kmp_error.cpp source code [openmp/runtime/src/kmp_error.cpp]

1	/*
2	* kmp_error.cpp -- KPTS functions for error checking at runtime
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	#include "kmp_error.h"
15	#include "kmp_i18n.h"
16	#include "kmp_str.h"
17
18	/ ------------------------------------------------------------------------ /
19
20	#define MIN_STACK 100
21
22	static char const *cons_text_c[] = {
23	"(none)",
24	"\"parallel\"",
25	"work-sharing", / this is not called "for"*
26	because of lowering of
27	"sections" pragmas /*
28	"\"ordered\" work-sharing", / this is not called "for ordered" because of*
29	lowering of "sections" pragmas /*
30	"\"sections\"",
31	"work-sharing", / this is not called "single" because of lowering of*
32	"sections" pragmas /*
33	"\"critical\"",
34	"\"ordered\"", / in PARALLEL /
35	"\"ordered\"", / in PDO /
36	"\"master\"",
37	"\"reduce\"",
38	"\"barrier\"",
39	"\"masked\""};
40
41	#define get_src(ident) ((ident) == NULL ? NULL : (ident)->psource)
42
43	#define PUSH_MSG(ct, ident) \
44	"\tpushing on stack: %s (%s)\n", cons_text_c[(ct)], get_src((ident))
45	#define POP_MSG(p) \
46	"\tpopping off stack: %s (%s)\n", cons_text_c[(p)->stack_data[tos].type], \
47	get_src((p)->stack_data[tos].ident)
48
49	static int const cons_text_c_num = sizeof(cons_text_c) / sizeof(char const *);
50
51	/ --------------- START OF STATIC LOCAL ROUTINES ------------------------- /
52
53	static void __kmp_check_null_func(void) { / nothing to do /
54	}
55
56	static void __kmp_expand_cons_stack(int gtid, struct cons_header *p) {
57	int i;
58	struct cons_data *d;
59
60	/ TODO for monitor perhaps? /
61	if (gtid < `0`)
62	__kmp_check_null_func();
63
64	KE_TRACE(`10`, ("expand cons_stack (%d %d)\n", gtid, __kmp_get_gtid()));
65
66	d = p->stack_data;
67
68	p->stack_size = (p->stack_size * `2`) + `100`;
69
70	/ TODO free the old data /
71	p->stack_data = (struct cons_data )__kmp_allocate(sizeof(struct* cons_data) *
72	(p->stack_size + `1`));
73
74	for (i = p->stack_top; i >= `0`; --i)
75	p->stack_data[i] = d[i];
76
77	/ NOTE: we do not free the old stack_data /
78	}
79
80	// NOTE: Function returns allocated memory, caller must free it!
81	static char __kmp_pragma(int* ct, ident_t const *ident) {
82	char const cons = NULL; // Construct name.*
83	char file = NULL; // File name.*
84	char func = NULL; // Function (routine) name.*
85	char line = NULL; // Line number.*
86	kmp_str_buf_t buffer;
87	kmp_msg_t prgm;
88	__kmp_str_buf_init(&buffer);
89	if (`0` < ct && ct < cons_text_c_num) {
90	cons = cons_text_c[ct];
91	} else {
92	KMP_DEBUG_ASSERT(`0`);
93	}
94	if (ident != NULL && ident->psource != NULL) {
95	char *tail = NULL;
96	__kmp_str_buf_print(buffer: &buffer, format: "%s",
97	ident->psource); // Copy source to buffer.
98	// Split string in buffer to file, func, and line.
99	tail = buffer.str;
100	__kmp_str_split(str: tail, delim: `';'`, NULL, tail: &tail);
101	__kmp_str_split(str: tail, delim: `';'`, head: &file, tail: &tail);
102	__kmp_str_split(str: tail, delim: `';'`, head: &func, tail: &tail);
103	__kmp_str_split(str: tail, delim: `';'`, head: &line, tail: &tail);
104	}
105	prgm = __kmp_msg_format(kmp_i18n_fmt_Pragma, cons, file, func, line);
106	__kmp_str_buf_free(buffer: &buffer);
107	return prgm.str;
108	} // __kmp_pragma
109
110	/ ----------------- END OF STATIC LOCAL ROUTINES ------------------------- /
111
112	void __kmp_error_construct(kmp_i18n_id_t id, // Message identifier.
113	enum cons_type ct, // Construct type.
114	ident_t const ident // Construct ident.*
115	) {
116	char *construct = __kmp_pragma(ct, ident);
117	__kmp_fatal(__kmp_msg_format(id, construct), __kmp_msg_null);
118	KMP_INTERNAL_FREE(construct);
119	}
120
121	void __kmp_error_construct2(kmp_i18n_id_t id, // Message identifier.
122	enum cons_type ct, // First construct type.
123	ident_t const ident, // First construct ident.*
124	struct cons_data const cons // Second construct.*
125	) {
126	char *construct1 = __kmp_pragma(ct, ident);
127	char *construct2 = __kmp_pragma(ct: cons->type, ident: cons->ident);
128	__kmp_fatal(__kmp_msg_format(id, construct1, construct2), __kmp_msg_null);
129	KMP_INTERNAL_FREE(construct1);
130	KMP_INTERNAL_FREE(construct2);
131	}
132
133	struct cons_header __kmp_allocate_cons_stack(int* gtid) {
134	struct cons_header *p;
135
136	/ TODO for monitor perhaps? /
137	if (gtid < `0`) {
138	__kmp_check_null_func();
139	}
140	KE_TRACE(`10`, ("allocate cons_stack (%d)\n", gtid));
141	p = (struct cons_header )__kmp_allocate(sizeof(struct* cons_header));
142	p->p_top = p->w_top = p->s_top = `0`;
143	p->stack_data = (struct cons_data )__kmp_allocate(sizeof(struct* cons_data) *
144	(MIN_STACK + `1`));
145	p->stack_size = MIN_STACK;
146	p->stack_top = `0`;
147	p->stack_data[`0`].type = ct_none;
148	p->stack_data[`0`].prev = `0`;
149	p->stack_data[`0`].ident = NULL;
150	return p;
151	}
152
153	void __kmp_free_cons_stack(void *ptr) {
154	struct cons_header p = (struct* cons_header *)ptr;
155	if (p != NULL) {
156	if (p->stack_data != NULL) {
157	__kmp_free(p->stack_data);
158	p->stack_data = NULL;
159	}
160	__kmp_free(p);
161	}
162	}
163
164	#if KMP_DEBUG
165	static void dump_cons_stack(int gtid, struct cons_header *p) {
166	int i;
167	int tos = p->stack_top;
168	kmp_str_buf_t buffer;
169	__kmp_str_buf_init(&buffer);
170	__kmp_str_buf_print(
171	buffer: &buffer,
172	format: "+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n");
173	__kmp_str_buf_print(buffer: &buffer,
174	format: "Begin construct stack with %d items for thread %d\n",
175	tos, gtid);
176	__kmp_str_buf_print(buffer: &buffer, format: " stack_top=%d { P=%d, W=%d, S=%d }\n", tos,
177	p->p_top, p->w_top, p->s_top);
178	for (i = tos; i > `0`; i--) {
179	struct cons_data *c = &(p->stack_data[i]);
180	__kmp_str_buf_print(
181	buffer: &buffer, format: " stack_data[%2d] = { %s (%s) %d %p }\n", i,
182	cons_text_c[c->type], get_src(c->ident), c->prev, c->name);
183	}
184	__kmp_str_buf_print(buffer: &buffer, format: "End construct stack for thread %d\n", gtid);
185	__kmp_str_buf_print(
186	buffer: &buffer,
187	format: "+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n");
188	__kmp_debug_printf(format: "%s", buffer.str);
189	__kmp_str_buf_free(buffer: &buffer);
190	}
191	#endif
192
193	void __kmp_push_parallel(int gtid, ident_t const *ident) {
194	int tos;
195	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
196
197	KMP_DEBUG_ASSERT(__kmp_threads[gtid]->th.th_cons);
198	KE_TRACE(`10`, ("__kmp_push_parallel (%d %d)\n", gtid, __kmp_get_gtid()));
199	KE_TRACE(`100`, (PUSH_MSG(ct_parallel, ident)));
200	if (p->stack_top >= p->stack_size) {
201	__kmp_expand_cons_stack(gtid, p);
202	}
203	tos = ++p->stack_top;
204	p->stack_data[tos].type = ct_parallel;
205	p->stack_data[tos].prev = p->p_top;
206	p->stack_data[tos].ident = ident;
207	p->stack_data[tos].name = NULL;
208	p->p_top = tos;
209	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
210	}
211
212	void __kmp_check_workshare(int gtid, enum cons_type ct, ident_t const *ident) {
213	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
214
215	KMP_DEBUG_ASSERT(__kmp_threads[gtid]->th.th_cons);
216	KE_TRACE(`10`, ("__kmp_check_workshare (%d %d)\n", gtid, __kmp_get_gtid()));
217
218	if (p->stack_top >= p->stack_size) {
219	__kmp_expand_cons_stack(gtid, p);
220	}
221	if (p->w_top > p->p_top) {
222	// We are already in a WORKSHARE construct for this PARALLEL region.
223	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
224	&p->stack_data[p->w_top]);
225	}
226	if (p->s_top > p->p_top) {
227	// We are already in a SYNC construct for this PARALLEL region.
228	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
229	&p->stack_data[p->s_top]);
230	}
231	}
232
233	void __kmp_push_workshare(int gtid, enum cons_type ct, ident_t const *ident) {
234	int tos;
235	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
236	KE_TRACE(`10`, ("__kmp_push_workshare (%d %d)\n", gtid, __kmp_get_gtid()));
237	__kmp_check_workshare(gtid, ct, ident);
238	KE_TRACE(`100`, (PUSH_MSG(ct, ident)));
239	tos = ++p->stack_top;
240	p->stack_data[tos].type = ct;
241	p->stack_data[tos].prev = p->w_top;
242	p->stack_data[tos].ident = ident;
243	p->stack_data[tos].name = NULL;
244	p->w_top = tos;
245	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
246	}
247
248	void
249	#if KMP_USE_DYNAMIC_LOCK
250	__kmp_check_sync( int gtid, enum cons_type ct, ident_t const * ident, kmp_user_lock_p lck, kmp_uint32 seq )
251	#else
252	__kmp_check_sync( int gtid, enum cons_type ct, ident_t const * ident, kmp_user_lock_p lck )
253	#endif
254	{
255	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
256
257	KE_TRACE(`10`, ("__kmp_check_sync (gtid=%d)\n", __kmp_get_gtid()));
258
259	if (p->stack_top >= p->stack_size)
260	__kmp_expand_cons_stack(gtid, p);
261
262	if (ct == ct_ordered_in_parallel \|\| ct == ct_ordered_in_pdo) {
263	if (p->w_top <= p->p_top) {
264	/ we are not in a worksharing construct /
265	#ifdef BUILD_PARALLEL_ORDERED
266	/ do not report error messages for PARALLEL ORDERED /
267	KMP_ASSERT(ct == ct_ordered_in_parallel);
268	#else
269	__kmp_error_construct(kmp_i18n_msg_CnsBoundToWorksharing, ct, ident);
270	#endif /* BUILD_PARALLEL_ORDERED */
271	} else {
272	/ inside a WORKSHARING construct for this PARALLEL region /
273	if (!IS_CONS_TYPE_ORDERED(p->stack_data[p->w_top].type)) {
274	__kmp_error_construct2(kmp_i18n_msg_CnsNoOrderedClause, ct, ident,
275	&p->stack_data[p->w_top]);
276	}
277	}
278	if (p->s_top > p->p_top && p->s_top > p->w_top) {
279	/ inside a sync construct which is inside a worksharing construct /
280	int index = p->s_top;
281	enum cons_type stack_type;
282
283	stack_type = p->stack_data[index].type;
284
285	if (stack_type == ct_critical \|\|
286	((stack_type == ct_ordered_in_parallel \|\|
287	stack_type == ct_ordered_in_pdo) &&
288	/ C doesn't allow named ordered; ordered in ordered gets error /
289	p->stack_data[index].ident != NULL &&
290	(p->stack_data[index].ident->flags & KMP_IDENT_KMPC))) {
291	/ we are in ORDERED which is inside an ORDERED or CRITICAL construct /
292	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
293	&p->stack_data[index]);
294	}
295	}
296	} else if (ct == ct_critical) {
297	#if KMP_USE_DYNAMIC_LOCK
298	if (lck != NULL &&
299	__kmp_get_user_lock_owner(lck, seq) ==
300	gtid) { / this thread already has lock for this critical section /
301	#else
302	if (lck != NULL &&
303	__kmp_get_user_lock_owner(lck) ==
304	gtid) { / this thread already has lock for this critical section /
305	#endif
306	int index = p->s_top;
307	struct cons_data cons = {NULL, .type: ct_critical, .prev: `0`, NULL};
308	/ walk up construct stack and try to find critical with matching name /
309	while (index != `0` && p->stack_data[index].name != lck) {
310	index = p->stack_data[index].prev;
311	}
312	if (index != `0`) {
313	/ found match on the stack (may not always because of interleaved*
314	* critical for Fortran) */
315	cons = p->stack_data[index];
316	}
317	/ we are in CRITICAL which is inside a CRITICAL construct of same name /
318	__kmp_error_construct2(kmp_i18n_msg_CnsNestingSameName, ct, ident, &cons);
319	}
320	} else if (ct == ct_master \|\| ct == ct_masked \|\| ct == ct_reduce) {
321	if (p->w_top > p->p_top) {
322	/ inside a WORKSHARING construct for this PARALLEL region /
323	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
324	&p->stack_data[p->w_top]);
325	}
326	if (ct == ct_reduce && p->s_top > p->p_top) {
327	/ inside a another SYNC construct for this PARALLEL region /
328	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
329	&p->stack_data[p->s_top]);
330	}
331	}
332	}
333
334	void
335	#if KMP_USE_DYNAMIC_LOCK
336	__kmp_push_sync( int gtid, enum cons_type ct, ident_t const * ident, kmp_user_lock_p lck, kmp_uint32 seq )
337	#else
338	__kmp_push_sync( int gtid, enum cons_type ct, ident_t const * ident, kmp_user_lock_p lck )
339	#endif
340	{
341	int tos;
342	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
343
344	KMP_ASSERT(gtid == __kmp_get_gtid());
345	KE_TRACE(`10`, ("__kmp_push_sync (gtid=%d)\n", gtid));
346	#if KMP_USE_DYNAMIC_LOCK
347	__kmp_check_sync(gtid, ct, ident, lck, seq);
348	#else
349	__kmp_check_sync(gtid, ct, ident, lck);
350	#endif
351	KE_TRACE(`100`, (PUSH_MSG(ct, ident)));
352	tos = ++p->stack_top;
353	p->stack_data[tos].type = ct;
354	p->stack_data[tos].prev = p->s_top;
355	p->stack_data[tos].ident = ident;
356	p->stack_data[tos].name = lck;
357	p->s_top = tos;
358	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
359	}
360
361	/ ------------------------------------------------------------------------ /
362
363	void __kmp_pop_parallel(int gtid, ident_t const *ident) {
364	int tos;
365	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
366	tos = p->stack_top;
367	KE_TRACE(`10`, ("__kmp_pop_parallel (%d %d)\n", gtid, __kmp_get_gtid()));
368	if (tos == `0` \|\| p->p_top == `0`) {
369	__kmp_error_construct(kmp_i18n_msg_CnsDetectedEnd, ct_parallel, ident);
370	}
371	if (tos != p->p_top \|\| p->stack_data[tos].type != ct_parallel) {
372	__kmp_error_construct2(kmp_i18n_msg_CnsExpectedEnd, ct_parallel, ident,
373	&p->stack_data[tos]);
374	}
375	KE_TRACE(`100`, (POP_MSG(p)));
376	p->p_top = p->stack_data[tos].prev;
377	p->stack_data[tos].type = ct_none;
378	p->stack_data[tos].ident = NULL;
379	p->stack_top = tos - `1`;
380	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
381	}
382
383	enum cons_type __kmp_pop_workshare(int gtid, enum cons_type ct,
384	ident_t const *ident) {
385	int tos;
386	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
387
388	tos = p->stack_top;
389	KE_TRACE(`10`, ("__kmp_pop_workshare (%d %d)\n", gtid, __kmp_get_gtid()));
390	if (tos == `0` \|\| p->w_top == `0`) {
391	__kmp_error_construct(kmp_i18n_msg_CnsDetectedEnd, ct, ident);
392	}
393
394	if (tos != p->w_top \|\|
395	(p->stack_data[tos].type != ct &&
396	// below is the exception to the rule that construct types must match
397	!(p->stack_data[tos].type == ct_pdo_ordered && ct == ct_pdo))) {
398	__kmp_check_null_func();
399	__kmp_error_construct2(kmp_i18n_msg_CnsExpectedEnd, ct, ident,
400	&p->stack_data[tos]);
401	}
402	KE_TRACE(`100`, (POP_MSG(p)));
403	p->w_top = p->stack_data[tos].prev;
404	p->stack_data[tos].type = ct_none;
405	p->stack_data[tos].ident = NULL;
406	p->stack_top = tos - `1`;
407	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
408	return p->stack_data[p->w_top].type;
409	}
410
411	void __kmp_pop_sync(int gtid, enum cons_type ct, ident_t const *ident) {
412	int tos;
413	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
414	tos = p->stack_top;
415	KE_TRACE(`10`, ("__kmp_pop_sync (%d %d)\n", gtid, __kmp_get_gtid()));
416	if (tos == `0` \|\| p->s_top == `0`) {
417	__kmp_error_construct(kmp_i18n_msg_CnsDetectedEnd, ct, ident);
418	}
419	if (tos != p->s_top \|\| p->stack_data[tos].type != ct) {
420	__kmp_check_null_func();
421	__kmp_error_construct2(kmp_i18n_msg_CnsExpectedEnd, ct, ident,
422	&p->stack_data[tos]);
423	}
424	KE_TRACE(`100`, (POP_MSG(p)));
425	p->s_top = p->stack_data[tos].prev;
426	p->stack_data[tos].type = ct_none;
427	p->stack_data[tos].ident = NULL;
428	p->stack_top = tos - `1`;
429	KE_DUMP(`1000`, dump_cons_stack(gtid, p));
430	}
431
432	/ ------------------------------------------------------------------------ /
433
434	void __kmp_check_barrier(int gtid, enum cons_type ct, ident_t const *ident) {
435	struct cons_header *p = __kmp_threads[gtid]->th.th_cons;
436	KE_TRACE(`10`, ("__kmp_check_barrier (loc: %p, gtid: %d %d)\n", ident, gtid,
437	__kmp_get_gtid()));
438	if (ident != `0`) {
439	__kmp_check_null_func();
440	}
441	if (p->w_top > p->p_top) {
442	/ we are already in a WORKSHARING construct for this PARALLEL region /
443	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
444	&p->stack_data[p->w_top]);
445	}
446	if (p->s_top > p->p_top) {
447	/ we are already in a SYNC construct for this PARALLEL region /
448	__kmp_error_construct2(kmp_i18n_msg_CnsInvalidNesting, ct, ident,
449	&p->stack_data[p->s_top]);
450	}
451	}
452

source code of openmp/runtime/src/kmp_error.cpp