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chromium / chromium / src / HEAD / . / chrome / browser / ai / ai_rewriter_unittest.cc
blob: 1595d3e956bec731515d90c97e1c0e8cb301a015 [file] [log] [blame]
// Copyright 2024 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chrome/browser/ai/ai_rewriter.h"
#include <memory>
#include "base/run_loop.h"
#include "base/test/bind.h"
#include "base/test/mock_callback.h"
#include "base/test/protobuf_matchers.h"
#include "base/test/test_future.h"
#include "chrome/browser/ai/ai_test_utils.h"
#include "chrome/browser/optimization_guide/mock_optimization_guide_keyed_service.h"
#include "components/optimization_guide/core/mock_optimization_guide_model_executor.h"
#include "components/optimization_guide/core/optimization_guide_proto_util.h"
#include "components/optimization_guide/core/optimization_guide_switches.h"
#include "components/optimization_guide/core/optimization_guide_util.h"
#include "components/optimization_guide/proto/features/writing_assistance_api.pb.h"
#include "content/public/browser/render_widget_host_view.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/public/mojom/ai/ai_manager.mojom.h"
#include "third_party/blink/public/mojom/ai/model_streaming_responder.mojom.h"
namespace {
using ::base::test::EqualsProto;
using ::blink::mojom::AILanguageCode;
using ::blink::mojom::AILanguageCodePtr;
using ::testing::_;
constexpr char kSharedContextString[] = "test shared context";
constexpr char kContextString[] = "test context";
constexpr char kInputString[] = "input string";
class MockCreateRewriterClient
: public blink::mojom::AIManagerCreateRewriterClient {
public:
MockCreateRewriterClient() = default;
~MockCreateRewriterClient() override = default;
MockCreateRewriterClient(const MockCreateRewriterClient&) = delete;
MockCreateRewriterClient& operator=(const MockCreateRewriterClient&) = delete;
mojo::PendingRemote<blink::mojom::AIManagerCreateRewriterClient>
BindNewPipeAndPassRemote() {
return receiver_.BindNewPipeAndPassRemote();
}
MOCK_METHOD(void,
OnResult,
(mojo::PendingRemote<::blink::mojom::AIRewriter> rewriter),
(override));
MOCK_METHOD(void,
OnError,
(blink::mojom::AIManagerCreateClientError error,
blink::mojom::QuotaErrorInfoPtr quota_error_info),
(override));
private:
mojo::Receiver<blink::mojom::AIManagerCreateRewriterClient> receiver_{this};
};
optimization_guide::OptimizationGuideModelStreamingExecutionResult
CreateExecutionResult(std::string_view output, bool is_complete) {
optimization_guide::proto::WritingAssistanceApiResponse response;
*response.mutable_output() = output;
return optimization_guide::OptimizationGuideModelStreamingExecutionResult(
optimization_guide::StreamingResponse{
.response = optimization_guide::AnyWrapProto(response),
.is_complete = is_complete,
},
/*provided_by_on_device=*/true);
}
optimization_guide::OptimizationGuideModelStreamingExecutionResult
CreateExecutionErrorResult(
optimization_guide::OptimizationGuideModelExecutionError error) {
return optimization_guide::OptimizationGuideModelStreamingExecutionResult(
base::unexpected(error),
/*provided_by_on_device=*/true);
}
blink::mojom::AIRewriterCreateOptionsPtr GetDefaultOptions() {
return blink::mojom::AIRewriterCreateOptions::New(
kSharedContextString, blink::mojom::AIRewriterTone::kAsIs,
blink::mojom::AIRewriterFormat::kAsIs,
blink::mojom::AIRewriterLength::kAsIs,
/*expected_input_languages=*/std::vector<AILanguageCodePtr>(),
/*expected_context_languages=*/std::vector<AILanguageCodePtr>(),
/*output_language=*/AILanguageCode::New(""));
}
// Get a request proto matching that expected for ExecuteModel() calls.
optimization_guide::proto::WritingAssistanceApiRequest GetExecuteRequest(
std::string_view context_string = kContextString,
std::string_view rewrite_text = kInputString) {
optimization_guide::proto::WritingAssistanceApiRequest request;
request.set_context(context_string);
request.set_allocated_options(
AIRewriter::ToProtoOptions(GetDefaultOptions()).release());
request.set_rewrite_text(rewrite_text);
request.set_shared_context(kSharedContextString);
return request;
}
class AIRewriterTest : public AITestUtils::AITestBase {
protected:
mojo::Remote<blink::mojom::AIRewriter> GetAIRewriterRemote() {
mojo::Remote<blink::mojom::AIRewriter> rewriter_remote;
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnResult(_))
.WillOnce(testing::Invoke(
[&](mojo::PendingRemote<::blink::mojom::AIRewriter> rewriter) {
EXPECT_TRUE(rewriter);
rewriter_remote =
mojo::Remote<blink::mojom::AIRewriter>(std::move(rewriter));
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop.Run();
return rewriter_remote;
}
void RunSimpleRewriteTest(blink::mojom::AIRewriterTone tone,
blink::mojom::AIRewriterFormat format,
blink::mojom::AIRewriterLength length) {
auto expected = GetExecuteRequest();
const auto options = blink::mojom::AIRewriterCreateOptions::New(
kSharedContextString, tone, format, length,
/*expected_input_languages=*/std::vector<AILanguageCodePtr>(),
/*expected_context_languages=*/std::vector<AILanguageCodePtr>(),
/*output_language=*/AILanguageCode::New(""));
expected.set_allocated_options(
AIRewriter::ToProtoOptions(options).release());
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[&](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(expected));
callback.Run(CreateExecutionResult("Result text",
/*is_complete=*/true));
}));
mojo::Remote<blink::mojom::AIRewriter> rewriter_remote;
{
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnResult(_))
.WillOnce(testing::Invoke(
[&](mojo::PendingRemote<::blink::mojom::AIRewriter> rewriter) {
EXPECT_TRUE(rewriter);
rewriter_remote =
mojo::Remote<blink::mojom::AIRewriter>(std::move(rewriter));
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
options.Clone());
run_loop.Run();
}
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnStreaming(_))
.WillOnce(testing::Invoke([&](const std::string& text) {
EXPECT_THAT(text, "Result text");
}));
EXPECT_CALL(mock_responder, OnCompletion(_))
.WillOnce(testing::Invoke(
[&](blink::mojom::ModelExecutionContextInfoPtr context_info) {
run_loop.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
};
TEST_F(AIRewriterTest, CreateRewriterNoService) {
SetupNullOptimizationGuideKeyedService();
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::AIManagerCreateClientError
error,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
ASSERT_EQ(
error,
blink::mojom::AIManagerCreateClientError::kUnableToCreateSession);
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop.Run();
}
TEST_F(AIRewriterTest, CreateRewriterModelNotEligible) {
SetupMockOptimizationGuideKeyedService();
EXPECT_CALL(*mock_optimization_guide_keyed_service_, StartSession(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
const std::optional<optimization_guide::SessionConfigParams>&
config_params) { return nullptr; }));
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
GetOnDeviceModelEligibilityAsync(_, _, _))
.WillOnce([](auto feature, auto capabilities, auto callback) {
std::move(callback).Run(
optimization_guide::OnDeviceModelEligibilityReason::
kModelNotEligible);
});
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::AIManagerCreateClientError
error,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
ASSERT_EQ(
error,
blink::mojom::AIManagerCreateClientError::kUnableToCreateSession);
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop.Run();
}
TEST_F(AIRewriterTest, CreateRewriterRetryAfterConfigNotAvailableForFeature) {
SetupMockOptimizationGuideKeyedService();
// StartSession must be called twice.
EXPECT_CALL(*mock_optimization_guide_keyed_service_, StartSession(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
const std::optional<optimization_guide::SessionConfigParams>&
config_params) {
// Returns a nullptr for the first call.
return nullptr;
}))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
const std::optional<optimization_guide::SessionConfigParams>&
config_params) {
// Returns a MockSession for the second call.
return std::make_unique<
testing::NiceMock<optimization_guide::MockSession>>(&session_);
}));
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
GetOnDeviceModelEligibilityAsync(_, _, _))
.WillOnce([](auto feature, auto capabilities, auto callback) {
// Returning kConfigNotAvailableForFeature should trigger retry.
std::move(callback).Run(
optimization_guide::OnDeviceModelEligibilityReason::
kConfigNotAvailableForFeature);
});
optimization_guide::OnDeviceModelAvailabilityObserver* availability_observer =
nullptr;
base::RunLoop run_loop_for_add_observer;
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
AddOnDeviceModelAvailabilityChangeObserver(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
optimization_guide::OnDeviceModelAvailabilityObserver* observer) {
availability_observer = observer;
run_loop_for_add_observer.Quit();
}));
EXPECT_CALL(session_, GetExecutionInputSizeInTokens(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::MultimodalMessageReadView request_metadata,
optimization_guide::OptimizationGuideModelSizeInTokenCallback
callback) {
std::move(callback).Run(
blink::mojom::kWritingAssistanceMaxInputTokenSize);
}));
mojo::Remote<blink::mojom::AIRewriter> rewriter_remote;
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnResult(_))
.WillOnce(testing::Invoke(
[&](mojo::PendingRemote<::blink::mojom::AIRewriter> rewriter) {
// Create rewriter should succeed.
EXPECT_TRUE(rewriter);
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop_for_add_observer.Run();
CHECK(availability_observer);
// Send `kConfigNotAvailableForFeature` first to the observer.
availability_observer->OnDeviceModelAvailabilityChanged(
optimization_guide::ModelBasedCapabilityKey::kWritingAssistanceApi,
optimization_guide::OnDeviceModelEligibilityReason::
kConfigNotAvailableForFeature);
// And then send `kConfigNotAvailableForFeature` to the observer.
availability_observer->OnDeviceModelAvailabilityChanged(
optimization_guide::ModelBasedCapabilityKey::kWritingAssistanceApi,
optimization_guide::OnDeviceModelEligibilityReason::kSuccess);
// OnResult() should be called.
run_loop.Run();
}
TEST_F(AIRewriterTest, CreateRewriterContextLimitExceededError) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
EXPECT_CALL(session_, GetExecutionInputSizeInTokens(_, _))
.WillOnce(testing::Invoke(
[](optimization_guide::MultimodalMessageReadView request_metadata,
optimization_guide::OptimizationGuideModelSizeInTokenCallback
callback) {
std::move(callback).Run(
blink::mojom::kWritingAssistanceMaxInputTokenSize + 1);
}));
MockCreateRewriterClient mock_create_rewriter_client;
base::RunLoop run_loop;
EXPECT_CALL(mock_create_rewriter_client, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::AIManagerCreateClientError
error,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
ASSERT_EQ(
error,
blink::mojom::AIManagerCreateClientError::kInitialInputTooLarge);
ASSERT_TRUE(quota_error_info);
ASSERT_EQ(quota_error_info->requested,
blink::mojom::kWritingAssistanceMaxInputTokenSize + 1);
ASSERT_EQ(quota_error_info->quota,
blink::mojom::kWritingAssistanceMaxInputTokenSize);
run_loop.Quit();
}));
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client.BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop.Run();
}
TEST_F(AIRewriterTest, CreateRewriterAbortAfterConfigNotAvailableForFeature) {
SetupMockOptimizationGuideKeyedService();
EXPECT_CALL(*mock_optimization_guide_keyed_service_, StartSession(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
const std::optional<optimization_guide::SessionConfigParams>&
config_params) { return nullptr; }));
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
GetOnDeviceModelEligibilityAsync(_, _, _))
.WillOnce([](auto feature, auto capabilities, auto callback) {
// Returning kConfigNotAvailableForFeature should trigger retry.
std::move(callback).Run(
optimization_guide::OnDeviceModelEligibilityReason::
kConfigNotAvailableForFeature);
});
optimization_guide::OnDeviceModelAvailabilityObserver* availability_observer =
nullptr;
base::RunLoop run_loop_for_add_observer;
base::RunLoop run_loop_for_remove_observer;
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
AddOnDeviceModelAvailabilityChangeObserver(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
optimization_guide::OnDeviceModelAvailabilityObserver* observer) {
availability_observer = observer;
run_loop_for_add_observer.Quit();
}));
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
RemoveOnDeviceModelAvailabilityChangeObserver(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::ModelBasedCapabilityKey feature,
optimization_guide::OnDeviceModelAvailabilityObserver* observer) {
EXPECT_EQ(availability_observer, observer);
run_loop_for_remove_observer.Quit();
}));
auto mock_create_rewriter_client =
std::make_unique<MockCreateRewriterClient>();
mojo::Remote<blink::mojom::AIManager> ai_manager = GetAIManagerRemote();
ai_manager->CreateRewriter(
mock_create_rewriter_client->BindNewPipeAndPassRemote(),
GetDefaultOptions());
run_loop_for_add_observer.Run();
CHECK(availability_observer);
// Reset `mock_create_rewriter_client` to abort the task of CreateRewriter().
mock_create_rewriter_client.reset();
// RemoveOnDeviceModelAvailabilityChangeObserver should be called.
run_loop_for_remove_observer.Run();
}
TEST_F(AIRewriterTest, CanCreateDefaultOptions) {
SetupMockOptimizationGuideKeyedService();
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
GetOnDeviceModelEligibilityAsync(_, _, _))
.WillOnce([](auto feature, auto capabilities, auto callback) {
std::move(callback).Run(
optimization_guide::OnDeviceModelEligibilityReason::kSuccess);
});
base::MockCallback<AIManager::CanCreateRewriterCallback> callback;
EXPECT_CALL(callback,
Run(blink::mojom::ModelAvailabilityCheckResult::kAvailable));
GetAIManagerInterface()->CanCreateRewriter(GetDefaultOptions(),
callback.Get());
}
TEST_F(AIRewriterTest, CanCreateIsLanguagesSupported) {
SetupMockOptimizationGuideKeyedService();
EXPECT_CALL(*mock_optimization_guide_keyed_service_,
GetOnDeviceModelEligibilityAsync(_, _, _))
.WillOnce([](auto feature, auto capabilities, auto callback) {
std::move(callback).Run(
optimization_guide::OnDeviceModelEligibilityReason::kSuccess);
});
auto options = GetDefaultOptions();
options->output_language = AILanguageCode::New("en");
options->expected_input_languages =
AITestUtils::ToMojoLanguageCodes({"en-US", ""});
options->expected_context_languages =
AITestUtils::ToMojoLanguageCodes({"en-GB", ""});
base::MockCallback<AIManager::CanCreateRewriterCallback> callback;
EXPECT_CALL(callback,
Run(blink::mojom::ModelAvailabilityCheckResult::kAvailable));
GetAIManagerInterface()->CanCreateRewriter(std::move(options),
callback.Get());
}
TEST_F(AIRewriterTest, CanCreateUnIsLanguagesSupported) {
SetupMockOptimizationGuideKeyedService();
auto options = GetDefaultOptions();
options->output_language = AILanguageCode::New("es-ES");
options->expected_input_languages =
AITestUtils::ToMojoLanguageCodes({"en", "fr", "ja"});
options->expected_context_languages =
AITestUtils::ToMojoLanguageCodes({"ar", "zh", "hi"});
base::MockCallback<AIManager::CanCreateRewriterCallback> callback;
EXPECT_CALL(callback, Run(blink::mojom::ModelAvailabilityCheckResult::
kUnavailableUnsupportedLanguage));
GetAIManagerInterface()->CanCreateRewriter(std::move(options),
callback.Get());
}
TEST_F(AIRewriterTest, ToProtoOptionsLanguagesSupported) {
// Rewriter proto expects base language display names in English.
std::vector<std::pair<std::string, std::string>> languages = {
{"en", "English"}, {"en-us", "English"}, {"en-uk", "English"},
{"es", "Spanish"}, {"es-sp", "Spanish"}, {"es-mx", "Spanish"},
{"ja", "Japanese"}, {"ja-jp", "Japanese"}, {"ja-foo", "Japanese"},
};
blink::mojom::AIRewriterCreateOptionsPtr options = GetDefaultOptions();
for (const auto& language : languages) {
options->output_language = AILanguageCode::New(language.first);
const auto proto_options = AIRewriter::ToProtoOptions(options);
EXPECT_EQ(proto_options->output_language(), language.second);
}
}
TEST_F(AIRewriterTest, RewriteDefault) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
RunSimpleRewriteTest(blink::mojom::AIRewriterTone::kAsIs,
blink::mojom::AIRewriterFormat::kAsIs,
blink::mojom::AIRewriterLength::kAsIs);
}
TEST_F(AIRewriterTest, RewriteWithOptions) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
blink::mojom::AIRewriterTone tones[]{
blink::mojom::AIRewriterTone::kAsIs,
blink::mojom::AIRewriterTone::kMoreFormal,
blink::mojom::AIRewriterTone::kMoreCasual,
};
blink::mojom::AIRewriterFormat formats[]{
blink::mojom::AIRewriterFormat::kAsIs,
blink::mojom::AIRewriterFormat::kPlainText,
blink::mojom::AIRewriterFormat::kMarkdown,
};
blink::mojom::AIRewriterLength lengths[]{
blink::mojom::AIRewriterLength::kAsIs,
blink::mojom::AIRewriterLength::kShorter,
blink::mojom::AIRewriterLength::kLonger,
};
for (const auto& tone : tones) {
for (const auto& format : formats) {
for (const auto& length : lengths) {
SCOPED_TRACE(testing::Message()
<< tone << " " << format << " " << length);
RunSimpleRewriteTest(tone, format, length);
}
}
}
}
TEST_F(AIRewriterTest, InputLimitExceededError) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
auto rewriter_remote = GetAIRewriterRemote();
EXPECT_CALL(session_, GetExecutionInputSizeInTokens(_, _))
.WillOnce(testing::Invoke(
[](optimization_guide::MultimodalMessageReadView request_metadata,
optimization_guide::OptimizationGuideModelSizeInTokenCallback
callback) {
std::move(callback).Run(
blink::mojom::kWritingAssistanceMaxInputTokenSize + 1);
}));
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::ModelStreamingResponseStatus
status,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
EXPECT_EQ(
status,
blink::mojom::ModelStreamingResponseStatus::kErrorInputTooLarge);
ASSERT_TRUE(quota_error_info);
ASSERT_EQ(quota_error_info->requested,
blink::mojom::kWritingAssistanceMaxInputTokenSize + 1);
ASSERT_EQ(quota_error_info->quota,
blink::mojom::kWritingAssistanceMaxInputTokenSize);
run_loop.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
TEST_F(AIRewriterTest, ModelExecutionError) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(GetExecuteRequest()));
callback.Run(CreateExecutionErrorResult(
optimization_guide::OptimizationGuideModelExecutionError::
FromModelExecutionError(
optimization_guide::
OptimizationGuideModelExecutionError::
ModelExecutionError::kPermissionDenied)));
}));
auto rewriter_remote = GetAIRewriterRemote();
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::ModelStreamingResponseStatus
status,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
EXPECT_EQ(
status,
blink::mojom::ModelStreamingResponseStatus::kErrorPermissionDenied);
run_loop.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
TEST_F(AIRewriterTest, RewriteMultipleResponse) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(GetExecuteRequest()));
callback.Run(
CreateExecutionResult("Result ", /*is_complete=*/false));
callback.Run(CreateExecutionResult("text",
/*is_complete=*/true));
}));
auto rewriter_remote = GetAIRewriterRemote();
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnStreaming(_))
.WillOnce(testing::Invoke(
[&](const std::string& text) { EXPECT_THAT(text, "Result "); }))
.WillOnce(testing::Invoke(
[&](const std::string& text) { EXPECT_THAT(text, "text"); }));
EXPECT_CALL(mock_responder, OnCompletion(_))
.WillOnce(testing::Invoke(
[&](blink::mojom::ModelExecutionContextInfoPtr context_info) {
run_loop.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
TEST_F(AIRewriterTest, MultipleRewrite) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(GetExecuteRequest()));
callback.Run(CreateExecutionResult("Result text",
/*is_complete=*/true));
}))
.WillOnce(testing::Invoke(
[](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
auto expect = GetExecuteRequest("test context 2", "input string 2");
EXPECT_THAT(request, EqualsProto(expect));
callback.Run(CreateExecutionResult("Result text 2",
/*is_complete=*/true));
}));
auto rewriter_remote = GetAIRewriterRemote();
{
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnStreaming(_))
.WillOnce(testing::Invoke([&](const std::string& text) {
EXPECT_THAT(text, "Result text");
}));
EXPECT_CALL(mock_responder, OnCompletion(_))
.WillOnce(testing::Invoke(
[&](blink::mojom::ModelExecutionContextInfoPtr context_info) {
run_loop.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
{
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop;
EXPECT_CALL(mock_responder, OnStreaming(_))
.WillOnce(testing::Invoke([&](const std::string& text) {
EXPECT_THAT(text, "Result text 2");
}));
EXPECT_CALL(mock_responder, OnCompletion(_))
.WillOnce(testing::Invoke(
[&](blink::mojom::ModelExecutionContextInfoPtr context_info) {
run_loop.Quit();
}));
rewriter_remote->Rewrite("input string 2", "test context 2",
mock_responder.BindNewPipeAndPassRemote());
run_loop.Run();
}
}
TEST_F(AIRewriterTest, ResponderDisconnected) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
base::RunLoop run_loop_for_callback;
optimization_guide::OptimizationGuideModelExecutionResultStreamingCallback
streaming_callback;
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[&](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(GetExecuteRequest()));
streaming_callback = std::move(callback);
run_loop_for_callback.Quit();
}));
auto rewriter_remote = GetAIRewriterRemote();
std::unique_ptr<AITestUtils::MockModelStreamingResponder> mock_responder =
std::make_unique<AITestUtils::MockModelStreamingResponder>();
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder->BindNewPipeAndPassRemote());
mock_responder.reset();
// Call RunUntilIdle() to disconnect the ModelStreamingResponder mojo remote
// interface in AIRewriter.
task_environment()->RunUntilIdle();
run_loop_for_callback.Run();
ASSERT_TRUE(streaming_callback);
streaming_callback.Run(CreateExecutionResult("Result text",
/*is_complete=*/true));
task_environment()->RunUntilIdle();
}
TEST_F(AIRewriterTest, RewriterDisconnected) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
base::RunLoop run_loop_for_callback;
optimization_guide::OptimizationGuideModelExecutionResultStreamingCallback
streaming_callback;
EXPECT_CALL(session_, ExecuteModel(_, _))
.WillOnce(testing::Invoke(
[&](const google::protobuf::MessageLite& request,
optimization_guide::
OptimizationGuideModelExecutionResultStreamingCallback
callback) {
EXPECT_THAT(request, EqualsProto(GetExecuteRequest()));
streaming_callback = std::move(callback);
run_loop_for_callback.Quit();
}));
auto rewriter_remote = GetAIRewriterRemote();
AITestUtils::MockModelStreamingResponder mock_responder;
base::RunLoop run_loop_for_response;
EXPECT_CALL(mock_responder, OnError(_, _))
.WillOnce(testing::Invoke([&](blink::mojom::ModelStreamingResponseStatus
status,
blink::mojom::QuotaErrorInfoPtr
quota_error_info) {
EXPECT_EQ(
status,
blink::mojom::ModelStreamingResponseStatus::kErrorSessionDestroyed);
run_loop_for_response.Quit();
}));
rewriter_remote->Rewrite(kInputString, kContextString,
mock_responder.BindNewPipeAndPassRemote());
run_loop_for_callback.Run();
// Disconnect the rewriter handle.
rewriter_remote.reset();
// Call RunUntilIdle() to destroy AIRewriter.
task_environment()->RunUntilIdle();
ASSERT_TRUE(streaming_callback);
streaming_callback.Run(CreateExecutionResult("Result text",
/*is_complete=*/true));
run_loop_for_response.Run();
}
TEST_F(AIRewriterTest, MeasureUsage) {
uint64_t expected_usage = 100;
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
auto rewriter_remote = GetAIRewriterRemote();
EXPECT_CALL(session_, GetExecutionInputSizeInTokens(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::MultimodalMessageReadView request_metadata,
optimization_guide::OptimizationGuideModelSizeInTokenCallback
callback) { std::move(callback).Run(expected_usage); }));
base::test::TestFuture<std::optional<uint32_t>> future;
rewriter_remote->MeasureUsage(kInputString, kContextString,
future.GetCallback());
ASSERT_EQ(future.Get<0>(), expected_usage);
}
TEST_F(AIRewriterTest, MeasureUsageFails) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
auto rewriter_remote = GetAIRewriterRemote();
EXPECT_CALL(session_, GetExecutionInputSizeInTokens(_, _))
.WillOnce(testing::Invoke(
[&](optimization_guide::MultimodalMessageReadView request_metadata,
optimization_guide::OptimizationGuideModelSizeInTokenCallback
callback) { std::move(callback).Run(std::nullopt); }));
base::test::TestFuture<std::optional<uint32_t>> future;
rewriter_remote->MeasureUsage(kInputString, kContextString,
future.GetCallback());
ASSERT_EQ(future.Get<0>(), std::nullopt);
}
TEST_F(AIRewriterTest, Priority) {
SetupMockOptimizationGuideKeyedService();
SetupMockSession();
EXPECT_CALL(session_,
SetPriority(on_device_model::mojom::Priority::kForeground));
auto remote = GetAIRewriterRemote();
EXPECT_CALL(session_,
SetPriority(on_device_model::mojom::Priority::kBackground));
main_rfh()->GetRenderWidgetHost()->GetView()->Hide();
EXPECT_CALL(session_,
SetPriority(on_device_model::mojom::Priority::kForeground));
main_rfh()->GetRenderWidgetHost()->GetView()->Show();
}
} // namespace