hw/misc/android_pipe_test.c - qemu-android - Git at Google

 /* Copyright (C) 2011 The Android Open Source Project
 ** Copyright (C) 2014 Linaro Limited
 **
 ** This software is licensed under the terms of the GNU General Public
 ** License version 2, as published by the Free Software Foundation, and
 ** may be copied, distributed, and modified under those terms.
 **
 ** This program is distributed in the hope that it will be useful,
 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 ** GNU General Public License for more details.
 **
 ** Description
 **
 ** Example uses of Android Pipes.
 */
 #include "hw/misc/android_pipe.h"

 #define  DEBUG 0

 /* Set to 1 to debug i/o register reads/writes */
 #define DEBUG_REGS  0

 #if DEBUG >= 1
 #  define D(...)  fprintf(stderr, __VA_ARGS__), fprintf(stderr, "\n")
 #else
 #  define D(...)  (void)0
 #endif

 #if DEBUG >= 2
 #  define DD(...)  fprintf(stderr, __VA_ARGS__), fprintf(stderr, "\n")
 #else
 #  define DD(...)  (void)0
 #endif

 #if DEBUG_REGS >= 1
 #  define DR(...)   D(__VA_ARGS__)
 #else
 #  define DR(...)   (void)0
 #endif

 #define E(...)  fprintf(stderr, "ERROR:" __VA_ARGS__), fprintf(stderr, "\n")

 /* Set to 1 to enable the 'zero' pipe type, useful for debugging */
 #define DEBUG_ZERO_PIPE  1

 /* Set to 1 to enable the 'pingpong' pipe type, useful for debugging */
 #define DEBUG_PINGPONG_PIPE 1

 /* Set to 1 to enable the 'throttle' pipe type, useful for debugging */
 #define DEBUG_THROTTLE_PIPE 1


 /***********************************************************************
  ***********************************************************************
  *****
  *****    Z E R O   P I P E S
  *****
  *****/

 /* A simple pipe service that mimics /dev/zero, you can write anything to
  * it, and you can always read any number of zeros from it. Useful for debugging
  * the kernel driver.
  */

 typedef struct {
     void* hwpipe;
 } ZeroPipe;

 static void*
 zeroPipe_init( void* hwpipe, void* svcOpaque, const char* args )
 {
     ZeroPipe*  zpipe;

     D("%s: hwpipe=%p", __FUNCTION__, hwpipe);
     zpipe = g_malloc0(sizeof(ZeroPipe));
     zpipe->hwpipe = hwpipe;
     return zpipe;
 }

 static void
 zeroPipe_close( void* opaque )
 {
     ZeroPipe*  zpipe = opaque;

     D("%s: hwpipe=%p", __FUNCTION__, zpipe->hwpipe);
     g_free(zpipe);
 }

 static int
 zeroPipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
 {
     int  ret = 0;
     while (numBuffers > 0) {
         ret += buffers[0].size;
         buffers++;
         numBuffers--;
     }
     return ret;
 }

 static int
 zeroPipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
 {
     int  ret = 0;
     while (numBuffers > 0) {
         ret += buffers[0].size;
         memset(buffers[0].data, 0, buffers[0].size);
         buffers++;
         numBuffers--;
     }
     return ret;
 }

 static unsigned
 zeroPipe_poll( void* opaque )
 {
     return PIPE_POLL_IN | PIPE_POLL_OUT;
 }

 static void
 zeroPipe_wakeOn( void* opaque, int flags )
 {
     /* nothing to do here */
 }

 static const AndroidPipeFuncs  zeroPipe_funcs = {
     zeroPipe_init,
     zeroPipe_close,
     zeroPipe_sendBuffers,
     zeroPipe_recvBuffers,
     zeroPipe_poll,
     zeroPipe_wakeOn,
 };

 #if DEBUG_ZERO_PIPE
 void android_zero_pipe_init(void)
 {
     android_pipe_add_type("zero", NULL, &zeroPipe_funcs);
 }
 #else
 void android_zero_pipe_init(void) { }
 #endif /* DEBUG_ZERO */

 /***********************************************************************
  ***********************************************************************
  *****
  *****    P I N G   P O N G   P I P E S
  *****
  *****/

 /* Similar debug service that sends back anything it receives */
 /* All data is kept in a circular dynamic buffer */

 /* Initial buffer size */
 #define PINGPONG_SIZE  1024

 typedef struct {
     void*     hwpipe;
     uint8_t*  buffer;
     size_t    size;
     size_t    pos;
     size_t    count;
     unsigned  flags;
 } PingPongPipe;

 static void
 pingPongPipe_init0( PingPongPipe* pipe, void* hwpipe, void* svcOpaque )
 {
     pipe->hwpipe = hwpipe;
     pipe->size = PINGPONG_SIZE;
     pipe->buffer = malloc(pipe->size);
     pipe->pos = 0;
     pipe->count = 0;
 }

 static void*
 pingPongPipe_init( void* hwpipe, void* svcOpaque, const char* args )
 {
     PingPongPipe*  ppipe;

     D("%s: hwpipe=%p", __FUNCTION__, hwpipe);
     ppipe = g_malloc0(sizeof(PingPongPipe));
     pingPongPipe_init0(ppipe, hwpipe, svcOpaque);
     return ppipe;
 }

 static void
 pingPongPipe_close( void* opaque )
 {
     PingPongPipe*  ppipe = opaque;

     D("%s: hwpipe=%p (pos=%zd count=%zd size=%zd)", __FUNCTION__,
       ppipe->hwpipe, ppipe->pos, ppipe->count, ppipe->size);
     free(ppipe->buffer);
     g_free(ppipe);
 }

 static int
 pingPongPipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
 {
     PingPongPipe*  pipe = opaque;
     int  ret = 0;
     int  count;
     const AndroidPipeBuffer* buff = buffers;
     const AndroidPipeBuffer* buffEnd = buff + numBuffers;

     count = 0;
     for ( ; buff < buffEnd; buff++ )
         count += buff->size;

     /* Do we need to grow the pingpong buffer? */
     while (count > pipe->size - pipe->count) {
         size_t    newsize = pipe->size*2;
         uint8_t*  newbuff = realloc(pipe->buffer, newsize);
         int       wpos    = pipe->pos + pipe->count;
         if (newbuff == NULL) {
             break;
         }
         if (wpos > pipe->size) {
             wpos -= pipe->size;
             memcpy(newbuff + pipe->size, newbuff, wpos);
         }
         pipe->buffer = newbuff;
         pipe->size   = newsize;
         D("pingpong buffer is now %zd bytes", newsize);
     }

     for ( buff = buffers; buff < buffEnd; buff++ ) {
         int avail = pipe->size - pipe->count;
         if (avail <= 0) {
             if (ret == 0)
                 ret = PIPE_ERROR_AGAIN;
             break;
         }
         if (avail > buff->size) {
             avail = buff->size;
         }

         int wpos = pipe->pos + pipe->count;
         if (wpos >= pipe->size) {
             wpos -= pipe->size;
         }
         if (wpos + avail <= pipe->size) {
             memcpy(pipe->buffer + wpos, buff->data, avail);
         } else {
             int  avail2 = pipe->size - wpos;
             memcpy(pipe->buffer + wpos, buff->data, avail2);
             memcpy(pipe->buffer, buff->data + avail2, avail - avail2);
         }
         pipe->count += avail;
         ret += avail;
     }

     /* Wake up any waiting readers if we wrote something */
     if (pipe->count > 0 && (pipe->flags & PIPE_WAKE_READ)) {
         android_pipe_wake(pipe->hwpipe, PIPE_WAKE_READ);
     }

     return ret;
 }

 static int
 pingPongPipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
 {
     PingPongPipe*  pipe = opaque;
     int  ret = 0;

     while (numBuffers > 0) {
         int avail = pipe->count;
         if (avail <= 0) {
             if (ret == 0)
                 ret = PIPE_ERROR_AGAIN;
             break;
         }
         if (avail > buffers[0].size) {
             avail = buffers[0].size;
         }

         int rpos = pipe->pos;

         if (rpos + avail <= pipe->size) {
             memcpy(buffers[0].data, pipe->buffer + rpos, avail);
         } else {
             int  avail2 = pipe->size - rpos;
             memcpy(buffers[0].data, pipe->buffer + rpos, avail2);
             memcpy(buffers[0].data + avail2, pipe->buffer, avail - avail2);
         }
         pipe->count -= avail;
         pipe->pos   += avail;
         if (pipe->pos >= pipe->size) {
             pipe->pos -= pipe->size;
         }
         ret += avail;
         numBuffers--;
         buffers++;
     }

     /* Wake up any waiting readers if we wrote something */
     if (pipe->count < PINGPONG_SIZE && (pipe->flags & PIPE_WAKE_WRITE)) {
         android_pipe_wake(pipe->hwpipe, PIPE_WAKE_WRITE);
     }

     return ret;
 }

 static unsigned
 pingPongPipe_poll( void* opaque )
 {
     PingPongPipe*  pipe = opaque;
     unsigned       ret = 0;

     if (pipe->count < pipe->size)
         ret |= PIPE_POLL_OUT;

     if (pipe->count > 0)
         ret |= PIPE_POLL_IN;

     return ret;
 }

 static void
 pingPongPipe_wakeOn( void* opaque, int flags )
 {
     PingPongPipe* pipe = opaque;
     pipe->flags |= (unsigned)flags;
 }

 static const AndroidPipeFuncs  pingPongPipe_funcs = {
     pingPongPipe_init,
     pingPongPipe_close,
     pingPongPipe_sendBuffers,
     pingPongPipe_recvBuffers,
     pingPongPipe_poll,
     pingPongPipe_wakeOn,
 };

 #if DEBUG_PINGPONG_PIPE
 void android_pingpong_init(void)
 {
     android_pipe_add_type("pingpong", NULL, &pingPongPipe_funcs);
 }
 #else
 void android_pingpong_init(void) { }
 #endif /* DEBUG_PINGPONG_PIPE */

 /***********************************************************************
  ***********************************************************************
  *****
  *****    T H R O T T L E   P I P E S
  *****
  *****/

 /* Similar to PingPongPipe, but will throttle the bandwidth to test
  * blocking I/O.
  */

 typedef struct {
     PingPongPipe  pingpong;
     double        sendRate;
     int64_t       sendExpiration;
     double        recvRate;
     int64_t       recvExpiration;
     QEMUTimer*    timer;
 } ThrottlePipe;

 /* forward declaration */
 static void throttlePipe_timerFunc( void* opaque );

 static void*
 throttlePipe_init( void* hwpipe, void* svcOpaque, const char* args )
 {
     ThrottlePipe* pipe;

     pipe = g_malloc0(sizeof(ThrottlePipe));
     pingPongPipe_init0(&pipe->pingpong, hwpipe, svcOpaque);
     pipe->timer = timer_new(QEMU_CLOCK_VIRTUAL, SCALE_NS, throttlePipe_timerFunc, pipe);
     /* For now, limit to 500 KB/s in both directions */
     pipe->sendRate = 1e9 / (500*1024*8);
     pipe->recvRate = pipe->sendRate;
     return pipe;
 }

 static void
 throttlePipe_close( void* opaque )
 {
     ThrottlePipe* pipe = opaque;

     timer_del(pipe->timer);
     timer_free(pipe->timer);
     pingPongPipe_close(&pipe->pingpong);
 }

 static void
 throttlePipe_rearm( ThrottlePipe* pipe )
 {
     int64_t  minExpiration = 0;

     DD("%s: sendExpiration=%" PRId64 " recvExpiration=%" PRId64"\n", __FUNCTION__, pipe->sendExpiration, pipe->recvExpiration);

     if (pipe->sendExpiration) {
         if (minExpiration == 0 || pipe->sendExpiration < minExpiration)
             minExpiration = pipe->sendExpiration;
     }

     if (pipe->recvExpiration) {
         if (minExpiration == 0 || pipe->recvExpiration < minExpiration)
             minExpiration = pipe->recvExpiration;
     }

     if (minExpiration != 0) {
         DD("%s: Arming for %" PRId64 "\n", __FUNCTION__, minExpiration);
         timer_mod(pipe->timer, minExpiration);
     }
 }

 static void
 throttlePipe_timerFunc( void* opaque )
 {
     ThrottlePipe* pipe = opaque;
     int64_t  now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);

     DD("%s: TICK! now=%" PRId64 " sendExpiration=%" PRId64 " recvExpiration=%" PRId64 "\n",
        __FUNCTION__, now, pipe->sendExpiration, pipe->recvExpiration);

     /* Timer has expired, signal wake up if needed */
     int      flags = 0;

     if (pipe->sendExpiration && now > pipe->sendExpiration) {
         flags |= PIPE_WAKE_WRITE;
         pipe->sendExpiration = 0;
     }
     if (pipe->recvExpiration && now > pipe->recvExpiration) {
         flags |= PIPE_WAKE_READ;
         pipe->recvExpiration = 0;
     }
     flags &= pipe->pingpong.flags;
     if (flags != 0) {
         DD("%s: WAKE %d\n", __FUNCTION__, flags);
         android_pipe_wake(pipe->pingpong.hwpipe, flags);
     }

     throttlePipe_rearm(pipe);
 }

 static int
 throttlePipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
 {
     ThrottlePipe*  pipe = opaque;
     int            ret;

     if (pipe->sendExpiration > 0) {
         return PIPE_ERROR_AGAIN;
     }

     ret = pingPongPipe_sendBuffers(&pipe->pingpong, buffers, numBuffers);
     if (ret > 0) {
         /* Compute next send expiration time */
         pipe->sendExpiration = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) + ret*pipe->sendRate;
         throttlePipe_rearm(pipe);
     }
     return ret;
 }

 static int
 throttlePipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
 {
     ThrottlePipe* pipe = opaque;
     int           ret;

     if (pipe->recvExpiration > 0) {
         return PIPE_ERROR_AGAIN;
     }

     ret = pingPongPipe_recvBuffers(&pipe->pingpong, buffers, numBuffers);
     if (ret > 0) {
         pipe->recvExpiration = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) + ret*pipe->recvRate;
         throttlePipe_rearm(pipe);
     }
     return ret;
 }

 static unsigned
 throttlePipe_poll( void* opaque )
 {
     ThrottlePipe*  pipe = opaque;
     unsigned       ret  = pingPongPipe_poll(&pipe->pingpong);

     if (pipe->sendExpiration > 0)
         ret &= ~PIPE_POLL_OUT;

     if (pipe->recvExpiration > 0)
         ret &= ~PIPE_POLL_IN;

     return ret;
 }

 static void
 throttlePipe_wakeOn( void* opaque, int flags )
 {
     ThrottlePipe* pipe = opaque;
     pingPongPipe_wakeOn(&pipe->pingpong, flags);
 }

 static const AndroidPipeFuncs  throttlePipe_funcs = {
     throttlePipe_init,
     throttlePipe_close,
     throttlePipe_sendBuffers,
     throttlePipe_recvBuffers,
     throttlePipe_poll,
     throttlePipe_wakeOn,
 };

 #ifdef DEBUG_THROTTLE_PIPE
 void android_throttle_init(void)
 {
     android_pipe_add_type("throttle", NULL, &throttlePipe_funcs);
 }
 #else
 void android_throttle_init(void) { }
 #endif /* DEBUG_THROTTLE_PIPE */
	/* Copyright (C) 2011 The Android Open Source Project
	** Copyright (C) 2014 Linaro Limited
	**
	** This software is licensed under the terms of the GNU General Public
	** License version 2, as published by the Free Software Foundation, and
	** may be copied, distributed, and modified under those terms.
	**
	** This program is distributed in the hope that it will be useful,
	** but WITHOUT ANY WARRANTY; without even the implied warranty of
	** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	** GNU General Public License for more details.
	**
	** Description
	**
	** Example uses of Android Pipes.
	*/
	#include "hw/misc/android_pipe.h"

	#define DEBUG 0

	/* Set to 1 to debug i/o register reads/writes */
	#define DEBUG_REGS 0

	#if DEBUG >= 1
	# define D(...) fprintf(stderr, __VA_ARGS__), fprintf(stderr, "\n")
	#else
	# define D(...) (void)0
	#endif

	#if DEBUG >= 2
	# define DD(...) fprintf(stderr, __VA_ARGS__), fprintf(stderr, "\n")
	#else
	# define DD(...) (void)0
	#endif

	#if DEBUG_REGS >= 1
	# define DR(...) D(__VA_ARGS__)
	#else
	# define DR(...) (void)0
	#endif

	#define E(...) fprintf(stderr, "ERROR:" __VA_ARGS__), fprintf(stderr, "\n")

	/* Set to 1 to enable the 'zero' pipe type, useful for debugging */
	#define DEBUG_ZERO_PIPE 1

	/* Set to 1 to enable the 'pingpong' pipe type, useful for debugging */
	#define DEBUG_PINGPONG_PIPE 1

	/* Set to 1 to enable the 'throttle' pipe type, useful for debugging */
	#define DEBUG_THROTTLE_PIPE 1


	/***********************************************************************
	***********************************************************************
	*****
	***** Z E R O P I P E S
	*****
	*****/

	/* A simple pipe service that mimics /dev/zero, you can write anything to
	* it, and you can always read any number of zeros from it. Useful for debugging
	* the kernel driver.
	*/

	typedef struct {
	void* hwpipe;
	} ZeroPipe;

	static void*
	zeroPipe_init( void* hwpipe, void* svcOpaque, const char* args )
	{
	ZeroPipe* zpipe;

	D("%s: hwpipe=%p", __FUNCTION__, hwpipe);
	zpipe = g_malloc0(sizeof(ZeroPipe));
	zpipe->hwpipe = hwpipe;
	return zpipe;
	}

	static void
	zeroPipe_close( void* opaque )
	{
	ZeroPipe* zpipe = opaque;

	D("%s: hwpipe=%p", __FUNCTION__, zpipe->hwpipe);
	g_free(zpipe);
	}

	static int
	zeroPipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
	{
	int ret = 0;
	while (numBuffers > 0) {
	ret += buffers[0].size;
	buffers++;
	numBuffers--;
	}
	return ret;
	}

	static int
	zeroPipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
	{
	int ret = 0;
	while (numBuffers > 0) {
	ret += buffers[0].size;
	memset(buffers[0].data, 0, buffers[0].size);
	buffers++;
	numBuffers--;
	}
	return ret;
	}

	static unsigned
	zeroPipe_poll( void* opaque )
	{
	return PIPE_POLL_IN \| PIPE_POLL_OUT;
	}

	static void
	zeroPipe_wakeOn( void* opaque, int flags )
	{
	/* nothing to do here */
	}

	static const AndroidPipeFuncs zeroPipe_funcs = {
	zeroPipe_init,
	zeroPipe_close,
	zeroPipe_sendBuffers,
	zeroPipe_recvBuffers,
	zeroPipe_poll,
	zeroPipe_wakeOn,
	};

	#if DEBUG_ZERO_PIPE
	void android_zero_pipe_init(void)
	{
	android_pipe_add_type("zero", NULL, &zeroPipe_funcs);
	}
	#else
	void android_zero_pipe_init(void) { }
	#endif /* DEBUG_ZERO */

	/***********************************************************************
	***********************************************************************
	*****
	***** P I N G P O N G P I P E S
	*****
	*****/

	/* Similar debug service that sends back anything it receives */
	/* All data is kept in a circular dynamic buffer */

	/* Initial buffer size */
	#define PINGPONG_SIZE 1024

	typedef struct {
	void* hwpipe;
	uint8_t* buffer;
	size_t size;
	size_t pos;
	size_t count;
	unsigned flags;
	} PingPongPipe;

	static void
	pingPongPipe_init0( PingPongPipe* pipe, void* hwpipe, void* svcOpaque )
	{
	pipe->hwpipe = hwpipe;
	pipe->size = PINGPONG_SIZE;
	pipe->buffer = malloc(pipe->size);
	pipe->pos = 0;
	pipe->count = 0;
	}

	static void*
	pingPongPipe_init( void* hwpipe, void* svcOpaque, const char* args )
	{
	PingPongPipe* ppipe;

	D("%s: hwpipe=%p", __FUNCTION__, hwpipe);
	ppipe = g_malloc0(sizeof(PingPongPipe));
	pingPongPipe_init0(ppipe, hwpipe, svcOpaque);
	return ppipe;
	}

	static void
	pingPongPipe_close( void* opaque )
	{
	PingPongPipe* ppipe = opaque;

	D("%s: hwpipe=%p (pos=%zd count=%zd size=%zd)", __FUNCTION__,
	ppipe->hwpipe, ppipe->pos, ppipe->count, ppipe->size);
	free(ppipe->buffer);
	g_free(ppipe);
	}

	static int
	pingPongPipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
	{
	PingPongPipe* pipe = opaque;
	int ret = 0;
	int count;
	const AndroidPipeBuffer* buff = buffers;
	const AndroidPipeBuffer* buffEnd = buff + numBuffers;

	count = 0;
	for ( ; buff < buffEnd; buff++ )
	count += buff->size;

	/* Do we need to grow the pingpong buffer? */
	while (count > pipe->size - pipe->count) {
	size_t newsize = pipe->size*2;
	uint8_t* newbuff = realloc(pipe->buffer, newsize);
	int wpos = pipe->pos + pipe->count;
	if (newbuff == NULL) {
	break;
	}
	if (wpos > pipe->size) {
	wpos -= pipe->size;
	memcpy(newbuff + pipe->size, newbuff, wpos);
	}
	pipe->buffer = newbuff;
	pipe->size = newsize;
	D("pingpong buffer is now %zd bytes", newsize);
	}

	for ( buff = buffers; buff < buffEnd; buff++ ) {
	int avail = pipe->size - pipe->count;
	if (avail <= 0) {
	if (ret == 0)
	ret = PIPE_ERROR_AGAIN;
	break;
	}
	if (avail > buff->size) {
	avail = buff->size;
	}

	int wpos = pipe->pos + pipe->count;
	if (wpos >= pipe->size) {
	wpos -= pipe->size;
	}
	if (wpos + avail <= pipe->size) {
	memcpy(pipe->buffer + wpos, buff->data, avail);
	} else {
	int avail2 = pipe->size - wpos;
	memcpy(pipe->buffer + wpos, buff->data, avail2);
	memcpy(pipe->buffer, buff->data + avail2, avail - avail2);
	}
	pipe->count += avail;
	ret += avail;
	}

	/* Wake up any waiting readers if we wrote something */
	if (pipe->count > 0 && (pipe->flags & PIPE_WAKE_READ)) {
	android_pipe_wake(pipe->hwpipe, PIPE_WAKE_READ);
	}

	return ret;
	}

	static int
	pingPongPipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
	{
	PingPongPipe* pipe = opaque;
	int ret = 0;

	while (numBuffers > 0) {
	int avail = pipe->count;
	if (avail <= 0) {
	if (ret == 0)
	ret = PIPE_ERROR_AGAIN;
	break;
	}
	if (avail > buffers[0].size) {
	avail = buffers[0].size;
	}

	int rpos = pipe->pos;

	if (rpos + avail <= pipe->size) {
	memcpy(buffers[0].data, pipe->buffer + rpos, avail);
	} else {
	int avail2 = pipe->size - rpos;
	memcpy(buffers[0].data, pipe->buffer + rpos, avail2);
	memcpy(buffers[0].data + avail2, pipe->buffer, avail - avail2);
	}
	pipe->count -= avail;
	pipe->pos += avail;
	if (pipe->pos >= pipe->size) {
	pipe->pos -= pipe->size;
	}
	ret += avail;
	numBuffers--;
	buffers++;
	}

	/* Wake up any waiting readers if we wrote something */
	if (pipe->count < PINGPONG_SIZE && (pipe->flags & PIPE_WAKE_WRITE)) {
	android_pipe_wake(pipe->hwpipe, PIPE_WAKE_WRITE);
	}

	return ret;
	}

	static unsigned
	pingPongPipe_poll( void* opaque )
	{
	PingPongPipe* pipe = opaque;
	unsigned ret = 0;

	if (pipe->count < pipe->size)
	ret \|= PIPE_POLL_OUT;

	if (pipe->count > 0)
	ret \|= PIPE_POLL_IN;

	return ret;
	}

	static void
	pingPongPipe_wakeOn( void* opaque, int flags )
	{
	PingPongPipe* pipe = opaque;
	pipe->flags \|= (unsigned)flags;
	}

	static const AndroidPipeFuncs pingPongPipe_funcs = {
	pingPongPipe_init,
	pingPongPipe_close,
	pingPongPipe_sendBuffers,
	pingPongPipe_recvBuffers,
	pingPongPipe_poll,
	pingPongPipe_wakeOn,
	};

	#if DEBUG_PINGPONG_PIPE
	void android_pingpong_init(void)
	{
	android_pipe_add_type("pingpong", NULL, &pingPongPipe_funcs);
	}
	#else
	void android_pingpong_init(void) { }
	#endif /* DEBUG_PINGPONG_PIPE */

	/***********************************************************************
	***********************************************************************
	*****
	***** T H R O T T L E P I P E S
	*****
	*****/

	/* Similar to PingPongPipe, but will throttle the bandwidth to test
	* blocking I/O.
	*/

	typedef struct {
	PingPongPipe pingpong;
	double sendRate;
	int64_t sendExpiration;
	double recvRate;
	int64_t recvExpiration;
	QEMUTimer* timer;
	} ThrottlePipe;

	/* forward declaration */
	static void throttlePipe_timerFunc( void* opaque );

	static void*
	throttlePipe_init( void* hwpipe, void* svcOpaque, const char* args )
	{
	ThrottlePipe* pipe;

	pipe = g_malloc0(sizeof(ThrottlePipe));
	pingPongPipe_init0(&pipe->pingpong, hwpipe, svcOpaque);
	pipe->timer = timer_new(QEMU_CLOCK_VIRTUAL, SCALE_NS, throttlePipe_timerFunc, pipe);
	/* For now, limit to 500 KB/s in both directions */
	pipe->sendRate = 1e9 / (50010248);
	pipe->recvRate = pipe->sendRate;
	return pipe;
	}

	static void
	throttlePipe_close( void* opaque )
	{
	ThrottlePipe* pipe = opaque;

	timer_del(pipe->timer);
	timer_free(pipe->timer);
	pingPongPipe_close(&pipe->pingpong);
	}

	static void
	throttlePipe_rearm( ThrottlePipe* pipe )
	{
	int64_t minExpiration = 0;

	DD("%s: sendExpiration=%" PRId64 " recvExpiration=%" PRId64"\n", __FUNCTION__, pipe->sendExpiration, pipe->recvExpiration);

	if (pipe->sendExpiration) {
	if (minExpiration == 0 \|\| pipe->sendExpiration < minExpiration)
	minExpiration = pipe->sendExpiration;
	}

	if (pipe->recvExpiration) {
	if (minExpiration == 0 \|\| pipe->recvExpiration < minExpiration)
	minExpiration = pipe->recvExpiration;
	}

	if (minExpiration != 0) {
	DD("%s: Arming for %" PRId64 "\n", __FUNCTION__, minExpiration);
	timer_mod(pipe->timer, minExpiration);
	}
	}

	static void
	throttlePipe_timerFunc( void* opaque )
	{
	ThrottlePipe* pipe = opaque;
	int64_t now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);

	DD("%s: TICK! now=%" PRId64 " sendExpiration=%" PRId64 " recvExpiration=%" PRId64 "\n",
	__FUNCTION__, now, pipe->sendExpiration, pipe->recvExpiration);

	/* Timer has expired, signal wake up if needed */
	int flags = 0;

	if (pipe->sendExpiration && now > pipe->sendExpiration) {
	flags \|= PIPE_WAKE_WRITE;
	pipe->sendExpiration = 0;
	}
	if (pipe->recvExpiration && now > pipe->recvExpiration) {
	flags \|= PIPE_WAKE_READ;
	pipe->recvExpiration = 0;
	}
	flags &= pipe->pingpong.flags;
	if (flags != 0) {
	DD("%s: WAKE %d\n", __FUNCTION__, flags);
	android_pipe_wake(pipe->pingpong.hwpipe, flags);
	}

	throttlePipe_rearm(pipe);
	}

	static int
	throttlePipe_sendBuffers( void* opaque, const AndroidPipeBuffer* buffers, int numBuffers )
	{
	ThrottlePipe* pipe = opaque;
	int ret;

	if (pipe->sendExpiration > 0) {
	return PIPE_ERROR_AGAIN;
	}

	ret = pingPongPipe_sendBuffers(&pipe->pingpong, buffers, numBuffers);
	if (ret > 0) {
	/* Compute next send expiration time */
	pipe->sendExpiration = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) + ret*pipe->sendRate;
	throttlePipe_rearm(pipe);
	}
	return ret;
	}

	static int
	throttlePipe_recvBuffers( void* opaque, AndroidPipeBuffer* buffers, int numBuffers )
	{
	ThrottlePipe* pipe = opaque;
	int ret;

	if (pipe->recvExpiration > 0) {
	return PIPE_ERROR_AGAIN;
	}

	ret = pingPongPipe_recvBuffers(&pipe->pingpong, buffers, numBuffers);
	if (ret > 0) {
	pipe->recvExpiration = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) + ret*pipe->recvRate;
	throttlePipe_rearm(pipe);
	}
	return ret;
	}

	static unsigned
	throttlePipe_poll( void* opaque )
	{
	ThrottlePipe* pipe = opaque;
	unsigned ret = pingPongPipe_poll(&pipe->pingpong);

	if (pipe->sendExpiration > 0)
	ret &= ~PIPE_POLL_OUT;

	if (pipe->recvExpiration > 0)
	ret &= ~PIPE_POLL_IN;

	return ret;
	}

	static void
	throttlePipe_wakeOn( void* opaque, int flags )
	{
	ThrottlePipe* pipe = opaque;
	pingPongPipe_wakeOn(&pipe->pingpong, flags);
	}

	static const AndroidPipeFuncs throttlePipe_funcs = {
	throttlePipe_init,
	throttlePipe_close,
	throttlePipe_sendBuffers,
	throttlePipe_recvBuffers,
	throttlePipe_poll,
	throttlePipe_wakeOn,
	};

	#ifdef DEBUG_THROTTLE_PIPE
	void android_throttle_init(void)
	{
	android_pipe_add_type("throttle", NULL, &throttlePipe_funcs);
	}
	#else
	void android_throttle_init(void) { }
	#endif /* DEBUG_THROTTLE_PIPE */