rocksdb/options/customizable_test.cc
anand76 cc069f25b3 Add some compressed and tiered secondary cache stats (#12150)
Summary:
Add statistics for more visibility.

Pull Request resolved: https://github.com/facebook/rocksdb/pull/12150

Reviewed By: akankshamahajan15

Differential Revision: D52184633

Pulled By: anand1976

fbshipit-source-id: 9969e05d65223811cd12627102b020bb6d229352
2023-12-15 11:34:08 -08:00

2123 lines
79 KiB
C++

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#include "rocksdb/customizable.h"
#include <cctype>
#include <cinttypes>
#include <cstring>
#include <unordered_map>
#include <unordered_set>
#include "db/db_test_util.h"
#include "memory/jemalloc_nodump_allocator.h"
#include "memory/memkind_kmem_allocator.h"
#include "options/options_helper.h"
#include "options/options_parser.h"
#include "port/stack_trace.h"
#include "rocksdb/convenience.h"
#include "rocksdb/env_encryption.h"
#include "rocksdb/file_checksum.h"
#include "rocksdb/filter_policy.h"
#include "rocksdb/flush_block_policy.h"
#include "rocksdb/memory_allocator.h"
#include "rocksdb/secondary_cache.h"
#include "rocksdb/slice_transform.h"
#include "rocksdb/sst_partitioner.h"
#include "rocksdb/statistics.h"
#include "rocksdb/utilities/customizable_util.h"
#include "rocksdb/utilities/object_registry.h"
#include "rocksdb/utilities/options_type.h"
#include "table/block_based/filter_policy_internal.h"
#include "table/block_based/flush_block_policy_impl.h"
#include "table/mock_table.h"
#include "test_util/mock_time_env.h"
#include "test_util/testharness.h"
#include "test_util/testutil.h"
#include "util/file_checksum_helper.h"
#include "util/string_util.h"
#include "utilities/compaction_filters/remove_emptyvalue_compactionfilter.h"
#include "utilities/memory_allocators.h"
#include "utilities/merge_operators/bytesxor.h"
#include "utilities/merge_operators/sortlist.h"
#include "utilities/merge_operators/string_append/stringappend.h"
#include "utilities/merge_operators/string_append/stringappend2.h"
#ifndef GFLAGS
bool FLAGS_enable_print = false;
#else
#include "util/gflags_compat.h"
using GFLAGS_NAMESPACE::ParseCommandLineFlags;
DEFINE_bool(enable_print, false, "Print options generated to console.");
#endif // GFLAGS
namespace ROCKSDB_NAMESPACE {
namespace {
class StringLogger : public Logger {
public:
using Logger::Logv;
void Logv(const char* format, va_list ap) override {
char buffer[1000];
vsnprintf(buffer, sizeof(buffer), format, ap);
string_.append(buffer);
}
const std::string& str() const { return string_; }
void clear() { string_.clear(); }
private:
std::string string_;
};
class TestCustomizable : public Customizable {
public:
TestCustomizable(const std::string& name) : name_(name) {}
// Method to allow CheckedCast to work for this class
static const char* kClassName() {
return "TestCustomizable";
}
const char* Name() const override { return name_.c_str(); }
static const char* Type() { return "test.custom"; }
static Status CreateFromString(const ConfigOptions& opts,
const std::string& value,
std::unique_ptr<TestCustomizable>* result);
static Status CreateFromString(const ConfigOptions& opts,
const std::string& value,
std::shared_ptr<TestCustomizable>* result);
static Status CreateFromString(const ConfigOptions& opts,
const std::string& value,
TestCustomizable** result);
bool IsInstanceOf(const std::string& name) const override {
if (name == kClassName()) {
return true;
} else {
return Customizable::IsInstanceOf(name);
}
}
protected:
const std::string name_;
};
struct AOptions {
static const char* kName() { return "A"; }
int i = 0;
bool b = false;
};
static std::unordered_map<std::string, OptionTypeInfo> a_option_info = {
{"int",
{offsetof(struct AOptions, i), OptionType::kInt,
OptionVerificationType::kNormal, OptionTypeFlags::kMutable}},
{"bool",
{offsetof(struct AOptions, b), OptionType::kBoolean,
OptionVerificationType::kNormal, OptionTypeFlags::kNone}},
};
class ACustomizable : public TestCustomizable {
public:
explicit ACustomizable(const std::string& id)
: TestCustomizable("A"), id_(id) {
RegisterOptions(&opts_, &a_option_info);
}
std::string GetId() const override { return id_; }
static const char* kClassName() { return "A"; }
private:
AOptions opts_;
const std::string id_;
};
struct BOptions {
std::string s;
bool b = false;
};
static std::unordered_map<std::string, OptionTypeInfo> b_option_info = {
{"string",
{offsetof(struct BOptions, s), OptionType::kString,
OptionVerificationType::kNormal, OptionTypeFlags::kNone}},
{"bool",
{offsetof(struct BOptions, b), OptionType::kBoolean,
OptionVerificationType::kNormal, OptionTypeFlags::kNone}},
};
class BCustomizable : public TestCustomizable {
private:
public:
explicit BCustomizable(const std::string& name) : TestCustomizable(name) {
RegisterOptions(name, &opts_, &b_option_info);
}
static const char* kClassName() { return "B"; }
private:
BOptions opts_;
};
static int A_count = 0;
static int RegisterCustomTestObjects(ObjectLibrary& library,
const std::string& /*arg*/) {
library.AddFactory<TestCustomizable>(
ObjectLibrary::PatternEntry("A", true).AddSeparator("_"),
[](const std::string& name, std::unique_ptr<TestCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new ACustomizable(name));
A_count++;
return guard->get();
});
library.AddFactory<TestCustomizable>(
"B", [](const std::string& name, std::unique_ptr<TestCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new BCustomizable(name));
return guard->get();
});
library.AddFactory<TestCustomizable>(
"S", [](const std::string& name,
std::unique_ptr<TestCustomizable>* /* guard */,
std::string* /* msg */) { return new BCustomizable(name); });
size_t num_types;
return static_cast<int>(library.GetFactoryCount(&num_types));
}
struct SimpleOptions {
static const char* kName() { return "simple"; }
bool b = true;
std::unique_ptr<TestCustomizable> cu;
std::shared_ptr<TestCustomizable> cs;
TestCustomizable* cp = nullptr;
};
static std::unordered_map<std::string, OptionTypeInfo> simple_option_info = {
{"bool",
{offsetof(struct SimpleOptions, b), OptionType::kBoolean,
OptionVerificationType::kNormal, OptionTypeFlags::kNone}},
{"unique",
OptionTypeInfo::AsCustomUniquePtr<TestCustomizable>(
offsetof(struct SimpleOptions, cu), OptionVerificationType::kNormal,
OptionTypeFlags::kAllowNull)},
{"shared",
OptionTypeInfo::AsCustomSharedPtr<TestCustomizable>(
offsetof(struct SimpleOptions, cs), OptionVerificationType::kNormal,
OptionTypeFlags::kAllowNull)},
{"pointer",
OptionTypeInfo::AsCustomRawPtr<TestCustomizable>(
offsetof(struct SimpleOptions, cp), OptionVerificationType::kNormal,
OptionTypeFlags::kAllowNull)},
};
class SimpleConfigurable : public Configurable {
private:
SimpleOptions simple_;
public:
SimpleConfigurable() { RegisterOptions(&simple_, &simple_option_info); }
explicit SimpleConfigurable(
const std::unordered_map<std::string, OptionTypeInfo>* map) {
RegisterOptions(&simple_, map);
}
};
static void GetMapFromProperties(
const std::string& props,
std::unordered_map<std::string, std::string>* map) {
std::istringstream iss(props);
std::unordered_map<std::string, std::string> copy_map;
std::string line;
map->clear();
for (int line_num = 0; std::getline(iss, line); line_num++) {
std::string name;
std::string value;
ASSERT_OK(
RocksDBOptionsParser::ParseStatement(&name, &value, line, line_num));
(*map)[name] = value;
}
}
} // namespace
Status TestCustomizable::CreateFromString(
const ConfigOptions& config_options, const std::string& value,
std::shared_ptr<TestCustomizable>* result) {
return LoadSharedObject<TestCustomizable>(config_options, value, result);
}
Status TestCustomizable::CreateFromString(
const ConfigOptions& config_options, const std::string& value,
std::unique_ptr<TestCustomizable>* result) {
return LoadUniqueObject<TestCustomizable>(config_options, value, result);
}
Status TestCustomizable::CreateFromString(const ConfigOptions& config_options,
const std::string& value,
TestCustomizable** result) {
return LoadStaticObject<TestCustomizable>(config_options, value, result);
}
class CustomizableTest : public testing::Test {
public:
CustomizableTest() {
config_options_.invoke_prepare_options = false;
config_options_.registry->AddLibrary("CustomizableTest",
RegisterCustomTestObjects, "");
}
ConfigOptions config_options_;
};
// Tests that a Customizable can be created by:
// - a simple name
// - a XXX.id option
// - a property with a name
TEST_F(CustomizableTest, CreateByNameTest) {
ObjectLibrary::Default()->AddFactory<TestCustomizable>(
ObjectLibrary::PatternEntry("TEST", false).AddSeparator("_"),
[](const std::string& name, std::unique_ptr<TestCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new TestCustomizable(name));
return guard->get();
});
std::unique_ptr<Configurable> configurable(new SimpleConfigurable());
SimpleOptions* simple = configurable->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_OK(
configurable->ConfigureFromString(config_options_, "unique={id=TEST_1}"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "TEST_1");
ASSERT_OK(
configurable->ConfigureFromString(config_options_, "unique.id=TEST_2"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "TEST_2");
ASSERT_OK(
configurable->ConfigureFromString(config_options_, "unique=TEST_3"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "TEST_3");
}
TEST_F(CustomizableTest, ToStringTest) {
std::unique_ptr<TestCustomizable> custom(new TestCustomizable("test"));
ASSERT_EQ(custom->ToString(config_options_), "test");
}
TEST_F(CustomizableTest, SimpleConfigureTest) {
std::unordered_map<std::string, std::string> opt_map = {
{"unique", "id=A;int=1;bool=true"},
{"shared", "id=B;string=s"},
};
std::unique_ptr<Configurable> configurable(new SimpleConfigurable());
ASSERT_OK(configurable->ConfigureFromMap(config_options_, opt_map));
SimpleOptions* simple = configurable->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "A");
std::string opt_str;
std::string mismatch;
ASSERT_OK(configurable->GetOptionString(config_options_, &opt_str));
std::unique_ptr<Configurable> copy(new SimpleConfigurable());
ASSERT_OK(copy->ConfigureFromString(config_options_, opt_str));
ASSERT_TRUE(
configurable->AreEquivalent(config_options_, copy.get(), &mismatch));
}
TEST_F(CustomizableTest, ConfigureFromPropsTest) {
std::unordered_map<std::string, std::string> opt_map = {
{"unique.id", "A"}, {"unique.A.int", "1"}, {"unique.A.bool", "true"},
{"shared.id", "B"}, {"shared.B.string", "s"},
};
std::unique_ptr<Configurable> configurable(new SimpleConfigurable());
ASSERT_OK(configurable->ConfigureFromMap(config_options_, opt_map));
SimpleOptions* simple = configurable->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "A");
std::string opt_str;
std::string mismatch;
config_options_.delimiter = "\n";
std::unordered_map<std::string, std::string> props;
ASSERT_OK(configurable->GetOptionString(config_options_, &opt_str));
GetMapFromProperties(opt_str, &props);
std::unique_ptr<Configurable> copy(new SimpleConfigurable());
ASSERT_OK(copy->ConfigureFromMap(config_options_, props));
ASSERT_TRUE(
configurable->AreEquivalent(config_options_, copy.get(), &mismatch));
}
TEST_F(CustomizableTest, ConfigureFromShortTest) {
std::unordered_map<std::string, std::string> opt_map = {
{"unique.id", "A"}, {"unique.A.int", "1"}, {"unique.A.bool", "true"},
{"shared.id", "B"}, {"shared.B.string", "s"},
};
std::unique_ptr<Configurable> configurable(new SimpleConfigurable());
ASSERT_OK(configurable->ConfigureFromMap(config_options_, opt_map));
SimpleOptions* simple = configurable->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), "A");
}
TEST_F(CustomizableTest, AreEquivalentOptionsTest) {
std::unordered_map<std::string, std::string> opt_map = {
{"unique", "id=A;int=1;bool=true"},
{"shared", "id=A;int=1;bool=true"},
};
std::string mismatch;
ConfigOptions config_options = config_options_;
std::unique_ptr<Configurable> c1(new SimpleConfigurable());
std::unique_ptr<Configurable> c2(new SimpleConfigurable());
ASSERT_OK(c1->ConfigureFromMap(config_options, opt_map));
ASSERT_OK(c2->ConfigureFromMap(config_options, opt_map));
ASSERT_TRUE(c1->AreEquivalent(config_options, c2.get(), &mismatch));
SimpleOptions* simple = c1->GetOptions<SimpleOptions>();
ASSERT_TRUE(
simple->cu->AreEquivalent(config_options, simple->cs.get(), &mismatch));
ASSERT_OK(simple->cu->ConfigureOption(config_options, "int", "2"));
ASSERT_FALSE(
simple->cu->AreEquivalent(config_options, simple->cs.get(), &mismatch));
ASSERT_FALSE(c1->AreEquivalent(config_options, c2.get(), &mismatch));
ConfigOptions loosely = config_options;
loosely.sanity_level = ConfigOptions::kSanityLevelLooselyCompatible;
ASSERT_TRUE(c1->AreEquivalent(loosely, c2.get(), &mismatch));
ASSERT_TRUE(simple->cu->AreEquivalent(loosely, simple->cs.get(), &mismatch));
ASSERT_OK(c1->ConfigureOption(config_options, "shared", "id=B;string=3"));
ASSERT_TRUE(c1->AreEquivalent(loosely, c2.get(), &mismatch));
ASSERT_FALSE(c1->AreEquivalent(config_options, c2.get(), &mismatch));
ASSERT_FALSE(simple->cs->AreEquivalent(loosely, simple->cu.get(), &mismatch));
simple->cs.reset();
ASSERT_TRUE(c1->AreEquivalent(loosely, c2.get(), &mismatch));
ASSERT_FALSE(c1->AreEquivalent(config_options, c2.get(), &mismatch));
}
// Tests that we can initialize a customizable from its options
TEST_F(CustomizableTest, ConfigureStandaloneCustomTest) {
std::unique_ptr<TestCustomizable> base, copy;
const auto& registry = config_options_.registry;
ASSERT_OK(registry->NewUniqueObject<TestCustomizable>("A", &base));
ASSERT_OK(registry->NewUniqueObject<TestCustomizable>("A", &copy));
ASSERT_OK(base->ConfigureFromString(config_options_, "int=33;bool=true"));
std::string opt_str;
std::string mismatch;
ASSERT_OK(base->GetOptionString(config_options_, &opt_str));
ASSERT_OK(copy->ConfigureFromString(config_options_, opt_str));
ASSERT_TRUE(base->AreEquivalent(config_options_, copy.get(), &mismatch));
}
// Tests that we fail appropriately if the pattern is not registered
TEST_F(CustomizableTest, BadNameTest) {
config_options_.ignore_unsupported_options = false;
std::unique_ptr<Configurable> c1(new SimpleConfigurable());
ASSERT_NOK(
c1->ConfigureFromString(config_options_, "unique.shared.id=bad name"));
config_options_.ignore_unsupported_options = true;
ASSERT_OK(
c1->ConfigureFromString(config_options_, "unique.shared.id=bad name"));
}
// Tests that we fail appropriately if a bad option is passed to the underlying
// configurable
TEST_F(CustomizableTest, BadOptionTest) {
std::unique_ptr<Configurable> c1(new SimpleConfigurable());
ConfigOptions ignore = config_options_;
ignore.ignore_unknown_options = true;
ASSERT_NOK(c1->ConfigureFromString(config_options_, "A.int=11"));
ASSERT_NOK(c1->ConfigureFromString(config_options_, "shared={id=B;int=1}"));
ASSERT_OK(c1->ConfigureFromString(ignore, "shared={id=A;string=s}"));
ASSERT_NOK(c1->ConfigureFromString(config_options_, "B.int=11"));
ASSERT_OK(c1->ConfigureFromString(ignore, "B.int=11"));
ASSERT_NOK(c1->ConfigureFromString(config_options_, "A.string=s"));
ASSERT_OK(c1->ConfigureFromString(ignore, "A.string=s"));
// Test as detached
ASSERT_NOK(
c1->ConfigureFromString(config_options_, "shared.id=A;A.string=b}"));
ASSERT_OK(c1->ConfigureFromString(ignore, "shared.id=A;A.string=s}"));
}
TEST_F(CustomizableTest, FailingFactoryTest) {
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
std::unique_ptr<Configurable> c1(new SimpleConfigurable());
ConfigOptions ignore = config_options_;
Status s;
ignore.registry->AddLibrary("failing")->AddFactory<TestCustomizable>(
"failing",
[](const std::string& /*uri*/,
std::unique_ptr<TestCustomizable>* /*guard */, std::string* errmsg) {
*errmsg = "Bad Factory";
return nullptr;
});
// If we are ignoring unknown and unsupported options, will see
// different errors for failing versus missing
ignore.ignore_unknown_options = false;
ignore.ignore_unsupported_options = false;
s = c1->ConfigureFromString(ignore, "shared.id=failing");
ASSERT_TRUE(s.IsInvalidArgument());
s = c1->ConfigureFromString(ignore, "unique.id=failing");
ASSERT_TRUE(s.IsInvalidArgument());
s = c1->ConfigureFromString(ignore, "shared.id=missing");
ASSERT_TRUE(s.IsNotSupported());
s = c1->ConfigureFromString(ignore, "unique.id=missing");
ASSERT_TRUE(s.IsNotSupported());
// If we are ignoring unsupported options, will see
// errors for failing but not missing
ignore.ignore_unknown_options = false;
ignore.ignore_unsupported_options = true;
s = c1->ConfigureFromString(ignore, "shared.id=failing");
ASSERT_TRUE(s.IsInvalidArgument());
s = c1->ConfigureFromString(ignore, "unique.id=failing");
ASSERT_TRUE(s.IsInvalidArgument());
ASSERT_OK(c1->ConfigureFromString(ignore, "shared.id=missing"));
ASSERT_OK(c1->ConfigureFromString(ignore, "unique.id=missing"));
// If we are ignoring unknown options, will see no errors
// for failing or missing
ignore.ignore_unknown_options = true;
ignore.ignore_unsupported_options = false;
ASSERT_OK(c1->ConfigureFromString(ignore, "shared.id=failing"));
ASSERT_OK(c1->ConfigureFromString(ignore, "unique.id=failing"));
ASSERT_OK(c1->ConfigureFromString(ignore, "shared.id=missing"));
ASSERT_OK(c1->ConfigureFromString(ignore, "unique.id=missing"));
}
// Tests that different IDs lead to different objects
TEST_F(CustomizableTest, UniqueIdTest) {
std::unique_ptr<Configurable> base(new SimpleConfigurable());
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=A_1;int=1;bool=true}"));
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(simple->cu->GetId(), std::string("A_1"));
std::string opt_str;
std::string mismatch;
ASSERT_OK(base->GetOptionString(config_options_, &opt_str));
std::unique_ptr<Configurable> copy(new SimpleConfigurable());
ASSERT_OK(copy->ConfigureFromString(config_options_, opt_str));
ASSERT_TRUE(base->AreEquivalent(config_options_, copy.get(), &mismatch));
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=A_2;int=1;bool=true}"));
ASSERT_FALSE(base->AreEquivalent(config_options_, copy.get(), &mismatch));
ASSERT_EQ(simple->cu->GetId(), std::string("A_2"));
}
TEST_F(CustomizableTest, IsInstanceOfTest) {
std::shared_ptr<TestCustomizable> tc = std::make_shared<ACustomizable>("A_1");
ASSERT_EQ(tc->GetId(), std::string("A_1"));
ASSERT_TRUE(tc->IsInstanceOf("A"));
ASSERT_TRUE(tc->IsInstanceOf("TestCustomizable"));
ASSERT_FALSE(tc->IsInstanceOf("B"));
ASSERT_FALSE(tc->IsInstanceOf("A_1"));
ASSERT_EQ(tc->CheckedCast<ACustomizable>(), tc.get());
ASSERT_EQ(tc->CheckedCast<TestCustomizable>(), tc.get());
ASSERT_EQ(tc->CheckedCast<BCustomizable>(), nullptr);
tc.reset(new BCustomizable("B"));
ASSERT_TRUE(tc->IsInstanceOf("B"));
ASSERT_TRUE(tc->IsInstanceOf("TestCustomizable"));
ASSERT_FALSE(tc->IsInstanceOf("A"));
ASSERT_EQ(tc->CheckedCast<BCustomizable>(), tc.get());
ASSERT_EQ(tc->CheckedCast<TestCustomizable>(), tc.get());
ASSERT_EQ(tc->CheckedCast<ACustomizable>(), nullptr);
}
TEST_F(CustomizableTest, PrepareOptionsTest) {
static std::unordered_map<std::string, OptionTypeInfo> p_option_info = {
{"can_prepare",
{0, OptionType::kBoolean, OptionVerificationType::kNormal,
OptionTypeFlags::kNone}},
};
class PrepareCustomizable : public TestCustomizable {
public:
bool can_prepare_ = true;
PrepareCustomizable() : TestCustomizable("P") {
RegisterOptions("Prepare", &can_prepare_, &p_option_info);
}
Status PrepareOptions(const ConfigOptions& opts) override {
if (!can_prepare_) {
return Status::InvalidArgument("Cannot Prepare");
} else {
return TestCustomizable::PrepareOptions(opts);
}
}
};
ObjectLibrary::Default()->AddFactory<TestCustomizable>(
"P",
[](const std::string& /*name*/, std::unique_ptr<TestCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new PrepareCustomizable());
return guard->get();
});
std::unique_ptr<Configurable> base(new SimpleConfigurable());
ConfigOptions prepared(config_options_);
prepared.invoke_prepare_options = true;
ASSERT_OK(base->ConfigureFromString(
prepared, "unique=A_1; shared={id=B;string=s}; pointer.id=S"));
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_NE(simple->cs, nullptr);
ASSERT_NE(simple->cp, nullptr);
delete simple->cp;
base.reset(new SimpleConfigurable());
ASSERT_OK(base->ConfigureFromString(
config_options_, "unique=A_1; shared={id=B;string=s}; pointer.id=S"));
simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_NE(simple->cs, nullptr);
ASSERT_NE(simple->cp, nullptr);
ASSERT_OK(base->PrepareOptions(config_options_));
delete simple->cp;
base.reset(new SimpleConfigurable());
simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NOK(
base->ConfigureFromString(prepared, "unique={id=P; can_prepare=false}"));
ASSERT_EQ(simple->cu, nullptr);
ASSERT_OK(
base->ConfigureFromString(prepared, "unique={id=P; can_prepare=true}"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=P; can_prepare=true}"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_OK(simple->cu->PrepareOptions(prepared));
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=P; can_prepare=false}"));
ASSERT_NE(simple->cu, nullptr);
ASSERT_NOK(simple->cu->PrepareOptions(prepared));
}
namespace {
static std::unordered_map<std::string, OptionTypeInfo> inner_option_info = {
{"inner",
OptionTypeInfo::AsCustomSharedPtr<TestCustomizable>(
0, OptionVerificationType::kNormal, OptionTypeFlags::kStringNameOnly)}
};
struct InnerOptions {
static const char* kName() { return "InnerOptions"; }
std::shared_ptr<Customizable> inner;
};
class InnerCustomizable : public Customizable {
public:
explicit InnerCustomizable(const std::shared_ptr<Customizable>& w) {
iopts_.inner = w;
RegisterOptions(&iopts_, &inner_option_info);
}
static const char* kClassName() { return "Inner"; }
const char* Name() const override { return kClassName(); }
bool IsInstanceOf(const std::string& name) const override {
if (name == kClassName()) {
return true;
} else {
return Customizable::IsInstanceOf(name);
}
}
protected:
const Customizable* Inner() const override { return iopts_.inner.get(); }
private:
InnerOptions iopts_;
};
struct WrappedOptions1 {
static const char* kName() { return "WrappedOptions1"; }
int i = 42;
};
class WrappedCustomizable1 : public InnerCustomizable {
public:
explicit WrappedCustomizable1(const std::shared_ptr<Customizable>& w)
: InnerCustomizable(w) {
RegisterOptions(&wopts_, nullptr);
}
const char* Name() const override { return kClassName(); }
static const char* kClassName() { return "Wrapped1"; }
private:
WrappedOptions1 wopts_;
};
struct WrappedOptions2 {
static const char* kName() { return "WrappedOptions2"; }
std::string s = "42";
};
class WrappedCustomizable2 : public InnerCustomizable {
public:
explicit WrappedCustomizable2(const std::shared_ptr<Customizable>& w)
: InnerCustomizable(w) {}
const void* GetOptionsPtr(const std::string& name) const override {
if (name == WrappedOptions2::kName()) {
return &wopts_;
} else {
return InnerCustomizable::GetOptionsPtr(name);
}
}
const char* Name() const override { return kClassName(); }
static const char* kClassName() { return "Wrapped2"; }
private:
WrappedOptions2 wopts_;
};
} // namespace
TEST_F(CustomizableTest, WrappedInnerTest) {
std::shared_ptr<TestCustomizable> ac =
std::make_shared<TestCustomizable>("A");
ASSERT_TRUE(ac->IsInstanceOf("A"));
ASSERT_TRUE(ac->IsInstanceOf("TestCustomizable"));
ASSERT_EQ(ac->CheckedCast<TestCustomizable>(), ac.get());
ASSERT_EQ(ac->CheckedCast<InnerCustomizable>(), nullptr);
ASSERT_EQ(ac->CheckedCast<WrappedCustomizable1>(), nullptr);
ASSERT_EQ(ac->CheckedCast<WrappedCustomizable2>(), nullptr);
std::shared_ptr<Customizable> wc1 =
std::make_shared<WrappedCustomizable1>(ac);
ASSERT_TRUE(wc1->IsInstanceOf(WrappedCustomizable1::kClassName()));
ASSERT_EQ(wc1->CheckedCast<WrappedCustomizable1>(), wc1.get());
ASSERT_EQ(wc1->CheckedCast<WrappedCustomizable2>(), nullptr);
ASSERT_EQ(wc1->CheckedCast<InnerCustomizable>(), wc1.get());
ASSERT_EQ(wc1->CheckedCast<TestCustomizable>(), ac.get());
std::shared_ptr<Customizable> wc2 =
std::make_shared<WrappedCustomizable2>(wc1);
ASSERT_TRUE(wc2->IsInstanceOf(WrappedCustomizable2::kClassName()));
ASSERT_EQ(wc2->CheckedCast<WrappedCustomizable2>(), wc2.get());
ASSERT_EQ(wc2->CheckedCast<WrappedCustomizable1>(), wc1.get());
ASSERT_EQ(wc2->CheckedCast<InnerCustomizable>(), wc2.get());
ASSERT_EQ(wc2->CheckedCast<TestCustomizable>(), ac.get());
}
TEST_F(CustomizableTest, CustomizableInnerTest) {
std::shared_ptr<Customizable> c =
std::make_shared<InnerCustomizable>(std::make_shared<ACustomizable>("a"));
std::shared_ptr<Customizable> wc1 = std::make_shared<WrappedCustomizable1>(c);
std::shared_ptr<Customizable> wc2 = std::make_shared<WrappedCustomizable2>(c);
auto inner = c->GetOptions<InnerOptions>();
ASSERT_NE(inner, nullptr);
auto aopts = c->GetOptions<AOptions>();
ASSERT_NE(aopts, nullptr);
ASSERT_EQ(aopts, wc1->GetOptions<AOptions>());
ASSERT_EQ(aopts, wc2->GetOptions<AOptions>());
auto w1opts = wc1->GetOptions<WrappedOptions1>();
ASSERT_NE(w1opts, nullptr);
ASSERT_EQ(c->GetOptions<WrappedOptions1>(), nullptr);
ASSERT_EQ(wc2->GetOptions<WrappedOptions1>(), nullptr);
auto w2opts = wc2->GetOptions<WrappedOptions2>();
ASSERT_NE(w2opts, nullptr);
ASSERT_EQ(c->GetOptions<WrappedOptions2>(), nullptr);
ASSERT_EQ(wc1->GetOptions<WrappedOptions2>(), nullptr);
}
TEST_F(CustomizableTest, CopyObjectTest) {
class CopyCustomizable : public Customizable {
public:
CopyCustomizable() : prepared_(0), validated_(0) {}
const char* Name() const override { return "CopyCustomizable"; }
Status PrepareOptions(const ConfigOptions& options) override {
prepared_++;
return Customizable::PrepareOptions(options);
}
Status ValidateOptions(const DBOptions& db_opts,
const ColumnFamilyOptions& cf_opts) const override {
validated_++;
return Customizable::ValidateOptions(db_opts, cf_opts);
}
int prepared_;
mutable int validated_;
};
CopyCustomizable c1;
ConfigOptions config_options;
Options options;
ASSERT_OK(c1.PrepareOptions(config_options));
ASSERT_OK(c1.ValidateOptions(options, options));
ASSERT_EQ(c1.prepared_, 1);
ASSERT_EQ(c1.validated_, 1);
CopyCustomizable c2 = c1;
ASSERT_OK(c1.PrepareOptions(config_options));
ASSERT_OK(c1.ValidateOptions(options, options));
ASSERT_EQ(c2.prepared_, 1);
ASSERT_EQ(c2.validated_, 1);
ASSERT_EQ(c1.prepared_, 2);
ASSERT_EQ(c1.validated_, 2);
}
TEST_F(CustomizableTest, TestStringDepth) {
ConfigOptions shallow = config_options_;
std::unique_ptr<Configurable> c(
new InnerCustomizable(std::make_shared<ACustomizable>("a")));
std::string opt_str;
shallow.depth = ConfigOptions::Depth::kDepthShallow;
ASSERT_OK(c->GetOptionString(shallow, &opt_str));
ASSERT_EQ(opt_str, "inner=a;");
shallow.depth = ConfigOptions::Depth::kDepthDetailed;
ASSERT_OK(c->GetOptionString(shallow, &opt_str));
ASSERT_NE(opt_str, "inner=a;");
}
// Tests that we only get a new customizable when it changes
TEST_F(CustomizableTest, NewUniqueCustomizableTest) {
std::unique_ptr<Configurable> base(new SimpleConfigurable());
A_count = 0;
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=A_1;int=1;bool=true}"));
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_NE(simple->cu, nullptr);
ASSERT_EQ(A_count, 1); // Created one A
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=A_1;int=1;bool=false}"));
ASSERT_EQ(A_count, 2); // Create another A_1
ASSERT_OK(base->ConfigureFromString(config_options_, "unique={id=}"));
ASSERT_EQ(simple->cu, nullptr);
ASSERT_EQ(A_count, 2);
ASSERT_OK(base->ConfigureFromString(config_options_,
"unique={id=A_2;int=1;bool=false}"));
ASSERT_EQ(A_count, 3); // Created another A
ASSERT_OK(base->ConfigureFromString(config_options_, "unique.id="));
ASSERT_EQ(simple->cu, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "unique=nullptr"));
ASSERT_EQ(simple->cu, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "unique.id=nullptr"));
ASSERT_EQ(simple->cu, nullptr);
ASSERT_EQ(A_count, 3);
}
TEST_F(CustomizableTest, NewEmptyUniqueTest) {
std::unique_ptr<Configurable> base(new SimpleConfigurable());
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_EQ(simple->cu, nullptr);
simple->cu.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "unique={id=}"));
ASSERT_EQ(simple->cu, nullptr);
simple->cu.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "unique={id=nullptr}"));
ASSERT_EQ(simple->cu, nullptr);
simple->cu.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "unique.id="));
ASSERT_EQ(simple->cu, nullptr);
simple->cu.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "unique=nullptr"));
ASSERT_EQ(simple->cu, nullptr);
simple->cu.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "unique.id=nullptr"));
ASSERT_EQ(simple->cu, nullptr);
}
TEST_F(CustomizableTest, NewEmptySharedTest) {
std::unique_ptr<Configurable> base(new SimpleConfigurable());
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_EQ(simple->cs, nullptr);
simple->cs.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "shared={id=}"));
ASSERT_NE(simple, nullptr);
ASSERT_EQ(simple->cs, nullptr);
simple->cs.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "shared={id=nullptr}"));
ASSERT_EQ(simple->cs, nullptr);
simple->cs.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "shared.id="));
ASSERT_EQ(simple->cs, nullptr);
simple->cs.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "shared.id=nullptr"));
ASSERT_EQ(simple->cs, nullptr);
simple->cs.reset(new BCustomizable("B"));
ASSERT_OK(base->ConfigureFromString(config_options_, "shared=nullptr"));
ASSERT_EQ(simple->cs, nullptr);
}
TEST_F(CustomizableTest, NewEmptyStaticTest) {
std::unique_ptr<Configurable> base(new SimpleConfigurable());
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer={id=}"));
SimpleOptions* simple = base->GetOptions<SimpleOptions>();
ASSERT_NE(simple, nullptr);
ASSERT_EQ(simple->cp, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer={id=nullptr}"));
ASSERT_EQ(simple->cp, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer="));
ASSERT_EQ(simple->cp, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer=nullptr"));
ASSERT_EQ(simple->cp, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer.id="));
ASSERT_EQ(simple->cp, nullptr);
ASSERT_OK(base->ConfigureFromString(config_options_, "pointer.id=nullptr"));
ASSERT_EQ(simple->cp, nullptr);
}
namespace {
static std::unordered_map<std::string, OptionTypeInfo> vector_option_info = {
{"vector",
OptionTypeInfo::Vector<std::shared_ptr<TestCustomizable>>(
0, OptionVerificationType::kNormal,
OptionTypeFlags::kNone,
OptionTypeInfo::AsCustomSharedPtr<TestCustomizable>(
0, OptionVerificationType::kNormal, OptionTypeFlags::kNone))},
};
class VectorConfigurable : public SimpleConfigurable {
public:
VectorConfigurable() { RegisterOptions("vector", &cv, &vector_option_info); }
std::vector<std::shared_ptr<TestCustomizable>> cv;
};
} // namespace
TEST_F(CustomizableTest, VectorConfigTest) {
VectorConfigurable orig, copy;
std::shared_ptr<TestCustomizable> c1, c2;
ASSERT_OK(TestCustomizable::CreateFromString(config_options_, "A", &c1));
ASSERT_OK(TestCustomizable::CreateFromString(config_options_, "B", &c2));
orig.cv.push_back(c1);
orig.cv.push_back(c2);
ASSERT_OK(orig.ConfigureFromString(config_options_, "unique=A2"));
std::string opt_str, mismatch;
ASSERT_OK(orig.GetOptionString(config_options_, &opt_str));
ASSERT_OK(copy.ConfigureFromString(config_options_, opt_str));
ASSERT_TRUE(orig.AreEquivalent(config_options_, &copy, &mismatch));
}
TEST_F(CustomizableTest, NoNameTest) {
// If Customizables are created without names, they are not
// part of the serialization (since they cannot be recreated)
VectorConfigurable orig, copy;
auto sopts = orig.GetOptions<SimpleOptions>();
auto copts = copy.GetOptions<SimpleOptions>();
sopts->cu.reset(new ACustomizable(""));
orig.cv.push_back(std::make_shared<ACustomizable>(""));
orig.cv.push_back(std::make_shared<ACustomizable>("A_1"));
std::string opt_str, mismatch;
ASSERT_OK(orig.GetOptionString(config_options_, &opt_str));
ASSERT_OK(copy.ConfigureFromString(config_options_, opt_str));
ASSERT_EQ(copy.cv.size(), 1U);
ASSERT_EQ(copy.cv[0]->GetId(), "A_1");
ASSERT_EQ(copts->cu, nullptr);
}
TEST_F(CustomizableTest, IgnoreUnknownObjects) {
ConfigOptions ignore = config_options_;
std::shared_ptr<TestCustomizable> shared;
std::unique_ptr<TestCustomizable> unique;
TestCustomizable* pointer = nullptr;
ignore.ignore_unsupported_options = false;
ASSERT_NOK(LoadSharedObject<TestCustomizable>(ignore, "Unknown", &shared));
ASSERT_NOK(LoadUniqueObject<TestCustomizable>(ignore, "Unknown", &unique));
ASSERT_NOK(LoadStaticObject<TestCustomizable>(ignore, "Unknown", &pointer));
ASSERT_EQ(shared.get(), nullptr);
ASSERT_EQ(unique.get(), nullptr);
ASSERT_EQ(pointer, nullptr);
ignore.ignore_unsupported_options = true;
ASSERT_OK(LoadSharedObject<TestCustomizable>(ignore, "Unknown", &shared));
ASSERT_OK(LoadUniqueObject<TestCustomizable>(ignore, "Unknown", &unique));
ASSERT_OK(LoadStaticObject<TestCustomizable>(ignore, "Unknown", &pointer));
ASSERT_EQ(shared.get(), nullptr);
ASSERT_EQ(unique.get(), nullptr);
ASSERT_EQ(pointer, nullptr);
ASSERT_OK(LoadSharedObject<TestCustomizable>(ignore, "id=Unknown", &shared));
ASSERT_OK(LoadUniqueObject<TestCustomizable>(ignore, "id=Unknown", &unique));
ASSERT_OK(LoadStaticObject<TestCustomizable>(ignore, "id=Unknown", &pointer));
ASSERT_EQ(shared.get(), nullptr);
ASSERT_EQ(unique.get(), nullptr);
ASSERT_EQ(pointer, nullptr);
ASSERT_OK(LoadSharedObject<TestCustomizable>(ignore, "id=Unknown;option=bad",
&shared));
ASSERT_OK(LoadUniqueObject<TestCustomizable>(ignore, "id=Unknown;option=bad",
&unique));
ASSERT_OK(LoadStaticObject<TestCustomizable>(ignore, "id=Unknown;option=bad",
&pointer));
ASSERT_EQ(shared.get(), nullptr);
ASSERT_EQ(unique.get(), nullptr);
ASSERT_EQ(pointer, nullptr);
}
TEST_F(CustomizableTest, URLFactoryTest) {
std::unique_ptr<TestCustomizable> unique;
config_options_.registry->AddLibrary("URL")->AddFactory<TestCustomizable>(
ObjectLibrary::PatternEntry("Z", false).AddSeparator(""),
[](const std::string& name, std::unique_ptr<TestCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new TestCustomizable(name));
return guard->get();
});
ConfigOptions ignore = config_options_;
ignore.ignore_unsupported_options = false;
ignore.ignore_unsupported_options = false;
ASSERT_OK(TestCustomizable::CreateFromString(ignore, "Z=1;x=y", &unique));
ASSERT_NE(unique, nullptr);
ASSERT_EQ(unique->GetId(), "Z=1;x=y");
ASSERT_OK(TestCustomizable::CreateFromString(ignore, "Z;x=y", &unique));
ASSERT_NE(unique, nullptr);
ASSERT_EQ(unique->GetId(), "Z;x=y");
unique.reset();
ASSERT_OK(TestCustomizable::CreateFromString(ignore, "Z=1?x=y", &unique));
ASSERT_NE(unique, nullptr);
ASSERT_EQ(unique->GetId(), "Z=1?x=y");
}
TEST_F(CustomizableTest, MutableOptionsTest) {
static std::unordered_map<std::string, OptionTypeInfo> mutable_option_info = {
{"mutable",
OptionTypeInfo::AsCustomSharedPtr<TestCustomizable>(
0, OptionVerificationType::kNormal, OptionTypeFlags::kMutable)}};
static std::unordered_map<std::string, OptionTypeInfo> immutable_option_info =
{{"immutable",
OptionTypeInfo::AsCustomSharedPtr<TestCustomizable>(
0, OptionVerificationType::kNormal, OptionTypeFlags::kAllowNull)}};
class MutableCustomizable : public Customizable {
private:
std::shared_ptr<TestCustomizable> mutable_;
std::shared_ptr<TestCustomizable> immutable_;
public:
MutableCustomizable() {
RegisterOptions("mutable", &mutable_, &mutable_option_info);
RegisterOptions("immutable", &immutable_, &immutable_option_info);
}
const char* Name() const override { return "MutableCustomizable"; }
};
MutableCustomizable mc, mc2;
std::string mismatch;
std::string opt_str;
ConfigOptions options = config_options_;
ASSERT_OK(mc.ConfigureOption(options, "mutable", "{id=B;}"));
options.mutable_options_only = true;
ASSERT_OK(mc.GetOptionString(options, &opt_str));
ASSERT_OK(mc2.ConfigureFromString(options, opt_str));
ASSERT_TRUE(mc.AreEquivalent(options, &mc2, &mismatch));
options.mutable_options_only = false;
ASSERT_OK(mc.ConfigureOption(options, "immutable", "{id=A; int=10}"));
auto* mm = mc.GetOptions<std::shared_ptr<TestCustomizable>>("mutable");
auto* im = mc.GetOptions<std::shared_ptr<TestCustomizable>>("immutable");
ASSERT_NE(mm, nullptr);
ASSERT_NE(mm->get(), nullptr);
ASSERT_NE(im, nullptr);
ASSERT_NE(im->get(), nullptr);
// Now only deal with mutable options
options.mutable_options_only = true;
// Setting nested immutable customizable options fails
ASSERT_NOK(mc.ConfigureOption(options, "immutable", "{id=B;}"));
ASSERT_NOK(mc.ConfigureOption(options, "immutable.id", "B"));
ASSERT_NOK(mc.ConfigureOption(options, "immutable.bool", "true"));
ASSERT_NOK(mc.ConfigureOption(options, "immutable", "bool=true"));
ASSERT_NOK(mc.ConfigureOption(options, "immutable", "{int=11;bool=true}"));
auto* im_a = im->get()->GetOptions<AOptions>("A");
ASSERT_NE(im_a, nullptr);
ASSERT_EQ(im_a->i, 10);
ASSERT_EQ(im_a->b, false);
// Setting nested mutable customizable options succeeds but the object did not
// change
ASSERT_OK(mc.ConfigureOption(options, "immutable.int", "11"));
ASSERT_EQ(im_a->i, 11);
ASSERT_EQ(im_a, im->get()->GetOptions<AOptions>("A"));
// The mutable configurable itself can be changed
ASSERT_OK(mc.ConfigureOption(options, "mutable.id", "A"));
ASSERT_OK(mc.ConfigureOption(options, "mutable", "A"));
ASSERT_OK(mc.ConfigureOption(options, "mutable", "{id=A}"));
ASSERT_OK(mc.ConfigureOption(options, "mutable", "{bool=true}"));
// The Nested options in the mutable object can be changed
ASSERT_OK(mc.ConfigureOption(options, "mutable", "{bool=true}"));
auto* mm_a = mm->get()->GetOptions<AOptions>("A");
ASSERT_EQ(mm_a->b, true);
ASSERT_OK(mc.ConfigureOption(options, "mutable", "{int=22;bool=false}"));
mm_a = mm->get()->GetOptions<AOptions>("A");
ASSERT_EQ(mm_a->i, 22);
ASSERT_EQ(mm_a->b, false);
// Only the mutable options should get serialized
options.mutable_options_only = false;
ASSERT_OK(mc.GetOptionString(options, &opt_str));
ASSERT_OK(mc.ConfigureOption(options, "immutable", "{id=B;}"));
options.mutable_options_only = true;
ASSERT_OK(mc.GetOptionString(options, &opt_str));
ASSERT_OK(mc2.ConfigureFromString(options, opt_str));
ASSERT_TRUE(mc.AreEquivalent(options, &mc2, &mismatch));
options.mutable_options_only = false;
ASSERT_FALSE(mc.AreEquivalent(options, &mc2, &mismatch));
ASSERT_EQ(mismatch, "immutable");
}
TEST_F(CustomizableTest, CustomManagedObjects) {
std::shared_ptr<TestCustomizable> object1, object2;
ASSERT_OK(LoadManagedObject<TestCustomizable>(
config_options_, "id=A_1;int=1;bool=true", &object1));
ASSERT_NE(object1, nullptr);
ASSERT_OK(
LoadManagedObject<TestCustomizable>(config_options_, "A_1", &object2));
ASSERT_EQ(object1, object2);
auto* opts = object2->GetOptions<AOptions>("A");
ASSERT_NE(opts, nullptr);
ASSERT_EQ(opts->i, 1);
ASSERT_EQ(opts->b, true);
ASSERT_OK(
LoadManagedObject<TestCustomizable>(config_options_, "A_2", &object2));
ASSERT_NE(object1, object2);
object1.reset();
ASSERT_OK(LoadManagedObject<TestCustomizable>(
config_options_, "id=A_1;int=2;bool=false", &object1));
opts = object1->GetOptions<AOptions>("A");
ASSERT_NE(opts, nullptr);
ASSERT_EQ(opts->i, 2);
ASSERT_EQ(opts->b, false);
}
TEST_F(CustomizableTest, CreateManagedObjects) {
class ManagedCustomizable : public Customizable {
public:
static const char* Type() { return "ManagedCustomizable"; }
static const char* kClassName() { return "Managed"; }
const char* Name() const override { return kClassName(); }
std::string GetId() const override { return id_; }
ManagedCustomizable() { id_ = GenerateIndividualId(); }
static Status CreateFromString(
const ConfigOptions& opts, const std::string& value,
std::shared_ptr<ManagedCustomizable>* result) {
return LoadManagedObject<ManagedCustomizable>(opts, value, result);
}
private:
std::string id_;
};
config_options_.registry->AddLibrary("Managed")
->AddFactory<ManagedCustomizable>(
ObjectLibrary::PatternEntry::AsIndividualId(
ManagedCustomizable::kClassName()),
[](const std::string& /*name*/,
std::unique_ptr<ManagedCustomizable>* guard,
std::string* /* msg */) {
guard->reset(new ManagedCustomizable());
return guard->get();
});
std::shared_ptr<ManagedCustomizable> mc1, mc2, mc3, obj;
// Create a "deadbeef" customizable
std::string deadbeef =
std::string(ManagedCustomizable::kClassName()) + "@0xdeadbeef#0001";
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, deadbeef, &mc1));
// Create an object with the base/class name
ASSERT_OK(ManagedCustomizable::CreateFromString(
config_options_, ManagedCustomizable::kClassName(), &mc2));
// Creating another with the base name returns a different object
ASSERT_OK(ManagedCustomizable::CreateFromString(
config_options_, ManagedCustomizable::kClassName(), &mc3));
// At this point, there should be 4 managed objects (deadbeef, mc1, 2, and 3)
std::vector<std::shared_ptr<ManagedCustomizable>> objects;
ASSERT_OK(config_options_.registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 4U);
objects.clear();
// Three separate object, none of them equal
ASSERT_NE(mc1, mc2);
ASSERT_NE(mc1, mc3);
ASSERT_NE(mc2, mc3);
// Creating another object with "deadbeef" object
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, deadbeef, &obj));
ASSERT_EQ(mc1, obj);
// Create another with the IDs of the instances
ASSERT_OK(ManagedCustomizable::CreateFromString(config_options_, mc1->GetId(),
&obj));
ASSERT_EQ(mc1, obj);
ASSERT_OK(ManagedCustomizable::CreateFromString(config_options_, mc2->GetId(),
&obj));
ASSERT_EQ(mc2, obj);
ASSERT_OK(ManagedCustomizable::CreateFromString(config_options_, mc3->GetId(),
&obj));
ASSERT_EQ(mc3, obj);
// Now get rid of deadbeef. 2 Objects left (m2+m3)
mc1.reset();
ASSERT_EQ(
config_options_.registry->GetManagedObject<ManagedCustomizable>(deadbeef),
nullptr);
ASSERT_OK(config_options_.registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 2U);
objects.clear();
// Associate deadbeef with #2
ASSERT_OK(config_options_.registry->SetManagedObject(deadbeef, mc2));
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, deadbeef, &obj));
ASSERT_EQ(mc2, obj);
obj.reset();
// Get the ID of mc2 and then reset it. 1 Object left
std::string mc2id = mc2->GetId();
mc2.reset();
ASSERT_EQ(
config_options_.registry->GetManagedObject<ManagedCustomizable>(mc2id),
nullptr);
ASSERT_OK(config_options_.registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 1U);
objects.clear();
// Create another object with the old mc2id.
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, mc2id, &mc2));
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, mc2id, &obj));
ASSERT_EQ(mc2, obj);
// For good measure, create another deadbeef object
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, deadbeef, &mc1));
ASSERT_OK(
ManagedCustomizable::CreateFromString(config_options_, deadbeef, &obj));
ASSERT_EQ(mc1, obj);
}
namespace {
class TestSecondaryCache : public SecondaryCache {
public:
static const char* kClassName() { return "Test"; }
const char* Name() const override { return kClassName(); }
Status Insert(const Slice& /*key*/, Cache::ObjectPtr /*value*/,
const Cache::CacheItemHelper* /*helper*/,
bool /*force_insert*/) override {
return Status::NotSupported();
}
Status InsertSaved(const Slice& /*key*/, const Slice& /*saved*/,
CompressionType /*type*/, CacheTier /*source*/) override {
return Status::OK();
}
std::unique_ptr<SecondaryCacheResultHandle> Lookup(
const Slice& /*key*/, const Cache::CacheItemHelper* /*helper*/,
Cache::CreateContext* /*create_context*/, bool /*wait*/,
bool /*advise_erase*/, Statistics* /*stats*/,
bool& kept_in_sec_cache) override {
kept_in_sec_cache = true;
return nullptr;
}
bool SupportForceErase() const override { return false; }
void Erase(const Slice& /*key*/) override {}
// Wait for a collection of handles to become ready
void WaitAll(std::vector<SecondaryCacheResultHandle*> /*handles*/) override {}
std::string GetPrintableOptions() const override { return ""; }
};
class TestStatistics : public StatisticsImpl {
public:
TestStatistics() : StatisticsImpl(nullptr) {}
const char* Name() const override { return kClassName(); }
static const char* kClassName() { return "Test"; }
};
class TestFlushBlockPolicyFactory : public FlushBlockPolicyFactory {
public:
TestFlushBlockPolicyFactory() = default;
static const char* kClassName() { return "TestFlushBlockPolicyFactory"; }
const char* Name() const override { return kClassName(); }
FlushBlockPolicy* NewFlushBlockPolicy(
const BlockBasedTableOptions& /*table_options*/,
const BlockBuilder& /*data_block_builder*/) const override {
return nullptr;
}
};
class MockSliceTransform : public SliceTransform {
public:
const char* Name() const override { return kClassName(); }
static const char* kClassName() { return "Mock"; }
Slice Transform(const Slice& /*key*/) const override { return Slice(); }
bool InDomain(const Slice& /*key*/) const override { return false; }
bool InRange(const Slice& /*key*/) const override { return false; }
};
class MockMemoryAllocator : public BaseMemoryAllocator {
public:
static const char* kClassName() { return "MockMemoryAllocator"; }
const char* Name() const override { return kClassName(); }
};
class MockEncryptionProvider : public EncryptionProvider {
public:
explicit MockEncryptionProvider(const std::string& id) : id_(id) {}
static const char* kClassName() { return "Mock"; }
const char* Name() const override { return kClassName(); }
size_t GetPrefixLength() const override { return 0; }
Status CreateNewPrefix(const std::string& /*fname*/, char* /*prefix*/,
size_t /*prefixLength*/) const override {
return Status::NotSupported();
}
Status AddCipher(const std::string& /*descriptor*/, const char* /*cipher*/,
size_t /*len*/, bool /*for_write*/) override {
return Status::NotSupported();
}
Status CreateCipherStream(
const std::string& /*fname*/, const EnvOptions& /*options*/,
Slice& /*prefix*/,
std::unique_ptr<BlockAccessCipherStream>* /*result*/) override {
return Status::NotSupported();
}
Status ValidateOptions(const DBOptions& db_opts,
const ColumnFamilyOptions& cf_opts) const override {
if (EndsWith(id_, "://test")) {
return EncryptionProvider::ValidateOptions(db_opts, cf_opts);
} else {
return Status::InvalidArgument("MockProvider not initialized");
}
}
private:
std::string id_;
};
class MockCipher : public BlockCipher {
public:
const char* Name() const override { return "Mock"; }
size_t BlockSize() override { return 0; }
Status Encrypt(char* /*data*/) override { return Status::NotSupported(); }
Status Decrypt(char* data) override { return Encrypt(data); }
};
class DummyFileSystem : public FileSystemWrapper {
public:
explicit DummyFileSystem(const std::shared_ptr<FileSystem>& t)
: FileSystemWrapper(t) {}
static const char* kClassName() { return "DummyFileSystem"; }
const char* Name() const override { return kClassName(); }
};
class MockTablePropertiesCollectorFactory
: public TablePropertiesCollectorFactory {
private:
public:
TablePropertiesCollector* CreateTablePropertiesCollector(
TablePropertiesCollectorFactory::Context /*context*/) override {
return nullptr;
}
static const char* kClassName() { return "Mock"; }
const char* Name() const override { return kClassName(); }
};
class MockSstPartitionerFactory : public SstPartitionerFactory {
public:
static const char* kClassName() { return "Mock"; }
const char* Name() const override { return kClassName(); }
std::unique_ptr<SstPartitioner> CreatePartitioner(
const SstPartitioner::Context& /* context */) const override {
return nullptr;
}
};
class MockFileChecksumGenFactory : public FileChecksumGenFactory {
public:
static const char* kClassName() { return "Mock"; }
const char* Name() const override { return kClassName(); }
std::unique_ptr<FileChecksumGenerator> CreateFileChecksumGenerator(
const FileChecksumGenContext& /*context*/) override {
return nullptr;
}
};
class MockFilterPolicy : public FilterPolicy {
public:
static const char* kClassName() { return "MockFilterPolicy"; }
const char* Name() const override { return kClassName(); }
const char* CompatibilityName() const override { return Name(); }
FilterBitsBuilder* GetBuilderWithContext(
const FilterBuildingContext&) const override {
return nullptr;
}
FilterBitsReader* GetFilterBitsReader(
const Slice& /*contents*/) const override {
return nullptr;
}
};
static int RegisterLocalObjects(ObjectLibrary& library,
const std::string& /*arg*/) {
size_t num_types;
library.AddFactory<TableFactory>(
mock::MockTableFactory::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<TableFactory>* guard,
std::string* /* errmsg */) {
guard->reset(new mock::MockTableFactory());
return guard->get();
});
library.AddFactory<EventListener>(
OnFileDeletionListener::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<EventListener>* guard,
std::string* /* errmsg */) {
guard->reset(new OnFileDeletionListener());
return guard->get();
});
library.AddFactory<EventListener>(
FlushCounterListener::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<EventListener>* guard,
std::string* /* errmsg */) {
guard->reset(new FlushCounterListener());
return guard->get();
});
// Load any locally defined objects here
library.AddFactory<const SliceTransform>(
MockSliceTransform::kClassName(),
[](const std::string& /*uri*/,
std::unique_ptr<const SliceTransform>* guard,
std::string* /* errmsg */) {
guard->reset(new MockSliceTransform());
return guard->get();
});
library.AddFactory<Statistics>(
TestStatistics::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<Statistics>* guard,
std::string* /* errmsg */) {
guard->reset(new TestStatistics());
return guard->get();
});
library.AddFactory<EncryptionProvider>(
ObjectLibrary::PatternEntry(MockEncryptionProvider::kClassName(), true)
.AddSuffix("://test"),
[](const std::string& uri, std::unique_ptr<EncryptionProvider>* guard,
std::string* /* errmsg */) {
guard->reset(new MockEncryptionProvider(uri));
return guard->get();
});
library.AddFactory<BlockCipher>(
"Mock",
[](const std::string& /*uri*/, std::unique_ptr<BlockCipher>* guard,
std::string* /* errmsg */) {
guard->reset(new MockCipher());
return guard->get();
});
library.AddFactory<MemoryAllocator>(
MockMemoryAllocator::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<MemoryAllocator>* guard,
std::string* /* errmsg */) {
guard->reset(new MockMemoryAllocator());
return guard->get();
});
library.AddFactory<FlushBlockPolicyFactory>(
TestFlushBlockPolicyFactory::kClassName(),
[](const std::string& /*uri*/,
std::unique_ptr<FlushBlockPolicyFactory>* guard,
std::string* /* errmsg */) {
guard->reset(new TestFlushBlockPolicyFactory());
return guard->get();
});
library.AddFactory<SecondaryCache>(
TestSecondaryCache::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<SecondaryCache>* guard,
std::string* /* errmsg */) {
guard->reset(new TestSecondaryCache());
return guard->get();
});
library.AddFactory<FileSystem>(
DummyFileSystem::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<FileSystem>* guard,
std::string* /* errmsg */) {
guard->reset(new DummyFileSystem(nullptr));
return guard->get();
});
library.AddFactory<SstPartitionerFactory>(
MockSstPartitionerFactory::kClassName(),
[](const std::string& /*uri*/,
std::unique_ptr<SstPartitionerFactory>* guard,
std::string* /* errmsg */) {
guard->reset(new MockSstPartitionerFactory());
return guard->get();
});
library.AddFactory<FileChecksumGenFactory>(
MockFileChecksumGenFactory::kClassName(),
[](const std::string& /*uri*/,
std::unique_ptr<FileChecksumGenFactory>* guard,
std::string* /* errmsg */) {
guard->reset(new MockFileChecksumGenFactory());
return guard->get();
});
library.AddFactory<TablePropertiesCollectorFactory>(
MockTablePropertiesCollectorFactory::kClassName(),
[](const std::string& /*uri*/,
std::unique_ptr<TablePropertiesCollectorFactory>* guard,
std::string* /* errmsg */) {
guard->reset(new MockTablePropertiesCollectorFactory());
return guard->get();
});
library.AddFactory<const FilterPolicy>(
MockFilterPolicy::kClassName(),
[](const std::string& /*uri*/, std::unique_ptr<const FilterPolicy>* guard,
std::string* /* errmsg */) {
guard->reset(new MockFilterPolicy());
return guard->get();
});
return static_cast<int>(library.GetFactoryCount(&num_types));
}
} // namespace
class LoadCustomizableTest : public testing::Test {
public:
LoadCustomizableTest() {
config_options_.ignore_unsupported_options = false;
config_options_.invoke_prepare_options = false;
}
bool RegisterTests(const std::string& arg) {
config_options_.registry->AddLibrary("custom-tests",
test::RegisterTestObjects, arg);
config_options_.registry->AddLibrary("local-tests", RegisterLocalObjects,
arg);
return true;
}
template <typename T, typename U>
Status TestCreateStatic(const std::string& name, U** result,
bool delete_result = false) {
Status s = T::CreateFromString(config_options_, name, result);
if (s.ok()) {
EXPECT_NE(*result, nullptr);
EXPECT_TRUE(*result != nullptr && (*result)->IsInstanceOf(name));
}
if (delete_result) {
delete *result;
*result = nullptr;
}
return s;
}
template <typename T, typename U>
std::shared_ptr<U> ExpectCreateShared(const std::string& name,
std::shared_ptr<U>* object) {
EXPECT_OK(T::CreateFromString(config_options_, name, object));
EXPECT_NE(object->get(), nullptr);
EXPECT_TRUE(object->get()->IsInstanceOf(name));
return *object;
}
template <typename T>
std::shared_ptr<T> ExpectCreateShared(const std::string& name) {
std::shared_ptr<T> result;
return ExpectCreateShared<T>(name, &result);
}
template <typename T, typename U>
Status TestExpectedBuiltins(
const std::string& mock, const std::unordered_set<std::string>& expected,
std::shared_ptr<U>* object, std::vector<std::string>* failed,
const std::function<std::vector<std::string>(const std::string&)>& alt =
nullptr) {
std::unordered_set<std::string> factories = expected;
Status s = T::CreateFromString(config_options_, mock, object);
EXPECT_NOK(s);
std::vector<std::string> builtins;
ObjectLibrary::Default()->GetFactoryNames(T::Type(), &builtins);
factories.insert(builtins.begin(), builtins.end());
Status result;
int created = 0;
for (const auto& name : factories) {
created++;
s = T::CreateFromString(config_options_, name, object);
if (!s.ok() && alt != nullptr) {
for (const auto& alt_name : alt(name)) {
s = T::CreateFromString(config_options_, alt_name, object);
if (s.ok()) {
break;
}
}
}
if (!s.ok()) {
result = s;
failed->push_back(name);
} else {
EXPECT_NE(object->get(), nullptr);
EXPECT_TRUE(object->get()->IsInstanceOf(name));
}
}
std::vector<std::string> plugins;
ObjectRegistry::Default()->GetFactoryNames(T::Type(), &plugins);
if (plugins.size() > builtins.size()) {
for (const auto& name : plugins) {
if (factories.find(name) == factories.end()) {
created++;
s = T::CreateFromString(config_options_, name, object);
if (!s.ok() && alt != nullptr) {
for (const auto& alt_name : alt(name)) {
s = T::CreateFromString(config_options_, alt_name, object);
if (s.ok()) {
break;
}
}
}
if (!s.ok()) {
failed->push_back(name);
if (result.ok()) {
result = s;
}
printf("%s: Failed creating plugin[%s]: %s\n", T::Type(),
name.c_str(), s.ToString().c_str());
} else if (object->get() == nullptr ||
!object->get()->IsInstanceOf(name)) {
failed->push_back(name);
printf("%s: Invalid plugin[%s]\n", T::Type(), name.c_str());
}
}
}
}
printf("%s: Created %d (expected+builtins+plugins %d+%d+%d) %d Failed\n",
T::Type(), created, (int)expected.size(),
(int)(factories.size() - expected.size()),
(int)(plugins.size() - builtins.size()), (int)failed->size());
return result;
}
template <typename T>
Status TestSharedBuiltins(const std::string& mock,
const std::string& expected,
std::vector<std::string>* failed = nullptr) {
std::unordered_set<std::string> values;
if (!expected.empty()) {
values.insert(expected);
}
std::shared_ptr<T> object;
if (failed != nullptr) {
return TestExpectedBuiltins<T>(mock, values, &object, failed);
} else {
std::vector<std::string> failures;
Status s = TestExpectedBuiltins<T>(mock, values, &object, &failures);
EXPECT_EQ(0U, failures.size());
return s;
}
}
template <typename T, typename U>
Status TestStaticBuiltins(const std::string& mock, U** object,
const std::unordered_set<std::string>& expected,
std::vector<std::string>* failed,
bool delete_objects = false) {
std::unordered_set<std::string> factories = expected;
Status s = TestCreateStatic<T>(mock, object, delete_objects);
EXPECT_NOK(s);
std::vector<std::string> builtins;
ObjectLibrary::Default()->GetFactoryNames(T::Type(), &builtins);
factories.insert(builtins.begin(), builtins.end());
int created = 0;
Status result;
for (const auto& name : factories) {
created++;
s = TestCreateStatic<T>(name, object, delete_objects);
if (!s.ok()) {
result = s;
failed->push_back(name);
}
}
std::vector<std::string> plugins;
ObjectRegistry::Default()->GetFactoryNames(T::Type(), &plugins);
if (plugins.size() > builtins.size()) {
for (const auto& name : plugins) {
if (factories.find(name) == factories.end()) {
created++;
s = T::CreateFromString(config_options_, name, object);
if (!s.ok() || *object == nullptr ||
!((*object)->IsInstanceOf(name))) {
failed->push_back(name);
if (result.ok() && !s.ok()) {
result = s;
}
printf("%s: Failed creating plugin[%s]: %s\n", T::Type(),
name.c_str(), s.ToString().c_str());
}
if (delete_objects) {
delete *object;
*object = nullptr;
}
}
}
}
printf("%s: Created %d (expected+builtins+plugins %d+%d+%d) %d Failed\n",
T::Type(), created, (int)expected.size(),
(int)(factories.size() - expected.size()),
(int)(plugins.size() - builtins.size()), (int)failed->size());
return result;
}
protected:
DBOptions db_opts_;
ColumnFamilyOptions cf_opts_;
ConfigOptions config_options_;
};
TEST_F(LoadCustomizableTest, LoadTableFactoryTest) {
ASSERT_OK(
TestSharedBuiltins<TableFactory>(mock::MockTableFactory::kClassName(),
TableFactory::kBlockBasedTableName()));
std::string opts_str = "table_factory=";
ASSERT_OK(GetColumnFamilyOptionsFromString(
config_options_, cf_opts_,
opts_str + TableFactory::kBlockBasedTableName(), &cf_opts_));
ASSERT_NE(cf_opts_.table_factory.get(), nullptr);
ASSERT_STREQ(cf_opts_.table_factory->Name(),
TableFactory::kBlockBasedTableName());
if (RegisterTests("Test")) {
ExpectCreateShared<TableFactory>(mock::MockTableFactory::kClassName());
ASSERT_OK(GetColumnFamilyOptionsFromString(
config_options_, cf_opts_,
opts_str + mock::MockTableFactory::kClassName(), &cf_opts_));
ASSERT_NE(cf_opts_.table_factory.get(), nullptr);
ASSERT_STREQ(cf_opts_.table_factory->Name(),
mock::MockTableFactory::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadFileSystemTest) {
ASSERT_OK(TestSharedBuiltins<FileSystem>(DummyFileSystem::kClassName(),
FileSystem::kDefaultName()));
if (RegisterTests("Test")) {
auto fs = ExpectCreateShared<FileSystem>(DummyFileSystem::kClassName());
ASSERT_FALSE(fs->IsInstanceOf(FileSystem::kDefaultName()));
}
}
TEST_F(LoadCustomizableTest, LoadSecondaryCacheTest) {
ASSERT_OK(
TestSharedBuiltins<SecondaryCache>(TestSecondaryCache::kClassName(), ""));
if (RegisterTests("Test")) {
ExpectCreateShared<SecondaryCache>(TestSecondaryCache::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadSstPartitionerFactoryTest) {
ASSERT_OK(TestSharedBuiltins<SstPartitionerFactory>(
"Mock", SstPartitionerFixedPrefixFactory::kClassName()));
if (RegisterTests("Test")) {
ExpectCreateShared<SstPartitionerFactory>("Mock");
}
}
TEST_F(LoadCustomizableTest, LoadChecksumGenFactoryTest) {
ASSERT_OK(TestSharedBuiltins<FileChecksumGenFactory>("Mock", ""));
if (RegisterTests("Test")) {
ExpectCreateShared<FileChecksumGenFactory>("Mock");
}
}
TEST_F(LoadCustomizableTest, LoadTablePropertiesCollectorFactoryTest) {
ASSERT_OK(TestSharedBuiltins<TablePropertiesCollectorFactory>(
MockTablePropertiesCollectorFactory::kClassName(), ""));
if (RegisterTests("Test")) {
ExpectCreateShared<TablePropertiesCollectorFactory>(
MockTablePropertiesCollectorFactory::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadComparatorTest) {
const Comparator* bytewise = BytewiseComparator();
const Comparator* reverse = ReverseBytewiseComparator();
const Comparator* result = nullptr;
std::unordered_set<std::string> expected = {bytewise->Name(),
reverse->Name()};
std::vector<std::string> failures;
ASSERT_OK(TestStaticBuiltins<Comparator>(
test::SimpleSuffixReverseComparator::kClassName(), &result, expected,
&failures));
if (RegisterTests("Test")) {
ASSERT_OK(TestCreateStatic<Comparator>(
test::SimpleSuffixReverseComparator::kClassName(), &result));
}
}
TEST_F(LoadCustomizableTest, LoadSliceTransformFactoryTest) {
std::shared_ptr<const SliceTransform> result;
std::vector<std::string> failures;
std::unordered_set<std::string> expected = {"rocksdb.Noop", "fixed",
"rocksdb.FixedPrefix", "capped",
"rocksdb.CappedPrefix"};
ASSERT_OK(TestExpectedBuiltins<SliceTransform>(
"Mock", expected, &result, &failures, [](const std::string& name) {
std::vector<std::string> names = {name + ":22", name + ".22"};
return names;
}));
ASSERT_OK(SliceTransform::CreateFromString(
config_options_, "rocksdb.FixedPrefix.22", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf("fixed"));
ASSERT_OK(SliceTransform::CreateFromString(
config_options_, "rocksdb.CappedPrefix.22", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf("capped"));
if (RegisterTests("Test")) {
ExpectCreateShared<SliceTransform>("Mock", &result);
}
}
TEST_F(LoadCustomizableTest, LoadStatisticsTest) {
ASSERT_OK(TestSharedBuiltins<Statistics>(TestStatistics::kClassName(),
"BasicStatistics"));
// Empty will create a default BasicStatistics
ASSERT_OK(
Statistics::CreateFromString(config_options_, "", &db_opts_.statistics));
ASSERT_NE(db_opts_.statistics, nullptr);
ASSERT_STREQ(db_opts_.statistics->Name(), "BasicStatistics");
ASSERT_NOK(GetDBOptionsFromString(config_options_, db_opts_,
"statistics=Test", &db_opts_));
ASSERT_OK(GetDBOptionsFromString(config_options_, db_opts_,
"statistics=BasicStatistics", &db_opts_));
ASSERT_NE(db_opts_.statistics, nullptr);
ASSERT_STREQ(db_opts_.statistics->Name(), "BasicStatistics");
if (RegisterTests("test")) {
auto stats = ExpectCreateShared<Statistics>(TestStatistics::kClassName());
ASSERT_OK(GetDBOptionsFromString(config_options_, db_opts_,
"statistics=Test", &db_opts_));
ASSERT_NE(db_opts_.statistics, nullptr);
ASSERT_STREQ(db_opts_.statistics->Name(), TestStatistics::kClassName());
ASSERT_OK(GetDBOptionsFromString(
config_options_, db_opts_, "statistics={id=Test;inner=BasicStatistics}",
&db_opts_));
ASSERT_NE(db_opts_.statistics, nullptr);
ASSERT_STREQ(db_opts_.statistics->Name(), TestStatistics::kClassName());
auto* inner = db_opts_.statistics->GetOptions<std::shared_ptr<Statistics>>(
"StatisticsOptions");
ASSERT_NE(inner, nullptr);
ASSERT_NE(inner->get(), nullptr);
ASSERT_STREQ(inner->get()->Name(), "BasicStatistics");
ASSERT_OK(Statistics::CreateFromString(
config_options_, "id=BasicStatistics;inner=Test", &stats));
ASSERT_NE(stats, nullptr);
ASSERT_STREQ(stats->Name(), "BasicStatistics");
inner = stats->GetOptions<std::shared_ptr<Statistics>>("StatisticsOptions");
ASSERT_NE(inner, nullptr);
ASSERT_NE(inner->get(), nullptr);
ASSERT_STREQ(inner->get()->Name(), TestStatistics::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadMemTableRepFactoryTest) {
std::unordered_set<std::string> expected = {
SkipListFactory::kClassName(),
SkipListFactory::kNickName(),
};
std::vector<std::string> failures;
std::shared_ptr<MemTableRepFactory> factory;
Status s = TestExpectedBuiltins<MemTableRepFactory>(
"SpecialSkipListFactory", expected, &factory, &failures);
// There is a "cuckoo" factory registered that we expect to fail. Ignore the
// error if this is the one
if (s.ok() || failures.size() > 1 || failures[0] != "cuckoo") {
ASSERT_OK(s);
}
if (RegisterTests("Test")) {
ExpectCreateShared<MemTableRepFactory>("SpecialSkipListFactory");
}
}
TEST_F(LoadCustomizableTest, LoadMergeOperatorTest) {
std::shared_ptr<MergeOperator> result;
std::vector<std::string> failed;
std::unordered_set<std::string> expected = {
"put", "put_v1", "PutOperator", "uint64add", "UInt64AddOperator",
"max", "MaxOperator",
};
expected.insert({
StringAppendOperator::kClassName(),
StringAppendOperator::kNickName(),
StringAppendTESTOperator::kClassName(),
StringAppendTESTOperator::kNickName(),
SortList::kClassName(),
SortList::kNickName(),
BytesXOROperator::kClassName(),
BytesXOROperator::kNickName(),
});
ASSERT_OK(TestExpectedBuiltins<MergeOperator>("Changling", expected, &result,
&failed));
if (RegisterTests("Test")) {
ExpectCreateShared<MergeOperator>("Changling");
}
}
TEST_F(LoadCustomizableTest, LoadCompactionFilterFactoryTest) {
ASSERT_OK(TestSharedBuiltins<CompactionFilterFactory>("Changling", ""));
if (RegisterTests("Test")) {
ExpectCreateShared<CompactionFilterFactory>("Changling");
}
}
TEST_F(LoadCustomizableTest, LoadCompactionFilterTest) {
const CompactionFilter* result = nullptr;
std::vector<std::string> failures;
ASSERT_OK(TestStaticBuiltins<CompactionFilter>("Changling", &result, {},
&failures, true));
if (RegisterTests("Test")) {
ASSERT_OK(TestCreateStatic<CompactionFilter>("Changling", &result, true));
}
}
TEST_F(LoadCustomizableTest, LoadEventListenerTest) {
ASSERT_OK(TestSharedBuiltins<EventListener>(
OnFileDeletionListener::kClassName(), ""));
if (RegisterTests("Test")) {
ExpectCreateShared<EventListener>(OnFileDeletionListener::kClassName());
ExpectCreateShared<EventListener>(FlushCounterListener::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadEncryptionProviderTest) {
std::vector<std::string> failures;
std::shared_ptr<EncryptionProvider> result;
ASSERT_OK(
TestExpectedBuiltins<EncryptionProvider>("Mock", {}, &result, &failures));
if (!failures.empty()) {
ASSERT_EQ(failures[0], "1://test");
ASSERT_EQ(failures.size(), 1U);
}
result = ExpectCreateShared<EncryptionProvider>("CTR");
ASSERT_NOK(result->ValidateOptions(db_opts_, cf_opts_));
ASSERT_OK(EncryptionProvider::CreateFromString(config_options_, "CTR://test",
&result));
ASSERT_NE(result, nullptr);
ASSERT_STREQ(result->Name(), "CTR");
ASSERT_OK(result->ValidateOptions(db_opts_, cf_opts_));
if (RegisterTests("Test")) {
ExpectCreateShared<EncryptionProvider>("Mock");
ASSERT_OK(EncryptionProvider::CreateFromString(config_options_,
"Mock://test", &result));
ASSERT_NE(result, nullptr);
ASSERT_STREQ(result->Name(), "Mock");
ASSERT_OK(result->ValidateOptions(db_opts_, cf_opts_));
}
}
TEST_F(LoadCustomizableTest, LoadEncryptionCipherTest) {
ASSERT_OK(TestSharedBuiltins<BlockCipher>("Mock", "ROT13"));
if (RegisterTests("Test")) {
ExpectCreateShared<BlockCipher>("Mock");
}
}
TEST_F(LoadCustomizableTest, LoadSystemClockTest) {
ASSERT_OK(TestSharedBuiltins<SystemClock>(MockSystemClock::kClassName(),
SystemClock::kDefaultName()));
if (RegisterTests("Test")) {
auto result =
ExpectCreateShared<SystemClock>(MockSystemClock::kClassName());
ASSERT_FALSE(result->IsInstanceOf(SystemClock::kDefaultName()));
}
}
TEST_F(LoadCustomizableTest, LoadMemoryAllocatorTest) {
std::vector<std::string> failures;
Status s = TestSharedBuiltins<MemoryAllocator>(
MockMemoryAllocator::kClassName(), DefaultMemoryAllocator::kClassName(),
&failures);
if (failures.empty()) {
ASSERT_OK(s);
} else {
ASSERT_NOK(s);
for (const auto& failure : failures) {
if (failure == JemallocNodumpAllocator::kClassName()) {
ASSERT_FALSE(JemallocNodumpAllocator::IsSupported());
} else if (failure == MemkindKmemAllocator::kClassName()) {
ASSERT_FALSE(MemkindKmemAllocator::IsSupported());
} else {
printf("BYPASSED: %s -- %s\n", failure.c_str(), s.ToString().c_str());
}
}
}
if (RegisterTests("Test")) {
ExpectCreateShared<MemoryAllocator>(MockMemoryAllocator::kClassName());
}
}
TEST_F(LoadCustomizableTest, LoadFilterPolicyTest) {
const std::string kAutoBloom = BloomFilterPolicy::kClassName();
const std::string kAutoRibbon = RibbonFilterPolicy::kClassName();
std::shared_ptr<const FilterPolicy> result;
std::vector<std::string> failures;
std::unordered_set<std::string> expected = {
ReadOnlyBuiltinFilterPolicy::kClassName(),
};
expected.insert({
kAutoBloom,
BloomFilterPolicy::kNickName(),
kAutoRibbon,
RibbonFilterPolicy::kNickName(),
});
ASSERT_OK(TestExpectedBuiltins<const FilterPolicy>(
"Mock", expected, &result, &failures, [](const std::string& name) {
std::vector<std::string> names = {name + ":1.234"};
return names;
}));
ASSERT_OK(FilterPolicy::CreateFromString(
config_options_, kAutoBloom + ":1.234:false", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf(kAutoBloom));
ASSERT_OK(FilterPolicy::CreateFromString(
config_options_, kAutoBloom + ":1.234:false", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf(kAutoBloom));
ASSERT_OK(FilterPolicy::CreateFromString(config_options_,
kAutoRibbon + ":1.234:-1", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf(kAutoRibbon));
ASSERT_OK(FilterPolicy::CreateFromString(config_options_,
kAutoRibbon + ":1.234:56", &result));
ASSERT_NE(result.get(), nullptr);
ASSERT_TRUE(result->IsInstanceOf(kAutoRibbon));
if (RegisterTests("Test")) {
ExpectCreateShared<FilterPolicy>(MockFilterPolicy::kClassName(), &result);
}
std::shared_ptr<TableFactory> table;
std::string table_opts = "id=BlockBasedTable; filter_policy=";
ASSERT_OK(TableFactory::CreateFromString(config_options_,
table_opts + "nullptr", &table));
ASSERT_NE(table.get(), nullptr);
auto bbto = table->GetOptions<BlockBasedTableOptions>();
ASSERT_NE(bbto, nullptr);
ASSERT_EQ(bbto->filter_policy.get(), nullptr);
ASSERT_OK(TableFactory::CreateFromString(
config_options_, table_opts + ReadOnlyBuiltinFilterPolicy::kClassName(),
&table));
bbto = table->GetOptions<BlockBasedTableOptions>();
ASSERT_NE(bbto, nullptr);
ASSERT_NE(bbto->filter_policy.get(), nullptr);
ASSERT_STREQ(bbto->filter_policy->Name(),
ReadOnlyBuiltinFilterPolicy::kClassName());
ASSERT_OK(TableFactory::CreateFromString(
config_options_, table_opts + MockFilterPolicy::kClassName(), &table));
bbto = table->GetOptions<BlockBasedTableOptions>();
ASSERT_NE(bbto, nullptr);
ASSERT_NE(bbto->filter_policy.get(), nullptr);
ASSERT_TRUE(
bbto->filter_policy->IsInstanceOf(MockFilterPolicy::kClassName()));
}
TEST_F(LoadCustomizableTest, LoadFlushBlockPolicyFactoryTest) {
std::shared_ptr<FlushBlockPolicyFactory> result;
std::shared_ptr<TableFactory> table;
std::vector<std::string> failed;
std::unordered_set<std::string> expected = {
FlushBlockBySizePolicyFactory::kClassName(),
FlushBlockEveryKeyPolicyFactory::kClassName(),
};
ASSERT_OK(TestExpectedBuiltins<FlushBlockPolicyFactory>(
TestFlushBlockPolicyFactory::kClassName(), expected, &result, &failed));
// An empty policy name creates a BySize policy
ASSERT_OK(
FlushBlockPolicyFactory::CreateFromString(config_options_, "", &result));
ASSERT_NE(result, nullptr);
ASSERT_STREQ(result->Name(), FlushBlockBySizePolicyFactory::kClassName());
std::string table_opts = "id=BlockBasedTable; flush_block_policy_factory=";
ASSERT_OK(TableFactory::CreateFromString(
config_options_,
table_opts + FlushBlockEveryKeyPolicyFactory::kClassName(), &table));
auto bbto = table->GetOptions<BlockBasedTableOptions>();
ASSERT_NE(bbto, nullptr);
ASSERT_NE(bbto->flush_block_policy_factory.get(), nullptr);
ASSERT_STREQ(bbto->flush_block_policy_factory->Name(),
FlushBlockEveryKeyPolicyFactory::kClassName());
if (RegisterTests("Test")) {
ExpectCreateShared<FlushBlockPolicyFactory>(
TestFlushBlockPolicyFactory::kClassName());
ASSERT_OK(TableFactory::CreateFromString(
config_options_, table_opts + TestFlushBlockPolicyFactory::kClassName(),
&table));
bbto = table->GetOptions<BlockBasedTableOptions>();
ASSERT_NE(bbto, nullptr);
ASSERT_NE(bbto->flush_block_policy_factory.get(), nullptr);
ASSERT_STREQ(bbto->flush_block_policy_factory->Name(),
TestFlushBlockPolicyFactory::kClassName());
}
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
ROCKSDB_NAMESPACE::port::InstallStackTraceHandler();
#ifdef GFLAGS
ParseCommandLineFlags(&argc, &argv, true);
#endif // GFLAGS
return RUN_ALL_TESTS();
}