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// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2019 Facebook */
/* WARNING: This implemenation is not necessarily the same
* as the tcp_dctcp.c. The purpose is mainly for testing
* the kernel BPF logic.
*/
#include <stddef.h>
#include <linux/bpf.h>
#include <linux/types.h>
#include <linux/stddef.h>
#include <linux/tcp.h>
#include <bpf/bpf_helpers.h>
#include <bpf/bpf_tracing.h>
#include "bpf_tcp_helpers.h"
char _license[] SEC("license") = "GPL";
int stg_result = 0;
struct {
__uint(type, BPF_MAP_TYPE_SK_STORAGE);
__uint(map_flags, BPF_F_NO_PREALLOC);
__type(key, int);
__type(value, int);
} sk_stg_map SEC(".maps");
#define DCTCP_MAX_ALPHA 1024U
struct dctcp {
__u32 old_delivered;
__u32 old_delivered_ce;
__u32 prior_rcv_nxt;
__u32 dctcp_alpha;
__u32 next_seq;
__u32 ce_state;
__u32 loss_cwnd;
};
static unsigned int dctcp_shift_g = 4; /* g = 1/2^4 */
static unsigned int dctcp_alpha_on_init = DCTCP_MAX_ALPHA;
static __always_inline void dctcp_reset(const struct tcp_sock *tp,
struct dctcp *ca)
{
ca->next_seq = tp->snd_nxt;
ca->old_delivered = tp->delivered;
ca->old_delivered_ce = tp->delivered_ce;
}
SEC("struct_ops/dctcp_init")
void BPF_PROG(dctcp_init, struct sock *sk)
{
const struct tcp_sock *tp = tcp_sk(sk);
struct dctcp *ca = inet_csk_ca(sk);
int *stg;
ca->prior_rcv_nxt = tp->rcv_nxt;
ca->dctcp_alpha = min(dctcp_alpha_on_init, DCTCP_MAX_ALPHA);
ca->loss_cwnd = 0;
ca->ce_state = 0;
stg = bpf_sk_storage_get(&sk_stg_map, (void *)tp, NULL, 0);
if (stg) {
stg_result = *stg;
bpf_sk_storage_delete(&sk_stg_map, (void *)tp);
}
dctcp_reset(tp, ca);
}
SEC("struct_ops/dctcp_ssthresh")
__u32 BPF_PROG(dctcp_ssthresh, struct sock *sk)
{
struct dctcp *ca = inet_csk_ca(sk);
struct tcp_sock *tp = tcp_sk(sk);
ca->loss_cwnd = tp->snd_cwnd;
return max(tp->snd_cwnd - ((tp->snd_cwnd * ca->dctcp_alpha) >> 11U), 2U);
}
SEC("struct_ops/dctcp_update_alpha")
void BPF_PROG(dctcp_update_alpha, struct sock *sk, __u32 flags)
{
const struct tcp_sock *tp = tcp_sk(sk);
struct dctcp *ca = inet_csk_ca(sk);
/* Expired RTT */
if (!before(tp->snd_una, ca->next_seq)) {
__u32 delivered_ce = tp->delivered_ce - ca->old_delivered_ce;
__u32 alpha = ca->dctcp_alpha;
/* alpha = (1 - g) * alpha + g * F */
alpha -= min_not_zero(alpha, alpha >> dctcp_shift_g);
if (delivered_ce) {
__u32 delivered = tp->delivered - ca->old_delivered;
/* If dctcp_shift_g == 1, a 32bit value would overflow
* after 8 M packets.
*/
delivered_ce <<= (10 - dctcp_shift_g);
delivered_ce /= max(1U, delivered);
alpha = min(alpha + delivered_ce, DCTCP_MAX_ALPHA);
}
ca->dctcp_alpha = alpha;
dctcp_reset(tp, ca);
}
}
static __always_inline void dctcp_react_to_loss(struct sock *sk)
{
struct dctcp *ca = inet_csk_ca(sk);
struct tcp_sock *tp = tcp_sk(sk);
ca->loss_cwnd = tp->snd_cwnd;
tp->snd_ssthresh = max(tp->snd_cwnd >> 1U, 2U);
}
SEC("struct_ops/dctcp_state")
void BPF_PROG(dctcp_state, struct sock *sk, __u8 new_state)
{
if (new_state == TCP_CA_Recovery &&
new_state != BPF_CORE_READ_BITFIELD(inet_csk(sk), icsk_ca_state))
dctcp_react_to_loss(sk);
/* We handle RTO in dctcp_cwnd_event to ensure that we perform only
* one loss-adjustment per RTT.
*/
}
static __always_inline void dctcp_ece_ack_cwr(struct sock *sk, __u32 ce_state)
{
struct tcp_sock *tp = tcp_sk(sk);
if (ce_state == 1)
tp->ecn_flags |= TCP_ECN_DEMAND_CWR;
else
tp->ecn_flags &= ~TCP_ECN_DEMAND_CWR;
}
/* Minimal DCTP CE state machine:
*
* S: 0 <- last pkt was non-CE
* 1 <- last pkt was CE
*/
static __always_inline
void dctcp_ece_ack_update(struct sock *sk, enum tcp_ca_event evt,
__u32 *prior_rcv_nxt, __u32 *ce_state)
{
__u32 new_ce_state = (evt == CA_EVENT_ECN_IS_CE) ? 1 : 0;
if (*ce_state != new_ce_state) {
/* CE state has changed, force an immediate ACK to
* reflect the new CE state. If an ACK was delayed,
* send that first to reflect the prior CE state.
*/
if (inet_csk(sk)->icsk_ack.pending & ICSK_ACK_TIMER) {
dctcp_ece_ack_cwr(sk, *ce_state);
bpf_tcp_send_ack(sk, *prior_rcv_nxt);
}
inet_csk(sk)->icsk_ack.pending |= ICSK_ACK_NOW;
}
*prior_rcv_nxt = tcp_sk(sk)->rcv_nxt;
*ce_state = new_ce_state;
dctcp_ece_ack_cwr(sk, new_ce_state);
}
SEC("struct_ops/dctcp_cwnd_event")
void BPF_PROG(dctcp_cwnd_event, struct sock *sk, enum tcp_ca_event ev)
{
struct dctcp *ca = inet_csk_ca(sk);
switch (ev) {
case CA_EVENT_ECN_IS_CE:
case CA_EVENT_ECN_NO_CE:
dctcp_ece_ack_update(sk, ev, &ca->prior_rcv_nxt, &ca->ce_state);
break;
case CA_EVENT_LOSS:
dctcp_react_to_loss(sk);
break;
default:
/* Don't care for the rest. */
break;
}
}
SEC("struct_ops/dctcp_cwnd_undo")
__u32 BPF_PROG(dctcp_cwnd_undo, struct sock *sk)
{
const struct dctcp *ca = inet_csk_ca(sk);
return max(tcp_sk(sk)->snd_cwnd, ca->loss_cwnd);
}
SEC("struct_ops/tcp_reno_cong_avoid")
void BPF_PROG(tcp_reno_cong_avoid, struct sock *sk, __u32 ack, __u32 acked)
{
struct tcp_sock *tp = tcp_sk(sk);
if (!tcp_is_cwnd_limited(sk))
return;
/* In "safe" area, increase. */
if (tcp_in_slow_start(tp)) {
acked = tcp_slow_start(tp, acked);
if (!acked)
return;
}
/* In dangerous area, increase slowly. */
tcp_cong_avoid_ai(tp, tp->snd_cwnd, acked);
}
SEC(".struct_ops")
struct tcp_congestion_ops dctcp_nouse = {
.init = (void *)dctcp_init,
.set_state = (void *)dctcp_state,
.flags = TCP_CONG_NEEDS_ECN,
.name = "bpf_dctcp_nouse",
};
SEC(".struct_ops")
struct tcp_congestion_ops dctcp = {
.init = (void *)dctcp_init,
.in_ack_event = (void *)dctcp_update_alpha,
.cwnd_event = (void *)dctcp_cwnd_event,
.ssthresh = (void *)dctcp_ssthresh,
.cong_avoid = (void *)tcp_reno_cong_avoid,
.undo_cwnd = (void *)dctcp_cwnd_undo,
.set_state = (void *)dctcp_state,
.flags = TCP_CONG_NEEDS_ECN,
.name = "bpf_dctcp",
};
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