shim_thread.h 9.1 KB

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  1. /* -*- mode:c; c-file-style:"k&r"; c-basic-offset: 4; tab-width:4; indent-tabs-mode:nil; mode:auto-fill; fill-column:78; -*- */
  2. /* vim: set ts=4 sw=4 et tw=78 fo=cqt wm=0: */
  3. #ifndef _SHIM_THREAD_H_
  4. #define _SHIM_THREAD_H_
  5. #include <shim_defs.h>
  6. #include <shim_internal.h>
  7. #include <shim_tls.h>
  8. #include <shim_utils.h>
  9. #include <shim_signal.h>
  10. #include <shim_handle.h>
  11. #include <shim_vma.h>
  12. #include <pal.h>
  13. #include <list.h>
  14. struct shim_handle;
  15. struct shim_fd_map;
  16. struct shim_dentry;
  17. struct shim_signal_handle;
  18. struct shim_signal_log;
  19. DEFINE_LIST(shim_thread);
  20. DEFINE_LISTP(shim_thread);
  21. struct shim_thread {
  22. /* thread identifiers */
  23. IDTYPE vmid;
  24. IDTYPE pgid, ppid, tgid, tid;
  25. bool in_vm;
  26. LEASETYPE tid_lease;
  27. /* credentials */
  28. IDTYPE uid, gid, euid, egid;
  29. /* thread pal handle */
  30. PAL_HANDLE pal_handle;
  31. /* parent handle */
  32. struct shim_thread * parent;
  33. /* thread leader */
  34. struct shim_thread * leader;
  35. /* dummy thread */
  36. struct shim_thread * dummy;
  37. /* child handles; protected by thread->lock */
  38. LISTP_TYPE(shim_thread) children;
  39. /* nodes in child handles; protected by the parent's lock */
  40. LIST_TYPE(shim_thread) siblings;
  41. /* nodes in global handles; protected by thread_list_lock */
  42. LIST_TYPE(shim_thread) list;
  43. struct shim_handle_map * handle_map;
  44. /* child tid */
  45. int * set_child_tid, * clear_child_tid;
  46. /* signal handling */
  47. __sigset_t signal_mask;
  48. struct shim_signal_handle signal_handles[NUM_SIGS];
  49. struct atomic_int has_signal;
  50. struct shim_signal_log * signal_logs;
  51. bool suspend_on_signal;
  52. stack_t signal_altstack;
  53. /* futex robust list */
  54. void * robust_list;
  55. PAL_HANDLE scheduler_event;
  56. PAL_HANDLE exit_event;
  57. int exit_code;
  58. int term_signal; // Store the terminating signal, if any; needed for
  59. // wait() and friends
  60. bool is_alive;
  61. PAL_HANDLE child_exit_event;
  62. LISTP_TYPE(shim_thread) exited_children;
  63. /* file system */
  64. struct shim_dentry * root, * cwd;
  65. mode_t umask;
  66. /* executable */
  67. struct shim_handle * exec;
  68. void * stack, * stack_top, * stack_red;
  69. void * tcb;
  70. bool user_tcb; /* is tcb assigned by user? */
  71. void * frameptr;
  72. REFTYPE ref_count;
  73. LOCKTYPE lock;
  74. #ifdef PROFILE
  75. unsigned long exit_time;
  76. #endif
  77. };
  78. DEFINE_LIST(shim_simple_thread);
  79. struct shim_simple_thread {
  80. /* VMID and PIDs */
  81. IDTYPE vmid;
  82. IDTYPE pgid, tgid, tid;
  83. /* exit event and status */
  84. PAL_HANDLE exit_event;
  85. int exit_code;
  86. int term_signal;
  87. bool is_alive;
  88. /* nodes in global handles */
  89. LIST_TYPE(shim_simple_thread) list;
  90. REFTYPE ref_count;
  91. LOCKTYPE lock;
  92. #ifdef PROFILE
  93. unsigned long exit_time;
  94. #endif
  95. };
  96. int init_thread (void);
  97. static inline struct shim_thread * shim_thread_self(void)
  98. {
  99. struct shim_thread * __self;
  100. __asm__ ("movq %%fs:%c1,%q0" : "=r" (__self)
  101. : "i" (offsetof(__libc_tcb_t, shim_tcb.tp)));
  102. return __self;
  103. }
  104. static inline struct shim_thread * save_shim_thread_self(struct shim_thread * __self)
  105. {
  106. __asm__ ("movq %q0,%%fs:%c1" : : "r" (__self),
  107. "i" (offsetof(__libc_tcb_t, shim_tcb.tp)));
  108. return __self;
  109. }
  110. static inline bool is_internal(struct shim_thread *thread)
  111. {
  112. return thread->tid >= INTERNAL_TID_BASE;
  113. }
  114. void get_thread (struct shim_thread * thread);
  115. void put_thread (struct shim_thread * thread);
  116. void get_simple_thread (struct shim_simple_thread * thread);
  117. void put_simple_thread (struct shim_simple_thread * thread);
  118. void allocate_tls (void * tcb_location, bool user, struct shim_thread * thread);
  119. void populate_tls (void * tcb_location, bool user);
  120. void debug_setprefix (shim_tcb_t * tcb);
  121. static inline
  122. __attribute__((always_inline))
  123. void debug_setbuf (shim_tcb_t * tcb, bool on_stack)
  124. {
  125. if (!debug_handle)
  126. return;
  127. tcb->debug_buf = on_stack ? __alloca(sizeof(struct debug_buf)) :
  128. malloc(sizeof(struct debug_buf));
  129. debug_setprefix(tcb);
  130. }
  131. static inline
  132. __attribute__((always_inline))
  133. struct shim_thread * get_cur_thread (void)
  134. {
  135. return shim_thread_self();
  136. }
  137. static inline
  138. __attribute__((always_inline))
  139. bool cur_thread_is_alive (void)
  140. {
  141. struct shim_thread * thread = get_cur_thread();
  142. return thread ? thread->is_alive : false;
  143. }
  144. static inline
  145. __attribute__((always_inline))
  146. void set_cur_thread (struct shim_thread * thread)
  147. {
  148. shim_tcb_t * tcb = shim_get_tls();
  149. IDTYPE tid = 0;
  150. if (thread) {
  151. if (tcb->tp && tcb->tp != thread)
  152. put_thread(tcb->tp);
  153. if (tcb->tp != thread)
  154. get_thread(thread);
  155. tcb->tp = thread;
  156. thread->tcb = container_of(tcb, __libc_tcb_t, shim_tcb);
  157. tid = thread->tid;
  158. if (!is_internal(thread) && !thread->signal_logs)
  159. thread->signal_logs = malloc(sizeof(struct shim_signal_log) *
  160. NUM_SIGS);
  161. } else if (tcb->tp) {
  162. put_thread(tcb->tp);
  163. tcb->tp = NULL;
  164. } else {
  165. bug();
  166. }
  167. if (tcb->tid != tid) {
  168. tcb->tid = tid;
  169. debug_setprefix(tcb);
  170. }
  171. }
  172. static inline void thread_setwait (struct shim_thread ** queue,
  173. struct shim_thread * thread)
  174. {
  175. if (!thread)
  176. thread = get_cur_thread();
  177. get_thread(thread);
  178. DkEventClear(thread->scheduler_event);
  179. if (queue)
  180. *queue = thread;
  181. }
  182. static inline int thread_sleep (uint64_t timeout_us)
  183. {
  184. struct shim_thread * cur_thread = get_cur_thread();
  185. if (!cur_thread)
  186. return -EINVAL;
  187. PAL_HANDLE event = cur_thread->scheduler_event;
  188. if (!event)
  189. return -EINVAL;
  190. if ( NULL == DkObjectsWaitAny(1, &event, timeout_us))
  191. return -PAL_ERRNO;
  192. return 0;
  193. }
  194. static inline void thread_wakeup (struct shim_thread * thread)
  195. {
  196. DkEventSet(thread->scheduler_event);
  197. }
  198. extern LOCKTYPE thread_list_lock;
  199. struct shim_thread * __lookup_thread (IDTYPE tid);
  200. struct shim_thread * lookup_thread (IDTYPE tid);
  201. struct shim_simple_thread * __lookup_simple_thread (IDTYPE tid);
  202. struct shim_simple_thread * lookup_simple_thread (IDTYPE tid);
  203. void set_as_child (struct shim_thread * parent, struct shim_thread * child);
  204. /* creating and revoking thread objects */
  205. struct shim_thread * get_new_thread (IDTYPE new_tid);
  206. struct shim_thread * get_new_internal_thread (void);
  207. struct shim_simple_thread * get_new_simple_thread (void);
  208. /* thread list utilities */
  209. void add_thread (struct shim_thread * thread);
  210. void del_thread (struct shim_thread * thread);
  211. void add_simple_thread (struct shim_simple_thread * thread);
  212. void del_simple_thread (struct shim_simple_thread * thread);
  213. int check_last_thread (struct shim_thread * self);
  214. void switch_dummy_thread (struct shim_thread * thread);
  215. int walk_thread_list (int (*callback) (struct shim_thread *, void *, bool *),
  216. void * arg, bool may_write);
  217. int walk_simple_thread_list (int (*callback) (struct shim_simple_thread *,
  218. void *, bool *),
  219. void * arg, bool may_write);
  220. /* reference counting of handle maps */
  221. void get_handle_map (struct shim_handle_map * map);
  222. void put_handle_map (struct shim_handle_map * map);
  223. /* retriving handle mapping */
  224. static inline __attribute__((always_inline))
  225. struct shim_handle_map * get_cur_handle_map (struct shim_thread * thread)
  226. {
  227. if (!thread)
  228. thread = get_cur_thread();
  229. return thread ? thread->handle_map : NULL;
  230. }
  231. static inline __attribute__((always_inline))
  232. void set_handle_map (struct shim_thread * thread,
  233. struct shim_handle_map * map)
  234. {
  235. get_handle_map(map);
  236. if (!thread)
  237. thread = get_cur_thread();
  238. if (thread->handle_map)
  239. put_handle_map(thread->handle_map);
  240. thread->handle_map = map;
  241. }
  242. /* shim exit callback */
  243. int thread_exit (struct shim_thread * self, bool send_ipc);
  244. /* If the process was killed by a signal, pass it in the second
  245. * argument, else pass zero */
  246. int try_process_exit (int error_code, int term_signal);
  247. /* thread cloning helpers */
  248. struct clone_args {
  249. PAL_HANDLE create_event;
  250. PAL_HANDLE initialize_event;
  251. struct shim_thread * parent, * thread;
  252. void * stack;
  253. void * return_pc;
  254. };
  255. int clone_implementation_wrapper(struct clone_args * arg);
  256. void * allocate_stack (size_t size, size_t protect_size, bool user);
  257. static inline __attribute__((always_inline))
  258. bool check_stack_size (struct shim_thread * cur_thread, int size)
  259. {
  260. if (!cur_thread)
  261. cur_thread = get_cur_thread();
  262. void * rsp;
  263. __asm__ volatile ("movq %%rsp, %0" : "=r"(rsp) :: "memory");
  264. if (rsp <= cur_thread->stack_top && rsp > cur_thread->stack)
  265. return size < rsp - cur_thread->stack;
  266. return false;
  267. }
  268. static inline __attribute__((always_inline))
  269. bool check_on_stack (struct shim_thread * cur_thread, void * mem)
  270. {
  271. if (!cur_thread)
  272. cur_thread = get_cur_thread();
  273. return (mem <= cur_thread->stack_top && mem > cur_thread->stack);
  274. }
  275. int init_stack (const char ** argv, const char ** envp,
  276. int ** argcpp, const char *** argpp,
  277. int nauxv, elf_auxv_t ** auxpp);
  278. #endif /* _SHIM_THREAD_H_ */