Generally follow guidance at https://cloud.google.com/apis/design/, in particular for proto3 as described at:
- https://cloud.google.com/apis/design/proto3
- https://cloud.google.com/apis/design/naming_convention
- https://developers.google.com/protocol-buffers/docs/style
In addition, the following conventions should be followed:
-
For protos that are frozen, the following guidelines are followed:
- Fields should not be renumbered or have their types changed. This is standard proto development procedure.
- If fields are deleted, the following syntax should be put in their place:
reserved <field index>;
E.g.,
reserved 15;
- Renaming of fields or package namespaces for a proto must not occur. This is inherently dangerous, since:
-
Fields renames break wire compatibility. This is stricter than standard proto development procedure in the sense that it does not break binary wire format. However, it does break loading of YAML/JSON into protos as well as text protos. Since we consider YAML/JSON to be first class inputs, we must not change field names.
-
For service definitions, the gRPC endpoint URL is inferred from package namespace, so this will break client/server communication.
-
For a message embedded in an
Any
object, the type URL, which the package namespace is a part of, may be used by Envoy or other API consuming code. Currently, this applies to the top-level resources embedded inDiscoveryResponse
objects, e.g.Cluster
,Listener
, etc. -
Consuming code will break and require source change to match the changes.
-
-
Non-frozen fields should be tagged with
[#not-implemented-hide:]
,[#not-implemented-warn:]
,[#proto-status: draft]
or[#proto-status: experimental]
. -
Every proto directory should have a
README.md
describing its content. See for example envoy.service. -
The data plane APIs are primarily intended for machine generation and consumption. It is expected that the management server is responsible for mapping higher level configuration concepts to concrete API concepts. Similarly, static configuration fragments may be generated by tools and UIs, etc. The APIs and tools used to generate xDS configuration are beyond the scope of the definitions in this repository.
-
Use wrapped scalar types where there is a real need for the field to have a default value that does not match the proto3 defaults (0/false/""). This should not be done for fields where the proto3 defaults make sense. All things being equal, pick appropriate logic, e.g. enable vs. disable for a
bool
field, such that the proto3 defaults work, but only where this doesn't result in API gymnastics. -
Always use plural field names for
repeated
fields, such asfilters
. -
Always use upper camel case names for message types and enum types without embedded acronyms, such as
HttpRequest
. -
Prefer
oneof
selections to boolean overloads of fields, for example, prefer:oneof path_secifier { string simple_path = 1; string regex_path = 2; }
to
string path = 1; bool path_is_regex = 2;
This is more efficient, extendable and self-describing.
-
The API includes two types for representing percents.
Percent
is effectively a double value in the range 0.0-100.0.FractionalPercent
is an integral fraction that can be used to create a truncated percentage also in the range 0.0-100.0. In high performance paths,FractionalPercent
is preferred as randomness calculations can be performed using integral modulo and comparison operations only without any floating point conversions. Typically, most users do not need infinite precision in these paths. -
For enum types, if one of the enum values is used for most cases, make it the first enum value with
0
numeric value. Otherwise, define the first enum value likeTYPE_NAME_UNSPECIFIED = 0
, and treat it as an error. This design pattern forces developers to explicitly choose the correct enum value for their use case, and avoid misunderstanding of the default behavior. -
Proto fields should be sorted logically, not by field number. For large protos, place a comment at the top that specifies the next free field number. E.g.,
// [#comment:next free field: 28]
API definitions are layered hierarchically in packages from top-to-bottom:
envoy.service
contains gRPC definitions of supporting services;envoy.config
contains definitions for service configuration, filter configuration, and bootstrap;envoy.api.v2
contains definitions for EDS, CDS, RDS, LDS, and top-level resources such asCluster
;envoy.api.v2.endpoint
,envoy.api.v2.cluster
,envoy.api.v2.route
,envoy.api.v2.listener
,envoy.api.v2.ratelimit
define sub-messages of the top-level resources;envoy.api.v2.core
andenvoy.api.v2.auth
hold core definitions consumed throughout the API.
Dependencies are enforced from top-to-bottom using visibility constraints in
the build system to prevent circular dependency formation. Package group
//envoy/api/v2:friends
selects consumers of the core API package (services and configs)
and is the default visibility for the core API packages. The default visibility
for services and configs should be //docs
(proto documentation tool).