 0;
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE struct sljit_stack* SLJIT_CALL sljit_allocate_stack(sljit_uw limit, sljit_uw max_limit)
1.1  alnsn {
1.1  alnsn 	struct sljit_stack *stack;
1.1  alnsn 	union {
1.1  alnsn 		void *ptr;
1.1  alnsn 		sljit_uw uw;
1.1  alnsn 	} base;
1.1  alnsn #ifdef _WIN32
1.1  alnsn 	SYSTEM_INFO si;
1.1  alnsn #endif
1.2  alnsn #ifdef _KERNEL
1.2  alnsn 	vaddr_t v;
1.2  alnsn #endif
1.1  alnsn
1.1  alnsn 	if (limit > max_limit || limit < 1)
1.1  alnsn 		return NULL;
1.1  alnsn
1.1  alnsn #ifdef _WIN32
1.1  alnsn 	if (!sljit_page_align) {
1.1  alnsn 		GetSystemInfo(&si);
1.1  alnsn 		sljit_page_align = si.dwPageSize - 1;
1.1  alnsn 	}
1.1  alnsn #else
1.1  alnsn 	if (!sljit_page_align) {
1.2  alnsn #ifdef _KERNEL
1.2  alnsn 		sljit_page_align = PAGE_SIZE;
1.2  alnsn #else
1.1  alnsn 		sljit_page_align = sysconf(_SC_PAGESIZE);
1.2  alnsn #endif
1.1  alnsn 		/* Should never happen. */
1.1  alnsn 		if (sljit_page_align < 0)
1.1  alnsn 			sljit_page_align = 4096;
1.1  alnsn 		sljit_page_align--;
1.1  alnsn 	}
1.1  alnsn #endif
1.1  alnsn
1.1  alnsn 	/* Align limit and max_limit. */
1.1  alnsn 	max_limit = (max_limit + sljit_page_align) & ~sljit_page_align;
1.1  alnsn
1.1  alnsn 	stack = (struct sljit_stack*)SLJIT_MALLOC(sizeof(struct sljit_stack));
1.1  alnsn 	if (!stack)
1.1  alnsn 		return NULL;
1.1  alnsn
1.2  alnsn #ifdef _KERNEL
1.2  alnsn 	v = uvm_km_alloc(kernel_map, max_limit, PAGE_SIZE, UVM_KMF_WIRED|UVM_KMF_ZERO);
1.2  alnsn 	base.ptr = (void *)v;
1.2  alnsn 	if (base.ptr == NULL) {
1.2  alnsn 		SLJIT_FREE(stack);
1.2  alnsn 		return NULL;
1.2  alnsn 	}
1.2  alnsn 	stack->base = base.uw;
1.2  alnsn 	stack->limit = stack->base + limit;
1.2  alnsn 	stack->max_limit = stack->base + max_limit;
1.2  alnsn #elif defined(_WIN32)
1.1  alnsn 	base.ptr = VirtualAlloc(0, max_limit, MEM_RESERVE, PAGE_READWRITE);
1.1  alnsn 	if (!base.ptr) {
1.1  alnsn 		SLJIT_FREE(stack);
1.1  alnsn 		return NULL;
1.1  alnsn 	}
1.1  alnsn 	stack->base = base.uw;
1.1  alnsn 	stack->limit = stack->base;
1.1  alnsn 	stack->max_limit = stack->base + max_limit;
1.1  alnsn 	if (sljit_stack_resize(stack, stack->base + limit)) {
1.1  alnsn 		sljit_free_stack(stack);
1.1  alnsn 		return NULL;
1.1  alnsn 	}
1.1  alnsn #else
1.1  alnsn 	base.ptr = mmap(0, max_limit, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0);
1.1  alnsn 	if (base.ptr == MAP_FAILED) {
1.1  alnsn 		SLJIT_FREE(stack);
1.1  alnsn 		return NULL;
1.1  alnsn 	}
1.1  alnsn 	stack->base = base.uw;
1.1  alnsn 	stack->limit = stack->base + limit;
1.1  alnsn 	stack->max_limit = stack->base + max_limit;
1.1  alnsn #endif
1.1  alnsn 	stack->top = stack->base;
1.1  alnsn 	return stack;
1.1  alnsn }
1.1  alnsn
1.1  alnsn #undef PAGE_ALIGN
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE void SLJIT_CALL sljit_free_stack(struct sljit_stack* stack)
1.1  alnsn {
1.2  alnsn #ifdef _KERNEL
1.2  alnsn 	uvm_km_free(kernel_map, (vaddr_t)stack->base,
1.2  alnsn 	    stack->max_limit - stack->base, UVM_KMF_WIRED);
1.2  alnsn #elif defined(_WIN32)
1.1  alnsn 	VirtualFree((void*)stack->base, 0, MEM_RELEASE);
1.1  alnsn #else
1.1  alnsn 	munmap((void*)stack->base, stack->max_limit - stack->base);
1.1  alnsn #endif
1.1  alnsn 	SLJIT_FREE(stack);
1.1  alnsn }
1.1  alnsn
1.1  alnsn SLJIT_API_FUNC_ATTRIBUTE sljit_w SLJIT_CALL sljit_stack_resize(struct sljit_stack* stack, sljit_uw new_limit)
1.1  alnsn {
1.1  alnsn 	sljit_uw aligned_old_limit;
1.1  alnsn 	sljit_uw aligned_new_limit;
1.1  alnsn
1.1  alnsn 	if ((new_limit > stack->max_limit) || (new_limit < stack->base))
1.1  alnsn 		return -1;
1.1  alnsn #ifdef _WIN32
1.1  alnsn 	aligned_new_limit = (new_limit + sljit_page_align) & ~sljit_page_align;
1.1  alnsn 	aligned_old_limit = (stack->limit + sljit_page_align) & ~sljit_page_align;
1.1  alnsn 	if (aligned_new_limit != aligned_old_limit) {
1.1  alnsn 		if (aligned_new_limit > aligned_old_limit) {
1.1  alnsn 			if (!VirtualAlloc((void*)aligned_old_limit, aligned_new_limit - aligned_old_limit, MEM_COMMIT, PAGE_READWRITE))
1.1  alnsn 				return -1;
1.1  alnsn 		}
1.1  alnsn 		else {
1.1  alnsn 			if (!VirtualFree((void*)aligned_new_limit, aligned_old_limit - aligned_new_limit, MEM_DECOMMIT))
1.1  alnsn 				return -1;
1.1  alnsn 		}
1.1  alnsn 	}
1.1  alnsn 	stack->limit = new_limit;
1.1  alnsn 	return 0;
1.1  alnsn #else
1.1  alnsn 	if (new_limit >= stack->limit) {
1.1  alnsn 		stack->limit = new_limit;
1.1  alnsn 		return 0;
1.1  alnsn 	}
1.1  alnsn 	aligned_new_limit = (new_limit + sljit_page_align) & ~sljit_page_align;
1.1  alnsn 	aligned_old_limit = (stack->limit + sljit_page_align) & ~sljit_page_align;
1.1  alnsn 	/* If madvise is available, we release the unnecessary space. */
1.1  alnsn #if defined(POSIX_MADV_DONTNEED)
1.1  alnsn 	if (aligned_new_limit < aligned_old_limit)
1.1  alnsn 		posix_madvise((void*)aligned_new_limit, aligned_old_limit - aligned_new_limit, POSIX_MADV_DONTNEED);
1.1  alnsn #elif defined(MADV_DONTNEED)
1.1  alnsn 	if (aligned_new_limit < aligned_old_limit)
1.1  alnsn 		madvise((void*)aligned_new_limit, aligned_old_limit - aligned_new_limit, MADV_DONTNEED);
1.1  alnsn #endif
1.1  alnsn 	stack->limit = new_limit;
1.1  alnsn 	return 0;
1.1  alnsn #endif
1.1  alnsn }
1.1  alnsn
1.1  alnsn #endif /* SLJIT_UTIL_STACK */
1.1  alnsn
1.1  alnsn #endif