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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include <vespa/searchcore/proton/server/executorthreadingservice.h>
#include <vespa/searchcore/proton/server/threading_service_config.h>
#include <vespa/searchcore/proton/test/transport_helper.h>
#include <vespa/vespalib/gtest/gtest.h>
#include <vespa/vespalib/util/sequencedtaskexecutor.h>
using namespace proton;
using vespalib::ISequencedTaskExecutor;
using vespalib::SequencedTaskExecutor;
using SharedFieldWriterExecutor = ThreadingServiceConfig::SharedFieldWriterExecutor;
VESPA_THREAD_STACK_TAG(my_field_writer_executor)
SequencedTaskExecutor*
to_concrete_type(ISequencedTaskExecutor& exec)
{
return dynamic_cast<SequencedTaskExecutor*>(&exec);
}
class ExecutorThreadingServiceTest : public ::testing::Test {
public:
TransportAndExecutor _transport;
std::unique_ptr<ISequencedTaskExecutor> field_writer_executor;
std::unique_ptr<ExecutorThreadingService> service;
ExecutorThreadingServiceTest()
: _transport(1),
field_writer_executor(SequencedTaskExecutor::create(my_field_writer_executor, 3, 200)),
service()
{
}
void setup(uint32_t indexing_threads, SharedFieldWriterExecutor shared_field_writer) {
service = std::make_unique<ExecutorThreadingService>(_transport.shared(),
_transport.transport(),
_transport.clock(),
field_writer_executor.get(),
nullptr,
ThreadingServiceConfig::make(indexing_threads, shared_field_writer));
}
SequencedTaskExecutor* index_inverter() {
return to_concrete_type(service->indexFieldInverter());
}
SequencedTaskExecutor* index_writer() {
return to_concrete_type(service->indexFieldWriter());
}
SequencedTaskExecutor* attribute_writer() {
return to_concrete_type(service->attributeFieldWriter());
}
SequencedTaskExecutor* field_writer() {
return to_concrete_type(*field_writer_executor);
}
};
void
assert_executor(SequencedTaskExecutor* exec, uint32_t exp_executors, uint32_t exp_task_limit)
{
EXPECT_EQ(exp_executors, exec->getNumExecutors());
EXPECT_EQ(exp_task_limit, exec->first_executor()->getTaskLimit());
}
TEST_F(ExecutorThreadingServiceTest, no_shared_field_writer_executor)
{
setup(4, SharedFieldWriterExecutor::NONE);
EXPECT_NE(index_inverter(), index_writer());
EXPECT_NE(index_writer(), attribute_writer());
assert_executor(index_inverter(), 4, 100);
assert_executor(index_writer(), 4, 100);
assert_executor(attribute_writer(), 4, 100);
}
TEST_F(ExecutorThreadingServiceTest, shared_executor_for_index_field_writers)
{
setup(4, SharedFieldWriterExecutor::INDEX);
EXPECT_EQ(index_inverter(), index_writer());
EXPECT_NE(index_inverter(), attribute_writer());
assert_executor(index_inverter(), 8, 100);
assert_executor(attribute_writer(), 4, 100);
}
TEST_F(ExecutorThreadingServiceTest, shared_executor_for_index_and_attribute_field_writers)
{
setup(4, SharedFieldWriterExecutor::INDEX_AND_ATTRIBUTE);
EXPECT_EQ(index_inverter(), index_writer());
EXPECT_EQ(index_inverter(), attribute_writer());
assert_executor(index_inverter(), 12, 100);
}
TEST_F(ExecutorThreadingServiceTest, shared_field_writer_specified_from_the_outside)
{
setup(4, SharedFieldWriterExecutor::DOCUMENT_DB);
EXPECT_EQ(field_writer(), index_inverter());
EXPECT_EQ(field_writer(), index_writer());
EXPECT_EQ(field_writer(), attribute_writer());
assert_executor(field_writer(), 3, 200);
}
TEST_F(ExecutorThreadingServiceTest, tasks_limits_can_be_updated)
{
setup(4, SharedFieldWriterExecutor::NONE);
service->set_task_limits(5, 7, 11);
EXPECT_EQ(5, service->master_task_limit());
EXPECT_EQ(7, service->index().getTaskLimit());
EXPECT_EQ(11, service->summary().getTaskLimit());
EXPECT_EQ(7, index_inverter()->first_executor()->getTaskLimit());
EXPECT_EQ(7, index_writer()->first_executor()->getTaskLimit());
EXPECT_EQ(7, attribute_writer()->first_executor()->getTaskLimit());
}
GTEST_MAIN_RUN_ALL_TESTS()
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