include/linux/tsif_api.h - kernel/msm - Gitiles

 /**
  * TSIF driver
  *
  * Kernel API
  *
  * Copyright (c) 2009-2010, 2012, The Linux Foundation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * 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.
  *
  */
 #ifndef _TSIF_API_H_
 #define _TSIF_API_H_
 /**
  * Theory of operation
  *
  * TSIF driver maintains internal cyclic data buffer where
  * received TSIF packets are stored. Size of buffer, in packets,
  * and its address, may be obtained by tsif_get_info().
  *
  * TSIF stream delivered to the client that should register with
  * TSIF driver using tsif_attach()
  *
  * Producer-consumer pattern used. TSIF driver act as producer,
  * writing data to the buffer; clientis consumer.
  * 2 indexes maintained by the TSIF driver:
  * - wi (write index) points to the next item to be written by
  *   TSIF
  * - ri (read index) points to the next item available for read
  *   by the client.
  * Write index advanced by the TSIF driver when new data
  * received;
  * Read index advanced only when client tell so to the TSIF
  * driver by tsif_reclaim_packets()
  *
  * Consumer may directly access data TSIF buffer between ri and
  * wi. When ri==wi, buffer is empty.
  *
  * TSIF driver notifies client about any change by calling
  * notify function. Client should use tsif_get_state() to query
  * new state.
  */

 /* bytes in TSIF packet. not customizable */
 #define TSIF_PKT_SIZE             (192)

 /**
  * tsif_pkt_status - get TSIF packet status
  *
  * @pkt: TSIF packet location
  *
  * Return last DWORD of packet, containing status.
  * Status dword consists of:
  * - 3 low bytes TTS
  * - 1 byte (last byte of packet) with status bits
  */
 static inline u32 tsif_pkt_status(void *pkt)
 {
 	u32 *x = pkt;
 	return x[TSIF_PKT_SIZE / sizeof(u32) - 1];
 }

 /**
  * Status dword parts for status returned by @tsif_pkt_status
  */
 #define TSIF_STATUS_TTS(x)   ((x) & 0xffffff)
 #define TSIF_STATUS_VALID(x) ((x) & (1<<24))
 #define TSIF_STATUS_FIRST(x) ((x) & (1<<25))
 #define TSIF_STATUS_OVFLW(x) ((x) & (1<<26))
 #define TSIF_STATUS_ERROR(x) ((x) & (1<<27))
 #define TSIF_STATUS_NULL(x)  ((x) & (1<<28))
 #define TSIF_STATUS_TIMEO(x) ((x) & (1<<30))

 /**
  * enum tsif_state - TSIF device state
  * @tsif_state_stopped:     Idle state, data acquisition not running
  * @tsif_state_running:     Data acquisition in progress
  * @tsif_state_flushing:    Device is flushing
  *
  * State transition diagram:
  *
  * init -> tsif_state_stopped
  *
  * tsif_state_stopped:
  *   - open -> tsif_state_running
  *
  * tsif_state_running:
  *   - close -> tsif_state_flushing
  *
  * tsif_state_flushing:
  *   - flushed -> tsif_state_stopped
  */
 enum tsif_state {
 	tsif_state_stopped  = 0,
 	tsif_state_running  = 1,
 	tsif_state_flushing = 2,
 	tsif_state_error    = 3,
 };

 /**
  * tsif_get_active - return active tsif hardware instance
  *
  * Return     TSIF instance to use (selected by CONFIG_MSM_USE_TSIF1)
  */
 int tsif_get_active(void);

 /**
  * tsif_attach - Attach to the device.
  * @id:       TSIF device ID, used to identify TSIF instance.
  * @notify:   client callback, called when
  *            any client visible TSIF state changed.
  *            This includes new data available and device state change
  * @data:     client data, will be passed to @notify
  *
  * Return     TSIF cookie or error code
  *
  * Should be called prior to any other tsif_XXX function.
  */
 void *tsif_attach(int id, void (*notify)(void *client_data), void *client_data);

 /**
  * tsif_detach - detach from device
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  */
 void tsif_detach(void *cookie);

 /**
  * tsif_get_info - get data buffer info
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @pdata:     if not NULL, TSIF data buffer will be stored there
  * @psize:     if not NULL, TSIF data buffer size, in packets,
  *             will be stored there
  *
  * Data buffer information should be queried after each tsif_start() before
  * using data; since data buffer will be re-allocated on tsif_start()
  */
 void tsif_get_info(void *cookie, void **pdata, int *psize);

 /**
  * tsif_set_mode - set TSIF mode
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @mode:      desired mode of operation
  *
  * Return      error code
  *
  * Mode may be changed only when TSIF device is stopped.
  */
 int tsif_set_mode(void *cookie, int mode);

 /**
  * tsif_set_time_limit - set TSIF time limit
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @value:     desired time limit, 0 to disable
  *
  * Return      error code
  *
  * Time limit may be changed only when TSIF device is stopped.
  */
 int tsif_set_time_limit(void *cookie, u32 value);

 /**
  * tsif_set_buf_config - configure data buffer
  *
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @pkts_in_chunk: requested number of packets per chunk
  * @chunks_in_buf: requested number of chunks in buffer
  *
  * Return      error code
  *
  * Parameter selection criteria:
  *
  * - @pkts_in_chunk defines size of DMA transfer and, in turn, time between
  *   consecutive DMA transfers. Increase @pkts_in_chunk reduces chance for
  *   hardware overflow. If TSIF stats reports overflows, increase it.
  *
  * - @chunks_in_buf * @pkts_in_chunk defines total buffer size. Increase this
  *   parameter if client latency is large and TSIF reports "soft drop" in its
  *   stats
  */
 int tsif_set_buf_config(void *cookie, u32 pkts_in_chunk, u32 chunks_in_buf);

 /**
  * tsif_get_state - query current data buffer information
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @ri:        if not NULL, read index will be stored here
  * @wi:        if not NULL, write index will be stored here
  * @state:     if not NULL, state will be stored here
  */
 void tsif_get_state(void *cookie, int *ri, int *wi, enum tsif_state *state);

 /**
  * tsif_set_clk_inverse - set whether to inverse the clock signal.
  * @cookie:   TSIF cookie previously obtained with tsif_attach()
  * @inverse:  1 to inverse the clock, 0 otherwise. Default is 0.
  *
  * Return      error code
  *
  * Setting may be changed only when TSIF device is stopped.
  */
 int tsif_set_clk_inverse(void *cookie, int inverse);

 /**
  * tsif_set_data_inverse - set whether to inverse the data signal.
  * @cookie:   TSIF cookie previously obtained with tsif_attach()
  * @inverse:  1 to inverse the clock, 0 otherwise. Default is 0.
  *
  * Return      error code
  *
  * Setting may be changed only when TSIF device is stopped.
  */
 int tsif_set_data_inverse(void *cookie, int inverse);

 /**
  * tsif_set_sync_inverse - set whether to inverse the sync signal.
  * @cookie:   TSIF cookie previously obtained with tsif_attach()
  * @inverse:  1 to inverse the clock, 0 otherwise. Default is 0.
  *
  * Return      error code
  *
  * Setting may be changed only when TSIF device is stopped.
  */
 int tsif_set_sync_inverse(void *cookie, int inverse);

 /**
  * tsif_set_enable_inverse - set whether to inverse the enable signal.
  * @cookie:   TSIF cookie previously obtained with tsif_attach()
  * @inverse:  1 to inverse the clock, 0 otherwise. Default is 0.
  *
  * Return      error code
  *
  * Setting may be changed only when TSIF device is stopped.
  */
 int tsif_set_enable_inverse(void *cookie, int inverse);

 /**
  * tsif_start - start data acquisition
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  *
  * Return      error code
  */
 int tsif_start(void *cookie);

 /**
  * tsif_stop - stop data acquisition
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  *
  * Data buffer allocated during this function call; thus client should
  * query data buffer info using tsif_get_info() and reset its data pointers.
  */
 void tsif_stop(void *cookie);

 /**
  * tsif_reclaim_packets - inform that buffer space may be reclaimed
  * @cookie:    TSIF cookie previously obtained with tsif_attach()
  * @ri:        new value for read index
  */
 void tsif_reclaim_packets(void *cookie, int ri);

 #endif /* _TSIF_API_H_ */
	/**
	* TSIF driver
	*
	* Kernel API
	*
	* Copyright (c) 2009-2010, 2012, The Linux Foundation. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* 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.
	*
	*/
	#ifndef _TSIF_API_H_
	#define _TSIF_API_H_
	/**
	* Theory of operation
	*
	* TSIF driver maintains internal cyclic data buffer where
	* received TSIF packets are stored. Size of buffer, in packets,
	* and its address, may be obtained by tsif_get_info().
	*
	* TSIF stream delivered to the client that should register with
	* TSIF driver using tsif_attach()
	*
	* Producer-consumer pattern used. TSIF driver act as producer,
	* writing data to the buffer; clientis consumer.
	* 2 indexes maintained by the TSIF driver:
	* - wi (write index) points to the next item to be written by
	* TSIF
	* - ri (read index) points to the next item available for read
	* by the client.
	* Write index advanced by the TSIF driver when new data
	* received;
	* Read index advanced only when client tell so to the TSIF
	* driver by tsif_reclaim_packets()
	*
	* Consumer may directly access data TSIF buffer between ri and
	* wi. When ri==wi, buffer is empty.
	*
	* TSIF driver notifies client about any change by calling
	* notify function. Client should use tsif_get_state() to query
	* new state.
	*/

	/* bytes in TSIF packet. not customizable */
	#define TSIF_PKT_SIZE (192)

	/**
	* tsif_pkt_status - get TSIF packet status
	*
	* @pkt: TSIF packet location
	*
	* Return last DWORD of packet, containing status.
	* Status dword consists of:
	* - 3 low bytes TTS
	* - 1 byte (last byte of packet) with status bits
	*/
	static inline u32 tsif_pkt_status(void *pkt)
	{
	u32 *x = pkt;
	return x[TSIF_PKT_SIZE / sizeof(u32) - 1];
	}

	/**
	* Status dword parts for status returned by @tsif_pkt_status
	*/
	#define TSIF_STATUS_TTS(x) ((x) & 0xffffff)
	#define TSIF_STATUS_VALID(x) ((x) & (1<<24))
	#define TSIF_STATUS_FIRST(x) ((x) & (1<<25))
	#define TSIF_STATUS_OVFLW(x) ((x) & (1<<26))
	#define TSIF_STATUS_ERROR(x) ((x) & (1<<27))
	#define TSIF_STATUS_NULL(x) ((x) & (1<<28))
	#define TSIF_STATUS_TIMEO(x) ((x) & (1<<30))

	/**
	* enum tsif_state - TSIF device state
	* @tsif_state_stopped: Idle state, data acquisition not running
	* @tsif_state_running: Data acquisition in progress
	* @tsif_state_flushing: Device is flushing
	*
	* State transition diagram:
	*
	* init -> tsif_state_stopped
	*
	* tsif_state_stopped:
	* - open -> tsif_state_running
	*
	* tsif_state_running:
	* - close -> tsif_state_flushing
	*
	* tsif_state_flushing:
	* - flushed -> tsif_state_stopped
	*/
	enum tsif_state {
	tsif_state_stopped = 0,
	tsif_state_running = 1,
	tsif_state_flushing = 2,
	tsif_state_error = 3,
	};

	/**
	* tsif_get_active - return active tsif hardware instance
	*
	* Return TSIF instance to use (selected by CONFIG_MSM_USE_TSIF1)
	*/
	int tsif_get_active(void);

	/**
	* tsif_attach - Attach to the device.
	* @id: TSIF device ID, used to identify TSIF instance.
	* @notify: client callback, called when
	* any client visible TSIF state changed.
	* This includes new data available and device state change
	* @data: client data, will be passed to @notify
	*
	* Return TSIF cookie or error code
	*
	* Should be called prior to any other tsif_XXX function.
	*/
	void tsif_attach(int id, void (notify)(void client_data), void client_data);

	/**
	* tsif_detach - detach from device
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	*/
	void tsif_detach(void *cookie);

	/**
	* tsif_get_info - get data buffer info
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @pdata: if not NULL, TSIF data buffer will be stored there
	* @psize: if not NULL, TSIF data buffer size, in packets,
	* will be stored there
	*
	* Data buffer information should be queried after each tsif_start() before
	* using data; since data buffer will be re-allocated on tsif_start()
	*/
	void tsif_get_info(void cookie, void pdata, int psize);

	/**
	* tsif_set_mode - set TSIF mode
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @mode: desired mode of operation
	*
	* Return error code
	*
	* Mode may be changed only when TSIF device is stopped.
	*/
	int tsif_set_mode(void *cookie, int mode);

	/**
	* tsif_set_time_limit - set TSIF time limit
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @value: desired time limit, 0 to disable
	*
	* Return error code
	*
	* Time limit may be changed only when TSIF device is stopped.
	*/
	int tsif_set_time_limit(void *cookie, u32 value);

	/**
	* tsif_set_buf_config - configure data buffer
	*
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @pkts_in_chunk: requested number of packets per chunk
	* @chunks_in_buf: requested number of chunks in buffer
	*
	* Return error code
	*
	* Parameter selection criteria:
	*
	* - @pkts_in_chunk defines size of DMA transfer and, in turn, time between
	* consecutive DMA transfers. Increase @pkts_in_chunk reduces chance for
	* hardware overflow. If TSIF stats reports overflows, increase it.
	*
	* - @chunks_in_buf * @pkts_in_chunk defines total buffer size. Increase this
	* parameter if client latency is large and TSIF reports "soft drop" in its
	* stats
	*/
	int tsif_set_buf_config(void *cookie, u32 pkts_in_chunk, u32 chunks_in_buf);

	/**
	* tsif_get_state - query current data buffer information
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @ri: if not NULL, read index will be stored here
	* @wi: if not NULL, write index will be stored here
	* @state: if not NULL, state will be stored here
	*/
	void tsif_get_state(void cookie, int ri, int wi, enum tsif_state state);

	/**
	* tsif_set_clk_inverse - set whether to inverse the clock signal.
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @inverse: 1 to inverse the clock, 0 otherwise. Default is 0.
	*
	* Return error code
	*
	* Setting may be changed only when TSIF device is stopped.
	*/
	int tsif_set_clk_inverse(void *cookie, int inverse);

	/**
	* tsif_set_data_inverse - set whether to inverse the data signal.
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @inverse: 1 to inverse the clock, 0 otherwise. Default is 0.
	*
	* Return error code
	*
	* Setting may be changed only when TSIF device is stopped.
	*/
	int tsif_set_data_inverse(void *cookie, int inverse);

	/**
	* tsif_set_sync_inverse - set whether to inverse the sync signal.
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @inverse: 1 to inverse the clock, 0 otherwise. Default is 0.
	*
	* Return error code
	*
	* Setting may be changed only when TSIF device is stopped.
	*/
	int tsif_set_sync_inverse(void *cookie, int inverse);

	/**
	* tsif_set_enable_inverse - set whether to inverse the enable signal.
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @inverse: 1 to inverse the clock, 0 otherwise. Default is 0.
	*
	* Return error code
	*
	* Setting may be changed only when TSIF device is stopped.
	*/
	int tsif_set_enable_inverse(void *cookie, int inverse);

	/**
	* tsif_start - start data acquisition
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	*
	* Return error code
	*/
	int tsif_start(void *cookie);

	/**
	* tsif_stop - stop data acquisition
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	*
	* Data buffer allocated during this function call; thus client should
	* query data buffer info using tsif_get_info() and reset its data pointers.
	*/
	void tsif_stop(void *cookie);

	/**
	* tsif_reclaim_packets - inform that buffer space may be reclaimed
	* @cookie: TSIF cookie previously obtained with tsif_attach()
	* @ri: new value for read index
	*/
	void tsif_reclaim_packets(void *cookie, int ri);

	#endif /* _TSIF_API_H_ */