// Copyright 2014 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "util/mach/child_port_handshake.h" #include "base/mac/scoped_mach_port.h" #include "gtest/gtest.h" #include "test/multiprocess.h" #include "util/mach/child_port_types.h" #include "util/mach/mach_extensions.h" namespace crashpad { namespace test { namespace { class ChildPortHandshakeTest : public Multiprocess { public: enum class ClientProcess { // The child runs the client and the parent runs the server. kChildClient = 0, // The parent runs the client and the child runs the server. kParentClient, }; enum class TestType { // The client checks in with the server, transferring a receive right. kClientChecksIn_ReceiveRight = 0, // In this test, the client checks in with the server normally. It sends a // copy of its bootstrap port to the server, because both parent and child // should have the same bootstrap port, allowing for verification. kClientChecksIn_SendRight, // The client checks in with the server, transferring a send-once right. kClientChecksIn_SendOnceRight, // In this test, the client reads from its pipe, and subsequently exits // without checking in. This tests that the server properly detects that it // has lost its client after sending instructions to it via the pipe, while // waiting for a check-in message. kClientDoesNotCheckIn, // In this test, the client exits without checking in. This tests that the // server properly detects that it has lost a client. Whether or not the // client closes the pipe before the server writes to it is a race, and the // server needs to be able to detect client loss in both cases, so the // ClientDoesNotCheckIn_ReadsPipe and NoClient tests also exist to test // these individual cases more deterministically. kClientDoesNotCheckIn_ReadsPipe, // In this test, the client checks in with the server with an incorrect // token value and a copy of its own task port. The server should reject the // message because of the invalid token, and return MACH_PORT_NULL to its // caller. kTokenIncorrect, // In this test, the client checks in with the server with an incorrect // token value and a copy of its own task port, and subsequently, the // correct token value and a copy of its bootstrap port. The server should // reject the first because of the invalid token, but it should continue // waiting for a message with a valid token as long as the pipe remains // open. It should wind wind up returning the bootstrap port, allowing for // verification. kTokenIncorrectThenCorrect, // The server dies. The failure should be reported in the client. This test // type is only compatible with ClientProcess::kParentClient. kServerDies, }; ChildPortHandshakeTest(ClientProcess client_process, TestType test_type) : Multiprocess(), child_port_handshake_(), client_process_(client_process), test_type_(test_type) { } ~ChildPortHandshakeTest() { } private: void RunServer() { if (test_type_ == TestType::kServerDies) { return; } base::mac::ScopedMachReceiveRight receive_right; base::mac::ScopedMachSendRight send_right; if (test_type_ == TestType::kClientChecksIn_ReceiveRight) { receive_right.reset(child_port_handshake_.RunServer( ChildPortHandshake::PortRightType::kReceiveRight)); } else { send_right.reset(child_port_handshake_.RunServer( ChildPortHandshake::PortRightType::kSendRight)); } switch (test_type_) { case TestType::kClientChecksIn_ReceiveRight: EXPECT_TRUE(receive_right.is_valid()); break; case TestType::kClientChecksIn_SendRight: case TestType::kTokenIncorrectThenCorrect: EXPECT_EQ(send_right, bootstrap_port); break; case TestType::kClientChecksIn_SendOnceRight: EXPECT_TRUE(send_right.is_valid()); EXPECT_NE(send_right, bootstrap_port); break; case TestType::kClientDoesNotCheckIn: case TestType::kClientDoesNotCheckIn_ReadsPipe: case TestType::kTokenIncorrect: EXPECT_FALSE(send_right.is_valid()); break; case TestType::kServerDies: // This was special-cased as an early return above. FAIL(); } } void RunClient() { switch (test_type_) { case TestType::kClientChecksIn_SendRight: { ASSERT_TRUE(child_port_handshake_.RunClient(bootstrap_port, MACH_MSG_TYPE_COPY_SEND)); break; } case TestType::kClientChecksIn_ReceiveRight: { mach_port_t receive_right = NewMachPort(MACH_PORT_RIGHT_RECEIVE); ASSERT_TRUE(child_port_handshake_.RunClient( receive_right, MACH_MSG_TYPE_MOVE_RECEIVE)); break; } case TestType::kClientChecksIn_SendOnceRight: { base::mac::ScopedMachReceiveRight receive_right( NewMachPort(MACH_PORT_RIGHT_RECEIVE)); ASSERT_TRUE(child_port_handshake_.RunClient( receive_right.get(), MACH_MSG_TYPE_MAKE_SEND_ONCE)); break; } case TestType::kClientDoesNotCheckIn: { child_port_handshake_.ServerWriteFD().reset(); child_port_handshake_.ClientReadFD().reset(); break; } case TestType::kClientDoesNotCheckIn_ReadsPipe: { // Don’t run the standard client routine. Instead, drain the pipe, which // will get the parent to the point that it begins waiting for a // check-in message. Then, exit. The pipe is drained using the same // implementation that the real client would use. child_port_handshake_.ServerWriteFD().reset(); base::ScopedFD client_read_fd = child_port_handshake_.ClientReadFD(); child_port_token_t token; std::string service_name; ASSERT_TRUE(ChildPortHandshake::RunClientInternal_ReadPipe( client_read_fd.get(), &token, &service_name)); break; } case TestType::kTokenIncorrect: { // Don’t run the standard client routine. Instead, read the token and // service name, mutate the token, and then check in with the bad token. // The parent should reject the message. child_port_handshake_.ServerWriteFD().reset(); base::ScopedFD client_read_fd = child_port_handshake_.ClientReadFD(); child_port_token_t token; std::string service_name; ASSERT_TRUE(ChildPortHandshake::RunClientInternal_ReadPipe( client_read_fd.get(), &token, &service_name)); child_port_token_t bad_token = ~token; ASSERT_TRUE(ChildPortHandshake::RunClientInternal_SendCheckIn( service_name, bad_token, mach_task_self(), MACH_MSG_TYPE_COPY_SEND)); break; } case TestType::kTokenIncorrectThenCorrect: { // Don’t run the standard client routine. Instead, read the token and // service name. Mutate the token, and check in with the bad token, // expecting the parent to reject the message. Then, check in with the // correct token, expecting the parent to accept it. child_port_handshake_.ServerWriteFD().reset(); base::ScopedFD client_read_fd = child_port_handshake_.ClientReadFD(); child_port_token_t token; std::string service_name; ASSERT_TRUE(ChildPortHandshake::RunClientInternal_ReadPipe( client_read_fd.release(), &token, &service_name)); child_port_token_t bad_token = ~token; ASSERT_TRUE(ChildPortHandshake::RunClientInternal_SendCheckIn( service_name, bad_token, mach_task_self(), MACH_MSG_TYPE_COPY_SEND)); ASSERT_TRUE(ChildPortHandshake::RunClientInternal_SendCheckIn( service_name, token, bootstrap_port, MACH_MSG_TYPE_COPY_SEND)); break; } case TestType::kServerDies: { ASSERT_EQ(client_process_, ClientProcess::kParentClient); ASSERT_FALSE(child_port_handshake_.RunClient(bootstrap_port, MACH_MSG_TYPE_COPY_SEND)); break; } } } // Multiprocess: void MultiprocessParent() override { switch (client_process_) { case ClientProcess::kChildClient: RunServer(); break; case ClientProcess::kParentClient: RunClient(); break; } } void MultiprocessChild() override { switch (client_process_) { case ClientProcess::kChildClient: RunClient(); break; case ClientProcess::kParentClient: RunServer(); break; } } private: ChildPortHandshake child_port_handshake_; ClientProcess client_process_; TestType test_type_; DISALLOW_COPY_AND_ASSIGN(ChildPortHandshakeTest); }; TEST(ChildPortHandshake, ChildClientChecksIn_ReceiveRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kClientChecksIn_ReceiveRight); test.Run(); } TEST(ChildPortHandshake, ChildClientChecksIn_SendRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kClientChecksIn_SendRight); test.Run(); } TEST(ChildPortHandshake, ChildClientChecksIn_SendOnceRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kClientChecksIn_SendOnceRight); test.Run(); } TEST(ChildPortHandshake, ChildClientDoesNotCheckIn) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kClientDoesNotCheckIn); test.Run(); } TEST(ChildPortHandshake, ChildClientDoesNotCheckIn_ReadsPipe) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kClientDoesNotCheckIn_ReadsPipe); test.Run(); } TEST(ChildPortHandshake, ChildClientTokenIncorrect) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kTokenIncorrect); test.Run(); } TEST(ChildPortHandshake, ChildClientTokenIncorrectThenCorrect) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kChildClient, ChildPortHandshakeTest::TestType::kTokenIncorrectThenCorrect); test.Run(); } TEST(ChildPortHandshake, ParentClientChecksIn_ReceiveRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kClientChecksIn_ReceiveRight); test.Run(); } TEST(ChildPortHandshake, ParentClientChecksIn_SendRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kClientChecksIn_SendRight); test.Run(); } TEST(ChildPortHandshake, ParentClientChecksIn_SendOnceRight) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kClientChecksIn_SendOnceRight); test.Run(); } TEST(ChildPortHandshake, ParentClientDoesNotCheckIn) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kClientDoesNotCheckIn); test.Run(); } TEST(ChildPortHandshake, ParentClientDoesNotCheckIn_ReadsPipe) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kClientDoesNotCheckIn_ReadsPipe); test.Run(); } TEST(ChildPortHandshake, ParentClientTokenIncorrect) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kTokenIncorrect); test.Run(); } TEST(ChildPortHandshake, ParentClientTokenIncorrectThenCorrect) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kTokenIncorrectThenCorrect); test.Run(); } TEST(ChildPortHandshake, ParentClientServerDies) { ChildPortHandshakeTest test( ChildPortHandshakeTest::ClientProcess::kParentClient, ChildPortHandshakeTest::TestType::kServerDies); test.Run(); } TEST(ChildPortHandshake, NoClient) { // In this test, the client never checks in with the server because it never // even runs. This tests that the server properly detects that it has no // client at all, and does not terminate execution with an error such as // “broken pipe” when attempting to send instructions to the client. This test // is similar to kClientDoesNotCheckIn, but because there’s no client at all, // the server is guaranteed to see that its pipe partner is gone. ChildPortHandshake child_port_handshake; base::mac::ScopedMachSendRight child_port(child_port_handshake.RunServer( ChildPortHandshake::PortRightType::kSendRight)); EXPECT_FALSE(child_port.is_valid()); } } // namespace } // namespace test } // namespace crashpad