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1 /* SPDX-License-Identifier: GPL-2.0 */
2 /*
3  * Glibc independent futex library for testing kernel functionality.
4  * Shamelessly stolen from Darren Hart <dvhltc@us.ibm.com>
5  *    http://git.kernel.org/cgit/linux/kernel/git/dvhart/futextest.git/
6  */
7 
8 #ifndef _FUTEX_H
9 #define _FUTEX_H
10 
11 #include <unistd.h>
12 #include <sys/syscall.h>
13 #include <sys/types.h>
14 #include <linux/futex.h>
15 
16 struct bench_futex_parameters {
17 	bool silent;
18 	bool fshared;
19 	bool mlockall;
20 	bool multi; /* lock-pi */
21 	bool pi; /* requeue-pi */
22 	bool broadcast; /* requeue */
23 	unsigned int runtime; /* seconds*/
24 	unsigned int nthreads;
25 	unsigned int nfutexes;
26 	unsigned int nwakes;
27 	unsigned int nrequeue;
28 };
29 
30 /**
31  * futex_syscall() - SYS_futex syscall wrapper
32  * @uaddr:	address of first futex
33  * @op:		futex op code
34  * @val:	typically expected value of uaddr, but varies by op
35  * @timeout:	typically an absolute struct timespec (except where noted
36  *		otherwise). Overloaded by some ops
37  * @uaddr2:	address of second futex for some ops
38  * @val3:	varies by op
39  * @opflags:	flags to be bitwise OR'd with op, such as FUTEX_PRIVATE_FLAG
40  *
41  * futex_syscall() is used by all the following futex op wrappers. It can also be
42  * used for misuse and abuse testing. Generally, the specific op wrappers
43  * should be used instead.
44  *
45  * These argument descriptions are the defaults for all
46  * like-named arguments in the following wrappers except where noted below.
47  */
48 static inline int
futex_syscall(volatile u_int32_t * uaddr,int op,u_int32_t val,struct timespec * timeout,volatile u_int32_t * uaddr2,int val3,int opflags)49 futex_syscall(volatile u_int32_t *uaddr, int op, u_int32_t val, struct timespec *timeout,
50 	      volatile u_int32_t *uaddr2, int val3, int opflags)
51 {
52 	return syscall(SYS_futex, uaddr, op | opflags, val, timeout, uaddr2, val3);
53 }
54 
55 static inline int
futex_syscall_nr_requeue(volatile u_int32_t * uaddr,int op,u_int32_t val,int nr_requeue,volatile u_int32_t * uaddr2,int val3,int opflags)56 futex_syscall_nr_requeue(volatile u_int32_t *uaddr, int op, u_int32_t val, int nr_requeue,
57 			 volatile u_int32_t *uaddr2, int val3, int opflags)
58 {
59 	return syscall(SYS_futex, uaddr, op | opflags, val, nr_requeue, uaddr2, val3);
60 }
61 
62 /**
63  * futex_wait() - block on uaddr with optional timeout
64  * @timeout:	relative timeout
65  */
66 static inline int
futex_wait(u_int32_t * uaddr,u_int32_t val,struct timespec * timeout,int opflags)67 futex_wait(u_int32_t *uaddr, u_int32_t val, struct timespec *timeout, int opflags)
68 {
69 	return futex_syscall(uaddr, FUTEX_WAIT, val, timeout, NULL, 0, opflags);
70 }
71 
72 /**
73  * futex_wake() - wake one or more tasks blocked on uaddr
74  * @nr_wake:	wake up to this many tasks
75  */
76 static inline int
futex_wake(u_int32_t * uaddr,int nr_wake,int opflags)77 futex_wake(u_int32_t *uaddr, int nr_wake, int opflags)
78 {
79 	return futex_syscall(uaddr, FUTEX_WAKE, nr_wake, NULL, NULL, 0, opflags);
80 }
81 
82 /**
83  * futex_lock_pi() - block on uaddr as a PI mutex
84  */
85 static inline int
futex_lock_pi(u_int32_t * uaddr,struct timespec * timeout,int opflags)86 futex_lock_pi(u_int32_t *uaddr, struct timespec *timeout, int opflags)
87 {
88 	return futex_syscall(uaddr, FUTEX_LOCK_PI, 0, timeout, NULL, 0, opflags);
89 }
90 
91 /**
92  * futex_unlock_pi() - release uaddr as a PI mutex, waking the top waiter
93  */
94 static inline int
futex_unlock_pi(u_int32_t * uaddr,int opflags)95 futex_unlock_pi(u_int32_t *uaddr, int opflags)
96 {
97 	return futex_syscall(uaddr, FUTEX_UNLOCK_PI, 0, NULL, NULL, 0, opflags);
98 }
99 
100 /**
101 * futex_cmp_requeue() - requeue tasks from uaddr to uaddr2
102 * @nr_wake:        wake up to this many tasks
103 * @nr_requeue:     requeue up to this many tasks
104 */
105 static inline int
futex_cmp_requeue(u_int32_t * uaddr,u_int32_t val,u_int32_t * uaddr2,int nr_wake,int nr_requeue,int opflags)106 futex_cmp_requeue(u_int32_t *uaddr, u_int32_t val, u_int32_t *uaddr2, int nr_wake,
107 		 int nr_requeue, int opflags)
108 {
109 	return futex_syscall_nr_requeue(uaddr, FUTEX_CMP_REQUEUE, nr_wake, nr_requeue, uaddr2,
110 					val, opflags);
111 }
112 
113 /**
114  * futex_wait_requeue_pi() - block on uaddr and prepare to requeue to uaddr2
115  * @uaddr:	non-PI futex source
116  * @uaddr2:	PI futex target
117  *
118  * This is the first half of the requeue_pi mechanism. It shall always be
119  * paired with futex_cmp_requeue_pi().
120  */
121 static inline int
futex_wait_requeue_pi(u_int32_t * uaddr,u_int32_t val,u_int32_t * uaddr2,struct timespec * timeout,int opflags)122 futex_wait_requeue_pi(u_int32_t *uaddr, u_int32_t val, u_int32_t *uaddr2,
123 		      struct timespec *timeout, int opflags)
124 {
125 	return futex_syscall(uaddr, FUTEX_WAIT_REQUEUE_PI, val, timeout, uaddr2, 0,
126 			     opflags);
127 }
128 
129 /**
130  * futex_cmp_requeue_pi() - requeue tasks from uaddr to uaddr2
131  * @uaddr:	non-PI futex source
132  * @uaddr2:	PI futex target
133  * @nr_requeue:	requeue up to this many tasks
134  *
135  * This is the second half of the requeue_pi mechanism. It shall always be
136  * paired with futex_wait_requeue_pi(). The first waker is always awoken.
137  */
138 static inline int
futex_cmp_requeue_pi(u_int32_t * uaddr,u_int32_t val,u_int32_t * uaddr2,int nr_requeue,int opflags)139 futex_cmp_requeue_pi(u_int32_t *uaddr, u_int32_t val, u_int32_t *uaddr2,
140 		     int nr_requeue, int opflags)
141 {
142 	return futex_syscall_nr_requeue(uaddr, FUTEX_CMP_REQUEUE_PI, 1, nr_requeue, uaddr2,
143 					val, opflags);
144 }
145 
146 #endif /* _FUTEX_H */
147