Access logging
Configuration
Access logs are configured as part of the HTTP connection manager config or TCP Proxy.
Format Rules
Access log formats contain command operators that extract the relevant data and insert it. They support two formats: “format strings” and “format dictionaries”. In both cases, the command operators are used to extract the relevant data, which is then inserted into the specified log format. Only one access log format may be specified at a time.
Format Strings
Format strings are plain strings, specified using the format
key. They may contain either command operators or other characters interpreted as a plain string. The access log formatter does not make any assumptions about a new line separator, so one has to specified as part of the format string. See the default format for an example.
Default Format String
If custom format string is not specified, Envoy uses the following default format:
[%START_TIME%] "%REQ(:METHOD)% %REQ(X-ENVOY-ORIGINAL-PATH?:PATH)% %PROTOCOL%"
%RESPONSE_CODE% %RESPONSE_FLAGS% %BYTES_RECEIVED% %BYTES_SENT% %DURATION%
%RESP(X-ENVOY-UPSTREAM-SERVICE-TIME)% "%REQ(X-FORWARDED-FOR)%" "%REQ(USER-AGENT)%"
"%REQ(X-REQUEST-ID)%" "%REQ(:AUTHORITY)%" "%UPSTREAM_HOST%"\n
Example of the default Envoy access log format:
[2016-04-15T20:17:00.310Z] "POST /api/v1/locations HTTP/2" 204 - 154 0 226 100 "10.0.35.28"
"nsq2http" "cc21d9b0-cf5c-432b-8c7e-98aeb7988cd2" "locations" "tcp://10.0.2.1:80"
Format Dictionaries
Format dictionaries are dictionaries that specify a structured access log output format, specified using the json_format
or typed_json_format
keys. This allows logs to be output in a structured format such as JSON. Similar to format strings, command operators are evaluated and their values inserted into the format dictionary to construct the log output.
For example, with the following format provided in the configuration as json_format
:
{
"config": {
"json_format": {
"protocol": "%PROTOCOL%",
"duration": "%DURATION%",
"my_custom_header": "%REQ(MY_CUSTOM_HEADER)%"
}
}
}
The following JSON object would be written to the log file:
{"protocol": "HTTP/1.1", "duration": "123", "my_custom_header": "value_of_MY_CUSTOM_HEADER"}
This allows you to specify a custom key for each command operator.
The typed_json_format
differs from json_format
in that values are rendered as JSON numbers, booleans, and nested objects or lists where applicable. In the example, the request duration would be rendered as the number 123
.
Format dictionaries have the following restrictions:
The dictionary must map strings to strings (specifically, strings to command operators). Nesting is not currently supported.
When using the
typed_json_format
command operators will only produce typed output if the command operator is the only string that appears in the dictionary value. For example,"%DURATION%"
will log a numeric duration value, but"%DURATION%.0"
will log a string value.
Note
When using the typed_json_format
, integer values that exceed \(2^{53}\) will be represented with reduced precision as they must be converted to floating point numbers.
Command Operators
Command operators are used to extract values that will be inserted into the access logs. The same operators are used by different types of access logs (such as HTTP and TCP). Some fields may have slightly different meanings, depending on what type of log it is. Differences are noted.
Note that if a value is not set/empty, the logs will contain a -
character or, for JSON logs, the string "-"
. For typed JSON logs unset values are represented as null
values and empty strings are rendered as ""
.
Unless otherwise noted, command operators produce string outputs for typed JSON logs.
The following command operators are supported:
%START_TIME%
HTTP
Request start time including milliseconds.
TCP
Downstream connection start time including milliseconds.
START_TIME can be customized using a format string. In addition to that, START_TIME also accepts following specifiers:
Specifier | Explanation |
---|---|
| The number of seconds since the Epoch |
| Fractional seconds digits, default is 9 digits (nanosecond) |
|
Examples of formatting START_TIME is as follows:
%START_TIME(%Y/%m/%dT%H:%M:%S%z %s)%
# To include millisecond fraction of the second (.000 ... .999). E.g. 1527590590.528.
%START_TIME(%s.%3f)%
%START_TIME(%s.%6f)%
%START_TIME(%s.%9f)%
In typed JSON logs, START_TIME is always rendered as a string.
%BYTES_RECEIVED%
HTTP
Body bytes received.
TCP
Downstream bytes received on connection.
Renders a numeric value in typed JSON logs.
%PROTOCOL%
HTTP
Protocol. Currently either HTTP/1.1 or HTTP/2.
TCP
Not implemented (“-“).
In typed JSON logs, PROTOCOL will render the string "-"
if the protocol is not available (e.g. in TCP logs).
%RESPONSE_CODE%
HTTP
HTTP response code. Note that a response code of ‘0’ means that the server never sent the beginning of a response. This generally means that the (downstream) client disconnected.
TCP
Not implemented (“-“).
Renders a numeric value in typed JSON logs.
%RESPONSE_CODE_DETAILS%
HTTP
HTTP response code details provides additional information about the response code, such as who set it (the upstream or envoy) and why.
TCP
Not implemented (“-“)
%BYTES_SENT%
HTTP
Body bytes sent. For WebSocket connection it will also include response header bytes.
TCP
Downstream bytes sent on connection.
Renders a numeric value in typed JSON logs.
%DURATION%
HTTP
Total duration in milliseconds of the request from the start time to the last byte out.
TCP
Total duration in milliseconds of the downstream connection.
Renders a numeric value in typed JSON logs.
%RESPONSE_DURATION%
HTTP
Total duration in milliseconds of the request from the start time to the first byte read from the upstream host.
TCP
Not implemented (“-“).
Renders a numeric value in typed JSON logs.
%RESPONSE_FLAGS%
Additional details about the response or connection, if any. For TCP connections, the response codes mentioned in the descriptions do not apply. Possible values are:
HTTP and TCP
UH: No healthy upstream hosts in upstream cluster in addition to 503 response code.
UF: Upstream connection failure in addition to 503 response code.
UO: Upstream overflow (circuit breaking) in addition to 503 response code.
NR: No route configured for a given request in addition to 404 response code.
URX: The request was rejected because the upstream retry limit (HTTP) or maximum connect attempts (TCP) was reached.
HTTP only
- **DC**: Downstream connection termination.
- **LH**: Local service failed [health check request](https://www.envoyproxy.io/docs/envoy/v1.13.0/intro/arch_overview/upstream/health_checking#arch-overview-health-checking) in addition to 503 response code.
- **UT**: Upstream request timeout in addition to 504 response code.
- **LR**: Connection local reset in addition to 503 response code.
- **UR**: Upstream remote reset in addition to 503 response code.
- **UC**: Upstream connection termination in addition to 503 response code.
- **DI**: The request processing was delayed for a period specified via [fault injection](https://www.envoyproxy.io/docs/envoy/v1.13.0/configuration/http/http_filters/fault_filter#config-http-filters-fault-injection).
- **FI**: The request was aborted with a response code specified via [fault injection](https://www.envoyproxy.io/docs/envoy/v1.13.0/configuration/http/http_filters/fault_filter#config-http-filters-fault-injection).
- **RL**: The request was ratelimited locally by the [HTTP rate limit filter](https://www.envoyproxy.io/docs/envoy/v1.13.0/configuration/http/http_filters/rate_limit_filter#config-http-filters-rate-limit) in addition to 429 response code.
- **UAEX**: The request was denied by the external authorization service.
- **RLSE**: The request was rejected because there was an error in rate limit service.
- **IH**: The request was rejected because it set an invalid value for a [strictly-checked header](https://www.envoyproxy.io/docs/envoy/v1.13.0/api-v2/config/filter/http/router/v2/router.proto#envoy-api-field-config-filter-http-router-v2-router-strict-check-headers) in addition to 400 response code.
- **SI**: Stream idle timeout in addition to 408 response code.
- **DPE**: The downstream request had an HTTP protocol error.
%RESPONSE_TX_DURATION%
HTTP
Total duration in milliseconds of the request from the first byte read from the upstream host to the last byte sent downstream.
TCP
Not implemented (“-“).
Renders a numeric value in typed JSON logs.
%ROUTE_NAME%
Name of the route.
%UPSTREAM_HOST%
Upstream host URL (e.g., tcp://ip:port for TCP connections).
%UPSTREAM_CLUSTER%
Upstream cluster to which the upstream host belongs to.
%UPSTREAM_LOCAL_ADDRESS%
Local address of the upstream connection. If the address is an IP address it includes both address and port.
%UPSTREAM_TRANSPORT_FAILURE_REASON%
HTTP
If upstream connection failed due to transport socket (e.g. TLS handshake), provides the failure reason from the transport socket. The format of this field depends on the configured upstream transport socket. Common TLS failures are in TLS trouble shooting.
TCP
Not implemented (“-“)
%DOWNSTREAM_REMOTE_ADDRESS%
Remote address of the downstream connection. If the address is an IP address it includes both address and port.
Note
This may not be the physical remote address of the peer if the address has been inferred from proxy proto or x-forwarded-for.
%DOWNSTREAM_REMOTE_ADDRESS_WITHOUT_PORT%
Remote address of the downstream connection. If the address is an IP address the output does not include port.
Note
This may not be the physical remote address of the peer if the address has been inferred from proxy proto or x-forwarded-for.
%DOWNSTREAM_DIRECT_REMOTE_ADDRESS%
Direct remote address of the downstream connection. If the address is an IP address it includes both address and port.
Note
This is always the physical remote address of the peer even if the downstream remote address has been inferred from proxy proto or x-forwarded-for.
%DOWNSTREAM_DIRECT_REMOTE_ADDRESS_WITHOUT_PORT%
The direct remote address of the downstream connection. If the address is an IP address the output does not include port.
Note
This is always the physical remote address of the peer even if the downstream remote address has been inferred from proxy proto or x-forwarded-for.
%DOWNSTREAM_LOCAL_ADDRESS%
Local address of the downstream connection. If the address is an IP address it includes both address and port. If the original connection was redirected by iptables REDIRECT, this represents the original destination address restored by the Original Destination Filter using SO_ORIGINAL_DST socket option. If the original connection was redirected by iptables TPROXY, and the listener’s transparent option was set to true, this represents the original destination address and port.
%DOWNSTREAM_LOCAL_ADDRESS_WITHOUT_PORT%
Same as %DOWNSTREAM_LOCAL_ADDRESS% excluding port if the address is an IP address.
%REQ(X?Y):Z%
HTTP
An HTTP request header where X is the main HTTP header, Y is the alternative one, and Z is an optional parameter denoting string truncation up to Z characters long. The value is taken from the HTTP request header named X first and if it’s not set, then request header Y is used. If none of the headers are present ‘-‘ symbol will be in the log.
TCP
Not implemented (“-“).
%RESP(X?Y):Z%
HTTP
Same as %REQ(X?Y):Z% but taken from HTTP response headers.
TCP
Not implemented (“-“).
%TRAILER(X?Y):Z%
HTTP
Same as %REQ(X?Y):Z% but taken from HTTP response trailers.
TCP
Not implemented (“-“).
%DYNAMIC_METADATA(NAMESPACE:KEY*):Z%
HTTP
Dynamic Metadata info, where NAMESPACE is the filter namespace used when setting the metadata, KEY is an optional lookup up key in the namespace with the option of specifying nested keys separated by ‘:’, and Z is an optional parameter denoting string truncation up to Z characters long. Dynamic Metadata can be set by filters using the StreamInfo API: setDynamicMetadata. The data will be logged as a JSON string. For example, for the following dynamic metadata:
com.test.my_filter: {"test_key": "foo", "test_object": {"inner_key": "bar"}}
%DYNAMIC_METADATA(com.test.my_filter)% will log:
{"test_key": "foo", "test_object": {"inner_key": "bar"}}
%DYNAMIC_METADATA(com.test.my_filter:test_key)% will log:
"foo"
%DYNAMIC_METADATA(com.test.my_filter:test_object)% will log:
{"inner_key": "bar"}
%DYNAMIC_METADATA(com.test.my_filter:test_object:inner_key)% will log:
"bar"
%DYNAMIC_METADATA(com.unknown_filter)% will log:
-
%DYNAMIC_METADATA(com.test.my_filter:unknown_key)% will log:
-
%DYNAMIC_METADATA(com.test.my_filter):25% will log (truncation at 25 characters):
{"test_key": "foo", "test
TCP
Not implemented (“-“).
Note
For typed JSON logs, this operator renders a single value with string, numeric, or boolean type when the referenced key is a simple value. If the referenced key is a struct or list value, a JSON struct or list is rendered. Structs and lists may be nested. In any event, the maximum length is ignored
%FILTER_STATE(KEY):Z%
HTTP
Filter State info, where the KEY is required to look up the filter state object. The serialized proto will be logged as JSON string if possible. If the serialized proto is unknown to Envoy it will be logged as protobuf debug string. Z is an optional parameter denoting string truncation up to Z characters long.
TCP
Same as HTTP, the filter state is from connection instead of a L7 request.
Note
For typed JSON logs, this operator renders a single value with string, numeric, or boolean type when the referenced key is a simple value. If the referenced key is a struct or list value, a JSON struct or list is rendered. Structs and lists may be nested. In any event, the maximum length is ignored
%REQUESTED_SERVER_NAME%
HTTP
String value set on ssl connection socket for Server Name Indication (SNI)
TCP
String value set on ssl connection socket for Server Name Indication (SNI)
%DOWNSTREAM_LOCAL_URI_SAN%
HTTP
The URIs present in the SAN of the local certificate used to establish the downstream TLS connection.
TCP
The URIs present in the SAN of the local certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_URI_SAN%
HTTP
The URIs present in the SAN of the peer certificate used to establish the downstream TLS connection.
TCP
The URIs present in the SAN of the peer certificate used to establish the downstream TLS connection.
%DOWNSTREAM_LOCAL_SUBJECT%
HTTP
The subject present in the local certificate used to establish the downstream TLS connection.
TCP
The subject present in the local certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_SUBJECT%
HTTP
The subject present in the peer certificate used to establish the downstream TLS connection.
TCP
The subject present in the peer certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_ISSUER%
HTTP
The issuer present in the peer certificate used to establish the downstream TLS connection.
TCP
The issuer present in the peer certificate used to establish the downstream TLS connection.
%DOWNSTREAM_TLS_SESSION_ID%
HTTP
The session ID for the established downstream TLS connection.
TCP
The session ID for the established downstream TLS connection.
%DOWNSTREAM_TLS_CIPHER%
HTTP
The OpenSSL name for the set of ciphers used to establish the downstream TLS connection.
TCP
The OpenSSL name for the set of ciphers used to establish the downstream TLS connection.
%DOWNSTREAM_TLS_VERSION%
HTTP
The TLS version (e.g.,
TLSv1.2
,TLSv1.3
) used to establish the downstream TLS connection.TCP
The TLS version (e.g.,
TLSv1.2
,TLSv1.3
) used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_FINGERPRINT_256%
HTTP
The hex-encoded SHA256 fingerprint of the client certificate used to establish the downstream TLS connection.
TCP
The hex-encoded SHA256 fingerprint of the client certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_SERIAL%
HTTP
The serial number of the client certificate used to establish the downstream TLS connection.
TCP
The serial number of the client certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_CERT%
HTTP
The client certificate in the URL-encoded PEM format used to establish the downstream TLS connection.
TCP
The client certificate in the URL-encoded PEM format used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_CERT_V_START%
HTTP
The validity start date of the client certificate used to establish the downstream TLS connection.
TCP
The validity start date of the client certificate used to establish the downstream TLS connection.
%DOWNSTREAM_PEER_CERT_V_END%
HTTP
The validity end date of the client certificate used to establish the downstream TLS connection.
TCP
The validity end date of the client certificate used to establish the downstream TLS connection.
%HOSTNAME%
The system hostname.