mojo/core/shared_buffer_unittest.cc - chromium/src - Git at Google

 // 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 <string.h>

 #include <string>
 #include <utility>

 #include "base/logging.h"
 #include "base/memory/shared_memory.h"
 #include "base/strings/string_piece.h"
 #include "build/build_config.h"
 #include "mojo/core/core.h"
 #include "mojo/core/shared_buffer_dispatcher.h"
 #include "mojo/core/test/mojo_test_base.h"
 #include "mojo/public/c/system/types.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace mojo {
 namespace core {
 namespace {

 using SharedBufferTest = test::MojoTestBase;

 TEST_F(SharedBufferTest, CreateSharedBuffer) {
   const std::string message = "hello";
   MojoHandle h = CreateBuffer(message.size());
   WriteToBuffer(h, 0, message);
   ExpectBufferContents(h, 0, message);
 }

 TEST_F(SharedBufferTest, DuplicateSharedBuffer) {
   const std::string message = "hello";
   MojoHandle h = CreateBuffer(message.size());
   WriteToBuffer(h, 0, message);

   MojoHandle dupe = DuplicateBuffer(h, false);
   ExpectBufferContents(dupe, 0, message);
 }

 TEST_F(SharedBufferTest, PassSharedBufferLocal) {
   const std::string message = "hello";
   MojoHandle h = CreateBuffer(message.size());
   WriteToBuffer(h, 0, message);

   MojoHandle dupe = DuplicateBuffer(h, false);
   MojoHandle p0, p1;
   CreateMessagePipe(&p0, &p1);

   WriteMessageWithHandles(p0, "...", &dupe, 1);
   EXPECT_EQ("...", ReadMessageWithHandles(p1, &dupe, 1));

   ExpectBufferContents(dupe, 0, message);
 }

 #if !defined(OS_IOS)

 // Reads a single message with a shared buffer handle, maps the buffer, copies
 // the message contents into it, then exits.
 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CopyToBufferClient, SharedBufferTest, h) {
   MojoHandle b;
   std::string message = ReadMessageWithHandles(h, &b, 1);
   WriteToBuffer(b, 0, message);

   EXPECT_EQ("quit", ReadMessage(h));
 }

 TEST_F(SharedBufferTest, PassSharedBufferCrossProcess) {
   const std::string message = "hello";
   MojoHandle b = CreateBuffer(message.size());

   RunTestClient("CopyToBufferClient", [&](MojoHandle h) {
     MojoHandle dupe = DuplicateBuffer(b, false);
     WriteMessageWithHandles(h, message, &dupe, 1);
     WriteMessage(h, "quit");
   });

   ExpectBufferContents(b, 0, message);
 }

 // Creates a new buffer, maps it, writes a message contents to it, unmaps it,
 // and finally passes it back to the parent.
 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateBufferClient, SharedBufferTest, h) {
   std::string message = ReadMessage(h);
   MojoHandle b = CreateBuffer(message.size());
   WriteToBuffer(b, 0, message);
   WriteMessageWithHandles(h, "have a buffer", &b, 1);

   EXPECT_EQ("quit", ReadMessage(h));
 }

 TEST_F(SharedBufferTest, PassSharedBufferFromChild) {
   const std::string message = "hello";
   MojoHandle b;
   RunTestClient("CreateBufferClient", [&](MojoHandle h) {
     WriteMessage(h, message);
     ReadMessageWithHandles(h, &b, 1);
     WriteMessage(h, "quit");
   });

   ExpectBufferContents(b, 0, message);
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassBuffer, SharedBufferTest, h) {
   // Receive a pipe handle over the primordial pipe. This will be connected to
   // another child process.
   MojoHandle other_child;
   std::string message = ReadMessageWithHandles(h, &other_child, 1);

   // Create a new shared buffer.
   MojoHandle b = CreateBuffer(message.size());

   // Send a copy of the buffer to the parent and the other child.
   MojoHandle dupe = DuplicateBuffer(b, false);
   WriteMessageWithHandles(h, "", &b, 1);
   WriteMessageWithHandles(other_child, "", &dupe, 1);

   EXPECT_EQ("quit", ReadMessage(h));
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReceiveAndEditBuffer, SharedBufferTest, h) {
   // Receive a pipe handle over the primordial pipe. This will be connected to
   // another child process (running CreateAndPassBuffer).
   MojoHandle other_child;
   std::string message = ReadMessageWithHandles(h, &other_child, 1);

   // Receive a shared buffer from the other child.
   MojoHandle b;
   ReadMessageWithHandles(other_child, &b, 1);

   // Write the message from the parent into the buffer and exit.
   WriteToBuffer(b, 0, message);
   EXPECT_EQ(MOJO_RESULT_OK, MojoClose(b));
   EXPECT_EQ("quit", ReadMessage(h));
 }

 TEST_F(SharedBufferTest, PassSharedBufferFromChildToChild) {
   const std::string message = "hello";
   MojoHandle p0, p1;
   CreateMessagePipe(&p0, &p1);

   MojoHandle b;
   RunTestClient("CreateAndPassBuffer", [&](MojoHandle h0) {
     RunTestClient("ReceiveAndEditBuffer", [&](MojoHandle h1) {
       // Send one end of the pipe to each child. The first child will create
       // and pass a buffer to the second child and back to us. The second child
       // will write our message into the buffer.
       WriteMessageWithHandles(h0, message, &p0, 1);
       WriteMessageWithHandles(h1, message, &p1, 1);

       // Receive the buffer back from the first child.
       ReadMessageWithHandles(h0, &b, 1);

       WriteMessage(h1, "quit");
     });
     WriteMessage(h0, "quit");
   });

   // The second child should have written this message.
   ExpectBufferContents(b, 0, message);
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassBufferParent,
                                   SharedBufferTest,
                                   parent) {
   RunTestClient("CreateAndPassBuffer", [&](MojoHandle child) {
     // Read a pipe from the parent and forward it to our child.
     MojoHandle pipe;
     std::string message = ReadMessageWithHandles(parent, &pipe, 1);

     WriteMessageWithHandles(child, message, &pipe, 1);

     // Read a buffer handle from the child and pass it back to the parent.
     MojoHandle buffer;
     EXPECT_EQ("", ReadMessageWithHandles(child, &buffer, 1));
     WriteMessageWithHandles(parent, "", &buffer, 1);

     EXPECT_EQ("quit", ReadMessage(parent));
     WriteMessage(child, "quit");
   });
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReceiveAndEditBufferParent,
                                   SharedBufferTest,
                                   parent) {
   RunTestClient("ReceiveAndEditBuffer", [&](MojoHandle child) {
     // Read a pipe from the parent and forward it to our child.
     MojoHandle pipe;
     std::string message = ReadMessageWithHandles(parent, &pipe, 1);
     WriteMessageWithHandles(child, message, &pipe, 1);

     EXPECT_EQ("quit", ReadMessage(parent));
     WriteMessage(child, "quit");
   });
 }

 #if defined(OS_ANDROID) || defined(OS_MACOSX)
 // Android multi-process tests are not executing the new process. This is flaky.
 // Passing shared memory handles between cousins is not currently supported on
 // OSX.
 #define MAYBE_PassHandleBetweenCousins DISABLED_PassHandleBetweenCousins
 #else
 #define MAYBE_PassHandleBetweenCousins PassHandleBetweenCousins
 #endif
 TEST_F(SharedBufferTest, MAYBE_PassHandleBetweenCousins) {
   const std::string message = "hello";
   MojoHandle p0, p1;
   CreateMessagePipe(&p0, &p1);

   // Spawn two children who will each spawn their own child. Make sure the
   // grandchildren (cousins to each other) can pass platform handles.
   MojoHandle b;
   RunTestClient("CreateAndPassBufferParent", [&](MojoHandle child1) {
     RunTestClient("ReceiveAndEditBufferParent", [&](MojoHandle child2) {
       MojoHandle pipe[2];
       CreateMessagePipe(&pipe[0], &pipe[1]);

       WriteMessageWithHandles(child1, message, &pipe[0], 1);
       WriteMessageWithHandles(child2, message, &pipe[1], 1);

       // Receive the buffer back from the first child.
       ReadMessageWithHandles(child1, &b, 1);

       WriteMessage(child2, "quit");
     });
     WriteMessage(child1, "quit");
   });

   // The second grandchild should have written this message.
   ExpectBufferContents(b, 0, message);
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReadAndMapWriteSharedBuffer,
                                   SharedBufferTest,
                                   h) {
   // Receive the shared buffer.
   MojoHandle b;
   EXPECT_EQ("hello", ReadMessageWithHandles(h, &b, 1));

   // Read from the bufer.
   ExpectBufferContents(b, 0, "hello");

   // Extract the shared memory handle and verify that it is read-only.
   auto* dispatcher =
       static_cast<SharedBufferDispatcher*>(Core::Get()->GetDispatcher(b).get());
   base::subtle::PlatformSharedMemoryRegion& region =
       dispatcher->GetRegionForTesting();
   EXPECT_EQ(region.GetMode(),
             base::subtle::PlatformSharedMemoryRegion::Mode::kReadOnly);

   EXPECT_EQ("quit", ReadMessage(h));
   WriteMessage(h, "ok");
 }

 #if defined(OS_ANDROID)
 // Android multi-process tests are not executing the new process. This is flaky.
 #define MAYBE_CreateAndPassReadOnlyBuffer DISABLED_CreateAndPassReadOnlyBuffer
 #else
 #define MAYBE_CreateAndPassReadOnlyBuffer CreateAndPassReadOnlyBuffer
 #endif
 TEST_F(SharedBufferTest, MAYBE_CreateAndPassReadOnlyBuffer) {
   RunTestClient("ReadAndMapWriteSharedBuffer", [&](MojoHandle h) {
     // Create a new shared buffer.
     MojoHandle b = CreateBuffer(1234);
     WriteToBuffer(b, 0, "hello");

     // Send a read-only copy of the buffer to the child.
     MojoHandle dupe = DuplicateBuffer(b, true /* read_only */);
     WriteMessageWithHandles(h, "hello", &dupe, 1);

     WriteMessage(h, "quit");
     EXPECT_EQ("ok", ReadMessage(h));
   });
 }

 DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassReadOnlyBuffer,
                                   SharedBufferTest,
                                   h) {
   // Create a new shared buffer.
   MojoHandle b = CreateBuffer(1234);
   WriteToBuffer(b, 0, "hello");

   // Send a read-only copy of the buffer to the parent.
   MojoHandle dupe = DuplicateBuffer(b, true /* read_only */);
   WriteMessageWithHandles(h, "", &dupe, 1);

   EXPECT_EQ("quit", ReadMessage(h));
   WriteMessage(h, "ok");
 }

 #if defined(OS_ANDROID)
 // Android multi-process tests are not executing the new process. This is flaky.
 #define MAYBE_CreateAndPassFromChildReadOnlyBuffer \
   DISABLED_CreateAndPassFromChildReadOnlyBuffer
 #else
 #define MAYBE_CreateAndPassFromChildReadOnlyBuffer \
   CreateAndPassFromChildReadOnlyBuffer
 #endif
 TEST_F(SharedBufferTest, MAYBE_CreateAndPassFromChildReadOnlyBuffer) {
   RunTestClient("CreateAndPassReadOnlyBuffer", [&](MojoHandle h) {
     MojoHandle b;
     EXPECT_EQ("", ReadMessageWithHandles(h, &b, 1));
     ExpectBufferContents(b, 0, "hello");

     // Extract the shared memory handle and verify that it is read-only.
     auto* dispatcher = static_cast<SharedBufferDispatcher*>(
         Core::Get()->GetDispatcher(b).get());
     base::subtle::PlatformSharedMemoryRegion& region =
         dispatcher->GetRegionForTesting();
     EXPECT_EQ(region.GetMode(),
               base::subtle::PlatformSharedMemoryRegion::Mode::kReadOnly);

     WriteMessage(h, "quit");
     EXPECT_EQ("ok", ReadMessage(h));
   });
 }

 #endif  // !defined(OS_IOS)

 }  // namespace
 }  // namespace core
 }  // namespace mojo
	// 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 <string.h>

	#include <string>
	#include <utility>

	#include "base/logging.h"
	#include "base/memory/shared_memory.h"
	#include "base/strings/string_piece.h"
	#include "build/build_config.h"
	#include "mojo/core/core.h"
	#include "mojo/core/shared_buffer_dispatcher.h"
	#include "mojo/core/test/mojo_test_base.h"
	#include "mojo/public/c/system/types.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace mojo {
	namespace core {
	namespace {

	using SharedBufferTest = test::MojoTestBase;

	TEST_F(SharedBufferTest, CreateSharedBuffer) {
	const std::string message = "hello";
	MojoHandle h = CreateBuffer(message.size());
	WriteToBuffer(h, 0, message);
	ExpectBufferContents(h, 0, message);
	}

	TEST_F(SharedBufferTest, DuplicateSharedBuffer) {
	const std::string message = "hello";
	MojoHandle h = CreateBuffer(message.size());
	WriteToBuffer(h, 0, message);

	MojoHandle dupe = DuplicateBuffer(h, false);
	ExpectBufferContents(dupe, 0, message);
	}

	TEST_F(SharedBufferTest, PassSharedBufferLocal) {
	const std::string message = "hello";
	MojoHandle h = CreateBuffer(message.size());
	WriteToBuffer(h, 0, message);

	MojoHandle dupe = DuplicateBuffer(h, false);
	MojoHandle p0, p1;
	CreateMessagePipe(&p0, &p1);

	WriteMessageWithHandles(p0, "...", &dupe, 1);
	EXPECT_EQ("...", ReadMessageWithHandles(p1, &dupe, 1));

	ExpectBufferContents(dupe, 0, message);
	}

	#if !defined(OS_IOS)

	// Reads a single message with a shared buffer handle, maps the buffer, copies
	// the message contents into it, then exits.
	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CopyToBufferClient, SharedBufferTest, h) {
	MojoHandle b;
	std::string message = ReadMessageWithHandles(h, &b, 1);
	WriteToBuffer(b, 0, message);

	EXPECT_EQ("quit", ReadMessage(h));
	}

	TEST_F(SharedBufferTest, PassSharedBufferCrossProcess) {
	const std::string message = "hello";
	MojoHandle b = CreateBuffer(message.size());

	RunTestClient("CopyToBufferClient", [&](MojoHandle h) {
	MojoHandle dupe = DuplicateBuffer(b, false);
	WriteMessageWithHandles(h, message, &dupe, 1);
	WriteMessage(h, "quit");
	});

	ExpectBufferContents(b, 0, message);
	}

	// Creates a new buffer, maps it, writes a message contents to it, unmaps it,
	// and finally passes it back to the parent.
	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateBufferClient, SharedBufferTest, h) {
	std::string message = ReadMessage(h);
	MojoHandle b = CreateBuffer(message.size());
	WriteToBuffer(b, 0, message);
	WriteMessageWithHandles(h, "have a buffer", &b, 1);

	EXPECT_EQ("quit", ReadMessage(h));
	}

	TEST_F(SharedBufferTest, PassSharedBufferFromChild) {
	const std::string message = "hello";
	MojoHandle b;
	RunTestClient("CreateBufferClient", [&](MojoHandle h) {
	WriteMessage(h, message);
	ReadMessageWithHandles(h, &b, 1);
	WriteMessage(h, "quit");
	});

	ExpectBufferContents(b, 0, message);
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassBuffer, SharedBufferTest, h) {
	// Receive a pipe handle over the primordial pipe. This will be connected to
	// another child process.
	MojoHandle other_child;
	std::string message = ReadMessageWithHandles(h, &other_child, 1);

	// Create a new shared buffer.
	MojoHandle b = CreateBuffer(message.size());

	// Send a copy of the buffer to the parent and the other child.
	MojoHandle dupe = DuplicateBuffer(b, false);
	WriteMessageWithHandles(h, "", &b, 1);
	WriteMessageWithHandles(other_child, "", &dupe, 1);

	EXPECT_EQ("quit", ReadMessage(h));
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReceiveAndEditBuffer, SharedBufferTest, h) {
	// Receive a pipe handle over the primordial pipe. This will be connected to
	// another child process (running CreateAndPassBuffer).
	MojoHandle other_child;
	std::string message = ReadMessageWithHandles(h, &other_child, 1);

	// Receive a shared buffer from the other child.
	MojoHandle b;
	ReadMessageWithHandles(other_child, &b, 1);

	// Write the message from the parent into the buffer and exit.
	WriteToBuffer(b, 0, message);
	EXPECT_EQ(MOJO_RESULT_OK, MojoClose(b));
	EXPECT_EQ("quit", ReadMessage(h));
	}

	TEST_F(SharedBufferTest, PassSharedBufferFromChildToChild) {
	const std::string message = "hello";
	MojoHandle p0, p1;
	CreateMessagePipe(&p0, &p1);

	MojoHandle b;
	RunTestClient("CreateAndPassBuffer", [&](MojoHandle h0) {
	RunTestClient("ReceiveAndEditBuffer", [&](MojoHandle h1) {
	// Send one end of the pipe to each child. The first child will create
	// and pass a buffer to the second child and back to us. The second child
	// will write our message into the buffer.
	WriteMessageWithHandles(h0, message, &p0, 1);
	WriteMessageWithHandles(h1, message, &p1, 1);

	// Receive the buffer back from the first child.
	ReadMessageWithHandles(h0, &b, 1);

	WriteMessage(h1, "quit");
	});
	WriteMessage(h0, "quit");
	});

	// The second child should have written this message.
	ExpectBufferContents(b, 0, message);
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassBufferParent,
	SharedBufferTest,
	parent) {
	RunTestClient("CreateAndPassBuffer", [&](MojoHandle child) {
	// Read a pipe from the parent and forward it to our child.
	MojoHandle pipe;
	std::string message = ReadMessageWithHandles(parent, &pipe, 1);

	WriteMessageWithHandles(child, message, &pipe, 1);

	// Read a buffer handle from the child and pass it back to the parent.
	MojoHandle buffer;
	EXPECT_EQ("", ReadMessageWithHandles(child, &buffer, 1));
	WriteMessageWithHandles(parent, "", &buffer, 1);

	EXPECT_EQ("quit", ReadMessage(parent));
	WriteMessage(child, "quit");
	});
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReceiveAndEditBufferParent,
	SharedBufferTest,
	parent) {
	RunTestClient("ReceiveAndEditBuffer", [&](MojoHandle child) {
	// Read a pipe from the parent and forward it to our child.
	MojoHandle pipe;
	std::string message = ReadMessageWithHandles(parent, &pipe, 1);
	WriteMessageWithHandles(child, message, &pipe, 1);

	EXPECT_EQ("quit", ReadMessage(parent));
	WriteMessage(child, "quit");
	});
	}

	#if defined(OS_ANDROID) \|\| defined(OS_MACOSX)
	// Android multi-process tests are not executing the new process. This is flaky.
	// Passing shared memory handles between cousins is not currently supported on
	// OSX.
	#define MAYBE_PassHandleBetweenCousins DISABLED_PassHandleBetweenCousins
	#else
	#define MAYBE_PassHandleBetweenCousins PassHandleBetweenCousins
	#endif
	TEST_F(SharedBufferTest, MAYBE_PassHandleBetweenCousins) {
	const std::string message = "hello";
	MojoHandle p0, p1;
	CreateMessagePipe(&p0, &p1);

	// Spawn two children who will each spawn their own child. Make sure the
	// grandchildren (cousins to each other) can pass platform handles.
	MojoHandle b;
	RunTestClient("CreateAndPassBufferParent", [&](MojoHandle child1) {
	RunTestClient("ReceiveAndEditBufferParent", [&](MojoHandle child2) {
	MojoHandle pipe[2];
	CreateMessagePipe(&pipe[0], &pipe[1]);

	WriteMessageWithHandles(child1, message, &pipe[0], 1);
	WriteMessageWithHandles(child2, message, &pipe[1], 1);

	// Receive the buffer back from the first child.
	ReadMessageWithHandles(child1, &b, 1);

	WriteMessage(child2, "quit");
	});
	WriteMessage(child1, "quit");
	});

	// The second grandchild should have written this message.
	ExpectBufferContents(b, 0, message);
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(ReadAndMapWriteSharedBuffer,
	SharedBufferTest,
	h) {
	// Receive the shared buffer.
	MojoHandle b;
	EXPECT_EQ("hello", ReadMessageWithHandles(h, &b, 1));

	// Read from the bufer.
	ExpectBufferContents(b, 0, "hello");

	// Extract the shared memory handle and verify that it is read-only.
	auto* dispatcher =
	static_cast<SharedBufferDispatcher*>(Core::Get()->GetDispatcher(b).get());
	base::subtle::PlatformSharedMemoryRegion& region =
	dispatcher->GetRegionForTesting();
	EXPECT_EQ(region.GetMode(),
	base::subtle::PlatformSharedMemoryRegion::Mode::kReadOnly);

	EXPECT_EQ("quit", ReadMessage(h));
	WriteMessage(h, "ok");
	}

	#if defined(OS_ANDROID)
	// Android multi-process tests are not executing the new process. This is flaky.
	#define MAYBE_CreateAndPassReadOnlyBuffer DISABLED_CreateAndPassReadOnlyBuffer
	#else
	#define MAYBE_CreateAndPassReadOnlyBuffer CreateAndPassReadOnlyBuffer
	#endif
	TEST_F(SharedBufferTest, MAYBE_CreateAndPassReadOnlyBuffer) {
	RunTestClient("ReadAndMapWriteSharedBuffer", [&](MojoHandle h) {
	// Create a new shared buffer.
	MojoHandle b = CreateBuffer(1234);
	WriteToBuffer(b, 0, "hello");

	// Send a read-only copy of the buffer to the child.
	MojoHandle dupe = DuplicateBuffer(b, true /* read_only */);
	WriteMessageWithHandles(h, "hello", &dupe, 1);

	WriteMessage(h, "quit");
	EXPECT_EQ("ok", ReadMessage(h));
	});
	}

	DEFINE_TEST_CLIENT_TEST_WITH_PIPE(CreateAndPassReadOnlyBuffer,
	SharedBufferTest,
	h) {
	// Create a new shared buffer.
	MojoHandle b = CreateBuffer(1234);
	WriteToBuffer(b, 0, "hello");

	// Send a read-only copy of the buffer to the parent.
	MojoHandle dupe = DuplicateBuffer(b, true /* read_only */);
	WriteMessageWithHandles(h, "", &dupe, 1);

	EXPECT_EQ("quit", ReadMessage(h));
	WriteMessage(h, "ok");
	}

	#if defined(OS_ANDROID)
	// Android multi-process tests are not executing the new process. This is flaky.
	#define MAYBE_CreateAndPassFromChildReadOnlyBuffer \
	DISABLED_CreateAndPassFromChildReadOnlyBuffer
	#else
	#define MAYBE_CreateAndPassFromChildReadOnlyBuffer \
	CreateAndPassFromChildReadOnlyBuffer
	#endif
	TEST_F(SharedBufferTest, MAYBE_CreateAndPassFromChildReadOnlyBuffer) {
	RunTestClient("CreateAndPassReadOnlyBuffer", [&](MojoHandle h) {
	MojoHandle b;
	EXPECT_EQ("", ReadMessageWithHandles(h, &b, 1));
	ExpectBufferContents(b, 0, "hello");

	// Extract the shared memory handle and verify that it is read-only.
	auto* dispatcher = static_cast<SharedBufferDispatcher*>(
	Core::Get()->GetDispatcher(b).get());
	base::subtle::PlatformSharedMemoryRegion& region =
	dispatcher->GetRegionForTesting();
	EXPECT_EQ(region.GetMode(),
	base::subtle::PlatformSharedMemoryRegion::Mode::kReadOnly);

	WriteMessage(h, "quit");
	EXPECT_EQ("ok", ReadMessage(h));
	});
	}

	#endif // !defined(OS_IOS)

	} // namespace
	} // namespace core
	} // namespace mojo