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source: libcfa/src/concurrency/invoke.h@ 5a46e09

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ADT ast-experimental enum forall-pointer-decay jacob/cs343-translation new-ast-unique-expr pthread-emulation qualifiedEnum

Last change on this file since 5a46e09 was bae0d35, checked in by caparsons <caparson@…>, 4 years ago
Merge branch 'master' of plg.uwaterloo.ca:software/cfa/cfa-cc
Property mode set to `100644`
File size: 8.3 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// invoke.h --
8	//
9	// Author : Thierry Delisle
10	// Created On : Tue Jan 17 12:27:26 2016
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Thu Dec 5 16:26:03 2019
13	// Update Count : 44
14	//
15
16	#include "bits/containers.hfa"
17	#include "bits/defs.hfa"
18	#include "bits/locks.hfa"
19	#include "kernel/fwd.hfa"
20
21	#ifdef __cforall
22	#include "containers/list.hfa"
23	extern "C" {
24	#endif
25
26	#if ! defined(__CFA_INVOKE_PRIVATE__)
27	#ifndef _INVOKE_H_
28	#define _INVOKE_H_
29
30	struct __cfaehm_try_resume_node;
31	struct __cfaehm_base_exception_t;
32	struct exception_context_t {
33	struct __cfaehm_try_resume_node * top_resume;
34	struct __cfaehm_base_exception_t * current_exception;
35	};
36
37	struct __stack_context_t {
38	void * SP;
39	void * FP;
40	};
41
42	// low adresses : +----------------------+ <- start of allocation
43	// \| optional guard page \|
44	// +----------------------+ <- __stack_t.limit
45	// \| \|
46	// \| /\ /\ /\ \|
47	// \| \|\| \|\| \|\| \|
48	// \| \|
49	// \| program stack \|
50	// \| \|
51	// __stack_info_t.storage -> +----------------------+ <- __stack_t.base
52	// \| __stack_t \|
53	// high adresses : +----------------------+ <- end of allocation
54
55	struct __stack_t {
56	// stack grows towards stack limit
57	void * limit;
58
59	// base of stack
60	void * base;
61
62	// Information for exception handling.
63	struct exception_context_t exception_context;
64	};
65
66	struct __stack_info_t {
67	// pointer to stack
68	struct __stack_t * storage;
69	};
70
71	enum __Coroutine_State { Halted, Start, Primed, Blocked, Ready, Active, Cancelled, Halting };
72
73	struct $coroutine {
74	// context that is switch during a __cfactx_switch
75	struct __stack_context_t context;
76
77	// stack information of the coroutine
78	struct __stack_info_t stack;
79
80	// textual name for coroutine/task
81	const char * name;
82
83	// current execution status for coroutine
84	enum __Coroutine_State state;
85
86	// first coroutine to resume this one
87	struct $coroutine * starter;
88
89	// last coroutine to resume this one
90	struct $coroutine * last;
91
92	// If non-null stack must be unwound with this exception
93	struct _Unwind_Exception * cancellation;
94
95	};
96	// Wrapper for gdb
97	struct cfathread_coroutine_t { struct $coroutine debug; };
98
99	static inline struct __stack_t * __get_stack( struct $coroutine * cor ) {
100	return (struct __stack_t*)(((uintptr_t)cor->stack.storage) & ((uintptr_t)-2));
101	}
102
103	// struct which calls the monitor is accepting
104	struct __waitfor_mask_t {
105	// the index of the accepted function, -1 if none
106	short * accepted;
107
108	// list of acceptable functions, null if any
109	__cfa_anonymous_object( __small_array_t(struct __acceptable_t) );
110	};
111
112	struct $monitor {
113	// spinlock to protect internal data
114	struct __spinlock_t lock;
115
116	// current owner of the monitor
117	struct $thread * owner;
118
119	// queue of threads that are blocked waiting for the monitor
120	__queue_t(struct $thread) entry_queue;
121
122	// stack of conditions to run next once we exit the monitor
123	__stack_t(struct __condition_criterion_t) signal_stack;
124
125	// monitor routines can be called recursively, we need to keep track of that
126	unsigned int recursion;
127
128	// mask used to know if some thread is waiting for something while holding the monitor
129	struct __waitfor_mask_t mask;
130
131	// node used to signal the dtor in a waitfor dtor
132	struct __condition_node_t * dtor_node;
133	};
134	// Wrapper for gdb
135	struct cfathread_monitor_t { struct $monitor debug; };
136
137	struct __monitor_group_t {
138	// currently held monitors
139	__cfa_anonymous_object( __small_array_t($monitor*) );
140
141	// last function that acquired monitors
142	fptr_t func;
143	};
144
145	// Link lists fields
146	// instrusive link field for threads
147	struct __thread_desc_link {
148	struct $thread * next;
149	volatile unsigned long long ts;
150	};
151
152	struct $thread {
153	// Core threading fields
154	// context that is switch during a __cfactx_switch
155	struct __stack_context_t context;
156
157	// Link lists fields
158	// instrusive link field for threads
159	struct __thread_desc_link link;
160
161	// current execution status for coroutine
162	// Possible values are:
163	// - TICKET_BLOCKED (-1) thread is blocked
164	// - TICKET_RUNNING ( 0) thread is running
165	// - TICKET_UNBLOCK ( 1) thread should ignore next block
166	volatile int ticket;
167	enum __Coroutine_State state:8;
168	enum __Preemption_Reason preempted:8;
169
170	bool corctx_flag;
171
172	//SKULLDUGGERY errno is not save in the thread data structure because returnToKernel appears to be the only function to require saving and restoring it
173
174	// pointer to the cluster on which the thread is running
175	struct cluster * curr_cluster;
176
177	// preferred ready-queue
178	unsigned preferred;
179
180	// coroutine body used to store context
181	struct $coroutine self_cor;
182
183	// current active context
184	struct $coroutine * curr_cor;
185
186	// monitor body used for mutual exclusion
187	struct $monitor self_mon;
188
189	// pointer to monitor with sufficient lifetime for current monitors
190	struct $monitor * self_mon_p;
191
192	// monitors currently held by this thread
193	struct __monitor_group_t monitors;
194
195	// used to put threads on user data structures
196	struct {
197	struct $thread * next;
198	struct $thread * back;
199	} seqable;
200
201	// used to put threads on dlist data structure
202	__cfa_dlink($thread);
203
204	struct {
205	struct $thread * next;
206	struct $thread * prev;
207	} node;
208
209	struct processor * last_proc;
210
211	#if defined( __CFA_WITH_VERIFY__ )
212	void * canary;
213	#endif
214	};
215	#ifdef __cforall
216	P9_EMBEDDED( $thread, dlink($thread) )
217	#endif
218	// Wrapper for gdb
219	struct cfathread_thread_t { struct $thread debug; };
220
221	#ifdef __CFA_DEBUG__
222	void __cfaabi_dbg_record_thrd($thread & this, bool park, const char prev_name[]);
223	#else
224	#define __cfaabi_dbg_record_thrd(x, y, z)
225	#endif
226
227	#ifdef __cforall
228	extern "Cforall" {
229
230	static inline $thread *& get_next( $thread & this ) __attribute__((const)) {
231	return this.link.next;
232	}
233
234	static inline [$thread &, $thread & ] __get( $thread & this ) __attribute__((const)) {
235	return this.node.[next, prev];
236	}
237
238	static inline $thread * volatile & ?`next ( $thread * this ) __attribute__((const)) {
239	return this->seqable.next;
240	}
241
242	static inline $thread & Back( $thread this ) __attribute__((const)) {
243	return this->seqable.back;
244	}
245
246	static inline $thread & Next( $thread this ) __attribute__((const)) {
247	return this->seqable.next;
248	}
249
250	static inline bool listed( $thread * this ) {
251	return this->seqable.next != 0p;
252	}
253
254	static inline void ?{}(__monitor_group_t & this) {
255	(this.data){0p};
256	(this.size){0};
257	(this.func){NULL};
258	}
259
260	static inline void ?{}(__monitor_group_t & this, struct $monitor ** data, __lock_size_t size, fptr_t func) {
261	(this.data){data};
262	(this.size){size};
263	(this.func){func};
264	}
265
266	static inline bool ?==?( const __monitor_group_t & lhs, const __monitor_group_t & rhs ) __attribute__((const)) {
267	if( (lhs.data != 0) != (rhs.data != 0) ) return false;
268	if( lhs.size != rhs.size ) return false;
269	if( lhs.func != rhs.func ) return false;
270
271	// Check that all the monitors match
272	for( int i = 0; i < lhs.size; i++ ) {
273	// If not a match, check next function
274	if( lhs[i] != rhs[i] ) return false;
275	}
276
277	return true;
278	}
279
280	static inline void ?=?(__monitor_group_t & lhs, const __monitor_group_t & rhs) {
281	lhs.data = rhs.data;
282	lhs.size = rhs.size;
283	lhs.func = rhs.func;
284	}
285	}
286	#endif
287
288	#endif //_INVOKE_H_
289	#else //! defined(__CFA_INVOKE_PRIVATE__)
290	#ifndef _INVOKE_PRIVATE_H_
291	#define _INVOKE_PRIVATE_H_
292
293	struct machine_context_t {
294	void *SP;
295	void *FP;
296	void *PC;
297	};
298
299	// assembler routines that performs the context switch
300	extern void __cfactx_invoke_stub( void );
301	extern void __cfactx_switch( struct __stack_context_t * from, struct __stack_context_t * to ) asm ("__cfactx_switch");
302	// void CtxStore ( void * this ) asm ("CtxStore");
303	// void CtxRet ( void * dst ) asm ("CtxRet");
304
305	#endif //_INVOKE_PRIVATE_H_
306	#endif //! defined(__CFA_INVOKE_PRIVATE__)
307	#ifdef __cforall
308	}
309	#endif
310
311	// Local Variables: //
312	// mode: c //
313	// tab-width: 4 //
314	// End: //

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