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IBM Cloud DNS Services Go SDK - DEPRECATED

This repository has been deprecated. For the most current SDK repository, see https://github.com/IBM/networking-go-sdk/.

Go client library to use the IBM Cloud DNS Services API.

<details> <summary>Table of Contents</summary> </details>

Overview

The dns-svcs-go-sdk allows developers to programmatically interact with the IBM Cloud DNS Services API.

Prerequisites

Installation

There are a few different ways to download and install the dns-svcs-go-sdk project for use by your Go application:

1. go get command

Use this command to download and install the dns-svcs-go-sdk project to allow your Go application to use it:

go get -u github.com/IBM/dns-svcs-go-sdk/dnssvcsv1
go get -u github.com/IBM/dns-svcs-go-sdk/dnssvcsinstancesv2

2. Go modules

If your application is using Go modules, you can add a suitable import to your Go application, like this:

import (
    "github.com/IBM/dns-svcs-go-sdk/dnssvcsv1"
    "github.com/IBM/dns-svcs-go-sdk/dnssvcsinstancesv2"
)

then run go mod tidy to download and install the new dependency and update your Go application's go.mod file.

3. dep dependency manager

If your application is using the dep dependency management tool, you can add a dependency to your Gopkg.toml file. Here is an example:

[[constraint]]
  name = "github.com/IBM/dns-svcs-go/dnssvcsv1"
  version = "0.0.1"

[[constraint]]
  name = "github.com/IBM/dns-svcs-go/dnssvcsinstancesv2"
  version = "0.0.1"

then run dep ensure.

Using the SDK

This section provides general information on how to use the services contained in this SDK.

Constructing service clients

Each service is implemented in its own package (e.g. dnssvcsv1). The package will contain a "service client" struct (a client-side representation of the service), as well as an "options" struct that is used to construct instances of the service client.
Here's an example of how to construct an instance of "My Service":

import (
    "github.com/IBM/go-sdk-core/core"
    "github.com/IBM/dns-svcs-go-sdk/dnssvcsv1"
)

// Create an authenticator.
authenticator := /* create an authenticator - see examples below */

// Create an instance of the "MyServiceV1Options"  struct.
myserviceURL := "https://api.dns-svcs.cloud.ibm.com/v1"
options := &dnssvcsv1.MyServiceV1Options{
    Authenticator: authenticator,
    URL: myserviceURL,
}

// Create an instance of the "MyServiceV1" service client.
service, err := NewMyServiceV1(options)
if err != nil {
    // handle error
}

// Service operations can now be called using the "service" variable.

Authentication

DNS Services use token-based Identity and Access Management (IAM) authentication.

IAM authentication uses an API key to obtain an access token, which is then used to authenticate each API request. Access tokens are valid for a limited amount of time and must be regenerated.

To provide credentials to the SDK, you supply either an IAM service API key or an access token:

Examples:

// letting the SDK manage the IAM access token
import (
    "github.com/IBM/go-sdk-core/core"
    "github.com/IBM/dns-svcs-go-sdk/dnssvcsv1"
)
...
// Create the IAM authenticator.
authenticator := &core.IamAuthenticator{
    ApiKey: "myapikey",
}

// Create the service options struct.
options := &dnssvcsv1.MyServiceV1Options{
    Authenticator: authenticator,
}

// Construct the service instance.
service, err := dnssvcsv1.NewMyServiceV1(options)

import {
    "github.com/IBM/go-sdk-core/core"
    "github.com/IBM/dns-svcs-go-sdk/dnssvcsv1"
}
...
// Create the BearerToken authenticator.
authenticator := &core.BearerTokenAuthenticator{
    BearerToken: "my IAM access token",
}

// Create the service options struct.
options := &dnssvcsv1.MyServiceV1Options{
    Authenticator: authenticator,
}

// Construct the service instance.
service, err := dnssvcsv1.NewMyServiceV1(options)

...
// Later when the access token expires, the application must refresh the access token,
// then set the new access token on the authenticator.
// Subsequent request invocations will include the new access token.
authenticator.BearerToken = /* new access token */

For more information on authentication, including the full set of authentication schemes supported by the underlying Go Core library, see this page

Passing operation parameters via an options struct

For each operation belonging to a service, an "options" struct is defined as a container for the parameters associated with the operation. The name of the struct will be <operation-name>Options and it will contain a field for each operation parameter.
Here's an example of an options struct for the GetDnszone operation:

// GetDnszoneOptions : The GetDnszone options.
type GetDnszoneOptions struct {
	// The unique identifier of a service instance.
	InstanceID *string `json:"instance_id" validate:"required"`

	// The unique identifier of a DNS zone.
	DnszoneID *string `json:"dnszone_id" validate:"required"`

	// Uniquely identifying a request.
	XCorrelationID *string `json:"X-Correlation-ID,omitempty"`

	// Allows users to set headers on API requests
	Headers map[string]string
}

In this example, the GetDnszone operation has two required parameters - InstanceID and DnszoneID. When invoking this operation, the application first creates an instance of the GetDnszoneOptions struct and then sets the parameter values within it. Along with the "options" struct, a constructor function is also provided.
Here's an example:

options := service.NewGetDnszoneOptions("instance-id-1", "dnszone-id-1")

Then the operation can be called like this:

result, detailedResponse, err := service.GetDnszone(options)

This use of the "options" struct pattern (instead of listing each operation parameter within the argument list of the service method) allows for future expansion of the API (within certain guidelines) without impacting applications.

Receiving operation responses

Each service method (operation) will return the following values:

  1. result - An operation-specific result (if the operation is defined as returning a result).
  2. detailedResponse - An instance of the core.DetailedResponse struct. This will contain the following fields:
  1. err - An error object. This return value will be nil if the operation was successful, or non-nil if unsuccessful.

Example:

  1. Here's an example of calling the GetDnszone operation which returns resource of the Dnszone struct as its result:
// Construct the service instance.
service, err := dnssvcsv1.NewDnsSvcsV1(
    &dnssvcsv1.DnsSvcsV1Options{
        Authenticator: authenticator,
    })

// Call the GetDnszone operation and receive the returned Resource.
options := service.NewGetDnszoneOptions("instance-id-1", "dnszone-id-1")
result, detailedResponse, err := service.GetDnszone(options)

// Now use 'result' which should be a dns zone of 'Dnszone'.
  1. Here's an example of calling the DeleteDnszone operation which does not return a response object:
// Construct the service instance.
service, err := dnssvcsv1.NewDnsSvcsV1(
    &dnssvcsv1.DnsSvcsV1Options{
        Authenticator: authenticator,
    })

// Call the DeleteDnszone operation and receive the returned Resource.
options := service.NewDeleteDnszoneOptions("instance-id-1", "dnszone-id-1")
detailedResponse, err := service.DeleteDnszone(options)

Error Handling

In the case of an error response from the server endpoint, the dns-svcs-go-sdk will do the following:

  1. The service method (operation) will return a non-nil error object. This error object will contain the error message retrieved from the HTTP response if possible, or a generic error message otherwise.
  2. The detailedResponse.Result field will contain the unmarshalled response (in the form of a map[string]interface{}) if the operation returned a JSON response.
    This allows the application to examine all of the error information returned in the HTTP response message.
  3. The detailedResponse.RawResult field will contain the raw response body as a []byte if the operation returned a non-JSON response.

Example:

Here's an example of checking the error object after invoking the GetDnszone operation:

// Call the GetDnszone operation and receive the returned Resource.
options := service.NewGetDnszoneOptions("bad-instance-id-1", "bad-dnszone-id-1")
result, detailedResponse, err := service.GetDnszone(options)
if err != nil {
    fmt.Println("Error retrieving the resource: ", err.Error())
    fmt.Println("   full error response: ", detailedResponse.Result)
}

Default headers

Default HTTP headers can be specified by using the SetDefaultHeaders(http.Header) method of the client instance. Once set on the service client, default headers are sent with every outbound request.

Example:

The example below sets the header Custom-Header with the value "custom_value" as a default header:

// Construct the service instance.
service, err := dnssvcsv1.NewDnsSvcsV1(
    &dnssvcsv1.DnsSvcsV1Options{
        Authenticator: authenticator,
    })

customHeaders := http.Header{}
customHeaders.Add("Custom-Header", "custom_value")
service.Service.SetDefaultHeaders(customHeaders)

// "Custom-Header" will now be included with all subsequent requests invoked from "service".

Sending request headers

Custom HTTP headers can also be passed with any individual request. To do so, add the headers to the "options" struct passed to the service method.

Example:

Here's an example that sets "Custom-Header" on the GetDnszoneOptions instance and then invokes the GetDnszone operation:


// Call the GetDnszone operation, passing our Custom-Header.
options := service.NewGetDnszoneOptions("instance-id-1", "dnszone-id-1")
customHeaders := make(map[string]interface{})
customHeaders["Custom-Header"] = "custom_value"
options.SetHeaders(customHeaders)
result, detailedResponse, err := service.GetDnszone(options)
// "Custom-Header" will be sent along with the "GetDnszone" request.

Transaction IDs

Every call from the SDK will receive a response which will contain a transaction ID, accessible via the x-correlation-id header. This transaction ID is useful for troubleshooting and accessing relevant logs from your service instance.

License

The IBM Cloud DNS Services Go SDK is released under the Apache 2.0 license. The license's full text can be found in LICENSE.

Deprecation Notice

For deprecation notice, please see this link