/* * Copyright (C) 2018 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU General Public License v.2. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "units.h" #include "device_mapper/vdo/target.h" //---------------------------------------------------------------- static bool _status_eq(struct dm_vdo_status *lhs, struct dm_vdo_status *rhs) { return !strcmp(lhs->device, rhs->device) && (lhs->operating_mode == rhs->operating_mode) && (lhs->recovering == rhs->recovering) && (lhs->index_state == rhs->index_state) && (lhs->compression_state == rhs->compression_state) && (lhs->used_blocks == rhs->used_blocks) && (lhs->total_blocks == rhs->total_blocks); } #if 0 static const char *_op_mode(enum dm_vdo_operating_mode m) { switch (m) { case DM_VDO_MODE_RECOVERING: return "recovering"; case DM_VDO_MODE_READ_ONLY: return "read-only"; case DM_VDO_MODE_NORMAL: return "normal"; } return ""; } static const char *_index_state(enum dm_vdo_index_state is) { switch (is) { case DM_VDO_INDEX_ERROR: return "error"; case DM_VDO_INDEX_CLOSED: return "closed"; case DM_VDO_INDEX_OPENING: return "opening"; case DM_VDO_INDEX_CLOSING: return "closing"; case DM_VDO_INDEX_OFFLINE: return "offline"; case DM_VDO_INDEX_ONLINE: return "online"; case DM_VDO_INDEX_UNKNOWN: return "unknown"; } return ""; } static void _print_status(FILE *stream, struct dm_vdo_status *s) { fprintf(stream, "device); fprintf(stream, "%s ", _op_mode(s->operating_mode)); fprintf(stream, "%s ", s->recovering ? "recovering" : "-"); fprintf(stream, "%s ", _index_state(s->index_state)); fprintf(stream, "%s ", s->compression_state == DM_VDO_COMPRESSION_ONLINE ? "online" : "offline"); fprintf(stream, "%llu ", (unsigned long long) s->used_blocks); fprintf(stream, "%llu", (unsigned long long) s->total_blocks); fprintf(stream, ">"); } #endif struct example_good { const char *input; struct dm_vdo_status status; }; static void _check_good(struct example_good *es, unsigned count) { unsigned i; for (i = 0; i < count; i++) { struct example_good *e = es + i; struct dm_vdo_status_parse_result pr; T_ASSERT(dm_vdo_status_parse(NULL, e->input, &pr)); #if 0 _print_status(stderr, pr.status); fprintf(stderr, "\n"); _print_status(stderr, &e->status); fprintf(stderr, "\n"); #endif T_ASSERT(_status_eq(&e->status, pr.status)); free(pr.status); } } struct example_bad { const char *input; const char *reason; }; static void _check_bad(struct example_bad *es, unsigned count) { unsigned i; for (i = 0; i < count; i++) { struct example_bad *e = es + i; struct dm_vdo_status_parse_result pr; T_ASSERT(!dm_vdo_status_parse(NULL, e->input, &pr)); T_ASSERT(!strcmp(e->reason, pr.error)); } } static void _test_device_names_good(void *fixture) { static struct example_good _es[] = { {"foo1234 read-only - error online 0 1234", {(char *) "foo1234", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"f read-only - error online 0 1234", {(char *) "f", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_operating_mode_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name read-only - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name normal - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_NORMAL, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_operating_mode_bad(void *fixture) { static struct example_bad _es[] = { {"device-name investigating - error online 0 1234", "couldn't parse 'operating mode'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_recovering_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name read-only recovering error online 0 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, true, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_recovering_bad(void *fixture) { static struct example_bad _es[] = { {"device-name normal fish error online 0 1234", "couldn't parse 'recovering'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_index_state_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - closed online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_CLOSED, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - opening online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_OPENING, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - closing online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_CLOSING, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - offline online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_OFFLINE, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - online online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ONLINE, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - unknown online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_UNKNOWN, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_index_state_bad(void *fixture) { static struct example_bad _es[] = { {"device-name normal - fish online 0 1234", "couldn't parse 'index state'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_compression_state_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name read-only - error offline 0 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_OFFLINE, 0, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_compression_state_bad(void *fixture) { static struct example_bad _es[] = { {"device-name normal - error fish 0 1234", "couldn't parse 'compression state'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_used_blocks_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name read-only - error offline 1 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_OFFLINE, 1, 1234}}, {"device-name read-only - error offline 12 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_OFFLINE, 12, 1234}}, {"device-name read-only - error offline 3456 1234", {(char *) "device-name", DM_VDO_MODE_READ_ONLY, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_OFFLINE, 3456, 1234}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_used_blocks_bad(void *fixture) { static struct example_bad _es[] = { {"device-name normal - error online fish 1234", "couldn't parse 'used blocks'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_total_blocks_good(void *fixture) { static struct example_good _es[] = { {"device-name recovering - error online 0 1234", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1234}}, {"device-name recovering - error online 0 1", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 1}}, {"device-name recovering - error online 0 0", {(char *) "device-name", DM_VDO_MODE_RECOVERING, false, DM_VDO_INDEX_ERROR, DM_VDO_COMPRESSION_ONLINE, 0, 0}}, }; _check_good(_es, DM_ARRAY_SIZE(_es)); } static void _test_total_blocks_bad(void *fixture) { static struct example_bad _es[] = { {"device-name normal - error online 0 fish", "couldn't parse 'total blocks'"}}; _check_bad(_es, DM_ARRAY_SIZE(_es)); } static void _test_status_bad(void *fixture) { struct example_bad _bad[] = { {"", "couldn't get token for device"}, {"device-name read-only - error online 0 1000 lksd", "too many tokens"} }; _check_bad(_bad, DM_ARRAY_SIZE(_bad)); } //---------------------------------------------------------------- #define T(path, desc, fn) register_test(ts, "/device-mapper/vdo/status/" path, desc, fn) static struct test_suite *_tests(void) { struct test_suite *ts = test_suite_create(NULL, NULL); if (!ts) { fprintf(stderr, "out of memory\n"); exit(1); }; T("device-names", "parse various device names", _test_device_names_good); T("operating-mode-good", "operating mode, good examples", _test_operating_mode_good); T("operating-mode-bad", "operating mode, bad examples", _test_operating_mode_bad); T("recovering-good", "recovering, good examples", _test_recovering_good); T("recovering-bad", "recovering, bad examples", _test_recovering_bad); T("index-state-good", "index state, good examples", _test_index_state_good); T("index-state-bad", "index state, bad examples", _test_index_state_bad); T("compression-state-good", "compression state, good examples", _test_compression_state_good); T("compression-state-bad", "compression state, bad examples", _test_compression_state_bad); T("used-blocks-good", "used blocks, good examples", _test_used_blocks_good); T("used-blocks-bad", "used blocks, bad examples", _test_used_blocks_bad); T("total-blocks-good", "total blocks, good examples", _test_total_blocks_good); T("total-blocks-bad", "total blocks, bad examples", _test_total_blocks_bad); T("bad", "parse various badly formed vdo status lines", _test_status_bad); return ts; } void vdo_tests(struct dm_list *all_tests) { dm_list_add(all_tests, &_tests()->list); } //----------------------------------------------------------------