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|
// Copyright 2019 The gVisor Authors.
//
// 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 <netinet/in.h>
#include <netinet/ip.h>
#include <netinet/ip_icmp.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <unistd.h>
#include <algorithm>
#include <cstdint>
#include "gtest/gtest.h"
#include "test/syscalls/linux/unix_domain_socket_test_util.h"
#include "test/util/capability_util.h"
#include "test/util/file_descriptor.h"
#include "test/util/socket_util.h"
#include "test/util/test_util.h"
namespace gvisor {
namespace testing {
namespace {
// The size of an empty ICMP packet and IP header together.
constexpr size_t kEmptyICMPSize = 28;
// ICMP raw sockets get their own special tests because Linux automatically
// responds to ICMP echo requests, and thus a single echo request sent via
// loopback leads to 2 received ICMP packets.
class RawSocketICMPTest : public ::testing::Test {
protected:
// Creates a socket to be used in tests.
void SetUp() override;
// Closes the socket created by SetUp().
void TearDown() override;
// Checks that both an ICMP echo request and reply are received. Calls should
// be wrapped in ASSERT_NO_FATAL_FAILURE.
void ExpectICMPSuccess(const struct icmphdr& icmp);
// Sends icmp via s_.
void SendEmptyICMP(const struct icmphdr& icmp);
// Sends icmp via s_ to the given address.
void SendEmptyICMPTo(int sock, const struct sockaddr_in& addr,
const struct icmphdr& icmp);
// Reads from s_ into recv_buf.
void ReceiveICMP(char* recv_buf, size_t recv_buf_len, size_t expected_size,
struct sockaddr_in* src);
// Reads from sock into recv_buf.
void ReceiveICMPFrom(char* recv_buf, size_t recv_buf_len,
size_t expected_size, struct sockaddr_in* src, int sock);
// The socket used for both reading and writing.
int s_;
// The loopback address.
struct sockaddr_in addr_;
};
void RawSocketICMPTest::SetUp() {
if (!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW))) {
ASSERT_THAT(socket(AF_INET, SOCK_RAW, IPPROTO_ICMP),
SyscallFailsWithErrno(EPERM));
GTEST_SKIP();
}
ASSERT_THAT(s_ = socket(AF_INET, SOCK_RAW, IPPROTO_ICMP), SyscallSucceeds());
addr_ = {};
// "On raw sockets sin_port is set to the IP protocol." - ip(7).
addr_.sin_port = IPPROTO_IP;
addr_.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
addr_.sin_family = AF_INET;
}
void RawSocketICMPTest::TearDown() {
// TearDown will be run even if we skip the test.
if (ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW))) {
EXPECT_THAT(close(s_), SyscallSucceeds());
}
}
// We'll only read an echo in this case, as the kernel won't respond to the
// malformed ICMP checksum.
TEST_F(RawSocketICMPTest, SendAndReceiveBadChecksum) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
// Prepare and send an ICMP packet. Use arbitrary junk for checksum, sequence,
// and ID. None of that should matter for raw sockets - the kernel should
// still give us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2012;
icmp.un.echo.id = 2014;
ASSERT_NO_FATAL_FAILURE(SendEmptyICMP(icmp));
// Veryify that we get the echo, then that there's nothing else to read.
char recv_buf[kEmptyICMPSize];
struct sockaddr_in src;
ASSERT_NO_FATAL_FAILURE(
ReceiveICMP(recv_buf, sizeof(recv_buf), sizeof(struct icmphdr), &src));
EXPECT_EQ(memcmp(&src, &addr_, sizeof(src)), 0);
// The packet should be identical to what we sent.
EXPECT_EQ(memcmp(recv_buf + sizeof(struct iphdr), &icmp, sizeof(icmp)), 0);
// And there should be nothing left to read.
EXPECT_THAT(RetryEINTR(recv)(s_, recv_buf, sizeof(recv_buf), MSG_DONTWAIT),
SyscallFailsWithErrno(EAGAIN));
}
// Send and receive an ICMP packet.
TEST_F(RawSocketICMPTest, SendAndReceive) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
// Prepare and send an ICMP packet. Use arbitrary junk for sequence and ID.
// None of that should matter for raw sockets - the kernel should still give
// us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2012;
icmp.un.echo.id = 2014;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
ASSERT_NO_FATAL_FAILURE(SendEmptyICMP(icmp));
ASSERT_NO_FATAL_FAILURE(ExpectICMPSuccess(icmp));
}
// We should be able to create multiple raw sockets for the same protocol and
// receive the same packet on both.
TEST_F(RawSocketICMPTest, MultipleSocketReceive) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
FileDescriptor s2 =
ASSERT_NO_ERRNO_AND_VALUE(Socket(AF_INET, SOCK_RAW, IPPROTO_ICMP));
// Prepare and send an ICMP packet. Use arbitrary junk for sequence and ID.
// None of that should matter for raw sockets - the kernel should still give
// us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2016;
icmp.un.echo.id = 2018;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
ASSERT_NO_FATAL_FAILURE(SendEmptyICMP(icmp));
// Both sockets will receive the echo request and reply in indeterminate
// order, so we'll need to read 2 packets from each.
// Receive on socket 1.
constexpr int kBufSize = kEmptyICMPSize;
char recv_buf1[2][kBufSize];
struct sockaddr_in src;
for (int i = 0; i < 2; i++) {
ASSERT_NO_FATAL_FAILURE(ReceiveICMP(recv_buf1[i],
ABSL_ARRAYSIZE(recv_buf1[i]),
sizeof(struct icmphdr), &src));
EXPECT_EQ(memcmp(&src, &addr_, sizeof(src)), 0);
}
// Receive on socket 2.
char recv_buf2[2][kBufSize];
for (int i = 0; i < 2; i++) {
ASSERT_NO_FATAL_FAILURE(
ReceiveICMPFrom(recv_buf2[i], ABSL_ARRAYSIZE(recv_buf2[i]),
sizeof(struct icmphdr), &src, s2.get()));
EXPECT_EQ(memcmp(&src, &addr_, sizeof(src)), 0);
}
// Ensure both sockets receive identical packets.
int types[] = {ICMP_ECHO, ICMP_ECHOREPLY};
for (int type : types) {
auto match_type = [=](char buf[kBufSize]) {
struct icmphdr* icmp =
reinterpret_cast<struct icmphdr*>(buf + sizeof(struct iphdr));
return icmp->type == type;
};
auto icmp1_it =
std::find_if(std::begin(recv_buf1), std::end(recv_buf1), match_type);
auto icmp2_it =
std::find_if(std::begin(recv_buf2), std::end(recv_buf2), match_type);
ASSERT_NE(icmp1_it, std::end(recv_buf1));
ASSERT_NE(icmp2_it, std::end(recv_buf2));
EXPECT_EQ(memcmp(*icmp1_it + sizeof(struct iphdr),
*icmp2_it + sizeof(struct iphdr), sizeof(icmp)),
0);
}
}
// A raw ICMP socket and ping socket should both receive the ICMP packets
// intended for the ping socket.
TEST_F(RawSocketICMPTest, RawAndPingSockets) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
FileDescriptor ping_sock =
ASSERT_NO_ERRNO_AND_VALUE(Socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP));
// Ping sockets take care of the ICMP ID and checksum.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.un.echo.sequence = *static_cast<unsigned short*>(&icmp.un.echo.sequence);
ASSERT_THAT(RetryEINTR(sendto)(ping_sock.get(), &icmp, sizeof(icmp), 0,
reinterpret_cast<struct sockaddr*>(&addr_),
sizeof(addr_)),
SyscallSucceedsWithValue(sizeof(icmp)));
// Receive on socket 1, which receives the echo request and reply in
// indeterminate order.
constexpr int kBufSize = kEmptyICMPSize;
char recv_buf1[2][kBufSize];
struct sockaddr_in src;
for (int i = 0; i < 2; i++) {
ASSERT_NO_FATAL_FAILURE(
ReceiveICMP(recv_buf1[i], kBufSize, sizeof(struct icmphdr), &src));
EXPECT_EQ(memcmp(&src, &addr_, sizeof(src)), 0);
}
// Receive on socket 2. Ping sockets only get the echo reply, not the initial
// echo.
char ping_recv_buf[kBufSize];
ASSERT_THAT(RetryEINTR(recv)(ping_sock.get(), ping_recv_buf, kBufSize, 0),
SyscallSucceedsWithValue(sizeof(struct icmphdr)));
// Ensure both sockets receive identical echo reply packets.
auto match_type_raw = [=](char buf[kBufSize]) {
struct icmphdr* icmp =
reinterpret_cast<struct icmphdr*>(buf + sizeof(struct iphdr));
return icmp->type == ICMP_ECHOREPLY;
};
auto raw_reply_it =
std::find_if(std::begin(recv_buf1), std::end(recv_buf1), match_type_raw);
ASSERT_NE(raw_reply_it, std::end(recv_buf1));
EXPECT_EQ(
memcmp(*raw_reply_it + sizeof(struct iphdr), ping_recv_buf, sizeof(icmp)),
0);
}
// A raw ICMP socket should be able to send a malformed short ICMP Echo Request,
// while a ping socket should not. Neither should be able to receieve a short
// malformed packet.
TEST_F(RawSocketICMPTest, ShortEchoRawAndPingSockets) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
FileDescriptor ping_sock =
ASSERT_NO_ERRNO_AND_VALUE(Socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP));
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.un.echo.sequence = 0;
icmp.un.echo.id = 6789;
icmp.checksum = 0;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
// Omit 2 bytes from ICMP packet.
constexpr int kShortICMPSize = sizeof(icmp) - 2;
// Sending a malformed short ICMP message to a ping socket should fail.
ASSERT_THAT(RetryEINTR(sendto)(ping_sock.get(), &icmp, kShortICMPSize, 0,
reinterpret_cast<struct sockaddr*>(&addr_),
sizeof(addr_)),
SyscallFailsWithErrno(EINVAL));
// Sending a malformed short ICMP message to a raw socket should not fail.
ASSERT_THAT(RetryEINTR(sendto)(s_, &icmp, kShortICMPSize, 0,
reinterpret_cast<struct sockaddr*>(&addr_),
sizeof(addr_)),
SyscallSucceedsWithValue(kShortICMPSize));
// Neither Ping nor Raw socket should have anything to read.
char recv_buf[kEmptyICMPSize];
EXPECT_THAT(RetryEINTR(recv)(ping_sock.get(), recv_buf, sizeof(recv_buf),
MSG_DONTWAIT),
SyscallFailsWithErrno(EAGAIN));
EXPECT_THAT(RetryEINTR(recv)(s_, recv_buf, sizeof(recv_buf), MSG_DONTWAIT),
SyscallFailsWithErrno(EAGAIN));
}
// A raw ICMP socket should be able to send a malformed short ICMP Echo Reply,
// while ping socket should not.
// Neither should be able to receieve a short malformed packet.
TEST_F(RawSocketICMPTest, ShortEchoReplyRawAndPingSockets) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
FileDescriptor ping_sock =
ASSERT_NO_ERRNO_AND_VALUE(Socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP));
struct icmphdr icmp;
icmp.type = ICMP_ECHOREPLY;
icmp.code = 0;
icmp.un.echo.sequence = 0;
icmp.un.echo.id = 6789;
icmp.checksum = 0;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
// Omit 2 bytes from ICMP packet.
constexpr int kShortICMPSize = sizeof(icmp) - 2;
// Sending a malformed short ICMP message to a ping socket should fail.
ASSERT_THAT(RetryEINTR(sendto)(ping_sock.get(), &icmp, kShortICMPSize, 0,
reinterpret_cast<struct sockaddr*>(&addr_),
sizeof(addr_)),
SyscallFailsWithErrno(EINVAL));
// Sending a malformed short ICMP message to a raw socket should not fail.
ASSERT_THAT(RetryEINTR(sendto)(s_, &icmp, kShortICMPSize, 0,
reinterpret_cast<struct sockaddr*>(&addr_),
sizeof(addr_)),
SyscallSucceedsWithValue(kShortICMPSize));
// Neither Ping nor Raw socket should have anything to read.
char recv_buf[kEmptyICMPSize];
EXPECT_THAT(RetryEINTR(recv)(ping_sock.get(), recv_buf, sizeof(recv_buf),
MSG_DONTWAIT),
SyscallFailsWithErrno(EAGAIN));
EXPECT_THAT(RetryEINTR(recv)(s_, recv_buf, sizeof(recv_buf), MSG_DONTWAIT),
SyscallFailsWithErrno(EAGAIN));
}
// Test that connect() sends packets to the right place.
TEST_F(RawSocketICMPTest, SendAndReceiveViaConnect) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
ASSERT_THAT(
connect(s_, reinterpret_cast<struct sockaddr*>(&addr_), sizeof(addr_)),
SyscallSucceeds());
// Prepare and send an ICMP packet. Use arbitrary junk for sequence and ID.
// None of that should matter for raw sockets - the kernel should still give
// us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2003;
icmp.un.echo.id = 2004;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
ASSERT_THAT(send(s_, &icmp, sizeof(icmp), 0),
SyscallSucceedsWithValue(sizeof(icmp)));
ASSERT_NO_FATAL_FAILURE(ExpectICMPSuccess(icmp));
}
// Bind to localhost, then send and receive packets.
TEST_F(RawSocketICMPTest, BindSendAndReceive) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
ASSERT_THAT(
bind(s_, reinterpret_cast<struct sockaddr*>(&addr_), sizeof(addr_)),
SyscallSucceeds());
// Prepare and send an ICMP packet. Use arbitrary junk for checksum, sequence,
// and ID. None of that should matter for raw sockets - the kernel should
// still give us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2004;
icmp.un.echo.id = 2007;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
ASSERT_NO_FATAL_FAILURE(SendEmptyICMP(icmp));
ASSERT_NO_FATAL_FAILURE(ExpectICMPSuccess(icmp));
}
// Bind and connect to localhost and send/receive packets.
TEST_F(RawSocketICMPTest, BindConnectSendAndReceive) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
ASSERT_THAT(
bind(s_, reinterpret_cast<struct sockaddr*>(&addr_), sizeof(addr_)),
SyscallSucceeds());
ASSERT_THAT(
connect(s_, reinterpret_cast<struct sockaddr*>(&addr_), sizeof(addr_)),
SyscallSucceeds());
// Prepare and send an ICMP packet. Use arbitrary junk for checksum, sequence,
// and ID. None of that should matter for raw sockets - the kernel should
// still give us the packet.
struct icmphdr icmp;
icmp.type = ICMP_ECHO;
icmp.code = 0;
icmp.checksum = 0;
icmp.un.echo.sequence = 2010;
icmp.un.echo.id = 7;
icmp.checksum = ICMPChecksum(icmp, NULL, 0);
ASSERT_NO_FATAL_FAILURE(SendEmptyICMP(icmp));
ASSERT_NO_FATAL_FAILURE(ExpectICMPSuccess(icmp));
}
// Set and get SO_LINGER.
TEST_F(RawSocketICMPTest, SetAndGetSocketLinger) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
int level = SOL_SOCKET;
int type = SO_LINGER;
struct linger sl;
sl.l_onoff = 1;
sl.l_linger = 5;
ASSERT_THAT(setsockopt(s_, level, type, &sl, sizeof(sl)),
SyscallSucceedsWithValue(0));
struct linger got_linger = {};
socklen_t length = sizeof(sl);
ASSERT_THAT(getsockopt(s_, level, type, &got_linger, &length),
SyscallSucceedsWithValue(0));
ASSERT_EQ(length, sizeof(got_linger));
EXPECT_EQ(0, memcmp(&sl, &got_linger, length));
}
// Test getsockopt for SO_ACCEPTCONN.
TEST_F(RawSocketICMPTest, GetSocketAcceptConn) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability(CAP_NET_RAW)));
int got = -1;
socklen_t length = sizeof(got);
ASSERT_THAT(getsockopt(s_, SOL_SOCKET, SO_ACCEPTCONN, &got, &length),
SyscallSucceedsWithValue(0));
ASSERT_EQ(length, sizeof(got));
EXPECT_EQ(got, 0);
}
void RawSocketICMPTest::ExpectICMPSuccess(const struct icmphdr& icmp) {
// We're going to receive both the echo request and reply, but the order is
// indeterminate.
char recv_buf[kEmptyICMPSize];
struct sockaddr_in src;
bool received_request = false;
bool received_reply = false;
for (int i = 0; i < 2; i++) {
// Receive the packet.
ASSERT_NO_FATAL_FAILURE(ReceiveICMP(recv_buf, ABSL_ARRAYSIZE(recv_buf),
sizeof(struct icmphdr), &src));
EXPECT_EQ(memcmp(&src, &addr_, sizeof(src)), 0);
struct icmphdr* recvd_icmp =
reinterpret_cast<struct icmphdr*>(recv_buf + sizeof(struct iphdr));
switch (recvd_icmp->type) {
case ICMP_ECHO:
EXPECT_FALSE(received_request);
received_request = true;
// The packet should be identical to what we sent.
EXPECT_EQ(memcmp(recv_buf + sizeof(struct iphdr), &icmp, sizeof(icmp)),
0);
break;
case ICMP_ECHOREPLY:
EXPECT_FALSE(received_reply);
received_reply = true;
// Most fields should be the same.
EXPECT_EQ(recvd_icmp->code, icmp.code);
EXPECT_EQ(recvd_icmp->un.echo.sequence, icmp.un.echo.sequence);
EXPECT_EQ(recvd_icmp->un.echo.id, icmp.un.echo.id);
// A couple are different.
EXPECT_EQ(recvd_icmp->type, ICMP_ECHOREPLY);
// The checksum computed over the reply should still be valid.
EXPECT_EQ(ICMPChecksum(*recvd_icmp, NULL, 0), 0);
break;
}
}
ASSERT_TRUE(received_request);
ASSERT_TRUE(received_reply);
}
void RawSocketICMPTest::SendEmptyICMP(const struct icmphdr& icmp) {
ASSERT_NO_FATAL_FAILURE(SendEmptyICMPTo(s_, addr_, icmp));
}
void RawSocketICMPTest::SendEmptyICMPTo(int sock,
const struct sockaddr_in& addr,
const struct icmphdr& icmp) {
// It's safe to use const_cast here because sendmsg won't modify the iovec or
// address.
struct iovec iov = {};
iov.iov_base = static_cast<void*>(const_cast<struct icmphdr*>(&icmp));
iov.iov_len = sizeof(icmp);
struct msghdr msg = {};
msg.msg_name = static_cast<void*>(const_cast<struct sockaddr_in*>(&addr));
msg.msg_namelen = sizeof(addr);
msg.msg_iov = &iov;
msg.msg_iovlen = 1;
msg.msg_control = NULL;
msg.msg_controllen = 0;
msg.msg_flags = 0;
ASSERT_THAT(sendmsg(sock, &msg, 0), SyscallSucceedsWithValue(sizeof(icmp)));
}
void RawSocketICMPTest::ReceiveICMP(char* recv_buf, size_t recv_buf_len,
size_t expected_size,
struct sockaddr_in* src) {
ASSERT_NO_FATAL_FAILURE(
ReceiveICMPFrom(recv_buf, recv_buf_len, expected_size, src, s_));
}
void RawSocketICMPTest::ReceiveICMPFrom(char* recv_buf, size_t recv_buf_len,
size_t expected_size,
struct sockaddr_in* src, int sock) {
struct iovec iov = {};
iov.iov_base = recv_buf;
iov.iov_len = recv_buf_len;
struct msghdr msg = {};
msg.msg_name = src;
msg.msg_namelen = sizeof(*src);
msg.msg_iov = &iov;
msg.msg_iovlen = 1;
msg.msg_control = NULL;
msg.msg_controllen = 0;
msg.msg_flags = 0;
// We should receive the ICMP packet plus 20 bytes of IP header.
ASSERT_THAT(recvmsg(sock, &msg, 0),
SyscallSucceedsWithValue(expected_size + sizeof(struct iphdr)));
}
} // namespace
} // namespace testing
} // namespace gvisor
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