kernel_samsung_a34x-permissive/drivers/misc/mediatek/trusted_mem/profiler.c
2024-04-28 15:49:01 +02:00

344 lines
9.4 KiB
C
Executable file

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#define TMEM_PROFILE_FMT
#define PR_FMT_HEADER_MUST_BE_INCLUDED_BEFORE_ALL_HDRS
#include "private/tmem_pr_fmt.h" PR_FMT_HEADER_MUST_BE_INCLUDED_BEFORE_ALL_HDRS
#include <linux/errno.h>
#include <linux/kernel.h>
#include <linux/proc_fs.h>
#include <linux/string.h>
#include <linux/uaccess.h>
#include <linux/unistd.h>
#include <linux/types.h>
#include <linux/mutex.h>
#include <linux/time.h>
#include <linux/slab.h>
#include "private/mld_helper.h"
#include "private/tmem_error.h"
#include "private/tmem_device.h"
#include "private/tmem_utils.h"
#include "private/tmem_priv.h"
struct profile_entry_string {
int idx;
const char *str;
};
#define STR(a) #a
struct profile_entry_string profile_entry_str[] = {
{PROFILE_ENTRY_SSMR_GET, STR(SSMR_GET)},
{PROFILE_ENTRY_SSMR_PUT, STR(SSMR_PUT)},
{PROFILE_ENTRY_CHUNK_ALLOC, STR(CHUNK_ALLOC)},
{PROFILE_ENTRY_CHUNK_FREE, STR(CHUNK_FREE)},
{PROFILE_ENTRY_MEM_ADD, STR(MEM_ADD)},
{PROFILE_ENTRY_MEM_REMOVE, STR(MEM_REMOVE)},
{PROFILE_ENTRY_SESSION_OPEN, STR(SESSION_OPEN)},
{PROFILE_ENTRY_SESSION_CLOSE, STR(SESSION_CLOSE)},
{PROFILE_ENTRY_INVOKE_COMMAND, STR(INVOKE_COMMAND)},
};
#define GET_START_TIME() do_gettimeofday(&start_time)
#define GET_END_TIME() do_gettimeofday(&end_time)
#define SEC_TO_US(s) (s*1000000)
#include <asm/div64.h>
static inline u64 u64_div(u64 n, u64 base)
{
do_div(n, base);
return n;
}
static inline u64 us_to_ms(u64 us)
{
return u64_div(us, 1000);
}
static bool is_valid_profile_entry(enum PROFILE_ENTRY_TYPE entry)
{
return ((entry >= PROFILE_ENTRY_SSMR_GET)
&& (entry < PROFILE_ENTRY_MAX));
}
void trusted_mem_core_profile_dump(struct trusted_mem_device *mem_device)
{
int idx;
u64 average_one_time_us;
u64 average_one_time_ms;
struct profile_data_context *data = &mem_device->profile_mgr->data;
pr_info("=================================================\n");
pr_info("[%d] Profiling Summary:\n", mem_device->mem_type);
for (idx = 0; idx < PROFILE_ENTRY_MAX; idx++) {
average_one_time_us = SEC_TO_US(data->item[idx].sec);
average_one_time_us += data->item[idx].usec;
average_one_time_us =
u64_div(average_one_time_us, data->item[idx].count);
average_one_time_ms = us_to_ms(average_one_time_us);
pr_info("[%d] Entry: %s\n", mem_device->mem_type,
profile_entry_str[idx].str);
pr_info("[%d] invoke count: %lld\n", mem_device->mem_type,
data->item[idx].count);
pr_info("[%d] spend time: %lld.%06lld sec\n",
mem_device->mem_type, data->item[idx].sec,
data->item[idx].usec);
pr_info("[%d] average one time: %lld msec (%06lld usec)\n",
mem_device->mem_type, average_one_time_ms,
average_one_time_us);
}
pr_info("=================================================\n");
}
static void increase_enter_count(enum PROFILE_ENTRY_TYPE entry,
struct profile_data_context *data)
{
if (!is_valid_profile_entry(entry))
return;
mutex_lock(&data->item[entry].lock);
data->item[entry].count++;
mutex_unlock(&data->item[entry].lock);
}
static void add_exec_time(enum PROFILE_ENTRY_TYPE entry,
struct profile_data_context *data,
struct timeval *start, struct timeval *end)
{
int time_diff_sec = GET_TIME_DIFF_SEC_P(start, end);
int time_diff_usec = GET_TIME_DIFF_USEC_P(start, end);
if (!is_valid_profile_entry(entry))
return;
mutex_lock(&data->item[entry].lock);
data->item[entry].sec += time_diff_sec;
data->item[entry].usec += time_diff_usec;
if (data->item[entry].usec > 1000000) {
data->item[entry].sec += 1;
data->item[entry].usec -= 1000000;
}
mutex_unlock(&data->item[entry].lock);
}
static int profile_ssmr_get(u64 *pa, u32 *size, u32 feat, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_SSMR_GET, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_ssmr_ops->offline(pa, size, feat,
prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_SSMR_GET, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_ssmr_put(u32 feat, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_SSMR_PUT, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_ssmr_ops->online(feat,
prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_SSMR_PUT, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_chunk_alloc(u32 alignment, u32 size, u32 *refcount,
u32 *sec_handle, u8 *owner, u32 id, u32 clean,
void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_CHUNK_ALLOC, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->memory_alloc(
alignment, size, refcount, sec_handle, owner, id, clean,
peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_CHUNK_ALLOC, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_chunk_free(u32 sec_handle, u8 *owner, u32 id,
void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_CHUNK_FREE, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->memory_free(
sec_handle, owner, id, peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_CHUNK_FREE, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_mem_add(u64 pa, u32 size, void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_MEM_ADD, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->memory_grant(
pa, size, peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_MEM_ADD, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_mem_remove(void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_MEM_REMOVE, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->memory_reclaim(
peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_MEM_REMOVE, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_session_open(void **peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_SESSION_OPEN, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->session_open(
peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_SESSION_OPEN, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int profile_session_close(void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_SESSION_CLOSE, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->session_close(
peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_SESSION_CLOSE, &prof_mgr->data, &start_time,
&end_time);
return ret;
}
static int
profile_invoke_command(struct trusted_driver_cmd_params *invoke_params,
void *peer_data, void *dev_desc)
{
int ret;
struct timeval start_time, end_time;
struct profile_mgr_desc *prof_mgr = (struct profile_mgr_desc *)dev_desc;
increase_enter_count(PROFILE_ENTRY_INVOKE_COMMAND, &prof_mgr->data);
GET_START_TIME();
ret = prof_mgr->profiled_peer_ops->invoke_cmd(
invoke_params, peer_data, prof_mgr->profiled_dev_desc);
GET_END_TIME();
add_exec_time(PROFILE_ENTRY_INVOKE_COMMAND, &prof_mgr->data,
&start_time, &end_time);
return ret;
}
static struct trusted_driver_operations profiler_peer_ops = {
.session_open = profile_session_open,
.session_close = profile_session_close,
.memory_alloc = profile_chunk_alloc,
.memory_free = profile_chunk_free,
.memory_grant = profile_mem_add,
.memory_reclaim = profile_mem_remove,
.invoke_cmd = profile_invoke_command,
};
static struct ssmr_operations profiler_ssmr_ops = {
.offline = profile_ssmr_get,
.online = profile_ssmr_put,
};
struct profile_mgr_desc *create_profile_mgr_desc(void)
{
int idx;
struct profile_mgr_desc *t_profile_desc;
pr_info("TMEM_PROFILE_ENABLED\n");
t_profile_desc =
mld_kmalloc(sizeof(struct profile_mgr_desc), GFP_KERNEL);
if (INVALID(t_profile_desc)) {
pr_err("%s:%d out of memory!\n", __func__, __LINE__);
return NULL;
}
for (idx = 0; idx < PROFILE_ENTRY_MAX; idx++) {
mutex_init(&t_profile_desc->data.item[idx].lock);
t_profile_desc->data.item[idx].count = 0;
t_profile_desc->data.item[idx].sec = 0;
t_profile_desc->data.item[idx].usec = 0;
}
t_profile_desc->profiled_peer_ops = &profiler_peer_ops;
t_profile_desc->profiled_ssmr_ops = &profiler_ssmr_ops;
t_profile_desc->profiled_dev_desc = t_profile_desc;
return t_profile_desc;
}