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| | // SPDX-License-Identifier: GPL-2.0-or-later
/* PASTA - Pack A Subtle Tap Abstraction
* for network namespace/tap device mode
*
* tcp_splice.c - direct namespace forwarding for local connections
*
* Copyright (c) 2020-2022 Red Hat GmbH
* Author: Stefano Brivio <sbrivio@redhat.com>
*/
/**
* DOC: Theory of Operation
*
*
* For local traffic directed to TCP ports configured for direct
* mapping between namespaces, packets are directly translated between
* L4 sockets using a pair of splice() syscalls. These connections are
* tracked by struct tcp_splice_conn entries in the @tc array, using
* these events:
*
* - SPLICE_CONNECT: connection accepted, connecting to target
* - SPLICE_ESTABLISHED: connection to target established
* - OUT_WAIT_0: pipe to accepted socket full, wait for EPOLLOUT
* - OUT_WAIT_1: pipe to target socket full, wait for EPOLLOUT
* - FIN_RCVD_0: FIN (EPOLLRDHUP) seen from accepted socket
* - FIN_RCVD_1: FIN (EPOLLRDHUP) seen from target socket
* - FIN_SENT_0: FIN (write shutdown) sent to accepted socket
* - FIN_SENT_1: FIN (write shutdown) sent to target socket
*
* #syscalls:pasta pipe2|pipe fcntl arm:fcntl64 ppc64:fcntl64 i686:fcntl64
*/
#include <sched.h>
#include <unistd.h>
#include <signal.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include <time.h>
#include <net/ethernet.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <sys/epoll.h>
#include <sys/types.h>
#include <sys/socket.h>
#include "util.h"
#include "ip.h"
#include "passt.h"
#include "log.h"
#include "tcp_splice.h"
#include "siphash.h"
#include "inany.h"
#include "flow.h"
#include "flow_table.h"
#define MAX_PIPE_SIZE (8UL * 1024 * 1024)
#define TCP_SPLICE_PIPE_POOL_SIZE 32
#define TCP_SPLICE_CONN_PRESSURE 30 /* % of conn_count */
#define TCP_SPLICE_FILE_PRESSURE 30 /* % of c->nofile */
/* Pools for pre-opened sockets (in namespace) */
#define TCP_SOCK_POOL_TSH 16 /* Refill in ns if > x used */
static int ns_sock_pool4 [TCP_SOCK_POOL_SIZE];
static int ns_sock_pool6 [TCP_SOCK_POOL_SIZE];
/* Pool of pre-opened pipes */
static int splice_pipe_pool [TCP_SPLICE_PIPE_POOL_SIZE][2];
#define CONN_HAS(conn, set) (((conn)->events & (set)) == (set))
/* Display strings for connection events */
static const char *tcp_splice_event_str[] __attribute((__unused__)) = {
"SPLICE_CONNECT", "SPLICE_ESTABLISHED", "OUT_WAIT_0", "OUT_WAIT_1",
"FIN_RCVD_0", "FIN_RCVD_1", "FIN_SENT_0", "FIN_SENT_1",
};
/* Display strings for connection flags */
static const char *tcp_splice_flag_str[] __attribute((__unused__)) = {
"SPLICE_V6", "RCVLOWAT_SET_0", "RCVLOWAT_SET_1", "RCVLOWAT_ACT_0",
"RCVLOWAT_ACT_1", "CLOSING",
};
/* Forward declaration */
static int tcp_sock_refill_ns(void *arg);
static int tcp_conn_sock_ns(const struct ctx *c, sa_family_t af);
/**
* conn_at_sidx() - Get spliced TCP connection specific flow at given sidx
* @sidx: Flow and side to retrieve
*
* Return: Spliced TCP connection at @sidx, or NULL of @sidx is invalid.
* Asserts if the flow at @sidx is not FLOW_TCP_SPLICE.
*/
static struct tcp_splice_conn *conn_at_sidx(flow_sidx_t sidx)
{
union flow *flow = flow_at_sidx(sidx);
if (!flow)
return NULL;
ASSERT(flow->f.type == FLOW_TCP_SPLICE);
return &flow->tcp_splice;
}
/**
* tcp_splice_conn_epoll_events() - epoll events masks for given state
* @events: Connection event flags
* @ev: Events to fill in, 0 is accepted socket, 1 is connecting socket
*/
static void tcp_splice_conn_epoll_events(uint16_t events,
struct epoll_event ev[])
{
unsigned sidei;
flow_foreach_sidei(sidei)
ev[sidei].events = 0;
if (events & SPLICE_ESTABLISHED) {
flow_foreach_sidei(sidei) {
if (!(events & FIN_SENT(!sidei)))
ev[sidei].events = EPOLLIN | EPOLLRDHUP;
}
} else if (events & SPLICE_CONNECT) {
ev[1].events = EPOLLOUT;
}
flow_foreach_sidei(sidei)
ev[sidei].events |= (events & OUT_WAIT(sidei)) ? EPOLLOUT : 0;
}
/**
* tcp_splice_epoll_ctl() - Add/modify/delete epoll state from connection events
* @c: Execution context
* @conn: Connection pointer
*
* Return: 0 on success, negative error code on failure (not on deletion)
*/
static int tcp_splice_epoll_ctl(const struct ctx *c,
struct tcp_splice_conn *conn)
{
int m = conn->in_epoll ? EPOLL_CTL_MOD : EPOLL_CTL_ADD;
const union epoll_ref ref[SIDES] = {
{ .type = EPOLL_TYPE_TCP_SPLICE, .fd = conn->s[0],
.flowside = FLOW_SIDX(conn, 0) },
{ .type = EPOLL_TYPE_TCP_SPLICE, .fd = conn->s[1],
.flowside = FLOW_SIDX(conn, 1) }
};
struct epoll_event ev[SIDES] = { { .data.u64 = ref[0].u64 },
{ .data.u64 = ref[1].u64 } };
tcp_splice_conn_epoll_events(conn->events, ev);
if (epoll_ctl(c->epollfd, m, conn->s[0], &ev[0]) ||
epoll_ctl(c->epollfd, m, conn->s[1], &ev[1])) {
int ret = -errno;
flow_err(conn, "ERROR on epoll_ctl(): %s", __strerror(errno));
return ret;
}
conn->in_epoll = true;
return 0;
}
/**
* conn_flag_do() - Set/unset given flag, log, update epoll on CLOSING flag
* @c: Execution context
* @conn: Connection pointer
* @flag: Flag to set, or ~flag to unset
*/
static void conn_flag_do(const struct ctx *c, struct tcp_splice_conn *conn,
unsigned long flag)
{
if (flag & (flag - 1)) {
int flag_index = fls(~flag);
if (!(conn->flags & ~flag))
return;
conn->flags &= flag;
if (flag_index >= 0)
flow_dbg(conn, "%s dropped",
tcp_splice_flag_str[flag_index]);
} else {
int flag_index = fls(flag);
if (conn->flags & flag)
return;
conn->flags |= flag;
if (flag_index >= 0)
flow_dbg(conn, "%s", tcp_splice_flag_str[flag_index]);
}
if (flag == CLOSING) {
epoll_ctl(c->epollfd, EPOLL_CTL_DEL, conn->s[0], NULL);
epoll_ctl(c->epollfd, EPOLL_CTL_DEL, conn->s[1], NULL);
}
}
#define conn_flag(c, conn, flag) \
do { \
flow_trace(conn, "flag at %s:%i", __func__, __LINE__); \
conn_flag_do(c, conn, flag); \
} while (0)
/**
* conn_event_do() - Set and log connection events, update epoll state
* @c: Execution context
* @conn: Connection pointer
* @event: Connection event
*/
static void conn_event_do(const struct ctx *c, struct tcp_splice_conn *conn,
unsigned long event)
{
if (event & (event - 1)) {
int flag_index = fls(~event);
if (!(conn->events & ~event))
return;
conn->events &= event;
if (flag_index >= 0)
flow_dbg(conn, "~%s", tcp_splice_event_str[flag_index]);
} else {
int flag_index = fls(event);
if (conn->events & event)
return;
conn->events |= event;
if (flag_index >= 0)
flow_dbg(conn, "%s", tcp_splice_event_str[flag_index]);
}
if (tcp_splice_epoll_ctl(c, conn))
conn_flag(c, conn, CLOSING);
}
#define conn_event(c, conn, event) \
do { \
flow_trace(conn, "event at %s:%i",__func__, __LINE__); \
conn_event_do(c, conn, event); \
} while (0)
/**
* tcp_splice_flow_defer() - Deferred per-flow handling (clean up closed)
* @conn: Connection entry to handle
*
* Return: true if the flow is ready to free, false otherwise
*/
bool tcp_splice_flow_defer(struct tcp_splice_conn *conn)
{
unsigned sidei;
if (!(conn->flags & CLOSING))
return false;
flow_foreach_sidei(sidei) {
/* Flushing might need to block: don't recycle them. */
if (conn->pipe[sidei][0] >= 0) {
close(conn->pipe[sidei][0]);
close(conn->pipe[sidei][1]);
conn->pipe[sidei][0] = conn->pipe[sidei][1] = -1;
}
if (conn->s[sidei] >= 0) {
close(conn->s[sidei]);
conn->s[sidei] = -1;
}
conn->read[sidei] = conn->written[sidei] = 0;
}
conn->events = SPLICE_CLOSED;
conn->flags = 0;
flow_dbg(conn, "CLOSED");
return true;
}
/**
* tcp_splice_connect_finish() - Completion of connect() or call on success
* @c: Execution context
* @conn: Connection pointer
*
* Return: 0 on success, -EIO on failure
*/
static int tcp_splice_connect_finish(const struct ctx *c,
struct tcp_splice_conn *conn)
{
unsigned sidei;
int i = 0;
flow_foreach_sidei(sidei) {
for (; i < TCP_SPLICE_PIPE_POOL_SIZE; i++) {
if (splice_pipe_pool[i][0] >= 0) {
SWAP(conn->pipe[sidei][0],
splice_pipe_pool[i][0]);
SWAP(conn->pipe[sidei][1],
splice_pipe_pool[i][1]);
break;
}
}
if (conn->pipe[sidei][0] < 0) {
if (pipe2(conn->pipe[sidei], O_NONBLOCK | O_CLOEXEC)) {
flow_err(conn, "cannot create %d->%d pipe: %s",
sidei, !sidei, __strerror(errno));
conn_flag(c, conn, CLOSING);
return -EIO;
}
if (fcntl(conn->pipe[sidei][0], F_SETPIPE_SZ,
c->tcp.pipe_size) != (int)c->tcp.pipe_size) {
flow_trace(conn,
"cannot set %d->%d pipe size to %zu",
sidei, !sidei, c->tcp.pipe_size);
}
}
}
if (!(conn->events & SPLICE_ESTABLISHED))
conn_event(c, conn, SPLICE_ESTABLISHED);
return 0;
}
/**
* tcp_splice_connect() - Create and connect socket for new spliced connection
* @c: Execution context
* @conn: Connection pointer
*
* Return: 0 for connect() succeeded or in progress, negative value on error
*/
static int tcp_splice_connect(const struct ctx *c, struct tcp_splice_conn *conn)
{
const struct flowside *tgt = &conn->f.side[TGTSIDE];
sa_family_t af = inany_v4(&tgt->eaddr) ? AF_INET : AF_INET6;
uint8_t tgtpif = conn->f.pif[TGTSIDE];
union sockaddr_inany sa;
socklen_t sl;
if (tgtpif == PIF_HOST)
conn->s[1] = tcp_conn_sock(c, af);
else if (tgtpif == PIF_SPLICE)
conn->s[1] = tcp_conn_sock_ns(c, af);
else
ASSERT(0);
if (conn->s[1] < 0)
return -1;
if (setsockopt(conn->s[1], SOL_TCP, TCP_QUICKACK,
&((int){ 1 }), sizeof(int))) {
flow_trace(conn, "failed to set TCP_QUICKACK on socket %i",
conn->s[1]);
}
pif_sockaddr(c, &sa, &sl, tgtpif, &tgt->eaddr, tgt->eport);
if (connect(conn->s[1], &sa.sa, sl)) {
if (errno != EINPROGRESS) {
flow_trace(conn, "Couldn't connect socket for splice: %s",
__strerror(errno));
return -errno;
}
conn_event(c, conn, SPLICE_CONNECT);
} else {
conn_event(c, conn, SPLICE_ESTABLISHED);
return tcp_splice_connect_finish(c, conn);
}
return 0;
}
/**
* tcp_conn_sock_ns() - Obtain a connectable socket in the namespace
* @c: Execution context
* @af: Address family (AF_INET or AF_INET6)
*
* Return: Socket fd in the namespace on success, -errno on failure
*/
static int tcp_conn_sock_ns(const struct ctx *c, sa_family_t af)
{
int *p = af == AF_INET6 ? ns_sock_pool6 : ns_sock_pool4;
int s;
if ((s = tcp_conn_pool_sock(p)) >= 0)
return s;
/* If the pool is empty we have to incur the latency of entering the ns.
* Therefore, we might as well refill the whole pool while we're at it.
* This differs from tcp_conn_sock().
*/
NS_CALL(tcp_sock_refill_ns, c);
if ((s = tcp_conn_pool_sock(p)) >= 0)
return s;
err("TCP: No available ns sockets for new connection");
return -1;
}
/**
* tcp_splice_conn_from_sock() - Attempt to init state for a spliced connection
* @c: Execution context
* @flow: flow to initialise
* @s0: Accepted (side 0) socket
* @sa: Peer address of connection
*
* #syscalls:pasta setsockopt
*/
void tcp_splice_conn_from_sock(const struct ctx *c, union flow *flow, int s0)
{
struct tcp_splice_conn *conn = FLOW_SET_TYPE(flow, FLOW_TCP_SPLICE,
tcp_splice);
ASSERT(c->mode == MODE_PASTA);
conn->s[0] = s0;
conn->s[1] = -1;
conn->pipe[0][0] = conn->pipe[0][1] = -1;
conn->pipe[1][0] = conn->pipe[1][1] = -1;
if (setsockopt(s0, SOL_TCP, TCP_QUICKACK, &((int){ 1 }), sizeof(int)))
flow_trace(conn, "failed to set TCP_QUICKACK on %i", s0);
if (tcp_splice_connect(c, conn))
conn_flag(c, conn, CLOSING);
FLOW_ACTIVATE(conn);
}
/**
* tcp_splice_sock_handler() - Handler for socket mapped to spliced connection
* @c: Execution context
* @ref: epoll reference
* @events: epoll events bitmap
*
* #syscalls:pasta splice
*/
void tcp_splice_sock_handler(struct ctx *c, union epoll_ref ref,
uint32_t events)
{
struct tcp_splice_conn *conn = conn_at_sidx(ref.flowside);
unsigned evsidei = ref.flowside.sidei, fromsidei;
uint8_t lowat_set_flag, lowat_act_flag;
int eof, never_read;
ASSERT(conn->f.type == FLOW_TCP_SPLICE);
if (conn->events == SPLICE_CLOSED)
return;
if (events & EPOLLERR) {
int err, rc;
socklen_t sl = sizeof(err);
rc = getsockopt(ref.fd, SOL_SOCKET, SO_ERROR, &err, &sl);
if (rc)
flow_err(conn, "Error retrieving SO_ERROR: %s",
__strerror(errno));
else
flow_trace(conn, "Error event on socket: %s",
__strerror(err));
goto close;
}
if (conn->events == SPLICE_CONNECT) {
if (!(events & EPOLLOUT))
goto close;
if (tcp_splice_connect_finish(c, conn))
goto close;
}
if (events & EPOLLOUT) {
fromsidei = !evsidei;
conn_event(c, conn, ~OUT_WAIT(evsidei));
} else {
fromsidei = evsidei;
}
if (events & EPOLLRDHUP)
/* For side 0 this is fake, but implied */
conn_event(c, conn, FIN_RCVD(evsidei));
swap:
eof = 0;
never_read = 1;
lowat_set_flag = RCVLOWAT_SET(fromsidei);
lowat_act_flag = RCVLOWAT_ACT(fromsidei);
while (1) {
ssize_t readlen, written, pending;
int more = 0;
retry:
readlen = splice(conn->s[fromsidei], NULL,
conn->pipe[fromsidei][1], NULL,
c->tcp.pipe_size,
SPLICE_F_MOVE | SPLICE_F_NONBLOCK);
flow_trace(conn, "%zi from read-side call", readlen);
if (readlen < 0) {
if (errno == EINTR)
goto retry;
if (errno != EAGAIN)
goto close;
} else if (!readlen) {
eof = 1;
} else {
never_read = 0;
if (readlen >= (long)c->tcp.pipe_size * 90 / 100)
more = SPLICE_F_MORE;
if (conn->flags & lowat_set_flag)
conn_flag(c, conn, lowat_act_flag);
}
eintr:
written = splice(conn->pipe[fromsidei][0], NULL,
conn->s[!fromsidei], NULL, c->tcp.pipe_size,
SPLICE_F_MOVE | more | SPLICE_F_NONBLOCK);
flow_trace(conn, "%zi from write-side call (passed %zi)",
written, c->tcp.pipe_size);
/* Most common case: skip updating counters. */
if (readlen > 0 && readlen == written) {
if (readlen >= (long)c->tcp.pipe_size * 10 / 100)
continue;
if (conn->flags & lowat_set_flag &&
readlen > (long)c->tcp.pipe_size / 10) {
int lowat = c->tcp.pipe_size / 4;
if (setsockopt(conn->s[fromsidei], SOL_SOCKET,
SO_RCVLOWAT,
&lowat, sizeof(lowat))) {
flow_trace(conn,
"Setting SO_RCVLOWAT %i: %s",
lowat, __strerror(errno));
} else {
conn_flag(c, conn, lowat_set_flag);
conn_flag(c, conn, lowat_act_flag);
}
}
break;
}
conn->read[fromsidei] += readlen > 0 ? readlen : 0;
conn->written[fromsidei] += written > 0 ? written : 0;
if (written < 0) {
if (errno == EINTR)
goto eintr;
if (errno != EAGAIN)
goto close;
if (conn->read[fromsidei] == conn->written[fromsidei])
break;
conn_event(c, conn, OUT_WAIT(!fromsidei));
break;
}
if (never_read && written == (long)(c->tcp.pipe_size))
goto retry;
pending = conn->read[fromsidei] - conn->written[fromsidei];
if (!never_read && written > 0 && written < pending)
goto retry;
if (eof)
break;
}
if (conn->read[fromsidei] == conn->written[fromsidei] && eof) {
unsigned sidei;
flow_foreach_sidei(sidei) {
if ((conn->events & FIN_RCVD(sidei)) &&
!(conn->events & FIN_SENT(!sidei))) {
shutdown(conn->s[!sidei], SHUT_WR);
conn_event(c, conn, FIN_SENT(!sidei));
}
}
}
if (CONN_HAS(conn, FIN_SENT(0) | FIN_SENT(1)))
goto close;
if ((events & (EPOLLIN | EPOLLOUT)) == (EPOLLIN | EPOLLOUT)) {
events = EPOLLIN;
fromsidei = !fromsidei;
goto swap;
}
if (events & EPOLLHUP)
goto close;
return;
close:
conn_flag(c, conn, CLOSING);
}
/**
* tcp_set_pipe_size() - Set usable pipe size, probe starting from MAX_PIPE_SIZE
* @c: Execution context
*/
static void tcp_set_pipe_size(struct ctx *c)
{
int probe_pipe[TCP_SPLICE_PIPE_POOL_SIZE][2], i, j;
c->tcp.pipe_size = MAX_PIPE_SIZE;
smaller:
for (i = 0; i < TCP_SPLICE_PIPE_POOL_SIZE; i++) {
if (pipe2(probe_pipe[i], O_CLOEXEC)) {
i++;
break;
}
if (fcntl(probe_pipe[i][0], F_SETPIPE_SZ, c->tcp.pipe_size) < 0)
break;
}
for (j = i - 1; j >= 0; j--) {
close(probe_pipe[j][0]);
close(probe_pipe[j][1]);
}
if (i == TCP_SPLICE_PIPE_POOL_SIZE)
return;
if (!(c->tcp.pipe_size /= 2)) {
c->tcp.pipe_size = MAX_PIPE_SIZE;
return;
}
goto smaller;
}
/**
* tcp_splice_pipe_refill() - Refill pool of pre-opened pipes
* @c: Execution context
*/
static void tcp_splice_pipe_refill(const struct ctx *c)
{
int i;
for (i = 0; i < TCP_SPLICE_PIPE_POOL_SIZE; i++) {
if (splice_pipe_pool[i][0] >= 0)
break;
if (pipe2(splice_pipe_pool[i], O_NONBLOCK | O_CLOEXEC))
continue;
if (fcntl(splice_pipe_pool[i][0], F_SETPIPE_SZ,
c->tcp.pipe_size) != (int)c->tcp.pipe_size) {
trace("TCP (spliced): cannot set pool pipe size to %zu",
c->tcp.pipe_size);
}
}
}
/**
* tcp_sock_refill_ns() - Refill pools of pre-opened sockets in namespace
* @arg: Execution context cast to void *
*
* Return: 0
*/
/* cppcheck-suppress [constParameterCallback, unmatchedSuppression] */
static int tcp_sock_refill_ns(void *arg)
{
const struct ctx *c = (const struct ctx *)arg;
ns_enter(c);
if (c->ifi4) {
int rc = tcp_sock_refill_pool(c, ns_sock_pool4, AF_INET);
if (rc < 0)
warn("TCP: Error refilling IPv4 ns socket pool: %s",
__strerror(-rc));
}
if (c->ifi6) {
int rc = tcp_sock_refill_pool(c, ns_sock_pool6, AF_INET6);
if (rc < 0)
warn("TCP: Error refilling IPv6 ns socket pool: %s",
__strerror(-rc));
}
return 0;
}
/**
* tcp_splice_refill() - Refill pools of resources needed for splicing
* @c: Execution context
*/
void tcp_splice_refill(const struct ctx *c)
{
if ((c->ifi4 && ns_sock_pool4[TCP_SOCK_POOL_TSH] < 0) ||
(c->ifi6 && ns_sock_pool6[TCP_SOCK_POOL_TSH] < 0))
NS_CALL(tcp_sock_refill_ns, c);
tcp_splice_pipe_refill(c);
}
/**
* tcp_splice_init() - Initialise pipe pool and size
* @c: Execution context
*/
void tcp_splice_init(struct ctx *c)
{
memset(splice_pipe_pool, 0xff, sizeof(splice_pipe_pool));
tcp_set_pipe_size(c);
memset(&ns_sock_pool4, 0xff, sizeof(ns_sock_pool4));
memset(&ns_sock_pool6, 0xff, sizeof(ns_sock_pool6));
NS_CALL(tcp_sock_refill_ns, c);
}
/**
* tcp_splice_timer() - Timer for spliced connections
* @c: Execution context
* @conn: Connection to handle
*/
void tcp_splice_timer(const struct ctx *c, struct tcp_splice_conn *conn)
{
unsigned sidei;
ASSERT(!(conn->flags & CLOSING));
flow_foreach_sidei(sidei) {
if ((conn->flags & RCVLOWAT_SET(sidei)) &&
!(conn->flags & RCVLOWAT_ACT(sidei))) {
if (setsockopt(conn->s[sidei], SOL_SOCKET, SO_RCVLOWAT,
&((int){ 1 }), sizeof(int))) {
flow_trace(conn, "can't set SO_RCVLOWAT on %d",
conn->s[sidei]);
}
conn_flag(c, conn, ~RCVLOWAT_SET(sidei));
}
}
flow_foreach_sidei(sidei)
conn_flag(c, conn, ~RCVLOWAT_ACT(sidei));
}
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