fpc-impl.c revision 110e73f9b5ccaa10e26a8f79807001a5da72604e
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#pragma ident "%Z%%M% %I% %E% SMI"
#include <sys/param.h>
#include <sys/types.h>
#include <sys/errno.h>
#include <sys/kmem.h>
#include <sys/sunddi.h>
#include <sys/disp.h>
#include <fpc.h>
#include <fpc-impl.h>
#define BOUNDS_CHECK_FAILS(arg, max) ((arg < 0) && (arg >= max))
static int this_node = 0;
node_data_t node_data[NUM_LEAVES];
int fpc_debug = 0;
static int counters_per_type[MAX_REG_TYPES] = {
NUM_JBC_COUNTERS,
NUM_IMU_COUNTERS,
NUM_MMU_COUNTERS,
NUM_TLU_COUNTERS,
NUM_LPU_COUNTERS
};
static int first_reg_of_type[MAX_REG_TYPES];
static uint64_t event_field_mask[NUM_TOTAL_COUNTERS] = {
JBC_PIC0_EVT_MASK, /* JBC counter 0 */
JBC_PIC1_EVT_MASK, /* JBC counter 1 */
IMU_PIC0_EVT_MASK, /* IMU counter 0 */
IMU_PIC1_EVT_MASK, /* IMU counter 1 */
MMU_PIC0_EVT_MASK, /* MMU counter 0 */
MMU_PIC1_EVT_MASK, /* MMU counter 1 */
TLU_PIC0_EVT_MASK, /* TLU counter 0 */
TLU_PIC1_EVT_MASK, /* TLU counter 1 */
TLU_PIC2_EVT_MASK, /* TLU counter 2 */
LPU_PIC0_EVT_MASK, /* LPU counter 1 */
LPU_PIC1_EVT_MASK /* LPU counter 2 */
};
/* Offsets of the fields shown in event_field_masks. */
static int event_field_offset[NUM_TOTAL_COUNTERS] = {
PIC0_EVT_SEL_SHIFT, /* JBC counter 0 */
PIC1_EVT_SEL_SHIFT, /* JBC counter 1 */
PIC0_EVT_SEL_SHIFT, /* IMU counter 0 */
PIC1_EVT_SEL_SHIFT, /* IMU counter 1 */
PIC0_EVT_SEL_SHIFT, /* MMU counter 0 */
PIC1_EVT_SEL_SHIFT, /* MMU counter 1 */
PIC0_EVT_SEL_SHIFT, /* TLU counter 0 */
PIC1_EVT_SEL_SHIFT, /* TLU counter 1 */
PIC2_EVT_SEL_SHIFT, /* TLU counter 2 */
PIC0_EVT_SEL_SHIFT, /* LPU counter 1 */
PIC2_EVT_SEL_SHIFT /* LPU counter 2 */
};
/*ARGSUSED*/
void
fpc_common_node_setup(dev_info_t *dip, int *index_p)
{
char pathname[MAXPATHLEN];
(void) ddi_pathname(dip, pathname);
node_data[this_node].name =
kmem_zalloc(strlen(pathname)+1, KM_SLEEP);
(void) strcpy(node_data[this_node].name, pathname);
mutex_init(&node_data[this_node].mutex, NULL, MUTEX_DRIVER, NULL);
*index_p = this_node++;
}
int
fpc_perfcnt_module_init(dev_info_t *fpc_dip, int *avail)
{
int i;
dev_info_t *dip;
*avail = 0;
for (i = 1; i < MAX_REG_TYPES; i++) {
first_reg_of_type[i] =
first_reg_of_type[i-1] + counters_per_type[i-1];
}
/*
* Look thru first level of device tree only.
* Assume there can be no more than NUM_LEAVES nodes in the system.
*/
dip = ddi_root_node();
for (dip = ddi_get_child(dip);
((dip != NULL) && (this_node < NUM_LEAVES));
dip = ddi_get_next_sibling(dip)) {
if (fpc_platform_node_init(dip, avail) != SUCCESS)
return (DDI_FAILURE);
}
return ((*avail) ? fpc_platform_module_init(fpc_dip) : DDI_FAILURE);
}
int
fpc_perfcnt_module_fini(dev_info_t *dip)
{
int i;
for (i = 0; i < NUM_LEAVES; i++) {
fpc_platform_node_fini(node_data[i].plat_data_p);
if (node_data[i].name != NULL)
kmem_free(node_data[i].name,
strlen(node_data[i].name) + 1);
mutex_destroy(&node_data[i].mutex);
}
fpc_platform_module_fini(dip);
return (DDI_SUCCESS);
}
char
*fpc_get_dev_name_by_number(int index)
{
return (node_data[index].name);
}
void *
fpc_get_platform_data_by_number(int index)
{
return (node_data[index].plat_data_p);
}
int
fpc_set_platform_data_by_number(int index, void *data_p)
{
node_data[index].plat_data_p = data_p;
return (SUCCESS);
}
static int
fpc_get_mutex_by_number(int index, kmutex_t **mutex_pp)
{
*mutex_pp = &node_data[index].mutex;
return (SUCCESS);
}
static int
fpc_get_counter_reg_index(fire_perfcnt_t regtype, int counter)
{
FPC_DBG1(
"fpc_get_counter_reg_index: regtype:%d, counter:%d, bounds:%d\n",
regtype, counter, counters_per_type[regtype]);
if (BOUNDS_CHECK_FAILS(counter, counters_per_type[regtype]))
return (-1);
FPC_DBG1("returning: %d\n", first_reg_of_type[regtype] + counter);
return (first_reg_of_type[regtype] + counter);
}
/*
* Program a performance counter.
*
* reggroup is which type of counter.
* counter is the counter number.
* event is the event to program for that counter.
*/
int
fpc_perfcnt_program(int devnum, fire_perfcnt_t reggroup,
uint64_t new_events)
{
int counter_index;
fire_perfreg_handle_t firehdl;
kmutex_t *mutex_p;
uint64_t old_events;
int rval = SUCCESS;
uint64_t zero = 0ull;
int num_counters, counter;
FPC_DBG1("fpc_perfcnt_program enter:\n");
FPC_DBG1(" devnum:%d, reggroup:%d, new_events:0x%" PRIx64 "\n",
devnum, reggroup, new_events);
if ((firehdl = fpc_get_perfreg_handle(devnum)) ==
(fire_perfreg_handle_t)-1)
return (EIO);
num_counters = counters_per_type[reggroup];
if (fpc_get_mutex_by_number(devnum, &mutex_p) != DDI_SUCCESS) {
(void) fpc_free_counter_handle(firehdl);
return (EIO);
}
mutex_enter(mutex_p);
if ((rval = fpc_event_io(firehdl, reggroup, &old_events, IS_READ)) !=
SUCCESS) {
FPC_DBG1("Read of old event data failed, group:%d\n", reggroup);
goto done_pgm;
}
for (counter = 0; counter < num_counters; counter++) {
counter_index = fpc_get_counter_reg_index(reggroup, counter);
if ((old_events & event_field_mask[counter_index]) ==
(new_events & event_field_mask[counter_index]))
continue;
FPC_DBG1("Zeroing counter %d\n", counter_index);
if ((rval = fpc_counter_io(firehdl, reggroup, counter_index,
&zero, IS_WRITE)) != SUCCESS)
goto done_pgm;
}
if (old_events != new_events) {
if ((rval =
fpc_event_io(firehdl, reggroup, &new_events, IS_WRITE)) !=
SUCCESS) {
FPC_DBG1("Write of new event data failed, group:%d\n",
reggroup);
goto done_pgm;
}
}
done_pgm:
mutex_exit(mutex_p);
(void) fpc_free_counter_handle(firehdl);
return (rval);
}
/*
* Read a performance counter.
*
* reggroup is which type of counter.
* event_p returns the event programmed for that counter.
* values returns the counter values.
*/
int
fpc_perfcnt_read(int devnum, fire_perfcnt_t reggroup,
uint64_t *event_p, uint64_t values[NUM_MAX_COUNTERS])
{
fire_perfreg_handle_t firehdl;
int counter_index;
kmutex_t *mutex_p;
int rval;
int num_counters, counter;
FPC_DBG1("fpc_perfcnt_read: devnum:%d\n", devnum);
num_counters = counters_per_type[reggroup];
if ((firehdl = fpc_get_perfreg_handle(devnum)) ==
(fire_perfreg_handle_t)-1)
return (EIO);
if (fpc_get_mutex_by_number(devnum, &mutex_p) != DDI_SUCCESS)
return (EIO);
mutex_enter(mutex_p);
if ((rval = fpc_event_io(firehdl, reggroup, event_p, IS_READ)) !=
SUCCESS)
goto done_read;
for (counter = 0; counter < num_counters; counter++) {
counter_index = fpc_get_counter_reg_index(reggroup, counter);
if ((rval = fpc_counter_io(firehdl, reggroup, counter_index,
&values[counter], IS_READ)) != SUCCESS)
goto done_read;
FPC_DBG1("Read_counter %d / %d, status:%d, value returned:0x%"
PRIx64 "\n", reggroup, counter, rval, values[counter]);
}
done_read:
mutex_exit(mutex_p);
(void) fpc_free_counter_handle(firehdl);
return (rval);
}