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chromium / external / github.com / domokit / mojo_sdk / 41d9e66565659d1e6b45561be93fdc17ef0bf127 / . / cpp / bindings / tests / union_unittest.cc
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// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <utility>
#include <vector>
#include "gtest/gtest.h"
#include "mojo/public/cpp/bindings/array.h"
#include "mojo/public/cpp/bindings/binding.h"
#include "mojo/public/cpp/bindings/lib/array_internal.h"
#include "mojo/public/cpp/bindings/lib/array_serialization.h"
#include "mojo/public/cpp/bindings/lib/bounds_checker.h"
#include "mojo/public/cpp/bindings/lib/fixed_buffer.h"
#include "mojo/public/cpp/bindings/lib/map_serialization.h"
#include "mojo/public/cpp/bindings/string.h"
#include "mojo/public/cpp/test_support/test_utils.h"
#include "mojo/public/cpp/utility/run_loop.h"
#include "mojo/public/interfaces/bindings/tests/test_structs.mojom.h"
#include "mojo/public/interfaces/bindings/tests/test_unions.mojom.h"
namespace mojo {
namespace test {
TEST(UnionTest, PlainOldDataGetterSetter) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
EXPECT_EQ(10, pod->get_f_int8());
EXPECT_TRUE(pod->is_f_int8());
EXPECT_FALSE(pod->is_f_int8_other());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_INT8);
pod->set_f_uint8(11);
EXPECT_EQ(11, pod->get_f_uint8());
EXPECT_TRUE(pod->is_f_uint8());
EXPECT_FALSE(pod->is_f_int8());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_UINT8);
pod->set_f_int16(12);
EXPECT_EQ(12, pod->get_f_int16());
EXPECT_TRUE(pod->is_f_int16());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_INT16);
pod->set_f_uint16(13);
EXPECT_EQ(13, pod->get_f_uint16());
EXPECT_TRUE(pod->is_f_uint16());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_UINT16);
pod->set_f_int32(14);
EXPECT_EQ(14, pod->get_f_int32());
EXPECT_TRUE(pod->is_f_int32());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_INT32);
pod->set_f_uint32(static_cast<uint32_t>(15));
EXPECT_EQ(static_cast<uint32_t>(15), pod->get_f_uint32());
EXPECT_TRUE(pod->is_f_uint32());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_UINT32);
pod->set_f_int64(16);
EXPECT_EQ(16, pod->get_f_int64());
EXPECT_TRUE(pod->is_f_int64());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_INT64);
pod->set_f_uint64(static_cast<uint64_t>(17));
EXPECT_EQ(static_cast<uint64_t>(17), pod->get_f_uint64());
EXPECT_TRUE(pod->is_f_uint64());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_UINT64);
pod->set_f_float(1.5);
EXPECT_EQ(1.5, pod->get_f_float());
EXPECT_TRUE(pod->is_f_float());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_FLOAT);
pod->set_f_double(1.9);
EXPECT_EQ(1.9, pod->get_f_double());
EXPECT_TRUE(pod->is_f_double());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_DOUBLE);
pod->set_f_bool(true);
EXPECT_TRUE(pod->get_f_bool());
pod->set_f_bool(false);
EXPECT_FALSE(pod->get_f_bool());
EXPECT_TRUE(pod->is_f_bool());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_BOOL);
pod->set_f_enum(AnEnum::SECOND);
EXPECT_EQ(AnEnum::SECOND, pod->get_f_enum());
EXPECT_TRUE(pod->is_f_enum());
EXPECT_EQ(pod->which(), PodUnion::Tag::F_ENUM);
}
TEST(UnionTest, PodEquals) {
PodUnionPtr pod1(PodUnion::New());
PodUnionPtr pod2(PodUnion::New());
pod1->set_f_int8(10);
pod2->set_f_int8(10);
EXPECT_TRUE(pod1.Equals(pod2));
pod2->set_f_int8(11);
EXPECT_FALSE(pod1.Equals(pod2));
pod2->set_f_int8_other(10);
EXPECT_FALSE(pod1.Equals(pod2));
}
TEST(UnionTest, PodClone) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
PodUnionPtr pod_clone = pod.Clone();
EXPECT_EQ(10, pod_clone->get_f_int8());
EXPECT_TRUE(pod_clone->is_f_int8());
EXPECT_EQ(pod_clone->which(), PodUnion::Tag::F_INT8);
}
TEST(UnionTest, PodSerialization) {
PodUnionPtr pod1(PodUnion::New());
pod1->set_f_int8(10);
size_t size = GetSerializedSize_(pod1);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::PodUnion_Data::New(&buf);
SerializeUnion_(pod1.get(), &buf, &data);
PodUnionPtr pod2(PodUnion::New());
Deserialize_(data, pod2.get());
EXPECT_EQ(10, pod2->get_f_int8());
EXPECT_TRUE(pod2->is_f_int8());
EXPECT_EQ(pod2->which(), PodUnion::Tag::F_INT8);
}
TEST(UnionTest, EnumSerialization) {
PodUnionPtr pod1(PodUnion::New());
pod1->set_f_enum(AnEnum::SECOND);
size_t size = GetSerializedSize_(pod1);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::PodUnion_Data::New(&buf);
SerializeUnion_(pod1.get(), &buf, &data);
PodUnionPtr pod2 = PodUnion::New();
Deserialize_(data, pod2.get());
EXPECT_EQ(AnEnum::SECOND, pod2->get_f_enum());
EXPECT_TRUE(pod2->is_f_enum());
EXPECT_EQ(pod2->which(), PodUnion::Tag::F_ENUM);
}
TEST(UnionTest, PodValidation) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
size_t size = GetSerializedSize_(pod);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::PodUnion_Data::New(&buf);
SerializeUnion_(pod.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::PodUnion_Data::Validate(raw_buf, &bounds_checker, false,
nullptr));
free(raw_buf);
}
TEST(UnionTest, SerializeNotNull) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(0);
size_t size = GetSerializedSize_(pod);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::PodUnion_Data::New(&buf);
SerializeUnion_(pod.get(), &buf, &data);
EXPECT_FALSE(data->is_null());
}
TEST(UnionTest, SerializeIsNull) {
PodUnionPtr pod;
size_t size = GetSerializedSize_(pod);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
internal::PodUnion_Data* data = internal::PodUnion_Data::New(&buf);
// Check that dirty output buffers are handled correctly by serialization.
data->size = 16U;
data->tag = PodUnion::Tag::F_UINT16;
data->data.f_f_int16 = 20;
SerializeUnion_(pod.get(), &buf, &data);
EXPECT_TRUE(data->is_null());
PodUnionPtr pod2 = PodUnion::New();
Deserialize_(data, pod2.get());
EXPECT_EQ(pod2->which(), PodUnion::Tag::__UNKNOWN__);
{
PodUnionPtr pod;
size_t size = GetSerializedSize_(pod);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::PodUnion_Data::New(&buf);
SerializeUnion_(pod.get(), &buf, &data);
EXPECT_EQ(static_cast<internal::PodUnion_Data::PodUnion_Tag>(0), data->tag);
EXPECT_EQ(0u, data->size);
EXPECT_EQ(0u, data->data.unknown);
}
}
TEST(UnionTest, NullValidation) {
void* buf = nullptr;
mojo::internal::BoundsChecker bounds_checker(buf, 0, 0);
EXPECT_EQ(
mojo::internal::ValidationError::NONE,
internal::PodUnion_Data::Validate(buf, &bounds_checker, false, nullptr));
}
TEST(UnionTest, OutOfAlignmentValidation) {
size_t size = sizeof(internal::PodUnion_Data);
// Get an aligned object and shift the alignment.
mojo::internal::FixedBufferForTesting aligned_buf(size + 1);
void* raw_buf = aligned_buf.Leak();
char* buf = reinterpret_cast<char*>(raw_buf) + 1;
internal::PodUnion_Data* data =
reinterpret_cast<internal::PodUnion_Data*>(buf);
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_NE(
mojo::internal::ValidationError::NONE,
internal::PodUnion_Data::Validate(buf, &bounds_checker, false, nullptr));
free(raw_buf);
}
TEST(UnionTest, OOBValidation) {
size_t size = sizeof(internal::PodUnion_Data) - 1;
mojo::internal::FixedBufferForTesting buf(size);
internal::PodUnion_Data* data = internal::PodUnion_Data::New(&buf);
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
void* raw_buf = buf.Leak();
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::PodUnion_Data::Validate(raw_buf, &bounds_checker, false,
nullptr));
free(raw_buf);
}
TEST(UnionTest, UnknownTagDeserialization) {
size_t size = sizeof(internal::PodUnion_Data);
mojo::internal::FixedBufferForTesting buf(size);
internal::PodUnion_Data* data = internal::PodUnion_Data::New(&buf);
data->size = size;
data->tag = static_cast<internal::PodUnion_Data::PodUnion_Tag>(100);
PodUnionPtr pod2 = PodUnion::New();
Deserialize_(data, pod2.get());
EXPECT_TRUE(pod2->has_unknown_tag());
}
TEST(UnionTest, UnknownTagValidation) {
size_t size = sizeof(internal::PodUnion_Data);
mojo::internal::FixedBufferForTesting buf(size);
internal::PodUnion_Data* data = internal::PodUnion_Data::New(&buf);
data->size = size;
data->tag = static_cast<internal::PodUnion_Data::PodUnion_Tag>(100);
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
void* raw_buf = buf.Leak();
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::PodUnion_Data::Validate(raw_buf, &bounds_checker, false,
nullptr));
free(raw_buf);
}
TEST(UnionTest, StringGetterSetter) {
ObjectUnionPtr pod(ObjectUnion::New());
String hello("hello world");
pod->set_f_string(hello);
EXPECT_EQ(hello, pod->get_f_string());
EXPECT_TRUE(pod->is_f_string());
EXPECT_EQ(pod->which(), ObjectUnion::Tag::F_STRING);
}
TEST(UnionTest, StringEquals) {
ObjectUnionPtr pod1(ObjectUnion::New());
ObjectUnionPtr pod2(ObjectUnion::New());
pod1->set_f_string("hello world");
pod2->set_f_string("hello world");
EXPECT_TRUE(pod1.Equals(pod2));
pod2->set_f_string("hello universe");
EXPECT_FALSE(pod1.Equals(pod2));
}
TEST(UnionTest, StringClone) {
ObjectUnionPtr pod(ObjectUnion::New());
String hello("hello world");
pod->set_f_string(hello);
ObjectUnionPtr pod_clone = pod.Clone();
EXPECT_EQ(hello, pod_clone->get_f_string());
EXPECT_TRUE(pod_clone->is_f_string());
EXPECT_EQ(pod_clone->which(), ObjectUnion::Tag::F_STRING);
}
TEST(UnionTest, StringSerialization) {
ObjectUnionPtr pod1(ObjectUnion::New());
String hello("hello world");
pod1->set_f_string(hello);
size_t size = GetSerializedSize_(pod1);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(pod1.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
ObjectUnionPtr pod2 = ObjectUnion::New();
Deserialize_(data, pod2.get());
EXPECT_EQ(hello, pod2->get_f_string());
EXPECT_TRUE(pod2->is_f_string());
EXPECT_EQ(pod2->which(), ObjectUnion::Tag::F_STRING);
}
TEST(UnionTest, NullStringValidation) {
size_t size = sizeof(internal::ObjectUnion_Data);
mojo::internal::FixedBufferForTesting buf(size);
internal::ObjectUnion_Data* data = internal::ObjectUnion_Data::New(&buf);
data->size = 16;
data->tag = internal::ObjectUnion_Data::ObjectUnion_Tag::F_STRING;
data->data.unknown = 0x0;
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
void* raw_buf = buf.Leak();
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, StringPointerOverflowValidation) {
size_t size = sizeof(internal::ObjectUnion_Data);
mojo::internal::FixedBufferForTesting buf(size);
internal::ObjectUnion_Data* data = internal::ObjectUnion_Data::New(&buf);
data->size = 16;
data->tag = internal::ObjectUnion_Data::ObjectUnion_Tag::F_STRING;
data->data.unknown = 0xFFFFFFFFFFFFFFFF;
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
void* raw_buf = buf.Leak();
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, StringValidateOOB) {
size_t size = 32;
mojo::internal::FixedBufferForTesting buf(size);
internal::ObjectUnion_Data* data = internal::ObjectUnion_Data::New(&buf);
data->size = 16;
data->tag = internal::ObjectUnion_Data::ObjectUnion_Tag::F_STRING;
data->data.f_f_string.offset = 8;
char* ptr = reinterpret_cast<char*>(&data->data.f_f_string);
mojo::internal::ArrayHeader* array_header =
reinterpret_cast<mojo::internal::ArrayHeader*>(ptr + *ptr);
array_header->num_bytes = 20; // This should go out of bounds.
array_header->num_elements = 20;
mojo::internal::BoundsChecker bounds_checker(data, 32, 0);
void* raw_buf = buf.Leak();
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
// TODO(azani): Move back in array_unittest.cc when possible.
// Array tests
TEST(UnionTest, PodUnionInArray) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union_array = Array<PodUnionPtr>::New(2);
small_struct->pod_union_array[0] = PodUnion::New();
small_struct->pod_union_array[1] = PodUnion::New();
small_struct->pod_union_array[0]->set_f_int8(10);
small_struct->pod_union_array[1]->set_f_int16(12);
EXPECT_EQ(10, small_struct->pod_union_array[0]->get_f_int8());
EXPECT_EQ(12, small_struct->pod_union_array[1]->get_f_int16());
}
TEST(UnionTest, PodUnionInArraySerialization) {
auto array = Array<PodUnionPtr>::New(2);
array[0] = PodUnion::New();
array[1] = PodUnion::New();
array[0]->set_f_int8(10);
array[1]->set_f_int16(12);
EXPECT_EQ(2U, array.size());
size_t size = GetSerializedSize_(array);
EXPECT_EQ(40U, size);
mojo::internal::FixedBufferForTesting buf(size);
mojo::internal::Array_Data<internal::PodUnion_Data>* data = nullptr;
mojo::internal::ArrayValidateParams validate_params(0, false, nullptr);
SerializeArray_(&array, &buf, &data, &validate_params);
Array<PodUnionPtr> array2;
Deserialize_(data, &array2);
EXPECT_EQ(2U, array2.size());
EXPECT_EQ(10, array2[0]->get_f_int8());
EXPECT_EQ(12, array2[1]->get_f_int16());
}
TEST(UnionTest, PodUnionInArrayValidation) {
auto array = Array<PodUnionPtr>::New(2);
array[0] = PodUnion::New();
array[1] = PodUnion::New();
array[0]->set_f_int8(10);
array[1]->set_f_int16(12);
size_t size = GetSerializedSize_(array);
mojo::internal::FixedBufferForTesting buf(size);
mojo::internal::Array_Data<internal::PodUnion_Data>* data = nullptr;
mojo::internal::ArrayValidateParams validate_params(0, false, nullptr);
SerializeArray_(&array, &buf, &data, &validate_params);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 1);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Array<PodUnionPtr>::Data_::Validate(raw_buf, &bounds_checker,
&validate_params, nullptr));
free(raw_buf);
}
TEST(UnionTest, PodUnionInArraySerializationWithNull) {
auto array = Array<PodUnionPtr>::New(2);
array[0] = PodUnion::New();
array[0]->set_f_int8(10);
EXPECT_EQ(2U, array.size());
size_t size = GetSerializedSize_(array);
EXPECT_EQ(40U, size);
mojo::internal::FixedBufferForTesting buf(size);
mojo::internal::Array_Data<internal::PodUnion_Data>* data = nullptr;
mojo::internal::ArrayValidateParams validate_params(0, true, nullptr);
SerializeArray_(&array, &buf, &data, &validate_params);
Array<PodUnionPtr> array2;
Deserialize_(data, &array2);
EXPECT_EQ(2U, array2.size());
EXPECT_EQ(10, array2[0]->get_f_int8());
EXPECT_TRUE(array2[1].is_null());
}
// TODO(azani): Move back in struct_unittest.cc when possible.
// Struct tests
TEST(UnionTest, Clone_Union) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union = PodUnion::New();
small_struct->pod_union->set_f_int8(10);
SmallStructPtr clone = small_struct.Clone();
EXPECT_EQ(10, clone->pod_union->get_f_int8());
}
// Serialization test of a struct with a union of plain old data.
TEST(UnionTest, Serialization_UnionOfPods) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union = PodUnion::New();
small_struct->pod_union->set_f_int32(10);
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallStruct_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(small_struct.get(), &buf, &data));
SmallStructPtr deserialized(SmallStruct::New());
Deserialize_(data, deserialized.get());
EXPECT_EQ(10, deserialized->pod_union->get_f_int32());
}
// Serialization test of a struct with a union of structs.
TEST(UnionTest, Serialization_UnionOfObjects) {
SmallObjStructPtr obj_struct(SmallObjStruct::New());
obj_struct->obj_union = ObjectUnion::New();
String hello("hello world");
obj_struct->obj_union->set_f_string(hello);
size_t size = GetSerializedSize_(*obj_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallObjStruct_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(obj_struct.get(), &buf, &data));
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
SmallObjStructPtr deserialized(SmallObjStruct::New());
Deserialize_(data, deserialized.get());
EXPECT_EQ(hello, deserialized->obj_union->get_f_string());
}
// Validation test of a struct with a union.
TEST(UnionTest, Validation_UnionsInStruct) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union = PodUnion::New();
small_struct->pod_union->set_f_int32(10);
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallStruct_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(small_struct.get(), &buf, &data));
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(
mojo::internal::ValidationError::NONE,
internal::SmallStruct_Data::Validate(raw_buf, &bounds_checker, nullptr));
free(raw_buf);
}
// Validation test of a struct union fails due to unknown union tag.
TEST(UnionTest, Validation_PodUnionInStruct_Failure) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union = PodUnion::New();
small_struct->pod_union->set_f_int32(10);
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallStruct_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(small_struct.get(), &buf, &data));
data->pod_union.tag = static_cast<internal::PodUnion_Data::PodUnion_Tag>(100);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(
mojo::internal::ValidationError::NONE,
internal::SmallStruct_Data::Validate(raw_buf, &bounds_checker, nullptr));
free(raw_buf);
}
// Validation fails due to non-nullable null union in struct.
TEST(UnionTest, Validation_NullUnion_Failure) {
SmallStructNonNullableUnionPtr small_struct(
SmallStructNonNullableUnion::New());
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallStructNonNullableUnion_Data* data =
internal::SmallStructNonNullableUnion_Data::New(&buf);
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::SmallStructNonNullableUnion_Data::Validate(
raw_buf, &bounds_checker, nullptr));
free(raw_buf);
}
// Validation passes with nullable null union.
TEST(UnionTest, Validation_NullableUnion) {
SmallStructPtr small_struct(SmallStruct::New());
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::SmallStruct_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(small_struct.get(), &buf, &data));
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(
mojo::internal::ValidationError::NONE,
internal::SmallStruct_Data::Validate(raw_buf, &bounds_checker, nullptr));
free(raw_buf);
}
// Serialize a null union and deserialize it back to check that we have a null
// union.
TEST(UnionTest, Deserialize_NullableUnion) {
char buf[1024];
SmallStructPtr small_struct = SmallStruct::New();
small_struct->Serialize(buf, sizeof(buf));
EXPECT_TRUE(small_struct->pod_union.is_null());
SmallStructPtr deserialized_struct = SmallStruct::New();
EXPECT_TRUE(deserialized_struct->Deserialize(buf, sizeof(buf)));
EXPECT_TRUE(deserialized_struct->pod_union.is_null());
}
// Validation passes with nullable null union containing non-nullable objects.
TEST(UnionTest, Validation_NullableObjectUnion) {
StructNullObjectUnionPtr small_struct(StructNullObjectUnion::New());
size_t size = GetSerializedSize_(*small_struct);
mojo::internal::FixedBufferForTesting buf(size);
internal::StructNullObjectUnion_Data* data = nullptr;
EXPECT_EQ(mojo::internal::ValidationError::NONE,
Serialize_(small_struct.get(), &buf, &data));
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::StructNullObjectUnion_Data::Validate(
raw_buf, &bounds_checker, nullptr));
free(raw_buf);
}
// TODO(azani): Move back in map_unittest.cc when possible.
// Map Tests
TEST(UnionTest, PodUnionInMap) {
SmallStructPtr small_struct(SmallStruct::New());
small_struct->pod_union_map = Map<String, PodUnionPtr>();
small_struct->pod_union_map.insert("one", PodUnion::New());
small_struct->pod_union_map.insert("two", PodUnion::New());
small_struct->pod_union_map["one"]->set_f_int8(8);
small_struct->pod_union_map["two"]->set_f_int16(16);
EXPECT_EQ(8, small_struct->pod_union_map["one"]->get_f_int8());
EXPECT_EQ(16, small_struct->pod_union_map["two"]->get_f_int16());
}
TEST(UnionTest, PodUnionInMapSerialization) {
Map<String, PodUnionPtr> map;
map.insert("one", PodUnion::New());
map.insert("two", PodUnion::New());
map["one"]->set_f_int8(8);
map["two"]->set_f_int16(16);
size_t size = GetSerializedSize_(map);
EXPECT_EQ(120U, size);
mojo::internal::FixedBufferForTesting buf(size);
mojo::internal::Map_Data<mojo::internal::String_Data*,
internal::PodUnion_Data>* data = nullptr;
mojo::internal::ArrayValidateParams validate_params(0, false, nullptr);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
SerializeMap_(&map, &buf, &data, &validate_params));
Map<String, PodUnionPtr> map2;
Deserialize_(data, &map2);
EXPECT_EQ(8, map2["one"]->get_f_int8());
EXPECT_EQ(16, map2["two"]->get_f_int16());
}
TEST(UnionTest, PodUnionInMapSerializationWithNull) {
Map<String, PodUnionPtr> map;
map.insert("one", PodUnion::New());
map.insert("two", nullptr);
map["one"]->set_f_int8(8);
size_t size = GetSerializedSize_(map);
EXPECT_EQ(120U, size);
mojo::internal::FixedBufferForTesting buf(size);
mojo::internal::Map_Data<mojo::internal::String_Data*,
internal::PodUnion_Data>* data = nullptr;
mojo::internal::ArrayValidateParams validate_params(0, true, nullptr);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
SerializeMap_(&map, &buf, &data, &validate_params));
Map<String, PodUnionPtr> map2;
Deserialize_(data, &map2);
EXPECT_EQ(8, map2["one"]->get_f_int8());
EXPECT_TRUE(map2["two"].is_null());
}
TEST(UnionTest, StructInUnionGetterSetterPasser) {
DummyStructPtr dummy(DummyStruct::New());
dummy->f_int8 = 8;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_dummy(dummy.Pass());
EXPECT_EQ(8, obj->get_f_dummy()->f_int8);
}
TEST(UnionTest, StructInUnionSerialization) {
DummyStructPtr dummy(DummyStruct::New());
dummy->f_int8 = 8;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_dummy(dummy.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(32U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
ObjectUnionPtr obj2 = ObjectUnion::New();
Deserialize_(data, obj2.get());
EXPECT_EQ(8, obj2->get_f_dummy()->f_int8);
}
TEST(UnionTest, StructInUnionValidation) {
DummyStructPtr dummy(DummyStruct::New());
dummy->f_int8 = 8;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_dummy(dummy.Pass());
size_t size = GetSerializedSize_(obj);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, StructInUnionValidationNonNullable) {
DummyStructPtr dummy(nullptr);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_dummy(dummy.Pass());
size_t size = GetSerializedSize_(obj);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, StructInUnionValidationNullable) {
DummyStructPtr dummy(nullptr);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_nullable(dummy.Pass());
size_t size = GetSerializedSize_(obj);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, ArrayInUnionGetterSetter) {
auto array = Array<int8_t>::New(2);
array[0] = 8;
array[1] = 9;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_array_int8(array.Pass());
EXPECT_EQ(8, obj->get_f_array_int8()[0]);
EXPECT_EQ(9, obj->get_f_array_int8()[1]);
}
TEST(UnionTest, ArrayInUnionSerialization) {
auto array = Array<int8_t>::New(2);
array[0] = 8;
array[1] = 9;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_array_int8(array.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(32U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
ObjectUnionPtr obj2 = ObjectUnion::New();
Deserialize_(data, obj2.get());
EXPECT_EQ(8, obj2->get_f_array_int8()[0]);
EXPECT_EQ(9, obj2->get_f_array_int8()[1]);
}
TEST(UnionTest, ArrayInUnionValidation) {
auto array = Array<int8_t>::New(2);
array[0] = 8;
array[1] = 9;
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_array_int8(array.Pass());
size_t size = GetSerializedSize_(obj);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, MapInUnionGetterSetter) {
Map<String, int8_t> map;
map.insert("one", 1);
map.insert("two", 2);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_map_int8(map.Pass());
EXPECT_EQ(1, obj->get_f_map_int8()["one"]);
EXPECT_EQ(2, obj->get_f_map_int8()["two"]);
}
TEST(UnionTest, MapInUnionSerialization) {
Map<String, int8_t> map;
map.insert("one", 1);
map.insert("two", 2);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_map_int8(map.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(112U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
ObjectUnionPtr obj2 = ObjectUnion::New();
Deserialize_(data, obj2.get());
EXPECT_EQ(1, obj2->get_f_map_int8()["one"]);
EXPECT_EQ(2, obj2->get_f_map_int8()["two"]);
}
TEST(UnionTest, MapInUnionValidation) {
Map<String, int8_t> map;
map.insert("one", 1);
map.insert("two", 2);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_map_int8(map.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(112U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_TRUE(handles.empty());
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, UnionInUnionGetterSetter) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_pod_union(pod.Pass());
EXPECT_EQ(10, obj->get_f_pod_union()->get_f_int8());
}
TEST(UnionTest, UnionInUnionSerialization) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_pod_union(pod.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(32U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
data->DecodePointersAndHandles(&handles);
ObjectUnionPtr obj2 = ObjectUnion::New();
Deserialize_(data, obj2.get());
EXPECT_EQ(10, obj2->get_f_pod_union()->get_f_int8());
}
TEST(UnionTest, UnionInUnionValidation) {
PodUnionPtr pod(PodUnion::New());
pod->set_f_int8(10);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_pod_union(pod.Pass());
size_t size = GetSerializedSize_(obj);
EXPECT_EQ(32U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, UnionInUnionValidationNonNullable) {
PodUnionPtr pod(nullptr);
ObjectUnionPtr obj(ObjectUnion::New());
obj->set_f_pod_union(pod.Pass());
size_t size = GetSerializedSize_(obj);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::ObjectUnion_Data::New(&buf);
SerializeUnion_(obj.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 0);
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::ObjectUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, HandleInUnionGetterSetter) {
ScopedMessagePipeHandle pipe0;
ScopedMessagePipeHandle pipe1;
CreateMessagePipe(nullptr, &pipe0, &pipe1);
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_message_pipe(pipe1.Pass());
std::string golden("hello world");
WriteTextMessage(pipe0.get(), golden);
std::string actual;
ReadTextMessage(handle->get_f_message_pipe().get(), &actual);
EXPECT_EQ(golden, actual);
}
TEST(UnionTest, HandleInUnionSerialization) {
ScopedMessagePipeHandle pipe0;
ScopedMessagePipeHandle pipe1;
CreateMessagePipe(nullptr, &pipe0, &pipe1);
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_message_pipe(pipe1.Pass());
size_t size = GetSerializedSize_(handle);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::HandleUnion_Data::New(&buf);
SerializeUnion_(handle.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_EQ(1U, handles.size());
data->DecodePointersAndHandles(&handles);
HandleUnionPtr handle2(HandleUnion::New());
Deserialize_(data, handle2.get());
std::string golden("hello world");
WriteTextMessage(pipe0.get(), golden);
std::string actual;
ReadTextMessage(handle2->get_f_message_pipe().get(), &actual);
EXPECT_EQ(golden, actual);
}
TEST(UnionTest, HandleInUnionValidation) {
ScopedMessagePipeHandle pipe0;
ScopedMessagePipeHandle pipe1;
CreateMessagePipe(nullptr, &pipe0, &pipe1);
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_message_pipe(pipe1.Pass());
size_t size = GetSerializedSize_(handle);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::HandleUnion_Data::New(&buf);
SerializeUnion_(handle.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 1);
EXPECT_EQ(mojo::internal::ValidationError::NONE,
internal::HandleUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
TEST(UnionTest, HandleInUnionValidationNull) {
ScopedMessagePipeHandle pipe;
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_message_pipe(pipe.Pass());
size_t size = GetSerializedSize_(handle);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::HandleUnion_Data::New(&buf);
SerializeUnion_(handle.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
void* raw_buf = buf.Leak();
mojo::internal::BoundsChecker bounds_checker(data,
static_cast<uint32_t>(size), 1);
EXPECT_NE(mojo::internal::ValidationError::NONE,
internal::HandleUnion_Data::Validate(raw_buf, &bounds_checker,
false, nullptr));
free(raw_buf);
}
class SmallCacheImpl : public SmallCache {
public:
SmallCacheImpl() : int_value_(0) {}
~SmallCacheImpl() override {}
int64_t int_value() const { return int_value_; }
private:
void SetIntValue(int64_t int_value) override { int_value_ = int_value; }
void GetIntValue(const GetIntValueCallback& callback) override {
callback.Run(int_value_);
}
int64_t int_value_;
};
TEST(UnionTest, InterfaceInUnion) {
RunLoop run_loop;
SmallCacheImpl impl;
SmallCachePtr ptr;
Binding<SmallCache> bindings(&impl, GetProxy(&ptr));
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_small_cache(ptr.Pass());
auto small_cache =
SmallCachePtr::Create(std::move(handle->get_f_small_cache()));
small_cache->SetIntValue(10);
run_loop.RunUntilIdle();
EXPECT_EQ(10, impl.int_value());
}
TEST(UnionTest, InterfaceInUnionSerialization) {
RunLoop run_loop;
SmallCacheImpl impl;
SmallCachePtr ptr;
Binding<SmallCache> bindings(&impl, GetProxy(&ptr));
HandleUnionPtr handle(HandleUnion::New());
handle->set_f_small_cache(ptr.Pass());
size_t size = GetSerializedSize_(handle);
EXPECT_EQ(16U, size);
mojo::internal::FixedBufferForTesting buf(size);
auto* data = internal::HandleUnion_Data::New(&buf);
SerializeUnion_(handle.get(), &buf, &data);
std::vector<Handle> handles;
data->EncodePointersAndHandles(&handles);
EXPECT_EQ(1U, handles.size());
data->DecodePointersAndHandles(&handles);
HandleUnionPtr handle2(HandleUnion::New());
Deserialize_(data, handle2.get());
auto small_cache =
SmallCachePtr::Create(std::move(handle2->get_f_small_cache()));
small_cache->SetIntValue(10);
run_loop.RunUntilIdle();
EXPECT_EQ(10, impl.int_value());
}
class UnionInterfaceImpl : public UnionInterface {
public:
UnionInterfaceImpl() {}
~UnionInterfaceImpl() override {}
private:
void Echo(PodUnionPtr in, const EchoCallback& callback) override {
callback.Run(in.Pass());
}
};
TEST(UnionTest, UnionInInterface) {
RunLoop run_loop;
UnionInterfaceImpl impl;
UnionInterfacePtr ptr;
Binding<UnionInterface> bindings(&impl, GetProxy(&ptr));
PodUnionPtr pod(PodUnion::New());
pod->set_f_int16(16);
ptr->Echo(pod.Pass(),
[](PodUnionPtr out) { EXPECT_EQ(16, out->get_f_int16()); });
run_loop.RunUntilIdle();
}
} // namespace test
} // namespace mojo