packer-cn/vendor/github.com/joyent/triton-go
Adrien Delorme 2f97dc2933 go mod vendor && go mod tidy 2019-04-11 14:19:24 +02:00
..
authentication builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
client builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
compute builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
errors builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
network builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
.gitignore go mod vendor && go mod tidy 2019-04-11 14:19:24 +02:00
.travis.yml go mod vendor && go mod tidy 2019-04-11 14:19:24 +02:00
CHANGELOG.md builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
GNUmakefile builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
Gopkg.lock builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
Gopkg.toml builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
LICENSE deps: Add joyent/triton-go 2017-04-26 14:02:04 -07:00
README.md builder/triton: Add support for Triton RBAC 2017-12-29 21:20:40 +02:00
triton.go builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00
version.go builder/triton: bump triton-go dependencies 2018-01-17 16:55:00 +02:00

README.md

triton-go

triton-go is an idiomatic library exposing a client SDK for Go applications using Joyent's Triton Compute and Storage (Manta) APIs.

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Usage

Triton uses HTTP Signature to sign the Date header in each HTTP request made to the Triton API. Currently, requests can be signed using either a private key file loaded from disk (using an authentication.PrivateKeySigner), or using a key stored with the local SSH Agent (using an SSHAgentSigner.

To construct a Signer, use the New* range of methods in the authentication package. In the case of authentication.NewSSHAgentSigner, the parameters are the fingerprint of the key with which to sign, and the account name (normally stored in the TRITON_ACCOUNT environment variable). There is also support for passing in a username, this will allow you to use an account other than the main Triton account. For example:

input := authentication.SSHAgentSignerInput{
    KeyID:       "a4:c6:f3:75:80:27:e0:03:a9:98:79:ef:c5:0a:06:11",
    AccountName: "AccountName",
    Username:    "Username",
}
sshKeySigner, err := authentication.NewSSHAgentSigner(input)
if err != nil {
    log.Fatalf("NewSSHAgentSigner: %s", err)
}

An appropriate key fingerprint can be generated using ssh-keygen.

ssh-keygen -Emd5 -lf ~/.ssh/id_rsa.pub | cut -d " " -f 2 | sed 's/MD5://'

Each top level package, account, compute, identity, network, all have their own seperate client. In order to initialize a package client, simply pass the global triton.ClientConfig struct into the client's constructor function.

config := &triton.ClientConfig{
    TritonURL:   os.Getenv("TRITON_URL"),
    MantaURL:    os.Getenv("MANTA_URL"),
    AccountName: accountName,
    Username:    os.Getenv("TRITON_USER"),
    Signers:     []authentication.Signer{sshKeySigner},
}

c, err := compute.NewClient(config)
if err != nil {
    log.Fatalf("compute.NewClient: %s", err)
}

Constructing compute.Client returns an interface which exposes compute API resources. The same goes for all other packages. Reference their unique documentation for more information.

The same triton.ClientConfig will initialize the Manta storage client as well...

c, err := storage.NewClient(config)
if err != nil {
    log.Fatalf("storage.NewClient: %s", err)
}

Error Handling

If an error is returned by the HTTP API, the error returned from the function will contain an instance of compute.TritonError in the chain. Error wrapping is performed using the errwrap library from HashiCorp.

Acceptance Tests

Acceptance Tests run directly against the Triton API, so you will need either a local installation of Triton or an account with Joyent's Public Cloud offering in order to run them. The tests create real resources (and thus cost real money)!

In order to run acceptance tests, the following environment variables must be set:

  • TRITON_TEST - must be set to any value in order to indicate desire to create resources
  • TRITON_URL - the base endpoint for the Triton API
  • TRITON_ACCOUNT - the account name for the Triton API
  • TRITON_KEY_ID - the fingerprint of the SSH key identifying the key

Additionally, you may set TRITON_KEY_MATERIAL to the contents of an unencrypted private key. If this is set, the PrivateKeySigner (see above) will be used - if not the SSHAgentSigner will be used. You can also set TRITON_USER to run the tests against an account other than the main Triton account

Example Run

The verbose output has been removed for brevity here.

$ HTTP_PROXY=http://localhost:8888 \
    TRITON_TEST=1 \
    TRITON_URL=https://us-sw-1.api.joyent.com \
    TRITON_ACCOUNT=AccountName \
    TRITON_KEY_ID=a4:c6:f3:75:80:27:e0:03:a9:98:79:ef:c5:0a:06:11 \
    go test -v -run "TestAccKey"
=== RUN   TestAccKey_Create
--- PASS: TestAccKey_Create (12.46s)
=== RUN   TestAccKey_Get
--- PASS: TestAccKey_Get (4.30s)
=== RUN   TestAccKey_Delete
--- PASS: TestAccKey_Delete (15.08s)
PASS
ok  	github.com/joyent/triton-go	31.861s

Example API

There's an examples/ directory available with sample code setup for many of the APIs within this library. Most of these can be run using go run and referencing your SSH key file use by your active triton CLI profile.

$ eval "$(triton env us-sw-1)"
$ TRITON_KEY_FILE=~/.ssh/triton-id_rsa go run examples/compute/instances.go

The following is a complete example of how to initialize the compute package client and list all instances under an account. More detailed usage of this library follows.



package main

import (
    "context"
    "fmt"
    "io/ioutil"
    "log"
    "os"
    "time"

    triton "github.com/joyent/triton-go"
    "github.com/joyent/triton-go/authentication"
    "github.com/joyent/triton-go/compute"
)

func main() {
    keyID := os.Getenv("TRITON_KEY_ID")
    accountName := os.Getenv("TRITON_ACCOUNT")
    keyMaterial := os.Getenv("TRITON_KEY_MATERIAL")
    userName := os.Getenv("TRITON_USER")

    var signer authentication.Signer
    var err error

    if keyMaterial == "" {
        input := authentication.SSHAgentSignerInput{
            KeyID:       keyID,
            AccountName: accountName,
            Username:    userName,
        }
        signer, err = authentication.NewSSHAgentSigner(input)
        if err != nil {
            log.Fatalf("Error Creating SSH Agent Signer: {{err}}", err)
        }
    } else {
        var keyBytes []byte
        if _, err = os.Stat(keyMaterial); err == nil {
            keyBytes, err = ioutil.ReadFile(keyMaterial)
            if err != nil {
                log.Fatalf("Error reading key material from %s: %s",
                    keyMaterial, err)
            }
            block, _ := pem.Decode(keyBytes)
            if block == nil {
                log.Fatalf(
                    "Failed to read key material '%s': no key found", keyMaterial)
            }

            if block.Headers["Proc-Type"] == "4,ENCRYPTED" {
                log.Fatalf(
                    "Failed to read key '%s': password protected keys are\n"+
                        "not currently supported. Please decrypt the key prior to use.", keyMaterial)
            }

        } else {
            keyBytes = []byte(keyMaterial)
        }

        input := authentication.PrivateKeySignerInput{
            KeyID:              keyID,
            PrivateKeyMaterial: keyBytes,
            AccountName:        accountName,
            Username:           userName,
        }
        signer, err = authentication.NewPrivateKeySigner(input)
        if err != nil {
            log.Fatalf("Error Creating SSH Private Key Signer: {{err}}", err)
        }
    }

    config := &triton.ClientConfig{
        TritonURL:   os.Getenv("TRITON_URL"),
        AccountName: accountName,
        Username:    userName,
        Signers:     []authentication.Signer{signer},
    }

    c, err := compute.NewClient(config)
    if err != nil {
        log.Fatalf("compute.NewClient: %s", err)
    }

    listInput := &compute.ListInstancesInput{}
    instances, err := c.Instances().List(context.Background(), listInput)
    if err != nil {
        log.Fatalf("compute.Instances.List: %v", err)
    }
    numInstances := 0
    for _, instance := range instances {
        numInstances++
        fmt.Println(fmt.Sprintf("-- Instance: %v", instance.Name))
    }
}