traffic_ops_golang

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Published: Nov 17, 2022 License: Apache-2.0, BSD-2-Clause, BSD-3-Clause, + 1 more Imports: 28 Imported by: 0

README

Running

Prequisites

To run traffic_ops_golang proxy locally the following prerequisites are needed:

  • Golang version greater or equal to the Go version found in the GO_VERSION file at the base of this repository. See: https://golang.org/doc/install
  • Postgres 13.2 or greater

Vendoring and Building

vendoring

We treat golang.org/x as a part of the Go compiler so that means that we still vendor application dependencies for stability and reproducible builds. The govend tool is helpful for managing dependencies.

building

To download the remaining golang.org/x dependencies you need to:

$ go mod vendor -v

Configuration

cdn.conf changes

Copy traffic_ops/app/conf/cdn.conf to $HOME/cdn.conf so you can modify it for development purposes.

$HOME/cdn.conf

       "traffic_ops_golang" : {
          "port" : "443",
       "traffic_ops_golang" : {
          "port" : "8443",

Logging

By default /var/log/traffic_ops/error.log is configured for output, to change this modify your $HOME/cdn.conf for the following:

$HOME/cdn.conf

    "traffic_ops_golang" : {
        "..."
        "log_location_error": "stdout",
        "log_location_warning": "stdout",
        "log_location_info": "stdout",
        "log_location_debug": "stdout",
        "log_location_event": "stdout",
        ...
     }

Development

Go is a compiled language so any local changes will require you to CTRL-C the console and re-run the traffic_ops_golang Go binary locally:

go build && ./traffic_ops_golang -cfg $HOME/cdn.conf -dbcfg ../app/conf/development/database.conf

To cross compile the code in Windows to generate binary to run on Linux, please run the following command, replacing GOARCH with the architecture for which to build.

env GOOS=linux GOARCH=arm64 go build

Once the binary is generated, it can be copied onto a Linux machine to be run.

Updating a Minor Version

Traffic Control implements Semantic Versioning. When adding new fields to the API, we must increase the minor version. If you're the first one adding a new field to a particular object in a particular release, you'll need to do this.

The structs with no version in the name are the latest version.

Most structs do not have versioning. If you are adding a field to a struct with no existing versioning. see lib/go-tc/deliveryservices.go for an example.

  1. In lib/go-tc, rename the old struct to be the previous minor version.

    • For example, if you are adding a field to Delivery Service and existing minor version is 1.4 (so your new minor version is 1.5), in lib/go-tc/deliveryservices.go rename type DeliveryServiceNullable struct to type DeliveryServiceNullableV14 struct.
  2. In lib/go-tc, create a new struct with an unversioned name, and anonymously embed the previous struct (that you just renamed), along with your new field.

    • For example:
type DeliveryServiceNullable struct {
	DeliveryServiceNullableV14
	MyNewField *int `json:"myNewField" db:"my_new_field"`
}
  1. In lib/go-tc, change the struct's type alias to the new minor version.
    • For example:
type DeliveryServiceNullableV15 DeliveryServiceNullable
  1. Update the Sanitize function on the unversioned struct, e.g. func (ds *DeliveryServiceNullable) Sanitize(), which sets your new field to a default value, if it is null.
  func (ds *DeliveryServiceNullable) Sanitize() {
    if ds.MyNewField == nil { ... }
  1. Update the Validate function on the unversioned struct to add validation for your new field.

    • For example, if your new field is a port, Validate should verify it is between 0 and 65535.
    • Almost all fields can be invalid! Don't skip this step. Proper validation is essential to Traffic Control functioning properly and rejecting invalid input.
  2. Add new versioned Create and Update handlers for the new version in e.g. deliveryservice/deliveryservices.go. The added Create and Update handlers will decode requests into the latest version of the struct and should pass it to an underlying versioned create or update function:

For example:

func CreateV15(w http.ResponseWriter, r *http.Request) {
  ...
	ds := tc.DeliveryServiceNullableV15{}
	if err := json.NewDecoder(r.Body).Decode(&ds); err != nil {
		api.HandleErr(w, r, inf.Tx.Tx, http.StatusBadRequest, errors.New("decoding: "+err.Error()), nil)
		return
	}

	res, status, userErr, sysErr := createV15(w, r, inf, ds)
	if userErr != nil || sysErr != nil {
		api.HandleErr(w, r, inf.Tx.Tx, status, userErr, sysErr)
		return
	}
	api.WriteRespAlertObj(w, r, tc.SuccessLevel, "Deliveryservice creation was successful.", []tc.DeliveryServiceNullableV15{*res})
}

func createV15(w http.ResponseWriter, r *http.Request, inf *api.APIInfo, reqDS tc.DeliveryServiceNullableV15) *tc.DeliveryServiceNullableV15 {
  ...
}

NOTE: the underlying create and update functions are chained together so that requests for previous minor versions are upgraded into requests of the next latest version until they are finally handled at the latest minor version.

Example call chains:

  CreateV12 -> createV12 -> createV13 -> createV14 -> createV15
  CreateV13         ->      createV13 -> createV14 -> createV15
  CreateV14                ->            createV14 -> createV15
  CreateV15                      ->                   createV15

In this example you would rename the existing createV14 function to createV15 and update its signature to accept and return a V15 struct. Then you would create a new createV14 function, in which you would simply create a V15 struct, insert the V14 struct into it, and pass it to the createV15 function. By doing that, the V14 request would essentially be upgraded into a V15 request for the underlying createV15 handler to use.

For an updateV14 function, you would follow the same pattern as the create function, but you also have to take into account any existing 1.5 fields that may already exist in the resource. So, you have to read existing 1.5 fields from the DB into your V15 struct before passing it to updateV15. That is how an "update" request can be upgraded from a 1.4 request to a 1.5 request.

  1. Modify the createV15 and updateV15 functions (and associated INSERT and UPDATE SQL queries) to create and update the new field in e.g. deliveryservice/deliveryservices.go.

  2. Modify the Read function (and associated SELECT SQL query) to read structs of the new version. For example in deliveryservice/deliveryservices.go, you would update the switch statement so that version.Minor >= 5 returns structs of DeliveryServiceNullable (the latest version of the struct), and version.Minor >= 4 returns structs of the embedded DeliveryServiceNullableV14. The SELECT SQL query should always be updated to read all of the latest fields, and the Read handler should always return the proper versioned struct for the requested API version.

NOTE: the Delete handler should not need any modification when adding a new minor version of an API endpoint.

  1. Add the routes for your new CreateV15 and UpdateV15 handlers to traffic_ops/traffic_ops_golang/routing/routes.go.

    • The new latest route must go above the previous version. If the new version is below the old, the new version will never be routed to!

    For example, Change:

		{1.4, http.MethodPost, `deliveryservices/?(\.json)?$`, deliveryservice.CreateV14, auth.PrivLevelOperations, Authenticated, nil},

To:

		{1.5, http.MethodPost, `deliveryservices/?(\.json)?$`, deliveryservice.CreateV15, auth.PrivLevelOperations, Authenticated, nil},
		{1.4, http.MethodPost, `deliveryservices/?(\.json)?$`, deliveryservice.CreateV14, auth.PrivLevelOperations, Authenticated, nil},

NOTE: the Read and Delete handlers should always point to the lowest minor version since they are meant to handle requests of any minor version, so the routes for these handlers should not change when adding a new minor version.

Writing a new route

Getting a "Handle" on Routes

Open routes.go. Routes are defined in the Routes function, of the form {version, method, path, handler, ID}. Notice the path can contain variables, of the form /{var}/. These variables will be made available to your handler.

NOTE: Route IDs are immutable and unique. DO NOT change the ID of an existing Route; otherwise, existing configurations may break. New Route IDs can be any integer between 0 and 2147483647 (inclusive), as long as it's unique.

Creating a Handler

The first step is to create your handler. For an example, look at monitoringHandler in monitoring.go. Your handler arguments can be any data available to the router (the config and database, or what you can create from them). Passing the db or prepared Stmts is common. The handler function must return a RegexHandlerFunc. In general, you want to return an inline function, return func(w http.ResponseWriter, r *http.Request, p ParamMap) {....

The ResponseWriter and Request are standard Go HandlerFunc parameters. The ParamMap is a map[string]string, containing the variables from your route path.

Now, your handler just needs to load the data, format it, and write it to the ResponseWriter, like any other Go HandlerFunc.

If you're just learning Go, look at some of the other endpoints like monitoring.go, and maybe google some Golang tutorials on SQL, JSON, and HTTP. The Go documentation is also helpful, particularly https://golang.org/pkg/database/sql/ and https://golang.org/pkg/encoding/json/.

Your handler should be in its own file, where you can create any structs and helper functions you need.

Registering the Handler

Back to routes.go, you need to add your handler to the Routes function. For example, /api/4.0/cdns would look like {4.0, http.MethodGet, "cdns", wrapHeaders(wrapAuth(cdnsHandler(d.DB), d.Insecure, d.TOSecret, rd.PrivLevelStmt, CdnsPrivLevel))},.

The only thing we haven't talked about are those wrap functions. They each take a RegexHandlerFunc and return a RegexHandlerFunc, which lets them 'wrap' your handler. You almost certainly need both of them; if you're not sure, ask on the mailing list or Slack. You'll notice the wrapAuth function also takes config parameters, as well as a PrivLevel. You should create a constant in your handler file of the form EndpointPrivLevel and pass that. If your endpoint modifies data, use PrivLevelOperations, otherwise PrivLevelReadOnly.

That's it! Test your endpoint, read Contributing.md if you haven't, and submit a pull request!

If you have any trouble, or suggestions for this guide, hit us up on the mailing list or Slack.

Documentation

The Go Gopher

There is no documentation for this package.

Directories

Path Synopsis
Package api provides general purpose tools for implementing the Traffic Ops API.
Package api provides general purpose tools for implementing the Traffic Ops API.
Package apicapability defines the API handlers for Traffic Ops's API's /api_capabilities endpoint.
Package apicapability defines the API handlers for Traffic Ops's API's /api_capabilities endpoint.
Package cachegroupparameter is deprecated and will be removed with API v1-3.
Package cachegroupparameter is deprecated and will be removed with API v1-3.
Package capabilities contains logic and handlers for the /capabilities API endpoint.
Package capabilities contains logic and handlers for the /capabilities API endpoint.
Package cdn_lock contains the CRD methods which aid in locking and unlocking CDNs.
Package cdn_lock contains the CRD methods which aid in locking and unlocking CDNs.
Package deliveryservicerequests contains the handler for the endpoint responsible for issuing a request for Delivery Service creation via email - not to be confused with package github.com/apache/trafficcontrol/traffic_ops/traffic_ops_golang/deliveryservice/request.
Package deliveryservicerequests contains the handler for the endpoint responsible for issuing a request for Delivery Service creation via email - not to be confused with package github.com/apache/trafficcontrol/traffic_ops/traffic_ops_golang/deliveryservice/request.
Package federation_resolvers contains handler logic for the /federation_resolvers and /federation_resolvers/{{ID}} endpoints.
Package federation_resolvers contains handler logic for the /federation_resolvers and /federation_resolvers/{{ID}} endpoints.
Package iso provides support for generating ISO images.
Package iso provides support for generating ISO images.
Package logs contains handlers and logic for the /logs and /logs/newcount API endpoints.
Package logs contains handlers and logic for the /logs and /logs/newcount API endpoints.
Package monitoring contains handlers and supporting logic for the /cdns/{{CDN Name}}/configs/monitoring Traffic Ops API endpoint.
Package monitoring contains handlers and supporting logic for the /cdns/{{CDN Name}}/configs/monitoring Traffic Ops API endpoint.
Package profile includes logic and handlers for Profile-related API endpoints, including /profiles, /profiles/name/{{name}}/parameters, /profiles/{{ID}}/parameters, /profiles/name/{{New Profile Name}}/copy/{{existing Profile Name}}, /profiles/import, and /profiles/{{ID}}/export.
Package profile includes logic and handlers for Profile-related API endpoints, including /profiles, /profiles/name/{{name}}/parameters, /profiles/{{ID}}/parameters, /profiles/name/{{New Profile Name}}/copy/{{existing Profile Name}}, /profiles/import, and /profiles/{{ID}}/export.
Package routing defines the HTTP routes for Traffic Ops and provides tools to register those routes with appropriate middleware.
Package routing defines the HTTP routes for Traffic Ops and provides tools to register those routes with appropriate middleware.
middleware
Package middleware provides symbols for HTTP "middleware" which wraps handlers to perform common behaviors, such as authentication, headers, and compression.
Package middleware provides symbols for HTTP "middleware" which wraps handlers to perform common behaviors, such as authentication, headers, and compression.
Package server provides tools for manipulating the server database table and corresponding http handlers.
Package server provides tools for manipulating the server database table and corresponding http handlers.
swaggerdocs
v13
Package docs Traffic Ops API
Package docs Traffic Ops API
Package trafficvault provides the interfaces and types necessary to support various Traffic Vault backend data stores.
Package trafficvault provides the interfaces and types necessary to support various Traffic Vault backend data stores.
backends
Package backends is simply for importing the traffic vault backend packages so they can initialize.
Package backends is simply for importing the traffic vault backend packages so they can initialize.
backends/disabled
Package disabled provides a TrafficVault implementation that simply returns an error for every method stating that Traffic Vault is disabled.
Package disabled provides a TrafficVault implementation that simply returns an error for every method stating that Traffic Vault is disabled.
backends/postgres
Package postgres provides a TrafficVault implementation which uses PostgreSQL as the backend.
Package postgres provides a TrafficVault implementation which uses PostgreSQL as the backend.
backends/riaksvc
Package riaksvc provides a TrafficVault implementation which uses Riak as the backend.
Package riaksvc provides a TrafficVault implementation which uses Riak as the backend.
util
ims

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