Semantic conventions for HTTP spans
Status: Experimental
This document defines semantic conventions for HTTP client and server Spans. They can be used for http and https schemes and various HTTP versions like 1.1, 2 and SPDY.
Name
HTTP spans MUST follow the overall guidelines for span names.
Many REST APIs encode parameters into URI path, e.g. /api/users/123 where 123
is a user id, which creates high cardinality value space not suitable for span
names. In case of HTTP servers, these endpoints are often mapped by the server
frameworks to more concise HTTP routes, e.g. /api/users/{user_id}, which are
recommended as the low cardinality span names. However, the same approach usually
does not work for HTTP client spans, especially when instrumentation is provided
by a lower-level middleware that is not aware of the specifics of how the URIs
are formed. Therefore, HTTP client spans SHOULD be using conservative, low
cardinality names formed from the available parameters of an HTTP request,
such as "HTTP {METHOD_NAME}". Instrumentation MUST NOT default to using URI
path as span name, but MAY provide hooks to allow custom logic to override the
default span name.
Status
Span Status MUST be left unset if HTTP status code was in the
1xx, 2xx or 3xx ranges, unless there was another error (e.g., network error receiving
the response body; or 3xx codes with max redirects exceeded), in which case status
MUST be set to Error.
For HTTP status codes in the 4xx range span status MUST be left unset in case of SpanKind.SERVER
and MUST be set to Error in case of SpanKind.CLIENT.
For HTTP status codes in the 5xx range, as well as any other code the client
failed to interpret, span status MUST be set to Error.
Don’t set the span status description if the reason can be inferred from http.status_code.
Common Attributes
| Attribute | Type | Description | Examples | Required |
|---|---|---|---|---|
http.method |
string | HTTP request method. | GET; POST; HEAD |
Yes |
http.url |
string | Full HTTP request URL in the form scheme://host[:port]/path?query[#fragment]. Usually the fragment is not transmitted over HTTP, but if it is known, it should be included nevertheless. [1] |
https://www.foo.bar/search?q=OpenTelemetry#SemConv |
No |
http.target |
string | The full request target as passed in a HTTP request line or equivalent. | /path/12314/?q=ddds#123 |
No |
http.host |
string | The value of the HTTP host header. An empty Host header should also be reported, see note. [2] | www.example.org |
No |
http.scheme |
string | The URI scheme identifying the used protocol. | http; https |
No |
http.status_code |
int | HTTP response status code. | 200 |
If and only if one was received/sent. |
http.flavor |
string | Kind of HTTP protocol used. [3] | 1.0 |
No |
http.user_agent |
string | Value of the HTTP User-Agent header sent by the client. | CERN-LineMode/2.15 libwww/2.17b3 |
No |
http.request_content_length |
int | The size of the request payload body in bytes. This is the number of bytes transferred excluding headers and is often, but not always, present as the Content-Length header. For requests using transport encoding, this should be the compressed size. | 3495 |
No |
http.request_content_length_uncompressed |
int | The size of the uncompressed request payload body after transport decoding. Not set if transport encoding not used. | 5493 |
No |
http.response_content_length |
int | The size of the response payload body in bytes. This is the number of bytes transferred excluding headers and is often, but not always, present as the Content-Length header. For requests using transport encoding, this should be the compressed size. | 3495 |
No |
http.response_content_length_uncompressed |
int | The size of the uncompressed response payload body after transport decoding. Not set if transport encoding not used. | 5493 |
No |
net.peer.ip |
string | Remote address of the peer (dotted decimal for IPv4 or RFC5952 for IPv6) | 127.0.0.1 |
No |
net.peer.name |
string | Remote hostname or similar, see note below. | example.com |
No |
net.peer.port |
int | Remote port number. | 80; 8080; 443 |
No |
[1]: http.url MUST NOT contain credentials passed via URL in form of https://username:password@www.example.com/. In such case the attribute’s value should be https://www.example.com/.
[2]: When the header is present but empty the attribute SHOULD be set to the empty string. Note that this is a valid situation that is expected in certain cases, according the aforementioned section of RFC 7230. When the header is not set the attribute MUST NOT be set.
[3]: If net.transport is not specified, it can be assumed to be IP.TCP except if http.flavor is QUIC, in which case IP.UDP is assumed.
http.flavor MUST be one of the following or, if none of the listed values apply, a custom value:
| Value | Description |
|---|---|
1.0 |
HTTP 1.0 |
1.1 |
HTTP 1.1 |
2.0 |
HTTP 2 |
SPDY |
SPDY protocol. |
QUIC |
QUIC protocol. |
Following attributes MUST be provided at span creation time (when provided at all):
http.methodhttp.urlhttp.targethttp.hosthttp.schemenet.peer.ipnet.peer.namenet.peer.port
It is recommended to also use the general network attributes, especially net.peer.ip. If net.transport is not specified, it can be assumed to be IP.TCP except if http.flavor is QUIC, in which case IP.UDP is assumed.
HTTP request and response headers
| Attribute | Type | Description | Examples | Required |
|---|---|---|---|---|
http.request.header.<key> |
string[] | HTTP request headers, <key> being the normalized HTTP Header name (lowercase, with - characters replaced by _), the value being the header values. [1] [2] |
http.request.header.content_type=["application/json"]; http.request.header.x_forwarded_for=["1.2.3.4", "1.2.3.5"] |
No |
http.response.header.<key> |
string[] | HTTP response headers, <key> being the normalized HTTP Header name (lowercase, with - characters replaced by _), the value being the header values. [1] [2] |
http.response.header.content_type=["application/json"]; http.response.header.my_custom_header=["abc", "def"] |
No |
[1]: Instrumentations SHOULD require an explicit configuration of which headers are to be captured. Including all request/response headers can be a security risk - explicit configuration helps avoid leaking sensitive information.
Some HTTP headers - Host and User-Agent - are already captured in the http.host and http.user_agent attributes.
Users MAY explicitly configure instrumentations to capture them even though it is not recommended.
[2]: The attribute value MUST consist of either multiple header values as an array of strings or a single-item array containing a possibly comma-concatenated string, depending on the way the HTTP library provides access to headers.
HTTP client
This span type represents an outbound HTTP request.
For an HTTP client span, SpanKind MUST be Client.
If set, http.url must be the originally requested URL,
before any HTTP-redirects that may happen when executing the request.
Additional attribute requirements: At least one of the following sets of attributes is required:
http.urlhttp.scheme,http.host,http.targethttp.scheme,net.peer.name,net.peer.port,http.targethttp.scheme,net.peer.ip,net.peer.port,http.target
Note that in some cases http.host might be different
from the net.peer.name
used to look up the net.peer.ip that is actually connected to.
In that case it is strongly recommended to set the net.peer.name attribute in addition to http.host.
HTTP server
To understand the attributes defined in this section, it is helpful to read the “Definitions” subsection.
HTTP server definitions
This section gives a short summary of some concepts in web server configuration and web app deployment that are relevant to tracing.
Usually, on a physical host, reachable by one or multiple IP addresses, a single HTTP listener process runs. If multiple processes are running, they must listen on distinct TCP/UDP ports so that the OS can route incoming TCP/UDP packets to the right one.
Within a single server process, there can be multiple virtual hosts. The HTTP host header (in combination with a port number) is normally used to determine to which of them to route incoming HTTP requests.
The host header value that matches some virtual host is called the virtual hosts’s server name. If there are multiple aliases for the virtual host, one of them (often the first one listed in the configuration) is called the primary server name. See for example, the Apache ServerName or NGINX server_name directive or the CGI specification on SERVER_NAME (RFC 3875).
In practice the HTTP host header is often ignored when just a single virtual host is configured for the IP.
Within a single virtual host, some servers support the concepts of an HTTP application
(for example in Java, the Servlet JSR defines an application as
“a collection of servlets, HTML pages, classes, and other resources that make up a complete application on a Web server”
– SRV.9 in JSR 53;
in a deployment of a Python application to Apache, the application would be the PEP 3333 conformant callable that is configured using the
WSGIScriptAlias directive of mod_wsgi).
An application can be “mounted” under some application root
(also know as context root context prefix, or document base)
which is a fixed path prefix of the URL that determines to which application a request is routed
(e.g., the server could be configured to route all requests that go to an URL path starting with /webshop/
at a particular virtual host
to the com.example.webshop web application).
Some servers allow to bind the same HTTP application to multiple (virtual host, application root) pairs.
TODO: Find way to trace HTTP application and application root (opentelemetry/opentelementry-specification#335)
HTTP Server semantic conventions
This span type represents an inbound HTTP request.
For an HTTP server span, SpanKind MUST be Server.
Given an inbound request for a route (e.g. "/users/:userID?") the name attribute of the span SHOULD be set to this route.
If the route does not include the application root, it SHOULD be prepended to the span name.
If the route cannot be determined, the name attribute MUST be set as defined in the general semantic conventions for HTTP.
| Attribute | Type | Description | Examples | Required |
|---|---|---|---|---|
http.server_name |
string | The primary server name of the matched virtual host. This should be obtained via configuration. If no such configuration can be obtained, this attribute MUST NOT be set ( net.host.name should be used instead). [1] |
example.com |
See below |
http.route |
string | The matched route (path template). | /users/:userID? |
No |
http.client_ip |
string | The IP address of the original client behind all proxies, if known (e.g. from X-Forwarded-For). [2] | 83.164.160.102 |
No |
[1]: http.url is usually not readily available on the server side but would have to be assembled in a cumbersome and sometimes lossy process from other information (see e.g. open-telemetry/opentelemetry-python/pull/148). It is thus preferred to supply the raw data that is available.
[2]: This is not necessarily the same as net.peer.ip, which would
identify the network-level peer, which may be a proxy.
This attribute should be set when a source of information different
from the one used for net.peer.ip, is available even if that other
source just confirms the same value as net.peer.ip.
Rationale: For net.peer.ip, one typically does not know if it
comes from a proxy, reverse proxy, or the actual client. Setting
http.client_ip when it’s the same as net.peer.ip means that
one is at least somewhat confident that the address is not that of
the closest proxy.
Additional attribute requirements: At least one of the following sets of attributes is required:
http.scheme,http.host,http.targethttp.scheme,http.server_name,net.host.port,http.targethttp.scheme,net.host.name,net.host.port,http.targethttp.url
Of course, more than the required attributes can be supplied, but this is recommended only if they cannot be inferred from the sent ones.
For example, http.server_name has shown great value in practice, as bogus HTTP Host headers occur often in the wild.
It is strongly recommended to set http.server_name to allow associating requests with some logical server entity.
HTTP client-server example
As an example, if a browser request for https://example.com:8080/webshop/articles/4?s=1 is invoked from a host with IP 192.0.2.4, we may have the following Span on the client side:
Span name: /webshop/articles/4 (NOTE: This is subject to change, see open-telemetry/opentelemetry-specification#270.)
| Attribute name | Value |
|---|---|
http.method |
"GET" |
http.flavor |
"1.1" |
http.url |
"https://example.com:8080/webshop/articles/4?s=1" |
net.peer.ip |
"192.0.2.5" |
http.status_code |
200 |
The corresponding server Span may look like this:
Span name: /webshop/articles/:article_id.
| Attribute name | Value |
|---|---|
http.method |
"GET" |
http.flavor |
"1.1" |
http.target |
"/webshop/articles/4?s=1" |
http.host |
"example.com:8080" |
http.server_name |
"example.com" |
net.host.port |
8080 |
http.scheme |
"https" |
http.route |
"/webshop/articles/:article_id" |
http.status_code |
200 |
http.client_ip |
"192.0.2.4" |
net.peer.ip |
"192.0.2.5" (the client goes through a proxy) |
http.user_agent |
"Mozilla/5.0 (Windows NT 10.0; Win64; x64; rv:72.0) Gecko/20100101 Firefox/72.0" |
Note that following the recommendations above, http.url is not set in the above example.
If set, it would be
"https://example.com:8080/webshop/articles/4?s=1"
but due to http.scheme, http.host and http.target being set, it would be redundant.
As explained above, these separate values are preferred but if for some reason the URL is available but the other values are not,
URL can replace http.scheme, http.host and http.target.