From 03bf87dcb06f7021bfb2df2fa8691593c6148aff Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 30 Nov 2022 19:47:00 +0100 Subject: Adding upstream version 1.37.0. Signed-off-by: Daniel Baumann --- daemon/unit_test.c | 287 +++++++++++++++++++++++++++++++---------------------- 1 file changed, 168 insertions(+), 119 deletions(-) (limited to 'daemon/unit_test.c') diff --git a/daemon/unit_test.c b/daemon/unit_test.c index 8ba251b9a..f69861869 100644 --- a/daemon/unit_test.c +++ b/daemon/unit_test.c @@ -2,6 +2,61 @@ #include "common.h" +static bool cmd_arg_sanitization_test(const char *expected, const char *src, char *dst, size_t dst_size) { + bool ok = sanitize_command_argument_string(dst, src, dst_size); + + if (!expected) + return ok == false; + + return strcmp(expected, dst) == 0; +} + +bool command_argument_sanitization_tests() { + char dst[1024]; + + for (size_t i = 0; i != 5; i++) { + const char *expected = i == 4 ? "'\\''" : NULL; + if (cmd_arg_sanitization_test(expected, "'", dst, i) == false) { + fprintf(stderr, "expected: >>>%s<<<, got: >>>%s<<<\n", expected, dst); + return 1; + } + } + + for (size_t i = 0; i != 9; i++) { + const char *expected = i == 8 ? "'\\'''\\''" : NULL; + if (cmd_arg_sanitization_test(expected, "''", dst, i) == false) { + fprintf(stderr, "expected: >>>%s<<<, got: >>>%s<<<\n", expected, dst); + return 1; + } + } + + for (size_t i = 0; i != 7; i++) { + const char *expected = i == 6 ? "'\\''a" : NULL; + if (cmd_arg_sanitization_test(expected, "'a", dst, i) == false) { + fprintf(stderr, "expected: >>>%s<<<, got: >>>%s<<<\n", expected, dst); + return 1; + } + } + + for (size_t i = 0; i != 7; i++) { + const char *expected = i == 6 ? "a'\\''" : NULL; + if (cmd_arg_sanitization_test(expected, "a'", dst, i) == false) { + fprintf(stderr, "expected: >>>%s<<<, got: >>>%s<<<\n", expected, dst); + return 1; + } + } + + for (size_t i = 0; i != 22; i++) { + const char *expected = i == 21 ? "foo'\\''a'\\'''\\'''\\''b" : NULL; + if (cmd_arg_sanitization_test(expected, "--foo'a'''b", dst, i) == false) { + fprintf(stderr, "expected: >>>%s<<<, got: >>>%s<<<\n length: %zu\n", expected, dst, strlen(dst)); + return 1; + } + } + + return 0; +} + static int check_number_printing(void) { struct { NETDATA_DOUBLE n; @@ -1197,16 +1252,18 @@ int run_test(struct test *test) fprintf(stderr, " > %s: feeding position %lu\n", test->name, c+1); } - fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rd->name, test->feed[c].value); + fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rrddim_name(rd), test->feed[c].value); rrddim_set(st, "dim1", test->feed[c].value); last = test->feed[c].value; if(rd2) { - fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rd2->name, test->feed2[c]); + fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rrddim_name(rd2), test->feed2[c]); rrddim_set(st, "dim2", test->feed2[c]); } - rrdset_done(st); + struct timeval now; + now_realtime_timeval(&now); + rrdset_timed_done(st, now, false); // align the first entry to second boundary if(!c) { @@ -1231,7 +1288,7 @@ int run_test(struct test *test) int same = (roundndd(v * 10000000.0) == roundndd(n * 10000000.0))?1:0; fprintf(stderr, " %s/%s: checking position %lu (at %"PRId64" secs), expecting value " NETDATA_DOUBLE_FORMAT ", found " NETDATA_DOUBLE_FORMAT ", %s\n", - test->name, rd->name, c+1, + test->name, rrddim_name(rd), c+1, (int64_t)((rrdset_first_entry_t(st) + c * st->update_every) - time_start), n, v, (same)?"OK":"### E R R O R ###"); @@ -1243,7 +1300,7 @@ int run_test(struct test *test) same = (roundndd(v * 10000000.0) == roundndd(n * 10000000.0))?1:0; fprintf(stderr, " %s/%s: checking position %lu (at %"PRId64" secs), expecting value " NETDATA_DOUBLE_FORMAT ", found " NETDATA_DOUBLE_FORMAT ", %s\n", - test->name, rd2->name, c+1, + test->name, rrddim_name(rd2), c+1, (int64_t)((rrdset_first_entry_t(st) + c * st->update_every) - time_start), n, v, (same)?"OK":"### E R R O R ###"); if(!same) errors++; @@ -1258,39 +1315,39 @@ static int test_variable_renames(void) { fprintf(stderr, "Creating chart\n"); RRDSET *st = rrdset_create_localhost("chart", "ID", NULL, "family", "context", "Unit Testing", "a value", "unittest", NULL, 1, 1, RRDSET_TYPE_LINE); - fprintf(stderr, "Created chart with id '%s', name '%s'\n", st->id, st->name); + fprintf(stderr, "Created chart with id '%s', name '%s'\n", rrdset_id(st), rrdset_name(st)); fprintf(stderr, "Creating dimension DIM1\n"); RRDDIM *rd1 = rrddim_add(st, "DIM1", NULL, 1, 1, RRD_ALGORITHM_INCREMENTAL); - fprintf(stderr, "Created dimension with id '%s', name '%s'\n", rd1->id, rd1->name); + fprintf(stderr, "Created dimension with id '%s', name '%s'\n", rrddim_id(rd1), rrddim_name(rd1)); fprintf(stderr, "Creating dimension DIM2\n"); RRDDIM *rd2 = rrddim_add(st, "DIM2", NULL, 1, 1, RRD_ALGORITHM_INCREMENTAL); - fprintf(stderr, "Created dimension with id '%s', name '%s'\n", rd2->id, rd2->name); + fprintf(stderr, "Created dimension with id '%s', name '%s'\n", rrddim_id(rd2), rrddim_name(rd2)); fprintf(stderr, "Renaming chart to CHARTNAME1\n"); - rrdset_set_name(st, "CHARTNAME1"); - fprintf(stderr, "Renamed chart with id '%s' to name '%s'\n", st->id, st->name); + rrdset_reset_name(st, "CHARTNAME1"); + fprintf(stderr, "Renamed chart with id '%s' to name '%s'\n", rrdset_id(st), rrdset_name(st)); fprintf(stderr, "Renaming chart to CHARTNAME2\n"); - rrdset_set_name(st, "CHARTNAME2"); - fprintf(stderr, "Renamed chart with id '%s' to name '%s'\n", st->id, st->name); + rrdset_reset_name(st, "CHARTNAME2"); + fprintf(stderr, "Renamed chart with id '%s' to name '%s'\n", rrdset_id(st), rrdset_name(st)); fprintf(stderr, "Renaming dimension DIM1 to DIM1NAME1\n"); - rrddim_set_name(st, rd1, "DIM1NAME1"); - fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rd1->id, rd1->name); + rrddim_reset_name(st, rd1, "DIM1NAME1"); + fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rrddim_id(rd1), rrddim_name(rd1)); fprintf(stderr, "Renaming dimension DIM1 to DIM1NAME2\n"); - rrddim_set_name(st, rd1, "DIM1NAME2"); - fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rd1->id, rd1->name); + rrddim_reset_name(st, rd1, "DIM1NAME2"); + fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rrddim_id(rd1), rrddim_name(rd1)); fprintf(stderr, "Renaming dimension DIM2 to DIM2NAME1\n"); - rrddim_set_name(st, rd2, "DIM2NAME1"); - fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rd2->id, rd2->name); + rrddim_reset_name(st, rd2, "DIM2NAME1"); + fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rrddim_id(rd2), rrddim_name(rd2)); fprintf(stderr, "Renaming dimension DIM2 to DIM2NAME2\n"); - rrddim_set_name(st, rd2, "DIM2NAME2"); - fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rd2->id, rd2->name); + rrddim_reset_name(st, rd2, "DIM2NAME2"); + fprintf(stderr, "Renamed dimension with id '%s' to name '%s'\n", rrddim_id(rd2), rrddim_name(rd2)); BUFFER *buf = buffer_create(1); health_api_v1_chart_variables2json(st, buf); @@ -1447,9 +1504,8 @@ int unit_test(long delay, long shift) long increment = 1000; collected_number i = 0; - unsigned long c, dimensions = 0; + unsigned long c, dimensions = rrdset_number_of_dimensions(st); RRDDIM *rd; - for(rd = st->dimensions ; rd ; rd = rd->next) dimensions++; for(c = 0; c < 20 ;c++) { i += increment; @@ -1470,8 +1526,10 @@ int unit_test(long delay, long shift) } // prevent it from deleting the dimensions - for(rd = st->dimensions ; rd ; rd = rd->next) + rrddim_foreach_read(rd, st) { rd->last_collected_time.tv_sec = st->last_collected_time.tv_sec; + } + rrddim_foreach_done(rd); rrdset_done(st); } @@ -1486,10 +1544,10 @@ int unit_test(long delay, long shift) for(c = 0 ; c < st->counter ; c++) { fprintf(stderr, "\nPOSITION: c = %lu, EXPECTED VALUE %lu\n", c, (oincrement + c * increment + increment * (1000000 - shift) / 1000000 )* 10); - for(rd = st->dimensions ; rd ; rd = rd->next) { + rrddim_foreach_read(rd, st) { sn = rd->db[c]; cn = unpack_storage_number(sn); - fprintf(stderr, "\t %s " NETDATA_DOUBLE_FORMAT " (PACKED AS " STORAGE_NUMBER_FORMAT ") -> ", rd->id, cn, sn); + fprintf(stderr, "\t %s " NETDATA_DOUBLE_FORMAT " (PACKED AS " STORAGE_NUMBER_FORMAT ") -> ", rrddim_id(rd), cn, sn); if(rd == rdabs) v = ( oincrement @@ -1508,6 +1566,7 @@ int unit_test(long delay, long shift) ret = 1; } } + rrddim_foreach_done(rd); } if(ret) @@ -1527,19 +1586,19 @@ int test_sqlite(void) { return 1; } - rc = sqlite3_exec(db_meta, "CREATE TABLE IF NOT EXISTS mine (id1, id2);", 0, 0, NULL); + rc = sqlite3_exec_monitored(db_meta, "CREATE TABLE IF NOT EXISTS mine (id1, id2);", 0, 0, NULL); if (rc != SQLITE_OK) { fprintf(stderr,"Failed to test SQLite: Create table failed\n"); return 1; } - rc = sqlite3_exec(db_meta, "DELETE FROM MINE LIMIT 1;", 0, 0, NULL); + rc = sqlite3_exec_monitored(db_meta, "DELETE FROM MINE LIMIT 1;", 0, 0, NULL); if (rc != SQLITE_OK) { fprintf(stderr,"Failed to test SQLite: Delete with LIMIT failed\n"); return 1; } - rc = sqlite3_exec(db_meta, "UPDATE MINE SET id1=1 LIMIT 1;", 0, 0, NULL); + rc = sqlite3_exec_monitored(db_meta, "UPDATE MINE SET id1=1 LIMIT 1;", 0, 0, NULL); if (rc != SQLITE_OK) { fprintf(stderr,"Failed to test SQLite: Update with LIMIT failed\n"); return 1; @@ -1548,58 +1607,24 @@ int test_sqlite(void) { BUFFER *sql = buffer_create(ACLK_SYNC_QUERY_SIZE); char *uuid_str = "0000_000"; - buffer_sprintf(sql, TABLE_ACLK_CHART, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - buffer_flush(sql); - if (rc != SQLITE_OK) - goto error; - - buffer_sprintf(sql, TABLE_ACLK_CHART_PAYLOAD, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - buffer_flush(sql); - if (rc != SQLITE_OK) - goto error; - - buffer_sprintf(sql, TABLE_ACLK_CHART_LATEST, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - if (rc != SQLITE_OK) - goto error; - buffer_flush(sql); - - buffer_sprintf(sql, INDEX_ACLK_CHART, uuid_str, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - if (rc != SQLITE_OK) - goto error; - buffer_flush(sql); - - buffer_sprintf(sql, INDEX_ACLK_CHART_LATEST, uuid_str, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - if (rc != SQLITE_OK) - goto error; - buffer_flush(sql); - - buffer_sprintf(sql, TRIGGER_ACLK_CHART_PAYLOAD, uuid_str, uuid_str, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); - if (rc != SQLITE_OK) - goto error; - buffer_flush(sql); - buffer_sprintf(sql, TABLE_ACLK_ALERT, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); + rc = sqlite3_exec_monitored(db_meta, buffer_tostring(sql), 0, 0, NULL); if (rc != SQLITE_OK) goto error; buffer_flush(sql); buffer_sprintf(sql, INDEX_ACLK_ALERT, uuid_str, uuid_str); - rc = sqlite3_exec(db_meta, buffer_tostring(sql), 0, 0, NULL); + rc = sqlite3_exec_monitored(db_meta, buffer_tostring(sql), 0, 0, NULL); if (rc != SQLITE_OK) goto error; buffer_flush(sql); buffer_free(sql); fprintf(stderr,"SQLite is OK\n"); + rc = sqlite3_close_v2(db_meta); return 0; error: + rc = sqlite3_close_v2(db_meta); fprintf(stderr,"SQLite statement failed: %s\n", buffer_tostring(sql)); buffer_free(sql); fprintf(stderr,"SQLite tests failed\n"); @@ -1634,28 +1659,28 @@ int unit_test_bitmap256(void) { if (test_bitmap.data[0] == 0xffffffffffffffff) fprintf(stderr, "%s() INDEX 0 is fully set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 0 is %lx expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); + fprintf(stderr, "%s() INDEX 0 is %"PRIu64" expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); return 1; } if (test_bitmap.data[1] == 0xffffffffffffffff) fprintf(stderr, "%s() INDEX 1 is fully set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 1 is %lx expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); + fprintf(stderr, "%s() INDEX 1 is %"PRIu64" expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); return 1; } if (test_bitmap.data[2] == 0xffffffffffffffff) fprintf(stderr, "%s() INDEX 2 is fully set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 2 is %lx expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); + fprintf(stderr, "%s() INDEX 2 is %"PRIu64" expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); return 1; } if (test_bitmap.data[3] == 0xffffffffffffffff) fprintf(stderr, "%s() INDEX 3 is fully set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 3 is %lx expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); + fprintf(stderr, "%s() INDEX 3 is %"PRIu64" expected 0xffffffffffffffff\n", __FUNCTION__, test_bitmap.data[0]); return 1; } @@ -1704,28 +1729,28 @@ int unit_test_bitmap256(void) { if (test_bitmap.data[0] == 0x1111111111111111) fprintf(stderr, "%s() INDEX 0 is 0x1111111111111111 set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 0 is %lx expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[0]); + fprintf(stderr, "%s() INDEX 0 is %"PRIu64" expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[0]); return 1; } if (test_bitmap.data[1] == 0x1111111111111111) fprintf(stderr, "%s() INDEX 1 is 0x1111111111111111 set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 1 is %lx expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[1]); + fprintf(stderr, "%s() INDEX 1 is %"PRIu64" expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[1]); return 1; } if (test_bitmap.data[2] == 0x1111111111111111) fprintf(stderr, "%s() INDEX 2 is 0x1111111111111111 set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 2 is %lx expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[2]); + fprintf(stderr, "%s() INDEX 2 is %"PRIu64" expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[2]); return 1; } if (test_bitmap.data[3] == 0x1111111111111111) fprintf(stderr, "%s() INDEX 3 is 0x1111111111111111 set OK\n", __FUNCTION__); else { - fprintf(stderr, "%s() INDEX 3 is %lx expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[3]); + fprintf(stderr, "%s() INDEX 3 is %"PRIu64" expected 0x1111111111111111\n", __FUNCTION__, test_bitmap.data[3]); return 1; } @@ -1771,6 +1796,9 @@ static RRDHOST *dbengine_rrdhost_find_or_create(char *name) , default_rrdpush_destination , default_rrdpush_api_key , default_rrdpush_send_charts_matching + , default_rrdpush_enable_replication + , default_rrdpush_seconds_to_replicate + , default_rrdpush_replication_step , NULL , 0 ); @@ -1826,7 +1854,10 @@ static void test_dbengine_create_charts(RRDHOST *host, RRDSET *st[CHARTS], RRDDI for (j = 0; j < DIMS; ++j) { rrddim_set_by_pointer_fake_time(rd[i][j], 69, 2 * API_RELATIVE_TIME_MAX); // set first value to 69 } - rrdset_done(st[i]); + + struct timeval now; + now_realtime_timeval(&now); + rrdset_timed_done(st[i], now, false); } // Fluh pages for subsequent real values for (i = 0 ; i < CHARTS ; ++i) { @@ -1850,6 +1881,8 @@ static time_t test_dbengine_create_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS // feed it with the test data for (i = 0 ; i < CHARTS ; ++i) { for (j = 0 ; j < DIMS ; ++j) { + rd[i][j]->tiers[0]->collect_ops->change_collection_frequency(rd[i][j]->tiers[0]->db_collection_handle, update_every); + rd[i][j]->last_collected_time.tv_sec = st[i]->last_collected_time.tv_sec = st[i]->last_updated.tv_sec = time_now; rd[i][j]->last_collected_time.tv_usec = @@ -1858,7 +1891,8 @@ static time_t test_dbengine_create_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS } for (c = 0; c < REGION_POINTS[current_region] ; ++c) { time_now += update_every; // time_now = start + (c + 1) * update_every - for (i = 0 ; i < CHARTS ; ++i) { + + for (i = 0 ; i < CHARTS ; ++i) { st[i]->usec_since_last_update = USEC_PER_SEC * update_every; for (j = 0; j < DIMS; ++j) { @@ -1866,7 +1900,12 @@ static time_t test_dbengine_create_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS j * REGION_POINTS[current_region] + c; rrddim_set_by_pointer_fake_time(rd[i][j], next, time_now); } - rrdset_done(st[i]); + + struct timeval now; + now.tv_sec = time_now; + now.tv_usec = 0; + + rrdset_timed_done(st[i], now, false); } } return time_now; //time_end @@ -1882,7 +1921,7 @@ static int test_dbengine_check_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DI int i, j, k, c, errors, update_every; collected_number last; NETDATA_DOUBLE value, expected; - struct rrddim_query_handle handle; + struct storage_engine_query_handle handle; size_t value_errors = 0, time_errors = 0; update_every = REGION_UPDATE_EVERY[current_region]; @@ -1893,13 +1932,13 @@ static int test_dbengine_check_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DI time_now = time_start + (c + 1) * update_every; for (i = 0 ; i < CHARTS ; ++i) { for (j = 0; j < DIMS; ++j) { - rd[i][j]->tiers[0]->query_ops.init(rd[i][j]->tiers[0]->db_metric_handle, &handle, time_now, time_now + QUERY_BATCH * update_every, TIER_QUERY_FETCH_SUM); + rd[i][j]->tiers[0]->query_ops->init(rd[i][j]->tiers[0]->db_metric_handle, &handle, time_now, time_now + QUERY_BATCH * update_every); for (k = 0; k < QUERY_BATCH; ++k) { last = ((collected_number)i * DIMS) * REGION_POINTS[current_region] + j * REGION_POINTS[current_region] + c + k; expected = unpack_storage_number(pack_storage_number((NETDATA_DOUBLE)last, SN_DEFAULT_FLAGS)); - STORAGE_POINT sp = rd[i][j]->tiers[0]->query_ops.next_metric(&handle); + STORAGE_POINT sp = rd[i][j]->tiers[0]->query_ops->next_metric(&handle); value = sp.sum; time_retrieved = sp.start_time; end_time = sp.end_time; @@ -1909,19 +1948,19 @@ static int test_dbengine_check_metrics(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DI if(!value_errors) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", found " NETDATA_DOUBLE_FORMAT ", ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now + k * update_every, expected, value); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now + k * update_every, expected, value); value_errors++; errors++; } if(end_time != time_now + k * update_every) { if(!time_errors) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, found timestamp %lu ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now + k * update_every, (unsigned long)time_retrieved); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now + k * update_every, (unsigned long)time_retrieved); time_errors++; errors++; } } - rd[i][j]->tiers[0]->query_ops.finalize(&handle); + rd[i][j]->tiers[0]->query_ops->finalize(&handle); } } } @@ -1940,7 +1979,7 @@ static int test_dbengine_check_rrdr(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DIMS] int current_region, time_t time_start, time_t time_end) { int update_every = REGION_UPDATE_EVERY[current_region]; - fprintf(stderr, "%s() running on region %d, start time %ld, end time %ld, update every %d...\n", __FUNCTION__, current_region, time_start, time_end, update_every); + fprintf(stderr, "%s() running on region %d, start time %lld, end time %lld, update every %d...\n", __FUNCTION__, current_region, (long long)time_start, (long long)time_end, update_every); uint8_t same; time_t time_now, time_retrieved; int i, j, errors, value_errors = 0, time_errors = 0; @@ -1952,22 +1991,25 @@ static int test_dbengine_check_rrdr(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DIMS] long points = (time_end - time_start) / update_every; for (i = 0 ; i < CHARTS ; ++i) { ONEWAYALLOC *owa = onewayalloc_create(0); - RRDR *r = rrd2rrdr(owa, st[i], points, time_start, time_end, - RRDR_GROUPING_AVERAGE, 0, RRDR_OPTION_NATURAL_POINTS, - NULL, NULL, NULL, 0, 0); - + RRDR *r = rrd2rrdr_legacy(owa, st[i], points, time_start, time_end, + RRDR_GROUPING_AVERAGE, 0, RRDR_OPTION_NATURAL_POINTS, + NULL, NULL, 0, 0, QUERY_SOURCE_UNITTEST); if (!r) { - fprintf(stderr, " DB-engine unittest %s: empty RRDR on region %d ### E R R O R ###\n", st[i]->name, current_region); + fprintf(stderr, " DB-engine unittest %s: empty RRDR on region %d ### E R R O R ###\n", rrdset_name(st[i]), current_region); return ++errors; } else { - assert(r->st == st[i]); - for (c = 0; c != rrdr_rows(r) ; ++c) { + assert(r->internal.qt->request.st == st[i]); + for (c = 0; c != (long)rrdr_rows(r) ; ++c) { RRDDIM *d; time_now = time_start + (c + 1) * update_every; time_retrieved = r->t[c]; // for each dimension - for (j = 0, d = r->st->dimensions ; d && j < r->d ; ++j, d = d->next) { + rrddim_foreach_read(d, r->internal.qt->request.st) { + if(unlikely(d_dfe.counter >= r->d)) break; // d_counter is provided by the dictionary dfe + + j = (int)d_dfe.counter; + NETDATA_DOUBLE *cn = &r->v[ c * r->d ]; value = cn[j]; assert(rd[i][j] == d); @@ -1980,16 +2022,17 @@ static int test_dbengine_check_rrdr(RRDSET *st[CHARTS], RRDDIM *rd[CHARTS][DIMS] if(value_errors < 20) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", RRDR found " NETDATA_DOUBLE_FORMAT ", ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now, expected, value); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now, expected, value); value_errors++; } if(time_retrieved != time_now) { if(time_errors < 20) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, found RRDR timestamp %lu ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now, (unsigned long)time_retrieved); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now, (unsigned long)time_retrieved); time_errors++; } } + rrddim_foreach_done(d); } rrdr_free(owa, r); } @@ -2086,24 +2129,29 @@ int test_dbengine(void) long point_offset = (time_start[current_region] - time_start[0]) / update_every; for (i = 0 ; i < CHARTS ; ++i) { ONEWAYALLOC *owa = onewayalloc_create(0); - RRDR *r = rrd2rrdr(owa, st[i], points, time_start[0] + update_every, - time_end[REGIONS - 1], RRDR_GROUPING_AVERAGE, 0, - RRDR_OPTION_NATURAL_POINTS, NULL, NULL, NULL, 0, 0); + RRDR *r = rrd2rrdr_legacy(owa, st[i], points, time_start[0] + update_every, + time_end[REGIONS - 1], RRDR_GROUPING_AVERAGE, 0, + RRDR_OPTION_NATURAL_POINTS, NULL, NULL, 0, 0, QUERY_SOURCE_UNITTEST); + if (!r) { - fprintf(stderr, " DB-engine unittest %s: empty RRDR ### E R R O R ###\n", st[i]->name); + fprintf(stderr, " DB-engine unittest %s: empty RRDR ### E R R O R ###\n", rrdset_name(st[i])); ++errors; } else { long c; - assert(r->st == st[i]); + assert(r->internal.qt->request.st == st[i]); // test current region values only, since they must be left unchanged - for (c = point_offset ; c < point_offset + rrdr_rows(r) / REGIONS / 2 ; ++c) { + for (c = point_offset ; c < (long)(point_offset + rrdr_rows(r) / REGIONS / 2) ; ++c) { RRDDIM *d; time_t time_now = time_start[current_region] + (c - point_offset + 2) * update_every; time_t time_retrieved = r->t[c]; // for each dimension - for(j = 0, d = r->st->dimensions ; d && j < r->d ; ++j, d = d->next) { + rrddim_foreach_read(d, r->internal.qt->request.st) { + if(unlikely(d_dfe.counter >= r->d)) break; // d_counter is provided by the dictionary dfe + + j = (int)d_dfe.counter; + NETDATA_DOUBLE *cn = &r->v[ c * r->d ]; NETDATA_DOUBLE value = cn[j]; assert(rd[i][j] == d); @@ -2116,16 +2164,17 @@ int test_dbengine(void) if(!value_errors) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", RRDR found " NETDATA_DOUBLE_FORMAT ", ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now, expected, value); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now, expected, value); value_errors++; } if(time_retrieved != time_now) { if(!time_errors) fprintf(stderr, " DB-engine unittest %s/%s: at %lu secs, found RRDR timestamp %lu ### E R R O R ###\n", - st[i]->name, rd[i][j]->name, (unsigned long)time_now, (unsigned long)time_retrieved); + rrdset_name(st[i]), rrddim_name(rd[i][j]), (unsigned long)time_now, (unsigned long)time_retrieved); time_errors++; } } + rrddim_foreach_done(d); } rrdr_free(owa, r); } @@ -2133,9 +2182,9 @@ int test_dbengine(void) } error_out: rrd_wrlock(); - rrdeng_prepare_exit((struct rrdengine_instance *)host->storage_instance[0]); + rrdeng_prepare_exit((struct rrdengine_instance *)host->db[0].instance); rrdhost_delete_charts(host); - rrdeng_exit((struct rrdengine_instance *)host->storage_instance[0]); + rrdeng_exit((struct rrdengine_instance *)host->db[0].instance); rrd_unlock(); return errors + value_errors + time_errors; @@ -2313,7 +2362,7 @@ static void query_dbengine_chart(void *arg) time_t time_now, time_retrieved, end_time; collected_number generatedv; NETDATA_DOUBLE value, expected; - struct rrddim_query_handle handle; + struct storage_engine_query_handle handle; size_t value_errors = 0, time_errors = 0; do { @@ -2340,23 +2389,23 @@ static void query_dbengine_chart(void *arg) time_before = MIN(time_after + duration, time_max); /* up to 1 hour queries */ } - rd->tiers[0]->query_ops.init(rd->tiers[0]->db_metric_handle, &handle, time_after, time_before, TIER_QUERY_FETCH_SUM); + rd->tiers[0]->query_ops->init(rd->tiers[0]->db_metric_handle, &handle, time_after, time_before); ++thread_info->queries_nr; for (time_now = time_after ; time_now <= time_before ; time_now += update_every) { generatedv = generate_dbengine_chart_value(i, j, time_now); expected = unpack_storage_number(pack_storage_number((NETDATA_DOUBLE) generatedv, SN_DEFAULT_FLAGS)); - if (unlikely(rd->tiers[0]->query_ops.is_finished(&handle))) { + if (unlikely(rd->tiers[0]->query_ops->is_finished(&handle))) { if (!thread_info->delete_old_data) { /* data validation only when we don't delete */ fprintf(stderr, " DB-engine stresstest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", found data gap, ### E R R O R ###\n", - st->name, rd->name, (unsigned long) time_now, expected); + rrdset_name(st), rrddim_name(rd), (unsigned long) time_now, expected); ++thread_info->errors; } break; } - STORAGE_POINT sp = rd->tiers[0]->query_ops.next_metric(&handle); + STORAGE_POINT sp = rd->tiers[0]->query_ops->next_metric(&handle); value = sp.sum; time_retrieved = sp.start_time; end_time = sp.end_time; @@ -2365,7 +2414,7 @@ static void query_dbengine_chart(void *arg) if (!thread_info->delete_old_data) { /* data validation only when we don't delete */ fprintf(stderr, " DB-engine stresstest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", found data gap, ### E R R O R ###\n", - st->name, rd->name, (unsigned long) time_now, expected); + rrdset_name(st), rrddim_name(rd), (unsigned long) time_now, expected); ++thread_info->errors; } break; @@ -2378,7 +2427,7 @@ static void query_dbengine_chart(void *arg) if(!value_errors) fprintf(stderr, " DB-engine stresstest %s/%s: at %lu secs, expecting value " NETDATA_DOUBLE_FORMAT ", found " NETDATA_DOUBLE_FORMAT ", ### E R R O R ###\n", - st->name, rd->name, (unsigned long) time_now, expected, value); + rrdset_name(st), rrddim_name(rd), (unsigned long) time_now, expected, value); value_errors++; thread_info->errors++; } @@ -2388,13 +2437,13 @@ static void query_dbengine_chart(void *arg) if(!time_errors) fprintf(stderr, " DB-engine stresstest %s/%s: at %lu secs, found timestamp %lu ### E R R O R ###\n", - st->name, rd->name, (unsigned long) time_now, (unsigned long) time_retrieved); + rrdset_name(st), rrddim_name(rd), (unsigned long) time_now, (unsigned long) time_retrieved); time_errors++; thread_info->errors++; } } } - rd->tiers[0]->query_ops.finalize(&handle); + rd->tiers[0]->query_ops->finalize(&handle); } while(!thread_info->done); if(value_errors) @@ -2515,7 +2564,7 @@ void dbengine_stress_test(unsigned TEST_DURATION_SEC, unsigned DSET_CHARTS, unsi test_duration = now_realtime_sec() - (time_start - HISTORY_SECONDS); if (!test_duration) test_duration = 1; - fprintf(stderr, "\nDB-engine stress test finished in %ld seconds.\n", test_duration); + fprintf(stderr, "\nDB-engine stress test finished in %lld seconds.\n", (long long)test_duration); unsigned long stored_metrics_nr = 0; for (i = 0 ; i < DSET_CHARTS ; ++i) { stored_metrics_nr += chart_threads[i]->stored_metrics_nr; @@ -2530,8 +2579,8 @@ void dbengine_stress_test(unsigned TEST_DURATION_SEC, unsigned DSET_CHARTS, unsi fprintf(stderr, "%lu metric data points were queried by %u reader threads.\n", queried_metrics_nr, QUERY_THREADS); fprintf(stderr, "Query starting time is randomly chosen from the beginning of the time-series up to the time of\n" "the latest data point, and ending time from 1 second up to 1 hour after the starting time.\n"); - fprintf(stderr, "Performance is %lu written data points/sec and %lu read data points/sec.\n", - stored_metrics_nr / test_duration, queried_metrics_nr / test_duration); + fprintf(stderr, "Performance is %lld written data points/sec and %lld read data points/sec.\n", + (long long)(stored_metrics_nr / test_duration), (long long)(queried_metrics_nr / test_duration)); for (i = 0 ; i < DSET_CHARTS ; ++i) { freez(chart_threads[i]); @@ -2542,9 +2591,9 @@ void dbengine_stress_test(unsigned TEST_DURATION_SEC, unsigned DSET_CHARTS, unsi } freez(query_threads); rrd_wrlock(); - rrdeng_prepare_exit((struct rrdengine_instance *)host->storage_instance[0]); + rrdeng_prepare_exit((struct rrdengine_instance *)host->db[0].instance); rrdhost_delete_charts(host); - rrdeng_exit((struct rrdengine_instance *)host->storage_instance[0]); + rrdeng_exit((struct rrdengine_instance *)host->db[0].instance); rrd_unlock(); } -- cgit v1.2.3