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// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2020, Tessares SA. */
/* Copyright (c) 2022, SUSE. */
#include <linux/const.h>
#include <netinet/in.h>
#include <test_progs.h>
#include "cgroup_helpers.h"
#include "network_helpers.h"
#include "mptcp_sock.skel.h"
#include "mptcpify.skel.h"
#define NS_TEST "mptcp_ns"
#ifndef IPPROTO_MPTCP
#define IPPROTO_MPTCP 262
#endif
#ifndef SOL_MPTCP
#define SOL_MPTCP 284
#endif
#ifndef MPTCP_INFO
#define MPTCP_INFO 1
#endif
#ifndef MPTCP_INFO_FLAG_FALLBACK
#define MPTCP_INFO_FLAG_FALLBACK _BITUL(0)
#endif
#ifndef MPTCP_INFO_FLAG_REMOTE_KEY_RECEIVED
#define MPTCP_INFO_FLAG_REMOTE_KEY_RECEIVED _BITUL(1)
#endif
#ifndef TCP_CA_NAME_MAX
#define TCP_CA_NAME_MAX 16
#endif
struct __mptcp_info {
__u8 mptcpi_subflows;
__u8 mptcpi_add_addr_signal;
__u8 mptcpi_add_addr_accepted;
__u8 mptcpi_subflows_max;
__u8 mptcpi_add_addr_signal_max;
__u8 mptcpi_add_addr_accepted_max;
__u32 mptcpi_flags;
__u32 mptcpi_token;
__u64 mptcpi_write_seq;
__u64 mptcpi_snd_una;
__u64 mptcpi_rcv_nxt;
__u8 mptcpi_local_addr_used;
__u8 mptcpi_local_addr_max;
__u8 mptcpi_csum_enabled;
__u32 mptcpi_retransmits;
__u64 mptcpi_bytes_retrans;
__u64 mptcpi_bytes_sent;
__u64 mptcpi_bytes_received;
__u64 mptcpi_bytes_acked;
};
struct mptcp_storage {
__u32 invoked;
__u32 is_mptcp;
struct sock *sk;
__u32 token;
struct sock *first;
char ca_name[TCP_CA_NAME_MAX];
};
static struct nstoken *create_netns(void)
{
SYS(fail, "ip netns add %s", NS_TEST);
SYS(fail, "ip -net %s link set dev lo up", NS_TEST);
return open_netns(NS_TEST);
fail:
return NULL;
}
static void cleanup_netns(struct nstoken *nstoken)
{
if (nstoken)
close_netns(nstoken);
SYS_NOFAIL("ip netns del %s", NS_TEST);
}
static int start_mptcp_server(int family, const char *addr_str, __u16 port,
int timeout_ms)
{
struct network_helper_opts opts = {
.timeout_ms = timeout_ms,
.proto = IPPROTO_MPTCP,
};
struct sockaddr_storage addr;
socklen_t addrlen;
if (make_sockaddr(family, addr_str, port, &addr, &addrlen))
return -1;
return start_server_addr(SOCK_STREAM, &addr, addrlen, &opts);
}
static int verify_tsk(int map_fd, int client_fd)
{
int err, cfd = client_fd;
struct mptcp_storage val;
err = bpf_map_lookup_elem(map_fd, &cfd, &val);
if (!ASSERT_OK(err, "bpf_map_lookup_elem"))
return err;
if (!ASSERT_EQ(val.invoked, 1, "unexpected invoked count"))
err++;
if (!ASSERT_EQ(val.is_mptcp, 0, "unexpected is_mptcp"))
err++;
return err;
}
static void get_msk_ca_name(char ca_name[])
{
size_t len;
int fd;
fd = open("/proc/sys/net/ipv4/tcp_congestion_control", O_RDONLY);
if (!ASSERT_GE(fd, 0, "failed to open tcp_congestion_control"))
return;
len = read(fd, ca_name, TCP_CA_NAME_MAX);
if (!ASSERT_GT(len, 0, "failed to read ca_name"))
goto err;
if (len > 0 && ca_name[len - 1] == '\n')
ca_name[len - 1] = '\0';
err:
close(fd);
}
static int verify_msk(int map_fd, int client_fd, __u32 token)
{
char ca_name[TCP_CA_NAME_MAX];
int err, cfd = client_fd;
struct mptcp_storage val;
if (!ASSERT_GT(token, 0, "invalid token"))
return -1;
get_msk_ca_name(ca_name);
err = bpf_map_lookup_elem(map_fd, &cfd, &val);
if (!ASSERT_OK(err, "bpf_map_lookup_elem"))
return err;
if (!ASSERT_EQ(val.invoked, 1, "unexpected invoked count"))
err++;
if (!ASSERT_EQ(val.is_mptcp, 1, "unexpected is_mptcp"))
err++;
if (!ASSERT_EQ(val.token, token, "unexpected token"))
err++;
if (!ASSERT_EQ(val.first, val.sk, "unexpected first"))
err++;
if (!ASSERT_STRNEQ(val.ca_name, ca_name, TCP_CA_NAME_MAX, "unexpected ca_name"))
err++;
return err;
}
static int run_test(int cgroup_fd, int server_fd, bool is_mptcp)
{
int client_fd, prog_fd, map_fd, err;
struct mptcp_sock *sock_skel;
sock_skel = mptcp_sock__open_and_load();
if (!ASSERT_OK_PTR(sock_skel, "skel_open_load"))
return libbpf_get_error(sock_skel);
err = mptcp_sock__attach(sock_skel);
if (!ASSERT_OK(err, "skel_attach"))
goto out;
prog_fd = bpf_program__fd(sock_skel->progs._sockops);
map_fd = bpf_map__fd(sock_skel->maps.socket_storage_map);
err = bpf_prog_attach(prog_fd, cgroup_fd, BPF_CGROUP_SOCK_OPS, 0);
if (!ASSERT_OK(err, "bpf_prog_attach"))
goto out;
client_fd = connect_to_fd(server_fd, 0);
if (!ASSERT_GE(client_fd, 0, "connect to fd")) {
err = -EIO;
goto out;
}
err += is_mptcp ? verify_msk(map_fd, client_fd, sock_skel->bss->token) :
verify_tsk(map_fd, client_fd);
close(client_fd);
out:
mptcp_sock__destroy(sock_skel);
return err;
}
static void test_base(void)
{
struct nstoken *nstoken = NULL;
int server_fd, cgroup_fd;
cgroup_fd = test__join_cgroup("/mptcp");
if (!ASSERT_GE(cgroup_fd, 0, "test__join_cgroup"))
return;
nstoken = create_netns();
if (!ASSERT_OK_PTR(nstoken, "create_netns"))
goto fail;
/* without MPTCP */
server_fd = start_server(AF_INET, SOCK_STREAM, NULL, 0, 0);
if (!ASSERT_GE(server_fd, 0, "start_server"))
goto with_mptcp;
ASSERT_OK(run_test(cgroup_fd, server_fd, false), "run_test tcp");
close(server_fd);
with_mptcp:
/* with MPTCP */
server_fd = start_mptcp_server(AF_INET, NULL, 0, 0);
if (!ASSERT_GE(server_fd, 0, "start_mptcp_server"))
goto fail;
ASSERT_OK(run_test(cgroup_fd, server_fd, true), "run_test mptcp");
close(server_fd);
fail:
cleanup_netns(nstoken);
close(cgroup_fd);
}
static void send_byte(int fd)
{
char b = 0x55;
ASSERT_EQ(write(fd, &b, sizeof(b)), 1, "send single byte");
}
static int verify_mptcpify(int server_fd, int client_fd)
{
struct __mptcp_info info;
socklen_t optlen;
int protocol;
int err = 0;
optlen = sizeof(protocol);
if (!ASSERT_OK(getsockopt(server_fd, SOL_SOCKET, SO_PROTOCOL, &protocol, &optlen),
"getsockopt(SOL_PROTOCOL)"))
return -1;
if (!ASSERT_EQ(protocol, IPPROTO_MPTCP, "protocol isn't MPTCP"))
err++;
optlen = sizeof(info);
if (!ASSERT_OK(getsockopt(client_fd, SOL_MPTCP, MPTCP_INFO, &info, &optlen),
"getsockopt(MPTCP_INFO)"))
return -1;
if (!ASSERT_GE(info.mptcpi_flags, 0, "unexpected mptcpi_flags"))
err++;
if (!ASSERT_FALSE(info.mptcpi_flags & MPTCP_INFO_FLAG_FALLBACK,
"MPTCP fallback"))
err++;
if (!ASSERT_TRUE(info.mptcpi_flags & MPTCP_INFO_FLAG_REMOTE_KEY_RECEIVED,
"no remote key received"))
err++;
return err;
}
static int run_mptcpify(int cgroup_fd)
{
int server_fd, client_fd, err = 0;
struct mptcpify *mptcpify_skel;
mptcpify_skel = mptcpify__open_and_load();
if (!ASSERT_OK_PTR(mptcpify_skel, "skel_open_load"))
return libbpf_get_error(mptcpify_skel);
mptcpify_skel->bss->pid = getpid();
err = mptcpify__attach(mptcpify_skel);
if (!ASSERT_OK(err, "skel_attach"))
goto out;
/* without MPTCP */
server_fd = start_server(AF_INET, SOCK_STREAM, NULL, 0, 0);
if (!ASSERT_GE(server_fd, 0, "start_server")) {
err = -EIO;
goto out;
}
client_fd = connect_to_fd(server_fd, 0);
if (!ASSERT_GE(client_fd, 0, "connect to fd")) {
err = -EIO;
goto close_server;
}
send_byte(client_fd);
err = verify_mptcpify(server_fd, client_fd);
close(client_fd);
close_server:
close(server_fd);
out:
mptcpify__destroy(mptcpify_skel);
return err;
}
static void test_mptcpify(void)
{
struct nstoken *nstoken = NULL;
int cgroup_fd;
cgroup_fd = test__join_cgroup("/mptcpify");
if (!ASSERT_GE(cgroup_fd, 0, "test__join_cgroup"))
return;
nstoken = create_netns();
if (!ASSERT_OK_PTR(nstoken, "create_netns"))
goto fail;
ASSERT_OK(run_mptcpify(cgroup_fd), "run_mptcpify");
fail:
cleanup_netns(nstoken);
close(cgroup_fd);
}
void test_mptcp(void)
{
if (test__start_subtest("base"))
test_base();
if (test__start_subtest("mptcpify"))
test_mptcpify();
}
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