#!/usr/bin/env python3 import os from cli_tests import console from cli_tests.test_turso_cli import TestTursoShell sqlite_exec = "./scripts/limbo-sqlite3" sqlite_flags = os.getenv("SQLITE_FLAGS", "-q").split(" ") test_data = """CREATE TABLE numbers ( id INTEGER PRIMARY KEY, value FLOAT NOT NULL); INSERT INTO numbers (value) VALUES (1.0); INSERT INTO numbers (value) VALUES (2.0); INSERT INTO numbers (value) VALUES (3.0); INSERT INTO numbers (value) VALUES (4.0); INSERT INTO numbers (value) VALUES (5.0); INSERT INTO numbers (value) VALUES (6.0); INSERT INTO numbers (value) VALUES (7.0); CREATE TABLE test (value REAL, percent REAL); INSERT INTO test values (10, 25); INSERT INTO test values (20, 25); INSERT INTO test values (30, 25); INSERT INTO test values (40, 25); INSERT INTO test values (50, 25); INSERT INTO test values (60, 25); INSERT INTO test values (70, 25); """ def validate_string_uuid(res): return len(res) == 36 def test_uuid(): limbo = TestTursoShell() specific_time = "01945ca0-3189-76c0-9a8f-caf310fc8b8e" # these are built into the binary, so we just test they work limbo.run_test_fn( "SELECT hex(uuid4());", lambda res: int(res, 16) is not None, "uuid functions are registered properly with ext loaded", ) limbo.run_test_fn("SELECT uuid4_str();", lambda res: len(res) == 36) limbo.run_test_fn("SELECT hex(uuid7());", lambda res: int(res, 16) is not None) limbo.run_test_fn("SELECT uuid7_timestamp_ms(uuid7()) / 1000;", lambda res: res.isdigit()) limbo.run_test_fn("SELECT uuid7_str();", validate_string_uuid) limbo.run_test_fn("SELECT uuid_str(uuid7());", validate_string_uuid) limbo.run_test_fn("SELECT hex(uuid_blob(uuid7_str()));", lambda res: int(res, 16) is not None) limbo.run_test_fn("SELECT uuid_str(uuid_blob(uuid7_str()));", validate_string_uuid) limbo.run_test_fn( f"SELECT uuid7_timestamp_ms('{specific_time}') / 1000;", lambda res: res == "1736720789", ) limbo.run_test_fn( "SELECT gen_random_uuid();", validate_string_uuid, "scalar alias's are registered properly", ) limbo.quit() def true(res): return res == "1" def false(res): return res == "0" def null(res): return res == "" def test_regexp(): limbo = TestTursoShell(test_data) extension_path = "./target/debug/liblimbo_regexp" # before extension loads, assert no function limbo.run_test_fn( "SELECT regexp('a.c', 'abc');", lambda res: "Parse error: no such function" in res, ) limbo.run_test_fn(f".load {extension_path}", null) console.info(f"Extension {extension_path} loaded successfully.") limbo.run_test_fn("SELECT regexp('a.c', 'abc');", true) limbo.run_test_fn("SELECT regexp('a.c', 'ac');", false) limbo.run_test_fn("SELECT regexp('[0-9]+', 'the year is 2021');", true) limbo.run_test_fn("SELECT regexp('[0-9]+', 'the year is unknow');", false) limbo.run_test_fn("SELECT regexp_like('the year is 2021', '[0-9]+');", true) limbo.run_test_fn("SELECT regexp_like('the year is unknow', '[0-9]+');", false) limbo.run_test_fn( "SELECT regexp_substr('the year is 2021', '[0-9]+') = '2021';", true, ) limbo.run_test_fn("SELECT regexp_substr('the year is unknow', '[0-9]+');", null) limbo.run_test_fn( "select regexp_replace('the year is 2021', '[0-9]+', '2050') = 'the year is 2050';", true, ) limbo.run_test_fn( "select regexp_replace('the year is 2021', '2k21', '2050') = 'the year is 2021';", true, ) limbo.run_test_fn( "select regexp_replace('the year is 2021', '([0-9]+)', '$1 or 2050') = 'the year is 2021 or 2050';", true, ) limbo.quit() def validate_median(res): return res == "4.0" def validate_median_odd(res): return res == "4.5" def validate_percentile1(res): return res == "25.0" def validate_percentile2(res): return res == "43.0" def validate_percentile_disc(res): return res == "40.0" def test_aggregates(): limbo = TestTursoShell(init_commands=test_data) extension_path = "./target/debug/liblimbo_percentile" # assert no function before extension loads limbo.run_test_fn( "SELECT median(1);", lambda res: "error: no such function: " in res, "median agg function returns null when ext not loaded", ) limbo.execute_dot(f".load {extension_path}") limbo.run_test_fn( "select median(value) from numbers;", validate_median, "median agg function works", ) limbo.execute_dot("INSERT INTO numbers (value) VALUES (8.0);\n") limbo.run_test_fn( "select median(value) from numbers;", validate_median_odd, "median agg function works with odd number of elements", ) limbo.run_test_fn( "SELECT percentile(value, percent) from test;", validate_percentile1, "test aggregate percentile function with 2 arguments works", ) limbo.run_test_fn( "SELECT percentile(value, 55) from test;", validate_percentile2, "test aggregate percentile function with 1 argument works", ) limbo.run_test_fn("SELECT percentile_cont(value, 0.25) from test;", validate_percentile1) limbo.run_test_fn("SELECT percentile_disc(value, 0.55) from test;", validate_percentile_disc) limbo.quit() # Encoders and decoders def validate_url_encode(a): return a == "%2Fhello%3Ftext%3D%28%E0%B2%A0_%E0%B2%A0%29" def validate_url_decode(a): return a == "/hello?text=(ಠ_ಠ)" def validate_hex_encode(a): return a == "68656c6c6f" def validate_hex_decode(a): return a == "hello" def validate_base85_encode(a): return a == "BOu!rDZ" def validate_base85_decode(a): return a == "hello" def validate_base32_encode(a): return a == "NBSWY3DP" def validate_base32_decode(a): return a == "hello" def validate_base64_encode(a): return a == "aGVsbG8=" def validate_base64_decode(a): return a == "hello" def test_crypto(): limbo = TestTursoShell() extension_path = "./target/debug/liblimbo_crypto" # assert no function before extension loads limbo.run_test_fn( "SELECT crypto_blake('a');", lambda res: "Parse error" in res, "crypto_blake3 returns null when ext not loaded", ) limbo.execute_dot(f".load {extension_path}") # Hashing and Decode limbo.run_test_fn( "SELECT crypto_encode(crypto_blake3('abc'), 'hex');", lambda res: res == "6437b3ac38465133ffb63b75273a8db548c558465d79db03fd359c6cd5bd9d85", "blake3 should encrypt correctly", ) limbo.run_test_fn( "SELECT crypto_encode(crypto_md5('abc'), 'hex');", lambda res: res == "900150983cd24fb0d6963f7d28e17f72", "md5 should encrypt correctly", ) limbo.run_test_fn( "SELECT crypto_encode(crypto_sha1('abc'), 'hex');", lambda res: res == "a9993e364706816aba3e25717850c26c9cd0d89d", "sha1 should encrypt correctly", ) limbo.run_test_fn( "SELECT crypto_encode(crypto_sha256('abc'), 'hex');", lambda a: a == "ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad", "sha256 should encrypt correctly", ) limbo.run_test_fn( "SELECT crypto_encode(crypto_sha384('abc'), 'hex');", lambda a: a == "cb00753f45a35e8bb5a03d699ac65007272c32ab0eded1631a8b605a43ff5bed8086072ba1e7cc2358baeca134c825a7", "sha384 should encrypt correctly", ) limbo.run_test_fn( "SELECT crypto_encode(crypto_sha512('abc'), 'hex');", lambda a: a == "ddaf35a193617abacc417349ae20413112e6fa4e89a97ea20a9eeee64b55d39a2192992a274fc1a836ba3c23a3feebbd454d4423643ce80e2a9ac94fa54ca49f", # noqa: E501 "sha512 should encrypt correctly", ) # Encoding and Decoding limbo.run_test_fn( "SELECT crypto_encode('hello', 'base32');", validate_base32_encode, "base32 should encode correctly", ) limbo.run_test_fn( "SELECT crypto_decode('NBSWY3DP', 'base32');", validate_base32_decode, "base32 should decode correctly", ) limbo.run_test_fn( "SELECT crypto_encode('hello', 'base64');", validate_base64_encode, "base64 should encode correctly", ) limbo.run_test_fn( "SELECT crypto_decode('aGVsbG8=', 'base64');", validate_base64_decode, "base64 should decode correctly", ) limbo.run_test_fn( "SELECT crypto_encode('hello', 'base85');", validate_base85_encode, "base85 should encode correctly", ) limbo.run_test_fn( "SELECT crypto_decode('BOu!rDZ', 'base85');", validate_base85_decode, "base85 should decode correctly", ) limbo.run_test_fn( "SELECT crypto_encode('hello', 'hex');", validate_hex_encode, "hex should encode correctly", ) limbo.run_test_fn( "SELECT crypto_decode('68656c6c6f', 'hex');", validate_hex_decode, "hex should decode correctly", ) limbo.run_test_fn( "SELECT crypto_encode('/hello?text=(ಠ_ಠ)', 'url');", validate_url_encode, "url should encode correctly", ) limbo.run_test_fn( "SELECT crypto_decode('%2Fhello%3Ftext%3D%28%E0%B2%A0_%E0%B2%A0%29', 'url');", validate_url_decode, "url should decode correctly", ) limbo.quit() def test_series(): console.info("Running test_series for Limbo") limbo = TestTursoShell() _test_series(limbo) console.info("Running test_series for SQLite") limbo = TestTursoShell(exec_name="sqlite3") _test_series(limbo) def _test_series(limbo: TestTursoShell): limbo.run_test_fn( "SELECT * FROM generate_series(1, 10);", lambda res: res == "1\n2\n3\n4\n5\n6\n7\n8\n9\n10", ) limbo.run_test_fn( "SELECT * FROM generate_series(1, 10, 2);", lambda res: res == "1\n3\n5\n7\n9", ) limbo.run_test_fn( "SELECT * FROM generate_series(1, 10, 2, 3);", lambda res: "Invalid Argument" in res or "too many arguments" in res, ) limbo.run_test_fn( "SELECT * FROM generate_series(10, 1, -2);", lambda res: res == "10\n8\n6\n4\n2", ) limbo.execute_dot("CREATE TABLE target (id integer primary key);") limbo.execute_dot("INSERT INTO target SELECT * FROM generate_series(1, 5);") limbo.run_test_fn( "SELECT * FROM target;", lambda res: res == "1\n2\n3\n4\n5", ) limbo.quit() def test_kv(): _test_kv(exec_name=None, ext_path="target/debug/libturso_ext_tests") _test_kv(exec_name="sqlite3", ext_path="target/debug/liblimbo_sqlite_test_ext") def _test_kv(exec_name, ext_path): console.info(f"Running test_kv for {ext_path} in {exec_name}") limbo = TestTursoShell( exec_name=exec_name, ) # first, create a normal table to ensure no issues limbo.execute_dot("CREATE TABLE other (a,b,c);") limbo.execute_dot("INSERT INTO other values (23,32,23);") limbo.run_test_fn( "create virtual table t using kv_store;", lambda res: "no such module: kv_store" in res, ) limbo.execute_dot(f".load {ext_path}") limbo.execute_dot( "create virtual table t using kv_store;", ) limbo.run_test_fn(".schema", lambda res: "CREATE VIRTUAL TABLE t" in res) limbo.run_test_fn( "insert into t values ('hello', 'world');", null, "can insert into kv_store vtable", ) limbo.run_test_fn( "select value from t where key = 'hello';", lambda res: "world" == res, "can select from kv_store", ) limbo.run_test_fn( "delete from t where key = 'hello';", null, "can delete from kv_store", ) limbo.run_test_fn("insert into t values ('other', 'value');", null) limbo.run_test_fn( "select value from t where key = 'hello';", lambda res: "" == res, "proper data is deleted", ) limbo.run_test_fn( "select * from t;", lambda res: "other|value" == res, "can select after deletion", ) limbo.run_test_fn( "delete from t where key = 'other';", null, "can delete from kv_store", ) limbo.run_test_fn( "select * from t;", lambda res: "" == res, "can select empty table without error", ) limbo.run_test_fn( "delete from t;", null, "can delete from empty table without error", ) for i in range(100): limbo.execute_dot(f"insert into t values ('key{i}', 'val{i}');") limbo.run_test_fn("select count(*) from t;", lambda res: "100" == res, "can insert 100 rows") limbo.run_test_fn("update t set value = 'updated' where key = 'key33';", null) limbo.run_test_fn( "select * from t where key = 'key33';", lambda res: res == "key33|updated", "can update single row", ) limbo.run_test_fn( "select COUNT(*) from t where value = 'updated';", lambda res: res == "1", "only updated a single row", ) limbo.run_test_fn("update t set value = 'updated2';", null) limbo.run_test_fn( "select COUNT(*) from t where value = 'updated2';", lambda res: res == "100", "can update all rows", ) if exec_name is None: # Test only on Limbo, since SQLite supports the DELETE ... LIMIT syntax only when compiled # with the SQLITE_ENABLE_UPDATE_DELETE_LIMIT option: https://www.sqlite.org/lang_delete.html limbo.run_test_fn("delete from t limit 96;", null, "can delete 96 rows") limbo.run_test_fn("select count(*) from t;", lambda res: "4" == res, "four rows remain") limbo.run_test_fn("update t set key = '100' where 1;", null, "where clause evaluates properly") limbo.run_test_fn( "select * from t where key = '100';", lambda res: res == "100|updated2", "there is only 1 key remaining after setting all keys to same value", ) limbo.quit() def test_ipaddr(): limbo = TestTursoShell() ext_path = "./target/debug/liblimbo_ipaddr" limbo.run_test_fn( "SELECT ipfamily('192.168.1.1');", lambda res: "error: no such function: " in res, "ipfamily function returns null when ext not loaded", ) limbo.execute_dot(f".load {ext_path}") limbo.run_test_fn( "SELECT ipfamily('192.168.1.1');", lambda res: "4" == res, "ipfamily function returns 4 for IPv4", ) limbo.run_test_fn( "SELECT ipfamily('2001:db8::1');", lambda res: "6" == res, "ipfamily function returns 6 for IPv6", ) limbo.run_test_fn( "SELECT ipcontains('192.168.16.0/24', '192.168.16.3');", lambda res: "1" == res, "ipcontains function returns 1 for IPv4", ) limbo.run_test_fn( "SELECT ipcontains('192.168.1.0/24', '192.168.2.1');", lambda res: "0" == res, "ipcontains function returns 0 for IPv4", ) limbo.run_test_fn( "SELECT iphost('192.168.1.0/24');", lambda res: "192.168.1.0" == res, "iphost function returns the host for IPv4", ) limbo.run_test_fn( "SELECT iphost('2001:db8::1/128');", lambda res: "2001:db8::1" == res, "iphost function returns the host for IPv6", ) limbo.run_test_fn( "SELECT ipmasklen('192.168.1.0/24');", lambda res: "24" == res, "ipmasklen function returns the mask length for IPv4", ) limbo.run_test_fn( "SELECT ipmasklen('2001:db8::1');", lambda res: "128" == res, "ipmasklen function returns the mask length for IPv6", ) limbo.run_test_fn( "SELECT ipnetwork('192.168.16.12/24');", lambda res: "192.168.16.0/24" == res, "ipnetwork function returns the flattened CIDR for IPv4", ) limbo.run_test_fn( "SELECT ipnetwork('2001:db8::1');", lambda res: "2001:db8::1/128" == res, "ipnetwork function returns the network for IPv6", ) limbo.quit() def test_vfs(): limbo = TestTursoShell() ext_path = "target/debug/libturso_ext_tests" limbo.run_test_fn(".vfslist", lambda x: "testvfs" not in x, "testvfs not loaded") limbo.execute_dot(f".load {ext_path}") limbo.run_test_fn(".vfslist", lambda res: "testvfs" in res, "testvfs extension loaded") limbo.execute_dot(".open testing/vfs.db testvfs") limbo.execute_dot("create table test (id integer primary key, value float);") limbo.execute_dot("create table vfs (id integer primary key, value blob);") for i in range(50): limbo.execute_dot("insert into test (value) values (randomblob(32*1024));") limbo.execute_dot(f"insert into vfs (value) values ({i});") limbo.run_test_fn( "SELECT count(*) FROM test;", lambda res: res == "50", "Tested large write to testfs", ) limbo.run_test_fn( "SELECT count(*) FROM vfs;", lambda res: res == "50", "Tested large write to testfs", ) console.info("Tested large write to testfs") limbo.quit() def test_drop_virtual_table(): ext_path = "target/debug/libturso_ext_tests" limbo = TestTursoShell() limbo.execute_dot(f".load {ext_path}") limbo.run_debug( "create virtual table t using kv_store;", ) limbo.run_test_fn(".schema", lambda res: "CREATE VIRTUAL TABLE t" in res) limbo.run_test_fn( "insert into t values ('hello', 'world');", null, "can insert into kv_store vtable", ) limbo.run_test_fn( "DROP TABLE t;", lambda res: "VDestroy called" in res, "can drop kv_store vtable", ) limbo.run_test_fn( "DROP TABLE t;", lambda res: "× Parse error: No such table: t" == res, "should error when drop kv_store vtable", ) limbo.quit() def test_sqlite_vfs_compat(): sqlite = TestTursoShell( init_commands="", exec_name="sqlite3", flags="testing/vfs.db", ) sqlite.run_test_fn( ".show", lambda res: "filename: testing/vfs.db" in res, "Opened db file created with vfs extension in sqlite3", ) sqlite.run_test_fn( ".schema", lambda res: "CREATE TABLE test (id integer PRIMARY KEY, value float);" in res, "Tables created by vfs extension exist in db file", ) sqlite.run_test_fn( "SELECT count(*) FROM test;", lambda res: res == "50", "Tested large write to testfs", ) sqlite.run_test_fn( "SELECT count(*) FROM vfs;", lambda res: res == "50", "Tested large write to testfs", ) sqlite.quit() def test_create_virtual_table(): ext_path = "target/debug/libturso_ext_tests" limbo = TestTursoShell() limbo.execute_dot(f".load {ext_path}") limbo.run_debug("CREATE VIRTUAL TABLE t1 USING kv_store;") limbo.run_test_fn( "CREATE VIRTUAL TABLE t1 USING kv_store;", lambda res: "× Parse error: Table t1 already exists" == res, "create virtual table fails if virtual table with the same name already exists", ) limbo.run_test_fn( "CREATE VIRTUAL TABLE IF NOT EXISTS t1 USING kv_store;", null, "create virtual table with IF NOT EXISTS succeeds", ) limbo.run_debug("CREATE TABLE t2 (col INTEGER);") limbo.run_test_fn( "CREATE VIRTUAL TABLE t2 USING kv_store;", lambda res: "× Parse error: Table t2 already exists" == res, "create virtual table fails if regular table with the same name already exists", ) limbo.run_test_fn( "CREATE VIRTUAL TABLE IF NOT EXISTS t2 USING kv_store;", null, "create virtual table with IF NOT EXISTS succeeds", ) limbo.run_debug("CREATE VIRTUAL TABLE t3 USING kv_store;") limbo.run_test_fn( "CREATE TABLE t3 (col INTEGER);", lambda res: "× Parse error: Table t3 already exists" == res, "create table fails if virtual table with the same name already exists", ) limbo.quit() def test_csv(): limbo = TestTursoShell() ext_path = "./target/debug/liblimbo_csv" limbo.execute_dot(f".load {ext_path}") limbo.run_test_fn( "CREATE VIRTUAL TABLE temp.csv USING csv(filename=./testing/test_files/test.csv);", null, "Create virtual table from CSV file", ) limbo.run_test_fn( "SELECT * FROM temp.csv;", lambda res: res == "1|2.0|String'1\n3|4.0|String2", "Read all rows from CSV table", ) limbo.run_test_fn( "SELECT * FROM temp.csv WHERE c2 = 'String2';", lambda res: res == "3|4.0|String2", "Filter rows with WHERE clause", ) limbo.run_test_fn( "INSERT INTO temp.csv VALUES (5, 6.0, 'String3');", lambda res: "Virtual table update failed" in res, "INSERT into CSV table should fail", ) limbo.run_test_fn( "UPDATE temp.csv SET c0 = 10 WHERE c1 = '2.0';", lambda res: "Virtual table update failed" in res, "UPDATE on CSV table should fail", ) limbo.run_test_fn( "DELETE FROM temp.csv WHERE c1 = '2.0';", lambda res: "Virtual table update failed" in res, "DELETE on CSV table should fail", ) limbo.run_test_fn("DROP TABLE temp.csv;", null, "Drop CSV table") limbo.run_test_fn( "SELECT * FROM temp.csv;", lambda res: "Parse error: no such table: csv" in res, "Query dropped CSV table should fail", ) limbo.run_test_fn( "create virtual table t1 using csv(data='1'\\'2');", lambda res: "unrecognized token at" in res, "Create CSV table with malformed escape sequence", ) limbo.run_test_fn( "create virtual table t1 using csv(data=\"12');", lambda res: "non-terminated literal at" in res, "Create CSV table with unterminated quoted string", ) limbo.run_debug("create virtual table t1 using csv(data='');") limbo.run_test_fn( "SELECT c0 FROM t1;", lambda res: res == "", "Empty CSV table without a header should have one column: 'c0'", ) limbo.run_test_fn( "SELECT c1 FROM t1;", lambda res: "Parse error: Column c1 not found" in res, "Empty CSV table without header should not have columns other than 'c0'", ) limbo.run_debug("create virtual table t2 using csv(data='', header=true);") limbo.run_test_fn( 'SELECT "(NULL)" FROM t2;', lambda res: res == "", "Empty CSV table with header should have one column named '(NULL)'", ) limbo.run_test_fn( "SELECT c0 FROM t2;", lambda res: "Parse error: Column c0 not found" in res, "Empty CSV table with header should not have columns other than '(NULL)'", ) limbo.quit() def cleanup(): if os.path.exists("testing/vfs.db"): os.remove("testing/vfs.db") if os.path.exists("testing/vfs.db-wal"): os.remove("testing/vfs.db-wal") def test_tablestats(): ext_path = "target/debug/libturso_ext_tests" limbo = TestTursoShell(use_testing_db=True) limbo.execute_dot("CREATE TABLE people(id INTEGER PRIMARY KEY, name TEXT);") limbo.execute_dot("INSERT INTO people(name) VALUES ('Ada'), ('Grace'), ('Linus');") limbo.execute_dot("CREATE TABLE logs(ts INT, msg TEXT);") limbo.execute_dot("INSERT INTO logs VALUES (1,'boot ok');") # verify counts limbo.run_test_fn( "SELECT COUNT(*) FROM people;", lambda res: res == "3", "three people rowsverify user count", ) limbo.run_test_fn( "SELECT COUNT(*) FROM logs;", lambda res: res == "1", "one logs rowverify logs count", ) # load extension limbo.execute_dot(f".load {ext_path}") limbo.execute_dot("CREATE VIRTUAL TABLE stats USING tablestats;") def _split(res): return [ln.strip() for ln in res.splitlines() if ln.strip()] limbo.run_test_fn( "SELECT * FROM stats ORDER BY name;", lambda res: sorted(_split(res)) == sorted(["logs|1", "people|3", "products|11", "users|10000"]), "stats shows correct initial counts (and skips itself)", ) limbo.execute_dot("INSERT INTO logs VALUES (2,'panic'), (3,'recovery');") limbo.execute_dot("DELETE FROM people WHERE name='Linus';") limbo.run_test_fn( "SELECT * FROM stats WHERE name='logs';", lambda res: res == "logs|3", "row‑count grows after INSERT", ) limbo.run_test_fn( "SELECT * FROM stats WHERE name='people';", lambda res: res == "people|2", "row‑count shrinks after DELETE", ) # existing tables in the testing database (users, products) # the test extension is also doing a testing insert on every query # as part of its own testing, so we cannot assert 'products|11' # we need to add 3 for the 3 queries we did above. limbo.run_test_fn( "SELECT * FROM stats WHERE name='products';", lambda x: x == "products|14", "products table reflects changes", ) # an insert to products with (name,price) ('xConnect', 42) # has happened on each query (4 so far) in the testing extension. # so at this point the sum should be 168 limbo.run_test_fn( "SELECT sum(price) FROM products WHERE name = 'xConnect';", lambda x: x == "168.0", "price sum for 'xConnect' inserts happenning in the testing extension", ) limbo.run_test_fn( "SELECT * FROM stats WHERE name='users';", lambda x: x == "users|10000", "users table unchanged", ) limbo.execute_dot("CREATE TABLE misc(x);") limbo.run_test_fn( "SELECT * FROM stats WHERE name='misc';", lambda res: res == "misc|0", "newly‑created table shows up with zero rows", ) limbo.execute_dot("DROP TABLE logs;") limbo.run_test_fn( "SELECT name FROM stats WHERE name='logs';", lambda res: res == "", "dropped table disappears from stats", ) limbo.quit() def main(): try: test_regexp() test_uuid() test_aggregates() test_crypto() test_series() test_ipaddr() test_vfs() test_sqlite_vfs_compat() test_kv() test_drop_virtual_table() test_create_virtual_table() test_csv() test_tablestats() except Exception as e: console.error(f"Test FAILED: {e}") cleanup() exit(1) cleanup() console.info("All tests passed successfully.") if __name__ == "__main__": main()