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Issue 1098853003:
[BlobAsync] Patch 4: Browser Classes & Logic. (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@master| Index: content/browser/blob_storage/blob_async_transport_strategy_unittest.cc |
| diff --git a/content/browser/blob_storage/blob_async_transport_strategy_unittest.cc b/content/browser/blob_storage/blob_async_transport_strategy_unittest.cc |
| new file mode 100644 |
| index 0000000000000000000000000000000000000000..4410b5a4ef3dcac27276d9ac7e99a69f49ced35a |
| --- /dev/null |
| +++ b/content/browser/blob_storage/blob_async_transport_strategy_unittest.cc |
| @@ -0,0 +1,494 @@ |
| +// Copyright 2015 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 "storage/browser/blob/blob_async_transport_strategy.h" |
| + |
| +#include <string> |
| + |
| +#include "base/logging.h" |
| +#include "testing/gtest/include/gtest/gtest.h" |
| + |
| +namespace storage { |
| +namespace { |
| + |
| +const char kNewUUID[] = "newUUID"; |
| +const base::FilePath kFuturePopulatingFilePath = base::FilePath::FromUTF8Unsafe( |
| + std::string(BlobDataBuilder::kAppendFutureFileTemporaryFileName)); |
| +const char kFakeBlobUUID[] = "fakeBlob"; |
| + |
| +void AddMemoryItem(size_t length, std::vector<DataElement>* out) { |
| + DataElement bytes; |
| + bytes.SetToBytesDescription(length); |
| + out->push_back(bytes); |
| +} |
| + |
| +void AddShortcutMemoryItem(size_t length, std::vector<DataElement>* out) { |
| + DataElement bytes; |
| + bytes.SetToAllocatedBytes(length); |
| + for (size_t i = 0; i < length; i++) { |
| + bytes.mutable_bytes()[i] = static_cast<char>(i); |
| + } |
| + out->push_back(bytes); |
| +} |
| + |
| +void AddBlobItem(std::vector<DataElement>* out) { |
| + DataElement blob; |
| + blob.SetToBlob(kFakeBlobUUID); |
| + out->push_back(blob); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestNoMemoryItems) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Here we test our size > max_blob_in_memory_size (300), |
| + // and we save to one file. (size < max_file_size) |
|
kinuko
2015/11/26 04:58:17
Um, is this comment right? Also we no longer seem
dmurph
2015/11/30 21:33:28
Whoops, yes, thanks.
|
| + AddBlobItem(&infos); |
| + AddBlobItem(&infos); |
| + AddBlobItem(&infos); |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_available |
| + kNewUUID, infos); |
| + |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(0u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(0u, strategy.requests().size()); |
| + |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendBlob(kFakeBlobUUID); |
| + builder.AppendBlob(kFakeBlobUUID); |
| + builder.AppendBlob(kFakeBlobUUID); |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestLargeBlockToFile) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Here we test our size > max_blob_in_memory_size (300), |
| + // and we save to one file. (size < max_file_size) |
|
kinuko
2015/11/26 04:58:17
ditto, here and below. comment looks stale to me?
dmurph
2015/11/30 21:33:28
It was a little stale, thanks.
|
| + AddMemoryItem(305, &infos); |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_available |
| + kNewUUID, infos); |
| + |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(1u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(305ul, strategy.file_handle_sizes().at(0)); |
| + EXPECT_EQ(1u, strategy.requests().size()); |
| + |
| + auto& memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(0u, 0u, 0ull, 305ull, 0u, 0ull), |
| + memory_item_request.message); |
| + |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendFile(kFuturePopulatingFilePath, 0, 305, |
| + base::Time::FromDoubleT(0)); |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestLargeBlockToFiles) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Here we test our size > max_blob_in_memory_size (300), |
| + // and we save 3 files. (size > max_file_size) |
| + AddMemoryItem(1000, &infos); |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_available |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(3u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(400ul, strategy.file_handle_sizes().at(0)); |
| + EXPECT_EQ(400ul, strategy.file_handle_sizes().at(1)); |
| + EXPECT_EQ(200ul, strategy.file_handle_sizes().at(2)); |
| + EXPECT_EQ(3u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(0u, 0u, 0ull, 400ull, 0u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(1); |
| + EXPECT_EQ(1u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(1u, 0u, 400ull, 400ull, 1u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(2); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(2u, 0u, 800ull, 200ull, 2u, 0ull), |
| + memory_item_request.message); |
| + |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendFile(kFuturePopulatingFilePath, 0, 400, |
| + base::Time::FromDoubleT(0)); |
| + builder.AppendFile(kFuturePopulatingFilePath, 0, 400, |
| + base::Time::FromDoubleT(0)); |
| + builder.AppendFile(kFuturePopulatingFilePath, 0, 200, |
| + base::Time::FromDoubleT(0)); |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestLargeBlocksConsolidatingInFiles) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // We should have 3 storage items for the memory, two files, 400 each. |
| + // We end up with storage items: |
| + // 1: File A, 300MB |
| + // 2: Blob |
| + // 3: File A, 100MB (300MB offset) |
| + // 4: File B, 400MB |
| + AddMemoryItem(300, &infos); |
| + AddBlobItem(&infos); |
| + AddMemoryItem(500, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_available |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(2u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(400ul, strategy.file_handle_sizes().at(0)); |
| + EXPECT_EQ(400ul, strategy.file_handle_sizes().at(1)); |
| + EXPECT_EQ(3u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(0u, 0u, 0ull, 300ull, 0u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(1); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(1u, 2u, 0ull, 100ull, 0u, 300ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(2); |
| + EXPECT_EQ(3u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ( |
| + BlobItemBytesRequest::CreateFileRequest(2u, 2u, 100ull, 400ull, 1u, 0ull), |
| + memory_item_request.message); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestSharedMemorySegmentation) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // For transport we should have 3 shared memories, and then storage in 3 |
| + // browser items. |
| + // (size > max_shared_memory_size and size < max_blob_in_memory_size |
| + AddMemoryItem(500, &infos); |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 300, // max_file_size |
| + 5000, // disk_space_left |
| + 500, // memory_available |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(3u, strategy.shared_memory_handle_sizes().size()); |
| + EXPECT_EQ(200u, strategy.shared_memory_handle_sizes().at(0)); |
| + EXPECT_EQ(200u, strategy.shared_memory_handle_sizes().at(1)); |
| + EXPECT_EQ(100u, strategy.shared_memory_handle_sizes().at(2)); |
| + EXPECT_EQ(3u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(0u, 0u, 0ull, |
| + 200ull, 0u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(1); |
| + EXPECT_EQ(1u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(1u, 0u, 200ull, |
| + 200ull, 1u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(2); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(2u, 0u, 400ull, |
| + 100ull, 2u, 0ull), |
| + memory_item_request.message); |
| + |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendFutureData(200); |
| + builder.AppendFutureData(200); |
| + builder.AppendFutureData(100); |
| + |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestSharedMemorySegmentationAndStorage) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // For transport, we should have 2 shared memories, where the first one |
| + // have half 0 and half 3, and then the last one has half 3. |
| + // |
| + // For storage, we should have 3 browser items that match the pre-transport |
| + // version: |
| + // 1: Bytes 100MB |
| + // 2: Blob |
| + // 3: Bytes 200MB |
| + AddShortcutMemoryItem(100, &infos); // should have no behavior change |
| + AddBlobItem(&infos); |
| + AddMemoryItem(200, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 300, // max_file_size |
| + 5000, // disk_space_left |
| + 300, // memory_available |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + EXPECT_EQ(2u, strategy.shared_memory_handle_sizes().size()); |
| + EXPECT_EQ(200u, strategy.shared_memory_handle_sizes().at(0)); |
| + EXPECT_EQ(100u, strategy.shared_memory_handle_sizes().at(1)); |
| + EXPECT_EQ(3u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(0u, 0u, 0ull, |
| + 100ull, 0u, 0ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(1); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(1u, 2u, 0ull, |
| + 100ull, 0u, 100ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(2); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(100u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateSharedMemoryRequest(2u, 2u, 100ull, |
| + 100ull, 1u, 0ull), |
| + memory_item_request.message); |
| + |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendFutureData(100); |
| + builder.AppendBlob(kFakeBlobUUID); |
| + builder.AppendFutureData(200); |
| + |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestTooLarge) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Our item is too large for disk, so error out. |
| + AddMemoryItem(5001, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_left |
| + kNewUUID, infos); |
| + |
| + EXPECT_EQ(0u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(0u, strategy.shared_memory_handle_sizes().size()); |
| + EXPECT_EQ(0u, strategy.requests().size()); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_TOO_LARGE, strategy.error()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestNoDisk) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Our item is too large for memory, and we are in no_disk mode (incognito) |
| + AddMemoryItem(301, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 0, // disk_space_left |
| + 300, // memory_available |
| + kNewUUID, infos); |
| + |
| + EXPECT_EQ(0u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(0u, strategy.shared_memory_handle_sizes().size()); |
| + EXPECT_EQ(0u, strategy.requests().size()); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_TOO_LARGE, strategy.error()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestNoDiskFits) { |
| + BlobAsyncTransportStrategy strategy; |
| + std::vector<DataElement> infos; |
| + |
| + // Test that we ignore the max_blob_in_memory_size param when we're in |
| + // no-disk mode, as we can never hit disk anyways. |
| + AddMemoryItem(301, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 0, // disk_space_left |
| + 301, // memory_left |
| + kNewUUID, infos); |
| + |
| + EXPECT_EQ(0u, strategy.file_handle_sizes().size()); |
| + EXPECT_EQ(2u, strategy.shared_memory_handle_sizes().size()); |
| + EXPECT_EQ(2u, strategy.requests().size()); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestSimpleIPC) { |
| + // Test simple IPC strategy, where size < max_ipc_memory_size and we have |
| + // just one item. |
| + std::vector<DataElement> infos; |
| + BlobAsyncTransportStrategy strategy; |
| + AddMemoryItem(10, &infos); |
| + AddBlobItem(&infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_left |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + ASSERT_EQ(1u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateIPCRequest(0u, 0u, 0ull, 10ull), |
| + memory_item_request.message); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestMultipleIPC) { |
| + // Same as above, but with 2 items and a blob in-between. |
| + std::vector<DataElement> infos; |
| + BlobAsyncTransportStrategy strategy; |
| + infos.clear(); |
| + AddShortcutMemoryItem(10, &infos); // should have no behavior change |
| + AddBlobItem(&infos); |
| + AddMemoryItem(80, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_left |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_NONE, strategy.error()); |
| + |
| + ASSERT_EQ(2u, strategy.requests().size()); |
| + |
| + auto memory_item_request = strategy.requests().at(0); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateIPCRequest(0u, 0u, 0ull, 10ull), |
| + memory_item_request.message); |
| + |
| + memory_item_request = strategy.requests().at(1); |
| + EXPECT_EQ(2u, memory_item_request.browser_item_index); |
| + EXPECT_EQ(0u, memory_item_request.browser_item_offset); |
| + EXPECT_EQ(BlobItemBytesRequest::CreateIPCRequest(1u, 2u, 0ull, 80ull), |
| + memory_item_request.message); |
| + |
| + // We still populate future data, as the strategy assumes we will be |
| + // requesting the data. |
| + BlobDataBuilder builder(kNewUUID); |
| + builder.AppendFutureData(10); |
| + builder.AppendBlob(kFakeBlobUUID); |
| + builder.AppendFutureData(80); |
| + |
| + EXPECT_EQ(builder, *strategy.blob_builder()); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, Shortcut) { |
| + std::vector<DataElement> infos; |
| + AddMemoryItem(100, &infos); |
| + AddBlobItem(&infos); |
| + EXPECT_FALSE(BlobAsyncTransportStrategy::ShouldBeShortcut(infos, 200)); |
| + |
| + infos.clear(); |
| + AddShortcutMemoryItem(100, &infos); |
| + AddBlobItem(&infos); |
| + EXPECT_TRUE(BlobAsyncTransportStrategy::ShouldBeShortcut(infos, 200)); |
| + |
| + infos.clear(); |
| + AddShortcutMemoryItem(100, &infos); |
| + EXPECT_FALSE(BlobAsyncTransportStrategy::ShouldBeShortcut(infos, 99)); |
| +} |
| + |
| +TEST(BlobAsyncTransportStrategyTest, TestInvalidParams) { |
| + std::vector<DataElement> infos; |
| + { |
| + // Test uint64_t overflow. |
| + BlobAsyncTransportStrategy strategy; |
| + uint64_t iters = std::numeric_limits<uint64_t>::max() / |
| + std::numeric_limits<size_t>::max(); |
| + for (uint64_t i = 0; i <= iters; i++) { |
| + AddMemoryItem(std::numeric_limits<size_t>::max(), &infos); |
| + } |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_left |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_INVALID_PARAMS, |
| + strategy.error()); |
| + } |
| + { |
| + // Test size_t overflow. |
| + infos.clear(); |
| + BlobAsyncTransportStrategy strategy; |
| + AddMemoryItem(std::numeric_limits<size_t>::max(), &infos); |
| + AddMemoryItem(1, &infos); |
| + |
| + strategy.Initialize(100, // max_ipc_memory_size |
| + 200, // max_shared_memory_size |
| + 400, // max_file_size |
| + 5000, // disk_space_left |
| + 100, // memory_left |
| + kNewUUID, infos); |
| + EXPECT_EQ(BlobAsyncTransportStrategy::ERROR_INVALID_PARAMS, |
| + strategy.error()); |
| + } |
| +} |
| + |
| +} // namespace |
| +} // namespace storage |
