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ohwgiles_laminar/test/laminar-functional.cpp
Oliver Giles 746ab24676 move buildTimeDist chart to examples
too esoteric for the front page, converting it to an example
of querying laminar db directly and using gnuplot should provide
more value to those needing deeper insights into job behaviour.
2020-09-26 15:12:02 +12:00

165 lines
5.8 KiB
C++

///
/// Copyright 2019 Oliver Giles
///
/// This file is part of Laminar
///
/// Laminar is free software: you can redistribute it and/or modify
/// it under the terms of the GNU General Public License as published by
/// the Free Software Foundation, either version 3 of the License, or
/// (at your option) any later version.
///
/// Laminar is distributed in the hope that it will be useful,
/// but WITHOUT ANY WARRANTY; without even the implied warranty of
/// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
/// GNU General Public License for more details.
///
/// You should have received a copy of the GNU General Public License
/// along with Laminar. If not, see <http://www.gnu.org/licenses/>
///
#include <kj/async-unix.h>
#include "laminar-fixture.h"
#include "conf.h"
// TODO: consider handling this differently
kj::AsyncIoContext* LaminarFixture::ioContext;
TEST_F(LaminarFixture, EmptyStatusMessageStructure) {
auto es = eventSource("/");
ioContext->waitScope.poll();
ASSERT_EQ(1, es->messages().size());
auto json = es->messages().front().GetObject();
EXPECT_STREQ("status", json["type"].GetString());
EXPECT_STREQ("Laminar", json["title"].GetString());
EXPECT_LT(time(nullptr) - json["time"].GetInt64(), 1);
auto data = json["data"].GetObject();
EXPECT_TRUE(data.HasMember("recent"));
EXPECT_TRUE(data.HasMember("running"));
EXPECT_TRUE(data.HasMember("queued"));
EXPECT_TRUE(data.HasMember("executorsTotal"));
EXPECT_TRUE(data.HasMember("executorsBusy"));
EXPECT_TRUE(data.HasMember("buildsPerDay"));
EXPECT_TRUE(data.HasMember("buildsPerJob"));
EXPECT_TRUE(data.HasMember("timePerJob"));
EXPECT_TRUE(data.HasMember("resultChanged"));
EXPECT_TRUE(data.HasMember("lowPassRates"));
EXPECT_TRUE(data.HasMember("buildTimeChanges"));
}
TEST_F(LaminarFixture, JobNotifyHomePage) {
defineJob("foo", "true");
auto es = eventSource("/");
runJob("foo");
ASSERT_EQ(4, es->messages().size());
auto job_queued = es->messages().at(1).GetObject();
EXPECT_STREQ("job_queued", job_queued["type"].GetString());
EXPECT_STREQ("foo", job_queued["data"]["name"].GetString());
auto job_started = es->messages().at(2).GetObject();
EXPECT_STREQ("job_started", job_started["type"].GetString());
EXPECT_STREQ("foo", job_started["data"]["name"].GetString());
auto job_completed = es->messages().at(3).GetObject();
EXPECT_STREQ("job_completed", job_completed["type"].GetString());
EXPECT_STREQ("foo", job_completed["data"]["name"].GetString());
}
TEST_F(LaminarFixture, OnlyRelevantNotifications) {
defineJob("job1", "true");
defineJob("job2", "true");
auto esHome = eventSource("/");
auto esJobs = eventSource("/jobs");
auto es1Job = eventSource("/jobs/job1");
auto es2Job = eventSource("/jobs/job2");
auto es1Run = eventSource("/jobs/job1/1");
auto es2Run = eventSource("/jobs/job2/1");
runJob("job1");
runJob("job2");
EXPECT_EQ(7, esHome->messages().size());
EXPECT_EQ(7, esJobs->messages().size());
EXPECT_EQ(4, es1Job->messages().size());
EXPECT_EQ(4, es2Job->messages().size());
EXPECT_EQ(4, es1Run->messages().size());
EXPECT_EQ(4, es2Run->messages().size());
}
TEST_F(LaminarFixture, FailedStatus) {
defineJob("job1", "false");
auto run = runJob("job1");
ASSERT_EQ(LaminarCi::JobResult::FAILED, run.result);
}
TEST_F(LaminarFixture, WorkingDirectory) {
defineJob("job1", "pwd");
auto run = runJob("job1");
ASSERT_EQ(LaminarCi::JobResult::SUCCESS, run.result);
std::string cwd{tmp.path.append(kj::Path{"run","job1","1"}).toString(true).cStr()};
EXPECT_EQ(cwd + "\n", stripLaminarLogLines(run.log).cStr());
}
TEST_F(LaminarFixture, Environment) {
defineJob("foo", "env");
auto run = runJob("foo");
std::string ws{tmp.path.append(kj::Path{"run","foo","workspace"}).toString(true).cStr()};
std::string archive{tmp.path.append(kj::Path{"archive","foo","1"}).toString(true).cStr()};
StringMap map = parseFromString(run.log);
EXPECT_EQ("1", map["RUN"]);
EXPECT_EQ("foo", map["JOB"]);
EXPECT_EQ("success", map["RESULT"]);
EXPECT_EQ("unknown", map["LAST_RESULT"]);
EXPECT_EQ(ws, map["WORKSPACE"]);
EXPECT_EQ(archive, map["ARCHIVE"]);
}
TEST_F(LaminarFixture, ParamsToEnv) {
defineJob("foo", "env");
StringMap params;
params["foo"] = "bar";
auto run = runJob("foo", params);
StringMap map = parseFromString(run.log);
EXPECT_EQ("bar", map["foo"]);
}
TEST_F(LaminarFixture, Abort) {
defineJob("job1", "yes");
auto req = client().runRequest();
req.setJobName("job1");
auto res = req.send();
// There isn't a nice way of knowing when the leader process is ready to
// handle SIGTERM. Just wait until it prints something to the log
ioContext->waitScope.poll();
kj::HttpHeaderTable headerTable;
char _;
kj::newHttpClient(ioContext->lowLevelProvider->getTimer(), headerTable,
*ioContext->provider->getNetwork().parseAddress(bind_http.c_str()).wait(ioContext->waitScope))
->request(kj::HttpMethod::GET, "/log/job1/1", kj::HttpHeaders(headerTable)).response.wait(ioContext->waitScope).body
->tryRead(&_, 1, 1).wait(ioContext->waitScope);
// now it should be ready to abort
ASSERT_TRUE(laminar->abort("job1", 1));
EXPECT_EQ(LaminarCi::JobResult::ABORTED, res.wait(ioContext->waitScope).getResult());
}
TEST_F(LaminarFixture, JobDescription) {
defineJob("foo", "true", "DESCRIPTION=bar");
auto es = eventSource("/jobs/foo");
ioContext->waitScope.poll();
ASSERT_EQ(1, es->messages().size());
auto json = es->messages().front().GetObject();
ASSERT_TRUE(json.HasMember("data"));
auto data = json["data"].GetObject();
ASSERT_TRUE(data.HasMember("description"));
EXPECT_STREQ("bar", data["description"].GetString());
}