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apache / thrift / b0d14133d5071370905a1b54b37a1a7c86d50e6d / . / test / rs / src / bin / test_client.rs
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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you 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.
#[macro_use]
extern crate log;
extern crate env_logger;
#[macro_use]
extern crate clap;
extern crate ordered_float;
extern crate thrift;
extern crate thrift_test; // huh. I have to do this to use my lib
use ordered_float::OrderedFloat;
use std::collections::{BTreeMap, BTreeSet};
use std::fmt::Debug;
use thrift::protocol::{TBinaryInputProtocol, TBinaryOutputProtocol, TCompactInputProtocol,
TCompactOutputProtocol, TInputProtocol, TMultiplexedOutputProtocol,
TOutputProtocol};
use thrift::transport::{ReadHalf, TBufferedReadTransport, TBufferedWriteTransport,
TFramedReadTransport, TFramedWriteTransport, TIoChannel, TReadTransport,
TTcpChannel, TWriteTransport, WriteHalf};
use thrift_test::*;
fn main() {
env_logger::init().expect("logger setup failed");
debug!("initialized logger - running cross-test client");
match run() {
Ok(()) => info!("cross-test client succeeded"),
Err(e) => {
info!("cross-test client failed with error {:?}", e);
std::process::exit(1);
}
}
}
fn run() -> thrift::Result<()> {
// unsupported options:
// --domain-socket
// --pipe
// --anon-pipes
// --ssl
// --threads
let matches = clap_app!(rust_test_client =>
(version: "1.0")
(author: "Apache Thrift Developers <dev@thrift.apache.org>")
(about: "Rust Thrift test client")
(@arg host: --host +takes_value "Host on which the Thrift test server is located")
(@arg port: --port +takes_value "Port on which the Thrift test server is listening")
(@arg transport: --transport +takes_value "Thrift transport implementation to use (\"buffered\", \"framed\")")
(@arg protocol: --protocol +takes_value "Thrift protocol implementation to use (\"binary\", \"compact\", \"multi\", \"multic\")")
(@arg testloops: -n --testloops +takes_value "Number of times to run tests")
)
.get_matches();
let host = matches.value_of("host").unwrap_or("127.0.0.1");
let port = value_t!(matches, "port", u16).unwrap_or(9090);
let testloops = value_t!(matches, "testloops", u8).unwrap_or(1);
let transport = matches.value_of("transport").unwrap_or("buffered");
let protocol = matches.value_of("protocol").unwrap_or("binary");
let mut thrift_test_client = {
let (i_prot, o_prot) = build_protocols(host, port, transport, protocol, "ThriftTest")?;
ThriftTestSyncClient::new(i_prot, o_prot)
};
let mut second_service_client = if protocol.starts_with("multi") {
let (i_prot, o_prot) = build_protocols(host, port, transport, protocol, "SecondService")?;
Some(SecondServiceSyncClient::new(i_prot, o_prot))
} else {
None
};
info!(
"connecting to {}:{} with {}+{} stack",
host,
port,
protocol,
transport
);
for _ in 0..testloops {
make_thrift_calls(&mut thrift_test_client, &mut second_service_client)?
}
Ok(())
}
fn build_protocols(
host: &str,
port: u16,
transport: &str,
protocol: &str,
service_name: &str,
) -> thrift::Result<(Box<dyn TInputProtocol>, Box<dyn TOutputProtocol>)> {
let (i_chan, o_chan) = tcp_channel(host, port)?;
let (i_tran, o_tran): (Box<dyn TReadTransport>, Box<dyn TWriteTransport>) = match transport {
"buffered" => {
(Box::new(TBufferedReadTransport::new(i_chan)),
Box::new(TBufferedWriteTransport::new(o_chan)))
}
"framed" => {
(Box::new(TFramedReadTransport::new(i_chan)),
Box::new(TFramedWriteTransport::new(o_chan)))
}
unmatched => return Err(format!("unsupported transport {}", unmatched).into()),
};
let (i_prot, o_prot): (Box<dyn TInputProtocol>, Box<dyn TOutputProtocol>) = match protocol {
"binary" => {
(Box::new(TBinaryInputProtocol::new(i_tran, true)),
Box::new(TBinaryOutputProtocol::new(o_tran, true)))
}
"multi" => {
(Box::new(TBinaryInputProtocol::new(i_tran, true)),
Box::new(
TMultiplexedOutputProtocol::new(
service_name,
TBinaryOutputProtocol::new(o_tran, true),
),
))
}
"compact" => {
(Box::new(TCompactInputProtocol::new(i_tran)),
Box::new(TCompactOutputProtocol::new(o_tran)))
}
"multic" => {
(Box::new(TCompactInputProtocol::new(i_tran)),
Box::new(TMultiplexedOutputProtocol::new(service_name, TCompactOutputProtocol::new(o_tran)),))
}
unmatched => return Err(format!("unsupported protocol {}", unmatched).into()),
};
Ok((i_prot, o_prot))
}
// FIXME: expose "open" through the client interface so I don't have to early
// open
fn tcp_channel(
host: &str,
port: u16,
) -> thrift::Result<(ReadHalf<TTcpChannel>, WriteHalf<TTcpChannel>)> {
let mut c = TTcpChannel::new();
c.open(&format!("{}:{}", host, port))?;
c.split()
}
type BuildThriftTestClient = ThriftTestSyncClient<Box<dyn TInputProtocol>, Box<dyn TOutputProtocol>>;
type BuiltSecondServiceClient = SecondServiceSyncClient<Box<dyn TInputProtocol>, Box<dyn TOutputProtocol>>;
#[cfg_attr(feature = "cargo-clippy", allow(cyclomatic_complexity))]
fn make_thrift_calls(
thrift_test_client: &mut BuildThriftTestClient,
second_service_client: &mut Option<BuiltSecondServiceClient>,
) -> Result<(), thrift::Error> {
info!("testVoid");
thrift_test_client.test_void()?;
info!("testString");
verify_expected_result(
thrift_test_client.test_string("thing".to_owned()),
"thing".to_owned(),
)?;
info!("testBool");
verify_expected_result(thrift_test_client.test_bool(true), true)?;
info!("testBool");
verify_expected_result(thrift_test_client.test_bool(false), false)?;
info!("testByte");
verify_expected_result(thrift_test_client.test_byte(42), 42)?;
info!("testi32");
verify_expected_result(thrift_test_client.test_i32(1159348374), 1159348374)?;
info!("testi64");
// try!(verify_expected_result(thrift_test_client.test_i64(-8651829879438294565),
// -8651829879438294565));
verify_expected_result(
thrift_test_client.test_i64(i64::min_value()),
i64::min_value(),
)?;
info!("testDouble");
verify_expected_result(
thrift_test_client.test_double(OrderedFloat::from(42.42)),
OrderedFloat::from(42.42),
)?;
info!("testTypedef");
{
let u_snd: UserId = 2348;
let u_cmp: UserId = 2348;
verify_expected_result(thrift_test_client.test_typedef(u_snd), u_cmp)?;
}
info!("testEnum");
{
verify_expected_result(thrift_test_client.test_enum(Numberz::Two), Numberz::Two)?;
}
info!("testBinary");
{
let b_snd = vec![0x77, 0x30, 0x30, 0x74, 0x21, 0x20, 0x52, 0x75, 0x73, 0x74];
let b_cmp = vec![0x77, 0x30, 0x30, 0x74, 0x21, 0x20, 0x52, 0x75, 0x73, 0x74];
verify_expected_result(thrift_test_client.test_binary(b_snd), b_cmp)?;
}
info!("testStruct");
{
let x_snd = Xtruct {
string_thing: Some("foo".to_owned()),
byte_thing: Some(12),
i32_thing: Some(219129),
i64_thing: Some(12938492818),
};
let x_cmp = Xtruct {
string_thing: Some("foo".to_owned()),
byte_thing: Some(12),
i32_thing: Some(219129),
i64_thing: Some(12938492818),
};
verify_expected_result(thrift_test_client.test_struct(x_snd), x_cmp)?;
}
// Xtruct again, with optional values
// FIXME: apparently the erlang thrift server does not like opt-in-req-out
// parameters that are undefined. Joy.
// {
// let x_snd = Xtruct { string_thing: Some("foo".to_owned()), byte_thing: None,
// i32_thing: None, i64_thing: Some(12938492818) };
// let x_cmp = Xtruct { string_thing: Some("foo".to_owned()), byte_thing:
// Some(0), i32_thing: Some(0), i64_thing: Some(12938492818) }; // the C++
// server is responding correctly
// try!(verify_expected_result(thrift_test_client.test_struct(x_snd), x_cmp));
// }
//
info!("testNest"); // (FIXME: try Xtruct2 with optional values)
{
let x_snd = Xtruct2 {
byte_thing: Some(32),
struct_thing: Some(
Xtruct {
string_thing: Some("foo".to_owned()),
byte_thing: Some(1),
i32_thing: Some(324382098),
i64_thing: Some(12938492818),
},
),
i32_thing: Some(293481098),
};
let x_cmp = Xtruct2 {
byte_thing: Some(32),
struct_thing: Some(
Xtruct {
string_thing: Some("foo".to_owned()),
byte_thing: Some(1),
i32_thing: Some(324382098),
i64_thing: Some(12938492818),
},
),
i32_thing: Some(293481098),
};
verify_expected_result(thrift_test_client.test_nest(x_snd), x_cmp)?;
}
// do the multiplexed calls while making the main ThriftTest calls
if let Some(ref mut client) = second_service_client.as_mut() {
info!("SecondService secondtestString");
{
verify_expected_result(
client.secondtest_string("test_string".to_owned()),
"testString(\"test_string\")".to_owned(),
)?;
}
}
info!("testList");
{
let mut v_snd: Vec<i32> = Vec::new();
v_snd.push(29384);
v_snd.push(238);
v_snd.push(32498);
let mut v_cmp: Vec<i32> = Vec::new();
v_cmp.push(29384);
v_cmp.push(238);
v_cmp.push(32498);
verify_expected_result(thrift_test_client.test_list(v_snd), v_cmp)?;
}
info!("testSet");
{
let mut s_snd: BTreeSet<i32> = BTreeSet::new();
s_snd.insert(293481);
s_snd.insert(23);
s_snd.insert(3234);
let mut s_cmp: BTreeSet<i32> = BTreeSet::new();
s_cmp.insert(293481);
s_cmp.insert(23);
s_cmp.insert(3234);
verify_expected_result(thrift_test_client.test_set(s_snd), s_cmp)?;
}
info!("testMap");
{
let mut m_snd: BTreeMap<i32, i32> = BTreeMap::new();
m_snd.insert(2, 4);
m_snd.insert(4, 6);
m_snd.insert(8, 7);
let mut m_cmp: BTreeMap<i32, i32> = BTreeMap::new();
m_cmp.insert(2, 4);
m_cmp.insert(4, 6);
m_cmp.insert(8, 7);
verify_expected_result(thrift_test_client.test_map(m_snd), m_cmp)?;
}
info!("testStringMap");
{
let mut m_snd: BTreeMap<String, String> = BTreeMap::new();
m_snd.insert("2".to_owned(), "4_string".to_owned());
m_snd.insert("4".to_owned(), "6_string".to_owned());
m_snd.insert("8".to_owned(), "7_string".to_owned());
let mut m_rcv: BTreeMap<String, String> = BTreeMap::new();
m_rcv.insert("2".to_owned(), "4_string".to_owned());
m_rcv.insert("4".to_owned(), "6_string".to_owned());
m_rcv.insert("8".to_owned(), "7_string".to_owned());
verify_expected_result(thrift_test_client.test_string_map(m_snd), m_rcv)?;
}
// nested map
// expect : {-4 => {-4 => -4, -3 => -3, -2 => -2, -1 => -1, }, 4 => {1 => 1, 2
// => 2, 3 => 3, 4 => 4, }, }
info!("testMapMap");
{
let mut m_cmp_nested_0: BTreeMap<i32, i32> = BTreeMap::new();
for i in (-4 as i32)..0 {
m_cmp_nested_0.insert(i, i);
}
let mut m_cmp_nested_1: BTreeMap<i32, i32> = BTreeMap::new();
for i in 1..5 {
m_cmp_nested_1.insert(i, i);
}
let mut m_cmp: BTreeMap<i32, BTreeMap<i32, i32>> = BTreeMap::new();
m_cmp.insert(-4, m_cmp_nested_0);
m_cmp.insert(4, m_cmp_nested_1);
verify_expected_result(thrift_test_client.test_map_map(42), m_cmp)?;
}
info!("testMulti");
{
let mut m_snd: BTreeMap<i16, String> = BTreeMap::new();
m_snd.insert(1298, "fizz".to_owned());
m_snd.insert(-148, "buzz".to_owned());
let s_cmp = Xtruct {
string_thing: Some("Hello2".to_owned()),
byte_thing: Some(1),
i32_thing: Some(-123948),
i64_thing: Some(-19234123981),
};
verify_expected_result(
thrift_test_client.test_multi(1, -123948, -19234123981, m_snd, Numberz::Eight, 81),
s_cmp,
)?;
}
// Insanity
// returns:
// { 1 => { 2 => argument,
// 3 => argument,
// },
// 2 => { 6 => <empty Insanity struct>, },
// }
{
let mut arg_map_usermap: BTreeMap<Numberz, i64> = BTreeMap::new();
arg_map_usermap.insert(Numberz::One, 4289);
arg_map_usermap.insert(Numberz::Eight, 19);
let mut arg_vec_xtructs: Vec<Xtruct> = Vec::new();
arg_vec_xtructs.push(
Xtruct {
string_thing: Some("foo".to_owned()),
byte_thing: Some(8),
i32_thing: Some(29),
i64_thing: Some(92384),
},
);
arg_vec_xtructs.push(
Xtruct {
string_thing: Some("bar".to_owned()),
byte_thing: Some(28),
i32_thing: Some(2),
i64_thing: Some(-1281),
},
);
arg_vec_xtructs.push(
Xtruct {
string_thing: Some("baz".to_owned()),
byte_thing: Some(0),
i32_thing: Some(3948539),
i64_thing: Some(-12938492),
},
);
let mut s_cmp_nested_1: BTreeMap<Numberz, Insanity> = BTreeMap::new();
let insanity = Insanity {
user_map: Some(arg_map_usermap),
xtructs: Some(arg_vec_xtructs),
};
s_cmp_nested_1.insert(Numberz::Two, insanity.clone());
s_cmp_nested_1.insert(Numberz::Three, insanity.clone());
let mut s_cmp_nested_2: BTreeMap<Numberz, Insanity> = BTreeMap::new();
let empty_insanity = Insanity {
user_map: Some(BTreeMap::new()),
xtructs: Some(Vec::new()),
};
s_cmp_nested_2.insert(Numberz::Six, empty_insanity);
let mut s_cmp: BTreeMap<UserId, BTreeMap<Numberz, Insanity>> = BTreeMap::new();
s_cmp.insert(1 as UserId, s_cmp_nested_1);
s_cmp.insert(2 as UserId, s_cmp_nested_2);
verify_expected_result(thrift_test_client.test_insanity(insanity.clone()), s_cmp)?;
}
info!("testException - remote throws Xception");
{
let r = thrift_test_client.test_exception("Xception".to_owned());
let x = match r {
Err(thrift::Error::User(ref e)) => {
match e.downcast_ref::<Xception>() {
Some(x) => Ok(x),
None => Err(thrift::Error::User("did not get expected Xception struct".into()),),
}
}
_ => Err(thrift::Error::User("did not get exception".into())),
}?;
let x_cmp = Xception {
error_code: Some(1001),
message: Some("Xception".to_owned()),
};
verify_expected_result(Ok(x), &x_cmp)?;
}
info!("testException - remote throws TApplicationException");
{
let r = thrift_test_client.test_exception("TException".to_owned());
match r {
Err(thrift::Error::Application(ref e)) => {
info!("received an {:?}", e);
Ok(())
}
_ => Err(thrift::Error::User("did not get exception".into())),
}?;
}
info!("testException - remote succeeds");
{
let r = thrift_test_client.test_exception("foo".to_owned());
match r {
Ok(_) => Ok(()),
_ => Err(thrift::Error::User("received an exception".into())),
}?;
}
info!("testMultiException - remote throws Xception");
{
let r =
thrift_test_client.test_multi_exception("Xception".to_owned(), "ignored".to_owned());
let x = match r {
Err(thrift::Error::User(ref e)) => {
match e.downcast_ref::<Xception>() {
Some(x) => Ok(x),
None => Err(thrift::Error::User("did not get expected Xception struct".into()),),
}
}
_ => Err(thrift::Error::User("did not get exception".into())),
}?;
let x_cmp = Xception {
error_code: Some(1001),
message: Some("This is an Xception".to_owned()),
};
verify_expected_result(Ok(x), &x_cmp)?;
}
info!("testMultiException - remote throws Xception2");
{
let r =
thrift_test_client.test_multi_exception("Xception2".to_owned(), "ignored".to_owned());
let x = match r {
Err(thrift::Error::User(ref e)) => {
match e.downcast_ref::<Xception2>() {
Some(x) => Ok(x),
None => Err(thrift::Error::User("did not get expected Xception struct".into()),),
}
}
_ => Err(thrift::Error::User("did not get exception".into())),
}?;
let x_cmp = Xception2 {
error_code: Some(2002),
struct_thing: Some(
Xtruct {
string_thing: Some("This is an Xception2".to_owned()),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
byte_thing: Some(0),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
i32_thing: Some(0),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
i64_thing: Some(0),
},
),
};
verify_expected_result(Ok(x), &x_cmp)?;
}
info!("testMultiException - remote succeeds");
{
let r = thrift_test_client.test_multi_exception("haha".to_owned(), "RETURNED".to_owned());
let x = match r {
Err(e) => Err(thrift::Error::User(format!("received an unexpected exception {:?}", e).into(),),),
_ => r,
}?;
let x_cmp = Xtruct {
string_thing: Some("RETURNED".to_owned()),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
byte_thing: Some(0),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
i32_thing: Some(0),
// since this is an OPT_IN_REQ_OUT field the sender sets a default
i64_thing: Some(0),
};
verify_expected_result(Ok(x), x_cmp)?;
}
info!("testOneWay - remote sleeps for 1 second");
{
thrift_test_client.test_oneway(1)?;
}
// final test to verify that the connection is still writable after the one-way
// call
thrift_test_client.test_void()
}
#[cfg_attr(feature = "cargo-clippy", allow(needless_pass_by_value))]
fn verify_expected_result<T: Debug + PartialEq + Sized>(
actual: Result<T, thrift::Error>,
expected: T,
) -> Result<(), thrift::Error> {
info!("*** EXPECTED: Ok({:?})", expected);
info!("*** ACTUAL : {:?}", actual);
match actual {
Ok(v) => {
if v == expected {
info!("*** OK ***");
Ok(())
} else {
info!("*** FAILED ***");
Err(thrift::Error::User(format!("expected {:?} but got {:?}", &expected, &v).into()),)
}
}
Err(e) => Err(e),
}
}