protoc-gen-gorm
Purpose
A protobuf (https://developers.google.com/protocol-buffers/) compiler plugin designed to simplify the API calls needed to perform simple object persistence tasks. This is currently accomplished by creating a secondary .pb.gorm.go file which contains sister objects to those generated in the standard .pb.go file satisfying these criteria:
- Go field decorators/tags can be defined by option in the .proto file for GORM/SQL
- There are options for dropping fields from the PB object, or adding additional fields (not generally recommended, as it reduces clarity of .proto file)
- Converters between PB version and ORM version of the objects are included
- Hook interfaces allow for custom application logic
Prerequisites
1. Protobuf Compiler
The protobuf compiler (protoc) is required.
2. Golang Protobuf Code Generator
Get the golang protobuf code generator:
go get -u github.com/golang/protobuf/protoc-gen-go
3. Vendored Dependencies
Retrieve and install the vendored dependencies for this project with dep:
dep ensure
Installation
To use this tool, install it from code with make install
, go install
directly,
or go get github.com/infobloxopen/protoc-gen-gorm
.
Usage
Once installed, the --gorm_out=.
or --gorm_out=${GOPATH}src
option can be specified in a protoc command to generate the .pb.gorm.go files.
Any message types with the option (gorm.opts).ormable = true
will have the
following autogenerated:
- A struct with ORM compatible types and the "ORM" suffix
- GORM tags built from
the field options
[(gorm.field).tag = {..., tag: value, ...}]
. - A {PbType}.ToORM and {TypeORM}.ToPB function
- Additional, unexposed fields added from the
option (gorm.opts) = {include: []}
, either of a built-in type e.g.{type: "int32", name: "secret_key"}
, or an imported type, e.g.{type: "StringArray", name: "array", package:"github.com/lib/pq"}
. - Barebones C/U/R/D/L handlers that accept the protobuf versions (as from an API call), a context (used with the multiaccount option and for collection operators https://github.com/infobloxopen/atlas-app-toolkit#collection-operators), and a gorm.DB then perform the basic operation on the DB with the object
- Interface hooks for before and after each conversion that can be implemented to add custom handling.
Any services with the option (gorm.server).autogen = true
will have basic grpc server generated:
- For service methods with names starting with
Create|Read|Update|Delete
generated implementation will call basic CRUD handlers. - For other methods
return &MethodResponse{}, nil
stub is generated.
For CRUD methods to be generated correctly you need to follow specific conventions:
- Request messages for Create and Update methods should have an Ormable Type
in a field named
payload
, for Read and Delete methods anid
field is required. Nothing is required in the List request. - Response messages for Create, Read, and Update require an Ormable Type in a
field named
result
and for List a repeated Ormable Type namedresults
. - Delete methods require the
(gorm.method).object_type
option to indicate which Ormable Type it should delete, and has no response type requirements.
To customize the generated server, embed it into a new type and override any desired functions.
If conventions are not met stubs are generated for CRUD methods. As seen in the feature_demo/demo_service example.
To leverage DB specific features, specify the DB engine during generation using
the --gorm_out="engine={postgres,...}:{path}"
. Currently only Postgres has
special type support, any other choice will behave as default.
The generated code can also integrate with the grpc server gorm transaction middleware provided
in the atlas-app-toolkit
using the service level option option (gorm.server).txn_middleware = true
.
Examples
Example .proto files and generated .pb.gorm.go files are included in the 'example' directory. The user file contains model examples from GORM documentation, the feature_demo/demo_types demonstrates the type handling and multi_account functions, and the feature_demo/demo_service shows the service autogeneration.
Running make example
will recompile all these test proto files, if you want
to test the effects of changing the options and fields.
Supported Types
Within the proto files, the following types are supported:
- standard primitive types
uint32
,uint64
,int32
,int64
,float
,double
,bool
,string
map to the same type at ORM level -
google wrapper types
google.protobuf.StringValue
,.BoolValue
,.UInt32Value
,.FloatValue
, etc. map to pointers of the internal type at the ORM level, e.g.*string
,*bool
,*uint32
,*float
- [google timestamp type]((https://github.com/golang/protobuf/blob/master/ptypes/timestamp/timestamp.proto)
google.protobuf.Timestamp
maps totime.Time
type at the ORM level - custom wrapper types
gorm.types.UUID
andgorm.types.UUIDValue
, which wrap strings and convert to auuid.UUID
and*uuid.UUID
at the ORM level, from https://github.com/satori/go.uuid. A null or missinggorm.types.UUID
will become a ZeroUUID (00000000-0000-0000-0000-000000000000
) at the ORM level. - custom wrapper type
gorm.types.JSONValue
, which wraps a string in protobuf containing arbitrary JSON and converts topostgres.Jsonb
GORM type (https://github.com/jinzhu/gorm/blob/master/dialects/postgres/postgres.go#L59) if Postgres is the selected DB engine, otherwise it is currently dropped. - custom wrapper type
gorm.types.InetValue
, which wraps a string and will convert to thetypes.Inet
type at ORM level, which uses the golangnet.IPNet
type to hold an ip address and mask, IPv4 and IPv6 compatible, with the scan and value functions necessary to write to DBs. Like JSONValue, currently dropped if DB engine is not Postgres - types can be imported from other .proto files within the same package (protoc invocation) or between packages. All associations can be generated properly within the same package, but cross package only the belongs-to and many-to-many will work.
- some repeated types can be automatically handled for Postgres by github.com/lib/pq, and
as long as the engine is set to postgres then to/from mappings will be created (see the
example called example/postgres_arrays/postgres_arrays.proto):
- []bool: pq.BoolArray
- []float64: pq.Float64Array
- []int64: pq.Int64Array
- []string: pq.StringArray
Associations
The plugin supports the following GORM associations:
- Belongs-To
- Has-One
- Has-Many
- Many-To-Many
Note: polymorphic associations are currently not supported.
Association is defined by adding a field of some ormable message type(either single or repeated).
message Contact {
option (gorm.opts).ormable = true;
uint64 id = 1;
string name = 2;
repeated Email emails = 3;
Address home_address = 4;
}
Has-One is a default association for a single message type.
message Contact {
option (gorm.opts).ormable = true;
uint64 id = 1;
string first_name = 2;
string middle_name = 3;
string last_name = 4;
Address address = 5;
}
message Address {
option (gorm.opts).ormable = true;
string address = 1;
string city = 2;
string state = 3;
string zip = 4;
string country = 5;
}
Set (gorm.field).belongs_to
option on the field in order to define Belongs-To.
message Contact {
option (gorm.opts).ormable = true;
uint64 id = 1;
string first_name = 2;
string middle_name = 3;
string last_name = 4;
Profile profile = 5 [(gorm.field).belongs_to = {}];
}
message Profile {
option (gorm.opts).ormable = true;
uint64 id = 1;
string name = 2;
string notes = 3;
}
Has-Many is a default association for a repeated message type.
message Contact {
option (gorm.opts).ormable = true;
uint64 id = 1;
string first_name = 2;
string middle_name = 3;
string last_name = 4;
repeated Email emails = 5;
}
message Email {
option (gorm.opts).ormable = true;
string address = 1;
bool is_primary = 2;
}
Set (gorm.field).many_to_many
option on the field in order to define Many-To-Many.
message Contact {
option (gorm.opts).ormable = true;
uint64 id = 1;
string first_name = 2;
string middle_name = 3;
string last_name = 4;
repeated Group groups = 5 [(gorm.field).many_to_many = {}];
}
message Group {
option (gorm.opts).ormable = true;
uint64 id = 1;
string name = 2;
string notes = 3;
}
For each association type, except Many-To-Many, foreign keys pointing to primary keys(association keys) are automatically created if they don't exist in proto messages, their names correspond to GORM default foreign key names. GORM association tags are also automatically inserted.
Customization
- For each association type you are able to override default foreign key and association key by setting
foreignkey
andassociation_foreignkey
options. - For each association type you are able to override default behavior of creating/updating the record. It's references can be created/updated depending on
association_autoupdate
,association_autocreate
andassociation_save_reference
options. Check out official association docs for more information. - For each association type you are able to set
preload
option. Check out GORM docs. - For Has-Many you are able to set
position_field
so additional field is created if it doesn't exist in proto message to maintain association ordering. Corresponding CRUDL handlers do all the necessary work to maintain the ordering. - For automatically created foreign key and position field you're able to assign GORM tags by setting
foreignkey_tag
andposition_field_tag
options. - For Many-To-Many you're able to override default join table name and column names by setting
jointable
,jointable_foreignkey
andassociation_jointable_foreignkey
options.
Check out user to see a real example of associations usage.
Limitations
Currently only proto3 is supported.
This project is currently in development, and is expected to undergo "breaking" (and fixing) changes
Contributing
Pull requests are welcome!
Any new feature should include tests for that feature.
Before pushing changes, run the tests with:
make gentool-test
This will run the tests in a docker container with specific known versions of dependencies.
Before the tests run, they generate code. Commit any new and modified generated code as part of your pull request.