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android13/packages/modules/Connectivity/bpf_progs/bpf_tethering.h

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/*
* Copyright (C) 2021 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include <linux/if.h>
#include <linux/if_ether.h>
#include <linux/in.h>
#include <linux/in6.h>
// Common definitions for BPF code in the tethering mainline module.
// These definitions are available to:
// - The BPF programs in Tethering/bpf_progs/
// - JNI code that depends on the bpf_connectivity_headers library.
#define BPF_TETHER_ERRORS \
ERR(INVALID_IP_VERSION) \
ERR(LOW_TTL) \
ERR(INVALID_TCP_HEADER) \
ERR(TCP_CONTROL_PACKET) \
ERR(NON_GLOBAL_SRC) \
ERR(NON_GLOBAL_DST) \
ERR(LOCAL_SRC_DST) \
ERR(NO_STATS_ENTRY) \
ERR(NO_LIMIT_ENTRY) \
ERR(BELOW_IPV4_MTU) \
ERR(BELOW_IPV6_MTU) \
ERR(LIMIT_REACHED) \
ERR(CHANGE_HEAD_FAILED) \
ERR(TOO_SHORT) \
ERR(HAS_IP_OPTIONS) \
ERR(IS_IP_FRAG) \
ERR(CHECKSUM) \
ERR(NON_TCP_UDP) \
ERR(NON_TCP) \
ERR(SHORT_L4_HEADER) \
ERR(SHORT_TCP_HEADER) \
ERR(SHORT_UDP_HEADER) \
ERR(UDP_CSUM_ZERO) \
ERR(TRUNCATED_IPV4) \
ERR(_MAX)
#define ERR(x) BPF_TETHER_ERR_ ##x,
enum {
BPF_TETHER_ERRORS
};
#undef ERR
#define ERR(x) #x,
static const char *bpf_tether_errors[] = {
BPF_TETHER_ERRORS
};
#undef ERR
// This header file is shared by eBPF kernel programs (C) and netd (C++) and
// some of the maps are also accessed directly from Java mainline module code.
//
// Hence: explicitly pad all relevant structures and assert that their size
// is the sum of the sizes of their fields.
#define STRUCT_SIZE(name, size) _Static_assert(sizeof(name) == (size), "Incorrect struct size.")
typedef uint32_t TetherStatsKey; // upstream ifindex
typedef struct {
uint64_t rxPackets;
uint64_t rxBytes;
uint64_t rxErrors;
uint64_t txPackets;
uint64_t txBytes;
uint64_t txErrors;
} TetherStatsValue;
STRUCT_SIZE(TetherStatsValue, 6 * 8); // 48
typedef uint32_t TetherLimitKey; // upstream ifindex
typedef uint64_t TetherLimitValue; // in bytes
// For now tethering offload only needs to support downstreams that use 6-byte MAC addresses,
// because all downstream types that are currently supported (WiFi, USB, Bluetooth and
// Ethernet) have 6-byte MAC addresses.
typedef struct {
uint32_t iif; // The input interface index
uint8_t dstMac[ETH_ALEN]; // destination ethernet mac address (zeroed iff rawip ingress)
uint8_t zero[2]; // zero pad for 8 byte alignment
struct in6_addr neigh6; // The destination IPv6 address
} TetherDownstream6Key;
STRUCT_SIZE(TetherDownstream6Key, 4 + 6 + 2 + 16); // 28
typedef struct {
uint32_t oif; // The output interface to redirect to
struct ethhdr macHeader; // includes dst/src mac and ethertype (zeroed iff rawip egress)
uint16_t pmtu; // The maximum L3 output path/route mtu
} Tether6Value;
STRUCT_SIZE(Tether6Value, 4 + 14 + 2); // 20
typedef struct {
uint32_t iif; // The input interface index
uint8_t dstMac[ETH_ALEN]; // destination ethernet mac address (zeroed iff rawip ingress)
uint16_t l4Proto; // IPPROTO_TCP/UDP/...
struct in6_addr src6; // source &
struct in6_addr dst6; // destination IPv6 addresses
__be16 srcPort; // source &
__be16 dstPort; // destination tcp/udp/... ports
} TetherDownstream64Key;
STRUCT_SIZE(TetherDownstream64Key, 4 + 6 + 2 + 16 + 16 + 2 + 2); // 48
typedef struct {
uint32_t oif; // The output interface to redirect to
struct ethhdr macHeader; // includes dst/src mac and ethertype (zeroed iff rawip egress)
uint16_t pmtu; // The maximum L3 output path/route mtu
struct in_addr src4; // source &
struct in_addr dst4; // destination IPv4 addresses
__be16 srcPort; // source &
__be16 outPort; // destination tcp/udp/... ports
uint64_t lastUsed; // Kernel updates on each use with bpf_ktime_get_boot_ns()
} TetherDownstream64Value;
STRUCT_SIZE(TetherDownstream64Value, 4 + 14 + 2 + 4 + 4 + 2 + 2 + 8); // 40
typedef struct {
uint32_t iif; // The input interface index
uint8_t dstMac[ETH_ALEN]; // destination ethernet mac address (zeroed iff rawip ingress)
uint8_t zero[2]; // zero pad for 8 byte alignment
// TODO: extend this to include src ip /64 subnet
} TetherUpstream6Key;
STRUCT_SIZE(TetherUpstream6Key, 12);
typedef struct {
uint32_t iif; // The input interface index
uint8_t dstMac[ETH_ALEN]; // destination ethernet mac address (zeroed iff rawip ingress)
uint16_t l4Proto; // IPPROTO_TCP/UDP/...
struct in_addr src4; // source &
struct in_addr dst4; // destination IPv4 addresses
__be16 srcPort; // source &
__be16 dstPort; // destination TCP/UDP/... ports
} Tether4Key;
STRUCT_SIZE(Tether4Key, 4 + 6 + 2 + 4 + 4 + 2 + 2); // 24
typedef struct {
uint32_t oif; // The output interface to redirect to
struct ethhdr macHeader; // includes dst/src mac and ethertype (zeroed iff rawip egress)
uint16_t pmtu; // Maximum L3 output path/route mtu
struct in6_addr src46; // source & (always IPv4 mapped for downstream)
struct in6_addr dst46; // destination IP addresses (may be IPv4 mapped or IPv6 for upstream)
__be16 srcPort; // source &
__be16 dstPort; // destination tcp/udp/... ports
uint64_t last_used; // Kernel updates on each use with bpf_ktime_get_boot_ns()
} Tether4Value;
STRUCT_SIZE(Tether4Value, 4 + 14 + 2 + 16 + 16 + 2 + 2 + 8); // 64
#undef STRUCT_SIZE
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