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/*

This is not an official specification document, and usage is restricted.

NOTICE


(c) 2005-2007 Sun Microsystems, Inc. All Rights Reserved.

Neither this file nor any files generated from it describe a complete specification, and they may only be used as described below. For example, no permission is given for you to incorporate this file, in whole or in part, in an implementation of a Java specification.

Sun Microsystems Inc. owns the copyright in this file and it is provided to you for informative, as opposed to normative, use. The file and any files generated from it may be used to generate other informative documentation, such as a unified set of documents of API signatures for a platform that includes technologies expressed as Java APIs. The file may also be used to produce "compilation stubs," which allow applications to be compiled and validated for such platforms.

Any work generated from this file, such as unified javadocs or compiled stub files, must be accompanied by this notice in its entirety.

This work corresponds to the API signatures of JSR 219: Foundation Profile 1.1. In the event of a discrepency between this work and the JSR 219 specification, which is available at http://www.jcp.org/en/jsr/detail?id=219, the latter takes precedence. */ package javax.microedition.io; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.lang.String; import javax.microedition.io.ContentConnection; /** * This interface defines the necessary methods and constants * for an HTTP connection. *

* HTTP is a request-response protocol in which the parameters of * request must be set before the request is sent. * The connection exists in one of three states: *

    *
  • Setup, in which the request parameters can be set *
  • Connected, in which request parameters have been sent and the * response is expected *
  • Closed, the final state, in which the HTTP connection as been * terminated *
* The following methods may be invoked only in the Setup state: *
    *
  • setRequestMethod *
  • setRequestProperty *
* * The transition from Setup to Connected is caused by any method that * requires data to be sent to or received from the server.

* * The following methods cause the transition to the Connected state when * the connection is in Setup state. *

    *
  • openInputStream *
  • openDataInputStream *
  • getLength *
  • getType *
  • getEncoding *
  • getHeaderField *
  • getResponseCode *
  • getResponseMessage *
  • getHeaderFieldInt *
  • getHeaderFieldDate *
  • getExpiration *
  • getDate *
  • getLastModified *
  • getHeaderField *
  • getHeaderFieldKey *
*

* The following methods may be invoked while the connection is in Setup or * Connected state. *

    *
  • close *
  • getRequestMethod *
  • getRequestProperty *
  • getURL *
  • getProtocol *
  • getHost *
  • getFile *
  • getRef *
  • getPort *
  • getQuery *
* *

* After an output stream has been opened by the * openOutputStream or openDataOutputStream * methods, attempts to change the request parameters via * setRequestMethod or the setRequestProperty * are ignored. Once the request parameters have been sent, * these methods will throw an IOException. * * When an output stream is closed via the * OutputStream.close or DataOutputStream.close * methods, the connection enters the Connected state. * When the output stream is flushed via the * OutputStream.flush or DataOutputStream.flush * methods, the request parameters MUST be sent along with any data * written to the stream. *

* * The transition to Closed state from any other state is caused by the * close method and the closing all of the streams that were * opened from the connection. *

* Example using StreamConnection *

* Simple read of a URL using StreamConnection. * No HTTP specific behavior is needed or used. * (Note: this example ignores all HTTP response * headers and the HTTP response code. Since a proxy or server * may have sent an error response page, an application * can not distinquish which data is retreived in * the InputStream.) * *

* Connector.open is used to open URL and a * StreamConnection is returned. * From the StreamConnection the * InputStream is opened. * It is used to read every character until end of file (-1). * If an exception is thrown the connection and stream are closed. *

*

 *     void getViaStreamConnection(String url) throws IOException {
 *         StreamConnection c = null;
 *         InputStream s = null;
 *         try {
 *             c = (StreamConnection)Connector.open(url);
 *             s = c.openInputStream();
 *             int ch;
 *             while ((ch = s.read()) != -1) {
 *                 ...
 *             }
 *         } finally {
 *             if (s != null)
 *                 s.close();
 *             if (c != null)
 *                 c.close();
 *         }
 *     }
 * 
*

* Example using ContentConnection *

* Simple read of a URL using ContentConnection. * No HTTP specific behavior is needed or used. *

* Connector.open is used to open url and * a ContentConnection is returned. * The ContentConnection may be able to provide the length. * If the length is available, it is used to read the data in bulk. * From the ContentConnection the * InputStream is opened. * It is used to read every character until end of file (-1). * If an exception is thrown the connection and stream are closed. *

*

 *     void getViaContentConnection(String url) throws IOException {
 *         ContentConnection c = null;
 *         DataInputStream is = null;
 *         try {
 *             c = (ContentConnection)Connector.open(url);
 *             int len = (int)c.getLength();
 *             dis = c.openDataInputStream();
 *             if (len > 0) {
 *                 byte[] data = new byte[len];
 *                 dis.readFully(data);
 *             } else {
 *                 int ch;
 *                 while ((ch = dis.read()) != -1) {
 *                     ...
 *                 }
 *             }
 *         } finally {
 *             if (dis != null)
 *                 dis.close();
 *             if (c != null)
 *                 c.close();
 *         }
 *     }
 * 
*

* Example using HttpConnection *

* Read the HTTP headers and the data using HttpConnection. *

* Connector.open is used to open url and a * HttpConnection is returned. * The HTTP headers are read and processed. * If the length is available, it is used to read the data in bulk. * From the HttpConnection the * InputStream is opened. * It is used to read every character until end of file (-1). * If an exception is thrown the connection and stream are closed. *

*

 *     void getViaHttpConnection(String url) throws IOException {
 *         HttpConnection c = null;
 *         InputStream is = null;
 *         int rc;
 *
 *         try {
 *             c = (HttpConnection)Connector.open(url);
 *
 *             // Getting the response code will open the connection,
 *             // send the request, and read the HTTP response headers.
 *             // The headers are stored until requested.
 *             rc = c.getResponseCode();
 *             if (rc != HttpConnection.HTTP_OK) {
 *                 throw new IOException("HTTP response code: " + rc);
 *             }
 *
 *             is = c.openInputStream();
 *
 *             // Get the ContentType
 *             String type = c.getType();
 *
 *             // Get the length and process the data
 *             int len = (int)c.getLength();
 *             if (len > 0) {
 *                 int actual = 0;
 *                 int bytesread = 0 ;
 *                 byte[] data = new byte[len];
 *                 while ((bytesread != len) && (actual != -1)) {
 *                    actual = is.read(data, bytesread, len - bytesread);
 *                    bytesread += actual;
 *                 }
 *             } else {
 *                 int ch;
 *                 while ((ch = is.read()) != -1) {
 *                     ...
 *                 }
 *             }
 *         } catch (ClassCastException e) {
 *             throw new IllegalArgumentException("Not an HTTP URL");
 *         } finally {
 *             if (is != null)
 *                 is.close();
 *             if (c != null)
 *                 c.close();
 *         }
 *     }
 * 
*

* Example using POST with HttpConnection *

* * Post a request with some headers and content to the server and * process the headers and content. *

* Connector.open is used to open url and a * HttpConnection is returned. * The request method is set to POST and request headers set. * A simple command is written and flushed. * The HTTP headers are read and processed. * If the length is available, it is used to read the data in bulk. * From the HttpConnection the * InputStream is opened. * It is used to read every character until end of file (-1). * If an exception is thrown the connection and stream is closed. *

*

 *    void postViaHttpConnection(String url) throws IOException {
 *        HttpConnection c = null;
 *        InputStream is = null;
 *        OutputStream os = null;
 *        int rc;
 *
 *        try {
 *            c = (HttpConnection)Connector.open(url);
 *
 *            // Set the request method and headers
 *            c.setRequestMethod(HttpConnection.POST);
 *            c.setRequestProperty("If-Modified-Since",
 *                "29 Oct 1999 19:43:31 GMT");
 *            c.setRequestProperty("User-Agent",
 *                "Profile/MIDP-2.0 Configuration/CLDC-1.0");
 *            c.setRequestProperty("Content-Language", "en-US");
 *
 *            // Getting the output stream may flush the headers
 *            os = c.openOutputStream();
 *            os.write("LIST games\n".getBytes());
 *            os.flush();           // Optional, getResponseCode will flush
 *
 *            // Getting the response code will open the connection,
 *            // send the request, and read the HTTP response headers.
 *            // The headers are stored until requested.
 *            rc = c.getResponseCode();
 *            if (rc != HttpConnection.HTTP_OK) {
 *                throw new IOException("HTTP response code: " + rc);
 *            }
 *
 *            is = c.openInputStream();
 *
 *            // Get the ContentType
 *            String type = c.getType();
 *            processType(type);
 *
 *            // Get the length and process the data
 *            int len = (int)c.getLength();
 *            if (len > 0) {
 *                 int actual = 0;
 *                 int bytesread = 0 ;
 *                 byte[] data = new byte[len];
 *                 while ((bytesread != len) && (actual != -1)) {
 *                    actual = is.read(data, bytesread, len - bytesread);
 *                    bytesread += actual;
 *                 }
 *                process(data);
 *            } else {
 *                int ch;
 *                while ((ch = is.read()) != -1) {
 *                    process((byte)ch);
 *                }
 *            }
 *        } catch (ClassCastException e) {
 *            throw new IllegalArgumentException("Not an HTTP URL");
 *        } finally {
 *            if (is != null)
 *                is.close();
 *            if (os != null)
 *                os.close();
 *            if (c != null)
 *                c.close();
 *        }
 *    }
 * 
*
*

* Simplified Stream Methods on Connector *

* Please note the following: The * Connector class defines the following * convenience methods for retrieving an input or output stream directly * for a specified URL: * *

    *
  • InputStream openInputStream(String url) *
  • DataInputStream openDataInputStream(String url) *
  • OutputStream openOutputStream(String url) *
  • DataOutputStream openDataOutputStream(String url) *
* * Please be aware that using these methods implies certain restrictions. * You will not get a reference to the actual connection, but rather just * references to the input or output stream of the connection. Not having * a reference to the connection means that you will not be able to manipulate * or query the connection directly. This in turn means that you will not * be able to call any of the following methods: * *
    *
  • getRequestMethod() *
  • setRequestMethod() *
  • getRequestProperty() *
  • setRequestProperty() *
  • getLength() *
  • getType() *
  • getEncoding() *
  • getHeaderField() *
  • getResponseCode() *
  • getResponseMessage() *
  • getHeaderFieldInt *
  • getHeaderFieldDate *
  • getExpiration *
  • getDate *
  • getLastModified *
  • getHeaderField *
  • getHeaderFieldKey *
* @since MIDP 1.0 */ public interface HttpConnection extends ContentConnection { /** HTTP Head method. */ public static final java.lang.String HEAD = "HEAD"; /** HTTP Get method. */ public static final java.lang.String GET = "GET"; /** HTTP Post method. */ public static final java.lang.String POST = "POST"; /** 200: The request has succeeded. */ public static final int HTTP_OK = 200; /** * 201: The request has been fulfilled and resulted in a new * resource being created. */ public static final int HTTP_CREATED = 201; /** * 202: The request has been accepted for processing, but the processing * has not been completed. */ public static final int HTTP_ACCEPTED = 202; /** * 203: The returned meta-information in the entity-header is not the * definitive set as available from the origin server. */ public static final int HTTP_NOT_AUTHORITATIVE = 203; /** * 204: The server has fulfilled the request but does not need to * return an entity-body, and might want to return updated * meta-information. */ public static final int HTTP_NO_CONTENT = 204; /** * 205: The server has fulfilled the request and the user agent SHOULD reset * the document view which caused the request to be sent. */ public static final int HTTP_RESET = 205; /** * 206: The server has fulfilled the partial GET request for the resource. */ public static final int HTTP_PARTIAL = 206; /** * 300: The requested resource corresponds to any one of a set of * representations, each with its own specific location, and agent- * driven negotiation information is being provided so that * the user (or user agent) can select a preferred representation and * redirect its request to that location. */ public static final int HTTP_MULT_CHOICE = 300; /** * 301: The requested resource has been assigned a new permanent URI and * any future references to this resource SHOULD use one of the returned * URIs. */ public static final int HTTP_MOVED_PERM = 301; /** * 302: The requested resource resides temporarily under a * different URI. (Note: the name of this * status code * reflects the earlier publication of RFC2068, which * was changed in RFC2616 from "moved temporalily" to * "found". The semantics were not changed. The Location * header indicates where the application should resend * the request.) */ public static final int HTTP_MOVED_TEMP = 302; /** * 303: The response to the request can be found under a different URI and * SHOULD be retrieved using a GET method on that resource. */ public static final int HTTP_SEE_OTHER = 303; /** * 304: If the client has performed a conditional GET request and access is * allowed, but the document has not been modified, the server SHOULD * respond with this status code. */ public static final int HTTP_NOT_MODIFIED = 304; /** * 305: The requested resource MUST be accessed through the proxy given by * the Location field. */ public static final int HTTP_USE_PROXY = 305; /** * 307: The requested resource resides temporarily under a different * URI. */ public static final int HTTP_TEMP_REDIRECT = 307; /** * 400: The request could not be understood by the server due to malformed * syntax. */ public static final int HTTP_BAD_REQUEST = 400; /** * 401: The request requires user authentication. The response MUST * include a WWW-Authenticate header field containing a challenge * applicable to the requested resource. */ public static final int HTTP_UNAUTHORIZED = 401; /** 402: This code is reserved for future use. */ public static final int HTTP_PAYMENT_REQUIRED = 402; /** * 403: The server understood the request, but is refusing to fulfill it. * Authorization will not help and the request SHOULD NOT be repeated. */ public static final int HTTP_FORBIDDEN = 403; /** * 404: The server has not found anything matching the Request-URI. No * indication is given of whether the condition is temporary or * permanent. */ public static final int HTTP_NOT_FOUND = 404; /** * 405: The method specified in the Request-Line is not allowed for the * resource identified by the Request-URI. */ public static final int HTTP_BAD_METHOD = 405; /** * 406: The resource identified by the request is only capable of generating * response entities which have content characteristics not acceptable * according to the accept headers sent in the request. */ public static final int HTTP_NOT_ACCEPTABLE = 406; /** * 407: This code is similar to 401 (Unauthorized), but indicates that the * client must first authenticate itself with the proxy. */ public static final int HTTP_PROXY_AUTH = 407; /** * 408: The client did not produce a request within the time that the server * was prepared to wait. The client MAY repeat the request without * modifications at any later time. */ public static final int HTTP_CLIENT_TIMEOUT = 408; /** * 409: The request could not be completed due to a conflict with * the current state of the resource. */ public static final int HTTP_CONFLICT = 409; /** * 410: The requested resource is no longer available at the server and no * forwarding address is known. */ public static final int HTTP_GONE = 410; /** * 411: The server refuses to accept the request without a defined Content- * Length. */ public static final int HTTP_LENGTH_REQUIRED = 411; /** * 412: The precondition given in one or more of the request-header fields * evaluated to false when it was tested on the server. */ public static final int HTTP_PRECON_FAILED = 412; /** * 413: The server is refusing to process a request because the request * entity is larger than the server is willing or able to process. */ public static final int HTTP_ENTITY_TOO_LARGE = 413; /** * 414: The server is refusing to service the request because the * Request-URI is longer than the server is willing to interpret. */ public static final int HTTP_REQ_TOO_LONG = 414; /** * 415: The server is refusing to service the request because the entity of * the request is in a format not supported by the requested resource * for the requested method. */ public static final int HTTP_UNSUPPORTED_TYPE = 415; /** * 416: A server SHOULD return a response with this status code if a request * included a Range request-header field , and none of * the range-specifier values in this field overlap the current extent * of the selected resource, and the request did not include an If-Range * request-header field. */ public static final int HTTP_UNSUPPORTED_RANGE = 416; /** * 417: The expectation given in an Expect request-header field * could not be met by this server, or, if the server is a proxy, * the server has unambiguous evidence that the request could not be met * by the next-hop server. */ public static final int HTTP_EXPECT_FAILED = 417; /** * 500: The server encountered an unexpected condition which prevented it * from fulfilling the request. */ public static final int HTTP_INTERNAL_ERROR = 500; /** * 501: The server does not support the functionality required to * fulfill the request. */ public static final int HTTP_NOT_IMPLEMENTED = 501; /** * 502: The server, while acting as a gateway or proxy, received an invalid * response from the upstream server it accessed in attempting to * fulfill the request. */ public static final int HTTP_BAD_GATEWAY = 502; /** * 503: The server is currently unable to handle the request due to a * temporary overloading or maintenance of the server. */ public static final int HTTP_UNAVAILABLE = 503; /** * 504: The server, while acting as a gateway or proxy, did not receive a * timely response from the upstream server specified by the URI * or some other auxiliary server it needed * to access in attempting to complete the request. */ public static final int HTTP_GATEWAY_TIMEOUT = 504; /** * 505: The server does not support, or refuses to support, the HTTP * protocol version that was used in the request message. */ public static final int HTTP_VERSION = 505; /** * Return a string representation of the URL for this connection. * * @return the string representation of the URL for this connection. */ public java.lang.String getURL(); /** * Returns the protocol name of the URL of this * HttpConnection. e.g., http or https * * @return the protocol of the URL of this HttpConnection. */ public java.lang.String getProtocol(); /** * Returns the host information of the URL of * this HttpConnection. e.g. host name or IPv4 address * * @return the host information of the URL of * this HttpConnection. */ public java.lang.String getHost(); /** * Returns the file portion of the URL of this HttpConnection. * * @return the file portion of the URL of this HttpConnection. * null is returned if there is no file. */ public java.lang.String getFile(); /** * Returns the ref portion of the URL of this HttpConnection. * RFC2396 specifies the optional fragment identifier as the * the text after the crosshatch (#) character in the URL. * This information may be used by the user agent as additional * reference information after the resource is successfully retrieved. * The format and interpretation of the fragment identifier is dependent * on the media type[RFC2046] of the retrieved information. * * @return the ref portion of the URL of this HttpConnection. * null is returned if there is no value. */ public java.lang.String getRef(); /** * Returns the query portion of the URL of this * HttpConnection. * * RFC2396 defines the query component as the text after the first * question-mark (?) character in the URL. * * @return the query portion of the URL of this * HttpConnection. * null is returned if there is no value. */ public java.lang.String getQuery(); /** * Returns the network port number of the URL for this * HttpConnection. * * @return the network port number of the URL for this * HttpConnection. * The default HTTP port number (80) is returned if there was * no port number in the string passed to Connector.open. */ public int getPort(); /** * Get the current request method. e.g. HEAD, GET, POST * The default value is GET. * @return the HTTP request method * @see #setRequestMethod */ public java.lang.String getRequestMethod(); /** * Set the method for the URL request, one of: *
    *
  • GET *
  • POST *
  • HEAD *
are legal, subject to protocol restrictions. The default * method is GET. * * @param method the HTTP method * @exception IOException if the method cannot be reset or if * the requested method isn't valid for HTTP. * @see #getRequestMethod */ public void setRequestMethod(java.lang.String method) throws IOException; /** * Returns the value of the named general request property for this * connection. * * @param key the keyword by which the request property is * known (e.g., "accept"). * @return the value of the named general request property for this * connection. If there is no key with the specified name then * null is returned. * @see #setRequestProperty */ public java.lang.String getRequestProperty(java.lang.String key); /** * Sets the general request property. If a property with the key already * exists, overwrite its value with the new value. * *

Note: HTTP requires all request properties * which can legally have multiple instances with the same key * to use a comma-separated list syntax which enables multiple * properties to be appended into a single property. * * @param key the keyword by which the request is known * (e.g., "accept"). * @param value the value associated with it. * @exception IOException is thrown if the connection is in the * connected state. * @see #getRequestProperty */ public void setRequestProperty(java.lang.String key, java.lang.String value) throws IOException; /** * Returns the HTTP response status code. * It parses responses like: *

     * HTTP/1.0 200 OK
     * HTTP/1.0 401 Unauthorized
     * 
* and extracts the ints 200 and 401 respectively. * from the response (i.e., the response is not valid HTTP). * @exception IOException if an error occurred connecting to the server. * @return the HTTP Status-Code or -1 if no status code can be discerned. */ public int getResponseCode() throws IOException; /** * Gets the HTTP response message, if any, returned along with the * response code from a server. From responses like: *
     * HTTP/1.0 200 OK
     * HTTP/1.0 404 Not Found
     * 
* Extracts the Strings "OK" and "Not Found" respectively. * Returns null if none could be discerned from the responses * (the result was not valid HTTP). * @exception IOException if an error occurred connecting to the server. * @return the HTTP response message, or null */ public java.lang.String getResponseMessage() throws IOException; /** * Returns the value of the expires header field. * * @return the expiration date of the resource that this URL references, * or 0 if not known. The value is the number of milliseconds * since January 1, 1970 GMT. * @exception IOException if an error occurred connecting to the server. */ public long getExpiration() throws IOException; /** * Returns the value of the date header field. * * @return the sending date of the resource that the URL references, * or 0 if not known. The value returned is the * number of milliseconds since January 1, 1970 GMT. * @exception IOException if an error occurred connecting to the server. */ public long getDate() throws IOException; /** * Returns the value of the last-modified header field. * The result is the number of milliseconds since January 1, 1970 GMT. * * @return the date the resource referenced by this * HttpConnection was last modified, or * 0 if not known. * @exception IOException if an error occurred connecting to the server. */ public long getLastModified() throws IOException; /** * Returns the value of the named header field. * * @param name of a header field. * @return the value of the named header field, or null * if there is no such field in the header. * @exception IOException if an error occurred connecting to the server. */ public java.lang.String getHeaderField(java.lang.String name) throws IOException; /** * Returns the value of the named field parsed as a number. *

* This form of getHeaderField exists because some * connection types (e.g., http-ng) have pre-parsed * headers. Classes for that connection type can override this method * and short-circuit the parsing. * * @param name the name of the header field. * @param def the default value. * @return the value of the named field, parsed as an integer. The * def value is returned if the field is * missing or malformed. * @exception IOException if an error occurred connecting to the server. */ public int getHeaderFieldInt(java.lang.String name, int def) throws IOException; /** * Returns the value of the named field parsed as date. * The result is the number of milliseconds since January 1, 1970 GMT * represented by the named field. *

* This form of getHeaderField exists because some * connection types (e.g., http-ng) have pre-parsed * headers. Classes for that connection type can override this method * and short-circuit the parsing. * * @param name the name of the header field. * @param def a default value. * @return the value of the field, parsed as a date. The value of the * def argument is returned if the field is * missing or malformed. * @exception IOException if an error occurred connecting to the server. */ public long getHeaderFieldDate(java.lang.String name, long def) throws IOException; /** * Gets a header field value by index. * * @return the value of the nth header field or * null if the array index is out of range. * An empty String is returned if the field does not have a value. * @param n the index of the header field * @exception IOException if an error occurred connecting to the server. */ public java.lang.String getHeaderField(int n) throws IOException; /** * Gets a header field key by index. * * @return the key of the nth header field or * null if the array index is out of range. * @param n the index of the header field * @exception IOException if an error occurred connecting to the server. */ public java.lang.String getHeaderFieldKey(int n) throws IOException; }





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