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AzureData
AzureData is an Android client SDK for Microsoft's Azure Cosmos DB DocumentDB API written in Kotlin.
Before making calls to AzureData, you'll need to call AzureData.configure
. We recommend doing this in your application class or main activity's OnCreate
, etc.
override fun onCreate() {
super.onCreate()
AzureData.configure(applicationContext, "cosmosDb name", "read-write key", TokenType.MASTER)
// ...
}
Still using Java? See the below note about some needed syntactical differences.
All operations defined below will return a response that has the following properties:
Property | Value |
---|---|
isSuccessful |
Returns true if the result is a success, false otherwise. |
isErrored |
Returns true if the result is an error, false otherwise. |
error |
Returns the associated error value if the result if it is a failure, null otherwise. |
jsonData |
The json data returned by the server (if applicable) |
request |
The (OkHttp) request object sent to the server. (If available) |
response |
The (OkHttp) response object returned from the server. (If available) |
resource |
For operations that return a resource or list of resources, this will contain that (typed) result. |
Resource | Create | List | Get | Delete | Replace | Query | Execute |
---|---|---|---|---|---|---|---|
Databases | Create | List | Get | Delete | * | * | * |
Collections | Create | List | Get | Delete | Replace | * | * |
Documents | Create | List | Get | Delete | Replace | Query | * |
Attachments | Create | List | * | Delete | Replace | * | * |
Stored Procedures | Create | List | * | Delete | Replace | * | Execute |
User Defined Functions | Create | List | * | Delete | Replace | * | * |
Triggers | Create | List | * | Delete | Replace | * | * |
Users | Create | List | Get | Delete | Replace | * | * |
Permissions | Create | List | Get | Delete | Replace | * | * |
Offers | * | List | Get | * | Replace | Query | * |
* not applicable to resource type
AzureData.createDatabase (id) {
// database = it.resource
}
AzureData.getDatabases {
// databases = it.resource?.items
}
AzureData.getDatabase (id) {
// database = it.resource
}
AzureData.deleteDatabase (id) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteDatabase (database) {
// successfully deleted == it.isSuccessful
}
database.delete {
// successfully deleted == it.isSuccessful
}
AzureData.createCollection (collectionId, databaseId) {
// collection = it.resource
}
database.create (collectionId) {
// collection = it.resource
}
AzureData.getCollections (databaseId) {
// collections = it.resource?.items
}
database.getCollections {
// collections = it.resource?.items
}
AzureData.getCollection (collectionId, databaseId) {
// collection = it.resource
}
database.getCollection (collectionId) {
// collection = it.resource
}
AzureData.deleteCollection (collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
database.deleteCollection (collection) {
// successfully deleted == it.isSuccessful
}
database?.deleteCollection(collectionId) {
// successfully deleted == it.isSuccessful
}
collection.delete {
// successfully deleted == it.isSuccessful
}
A Replace
operation on a DocumentCollection
allows you to replace the IndexingPolicy
for the collection.
Given a created IndexingPolicy
:
val policy = IndexingPolicy.create {
automatic = true
mode = IndexingMode.Lazy
includedPaths {
includedPath {
path = "/*"
indexes {
// create indexes via factory methods
index(Index.range(DataType.Number, -1))
// or, by specifying each member
index {
kind = IndexKind.Hash
dataType = DataType.String
precision = 3
}
index(Index.spatial(DataType.Point))
}
}
}
// omit if no paths should be excluded
excludedPaths {
excludedPath {
path = "/test/*"
}
}
}
AzureData.replaceCollection(resourceId, databaseId, policy) {
// replaced collection = it.resource
}
There are two different classes you can use to interact with documents:
The Document
type is intended to be inherited by your custom document model types.
Here is an example of a class CustomDocument
that inherits from Document
:
class CustomDocument(id: String? = null) : Document(id) {
var customString = "My Custom String"
var customNumber = 123000
var customDate: Date = Date()
var customBool = true
var customArray = arrayOf(1, 2, 3)
var customObject: User? = User()
}
The DictionaryDocument
type behaves very much like a <String, Any?>
Map while handling all properties required by the database. This allows you to interact with the document directly using subscript/indexing syntax. DictionaryDocument
cannot be subclassed.
Here is an example of using DictionaryDocument
to create a document with the same properties as the CustomDocument
above:
val document = DictionaryDocument()
document["customString"] = "My Custom String"
document["customNumber"] = 123000
document["customDate"] = Date()
document["customBool"] = true
document["customArray"] = arrayOf(1, 2, 3)
document["customObject"] = User()
When using DictionaryDocument
, the data is subject to the limitations of json's lack of typing. This means that when the above DictionaryDocument
is deserialized, the deserializer won't know the specific types for your data. In practice, this means the following types of data may appear differently once they've been "round tripped":
Data Type | Roundtrip Data Type | Sample Conversion |
---|---|---|
Number types (Int, Long, etc.) | Number |
(document["customNumber"] as Number).toInt() |
Array/List types |
ArrayList<*> ArrayList<Any?>
|
document["customArray"] as ArrayList<*> |
Object types |
Map<*,*> Map<String, Any?>
|
document["customObject"] as Map<*,*> |
Due to these limitations, we recommend only using DictionaryDocument
for simple data types and/or rapid prototyping. Subclassing Document
, as shown above, will yield much better results with proper typing based on the structure of your document class.
// ridiculous code to get a Date using Calendar API
val cal = Calendar.getInstance()
cal.set(Calendar.YEAR, 1988)
cal.set(Calendar.MONTH, Calendar.JANUARY)
cal.set(Calendar.DAY_OF_MONTH, 1)
val customDateValue = cal.time
// Create Document
val document = CustomDocument() //optionally specify an Id here, otherwise it will be generated
document.customDate = customDateValue
document.customNumber = 1_000_000
// or
val document = DictionaryDocument() //optionally specify an Id here, otherwise it will be generated
document["customDate"] = customDateValue
document["customNumber"] = 1_000_000
// Document creation in CosmosDB
AzureData.createDocument (document, collectionId, databaseId) {
// created document = it.resource
}
AzureData.createDocument (document, collection) {
// created document = it.resource
}
collection.createDocument (document) {
// created document = it.resource
}
AzureData.getDocuments (collectionId, databaseId, CustomDocument::class.java) {
// documents = it.resource?.items
}
AzureData.getDocuments (collection, CustomDocument::class.java) {
// documents = it.resource?.items
}
collection.getDocuments (CustomDocument::class.java) {
// documents = it.resource?.items
}
AzureData.getDocument (documentId, collectionId, databaseId, CustomDocument::class.java) {
// document = it.resource
}
AzureData.getDocument (documentResourceId, collection, CustomDocument::class.java) {
// document = it.resource
}
collection.getDocument (documentResourceId, CustomDocument::class.java) {
// document = it.resource
}
AzureData.deleteDocument (document, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteDocument (document, collection) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteDocument (documentId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
collection.deleteDocument (document) {
// successfully deleted == it.isSuccessful
}
collection.deleteDocument (documentResourceId) {
// successfully deleted == it.isSuccessful
}
document.delete {
// successfully deleted == it.isSuccessful
}
AzureData.replaceDocument (document, collectionId, databaseId) {
// updated document = it.resource
}
AzureData.replaceDocument (document, collection) {
// updated document = it.resource
}
collection.replaceDocument (document) {
// updated document = it.resource
}
val query = Query.select()
.from(collectionId)
.where("stringProperty", "stringValue")
.andWhere("numberProperty", 12)
.orderBy("_etag", true) // descending = true/false
AzureData.queryDocuments (collectionId, databaseId, query, CustomDocument::class.java) {
// matching documents = it.resource?.items
}
AzureData.queryDocuments (collection, query, CustomDocument::class.java) {
// matching documents = it.resource?.items
}
collection.queryDocuments (query, CustomDocument::class.java) {
// matching documents = it.resource?.items
}
Link to existing external media asset:
AzureData.createAttachment (attachmentId, "image/jpeg", mediaUrl, documentId, collectionId, databaseId) {
// attachment = it.resource
}
document.createAttachment (attachmentId, "image/jpeg", mediaUrl) {
// attachment = it.resource
}
mediaUrl
can be of type HttpUrl
(from OkHttp), URL
, or a string url.
...or upload the media directly:
AzureData.createAttachment (attachmentId, "image/jpeg", data, documentId, collectionId, databaseId) {
// attachment = it.resource
}
document.createAttachment (attachmentId, "image/jpeg", data) {
// attachment = it.resource
}
data
here is a ByteArray
containing the bytes for the media/blob, and "image/jpeg" is the content type of the blob.
AzureData.getAttachments (documentId, collectionId, databaseId) {
// attachments = it.resource?.items
}
document.getAttachments {
// attachments = it.resource?.items
}
AzureData.deleteAttachment (attachmentId, documentId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteAttachment (attachment, documentId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
document.deleteAttachment (attachment) {
// successfully deleted == it.isSuccessful
}
document.deleteAttachment (attachmentResourceId) {
// successfully deleted == it.isSuccessful
}
Link to existing external media asset:
AzureData.replaceAttachment (attachmentId, "image/jpeg", mediaUrl, documentId, collectionId, databaseId) {
// replaced attachment = it.resource
}
document.replaceAttachment (attachmentId, attachmentResourceId, "image/jpeg", url) {
// replaced attachment = it.resource
}
mediaUrl
can be of type HttpUrl
(from OkHttp), URL
, or a string url.
...or upload the media directly:
AzureData.replaceAttachment (attachmentId, "image/jpeg", data, documentId, collectionId, databaseId) {
// replaced attachment = it.resource
}
document.replaceAttachment (attachmentId, "image/jpeg", data) {
// replaced attachment = it.resource
}
data
here is a ByteArray
containing the bytes for the media/blob, and "image/jpeg" is the content type of the blob.
Given a stored procedure body:
val storedProcedureBody = """
function () {
var context = getContext();
var r = context.getResponse();
r.setBody('Hello World!');
}
"""
A Stored Procedure can be created like so:
AzureData.createStoredProcedure (storedProcedureId, storedProcedureBody, collectionId, databaseId) {
// storedProcedure = it.resource
}
AzureData.createStoredProcedure (storedProcedureId, storedProcedureBody, collection) {
// storedProcedure = it.resource
}
collection.createStoredProcedure (storedProcedureId, storedProcedureBody) {
// storedProcedure = it.resource
}
AzureData.getStoredProcedures (collectionId, databaseId) {
// storedProcedures = it.resource?.items
}
AzureData.getStoredProcedures (collection) {
// storedProcedures = it.resource?.items
}
collection.getStoredProcedures () {
// storedProcedures = it.resource?.items
}
AzureData.deleteStoredProcedure (storedProcedureId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteStoredProcedure (storedProcedure, collection) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteStoredProcedure (storedProcedureResourceId, collection) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteStoredProcedure (storedProcedure, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
collection.deleteStoredProcedure (storedProcedure) {
// successfully deleted == it.isSuccessful
}
collection.deleteStoredProcedure (storedProcedureResourceId) {
// successfully deleted == it.isSuccessful
}
AzureData.replaceStoredProcedure (storedProcedureId, storedProcedureBody, collectionId, databaseId) {
// storedProcedure = it.resource
}
AzureData.replaceStoredProcedure (storedProcedureId, storedProcedureResourceId, storedProcedureBody, collection) {
// storedProcedure = it.resource
}
AzureData.replaceStoredProcedure (storedProcedure, collection) {
// storedProcedure = it.resource
}
collection.replaceStoredProcedure (storedProcedureId, storedProcedureResourceId, storedProcedureBody) {
// storedProcedure = it.resource
}
collection.replaceStoredProcedure (storedProcedure) {
// storedProcedure = it.resource
}
AzureData.executeStoredProcedure (storedProcedureId, parameters, collectionId, databaseId) {
// raw response data = it.resource
}
AzureData.executeStoredProcedure (storedProcedureResourceId, parameters, collection) {
// raw response data = it.resource
}
collection.executeStoredProcedure (storedProcedureResourceId, parameters) {
// raw response data = it.resource
}
Given a user defined function body:
val udfBody = """
function (input) { return input.toLowerCase(); }
"""
A user defined function can be created like so:
AzureData.createUserDefinedFunction (userDefinedFunctionId, udfBody, collectionId, databaseId) {
// userDefinedFunction = it.resource
}
AzureData.createUserDefinedFunction (userDefinedFunctionId, udfBody, collection) {
// userDefinedFunction = it.resource
}
collection.createUserDefinedFunction (userDefinedFunctionId, udfBody) {
// userDefinedFunction = it.resource
}
AzureData.getUserDefinedFunctions (collectionId, databaseId) {
// userDefinedFunctions = it.resource?.items
}
AzureData.getUserDefinedFunctions (collection) {
// userDefinedFunction = it.resource?.items
}
collection.getUserDefinedFunctions {
// userDefinedFunctions = it.resource?.items
}
AzureData.deleteUserDefinedFunction (userDefinedFunctionId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteUserDefinedFunction (userDefinedFunction, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteUserDefinedFunction (userDefinedFunction, collection) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteUserDefinedFunction (userDefinedFunctionResourceId, collection) {
// successfully deleted == it.isSuccessful
}
collection.deleteUserDefinedFunction (userDefinedFunction) {
// successfully deleted == it.isSuccessful
}
collection.deleteUserDefinedFunction (userDefinedFunctionResourceId) {
// successfully deleted == it.isSuccessful
}
AzureData.replaceUserDefinedFunction (userDefinedFunctionId, userDefinedFunctionBody, collectionId, databaseId) {
// userDefinedFunction = it.resource
}
AzureData.replaceUserDefinedFunction (userDefinedFunctionId, userDefinedFunctionResourceId, userDefinedFunctionBody, collection) {
// userDefinedFunction = it.resource
}
AzureData.replaceUserDefinedFunction (userDefinedFunction, collection) {
// userDefinedFunction = it.resource
}
collection.replaceUserDefinedFunction (userDefinedFunctionId, userDefinedFunctionResourceId, userDefinedFunctionBody) {
// userDefinedFunction = it.resource
}
collection.replaceUserDefinedFunction (userDefinedFunction) {
// userDefinedFunction = it.resource
}
Given a trigger body:
val triggerBody = """
function updateMetadata() {}
"""
A trigger can be created like so:
AzureData.createTrigger (triggerId, triggerOperation, triggerType, triggerBody, collectionId, databaseId) {
// trigger = it.resource
}
AzureData.createTrigger (triggerId, triggerOperation, triggerType, triggerBody, collection) {
// trigger = it.resource
}
collection.createTrigger (triggerId, triggerOperation, triggerType, triggerBody) {
// trigger = it.resource
}
AzureData.getTriggers (collectionId, databaseId) {
// triggers = it.resource?.items
}
AzureData.getTriggers (collection) {
// triggers = it.resource?.items
}
collection.getTriggers {
// triggers = it.resource?.items
}
AzureData.deleteTrigger (triggerId, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteTrigger (trigger, collectionId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteTrigger (trigger, collection) {
// successfully deleted == it.isSuccessful
}
collection.deleteTrigger (trigger) {
// successfully deleted == it.isSuccessful
}
collection.deleteTrigger (triggerResourceId) {
// successfully deleted == it.isSuccessful
}
trigger.delete {
// successfully deleted == it.isSuccessful
}
AzureData.replaceTrigger (triggerId, triggerOperation, triggerType, triggerBody, collectionId, databaseId) {
// trigger = it.resource
}
AzureData.replaceTrigger (triggerId, triggerResourceId, triggerOperation, triggerType, triggerBody, collection) {
// trigger = it.resource
}
AzureData.replaceTrigger (trigger, collection) {
// trigger = it.resource
}
collection.replaceTrigger (triggerId, triggerResourceId, triggerOperation, triggerType, triggerBody) {
// trigger = it.resource
}
collection.replaceTrigger (trigger) {
// trigger = it.resource
}
AzureData.createUser (userId, databaseId) {
// user = it.resource
}
database.createUser (userId) {
// user = it.resource
}
AzureData.getUsers (databaseId) {
// users = it.resource?.items
}
database.getUsers {
// users = it.resource?.items
}
AzureData.getUser (userId, databaseId) {
// user = it.resource
}
database.getUser (userId) {
// user = it.resource
}
AzureData.deleteUser (userId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteUser (user, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deleteUser (user, database) {
// successfully deleted == it.isSuccessful
}
database.deleteUser (userId) {
// successfully deleted == it.isSuccessful
}
database.deleteUser (user) {
// successfully deleted == it.isSuccessful
}
user.delete {
// successfully deleted == it.isSuccessful
}
AzureData.replaceUser (userId, newUserId, databaseId) {
// user = it.resource
}
AzureData.replaceUser (userId, newUserId, database) {
// user = it.resource
}
database.replaceUser (userId, newUserId) {
// user = it.resource
}
AzureData.createPermission (permissionId, permissionMode, resource, userId, databaseId) {
// permission = it.resource
}
AzureData.createPermission (permissionId, permissionMode, resource, user, databaseId) {
// permission = it.resource
}
<resource>.createPermission (permissionId, permissionMode, user) {
// permission = it.resource
}
user.createPermission (permissionId, permissionMode, resource) {
// permission = it.resource
}
AzureData.getPermissions (userId, databaseId) {
// permissions = it.resource?.items
}
AzureData.getPermissions (user) {
// permissions = it.resource?.items
}
user.getPermissions {
// permissions = it.resource?.items
}
AzureData.getPermission (permissionId, userId, databaseId) {
// permission = it.resource
}
AzureData.getPermission (permissionResourceId, user) {
// permission = it.resource
}
user.getPermission (permissionResourceId) {
// permission = it.resource
}
AzureData.deletePermission (permissionId, userId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deletePermission (permission, userId, databaseId) {
// successfully deleted == it.isSuccessful
}
AzureData.deletePermission (permission, user) {
// successfully deleted == it.isSuccessful
}
AzureData.deletePermission (permissionResourceId, user) {
// successfully deleted == it.isSuccessful
}
user.deletePermission (permissionId, databaseId) {
// successfully deleted == it.isSuccessful
}
user.deletePermission (permission) {
// successfully deleted == it.isSuccessful
}
user.deletePermission (permissionResourceId) {
// successfully deleted == it.isSuccessful
}
AzureData.replacePermission (permissionId, permissionMode, resourceSelfLink, userId, databaseId) {
// replaced permission = it.resource
}
AzureData.replacePermission (permissionId, permissionMode, resource, userId, databaseId) {
// replaced permission = it.resource
}
AzureData.replacePermission (permissionId, permissionResourceId, permissionMode, resourceSelfLink, user) {
// replaced permission = it.resource
}
AzureData.replacePermission (permissionId, permissionResourceId, permissionMode, resource, user) {
// replaced permission = it.resource
}
AzureData.replacePermission (permission, user) {
// replaced permission = it.resource
}
resource.replacePermission (permissionId, permissionMode, userId, databaseId) {
// replaced permission = it.resource
}
resource.replacePermission (permission, userId, databaseId) {
// replaced permission = it.resource
}
resource.replacePermission (permissionId, permissionResourceId, permissionMode, user) {
// replaced permission = it.resource
}
user.replacePermission (permissionId, permissionResourceId, permissionMode, resource) {
// replaced permission = it.resource
}
user.replacePermission (permissionId, permissionResourceId, permissionMode, resourceSelfLink) {
// replaced permission = it.resource
}
user.replacePermission (permission) {
// replaced permission = it.resource
}
AzureData.getOffers {
// offers = it.resource?.items
}
AzureData.getOffer (offerId) {
// offer = it.resource
}
// TODO...
// TODO...
As noted, this library is written in and optimized for Kotlin. If your app is written in Java, it's still possible to use this library (assuming your app targets JDK 1.8), with a few syntactical differences to the sample code found above:
- Callbacks in Java will be in lambda form and passed as an argument to the method.
- Due to some compiler intricacies with the way lambdas returning
Unit
(void in Java) are interpreted in Java, the callbacks from the operations either need to returnUnit.INSTANCE
or be wrapped in something that handles that for you.
Example: To get the list of databases, the call would look like:
AzureData.getDatabases(response -> {
if (response.isSuccessful()) {
Database[] dbs = response.getResource().getItems();
}
...
return Unit.INSTANCE;
});
For an improved development experience, a functional wrapper has been added to make this a bit cleaner:
AzureData.getDatabases(onCallback(response -> {
if (response.isSuccessful()) {
Database[] dbs = response.getResource().getItems();
}
...
}));
onCallback()
is found in the com.microsoft.azureandroid.data.util
package, and will in essence 'inject' the return statement for you and remove the need to end your callback with a returned Unit.INSTANCE
.
Note: OnCallback
required API level 24+
See here for a complete example using this library from Java.