This page last changed on Oct 14, 2009 by michael.
MultiPart
Apache Wink provides a MultiPart data model and providers for producing and consuming multipart messages (multipart/* ). All of the model classes are located under the org.apache.wink.common.model.multipart package distributed with the wink-common jar.
The data model can be used with the wink-server module or with the wink-client module.
|
Supported |
Media Types |
Data Model |
Provider registration |
Read |
Yes |
multipart/* |
org.apache.wink
.common.model
.multipart.InMultiPart
org.apache.wink
.common.model
.multipart
.BufferedInMultiPart |
Not required. Registered by default |
Write |
Yes |
multipart/* |
org.apache.wink
.common.model
.multipart.OutMultiPart
org.apache.wink
.common.model
.multipart
.BufferedOutMultiPart |
Not required. Registered by default |
Serialization and De-serialization
The serialization and de-serialization of a multipart message is performed by the multipart providers. The serialization and de-serialization of the parts that make up the multipart message is performed as if each part is a separate message and in accordance with the JAX-RS specification. This means that every part is serialized and de-serialized using the appropriate provider that matches the binding class and content media type of that specific part.
Main Classes
The multipart data model is comprised of the following main classes:
- InMultiPart - is used for de-serialization of an incoming multipart message.
- InPart - represents a single part contained in an incoming multipart message.
- OutMultiPart - is used for serialization of an outgoing multipart message.
- OutPart - represents a single part contained in an outgoing multipart message.
Streaming Multipart
The base multipart classes are designed to handle multipart messages without buffering the data in order to avoid possible memory issues. This means that the data is accessible only once by the use of an iterator.
Buffering Multipart
The BufferedInMultiPart and BufferedOutMultiPart classes are used to handle multipart messages where the complete message is buffered in the memory, allowing random and multiple access of the data. These classes are suitable for situations where the multipart message is small.
Examples
The following examples illustrate the usage of the multipart data model.
Multipart Consumption
The following example illustrates the usage of a streaming multipart message.
@Path("files")
@POST
@Produces( MediaType.TEXT_PLAIN)
@Consumes( MediaTypeUtils.MULTIPART_FORM_DATA)
public String uploadFiles(InMultiPart inMP) throws IOException {
while (inMP.hasNext()) {
InPart part = inMP.next();
MultivaluedMap<String, String> heades = part.getHeaders();
String CDHeader = heades.getFirst("Content-Disposition");
InputStream is = part.getBody(InputStream.class, null);
}
}
* Detailed example of the MultiPart implementation can be seen at the MultiPart example.
Buffered Multipart Consumption
The following example illustrates the usage of a buffering multipart message.
@Path("users")
@POST
@Consumes( {"multipart/mixed"})
public BufferedOutMultiPart addUsers(BufferedInMultiPart inMP) throws IOException {
List<InPart> parts = inMP.getParts();
for (InPart p : parts) {
User u = p.getBody(User.class, null);
}
}
* Detailed example of the MultiPart implementation can be seen at the MultiPart example.
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