/* * Copyright (C) 2017 The Android Open Source Project * * 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 #include #include #include #include "netdutils/Handle.h" #include "netdutils/Math.h" #include "netdutils/MockSyscalls.h" #include "netdutils/Netfilter.h" #include "netdutils/Netlink.h" #include "netdutils/Slice.h" #include "netdutils/Status.h" #include "netdutils/StatusOr.h" #include "netdutils/Syscalls.h" using testing::_; using testing::ByMove; using testing::Invoke; using testing::Return; using testing::StrictMock; namespace android { namespace netdutils { class SyscallsTest : public testing::Test { protected: StrictMock mSyscalls; }; TEST(syscalls, scopedMock) { auto& old = sSyscalls.get(); { StrictMock s; EXPECT_EQ(&s, &sSyscalls.get()); } EXPECT_EQ(&old, &sSyscalls.get()); } TEST_F(SyscallsTest, open) { const char kPath[] = "/test/path/please/ignore"; constexpr Fd kFd(40); constexpr int kFlags = 883; constexpr mode_t kMode = 37373; const auto& sys = sSyscalls.get(); EXPECT_CALL(mSyscalls, open(kPath, kFlags, kMode)).WillOnce(Return(ByMove(UniqueFd(kFd)))); EXPECT_CALL(mSyscalls, close(kFd)).WillOnce(Return(status::ok)); auto result = sys.open(kPath, kFlags, kMode); EXPECT_EQ(status::ok, result.status()); EXPECT_EQ(kFd, result.value()); } TEST_F(SyscallsTest, getsockname) { constexpr Fd kFd(40); sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, getsockname(kFd, _, _)) .WillOnce(Invoke([expected](Fd, sockaddr* addr, socklen_t* addrlen) { memcpy(addr, &expected, sizeof(expected)); EXPECT_EQ(*addrlen, static_cast(sizeof(expected))); return status::ok; })); const auto result = sys.getsockname(kFd); EXPECT_TRUE(isOk(result)); EXPECT_EQ(expected, result.value()); // Failure const Status kError = statusFromErrno(EINVAL, "test"); EXPECT_CALL(mSyscalls, getsockname(kFd, _, _)).WillOnce(Return(kError)); EXPECT_EQ(kError, sys.getsockname(kFd).status()); } TEST_F(SyscallsTest, setsockopt) { constexpr Fd kFd(40); constexpr int kLevel = 50; constexpr int kOptname = 70; sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, setsockopt(kFd, kLevel, kOptname, &expected, sizeof(expected))) .WillOnce(Return(status::ok)); EXPECT_EQ(status::ok, sys.setsockopt(kFd, kLevel, kOptname, expected)); // Failure const Status kError = statusFromErrno(EINVAL, "test"); EXPECT_CALL(mSyscalls, setsockopt(kFd, kLevel, kOptname, &expected, sizeof(expected))) .WillOnce(Return(kError)); EXPECT_EQ(kError, sys.setsockopt(kFd, kLevel, kOptname, expected)); } TEST_F(SyscallsTest, getsockopt) { constexpr Fd kFd(40); constexpr int kLevel = 50; constexpr int kOptname = 70; sockaddr_nl expected = {}; socklen_t optLen = 0; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, getsockopt(kFd, kLevel, kOptname, &expected, &optLen)) .WillOnce(Return(status::ok)); EXPECT_EQ(status::ok, sys.getsockopt(kFd, kLevel, kOptname, &expected, &optLen)); // Failure const Status kError = statusFromErrno(EINVAL, "test"); EXPECT_CALL(mSyscalls, getsockopt(kFd, kLevel, kOptname, &expected, &optLen)) .WillOnce(Return(kError)); EXPECT_EQ(kError, sys.getsockopt(kFd, kLevel, kOptname, &expected, &optLen)); } TEST_F(SyscallsTest, bind) { constexpr Fd kFd(40); sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, bind(kFd, asSockaddrPtr(&expected), sizeof(expected))) .WillOnce(Return(status::ok)); EXPECT_EQ(status::ok, sys.bind(kFd, expected)); // Failure const Status kError = statusFromErrno(EINVAL, "test"); EXPECT_CALL(mSyscalls, bind(kFd, asSockaddrPtr(&expected), sizeof(expected))) .WillOnce(Return(kError)); EXPECT_EQ(kError, sys.bind(kFd, expected)); } TEST_F(SyscallsTest, connect) { constexpr Fd kFd(40); sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, connect(kFd, asSockaddrPtr(&expected), sizeof(expected))) .WillOnce(Return(status::ok)); EXPECT_EQ(status::ok, sys.connect(kFd, expected)); // Failure const Status kError = statusFromErrno(EINVAL, "test"); EXPECT_CALL(mSyscalls, connect(kFd, asSockaddrPtr(&expected), sizeof(expected))) .WillOnce(Return(kError)); EXPECT_EQ(kError, sys.connect(kFd, expected)); } TEST_F(SyscallsTest, sendto) { constexpr Fd kFd(40); constexpr int kFlags = 0; std::array payload; const auto slice = makeSlice(payload); sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, sendto(kFd, slice, kFlags, asSockaddrPtr(&expected), sizeof(expected))) .WillOnce(Return(slice.size())); EXPECT_EQ(status::ok, sys.sendto(kFd, slice, kFlags, expected)); } TEST_F(SyscallsTest, recvfrom) { constexpr Fd kFd(40); constexpr int kFlags = 0; std::array payload; const auto dst = makeSlice(payload); const auto used = take(dst, 8); sockaddr_nl expected = {}; auto& sys = sSyscalls.get(); // Success EXPECT_CALL(mSyscalls, recvfrom(kFd, dst, kFlags, _, _)) .WillOnce(Invoke( [expected, used](Fd, const Slice, int, sockaddr* src, socklen_t* srclen) { *srclen = sizeof(expected); memcpy(src, &expected, *srclen); return used; })); auto result = sys.recvfrom(kFd, dst, kFlags); EXPECT_EQ(status::ok, result.status()); EXPECT_EQ(used, result.value().first); EXPECT_EQ(expected, result.value().second); } } // namespace netdutils } // namespace android