| 1 | /* |
1 | /* |
| 2 | * Copyright (c) 2001-2009 Marc Alexander Lehmann <schmorp@schmorp.de> |
2 | * Copyright (c) 2001-2012 Marc Alexander Lehmann <schmorp@schmorp.de> |
| 3 | * |
3 | * |
| 4 | * Redistribution and use in source and binary forms, with or without modifica- |
4 | * Redistribution and use in source and binary forms, with or without modifica- |
| 5 | * tion, are permitted provided that the following conditions are met: |
5 | * tion, are permitted provided that the following conditions are met: |
| 6 | * |
6 | * |
| 7 | * 1. Redistributions of source code must retain the above copyright notice, |
7 | * 1. Redistributions of source code must retain the above copyright notice, |
| 8 | * this list of conditions and the following disclaimer. |
8 | * this list of conditions and the following disclaimer. |
| 9 | * |
9 | * |
| 10 | * 2. Redistributions in binary form must reproduce the above copyright |
10 | * 2. Redistributions in binary form must reproduce the above copyright |
| 11 | * notice, this list of conditions and the following disclaimer in the |
11 | * notice, this list of conditions and the following disclaimer in the |
| 12 | * documentation and/or other materials provided with the distribution. |
12 | * documentation and/or other materials provided with the distribution. |
| 13 | * |
13 | * |
| 14 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED |
14 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED |
| 15 | * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER- |
15 | * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER- |
| 16 | * CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO |
16 | * CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO |
| 17 | * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE- |
17 | * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE- |
| 18 | * CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, |
18 | * CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, |
| … | |
… | |
| 67 | * major code cleanup/restructuring. |
67 | * major code cleanup/restructuring. |
| 68 | * 2008-11-10 the .cfi hacks are no longer needed. |
68 | * 2008-11-10 the .cfi hacks are no longer needed. |
| 69 | * 2008-11-16 work around a freebsd pthread bug. |
69 | * 2008-11-16 work around a freebsd pthread bug. |
| 70 | * 2008-11-19 define coro_*jmp symbols for easier porting. |
70 | * 2008-11-19 define coro_*jmp symbols for easier porting. |
| 71 | * 2009-06-23 tentative win32-backend support for mingw32 (Yasuhiro Matsumoto). |
71 | * 2009-06-23 tentative win32-backend support for mingw32 (Yasuhiro Matsumoto). |
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72 | * 2010-12-03 tentative support for uclibc (which lacks all sorts of things). |
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73 | * 2011-05-30 set initial callee-saved-registers to zero with CORO_ASM. |
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74 | * use .cfi_undefined rip on linux-amd64 for better backtraces. |
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75 | * 2011-06-08 maybe properly implement weird windows amd64 calling conventions. |
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76 | * 2011-07-03 rely on __GCC_HAVE_DWARF2_CFI_ASM for cfi detection. |
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77 | * 2011-08-08 cygwin trashes stacks, use pthreads with double stack on cygwin. |
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78 | * 2012-12-04 reduce misprediction penalty for x86/amd64 assembly switcher. |
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79 | * 2012-12-05 experimental fiber backend (allocates stack twice). |
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80 | * 2012-12-07 API version 3 - add coro_stack_alloc/coro_stack_free. |
| 72 | */ |
81 | */ |
| 73 | |
82 | |
| 74 | #ifndef CORO_H |
83 | #ifndef CORO_H |
| 75 | #define CORO_H |
84 | #define CORO_H |
| 76 | |
85 | |
| 77 | #define CORO_VERSION 2 |
86 | #if __cplusplus |
| 78 | |
87 | extern "C" { |
| 79 | /* |
88 | #endif |
| 80 | * Changes since API version 1: |
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| 81 | * replaced bogus -DCORO_LOOSE with gramatically more correct -DCORO_LOSER |
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| 82 | */ |
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| 83 | |
89 | |
| 84 | /* |
90 | /* |
| 85 | * This library consists of only three files |
91 | * This library consists of only three files |
| 86 | * coro.h, coro.c and LICENSE (and optionally README) |
92 | * coro.h, coro.c and LICENSE (and optionally README) |
| 87 | * |
93 | * |
| 88 | * It implements what is known as coroutines, in a hopefully |
94 | * It implements what is known as coroutines, in a hopefully |
| 89 | * portable way. At the moment you have to define which kind |
95 | * portable way. |
| 90 | * of implementation flavour you want: |
96 | * |
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97 | * All compiletime symbols must be defined both when including coro.h |
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98 | * (using libcoro) as well as when compiling coro.c (the implementation). |
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99 | * |
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100 | * You can manually specify which flavour you want. If you don't define |
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101 | * any of these, libcoro tries to choose a safe and fast default: |
| 91 | * |
102 | * |
| 92 | * -DCORO_UCONTEXT |
103 | * -DCORO_UCONTEXT |
| 93 | * |
104 | * |
| 94 | * This flavour uses SUSv2's get/set/swap/makecontext functions that |
105 | * This flavour uses SUSv2's get/set/swap/makecontext functions that |
| 95 | * unfortunately only newer unices support. |
106 | * unfortunately only some unices support, and is quite slow. |
| 96 | * |
107 | * |
| 97 | * -DCORO_SJLJ |
108 | * -DCORO_SJLJ |
| 98 | * |
109 | * |
| 99 | * This flavour uses SUSv2's setjmp/longjmp and sigaltstack functions to |
110 | * This flavour uses SUSv2's setjmp/longjmp and sigaltstack functions to |
| 100 | * do it's job. Coroutine creation is much slower than UCONTEXT, but |
111 | * do it's job. Coroutine creation is much slower than UCONTEXT, but |
| 101 | * context switching is often a bit cheaper. It should work on almost |
112 | * context switching is a bit cheaper. It should work on almost all unices. |
| 102 | * all unices. |
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|
| 103 | * |
113 | * |
| 104 | * -DCORO_LINUX |
114 | * -DCORO_LINUX |
| 105 | * |
115 | * |
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116 | * CORO_SJLJ variant. |
| 106 | * Old GNU/Linux systems (<= glibc-2.1) only work with this implementation |
117 | * Old GNU/Linux systems (<= glibc-2.1) only work with this implementation |
| 107 | * (it is very fast and therefore recommended over other methods, but |
118 | * (it is very fast and therefore recommended over other methods, but |
| 108 | * doesn't work with anything newer). |
119 | * doesn't work with anything newer). |
| 109 | * |
120 | * |
| 110 | * -DCORO_LOSER |
121 | * -DCORO_LOSER |
| 111 | * |
122 | * |
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123 | * CORO_SJLJ variant. |
| 112 | * Microsoft's highly proprietary platform doesn't support sigaltstack, and |
124 | * Microsoft's highly proprietary platform doesn't support sigaltstack, and |
| 113 | * this automatically selects a suitable workaround for this platform. |
125 | * this selects a suitable workaround for this platform. It might not work |
| 114 | * (untested) |
126 | * with your compiler though - it has only been tested with MSVC 6. |
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127 | * |
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128 | * -DCORO_FIBER |
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129 | * |
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130 | * Slower, but probably more portable variant for the Microsoft operating |
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131 | * system, using fibers. Ignores the passed stack and allocates it internally. |
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132 | * Also, due to bugs in cygwin, this does not work with cygwin. |
| 115 | * |
133 | * |
| 116 | * -DCORO_IRIX |
134 | * -DCORO_IRIX |
| 117 | * |
135 | * |
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|
136 | * CORO_SJLJ variant. |
| 118 | * SGI's version of Microsoft's NT ;) |
137 | * For SGI's version of Microsoft's NT ;) |
| 119 | * |
138 | * |
| 120 | * -DCORO_ASM |
139 | * -DCORO_ASM |
| 121 | * |
140 | * |
| 122 | * Handcoded assembly, known to work only on a few architectures/ABI: |
141 | * Hand coded assembly, known to work only on a few architectures/ABI: |
| 123 | * GCC + x86/IA32 and amd64/x86_64 + GNU/Linux and a few BSDs. |
142 | * GCC + x86/IA32 and amd64/x86_64 + GNU/Linux and a few BSDs. Fastest choice, |
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143 | * if it works. |
| 124 | * |
144 | * |
| 125 | * -DCORO_PTHREAD |
145 | * -DCORO_PTHREAD |
| 126 | * |
146 | * |
| 127 | * Use the pthread API. You have to provide <pthread.h> and -lpthread. |
147 | * Use the pthread API. You have to provide <pthread.h> and -lpthread. |
| 128 | * This is likely the slowest backend, and it also does not support fork(), |
148 | * This is likely the slowest backend, and it also does not support fork(), |
| 129 | * so avoid it at all costs. |
149 | * so avoid it at all costs. |
| 130 | * |
150 | * |
| 131 | * If you define neither of these symbols, coro.h will try to autodetect |
151 | * If you define neither of these symbols, coro.h will try to autodetect |
| 132 | * the model. This currently works for CORO_LOSER only. For the other |
152 | * the best/safest model. To help with the autodetection, you should check |
| 133 | * alternatives you should check (e.g. using autoconf) and define the |
153 | * (e.g. using autoconf) and define the following symbols: HAVE_UCONTEXT_H |
| 134 | * following symbols: HAVE_UCONTEXT_H / HAVE_SETJMP_H / HAVE_SIGALTSTACK. |
154 | * / HAVE_SETJMP_H / HAVE_SIGALTSTACK. |
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155 | */ |
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156 | |
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157 | /* |
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158 | * Changes when the API changes incompatibly. |
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159 | * This is ONLY the API version - there is no ABI compatibility between releases. |
| 135 | */ |
160 | * |
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161 | * Changes in API version 2: |
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162 | * replaced bogus -DCORO_LOOSE with grammatically more correct -DCORO_LOSER |
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163 | * Changes in API version 3: |
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164 | * introduced stack management (CORO_STACKALLOC) |
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165 | */ |
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166 | #define CORO_VERSION 3 |
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167 | |
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168 | #include <stddef.h> |
| 136 | |
169 | |
| 137 | /* |
170 | /* |
| 138 | * This is the type for the initialization function of a new coroutine. |
171 | * This is the type for the initialization function of a new coroutine. |
| 139 | */ |
172 | */ |
| 140 | typedef void (*coro_func)(void *); |
173 | typedef void (*coro_func)(void *); |
| … | |
… | |
| 151 | * uninitialised coro_context, it expects a pointer to the entry function |
184 | * uninitialised coro_context, it expects a pointer to the entry function |
| 152 | * and the single pointer value that is given to it as argument. |
185 | * and the single pointer value that is given to it as argument. |
| 153 | * |
186 | * |
| 154 | * Allocating/deallocating the stack is your own responsibility. |
187 | * Allocating/deallocating the stack is your own responsibility. |
| 155 | * |
188 | * |
| 156 | * As a special case, if coro, arg, sptr and ssize are all zero, |
189 | * As a special case, if coro, arg, sptr and ssze are all zero, |
| 157 | * then an "empty" coro_context will be created that is suitable |
190 | * then an "empty" coro_context will be created that is suitable |
| 158 | * as an initial source for coro_transfer. |
191 | * as an initial source for coro_transfer. |
| 159 | * |
192 | * |
| 160 | * This function is not reentrant, but putting a mutex around it |
193 | * This function is not reentrant, but putting a mutex around it |
| 161 | * will work. |
194 | * will work. |
| 162 | */ |
195 | */ |
| 163 | void coro_create (coro_context *ctx, /* an uninitialised coro_context */ |
196 | void coro_create (coro_context *ctx, /* an uninitialised coro_context */ |
| 164 | coro_func coro, /* the coroutine code to be executed */ |
197 | coro_func coro, /* the coroutine code to be executed */ |
| 165 | void *arg, /* a single pointer passed to the coro */ |
198 | void *arg, /* a single pointer passed to the coro */ |
| 166 | void *sptr, /* start of stack area */ |
199 | void *sptr, /* start of stack area */ |
| 167 | long ssize); /* size of stack area */ |
200 | size_t ssze); /* size of stack area in bytes */ |
| 168 | |
201 | |
| 169 | /* |
202 | /* |
| 170 | * The following prototype defines the coroutine switching function. It is |
203 | * The following prototype defines the coroutine switching function. It is |
| 171 | * usually implemented as a macro, so watch out. |
204 | * sometimes implemented as a macro, so watch out. |
| 172 | * |
205 | * |
| 173 | * This function is thread-safe and reentrant. |
206 | * This function is thread-safe and reentrant. |
| 174 | */ |
207 | */ |
| 175 | #if 0 |
208 | #if 0 |
| 176 | void coro_transfer (coro_context *prev, coro_context *next); |
209 | void coro_transfer (coro_context *prev, coro_context *next); |
| 177 | #endif |
210 | #endif |
| 178 | |
211 | |
| 179 | /* |
212 | /* |
| 180 | * The following prototype defines the coroutine destroy function. It is |
213 | * The following prototype defines the coroutine destroy function. It |
| 181 | * usually implemented as a macro, so watch out. It also serves |
214 | * is sometimes implemented as a macro, so watch out. It also serves no |
| 182 | * no purpose unless you want to use the CORO_PTHREAD backend, |
215 | * purpose unless you want to use the CORO_PTHREAD backend, where it is |
| 183 | * where it is used to clean up the thread. You are responsible |
216 | * used to clean up the thread. You are responsible for freeing the stack |
| 184 | * for freeing the stack and the context itself. |
217 | * and the context itself. |
| 185 | * |
218 | * |
| 186 | * This function is thread-safe and reentrant. |
219 | * This function is thread-safe and reentrant. |
| 187 | */ |
220 | */ |
| 188 | #if 0 |
221 | #if 0 |
| 189 | void coro_destroy (coro_context *ctx); |
222 | void coro_destroy (coro_context *ctx); |
| 190 | #endif |
223 | #endif |
| 191 | |
224 | |
| 192 | /* |
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| 193 | * That was it. No other user-visible functions are implemented here. |
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| 194 | */ |
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| 195 | |
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| 196 | /*****************************************************************************/ |
225 | /*****************************************************************************/ |
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226 | /* optional stack management */ |
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227 | /*****************************************************************************/ |
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228 | /* |
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229 | * You can disable all of the stack management functions by |
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230 | * defining CORO_STACKALLOC to 0. Otherwise, they are enabled by default. |
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231 | * |
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232 | * If stack management is enabled, you can influence the implementation via these |
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233 | * symbols: |
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234 | * |
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235 | * -DCORO_USE_VALGRIND |
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236 | * |
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237 | * If defined, then libcoro will include valgrind/valgrind.h and register |
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238 | * and unregister stacks with valgrind. |
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239 | * |
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240 | * -DCORO_GUARDPAGES=n |
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241 | * |
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242 | * libcoro will try to use the specified number of guard pages to protect against |
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243 | * stack overflow. If n is 0, then the feature will be disabled. If it isn't |
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244 | * defined, then libcoro will choose a suitable default. If guardpages are not |
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245 | * supported on the platform, then the feature will be silently disabled. |
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246 | */ |
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247 | #ifndef CORO_STACKALLOC |
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248 | # define CORO_STACKALLOC 1 |
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249 | #endif |
| 197 | |
250 | |
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251 | #if CORO_STACKALLOC |
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252 | |
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253 | /* |
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254 | * The only allowed operations on these struct members is to read the |
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255 | * "sptr" and "ssze" members to pass it to coro_create, to read the "sptr" |
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256 | * member to see if it is false, in which case the stack isn't allocated, |
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257 | * and to set the "sptr" member to 0, to indicate to coro_stack_free to |
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258 | * not actually do anything. |
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259 | */ |
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260 | |
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261 | struct coro_stack |
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262 | { |
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263 | void *sptr; |
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264 | size_t ssze; |
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265 | #if CORO_USE_VALGRIND |
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266 | int valgrind_id; |
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267 | #endif |
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268 | }; |
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269 | |
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270 | /* |
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271 | * Try to allocate a stack of at least the given size and return true if |
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272 | * successful, or false otherwise. |
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273 | * |
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274 | * The size is *NOT* specified in bytes, but in units of sizeof (void *), |
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275 | * i.e. the stack is typically 4(8) times larger on 32 bit(64 bit) platforms |
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276 | * then the size passed in. |
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277 | * |
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278 | * If size is 0, then a "suitable" stack size is chosen (usually 1-2MB). |
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279 | */ |
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280 | int coro_stack_alloc (struct coro_stack *stack, unsigned int size); |
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281 | |
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282 | /* |
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283 | * Free the stack allocated by coro_stack_alloc again. It is safe to |
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284 | * call this function on the coro_stack structure even if coro_stack_alloc |
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285 | * failed. |
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286 | */ |
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287 | void coro_stack_free (struct coro_stack *stack); |
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288 | |
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289 | #endif |
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290 | |
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291 | /* |
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292 | * That was it. No other user-serviceable parts below here. |
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293 | */ |
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294 | |
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295 | /*****************************************************************************/ |
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296 | |
| 198 | #if !defined(CORO_LOSER) && !defined(CORO_UCONTEXT) \ |
297 | #if !defined CORO_LOSER && !defined CORO_UCONTEXT \ |
| 199 | && !defined(CORO_SJLJ) && !defined(CORO_LINUX) \ |
298 | && !defined CORO_SJLJ && !defined CORO_LINUX \ |
| 200 | && !defined(CORO_IRIX) && !defined(CORO_ASM) \ |
299 | && !defined CORO_IRIX && !defined CORO_ASM \ |
| 201 | && !defined(CORO_PTHREAD) |
300 | && !defined CORO_PTHREAD && !defined CORO_FIBER |
| 202 | # if defined(WINDOWS) |
301 | # if defined WINDOWS && (defined __i386 || (__x86_64 || defined _M_IX86 || defined _M_AMD64) |
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302 | # define CORO_ASM 1 |
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303 | # elif defined WINDOWS || defined _WIN32 |
| 203 | # define CORO_LOSER 1 /* you don't win with windoze */ |
304 | # define CORO_LOSER 1 /* you don't win with windoze */ |
| 204 | # elif defined(__linux) && (defined(__x86) || defined (__amd64)) |
305 | # elif __linux && (__i386 || (__x86_64 && !__ILP32)) |
| 205 | # define CORO_ASM 1 |
306 | # define CORO_ASM 1 |
| 206 | # elif defined(HAVE_UCONTEXT_H) |
307 | # elif defined HAVE_UCONTEXT_H |
| 207 | # define CORO_UCONTEXT 1 |
308 | # define CORO_UCONTEXT 1 |
| 208 | # elif defined(HAVE_SETJMP_H) && defined(HAVE_SIGALTSTACK) |
309 | # elif defined HAVE_SETJMP_H && defined HAVE_SIGALTSTACK |
| 209 | # define CORO_SJLJ 1 |
310 | # define CORO_SJLJ 1 |
| 210 | # else |
311 | # else |
| 211 | error unknown or unsupported architecture |
312 | error unknown or unsupported architecture |
| 212 | # endif |
313 | # endif |
| 213 | #endif |
314 | #endif |
| … | |
… | |
| 216 | |
317 | |
| 217 | #if CORO_UCONTEXT |
318 | #if CORO_UCONTEXT |
| 218 | |
319 | |
| 219 | # include <ucontext.h> |
320 | # include <ucontext.h> |
| 220 | |
321 | |
| 221 | struct coro_context { |
322 | struct coro_context |
|
|
323 | { |
| 222 | ucontext_t uc; |
324 | ucontext_t uc; |
| 223 | }; |
325 | }; |
| 224 | |
326 | |
| 225 | # define coro_transfer(p,n) swapcontext (&((p)->uc), &((n)->uc)) |
327 | # define coro_transfer(p,n) swapcontext (&((p)->uc), &((n)->uc)) |
| 226 | # define coro_destroy(ctx) (void *)(ctx) |
328 | # define coro_destroy(ctx) (void *)(ctx) |
| 227 | |
329 | |
| 228 | #elif CORO_SJLJ || CORO_LOSER || CORO_LINUX || CORO_IRIX |
330 | #elif CORO_SJLJ || CORO_LOSER || CORO_LINUX || CORO_IRIX |
| 229 | |
331 | |
| 230 | # if defined(CORO_LINUX) && !defined(_GNU_SOURCE) |
332 | # if defined(CORO_LINUX) && !defined(_GNU_SOURCE) |
| 231 | # define _GNU_SOURCE /* for linux libc */ |
333 | # define _GNU_SOURCE /* for glibc */ |
| 232 | # endif |
334 | # endif |
| 233 | |
335 | |
| 234 | # if !CORO_LOSER |
336 | # if !CORO_LOSER |
| 235 | # include <unistd.h> |
337 | # include <unistd.h> |
| 236 | # endif |
338 | # endif |
| … | |
… | |
| 255 | # define coro_jmp_buf sigjmp_buf |
357 | # define coro_jmp_buf sigjmp_buf |
| 256 | # define coro_setjmp(env) sigsetjmp (env, 0) |
358 | # define coro_setjmp(env) sigsetjmp (env, 0) |
| 257 | # define coro_longjmp(env) siglongjmp ((env), 1) |
359 | # define coro_longjmp(env) siglongjmp ((env), 1) |
| 258 | # endif |
360 | # endif |
| 259 | |
361 | |
| 260 | struct coro_context { |
362 | struct coro_context |
|
|
363 | { |
| 261 | coro_jmp_buf env; |
364 | coro_jmp_buf env; |
| 262 | }; |
365 | }; |
| 263 | |
366 | |
| 264 | # define coro_transfer(p,n) do { if (!coro_setjmp ((p)->env)) coro_longjmp ((n)->env); } while (0) |
367 | # define coro_transfer(p,n) do { if (!coro_setjmp ((p)->env)) coro_longjmp ((n)->env); } while (0) |
| 265 | # define coro_destroy(ctx) (void *)(ctx) |
368 | # define coro_destroy(ctx) (void *)(ctx) |
| 266 | |
369 | |
| 267 | #elif CORO_ASM |
370 | #elif CORO_ASM |
| 268 | |
371 | |
| 269 | struct coro_context { |
372 | struct coro_context |
|
|
373 | { |
| 270 | void **sp; /* must be at offset 0 */ |
374 | void **sp; /* must be at offset 0 */ |
| 271 | }; |
375 | }; |
| 272 | |
376 | |
| 273 | void __attribute__ ((__noinline__, __regparm__(2))) |
377 | void __attribute__ ((__noinline__, __regparm__(2))) |
| 274 | coro_transfer (coro_context *prev, coro_context *next); |
378 | coro_transfer (coro_context *prev, coro_context *next); |
| … | |
… | |
| 279 | |
383 | |
| 280 | # include <pthread.h> |
384 | # include <pthread.h> |
| 281 | |
385 | |
| 282 | extern pthread_mutex_t coro_mutex; |
386 | extern pthread_mutex_t coro_mutex; |
| 283 | |
387 | |
| 284 | struct coro_context { |
388 | struct coro_context |
|
|
389 | { |
| 285 | pthread_cond_t cv; |
390 | pthread_cond_t cv; |
| 286 | pthread_t id; |
391 | pthread_t id; |
| 287 | }; |
392 | }; |
| 288 | |
393 | |
| 289 | void coro_transfer (coro_context *prev, coro_context *next); |
394 | void coro_transfer (coro_context *prev, coro_context *next); |
| 290 | void coro_destroy (coro_context *ctx); |
395 | void coro_destroy (coro_context *ctx); |
| 291 | |
396 | |
| 292 | #endif |
397 | #elif CORO_FIBER |
| 293 | |
398 | |
| 294 | #endif |
399 | struct coro_context |
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400 | { |
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401 | void *fiber; |
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402 | /* only used for initialisation */ |
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403 | coro_func coro; |
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404 | void *arg; |
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405 | }; |
| 295 | |
406 | |
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407 | void coro_transfer (coro_context *prev, coro_context *next); |
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408 | void coro_destroy (coro_context *ctx); |
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409 | |
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410 | #endif |
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411 | |
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412 | #if __cplusplus |
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413 | } |
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414 | #endif |
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415 | |
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416 | #endif |
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417 | |
