Annotation of embedaddon/pcre/sljit/sljitExecAllocator.c, revision 1.1.1.1
1.1 misho 1: /*
2: * Stack-less Just-In-Time compiler
3: *
4: * Copyright 2009-2010 Zoltan Herczeg (hzmester@freemail.hu). All rights reserved.
5: *
6: * Redistribution and use in source and binary forms, with or without modification, are
7: * permitted provided that the following conditions are met:
8: *
9: * 1. Redistributions of source code must retain the above copyright notice, this list of
10: * conditions and the following disclaimer.
11: *
12: * 2. Redistributions in binary form must reproduce the above copyright notice, this list
13: * of conditions and the following disclaimer in the documentation and/or other materials
14: * provided with the distribution.
15: *
16: * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER(S) AND CONTRIBUTORS ``AS IS'' AND ANY
17: * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
18: * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
19: * SHALL THE COPYRIGHT HOLDER(S) OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
20: * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
21: * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
22: * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
23: * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
24: * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
25: */
26:
27: /*
28: This file contains a simple executable memory allocator
29:
30: It is assumed, that executable code blocks are usually medium (or sometimes
31: large) memory blocks, and the allocator is not too frequently called (less
32: optimized than other allocators). Thus, using it as a generic allocator is
33: not suggested.
34:
35: How does it work:
36: Memory is allocated in continuous memory areas called chunks by alloc_chunk()
37: Chunk format:
38: [ block ][ block ] ... [ block ][ block terminator ]
39:
40: All blocks and the block terminator is started with block_header. The block
41: header contains the size of the previous and the next block. These sizes
42: can also contain special values.
43: Block size:
44: 0 - The block is a free_block, with a different size member.
45: 1 - The block is a block terminator.
46: n - The block is used at the moment, and the value contains its size.
47: Previous block size:
48: 0 - This is the first block of the memory chunk.
49: n - The size of the previous block.
50:
51: Using these size values we can go forward or backward on the block chain.
52: The unused blocks are stored in a chain list pointed by free_blocks. This
53: list is useful if we need to find a suitable memory area when the allocator
54: is called.
55:
56: When a block is freed, the new free block is connected to its adjacent free
57: blocks if possible.
58:
59: [ free block ][ used block ][ free block ]
60: and "used block" is freed, the three blocks are connected together:
61: [ one big free block ]
62: */
63:
64: /* --------------------------------------------------------------------- */
65: /* System (OS) functions */
66: /* --------------------------------------------------------------------- */
67:
68: /* 64 KByte. */
69: #define CHUNK_SIZE 0x10000
70:
71: /*
72: alloc_chunk / free_chunk :
73: * allocate executable system memory chunks
74: * the size is always divisible by CHUNK_SIZE
75: allocator_grab_lock / allocator_release_lock :
76: * make the allocator thread safe
77: * can be empty if the OS (or the application) does not support threading
78: * only the allocator requires this lock, sljit is fully thread safe
79: as it only uses local variables
80: */
81:
82: #ifdef _WIN32
83:
84: static SLJIT_INLINE void* alloc_chunk(sljit_uw size)
85: {
86: return VirtualAlloc(0, size, MEM_COMMIT | MEM_RESERVE, PAGE_EXECUTE_READWRITE);
87: }
88:
89: static SLJIT_INLINE void free_chunk(void* chunk, sljit_uw size)
90: {
91: SLJIT_UNUSED_ARG(size);
92: VirtualFree(chunk, 0, MEM_RELEASE);
93: }
94:
95: #else
96:
97: #include <sys/mman.h>
98:
99: static SLJIT_INLINE void* alloc_chunk(sljit_uw size)
100: {
101: void* retval = mmap(0, size, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE | MAP_ANON, -1, 0);
102: return (retval != MAP_FAILED) ? retval : NULL;
103: }
104:
105: static SLJIT_INLINE void free_chunk(void* chunk, sljit_uw size)
106: {
107: munmap(chunk, size);
108: }
109:
110: #endif
111:
112: /* --------------------------------------------------------------------- */
113: /* Common functions */
114: /* --------------------------------------------------------------------- */
115:
116: #define CHUNK_MASK (~(CHUNK_SIZE - 1))
117:
118: struct block_header {
119: sljit_uw size;
120: sljit_uw prev_size;
121: };
122:
123: struct free_block {
124: struct block_header header;
125: struct free_block *next;
126: struct free_block *prev;
127: sljit_uw size;
128: };
129:
130: #define AS_BLOCK_HEADER(base, offset) \
131: ((struct block_header*)(((sljit_ub*)base) + offset))
132: #define AS_FREE_BLOCK(base, offset) \
133: ((struct free_block*)(((sljit_ub*)base) + offset))
134: #define MEM_START(base) ((void*)(((sljit_ub*)base) + sizeof(struct block_header)))
135: #define ALIGN_SIZE(size) (((size) + sizeof(struct block_header) + 7) & ~7)
136:
137: static struct free_block* free_blocks;
138: static sljit_uw allocated_size;
139: static sljit_uw total_size;
140:
141: static SLJIT_INLINE void sljit_insert_free_block(struct free_block *free_block, sljit_uw size)
142: {
143: free_block->header.size = 0;
144: free_block->size = size;
145:
146: free_block->next = free_blocks;
147: free_block->prev = 0;
148: if (free_blocks)
149: free_blocks->prev = free_block;
150: free_blocks = free_block;
151: }
152:
153: static SLJIT_INLINE void sljit_remove_free_block(struct free_block *free_block)
154: {
155: if (free_block->next)
156: free_block->next->prev = free_block->prev;
157:
158: if (free_block->prev)
159: free_block->prev->next = free_block->next;
160: else {
161: SLJIT_ASSERT(free_blocks == free_block);
162: free_blocks = free_block->next;
163: }
164: }
165:
166: SLJIT_API_FUNC_ATTRIBUTE void* sljit_malloc_exec(sljit_uw size)
167: {
168: struct block_header *header;
169: struct block_header *next_header;
170: struct free_block *free_block;
171: sljit_uw chunk_size;
172:
173: allocator_grab_lock();
174: if (size < sizeof(struct free_block))
175: size = sizeof(struct free_block);
176: size = ALIGN_SIZE(size);
177:
178: free_block = free_blocks;
179: while (free_block) {
180: if (free_block->size >= size) {
181: chunk_size = free_block->size;
182: if (chunk_size > size + 64) {
183: /* We just cut a block from the end of the free block. */
184: chunk_size -= size;
185: free_block->size = chunk_size;
186: header = AS_BLOCK_HEADER(free_block, chunk_size);
187: header->prev_size = chunk_size;
188: AS_BLOCK_HEADER(header, size)->prev_size = size;
189: }
190: else {
191: sljit_remove_free_block(free_block);
192: header = (struct block_header*)free_block;
193: size = chunk_size;
194: }
195: allocated_size += size;
196: header->size = size;
197: allocator_release_lock();
198: return MEM_START(header);
199: }
200: free_block = free_block->next;
201: }
202:
203: chunk_size = (size + sizeof(struct block_header) + CHUNK_SIZE - 1) & CHUNK_MASK;
204: header = (struct block_header*)alloc_chunk(chunk_size);
205: PTR_FAIL_IF(!header);
206:
207: chunk_size -= sizeof(struct block_header);
208: total_size += chunk_size;
209:
210: header->prev_size = 0;
211: if (chunk_size > size + 64) {
212: /* Cut the allocated space into a free and a used block. */
213: allocated_size += size;
214: header->size = size;
215: chunk_size -= size;
216:
217: free_block = AS_FREE_BLOCK(header, size);
218: free_block->header.prev_size = size;
219: sljit_insert_free_block(free_block, chunk_size);
220: next_header = AS_BLOCK_HEADER(free_block, chunk_size);
221: }
222: else {
223: /* All space belongs to this allocation. */
224: allocated_size += chunk_size;
225: header->size = chunk_size;
226: next_header = AS_BLOCK_HEADER(header, chunk_size);
227: }
228: next_header->size = 1;
229: next_header->prev_size = chunk_size;
230: allocator_release_lock();
231: return MEM_START(header);
232: }
233:
234: SLJIT_API_FUNC_ATTRIBUTE void sljit_free_exec(void* ptr)
235: {
236: struct block_header *header;
237: struct free_block* free_block;
238:
239: allocator_grab_lock();
240: header = AS_BLOCK_HEADER(ptr, -(sljit_w)sizeof(struct block_header));
241: allocated_size -= header->size;
242:
243: /* Connecting free blocks together if possible. */
244:
245: /* If header->prev_size == 0, free_block will equal to header.
246: In this case, free_block->header.size will be > 0. */
247: free_block = AS_FREE_BLOCK(header, -(sljit_w)header->prev_size);
248: if (SLJIT_UNLIKELY(!free_block->header.size)) {
249: free_block->size += header->size;
250: header = AS_BLOCK_HEADER(free_block, free_block->size);
251: header->prev_size = free_block->size;
252: }
253: else {
254: free_block = (struct free_block*)header;
255: sljit_insert_free_block(free_block, header->size);
256: }
257:
258: header = AS_BLOCK_HEADER(free_block, free_block->size);
259: if (SLJIT_UNLIKELY(!header->size)) {
260: free_block->size += ((struct free_block*)header)->size;
261: sljit_remove_free_block((struct free_block*)header);
262: header = AS_BLOCK_HEADER(free_block, free_block->size);
263: header->prev_size = free_block->size;
264: }
265:
266: if (SLJIT_UNLIKELY(!free_block->header.prev_size && header->size == 1)) {
267: if (total_size - free_block->size > (allocated_size * 3 / 2)) {
268: sljit_remove_free_block(free_block);
269: free_chunk(free_block, free_block->size + sizeof(struct block_header));
270: }
271: }
272:
273: allocator_release_lock();
274: }
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