blob: 0e39446a81ea722386bcf5a68aee9bb00e70c6b0 [file] [log] [blame]
// LINT: LEGACY_NAMES
syntax = "proto2";
package clearcut.connectivity;
option java_package = "com.android.server.connectivity.metrics";
option java_outer_classname = "IpConnectivityLogClass";
// NetworkId represents the id given by the system to a physical network on the
// Android device. It is used to relates events to each other for devices with
// multiple networks (WiFi, 4G, ...).
// Deprecated since version 3, replaced by top-level network_id field in
// IpConnectivityEvent.
message NetworkId {
// Every network gets assigned a network_id on creation based on order of
// creation. Thus network_id N is assigned to the network created directly
// after network N-1. Thus there is no PII involved here. Zero means no
// network. The value 0 is never assigned to a network.
optional int32 network_id = 1;
};
// LinkLayer describes a physical link layer technology used by a network.
// It is not intended to map one to one to the TRANSPORT_* constants defined in
// android.net.NetworkCapabilities. Instead it is intended to be used as
// a dimension field for metrics events and aggregated metrics.
// Next tag: 10
enum LinkLayer {
// An unknown link layer technology.
UNKNOWN = 0;
BLUETOOTH = 1;
CELLULAR = 2;
ETHERNET = 3;
WIFI = 4;
WIFI_P2P = 7;
WIFI_NAN = 8; // Also known as WiFi Aware
LOWPAN = 9;
// Indicates that the link layer dimension is not relevant for the metrics or
// event considered.
NONE = 5;
// Indicates that the metrics or event considered may involve several links.
MULTIPLE = 6;
};
// A pair of (key, value) integers for describing histogram-like statistics.
message Pair {
optional int32 key = 1;
optional int32 value = 2;
};
// An event recorded when the system default network disconnects or the system
// switches to a new default network. An event is also recorded to cover gaps
// without a default network.
// Next tag: 12
message DefaultNetworkEvent {
// Reason why this network stopped being the default.
enum LostReason {
UNKNOWN = 0;
OUTSCORED = 1;
INVALIDATION = 2;
DISCONNECT = 3;
};
// Whether the network supports IPv4, IPv6, or both.
enum IPSupport {
NONE = 0;
IPV4 = 1;
IPV6 = 2;
DUAL = 3;
};
// Duration in milliseconds when this network was the default.
// Since P.
optional int64 default_network_duration_ms = 5;
// Duration in milliseconds when this default network Internet access was
// validated. This field is equal to 0 for DefaultNetworkEvents representing
// lack of a default network.
// Since P.
optional int64 validation_duration_ms = 11;
// Network score of this network when it became the default network.
// Or 0 if this event represents a period without a default network.
// Since P.
optional int64 initial_score = 7;
// Network score of this network when it stopped being the default network.
// Or 0 if this event represents a period without a default network.
// Since P.
optional int64 final_score = 8;
// Best available information about IP support of this default network.
// Or NONE if this event represents a period without a default network.
// Since P.
optional IPSupport ip_support = 9;
// LinkLayer of the previous default network. Ignores any previous period
// without a default network.
// Since P
optional LinkLayer previous_default_network_link_layer = 10;
// Deprecated fields
// A value of 0 means this is a loss of the system default network.
// Deprecated since version 3. Replaced by top level network_id.
optional NetworkId network_id = 1 [deprecated = true];
// A value of 0 means there was no previous default network.
// Deprecated since version 3. Replaced by previous_default_network_id.
optional NetworkId previous_network_id = 2 [deprecated = true];
// Best available information about IP support of the previous network when
// disconnecting or switching to a new default network.
// Deprecated since version 3. Replaced by ip_support field.
optional IPSupport previous_network_ip_support = 3 [deprecated = true];
// The transport types of the new default network, represented by
// TRANSPORT_* constants as defined in NetworkCapabilities.
// Deprecated since version 3. Replaced by top-level transports field.
repeated int32 transport_types = 4 [deprecated = true];
// Duration in milliseconds without a default network. This field is non-zero
// only for DefaultNetworkEvents representing lack of a default network.
// Since P.
optional int64 no_default_network_duration_ms = 6 [deprecated = true];
};
// Logs IpReachabilityMonitor probe events and NUD_FAILED events.
// This message is associated to android.net.metrics.IpReachabilityEvent.
// Next tag: 3.
message IpReachabilityEvent {
// The interface name (wlan, rmnet, lo, ...) on which the probe was sent.
// Deprecated since version 2, to be replaced by link_layer field.
optional string if_name = 1 [deprecated = true];
// The event type code of the probe, represented by constants defined in
// android.net.metrics.IpReachabilityEvent.
// NUD_FAILED_ORGANIC and PROVISIONING_LOST_ORGANIC recorded since version 1.
optional int32 event_type = 2;
};
// Logs NetworkMonitor and ConnectivityService events related to the state of
// a network: connection, evaluation, validation, lingering, and disconnection.
// This message is associated to android.net.metrics.NetworkEvent.
// Next tag: 4.
message NetworkEvent {
// The id of the network on which this event happened.
// Deprecated since version 3.
optional NetworkId network_id = 1 [deprecated = true];
// The type of network event, represented by NETWORK_* constants defined in
// android.net.metrics.NetworkEvent.
optional int32 event_type = 2;
// Only valid after finishing evaluating a network for Internet connectivity.
// The time it took for this evaluation to complete.
optional int32 latency_ms = 3;
}
// Logs individual captive portal probing events that are performed when
// evaluating or reevaluating networks for Internet connectivity.
// This message is associated to android.net.metrics.ValidationProbeEvent.
// Next tag: 5.
message ValidationProbeEvent {
// The id of the network for which the probe was sent.
// Deprecated since version 3.
optional NetworkId network_id = 1 [deprecated = true];
// The time it took for that probe to complete or time out.
optional int32 latency_ms = 2;
// The type of portal probe, represented by PROBE_* constants defined in
// android.net.metrics.ValidationProbeEvent.
optional int32 probe_type = 3;
// The http code result of the probe test.
optional int32 probe_result = 4;
}
// Logs DNS lookup latencies.
// This message is associated to android.net.metrics.DnsEvent.
// Next tag: 11
message DNSLookupBatch {
// The time it took for successful DNS lookups to complete.
// The number of repeated values can be less than getaddrinfo_query_count
// + gethostbyname_query_count in case of event rate-limiting.
repeated int32 latencies_ms = 4;
// The total number of getaddrinfo queries.
// Since version 4.
optional int64 getaddrinfo_query_count = 5;
// The total number of gethostbyname queries.
// Since version 4.
optional int64 gethostbyname_query_count = 6;
// The total number of getaddrinfo errors.
// Since version 4.
optional int64 getaddrinfo_error_count = 7;
// The total number of gethostbyname errors.
// Since version 4.
optional int64 gethostbyname_error_count = 8;
// Counts of all errors returned by getaddrinfo.
// The Pair key field is the getaddrinfo error value.
// The value field is the count for that return value.
// Since version 4
repeated Pair getaddrinfo_errors = 9;
// Counts of all errors returned by gethostbyname.
// The Pair key field is the gethostbyname errno value.
// the Pair value field is the count for that errno code.
// Since version 4
repeated Pair gethostbyname_errors = 10;
// Deprecated fields
// The id of the network on which the DNS lookups took place.
// Deprecated since version 3.
optional NetworkId network_id = 1 [deprecated = true];
// The types of the DNS lookups, as defined in android.net.metrics.DnsEvent.
// Deprecated since version 3.
repeated int32 event_types = 2 [deprecated = true];
// The return values of the DNS resolver for each DNS lookups.
// Deprecated since version 3.
repeated int32 return_codes = 3 [deprecated = true];
};
// Represents a collections of DNS lookup latencies and counters for a
// particular combination of DNS query type and return code.
// Since version 2.
// Next tag: 7.
message DNSLatencies {
// The type of the DNS lookups, as defined in android.net.metrics.DnsEvent.
// Acts as a key for a set of DNS query results.
// Possible values are: 0 for getaddrinfo, 1 for gethostbyname.
optional int32 type = 1;
// The return value of the DNS resolver for the DNS lookups.
// Acts as a key for a set of DNS query results.
// Possible values are: 0 for success, or errno code for failures.
optional int32 return_code = 2;
// The number of query operations recorded.
optional int32 query_count = 3;
// The number of query operations returning A IPv4 records.
optional int32 a_count = 4;
// The number of query operations returning AAAA IPv6 records.
optional int32 aaaa_count = 5;
// The time it took for each DNS lookup to complete. The number of repeated
// values can be less than query_count in case of event rate-limiting.
repeated int32 latencies_ms = 6;
};
// Represents latency and errno statistics of the connect() system call.
// Since version 2.
// Next tag: 7
message ConnectStatistics {
// The number of connect() operations recorded.
optional int32 connect_count = 1;
// The number of connect() operations done in blocking mode.
// Since version 3.
optional int32 connect_blocking_count = 5;
// The number of connect() operations with IPv6 socket address.
optional int32 ipv6_addr_count = 2;
// The time it took for successful blocking connect() operations to complete
// The number of repeated values can be less than connect_blocking_count in
// case of event rate-limiting.
repeated int32 latencies_ms = 3;
// The time it took for successful connect() operation to complete in
// non-blocking mode. The number of repeated values can be less than
// connect_count - connect_blocking_count in case of event rate-limiting.
repeated int32 non_blocking_latencies_ms = 6;
// Counts of all error values returned by failed connect() operations.
// The Pair key field is the errno code. The Pair value field is the count
// for that errno code.
repeated Pair errnos_counters = 4;
};
// Represents a DHCP event on a single interface, which can be a DHCPClient
// state transition or a response packet parsing error.
// This message is associated to android.net.metrics.DhcpClientEvent and
// android.net.metrics.DhcpErrorEvent.
// Next tag: 5
message DHCPEvent {
// The interface name (wlan, rmnet, lo, ...) on which the event happened.
// Deprecated since version 2, to be replaced by link_layer field.
optional string if_name = 1 [deprecated = true];
oneof value {
// The name of a state in the DhcpClient state machine, represented by
// the inner classes of android.net.dhcp.DhcpClient.
string state_transition = 2;
// The error code of a DHCP error, represented by constants defined in
// android.net.metrics.DhcpErrorEvent.
int32 error_code = 3;
}
// Lifetime duration in milliseconds of a DhcpClient state, or transition
// time in milliseconds between specific pairs of DhcpClient's states.
// Only populated since version 1, when state_transition is populated.
optional int32 duration_ms = 4;
}
// Represents the generation of an Android Packet Filter program.
// Since version 1.
// Next tag: 8
message ApfProgramEvent {
// Maximum lifetime of the program in seconds.
optional int64 lifetime = 1;
// Effective lifetime of the program in seconds from the time the
// program was installed to the time it was replaced or removed.
optional int64 effective_lifetime = 7;
// Number of RAs filtered by the APF program.
optional int32 filtered_ras = 2;
// Total number of RAs to filter currently tracked by ApfFilter. Can be more
// than filtered_ras if all available program size was exhausted.
optional int32 current_ras = 3;
// Length of the APF program in bytes.
optional int32 program_length = 4;
// True if the APF program is dropping multicast and broadcast traffic.
optional bool drop_multicast = 5;
// True if the interface on which APF runs has an IPv4 address.
optional bool has_ipv4_addr = 6;
}
// Represents Router Advertisement listening statistics for an interface with
// Android Packet Filter enabled.
// Since version 1.
// Next tag: 15
message ApfStatistics {
// The time interval in milliseconds these stastistics cover.
optional int64 duration_ms = 1;
// The total number of received RAs.
optional int32 received_ras = 2;
// The total number of received RAs that matched a known RA.
optional int32 matching_ras = 3;
// The total number of received RAs ignored due to the MAX_RAS limit.
optional int32 dropped_ras = 5;
// The total number of received RAs with an effective lifetime of 0 seconds.
// Effective lifetime for APF is the minimum of all lifetimes in a RA.
optional int32 zero_lifetime_ras = 6;
// The total number of received RAs that could not be parsed.
optional int32 parse_errors = 7;
// The total number of APF program updates triggered by an RA reception.
optional int32 program_updates = 8;
// The maximum APF program size in byte advertised by hardware.
optional int32 max_program_size = 9;
// The total number of successful APF program updates triggered by any state
// change in ApfFilter. Since version 3.
optional int32 program_updates_all = 10;
// The total number of APF program updates triggered when disabling the
// multicast filter. Since version 3.
// Since version 4.
optional int32 program_updates_allowing_multicast = 11;
// The total number of packets processed by the APF interpreter.
// Since version 4.
optional int32 total_packet_processed = 12;
// The total number of packets dropped by the APF interpreter.
// Since version 4.
optional int32 total_packet_dropped = 13;
// List of hardware counters collected by the APF interpreter.
// The Pair key is the counter id, defined in android.net.metrics.ApfStats.
// The Pair value is the counter value.
// Since version 4.
repeated Pair hardware_counters = 14;
}
// Represents the reception of a Router Advertisement packet for an interface
// with Android Packet Filter enabled.
// Since version 1.
// Next tag: 7.
message RaEvent {
// All lifetime values are expressed in seconds. The default value for an
// option lifetime that was not present in the RA option list is -1.
// The lifetime of an option (e.g., the Prefix Information Option) is the
// minimum lifetime of all such options in the packet.
// The value of the router lifetime in the RA packet.
optional int64 router_lifetime = 1;
// Prefix valid lifetime from the prefix information option.
optional int64 prefix_valid_lifetime = 2;
// Prefix preferred lifetime from the prefix information option.
optional int64 prefix_preferred_lifetime = 3;
// Route info lifetime.
optional int64 route_info_lifetime = 4;
// Recursive DNS server lifetime.
optional int64 rdnss_lifetime = 5;
// DNS search list lifetime.
optional int64 dnssl_lifetime = 6;
}
// Represents an IP provisioning event in IpManager and how long the
// provisioning action took.
// This message is associated to android.net.metrics.IpManagerEvent.
// Next tag: 4.
message IpProvisioningEvent {
// The interface name (wlan, rmnet, lo, ...) on which the probe was sent.
// Deprecated since version 2, to be replaced by link_layer field.
optional string if_name = 1 [deprecated = true];
// The code of the IP provisioning event, represented by constants defined in
// android.net.metrics.IpManagerEvent.
optional int32 event_type = 2;
// The duration of the provisioning action that resulted in this event.
optional int32 latency_ms = 3;
}
// Represents statistics from a single android Network.
// Since version 4. Replace NetworkEvent.
// Next tag: 9.
message NetworkStats {
// Duration of this Network lifecycle in milliseconds.
optional int64 duration_ms = 1;
// Information about IP support of this network.
optional DefaultNetworkEvent.IPSupport ip_support = 2;
// True if the network was validated at least once.
optional bool ever_validated = 3;
// True if a captive portal was found at least once on this network.
optional bool portal_found = 4;
// Total number of times no connectivity was reported for this network.
optional int32 no_connectivity_reports = 5;
// Total number of validation attempts.
optional int32 validation_attempts = 6;
// Results from all validation attempts.
// The Pair key is the result:
// 0 -> unvalidated
// 1 -> validated
// 2 -> captive portal
// The Pair value is the duration of the validation attempts in milliseconds.
repeated Pair validation_events = 7;
// Time series of validation states in time order.
// The Pair key is the state:
// 0 -> unvalidated
// 1 -> validated
// 2 -> captive portal,
// The Pair value is the duration of that state in milliseconds.
repeated Pair validation_states = 8;
}
// Represents statistics from NFLOG wakeup events due to ingress packets.
// Since oc-mr1.
// Next tag: 13.
message WakeupStats {
// The time duration in seconds covered by these stats, for deriving
// exact wakeup rates.
optional int64 duration_sec = 1;
// The total number of ingress packets waking up the device.
optional int64 total_wakeups = 2;
// The total number of wakeup packets routed to a socket belonging to
// the root uid (uid 0).
optional int64 root_wakeups = 3;
// The total number of wakeup packets routed to a socket belonging to
// the system server (uid 1000).
optional int64 system_wakeups = 4;
// The total number of wakeup packets routed to a socket belonging to
// an application (uid > 9999).
optional int64 application_wakeups = 5;
// The total number of wakeup packets routed to a socket belonging to another
// uid than the root uid, system uid, or an application uid (any uid in
// between [1001, 9999]. See android.os.Process for possible uids.
optional int64 non_application_wakeups = 6;
// The total number of wakeup packets with no associated socket or uid.
optional int64 no_uid_wakeups = 7;
// Counts of all different ethertype values from wakeup packets received.
repeated Pair ethertype_counts = 8;
// Counts of all different IP next header values from wakeup packets received.
repeated Pair ip_next_header_counts = 9;
// The total number of wakeup packets whose destination hardware address was
// a unicast address.
optional int64 l2_unicast_count = 10;
// The total number of wakeup packets whose destination hardware address was
// a multicast address.
optional int64 l2_multicast_count = 11;
// The total number of wakeup packets whose destination hardware address was
// a broadcast address.
optional int64 l2_broadcast_count = 12;
}
// Represents one of the IP connectivity event defined in this file.
// Next tag: 20
message IpConnectivityEvent {
// Time in ms when the event was recorded.
optional int64 time_ms = 1;
// Physical link layer of the network on which the event happened.
// Acts as a dimension key.
// Since version 2.
optional LinkLayer link_layer = 15;
// Represents the id given by the system to a physical network on the device.
// Every network gets assigned a unique id on creation from a monotonic
// counter. The value 0 is never assigned to a network and means no network.
// It is used to correlate different types of events to each other for devices
// with multiple networks (WiFi, 4G, ...).
// Since version 3.
optional int32 network_id = 16;
// The interface name (wlan, rmnet, lo, ...) on which the event happened.
// Present if the link_layer field was not inferred from the if_name on
// the device, so that post-processing of the serialized proto can backfill
// link_layer. Since version 3.
optional string if_name = 17;
// The transport types of the network on which the event happened, expressed
// as a bit field of TRANSPORT_* constants as defined in NetworkCapabilities.
// Present if the link_layer field was not inferred from the transport types,
// so that post-processing of the serialized proto can backfill link_layer
// Since version 3.
optional int64 transports = 18;
oneof event {
// An event about the system default network.
DefaultNetworkEvent default_network_event = 2;
// An IP reachability probe event.
IpReachabilityEvent ip_reachability_event = 3;
// A network lifecycle event.
NetworkEvent network_event = 4 [deprecated = true];
// A batch of DNS lookups.
// Deprecated in the nyc-mr2 release since version 2,and replaced by
// dns_latencies.
DNSLookupBatch dns_lookup_batch = 5 [deprecated = true];
// DNS lookup latency statistics.
DNSLatencies dns_latencies = 13;
// Connect latency and errno statistics.
ConnectStatistics connect_statistics = 14;
// A DHCP client event or DHCP receive error.
DHCPEvent dhcp_event = 6;
// An IP provisioning event.
IpProvisioningEvent ip_provisioning_event = 7;
// A network validation probe event.
ValidationProbeEvent validation_probe_event = 8;
// An Android Packet Filter program event.
ApfProgramEvent apf_program_event = 9;
// An Android Packet Filter statistics event.
ApfStatistics apf_statistics = 10;
// An RA packet reception event.
RaEvent ra_event = 11;
// Network statistics.
NetworkStats network_stats = 19;
// Ingress packet wakeup statistics.
WakeupStats wakeup_stats = 20;
};
};
// The information about IP connectivity events.
// Next tag: 4.
message IpConnectivityLog {
// An array of IP connectivity events.
repeated IpConnectivityEvent events = 1;
// The number of events that had to be dropped due to a full buffer.
optional int32 dropped_events = 2;
// The version number of the metrics events being collected.
// nyc: not populated, implicitly 0.
// nyc-dr1: not populated, implicitly 1 (sailfish and marlin only).
// nyc-mr1: not populated, implicitly 1.
// nyc-mr2: 2.
// oc: 3.
// oc-dr1: 4. (sailfish, marlin, walleye, taimen)
optional int32 version = 3;
};