include/hw/stream.h - third_party/qemu - Git at Google

 #ifndef STREAM_H
 #define STREAM_H

 #include "qom/object.h"

 #define TYPE_STREAM_SINK "stream-sink"

 typedef struct StreamSinkClass StreamSinkClass;
 DECLARE_CLASS_CHECKERS(StreamSinkClass, STREAM_SINK,
                        TYPE_STREAM_SINK)
 #define STREAM_SINK(obj) \
      INTERFACE_CHECK(StreamSink, (obj), TYPE_STREAM_SINK)

 typedef struct StreamSink StreamSink;

 typedef void (*StreamCanPushNotifyFn)(void *opaque);

 struct StreamSinkClass {
     InterfaceClass parent;
     /**
      * can push - determine if a stream sink is capable of accepting at least
      * one byte of data. Returns false if cannot accept. If not implemented, the
      * sink is assumed to always be capable of receiving.
      * @notify: Optional callback that the sink will call when the sink is
      * capable of receiving again. Only called if false is returned.
      * @notify_opaque: opaque data to pass to notify call.
      */
     bool (*can_push)(StreamSink *obj, StreamCanPushNotifyFn notify,
                      void *notify_opaque);
     /**
      * push - push data to a Stream sink. The number of bytes pushed is
      * returned. If the sink short returns, the master must wait before trying
      * again, the sink may continue to just return 0 waiting for the vm time to
      * advance. The can_push() function can be used to trap the point in time
      * where the sink is ready to receive again, otherwise polling on a QEMU
      * timer will work.
      * @obj: Stream sink to push to
      * @buf: Data to write
      * @len: Maximum number of bytes to write
      * @eop: End of packet flag
      */
     size_t (*push)(StreamSink *obj, unsigned char *buf, size_t len, bool eop);
 };

 size_t
 stream_push(StreamSink *sink, uint8_t *buf, size_t len, bool eop);

 bool
 stream_can_push(StreamSink *sink, StreamCanPushNotifyFn notify,
                 void *notify_opaque);


 #endif /* STREAM_H */
	#ifndef STREAM_H
	#define STREAM_H

	#include "qom/object.h"

	#define TYPE_STREAM_SINK "stream-sink"

	typedef struct StreamSinkClass StreamSinkClass;
	DECLARE_CLASS_CHECKERS(StreamSinkClass, STREAM_SINK,
	TYPE_STREAM_SINK)
	#define STREAM_SINK(obj) \
	INTERFACE_CHECK(StreamSink, (obj), TYPE_STREAM_SINK)

	typedef struct StreamSink StreamSink;

	typedef void (StreamCanPushNotifyFn)(void opaque);

	struct StreamSinkClass {
	InterfaceClass parent;
	/**
	* can push - determine if a stream sink is capable of accepting at least
	* one byte of data. Returns false if cannot accept. If not implemented, the
	* sink is assumed to always be capable of receiving.
	* @notify: Optional callback that the sink will call when the sink is
	* capable of receiving again. Only called if false is returned.
	* @notify_opaque: opaque data to pass to notify call.
	*/
	bool (can_push)(StreamSink obj, StreamCanPushNotifyFn notify,
	void *notify_opaque);
	/**
	* push - push data to a Stream sink. The number of bytes pushed is
	* returned. If the sink short returns, the master must wait before trying
	* again, the sink may continue to just return 0 waiting for the vm time to
	* advance. The can_push() function can be used to trap the point in time
	* where the sink is ready to receive again, otherwise polling on a QEMU
	* timer will work.
	* @obj: Stream sink to push to
	* @buf: Data to write
	* @len: Maximum number of bytes to write
	* @eop: End of packet flag
	*/
	size_t (push)(StreamSink obj, unsigned char *buf, size_t len, bool eop);
	};

	size_t
	stream_push(StreamSink sink, uint8_t buf, size_t len, bool eop);

	bool
	stream_can_push(StreamSink *sink, StreamCanPushNotifyFn notify,
	void *notify_opaque);


	#endif /* STREAM_H */