// Copyright 2014 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. // extern crate emerald_rocksdb; use emerald_rocksdb::{DB, MergeOperands, Options, ColumnFamilyDescriptor}; #[test] pub fn test_column_family() { let path = "_rust_rocksdb_cftest"; // should be able to create column families { let mut opts = Options::default(); opts.create_if_missing(true); opts.set_merge_operator("test operator", test_provided_merge, None); let mut db = DB::open(&opts, path).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("test operator", test_provided_merge, None); match DB::open(&opts, path) { Ok(_) => { panic!("should not have opened DB successfully without \ specifying column families") } Err(e) => { assert!(e.to_string() .starts_with("Invalid argument: You have to open all \ column families.")) } } } // should properly open db when specyfing all column families { let mut opts = Options::default(); opts.set_merge_operator("test operator", test_provided_merge, None); match DB::open_cf(&opts, path, &["cf1"]) { Ok(_) => 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, path); match vec { Ok(vec) => assert_eq!(vec, vec!["default", "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 { let mut db = DB::open_cf(&Options::default(), path, &["cf1"]).unwrap(); match db.drop_cf("cf1") { Ok(_) => println!("cf1 successfully dropped."), Err(e) => panic!("failed to drop column family: {}", e), } } assert!(DB::destroy(&Options::default(), path).is_ok()); } #[test] fn test_create_missing_column_family() { let path = "_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, path, &["cf1"]) { Ok(_) => println!("successfully created new column family"), Err(e) => panic!("failed to create new column family: {}", e), } } assert!(DB::destroy(&Options::default(), path).is_ok()); } #[test] #[ignore] fn test_merge_operator() { let path = "_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("test operator", test_provided_merge, None); let db = match DB::open_cf(&opts, path, &["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!(db.get_cf(cf1, b"k1").unwrap().unwrap().to_utf8().unwrap() == "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 value.to_utf8() { Some(v) => println!("retrieved utf8 value: {}", v), None => 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().to_utf8().unwrap() == "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: &mut MergeOperands) -> Option> { let nops = operands.size_hint().0; let mut result: Vec = Vec::with_capacity(nops); match existing_val { Some(v) => { for e in v { result.push(*e); } } None => (), } for op in operands { for e in op { result.push(*e); } } Some(result) } #[test] pub fn test_column_family_with_options() { let path = "_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, path, cfs) { Ok(_) => println!("created db with column family descriptors succesfully"), 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, path, cfs) { Ok(_) => println!("succesfully re-opened database with column family descriptorrs"), Err(e) => { panic!("unable to re-open database with column family descriptors: {}", e); } } } assert!(DB::destroy(&Options::default(), path).is_ok()); }