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698226e23db360ac792a9a4776821c71da20e0f6
1 /*
2 * SysDB - t/unit/core/store_lookup_test.c
3 * Copyright (C) 2014 Sebastian 'tokkee' Harl <sh@tokkee.org>
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
8 * are met:
9 * 1. Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * 2. Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 *
15 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
16 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
17 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
18 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR
19 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
20 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
21 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
22 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
23 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
24 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
25 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26 */
28 #include "core/store.h"
29 #include "core/store-private.h"
30 #include "frontend/parser.h"
31 #include "libsysdb_test.h"
33 #include <assert.h>
35 #include <check.h>
36 #include <string.h>
38 static void
39 populate(void)
40 {
41 const char *hosts[] = { "a", "b", "c" };
43 struct {
44 const char *host;
45 const char *metric;
46 } metrics[] = {
47 { "a", "m1" },
48 { "b", "m1" },
49 { "b", "m2" },
50 };
52 struct {
53 const char *host;
54 const char *service;
55 } services[] = {
56 { "a", "s1" },
57 { "a", "s2" },
58 { "b", "s1" },
59 { "b", "s3" },
60 };
62 struct {
63 const char *host;
64 const char *name;
65 sdb_data_t value;
66 } attrs[] = {
67 { "a", "k1", { SDB_TYPE_STRING, { .string = "v1" } } },
68 { "a", "k2", { SDB_TYPE_INTEGER, { .integer = 123 } } },
69 { "b", "k1", { SDB_TYPE_STRING, { .string = "v2" } } },
70 };
72 size_t i;
74 for (i = 0; i < SDB_STATIC_ARRAY_LEN(hosts); ++i) {
75 int status = sdb_store_host(hosts[i], 1);
76 fail_unless(status == 0,
77 "sdb_store_host(%s, 1) = %d; expected: 0",
78 hosts[i], status);
79 }
81 for (i = 0; i < SDB_STATIC_ARRAY_LEN(metrics); ++i) {
82 int status = sdb_store_metric(metrics[i].host,
83 metrics[i].metric, /* store */ NULL, 1);
84 fail_unless(status == 0,
85 "sdb_store_metric(%s, %s, NULL, 1) = %d; expected: 0",
86 metrics[i].host, metrics[i].metric, status);
87 }
89 for (i = 0; i < SDB_STATIC_ARRAY_LEN(services); ++i) {
90 int status = sdb_store_service(services[i].host,
91 services[i].service, 1);
92 fail_unless(status == 0,
93 "sdb_store_service(%s, %s, 1) = %d; expected: 0",
94 services[i].host, services[i].service, status);
95 }
97 for (i = 0; i < SDB_STATIC_ARRAY_LEN(attrs); ++i) {
98 int status = sdb_store_attribute(attrs[i].host,
99 attrs[i].name, &attrs[i].value, 1);
100 fail_unless(status == 0,
101 "sdb_store_attribute(%s, %s, <val>, 1) = %d; expected: 0",
102 attrs[i].host, attrs[i].name, status);
103 }
104 } /* populate */
106 START_TEST(test_cmp_name)
107 {
108 sdb_store_obj_t *host;
110 struct {
111 int type;
112 char *name;
113 _Bool re;
115 int expected;
116 } golden_data[] = {
117 { SDB_HOST, "a", 0, 1 },
118 { SDB_HOST, "a", 1, 1 },
119 { SDB_HOST, "b", 0, 0 },
120 { SDB_HOST, "b", 1, 0 },
121 { SDB_HOST, "^a$", 1, 1 },
122 { SDB_HOST, "^b$", 1, 0 },
123 { SDB_HOST, "^a$", 0, 0 },
124 { SDB_HOST, "^b$", 0, 0 },
125 { SDB_METRIC, "m1", 0, 1 },
126 { SDB_METRIC, "m1", 1, 1 },
127 { SDB_METRIC, "^m1$", 1, 1 },
128 { SDB_METRIC, "m", 1, 1 },
129 { SDB_METRIC, "s", 1, 0 },
130 { SDB_METRIC, "m2", 0, 0 },
131 { SDB_METRIC, "x1", 0, 0 },
132 { SDB_METRIC, "x1", 1, 0 },
133 { SDB_SERVICE, "s1", 0, 1 },
134 { SDB_SERVICE, "s2", 0, 1 },
135 { SDB_SERVICE, "s3", 0, 0 },
136 { SDB_SERVICE, "s4", 0, 0 },
137 { SDB_SERVICE, "^s1$", 1, 1 },
138 { SDB_SERVICE, "^s1$", 0, 0 },
139 { SDB_SERVICE, "x1", 0, 0 },
140 { SDB_SERVICE, "x1", 1, 0 },
141 { SDB_SERVICE, "x", 1, 0 },
142 { SDB_ATTRIBUTE, "k1", 0, 1 },
143 { SDB_ATTRIBUTE, "k2", 0, 1 },
144 { SDB_ATTRIBUTE, "k3", 0, 0 },
145 { SDB_ATTRIBUTE, "k4", 0, 0 },
146 { SDB_ATTRIBUTE, "k", 1, 1 },
147 { SDB_ATTRIBUTE, "1", 1, 1 },
148 { SDB_ATTRIBUTE, "3", 1, 0 },
149 };
151 size_t i;
153 host = sdb_store_get_host("a");
154 fail_unless(host != NULL,
155 "sdb_store_get_host(a) = NULL; expected: <host>");
157 for (i = 0; i < SDB_STATIC_ARRAY_LEN(golden_data); ++i) {
158 sdb_data_t datum;
159 sdb_store_expr_t *obj, *value;
160 sdb_store_matcher_t *m, *n;
161 int status;
163 datum.type = SDB_TYPE_STRING;
164 datum.data.string = golden_data[i].name;
166 obj = sdb_store_expr_fieldvalue(SDB_FIELD_NAME);
167 fail_unless(obj != NULL,
168 "sdb_store_expr_fieldvalue(SDB_STORE_NAME) = NULL; "
169 "expected: <expr>");
170 value = sdb_store_expr_constvalue(&datum);
171 fail_unless(value != NULL,
172 "sdb_store_expr_constvalue(%s) = NULL; "
173 "expected: <expr>", golden_data[i].name);
175 if (golden_data[i].re)
176 m = sdb_store_regex_matcher(obj, value);
177 else
178 m = sdb_store_eq_matcher(obj, value);
179 if (golden_data[i].type != SDB_HOST) {
180 sdb_store_matcher_t *tmp;
181 tmp = sdb_store_any_matcher(golden_data[i].type, m);
182 sdb_object_deref(SDB_OBJ(m));
183 m = tmp;
184 }
185 sdb_object_deref(SDB_OBJ(obj));
186 sdb_object_deref(SDB_OBJ(value));
187 fail_unless(m != NULL,
188 "sdb_store_%s_matcher(%s, %s) = NULL; "
189 "expected: <matcher>",
190 golden_data[i].re ? "regex" : "eq",
191 SDB_STORE_TYPE_TO_NAME(golden_data[i].type),
192 golden_data[i].name);
194 status = sdb_store_matcher_matches(m, host, /* filter */ NULL);
195 fail_unless(status == golden_data[i].expected,
196 "sdb_store_matcher_matches(%s->%s, <host a>, NULL) = %d; "
197 "expected: %d", SDB_STORE_TYPE_TO_NAME(golden_data[i].type),
198 golden_data[i].name, status, golden_data[i].expected);
200 n = sdb_store_inv_matcher(m);
201 fail_unless(n != NULL,
202 "sdb_store_inv_matcher() = NULL; expected: <matcher>");
203 sdb_object_deref(SDB_OBJ(m));
205 /* now match the inverted set of objects */
206 status = sdb_store_matcher_matches(n, host, /* filter */ NULL);
207 fail_unless(status == !golden_data[i].expected,
208 "sdb_store_matcher_matches(%s->%s, <host a>, NULL) = %d; "
209 "expected: %d", SDB_STORE_TYPE_TO_NAME(golden_data[i].type),
210 golden_data[i].name, status, !golden_data[i].expected);
212 sdb_object_deref(SDB_OBJ(n));
213 }
215 sdb_object_deref(SDB_OBJ(host));
216 }
217 END_TEST
219 START_TEST(test_cmp_attr)
220 {
221 sdb_store_obj_t *host;
223 struct {
224 const char *attr;
225 const sdb_data_t value;
226 int expected_lt, expected_le, expected_eq, expected_ge, expected_gt;
227 } golden_data[] = {
228 { "k1", { SDB_TYPE_STRING, { .string = "v1" } }, 0, 1, 1, 1, 0 },
229 { "k1", { SDB_TYPE_STRING, { .string = "v2" } }, 1, 1, 0, 0, 0 },
230 { "k1", { SDB_TYPE_STRING, { .string = "v0" } }, 0, 0, 0, 1, 1 },
231 { "k1", { SDB_TYPE_STRING, { .string = "0" } }, 0, 0, 0, 1, 1 },
232 { "k2", { SDB_TYPE_INTEGER, { .integer = 123 } }, 0, 1, 1, 1, 0 },
233 { "k2", { SDB_TYPE_INTEGER, { .integer = 124 } }, 1, 1, 0, 0, 0 },
234 { "k2", { SDB_TYPE_INTEGER, { .integer = 122 } }, 0, 0, 0, 1, 1 },
235 /* key does not exist */
236 { "k3", { SDB_TYPE_STRING, { .string = "v1" } }, 0, 0, 0, 0, 0 },
237 { "k3", { SDB_TYPE_STRING, { .string = "123" } }, 0, 0, 0, 0, 0 },
238 { "k3", { SDB_TYPE_INTEGER, { .integer = 123 } }, 0, 0, 0, 0, 0 },
239 /* type mismatch */
240 { "k1", { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 1, 1 },
241 { "k2", { SDB_TYPE_STRING, { .string = "123" } }, 0, 1, 1, 1, 0 },
242 };
244 int status;
245 size_t i;
247 host = sdb_store_get_host("a");
248 fail_unless(host != NULL,
249 "sdb_store_get_host(a) = NULL; expected: <host>");
251 for (i = 0; i < SDB_STATIC_ARRAY_LEN(golden_data); ++i) {
252 sdb_store_expr_t *attr;
253 sdb_store_expr_t *value;
254 char value_str[1024];
255 size_t j;
257 struct {
258 sdb_store_matcher_t *(*matcher)(sdb_store_expr_t *,
259 sdb_store_expr_t *);
260 int expected;
261 } tests[] = {
262 { sdb_store_lt_matcher, golden_data[i].expected_lt },
263 { sdb_store_le_matcher, golden_data[i].expected_le },
264 { sdb_store_eq_matcher, golden_data[i].expected_eq },
265 { sdb_store_ge_matcher, golden_data[i].expected_ge },
266 { sdb_store_gt_matcher, golden_data[i].expected_gt },
267 };
269 const char *op_str[] = { "<", "<=", "=", ">=", ">" };
270 assert(SDB_STATIC_ARRAY_LEN(tests) == SDB_STATIC_ARRAY_LEN(op_str));
272 sdb_data_format(&golden_data[i].value,
273 value_str, sizeof(value_str), SDB_UNQUOTED);
275 attr = sdb_store_expr_attrvalue(golden_data[i].attr);
276 fail_unless(attr != NULL,
277 "sdb_store_expr_attrvalue(%s) = NULL; expected: <expr>",
278 golden_data[i].attr);
280 value = sdb_store_expr_constvalue(&golden_data[i].value);
281 fail_unless(value != NULL,
282 "sdb_store_expr_constvalue(%s) = NULL; expected: <expr>",
283 value_str);
285 for (j = 0; j < SDB_STATIC_ARRAY_LEN(tests); ++j) {
286 sdb_store_matcher_t *m;
288 m = tests[j].matcher(attr, value);
289 fail_unless(m != NULL,
290 "sdb_store_<cond>_matcher() = NULL; expected: <matcher>");
292 status = sdb_store_matcher_matches(m, host, /* filter */ NULL);
293 fail_unless(status == tests[j].expected,
294 "sdb_store_matcher_matches(<attr[%s] %s %s>, "
295 "<host>, NULL) = %d; expected: %d",
296 golden_data[i].attr, op_str[j], value_str,
297 status, tests[j].expected);
299 sdb_object_deref(SDB_OBJ(m));
300 }
302 sdb_object_deref(SDB_OBJ(attr));
303 sdb_object_deref(SDB_OBJ(value));
304 }
306 sdb_object_deref(SDB_OBJ(host));
307 }
308 END_TEST
310 START_TEST(test_cmp_obj)
311 {
312 struct {
313 const char *host;
314 int field;
315 const sdb_data_t value;
316 int expected_lt, expected_le, expected_eq, expected_ge, expected_gt;
317 } golden_data[] = {
318 { "b", SDB_FIELD_NAME,
319 { SDB_TYPE_STRING, { .string = "a" } }, 0, 0, 0, 1, 1 },
320 { "b", SDB_FIELD_NAME,
321 { SDB_TYPE_STRING, { .string = "b" } }, 0, 1, 1, 1, 0 },
322 { "b", SDB_FIELD_NAME,
323 { SDB_TYPE_STRING, { .string = "c" } }, 1, 1, 0, 0, 0 },
324 /* last-update = 1 for all objects */
325 { "a", SDB_FIELD_LAST_UPDATE,
326 { SDB_TYPE_DATETIME, { .datetime = 1 } }, 0, 1, 1, 1, 0 },
327 { "a", SDB_FIELD_LAST_UPDATE,
328 { SDB_TYPE_DATETIME, { .datetime = 2 } }, 1, 1, 0, 0, 0 },
329 { "a", SDB_FIELD_LAST_UPDATE,
330 { SDB_TYPE_DATETIME, { .datetime = 0 } }, 0, 0, 0, 1, 1 },
331 /* age > 0 for all objects */
332 { "a", SDB_FIELD_AGE,
333 { SDB_TYPE_DATETIME, { .datetime = 0 } }, 0, 0, 0, 1, 1 },
334 /* interval = 0 for all objects */
335 { "a", SDB_FIELD_INTERVAL,
336 { SDB_TYPE_DATETIME, { .datetime = 0 } }, 0, 1, 1, 1, 0 },
337 { "a", SDB_FIELD_INTERVAL,
338 { SDB_TYPE_DATETIME, { .datetime = 1 } }, 1, 1, 0, 0, 0 },
339 /* type mismatch */
340 { "a", SDB_FIELD_LAST_UPDATE,
341 { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 0, 0 },
342 { "a", SDB_FIELD_AGE,
343 { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 0, 0 },
344 { "a", SDB_FIELD_INTERVAL,
345 { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 0, 0 },
346 { "a", SDB_FIELD_BACKEND,
347 { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 0, 0 },
348 { "a", SDB_FIELD_BACKEND,
349 { SDB_TYPE_INTEGER, { .integer = 0 } }, 0, 0, 0, 0, 0 },
350 /* (64bit) integer value without zero-bytes */
351 { "a", SDB_FIELD_BACKEND,
352 { SDB_TYPE_INTEGER, { .integer = 0xffffffffffffffffL } },
353 0, 0, 0, 0, 0 },
354 };
356 int status;
357 size_t i;
359 for (i = 0; i < SDB_STATIC_ARRAY_LEN(golden_data); ++i) {
360 sdb_store_obj_t *host;
361 sdb_store_expr_t *field;
362 sdb_store_expr_t *value;
363 char value_str[1024];
364 size_t j;
366 struct {
367 sdb_store_matcher_t *(*matcher)(sdb_store_expr_t *,
368 sdb_store_expr_t *);
369 int expected;
370 } tests[] = {
371 { sdb_store_lt_matcher, golden_data[i].expected_lt },
372 { sdb_store_le_matcher, golden_data[i].expected_le },
373 { sdb_store_eq_matcher, golden_data[i].expected_eq },
374 { sdb_store_ge_matcher, golden_data[i].expected_ge },
375 { sdb_store_gt_matcher, golden_data[i].expected_gt },
376 };
377 char *op_str[] = { "<", "<=", "=", ">=", ">" };
379 assert(SDB_STATIC_ARRAY_LEN(tests) == SDB_STATIC_ARRAY_LEN(op_str));
381 host = sdb_store_get_host(golden_data[i].host);
382 fail_unless(host != NULL,
383 "sdb_store_get_host(%s) = NULL; expected: <host>",
384 golden_data[i].host);
386 sdb_data_format(&golden_data[i].value,
387 value_str, sizeof(value_str), SDB_UNQUOTED);
389 field = sdb_store_expr_fieldvalue(golden_data[i].field);
390 fail_unless(field != NULL,
391 "sdb_store_expr_fieldvalue(%d) = NULL; "
392 "expected: <expr>", golden_data[i].field);
394 value = sdb_store_expr_constvalue(&golden_data[i].value);
395 fail_unless(value != NULL,
396 "sdb_store_expr_constvalue(%s) = NULL; "
397 "expected: <expr>", value_str);
399 for (j = 0; j < SDB_STATIC_ARRAY_LEN(tests); ++j) {
400 char m_str[1024];
401 sdb_store_matcher_t *m;
403 snprintf(m_str, sizeof(m_str), "%s %s %s",
404 SDB_FIELD_TO_NAME(golden_data[i].field),
405 op_str[j], value_str);
407 m = tests[j].matcher(field, value);
408 fail_unless(m != NULL,
409 "sdb_store_<cond>_matcher() = NULL; expected: <matcher>");
411 status = sdb_store_matcher_matches(m, host, /* filter */ NULL);
412 fail_unless(status == tests[j].expected,
413 "sdb_store_matcher_matches(<%s>, <host '%s'>, NULL) = %d; "
414 "expected: %d", m_str, golden_data[i].host, status,
415 tests[j].expected);
417 sdb_object_deref(SDB_OBJ(m));
418 }
420 sdb_object_deref(SDB_OBJ(field));
421 sdb_object_deref(SDB_OBJ(value));
422 sdb_object_deref(SDB_OBJ(host));
423 }
424 }
425 END_TEST
427 START_TEST(test_store_match_op)
428 {
429 sdb_store_obj_t *obj;
431 sdb_data_t d = { SDB_TYPE_STRING, { .string = "a" } };
432 sdb_store_expr_t *e = sdb_store_expr_constvalue(&d);
434 sdb_store_matcher_t *always = sdb_store_isnnull_matcher(e);
435 sdb_store_matcher_t *never = sdb_store_isnull_matcher(e);
437 struct {
438 const char *op;
439 sdb_store_matcher_t *left;
440 sdb_store_matcher_t *right;
441 int expected;
442 } golden_data[] = {
443 { "OR", always, always, 1 },
444 { "OR", always, never, 1 },
445 { "OR", never, always, 1 },
446 { "OR", never, never, 0 },
447 { "AND", always, always, 1 },
448 { "AND", always, never, 0 },
449 { "AND", never, always, 0 },
450 { "AND", never, never, 0 },
451 };
453 int status;
454 size_t i;
456 obj = sdb_store_get_host("a");
458 status = sdb_store_matcher_matches(always, obj, /* filter */ NULL);
459 fail_unless(status == 1,
460 "INTERNAL ERROR: 'always' did not match host");
461 status = sdb_store_matcher_matches(never, obj, /* filter */ NULL);
462 fail_unless(status == 0,
463 "INTERNAL ERROR: 'never' matches host");
465 for (i = 0; i < SDB_STATIC_ARRAY_LEN(golden_data); ++i) {
466 sdb_store_matcher_t *m;
468 if (! strcmp(golden_data[i].op, "OR"))
469 m = sdb_store_dis_matcher(golden_data[i].left,
470 golden_data[i].right);
471 else if (! strcmp(golden_data[i].op, "AND"))
472 m = sdb_store_con_matcher(golden_data[i].left,
473 golden_data[i].right);
474 else {
475 fail("INTERNAL ERROR: unexpected operator %s", golden_data[i].op);
476 continue;
477 }
479 #define TO_NAME(v) (((v) == always) ? "always" \
480 : ((v) == never) ? "never" : "<unknown>")
482 status = sdb_store_matcher_matches(m, obj, /* filter */ NULL);
483 fail_unless(status == golden_data[i].expected,
484 "%s(%s, %s, NULL) = %d; expected: %d", golden_data[i].op,
485 TO_NAME(golden_data[i].left), TO_NAME(golden_data[i].right),
486 status, golden_data[i].expected);
488 #undef TO_NAME
490 sdb_object_deref(SDB_OBJ(m));
491 }
493 sdb_object_deref(SDB_OBJ(always));
494 sdb_object_deref(SDB_OBJ(never));
495 sdb_object_deref(SDB_OBJ(e));
497 sdb_object_deref(SDB_OBJ(obj));
498 }
499 END_TEST
501 static int
502 scan_cb(sdb_store_obj_t *obj, sdb_store_matcher_t *filter, void *user_data)
503 {
504 int *i = user_data;
506 if (! sdb_store_matcher_matches(filter, obj, NULL))
507 return 0;
509 fail_unless(obj != NULL,
510 "sdb_store_scan callback received NULL obj; expected: "
511 "<store base obj>");
512 fail_unless(i != NULL,
513 "sdb_store_scan callback received NULL user_data; "
514 "expected: <pointer to data>");
516 ++(*i);
517 return 0;
518 } /* scan_cb */
520 START_TEST(test_scan)
521 {
522 struct {
523 const char *query;
524 const char *filter;
525 int expected;
526 } golden_data[] = {
527 /* TODO: check the name of the expected hosts */
528 { "host = 'a'", NULL, 1 },
529 { "host = 'a'", "host = 'x'", 0 }, /* filter never matches */
530 { "host = 'a'",
531 "NOT attribute['x'] = ''", 1 }, /* filter always matches */
532 { "host =~ 'a|b'", NULL, 2 },
533 { "host =~ 'host'", NULL, 0 },
534 { "host =~ '.'", NULL, 3 },
535 { "ANY metric = 'm1'", NULL, 2 },
536 { "ANY metric= 'm1'", "host = 'x'", 0 }, /* filter never matches */
537 { "ANY metric = 'm1'",
538 "NOT attribute['x'] = ''", 2 }, /* filter always matches */
539 { "ANY metric =~ 'm'", NULL, 2 },
540 { "ALL metric =~ 'm'", NULL, 3 },
541 { "ANY metric =~ 'm'", "name !~ '1'", 1 },
542 { "ANY metric =~ 'm'", "name !~ 'm'", 0 },
543 { "ALL metric =~ '1'", NULL, 2 },
544 { "ALL metric =~ '2'", NULL, 1 },
545 { "ANY metric !~ 'm'", NULL, 0 },
546 { "ALL metric !~ 'm'", NULL, 1 },
547 { "ANY metric =~ 'x'", NULL, 0 },
548 { "ANY service = 's1'", NULL, 2 },
549 { "ANY service = 's1'", "host = 'x'", 0 }, /* filter never matches */
550 { "ANY service = 's1'",
551 "NOT attribute['x'] = ''", 2 }, /* filter always matches */
552 { "ANY service =~ 's'", NULL, 2 },
553 { "ANY service =~ 's'", "name !~ 's'", 0 },
554 { "ANY service =~ 's'", "name !~ '1'", 2 },
555 { "ANY service !~ 's'", NULL, 0 },
556 { "ANY attribute = 'k1'", NULL, 2 },
557 { "ANY attribute = 'k1'", "host = 'x'",0 }, /* filter never matches */
558 { "ANY attribute = 'k1'",
559 "NOT attribute['x'] = ''", 2 }, /* filter always matches */
560 { "ANY attribute =~ 'k'", NULL, 2 },
561 { "ANY attribute =~ 'k'",
562 "name !~ '1'", 1 },
563 { "ANY attribute =~ 'k'",
564 "name !~ 'k'", 0 },
565 { "ANY attribute =~ '1'", NULL, 2 },
566 { "ANY attribute =~ '2'", NULL, 1 },
567 { "ANY attribute = 'x'", NULL, 0 },
568 { "ANY attribute =~ 'x'", NULL, 0 },
569 { "ALL attribute = 'k1'", NULL, 2 },
570 { "attribute['k1'] = 'v1'", NULL, 1 },
571 { "attribute['k1'] = 'v1'",
572 "name != 'k1'", 0 },
573 { "attribute['k1'] =~ 'v1'", NULL, 1 },
574 { "attribute['k1'] =~ '^v1$'", NULL, 1 },
575 { "attribute['k1'] =~ 'v'", NULL, 2 },
576 { "attribute['k1'] =~ '1'", NULL, 1 },
577 { "attribute['k1'] !~ 'v'", NULL, 1 },
578 { "attribute['k1'] = 'v2'", NULL, 1 },
579 { "attribute['k1'] =~ 'v2'", NULL, 1 },
580 { "attribute['x1'] =~ 'v'", NULL, 0 },
581 { "attribute['x1'] =~ 'NULL'", NULL, 0 },
582 { "attribute['x1'] !~ 'v'", NULL, 3 },
583 { "attribute['k1'] IS NULL", NULL, 1 },
584 { "attribute['x1'] IS NULL", NULL, 3 },
585 { "attribute['k1'] IS NOT NULL", NULL, 2 },
586 { "attribute['x1'] IS NOT NULL", NULL, 0 },
587 { "attribute['k2'] < 123", NULL, 0 },
588 { "attribute['k2'] <= 123", NULL, 1 },
589 { "attribute['k2'] >= 123", NULL, 1 },
590 { "attribute['k2'] > 123", NULL, 0 },
591 { "attribute['k2'] = 123", NULL, 1 },
592 { "attribute['k2'] != 123", NULL, 0 },
593 { "attribute['k1'] != 'v1'", NULL, 1 },
594 { "attribute['k1'] != 'v2'", NULL, 1 },
595 { "ANY attribute != 'x' "
596 "AND attribute['y'] !~ 'x'", NULL, 2 },
597 };
599 int check, n;
600 size_t i;
602 n = 0;
603 check = sdb_store_scan(SDB_HOST, /* matcher */ NULL, /* filter */ NULL,
604 scan_cb, &n);
605 fail_unless(check == 0,
606 "sdb_store_scan() = %d; expected: 0", check);
607 fail_unless(n == 3,
608 "sdb_store_scan called callback %d times; expected: 3", (int)n);
610 for (i = 0; i < SDB_STATIC_ARRAY_LEN(golden_data); ++i) {
611 sdb_store_matcher_t *m, *filter = NULL;
613 m = sdb_fe_parse_matcher(golden_data[i].query, -1);
614 fail_unless(m != NULL,
615 "sdb_fe_parse_matcher(%s, -1) = NULL; expected: <matcher>",
616 golden_data[i].query);
618 if (golden_data[i].filter) {
619 filter = sdb_fe_parse_matcher(golden_data[i].filter, -1);
620 fail_unless(filter != NULL,
621 "sdb_fe_parse_matcher(%s, -1) = NULL; "
622 "expected: <matcher>", golden_data[i].filter);
623 }
625 n = 0;
626 sdb_store_scan(SDB_HOST, m, filter, scan_cb, &n);
627 fail_unless(n == golden_data[i].expected,
628 "sdb_store_scan(HOST, matcher{%s}, filter{%s}) "
629 "found %d hosts; expected: %d", golden_data[i].query,
630 golden_data[i].filter, n, golden_data[i].expected);
631 sdb_object_deref(SDB_OBJ(filter));
632 sdb_object_deref(SDB_OBJ(m));
633 }
634 }
635 END_TEST
637 Suite *
638 core_store_lookup_suite(void)
639 {
640 Suite *s = suite_create("core::store_lookup");
641 TCase *tc;
643 tc = tcase_create("core");
644 tcase_add_checked_fixture(tc, populate, sdb_store_clear);
645 tcase_add_test(tc, test_cmp_name);
646 tcase_add_test(tc, test_cmp_attr);
647 tcase_add_test(tc, test_cmp_obj);
648 tcase_add_test(tc, test_store_match_op);
649 tcase_add_test(tc, test_scan);
650 suite_add_tcase(s, tc);
652 return s;
653 } /* core_store_lookup_suite */
655 /* vim: set tw=78 sw=4 ts=4 noexpandtab : */