#[macro_use(stmt)]
extern crate cassandra_cpp;
extern crate futures;
extern crate time;
mod help;
use cassandra_cpp::*;
use futures::Future;
use time::Duration;
use std::time::SystemTime;
#[derive(Debug,PartialEq,Copy,Clone,Default)]
struct Udt {
dt: u32,
tm: i64,
}
#[derive(Debug,PartialEq,Copy,Clone,Default)]
struct Basic {
bln: bool,
flt: f32,
dbl: f64,
i8: i8,
i16: i16,
i32: i32,
i64: i64,
ts: i64,
addr: Inet,
tu: Uuid,
id: Uuid,
ct: Udt,
}
fn create_basic_table(session: &Session) {
let type_statement = &stmt!("CREATE TYPE IF NOT EXISTS examples.udt (dt date, tm time);");
session.execute(type_statement).wait().unwrap();
let table_statement = &stmt!("CREATE TABLE IF NOT EXISTS examples.basic (key text, bln boolean, flt \
float, dbl double, i8 tinyint, i16 smallint, i32 int, i64 bigint, \
ts timestamp, addr inet, tu timeuuid, id uuid, ct udt, PRIMARY KEY (key));");
session.execute(table_statement).wait().unwrap();
let truncate_statement = &stmt!("TRUNCATE examples.basic;");
session.execute(truncate_statement).wait().unwrap();
}
fn insert_into_basic(session: &Session, key: &str, basic: &Basic) -> Result<CassResult> {
let mut statement = stmt!("INSERT INTO examples.basic (key, bln, flt, dbl, i8, i16, i32, i64, ts, addr, tu, id, ct) \
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?);");
let ct_type = DataType::new_udt(2);
ct_type.add_sub_value_type_by_name::<&str>("dt", ValueType::DATE)?;
ct_type.add_sub_value_type_by_name::<&str>("tm", ValueType::TIME)?;
let mut ct_udt = ct_type.new_user_type();
ct_udt.set_uint32_by_name("dt", basic.ct.dt)?;
ct_udt.set_int64_by_name("tm", basic.ct.tm)?;
statement.bind(0, key)?;
statement.bind(1, basic.bln)?;
statement.bind(2, basic.flt)?;
statement.bind(3, basic.dbl)?;
statement.bind(4, basic.i8)?;
statement.bind(5, basic.i16)?;
statement.bind(6, basic.i32)?;
statement.bind(7, basic.i64)?;
statement.bind(8, basic.ts)?;
statement.bind(9, basic.addr)?;
statement.bind(10, basic.tu)?;
statement.bind(11, basic.id)?;
statement.bind(12, &ct_udt)?;
session.execute(&statement).wait()
}
const SELECT_QUERY: &str = "SELECT key, bln, flt, dbl, i8, i16, i32, i64, ts, addr, tu, id, ct \
FROM examples.basic WHERE key = ?";
fn select_from_basic(session: &Session, key: &str) -> Result<Option<Basic>> {
let mut statement = stmt!(SELECT_QUERY);
statement.bind_string(0, key)?;
let result = session.execute(&statement).wait()?;
println!("Result: \n{:?}\n", result);
match result.first_row() {
None => Ok(None),
Some(row) => {
let fields_iter: UserTypeIterator = row.get(12)?;
let mut dt: u32 = 0;
let mut tm: i64 = 0;
for field in fields_iter {
match field.0.as_ref() {
"dt" => dt = field.1.get_u32()?,
"tm" => tm = field.1.get_i64()?,
_ => panic!("Unexpected field: {:?}", field),
}
}
Ok(Some(Basic {
bln: row.get(1)?,
flt: row.get(2)?,
dbl: row.get(3)?,
i8: row.get(4)?,
i16: row.get(5)?,
i32: row.get(6)?,
i64: row.get(7)?,
ts: row.get(8)?,
addr: row.get(9)?,
tu: row.get(10)?,
id: row.get(11)?,
ct: Udt{
dt: dt,
tm: tm,
},
}))
}
}
}
fn select_from_basic_prepared(session: &Session, prepared: &PreparedStatement, key: &str, basic: &mut Basic) -> Result<()> {
let mut statement = prepared.bind();
statement.bind_string(0, key)?;
let future = session.execute(&statement);
let result = future.wait()?;
println!("{:?}", result);
for row in result.iter() {
basic.bln = row.get(1)?;
basic.flt = row.get(2)?;
basic.dbl = row.get(3)?;
basic.i8 = row.get(4)?;
basic.i16 = row.get(5)?;
basic.i32 = row.get(6)?;
basic.i64 = row.get(7)?;
basic.ts = row.get(8)?;
basic.addr = row.get(9)?;
basic.tu = row.get(10)?;
basic.id = row.get(11)?;
let fields_iter: UserTypeIterator = row.get(12)?;
let mut dt: u32 = 0;
let mut tm: i64 = 0;
for field in fields_iter {
match field.0.as_ref() {
"dt" => dt = field.1.get_u32()?,
"tm" => tm = field.1.get_i64()?,
_ => panic!("Unexpected field: {:?}", field),
}
}
basic.ct = Udt{
dt: dt,
tm: tm,
};
}
Ok(())
}
#[test]
fn test_simple() {
let query = stmt!("SELECT keyspace_name FROM system_schema.keyspaces;");
let col_name = "keyspace_name";
let session = help::create_test_session();
let result = session.execute(&query).wait().unwrap();
println!("{}", result);
let mut names = vec![];
for row in result.iter() {
let col: String = row.get_by_name(col_name).unwrap();
println!("ks name = {}", col);
names.push(col);
}
assert!(names.contains(&"system_schema".to_string()));
assert!(names.contains(&"system_auth".to_string()));
}
#[test]
fn test_basic_error() {
let session = help::create_test_session();
let s = stmt!("CREATE GOBBLEDEGOOK;");
session.execute(&s).wait().expect_err("Should cleanly return an error");
}
#[test]
fn test_basic_round_trip() {
let session = help::create_test_session();
help::create_example_keyspace(&session);
create_basic_table(&session);
let uuid_gen = UuidGen::default();
let ts = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() * 1_000;
let input = Basic {
bln: true,
flt: 0.001f32,
dbl: 0.0002f64,
i8: 1,
i16: 2,
i32: 3,
i64: 4,
ts: ts as i64,
addr: "127.0.0.1".parse().unwrap(),
tu: uuid_gen.gen_time(),
id: uuid_gen.gen_random(),
ct: Udt {
dt: ts as u32,
tm: ts as i64,
},
};
insert_into_basic(&session, "test", &input).unwrap();
let output = select_from_basic(&session, "test").unwrap().expect("no output from select");
println!("{:?}", input);
println!("{:?}", output);
assert!(input == output);
}
#[test]
fn test_prepared_round_trip() {
let session = help::create_test_session();
help::create_example_keyspace(&session);
create_basic_table(&session);
let uuid_gen = UuidGen::default();
let ts = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH).unwrap().as_secs() * 1_000;
let input = Basic {
bln: true,
flt: 0.001f32,
dbl: 0.0002f64,
i8: 1,
i16: 2,
i32: 3,
i64: 4,
ts: ts as i64,
addr: "127.0.0.1".parse().unwrap(),
tu: uuid_gen.gen_time(),
id: uuid_gen.gen_random(),
ct: Udt {
dt: ts as u32,
tm: ts as i64,
},
};
let mut output = Basic::default();
println!("Basic insertions");
insert_into_basic(&session, "prepared_test", &input).unwrap();
println!("Preparing");
let prepared = session.prepare(SELECT_QUERY).unwrap().wait().expect("prepared");
select_from_basic_prepared(&session, &prepared, "prepared_test", &mut output).unwrap();
assert_eq!(input, output, "Input: {:?}\noutput: {:?}", &input, &output);
}
#[test]
fn test_null_retrieval() {
let session = help::create_test_session();
help::create_example_keyspace(&session);
create_basic_table(&session);
let partial = stmt!("INSERT INTO examples.basic (key, bln, flt) VALUES ('vacant', true, 3.14);");
session.execute(&partial).wait().expect("insert");
let query = stmt!("SELECT key, bln, flt, dbl, i8, i16, i32, i64, ts, addr, tu, id, ct \
FROM examples.basic WHERE key = 'vacant';");
let result = session.execute(&query).wait().expect("select");
assert_eq!(1, result.row_count());
let row = result.first_row().unwrap();
let v: String = row.get(0).unwrap();
assert_eq!(v, "vacant".to_string());
assert!(!row.get_column(0).unwrap().is_null());
let v: bool = row.get(1).unwrap();
assert_eq!(v, true);
assert!(!row.get_column(1).unwrap().is_null());
let v: f32 = row.get(2).unwrap();
assert_eq!(v, 3.14f32);
assert!(!row.get_column(2).unwrap().is_null());
let c = row.get_column(3).expect("should be present");
c.get_f64().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(4).expect("should be present");
c.get_i8().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(5).expect("should be present");
c.get_i16().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(6).expect("should be present");
c.get_i32().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(7).expect("should be present");
c.get_i64().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(8).expect("should be present");
c.get_u32().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(9).expect("should be present");
c.get_inet().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(10).expect("should be present");
c.get_uuid().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(11).expect("should be present");
c.get_uuid().expect_err("should be null");
assert!(c.is_null());
let c = row.get_column(12).expect("should be present");
c.get_user_type().expect_err("should be null");
assert!(c.is_null());
}
#[test]
fn test_null_insertion() {
let session = help::create_test_session();
help::create_example_keyspace(&session);
create_basic_table(&session);
let mut s = stmt!("INSERT INTO examples.basic (key, bln, flt, dbl, i8, i16, i32, i64, ts, addr, tu, id, ct) \
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?);");
s.bind(0, "shrdlu").unwrap();
s.bind(1, false).unwrap();
s.bind_null(2).unwrap();
s.bind(3, 2.72f64).unwrap();
s.bind_null(5).unwrap();
s.bind_null(6).unwrap();
s.bind_null(7).unwrap();
s.bind_null(8).unwrap();
s.bind_null(9).unwrap();
s.bind_null(10).unwrap();
s.bind_null(11).unwrap();
s.bind_null(12).unwrap();
session.execute(&s).wait().unwrap();
let s = stmt!("SELECT key, bln, flt, dbl, i8, i16, i32, i64, ts, addr, tu, id, ct \
FROM examples.basic WHERE key = 'shrdlu';");
let result = session.execute(&s).wait().expect("select");
assert_eq!(1, result.row_count());
let row = result.first_row().unwrap();
assert!(!row.get_column(0).unwrap().is_null());
assert!(!row.get_column(1).unwrap().is_null());
assert!(row.get_column(2).unwrap().is_null());
assert!(!row.get_column(3).unwrap().is_null());
assert!(row.get_column(4).unwrap().is_null());
assert!(row.get_column(5).unwrap().is_null());
assert!(row.get_column(6).unwrap().is_null());
assert!(row.get_column(7).unwrap().is_null());
assert!(row.get_column(8).unwrap().is_null());
assert!(row.get_column(9).unwrap().is_null());
assert!(row.get_column(10).unwrap().is_null());
assert!(row.get_column(11).unwrap().is_null());
assert!(row.get_column(12).unwrap().is_null());
}
fn assert_contains(haystack: String, needle: &str) {
assert!(haystack.contains(needle), "assert_contains: `{}` not found in `{}`", needle, &haystack);
}
#[test]
fn test_rendering() {
let query = stmt!("SELECT * FROM system_schema.tables;");
let session = help::create_test_session();
let result = session.execute(&query).wait().unwrap();
println!("test_rendering: {}", result);
let row = result.iter().next().unwrap();
let compaction_col = row.get_column_by_name("compaction").unwrap();
let column_debug = format!("{:?}", compaction_col);
println!("Column debug: {}", &column_debug);
assert_contains(column_debug, r#"{"class" => "org.apache.cassandra.db.compaction"#);
let column_display = format!("{}", compaction_col);
println!("Column display: {}", &column_display);
assert_contains(column_display, r#"{class => org.apache.cassandra.db.compaction"#);
let keyspace_col = row.get_column_by_name("keyspace_name").unwrap();
let str: &str = keyspace_col.get_str().unwrap();
println!("Str is {}", str);
assert!(str.len() > 0, "empty str");
let str: String = keyspace_col.get_string().unwrap();
println!("String is {}", str);
assert!(str.len() > 0, "empty string");
keyspace_col.get_map().expect_err("Should fail with invalid value type");
}
#[test]
fn test_error_reporting() {
let session = help::create_test_session();
let mut query = stmt!("SELECT * from system_schema.tables;");
query.set_consistency(Consistency::THREE).unwrap(); let err = session.execute(&query).wait().expect_err("Should have failed!");
println!("Got error {} kind {:?}", err, err.kind());
match *err.kind() {
ErrorKind::CassError(CassErrorCode::LIB_NO_HOSTS_AVAILABLE, _) => (),
ref k => panic!("Unexpected error kind {}", k),
}
let query = stmt!("SELECT gibberish from system_schema.tables;");
let err = session.execute(&query).wait().expect_err("Should have failed!");
println!("Got error {} kind {:?}", err, err.kind());
match *err.kind() {
ErrorKind::CassErrorResult(CassErrorCode::SERVER_INVALID_QUERY, _, _, -1, -1, -1, _, _, _, _, _) => (),
ref k => panic!("Unexpected error kind {}", k),
}
help::create_example_keyspace(&session);
create_basic_table(&session);
let s = stmt!("INSERT INTO examples.basic (key, i32) VALUES ('utf8', -1);");
session.execute(&s).wait().unwrap();
let query = stmt!("SELECT i32 FROM examples.basic WHERE key = 'utf8';");
let result = session.execute(&query).wait().unwrap();
let row = result.iter().next().unwrap();
let err = row.get_column(0).unwrap().get_string().expect_err("Should have failed");
println!("Got error {} kind {:?}", err, err.kind());
match *err.kind() {
ErrorKind::InvalidUtf8(_) => (),
ref k => panic!("Unexpected error kind {}", k),
}
let mut query = stmt!("SELECT ? from system_schema.tables;");
let err = query.bind(0, "safe\0nasty!").expect_err("Should have failed!");
println!("Got error {} kind {:?}", err, err.kind());
match *err.kind() {
ErrorKind::StringContainsNul(_) => (),
ref k => panic!("Unexpected error kind {}", k),
}
}
#[test]
fn test_result() {
let query = stmt!("SELECT * FROM system_schema.tables;");
let session = help::create_test_session();
let result = session.execute(&query).wait().unwrap();
assert_eq!("keyspace_name", result.column_name(0).unwrap());
assert_eq!("table_name", result.column_name(1).unwrap());
}
#[test]
fn test_statement_timeout() {
let mut query = stmt!("SELECT * FROM system_schema.tables;");
query.set_statement_request_timeout(Some(Duration::milliseconds(
30000 as i64,
)));
let session = help::create_test_session();
let result = session.execute(&query).wait().unwrap();
assert_eq!("keyspace_name", result.column_name(0).unwrap());
assert_eq!("table_name", result.column_name(1).unwrap());
}