This chapter contains these topics:
Binary XML was introduced in Oracle 11g Release 1 (11.1). Binary XML makes it possible to encode and decode between XML text and compressed binary XML. For efficiency, the DOM and SAX APIs are provided on top of binary XML for direct consumption by the XML applications. Compression and decompression of fragments of an XML document facilitate incremental processing.
This chapter assumes that you are familiar with the XML Parser for Java.
See Also:
Chapter 4, "XML Parsing for Java"An XMLType
storage option is provided to enable storing XML documents in the new binary format. The new storage option is in addition to the existing CLOB
and object-relational storage options. XMLType
tables and columns can be created using the new binary XML storage option. The XML data in binary format can be accessed and manipulated by all the existing SQL operators and functions and PL/SQL APIs that operate on XMLType
.
Binary XML is a compact XML-schema-aware encoding of XML data, but it can be used with XML data that is not based on an XML schema. You can also use binary XML for XML data which is outside the database (in a client-side application, for instance). Binary XML allows for encoding and decoding of XML documents, from text to binary and binary to text. Binary XML is post-parse persistent XML with native database datatypes.
Binary XML provides more efficient database storage, updating, indexing, query performance, and fragment extraction than unstructured storage. It can store data and metadata together or separately.
A binary XML processor is an abstract term for describing a component that processes and transforms binary XML format into text and XML text into binary XML format. It can also provide a cache for storing schemas. The base class for a binary XML processor is BinXMLProcessor
. A binary XML processor can originate or receive network protocol requests.
There are several models for using binary XML in applications. First, here is a glossary of terms:
Here is a glossary of terms for binary XML usage:
doc-id: Each encoded XML document is identified by a unique doc-id. It is either a 16-byte Global User ID (GUID) or an opaque sequence of bytes like a URL.
token table: When a text XML document does not have a schema associated with it, then a token (or symbol) table is used to minimize space for repeated items.
vocabulary id: Can be a schema-id or a namespace URI identification for a token table.
schema-id: A unique opaque binary identifier for a schema scoped to the binary XML processor. The schema-id is unique for a binary XML processor and is identifiable only within the scope of that binary XML processor. The schema-id remains constant even when the schema is evolved. A schema-id represents the entire set of schema documents, including imported and included schemas.
schema version: Every annotated schema has a version number associated with it. The version number is specified as part of the system level annotations. It is incremented by the binary XML processor when a schema is evolved (that is, a new version of the same schema is registered with the binary XML processor).
partial validity: Binary XML stream encoding using schema implies at least partial validity with respect to the schema. Partial validity implies no validation for unique keys, keyrefs, IDs, or IDREFs.
This is the simplest usage scenario for binary XML. There is a single binary XML processor. The only repository available is the local in-memory vocabulary cache that is not persistent and is only available for the life of the binary XML processor. All schemas must be registered in advance with the binary XML Processor before the encoding, or can be registered automatically when the XML Processor sees the xsi:SchemaLocation
tag. For decoding, the schema is already available in the vocabulary cache.
If the decoding occurs in a different binary XML processor, see the different Web Services models described here.
In this scenario, the binary XML processor is connected to a database using JDBC. It is assumed that the schema is registered with the database before encoding.
Here is an example of how to achieve that:
BEGIN DBMS_XMLSCHEMA.registerSchema( SCHEMAURL => 'http://xmlns.oracle.com/xdb/documentation/purchaseOrder.xsd', SCHEMADOC => bfilename('XMLDIR','purchaseOrder.xsd'), CSID => nls_charset_id('AL32UTF8'), GENTYPES => FALSE, OPTIONS => REGISTER_BINARYXML ); END; /
Unless a separate connection is specified for data (using associateDataConnection()
) it is assumed that all data and metadata is stored and retrieved using a single connection for encoding and decoding.
In this scenario there are multiple clients, each running a binary XML processor. One client does the encoding and the other client does the decoding. There is a common repository (that is not necessarily a database) connected to all the clients for metadata storage. It can be a file system or some other repository. The first binary XML processor ensures that the schema is registered with the repository before performing the encoding, or the schema might be automatically registered using the xsi:schemaLocation
tag at the time of encoding. The second binary XML processor is used for decoding, is not aware of the location of the schema, and fetches the schema from the repository.
If the first binary XML processor registers a schema and the second binary XML processor registersthe same schema in the repository, the binary XML processor does not compile the schema, but simply returns the vocabulary-id
of the existing compiled schema in the local vocabulary cache.
The BinXMLProcessor
is not thread-safe, so multiple threads or clients accessing the repository need to implement their own thread safety scheme.
In this scenario, there are multiple clients, each running a binary XML processor. Encoding and decoding can happen on different clients. There is no common metadata repository. The encoder has to ensure that the binary data passed to the next client is independent of schema: that is, has inline token definitions. This can be achieved by setting schemaAware
= false
and inlineTokenDefs
= true
, using the setProperty()
method, during encoding. While decoding, there is no schema required.
The Java XML binary functionality has three parts:
Binary XML encoding - The binary XML encoder converts XML 1.0 infoset to binary XML.
Binary XML decoding - The binary XML decoder converts binary XML to XML infoset.
Binary XML vocabulary management, which includes schema management and token management.
The encoder is created from the BinXMLStream
. It takes as input the XML text and outputs the encoded binary XML to the BinXMLStream
it was created from. The encoder reads the XML text using streaming SAX. The encoding of the XML text is based on the results of the XML parsing.
Set the schemaAware
flag on the encoder that specifies whether the encoding is schema-aware or schema-less.
For schema-aware encoding, the encoder determines whether the schema with the particular schema URL has been registered with the vocabulary manager. For a repository-based or a database-based processor, the encoder queries the repository or the database for the compiled schema based on the schema URL. If the schema is available in the database, it is fetched from the repository or database in the binary XML format and registered with the local vocabulary manager. The vocabulary is schema.
Also set a flag to indicate that the encoding results in a binary XML stream that is independent of a schema. In this case, the resulting binary XML stream contains all token definitions inline and is not dependent on schema or external token sets.
If the encoding is schema-aware, the encoder uses the datatype information from the schema object for more efficient encoding of the SAX stream. There is a default encoding datatype associated with each schema built-in datatype. Binary XML stream encoding using a schema implies at least partial validity with respect to the schema (For partial validity there is no validation for unique key, or keyref, or ID, or DREFs). If the data is known to be completely valid with respect to a schema, the encoded binary XML stream stores this information.
See Also:
Oracle XML DB Developer's Guide for tables of the binary encoding datatypes and their mappings from XML schema datatypesIf there is no schema associated with the text XML, then integer token ids are generated for repeated items in the text XML. Creating a token table of token ids and token definitions is an important compression technique. The token definitions are stored as token tables in the vocabulary cache. If the property for inline token definitions is set, then the token definitions are present inline.
See Also:
"Token Management"Another property on the encoder is specifying PSVI (Post Schema Validated Infoset) information as part of the binary stream. If this is set to true then PSVI information can be accessed using XDK extension APIs for PSVI on DOM. If psvi = true
then the input XML is fully validated with respect to the schema. If psvi
is false
then PSVI information is not included in the output binary stream. The default is false
.
The binary XML decoder converts binary XML to XML infoset. The decoder is created from the BinXMLStream
; it reads binary XML from this stream and outputs SAX events or provide a pull style InfosetReader
API for reading the decoded XML. If a schema is associated with the BinXMLStream
, the binary XML decoder retrieves the associated schema object from the vocabulary cache using the vocabulary id before decoding. If the schema is not available in the vocabulary cache, and the connection information to the server is available, then the schema is fetched from the server.
If no schema is associated with BinXMLStream
, then the token definitions can be either inline in the BinXMLStream
or stored in a token set. If tokens of a corresponding namespace are not stored in the local vocabulary cache, then the token set is fetched from the repository.
The binary XML processors are of different types depending on where the metadata (schema or token sets) are located - either local binary XML processor or repository binary XML processor.
For metadata persistence, it is recommended that you use the DB Binary XML processor. In this case, schemas and token sets are registered with the database. The vocabulary manager fetches the schema or token sets from the database and cache it in the local vocabulary cache for encoding and decoding purposes.
See Also:
"Binary XML DB"If you need to use a persistent metadata repository that is not a database, then you can plug in your own metadata repository. You must implement the interface for communicating with this repository, BinXMLMetadataProvider
.
Register schemas locally with the local binary XML processor. The local binary XML processor contains a vocabulary manager that maintains all schemas submitted by the user for the duration of its existence. The vocabulary manager associated with a local binary XML processor does not provide for schema persistence.
If you register the same schema (same schema location and same target namespace) then the schema is not parsed, and the existing vocabulary id is returned. If a new schema with the same target namespace and a different schema location is registered then the existing schema definition is augmented with the new schema definitions or results in conflict error.
Each schema is identified by a vocabulary id. The vocabulary id is in the scope of the processor and is unique within the processor. Any document that validates with a schema is required to validate with a latest version of the schema.
Binary XML annotations can only appear within the <xsd:appInfo>
element in a schema. There are two categories of schema annotations - User-level and System-level. The vocabulary manager interprets these at the time of schema registration. All other types of annotations (for example, database related annotations, is ignored).
These are specified by the user before registration.
encodingType
- This can be used within a xsd:element
, xsd:attribute
or xsd:simpleType
elements. It indicates the datatype to be used for encoding the node value of the particular element or attribute. For strings, there is only support for UTF8 encoding in this release.
Token sets can be fetched from the database or metadata repository, cached in the local vocabulary manager and used for decoding. While encoding, token sets can be pushed to the repository for persistence.
Token definitions can also be included as part of the binary XML stream by setting a flag on the encoder.
A BinXMLStream
class represents the binary XML stream. The different storage locations defined for the binary XML Stream are:
InputStream
- stream for reading.
OutputStream
- stream for writing.
URL
- stream for reading.
File
- stream for read and write.
BLOB
- stream for reading and writing.
Byte array - stream for reading and writing.
In memory - stream for reading and writing.
The BinXMLStream
object specifies the type of storage during creation.
A BinXMLStream
object can be created from a BinXMLProcessor
factory. This factory can be initialized with a JDBC connection (for remote metadata access), connection pool, URL or a PageManagerPool
(for lazy in-memory storage). BinXMLEncoder
and BinXMLDecoder
can be created from the BinXMLStream
for encoding or decoding.
1. Here is an example of creating a processor without a repository, registering a schema, encoding XML SAX events into schema-aware binary format, and storing in a file:
BinXMLProcessor proc = BinXMLProcessorFactory.createProcessor(); proc.registerSchema(schemaURL); BinXMLStream outbin = proc.createBinaryStream(outFile); BinXMLEncoder enc = outbin.getEncoder(); enc.setSchemaAware(true); ContentHandler hdlr = enc.getContentHandler();
In addition to getting the ContentHandler
, you can also get the other handlers, such as:
LexicalHandler lexhdlr = enc.getLexicalHandler(); DTDHandler dtdhdlr = encenc.getDTDHandler(); DeclHandler declhdlr = enc.getDeclHandler(); ErrorHandler errhdlr = enc.getErrorHandler();
Use hdlr
in the application that generates the SAX events.
2. Here is an example of creating a processor with a database repository, decoding a schema-aware binary stream and reading the decoded XML using pull API. The schema is fetched from the database repository for decoding.
DBBinXMLMetadataProvider dbrep = BinXMLMetadataProviderFactory.createDBMetadataProvider(); BinXMLProcessor proc = BinXMLProcessorFactory.createProcessor(dbrep); BinXMLStream inpbin = proc.createBinaryStream(blob); BinXMLDecoder dec = inpbin.getDecoder(); InfosetReader xmlreader = dec.getReader();
Use xmlreader
to read XML in a pull-style from the decoder.
The encoder takes XML input, which is parsed and read using SAX events, and outputs binary XML.
You can specify the schema-aware or the schema-less option before encoding. The default is schema-less encoding. If the schema-aware option is set, then the encoding is done based on schema(s) specified in the instance document. The annotated schema(s) used for encoding is also required at the time of decoding. If the schema-less option is specified, then the encoding is independent of schema(s), but the tokens are inline by default. To override the default, set Inline-token = false.
You can set an option to create a binary XML Stream with inline token definitions before encoding. If "inlining" is turned off, than you must ensure that the processors for the encoder or decoder are using the same metadata repository. The flag Inline-token
is ignored if the schema-aware option is true. By default, the token definitions is inline.
The binary XML decoder takes binary XML stream as input and generates SAX Events as output, or provides a pull interface to read the decoded XML. In the case of schema-aware binary XML stream, the binary XML decoder interacts with the vocabulary manager to extract the schema information.
If the vocabulary manager does not contain the required schema, and the processor is of type binary XML DB with a valid JDBC connection, then the remote schema is fetched from the database or the metadata repository based on the vocabulary id in the binary XML stream to be decoded. Similarly, the set of token definitions can be fetched from the database or the metadata repository.
Here is the flow of this process: If the vocabulary is an XML schema; it takes the XML schema text as input. The schema annotator annotates the schema text with system level annotations. The schema might already have some user level annotations.
The resulting annotated schema is processed by the Schema Builder to build an XML schema object. This XML schema object is stored in the vocabulary cache. The vocabulary cache assigns a unique vocabulary id for each XML schema object, which is returned as output. The annotated DOM representation of the schema is sent to the binary XML encoder.
During encoding, if schemaAware
is true and the property ImplcitSchemaRegistration
is true
, then the first xsi:schemaLocation
tag present in the root element of an XML instance document automatically registers that schema in the local vocabulary manager. All other schemaLocation
tags are not explicitly registered. If the processor is database-oriented, then the schema is also registered in the database; similarly for any metadata repository based processor.
If the encoding is set to schemaAware
is false
or ImplcitSchemaRegistration
is false
, then all xsi:schemaLocation
tags are ignored by the encoder.
A DBBinXMLMetadataProvider
object is either instantiated with a dedicated JDBC connection or a connection pool to access vocabulary information such as schema and token set. The processor is also associated with one or more data connections to access XML data.
A binary XML Processor can communicate with the database for various types of binary XML operations involving storage and retrieval of binary XML schemas, token sets, and binary XML streams. Database communication is involved in the following ways:
Extracting compiled binary XML Schema using the vocabulary id or the schema URL
To retrieve a compiled binary XML schema for encoding, the database is queried based on the schema URL. For decoding the binary XML schema, fetch it from the database based on the vocabulary id.
Storing noncompiled binary XML schema using the schema URL and retrieving the vocabulary id.
When the xsi:schemaLocation
tag is encountered during encoding, the schema is registered in the database for persistent storage in the database. The vocabulary id associated with the schema, as well as the binary version of the compiled schema is retrieved back from the database; the compiled schema object is built and stored in the local cache using the vocabulary id returned from the database.
Retrieving a binary token set using namespace URL.
If a binary stream to be decoded is associated with token tables for decoding, these are fetched from the database using the metadata connection.
Storing binary token set using namespace URL
If the XML text has been encoded without a schema, then it results in a token set of token definitions. These token tables can be stored persistently in the database. The metadata connection is used for transferring the token set to the database.
Binary XML stream with remote storage option
It is your responsibility to create a table containing an XMLType
column with binary XML for storing the result of encoding and retrieving the binary XML for decoding. Communication with the database can be achieved with SQL*Net and JDBC. Fetch the XMLType
object from the output result set of the JDBC query. The BinXMLStream
for reading the binary data or for writing out binary data can be created from the XMLType
object. The XMLType
class must be extended to support reading and writing of binary XML data.
A local vocabulary manager and cache stores metadata information in the memory for the life of the BinXMLProcessor
. Plug in your own back-end storage for metadata by implementing the BinXMLMetadataProvider
interface and plugging it into the BinXMLProcessor
. Currently only one metadata provider for each processor is supported.
You must code a FileBinXMLMetadataProvider
that implements the BinXMLMetadataProvider
interface. The encoder and decoder uses these APIs to access metadata from the persisted back-end storage. Set up the configuration information for the persistent storage: for example, root directory in the case of a file system in FileBinXMLMetadataProvider
class. Instantiate FileBinXMLMetadataProvider
and plug it into the BinXMLProcessor
.