56c632caed
Test: as the follows.
$ adb shell ls sys/fs/bpf | grep offload
map_offload_tether_ingress_map
map_offload_tether_limit_map
map_offload_tether_stats_map
prog_offload_schedcls_ingress_tether_ether
prog_offload_schedcls_ingress_tether_rawip
$ adb shell dumpsys netd --short
TetherController
BPF ingress map: iif(iface) v6addr -> oif(iface) srcmac ..
13(rmnet_data3) 2401:e180:8842:6e3:bc6a:2e45:c30:f418 -> ..
BPF stats (downlink): iif(iface) -> packets bytes errors
13(rmnet_data3) -> 7 488 0
BPF limit: iif(iface) -> bytes
13(rmnet_data3) -> 9223372036854775807
Log:
bpfloader: Loaded object: /apex/com.android.tethering/etc/bpf/offload.o
Change-Id: I71b7efb1f4bd6eb1cd469a0e1e4a56342dc6e579
208 lines
8.7 KiB
C
208 lines
8.7 KiB
C
/*
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* Copyright (C) 2020 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <linux/if.h>
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#include <linux/ip.h>
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#include <linux/ipv6.h>
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#include <linux/pkt_cls.h>
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#include <linux/tcp.h>
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#include "bpf_helpers.h"
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#include "bpf_net_helpers.h"
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#include "netdbpf/bpf_shared.h"
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DEFINE_BPF_MAP_GRW(tether_ingress_map, HASH, TetherIngressKey, TetherIngressValue, 64,
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AID_NETWORK_STACK)
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// Tethering stats, indexed by upstream interface.
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DEFINE_BPF_MAP_GRW(tether_stats_map, HASH, uint32_t, TetherStatsValue, 16, AID_NETWORK_STACK)
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// Tethering data limit, indexed by upstream interface.
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// (tethering allowed when stats[iif].rxBytes + stats[iif].txBytes < limit[iif])
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DEFINE_BPF_MAP_GRW(tether_limit_map, HASH, uint32_t, uint64_t, 16, AID_NETWORK_STACK)
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static inline __always_inline int do_forward(struct __sk_buff* skb, bool is_ethernet) {
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int l2_header_size = is_ethernet ? sizeof(struct ethhdr) : 0;
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void* data = (void*)(long)skb->data;
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const void* data_end = (void*)(long)skb->data_end;
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struct ethhdr* eth = is_ethernet ? data : NULL; // used iff is_ethernet
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struct ipv6hdr* ip6 = is_ethernet ? (void*)(eth + 1) : data;
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// Must be meta-ethernet IPv6 frame
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if (skb->protocol != htons(ETH_P_IPV6)) return TC_ACT_OK;
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// Must have (ethernet and) ipv6 header
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if (data + l2_header_size + sizeof(*ip6) > data_end) return TC_ACT_OK;
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// Ethertype - if present - must be IPv6
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if (is_ethernet && (eth->h_proto != htons(ETH_P_IPV6))) return TC_ACT_OK;
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// IP version must be 6
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if (ip6->version != 6) return TC_ACT_OK;
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// Cannot decrement during forward if already zero or would be zero,
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// Let the kernel's stack handle these cases and generate appropriate ICMP errors.
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if (ip6->hop_limit <= 1) return TC_ACT_OK;
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// Protect against forwarding packets sourced from ::1 or fe80::/64 or other weirdness.
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__be32 src32 = ip6->saddr.s6_addr32[0];
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if (src32 != htonl(0x0064ff9b) && // 64:ff9b:/32 incl. XLAT464 WKP
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(src32 & htonl(0xe0000000)) != htonl(0x20000000)) // 2000::/3 Global Unicast
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return TC_ACT_OK;
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TetherIngressKey k = {
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.iif = skb->ifindex,
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.neigh6 = ip6->daddr,
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};
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TetherIngressValue* v = bpf_tether_ingress_map_lookup_elem(&k);
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// If we don't find any offload information then simply let the core stack handle it...
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if (!v) return TC_ACT_OK;
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uint32_t stat_and_limit_k = skb->ifindex;
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TetherStatsValue* stat_v = bpf_tether_stats_map_lookup_elem(&stat_and_limit_k);
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// If we don't have anywhere to put stats, then abort...
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if (!stat_v) return TC_ACT_OK;
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uint64_t* limit_v = bpf_tether_limit_map_lookup_elem(&stat_and_limit_k);
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// If we don't have a limit, then abort...
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if (!limit_v) return TC_ACT_OK;
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// Required IPv6 minimum mtu is 1280, below that not clear what we should do, abort...
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const int pmtu = v->pmtu;
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if (pmtu < IPV6_MIN_MTU) return TC_ACT_OK;
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// Approximate handling of TCP/IPv6 overhead for incoming LRO/GRO packets: default
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// outbound path mtu of 1500 is not necessarily correct, but worst case we simply
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// undercount, which is still better then not accounting for this overhead at all.
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// Note: this really shouldn't be device/path mtu at all, but rather should be
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// derived from this particular connection's mss (ie. from gro segment size).
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// This would require a much newer kernel with newer ebpf accessors.
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// (This is also blindly assuming 12 bytes of tcp timestamp option in tcp header)
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uint64_t packets = 1;
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uint64_t bytes = skb->len;
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if (bytes > pmtu) {
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const int tcp_overhead = sizeof(struct ipv6hdr) + sizeof(struct tcphdr) + 12;
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const int mss = pmtu - tcp_overhead;
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const uint64_t payload = bytes - tcp_overhead;
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packets = (payload + mss - 1) / mss;
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bytes = tcp_overhead * packets + payload;
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}
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// Are we past the limit? If so, then abort...
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// Note: will not overflow since u64 is 936 years even at 5Gbps.
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// Do not drop here. Offload is just that, whenever we fail to handle
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// a packet we let the core stack deal with things.
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// (The core stack needs to handle limits correctly anyway,
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// since we don't offload all traffic in both directions)
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if (stat_v->rxBytes + stat_v->txBytes + bytes > *limit_v) return TC_ACT_OK;
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if (!is_ethernet) {
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is_ethernet = true;
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l2_header_size = sizeof(struct ethhdr);
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// Try to inject an ethernet header, and simply return if we fail
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if (bpf_skb_change_head(skb, l2_header_size, /*flags*/ 0)) {
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__sync_fetch_and_add(&stat_v->rxErrors, 1);
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return TC_ACT_OK;
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}
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// bpf_skb_change_head() invalidates all pointers - reload them
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data = (void*)(long)skb->data;
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data_end = (void*)(long)skb->data_end;
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eth = data;
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ip6 = (void*)(eth + 1);
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// I do not believe this can ever happen, but keep the verifier happy...
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if (data + l2_header_size + sizeof(*ip6) > data_end) {
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__sync_fetch_and_add(&stat_v->rxErrors, 1);
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return TC_ACT_SHOT;
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}
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};
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// CHECKSUM_COMPLETE is a 16-bit one's complement sum,
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// thus corrections for it need to be done in 16-byte chunks at even offsets.
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// IPv6 nexthdr is at offset 6, while hop limit is at offset 7
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uint8_t old_hl = ip6->hop_limit;
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--ip6->hop_limit;
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uint8_t new_hl = ip6->hop_limit;
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// bpf_csum_update() always succeeds if the skb is CHECKSUM_COMPLETE and returns an error
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// (-ENOTSUPP) if it isn't.
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bpf_csum_update(skb, 0xFFFF - ntohs(old_hl) + ntohs(new_hl));
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__sync_fetch_and_add(&stat_v->rxPackets, packets);
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__sync_fetch_and_add(&stat_v->rxBytes, bytes);
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// Overwrite any mac header with the new one
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*eth = v->macHeader;
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// Redirect to forwarded interface.
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//
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// Note that bpf_redirect() cannot fail unless you pass invalid flags.
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// The redirect actually happens after the ebpf program has already terminated,
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// and can fail for example for mtu reasons at that point in time, but there's nothing
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// we can do about it here.
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return bpf_redirect(v->oif, 0 /* this is effectively BPF_F_EGRESS */);
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}
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SEC("schedcls/ingress/tether_ether")
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int sched_cls_ingress_tether_ether(struct __sk_buff* skb) {
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return do_forward(skb, true);
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}
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// Note: section names must be unique to prevent programs from appending to each other,
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// so instead the bpf loader will strip everything past the final $ symbol when actually
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// pinning the program into the filesystem.
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//
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// bpf_skb_change_head() is only present on 4.14+ and 2 trivial kernel patches are needed:
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// ANDROID: net: bpf: Allow TC programs to call BPF_FUNC_skb_change_head
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// ANDROID: net: bpf: permit redirect from ingress L3 to egress L2 devices at near max mtu
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// (the first of those has already been upstreamed)
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//
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// 5.4 kernel support was only added to Android Common Kernel in R,
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// and thus a 5.4 kernel always supports this.
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//
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// Hence, this mandatory (must load successfully) implementation for 5.4+ kernels:
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DEFINE_BPF_PROG_KVER("schedcls/ingress/tether_rawip$5_4", AID_ROOT, AID_ROOT,
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sched_cls_ingress_tether_rawip_5_4, KVER(5, 4, 0))
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(struct __sk_buff* skb) {
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return do_forward(skb, false);
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}
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// and this identical optional (may fail to load) implementation for [4.14..5.4) patched kernels:
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DEFINE_OPTIONAL_BPF_PROG_KVER_RANGE("schedcls/ingress/tether_rawip$4_14", AID_ROOT, AID_ROOT,
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sched_cls_ingress_tether_rawip_4_14, KVER(4, 14, 0),
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KVER(5, 4, 0))
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(struct __sk_buff* skb) {
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return do_forward(skb, false);
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}
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// and define a no-op stub for [4.9,4.14) and unpatched [4.14,5.4) kernels.
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// (if the above real 4.14+ program loaded successfully, then bpfloader will have already pinned
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// it at the same location this one would be pinned at and will thus skip loading this stub)
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DEFINE_BPF_PROG_KVER_RANGE("schedcls/ingress/tether_rawip$stub", AID_ROOT, AID_ROOT,
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sched_cls_ingress_tether_rawip_stub, KVER_NONE, KVER(5, 4, 0))
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(struct __sk_buff* skb) {
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return TC_ACT_OK;
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}
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LICENSE("Apache 2.0");
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CRITICAL("netd");
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