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path: root/net/ipv4/tcp_fastopen.c
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// SPDX-License-Identifier: GPL-2.0
#include <linux/crypto.h>
#include <linux/err.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/list.h>
#include <linux/tcp.h>
#include <linux/rcupdate.h>
#include <linux/rculist.h>
#include <net/inetpeer.h>
#include <net/tcp.h>

void tcp_fastopen_init_key_once(struct net *net)
{
	u8 key[TCP_FASTOPEN_KEY_LENGTH];
	struct tcp_fastopen_context *ctxt;

	rcu_read_lock();
	ctxt = rcu_dereference(net->ipv4.tcp_fastopen_ctx);
	if (ctxt) {
		rcu_read_unlock();
		return;
	}
	rcu_read_unlock();

	/* tcp_fastopen_reset_cipher publishes the new context
	 * atomically, so we allow this race happening here.
	 *
	 * All call sites of tcp_fastopen_cookie_gen also check
	 * for a valid cookie, so this is an acceptable risk.
	 */
	get_random_bytes(key, sizeof(key));
	tcp_fastopen_reset_cipher(net, NULL, key, NULL);
}

static void tcp_fastopen_ctx_free(struct rcu_head *head)
{
	struct tcp_fastopen_context *ctx =
	    container_of(head, struct tcp_fastopen_context, rcu);

	kzfree(ctx);
}

void tcp_fastopen_destroy_cipher(struct sock *sk)
{
	struct tcp_fastopen_context *ctx;

	ctx = rcu_dereference_protected(
			inet_csk(sk)->icsk_accept_queue.fastopenq.ctx, 1);
	if (ctx)
		call_rcu(&ctx->rcu, tcp_fastopen_ctx_free);
}

void tcp_fastopen_ctx_destroy(struct net *net)
{
	struct tcp_fastopen_context *ctxt;

	spin_lock(&net->ipv4.tcp_fastopen_ctx_lock);

	ctxt = rcu_dereference_protected(net->ipv4.tcp_fastopen_ctx,
				lockdep_is_held(&net->ipv4.tcp_fastopen_ctx_lock));
	rcu_assign_pointer(net->ipv4.tcp_fastopen_ctx, NULL);
	spin_unlock(&net->ipv4.tcp_fastopen_ctx_lock);

	if (ctxt)
		call_rcu(&ctxt->rcu, tcp_fastopen_ctx_free);
}

int tcp_fastopen_reset_cipher(struct net *net, struct sock *sk,
			      void *primary_key, void *backup_key)
{
	struct tcp_fastopen_context *ctx, *octx;
	struct fastopen_queue *q;
	int err = 0;

	ctx = kmalloc(sizeof(*ctx), GFP_KERNEL);
	if (!ctx) {
		err = -ENOMEM;
		goto out;
	}

	ctx->key[0].key[0] = get_unaligned_le64(primary_key);
	ctx->key[0].key[1] = get_unaligned_le64(primary_key + 8);
	if (backup_key) {
		ctx->key[1].key[0] = get_unaligned_le64(backup_key);
		ctx->key[1].key[1] = get_unaligned_le64(backup_key + 8);
		ctx->num = 2;
	} else {
		ctx->num = 1;
	}

	spin_lock(&net->ipv4.tcp_fastopen_ctx_lock);
	if (sk) {
		q = &inet_csk(sk)->icsk_accept_queue.fastopenq;
		octx = rcu_dereference_protected(q->ctx,
			lockdep_is_held(&net->ipv4.tcp_fastopen_ctx_lock));
		rcu_assign_pointer(q->ctx, ctx);
	} else {
		octx = rcu_dereference_protected(net->ipv4.tcp_fastopen_ctx,
			lockdep_is_held(&net->ipv4.tcp_fastopen_ctx_lock));
		rcu_assign_pointer(net->ipv4.tcp_fastopen_ctx, ctx);
	}
	spin_unlock(&net->ipv4.tcp_fastopen_ctx_lock);

	if (octx)
		call_rcu(&octx->rcu, tcp_fastopen_ctx_free);
out:
	return err;
}

static bool __tcp_fastopen_cookie_gen_cipher(struct request_sock *req,
					     struct sk_buff *syn,
					     const siphash_key_t *key,
					     struct tcp_fastopen_cookie *foc)
{
	BUILD_BUG_ON(TCP_FASTOPEN_COOKIE_SIZE != sizeof(u64));

	if (req->rsk_ops->family == AF_INET) {
		const struct iphdr *iph = ip_hdr(syn);

		foc->val[0] = cpu_to_le64(siphash(&iph->saddr,
					  sizeof(iph->saddr) +
					  sizeof(iph->daddr),
					  key));
		foc->len = TCP_FASTOPEN_COOKIE_SIZE;
		return true;
	}
#if IS_ENABLED(CONFIG_IPV6)
	if (req->rsk_ops->family == AF_INET6) {
		const struct ipv6hdr *ip6h = ipv6_hdr(syn);

		foc->val[0] = cpu_to_le64(siphash(&ip6h->saddr,
					  sizeof(ip6h->saddr) +
					  sizeof(ip6h->daddr),
					  key));
		foc->len = TCP_FASTOPEN_COOKIE_SIZE;
		return true;
	}
#endif
	return false;
}

/* Generate the fastopen cookie by applying SipHash to both the source and
 * destination addresses.
 */
static void tcp_fastopen_cookie_gen(struct sock *sk,
				    struct request_sock *req,
				    struct sk_buff *syn,
				    struct tcp_fastopen_cookie *foc)
{
	struct tcp_fastopen_context *ctx;

	rcu_read_lock();
	ctx = tcp_fastopen_get_ctx(sk);
	if (ctx)
		__tcp_fastopen_cookie_gen_cipher(req, syn, &ctx->key[0], foc);
	rcu_read_unlock();
}

/* If an incoming SYN or SYNACK frame contains a payload and/or FIN,
 * queue this additional data / FIN.
 */
void tcp_fastopen_add_skb(struct sock *sk, struct sk_buff *skb)
{
	struct tcp_sock *tp = tcp_sk(sk);

	if (TCP_SKB_CB(skb)->end_seq == tp->rcv_nxt)
		return;

	skb = skb_clone(skb, GFP_ATOMIC);
	if (!skb)
		return;

	skb_dst_drop(skb);
	/* segs_in has been initialized to 1 in tcp_create_openreq_child().
	 * Hence, reset segs_in to 0 before calling tcp_segs_in()
	 * to avoid double counting.  Also, tcp_segs_in() expects
	 * skb->len to include the tcp_hdrlen.  Hence, it should
	 * be called before __skb_pull().
	 */
	tp->segs_in = 0;
	tcp_segs_in(tp, skb);
	__skb_pull(skb, tcp_hdrlen(skb));
	sk_forced_mem_schedule(sk, skb->truesize);
	skb_set_owner_r(skb, sk);

	TCP_SKB_CB(skb)->seq++;
	TCP_SKB_CB(skb)->tcp_flags &= ~TCPHDR_SYN;

	tp->rcv_nxt = TCP_SKB_CB(skb)->end_seq;
	__skb_queue_tail(&sk->sk_receive_queue, skb);
	tp->syn_data_acked = 1;

	/* u64_stats_update_begin(&tp->syncp) not needed here,
	 * as we certainly are not changing upper 32bit value (0)
	 */
	tp->bytes_received = skb->len;

	if (TCP_SKB_CB(skb)->tcp_flags & TCPHDR_FIN)
		tcp_fin(sk);
}

/* returns 0 - no key match, 1 for primary, 2 for backup */
static int tcp_fastopen_cookie_gen_check(struct sock *sk,
					 struct request_sock *req,
					 struct sk_buff *syn,
					 struct tcp_fastopen_cookie *orig,
					 struct tcp_fastopen_cookie *valid_foc)
{
	struct tcp_fastopen_cookie search_foc = { .len = -1 };
	struct tcp_fastopen_cookie *foc = valid_foc;
	struct tcp_fastopen_context *ctx;
	int i, ret = 0;

	rcu_read_lock();
	ctx = tcp_fastopen_get_ctx(sk);
	if (!ctx)
		goto out;
	for (i = 0; i < tcp_fastopen_context_len(ctx); i++) {
		__tcp_fastopen_cookie_gen_cipher(req, syn, &ctx->key[i], foc);
		if (tcp_fastopen_cookie_match(foc, orig)) {
			ret = i + 1;
			goto out;
		}
		foc = &search_foc;
	}
out:
	rcu_read_unlock();
	return ret;
}

static struct sock *tcp_fastopen_create_child(struct sock *sk,
					      struct sk_buff *skb,
					      struct request_sock *req)
{
	struct tcp_sock *tp;
	struct request_sock_queue *queue = &inet_csk(sk)->icsk_accept_queue;
	struct sock *child;
	bool own_req;

	child = inet_csk(sk)->icsk_af_ops->syn_recv_sock(sk, skb, req, NULL,
							 NULL, &own_req);
	if (!child)
		return NULL;

	spin_lock(&queue->fastopenq.lock);
	queue->fastopenq.qlen++;
	spin_unlock(&queue->fastopenq.lock);

	/* Initialize the child socket. Have to fix some values to take
	 * into account the child is a Fast Open socket and is created
	 * only out of the bits carried in the SYN packet.
	 */
	tp = tcp_sk(child);

	rcu_assign_pointer(tp->fastopen_rsk, req);
	tcp_rsk(req)->tfo_listener = true;

	/* RFC1323: The window in SYN & SYN/ACK segments is never
	 * scaled. So correct it appropriately.
	 */
	tp->snd_wnd = ntohs(tcp_hdr(skb)->window);
	tp->max_window = tp->snd_wnd;

	/* Activate the retrans timer so that SYNACK can be retransmitted.
	 * The request socket is not added to the ehash
	 * because it's been added to the accept queue directly.
	 */
	inet_csk_reset_xmit_timer(child, ICSK_TIME_RETRANS,
				  TCP_TIMEOUT_INIT, TCP_RTO_MAX);

	refcount_set(&req->rsk_refcnt, 2);

	/* Now finish processing the fastopen child socket. */
	tcp_init_transfer(child, BPF_SOCK_OPS_PASSIVE_ESTABLISHED_CB);

	tp->rcv_nxt = TCP_SKB_CB(skb)->seq + 1;

	tcp_fastopen_add_skb(child, skb);

	tcp_rsk(req)->rcv_nxt = tp->rcv_nxt;
	tp->rcv_wup = tp->rcv_nxt;
	/* tcp_conn_request() is sending the SYNACK,
	 * and queues the child into listener accept queue.
	 */
	return child;
}

static bool tcp_fastopen_queue_check(struct sock *sk)
{
	struct fastopen_queue *fastopenq;

	/* Make sure the listener has enabled fastopen, and we don't
	 * exceed the max # of pending TFO requests allowed before trying
	 * to validating the cookie in order to avoid burning CPU cycles
	 * unnecessarily.
	 *
	 * XXX (TFO) - The implication of checking the max_qlen before
	 * processing a cookie request is that clients can't differentiate
	 * between qlen overflow causing Fast Open to be disabled
	 * temporarily vs a server not supporting Fast Open at all.
	 */
	fastopenq = &inet_csk(sk)->icsk_accept_queue.fastopenq;
	if (fastopenq->max_qlen == 0)
		return false;

	if (fastopenq->qlen >= fastopenq->max_qlen) {
		struct request_sock *req1;
		spin_lock(&fastopenq->lock);
		req1 = fastopenq->rskq_rst_head;
		if (!req1 || time_after(req1->rsk_timer.expires, jiffies)) {
			__NET_INC_STATS(sock_net(sk),
					LINUX_MIB_TCPFASTOPENLISTENOVERFLOW);
			spin_unlock(&fastopenq->lock);
			return false;
		}
		fastopenq->rskq_rst_head = req1->dl_next;
		fastopenq->qlen--;
		spin_unlock(&fastopenq->lock);
		reqsk_put(req1);
	}
	return true;
}

static bool tcp_fastopen_no_cookie(const struct sock *sk,
				   const struct dst_entry *dst,
				   int flag)
{
	return (sock_net(sk)->ipv4.sysctl_tcp_fastopen & flag) ||
	       tcp_sk(sk)->fastopen_no_cookie ||
	       (dst && dst_metric(dst, RTAX_FASTOPEN_NO_COOKIE));
}

/* Returns true if we should perform Fast Open on the SYN. The cookie (foc)
 * may be updated and return the client in the SYN-ACK later. E.g., Fast Open
 * cookie request (foc->len == 0).
 */
struct sock *tcp_try_fastopen(struct sock *sk, struct sk_buff *skb,
			      struct request_sock *req,
			      struct tcp_fastopen_cookie *foc,
			      const struct dst_entry *dst)
{
	bool syn_data = TCP_SKB_CB(skb)->end_seq != TCP_SKB_CB(skb)->seq + 1;
	int tcp_fastopen = sock_net(sk)->ipv4.sysctl_tcp_fastopen;
	struct tcp_fastopen_cookie valid_foc = { .len = -1 };
	struct sock *child;
	int ret = 0;

	if (foc->len == 0) /* Client requests a cookie */
		NET_INC_STATS(sock_net(sk), LINUX_MIB_TCPFASTOPENCOOKIEREQD);

	if (!((tcp_fastopen & TFO_SERVER_ENABLE) &&
	      (syn_data || foc->len >= 0) &&
	      tcp_fastopen_queue_check(sk))) {
		foc->len = -1;
		return NULL;
	}

	if (syn_data &&
	    tcp_fastopen_no_cookie(sk, dst, TFO_SERVER_COOKIE_NOT_REQD))
		goto fastopen;

	if (foc->len == 0) {
		/* Client requests a cookie. */
		tcp_fastopen_cookie_gen(sk, req, skb, &valid_foc);
	} else if (foc->len > 0) {
		ret = tcp_fastopen_cookie_gen_check(sk, req, skb, foc,
						    &valid_foc);
		if (!ret) {
			NET_INC_STATS(sock_net(sk),
				      LINUX_MIB_TCPFASTOPENPASSIVEFAIL);
		} else {
			/* Cookie is valid. Create a (full) child socket to
			 * accept the data in SYN before returning a SYN-ACK to
			 * ack the data. If we fail to create the socket, fall
			 * back and ack the ISN only but includes the same
			 * cookie.
			 *
			 * Note: Data-less SYN with valid cookie is allowed to
			 * send data in SYN_RECV state.
			 */
fastopen:
			child = tcp_fastopen_create_child(sk, skb, req);
			if (child) {
				if (ret == 2) {
					valid_foc.exp = foc->exp;
					*foc = valid_foc;
					NET_INC_STATS(sock_net(sk),
						      LINUX_MIB_TCPFASTOPENPASSIVEALTKEY);
				} else {
					foc->len = -1;
				}
				NET_INC_STATS(sock_net(sk),
					      LINUX_MIB_TCPFASTOPENPASSIVE);
				return child;
			}
			NET_INC_STATS(sock_net(sk),
				      LINUX_MIB_TCPFASTOPENPASSIVEFAIL);
		}
	}
	valid_foc.exp = foc->exp;
	*foc = valid_foc;
	return NULL;
}

bool tcp_fastopen_cookie_check(struct sock *sk, u16 *mss,
			       struct tcp_fastopen_cookie *cookie)
{
	const struct dst_entry *dst;

	tcp_fastopen_cache_get(sk, mss, cookie);

	/* Firewall blackhole issue check */
	if (tcp_fastopen_active_should_disable(sk)) {
		cookie->len = -1;
		return false;
	}

	dst = __sk_dst_get(sk);

	if (tcp_fastopen_no_cookie(sk, dst, TFO_CLIENT_NO_COOKIE)) {
		cookie->len = -1;
		return true;
	}
	if (cookie->len > 0)
		return true;
	tcp_sk(sk)->fastopen_client_fail = TFO_COOKIE_UNAVAILABLE;
	return false;
}

/* This function checks if we want to defer sending SYN until the first
 * write().  We defer under the following conditions:
 * 1. fastopen_connect sockopt is set
 * 2. we have a valid cookie
 * Return value: return true if we want to defer until application writes data
 *               return false if we want to send out SYN immediately
 */
bool tcp_fastopen_defer_connect(struct sock *sk, int *err)
{
	struct tcp_fastopen_cookie cookie = { .len = 0 };
	struct tcp_sock *tp = tcp_sk(sk);
	u16 mss;

	if (tp->fastopen_connect && !tp->fastopen_req) {
		if (tcp_fastopen_cookie_check(sk, &mss, &cookie)) {
			inet_sk(sk)->defer_connect = 1;
			return true;
		}

		/* Alloc fastopen_req in order for FO option to be included
		 * in SYN
		 */
		tp->fastopen_req = kzalloc(sizeof(*tp->fastopen_req),
					   sk->sk_allocation);
		if (tp->fastopen_req)
			tp->fastopen_req->cookie = cookie;
		else
			*err = -ENOBUFS;
	}
	return false;
}
EXPORT_SYMBOL(tcp_fastopen_defer_connect);

/*
 * The following code block is to deal with middle box issues with TFO:
 * Middlebox firewall issues can potentially cause server's data being
 * blackholed after a successful 3WHS using TFO.
 * The proposed solution is to disable active TFO globally under the
 * following circumstances:
 *   1. client side TFO socket receives out of order FIN
 *   2. client side TFO socket receives out of order RST
 *   3. client side TFO socket has timed out three times consecutively during
 *      or after handshake
 * We disable active side TFO globally for 1hr at first. Then if it
 * happens again, we disable it for 2h, then 4h, 8h, ...
 * And we reset the timeout back to 1hr when we see a successful active
 * TFO connection with data exchanges.
 */

/* Disable active TFO and record current jiffies and
 * tfo_active_disable_times
 */
void tcp_fastopen_active_disable(struct sock *sk)
{
	struct net *net = sock_net(sk);

	atomic_inc(&net->ipv4.tfo_active_disable_times);
	net->ipv4.tfo_active_disable_stamp = jiffies;
	NET_INC_STATS(net, LINUX_MIB_TCPFASTOPENBLACKHOLE);
}

/* Calculate timeout for tfo active disable
 * Return true if we are still in the active TFO disable period
 * Return false if timeout already expired and we should use active TFO
 */
bool tcp_fastopen_active_should_disable(struct sock *sk)
{
	unsigned int tfo_bh_timeout = sock_net(sk)->ipv4.sysctl_tcp_fastopen_blackhole_timeout;
	int tfo_da_times = atomic_read(&sock_net(sk)->ipv4.tfo_active_disable_times);
	unsigned long timeout;
	int multiplier;

	if (!tfo_da_times)
		return false;

	/* Limit timout to max: 2^6 * initial timeout */
	multiplier = 1 << min(tfo_da_times - 1, 6);
	timeout = multiplier * tfo_bh_timeout * HZ;
	if (time_before(jiffies, sock_net(sk)->ipv4.tfo_active_disable_stamp + timeout))
		return true;

	/* Mark check bit so we can check for successful active TFO
	 * condition and reset tfo_active_disable_times
	 */
	tcp_sk(sk)->syn_fastopen_ch = 1;
	return false;
}

/* Disable active TFO if FIN is the only packet in the ofo queue
 * and no data is received.
 * Also check if we can reset tfo_active_disable_times if data is
 * received successfully on a marked active TFO sockets opened on
 * a non-loopback interface
 */
void tcp_fastopen_active_disable_ofo_check(struct sock *sk)
{
	struct tcp_sock *tp = tcp_sk(sk);
	struct dst_entry *dst;
	struct sk_buff *skb;

	if (!tp->syn_fastopen)
		return;

	if (!tp->data_segs_in) {
		skb = skb_rb_first(&tp->out_of_order_queue);
		if (skb && !skb_rb_next(skb)) {
			if (TCP_SKB_CB(skb)->tcp_flags & TCPHDR_FIN) {
				tcp_fastopen_active_disable(sk);
				return;
			}
		}
	} else if (tp->syn_fastopen_ch &&
		   atomic_read(&sock_net(sk)->ipv4.tfo_active_disable_times)) {
		dst = sk_dst_get(sk);
		if (!(dst && dst->dev && (dst->dev->flags & IFF_LOOPBACK)))
			atomic_set(&sock_net(sk)->ipv4.tfo_active_disable_times, 0);
		dst_release(dst);
	}
}

void tcp_fastopen_active_detect_blackhole(struct sock *sk, bool expired)
{
	u32 timeouts = inet_csk(sk)->icsk_retransmits;
	struct tcp_sock *tp = tcp_sk(sk);

	/* Broken middle-boxes may black-hole Fast Open connection during or
	 * even after the handshake. Be extremely conservative and pause
	 * Fast Open globally after hitting the third consecutive timeout or
	 * exceeding the configured timeout limit.
	 */
	if ((tp->syn_fastopen || tp->syn_data || tp->syn_data_acked) &&
	    (timeouts == 2 || (timeouts < 2 && expired))) {
		tcp_fastopen_active_disable(sk);
		NET_INC_STATS(sock_net(sk), LINUX_MIB_TCPFASTOPENACTIVEFAIL);
	}
}