In this document
- Overview
- Retrieving Data from the Provider
- Content Provider Permissions
- Inserting, Updating, and Deleting Data
- Provider Data Types
- Alternative Forms of Provider Access
- Contract Classes
- MIME Type Reference
Key classes
Related Samples
See also
A content provider manages access to a central repository of data. A provider is part of an Android application, which often provides its own UI for working with the data. However, content providers are primarily intended to be used by other applications, which access the provider using a provider client object. Together, providers and provider clients offer a consistent, standard interface to data that also handles inter-process communication and secure data access.
This topic describes the basics of the following:
- How content providers work.
- The API you use retrieve data from a content provider.
- The API you use to insert, update, or delete data in a content provider.
- Other API features that facilitate working with providers.
Overview
A content provider presents data to external applications as one or more tables that are similar to the tables found in a relational database. A row represents an instance of some type of data the provider collects, and each row in the column represents an individual piece of data collected for an instance.
For example, one of the built-in providers in the Android platform is the user dictionary, which stores the spellings of non-standard words that the user wants to keep. Table 1 illustrates what the data might look like in this provider's table:
word | app id | frequency | locale | _ID |
---|---|---|---|---|
mapreduce | user1 | 100 | en_US | 1 |
precompiler | user14 | 200 | fr_FR | 2 |
applet | user2 | 225 | fr_CA | 3 |
const | user1 | 255 | pt_BR | 4 |
int | user5 | 100 | en_UK | 5 |
In table 1, each row represents an instance of a word that might not be
found in a standard dictionary. Each column represents some data for that word, such as the
locale in which it was first encountered. The column headers are column names that are stored in
the provider. To refer to a row's locale, you refer to its locale
column. For
this provider, the _ID
column serves as a "primary key" column that
the provider automatically maintains.
Note: A provider isn't required to have a primary key, and it isn't required
to use _ID
as the column name of a primary key if one is present. However,
if you want to bind data from a provider to a ListView
, one of the
column names has to be _ID
. This requirement is explained in more detail in the
section Displaying query results.
Accessing a provider
An application accesses the data from a content provider with
a ContentResolver
client object. This object has methods that call
identically-named methods in the provider object, an instance of one of the concrete
subclasses of ContentProvider
. The
ContentResolver
methods provide the basic
"CRUD" (create, retrieve, update, and delete) functions of persistent storage.
The ContentResolver
object in the client application's
process and the ContentProvider
object in the application that owns
the provider automatically handle inter-process communication.
ContentProvider
also acts as an abstraction layer between its
repository of data and the external appearance of data as tables.
Note: To access a provider, your application usually has to request specific permissions in its manifest file. This is described in more detail in the section Content Provider Permissions
For example, to get a list of the words and their locales from the User Dictionary Provider,
you call ContentResolver.query()
.
The query()
method calls the
ContentProvider.query()
method defined by the
User Dictionary Provider. The following lines of code show a
ContentResolver.query()
call:
// Queries the user dictionary and returns results mCursor = getContentResolver().query( UserDictionary.Words.CONTENT_URI, // The content URI of the words table mProjection, // The columns to return for each row mSelectionClause // Selection criteria mSelectionArgs, // Selection criteria mSortOrder); // The sort order for the returned rows
Table 2 shows how the arguments to
query(Uri,projection,selection,selectionArgs,sortOrder)
match an SQL SELECT statement:
query() argument | SELECT keyword/parameter | Notes |
---|---|---|
Uri |
FROM table_name |
Uri maps to the table in the provider named table_name. |
projection |
col,col,col,... |
projection is an array of columns that should be included for each row
retrieved.
|
selection |
WHERE col = value |
selection specifies the criteria for selecting rows. |
selectionArgs |
(No exact equivalent. Selection arguments replace ? placeholders in the
selection clause.)
|
|
sortOrder |
ORDER BY col,col,... |
sortOrder specifies the order in which rows appear in the returned
Cursor .
|
Content URIs
A content URI is a URI that identifies data in a provider. Content URIs include the symbolic name of the entire provider (its authority) and a name that points to a table (a path). When you call a client method to access a table in a provider, the content URI for the table is one of the arguments.
In the preceding lines of code, the constant
CONTENT_URI
contains the content URI of
the user dictionary's "words" table. The ContentResolver
object parses out the URI's authority, and uses it to "resolve" the provider by
comparing the authority to a system table of known providers. The
ContentResolver
can then dispatch the query arguments to the correct
provider.
The ContentProvider
uses the path part of the content URI to choose the
table to access. A provider usually has a path for each table it exposes.
In the previous lines of code, the full URI for the "words" table is:
content://user_dictionary/words
where the user_dictionary
string is the provider's authority, and
words
string is the table's path. The string
content://
(the scheme) is always present,
and identifies this as a content URI.
Many providers allow you to access a single row in a table by appending an ID value
to the end of the URI. For example, to retrieve a row whose _ID
is
4
from user dictionary, you can use this content URI:
Uri singleUri = ContentUris.withAppendedId(UserDictionary.Words.CONTENT_URI,4);
You often use id values when you've retrieved a set of rows and then want to update or delete one of them.
Note: The Uri
and Uri.Builder
classes
contain convenience methods for constructing well-formed Uri objects from strings. The
ContentUris
contains convenience methods for appending id values to
a URI. The previous snippet uses withAppendedId()
to append an id to the UserDictionary content URI.
Retrieving Data from the Provider
This section describes how to retrieve data from a provider, using the User Dictionary Provider as an example.
For the sake of clarity, the code snippets in this section call
ContentResolver.query()
on the "UI thread"". In
actual code, however, you should do queries asynchronously on a separate thread. One way to do
this is to use the CursorLoader
class, which is described
in more detail in the
Loaders guide. Also, the lines of code are snippets only; they don't show a complete
application.
To retrieve data from a provider, follow these basic steps:
- Request the read access permission for the provider.
- Define the code that sends a query to the provider.
Requesting read access permission
To retrieve data from a provider, your application needs "read access permission" for the
provider. You can't request this permission at run-time; instead, you have to specify that
you need this permission in your manifest, using the
<uses-permission>
element and the exact permission name defined by the
provider. When you specify this element in your manifest, you are in effect "requesting" this
permission for your application. When users install your application, they implicitly grant
this request.
To find the exact name of the read access permission for the provider you're using, as well as the names for other access permissions used by the provider, look in the provider's documentation.
The role of permissions in accessing providers is described in more detail in the section Content Provider Permissions.
The User Dictionary Provider defines the permission
android.permission.READ_USER_DICTIONARY
in its manifest file, so an
application that wants to read from the provider must request this permission.
Constructing the query
The next step in retrieving data a provider is to construct a query. This first snippet defines some variables for accessing the User Dictionary Provider:
// A "projection" defines the columns that will be returned for each row String[] mProjection = { UserDictionary.Words._ID, // Contract class constant for the _ID column name UserDictionary.Words.WORD, // Contract class constant for the word column name UserDictionary.Words.LOCALE // Contract class constant for the locale column name }; // Defines a string to contain the selection clause String mSelectionClause = null; // Initializes an array to contain selection arguments String[] mSelectionArgs = {""};
The next snippet shows how to use
ContentResolver.query()
, using the User Dictionary
Provider as an example. A provider client query is similar to an SQL query, and it contains a
set of columns to return, a set of selection criteria, and a sort order.
The set of columns that the query should return is called a projection
(the variable mProjection
).
The expression that specifies the rows to retrieve is split into a selection clause and
selection arguments. The selection clause is a combination of logical and Boolean expressions,
column names, and values (the variable mSelectionClause
). If you specify the
replaceable parameter ?
instead of a value, the query method retrieves the value
from the selection arguments array (the variable mSelectionArgs
).
In the next snippet, if the user doesn't enter a word, the selection clause is set to
null
, and the query returns all the words in the provider. If the user enters
a word, the selection clause is set to UserDictionary.Words.WORD + " = ?"
and
the first element of selection arguments array is set to the word the user enters.
/* * This defines a one-element String array to contain the selection argument. */ String[] mSelectionArgs = {""}; // Gets a word from the UI mSearchString = mSearchWord.getText().toString(); // Remember to insert code here to check for invalid or malicious input. // If the word is the empty string, gets everything if (TextUtils.isEmpty(mSearchString)) { // Setting the selection clause to null will return all words mSelectionClause = null; mSelectionArgs[0] = ""; } else { // Constructs a selection clause that matches the word that the user entered. mSelectionClause = UserDictionary.Words.WORD + " = ?"; // Moves the user's input string to the selection arguments. mSelectionArgs[0] = mSearchString; } // Does a query against the table and returns a Cursor object mCursor = getContentResolver().query( UserDictionary.Words.CONTENT_URI, // The content URI of the words table mProjection, // The columns to return for each row mSelectionClause // Either null, or the word the user entered mSelectionArgs, // Either empty, or the string the user entered mSortOrder); // The sort order for the returned rows // Some providers return null if an error occurs, others throw an exception if (null == mCursor) { /* * Insert code here to handle the error. Be sure not to use the cursor! You may want to * call android.util.Log.e() to log this error. * */ // If the Cursor is empty, the provider found no matches } else if (mCursor.getCount() < 1) { /* * Insert code here to notify the user that the search was unsuccessful. This isn't necessarily * an error. You may want to offer the user the option to insert a new row, or re-type the * search term. */ } else { // Insert code here to do something with the results }
This query is analogous to the SQL statement:
SELECT _ID, word, locale FROM words WHERE word = <userinput> ORDER BY word ASC;
In this SQL statement, the actual column names are used instead of contract class constants.
Protecting against malicious input
If the data managed by the content provider is in an SQL database, including external untrusted data into raw SQL statements can lead to SQL injection.
Consider this selection clause:
// Constructs a selection clause by concatenating the user's input to the column name String mSelectionClause = "var = " + mUserInput;
If you do this, you're allowing the user to concatenate malicious SQL onto your SQL statement.
For example, the user could enter "nothing; DROP TABLE *;" for mUserInput
, which
would result in the selection clause var = nothing; DROP TABLE *;
. Since the
selection clause is treated as an SQL statement, this might cause the provider to erase all of
the tables in the underlying SQLite database (unless the provider is set up to catch
SQL injection attempts).
To avoid this problem, use a selection clause that uses ?
as a replaceable
parameter and a separate array of selection arguments. When you do this, the user input
is bound directly to the query rather than being interpreted as part of an SQL statement.
Because it's not treated as SQL, the user input can't inject malicious SQL. Instead of using
concatenation to include the user input, use this selection clause:
// Constructs a selection clause with a replaceable parameter String mSelectionClause = "var = ?";
Set up the array of selection arguments like this:
// Defines an array to contain the selection arguments String[] selectionArgs = {""};
Put a value in the selection arguments array like this:
// Sets the selection argument to the user's input selectionArgs[0] = mUserInput;
A selection clause that uses ?
as a replaceable parameter and an array of
selection arguments array are preferred way to specify a selection, even if the provider isn't
based on an SQL database.
Displaying query results
The ContentResolver.query()
client method always
returns a Cursor
containing the columns specified by the query's
projection for the rows that match the query's selection criteria. A
Cursor
object provides random read access to the rows and columns it
contains. Using Cursor
methods, you can iterate over the rows in the
results, determine the data type of each column, get the data out of a column, and examine other
properties of the results. Some Cursor
implementations automatically
update the object when the provider's data changes, or trigger methods in an observer object
when the Cursor
changes, or both.
Note: A provider may restrict access to columns based on the nature of the object making the query. For example, the Contacts Provider restricts access for some columns to sync adapters, so it won't return them to an activity or service.
If no rows match the selection criteria, the provider
returns a Cursor
object for which
Cursor.getCount()
is 0 (an empty cursor).
If an internal error occurs, the results of the query depend on the particular provider. It may
choose to return null
, or it may throw an Exception
.
Since a Cursor
is a "list" of rows, a good way to display the
contents of a Cursor
is to link it to a ListView
via a SimpleCursorAdapter
.
The following snippet continues the code from the previous snippet. It creates a
SimpleCursorAdapter
object containing the Cursor
retrieved by the query, and sets this object to be the adapter for a
ListView
:
// Defines a list of columns to retrieve from the Cursor and load into an output row String[] mWordListColumns = { UserDictionary.Words.WORD, // Contract class constant containing the word column name UserDictionary.Words.LOCALE // Contract class constant containing the locale column name }; // Defines a list of View IDs that will receive the Cursor columns for each row int[] mWordListItems = { R.id.dictWord, R.id.locale}; // Creates a new SimpleCursorAdapter mCursorAdapter = new SimpleCursorAdapter( getApplicationContext(), // The application's Context object R.layout.wordlistrow, // A layout in XML for one row in the ListView mCursor, // The result from the query mWordListColumns, // A string array of column names in the cursor mWordListItems, // An integer array of view IDs in the row layout 0); // Flags (usually none are needed) // Sets the adapter for the ListView mWordList.setAdapter(mCursorAdapter);
Note: To back a ListView
with a
Cursor
, the cursor must contain a column named _ID
.
Because of this, the query shown previously retrieves the _ID
column for the
"words" table, even though the ListView
doesn't display it.
This restriction also explains why most providers have a _ID
column for each of
their tables.
Getting data from query results
Rather than simply displaying query results, you can use them for other tasks. For
example, you can retrieve spellings from the user dictionary and then look them up in
other providers. To do this, you iterate over the rows in the Cursor
:
// Determine the column index of the column named "word" int index = mCursor.getColumnIndex(UserDictionary.Words.WORD); /* * Only executes if the cursor is valid. The User Dictionary Provider returns null if * an internal error occurs. Other providers may throw an Exception instead of returning null. */ if (mCursor != null) { /* * Moves to the next row in the cursor. Before the first movement in the cursor, the * "row pointer" is -1, and if you try to retrieve data at that position you will get an * exception. */ while (mCursor.moveToNext()) { // Gets the value from the column. newWord = mCursor.getString(index); // Insert code here to process the retrieved word. ... // end of while loop } } else { // Insert code here to report an error if the cursor is null or the provider threw an exception. }
Cursor
implementations contain several "get" methods for
retrieving different types of data from the object. For example, the previous snippet
uses getString()
. They also have a
getType()
method that returns a value indicating
the data type of the column.
Content Provider Permissions
A provider's application can specify permissions that other applications must have in order to access the provider's data. These permissions ensure that the user knows what data an application will try to access. Based on the provider's requirements, other applications request the permissions they need in order to access the provider. End users see the requested permissions when they install the application.
If a provider's application doesn't specify any permissions, then other applications have no access to the provider's data. However, components in the provider's application always have full read and write access, regardless of the specified permissions.
As noted previously, the User Dictionary Provider requires the
android.permission.READ_USER_DICTIONARY
permission to retrieve data from it.
The provider has the separate android.permission.WRITE_USER_DICTIONARY
permission for inserting, updating, or deleting data.
To get the permissions needed to access a provider, an application requests them with a
<uses-permission>
element in its manifest file. When the Android Package Manager installs the application, a user
must approve all of the permissions the application requests. If the user approves all of them,
Package Manager continues the installation; if the user doesn't approve them, Package Manager
aborts the installation.
The following
<uses-permission>
element requests read access to the User Dictionary Provider:
<uses-permission android:name="android.permission.READ_USER_DICTIONARY">
The impact of permissions on provider access is explained in more detail in the Security and Permissions guide.
Inserting, Updating, and Deleting Data
In the same way that you retrieve data from a provider, you also use the interaction between
a provider client and the provider's ContentProvider
to modify data.
You call a method of ContentResolver
with arguments that are passed to
the corresponding method of ContentProvider
. The provider and provider
client automatically handle security and inter-process communication.
Inserting data
To insert data into a provider, you call the
ContentResolver.insert()
method. This method inserts a new row into the provider and returns a content URI for that row.
This snippet shows how to insert a new word into the User Dictionary Provider:
// Defines a new Uri object that receives the result of the insertion Uri mNewUri; ... // Defines an object to contain the new values to insert ContentValues mNewValues = new ContentValues(); /* * Sets the values of each column and inserts the word. The arguments to the "put" * method are "column name" and "value" */ mNewValues.put(UserDictionary.Words.APP_ID, "example.user"); mNewValues.put(UserDictionary.Words.LOCALE, "en_US"); mNewValues.put(UserDictionary.Words.WORD, "insert"); mNewValues.put(UserDictionary.Words.FREQUENCY, "100"); mNewUri = getContentResolver().insert( UserDictionary.Word.CONTENT_URI, // the user dictionary content URI mNewValues // the values to insert );
The data for the new row goes into a single ContentValues
object, which
is similar in form to a one-row cursor. The columns in this object don't need to have the
same data type, and if you don't want to specify a value at all, you can set a column
to null
using ContentValues.putNull()
.
The snippet doesn't add the _ID
column, because this column is maintained
automatically. The provider assigns a unique value of _ID
to every row that is
added. Providers usually use this value as the table's primary key.
The content URI returned in newUri
identifies the newly-added row, with
the following format:
content://user_dictionary/words/<id_value>
The <id_value>
is the contents of _ID
for the new row.
Most providers can detect this form of content URI automatically and then perform the requested
operation on that particular row.
To get the value of _ID
from the returned Uri
, call
ContentUris.parseId()
.
Updating data
To update a row, you use a ContentValues
object with the updated
values just as you do with an insertion, and selection criteria just as you do with a query.
The client method you use is
ContentResolver.update()
. You only need to add
values to the ContentValues
object for columns you're updating. If you
want to clear the contents of a column, set the value to null
.
The following snippet changes all the rows whose locale has the language "en" to a
have a locale of null
. The return value is the number of rows that were updated:
// Defines an object to contain the updated values ContentValues mUpdateValues = new ContentValues(); // Defines selection criteria for the rows you want to update String mSelectionClause = UserDictionary.Words.LOCALE + "LIKE ?"; String[] mSelectionArgs = {"en_%"}; // Defines a variable to contain the number of updated rows int mRowsUpdated = 0; ... /* * Sets the updated value and updates the selected words. */ mUpdateValues.putNull(UserDictionary.Words.LOCALE); mRowsUpdated = getContentResolver().update( UserDictionary.Words.CONTENT_URI, // the user dictionary content URI mUpdateValues // the columns to update mSelectionClause // the column to select on mSelectionArgs // the value to compare to );
You should also sanitize user input when you call
ContentResolver.update()
. To learn more about
this, read the section Protecting against malicious input.
Deleting data
Deleting rows is similar to retrieving row data: you specify selection criteria for the rows you want to delete and the client method returns the number of deleted rows. The following snippet deletes rows whose appid matches "user". The method returns the number of deleted rows.
// Defines selection criteria for the rows you want to delete String mSelectionClause = UserDictionary.Words.APP_ID + " LIKE ?"; String[] mSelectionArgs = {"user"}; // Defines a variable to contain the number of rows deleted int mRowsDeleted = 0; ... // Deletes the words that match the selection criteria mRowsDeleted = getContentResolver().delete( UserDictionary.Words.CONTENT_URI, // the user dictionary content URI mSelectionClause // the column to select on mSelectionArgs // the value to compare to );
You should also sanitize user input when you call
ContentResolver.delete()
. To learn more about
this, read the section Protecting against malicious input.
Provider Data Types
Content providers can offer many different data types. The User Dictionary Provider offers only text, but providers can also offer the following formats:
- integer
- long integer (long)
- floating point
- long floating point (double)
Another data type that providers often use is Binary Large OBject (BLOB) implemented as a
64KB byte array. You can see the available data types by looking at the
Cursor
class "get" methods.
The data type for each column in a provider is usually listed in its documentation.
The data types for the User Dictionary Provider are listed in the reference documentation
for its contract class UserDictionary.Words
(contract classes are
described in the section Contract Classes).
You can also determine the data type by calling Cursor.getType()
.
Providers also maintain MIME data type information for each content URI they define. You can
use the MIME type information to find out if your application can handle data that the
provider offers, or to choose a type of handling based on the MIME type. You usually need the
MIME type when you are working with a provider that contains complex
data structures or files. For example, the ContactsContract.Data
table in the Contacts Provider uses MIME types to label the type of contact data stored in each
row. To get the MIME type corresponding to a content URI, call
ContentResolver.getType()
.
The section MIME Type Reference describes the syntax of both standard and custom MIME types.
Alternative Forms of Provider Access
Three alternative forms of provider access are important in application development:
-
Batch access: You can create a batch of access calls with methods in
the
ContentProviderOperation
class, and then apply them withContentResolver.applyBatch()
. -
Asynchronous queries: You should do queries in a separate thread. One way to do this is to
use a
CursorLoader
object. The examples in the Loaders guide demonstrate how to do this. - Data access via intents: Although you can't send an intent directly to a provider, you can send an intent to the provider's application, which is usually the best-equipped to modify the provider's data.
Batch access and modification via intents are described in the following sections.
Batch access
Batch access to a provider is useful for inserting a large number of rows, or for inserting rows in multiple tables in the same method call, or in general for performing a set of operations across process boundaries as a transaction (an atomic operation).
To access a provider in "batch mode",
you create an array of ContentProviderOperation
objects and then
dispatch them to a content provider with
ContentResolver.applyBatch()
. You pass the
content provider's authority to this method, rather than a particular content URI.
This allows each ContentProviderOperation
object in the array to work
against a different table. A call to ContentResolver.applyBatch()
returns an array of results.
The description of the ContactsContract.RawContacts
contract class
includes a code snippet that demonstrates batch insertion. The
Contact Manager
sample application contains an example of batch access in its ContactAdder.java
source file.
Displaying data using a helper app
If your application does have access permissions, you still may want to use an
intent to display data in another application. For example, the Calendar application accepts an
ACTION_VIEW
intent, which displays a particular date or event.
This allows you to display calendar information without having to create your own UI.
To learn more about this feature, see the
Calendar Provider guide.
The application to which you send the intent doesn't have to be the application
associated with the provider. For example, you can retrieve a contact from the
Contact Provider, then send an ACTION_VIEW
intent
containing the content URI for the contact's image to an image viewer.
Data access via intents
Intents can provide indirect access to a content provider. You allow the user to access data in a provider even if your application doesn't have access permissions, either by getting a result intent back from an application that has permissions, or by activating an application that has permissions and letting the user do work in it.
Getting access with temporary permissions
You can access data in a content provider, even if you don't have the proper access permissions, by sending an intent to an application that does have the permissions and receiving back a result intent containing "URI" permissions. These are permissions for a specific content URI that last until the activity that receives them is finished. The application that has permanent permissions grants temporary permissions by setting a flag in the result intent:
-
Read permission:
FLAG_GRANT_READ_URI_PERMISSION
-
Write permission:
FLAG_GRANT_WRITE_URI_PERMISSION
Note: These flags don't give general read or write access to the provider whose authority is contained in the content URI. The access is only for the URI itself.
A provider defines URI permissions for content URIs in its manifest, using the
android:grantUriPermission
attribute of the
<provider>
element, as well as the
<grant-uri-permission>
child element of the
<provider>
element. The URI permissions mechanism is explained in more detail in the
Security and Permissions guide,
in the section "URI Permissions".
For example, you can retrieve data for a contact in the Contacts Provider, even if you don't
have the READ_CONTACTS
permission. You might want to do
this in an application that sends e-greetings to a contact on his or her birthday. Instead of
requesting READ_CONTACTS
, which gives you access to all of
the user's contacts and all of their information, you prefer to let the user control which
contacts are used by your application. To do this, you use the following process:
-
Your application sends an intent containing the action
ACTION_PICK
and the "contacts" MIME typeCONTENT_ITEM_TYPE
, using the methodstartActivityForResult()
. - Because this intent matches the intent filter for the People app's "selection" activity, the activity will come to the foreground.
-
In the selection activity, the user selects a
contact to update. When this happens, the selection activity calls
setResult(resultcode, intent)
to set up a intent to give back to your application. The intent contains the content URI of the contact the user selected, and the "extras" flagsFLAG_GRANT_READ_URI_PERMISSION
. These flags grant URI permission to your app to read data for the contact pointed to by the content URI. The selection activity then callsfinish()
to return control to your application. -
Your activity returns to the foreground, and the system calls your activity's
onActivityResult()
method. This method receives the result intent created by the selection activity in the People app. - With the content URI from the result intent, you can read the contact's data from the Contacts Provider, even though you didn't request permanent read access permission to the provider in your manifest. You can then get the contact's birthday information or his or her email address and then send the e-greeting.
Using another application
A simple way to allow the user to modify data to which you don't have access permissions is to activate an application that has permissions and let the user do the work there.
For example, the Calendar application accepts an
ACTION_INSERT
intent, which allows you to activate the
application's insert UI. You can pass "extras" data in this intent, which the application
uses to pre-populate the UI. Because recurring events have a complex syntax, the preferred
way of inserting events into the Calendar Provider is to activate the Calendar app with an
ACTION_INSERT
and then let the user insert the event there.
Contract Classes
A contract class defines constants that help applications work with the content URIs, column
names, intent actions, and other features of a content provider. Contract classes are not
included automatically with a provider; the provider's developer has to define them and then
make them available to other developers. Many of the providers included with the Android
platform have corresponding contract classes in the package android.provider
.
For example, the User Dictionary Provider has a contract class
UserDictionary
containing content URI and column name constants. The
content URI for the "words" table is defined in the constant
UserDictionary.Words.CONTENT_URI
.
The UserDictionary.Words
class also contains column name constants,
which are used in the example snippets in this guide. For example, a query projection can be
defined as:
String[] mProjection = { UserDictionary.Words._ID, UserDictionary.Words.WORD, UserDictionary.Words.LOCALE };
Another contract class is ContactsContract
for the Contacts Provider.
The reference documentation for this class includes example code snippets. One of its
subclasses, ContactsContract.Intents.Insert
, is a contract
class that contains constants for intents and intent data.
MIME Type Reference
Content providers can return standard MIME media types, or custom MIME type strings, or both.
MIME types have the format
type/subtype
For example, the well-known MIME type text/html
has the text
type and
the html
subtype. If the provider returns this type for a URI, it means that a
query using that URI will return text containing HTML tags.
Custom MIME type strings, also called "vendor-specific" MIME types, have more complex type and subtype values. The type value is always
vnd.android.cursor.dir
for multiple rows, or
vnd.android.cursor.item
for a single row.
The subtype is provider-specific. The Android built-in providers usually have a simple subtype. For example, the when the Contacts application creates a row for a telephone number, it sets the following MIME type in the row:
vnd.android.cursor.item/phone_v2
Notice that the subtype value is simply phone_v2
.
Other provider developers may create their own pattern of subtypes based on the provider's
authority and table names. For example, consider a provider that contains train timetables.
The provider's authority is com.example.trains
, and it contains the tables
Line1, Line2, and Line3. In response to the content URI
content://com.example.trains/Line1
for table Line1, the provider returns the MIME type
vnd.android.cursor.dir/vnd.example.line1
In response to the content URI
content://com.example.trains/Line2/5
for row 5 in table Line2, the provider returns the MIME type
vnd.android.cursor.item/vnd.example.line2
Most content providers define contract class constants for the MIME types they use. The
Contacts Provider contract class ContactsContract.RawContacts
,
for example, defines the constant
CONTENT_ITEM_TYPE
for the MIME type of
a single raw contact row.
Content URIs for single rows are described in the section Content URIs.