/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsISupports.idl" interface nsIInputStream; interface nsIOutputStream; interface nsITransportEventSink; interface nsIEventTarget; /** * nsITransport * * This interface provides a common way of accessing i/o streams connected * to some resource. This interface does not in any way specify the resource. * It provides methods to open blocking or non-blocking, buffered or unbuffered * streams to the resource. The name "transport" is meant to connote the * inherent data transfer implied by this interface (i.e., data is being * transfered in some fashion via the streams exposed by this interface). * * A transport can have an event sink associated with it. The event sink * receives transport-specific events as the transfer is occuring. For a * socket transport, these events can include status about the connection. * See nsISocketTransport for more info about socket transport specifics. */ [scriptable, uuid(2a8c6334-a5e6-4ec3-9865-1256541446fb)] interface nsITransport : nsISupports { /** * Open flags. */ const unsigned long OPEN_BLOCKING = 1<<0; const unsigned long OPEN_UNBUFFERED = 1<<1; /** * Open an input stream on this transport. * * Flags have the following meaning: * * OPEN_BLOCKING * If specified, then the resulting stream will have blocking stream * semantics. This means that if the stream has no data and is not * closed, then reading from it will block the calling thread until * at least one byte is available or until the stream is closed. * If this flag is NOT specified, then the stream has non-blocking * stream semantics. This means that if the stream has no data and is * not closed, then reading from it returns NS_BASE_STREAM_WOULD_BLOCK. * In addition, in non-blocking mode, the stream is guaranteed to * support nsIAsyncInputStream. This interface allows the consumer of * the stream to be notified when the stream can again be read. * * OPEN_UNBUFFERED * If specified, the resulting stream may not support ReadSegments. * ReadSegments is only gauranteed to be implemented when this flag is * NOT specified. * * @param aFlags * optional transport specific flags. * @param aSegmentSize * if OPEN_UNBUFFERED is not set, then this parameter specifies the * size of each buffer segment (pass 0 to use default value). * @param aSegmentCount * if OPEN_UNBUFFERED is not set, then this parameter specifies the * maximum number of buffer segments (pass 0 to use default value). */ nsIInputStream openInputStream(in unsigned long aFlags, in unsigned long aSegmentSize, in unsigned long aSegmentCount); /** * Open an output stream on this transport. * * Flags have the following meaning: * * OPEN_BLOCKING * If specified, then the resulting stream will have blocking stream * semantics. This means that if the stream is full and is not closed, * then writing to it will block the calling thread until ALL of the * data can be written or until the stream is closed. If this flag is * NOT specified, then the stream has non-blocking stream semantics. * This means that if the stream is full and is not closed, then writing * to it returns NS_BASE_STREAM_WOULD_BLOCK. In addition, in non- * blocking mode, the stream is guaranteed to support * nsIAsyncOutputStream. This interface allows the consumer of the * stream to be notified when the stream can again accept more data. * * OPEN_UNBUFFERED * If specified, the resulting stream may not support WriteSegments and * WriteFrom. WriteSegments and WriteFrom are only guaranteed to be * implemented when this flag is NOT specified. * * @param aFlags * optional transport specific flags. * @param aSegmentSize * if OPEN_UNBUFFERED is not set, then this parameter specifies the * size of each buffer segment (pass 0 to use default value). * @param aSegmentCount * if OPEN_UNBUFFERED is not set, then this parameter specifies the * maximum number of buffer segments (pass 0 to use default value). */ nsIOutputStream openOutputStream(in unsigned long aFlags, in unsigned long aSegmentSize, in unsigned long aSegmentCount); /** * Close the transport and any open streams. * * @param aReason * the reason for closing the stream. */ void close(in nsresult aReason); /** * Set the transport event sink. * * @param aSink * receives transport layer notifications * @param aEventTarget * indicates the event target to which the notifications should * be delivered. if NULL, then the notifications may occur on * any thread. */ void setEventSink(in nsITransportEventSink aSink, in nsIEventTarget aEventTarget); /** * Generic nsITransportEventSink status codes. nsITransport * implementations may override these status codes with their own more * specific status codes (e.g., see nsISocketTransport). * * In C++, these constants have a type of uint32_t, so C++ callers must use * the NS_NET_STATUS_* constants defined below, which have a type of * nsresult. */ const unsigned long STATUS_READING = 0x804b0008; const unsigned long STATUS_WRITING = 0x804b0009; }; [scriptable, uuid(EDA4F520-67F7-484b-A691-8C3226A5B0A6)] interface nsITransportEventSink : nsISupports { /** * Transport status notification. * * @param aTransport * the transport sending this status notification. * @param aStatus * the transport status. See nsISocketTransport for socket specific * status codes and more comments. * @param aProgress * the amount of data either read or written depending on the value * of the status code. this value is relative to aProgressMax. * @param aProgressMax * the maximum amount of data that will be read or written. if * unknown, -1 will be passed. */ void onTransportStatus(in nsITransport aTransport, in nsresult aStatus, in long long aProgress, in long long aProgressMax); };