#!/usr/bin/env python3 # Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved. from __future__ import absolute_import, division, print_function, unicode_literals import glob import os import os.path import re import shutil import subprocess import tempfile import time import unittest def my_check_output(*popenargs, **kwargs): """ If we had python 2.7, we should simply use subprocess.check_output. This is a stop-gap solution for python 2.6 """ if "stdout" in kwargs: raise ValueError("stdout argument not allowed, it will be overridden.") process = subprocess.Popen( stderr=subprocess.PIPE, stdout=subprocess.PIPE, *popenargs, **kwargs ) output, unused_err = process.communicate() retcode = process.poll() if retcode: cmd = kwargs.get("args") if cmd is None: cmd = popenargs[0] raise Exception("Exit code is not 0. It is %d. Command: %s" % (retcode, cmd)) return output.decode("utf-8") def run_err_null(cmd): return os.system(cmd + " 2>/dev/null ") class LDBTestCase(unittest.TestCase): def setUp(self): self.TMP_DIR = tempfile.mkdtemp(prefix="ldb_test_") self.DB_NAME = "testdb" def tearDown(self): assert ( self.TMP_DIR.strip() != "/" and self.TMP_DIR.strip() != "/tmp" and self.TMP_DIR.strip() != "/tmp/" ) # Just some paranoia shutil.rmtree(self.TMP_DIR) def dbParam(self, dbName): return "--db=%s" % os.path.join(self.TMP_DIR, dbName) def assertRunOKFull( self, params, expectedOutput, unexpected=False, isPattern=False ): """ All command-line params must be specified. Allows full flexibility in testing; for example: missing db param. """ output = my_check_output( './ldb %s |grep -v "Created bg thread"' % params, shell=True ) if not unexpected: if isPattern: self.assertNotEqual(expectedOutput.search(output.strip()), None) else: self.assertEqual(output.strip(), expectedOutput.strip()) else: if isPattern: self.assertEqual(expectedOutput.search(output.strip()), None) else: self.assertNotEqual(output.strip(), expectedOutput.strip()) def assertRunFAILFull(self, params): """ All command-line params must be specified. Allows full flexibility in testing; for example: missing db param. """ try: my_check_output( './ldb %s >/dev/null 2>&1 |grep -v "Created bg \ thread"' % params, shell=True, ) except Exception: return self.fail( "Exception should have been raised for command with params: %s" % params ) def assertRunOK(self, params, expectedOutput, unexpected=False): """ Uses the default test db. """ self.assertRunOKFull( "%s %s" % (self.dbParam(self.DB_NAME), params), expectedOutput, unexpected ) def assertRunFAIL(self, params): """ Uses the default test db. """ self.assertRunFAILFull("%s %s" % (self.dbParam(self.DB_NAME), params)) def testSimpleStringPutGet(self): print("Running testSimpleStringPutGet...") self.assertRunFAIL("put x1 y1") self.assertRunOK("put --create_if_missing x1 y1", "OK") self.assertRunOK("get x1", "y1") self.assertRunFAIL("get x2") self.assertRunOK("put x2 y2", "OK") self.assertRunOK("get x1", "y1") self.assertRunOK("get x2", "y2") self.assertRunFAIL("get x3") self.assertRunFAIL("put_entity x4") self.assertRunFAIL("put_entity x4 cv1") self.assertRunOK("put_entity x4 :cv1", "OK") self.assertRunOK("get_entity x4", ":cv1") self.assertRunOK("put_entity x5 cn1:cv1 cn2:cv2", "OK") self.assertRunOK("get_entity x5", "cn1:cv1 cn2:cv2") self.assertRunOK( "scan --from=x1 --to=z", "x1 ==> y1\nx2 ==> y2\nx4 ==> cv1\nx5 ==> cn1:cv1 cn2:cv2", ) self.assertRunOK("put x3 y3", "OK") self.assertRunOK( "scan --from=x1 --to=z", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> cv1\nx5 ==> cn1:cv1 cn2:cv2", ) self.assertRunOK( "scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> cv1\nx5 ==> cn1:cv1 cn2:cv2", ) self.assertRunOK( "scan --from=x", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> cv1\nx5 ==> cn1:cv1 cn2:cv2", ) self.assertRunOK("scan --to=x2", "x1 ==> y1") self.assertRunOK("scan --from=x1 --to=z --max_keys=1", "x1 ==> y1") self.assertRunOK("scan --from=x1 --to=z --max_keys=2", "x1 ==> y1\nx2 ==> y2") self.assertRunOK("delete x4", "OK") self.assertRunOK("delete x5", "OK") self.assertRunOK( "scan --from=x1 --to=z --max_keys=3", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3" ) self.assertRunOK( "scan --from=x1 --to=z --max_keys=4", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3" ) self.assertRunOK("scan --from=x1 --to=x2", "x1 ==> y1") self.assertRunOK("scan --from=x2 --to=x4", "x2 ==> y2\nx3 ==> y3") self.assertRunFAIL("scan --from=x4 --to=z") # No results => FAIL self.assertRunFAIL("scan --from=x1 --to=z --max_keys=foo") self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3") self.assertRunOK("delete x1", "OK") self.assertRunOK("scan", "x2 ==> y2\nx3 ==> y3") self.assertRunOK("delete NonExistentKey", "OK") # It is weird that GET and SCAN raise exception for # non-existent key, while delete does not self.assertRunOK("checkconsistency", "OK") def dumpDb(self, params, dumpFile): return 0 == run_err_null("./ldb dump %s > %s" % (params, dumpFile)) def loadDb(self, params, dumpFile): return 0 == run_err_null("cat %s | ./ldb load %s" % (dumpFile, params)) def writeExternSst(self, params, inputDumpFile, outputSst): return 0 == run_err_null( "cat %s | ./ldb write_extern_sst %s %s" % (inputDumpFile, outputSst, params) ) def ingestExternSst(self, params, inputSst): return 0 == run_err_null("./ldb ingest_extern_sst %s %s" % (inputSst, params)) def testStringBatchPut(self): print("Running testStringBatchPut...") self.assertRunOK("batchput x1 y1 --create_if_missing", "OK") self.assertRunOK("scan", "x1 ==> y1") self.assertRunOK('batchput x2 y2 x3 y3 "x4 abc" "y4 xyz"', "OK") self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 abc ==> y4 xyz") self.assertRunFAIL("batchput") self.assertRunFAIL("batchput k1") self.assertRunFAIL("batchput k1 v1 k2") def testBlobBatchPut(self): print("Running testBlobBatchPut...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("batchput x1 y1 --create_if_missing --enable_blob_files", "OK") self.assertRunOK("scan", "x1 ==> y1") self.assertRunOK( 'batchput --enable_blob_files x2 y2 x3 y3 "x4 abc" "y4 xyz"', "OK" ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 abc ==> y4 xyz") blob_files = self.getBlobFiles(dbPath) self.assertTrue(len(blob_files) >= 1) def testBlobPut(self): print("Running testBlobPut...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put --create_if_missing --enable_blob_files x1 y1", "OK") self.assertRunOK("get x1", "y1") self.assertRunOK("put --enable_blob_files x2 y2", "OK") self.assertRunOK("get x1", "y1") self.assertRunOK("get x2", "y2") self.assertRunFAIL("get x3") blob_files = self.getBlobFiles(dbPath) self.assertTrue(len(blob_files) >= 1) def testBlobStartingLevel(self): print("Running testBlobStartingLevel...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK( "put --create_if_missing --enable_blob_files --blob_file_starting_level=10 x1 y1", "OK", ) self.assertRunOK("get x1", "y1") blob_files = self.getBlobFiles(dbPath) self.assertTrue(len(blob_files) == 0) self.assertRunOK( "put --enable_blob_files --blob_file_starting_level=0 x2 y2", "OK" ) self.assertRunOK("get x1", "y1") self.assertRunOK("get x2", "y2") self.assertRunFAIL("get x3") blob_files = self.getBlobFiles(dbPath) self.assertTrue(len(blob_files) >= 1) def testCountDelimDump(self): print("Running testCountDelimDump...") self.assertRunOK("batchput x.1 x1 --create_if_missing", "OK") self.assertRunOK("batchput y.abc abc y.2 2 z.13c pqr", "OK") self.assertRunOK( "dump --count_delim", "x => count:1\tsize:5\ny => count:2\tsize:12\nz => count:1\tsize:8", ) self.assertRunOK( 'dump --count_delim="."', "x => count:1\tsize:5\ny => count:2\tsize:12\nz => count:1\tsize:8", ) self.assertRunOK("batchput x,2 x2 x,abc xabc", "OK") self.assertRunOK( 'dump --count_delim=","', "x => count:2\tsize:14\nx.1 => count:1\tsize:5\ny.2 => count:1\tsize:4\ny.abc => count:1\tsize:8\nz.13c => count:1\tsize:8", ) def testCountDelimIDump(self): print("Running testCountDelimIDump...") self.assertRunOK("batchput x.1 x1 --create_if_missing", "OK") self.assertRunOK("batchput y.abc abc y.2 2 z.13c pqr", "OK") self.assertRunOK( "idump --count_delim", "x => count:1\tsize:5\ny => count:2\tsize:12\nz => count:1\tsize:8", ) self.assertRunOK( 'idump --count_delim="."', "x => count:1\tsize:5\ny => count:2\tsize:12\nz => count:1\tsize:8", ) self.assertRunOK("batchput x,2 x2 x,abc xabc", "OK") self.assertRunOK( 'idump --count_delim=","', "x => count:2\tsize:14\nx.1 => count:1\tsize:5\ny.2 => count:1\tsize:4\ny.abc => count:1\tsize:8\nz.13c => count:1\tsize:8", ) def testInvalidCmdLines(self): print("Running testInvalidCmdLines...") # db not specified self.assertRunFAILFull("put 0x6133 0x6233 --hex --create_if_missing") # No param called he self.assertRunFAIL("put 0x6133 0x6233 --he --create_if_missing") # max_keys is not applicable for put self.assertRunFAIL("put 0x6133 0x6233 --max_keys=1 --create_if_missing") # hex has invalid boolean value def testHexPutGet(self): print("Running testHexPutGet...") self.assertRunOK("put a1 b1 --create_if_missing", "OK") self.assertRunOK("scan", "a1 ==> b1") self.assertRunOK("scan --hex", "0x6131 ==> 0x6231") self.assertRunFAIL("put --hex 6132 6232") self.assertRunOK("put --hex 0x6132 0x6232", "OK") self.assertRunOK("scan --hex", "0x6131 ==> 0x6231\n0x6132 ==> 0x6232") self.assertRunOK("scan", "a1 ==> b1\na2 ==> b2") self.assertRunOK("get a1", "b1") self.assertRunOK("get --hex 0x6131", "0x6231") self.assertRunOK("get a2", "b2") self.assertRunOK("get --hex 0x6132", "0x6232") self.assertRunOK("get --key_hex 0x6132", "b2") self.assertRunOK("get --key_hex --value_hex 0x6132", "0x6232") self.assertRunOK("get --value_hex a2", "0x6232") self.assertRunOK( "scan --key_hex --value_hex", "0x6131 ==> 0x6231\n0x6132 ==> 0x6232" ) self.assertRunOK( "scan --hex --from=0x6131 --to=0x6133", "0x6131 ==> 0x6231\n0x6132 ==> 0x6232", ) self.assertRunOK("scan --hex --from=0x6131 --to=0x6132", "0x6131 ==> 0x6231") self.assertRunOK("scan --key_hex", "0x6131 ==> b1\n0x6132 ==> b2") self.assertRunOK("scan --value_hex", "a1 ==> 0x6231\na2 ==> 0x6232") self.assertRunOK("batchput --hex 0x6133 0x6233 0x6134 0x6234", "OK") self.assertRunOK("scan", "a1 ==> b1\na2 ==> b2\na3 ==> b3\na4 ==> b4") self.assertRunOK("delete --hex 0x6133", "OK") self.assertRunOK("scan", "a1 ==> b1\na2 ==> b2\na4 ==> b4") self.assertRunOK("checkconsistency", "OK") def testTtlPutGet(self): print("Running testTtlPutGet...") self.assertRunOK("put a1 b1 --ttl --create_if_missing", "OK") self.assertRunOK("scan --hex", "0x6131 ==> 0x6231", True) self.assertRunOK("dump --ttl ", "a1 ==> b1", True) self.assertRunOK("dump --hex --ttl ", "0x6131 ==> 0x6231\nKeys in range: 1") self.assertRunOK("scan --hex --ttl", "0x6131 ==> 0x6231") self.assertRunOK("get --value_hex a1", "0x6231", True) self.assertRunOK("get --ttl a1", "b1") self.assertRunOK("put a3 b3 --create_if_missing", "OK") # fails because timstamp's length is greater than value's self.assertRunFAIL("get --ttl a3") self.assertRunOK("checkconsistency", "OK") def testInvalidCmdLines(self): # noqa: F811 T25377293 Grandfathered in print("Running testInvalidCmdLines...") # db not specified self.assertRunFAILFull("put 0x6133 0x6233 --hex --create_if_missing") # No param called he self.assertRunFAIL("put 0x6133 0x6233 --he --create_if_missing") # max_keys is not applicable for put self.assertRunFAIL("put 0x6133 0x6233 --max_keys=1 --create_if_missing") # hex has invalid boolean value self.assertRunFAIL("put 0x6133 0x6233 --hex=Boo --create_if_missing") def testDumpLoad(self): print("Running testDumpLoad...") self.assertRunOK("batchput --create_if_missing x1 y1 x2 y2 x3 y3 x4 y4", "OK") self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") origDbPath = os.path.join(self.TMP_DIR, self.DB_NAME) # Dump and load without any additional params specified dumpFilePath = os.path.join(self.TMP_DIR, "dump1") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump1") self.assertTrue(self.dumpDb("--db=%s" % origDbPath, dumpFilePath)) self.assertTrue( self.loadDb("--db=%s --create_if_missing" % loadedDbPath, dumpFilePath) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) # Dump and load in hex dumpFilePath = os.path.join(self.TMP_DIR, "dump2") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump2") self.assertTrue(self.dumpDb("--db=%s --hex" % origDbPath, dumpFilePath)) self.assertTrue( self.loadDb( "--db=%s --hex --create_if_missing" % loadedDbPath, dumpFilePath ) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) # Dump only a portion of the key range dumpFilePath = os.path.join(self.TMP_DIR, "dump3") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump3") self.assertTrue( self.dumpDb("--db=%s --from=x1 --to=x3" % origDbPath, dumpFilePath) ) self.assertTrue( self.loadDb("--db=%s --create_if_missing" % loadedDbPath, dumpFilePath) ) self.assertRunOKFull("scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2") # Dump upto max_keys rows dumpFilePath = os.path.join(self.TMP_DIR, "dump4") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump4") self.assertTrue(self.dumpDb("--db=%s --max_keys=3" % origDbPath, dumpFilePath)) self.assertTrue( self.loadDb("--db=%s --create_if_missing" % loadedDbPath, dumpFilePath) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3" ) # Load into an existing db, create_if_missing is not specified self.assertTrue(self.dumpDb("--db=%s" % origDbPath, dumpFilePath)) self.assertTrue(self.loadDb("--db=%s" % loadedDbPath, dumpFilePath)) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) # Dump and load with WAL disabled dumpFilePath = os.path.join(self.TMP_DIR, "dump5") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump5") self.assertTrue(self.dumpDb("--db=%s" % origDbPath, dumpFilePath)) self.assertTrue( self.loadDb( "--db=%s --disable_wal --create_if_missing" % loadedDbPath, dumpFilePath ) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) # Dump and load with lots of extra params specified extraParams = " ".join( [ "--bloom_bits=14", "--block_size=1024", "--auto_compaction=true", "--write_buffer_size=4194304", "--file_size=2097152", ] ) dumpFilePath = os.path.join(self.TMP_DIR, "dump6") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump6") self.assertTrue( self.dumpDb("--db=%s %s" % (origDbPath, extraParams), dumpFilePath) ) self.assertTrue( self.loadDb( "--db=%s %s --create_if_missing" % (loadedDbPath, extraParams), dumpFilePath, ) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) # Dump with count_only dumpFilePath = os.path.join(self.TMP_DIR, "dump7") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump7") self.assertTrue(self.dumpDb("--db=%s --count_only" % origDbPath, dumpFilePath)) self.assertTrue( self.loadDb("--db=%s --create_if_missing" % loadedDbPath, dumpFilePath) ) # DB should have atleast one value for scan to work self.assertRunOKFull("put --db=%s k1 v1" % loadedDbPath, "OK") self.assertRunOKFull("scan --db=%s" % loadedDbPath, "k1 ==> v1") # Dump command fails because of typo in params dumpFilePath = os.path.join(self.TMP_DIR, "dump8") self.assertFalse( self.dumpDb("--db=%s --create_if_missing" % origDbPath, dumpFilePath) ) # Dump and load with BlobDB enabled blobParams = " ".join( ["--enable_blob_files", "--min_blob_size=1", "--blob_file_size=2097152"] ) dumpFilePath = os.path.join(self.TMP_DIR, "dump9") loadedDbPath = os.path.join(self.TMP_DIR, "loaded_from_dump9") self.assertTrue(self.dumpDb("--db=%s" % (origDbPath), dumpFilePath)) self.assertTrue( self.loadDb( "--db=%s %s --create_if_missing --disable_wal" % (loadedDbPath, blobParams), dumpFilePath, ) ) self.assertRunOKFull( "scan --db=%s" % loadedDbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) blob_files = self.getBlobFiles(loadedDbPath) self.assertTrue(len(blob_files) >= 1) def testIDumpBasics(self): print("Running testIDumpBasics...") self.assertRunOK("put a val --create_if_missing", "OK") self.assertRunOK("put b val", "OK") self.assertRunOK( "idump", "'a' seq:1, type:1 => val\n" "'b' seq:2, type:1 => val\nInternal keys in range: 2", ) self.assertRunOK( "idump --input_key_hex --from=%s --to=%s" % (hex(ord("a")), hex(ord("b"))), "'a' seq:1, type:1 => val\nInternal keys in range: 1", ) def testIDumpDecodeBlobIndex(self): print("Running testIDumpDecodeBlobIndex...") self.assertRunOK("put a val --create_if_missing", "OK") self.assertRunOK("put b val --enable_blob_files", "OK") # Pattern to expect from dump with decode_blob_index flag enabled. regex = ".*\[blob ref\].*" expected_pattern = re.compile(regex) cmd = "idump %s --decode_blob_index" self.assertRunOKFull( (cmd) % (self.dbParam(self.DB_NAME)), expected_pattern, unexpected=False, isPattern=True, ) def testMiscAdminTask(self): print("Running testMiscAdminTask...") # These tests need to be improved; for example with asserts about # whether compaction or level reduction actually took place. self.assertRunOK("batchput --create_if_missing x1 y1 x2 y2 x3 y3 x4 y4", "OK") self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") origDbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertTrue(0 == run_err_null("./ldb compact --db=%s" % origDbPath)) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") self.assertTrue( 0 == run_err_null("./ldb reduce_levels --db=%s --new_levels=2" % origDbPath) ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") self.assertTrue( 0 == run_err_null("./ldb reduce_levels --db=%s --new_levels=3" % origDbPath) ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") self.assertTrue( 0 == run_err_null("./ldb compact --db=%s --from=x1 --to=x3" % origDbPath) ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") self.assertTrue( 0 == run_err_null( "./ldb compact --db=%s --hex --from=0x6131 --to=0x6134" % origDbPath ) ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") # TODO(dilip): Not sure what should be passed to WAL.Currently corrupted. self.assertTrue( 0 == run_err_null( "./ldb dump_wal --db=%s --walfile=%s --header" % (origDbPath, os.path.join(origDbPath, "LOG")) ) ) self.assertRunOK("scan", "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4") def testCheckConsistency(self): print("Running testCheckConsistency...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put x1 y1 --create_if_missing", "OK") self.assertRunOK("put x2 y2", "OK") self.assertRunOK("get x1", "y1") self.assertRunOK("checkconsistency", "OK") sstFilePath = my_check_output( "ls %s" % os.path.join(dbPath, "*.sst"), shell=True ) # Modify the file my_check_output("echo 'evil' > %s" % sstFilePath, shell=True) self.assertRunFAIL("checkconsistency") # Delete the file my_check_output("rm -f %s" % sstFilePath, shell=True) self.assertRunFAIL("checkconsistency") def dumpLiveFiles(self, params, dumpFile): return 0 == run_err_null("./ldb dump_live_files %s > %s" % (params, dumpFile)) def testDumpLiveFiles(self): print("Running testDumpLiveFiles...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put x1 y1 --create_if_missing", "OK") self.assertRunOK("put x2 y2 --enable_blob_files", "OK") dumpFilePath = os.path.join(self.TMP_DIR, "dump1") self.assertTrue(self.dumpLiveFiles("--db=%s" % dbPath, dumpFilePath)) self.assertRunOK("delete x1", "OK") self.assertRunOK("put x3 y3", "OK") dumpFilePath = os.path.join(self.TMP_DIR, "dump2") # Test that if the user provides a db path that ends with # a slash '/', there is no double (or more!) slashes in the # SST and manifest file names. # Add a '/' at the end of dbPath (which normally shouldnt contain any) if dbPath[-1] != "/": dbPath += "/" # Call the dump_live_files function with the edited dbPath name. self.assertTrue( self.dumpLiveFiles( "--db=%s --decode_blob_index --dump_uncompressed_blobs" % dbPath, dumpFilePath, ) ) # Investigate the output with open(dumpFilePath, "r") as tmp: data = tmp.read() # Check that all the SST filenames have a correct full path (no multiple '/'). sstFileList = re.findall(r"%s.*\d+.sst" % dbPath, data) self.assertTrue(len(sstFileList) >= 1) for sstFilename in sstFileList: filenumber = re.findall(r"\d+.sst", sstFilename)[0] self.assertEqual(sstFilename, dbPath + filenumber) # Check that all the Blob filenames have a correct full path (no multiple '/'). blobFileList = re.findall(r"%s.*\d+.blob" % dbPath, data) self.assertTrue(len(blobFileList) >= 1) for blobFilename in blobFileList: filenumber = re.findall(r"\d+.blob", blobFilename)[0] self.assertEqual(blobFilename, dbPath + filenumber) # Check that all the manifest filenames # have a correct full path (no multiple '/'). manifestFileList = re.findall(r"%s.*MANIFEST-\d+" % dbPath, data) self.assertTrue(len(manifestFileList) >= 1) for manifestFilename in manifestFileList: filenumber = re.findall(r"(?<=MANIFEST-)\d+", manifestFilename)[0] self.assertEqual(manifestFilename, dbPath + "MANIFEST-" + filenumber) # Check that the blob file index is decoded. decodedBlobIndex = re.findall(r"\[blob ref\]", data) self.assertTrue(len(decodedBlobIndex) >= 1) def listLiveFilesMetadata(self, params, dumpFile): return 0 == run_err_null( "./ldb list_live_files_metadata %s > %s" % (params, dumpFile) ) def testListLiveFilesMetadata(self): print("Running testListLiveFilesMetadata...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put x1 y1 --create_if_missing", "OK") self.assertRunOK("put x2 y2", "OK") # Compare the SST filename and the level of list_live_files_metadata # with the data collected from dump_live_files. dumpFilePath1 = os.path.join(self.TMP_DIR, "dump1") self.assertTrue(self.dumpLiveFiles("--db=%s" % dbPath, dumpFilePath1)) dumpFilePath2 = os.path.join(self.TMP_DIR, "dump2") self.assertTrue( self.listLiveFilesMetadata( "--sort_by_filename --db=%s" % dbPath, dumpFilePath2 ) ) # Collect SST filename and level from dump_live_files with open(dumpFilePath1, "r") as tmp: data = tmp.read() filename1 = re.findall(r".*\d+\.sst", data)[0] level1 = re.findall(r"level:\d+", data)[0].split(":")[1] # Collect SST filename and level from list_live_files_metadata with open(dumpFilePath2, "r") as tmp: data = tmp.read() filename2 = re.findall(r".*\d+\.sst", data)[0] level2 = re.findall(r"level \d+", data)[0].split(" ")[1] # Assert equality between filenames and levels. self.assertEqual(filename1, filename2) self.assertEqual(level1, level2) # Create multiple column families and compare the output # of list_live_files_metadata with dump_live_files once again. # Create new CF, and insert data: self.assertRunOK("create_column_family mycol1", "OK") self.assertRunOK("put --column_family=mycol1 v1 v2", "OK") self.assertRunOK("create_column_family mycol2", "OK") self.assertRunOK("put --column_family=mycol2 h1 h2", "OK") self.assertRunOK("put --column_family=mycol2 h3 h4", "OK") # Call dump_live_files and list_live_files_metadata # and pipe the output to compare them later. dumpFilePath3 = os.path.join(self.TMP_DIR, "dump3") self.assertTrue(self.dumpLiveFiles("--db=%s" % dbPath, dumpFilePath3)) dumpFilePath4 = os.path.join(self.TMP_DIR, "dump4") self.assertTrue( self.listLiveFilesMetadata( "--sort_by_filename --db=%s" % dbPath, dumpFilePath4 ) ) # dump_live_files: # parse the output and create a map: # [key: sstFilename]->[value:[LSM level, Column Family Name]] referenceMap = {} with open(dumpFilePath3, "r") as tmp: data = tmp.read() # Note: the following regex are contingent on what the # dump_live_files outputs. namesAndLevels = re.findall(r"\d+.sst level:\d+", data) cfs = re.findall(r"(?<=column family name=)\w+", data) # re.findall should not reorder the data. # Therefore namesAndLevels[i] matches the data from cfs[i]. for count, nameAndLevel in enumerate(namesAndLevels): sstFilename = re.findall(r"\d+.sst", nameAndLevel)[0] sstLevel = re.findall(r"(?<=level:)\d+", nameAndLevel)[0] cf = cfs[count] referenceMap[sstFilename] = [sstLevel, cf] # list_live_files_metadata: # parse the output and create a map: # [key: sstFilename]->[value:[LSM level, Column Family Name]] testMap = {} with open(dumpFilePath4, "r") as tmp: data = tmp.read() # Since for each SST file, all the information is contained # on one line, the parsing is easy to perform and relies on # the appearance of an "00xxx.sst" pattern. sstLines = re.findall(r".*\d+.sst.*", data) for line in sstLines: sstFilename = re.findall(r"\d+.sst", line)[0] sstLevel = re.findall(r"(?<=level )\d+", line)[0] cf = re.findall(r"(?<=column family \')\w+(?=\')", line)[0] testMap[sstFilename] = [sstLevel, cf] # Compare the map obtained from dump_live_files and the map # obtained from list_live_files_metadata. Everything should match. self.assertEqual(referenceMap, testMap) def getManifests(self, directory): return glob.glob(directory + "/MANIFEST-*") def getSSTFiles(self, directory): return glob.glob(directory + "/*.sst") def getWALFiles(self, directory): return glob.glob(directory + "/*.log") def getBlobFiles(self, directory): return glob.glob(directory + "/*.blob") def copyManifests(self, src, dest): return 0 == run_err_null("cp " + src + " " + dest) def testManifestDump(self): print("Running testManifestDump...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put 1 1 --create_if_missing", "OK") self.assertRunOK("put 2 2", "OK") self.assertRunOK("put 3 3", "OK") # Pattern to expect from manifest_dump. num = "[0-9]+" st = ".*" subpat = st + " seq:" + num + ", type:" + num regex = num + ":" + num + "\[" + subpat + ".." + subpat + "\]" expected_pattern = re.compile(regex) cmd = "manifest_dump --db=%s" manifest_files = self.getManifests(dbPath) self.assertTrue(len(manifest_files) == 1) # Test with the default manifest file in dbPath. self.assertRunOKFull( cmd % dbPath, expected_pattern, unexpected=False, isPattern=True ) self.copyManifests(manifest_files[0], manifest_files[0] + "1") manifest_files = self.getManifests(dbPath) self.assertTrue(len(manifest_files) == 2) # Test with multiple manifest files in dbPath. self.assertRunFAILFull(cmd % dbPath) # Running it with the copy we just created should pass. self.assertRunOKFull( (cmd + " --path=%s") % (dbPath, manifest_files[1]), expected_pattern, unexpected=False, isPattern=True, ) # Make sure that using the dump with --path will result in identical # output as just using manifest_dump. cmd = "dump --path=%s" self.assertRunOKFull( (cmd) % (manifest_files[1]), expected_pattern, unexpected=False, isPattern=True, ) # Check if null characters doesn't infer with output format. self.assertRunOK("put a1 b1", "OK") self.assertRunOK("put a2 b2", "OK") self.assertRunOK("put --hex 0x12000DA0 0x80C0000B", "OK") self.assertRunOK("put --hex 0x7200004f 0x80000004", "OK") self.assertRunOK("put --hex 0xa000000a 0xf000000f", "OK") self.assertRunOK("put a3 b3", "OK") self.assertRunOK("put a4 b4", "OK") # Verifies that all "levels" are printed out. # There should be 66 mentions of levels. expected_verbose_output = re.compile("matched") # Test manifest_dump verbose and verify that key 0x7200004f # is present. Note that we are forced to use grep here because # an output with a non-terminating null character in it isn't piped # correctly through the Python subprocess object. # Also note that 0x72=r and 0x4f=O, hence the regex \'r.{2}O\' # (we cannot use null character in the subprocess input either, # so we have to use '.{2}') cmd_verbose = ( "manifest_dump --verbose --db=%s | grep -aq $''r.{2}O'' && echo 'matched' || echo 'not matched'" % dbPath ) self.assertRunOKFull( cmd_verbose, expected_verbose_output, unexpected=False, isPattern=True ) def testGetProperty(self): print("Running testGetProperty...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put 1 1 --create_if_missing", "OK") self.assertRunOK("put 2 2", "OK") # A "string" property cmd = "--db=%s get_property rocksdb.estimate-num-keys" self.assertRunOKFull(cmd % dbPath, "rocksdb.estimate-num-keys: 2") # A "map" property # FIXME: why doesn't this pick up two entries? cmd = "--db=%s get_property rocksdb.aggregated-table-properties" part = "rocksdb.aggregated-table-properties.num_entries: " expected_pattern = re.compile(part) self.assertRunOKFull( cmd % dbPath, expected_pattern, unexpected=False, isPattern=True ) # An invalid property cmd = "--db=%s get_property rocksdb.this-property-does-not-exist" self.assertRunFAILFull(cmd % dbPath) def testSSTDump(self): print("Running testSSTDump...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put sst1 sst1_val --create_if_missing", "OK") self.assertRunOK("put sst2 sst2_val --enable_blob_files", "OK") self.assertRunOK("get sst1", "sst1_val") # Pattern to expect from SST dump. regex = ".*Sst file format:.*\n.*\[blob ref\].*" expected_pattern = re.compile(regex) sst_files = self.getSSTFiles(dbPath) self.assertTrue(len(sst_files) >= 1) cmd = "dump --path=%s --decode_blob_index" self.assertRunOKFull( (cmd) % (sst_files[0]), expected_pattern, unexpected=False, isPattern=True ) def testBlobDump(self): print("Running testBlobDump") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("batchput x1 y1 --create_if_missing --enable_blob_files", "OK") self.assertRunOK( 'batchput --enable_blob_files x2 y2 x3 y3 "x4 abc" "y4 xyz"', "OK" ) # Pattern to expect from blob file dump. regex = ".*Blob log header[\s\S]*Blob log footer[\s\S]*Read record[\s\S]*Summary" # noqa expected_pattern = re.compile(regex) blob_files = self.getBlobFiles(dbPath) self.assertTrue(len(blob_files) >= 1) cmd = "dump --path=%s --dump_uncompressed_blobs" self.assertRunOKFull( (cmd) % (blob_files[0]), expected_pattern, unexpected=False, isPattern=True ) def testWALDump(self): print("Running testWALDump...") dbPath = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put wal1 wal1_val --create_if_missing", "OK") self.assertRunOK("put wal2 wal2_val", "OK") self.assertRunOK("get wal1", "wal1_val") # Pattern to expect from WAL dump. regex = "^Sequence,Count,ByteSize,Physical Offset,Key\(s\).*" expected_pattern = re.compile(regex) wal_files = self.getWALFiles(dbPath) self.assertTrue(len(wal_files) >= 1) cmd = "dump --path=%s" self.assertRunOKFull( (cmd) % (wal_files[0]), expected_pattern, unexpected=False, isPattern=True ) def testListColumnFamilies(self): print("Running testListColumnFamilies...") self.assertRunOK("put x1 y1 --create_if_missing", "OK") cmd = 'list_column_families | grep -v "Column families"' # Test on valid dbPath. self.assertRunOK(cmd, "{default}") # Test on empty path. self.assertRunFAIL(cmd) def testColumnFamilies(self): print("Running testColumnFamilies...") _ = os.path.join(self.TMP_DIR, self.DB_NAME) self.assertRunOK("put cf1_1 1 --create_if_missing", "OK") self.assertRunOK("put cf1_2 2 --create_if_missing", "OK") self.assertRunOK("put cf1_3 3 --try_load_options", "OK") # Given non-default column family to single CF DB. self.assertRunFAIL("get cf1_1 --column_family=two") self.assertRunOK("create_column_family two", "OK") self.assertRunOK("put cf2_1 1 --create_if_missing --column_family=two", "OK") self.assertRunOK("put cf2_2 2 --create_if_missing --column_family=two", "OK") self.assertRunOK("delete cf1_2", "OK") self.assertRunOK("create_column_family three", "OK") self.assertRunOK("delete cf2_2 --column_family=two", "OK") self.assertRunOK("put cf3_1 3 --create_if_missing --column_family=three", "OK") self.assertRunOK("get cf1_1 --column_family=default", "1") self.assertRunOK("dump --column_family=two", "cf2_1 ==> 1\nKeys in range: 1") self.assertRunOK( "dump --column_family=two --try_load_options", "cf2_1 ==> 1\nKeys in range: 1", ) self.assertRunOK("dump", "cf1_1 ==> 1\ncf1_3 ==> 3\nKeys in range: 2") self.assertRunOK("get cf2_1 --column_family=two", "1") self.assertRunOK("get cf3_1 --column_family=three", "3") self.assertRunOK("drop_column_family three", "OK") # non-existing column family. self.assertRunFAIL("get cf3_1 --column_family=four") self.assertRunFAIL("drop_column_family four") def testIngestExternalSst(self): print("Running testIngestExternalSst...") # Dump, load, write external sst and ingest it in another db dbPath = os.path.join(self.TMP_DIR, "db1") self.assertRunOK( "batchput --db=%s --create_if_missing x1 y1 x2 y2 x3 y3 x4 y4" % dbPath, "OK", ) self.assertRunOK( "scan --db=%s" % dbPath, "x1 ==> y1\nx2 ==> y2\nx3 ==> y3\nx4 ==> y4" ) dumpFilePath = os.path.join(self.TMP_DIR, "dump1") with open(dumpFilePath, "w") as f: f.write("x1 ==> y10\nx2 ==> y20\nx3 ==> y30\nx4 ==> y40") externSstPath = os.path.join(self.TMP_DIR, "extern_data1.sst") self.assertTrue( self.writeExternSst( "--create_if_missing --db=%s" % dbPath, dumpFilePath, externSstPath ) ) # cannot ingest if allow_global_seqno is false self.assertFalse( self.ingestExternSst( "--create_if_missing --allow_global_seqno=false --db=%s" % dbPath, externSstPath, ) ) self.assertTrue( self.ingestExternSst( "--create_if_missing --allow_global_seqno --db=%s" % dbPath, externSstPath, ) ) self.assertRunOKFull( "scan --db=%s" % dbPath, "x1 ==> y10\nx2 ==> y20\nx3 ==> y30\nx4 ==> y40" ) if __name__ == "__main__": unittest.main()