xref: /freebsd/contrib/llvm-project/openmp/runtime/src/z_Windows_NT-586_util.cpp (revision 1719886f6d08408b834d270c59ffcfd821c8f63a)
1 /*
2  * z_Windows_NT-586_util.cpp -- platform specific routines.
3  */
4 
5 //===----------------------------------------------------------------------===//
6 //
7 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
8 // See https://llvm.org/LICENSE.txt for license information.
9 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #include "kmp.h"
14 
15 #if (KMP_ARCH_X86 || KMP_ARCH_X86_64 || KMP_ARCH_AARCH64 || KMP_ARCH_ARM)
16 /* Only 32-bit "add-exchange" instruction on IA-32 architecture causes us to
17    use compare_and_store for these routines */
18 
19 kmp_int8 __kmp_test_then_or8(volatile kmp_int8 *p, kmp_int8 d) {
20   kmp_int8 old_value, new_value;
21 
22   old_value = TCR_1(*p);
23   new_value = old_value | d;
24 
25   while (!KMP_COMPARE_AND_STORE_REL8(p, old_value, new_value)) {
26     KMP_CPU_PAUSE();
27     old_value = TCR_1(*p);
28     new_value = old_value | d;
29   }
30   return old_value;
31 }
32 
33 kmp_int8 __kmp_test_then_and8(volatile kmp_int8 *p, kmp_int8 d) {
34   kmp_int8 old_value, new_value;
35 
36   old_value = TCR_1(*p);
37   new_value = old_value & d;
38 
39   while (!KMP_COMPARE_AND_STORE_REL8(p, old_value, new_value)) {
40     KMP_CPU_PAUSE();
41     old_value = TCR_1(*p);
42     new_value = old_value & d;
43   }
44   return old_value;
45 }
46 
47 kmp_uint32 __kmp_test_then_or32(volatile kmp_uint32 *p, kmp_uint32 d) {
48   kmp_uint32 old_value, new_value;
49 
50   old_value = TCR_4(*p);
51   new_value = old_value | d;
52 
53   while (!KMP_COMPARE_AND_STORE_REL32((volatile kmp_int32 *)p, old_value,
54                                       new_value)) {
55     KMP_CPU_PAUSE();
56     old_value = TCR_4(*p);
57     new_value = old_value | d;
58   }
59   return old_value;
60 }
61 
62 kmp_uint32 __kmp_test_then_and32(volatile kmp_uint32 *p, kmp_uint32 d) {
63   kmp_uint32 old_value, new_value;
64 
65   old_value = TCR_4(*p);
66   new_value = old_value & d;
67 
68   while (!KMP_COMPARE_AND_STORE_REL32((volatile kmp_int32 *)p, old_value,
69                                       new_value)) {
70     KMP_CPU_PAUSE();
71     old_value = TCR_4(*p);
72     new_value = old_value & d;
73   }
74   return old_value;
75 }
76 
77 #if KMP_ARCH_X86 || KMP_ARCH_X86_64
78 kmp_int8 __kmp_test_then_add8(volatile kmp_int8 *p, kmp_int8 d) {
79   kmp_int64 old_value, new_value;
80 
81   old_value = TCR_1(*p);
82   new_value = old_value + d;
83   while (!__kmp_compare_and_store8(p, old_value, new_value)) {
84     KMP_CPU_PAUSE();
85     old_value = TCR_1(*p);
86     new_value = old_value + d;
87   }
88   return old_value;
89 }
90 
91 #if KMP_ARCH_X86
92 kmp_int64 __kmp_test_then_add64(volatile kmp_int64 *p, kmp_int64 d) {
93   kmp_int64 old_value, new_value;
94 
95   old_value = TCR_8(*p);
96   new_value = old_value + d;
97   while (!__kmp_compare_and_store64(p, old_value, new_value)) {
98     KMP_CPU_PAUSE();
99     old_value = TCR_8(*p);
100     new_value = old_value + d;
101   }
102   return old_value;
103 }
104 #endif /* KMP_ARCH_X86 */
105 #endif /* KMP_ARCH_X86 || KMP_ARCH_X86_64 */
106 
107 kmp_uint64 __kmp_test_then_or64(volatile kmp_uint64 *p, kmp_uint64 d) {
108   kmp_uint64 old_value, new_value;
109 
110   old_value = TCR_8(*p);
111   new_value = old_value | d;
112   while (!KMP_COMPARE_AND_STORE_REL64((volatile kmp_int64 *)p, old_value,
113                                       new_value)) {
114     KMP_CPU_PAUSE();
115     old_value = TCR_8(*p);
116     new_value = old_value | d;
117   }
118 
119   return old_value;
120 }
121 
122 kmp_uint64 __kmp_test_then_and64(volatile kmp_uint64 *p, kmp_uint64 d) {
123   kmp_uint64 old_value, new_value;
124 
125   old_value = TCR_8(*p);
126   new_value = old_value & d;
127   while (!KMP_COMPARE_AND_STORE_REL64((volatile kmp_int64 *)p, old_value,
128                                       new_value)) {
129     KMP_CPU_PAUSE();
130     old_value = TCR_8(*p);
131     new_value = old_value & d;
132   }
133 
134   return old_value;
135 }
136 
137 #if KMP_ARCH_AARCH64 && KMP_COMPILER_MSVC
138 // For !KMP_COMPILER_MSVC, this function is provided in assembly form
139 // by z_Linux_asm.S.
140 int __kmp_invoke_microtask(microtask_t pkfn, int gtid, int tid, int argc,
141                            void *p_argv[]
142 #if OMPT_SUPPORT
143                            ,
144                            void **exit_frame_ptr
145 #endif
146 ) {
147 #if OMPT_SUPPORT
148   *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
149 #endif
150 
151   switch (argc) {
152   case 0:
153     (*pkfn)(&gtid, &tid);
154     break;
155   case 1:
156     (*pkfn)(&gtid, &tid, p_argv[0]);
157     break;
158   case 2:
159     (*pkfn)(&gtid, &tid, p_argv[0], p_argv[1]);
160     break;
161   case 3:
162     (*pkfn)(&gtid, &tid, p_argv[0], p_argv[1], p_argv[2]);
163     break;
164   case 4:
165     (*pkfn)(&gtid, &tid, p_argv[0], p_argv[1], p_argv[2], p_argv[3]);
166     break;
167   case 5:
168     (*pkfn)(&gtid, &tid, p_argv[0], p_argv[1], p_argv[2], p_argv[3], p_argv[4]);
169     break;
170   default: {
171     // p_argv[6] and onwards must be passed on the stack since 8 registers are
172     // already used.
173     size_t len = (argc - 6) * sizeof(void *);
174     void *argbuf = alloca(len);
175     memcpy(argbuf, &p_argv[6], len);
176   }
177     [[fallthrough]];
178   case 6:
179     (*pkfn)(&gtid, &tid, p_argv[0], p_argv[1], p_argv[2], p_argv[3], p_argv[4],
180             p_argv[5]);
181     break;
182   }
183 
184 #if OMPT_SUPPORT
185   *exit_frame_ptr = 0;
186 #endif
187 
188   return 1;
189 }
190 #endif
191 
192 #endif /* KMP_ARCH_X86 || KMP_ARCH_X86_64 || KMP_ARCH_AARCH64 || KMP_ARCH_ARM */
193