source: libcfa/src/concurrency/select.hfa @ 1bb0170

Last change on this file since 1bb0170 was 55b060d, checked in by Peter A. Buhr <pabuhr@…>, 15 months ago

rename directories containers to collections

  • Property mode set to 100644
File size: 9.4 KB
Line 
1//
2// Cforall Version 1.0.0 Copyright (C) 2021 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// channel.hfa -- LIBCFATHREAD
8// Runtime locks that used with the runtime thread system.
9//
10// Author           : Colby Alexander Parsons
11// Created On       : Thu Jan 21 19:46:50 2023
12// Last Modified By :
13// Last Modified On :
14// Update Count     :
15//
16
17#pragma once
18
19#include "collections/list.hfa"
20#include "alarm.hfa"
21#include "kernel.hfa"
22#include "time.hfa"
23
24struct select_node;
25
26// node status
27static const unsigned long int __SELECT_UNSAT = 0;
28static const unsigned long int __SELECT_PENDING = 1; // used only by special OR case
29static const unsigned long int __SELECT_SAT = 2;
30static const unsigned long int __SELECT_RUN = 3;
31
32// these are used inside the compiler to aid in code generation
33static inline bool __CFA_has_clause_run( unsigned long int status ) { return status == __SELECT_RUN; }
34static inline void __CFA_maybe_park( int * park_counter ) {
35    if ( __atomic_sub_fetch( park_counter, 1, __ATOMIC_SEQ_CST) < 0 )
36        park();
37}
38
39// node used for coordinating waituntil synchronization
40struct select_node {
41    int * park_counter;                 // If this is 0p then the node is in a special OR case waituntil
42    unsigned long int * clause_status;  // needs to point at ptr sized location, if this is 0p then node is not part of a waituntil
43
44    void * extra;                       // used to store arbitrary data needed by some primitives
45
46    thread$ * blocked_thread;
47    inline dlink(select_node);
48};
49P9_EMBEDDED( select_node, dlink(select_node) )
50
51static inline void ?{}( select_node & this ) {
52    this.blocked_thread = active_thread();
53    this.clause_status = 0p;
54    this.park_counter = 0p;
55    this.extra = 0p;
56}
57
58static inline void ?{}( select_node & this, thread$ * blocked_thread ) {
59    this.blocked_thread = blocked_thread;
60    this.clause_status = 0p;
61    this.park_counter = 0p;
62    this.extra = 0p;
63}
64
65static inline void ?{}( select_node & this, thread$ * blocked_thread, void * extra ) {
66    this.blocked_thread = blocked_thread;
67    this.clause_status = 0p;
68    this.park_counter = 0p;
69    this.extra = extra;
70}
71static inline void ^?{}( select_node & this ) {}
72
73// this is used inside the compiler to aid in code generation
74static inline unsigned long int * __get_clause_status( select_node & s ) { return s.clause_status; }
75
76// this is used inside the compiler to attempt to establish an else clause as a winner in the OR special case race
77static inline bool __select_node_else_race( select_node & this ) with( this ) {
78    unsigned long int cmp_status = __SELECT_UNSAT;
79    return *clause_status == 0
80            && __atomic_compare_exchange_n( clause_status, &cmp_status, __SELECT_SAT, false, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST );
81}
82
83//-----------------------------------------------------------------------------
84// is_selectable
85forall(T & | sized(T))
86trait is_selectable {
87    // For registering a select stmt on a selectable concurrency primitive
88    // Returns bool that indicates if operation is already SAT
89    bool register_select( T &, select_node & );
90
91    // For unregistering a select stmt on a selectable concurrency primitive
92    // If true is returned then the corresponding code block is run (only in non-special OR case and only if node status is not RUN)
93    bool unregister_select( T &, select_node & );
94
95    // This routine is run on the selecting thread prior to executing the statement corresponding to the select_node
96    //    passed as an arg to this routine. If true is returned proceed as normal, if false is returned the statement is skipped
97    bool on_selected( T &, select_node & );
98};
99// Used inside the compiler to allow for overloading on return type for operations such as '?<<?' for channels
100// YOU MUST USE THIS MACRO OR INCLUDE AN EQUIVALENT DECL FOR YOUR TYPE TO SUPPORT WAITUNTIL
101#define __CFA_SELECT_GET_TYPE( typename ) typename __CFA_select_get_type( typename __CFA_t )
102
103
104//=============================================================================================
105// Waituntil Helpers
106//=============================================================================================
107
108static inline void __make_select_node_unsat( select_node & this ) with( this ) {
109    __atomic_store_n( clause_status, __SELECT_UNSAT, __ATOMIC_SEQ_CST );
110}
111static inline void __make_select_node_sat( select_node & this ) with( this ) {
112    __atomic_store_n( clause_status, __SELECT_SAT, __ATOMIC_SEQ_CST );
113}
114
115// used for the 2-stage avail needed by the special OR case
116static inline bool __mark_select_node( select_node & this, unsigned long int val ) with( this ) {
117    /* paranoid */ verify( park_counter == 0p );
118    /* paranoid */ verify( clause_status != 0p );
119
120    unsigned long int cmp_status = __SELECT_UNSAT;
121    while( !__atomic_compare_exchange_n( clause_status, &cmp_status, val, false, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST ) ) {
122        if ( cmp_status != __SELECT_PENDING ) return false;
123        cmp_status = __SELECT_UNSAT;
124    }
125    return true;
126}
127
128// used for the 2-stage avail by the thread who owns a pending node
129static inline bool __pending_set_other( select_node & other, select_node & mine, unsigned long int val ) with( other ) {
130    /* paranoid */ verify( park_counter == 0p );
131    /* paranoid */ verify( clause_status != 0p );
132
133    unsigned long int cmp_status = __SELECT_UNSAT;
134    while( !__atomic_compare_exchange_n( clause_status, &cmp_status, val, false, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST ) ) {
135        if ( cmp_status != __SELECT_PENDING )
136            return false;
137
138        // toggle current status flag to avoid starvation/deadlock
139        __make_select_node_unsat( mine );
140        cmp_status = __SELECT_UNSAT;
141        if ( !__atomic_compare_exchange_n( mine.clause_status, &cmp_status, __SELECT_PENDING, false, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST ) )
142            return false;
143        cmp_status = __SELECT_UNSAT;
144    }
145    return true;
146}
147
148static inline bool __make_select_node_pending( select_node & this ) with( this ) {
149    return __mark_select_node( this, __SELECT_PENDING );
150}
151
152// when a primitive becomes available it calls the following routine on it's node to update the select state:
153// return true if we want to unpark the thd
154static inline bool __make_select_node_available( select_node & this ) with( this ) {
155    /* paranoid */ verify( clause_status != 0p );
156    if( !park_counter )
157        return __mark_select_node( this, (unsigned long int)&this );
158
159    unsigned long int cmp_status = __SELECT_UNSAT;
160
161    return *clause_status == 0 // C_TODO might not need a cmp_xchg in non special OR case
162        && __atomic_compare_exchange_n( clause_status, &cmp_status, __SELECT_SAT, false, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST ) // can maybe just use atomic write
163        && !__atomic_add_fetch( park_counter, 1, __ATOMIC_SEQ_CST);
164}
165
166// Handles the special OR case of the waituntil statement
167// Since only one select node can win in the OR case, we need to race to set the node available BEFORE
168//    performing the operation since if we lose the race the operation should not be performed as it will be lost
169// Returns true if execution can continue normally and false if the queue has now been drained
170static inline bool __handle_waituntil_OR( dlist( select_node ) & queue ) {
171    if ( queue`isEmpty ) return false;
172    if ( queue`first.clause_status && !queue`first.park_counter ) {
173        while ( !queue`isEmpty ) {
174            // if node not a special OR case or if we win the special OR case race break
175            if ( !queue`first.clause_status || queue`first.park_counter || __make_select_node_available( queue`first ) )
176                return true;
177            // otherwise we lost the special OR race so discard node
178            try_pop_front( queue );
179        }
180        return false;
181    }
182    return true;
183}
184
185// wake one thread from the list
186static inline void wake_one( dlist( select_node ) & queue, select_node & popped ) {
187    if ( !popped.clause_status                              // normal case, node is not a select node
188        || ( popped.clause_status && !popped.park_counter ) // If popped link is special case OR selecting unpark but don't call __make_select_node_available
189        || __make_select_node_available( popped ) )         // check if popped link belongs to a selecting thread
190        unpark( popped.blocked_thread );
191}
192
193static inline void wake_one( dlist( select_node ) & queue ) { wake_one( queue, try_pop_front( queue ) ); }
194
195static inline void setup_clause( select_node & this, unsigned long int * clause_status, int * park_counter ) {
196    this.blocked_thread = active_thread();
197    this.clause_status = clause_status;
198    this.park_counter = park_counter;
199}
200
201// waituntil ( timeout( ... ) ) support
202struct select_timeout_node {
203    alarm_node_t a_node;
204    select_node * s_node;
205};
206void ?{}( select_timeout_node & this, Duration duration, Alarm_Callback callback );
207void ^?{}( select_timeout_node & this );
208void timeout_handler_select_cast( alarm_node_t & node );
209
210// Selectable trait routines
211bool register_select( select_timeout_node & this, select_node & node );
212bool unregister_select( select_timeout_node & this, select_node & node );
213bool on_selected( select_timeout_node & this, select_node & node );
214select_timeout_node __CFA_select_get_type( select_timeout_node this );
215
216// Gateway routines to waituntil on duration
217select_timeout_node timeout( Duration duration );
218select_timeout_node sleep( Duration duration );
219
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