envoy.service.tap.v2alpha.common.proto Maven / Gradle / Ivy
syntax = "proto3";
import "envoy/api/v2/route/route.proto";
import "envoy/api/v2/core/base.proto";
import "envoy/api/v2/core/grpc_service.proto";
import "google/protobuf/wrappers.proto";
import "validate/validate.proto";
package envoy.service.tap.v2alpha;
option java_outer_classname = "CommonProto";
option java_multiple_files = true;
option java_package = "io.envoyproxy.envoy.service.tap.v2alpha";
// [#protodoc-title: Common tap configuration]
// Tap configuration.
message TapConfig {
// The match configuration. If the configuration matches the data source being tapped, a tap will
// occur, with the result written to the configured output.
MatchPredicate match_config = 1 [(validate.rules).message.required = true];
// The tap output configuration. If a match configuration matches a data source being tapped,
// a tap will occur and the data will be written to the configured output.
OutputConfig output_config = 2 [(validate.rules).message.required = true];
// [#not-implemented-hide:] Specify if Tap matching is enabled. The % of requests\connections for
// which the tap matching is enabled. When not enabled, the request\connection will not be
// recorded.
//
// .. note::
//
// This field defaults to 100/:ref:`HUNDRED
// `.
envoy.api.v2.core.RuntimeFractionalPercent tap_enabled = 3;
// [#comment:TODO(mattklein123): Rate limiting]
}
// Tap match configuration. This is a recursive structure which allows complex nested match
// configurations to be built using various logical operators.
message MatchPredicate {
// A set of match configurations used for logical operations.
message MatchSet {
// The list of rules that make up the set.
repeated MatchPredicate rules = 1 [(validate.rules).repeated .min_items = 2];
}
oneof rule {
option (validate.required) = true;
// A set that describes a logical OR. If any member of the set matches, the match configuration
// matches.
MatchSet or_match = 1;
// A set that describes a logical AND. If all members of the set match, the match configuration
// matches.
MatchSet and_match = 2;
// A negation match. The match configuration will match if the negated match condition matches.
MatchPredicate not_match = 3;
// The match configuration will always match.
bool any_match = 4 [(validate.rules).bool.const = true];
// HTTP request headers match configuration.
HttpHeadersMatch http_request_headers_match = 5;
// HTTP request trailers match configuration.
HttpHeadersMatch http_request_trailers_match = 6;
// HTTP response headers match configuration.
HttpHeadersMatch http_response_headers_match = 7;
// HTTP response trailers match configuration.
HttpHeadersMatch http_response_trailers_match = 8;
}
}
// HTTP headers match configuration.
message HttpHeadersMatch {
// HTTP headers to match.
repeated api.v2.route.HeaderMatcher headers = 1;
}
// Tap output configuration.
message OutputConfig {
// Output sinks for tap data. Currently a single sink is allowed in the list. Once multiple
// sink types are supported this constraint will be relaxed.
repeated OutputSink sinks = 1 [(validate.rules).repeated = {min_items: 1, max_items: 1}];
// For buffered tapping, the maximum amount of received body that will be buffered prior to
// truncation. If truncation occurs, the :ref:`truncated
// ` field will be set. If not specified, the
// default is 1KiB.
google.protobuf.UInt32Value max_buffered_rx_bytes = 2;
// For buffered tapping, the maximum amount of transmitted body that will be buffered prior to
// truncation. If truncation occurs, the :ref:`truncated
// ` field will be set. If not specified, the
// default is 1KiB.
google.protobuf.UInt32Value max_buffered_tx_bytes = 3;
// Indicates whether taps produce a single buffered message per tap, or multiple streamed
// messages per tap in the emitted :ref:`TraceWrapper
// ` messages. Note that streamed tapping does not
// mean that no buffering takes place. Buffering may be required if data is processed before a
// match can be determined. See the HTTP tap filter :ref:`streaming
// ` documentation for more information.
bool streaming = 4;
}
// Tap output sink configuration.
message OutputSink {
// Output format. All output is in the form of one or more :ref:`TraceWrapper
// ` messages. This enumeration indicates
// how those messages are written. Note that not all sinks support all output formats. See
// individual sink documentation for more information.
enum Format {
// Each message will be written as JSON. Any :ref:`body `
// data will be present in the :ref:`as_bytes
// ` field. This means that body data will be
// base64 encoded as per the `proto3 JSON mappings
// `_.
JSON_BODY_AS_BYTES = 0;
// Each message will be written as JSON. Any :ref:`body `
// data will be present in the :ref:`as_string
// ` field. This means that body data will be
// string encoded as per the `proto3 JSON mappings
// `_. This format type is
// useful when it is known that that body is human readable (e.g., JSON over HTTP) and the
// user wishes to view it directly without being forced to base64 decode the body.
JSON_BODY_AS_STRING = 1;
// Binary proto format. Note that binary proto is not self-delimiting. If a sink writes
// multiple binary messages without any length information the data stream will not be
// useful. However, for certain sinks that are self-delimiting (e.g., one message per file)
// this output format makes consumption simpler.
PROTO_BINARY = 2;
// Messages are written as a sequence tuples, where each tuple is the message length encoded
// as a `protobuf 32-bit varint
// `_
// followed by the binary message. The messages can be read back using the language specific
// protobuf coded stream implementation to obtain the message length and the message.
PROTO_BINARY_LENGTH_DELIMITED = 3;
// Text proto format.
PROTO_TEXT = 4;
}
// Sink output format.
Format format = 1 [(validate.rules).enum.defined_only = true];
oneof output_sink_type {
option (validate.required) = true;
// Tap output will be streamed out the :http:post:`/tap` admin endpoint.
//
// .. attention::
//
// It is only allowed to specify the streaming admin output sink if the tap is being
// configured from the :http:post:`/tap` admin endpoint. Thus, if an extension has
// been configured to receive tap configuration from some other source (e.g., static
// file, XDS, etc.) configuring the streaming admin output type will fail.
StreamingAdminSink streaming_admin = 2;
// Tap output will be written to a file per tap sink.
FilePerTapSink file_per_tap = 3;
// [#not-implemented-hide:]
// GrpcService to stream data to. The format argument must be PROTO_BINARY.
StreamingGrpcSink streaming_grpc = 4;
}
}
// Streaming admin sink configuration.
message StreamingAdminSink {
}
// The file per tap sink outputs a discrete file for every tapped stream.
message FilePerTapSink {
// Path prefix. The output file will be of the form _.pb, where is an
// identifier distinguishing the recorded trace for stream instances (the Envoy
// connection ID, HTTP stream ID, etc.).
string path_prefix = 1 [(validate.rules).string.min_bytes = 1];
}
// [#not-implemented-hide:] Streaming gRPC sink configuration sends the taps to an external gRPC
// server.
message StreamingGrpcSink {
// Opaque identifier, that will be sent back to the streaming grpc server.
string tap_id = 1;
// The gRPC server that hosts the Tap Sink Service.
envoy.api.v2.core.GrpcService grpc_service = 2 [(validate.rules).message.required = true];
}