bpf_progs/netd.h - LeafOS-Project/android_packages_modules_Connectivity - Gitiles

 /*
  * Copyright (C) 2018 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 <cutils/android_filesystem_config.h>
 #include <linux/if.h>
 #include <linux/if_ether.h>
 #include <linux/in.h>
 #include <linux/in6.h>

 #ifdef __cplusplus
 #include <string_view>
 #include "XtBpfProgLocations.h"
 #endif

 // 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 struct {
     uint32_t uid;
     uint32_t tag;
 } UidTagValue;
 STRUCT_SIZE(UidTagValue, 2 * 4);  // 8

 typedef struct {
     uint32_t uid;
     uint32_t tag;
     uint32_t counterSet;
     uint32_t ifaceIndex;
 } StatsKey;
 STRUCT_SIZE(StatsKey, 4 * 4);  // 16

 typedef struct {
     uint64_t rxPackets;
     uint64_t rxBytes;
     uint64_t txPackets;
     uint64_t txBytes;
 } StatsValue;
 STRUCT_SIZE(StatsValue, 4 * 8);  // 32

 #ifdef __cplusplus
 static inline StatsValue& operator+=(StatsValue& lhs, const StatsValue& rhs) {
     lhs.rxPackets += rhs.rxPackets;
     lhs.rxBytes += rhs.rxBytes;
     lhs.txPackets += rhs.txPackets;
     lhs.txBytes += rhs.txBytes;
     return lhs;
 }
 #endif

 typedef struct {
     char name[IFNAMSIZ];
 } IfaceValue;
 STRUCT_SIZE(IfaceValue, 16);

 typedef struct {
   uint64_t timestampNs;
   uint32_t ifindex;
   uint32_t length;

   uint32_t uid;
   uint32_t tag;

   __be16 sport;
   __be16 dport;

   bool egress:1,
        wakeup:1;
   uint8_t ipProto;
   uint8_t tcpFlags;
   uint8_t ipVersion; // 4=IPv4, 6=IPv6, 0=unknown
 } PacketTrace;
 STRUCT_SIZE(PacketTrace, 8+4+4 + 4+4 + 2+2 + 1+1+1+1);

 // Since we cannot garbage collect the stats map since device boot, we need to make these maps as
 // large as possible. The maximum size of number of map entries we can have is depend on the rlimit
 // of MEM_LOCK granted to netd. The memory space needed by each map can be calculated by the
 // following fomula:
 //      elem_size = 40 + roundup(key_size, 8) + roundup(value_size, 8)
 //      cost = roundup_pow_of_two(max_entries) * 16 + elem_size * max_entries +
 //              elem_size * number_of_CPU
 // And the cost of each map currently used is(assume the device have 8 CPUs):
 // cookie_tag_map:      key:  8 bytes, value:  8 bytes, cost:  822592 bytes    =   823Kbytes
 // uid_counter_set_map: key:  4 bytes, value:  1 bytes, cost:  145216 bytes    =   145Kbytes
 // app_uid_stats_map:   key:  4 bytes, value: 32 bytes, cost: 1062784 bytes    =  1063Kbytes
 // uid_stats_map:       key: 16 bytes, value: 32 bytes, cost: 1142848 bytes    =  1143Kbytes
 // tag_stats_map:       key: 16 bytes, value: 32 bytes, cost: 1142848 bytes    =  1143Kbytes
 // iface_index_name_map:key:  4 bytes, value: 16 bytes, cost:   80896 bytes    =    81Kbytes
 // iface_stats_map:     key:  4 bytes, value: 32 bytes, cost:   97024 bytes    =    97Kbytes
 // dozable_uid_map:     key:  4 bytes, value:  1 bytes, cost:  145216 bytes    =   145Kbytes
 // standby_uid_map:     key:  4 bytes, value:  1 bytes, cost:  145216 bytes    =   145Kbytes
 // powersave_uid_map:   key:  4 bytes, value:  1 bytes, cost:  145216 bytes    =   145Kbytes
 // packet_trace_ringbuf:key:  0 bytes, value: 24 bytes, cost:   32768 bytes    =    32Kbytes
 // total:                                                                         4962Kbytes
 // It takes maximum 4.9MB kernel memory space if all maps are full, which requires any devices
 // running this module to have a memlock rlimit to be larger then 5MB. In the old qtaguid module,
 // we don't have a total limit for data entries but only have limitation of tags each uid can have.
 // (default is 1024 in kernel);

 // 'static' - otherwise these constants end up in .rodata in the resulting .o post compilation
 static const int COOKIE_UID_MAP_SIZE = 10000;
 static const int UID_COUNTERSET_MAP_SIZE = 4000;
 static const int APP_STATS_MAP_SIZE = 10000;
 static const int STATS_MAP_SIZE = 5000;
 static const int IFACE_INDEX_NAME_MAP_SIZE = 1000;
 static const int IFACE_STATS_MAP_SIZE = 1000;
 static const int CONFIGURATION_MAP_SIZE = 2;
 static const int UID_OWNER_MAP_SIZE = 4000;
 static const int INGRESS_DISCARD_MAP_SIZE = 100;
 static const int PACKET_TRACE_BUF_SIZE = 32 * 1024;
 static const int DATA_SAVER_ENABLED_MAP_SIZE = 1;

 #ifdef __cplusplus

 #define BPF_NETD_PATH "/sys/fs/bpf/netd_shared/"

 #define BPF_EGRESS_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupskb_egress_stats"
 #define BPF_INGRESS_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupskb_ingress_stats"

 #define ASSERT_STRING_EQUAL(s1, s2) \
     static_assert(std::string_view(s1) == std::string_view(s2), "mismatch vs Android T netd")

 /* -=-=-=-=- WARNING -=-=-=-=-
  *
  * These 4 xt_bpf program paths are actually defined by:
  *   //system/netd/include/mainline/XtBpfProgLocations.h
  * which is intentionally a non-automerged location.
  *
  * They are *UNCHANGEABLE* due to being hard coded in Android T's netd binary
  * as such we have compile time asserts that things match.
  * (which will be validated during build on mainline-prod branch against old system/netd)
  *
  * If you break this, netd on T will fail to start with your tethering mainline module.
  */
 ASSERT_STRING_EQUAL(XT_BPF_INGRESS_PROG_PATH,   BPF_NETD_PATH "prog_netd_skfilter_ingress_xtbpf");
 ASSERT_STRING_EQUAL(XT_BPF_EGRESS_PROG_PATH,    BPF_NETD_PATH "prog_netd_skfilter_egress_xtbpf");
 ASSERT_STRING_EQUAL(XT_BPF_ALLOWLIST_PROG_PATH, BPF_NETD_PATH "prog_netd_skfilter_allowlist_xtbpf");
 ASSERT_STRING_EQUAL(XT_BPF_DENYLIST_PROG_PATH,  BPF_NETD_PATH "prog_netd_skfilter_denylist_xtbpf");

 #define CGROUP_SOCKET_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupsock_inet_create"

 #define TC_BPF_INGRESS_ACCOUNT_PROG_NAME "prog_netd_schedact_ingress_account"
 #define TC_BPF_INGRESS_ACCOUNT_PROG_PATH BPF_NETD_PATH TC_BPF_INGRESS_ACCOUNT_PROG_NAME

 #define COOKIE_TAG_MAP_PATH BPF_NETD_PATH "map_netd_cookie_tag_map"
 #define UID_COUNTERSET_MAP_PATH BPF_NETD_PATH "map_netd_uid_counterset_map"
 #define APP_UID_STATS_MAP_PATH BPF_NETD_PATH "map_netd_app_uid_stats_map"
 #define STATS_MAP_A_PATH BPF_NETD_PATH "map_netd_stats_map_A"
 #define STATS_MAP_B_PATH BPF_NETD_PATH "map_netd_stats_map_B"
 #define IFACE_INDEX_NAME_MAP_PATH BPF_NETD_PATH "map_netd_iface_index_name_map"
 #define IFACE_STATS_MAP_PATH BPF_NETD_PATH "map_netd_iface_stats_map"
 #define CONFIGURATION_MAP_PATH BPF_NETD_PATH "map_netd_configuration_map"
 #define UID_OWNER_MAP_PATH BPF_NETD_PATH "map_netd_uid_owner_map"
 #define UID_PERMISSION_MAP_PATH BPF_NETD_PATH "map_netd_uid_permission_map"
 #define INGRESS_DISCARD_MAP_PATH BPF_NETD_PATH "map_netd_ingress_discard_map"
 #define PACKET_TRACE_RINGBUF_PATH BPF_NETD_PATH "map_netd_packet_trace_ringbuf"
 #define PACKET_TRACE_ENABLED_MAP_PATH BPF_NETD_PATH "map_netd_packet_trace_enabled_map"
 #define DATA_SAVER_ENABLED_MAP_PATH BPF_NETD_PATH "map_netd_data_saver_enabled_map"

 #endif // __cplusplus

 // LINT.IfChange(match_type)
 enum UidOwnerMatchType {
     NO_MATCH = 0,
     HAPPY_BOX_MATCH = (1 << 0),
     PENALTY_BOX_MATCH = (1 << 1),
     DOZABLE_MATCH = (1 << 2),
     STANDBY_MATCH = (1 << 3),
     POWERSAVE_MATCH = (1 << 4),
     RESTRICTED_MATCH = (1 << 5),
     LOW_POWER_STANDBY_MATCH = (1 << 6),
     IIF_MATCH = (1 << 7),
     LOCKDOWN_VPN_MATCH = (1 << 8),
     OEM_DENY_1_MATCH = (1 << 9),
     OEM_DENY_2_MATCH = (1 << 10),
     OEM_DENY_3_MATCH = (1 << 11),
     BACKGROUND_MATCH = (1 << 12)
 };
 // LINT.ThenChange(../framework/src/android/net/BpfNetMapsConstants.java)

 enum BpfPermissionMatch {
     BPF_PERMISSION_INTERNET = 1 << 2,
     BPF_PERMISSION_UPDATE_DEVICE_STATS = 1 << 3,
 };
 // In production we use two identical stats maps to record per uid stats and
 // do swap and clean based on the configuration specified here. The statsMapType
 // value in configuration map specified which map is currently in use.
 enum StatsMapType {
     SELECT_MAP_A,
     SELECT_MAP_B,
 };

 // TODO: change the configuration object from a bitmask to an object with clearer
 // semantics, like a struct.
 typedef uint32_t BpfConfig;
 static const BpfConfig DEFAULT_CONFIG = 0;

 typedef struct {
     // Allowed interface index. Only applicable if IIF_MATCH is set in the rule bitmask above.
     uint32_t iif;
     // A bitmask of enum values in UidOwnerMatchType.
     uint32_t rule;
 } UidOwnerValue;
 STRUCT_SIZE(UidOwnerValue, 2 * 4);  // 8

 typedef struct {
     // The destination ip of the incoming packet.  IPv4 uses IPv4-mapped IPv6 address format.
     struct in6_addr daddr;
 } IngressDiscardKey;
 STRUCT_SIZE(IngressDiscardKey, 16);  // 16

 typedef struct {
     // Allowed interface indexes.  Use same value multiple times if you just want to match 1 value.
     uint32_t iif[2];
 } IngressDiscardValue;
 STRUCT_SIZE(IngressDiscardValue, 2 * 4);  // 8

 // Entry in the configuration map that stores which UID rules are enabled.
 #define UID_RULES_CONFIGURATION_KEY 0
 // Entry in the configuration map that stores which stats map is currently in use.
 #define CURRENT_STATS_MAP_CONFIGURATION_KEY 1
 // Entry in the data saver enabled map that stores whether data saver is enabled or not.
 #define DATA_SAVER_ENABLED_KEY 0

 #undef STRUCT_SIZE

 // DROP_IF_SET is set of rules that DROP if rule is globally enabled, and per-uid bit is set
 #define DROP_IF_SET (STANDBY_MATCH | OEM_DENY_1_MATCH | OEM_DENY_2_MATCH | OEM_DENY_3_MATCH)
 // DROP_IF_UNSET is set of rules that should DROP if globally enabled, and per-uid bit is NOT set
 #define DROP_IF_UNSET (DOZABLE_MATCH | POWERSAVE_MATCH | RESTRICTED_MATCH \
                         | LOW_POWER_STANDBY_MATCH | BACKGROUND_MATCH)

 // Warning: funky bit-wise arithmetic: in parallel, for all DROP_IF_SET/UNSET rules
 // check whether the rules are globally enabled, and if so whether the rules are
 // set/unset for the specific uid.  DROP if that is the case for ANY of the rules.
 // We achieve this by masking out only the bits/rules we're interested in checking,
 // and negating (via bit-wise xor) the bits/rules that should drop if unset.
 static inline bool isBlockedByUidRules(BpfConfig enabledRules, uint32_t uidRules) {
     return enabledRules & (DROP_IF_SET | DROP_IF_UNSET) & (uidRules ^ DROP_IF_UNSET);
 }

 static inline bool is_system_uid(uint32_t uid) {
     // MIN_SYSTEM_UID is AID_ROOT == 0, so uint32_t is *always* >= 0
     // MAX_SYSTEM_UID is AID_NOBODY == 9999, while AID_APP_START == 10000
     return (uid < AID_APP_START);
 }
	/*
	* Copyright (C) 2018 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 <cutils/android_filesystem_config.h>
	#include <linux/if.h>
	#include <linux/if_ether.h>
	#include <linux/in.h>
	#include <linux/in6.h>

	#ifdef __cplusplus
	#include <string_view>
	#include "XtBpfProgLocations.h"
	#endif

	// 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 struct {
	uint32_t uid;
	uint32_t tag;
	} UidTagValue;
	STRUCT_SIZE(UidTagValue, 2 * 4); // 8

	typedef struct {
	uint32_t uid;
	uint32_t tag;
	uint32_t counterSet;
	uint32_t ifaceIndex;
	} StatsKey;
	STRUCT_SIZE(StatsKey, 4 * 4); // 16

	typedef struct {
	uint64_t rxPackets;
	uint64_t rxBytes;
	uint64_t txPackets;
	uint64_t txBytes;
	} StatsValue;
	STRUCT_SIZE(StatsValue, 4 * 8); // 32

	#ifdef __cplusplus
	static inline StatsValue& operator+=(StatsValue& lhs, const StatsValue& rhs) {
	lhs.rxPackets += rhs.rxPackets;
	lhs.rxBytes += rhs.rxBytes;
	lhs.txPackets += rhs.txPackets;
	lhs.txBytes += rhs.txBytes;
	return lhs;
	}
	#endif

	typedef struct {
	char name[IFNAMSIZ];
	} IfaceValue;
	STRUCT_SIZE(IfaceValue, 16);

	typedef struct {
	uint64_t timestampNs;
	uint32_t ifindex;
	uint32_t length;

	uint32_t uid;
	uint32_t tag;

	__be16 sport;
	__be16 dport;

	bool egress:1,
	wakeup:1;
	uint8_t ipProto;
	uint8_t tcpFlags;
	uint8_t ipVersion; // 4=IPv4, 6=IPv6, 0=unknown
	} PacketTrace;
	STRUCT_SIZE(PacketTrace, 8+4+4 + 4+4 + 2+2 + 1+1+1+1);

	// Since we cannot garbage collect the stats map since device boot, we need to make these maps as
	// large as possible. The maximum size of number of map entries we can have is depend on the rlimit
	// of MEM_LOCK granted to netd. The memory space needed by each map can be calculated by the
	// following fomula:
	// elem_size = 40 + roundup(key_size, 8) + roundup(value_size, 8)
	// cost = roundup_pow_of_two(max_entries) * 16 + elem_size * max_entries +
	// elem_size * number_of_CPU
	// And the cost of each map currently used is(assume the device have 8 CPUs):
	// cookie_tag_map: key: 8 bytes, value: 8 bytes, cost: 822592 bytes = 823Kbytes
	// uid_counter_set_map: key: 4 bytes, value: 1 bytes, cost: 145216 bytes = 145Kbytes
	// app_uid_stats_map: key: 4 bytes, value: 32 bytes, cost: 1062784 bytes = 1063Kbytes
	// uid_stats_map: key: 16 bytes, value: 32 bytes, cost: 1142848 bytes = 1143Kbytes
	// tag_stats_map: key: 16 bytes, value: 32 bytes, cost: 1142848 bytes = 1143Kbytes
	// iface_index_name_map:key: 4 bytes, value: 16 bytes, cost: 80896 bytes = 81Kbytes
	// iface_stats_map: key: 4 bytes, value: 32 bytes, cost: 97024 bytes = 97Kbytes
	// dozable_uid_map: key: 4 bytes, value: 1 bytes, cost: 145216 bytes = 145Kbytes
	// standby_uid_map: key: 4 bytes, value: 1 bytes, cost: 145216 bytes = 145Kbytes
	// powersave_uid_map: key: 4 bytes, value: 1 bytes, cost: 145216 bytes = 145Kbytes
	// packet_trace_ringbuf:key: 0 bytes, value: 24 bytes, cost: 32768 bytes = 32Kbytes
	// total: 4962Kbytes
	// It takes maximum 4.9MB kernel memory space if all maps are full, which requires any devices
	// running this module to have a memlock rlimit to be larger then 5MB. In the old qtaguid module,
	// we don't have a total limit for data entries but only have limitation of tags each uid can have.
	// (default is 1024 in kernel);

	// 'static' - otherwise these constants end up in .rodata in the resulting .o post compilation
	static const int COOKIE_UID_MAP_SIZE = 10000;
	static const int UID_COUNTERSET_MAP_SIZE = 4000;
	static const int APP_STATS_MAP_SIZE = 10000;
	static const int STATS_MAP_SIZE = 5000;
	static const int IFACE_INDEX_NAME_MAP_SIZE = 1000;
	static const int IFACE_STATS_MAP_SIZE = 1000;
	static const int CONFIGURATION_MAP_SIZE = 2;
	static const int UID_OWNER_MAP_SIZE = 4000;
	static const int INGRESS_DISCARD_MAP_SIZE = 100;
	static const int PACKET_TRACE_BUF_SIZE = 32 * 1024;
	static const int DATA_SAVER_ENABLED_MAP_SIZE = 1;

	#ifdef __cplusplus

	#define BPF_NETD_PATH "/sys/fs/bpf/netd_shared/"

	#define BPF_EGRESS_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupskb_egress_stats"
	#define BPF_INGRESS_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupskb_ingress_stats"

	#define ASSERT_STRING_EQUAL(s1, s2) \
	static_assert(std::string_view(s1) == std::string_view(s2), "mismatch vs Android T netd")

	/* -=-=-=-=- WARNING -=-=-=-=-
	*
	* These 4 xt_bpf program paths are actually defined by:
	* //system/netd/include/mainline/XtBpfProgLocations.h
	* which is intentionally a non-automerged location.
	*
	* They are UNCHANGEABLE due to being hard coded in Android T's netd binary
	* as such we have compile time asserts that things match.
	* (which will be validated during build on mainline-prod branch against old system/netd)
	*
	* If you break this, netd on T will fail to start with your tethering mainline module.
	*/
	ASSERT_STRING_EQUAL(XT_BPF_INGRESS_PROG_PATH, BPF_NETD_PATH "prog_netd_skfilter_ingress_xtbpf");
	ASSERT_STRING_EQUAL(XT_BPF_EGRESS_PROG_PATH, BPF_NETD_PATH "prog_netd_skfilter_egress_xtbpf");
	ASSERT_STRING_EQUAL(XT_BPF_ALLOWLIST_PROG_PATH, BPF_NETD_PATH "prog_netd_skfilter_allowlist_xtbpf");
	ASSERT_STRING_EQUAL(XT_BPF_DENYLIST_PROG_PATH, BPF_NETD_PATH "prog_netd_skfilter_denylist_xtbpf");

	#define CGROUP_SOCKET_PROG_PATH BPF_NETD_PATH "prog_netd_cgroupsock_inet_create"

	#define TC_BPF_INGRESS_ACCOUNT_PROG_NAME "prog_netd_schedact_ingress_account"
	#define TC_BPF_INGRESS_ACCOUNT_PROG_PATH BPF_NETD_PATH TC_BPF_INGRESS_ACCOUNT_PROG_NAME

	#define COOKIE_TAG_MAP_PATH BPF_NETD_PATH "map_netd_cookie_tag_map"
	#define UID_COUNTERSET_MAP_PATH BPF_NETD_PATH "map_netd_uid_counterset_map"
	#define APP_UID_STATS_MAP_PATH BPF_NETD_PATH "map_netd_app_uid_stats_map"
	#define STATS_MAP_A_PATH BPF_NETD_PATH "map_netd_stats_map_A"
	#define STATS_MAP_B_PATH BPF_NETD_PATH "map_netd_stats_map_B"
	#define IFACE_INDEX_NAME_MAP_PATH BPF_NETD_PATH "map_netd_iface_index_name_map"
	#define IFACE_STATS_MAP_PATH BPF_NETD_PATH "map_netd_iface_stats_map"
	#define CONFIGURATION_MAP_PATH BPF_NETD_PATH "map_netd_configuration_map"
	#define UID_OWNER_MAP_PATH BPF_NETD_PATH "map_netd_uid_owner_map"
	#define UID_PERMISSION_MAP_PATH BPF_NETD_PATH "map_netd_uid_permission_map"
	#define INGRESS_DISCARD_MAP_PATH BPF_NETD_PATH "map_netd_ingress_discard_map"
	#define PACKET_TRACE_RINGBUF_PATH BPF_NETD_PATH "map_netd_packet_trace_ringbuf"
	#define PACKET_TRACE_ENABLED_MAP_PATH BPF_NETD_PATH "map_netd_packet_trace_enabled_map"
	#define DATA_SAVER_ENABLED_MAP_PATH BPF_NETD_PATH "map_netd_data_saver_enabled_map"

	#endif // __cplusplus

	// LINT.IfChange(match_type)
	enum UidOwnerMatchType {
	NO_MATCH = 0,
	HAPPY_BOX_MATCH = (1 << 0),
	PENALTY_BOX_MATCH = (1 << 1),
	DOZABLE_MATCH = (1 << 2),
	STANDBY_MATCH = (1 << 3),
	POWERSAVE_MATCH = (1 << 4),
	RESTRICTED_MATCH = (1 << 5),
	LOW_POWER_STANDBY_MATCH = (1 << 6),
	IIF_MATCH = (1 << 7),
	LOCKDOWN_VPN_MATCH = (1 << 8),
	OEM_DENY_1_MATCH = (1 << 9),
	OEM_DENY_2_MATCH = (1 << 10),
	OEM_DENY_3_MATCH = (1 << 11),
	BACKGROUND_MATCH = (1 << 12)
	};
	// LINT.ThenChange(../framework/src/android/net/BpfNetMapsConstants.java)

	enum BpfPermissionMatch {
	BPF_PERMISSION_INTERNET = 1 << 2,
	BPF_PERMISSION_UPDATE_DEVICE_STATS = 1 << 3,
	};
	// In production we use two identical stats maps to record per uid stats and
	// do swap and clean based on the configuration specified here. The statsMapType
	// value in configuration map specified which map is currently in use.
	enum StatsMapType {
	SELECT_MAP_A,
	SELECT_MAP_B,
	};

	// TODO: change the configuration object from a bitmask to an object with clearer
	// semantics, like a struct.
	typedef uint32_t BpfConfig;
	static const BpfConfig DEFAULT_CONFIG = 0;

	typedef struct {
	// Allowed interface index. Only applicable if IIF_MATCH is set in the rule bitmask above.
	uint32_t iif;
	// A bitmask of enum values in UidOwnerMatchType.
	uint32_t rule;
	} UidOwnerValue;
	STRUCT_SIZE(UidOwnerValue, 2 * 4); // 8

	typedef struct {
	// The destination ip of the incoming packet. IPv4 uses IPv4-mapped IPv6 address format.
	struct in6_addr daddr;
	} IngressDiscardKey;
	STRUCT_SIZE(IngressDiscardKey, 16); // 16

	typedef struct {
	// Allowed interface indexes. Use same value multiple times if you just want to match 1 value.
	uint32_t iif[2];
	} IngressDiscardValue;
	STRUCT_SIZE(IngressDiscardValue, 2 * 4); // 8

	// Entry in the configuration map that stores which UID rules are enabled.
	#define UID_RULES_CONFIGURATION_KEY 0
	// Entry in the configuration map that stores which stats map is currently in use.
	#define CURRENT_STATS_MAP_CONFIGURATION_KEY 1
	// Entry in the data saver enabled map that stores whether data saver is enabled or not.
	#define DATA_SAVER_ENABLED_KEY 0

	#undef STRUCT_SIZE

	// DROP_IF_SET is set of rules that DROP if rule is globally enabled, and per-uid bit is set
	#define DROP_IF_SET (STANDBY_MATCH \| OEM_DENY_1_MATCH \| OEM_DENY_2_MATCH \| OEM_DENY_3_MATCH)
	// DROP_IF_UNSET is set of rules that should DROP if globally enabled, and per-uid bit is NOT set
	#define DROP_IF_UNSET (DOZABLE_MATCH \| POWERSAVE_MATCH \| RESTRICTED_MATCH \
	\| LOW_POWER_STANDBY_MATCH \| BACKGROUND_MATCH)

	// Warning: funky bit-wise arithmetic: in parallel, for all DROP_IF_SET/UNSET rules
	// check whether the rules are globally enabled, and if so whether the rules are
	// set/unset for the specific uid. DROP if that is the case for ANY of the rules.
	// We achieve this by masking out only the bits/rules we're interested in checking,
	// and negating (via bit-wise xor) the bits/rules that should drop if unset.
	static inline bool isBlockedByUidRules(BpfConfig enabledRules, uint32_t uidRules) {
	return enabledRules & (DROP_IF_SET \| DROP_IF_UNSET) & (uidRules ^ DROP_IF_UNSET);
	}

	static inline bool is_system_uid(uint32_t uid) {
	// MIN_SYSTEM_UID is AID_ROOT == 0, so uint32_t is always >= 0
	// MAX_SYSTEM_UID is AID_NOBODY == 9999, while AID_APP_START == 10000
	return (uid < AID_APP_START);
	}