// Copyright 2020 Tyler Neely // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. mod util; use pretty_assertions::assert_eq; use rocksdb::{ColumnFamilyDescriptor, MergeOperands, Options, DB, DEFAULT_COLUMN_FAMILY_NAME}; use util::DBPath; use std::fs; use std::io; use std::path::Path; fn dir_size(path: impl AsRef) -> io::Result { fn dir_size(mut dir: fs::ReadDir) -> io::Result { dir.try_fold(0, |acc, file| { let file = file?; let size = match file.metadata()? { data if data.is_dir() => dir_size(fs::read_dir(file.path())?)?, data => data.len(), }; Ok(acc + size) }) } dir_size(fs::read_dir(path)?) } #[test] fn test_column_family() { let n = DBPath::new("_rust_rocksdb_cftest"); // should be able to create column families { let mut opts = Options::default(); opts.create_if_missing(true); opts.set_merge_operator_associative("test operator", test_provided_merge); #[cfg(feature = "multi-threaded-cf")] let db = DB::open(&opts, &n).unwrap(); #[cfg(not(feature = "multi-threaded-cf"))] let mut db = DB::open(&opts, &n).unwrap(); let opts = Options::default(); match db.create_cf("cf1", &opts) { Ok(()) => println!("cf1 created successfully"), Err(e) => { panic!("could not create column family: {}", e); } } } // should fail to open db without specifying same column families { let mut opts = Options::default(); opts.set_merge_operator_associative("test operator", test_provided_merge); match DB::open(&opts, &n) { Ok(_db) => panic!( "should not have opened DB successfully without \ specifying column families" ), Err(e) => assert!(e.to_string().starts_with("Invalid argument")), } } // should properly open db when specyfing all column families { let mut opts = Options::default(); opts.set_merge_operator_associative("test operator", test_provided_merge); match DB::open_cf(&opts, &n, ["cf1"]) { Ok(_db) => println!("successfully opened db with column family"), Err(e) => panic!("failed to open db with column family: {}", e), } } // should be able to list a cf { let opts = Options::default(); let vec = DB::list_cf(&opts, &n); match vec { Ok(vec) => assert_eq!(vec, vec![DEFAULT_COLUMN_FAMILY_NAME, "cf1"]), Err(e) => panic!("failed to drop column family: {}", e), } } // TODO should be able to use writebatch ops with a cf {} // TODO should be able to iterate over a cf {} // should b able to drop a cf { #[cfg(feature = "multi-threaded-cf")] let db = DB::open_cf(&Options::default(), &n, ["cf1"]).unwrap(); #[cfg(not(feature = "multi-threaded-cf"))] let mut db = DB::open_cf(&Options::default(), &n, ["cf1"]).unwrap(); match db.drop_cf("cf1") { Ok(_) => println!("cf1 successfully dropped."), Err(e) => panic!("failed to drop column family: {}", e), } } } #[test] fn test_can_open_db_with_results_of_list_cf() { // Test scenario derived from GitHub issue #175 and 177 let n = DBPath::new("_rust_rocksdb_cftest_with_list_cf"); { let mut opts = Options::default(); opts.create_if_missing(true); #[cfg(feature = "multi-threaded-cf")] let db = DB::open(&opts, &n).unwrap(); #[cfg(not(feature = "multi-threaded-cf"))] let mut db = DB::open(&opts, &n).unwrap(); let opts = Options::default(); assert!(db.create_cf("cf1", &opts).is_ok()); } { let options = Options::default(); let cfs = DB::list_cf(&options, &n).unwrap(); let db = DB::open_cf(&options, &n, cfs).unwrap(); assert!(db.cf_handle("cf1").is_some()); } } #[test] fn test_create_missing_column_family() { let n = DBPath::new("_rust_rocksdb_missing_cftest"); // should be able to create new column families when opening a new database { let mut opts = Options::default(); opts.create_if_missing(true); opts.create_missing_column_families(true); match DB::open_cf(&opts, &n, ["cf1"]) { Ok(_db) => println!("successfully created new column family"), Err(e) => panic!("failed to create new column family: {}", e), } } } #[test] fn test_open_column_family_with_opts() { let n = DBPath::new("_rust_rocksdb_open_cf_with_opts"); { let mut opts = Options::default(); opts.create_if_missing(true); opts.create_missing_column_families(true); // We can use different parameters for different column family. let mut cf1_opts = Options::default(); cf1_opts.set_min_write_buffer_number(2); cf1_opts.set_min_write_buffer_number_to_merge(4); let mut cf2_opts = Options::default(); cf2_opts.set_min_write_buffer_number(5); cf2_opts.set_min_write_buffer_number_to_merge(10); let cfs = vec![("cf1", cf1_opts), ("cf2", cf2_opts)]; match DB::open_cf_with_opts(&opts, &n, cfs) { Ok(_db) => println!("successfully opened column family with the specified options"), Err(e) => panic!("failed to open cf with options: {}", e), } } } #[test] #[ignore] fn test_merge_operator() { let n = DBPath::new("_rust_rocksdb_cftest_merge"); // TODO should be able to write, read, merge, batch, and iterate over a cf { let mut opts = Options::default(); opts.set_merge_operator_associative("test operator", test_provided_merge); let db = match DB::open_cf(&opts, &n, ["cf1"]) { Ok(db) => { println!("successfully opened db with column family"); db } Err(e) => panic!("failed to open db with column family: {}", e), }; let cf1 = db.cf_handle("cf1").unwrap(); assert!(db.put_cf(&cf1, b"k1", b"v1").is_ok()); assert_eq!(db.get_cf(&cf1, b"k1").unwrap().unwrap(), b"v1"); let p = db.put_cf(&cf1, b"k1", b"a"); assert!(p.is_ok()); db.merge_cf(&cf1, b"k1", b"b").unwrap(); db.merge_cf(&cf1, b"k1", b"c").unwrap(); db.merge_cf(&cf1, b"k1", b"d").unwrap(); db.merge_cf(&cf1, b"k1", b"efg").unwrap(); let m = db.merge_cf(&cf1, b"k1", b"h"); println!("m is {:?}", m); // TODO assert!(m.is_ok()); match db.get(b"k1") { Ok(Some(value)) => match std::str::from_utf8(&value) { Ok(v) => println!("retrieved utf8 value: {}", v), Err(_) => println!("did not read valid utf-8 out of the db"), }, Err(_) => println!("error reading value"), _ => panic!("value not present!"), } let _ = db.get_cf(&cf1, b"k1"); // TODO assert!(r.unwrap().as_ref() == b"abcdefgh"); assert!(db.delete(b"k1").is_ok()); assert!(db.get(b"k1").unwrap().is_none()); } } fn test_provided_merge( _: &[u8], existing_val: Option<&[u8]>, operands: &MergeOperands, ) -> Option> { let nops = operands.len(); let mut result: Vec = Vec::with_capacity(nops); if let Some(v) = existing_val { for e in v { result.push(*e); } } for op in operands { for e in op { result.push(*e); } } Some(result) } #[test] fn test_column_family_with_options() { let n = DBPath::new("_rust_rocksdb_cf_with_optionstest"); { let mut cfopts = Options::default(); cfopts.set_max_write_buffer_number(16); let cf_descriptor = ColumnFamilyDescriptor::new("cf1", cfopts); let mut opts = Options::default(); opts.create_if_missing(true); opts.create_missing_column_families(true); let cfs = vec![cf_descriptor]; match DB::open_cf_descriptors(&opts, &n, cfs) { Ok(_db) => println!("created db with column family descriptors successfully"), Err(e) => { panic!( "could not create new database with column family descriptors: {}", e ); } } } { let mut cfopts = Options::default(); cfopts.set_max_write_buffer_number(16); let cf_descriptor = ColumnFamilyDescriptor::new("cf1", cfopts); let opts = Options::default(); let cfs = vec![cf_descriptor]; match DB::open_cf_descriptors(&opts, &n, cfs) { Ok(_db) => println!("successfully re-opened database with column family descriptors"), Err(e) => { panic!( "unable to re-open database with column family descriptors: {}", e ); } } } } #[test] fn test_create_duplicate_column_family() { let n = DBPath::new("_rust_rocksdb_create_duplicate_column_family"); { let mut opts = Options::default(); opts.create_if_missing(true); opts.create_missing_column_families(true); #[cfg(feature = "multi-threaded-cf")] let db = DB::open_cf(&opts, &n, ["cf1"]).unwrap(); #[cfg(not(feature = "multi-threaded-cf"))] let mut db = DB::open_cf(&opts, &n, ["cf1"]).unwrap(); assert!(db.create_cf("cf1", &opts).is_err()); } } #[test] fn test_no_leaked_column_family() { let n = DBPath::new("_rust_rocksdb_no_leaked_column_family"); { let mut opts = Options::default(); opts.create_if_missing(true); opts.create_missing_column_families(true); let mut write_options = rocksdb::WriteOptions::default(); write_options.set_sync(false); write_options.disable_wal(true); #[cfg(feature = "multi-threaded-cf")] let db = DB::open(&opts, &n).unwrap(); #[cfg(not(feature = "multi-threaded-cf"))] let mut db = DB::open(&opts, &n).unwrap(); #[cfg(feature = "multi-threaded-cf")] let mut outlived_cf = None; let large_blob = vec![0x20; 1024 * 1024]; // repeat creating and dropping cfs many time to indirectly detect // possible leak via large dir. for cf_index in 0..20 { let cf_name = format!("cf{}", cf_index); db.create_cf(&cf_name, &Options::default()).unwrap(); let cf = db.cf_handle(&cf_name).unwrap(); let mut batch = rocksdb::WriteBatch::default(); for key_index in 0..100 { batch.put_cf(&cf, format!("k{}", key_index), &large_blob); } db.write_opt(batch, &write_options).unwrap(); // force create an SST file db.flush_cf(&cf).unwrap(); db.drop_cf(&cf_name).unwrap(); #[cfg(feature = "multi-threaded-cf")] { outlived_cf = Some(cf); } } // if we're not leaking, the dir bytes should be well under 10M bytes in total let dir_bytes = dir_size(&n).unwrap(); assert!( dir_bytes < 10_000_000, "{} is too large (maybe leaking...)", dir_bytes ); // only if MultiThreaded, cf can outlive db.drop_cf() and shouldn't cause SEGV... #[cfg(feature = "multi-threaded-cf")] { let outlived_cf = outlived_cf.unwrap(); assert_eq!( &db.get_cf(&outlived_cf, "k0").unwrap().unwrap(), &large_blob ); drop(outlived_cf); } // make it explicit not to drop the db until we get dir size above... drop(db); } }