arch/arm/perfmon/perf-smp.c - kernel/msm - Gitiles

 /* Copyright (c) 2010, 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.
  */

 /*
 perf-smp.c
 DESCRIPTION
 Manipulation, initialization of the ARMV7 Performance counter register.


 EXTERNALIZED FUNCTIONS

 INITIALIZATION AND SEQUENCING REQUIREMENTS
 */

 /*
 INCLUDE FILES FOR MODULE
 */
 #include <linux/kernel.h>
 #include <linux/string.h>
 #include <linux/time.h>
 #include <linux/device.h>
 #include <linux/interrupt.h>

 #include <asm/io.h>
 #include <asm/irq.h>
 #include "l2_cp15_registers.h"

 /*
 DEFINITIONS AND DECLARATIONS FOR MODULE

 This section contains definitions for constants, macros, types, variables
 and other items needed by this module.
 */

 /*
   Constant / Define Declarations
 */

 #define PM_NUM_COUNTERS 4
 #define L2_PM_ERR -1

 /*------------------------------------------------------------------------
  * Global control bits
 ------------------------------------------------------------------------*/
 #define PM_L2_GLOBAL_ENABLE     (1<<0)
 #define PM_L2_EVENT_RESET       (1<<1)
 #define PM_L2_CYCLE_RESET       (1<<2)
 #define PM_L2_CLKDIV            (1<<3)
 #define PM_L2_GLOBAL_TRACE      (1<<4)
 #define PM_L2_DISABLE_PROHIBIT  (1<<5)

 /*---------------------------------------------------------------------------
  * Enable and clear bits for each event/trigger
 ----------------------------------------------------------------------------*/
 #define PM_L2EV0_ENABLE        (1<<0)
 #define PM_L2EV1_ENABLE        (1<<1)
 #define PM_L2EV2_ENABLE        (1<<2)
 #define PM_L2EV3_ENABLE        (1<<3)
 #define PM_L2_COUNT_ENABLE      (1<<31)
 #define PM_L2_ALL_ENABLE        (0x8000000F)


 /*-----------------------------------------------------------------------------
  * Overflow actions
 ------------------------------------------------------------------------------*/
 #define PM_L2_OVERFLOW_NOACTION	(0)
 #define PM_L2_OVERFLOW_HALT	(1)
 #define PM_L2_OVERFLOW_STOP	(2)
 #define PM_L2_OVERFLOW_SKIP	(3)

 /*
  * Shifts for each trigger type
  */
 #define PM_STOP_SHIFT		24
 #define PM_RELOAD_SHIFT		22
 #define PM_RESUME_SHIFT		20
 #define PM_SUSPEND_SHIFT	18
 #define PM_START_SHIFT		16
 #define PM_STOPALL_SHIFT	15
 #define PM_STOPCOND_SHIFT	12
 #define PM_RELOADCOND_SHIFT	9
 #define PM_RESUMECOND_SHIFT	6
 #define PM_SUSPENDCOND_SHIFT	3
 #define PM_STARTCOND_SHIFT	0


 /*---------------------------------------------------------------------------
 External control register.  What todo when various events happen.
 Triggering events, etc.
 ----------------------------------------------------------------------------*/
 #define PM_EXTTR0		0
 #define PM_EXTTR1		1
 #define PM_EXTTR2		2
 #define PM_EXTTR3		3

 #define PM_COND_NO_STOP		0
 #define PM_COND_STOP_CNTOVRFLW	1
 #define PM_COND_STOP_EXTERNAL	4
 #define PM_COND_STOP_TRACE	5
 #define PM_COND_STOP_EVOVRFLW	6
 #define PM_COND_STOP_EVTYPER	7

 /*--------------------------------------------------------------------------
 Protect against concurrent access.  There is an index register that is
 used to select the appropriate bank of registers.  If multiple processes
 are writting this at different times we could have a mess...
 ---------------------------------------------------------------------------*/
 #define PM_LOCK()
 #define PM_UNLOCK()
 #define PRINT printk

 /*--------------------------------------------------------------------------
 The Event definitions
 --------------------------------------------------------------------------*/
 #define L2PM_EVT_PM0_EVT0	0x00
 #define L2PM_EVT_PM0_EVT1	0x01
 #define L2PM_EVT_PM0_EVT2	0x02
 #define L2PM_EVT_PM0_EVT3	0x03
 #define L2PM_EVT_PM1_EVT0	0x04
 #define L2PM_EVT_PM1_EVT1	0x05
 #define L2PM_EVT_PM1_EVT2	0x06
 #define L2PM_EVT_PM1_EVT3	0x07
 #define L2PM_EVT_PM2_EVT0	0x08
 #define L2PM_EVT_PM2_EVT1	0x09
 #define L2PM_EVT_PM2_EVT2	0x0a
 #define L2PM_EVT_PM2_EVT3	0x0b
 #define L2PM_EVT_PM3_EVT0	0x0c
 #define L2PM_EVT_PM3_EVT1	0x0d
 #define L2PM_EVT_PM3_EVT2	0x0e
 #define L2PM_EVT_PM3_EVT3	0x0f
 #define L2PM_EVT_PM4_EVT0	0x10
 #define L2PM_EVT_PM4_EVT1	0x11
 #define L2PM_EVT_PM4_EVT2	0x12
 #define L2PM_EVT_PM4_EVT3	0x13

 /*
 Type Declarations
 */

 /*
 Local Object Definitions
 */

 unsigned long l2_pm_cycle_overflow_count;
 unsigned long l2_pm_overflow_count[PM_NUM_COUNTERS];

 /*---------------------------------------------------------------------------
 Max number of events read from the config registers
 ---------------------------------------------------------------------------*/
 static int pm_l2_max_events;

 static int irqid;

 /*
 Function Definitions
 */

 /*
 FUNCTION  l2_pm_group_stop

 DESCRIPTION  Stop a group of the performance monitors.  Event monitor 0 is bit
 0, event monitor 1 bit 1, etc.  The cycle count can also be disable with
 bit 31.  Macros are provided for all of the indexes including an ALL.

 DEPENDENCIES

 RETURN VALUE
 None

 SIDE EFFECTS
 Stops the performance monitoring for the index passed.
 */
 void pm_l2_group_stop(unsigned long mask)
 {
 	WCP15_L2PMCNTENCLR(mask);
 }

 /*
 FUNCTION  l2_pm_group_start

 DESCRIPTION  Start a group of the performance monitors.  Event monitor 0 is bit
 0, event monitor 1 bit 1, etc.  The cycle count can also be enabled with
 bit 31.  Macros are provided for all of the indexes including an ALL.

 DEPENDENCIES

 RETURN VALUE
 None

 SIDE EFFECTS
 Starts the performance monitoring for the index passed.
 */
 void pm_l2_group_start(unsigned long mask)
 {
 	WCP15_L2PMCNTENSET(mask);
 }

 /*
 FUNCTION   l2_pm_get_overflow

 DESCRIPTION  Return the overflow condition for the index passed.

 DEPENDENCIES

 RETURN VALUE
 0 no overflow
 !0 (anything else) overflow;

 SIDE EFFECTS
 */
 unsigned long l2_pm_get_overflow(int index)
 {
   unsigned long overflow = 0;

 /*
 * Range check
 */
   if (index > pm_l2_max_events)
 	return L2_PM_ERR;
   RCP15_L2PMOVSR(overflow);

   return overflow & (1<<index);
 }

 /*
 FUNCTION  l2_pm_get_cycle_overflow

 DESCRIPTION
 Returns if the cycle counter has overflowed or not.

 DEPENDENCIES

 RETURN VALUE
 0 no overflow
 !0 (anything else) overflow;

 SIDE EFFECTS
 */
 unsigned long l2_pm_get_cycle_overflow(void)
 {
   unsigned long overflow = 0;

   RCP15_L2PMOVSR(overflow);
   return overflow & PM_L2_COUNT_ENABLE;
 }

 /*
 FUNCTION  l2_pm_reset_overflow

 DESCRIPTION Reset the cycle counter overflow bit.

 DEPENDENCIES

 RETURN VALUE
 None

 SIDE EFFECTS
 */
 void l2_pm_reset_overflow(int index)
 {
   WCP15_L2PMOVSR(1<<index);
 }

 /*
 FUNCTION  l2_pm_reset_cycle_overflow

 DESCRIPTION Reset the cycle counter overflow bit.

 DEPENDENCIES

 RETURN VALUE
 None

 SIDE EFFECTS
 */
 void l2_pm_reset_cycle_overflow(void)
 {
   WCP15_L2PMOVSR(PM_L2_COUNT_ENABLE);
 }

 /*
 FUNCTION l2_pm_get_cycle_count

 DESCRIPTION  return the count in the cycle count register.

 DEPENDENCIES

 RETURN VALUE
 The value in the cycle count register.

 SIDE EFFECTS
 */
 unsigned long l2_pm_get_cycle_count(void)
 {
   unsigned long cnt = 0;
   RCP15_L2PMCCNTR(cnt);
   return cnt;
 }

 /*
 FUNCTION  l2_pm_reset_cycle_count

 DESCRIPTION  reset the value in the cycle count register

 DEPENDENCIES

 RETURN VALUE
 NONE

 SIDE EFFECTS
 Resets the performance monitor cycle count register.
 Any interrupts period based on this overflow will be changed
 */
 void l2_pm_reset_cycle_count(void)
 {
   WCP15_L2PMCNTENCLR(PM_L2_COUNT_ENABLE);
 }

 /*
 FUNCTION  l2_pm_cycle_div_64

 DESCRIPTION  Set the cycle counter to count every 64th cycle instead of
 every cycle when the value passed is 1, otherwise counts every cycle.

 DEPENDENCIES

 RETURN VALUE
 none

 SIDE EFFECTS
 Changes the rate at which cycles are counted.  Anything that is reading
 the cycle count (pmGetCyucleCount) may get different results.
 */
 void l2_pm_cycle_div_64(int enable)
 {
 	unsigned long enables = 0;

 	RCP15_L2PMCR(enables);
 	if (enable)
 		WCP15_L2PMCR(enables | PM_L2_CLKDIV);
 	else
 		WCP15_L2PMCR(enables & ~PM_L2_CLKDIV);
 }

 /*
 FUNCTION l2_pm_enable_cycle_counter

 DESCRIPTION  Enable the cycle counter.  Sets the bit in the enable register
 so the performance monitor counter starts up counting.

 DEPENDENCIES

 RETURN VALUE
 none

 SIDE EFFECTS
 */
 void l2_pm_enable_cycle_counter(void)
 {
 /*
 *  Enable the counter.
 */
   WCP15_L2PMCNTENSET(PM_L2_COUNT_ENABLE);
 }

 /*
 FUNCTION l2_pm_disable_counter

 DESCRIPTION  Disable a single counter based on the index passed.

 DEPENDENCIES

 RETURN VALUE
 none

 SIDE EFFECTS
 Any triggers that are based on the stoped counter may not trigger...
 */
 void l2_pm_disable_counter(int index)
 {
   /*
    * Range check
    */
   if (index > pm_l2_max_events)
 		return;
   WCP15_L2PMCNTENCLR(1<<index);
 }

 /*
 FUNCTION l2_pm_enable_counter

 DESCRIPTION  Enable the counter with the index passed.

 DEPENDENCIES

 RETURN VALUE
 none.

 SIDE EFFECTS
 */
 void l2_pm_enable_counter(int index)
 {
   /*
    * Range check
    */
   if (index > pm_l2_max_events)
 		return;
   WCP15_L2PMCNTENSET(1<<index);
 }

 /*
 FUNCTION l2_pm_set_count

 DESCRIPTION  Set the number of events in a register, used for resets
 passed.

 DEPENDENCIES

 RETURN VALUE
 -1 if the index is out of range

 SIDE EFFECTS
 */
 int l2_pm_set_count(int index, unsigned long new_value)
 {
   unsigned long reg = 0;

 /*
 * Range check
 */
   if (index > pm_l2_max_events)
 		return L2_PM_ERR;

 /*
 * Lock, select the index and read the count...unlock
 */
   PM_LOCK();
   WCP15_L2PMSELR(index);
   WCP15_L2PMXEVCNTR(new_value);
   PM_UNLOCK();
   return reg;
 }

 int l2_pm_reset_count(int index)
 {
   return l2_pm_set_count(index, 0);
 }

 /*
 FUNCTION l2_pm_get_count

 DESCRIPTION  Return the number of events that have happened for the index
 passed.

 DEPENDENCIES

 RETURN VALUE
 -1 if the index is out of range
 The number of events if inrange

 SIDE EFFECTS
 */
 unsigned long l2_pm_get_count(int index)
 {
   unsigned long reg = 0;

 /*
 * Range check
 */
   if (index > pm_l2_max_events)
 		return L2_PM_ERR;

 /*
 * Lock, select the index and read the count...unlock
 */
   PM_LOCK();
   WCP15_L2PMSELR(index);
   RCP15_L2PMXEVCNTR(reg);
   PM_UNLOCK();
   return reg;
 }

 unsigned long get_filter_code(unsigned long event)
 {
 	if (event == 0x0 || event == 0x4 || event == 0x08
 		|| event == 0x0c || event == 0x10)
 			return 0x0001003f;
 	else if (event == 0x1 || event == 0x5 || event == 0x09
 		|| event == 0x0d || event == 0x11)
 			return 0x0002003f;
 	else if (event == 0x2 || event == 0x6 || event == 0x0a
 		|| event == 0x0e || event == 0x12)
 			return 0x0004003f;
 	else if (event == 0x3 || event == 0x7 || event == 0x0b
 		|| event == 0x0f || event == 0x13)
 			return 0x0008003f;
 	else
 		return 0;
 }

 int l2_pm_set_event(int index, unsigned long event)
 {
   unsigned long reg = 0;

   /*
    * Range check
    */
   if (index > pm_l2_max_events)
 		return L2_PM_ERR;

   /*
    * Lock, select the index and read the count...unlock
    */
   PM_LOCK();
   WCP15_L2PMSELR(index);
   WCP15_L2PMXEVTYPER(event);
   /* WCP15_L2PMXEVFILTER(get_filter_code(event)); */
   WCP15_L2PMXEVFILTER(0x000f003f);
   PM_UNLOCK();
   return reg;
 }

 /*
 FUNCTION  pm_set_local_bu

 DESCRIPTION  Set the local BU triggers.  Note that the MSB determines if
   these are enabled or not.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void pm_set_local_bu(unsigned long value)
 {
   WCP15_L2PMEVTYPER0(value);
 }

 /*
 FUNCTION  pm_set_local_cb

 DESCRIPTION  Set the local CB triggers.  Note that the MSB determines if
   these are enabled or not.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void pm_set_local_cb(unsigned long value)
 {
   WCP15_L2PMEVTYPER1(value);
 }

 /*
 FUNCTION  pm_set_local_mp

 DESCRIPTION  Set the local MP triggers.  Note that the MSB determines if
   these are enabled or not.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void pm_set_local_mp(unsigned long value)
 {
   WCP15_L2PMEVTYPER2(value);
 }

 /*
 FUNCTION  pm_set_local_sp

 DESCRIPTION  Set the local SP triggers.  Note that the MSB determines if
   these are enabled or not.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void pm_set_local_sp(unsigned long value)
 {
   WCP15_L2PMEVTYPER3(value);
 }

 /*
 FUNCTION  pm_set_local_scu

 DESCRIPTION  Set the local SCU triggers.  Note that the MSB determines if
   these are enabled or not.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void pm_set_local_scu(unsigned long value)
 {
   WCP15_L2PMEVTYPER4(value);
 }

 /*
 FUNCTION  l2_pm_isr

 DESCRIPTION:
   Performance Monitor interrupt service routine to capture overflows

 DEPENDENCIES

 RETURN VALUE

 SIDE EFFECTS
 */
 static irqreturn_t l2_pm_isr(int irq, void *d)
 {
 	int i;

 	for (i = 0; i < PM_NUM_COUNTERS; i++) {
 		if (l2_pm_get_overflow(i)) {
 			l2_pm_overflow_count[i]++;
 			l2_pm_reset_overflow(i);
 		}
 	}

 	if (l2_pm_get_cycle_overflow()) {
 		l2_pm_cycle_overflow_count++;
 		l2_pm_reset_cycle_overflow();
 	}

 	return IRQ_HANDLED;
 }


 void l2_pm_stop_all(void)
 {
   WCP15_L2PMCNTENCLR(0xFFFFFFFF);
 }

 void l2_pm_reset_all(void)
 {
   WCP15_L2PMCR(0xF);
   WCP15_L2PMOVSR(PM_L2_ALL_ENABLE);  /* overflow clear */
 }

 void l2_pm_start_all(void)
 {
   WCP15_L2PMCNTENSET(PM_L2_ALL_ENABLE);
 }

 /*
 FUNCTION l2_pm_initialize

 DESCRIPTION  Initialize the performanca monitoring for the v7 processor.
   Ensures the cycle count is running and the event counters are enabled.

 DEPENDENCIES

 RETURN VALUE
   NONE

 SIDE EFFECTS
 */
 void l2_pm_initialize(void)
 {
   unsigned long reg = 0;
   unsigned char imp;
   unsigned char id;
   unsigned char num;
   unsigned long enables = 0;
   static int initialized;

   if (initialized)
 		return;
   initialized = 1;

   irqid = SC_SICL2PERFMONIRPTREQ;
   RCP15_L2PMCR(reg);
   imp = (reg>>24) & 0xFF;
   id  = (reg>>16) & 0xFF;
   pm_l2_max_events = num = (reg>>11)  & 0xFF;
   PRINT("V7 MP L2SCU Performance Monitor Capabilities\n");
   PRINT("  Implementor %c(%d)\n", imp, imp);
   PRINT("  Id %d %x\n", id, id);
   PRINT("  Num Events %d %x\n", num, num);
   PRINT("\nCycle counter enabled by default...\n");

   /*
    * Global enable, ensure the global enable is set so all
    * subsequent actions take effect.  Also resets the counts
    */
   RCP15_L2PMCR(enables);
   WCP15_L2PMCR(enables | PM_L2_GLOBAL_ENABLE | PM_L2_EVENT_RESET |
       PM_L2_CYCLE_RESET | PM_L2_CLKDIV);

   /*
    * Enable access from user space
    */

   /*
    * Install interrupt handler and the enable the interrupts
    */
   l2_pm_reset_cycle_overflow();
   l2_pm_reset_overflow(0);
   l2_pm_reset_overflow(1);
   l2_pm_reset_overflow(2);
   l2_pm_reset_overflow(3);
   l2_pm_reset_overflow(4);

 	if (0 != request_irq(irqid, l2_pm_isr, 0, "l2perfmon", 0))
 		printk(KERN_ERR "%s:%d request_irq returned error\n",
 		__FILE__, __LINE__);
   WCP15_L2PMINTENSET(PM_L2_ALL_ENABLE);
   /*
    * Enable the cycle counter.  Default, count 1:1 no divisor.
    */
   l2_pm_enable_cycle_counter();

 }

 void l2_pm_free_irq(void)
 {
 	free_irq(irqid, 0);
 }

 void l2_pm_deinitialize(void)
 {
   unsigned long enables = 0;
   RCP15_L2PMCR(enables);
   WCP15_L2PMCR(enables & ~PM_L2_GLOBAL_ENABLE);
 }
	/* Copyright (c) 2010, 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.
	*/

	/*
	perf-smp.c
	DESCRIPTION
	Manipulation, initialization of the ARMV7 Performance counter register.


	EXTERNALIZED FUNCTIONS

	INITIALIZATION AND SEQUENCING REQUIREMENTS
	*/

	/*
	INCLUDE FILES FOR MODULE
	*/
	#include <linux/kernel.h>
	#include <linux/string.h>
	#include <linux/time.h>
	#include <linux/device.h>
	#include <linux/interrupt.h>

	#include <asm/io.h>
	#include <asm/irq.h>
	#include "l2_cp15_registers.h"

	/*
	DEFINITIONS AND DECLARATIONS FOR MODULE

	This section contains definitions for constants, macros, types, variables
	and other items needed by this module.
	*/

	/*
	Constant / Define Declarations
	*/

	#define PM_NUM_COUNTERS 4
	#define L2_PM_ERR -1

	/*------------------------------------------------------------------------
	* Global control bits
	------------------------------------------------------------------------*/
	#define PM_L2_GLOBAL_ENABLE (1<<0)
	#define PM_L2_EVENT_RESET (1<<1)
	#define PM_L2_CYCLE_RESET (1<<2)
	#define PM_L2_CLKDIV (1<<3)
	#define PM_L2_GLOBAL_TRACE (1<<4)
	#define PM_L2_DISABLE_PROHIBIT (1<<5)

	/*---------------------------------------------------------------------------
	* Enable and clear bits for each event/trigger
	----------------------------------------------------------------------------*/
	#define PM_L2EV0_ENABLE (1<<0)
	#define PM_L2EV1_ENABLE (1<<1)
	#define PM_L2EV2_ENABLE (1<<2)
	#define PM_L2EV3_ENABLE (1<<3)
	#define PM_L2_COUNT_ENABLE (1<<31)
	#define PM_L2_ALL_ENABLE (0x8000000F)


	/*-----------------------------------------------------------------------------
	* Overflow actions
	------------------------------------------------------------------------------*/
	#define PM_L2_OVERFLOW_NOACTION (0)
	#define PM_L2_OVERFLOW_HALT (1)
	#define PM_L2_OVERFLOW_STOP (2)
	#define PM_L2_OVERFLOW_SKIP (3)

	/*
	* Shifts for each trigger type
	*/
	#define PM_STOP_SHIFT 24
	#define PM_RELOAD_SHIFT 22
	#define PM_RESUME_SHIFT 20
	#define PM_SUSPEND_SHIFT 18
	#define PM_START_SHIFT 16
	#define PM_STOPALL_SHIFT 15
	#define PM_STOPCOND_SHIFT 12
	#define PM_RELOADCOND_SHIFT 9
	#define PM_RESUMECOND_SHIFT 6
	#define PM_SUSPENDCOND_SHIFT 3
	#define PM_STARTCOND_SHIFT 0


	/*---------------------------------------------------------------------------
	External control register. What todo when various events happen.
	Triggering events, etc.
	----------------------------------------------------------------------------*/
	#define PM_EXTTR0 0
	#define PM_EXTTR1 1
	#define PM_EXTTR2 2
	#define PM_EXTTR3 3

	#define PM_COND_NO_STOP 0
	#define PM_COND_STOP_CNTOVRFLW 1
	#define PM_COND_STOP_EXTERNAL 4
	#define PM_COND_STOP_TRACE 5
	#define PM_COND_STOP_EVOVRFLW 6
	#define PM_COND_STOP_EVTYPER 7

	/*--------------------------------------------------------------------------
	Protect against concurrent access. There is an index register that is
	used to select the appropriate bank of registers. If multiple processes
	are writting this at different times we could have a mess...
	---------------------------------------------------------------------------*/
	#define PM_LOCK()
	#define PM_UNLOCK()
	#define PRINT printk

	/*--------------------------------------------------------------------------
	The Event definitions
	--------------------------------------------------------------------------*/
	#define L2PM_EVT_PM0_EVT0 0x00
	#define L2PM_EVT_PM0_EVT1 0x01
	#define L2PM_EVT_PM0_EVT2 0x02
	#define L2PM_EVT_PM0_EVT3 0x03
	#define L2PM_EVT_PM1_EVT0 0x04
	#define L2PM_EVT_PM1_EVT1 0x05
	#define L2PM_EVT_PM1_EVT2 0x06
	#define L2PM_EVT_PM1_EVT3 0x07
	#define L2PM_EVT_PM2_EVT0 0x08
	#define L2PM_EVT_PM2_EVT1 0x09
	#define L2PM_EVT_PM2_EVT2 0x0a
	#define L2PM_EVT_PM2_EVT3 0x0b
	#define L2PM_EVT_PM3_EVT0 0x0c
	#define L2PM_EVT_PM3_EVT1 0x0d
	#define L2PM_EVT_PM3_EVT2 0x0e
	#define L2PM_EVT_PM3_EVT3 0x0f
	#define L2PM_EVT_PM4_EVT0 0x10
	#define L2PM_EVT_PM4_EVT1 0x11
	#define L2PM_EVT_PM4_EVT2 0x12
	#define L2PM_EVT_PM4_EVT3 0x13

	/*
	Type Declarations
	*/

	/*
	Local Object Definitions
	*/

	unsigned long l2_pm_cycle_overflow_count;
	unsigned long l2_pm_overflow_count[PM_NUM_COUNTERS];

	/*---------------------------------------------------------------------------
	Max number of events read from the config registers
	---------------------------------------------------------------------------*/
	static int pm_l2_max_events;

	static int irqid;

	/*
	Function Definitions
	*/

	/*
	FUNCTION l2_pm_group_stop

	DESCRIPTION Stop a group of the performance monitors. Event monitor 0 is bit
	0, event monitor 1 bit 1, etc. The cycle count can also be disable with
	bit 31. Macros are provided for all of the indexes including an ALL.

	DEPENDENCIES

	RETURN VALUE
	None

	SIDE EFFECTS
	Stops the performance monitoring for the index passed.
	*/
	void pm_l2_group_stop(unsigned long mask)
	{
	WCP15_L2PMCNTENCLR(mask);
	}

	/*
	FUNCTION l2_pm_group_start

	DESCRIPTION Start a group of the performance monitors. Event monitor 0 is bit
	0, event monitor 1 bit 1, etc. The cycle count can also be enabled with
	bit 31. Macros are provided for all of the indexes including an ALL.

	DEPENDENCIES

	RETURN VALUE
	None

	SIDE EFFECTS
	Starts the performance monitoring for the index passed.
	*/
	void pm_l2_group_start(unsigned long mask)
	{
	WCP15_L2PMCNTENSET(mask);
	}

	/*
	FUNCTION l2_pm_get_overflow

	DESCRIPTION Return the overflow condition for the index passed.

	DEPENDENCIES

	RETURN VALUE
	0 no overflow
	!0 (anything else) overflow;

	SIDE EFFECTS
	*/
	unsigned long l2_pm_get_overflow(int index)
	{
	unsigned long overflow = 0;

	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return L2_PM_ERR;
	RCP15_L2PMOVSR(overflow);

	return overflow & (1<<index);
	}

	/*
	FUNCTION l2_pm_get_cycle_overflow

	DESCRIPTION
	Returns if the cycle counter has overflowed or not.

	DEPENDENCIES

	RETURN VALUE
	0 no overflow
	!0 (anything else) overflow;

	SIDE EFFECTS
	*/
	unsigned long l2_pm_get_cycle_overflow(void)
	{
	unsigned long overflow = 0;

	RCP15_L2PMOVSR(overflow);
	return overflow & PM_L2_COUNT_ENABLE;
	}

	/*
	FUNCTION l2_pm_reset_overflow

	DESCRIPTION Reset the cycle counter overflow bit.

	DEPENDENCIES

	RETURN VALUE
	None

	SIDE EFFECTS
	*/
	void l2_pm_reset_overflow(int index)
	{
	WCP15_L2PMOVSR(1<<index);
	}

	/*
	FUNCTION l2_pm_reset_cycle_overflow

	DESCRIPTION Reset the cycle counter overflow bit.

	DEPENDENCIES

	RETURN VALUE
	None

	SIDE EFFECTS
	*/
	void l2_pm_reset_cycle_overflow(void)
	{
	WCP15_L2PMOVSR(PM_L2_COUNT_ENABLE);
	}

	/*
	FUNCTION l2_pm_get_cycle_count

	DESCRIPTION return the count in the cycle count register.

	DEPENDENCIES

	RETURN VALUE
	The value in the cycle count register.

	SIDE EFFECTS
	*/
	unsigned long l2_pm_get_cycle_count(void)
	{
	unsigned long cnt = 0;
	RCP15_L2PMCCNTR(cnt);
	return cnt;
	}

	/*
	FUNCTION l2_pm_reset_cycle_count

	DESCRIPTION reset the value in the cycle count register

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	Resets the performance monitor cycle count register.
	Any interrupts period based on this overflow will be changed
	*/
	void l2_pm_reset_cycle_count(void)
	{
	WCP15_L2PMCNTENCLR(PM_L2_COUNT_ENABLE);
	}

	/*
	FUNCTION l2_pm_cycle_div_64

	DESCRIPTION Set the cycle counter to count every 64th cycle instead of
	every cycle when the value passed is 1, otherwise counts every cycle.

	DEPENDENCIES

	RETURN VALUE
	none

	SIDE EFFECTS
	Changes the rate at which cycles are counted. Anything that is reading
	the cycle count (pmGetCyucleCount) may get different results.
	*/
	void l2_pm_cycle_div_64(int enable)
	{
	unsigned long enables = 0;

	RCP15_L2PMCR(enables);
	if (enable)
	WCP15_L2PMCR(enables \| PM_L2_CLKDIV);
	else
	WCP15_L2PMCR(enables & ~PM_L2_CLKDIV);
	}

	/*
	FUNCTION l2_pm_enable_cycle_counter

	DESCRIPTION Enable the cycle counter. Sets the bit in the enable register
	so the performance monitor counter starts up counting.

	DEPENDENCIES

	RETURN VALUE
	none

	SIDE EFFECTS
	*/
	void l2_pm_enable_cycle_counter(void)
	{
	/*
	* Enable the counter.
	*/
	WCP15_L2PMCNTENSET(PM_L2_COUNT_ENABLE);
	}

	/*
	FUNCTION l2_pm_disable_counter

	DESCRIPTION Disable a single counter based on the index passed.

	DEPENDENCIES

	RETURN VALUE
	none

	SIDE EFFECTS
	Any triggers that are based on the stoped counter may not trigger...
	*/
	void l2_pm_disable_counter(int index)
	{
	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return;
	WCP15_L2PMCNTENCLR(1<<index);
	}

	/*
	FUNCTION l2_pm_enable_counter

	DESCRIPTION Enable the counter with the index passed.

	DEPENDENCIES

	RETURN VALUE
	none.

	SIDE EFFECTS
	*/
	void l2_pm_enable_counter(int index)
	{
	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return;
	WCP15_L2PMCNTENSET(1<<index);
	}

	/*
	FUNCTION l2_pm_set_count

	DESCRIPTION Set the number of events in a register, used for resets
	passed.

	DEPENDENCIES

	RETURN VALUE
	-1 if the index is out of range

	SIDE EFFECTS
	*/
	int l2_pm_set_count(int index, unsigned long new_value)
	{
	unsigned long reg = 0;

	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return L2_PM_ERR;

	/*
	* Lock, select the index and read the count...unlock
	*/
	PM_LOCK();
	WCP15_L2PMSELR(index);
	WCP15_L2PMXEVCNTR(new_value);
	PM_UNLOCK();
	return reg;
	}

	int l2_pm_reset_count(int index)
	{
	return l2_pm_set_count(index, 0);
	}

	/*
	FUNCTION l2_pm_get_count

	DESCRIPTION Return the number of events that have happened for the index
	passed.

	DEPENDENCIES

	RETURN VALUE
	-1 if the index is out of range
	The number of events if inrange

	SIDE EFFECTS
	*/
	unsigned long l2_pm_get_count(int index)
	{
	unsigned long reg = 0;

	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return L2_PM_ERR;

	/*
	* Lock, select the index and read the count...unlock
	*/
	PM_LOCK();
	WCP15_L2PMSELR(index);
	RCP15_L2PMXEVCNTR(reg);
	PM_UNLOCK();
	return reg;
	}

	unsigned long get_filter_code(unsigned long event)
	{
	if (event == 0x0 \|\| event == 0x4 \|\| event == 0x08
	\|\| event == 0x0c \|\| event == 0x10)
	return 0x0001003f;
	else if (event == 0x1 \|\| event == 0x5 \|\| event == 0x09
	\|\| event == 0x0d \|\| event == 0x11)
	return 0x0002003f;
	else if (event == 0x2 \|\| event == 0x6 \|\| event == 0x0a
	\|\| event == 0x0e \|\| event == 0x12)
	return 0x0004003f;
	else if (event == 0x3 \|\| event == 0x7 \|\| event == 0x0b
	\|\| event == 0x0f \|\| event == 0x13)
	return 0x0008003f;
	else
	return 0;
	}

	int l2_pm_set_event(int index, unsigned long event)
	{
	unsigned long reg = 0;

	/*
	* Range check
	*/
	if (index > pm_l2_max_events)
	return L2_PM_ERR;

	/*
	* Lock, select the index and read the count...unlock
	*/
	PM_LOCK();
	WCP15_L2PMSELR(index);
	WCP15_L2PMXEVTYPER(event);
	/* WCP15_L2PMXEVFILTER(get_filter_code(event)); */
	WCP15_L2PMXEVFILTER(0x000f003f);
	PM_UNLOCK();
	return reg;
	}

	/*
	FUNCTION pm_set_local_bu

	DESCRIPTION Set the local BU triggers. Note that the MSB determines if
	these are enabled or not.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void pm_set_local_bu(unsigned long value)
	{
	WCP15_L2PMEVTYPER0(value);
	}

	/*
	FUNCTION pm_set_local_cb

	DESCRIPTION Set the local CB triggers. Note that the MSB determines if
	these are enabled or not.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void pm_set_local_cb(unsigned long value)
	{
	WCP15_L2PMEVTYPER1(value);
	}

	/*
	FUNCTION pm_set_local_mp

	DESCRIPTION Set the local MP triggers. Note that the MSB determines if
	these are enabled or not.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void pm_set_local_mp(unsigned long value)
	{
	WCP15_L2PMEVTYPER2(value);
	}

	/*
	FUNCTION pm_set_local_sp

	DESCRIPTION Set the local SP triggers. Note that the MSB determines if
	these are enabled or not.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void pm_set_local_sp(unsigned long value)
	{
	WCP15_L2PMEVTYPER3(value);
	}

	/*
	FUNCTION pm_set_local_scu

	DESCRIPTION Set the local SCU triggers. Note that the MSB determines if
	these are enabled or not.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void pm_set_local_scu(unsigned long value)
	{
	WCP15_L2PMEVTYPER4(value);
	}

	/*
	FUNCTION l2_pm_isr

	DESCRIPTION:
	Performance Monitor interrupt service routine to capture overflows

	DEPENDENCIES

	RETURN VALUE

	SIDE EFFECTS
	*/
	static irqreturn_t l2_pm_isr(int irq, void *d)
	{
	int i;

	for (i = 0; i < PM_NUM_COUNTERS; i++) {
	if (l2_pm_get_overflow(i)) {
	l2_pm_overflow_count[i]++;
	l2_pm_reset_overflow(i);
	}
	}

	if (l2_pm_get_cycle_overflow()) {
	l2_pm_cycle_overflow_count++;
	l2_pm_reset_cycle_overflow();
	}

	return IRQ_HANDLED;
	}


	void l2_pm_stop_all(void)
	{
	WCP15_L2PMCNTENCLR(0xFFFFFFFF);
	}

	void l2_pm_reset_all(void)
	{
	WCP15_L2PMCR(0xF);
	WCP15_L2PMOVSR(PM_L2_ALL_ENABLE); /* overflow clear */
	}

	void l2_pm_start_all(void)
	{
	WCP15_L2PMCNTENSET(PM_L2_ALL_ENABLE);
	}

	/*
	FUNCTION l2_pm_initialize

	DESCRIPTION Initialize the performanca monitoring for the v7 processor.
	Ensures the cycle count is running and the event counters are enabled.

	DEPENDENCIES

	RETURN VALUE
	NONE

	SIDE EFFECTS
	*/
	void l2_pm_initialize(void)
	{
	unsigned long reg = 0;
	unsigned char imp;
	unsigned char id;
	unsigned char num;
	unsigned long enables = 0;
	static int initialized;

	if (initialized)
	return;
	initialized = 1;

	irqid = SC_SICL2PERFMONIRPTREQ;
	RCP15_L2PMCR(reg);
	imp = (reg>>24) & 0xFF;
	id = (reg>>16) & 0xFF;
	pm_l2_max_events = num = (reg>>11) & 0xFF;
	PRINT("V7 MP L2SCU Performance Monitor Capabilities\n");
	PRINT(" Implementor %c(%d)\n", imp, imp);
	PRINT(" Id %d %x\n", id, id);
	PRINT(" Num Events %d %x\n", num, num);
	PRINT("\nCycle counter enabled by default...\n");

	/*
	* Global enable, ensure the global enable is set so all
	* subsequent actions take effect. Also resets the counts
	*/
	RCP15_L2PMCR(enables);
	WCP15_L2PMCR(enables \| PM_L2_GLOBAL_ENABLE \| PM_L2_EVENT_RESET \|
	PM_L2_CYCLE_RESET \| PM_L2_CLKDIV);

	/*
	* Enable access from user space
	*/

	/*
	* Install interrupt handler and the enable the interrupts
	*/
	l2_pm_reset_cycle_overflow();
	l2_pm_reset_overflow(0);
	l2_pm_reset_overflow(1);
	l2_pm_reset_overflow(2);
	l2_pm_reset_overflow(3);
	l2_pm_reset_overflow(4);

	if (0 != request_irq(irqid, l2_pm_isr, 0, "l2perfmon", 0))
	printk(KERN_ERR "%s:%d request_irq returned error\n",
	__FILE__, __LINE__);
	WCP15_L2PMINTENSET(PM_L2_ALL_ENABLE);
	/*
	* Enable the cycle counter. Default, count 1:1 no divisor.
	*/
	l2_pm_enable_cycle_counter();

	}

	void l2_pm_free_irq(void)
	{
	free_irq(irqid, 0);
	}

	void l2_pm_deinitialize(void)
	{
	unsigned long enables = 0;
	RCP15_L2PMCR(enables);
	WCP15_L2PMCR(enables & ~PM_L2_GLOBAL_ENABLE);
	}