rocksdb/utilities/object_registry_test.cc

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// Copyright (c) 2016-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).
#ifndef ROCKSDB_LITE
#include "rocksdb/utilities/object_registry.h"
#include "rocksdb/convenience.h"
#include "rocksdb/customizable.h"
#include "test_util/testharness.h"
namespace ROCKSDB_NAMESPACE {
class ObjRegistryTest : public testing::Test {
public:
static int num_a, num_b;
};
int ObjRegistryTest::num_a = 0;
int ObjRegistryTest::num_b = 0;
static FactoryFunc<Env> test_reg_a = ObjectLibrary::Default()->AddFactory<Env>(
ObjectLibrary::PatternEntry("a", false).AddSeparator("://"),
[](const std::string& /*uri*/, std::unique_ptr<Env>* /*env_guard*/,
std::string* /* errmsg */) {
++ObjRegistryTest::num_a;
return Env::Default();
});
class WrappedEnv : public EnvWrapper {
private:
std::string id_;
public:
WrappedEnv(Env* t, const std::string& id) : EnvWrapper(t), id_(id) {}
const char* Name() const override { return id_.c_str(); }
std::string GetId() const override { return id_; }
};
static FactoryFunc<Env> test_reg_b = ObjectLibrary::Default()->AddFactory<Env>(
ObjectLibrary::PatternEntry("b", false).AddSeparator("://"),
[](const std::string& uri, std::unique_ptr<Env>* env_guard,
std::string* /* errmsg */) {
++ObjRegistryTest::num_b;
// Env::Default() is a singleton so we can't grant ownership directly to
// the caller - we must wrap it first.
env_guard->reset(new WrappedEnv(Env::Default(), uri));
return env_guard->get();
});
TEST_F(ObjRegistryTest, Basics) {
std::string msg;
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
std::unique_ptr<Env> guard;
Env* a_env = nullptr;
auto registry = ObjectRegistry::NewInstance();
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
ASSERT_NOK(registry->NewStaticObject<Env>("c://test", &a_env));
ASSERT_NOK(registry->NewUniqueObject<Env>("c://test", &guard));
ASSERT_EQ(a_env, nullptr);
ASSERT_EQ(guard, nullptr);
ASSERT_EQ(0, num_a);
ASSERT_EQ(0, num_b);
ASSERT_OK(registry->NewStaticObject<Env>("a://test", &a_env));
ASSERT_NE(a_env, nullptr);
ASSERT_EQ(1, num_a);
ASSERT_EQ(0, num_b);
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
ASSERT_OK(registry->NewUniqueObject<Env>("b://test", &guard));
ASSERT_NE(guard, nullptr);
ASSERT_EQ(1, num_a);
ASSERT_EQ(1, num_b);
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
Env* b_env = nullptr;
ASSERT_NOK(registry->NewStaticObject<Env>("b://test", &b_env));
ASSERT_EQ(b_env, nullptr);
ASSERT_EQ(1, num_a);
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
ASSERT_EQ(2, num_b); // Created but rejected as not static
b_env = a_env;
ASSERT_NOK(registry->NewStaticObject<Env>("b://test", &b_env));
ASSERT_EQ(b_env, a_env);
ASSERT_EQ(1, num_a);
ASSERT_EQ(3, num_b);
b_env = guard.get();
ASSERT_NOK(registry->NewUniqueObject<Env>("a://test", &guard));
ASSERT_EQ(guard.get(), b_env); // Unchanged
ASSERT_EQ(2, num_a); // Created one but rejected it as not unique
ASSERT_EQ(3, num_b);
}
TEST_F(ObjRegistryTest, LocalRegistry) {
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
Env* env = nullptr;
auto registry = ObjectRegistry::NewInstance();
std::shared_ptr<ObjectLibrary> library =
std::make_shared<ObjectLibrary>("local");
registry->AddLibrary(library);
library->AddFactory<Env>(
"test-local",
[](const std::string& /*uri*/, std::unique_ptr<Env>* /*guard */,
std::string* /* errmsg */) { return Env::Default(); });
ObjectLibrary::Default()->AddFactory<Env>(
"test-global",
[](const std::string& /*uri*/, std::unique_ptr<Env>* /*guard */,
std::string* /* errmsg */) { return Env::Default(); });
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
ASSERT_NOK(
ObjectRegistry::NewInstance()->NewStaticObject<Env>("test-local", &env));
ASSERT_EQ(env, nullptr);
ASSERT_OK(
ObjectRegistry::NewInstance()->NewStaticObject<Env>("test-global", &env));
ASSERT_NE(env, nullptr);
ASSERT_OK(registry->NewStaticObject<Env>("test-local", &env));
ASSERT_NE(env, nullptr);
ASSERT_OK(registry->NewStaticObject<Env>("test-global", &env));
ASSERT_NE(env, nullptr);
}
static int RegisterTestUnguarded(ObjectLibrary& library,
const std::string& /*arg*/) {
library.AddFactory<Env>(
"unguarded",
[](const std::string& /*uri*/, std::unique_ptr<Env>* /*guard */,
std::string* /* errmsg */) { return Env::Default(); });
library.AddFactory<Env>(
"guarded", [](const std::string& uri, std::unique_ptr<Env>* guard,
std::string* /* errmsg */) {
guard->reset(new WrappedEnv(Env::Default(), uri));
return guard->get();
});
return 2;
}
TEST_F(ObjRegistryTest, CheckShared) {
std::shared_ptr<Env> shared;
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
registry->AddLibrary("shared", RegisterTestUnguarded, "");
ASSERT_OK(registry->NewSharedObject<Env>("guarded", &shared));
ASSERT_NE(shared, nullptr);
shared.reset();
ASSERT_NOK(registry->NewSharedObject<Env>("unguarded", &shared));
ASSERT_EQ(shared, nullptr);
}
TEST_F(ObjRegistryTest, CheckStatic) {
Env* env = nullptr;
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
registry->AddLibrary("static", RegisterTestUnguarded, "");
ASSERT_NOK(registry->NewStaticObject<Env>("guarded", &env));
ASSERT_EQ(env, nullptr);
env = nullptr;
ASSERT_OK(registry->NewStaticObject<Env>("unguarded", &env));
ASSERT_NE(env, nullptr);
}
TEST_F(ObjRegistryTest, CheckUnique) {
std::unique_ptr<Env> unique;
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
registry->AddLibrary("unique", RegisterTestUnguarded, "");
ASSERT_OK(registry->NewUniqueObject<Env>("guarded", &unique));
ASSERT_NE(unique, nullptr);
unique.reset();
ASSERT_NOK(registry->NewUniqueObject<Env>("unguarded", &unique));
ASSERT_EQ(unique, nullptr);
}
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
TEST_F(ObjRegistryTest, FailingFactory) {
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
std::shared_ptr<ObjectLibrary> library =
std::make_shared<ObjectLibrary>("failing");
registry->AddLibrary(library);
library->AddFactory<Env>(
"failing", [](const std::string& /*uri*/,
std::unique_ptr<Env>* /*guard */, std::string* errmsg) {
*errmsg = "Bad Factory";
return nullptr;
});
std::unique_ptr<Env> unique;
std::shared_ptr<Env> shared;
Env* pointer = nullptr;
Status s;
s = registry->NewUniqueObject<Env>("failing", &unique);
ASSERT_TRUE(s.IsInvalidArgument());
s = registry->NewSharedObject<Env>("failing", &shared);
ASSERT_TRUE(s.IsInvalidArgument());
s = registry->NewStaticObject<Env>("failing", &pointer);
ASSERT_TRUE(s.IsInvalidArgument());
s = registry->NewUniqueObject<Env>("missing", &unique);
ASSERT_TRUE(s.IsNotSupported());
s = registry->NewSharedObject<Env>("missing", &shared);
ASSERT_TRUE(s.IsNotSupported());
s = registry->NewStaticObject<Env>("missing", &pointer);
ASSERT_TRUE(s.IsNotSupported());
}
TEST_F(ObjRegistryTest, TestRegistryParents) {
auto grand = ObjectRegistry::Default();
auto parent = ObjectRegistry::NewInstance(); // parent with a grandparent
auto uncle = ObjectRegistry::NewInstance(grand);
auto child = ObjectRegistry::NewInstance(parent);
auto cousin = ObjectRegistry::NewInstance(uncle);
auto library = parent->AddLibrary("parent");
library->AddFactory<Env>(
"parent", [](const std::string& uri, std::unique_ptr<Env>* guard,
std::string* /* errmsg */) {
guard->reset(new WrappedEnv(Env::Default(), uri));
return guard->get();
});
library = cousin->AddLibrary("cousin");
library->AddFactory<Env>(
"cousin", [](const std::string& uri, std::unique_ptr<Env>* guard,
std::string* /* errmsg */) {
guard->reset(new WrappedEnv(Env::Default(), uri));
return guard->get();
});
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
Env* env = nullptr;
std::unique_ptr<Env> guard;
std::string msg;
Return different Status based on ObjectRegistry::NewObject calls (#9333) Summary: This fix addresses https://github.com/facebook/rocksdb/issues/9299. If attempting to create a new object via the ObjectRegistry and a factory is not found, the ObjectRegistry will return a "NotSupported" status. This is the same behavior as previously. If the factory is found but could not successfully create the object, an "InvalidArgument" status is returned. If the factory returned a reason why (in the errmsg), this message will be in the returned status. In practice, there are two options in the ConfigOptions that control how these errors are propagated: - If "ignore_unknown_options=true", then both InvalidArgument and NotSupported status codes will be swallowed internally. Both cases will return success - If "ignore_unsupported_options=true", then having no factory will return success but a failing factory will return an error - If both options are false, both cases (no and failing factory) will return errors. In practice this likely only changes Customizable that may be partially available. For example, the JEMallocMemoryAllocator is a built-in allocator that is registered with the system but may not be compiled in. In this case, the status code for this allocator changed from NotSupported("JEMalloc not available") to InvalidArgumen("JEMalloc not available"). Other Customizable builtins/plugins would have the same semantics. Pull Request resolved: https://github.com/facebook/rocksdb/pull/9333 Reviewed By: pdillinger Differential Revision: D33517681 Pulled By: mrambacher fbshipit-source-id: 8033052d4a4a7b88c2d9f90147b1b4467e51f6fd
2022-02-11 14:10:10 +01:00
// a:://* is registered in Default, so they should all work
ASSERT_OK(parent->NewStaticObject<Env>("a://test", &env));
ASSERT_OK(child->NewStaticObject<Env>("a://test", &env));
ASSERT_OK(uncle->NewStaticObject<Env>("a://test", &env));
ASSERT_OK(cousin->NewStaticObject<Env>("a://test", &env));
// The parent env is only registered for parent, not uncle,
// So parent and child should return success and uncle and cousin should fail
ASSERT_OK(parent->NewUniqueObject<Env>("parent", &guard));
ASSERT_OK(child->NewUniqueObject<Env>("parent", &guard));
ASSERT_NOK(uncle->NewUniqueObject<Env>("parent", &guard));
ASSERT_NOK(cousin->NewUniqueObject<Env>("parent", &guard));
// The cousin is only registered in the cousin, so all of the others should
// fail
ASSERT_OK(cousin->NewUniqueObject<Env>("cousin", &guard));
ASSERT_NOK(parent->NewUniqueObject<Env>("cousin", &guard));
ASSERT_NOK(child->NewUniqueObject<Env>("cousin", &guard));
ASSERT_NOK(uncle->NewUniqueObject<Env>("cousin", &guard));
}
class MyCustomizable : public Customizable {
public:
static const char* Type() { return "MyCustomizable"; }
MyCustomizable(const char* prefix, const std::string& id) : id_(id) {
name_ = id_.substr(0, strlen(prefix) - 1);
}
const char* Name() const override { return name_.c_str(); }
std::string GetId() const override { return id_; }
private:
std::string id_;
std::string name_;
};
TEST_F(ObjRegistryTest, TestFactoryCount) {
std::string msg;
auto grand = ObjectRegistry::Default();
auto local = ObjectRegistry::NewInstance();
std::unordered_set<std::string> grand_types, local_types;
std::vector<std::string> grand_names, local_names;
// Check how many types we have on startup.
// Grand should equal local
grand->GetFactoryTypes(&grand_types);
local->GetFactoryTypes(&local_types);
ASSERT_EQ(grand_types, local_types);
size_t grand_count = grand->GetFactoryCount(Env::Type());
size_t local_count = local->GetFactoryCount(Env::Type());
ASSERT_EQ(grand_count, local_count);
grand->GetFactoryNames(Env::Type(), &grand_names);
local->GetFactoryNames(Env::Type(), &local_names);
ASSERT_EQ(grand_names.size(), grand_count);
ASSERT_EQ(local_names.size(), local_count);
ASSERT_EQ(grand_names, local_names);
// Add an Env to the local registry.
// This will add one factory.
auto library = local->AddLibrary("local");
library->AddFactory<Env>(
"A", [](const std::string& /*uri*/, std::unique_ptr<Env>* /*guard */,
std::string* /* errmsg */) { return nullptr; });
ASSERT_EQ(local_count + 1, local->GetFactoryCount(Env::Type()));
ASSERT_EQ(grand_count, grand->GetFactoryCount(Env::Type()));
local->GetFactoryTypes(&local_types);
local->GetFactoryNames(Env::Type(), &local_names);
ASSERT_EQ(grand_names.size() + 1, local_names.size());
ASSERT_EQ(local_names.size(), local->GetFactoryCount(Env::Type()));
if (grand_count == 0) {
// There were no Env when we started. Should have one more type
// than previously
ASSERT_NE(grand_types, local_types);
ASSERT_EQ(grand_types.size() + 1, local_types.size());
} else {
// There was an Env type when we started. The types should match
ASSERT_EQ(grand_types, local_types);
}
// Add a MyCustomizable to the registry. This should be a new type
library->AddFactory<MyCustomizable>(
"MY", [](const std::string& /*uri*/,
std::unique_ptr<MyCustomizable>* /*guard */,
std::string* /* errmsg */) { return nullptr; });
ASSERT_EQ(local_count + 1, local->GetFactoryCount(Env::Type()));
ASSERT_EQ(grand_count, grand->GetFactoryCount(Env::Type()));
ASSERT_EQ(0U, grand->GetFactoryCount(MyCustomizable::Type()));
ASSERT_EQ(1U, local->GetFactoryCount(MyCustomizable::Type()));
local->GetFactoryNames(MyCustomizable::Type(), &local_names);
ASSERT_EQ(1U, local_names.size());
ASSERT_EQ(local_names[0], "MY");
local->GetFactoryTypes(&local_types);
ASSERT_EQ(grand_count == 0 ? 2 : grand_types.size() + 1, local_types.size());
// Add the same name again. We should now have 2 factories.
library->AddFactory<MyCustomizable>(
"MY", [](const std::string& /*uri*/,
std::unique_ptr<MyCustomizable>* /*guard */,
std::string* /* errmsg */) { return nullptr; });
local->GetFactoryNames(MyCustomizable::Type(), &local_names);
ASSERT_EQ(2U, local_names.size());
}
TEST_F(ObjRegistryTest, TestManagedObjects) {
auto registry = ObjectRegistry::NewInstance();
auto m_a1 = std::make_shared<MyCustomizable>("", "A");
auto m_a2 = std::make_shared<MyCustomizable>("", "A");
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_OK(registry->SetManagedObject<MyCustomizable>(m_a1));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a1);
ASSERT_NOK(registry->SetManagedObject<MyCustomizable>(m_a2));
ASSERT_OK(registry->SetManagedObject<MyCustomizable>(m_a1));
m_a1.reset();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_OK(registry->SetManagedObject<MyCustomizable>(m_a2));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a2);
}
TEST_F(ObjRegistryTest, TestTwoManagedObjects) {
auto registry = ObjectRegistry::NewInstance();
auto m_a = std::make_shared<MyCustomizable>("", "A");
auto m_b = std::make_shared<MyCustomizable>("", "B");
std::vector<std::shared_ptr<MyCustomizable>> objects;
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 0U);
ASSERT_OK(registry->SetManagedObject(m_a));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_a);
ASSERT_OK(registry->SetManagedObject(m_b));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), m_b);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 2U);
ASSERT_OK(registry->ListManagedObjects("A", &objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_a);
ASSERT_OK(registry->ListManagedObjects("B", &objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_b);
ASSERT_OK(registry->ListManagedObjects("C", &objects));
ASSERT_EQ(objects.size(), 0U);
m_a.reset();
objects.clear();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), m_b);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_b);
m_b.reset();
objects.clear();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
}
TEST_F(ObjRegistryTest, TestAlternateNames) {
auto registry = ObjectRegistry::NewInstance();
auto m_a = std::make_shared<MyCustomizable>("", "A");
auto m_b = std::make_shared<MyCustomizable>("", "B");
std::vector<std::shared_ptr<MyCustomizable>> objects;
// Test no objects exist
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), nullptr);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 0U);
// Mark "TheOne" to be A
ASSERT_OK(registry->SetManagedObject("TheOne", m_a));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), m_a);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_a);
// Try to mark "TheOne" again.
ASSERT_NOK(registry->SetManagedObject("TheOne", m_b));
ASSERT_OK(registry->SetManagedObject("TheOne", m_a));
// Add "A" as a managed object. Registered 2x
ASSERT_OK(registry->SetManagedObject(m_a));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("B"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), m_a);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 2U);
// Delete "A".
m_a.reset();
objects.clear();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), nullptr);
ASSERT_OK(registry->SetManagedObject("TheOne", m_b));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), m_b);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 1U);
ASSERT_EQ(objects.front(), m_b);
m_b.reset();
objects.clear();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("TheOne"), nullptr);
ASSERT_OK(registry->ListManagedObjects(&objects));
ASSERT_EQ(objects.size(), 0U);
}
TEST_F(ObjRegistryTest, TestTwoManagedClasses) {
class MyCustomizable2 : public MyCustomizable {
public:
static const char* Type() { return "MyCustomizable2"; }
MyCustomizable2(const char* prefix, const std::string& id)
: MyCustomizable(prefix, id) {}
};
auto registry = ObjectRegistry::NewInstance();
auto m_a1 = std::make_shared<MyCustomizable>("", "A");
auto m_a2 = std::make_shared<MyCustomizable2>("", "A");
std::vector<std::shared_ptr<MyCustomizable>> obj1s;
std::vector<std::shared_ptr<MyCustomizable2>> obj2s;
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable2>("A"), nullptr);
ASSERT_OK(registry->SetManagedObject(m_a1));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a1);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable2>("A"), nullptr);
ASSERT_OK(registry->SetManagedObject(m_a2));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable2>("A"), m_a2);
ASSERT_OK(registry->ListManagedObjects(&obj1s));
ASSERT_OK(registry->ListManagedObjects(&obj2s));
ASSERT_EQ(obj1s.size(), 1U);
ASSERT_EQ(obj2s.size(), 1U);
ASSERT_EQ(obj1s.front(), m_a1);
ASSERT_EQ(obj2s.front(), m_a2);
m_a1.reset();
obj1s.clear();
obj2s.clear();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable2>("A"), m_a2);
m_a2.reset();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable2>("A"), nullptr);
}
TEST_F(ObjRegistryTest, TestManagedObjectsWithParent) {
auto base = ObjectRegistry::NewInstance();
auto registry = ObjectRegistry::NewInstance(base);
auto m_a = std::make_shared<MyCustomizable>("", "A");
auto m_b = std::make_shared<MyCustomizable>("", "A");
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_OK(base->SetManagedObject(m_a));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_a);
ASSERT_NOK(registry->SetManagedObject(m_b));
ASSERT_OK(registry->SetManagedObject(m_a));
m_a.reset();
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), nullptr);
ASSERT_OK(registry->SetManagedObject(m_b));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("A"), m_b);
}
TEST_F(ObjRegistryTest, TestGetOrCreateManagedObject) {
auto registry = ObjectRegistry::NewInstance();
registry->AddLibrary("test")->AddFactory<MyCustomizable>(
ObjectLibrary::PatternEntry::AsIndividualId("MC"),
[](const std::string& uri, std::unique_ptr<MyCustomizable>* guard,
std::string* /* errmsg */) {
guard->reset(new MyCustomizable("MC", uri));
return guard->get();
});
std::shared_ptr<MyCustomizable> m_a, m_b, obj;
std::vector<std::shared_ptr<MyCustomizable>> objs;
std::unordered_map<std::string, std::string> opt_map;
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("MC@A#1"), nullptr);
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("MC@B#1"), nullptr);
ASSERT_OK(registry->GetOrCreateManagedObject("MC@A#1", &m_a));
ASSERT_OK(registry->GetOrCreateManagedObject("MC@B#1", &m_b));
ASSERT_EQ(registry->GetManagedObject<MyCustomizable>("MC@A#1"), m_a);
ASSERT_OK(registry->GetOrCreateManagedObject("MC@A#1", &obj));
ASSERT_EQ(obj, m_a);
ASSERT_OK(registry->GetOrCreateManagedObject("MC@B#1", &obj));
ASSERT_EQ(obj, m_b);
ASSERT_OK(registry->ListManagedObjects(&objs));
ASSERT_EQ(objs.size(), 2U);
objs.clear();
m_a.reset();
obj.reset();
ASSERT_OK(registry->GetOrCreateManagedObject("MC@A#1", &m_a));
ASSERT_EQ(1, m_a.use_count());
ASSERT_OK(registry->GetOrCreateManagedObject("MC@B#1", &obj));
ASSERT_EQ(2, obj.use_count());
}
TEST_F(ObjRegistryTest, RegisterPlugin) {
std::shared_ptr<ObjectRegistry> registry = ObjectRegistry::NewInstance();
std::unique_ptr<Env> guard;
Env* env = nullptr;
ASSERT_NOK(registry->NewObject<Env>("unguarded", &env, &guard));
ASSERT_EQ(registry->RegisterPlugin("Missing", nullptr), -1);
ASSERT_EQ(registry->RegisterPlugin("", RegisterTestUnguarded), -1);
ASSERT_GT(registry->RegisterPlugin("Valid", RegisterTestUnguarded), 0);
ASSERT_OK(registry->NewObject<Env>("unguarded", &env, &guard));
ASSERT_NE(env, nullptr);
}
class PatternEntryTest : public testing::Test {};
TEST_F(PatternEntryTest, TestSimpleEntry) {
ObjectLibrary::PatternEntry entry("ABC", true);
ASSERT_TRUE(entry.Matches("ABC"));
ASSERT_FALSE(entry.Matches("AABC"));
ASSERT_FALSE(entry.Matches("ABCA"));
ASSERT_FALSE(entry.Matches("AABCA"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("BC"));
ASSERT_FALSE(entry.Matches("ABD"));
ASSERT_FALSE(entry.Matches("BCA"));
}
TEST_F(PatternEntryTest, TestPatternEntry) {
// Matches A:+
ObjectLibrary::PatternEntry entry("A", false);
entry.AddSeparator(":");
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("B"));
ASSERT_FALSE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA:B"));
ASSERT_FALSE(entry.Matches("AA:BB"));
ASSERT_TRUE(entry.Matches("A:B"));
ASSERT_TRUE(entry.Matches("A:BB"));
entry.SetOptional(true); // Now matches "A" or "A:+"
ASSERT_TRUE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("B"));
ASSERT_FALSE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA:B"));
ASSERT_FALSE(entry.Matches("AA:BB"));
ASSERT_TRUE(entry.Matches("A:B"));
ASSERT_TRUE(entry.Matches("A:BB"));
}
TEST_F(PatternEntryTest, MatchZeroOrMore) {
// Matches A:*
ObjectLibrary::PatternEntry entry("A", false);
entry.AddSeparator(":", false);
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("B"));
ASSERT_TRUE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("B:"));
ASSERT_FALSE(entry.Matches("B:A"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA:B"));
ASSERT_FALSE(entry.Matches("AA:BB"));
ASSERT_TRUE(entry.Matches("A:B"));
ASSERT_TRUE(entry.Matches("A:BB"));
entry.SetOptional(true); // Now matches "A" or "A:*"
ASSERT_TRUE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("B"));
ASSERT_TRUE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("B:"));
ASSERT_FALSE(entry.Matches("B:A"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA:B"));
ASSERT_FALSE(entry.Matches("AA:BB"));
ASSERT_TRUE(entry.Matches("A:B"));
ASSERT_TRUE(entry.Matches("A:BB"));
}
TEST_F(PatternEntryTest, TestSuffixEntry) {
ObjectLibrary::PatternEntry entry("AA", true);
entry.AddSuffix("BB");
ASSERT_TRUE(entry.Matches("AA"));
ASSERT_TRUE(entry.Matches("AABB"));
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AB"));
ASSERT_FALSE(entry.Matches("B"));
ASSERT_FALSE(entry.Matches("BB"));
ASSERT_FALSE(entry.Matches("ABA"));
ASSERT_FALSE(entry.Matches("BBAA"));
ASSERT_FALSE(entry.Matches("AABBA"));
ASSERT_FALSE(entry.Matches("AABBB"));
}
TEST_F(PatternEntryTest, TestNumericEntry) {
ObjectLibrary::PatternEntry entry("A", false);
entry.AddNumber(":");
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_TRUE(entry.Matches("A:1"));
ASSERT_TRUE(entry.Matches("A:11"));
ASSERT_FALSE(entry.Matches("AA:1"));
ASSERT_FALSE(entry.Matches("AA:11"));
ASSERT_FALSE(entry.Matches("A:B"));
ASSERT_FALSE(entry.Matches("A:1B"));
ASSERT_FALSE(entry.Matches("A:B1"));
entry.AddSeparator(":", false);
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_TRUE(entry.Matches("A:1:"));
ASSERT_TRUE(entry.Matches("A:11:"));
ASSERT_FALSE(entry.Matches("A:1"));
ASSERT_FALSE(entry.Matches("A:B1:"));
ASSERT_FALSE(entry.Matches("A:1B:"));
ASSERT_FALSE(entry.Matches("A::"));
}
TEST_F(PatternEntryTest, TestDoubleEntry) {
ObjectLibrary::PatternEntry entry("A", false);
entry.AddNumber(":", false);
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("A:"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA:1"));
ASSERT_FALSE(entry.Matches("AA:11"));
ASSERT_FALSE(entry.Matches("A:B"));
ASSERT_FALSE(entry.Matches("A:1B"));
ASSERT_FALSE(entry.Matches("A:B1"));
ASSERT_TRUE(entry.Matches("A:1"));
ASSERT_TRUE(entry.Matches("A:11"));
ASSERT_TRUE(entry.Matches("A:1.1"));
ASSERT_TRUE(entry.Matches("A:11.11"));
ASSERT_TRUE(entry.Matches("A:1."));
ASSERT_TRUE(entry.Matches("A:.1"));
ASSERT_TRUE(entry.Matches("A:0.1"));
ASSERT_TRUE(entry.Matches("A:1.0"));
ASSERT_TRUE(entry.Matches("A:1.0"));
ASSERT_FALSE(entry.Matches("A:1.0."));
ASSERT_FALSE(entry.Matches("A:1.0.2"));
ASSERT_FALSE(entry.Matches("A:.1.0"));
ASSERT_FALSE(entry.Matches("A:..10"));
ASSERT_FALSE(entry.Matches("A:10.."));
ASSERT_FALSE(entry.Matches("A:."));
entry.AddSeparator(":", false);
ASSERT_FALSE(entry.Matches("A:1"));
ASSERT_FALSE(entry.Matches("A:1.0"));
ASSERT_TRUE(entry.Matches("A:11:"));
ASSERT_TRUE(entry.Matches("A:1.1:"));
ASSERT_TRUE(entry.Matches("A:11.11:"));
ASSERT_TRUE(entry.Matches("A:1.:"));
ASSERT_TRUE(entry.Matches("A:.1:"));
ASSERT_TRUE(entry.Matches("A:0.1:"));
ASSERT_TRUE(entry.Matches("A:1.0:"));
ASSERT_TRUE(entry.Matches("A:1.0:"));
ASSERT_FALSE(entry.Matches("A:1.0.:"));
ASSERT_FALSE(entry.Matches("A:1.0.2:"));
ASSERT_FALSE(entry.Matches("A:.1.0:"));
ASSERT_FALSE(entry.Matches("A:..10:"));
ASSERT_FALSE(entry.Matches("A:10..:"));
ASSERT_FALSE(entry.Matches("A:.:"));
ASSERT_FALSE(entry.Matches("A::"));
}
TEST_F(PatternEntryTest, TestIndividualIdEntry) {
auto entry = ObjectLibrary::PatternEntry::AsIndividualId("AA");
ASSERT_TRUE(entry.Matches("AA"));
ASSERT_TRUE(entry.Matches("AA@123#456"));
ASSERT_TRUE(entry.Matches("AA@deadbeef#id"));
ASSERT_FALSE(entry.Matches("A"));
ASSERT_FALSE(entry.Matches("AAA"));
ASSERT_FALSE(entry.Matches("AA@123"));
ASSERT_FALSE(entry.Matches("AA@123#"));
ASSERT_FALSE(entry.Matches("AA@#123"));
}
TEST_F(PatternEntryTest, TestTwoNameEntry) {
ObjectLibrary::PatternEntry entry("A");
entry.AnotherName("B");
ASSERT_TRUE(entry.Matches("A"));
ASSERT_TRUE(entry.Matches("B"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("BB"));
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("BA"));
ASSERT_FALSE(entry.Matches("AB"));
}
TEST_F(PatternEntryTest, TestTwoPatternEntry) {
ObjectLibrary::PatternEntry entry("AA", false);
entry.AddSeparator(":");
entry.AddSeparator(":");
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA::"));
ASSERT_FALSE(entry.Matches("AA::12"));
ASSERT_TRUE(entry.Matches("AA:1:2"));
ASSERT_TRUE(entry.Matches("AA:1:2:"));
ObjectLibrary::PatternEntry entry2("AA", false);
entry2.AddSeparator("::");
entry2.AddSeparator("##");
ASSERT_FALSE(entry2.Matches("AA"));
ASSERT_FALSE(entry2.Matches("AA:"));
ASSERT_FALSE(entry2.Matches("AA::"));
ASSERT_FALSE(entry2.Matches("AA::#"));
ASSERT_FALSE(entry2.Matches("AA::##"));
ASSERT_FALSE(entry2.Matches("AA##1::2"));
ASSERT_FALSE(entry2.Matches("AA::123##"));
ASSERT_TRUE(entry2.Matches("AA::1##2"));
ASSERT_TRUE(entry2.Matches("AA::12##34:"));
ASSERT_TRUE(entry2.Matches("AA::12::34##56"));
ASSERT_TRUE(entry2.Matches("AA::12##34::56"));
}
TEST_F(PatternEntryTest, TestTwoNumbersEntry) {
ObjectLibrary::PatternEntry entry("AA", false);
entry.AddNumber(":");
entry.AddNumber(":");
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AA:"));
ASSERT_FALSE(entry.Matches("AA::"));
ASSERT_FALSE(entry.Matches("AA::12"));
ASSERT_FALSE(entry.Matches("AA:1:2:"));
ASSERT_TRUE(entry.Matches("AA:1:2"));
ASSERT_TRUE(entry.Matches("AA:12:23456"));
ObjectLibrary::PatternEntry entry2("AA", false);
entry2.AddNumber(":");
entry2.AddNumber("#");
ASSERT_FALSE(entry2.Matches("AA"));
ASSERT_FALSE(entry2.Matches("AA:"));
ASSERT_FALSE(entry2.Matches("AA:#"));
ASSERT_FALSE(entry2.Matches("AA#:"));
ASSERT_FALSE(entry2.Matches("AA:123#"));
ASSERT_FALSE(entry2.Matches("AA:123#B"));
ASSERT_FALSE(entry2.Matches("AA:B#123"));
ASSERT_TRUE(entry2.Matches("AA:1#2"));
ASSERT_FALSE(entry2.Matches("AA:123#23:"));
ASSERT_FALSE(entry2.Matches("AA::12#234"));
}
TEST_F(PatternEntryTest, TestPatternAndSuffix) {
ObjectLibrary::PatternEntry entry("AA", false);
entry.AddSeparator("::");
entry.AddSuffix("##");
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("AA::"));
ASSERT_FALSE(entry.Matches("AA::##"));
ASSERT_FALSE(entry.Matches("AB::1##"));
ASSERT_FALSE(entry.Matches("AB::1##2"));
ASSERT_FALSE(entry.Matches("AA##1::"));
ASSERT_TRUE(entry.Matches("AA::1##"));
ASSERT_FALSE(entry.Matches("AA::1###"));
ObjectLibrary::PatternEntry entry2("AA", false);
entry2.AddSuffix("::");
entry2.AddSeparator("##");
ASSERT_FALSE(entry2.Matches("AA"));
ASSERT_FALSE(entry2.Matches("AA::"));
ASSERT_FALSE(entry2.Matches("AA::##"));
ASSERT_FALSE(entry2.Matches("AB::1##"));
ASSERT_FALSE(entry2.Matches("AB::1##2"));
ASSERT_TRUE(entry2.Matches("AA::##12"));
}
TEST_F(PatternEntryTest, TestTwoNamesAndPattern) {
ObjectLibrary::PatternEntry entry("AA", true);
entry.AddSeparator("::");
entry.AnotherName("BBB");
ASSERT_TRUE(entry.Matches("AA"));
ASSERT_TRUE(entry.Matches("AA::1"));
ASSERT_TRUE(entry.Matches("BBB"));
ASSERT_TRUE(entry.Matches("BBB::2"));
ASSERT_FALSE(entry.Matches("AA::"));
ASSERT_FALSE(entry.Matches("AAA::"));
ASSERT_FALSE(entry.Matches("BBB::"));
entry.SetOptional(false);
ASSERT_FALSE(entry.Matches("AA"));
ASSERT_FALSE(entry.Matches("BBB"));
ASSERT_FALSE(entry.Matches("AA::"));
ASSERT_FALSE(entry.Matches("AAA::"));
ASSERT_FALSE(entry.Matches("BBB::"));
ASSERT_TRUE(entry.Matches("AA::1"));
ASSERT_TRUE(entry.Matches("BBB::2"));
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
#else // ROCKSDB_LITE
#include <stdio.h>
int main(int /*argc*/, char** /*argv*/) {
fprintf(stderr, "SKIPPED as ObjRegistry is not supported in ROCKSDB_LITE\n");
return 0;
}
#endif // ROCKSDB_LITE