commit | f51a2bf6d15b72d566075d1ea2fac9ea35499023 | [log] [tgz] |
---|---|---|
author | Adrian Cole <adrian@jclouds.org> | Fri Mar 30 18:40:13 2012 -0700 |
committer | Adrian Cole <adrian@jclouds.org> | Fri Mar 30 18:40:13 2012 -0700 |
tree | dd1f8da6b1cffbf22571cdf534d18d4ba8938c74 | |
parent | 98c1e1482052798fac73b3c610e93270ca6017b3 [diff] | |
parent | 7e6b4190687ff4a215fb201e9e0ac871cf95c9a0 [diff] |
Merge branch 'master' of github.com:jclouds/jclouds into 1.5.x * 'master' of github.com:jclouds/jclouds: Issue 891: ubuntu and centos now work with openjdk return false when node is null Issue 891: switch to openjdk; tested on ubuntu minor vcloud bugfixes expect test structure for new admin client Issue 830: Remove wrong exception parser Issue 830: Add some Javadoc for UndeployVAppParams trying to fix guice to have both user/admin modules Issue 830: Method name tidying build users ahead of tests using admin credentials (WIP) refractor out admin
jclouds is an open source library that helps you get started in the cloud and reuse your java and clojure development skills. Our api allows you freedom to use portable abstractions or cloud-specific features. We test support of 30 cloud providers and cloud software stacks, including Amazon, GoGrid, Ninefold, vCloud, OpenStack, and Azure. We offer several API abstractions as java and clojure libraries. The following are the most mature:
Even if you don't need the portable apis we provide, or could roll it your own, programming against cloud environments can be challenging. We focus on the following areas so that you can focus on using the cloud, rather than troubleshooting it!
SIMPLE INTERFACE Instead of creating new object types, we reuse concepts like maps so that the programming model is familiar. In this way, you can get started without dealing with REST-like apis or WS.
RUNTIME PORTABILITY We have drivers that allow you to operate in restricted environments like Google App Engine. We have very few required dependencies, so we are unlikely to clash with your app.
DEAL WITH WEB COMPLEXITY Network based computing introduces issues such as transient failures and redirects. We handle this for you.
UNIT TESTABILITY Writing tests for cloud endpoints is difficult. We provide you with Stub connections that simulate a cloud without creating network connections. In this way, you can write your unit tests without mocking complexity or the brittleness of remote connections.
PERFORMANCE Writing tests for cloud endpoints is difficult. We provide you with Stub connections that simulate a cloud without creating network connections. In this way, you can write your unit tests without mocking complexity or the brittleness of remote connections.
LOCATION All of our abstractions are location-aware. For example, you can get ISO-3166 codes to tell which country or province a cloud runs in.
QUALITY We test every provider with live scenarios before each release. If it doesn't pass, the provider goes into the sandbox.
Simplifies dealing with key-value providers such as Amazon S3. For example, BlobStore can give you a simple Map view of a container.
BlobStore Example (Java):
// init context = new BlobStoreContextFactory().createContext( "aws-s3", accesskeyid, secretaccesskey); blobStore = context.getBlobStore(); // create container blobStore.createContainerInLocation(null, "mycontainer"); // add blob blob = blobStore.blobBuilder("test").payload("testdata").build(); blobStore.putBlob("mycontainer", blob);
BlobStore Example (Clojure):
(use 'org.jclouds.blobstore2) (def *blobstore* (blobstore "azureblob" account encodedkey)) (create-container *blobstore* "mycontainer") (put-blob *blobstore* "mycontainer" (blob "test" :payload "testdata"))
Simplifies the task of managing machines in the cloud. For example, you can use ComputeService to start 5 machines and install your software on them.
Compute Example (Java):
// init context = new ComputeServiceContextFactory().createContext( "aws-ec2", accesskeyid, secretaccesskey, ImmutableSet.of(new Log4JLoggingModule(), new SshjSshClientModule())); client = context.getComputeService(); // define the requirements of your node template = client.templateBuilder().osFamily(UBUNTU).smallest().build(); // setup a boot user which is the same as your login template.getOptions().runScript(AdminAccess.standard()); // these nodes will be accessible via ssh when the call returns nodes = client.createNodesInGroup("mycluster", 2, template); // you can now run ad-hoc commands on the nodes based on predicates responses = client.runScriptOnNodesMatching(inGroup("mycluster"), "uptime", wrapInInitScript(false));
Compute Example (Clojure):
(use 'org.jclouds.compute2) ; create a compute service using sshj and log4j extensions (def compute (*compute* "trmk`-ecloud" "user" "password" :sshj :log4j)) ; launch a couple nodes with the default operating system, installing your user. (create-nodes *compute* "mycluster" 2 (TemplateOptions$Builder/runScript (AdminAccess/standard))) ; run a command on that group (run-script-on-nodes-matching *compute* (in-group? "mycluster") "uptime" (RunScriptOptions$Builder/wrapInInitScript false))
Check out https://github.com/jclouds/jclouds-examples for more examples!
Copyright (C) 2009-2012 jclouds, Inc.
Licensed under the Apache License, Version 2.0