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

4319 lines
122 KiB
C
Executable file

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#include "mdp_common.h"
#include "mdp_cmdq_device.h"
#include "mdp_cmdq_record.h"
#include "cmdq_reg.h"
#if IS_ENABLED(CONFIG_MMPROFILE)
#include "cmdq_mmp.h"
#endif
#ifdef MDP_COMMON_ENG_SUPPORT
#include "mdp_engine_common.h"
#else
#include "mdp_engine.h"
#endif
#ifdef CONFIG_MTK_SMI_EXT
#include "smi_public.h"
#endif /* CONFIG_MTK_SMI_EXT */
#include <linux/slab.h>
#include <linux/soc/mediatek/mtk-pm-qos.h>
#include <linux/math64.h>
#include "mdp_pmqos.h"
#ifdef CONFIG_MTK_SMI_EXT
#include <mmdvfs_pmqos.h>
#endif /* CONFIG_MTK_SMI_EXT */
#include "mdp_cmdq_helper_ext.h"
#include "swpm_me.h"
#include <linux/kernel.h>
#include <linux/uaccess.h>
#include <linux/iopoll.h>
#include <linux/notifier.h>
#include <linux/sched/clock.h>
#include <linux/dmapool.h>
#include <linux/mailbox_controller.h>
#include <linux/module.h>
#include "ion_sec_heap.h"
#if IS_ENABLED(CONFIG_MTK_SVP_ON_MTEE_SUPPORT) || IS_ENABLED(CONFIG_MTK_CAM_GENIEZONE_SUPPORT)
#include "tz_m4u.h"
#endif
#ifdef CMDQ_SECURE_PATH_SUPPORT
#include <cmdq-sec.h>
#endif
#ifdef MDP_MMPATH
#ifndef CREATE_TRACE_POINTS
#define CREATE_TRACE_POINTS
#endif
#include "mmpath.h"
#endif /* MDP_MMPATH */
static struct mtk_pm_qos_request mdp_clk_qos_request[MDP_TOTAL_THREAD];
static struct mtk_pm_qos_request isp_clk_qos_request[MDP_TOTAL_THREAD];
#ifdef CONFIG_MTK_SMI_EXT
static u64 g_freq_steps[MAX_FREQ_STEP];
static u32 step_size;
#endif /* CONFIG_MTK_SMI_EXT */
#ifdef CONFIG_MTK_SMI_EXT
/* all module list */
struct plist_head qos_mdp_module_request_list[MDP_TOTAL_THREAD];
struct plist_head qos_isp_module_request_list[MDP_TOTAL_THREAD];
#endif /* CONFIG_MTK_SMI_EXT */
u32 dre30_hist_sram_start;
#define LEGACY_DRE30_HIST_SRAM_START 1024
#define CMDQ_LOG_PMQOS(string, args...) \
do { \
if (cmdq_core_should_pmqos_log()) { \
pr_notice("[CMDQ][MDP]"string, ##args); \
} \
} while (0)
#define DP_TIMER_GET_DURATION_IN_US(start, end, duration) \
do { \
u64 time1; \
u64 time2; \
\
time1 = (u64)(start.tv_sec) * 1000000 + \
(u64)(start.tv_usec); \
time2 = (u64)(end.tv_sec) * 1000000 + \
(u64)(end.tv_usec); \
\
duration = (s32)(time2 - time1); \
\
if (duration <= 0) \
duration = 1; \
} while (0)
#define DP_BANDWIDTH(data, pixel, throughput, bandwidth) \
do { \
u64 numerator; \
u64 denominator; \
\
/* ocucpied bw efficiency is 1.33 while accessing DRAM */ \
numerator = \
(u64)(div_u64((u64)(data) * 4 * (u64)(throughput), 3)); \
denominator = (u64)(pixel); \
if (denominator == 0) \
denominator = 1; \
bandwidth = (u32)(div_u64(numerator, denominator)); \
} while (0)
struct mdp_task {
char callerName[TASK_COMM_LEN];
char userDebugStr[DEBUG_STR_LEN];
};
static struct mdp_task mdp_tasks[MDP_MAX_TASK_NUM];
static u32 mdp_tasks_idx;
static struct cmdqMDPFuncStruct mdp_funcs;
static long cmdq_mmsys_base;
#define MDP_THREAD_COUNT ( \
CMDQ_MAX_THREAD_COUNT - MDP_THREAD_START)
struct mdp_thread {
u32 task_count;
u64 engine_flag;
bool acquired;
bool allow_dispatch;
bool secure;
bool mtee;
};
struct mdp_context {
struct list_head tasks_wait; /* task waiting for available thread */
struct mdp_thread thread[CMDQ_MAX_THREAD_COUNT];
struct EngineStruct engine[CMDQ_MAX_ENGINE_COUNT];
/* Resource manager information */
struct list_head resource_list; /* all resource list */
/* delay resource check workqueue */
struct workqueue_struct *resource_check_queue;
/* consume task from wait list */
struct work_struct handle_consume_item;
struct workqueue_struct *handle_consume_queue;
/* smi clock usage */
atomic_t mdp_smi_usage;
};
static struct mdp_context mdp_ctx;
static struct cmdq_buf_pool mdp_pool;
atomic_t mdp_pool_cnt;
static u32 mdp_pool_limit = 256;
static DEFINE_MUTEX(mdp_clock_mutex);
static DEFINE_MUTEX(mdp_task_mutex);
static DEFINE_MUTEX(mdp_thread_mutex);
static DEFINE_MUTEX(mdp_resource_mutex);
/* thread acquire notification */
static wait_queue_head_t mdp_thread_dispatch;
static struct notifier_block mdp_status_dump_notify;
/* use to generate [CMDQ_ENGINE_ENUM_id and name] mapping for status print */
#define CMDQ_FOREACH_MODULE_PRINT(ACTION)\
{ \
ACTION(CMDQ_ENG_ISP_IMGI, ISP_IMGI) \
ACTION(CMDQ_ENG_MDP_RDMA0, MDP_RDMA0) \
ACTION(CMDQ_ENG_MDP_RDMA1, MDP_RDMA1) \
ACTION(CMDQ_ENG_MDP_RSZ0, MDP_RSZ0) \
ACTION(CMDQ_ENG_MDP_RSZ1, MDP_RSZ1) \
ACTION(CMDQ_ENG_MDP_RSZ2, MDP_RSZ2) \
ACTION(CMDQ_ENG_MDP_TDSHP0, MDP_TDSHP0) \
ACTION(CMDQ_ENG_MDP_TDSHP1, MDP_TDSHP1) \
ACTION(CMDQ_ENG_MDP_COLOR0, MDP_COLOR0) \
ACTION(CMDQ_ENG_MDP_WROT0, MDP_WROT0) \
ACTION(CMDQ_ENG_MDP_WROT1, MDP_WROT1) \
ACTION(CMDQ_ENG_MDP_WDMA, MDP_WDMA) \
}
/* MDP common kernel logic */
struct EngineStruct *cmdq_mdp_get_engines(void)
{
return mdp_ctx.engine;
}
static void cmdq_mdp_reset_engine_struct(void)
{
int index;
/* Reset engine status */
for (index = 0; index < CMDQ_MAX_ENGINE_COUNT; index++)
mdp_ctx.engine[index].currOwner = CMDQ_INVALID_THREAD;
}
static void cmdq_mdp_reset_thread_struct(void)
{
int index;
/* Reset thread status */
memset(mdp_ctx.thread, 0, sizeof(mdp_ctx.thread[0]) *
ARRAY_SIZE(mdp_ctx.thread));
for (index = 0; index < ARRAY_SIZE(mdp_ctx.thread); index++)
mdp_ctx.thread[index].allow_dispatch = true;
#ifdef CMDQ_SECURE_PATH_SUPPORT
for (index = CMDQ_MIN_SECURE_THREAD_ID;
index < CMDQ_MIN_SECURE_THREAD_ID +
CMDQ_MAX_SECURE_THREAD_COUNT; index++)
mdp_ctx.thread[index].secure = true;
#endif
}
void cmdq_mdp_delay_check_unlock(const u64 engine_not_use)
{
/* Check engine in enginesNotUsed */
struct ResourceUnitStruct *res = NULL;
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (!(engine_not_use & res->engine_flag))
continue;
mutex_lock(&mdp_resource_mutex);
/* find matched engine become not used*/
if (!res->used) {
/* resource is not used but we got engine is released!
* log as error and still continue
*/
CMDQ_ERR(
"[Res]resource will delay but not used, engine:0x%llx\n",
res->engine_flag);
}
/* Cancel previous delay task if existed */
if (res->delaying) {
res->delaying = false;
cancel_delayed_work(&res->delayCheckWork);
}
/* Start a new delay task */
CMDQ_VERBOSE("[Res]queue delay unlock resource engine:0x%llx\n",
engine_not_use);
queue_delayed_work(mdp_ctx.resource_check_queue,
&res->delayCheckWork,
CMDQ_DELAY_RELEASE_RESOURCE_MS);
res->delay = sched_clock();
res->delaying = true;
mutex_unlock(&mdp_resource_mutex);
}
}
void cmdq_mdp_fix_command_scenario_for_user_space(
struct cmdqCommandStruct *command)
{
if (command->scenario == CMDQ_SCENARIO_USER_DISP_COLOR ||
command->scenario == CMDQ_SCENARIO_USER_MDP) {
CMDQ_VERBOSE("user space request, scenario:%d\n",
command->scenario);
} else {
CMDQ_VERBOSE(
"[WARNING]fix user space request to CMDQ_SCENARIO_USER_SPACE\n");
command->scenario = CMDQ_SCENARIO_USER_SPACE;
}
}
bool cmdq_mdp_is_request_from_user_space(
const enum CMDQ_SCENARIO_ENUM scenario)
{
switch (scenario) {
case CMDQ_SCENARIO_USER_DISP_COLOR:
case CMDQ_SCENARIO_USER_MDP:
case CMDQ_SCENARIO_USER_SPACE: /* phased out */
return true;
default:
return false;
}
return false;
}
s32 cmdq_mdp_query_usage(s32 *counters)
{
struct EngineStruct *engine;
s32 index;
engine = mdp_ctx.engine;
mutex_lock(&mdp_thread_mutex);
for (index = 0; index < CMDQ_MAX_ENGINE_COUNT; index++)
counters[index] = engine[index].userCount;
mutex_unlock(&mdp_thread_mutex);
return 0;
}
s32 cmdq_mdp_get_smi_usage(void)
{
return atomic_read(&mdp_ctx.mdp_smi_usage);
}
static void cmdq_mdp_common_clock_enable(void)
{
s32 smi_ref = atomic_inc_return(&mdp_ctx.mdp_smi_usage);
CMDQ_MSG("[CLOCK]MDP SMI clock enable %d\n", smi_ref);
cmdq_mdp_get_func()->mdpEnableCommonClock(true);
set_swpm_mdp_active(true);
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_clock_smi,
MMPROFILE_FLAG_PULSE, smi_ref, 1);
}
static void cmdq_mdp_common_clock_disable(void)
{
s32 smi_ref = atomic_dec_return(&mdp_ctx.mdp_smi_usage);
CMDQ_MSG("[CLOCK]MDP SMI clock disable %d\n", smi_ref);
set_swpm_mdp_active(false);
cmdq_mdp_get_func()->mdpEnableCommonClock(false);
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_clock_smi,
MMPROFILE_FLAG_PULSE, smi_ref, 0);
}
static s32 cmdq_mdp_clock_enable(u64 engine_flag)
{
s32 ret;
mutex_lock(&mdp_clock_mutex);
CMDQ_MSG("[CLOCK]%s engine:0x%llx\n", __func__, engine_flag);
/* common clock enable when get enabled engine,
* thus only enable mdp engine clocks.
*/
ret = cmdq_mdp_get_func()->mdpClockOn(engine_flag);
mutex_unlock(&mdp_clock_mutex);
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_clock_on,
MMPROFILE_FLAG_PULSE, (u32)(engine_flag >> 32),
(u32)engine_flag);
return ret;
}
static s32 cmdq_mdp_clock_disable(u64 engine_flag)
{
s32 ret;
CMDQ_MSG("[CLOCK]%s engine:0x%llx\n", __func__, engine_flag);
mutex_lock(&mdp_clock_mutex);
ret = cmdq_mdp_get_func()->mdpClockOff(engine_flag);
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_clock_off,
MMPROFILE_FLAG_PULSE, (u32)(engine_flag >> 32),
(u32)engine_flag);
mutex_unlock(&mdp_clock_mutex);
return ret;
}
void cmdq_mdp_reset_resource(void)
{
struct ResourceUnitStruct *resource;
list_for_each_entry(resource, &mdp_ctx.resource_list,
list_entry) {
mutex_lock(&mdp_resource_mutex);
if (resource->lend) {
CMDQ_LOG("[Res]Client is already lend, event:%d\n",
resource->lockEvent);
cmdqCoreClearEvent(resource->lockEvent);
}
mutex_unlock(&mdp_resource_mutex);
}
}
/* Use CMDQ as Resource Manager */
void cmdq_mdp_unlock_resource(struct work_struct *workItem)
{
struct ResourceUnitStruct *res = NULL;
struct delayed_work *delayedWorkItem = NULL;
s32 status = 0;
delayedWorkItem = container_of(workItem, struct delayed_work, work);
res = container_of(delayedWorkItem, struct ResourceUnitStruct,
delayCheckWork);
mutex_lock(&mdp_resource_mutex);
CMDQ_MSG("[Res]unlock resource with engine:0x%llx\n",
res->engine_flag);
if (res->used && res->delaying) {
res->unlock = sched_clock();
res->used = false;
res->delaying = false;
/* delay time is reached and unlock resource */
if (!res->availableCB) {
/* print error message */
CMDQ_LOG("[Res]available CB func is NULL, event:%d\n",
res->lockEvent);
} else {
CmdqResourceAvailableCB cb_func = res->availableCB;
/* before call callback, release lock at first */
mutex_unlock(&mdp_resource_mutex);
status = cb_func(res->lockEvent);
mutex_lock(&mdp_resource_mutex);
if (status < 0) {
/* Error status print */
CMDQ_ERR("[Res]available CB %d fail:%d\n",
res->lockEvent, status);
}
}
}
mutex_unlock(&mdp_resource_mutex);
}
void cmdq_mdp_init_resource(u32 engine_id,
enum cmdq_event res_event)
{
struct ResourceUnitStruct *res;
res = kzalloc(sizeof(struct ResourceUnitStruct), GFP_KERNEL);
if (!res) {
CMDQ_ERR("not enough mem for resource delay work\n");
return;
}
CMDQ_LOG("[Res]Init resource engine:%u event:%u\n",
engine_id, res_event);
res->engine_id = engine_id;
res->engine_flag = (1LL << engine_id);
res->lockEvent = res_event;
INIT_DELAYED_WORK(&res->delayCheckWork, cmdq_mdp_unlock_resource);
INIT_LIST_HEAD(&res->list_entry);
list_add_tail(&res->list_entry, &mdp_ctx.resource_list);
}
void cmdq_mdp_enable_res(u64 engine_flag, bool enable)
{
struct ResourceUnitStruct *res = NULL;
mutex_lock(&mdp_clock_mutex);
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (!(res->engine_flag & engine_flag))
continue;
CMDQ_MSG("[Res]resource clock engine:0x%llx enable:%s\n",
engine_flag, enable ? "true" : "false");
cmdq_mdp_get_func()->enableMdpClock(enable, res->engine_id);
break;
}
mutex_unlock(&mdp_clock_mutex);
}
static void cmdq_mdp_lock_res_impl(struct ResourceUnitStruct *res,
u64 engine_flag, bool from_notify)
{
mutex_lock(&mdp_resource_mutex);
/* find matched engine */
if (from_notify)
res->notify = sched_clock();
else
res->lock = sched_clock();
if (!res->used) {
/* First time used */
s32 status;
CMDQ_MSG("[Res]Lock res engine:0x%llx notify:%d release\n",
engine_flag, from_notify);
res->used = true;
if (!res->releaseCB) {
CMDQ_LOG("[Res]release CB func is NULL, event:%d\n",
res->lockEvent);
} else {
CmdqResourceReleaseCB cb_func = res->releaseCB;
/* release mutex before callback */
mutex_unlock(&mdp_resource_mutex);
status = cb_func(res->lockEvent);
mutex_lock(&mdp_resource_mutex);
if (status < 0) {
/* Error status print */
CMDQ_ERR("[Res]release CB %d fail:%d\n",
res->lockEvent, status);
}
}
} else {
CMDQ_VERBOSE(
"[Res]resource already in use engine:0x%llx notify:%d\n",
engine_flag, from_notify);
/* Cancel previous delay task if existed */
if (res->delaying) {
res->delaying = false;
cancel_delayed_work(&res->delayCheckWork);
}
}
mutex_unlock(&mdp_resource_mutex);
}
/* Use CMDQ as Resource Manager */
void cmdq_mdp_lock_resource(u64 engine_flag, bool from_notify)
{
struct ResourceUnitStruct *res = NULL;
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (engine_flag & res->engine_flag)
cmdq_mdp_lock_res_impl(res, engine_flag, from_notify);
}
}
bool cmdq_mdp_acquire_resource(enum cmdq_event res_event,
u64 *engine_flag_out)
{
struct ResourceUnitStruct *res = NULL;
bool result = false;
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (res_event != res->lockEvent)
continue;
mutex_lock(&mdp_resource_mutex);
/* find matched resource */
result = !res->used;
if (result && !res->lend) {
CMDQ_MSG("[Res]Acquire successfully event:%d\n",
res_event);
cmdqCoreClearEvent(res_event);
res->acquire = sched_clock();
res->lend = true;
*engine_flag_out |= res->engine_flag;
}
mutex_unlock(&mdp_resource_mutex);
break;
}
return result;
}
void cmdq_mdp_release_resource(enum cmdq_event res_event,
u64 *engine_flag_out)
{
struct ResourceUnitStruct *res = NULL;
CMDQ_MSG("[Res]Release resource with event:%d\n", res_event);
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (res_event != res->lockEvent)
continue;
mutex_lock(&mdp_resource_mutex);
/* find matched resource */
if (res->lend) {
res->release = sched_clock();
res->lend = false;
*engine_flag_out |= res->engine_flag;
}
mutex_unlock(&mdp_resource_mutex);
break;
}
}
void cmdq_mdp_set_resource_callback(enum cmdq_event res_event,
CmdqResourceAvailableCB res_available,
CmdqResourceReleaseCB res_release)
{
struct ResourceUnitStruct *res = NULL;
CMDQ_VERBOSE(
"[Res]Set resource callback with event:%d available:%pf release:%pf\n",
res_event, res_available, res_release);
list_for_each_entry(res, &mdp_ctx.resource_list, list_entry) {
if (res_event != res->lockEvent)
continue;
CMDQ_MSG("[Res]Set resource callback ok!\n");
mutex_lock(&mdp_resource_mutex);
/* find matched resource */
res->availableCB = res_available;
res->releaseCB = res_release;
mutex_unlock(&mdp_resource_mutex);
break;
}
}
static u64 cmdq_mdp_get_engine_flag_for_enable_clock(
u64 engine_flag, s32 thread_id)
{
struct EngineStruct *engine = mdp_ctx.engine;
struct mdp_thread *thread = mdp_ctx.thread;
u64 engine_flag_clk = 0;
u32 index;
for (index = 0; index < CMDQ_MAX_ENGINE_COUNT; index++) {
if (!(engine_flag & (1LL << index)))
continue;
if (engine[index].userCount <= 0) {
engine[index].currOwner = thread_id;
engine_flag_clk |= (1LL << index);
/* also assign engine flag into ThreadStruct */
thread[thread_id].engine_flag |= (1LL << index);
}
engine[index].userCount++;
}
return engine_flag_clk;
}
static void cmdq_mdp_lock_thread(struct cmdqRecStruct *handle)
{
u64 engine_flag = handle->engineFlag;
u32 thread = (u32)handle->thread;
/* engine clocks enable flag decide here but call clock on before flush
* common clock enable here to avoid disable when mdp engines still
* need use for later tasks
*/
CMDQ_MSG("%s handle:0x%p pkt:0x%p engine:0x%016llx\n",
__func__, handle, handle->pkt, handle->engineFlag);
cmdq_mdp_common_clock_enable();
CMDQ_PROF_START(current->pid, __func__);
handle->engine_clk = cmdq_mdp_get_engine_flag_for_enable_clock(
engine_flag, thread);
/* make this thread can be dispath again */
mdp_ctx.thread[thread].allow_dispatch = true;
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (!mdp_ctx.thread[thread].task_count &&
handle->pkt && handle->pkt->sec_data) {
mdp_ctx.thread[thread].mtee =
((struct cmdq_sec_data *)handle->pkt->sec_data)->mtee;
CMDQ_LOG("%s: handle:%p pkt:%p thread:%d mtee:%d start\n",
__func__, handle, handle->pkt, thread,
mdp_ctx.thread[thread].mtee);
}
#endif
mdp_ctx.thread[thread].task_count++;
if (mdp_ctx.thread[thread].task_count > 3) {
CMDQ_LOG("[WARN]thread %d, task_count %d, engine:0x%llx\n",
thread, mdp_ctx.thread[thread].task_count,
mdp_ctx.thread[thread].engine_flag);
}
/* assign client since mdp acquire thread after create pkt */
handle->pkt->cl = cmdq_helper_mbox_client(thread);
CMDQ_PROF_END(current->pid, __func__);
}
static u64 cmdq_mdp_get_not_used_engine(const u64 engine_flag)
{
struct EngineStruct *engine = mdp_ctx.engine;
struct mdp_thread *thread = mdp_ctx.thread;
u64 engine_not_use = 0LL;
s32 index;
s32 owner_thd = CMDQ_INVALID_THREAD;
for (index = 0; index < CMDQ_MAX_ENGINE_COUNT; index++) {
if (!(engine_flag & (1LL << index)))
continue;
engine[index].userCount--;
if (engine[index].userCount <= 0) {
engine_not_use |= (1LL << index);
owner_thd = engine[index].currOwner;
/* remove engine flag in assigned pThread */
thread[owner_thd].engine_flag &= ~(1LL << index);
engine[index].currOwner = CMDQ_INVALID_THREAD;
}
}
CMDQ_VERBOSE("%s engine not use:0x%llx\n", __func__, engine_not_use);
return engine_not_use;
}
void cmdq_mdp_unlock_thread(struct cmdqRecStruct *handle)
{
u64 engine_flag = handle->engineFlag;
u32 thread = (u32)handle->thread;
mutex_lock(&mdp_thread_mutex);
/* get not use engine using engine flag for disable clock. */
handle->engine_clk = cmdq_mdp_get_not_used_engine(engine_flag);
if (!mdp_ctx.thread[thread].task_count)
CMDQ_ERR(
"count fatal error thread:%u count:%u allow:%s acquire:%s\n",
thread, mdp_ctx.thread[thread].task_count,
mdp_ctx.thread[thread].allow_dispatch ?
"true" : "false",
mdp_ctx.thread[thread].acquired ? "true" : "false");
mdp_ctx.thread[thread].task_count--;
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (!mdp_ctx.thread[thread].task_count &&
handle->pkt && handle->pkt->sec_data) {
CMDQ_LOG("%s: handle:%p pkt:%p thread:%d mtee:%d end\n",
__func__, handle, handle->pkt, thread,
mdp_ctx.thread[thread].mtee);
mdp_ctx.thread[thread].mtee = false;
}
#endif
/* if no task on thread, release to cmdq core */
/* no need to release thread since secure path use static thread */
if (!mdp_ctx.thread[thread].task_count && !handle->secData.is_secure) {
cmdq_core_release_thread(handle->scenario, thread);
mdp_ctx.thread[thread].acquired = false;
}
cmdq_mdp_delay_check_unlock(handle->engine_clk);
mutex_unlock(&mdp_thread_mutex);
}
static void cmdq_mdp_handle_prepare(struct cmdqRecStruct *handle)
{
if (handle->thread == CMDQ_INVALID_THREAD) {
/* not expect call without thread during ending */
CMDQ_ERR("handle:0x%p with invalid thread engine:0x%llx\n",
handle, handle->engineFlag);
}
}
static void cmdq_mdp_handle_unprepare(struct cmdqRecStruct *handle)
{
if (handle->thread == CMDQ_INVALID_THREAD) {
/* not expect call without thread during ending */
CMDQ_ERR("handle:0x%p with invalid thread engine:0x%llx\n",
handle, handle->engineFlag);
return;
}
/* only handle if this handle run by mdp flush and thread
* unlock thread usage when cmdq ending this handle
*/
cmdq_mdp_unlock_thread(handle);
}
static void cmdq_mdp_handle_stop(struct cmdqRecStruct *handle)
{
if (!handle) {
CMDQ_ERR("%s empty handle\n", __func__);
return;
}
/* make sure smi clock off at last */
mutex_lock(&mdp_thread_mutex);
cmdq_mdp_common_clock_disable();
mutex_unlock(&mdp_thread_mutex);
}
#ifdef CMDQ_SECURE_PATH_SUPPORT
static s32 cmdq_mdp_check_engine_waiting_unlock(struct cmdqRecStruct *handle)
{
const u32 max_thd = cmdq_dev_get_thread_count();
u32 i;
for (i = MDP_THREAD_START; i < max_thd; i++) {
if (!(mdp_ctx.thread[i].engine_flag & handle->engineFlag))
continue;
/* same secure path, can be dispatch */
if (mdp_ctx.thread[i].task_count &&
handle->secData.is_secure != mdp_ctx.thread[i].secure) {
CMDQ_LOG(
"sec engine busy %u count:%u engine:%#llx & %#llx submit:%llu trigger:%llu\n",
i, mdp_ctx.thread[i].task_count,
mdp_ctx.thread[i].engine_flag,
handle->engineFlag,
handle->submit, handle->trigger);
return -EBUSY;
}
}
/* same engine does not exist in working threads */
return 0;
}
#endif
/* check if engine conflict when thread dispatch
* Parameter:
* task: [IN] current check task with engine flag and secure flag.
* forceLog: [IN] print debug log
* *pThreadOut:
* [IN] prefer thread. please pass CMDQ_INVALID_THREAD if no prefere
* [OUT] dispatch thread result
* Return:
* 0 for success; else the error code is returned
*/
static bool cmdq_mdp_check_engine_conflict(
struct cmdqRecStruct *handle, s32 *thread_out)
{
struct EngineStruct *engine_list = mdp_ctx.engine;
u32 free, i;
s32 thread;
u64 engine_flag;
bool conflict = false;
engine_flag = handle->engineFlag;
thread = *thread_out;
free = thread == CMDQ_INVALID_THREAD ?
0xFFFFFFFF : 0xFFFFFFFF & (~(0x1 << thread));
/* check if engine conflict */
for (i = 0; i < CMDQ_MAX_ENGINE_COUNT && engine_flag != 0; i++) {
if (!(engine_flag & (0x1LL << i)))
continue;
if (engine_list[i].currOwner == CMDQ_INVALID_THREAD) {
continue;
} else if (thread == CMDQ_INVALID_THREAD) {
thread = engine_list[i].currOwner;
free &= ~(0x1 << thread);
} else if (thread != engine_list[i].currOwner) {
/* Partial HW occupied by different threads,
* we need to wait.
*/
conflict = true;
thread = CMDQ_INVALID_THREAD;
if (sched_clock() - handle->submit > 200000000) {
CMDQ_LOG(
"engine conflict handle:0x%p engine:0x%llx conflict engine idx:%u thd:0x%x free:0x%08x owner:%d\n",
handle, handle->engineFlag, i,
thread, free, engine_list[i].currOwner);
cmdq_mdp_dump_thread_usage();
} else {
CMDQ_MSG(
"engine conflict handle:0x%p engine:0x%llx conflict engine idx:%u thd:0x%x free:0x%08x owner:%d\n",
handle, handle->engineFlag, i,
thread, free, engine_list[i].currOwner);
}
break;
}
engine_flag &= ~(0x1LL << i);
}
*thread_out = thread;
return conflict;
}
#ifdef CMDQ_SECURE_PATH_SUPPORT
static s32 cmdq_mdp_get_sec_thread(void)
{
return CMDQ_THREAD_SEC_MDP;
}
#endif
static s32 cmdq_mdp_find_free_thread(struct cmdqRecStruct *handle)
{
bool conflict;
s32 thread = CMDQ_INVALID_THREAD;
u32 index;
struct mdp_thread *threads = mdp_ctx.thread;
const u32 max_thd = cmdq_dev_get_thread_count();
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (cmdq_mdp_check_engine_waiting_unlock(handle) < 0)
return CMDQ_INVALID_THREAD;
if (handle->secData.is_secure) {
thread = cmdq_mdp_get_sec_thread();
if (mdp_ctx.thread[thread].task_count &&
handle->pkt && handle->pkt->sec_data &&
mdp_ctx.thread[thread].mtee !=
((struct cmdq_sec_data *)handle->pkt->sec_data)->mtee) {
CMDQ_LOG("%s: handle:%p pkt:%p thread:%d mtee:%d run\n",
__func__, handle, handle->pkt, thread,
mdp_ctx.thread[thread].mtee);
return CMDQ_INVALID_THREAD;
}
if (threads[thread].task_count >=
CMDQ_MAX_TASK_IN_SECURE_THREAD) {
CMDQ_LOG(
"[warn] too many task for secure path thread:%d count:%u\n",
thread, threads[thread].task_count);
return CMDQ_INVALID_THREAD;
}
return thread;
}
#endif
conflict = cmdq_mdp_check_engine_conflict(handle, &thread);
if (conflict) {
CMDQ_LOG(
"engine conflict handle:0x%p engine:0x%llx thread:%d\n",
handle, handle->engineFlag, thread);
return CMDQ_INVALID_THREAD;
}
/* same engine used in current thread, use it */
if (thread != CMDQ_INVALID_THREAD)
return thread;
/* dispatch from free threads */
for (index = MDP_THREAD_START; index < max_thd; index++) {
if (!threads[index].acquired || threads[index].engine_flag ||
threads[index].task_count ||
!threads[index].allow_dispatch) {
CMDQ_MSG(
"thread not available:%d eng:0x%llx count:%u allow:%u\n",
index, threads[index].engine_flag,
threads[index].task_count,
threads[index].allow_dispatch);
continue;
}
thread = index;
threads[index].allow_dispatch = false;
CMDQ_ERR("got thread:%d handle:0x%p which is not possible\n",
index, handle);
break;
}
/* if we still not have thread, ask cmdq core to get new one */
if (thread == CMDQ_INVALID_THREAD) {
thread = cmdq_core_acquire_thread(handle->scenario, true);
if (thread != CMDQ_INVALID_THREAD) {
threads[thread].acquired = true;
threads[thread].allow_dispatch = false;
} else if (!handle->engineFlag) {
/* for engine flag empty, assign acquired thread */
for (index = MDP_THREAD_START;
index < max_thd; index++) {
if (!threads[index].acquired)
continue;
thread = index;
}
}
CMDQ_MSG("acquire thread:%d\n", thread);
}
return thread;
}
static s32 cmdq_mdp_consume_handle(void)
{
s32 err;
struct cmdqRecStruct *handle, *temp;
u32 index;
bool acquired = false;
struct CmdqCBkStruct *callback = cmdq_core_get_group_cb();
bool conflict = false;
#ifdef CMDQ_SECURE_PATH_SUPPORT
struct ContextStruct *ctx;
u32 task_cnt;
#endif
/* operation for tasks_wait list need task mutex */
mutex_lock(&mdp_task_mutex);
CMDQ_MSG("%s\n", __func__);
CMDQ_PROF_MMP(mdp_mmp_get_event()->consume_done, MMPROFILE_FLAG_START,
current->pid, 0);
/* loop waiting list for pending handles */
list_for_each_entry_safe(handle, temp, &mdp_ctx.tasks_wait,
list_entry) {
/* operations for thread list need thread lock */
mutex_lock(&mdp_thread_mutex);
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (handle->secData.is_secure) {
ctx = cmdq_core_get_context();
task_cnt = ctx->thread[(u32)cmdq_mdp_get_sec_thread()].handle_count;
/* sec thread and more than 4 task -> queue the task */
if (task_cnt + 1 > CMDQ_MAX_TASK_IN_SECURE_THREAD) {
mutex_unlock(&mdp_thread_mutex);
CMDQ_ERR("%s drop new task since there will be more than %d\n",
__func__, CMDQ_MAX_TASK_IN_SECURE_THREAD);
break;
}
}
#endif
handle->thread = cmdq_mdp_find_free_thread(handle);
if (handle->thread == CMDQ_INVALID_THREAD) {
mutex_unlock(&mdp_thread_mutex);
CMDQ_MSG(
"fail to get thread handle:0x%p engine:0x%llx sec:%s other acquired:%s\n",
handle, handle->engineFlag,
handle->secData.is_secure ? "true" : "false",
acquired ? "true" : "false");
conflict = true;
break;
}
/* lock thread for counting and clk */
cmdq_mdp_lock_thread(handle);
mutex_unlock(&mdp_thread_mutex);
/* remove from list */
list_del_init(&handle->list_entry);
CMDQ_MSG(
"%s dispatch thread:%d for handle:0x%p engine:0x%llx thread engine:0x%llx\n",
__func__, handle->thread, handle,
handle->engineFlag,
handle->thread >= 0 ?
mdp_ctx.thread[handle->thread].engine_flag : 0);
/* callback task for tracked group */
for (index = 0; index < CMDQ_MAX_GROUP_COUNT; ++index) {
if (!callback[index].trackTask)
continue;
CMDQ_MSG("track task group %d with task:0x%p\n",
index, handle);
if (!cmdq_core_is_group_flag(
(enum CMDQ_GROUP_ENUM)index,
handle->engineFlag))
continue;
CMDQ_MSG("track task group %d flag:0x%llx\n",
index, handle->engineFlag);
callback[index].trackTask(handle);
}
/* flush handle */
err = cmdq_pkt_flush_async_ex(handle, 0, 0, false);
if (err < 0) {
/* change state so waiting thread may release it */
CMDQ_ERR("fail to flush handle:0x%p\n",
handle);
continue;
}
/* some task is ready to run */
acquired = true;
}
CMDQ_PROF_MMP(mdp_mmp_get_event()->consume_done, MMPROFILE_FLAG_END,
current->pid, 0);
mutex_unlock(&mdp_task_mutex);
if (conflict)
cmdq_core_dump_active();
CMDQ_MSG("%s end acquired:%s\n", __func__, acquired ? "true" : "false");
if (acquired) {
/* notify some task's SW thread to change their waiting state.
* (if they already called cmdq_mdp_wait)
*/
wake_up_all(&mdp_thread_dispatch);
}
return 0;
}
static void cmdq_mdp_consume_wait_item(struct work_struct *ignore)
{
s32 err = cmdq_mdp_consume_handle();
if (err < 0)
CMDQ_ERR("consume handle in worker fail:%d\n", err);
}
void cmdq_mdp_add_consume_item(void)
{
if (!work_pending(&mdp_ctx.handle_consume_item)) {
CMDQ_PROF_MMP(mdp_mmp_get_event()->consume_add,
MMPROFILE_FLAG_PULSE, 0, 0);
queue_work(mdp_ctx.handle_consume_queue,
&mdp_ctx.handle_consume_item);
}
}
static s32 cmdq_mdp_copy_cmd_to_task(struct cmdqRecStruct *handle,
void *src, u32 size, bool user_space)
{
return cmdq_pkt_copy_cmd(handle, src, size, user_space);
}
static void cmdq_mdp_store_debug(struct cmdqCommandStruct *desc,
struct cmdqRecStruct *handle)
{
u32 len;
if (!desc->userDebugStr || !desc->userDebugStrLen)
return;
handle->user_debug_str = kzalloc(desc->userDebugStrLen + 1, GFP_KERNEL);
if (!handle->user_debug_str) {
CMDQ_ERR("allocate user debug memory failed, size:%d\n",
desc->userDebugStrLen);
return;
}
len = strncpy_from_user(handle->user_debug_str,
(const char *)(unsigned long)desc->userDebugStr,
desc->userDebugStrLen);
if (len < 0) {
CMDQ_ERR("copy user debug memory failed, size:%d\n",
desc->userDebugStrLen);
return;
}
CMDQ_MSG("user debug string:%s\n", handle->user_debug_str);
}
#ifdef CMDQ_SECURE_PATH_SUPPORT
#define CMDQ_ISP_MSG2(name) \
{ \
.va = iwc_msg2->name, \
.sz = &(iwc_msg2->name##_size), \
}
#define CMDQ_ISP_BUFS_MSG1(name) \
{ \
.va = iwc_msg1->name, \
.sz = &(iwc_msg1->name##_size), \
}
const u32 isp_iwc_buf_size[] = {
CMDQ_SEC_ISP_CQ_SIZE,
CMDQ_SEC_ISP_VIRT_SIZE,
CMDQ_SEC_ISP_TILE_SIZE,
CMDQ_SEC_ISP_BPCI_SIZE,
CMDQ_SEC_ISP_LSCI_SIZE,
CMDQ_SEC_ISP_LCEI_SIZE,
CMDQ_SEC_ISP_DEPI_SIZE,
CMDQ_SEC_ISP_DMGI_SIZE,
};
static void cmdq_mdp_fill_isp_meta(struct cmdqSecIspMeta *meta,
struct iwc_cq_meta *iwc_msg1,
struct iwc_cq_meta2 *iwc_msg2,
bool from_userspace)
{
u32 i;
struct iwc_meta_buf {
u32 *va;
u32 *sz;
} bufs[ARRAY_SIZE(meta->ispBufs)] = {
CMDQ_ISP_BUFS_MSG1(isp_cq_desc),
CMDQ_ISP_BUFS_MSG1(isp_cq_virt),
CMDQ_ISP_BUFS_MSG1(isp_tile),
CMDQ_ISP_BUFS_MSG1(isp_bpci),
CMDQ_ISP_BUFS_MSG1(isp_lsci),
CMDQ_ISP_MSG2(isp_lcei),
CMDQ_ISP_BUFS_MSG1(isp_depi),
CMDQ_ISP_BUFS_MSG1(isp_dmgi),
};
memcpy(&iwc_msg2->handles, meta, sizeof(iwc_msg2->handles));
for (i = 0; i < ARRAY_SIZE(meta->ispBufs); i++) {
if (!meta->ispBufs[i].va || !meta->ispBufs[i].size)
continue;
if (meta->ispBufs[i].size > isp_iwc_buf_size[i]) {
CMDQ_ERR("isp buf %u size:%llu max:%u\n",
i, meta->ispBufs[i].size,
isp_iwc_buf_size[i]);
*bufs[i].sz = 0;
continue;
}
*bufs[i].sz = meta->ispBufs[i].size;
if (from_userspace) {
if (copy_from_user(bufs[i].va,
CMDQ_U32_PTR(meta->ispBufs[i].va),
meta->ispBufs[i].size))
CMDQ_ERR("fail to copy ispBufs [%d]\n", i);
} else
memcpy(bufs[i].va,
(void *)(unsigned long)(meta->ispBufs[i].va),
meta->ispBufs[i].size);
}
}
#endif
static s32 cmdq_mdp_setup_sec(struct cmdqCommandStruct *desc,
struct cmdqRecStruct *handle)
{
#ifdef CMDQ_SECURE_PATH_SUPPORT
u64 dapc, port;
enum cmdq_sec_meta_type meta_type = CMDQ_METAEX_NONE;
struct cmdq_client *cl;
if (!desc->secData.is_secure)
return 0;
dapc = cmdq_mdp_get_func()->mdpGetSecEngine(
desc->secData.enginesNeedDAPC);
port = cmdq_mdp_get_func()->mdpGetSecEngine(
desc->secData.enginesNeedPortSecurity);
cmdq_task_set_secure(handle, desc->secData.is_secure);
/* force assign client, since backup cookie must call before flush,
* and it is necessary to know client first before append backup code.
*/
cl = cmdq_helper_mbox_client(handle->thread);
if (unlikely(!cl)) {
CMDQ_ERR("%s no client for thread:%d\n",
__func__, handle->thread);
return -EINVAL;
}
handle->pkt->cl = (void *)cl;
handle->pkt->dev = cl->chan->mbox->dev;
if (desc->secData.ispMeta.ispBufs[0].size) {
handle->sec_isp_msg1 = vzalloc(sizeof(struct iwc_cq_meta));
handle->sec_isp_msg2 = vzalloc(sizeof(struct iwc_cq_meta2));
if (!handle->sec_isp_msg1 || !handle->sec_isp_msg2) {
CMDQ_ERR("fail to alloc isp msg\n");
vfree(handle->sec_isp_msg1);
vfree(handle->sec_isp_msg2);
return -ENOMEM;
}
cmdq_mdp_fill_isp_meta(&desc->secData.ispMeta,
handle->sec_isp_msg1, handle->sec_isp_msg2, false);
meta_type = CMDQ_METAEX_CQ;
cmdq_sec_pkt_set_payload(handle->pkt, 1,
sizeof(struct iwc_cq_meta), handle->sec_isp_msg1);
cmdq_sec_pkt_set_payload(handle->pkt, 2,
sizeof(struct iwc_cq_meta2), handle->sec_isp_msg2);
}
cmdq_sec_pkt_set_data(handle->pkt, dapc, port,
CMDQ_SEC_USER_MDP, meta_type);
cmdq_sec_pkt_assign_metadata(handle->pkt,
desc->secData.addrMetadataCount,
CMDQ_U32_PTR(desc->secData.addrMetadatas));
if (handle->pkt->cmd_buf_size) {
u32 cnt = handle->pkt->cmd_buf_size / CMDQ_INST_SIZE;
struct cmdq_sec_data *data = handle->pkt->sec_data;
struct iwcCmdqAddrMetadata_t *addr =
(struct iwcCmdqAddrMetadata_t *)
(unsigned long)data->addrMetadatas;
const u32 max_inst = CMDQ_CMD_BUFFER_SIZE / CMDQ_INST_SIZE - 1;
u32 i;
for (i = 0; i < data->addrMetadataCount; i++) {
u32 idx = addr[i].instrIndex;
addr[i].instrIndex += cnt;
/* adjumst for buffer jump */
addr[i].instrIndex += addr[i].instrIndex / max_inst;
CMDQ_MSG("meta index change from:%u to:%u\n",
idx, addr[i].instrIndex);
}
}
#endif
return 0;
}
s32 cmdq_mdp_handle_create(struct cmdqRecStruct **handle_out)
{
struct cmdqRecStruct *handle = NULL;
s32 status;
status = cmdq_task_create(CMDQ_SCENARIO_USER_MDP, &handle);
if (status < 0) {
CMDQ_ERR("%s task create fail: %d\n", __func__, status);
return status;
}
handle->pkt->cur_pool.pool = mdp_pool.pool;
handle->pkt->cur_pool.cnt = mdp_pool.cnt;
handle->pkt->cur_pool.limit = mdp_pool.limit;
/* assign handle for mdp */
*handle_out = handle;
return 0;
}
s32 cmdq_mdp_handle_sec_setup(struct cmdqSecDataStruct *secData,
struct cmdqRecStruct *handle)
{
#ifdef CMDQ_SECURE_PATH_SUPPORT
u64 dapc, port;
enum cmdq_sec_meta_type meta_type = CMDQ_METAEX_NONE;
void *user_addr_meta;
void *addr_meta = NULL;
u32 addr_meta_size;
struct cmdq_client *cl = NULL;
s32 sec_id = -1;
/* set secure data */
handle->secStatus = NULL;
if (!secData || !secData->is_secure)
return 0;
user_addr_meta = CMDQ_U32_PTR(secData->addrMetadatas);
CMDQ_MSG("%s start:%d, %d\n", __func__,
secData->is_secure, secData->addrMetadataCount);
if ((!secData->addrMetadataCount) ||
(secData->addrMetadataCount > MDP_MAX_METADATA_COUNT_SIZE)) {
CMDQ_ERR(
"[secData]mismatch is_secure %d and addrMetadataCount %d\n",
secData->is_secure,
secData->addrMetadataCount);
return -EINVAL;
}
dapc = cmdq_mdp_get_func()->mdpGetSecEngine(
secData->enginesNeedDAPC);
port = cmdq_mdp_get_func()->mdpGetSecEngine(
secData->enginesNeedPortSecurity);
cmdq_task_set_secure(handle, secData->is_secure);
/* force assign client, since backup cookie must call before flush,
* and it is necessary to know client first before append backup code.
*/
cl = cmdq_helper_mbox_client(handle->thread);
if (unlikely(!cl)) {
CMDQ_ERR("%s no client for thread:%d\n",
__func__, handle->thread);
return -EINVAL;
}
handle->pkt->cl = (void *)cl;
handle->pkt->dev = cl->chan->mbox->dev;
if (secData->ispMeta.ispBufs[0].size) {
handle->sec_isp_msg1 = vzalloc(sizeof(struct iwc_cq_meta));
handle->sec_isp_msg2 = vzalloc(sizeof(struct iwc_cq_meta2));
if (!handle->sec_isp_msg1 || !handle->sec_isp_msg2) {
CMDQ_ERR("fail to alloc isp msg\n");
vfree(handle->sec_isp_msg1);
vfree(handle->sec_isp_msg2);
return -ENOMEM;
}
cmdq_mdp_fill_isp_meta(&secData->ispMeta,
handle->sec_isp_msg1, handle->sec_isp_msg2, true);
meta_type = CMDQ_METAEX_CQ;
cmdq_sec_pkt_set_payload(handle->pkt, 1,
sizeof(struct iwc_cq_meta), handle->sec_isp_msg1);
cmdq_sec_pkt_set_payload(handle->pkt, 2,
sizeof(struct iwc_cq_meta2), handle->sec_isp_msg2);
}
cmdq_sec_pkt_set_data(handle->pkt, dapc, port,
CMDQ_SEC_USER_MDP, meta_type);
addr_meta_size = secData->addrMetadataCount *
sizeof(struct cmdqSecAddrMetadataStruct);
addr_meta = kmalloc(addr_meta_size, GFP_KERNEL);
if (!addr_meta) {
CMDQ_ERR("%s: allocate size fail:%u\n",
__func__, addr_meta_size);
return -ENOMEM;
}
if (copy_from_user(addr_meta, user_addr_meta, addr_meta_size)) {
CMDQ_ERR("%s: fail to copy user addr meta\n", __func__);
kfree(addr_meta);
return -EFAULT;
}
cmdq_mdp_init_secure_id(addr_meta, secData->addrMetadataCount);
cmdq_sec_pkt_assign_metadata(handle->pkt,
secData->addrMetadataCount,
addr_meta);
#if IS_ENABLED(CONFIG_MTK_SVP_ON_MTEE_SUPPORT)
#ifdef CMDQ_ENG_SVP_MTEE_GROUP_BITS
if (handle->engineFlag & CMDQ_ENG_SVP_MTEE_GROUP_BITS) {
if (secData->extension & 0x1)
sec_id = SEC_ID_WFD;
else
sec_id = SEC_ID_SVP;
cmdq_sec_pkt_set_mtee(handle->pkt, true, sec_id);
}
#endif
#endif
#if IS_ENABLED(CONFIG_MTK_CAM_GENIEZONE_SUPPORT)
#ifdef CMDQ_ENG_ISP_MTEE_GROUP_BITS
if (handle->engineFlag & CMDQ_ENG_ISP_MTEE_GROUP_BITS) {
sec_id = SEC_ID_SEC_CAM;
cmdq_sec_pkt_set_mtee(handle->pkt, true, sec_id);
}
#endif
#endif
if (-1 == sec_id)
cmdq_sec_pkt_set_mtee(handle->pkt, false, sec_id);
CMDQ_LOG("handle:%p mtee:%d dapc:%#llx(%#llx) port:%#llx(%#llx) sec_id:%d, engine:%#llx\n",
handle,
((struct cmdq_sec_data *)handle->pkt->sec_data)->mtee,
handle->secData.enginesNeedDAPC, dapc,
handle->secData.enginesNeedPortSecurity, port,
sec_id, handle->engineFlag);
kfree(addr_meta);
return 0;
#else
return 0;
#endif
}
void cmdq_mdp_init_secure_id(void *meta_array, u32 count)
{
#ifdef CMDQ_SECURE_PATH_SUPPORT
u32 i;
uint32_t trustmem_type = 0;
int sec = 0;
int iommu_sec_id = 0;
ion_phys_addr_t sec_handle;
struct cmdqSecAddrMetadataStruct *secMetadatas =
(struct cmdqSecAddrMetadataStruct *)meta_array;
for (i = 0; i < count; i++) {
secMetadatas[i].useSecIdinMeta = 1;
if (secMetadatas[i].ionFd <= 0) {
secMetadatas[i].sec_id = 0;
continue;
}
trustmem_type = ion_fd2sec_type(secMetadatas[i].ionFd, &sec,
&iommu_sec_id, &sec_handle);
secMetadatas[i].baseHandle = (uint64_t)sec_handle;
#ifdef CONFIG_MTK_CMDQ_MBOX_EXT
secMetadatas[i].sec_id = iommu_sec_id;
#else
secMetadatas[i].sec_id = trustmem_type;
#endif
CMDQ_LOG("%s,port:%d,ionFd:%d,sec_id:%d,sec_handle:0x%#llx",
__func__, secMetadatas[i].port,
secMetadatas[i].ionFd,
secMetadatas[i].sec_id,
secMetadatas[i].baseHandle);
}
#endif
}
s32 cmdq_mdp_update_sec_addr_index(struct cmdqRecStruct *handle,
u32 sec_handle, u32 index, u32 instr_index)
{
#ifdef CMDQ_SECURE_PATH_SUPPORT
struct cmdq_sec_data *data = handle->pkt->sec_data;
struct iwcCmdqAddrMetadata_t *addr = NULL;
if (!data) {
CMDQ_ERR("%s invalid index %d, pkt no sec\n", __func__, index);
return -EINVAL;
}
if (index >= data->addrMetadataCount) {
CMDQ_ERR("%s invalid index %d >= %d\n", __func__,
index, data->addrMetadataCount);
return -EINVAL;
}
addr = (struct iwcCmdqAddrMetadata_t *)
(unsigned long)data->addrMetadatas;
addr[index].instrIndex = instr_index;
CMDQ_MSG("%s update %x[%d] to:%d\n", __func__,
sec_handle, index, instr_index);
#endif
return 0;
}
u32 cmdq_mdp_handle_get_instr_count(struct cmdqRecStruct *handle)
{
/* check boundary size and append at first before append metadata */
if (unlikely(!handle->pkt->avail_buf_size)) {
if (cmdq_pkt_add_cmd_buffer(handle->pkt) < 0)
return -ENOMEM;
}
return handle->pkt->cmd_buf_size / CMDQ_INST_SIZE;
}
void cmdq_mdp_meta_replace_sec_addr(struct op_meta *metas,
struct mdp_submit *user_job,
struct cmdqRecStruct *handle)
{
#if 0
struct cmdq_sec_data *data;
struct iwcCmdqAddrMetadata_t *addr;
int i;
CMDQ_LOG("%s start:%d, %d\n", __func__,
user_job->secData.is_secure,
user_job->secData.addrMetadataCount);
if (!handle || !user_job->secData.is_secure)
return;
data = handle->pkt->sec_data;
addr = (struct iwcCmdqAddrMetadata_t *)
(unsigned long)data->addrMetadatas;
for (i = 0; i < data->addrMetadataCount; i++) {
u32 idx = addr[i].instrIndex;
CMDQ_LOG("sec[%u](i:%u,t:%u,h:%#llx,b:%#x,o:%#x,s:%d,p:%d)\n",
i, addr[i].instrIndex, addr[i].type,
addr[i].baseHandle, addr[i].blockOffset,
addr[i].offset, addr[i].size, addr[i].port);
CMDQ_LOG("[M] change meta[%u] (%u, %u, %#x, %#x, %#x)\n", idx,
metas[idx].op, metas[idx].engine, metas[idx].offset,
metas[idx].value, metas[idx].mask);
}
#endif
}
#ifdef CMDQ_SECURE_PATH_SUPPORT
void cmdq_mdp_config_readback_sec(struct cmdqRecStruct *handle)
{
struct cmdq_sec_data *data =
(struct cmdq_sec_data *)handle->pkt->sec_data;
u32 i;
data->mdp_extension = handle->mdp_extension;
data->readback_cnt = handle->readback_cnt;
for (i = 0; i < handle->readback_cnt; i++) {
data->readback_engs[i].engine =
handle->readback_engs[i].engine;
data->readback_engs[i].start = handle->readback_engs[i].start;
data->readback_engs[i].count = handle->readback_engs[i].count;
data->readback_engs[i].param = handle->readback_engs[i].param;
CMDQ_MSG("%s idx:%u offset:%#x(%u) engine:%u param:%#x\n",
__func__, i, data->readback_engs[i].start,
data->readback_engs[i].count,
data->readback_engs[i].engine,
data->readback_engs[i].param);
}
}
#endif
s32 cmdq_mdp_handle_flush(struct cmdqRecStruct *handle)
{
s32 status;
CMDQ_TRACE_FORCE_BEGIN("%s 0x%p %llx\n", __func__, handle, handle->engineFlag);
CMDQ_MSG("%s %llx\n", __func__, handle->engineFlag);
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (handle->secData.is_secure) {
/* insert backup cookie cmd */
handle->thread = CMDQ_INVALID_THREAD;
/* Passing readback required data */
cmdq_mdp_config_readback_sec(handle);
}
#endif
/* finalize it */
CMDQ_MSG("%s finalize\n", __func__);
handle->finalized = true;
cmdq_pkt_finalize(handle->pkt);
/* Dispatch handle to get correct thread or wait in list.
* Task may flush directly if no engine conflict and no waiting task
* holds same engines.
*/
CMDQ_MSG("%s flush impl\n", __func__);
status = cmdq_mdp_flush_async_impl(handle);
CMDQ_TRACE_FORCE_END();
return status;
}
void cmdq_mdp_op_readback(struct cmdqRecStruct *handle, u16 engine,
dma_addr_t addr, u32 param)
{
mdp_funcs.mdpComposeReadback(handle, engine, addr, param);
}
s32 cmdq_mdp_flush_async(struct cmdqCommandStruct *desc, bool user_space,
struct cmdqRecStruct **handle_out)
{
struct cmdqRecStruct *handle;
struct task_private *private;
s32 err;
u32 copy_size;
const u64 inorder_mask = 1ll << CMDQ_ENG_INORDER;
CMDQ_TRACE_FORCE_BEGIN("%s %llx\n",
__func__, desc->engineFlag);
cmdq_task_create(desc->scenario, &handle);
/* force assign buffer pool since mdp task assign clients later
* but allocate instruction buffer before do it.
*/
handle->pkt->cur_pool.pool = mdp_pool.pool;
handle->pkt->cur_pool.cnt = mdp_pool.cnt;
handle->pkt->cur_pool.limit = mdp_pool.limit;
/* set secure data */
handle->secStatus = NULL;
cmdq_mdp_setup_sec(desc, handle);
handle->engineFlag = desc->engineFlag & ~inorder_mask;
handle->pkt->priority = desc->priority;
cmdq_mdp_store_debug(desc, handle);
if (desc->engineFlag & inorder_mask)
handle->force_inorder = true;
private = (struct task_private *)CMDQ_U32_PTR(desc->privateData);
if (private)
handle->node_private = private->node_private_data;
if (desc->prop_size && desc->prop_addr &&
desc->prop_size < CMDQ_MAX_USER_PROP_SIZE) {
handle->prop_addr = kzalloc(desc->prop_size, GFP_KERNEL);
memcpy(handle->prop_addr, (void *)CMDQ_U32_PTR(desc->prop_addr),
desc->prop_size);
handle->prop_size = desc->prop_size;
} else {
handle->prop_addr = NULL;
handle->prop_size = 0;
}
CMDQ_SYSTRACE_BEGIN("%s copy command\n", __func__);
copy_size = desc->blockSize - 2 * CMDQ_INST_SIZE;
if (copy_size > 0) {
err = cmdq_mdp_copy_cmd_to_task(handle,
(void *)(unsigned long)desc->pVABase,
copy_size, user_space);
if (err < 0)
goto flush_err_end;
}
CMDQ_SYSTRACE_END();
CMDQ_SYSTRACE_BEGIN("%s check valid %u\n", __func__, copy_size);
if (user_space && !cmdq_core_check_user_valid(
(void *)(unsigned long)desc->pVABase, copy_size)) {
CMDQ_SYSTRACE_END();
err = -EFAULT;
goto flush_err_end;
}
CMDQ_SYSTRACE_END();
if (desc->regRequest.count &&
desc->regRequest.count <= CMDQ_MAX_DUMP_REG_COUNT &&
desc->regRequest.regAddresses) {
err = cmdq_task_append_backup_reg(handle,
desc->regRequest.count,
(u32 *)(unsigned long)desc->regRequest.regAddresses);
if (err < 0)
goto flush_err_end;
}
if (handle->profile_exec)
cmdq_pkt_perf_end(handle->pkt);
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (handle->secData.is_secure) {
/* insert backup cookie cmd */
cmdq_sec_insert_backup_cookie(handle->pkt);
handle->thread = CMDQ_INVALID_THREAD;
}
#endif
CMDQ_SYSTRACE_BEGIN("%s copy cmd\n", __func__);
err = cmdq_mdp_copy_cmd_to_task(handle,
(void *)(unsigned long)desc->pVABase + copy_size,
2 * CMDQ_INST_SIZE, user_space);
if (err < 0) {
CMDQ_SYSTRACE_END();
goto flush_err_end;
}
CMDQ_SYSTRACE_END();
/* mark finalized since we copy it */
handle->finalized = true;
/* assign handle for mdp */
*handle_out = handle;
/* Dispatch handle to get correct thread or wait in list.
* Task may flush directly if no engine conflict and no waiting task
* holds same engines.
*/
err = cmdq_mdp_flush_async_impl(handle);
CMDQ_TRACE_FORCE_END();
return 0;
flush_err_end:
CMDQ_TRACE_FORCE_END();
cmdq_task_destroy(handle);
return err;
}
s32 cmdq_mdp_flush_async_impl(struct cmdqRecStruct *handle)
{
struct list_head *insert_pos = &mdp_ctx.tasks_wait;
struct cmdqRecStruct *entry;
CMDQ_MSG("dispatch handle:0x%p\n", handle);
/* set handle life cycle callback */
handle->prepare = cmdq_mdp_handle_prepare;
handle->unprepare = cmdq_mdp_handle_unprepare;
handle->stop = cmdq_mdp_handle_stop;
/* lock resource to make sure task own it after dispatch to hw */
cmdq_mdp_lock_resource(handle->engineFlag, false);
/* change state to waiting before insert to prevent
* other thread consume immediately
*/
handle->state = TASK_STATE_WAITING;
/* assign handle into waiting list by priority */
CMDQ_MSG("assign handle into waiting list:0x%p\n", handle);
mutex_lock(&mdp_task_mutex);
list_for_each_entry(entry, &mdp_ctx.tasks_wait, list_entry) {
if (entry->pkt->priority < handle->pkt->priority)
break;
insert_pos = &entry->list_entry;
}
list_add(&handle->list_entry, insert_pos);
mutex_unlock(&mdp_task_mutex);
/* run consume to run task in thread */
CMDQ_MSG("cmdq_mdp_consume_handle:0x%p\n", handle);
cmdq_mdp_consume_handle();
return 0;
}
struct cmdqRecStruct *cmdq_mdp_get_valid_handle(unsigned long job)
{
struct cmdqRecStruct *handle = NULL, *entry;
mutex_lock(&mdp_task_mutex);
list_for_each_entry(entry, &mdp_ctx.tasks_wait, list_entry) {
if ((void *)job == entry) {
handle = entry;
break;
}
}
if (!handle)
handle = cmdq_core_get_valid_handle(job);
mutex_unlock(&mdp_task_mutex);
return handle;
}
s32 cmdq_mdp_wait(struct cmdqRecStruct *handle,
struct cmdqRegValueStruct *results)
{
s32 status, waitq;
u32 i;
u64 exec_cost;
CMDQ_TRACE_FORCE_BEGIN("%s 0x%p %d %llx\n",
__func__, handle, handle->thread, handle->engineFlag);
/* we have to wait handle has valid thread first */
if (handle->thread == CMDQ_INVALID_THREAD) {
CMDQ_LOG("pid:%d handle:0x%p wait for valid thread first\n",
current->pid, handle);
/* wait for acquire thread
* (this is done by cmdq_mdp_consume_handle
*/
waitq = wait_event_timeout(mdp_thread_dispatch,
(handle->thread != CMDQ_INVALID_THREAD),
msecs_to_jiffies(CMDQ_ACQUIRE_THREAD_TIMEOUT_MS));
if (waitq == 0 || handle->thread == CMDQ_INVALID_THREAD) {
mutex_lock(&mdp_task_mutex);
/* it's possible that the task was just consumed now.
* so check again.
*/
if (handle->thread == CMDQ_INVALID_THREAD) {
CMDQ_ERR(
"handle 0x%p timeout with invalid thread\n",
handle);
/* remove from waiting list,
* so that it won't be consumed in the future
*/
list_del_init(&handle->list_entry);
mutex_unlock(&mdp_task_mutex);
CMDQ_TRACE_FORCE_END();
return -ETIMEDOUT;
}
/* valid thread, so we keep going */
mutex_unlock(&mdp_task_mutex);
}
}
CMDQ_MSG("%s wait handle:0x%p thread:%d\n",
__func__, handle, handle->thread);
/* wait handle flush done */
exec_cost = sched_clock();
status = cmdq_pkt_wait_flush_ex_result(handle);
exec_cost = div_s64(sched_clock() - exec_cost, 1000);
if (exec_cost > 150000)
CMDQ_LOG("[warn]wait flush result cost:%lluus handle:0x%p\n",
exec_cost, handle);
if (results && results->count &&
results->count <= CMDQ_MAX_DUMP_REG_COUNT) {
CMDQ_SYSTRACE_BEGIN("%s assign regs\n", __func__);
/* clear results */
memset(CMDQ_U32_PTR(results->regValues), 0,
results->count * sizeof(CMDQ_U32_PTR(
results->regValues)[0]));
mutex_lock(&mdp_task_mutex);
for (i = 0; i < results->count && i < handle->reg_count; i++)
CMDQ_U32_PTR(results->regValues)[i] =
handle->reg_values[i];
mutex_unlock(&mdp_task_mutex);
CMDQ_SYSTRACE_END();
}
/* consume again since maybe more conflict task in waiting */
cmdq_mdp_add_consume_item();
CMDQ_TRACE_FORCE_END();
return status;
}
s32 cmdq_mdp_flush(struct cmdqCommandStruct *desc, bool user_space)
{
struct cmdqRecStruct *handle = NULL;
s32 status;
status = cmdq_mdp_flush_async(desc, user_space, &handle);
if (!handle || status < 0) {
CMDQ_ERR("mdp flush async failed:%d\n", status);
return status;
}
status = cmdq_mdp_wait(handle, &desc->regValue);
if (status < 0)
CMDQ_ERR("mdp flush wait failed:%d handle:0x%p thread:%d\n",
status, handle, handle->thread);
cmdq_task_destroy(handle);
return status;
}
static void cmdq_mdp_pool_create(void)
{
if (unlikely(mdp_pool.pool)) {
cmdq_msg("mdp buffer pool already created");
return;
}
mdp_pool.pool = dma_pool_create("mdp", cmdq_dev_get(),
CMDQ_BUF_ALLOC_SIZE, 0, 0);
atomic_set(mdp_pool.cnt, 0);
}
static void cmdq_mdp_pool_clear(void)
{
/* check pool still in use */
if (unlikely((atomic_read(mdp_pool.cnt)))) {
cmdq_msg("mdp buffers still in use:%d",
atomic_read(mdp_pool.cnt));
return;
}
dma_pool_destroy(mdp_pool.pool);
mdp_pool.pool = NULL;
}
void cmdq_mdp_suspend(void)
{
if (atomic_read(&mdp_ctx.mdp_smi_usage)) {
CMDQ_ERR("%s smi clk usage:%d\n",
__func__, (s32)atomic_read(&mdp_ctx.mdp_smi_usage));
cmdq_mdp_dump_thread_usage();
cmdq_mdp_dump_engine_usage();
}
cmdq_mdp_pool_clear();
}
void cmdq_mdp_resume(void)
{
cmdq_mdp_pool_create();
/* during suspending, there may be queued tasks.
* we should process them if any.
*/
cmdq_mdp_add_consume_item();
}
void cmdq_mdp_release_task_by_file_node(void *file_node)
{
struct cmdqRecStruct *handle, *temp;
/* Since the file node is closed, there is no way
* user space can issue further "wait_and_close" request,
* so we must auto-release running/waiting tasks
* to prevent resource leakage
*/
/* walk through active and waiting lists and release them */
mutex_lock(&mdp_task_mutex);
list_for_each_entry_safe(handle, temp, &mdp_ctx.tasks_wait,
list_entry) {
if (handle->node_private != file_node)
continue;
CMDQ_LOG(
"[warn]waiting handle 0x%p release because file node 0x%p closed\n",
handle, file_node);
/* since we already inside mutex,
* and these WAITING tasks will not be consumed
* (acquire thread / exec)
* we can release them directly.
* note that we use unlocked version since we already
* hold mdp_task_mutex.
*/
list_del_init(&handle->list_entry);
cmdq_task_destroy(handle);
}
/* ask core to auto release by file node
* note the core may lock more mutex
*/
cmdq_core_release_handle_by_file_node(file_node);
mutex_unlock(&mdp_task_mutex);
}
void cmdq_mdp_dump_thread_usage(void)
{
int index;
CMDQ_ERR("====== MDP Threaed usage =======\n");
for (index = 0; index < ARRAY_SIZE(mdp_ctx.thread); index++) {
if (!mdp_ctx.thread[index].acquired)
continue;
CMDQ_ERR(
"thread:%d task cnt:%u engine flag:%#llx allow dispatch:%s\n",
index, mdp_ctx.thread[index].task_count,
mdp_ctx.thread[index].engine_flag,
mdp_ctx.thread[index].allow_dispatch ?
"true" : "false");
}
}
void cmdq_mdp_dump_engine_usage(void)
{
struct EngineStruct *engine;
const u32 engine_enum[] =
CMDQ_FOREACH_MODULE_PRINT(GENERATE_ENUM);
static const char *const engine_names[] =
CMDQ_FOREACH_MODULE_PRINT(GENERATE_STRING);
u32 i;
CMDQ_ERR("====== Engine Usage =======\n");
for (i = 0; i < ARRAY_SIZE(engine_enum); i++) {
engine = &mdp_ctx.engine[engine_enum[i]];
if (engine->userCount ||
engine->currOwner != CMDQ_INVALID_THREAD ||
engine->failCount || engine->resetCount)
CMDQ_ERR("%s: count:%d owner:%d fail:%d reset:%d\n",
engine_names[i], engine->userCount,
engine->currOwner, engine->failCount,
engine->resetCount);
}
}
void cmdq_mdp_dump_resource(u32 event)
{
struct ResourceUnitStruct *resource = NULL;
mutex_lock(&mdp_resource_mutex);
list_for_each_entry(resource, &mdp_ctx.resource_list, list_entry) {
if (event != resource->lockEvent)
continue;
CMDQ_ERR("[Res] Dump resource with event:%d\n",
resource->lockEvent);
CMDQ_ERR("[Res] notify:%llu delay:%lld\n",
resource->notify, resource->delay);
CMDQ_ERR("[Res] lock:%llu unlock:%lld\n",
resource->lock, resource->unlock);
CMDQ_ERR("[Res] acquire:%llu release:%lld\n",
resource->acquire, resource->release);
CMDQ_ERR("[Res] isUsed:%d isLend:%d isDelay:%d\n",
resource->used, resource->lend,
resource->delaying);
if (!resource->releaseCB)
CMDQ_ERR("[Res] release CB func is NULL\n");
break;
}
mutex_unlock(&mdp_resource_mutex);
}
static s32 cmdq_mdp_dump_common(u64 engineFlag, int level)
{
cmdq_mdp_dump_thread_usage();
cmdq_mdp_dump_engine_usage();
return cmdq_mdp_get_func()->mdpDumpInfo(engineFlag, level);
}
static void cmdq_mdp_dump_resource_in_status(struct seq_file *m)
{
struct ResourceUnitStruct *resource = NULL;
if (!m)
return;
mutex_lock(&mdp_resource_mutex);
list_for_each_entry(resource, &mdp_ctx.resource_list, list_entry) {
seq_printf(m, "[Res] Dump resource with event:%d\n",
resource->lockEvent);
seq_printf(m, "[Res] notify:%llu delay:%lld\n",
resource->notify, resource->delay);
seq_printf(m, "[Res] lock:%llu unlock:%lld\n",
resource->lock, resource->unlock);
seq_printf(m, "[Res] acquire:%llu release:%lld\n",
resource->acquire, resource->release);
seq_printf(m, "[Res] isUsed:%d isLend:%d isDelay:%d\n",
resource->used, resource->lend,
resource->delaying);
if (!resource->releaseCB)
seq_puts(m, "[Res] release CB func is NULL\n");
}
mutex_unlock(&mdp_resource_mutex);
}
int cmdq_mdp_status_dump(struct notifier_block *nb,
unsigned long action, void *data)
{
struct seq_file *m = (struct seq_file *)data;
cmdq_mdp_dump_resource_in_status(m);
return 0;
}
static void cmdq_mdp_init_pmqos(void)
{
#ifdef CONFIG_MTK_SMI_EXT
s32 i = 0;
s32 result = 0;
/* INIT_LIST_HEAD(&gCmdqMdpContext.mdp_tasks);*/
for (i = 0; i < MDP_TOTAL_THREAD; i++) {
/* init MDP */
plist_head_init(&qos_mdp_module_request_list[i]);
cmdq_mdp_get_func()->initPmqosMdp(i,
qos_mdp_module_request_list);
/* init ISP */
plist_head_init(&qos_isp_module_request_list[i]);
cmdq_mdp_get_func()->initPmqosIsp(i,
qos_isp_module_request_list);
mtk_pm_qos_add_request(&mdp_clk_qos_request[i],
PM_QOS_MDP_FREQ, PM_QOS_DEFAULT_VALUE);
mtk_pm_qos_add_request(&isp_clk_qos_request[i],
PM_QOS_IMG_FREQ, PM_QOS_DEFAULT_VALUE);
result = snprintf(mdp_clk_qos_request[i].owner,
sizeof(mdp_clk_qos_request[i].owner) - 1, "mdp_clk_%d", i);
if (result < 0)
CMDQ_ERR("get mdp_clk_qos_request[i].owner failed, err: %d\n", result);
result = snprintf(isp_clk_qos_request[i].owner,
sizeof(isp_clk_qos_request[i].owner) - 1, "isp_clk_%d", i);
if (result < 0)
CMDQ_ERR("get isp_clk_qos_request[i].owner failed, err: %d\n", result);
}
/* Call mmdvfs_qos_get_freq_steps to get supported frequency */
result = mmdvfs_qos_get_freq_steps(PM_QOS_MDP_FREQ, &g_freq_steps[0],
&step_size);
if (g_freq_steps[0] == 0)
g_freq_steps[0] = 700;
if (result < 0)
CMDQ_ERR("get MMDVFS freq steps failed, result: %d\n", result);
#endif /* CONFIG_MTK_SMI_EXT */
}
void cmdq_mdp_init(struct platform_device *pdev)
{
struct cmdqMDPFuncStruct *mdp_func = cmdq_mdp_get_func();
s32 ret;
CMDQ_LOG("%s\n", __func__);
/* Register MDP callback */
cmdqCoreRegisterCB(CMDQ_GROUP_MDP, cmdq_mdp_clock_enable,
cmdq_mdp_dump_common, mdp_func->mdpResetEng,
cmdq_mdp_clock_disable);
cmdqCoreRegisterErrorResetCB(CMDQ_GROUP_MDP, mdp_func->errorReset);
/* Register module dispatch callback */
cmdqCoreRegisterDispatchModCB(CMDQ_GROUP_MDP,
mdp_func->dispatchModule);
/* Register restore task */
cmdqCoreRegisterTrackTaskCB(CMDQ_GROUP_MDP, mdp_func->trackTask);
init_waitqueue_head(&mdp_thread_dispatch);
/* some fields has non-zero initial value */
cmdq_mdp_reset_engine_struct();
cmdq_mdp_reset_thread_struct();
mdp_ctx.resource_check_queue =
create_singlethread_workqueue("cmdq_resource");
INIT_LIST_HEAD(&mdp_ctx.tasks_wait);
INIT_LIST_HEAD(&mdp_ctx.resource_list);
INIT_WORK(&mdp_ctx.handle_consume_item, cmdq_mdp_consume_wait_item);
mdp_ctx.handle_consume_queue =
create_singlethread_workqueue("cmdq_mdp_task");
mdp_status_dump_notify.notifier_call = cmdq_mdp_status_dump;
cmdq_core_register_status_dump(&mdp_status_dump_notify);
/* Initialize Resource via device tree */
cmdq_dev_init_resource(cmdq_mdp_init_resource);
/* MDP initialization setting */
cmdq_mdp_get_func()->mdpInitialSet();
cmdq_mdp_init_pmqos();
mdp_pool.limit = &mdp_pool_limit;
mdp_pool.cnt = &mdp_pool_cnt;
ret = of_property_read_u32(pdev->dev.of_node,
"dre30_hist_sram_start", &dre30_hist_sram_start);
if (ret != 0 || !dre30_hist_sram_start)
dre30_hist_sram_start = LEGACY_DRE30_HIST_SRAM_START;
cmdq_mdp_pool_create();
}
void cmdq_mdp_deinit(void)
{
s32 i = 0;
for (i = 0; i < MDP_TOTAL_THREAD; i++) {
#ifdef CONFIG_MTK_SMI_EXT
mm_qos_remove_all_request(&qos_mdp_module_request_list[i]);
mm_qos_remove_all_request(&qos_isp_module_request_list[i]);
#endif /* CONFIG_MTK_SMI_EXT */
mtk_pm_qos_remove_request(&isp_clk_qos_request[i]);
mtk_pm_qos_remove_request(&mdp_clk_qos_request[i]);
}
cmdq_mdp_pool_clear();
}
/* Platform dependent function */
struct RegDef {
int offset;
const char *name;
};
#ifdef CONFIG_MTK_SMI_EXT
uint32_t cmdq_mdp_translate_port_virtual(uint32_t engineId)
{
return 0;
}
struct mm_qos_request *cmdq_mdp_get_request_virtual(uint32_t thread_id,
uint32_t port)
{
return NULL;
}
void cmdq_mdp_init_pmqos_mdp_virtual(s32 index, struct plist_head *owner_list)
{
/* Do Nothing */
}
void cmdq_mdp_init_pmqos_isp_virtual(s32 index, struct plist_head *owner_list)
{
/* Do Nothing */
}
#endif /* CONFIG_MTK_SMI_EXT */
void cmdq_mdp_dump_mmsys_config_virtual(void)
{
/* Do Nothing */
}
/* Initialization & de-initialization MDP base VA */
void cmdq_mdp_init_module_base_VA_virtual(void)
{
/* Do Nothing */
}
void cmdq_mdp_deinit_module_base_VA_virtual(void)
{
/* Do Nothing */
}
/* query MDP clock is on */
bool cmdq_mdp_clock_is_on_virtual(enum CMDQ_ENG_ENUM engine)
{
return false;
}
/* enable MDP clock */
void cmdq_mdp_enable_clock_virtual(bool enable, enum CMDQ_ENG_ENUM engine)
{
/* Do Nothing */
}
/* Common Clock Framework */
void cmdq_mdp_init_module_clk_virtual(void)
{
/* Do Nothing */
}
/* MDP engine dump */
void cmdq_mdp_dump_rsz_virtual(const unsigned long base, const char *label)
{
u32 value[8] = { 0 };
u32 request[8] = { 0 };
u32 state = 0;
value[0] = CMDQ_REG_GET32(base + 0x004);
value[1] = CMDQ_REG_GET32(base + 0x00C);
value[2] = CMDQ_REG_GET32(base + 0x010);
value[3] = CMDQ_REG_GET32(base + 0x014);
value[4] = CMDQ_REG_GET32(base + 0x018);
CMDQ_REG_SET32(base + 0x040, 0x00000001);
value[5] = CMDQ_REG_GET32(base + 0x044);
CMDQ_REG_SET32(base + 0x040, 0x00000002);
value[6] = CMDQ_REG_GET32(base + 0x044);
CMDQ_REG_SET32(base + 0x040, 0x00000003);
value[7] = CMDQ_REG_GET32(base + 0x044);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR(
"RSZ_CONTROL: 0x%08x, RSZ_INPUT_IMAGE: 0x%08x RSZ_OUTPUT_IMAGE: 0x%08x\n",
value[0], value[1], value[2]);
CMDQ_ERR(
"RSZ_HORIZONTAL_COEFF_STEP: 0x%08x, RSZ_VERTICAL_COEFF_STEP: 0x%08x\n",
value[3], value[4]);
CMDQ_ERR(
"RSZ_DEBUG_1: 0x%08x, RSZ_DEBUG_2: 0x%08x, RSZ_DEBUG_3: 0x%08x\n",
value[5], value[6], value[7]);
/* parse state
* .valid=1/request=1: upstream module sends data
* .ready=1: downstream module receives data
*/
state = value[6] & 0xF;
request[0] = state & (0x1); /* out valid */
request[1] = (state & (0x1 << 1)) >> 1; /* out ready */
request[2] = (state & (0x1 << 2)) >> 2; /* in valid */
request[3] = (state & (0x1 << 3)) >> 3; /* in ready */
request[4] = (value[1] & 0x1FFF); /* input_width */
request[5] = (value[1] >> 16) & 0x1FFF; /* input_height */
request[6] = (value[2] & 0x1FFF); /* output_width */
request[7] = (value[2] >> 16) & 0x1FFF; /* output_height */
CMDQ_ERR("RSZ inRdy,inRsq,outRdy,outRsq: %d,%d,%d,%d (%s)\n",
request[3], request[2], request[1], request[0],
cmdq_mdp_get_rsz_state(state));
CMDQ_ERR(
"RSZ input_width,input_height,output_width,output_height: %d,%d,%d,%d\n",
request[4], request[5], request[6], request[7]);
}
void cmdq_mdp_dump_tdshp_virtual(const unsigned long base, const char *label)
{
u32 value[8] = { 0 };
value[0] = CMDQ_REG_GET32(base + 0x114);
value[1] = CMDQ_REG_GET32(base + 0x11C);
value[2] = CMDQ_REG_GET32(base + 0x104);
value[3] = CMDQ_REG_GET32(base + 0x108);
value[4] = CMDQ_REG_GET32(base + 0x10C);
value[5] = CMDQ_REG_GET32(base + 0x120);
value[6] = CMDQ_REG_GET32(base + 0x128);
value[7] = CMDQ_REG_GET32(base + 0x110);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR("TDSHP INPUT_CNT: 0x%08x, OUTPUT_CNT: 0x%08x\n",
value[0], value[1]);
CMDQ_ERR("TDSHP INTEN: 0x%08x, INTSTA: 0x%08x, 0x10C: 0x%08x\n",
value[2], value[3], value[4]);
CMDQ_ERR("TDSHP CFG: 0x%08x, IN_SIZE: 0x%08x, OUT_SIZE: 0x%08x\n",
value[7], value[5], value[6]);
}
/* MDP callback function */
s32 cmdqMdpClockOn_virtual(u64 engineFlag)
{
return 0;
}
s32 cmdqMdpDumpInfo_virtual(u64 engineFlag, int level)
{
return 0;
}
s32 cmdqMdpResetEng_virtual(u64 engineFlag)
{
return 0;
}
s32 cmdqMdpClockOff_virtual(u64 engineFlag)
{
return 0;
}
/* MDP Initialization setting */
void cmdqMdpInitialSetting_virtual(void)
{
/* Do Nothing */
}
/* test MDP clock function */
u32 cmdq_mdp_rdma_get_reg_offset_src_addr_virtual(void)
{
return 0;
}
u32 cmdq_mdp_wrot_get_reg_offset_dst_addr_virtual(void)
{
return 0;
}
u32 cmdq_mdp_wdma_get_reg_offset_dst_addr_virtual(void)
{
return 0;
}
void testcase_clkmgr_mdp_virtual(void)
{
}
const char *cmdq_mdp_dispatch_virtual(u64 engineFlag)
{
return "MDP";
}
void cmdq_mdp_trackTask_virtual(const struct cmdqRecStruct *task)
{
if (task) {
memcpy(mdp_tasks[mdp_tasks_idx].callerName,
task->caller_name, sizeof(task->caller_name));
if (task->user_debug_str)
memcpy(mdp_tasks[mdp_tasks_idx].userDebugStr,
task->user_debug_str,
(u32)strlen(task->user_debug_str) + 1);
else
mdp_tasks[mdp_tasks_idx].userDebugStr[0] = '\0';
} else {
mdp_tasks[mdp_tasks_idx].callerName[0] = '\0';
mdp_tasks[mdp_tasks_idx].userDebugStr[0] = '\0';
}
CMDQ_MSG("[Track]caller: %s\n",
mdp_tasks[mdp_tasks_idx].callerName);
CMDQ_MSG("[Track]DebugStr: %s\n",
mdp_tasks[mdp_tasks_idx].userDebugStr);
CMDQ_MSG("[Track]Index: %d\n",
mdp_tasks_idx);
mdp_tasks_idx = (mdp_tasks_idx + 1) % MDP_MAX_TASK_NUM;
}
const char *cmdq_mdp_parse_handle_error_module_by_hwflag_virtual(
const struct cmdqRecStruct *handle)
{
const char *module = NULL;
const u64 ISP_ONLY[2] = {
((1LL << CMDQ_ENG_ISP_IMGI) | (1LL << CMDQ_ENG_ISP_IMG2O)),
((1LL << CMDQ_ENG_ISP_IMGI2) | (1LL << CMDQ_ENG_ISP_IMG2O2))
};
/* common part for both normal and secure path
* for JPEG scenario, use HW flag is sufficient
*/
if ((ISP_ONLY[0] == handle->engineFlag) ||
(ISP_ONLY[1] == handle->engineFlag))
module = "DIP_ONLY";
/* for secure path, use HW flag is sufficient */
do {
if (module != NULL)
break;
if (!handle->secData.is_secure) {
/* normal path, need parse current running instruciton
* for more detail
*/
break;
} else if (CMDQ_ENG_MDP_GROUP_FLAG(handle->engineFlag)) {
module = "MDP";
break;
} else if (CMDQ_ENG_DPE_GROUP_FLAG(handle->engineFlag)) {
module = "DPE";
break;
} else if (CMDQ_ENG_RSC_GROUP_FLAG(handle->engineFlag)) {
module = "RSC";
break;
} else if (CMDQ_ENG_GEPF_GROUP_FLAG(handle->engineFlag)) {
module = "GEPF";
break;
}
module = "CMDQ";
} while (0);
return module;
}
const char *cmdq_mdp_parse_error_module_by_hwflag_virtual(
const struct cmdqRecStruct *task)
{
const char *module = NULL;
const u64 ISP_ONLY[2] = {
((1LL << CMDQ_ENG_ISP_IMGI) | (1LL << CMDQ_ENG_ISP_IMG2O)),
((1LL << CMDQ_ENG_ISP_IMGI2) | (1LL << CMDQ_ENG_ISP_IMG2O2))
};
/* common part for both normal and secure path
* for JPEG scenario, use HW flag is sufficient
*/
if ((ISP_ONLY[0] == task->engineFlag) ||
(ISP_ONLY[1] == task->engineFlag))
module = "DIP_ONLY";
/* for secure path, use HW flag is sufficient */
do {
if (module != NULL)
break;
if (!task->secData.is_secure) {
/* normal path, need parse current running instruciton
* for more detail
*/
break;
} else if (CMDQ_ENG_MDP_GROUP_FLAG(task->engineFlag)) {
module = "MDP";
break;
} else if (CMDQ_ENG_DPE_GROUP_FLAG(task->engineFlag)) {
module = "DPE";
break;
} else if (CMDQ_ENG_RSC_GROUP_FLAG(task->engineFlag)) {
module = "RSC";
break;
} else if (CMDQ_ENG_GEPF_GROUP_FLAG(task->engineFlag)) {
module = "GEPF";
break;
}
module = "CMDQ";
} while (0);
return module;
}
u64 cmdq_mdp_get_engine_group_bits_virtual(u32 engine_group)
{
return 0;
}
void cmdq_mdp_error_reset_virtual(u64 engineFlag)
{
}
long cmdq_mdp_get_module_base_VA_MMSYS_CONFIG(void)
{
return cmdq_mmsys_base;
}
static void cmdq_mdp_enable_common_clock_virtual(bool enable)
{
#ifdef CMDQ_PWR_AWARE
#ifdef CONFIG_MTK_SMI_EXT
if (enable) {
/* Use SMI clock API */
smi_bus_prepare_enable(SMI_LARB0, "CMDQ");
} else {
/* disable, reverse the sequence */
smi_bus_disable_unprepare(SMI_LARB0, "CMDQ");
}
#endif /* CONFIG_MTK_SMI_EXT */
#endif /* CMDQ_PWR_AWARE */
}
/* Common Code */
void cmdq_mdp_map_mmsys_VA(void)
{
cmdq_mmsys_base = cmdq_dev_alloc_reference_VA_by_name("mmsys_config");
}
void cmdq_mdp_unmap_mmsys_VA(void)
{
cmdq_dev_free_module_base_VA(cmdq_mmsys_base);
}
static bool mdp_is_isp_img(struct cmdqRecStruct *handle)
{
return ((handle->engineFlag & (1LL << CMDQ_ENG_ISP_IMGI) &&
handle->engineFlag & (1LL << CMDQ_ENG_ISP_IMG2O)) ||
(handle->engineFlag & (1LL << CMDQ_ENG_ISP_IMGI2) &&
handle->engineFlag & (1LL << CMDQ_ENG_ISP_IMG2O2)));
}
static void cmdq_mdp_begin_task_virtual(struct cmdqRecStruct *handle,
struct cmdqRecStruct **handle_list, u32 size)
{
#ifdef CONFIG_MTK_SMI_EXT
struct mdp_pmqos *mdp_curr_pmqos;
struct mdp_pmqos *target_pmqos = NULL;
struct mdp_pmqos *mdp_list_pmqos;
struct mdp_pmqos_record *pmqos_curr_record;
struct mdp_pmqos_record *pmqos_list_record;
s32 i = 0;
struct timeval curr_time;
s32 numerator;
s32 denominator;
u32 thread_id = handle->thread - MDP_THREAD_START;
u32 max_throughput = 0;
uint32_t act_throughput = 0;
u32 isp_curr_bandwidth = 0;
u32 mdp_curr_bandwidth = 0;
u32 total_pixel = 0;
bool first_task = true;
bool expired;
#ifdef MDP_MMPATH
/* For MMpath */
uint32_t *addr1 = NULL;
#endif /* MDP_MMPATH */
CMDQ_SYSTRACE_BEGIN("%s %u\n", __func__, size);
if (unlikely(!handle_list))
goto done;
/* check engine status */
cmdq_mdp_get_func()->CheckHwStatus(handle);
if (!handle->prop_addr)
goto done;
pmqos_curr_record =
kzalloc(sizeof(struct mdp_pmqos_record), GFP_KERNEL);
if (unlikely(!pmqos_curr_record)) {
CMDQ_ERR("alloc pmqos_curr_record fail\n");
return;
}
handle->user_private = pmqos_curr_record;
do_gettimeofday(&curr_time);
mdp_curr_pmqos = (struct mdp_pmqos *)handle->prop_addr;
pmqos_curr_record->submit_tm = curr_time;
pmqos_curr_record->end_tm.tv_sec = mdp_curr_pmqos->tv_sec;
pmqos_curr_record->end_tm.tv_usec = mdp_curr_pmqos->tv_usec;
expired = curr_time.tv_sec > mdp_curr_pmqos->tv_sec ||
(curr_time.tv_sec == mdp_curr_pmqos->tv_sec &&
curr_time.tv_usec > mdp_curr_pmqos->tv_usec);
CMDQ_LOG_PMQOS(
"%s%s handle:%p engine:%#llx thread:%d cur:%ld.%ld end:%llu.%llu list:%u mdp:%u isp:%u\n",
__func__, expired ? " expired" : "",
handle, handle->engineFlag, handle->thread,
curr_time.tv_sec, curr_time.tv_usec,
mdp_curr_pmqos->tv_sec, mdp_curr_pmqos->tv_usec,
size,
mdp_curr_pmqos->mdp_total_pixel,
mdp_curr_pmqos->isp_total_pixel);
CMDQ_LOG_PMQOS(
"mdp %u pixel %u byte, isp %u pixel %u byte, submit %06ld us, end %06ld us\n",
mdp_curr_pmqos->mdp_total_pixel,
mdp_curr_pmqos->mdp_total_datasize,
mdp_curr_pmqos->isp_total_pixel,
mdp_curr_pmqos->isp_total_datasize,
pmqos_curr_record->submit_tm.tv_usec,
pmqos_curr_record->end_tm.tv_usec);
CMDQ_SYSTRACE2_BEGIN(
"%s%s handle:%p engine:%#llx thread:%d cur:%lu.%lu end:%lu.%lu list:%u mdp:%u %u, isp:%u %u\n",
__func__, expired ? " expired" : "",
handle, handle->engineFlag, handle->thread,
curr_time.tv_sec, curr_time.tv_usec,
mdp_curr_pmqos->tv_sec, mdp_curr_pmqos->tv_usec,
size,
mdp_curr_pmqos->mdp_total_pixel, mdp_curr_pmqos->mdp_total_datasize,
mdp_curr_pmqos->isp_total_pixel, mdp_curr_pmqos->isp_total_datasize);
CMDQ_SYSTRACE2_END();
if (size > 1) {/*handle_list includes the current task*/
for (i = 0; i < size; i++) {
struct cmdqRecStruct *curTask = handle_list[i];
if (!curTask)
continue;
if (!curTask->user_private)
continue;
mdp_list_pmqos = (struct mdp_pmqos *)curTask->prop_addr;
pmqos_list_record =
(struct mdp_pmqos_record *)curTask->user_private;
total_pixel = mdp_list_pmqos->mdp_total_pixel ?
mdp_list_pmqos->mdp_total_pixel :
mdp_list_pmqos->isp_total_pixel;
if (first_task) {
target_pmqos = mdp_list_pmqos;
DP_TIMER_GET_DURATION_IN_US(
pmqos_list_record->submit_tm,
pmqos_list_record->end_tm, denominator);
DP_TIMER_GET_DURATION_IN_US(
pmqos_curr_record->submit_tm,
pmqos_list_record->end_tm, numerator);
if (denominator == numerator)
pmqos_list_record->mdp_throughput =
(total_pixel / denominator);
else
pmqos_list_record->mdp_throughput =
(total_pixel / numerator) -
(total_pixel / denominator);
max_throughput =
pmqos_list_record->mdp_throughput;
first_task = false;
} else {
struct cmdqRecStruct *prevTask =
handle_list[i - 1];
struct mdp_pmqos *mdp_prev_pmqos;
struct mdp_pmqos_record *mdp_prev_record;
if (!prevTask)
continue;
mdp_prev_pmqos =
(struct mdp_pmqos *)prevTask->prop_addr;
mdp_prev_record =
(struct mdp_pmqos_record *)
prevTask->user_private;
if (!mdp_prev_record)
continue;
DP_TIMER_GET_DURATION_IN_US(
pmqos_curr_record->submit_tm,
pmqos_list_record->end_tm, denominator);
DP_TIMER_GET_DURATION_IN_US(
pmqos_curr_record->submit_tm,
mdp_prev_record->end_tm, numerator);
pmqos_list_record->mdp_throughput =
(mdp_prev_record->mdp_throughput *
numerator / denominator) +
(total_pixel / denominator);
if (pmqos_list_record->mdp_throughput >
max_throughput)
max_throughput =
pmqos_list_record->mdp_throughput;
}
CMDQ_LOG_PMQOS(
"list[%d] mdp %u pixel %u byte, isp %u pixel %u byte, submit %06ld us end %06ld us, max_tput %u total_pixel %u (%d %d)\n",
i,
mdp_list_pmqos->mdp_total_pixel,
mdp_list_pmqos->mdp_total_datasize,
mdp_list_pmqos->isp_total_pixel,
mdp_list_pmqos->isp_total_datasize,
pmqos_list_record->submit_tm.tv_usec,
pmqos_list_record->end_tm.tv_usec,
max_throughput, total_pixel,
denominator, numerator);
}
} else {
DP_TIMER_GET_DURATION_IN_US(pmqos_curr_record->submit_tm,
pmqos_curr_record->end_tm, denominator);
total_pixel = mdp_curr_pmqos->mdp_total_pixel ?
mdp_curr_pmqos->mdp_total_pixel :
mdp_curr_pmqos->isp_total_pixel;
pmqos_curr_record->mdp_throughput =
total_pixel / denominator;
target_pmqos = mdp_curr_pmqos;
max_throughput = pmqos_curr_record->mdp_throughput;
}
if (!target_pmqos) {
CMDQ_ERR(
"%s no target_pmqos handle:%p engine:%#llx thread:%d\n",
__func__, handle, handle->engineFlag, handle->thread);
goto done;
}
if (max_throughput > g_freq_steps[0])
act_throughput = g_freq_steps[0];
else
act_throughput = max_throughput;
total_pixel = target_pmqos->mdp_total_pixel ?
target_pmqos->mdp_total_pixel :
target_pmqos->isp_total_pixel;
CMDQ_LOG_PMQOS(
"[%d]begin task act_throughput %u total_pixel %u\n",
thread_id, act_throughput, total_pixel);
CMDQ_SYSTRACE2_COUNTER("isp_pix%d", target_pmqos->isp_total_pixel, thread_id);
CMDQ_SYSTRACE2_COUNTER("mdp_pix%d", target_pmqos->mdp_total_pixel, thread_id);
/* update isp bandwidth and clock */
if (target_pmqos->isp_total_datasize) {
for (i = 0; i < PMQOS_ISP_PORT_NUM &&
target_pmqos->qos2_isp_count > i &&
target_pmqos->qos2_isp_port[i]; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
target_pmqos->qos2_isp_port[i]);
DP_BANDWIDTH(target_pmqos->qos2_isp_bandwidth[i],
total_pixel,
act_throughput,
isp_curr_bandwidth);
mm_qos_set_request(request, isp_curr_bandwidth,
0, BW_COMP_NONE);
}
CMDQ_SYSTRACE_BEGIN("%s qos isp %d\n", __func__, thread_id);
mm_qos_update_all_request(
&qos_isp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&isp_clk_qos_request[thread_id],
act_throughput);
CMDQ_SYSTRACE2_COUNTER("isp_tput%d", act_throughput, thread_id);
CMDQ_LOG_PMQOS(
"[%d]begin task qos update throughput isp %u\n",
thread_id, act_throughput);
CMDQ_SYSTRACE_END();
}
/* update mdp bandwidth and clock */
if (target_pmqos->mdp_total_datasize) {
for (i = 0; i < PMQOS_MDP_PORT_NUM
&& target_pmqos->qos2_mdp_count > i
&& target_pmqos->qos2_mdp_port[i] != 0; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
cmdq_mdp_get_func()->translatePort(
target_pmqos->qos2_mdp_port[i]));
u32 comp_type =
(target_pmqos->qos2_mdp_port_format_flag[i]
== DP_BW_COMP_NONE) ?
BW_COMP_NONE : BW_COMP_DEFAULT;
DP_BANDWIDTH(target_pmqos->qos2_mdp_bandwidth[i],
target_pmqos->mdp_total_pixel,
act_throughput,
mdp_curr_bandwidth);
mm_qos_set_request(request, mdp_curr_bandwidth, 0,
comp_type);
CMDQ_LOG_PMQOS(
"[%d]begin task qos update mdp bandwidth:%u, port:%u\n",
thread_id, mdp_curr_bandwidth, target_pmqos->qos2_mdp_port[i]);
}
CMDQ_SYSTRACE_BEGIN("%s qos mdp %d\n", __func__, thread_id);
mm_qos_update_all_request(
&qos_mdp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&mdp_clk_qos_request[thread_id],
act_throughput);
CMDQ_SYSTRACE2_COUNTER("mdp_tput%d", act_throughput, thread_id);
CMDQ_LOG_PMQOS(
"[%d]begin task qos update throughput mdp %u\n",
thread_id, act_throughput);
CMDQ_SYSTRACE_END();
}
#ifdef MDP_MMPATH
if (!handle->prop_addr)
goto done;
mdp_curr_pmqos = (struct mdp_pmqos *)handle->prop_addr;
do {
if (mdp_curr_pmqos->mdpMMpathStringSize <= 0)
break;
addr1 = kcalloc(mdp_curr_pmqos->mdpMMpathStringSize,
sizeof(char), GFP_KERNEL);
if (!addr1) {
mdp_curr_pmqos->mdpMMpathStringSize = 0;
CMDQ_ERR("[MDP] fail to alloc mmpath buf\n");
break;
}
if (copy_from_user
(addr1, CMDQ_U32_PTR(mdp_curr_pmqos->mdpMMpathString),
mdp_curr_pmqos->mdpMMpathStringSize * sizeof(char))) {
mdp_curr_pmqos->mdpMMpathStringSize = 0;
CMDQ_MSG("[MDP] fail to copy user mmpath log\n");
kfree(addr1);
break;
}
mdp_curr_pmqos->mdpMMpathString = (unsigned long)addr1;
if (mdp_curr_pmqos->mdpMMpathStringSize > 0)
trace_MMPath((char *)CMDQ_U32_PTR(
mdp_curr_pmqos->mdpMMpathString));
} while (0);
#endif /* MDP_MMPATH */
done:
#endif /* CONFIG_MTK_SMI_EXT */
CMDQ_SYSTRACE_END();
}
static void cmdq_mdp_isp_begin_task_virtual(struct cmdqRecStruct *handle,
struct cmdqRecStruct **handle_list, u32 size)
{
if (!mdp_is_isp_img(handle))
return;
cmdq_mdp_begin_task_virtual(handle, handle_list, size);
}
static void cmdq_mdp_end_task_virtual(struct cmdqRecStruct *handle,
struct cmdqRecStruct **handle_list, u32 size)
{
#ifdef CONFIG_MTK_SMI_EXT
struct mdp_pmqos *mdp_curr_pmqos;
struct mdp_pmqos *target_pmqos = NULL;
struct mdp_pmqos *mdp_list_pmqos;
struct mdp_pmqos_record *pmqos_curr_record;
struct mdp_pmqos_record *pmqos_list_record;
s32 i = 0;
struct timeval curr_time;
int32_t denominator;
uint32_t thread_id = handle->thread - MDP_THREAD_START;
uint32_t max_throughput = 0;
uint32_t act_throughput = 0;
uint32_t pre_throughput = 0;
bool trigger = false;
bool first_task = true;
int32_t overdue;
uint32_t isp_curr_bandwidth = 0;
uint32_t mdp_curr_bandwidth = 0;
uint32_t curr_pixel_size = 0;
u32 total_pixel = 0;
bool expired;
if (!handle->prop_addr)
return;
do_gettimeofday(&curr_time);
mdp_curr_pmqos = (struct mdp_pmqos *)handle->prop_addr;
pmqos_curr_record = (struct mdp_pmqos_record *)handle->user_private;
if (unlikely(!pmqos_curr_record)) {
CMDQ_ERR("alloc pmqos_curr_record fail\n");
return;
}
pmqos_curr_record->submit_tm = curr_time;
expired = curr_time.tv_sec > mdp_curr_pmqos->tv_sec ||
(curr_time.tv_sec == mdp_curr_pmqos->tv_sec &&
curr_time.tv_usec > mdp_curr_pmqos->tv_usec);
CMDQ_LOG_PMQOS(
"%s%s handle:%p engine:%#llx thread:%d cur:%ld.%ld end:%llu.%llu list:%u mdp:%u isp:%u\n",
__func__, expired ? " expired" : "",
handle, handle->engineFlag, handle->thread,
curr_time.tv_sec, curr_time.tv_usec,
mdp_curr_pmqos->tv_sec, mdp_curr_pmqos->tv_usec,
size,
mdp_curr_pmqos->mdp_total_pixel,
mdp_curr_pmqos->isp_total_pixel);
CMDQ_SYSTRACE2_BEGIN(
"%s%s handle:%p engine:%#llx thread:%d cur:%lu.%lu end:%lu.%lu list:%u mdp:%u isp:%u\n",
__func__, expired ? " expired" : "",
handle, handle->engineFlag, handle->thread,
curr_time.tv_sec, curr_time.tv_usec,
mdp_curr_pmqos->tv_sec, mdp_curr_pmqos->tv_usec,
size,
mdp_curr_pmqos->mdp_total_pixel,
mdp_curr_pmqos->isp_total_pixel);
CMDQ_SYSTRACE2_END();
for (i = 0; i < size; i++) {
struct cmdqRecStruct *curTask = handle_list[i];
if (!curTask)
continue;
if (!curTask->user_private)
continue;
mdp_list_pmqos = (struct mdp_pmqos *)curTask->prop_addr;
pmqos_list_record =
(struct mdp_pmqos_record *)curTask->user_private;
if (first_task) {
target_pmqos = mdp_list_pmqos;
curr_pixel_size = mdp_list_pmqos->mdp_total_pixel ?
mdp_list_pmqos->mdp_total_pixel :
mdp_list_pmqos->isp_total_pixel;
first_task = false;
}
if (pmqos_curr_record->mdp_throughput <
pmqos_list_record->mdp_throughput) {
if (max_throughput <
pmqos_list_record->mdp_throughput) {
max_throughput =
pmqos_list_record->mdp_throughput;
DP_TIMER_GET_DURATION_IN_US(
pmqos_curr_record->submit_tm,
pmqos_list_record->end_tm, overdue);
if (overdue == 1) {
trigger = true;
break;
}
}
continue;
}
trigger = true;
break;
}
first_task = true;
/*handle_list excludes the current task*/
if (size > 0 && trigger) {
for (i = 0; i < size; i++) {
struct cmdqRecStruct *curTask = handle_list[i];
if (!curTask)
continue;
if (!curTask->user_private)
continue;
mdp_list_pmqos = (struct mdp_pmqos *)curTask->prop_addr;
pmqos_list_record =
(struct mdp_pmqos_record *)
curTask->user_private;
total_pixel = mdp_list_pmqos->mdp_total_pixel ?
mdp_list_pmqos->mdp_total_pixel :
mdp_list_pmqos->isp_total_pixel;
if (first_task) {
DP_TIMER_GET_DURATION_IN_US(
pmqos_list_record->submit_tm,
pmqos_list_record->end_tm, denominator);
pmqos_list_record->mdp_throughput =
total_pixel / denominator;
max_throughput =
pmqos_list_record->mdp_throughput;
first_task = false;
pre_throughput = max_throughput;
} else {
if (!pre_throughput)
continue;
DP_TIMER_GET_DURATION_IN_US(
pmqos_curr_record->submit_tm,
pmqos_list_record->end_tm, denominator);
pmqos_list_record->mdp_throughput =
pre_throughput +
(total_pixel / denominator);
pre_throughput =
pmqos_list_record->mdp_throughput;
if (pmqos_list_record->mdp_throughput >
max_throughput)
max_throughput =
pmqos_list_record->mdp_throughput;
}
CMDQ_LOG_PMQOS(
"list[%d] %u MHz mdp %u pixel %u byte, isp %u pixel %u byte, submit %06ldus end %06ldus, max_tput %u\n",
i, pmqos_list_record->mdp_throughput,
mdp_list_pmqos->mdp_total_pixel,
mdp_list_pmqos->mdp_total_datasize,
mdp_list_pmqos->isp_total_pixel,
mdp_list_pmqos->isp_total_datasize,
pmqos_list_record->submit_tm.tv_usec,
pmqos_list_record->end_tm.tv_usec,
max_throughput);
}
}
if (max_throughput > g_freq_steps[0])
act_throughput = g_freq_steps[0];
else
act_throughput = max_throughput;
CMDQ_LOG_PMQOS(
"[%d]act_throughput %u pixel mdp %u -> %u isp %u -> %u\n",
thread_id, act_throughput,
mdp_curr_pmqos->mdp_total_pixel,
target_pmqos ? target_pmqos->mdp_total_pixel : 0,
mdp_curr_pmqos->isp_total_pixel,
target_pmqos ? target_pmqos->mdp_total_pixel : 0);
CMDQ_SYSTRACE2_COUNTER("isp_pix%d",
(target_pmqos ? target_pmqos->mdp_total_pixel : 0), thread_id);
CMDQ_SYSTRACE2_COUNTER("mdp_pix%d",
(target_pmqos ? target_pmqos->mdp_total_pixel : 0), thread_id);
kfree(handle->user_private);
handle->user_private = NULL;
/* update isp bandwidth and clock */
if (target_pmqos && target_pmqos->isp_total_datasize) {
/* turn off current first */
for (i = 0; i < PMQOS_ISP_PORT_NUM &&
mdp_curr_pmqos->qos2_isp_count > i &&
mdp_curr_pmqos->qos2_isp_port[i] != 0; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
mdp_curr_pmqos->qos2_isp_port[i]);
u32 comp_type =
(mdp_curr_pmqos->qos2_isp_port_format_flag[i]
== DP_BW_COMP_NONE) ?
BW_COMP_NONE : BW_COMP_DEFAULT;
mm_qos_set_request(request, 0, 0, comp_type);
}
/* turn on next ports */
for (i = 0; i < PMQOS_ISP_PORT_NUM &&
target_pmqos->qos2_isp_count > i &&
target_pmqos->qos2_isp_port[i] != 0; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
target_pmqos->qos2_isp_port[i]);
u32 comp_type =
(target_pmqos->qos2_isp_port_format_flag[i]
== DP_BW_COMP_NONE) ?
BW_COMP_NONE : BW_COMP_DEFAULT;
DP_BANDWIDTH(target_pmqos->qos2_isp_bandwidth[i],
curr_pixel_size,
act_throughput,
isp_curr_bandwidth);
mm_qos_set_request(request, isp_curr_bandwidth, 0,
comp_type);
}
CMDQ_SYSTRACE_BEGIN("%s qos isp %u\n", __func__, thread_id);
mm_qos_update_all_request(
&qos_isp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&isp_clk_qos_request[thread_id],
act_throughput);
CMDQ_SYSTRACE2_COUNTER("isp_tput%d", act_throughput, thread_id);
CMDQ_LOG_PMQOS(
"[%d]end task qos update throughput isp %u\n",
thread_id, act_throughput);
CMDQ_SYSTRACE_END();
} else if (mdp_curr_pmqos->isp_total_datasize) {
CMDQ_SYSTRACE_BEGIN("%s qos isp off %d\n",
__func__, thread_id);
mm_qos_update_all_request_zero(
&qos_isp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&isp_clk_qos_request[thread_id], 0);
CMDQ_SYSTRACE2_COUNTER("isp_tput%d", 0, thread_id);
CMDQ_LOG_PMQOS(
"[%d]end task qos update throughput isp off %u\n",
thread_id, 0);
CMDQ_SYSTRACE_END();
}
/* update mdp bandwidth and clock */
if (target_pmqos && target_pmqos->mdp_total_datasize) {
/* turn off current first */
for (i = 0; i < PMQOS_MDP_PORT_NUM &&
mdp_curr_pmqos->qos2_mdp_count > i &&
mdp_curr_pmqos->qos2_mdp_port[i] != 0; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
cmdq_mdp_get_func()->translatePort(
mdp_curr_pmqos->qos2_mdp_port[i]));
u32 comp_type =
(mdp_curr_pmqos->qos2_mdp_port_format_flag[i]
== DP_BW_COMP_NONE) ?
BW_COMP_NONE : BW_COMP_DEFAULT;
mm_qos_set_request(request, 0, 0, comp_type);
}
/* turn on next ports */
for (i = 0; i < PMQOS_MDP_PORT_NUM &&
target_pmqos->qos2_mdp_count > i &&
target_pmqos->qos2_mdp_port[i] != 0; i++) {
struct mm_qos_request *request =
cmdq_mdp_get_func()->getRequest(thread_id,
cmdq_mdp_get_func()->translatePort(
target_pmqos->qos2_mdp_port[i]));
u32 comp_type =
(target_pmqos->qos2_mdp_port_format_flag[i]
== DP_BW_COMP_NONE) ?
BW_COMP_NONE : BW_COMP_DEFAULT;
DP_BANDWIDTH(target_pmqos->qos2_mdp_bandwidth[i],
target_pmqos->mdp_total_pixel,
act_throughput,
mdp_curr_bandwidth);
mm_qos_set_request(request, mdp_curr_bandwidth, 0,
comp_type);
CMDQ_LOG_PMQOS(
"[%d]end task qos update bandwidth:%u, port:%u\n",
thread_id, mdp_curr_bandwidth, target_pmqos->qos2_mdp_port[i]);
}
CMDQ_SYSTRACE_BEGIN("%s qos mdp %d\n", __func__, thread_id);
mm_qos_update_all_request(
&qos_mdp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&mdp_clk_qos_request[thread_id],
act_throughput);
CMDQ_SYSTRACE2_COUNTER("mdp_tput%d", act_throughput, thread_id);
CMDQ_LOG_PMQOS(
"[%d]end task qos update throughput mdp %u\n",
thread_id, act_throughput);
CMDQ_SYSTRACE_END();
} else if (mdp_curr_pmqos->mdp_total_datasize) {
CMDQ_SYSTRACE_BEGIN("%s qos mdp off %d\n",
__func__, thread_id);
mm_qos_update_all_request_zero(
&qos_mdp_module_request_list[thread_id]);
mtk_pm_qos_update_request(&mdp_clk_qos_request[thread_id], 0);
CMDQ_SYSTRACE2_COUNTER("mdp_tput%d", 0, thread_id);
CMDQ_LOG_PMQOS(
"[%d]end task qos update throughput mdp off %u\n",
thread_id, 0);
CMDQ_SYSTRACE_END();
}
#ifdef MDP_MMPATH
if (handle->prop_addr) {
mdp_curr_pmqos = (struct mdp_pmqos *)handle->prop_addr;
if (mdp_curr_pmqos->mdpMMpathStringSize > 0) {
kfree(CMDQ_U32_PTR(mdp_curr_pmqos->mdpMMpathString));
mdp_curr_pmqos->mdpMMpathString = 0;
mdp_curr_pmqos->mdpMMpathStringSize = 0;
}
}
#endif /* MDP_MMPATH */
#endif /* CONFIG_MTK_SMI_EXT */
}
static void cmdq_mdp_isp_end_task_virtual(struct cmdqRecStruct *handle,
struct cmdqRecStruct **handle_list, u32 size)
{
if (!mdp_is_isp_img(handle))
return;
cmdq_mdp_end_task_virtual(handle, handle_list, size);
}
static void cmdq_mdp_check_hw_status_virtual(struct cmdqRecStruct *handle)
{
/* Do nothing */
}
u64 cmdq_mdp_get_secure_engine_virtual(u64 engine_flag)
{
return 0;
}
void cmdq_mdp_resolve_token_virtual(u64 engine_flag,
const struct cmdqRecStruct *task)
{
}
void cmdq_mdp_compose_readback_virtual(struct cmdqRecStruct *handle,
u16 engine, dma_addr_t dma, u32 param)
{
CMDQ_ERR("%s not implement\n", __func__);
}
#define MDP_AAL_SRAM_CFG 0x0C4
#define MDP_AAL_SRAM_STATUS 0x0C8
#define MDP_AAL_SRAM_RW_IF_2 0x0D4
#define MDP_AAL_SRAM_RW_IF_3 0x0D8
#define MDP_AAL_DUAL_PIPE_00 0x500
#define MDP_AAL_DUAL_PIPE_08 0x544
#define MDP_AAL_SRAM_RW_IF_2_MASK 0x01FFF
#define MDP_AAL_SRAM_CNT 768
#define MDP_AAL_SRAM_STATUS_BIT BIT(17)
#define MDP_AAL_DRE_BITS(_param) (_param & 0xF)
#define MDP_AAL_MULTIPLE_BITS(_param) ((_param >> 4) & 1)
static void mdp_readback_aal_virtual(struct cmdqRecStruct *handle,
u16 engine, phys_addr_t base, dma_addr_t pa, u32 param)
{
struct mdp_readback_engine *rb =
&handle->readback_engs[handle->readback_cnt];
struct cmdq_pkt *pkt = handle->pkt;
u32 dre = MDP_AAL_DRE_BITS(param);
u32 multiple = MDP_AAL_MULTIPLE_BITS(param);
u32 offset, begin_pa, condi_offset;
u32 *condi_inst;
const uint16_t idx_addr = CMDQ_THR_SPR_IDX1;
const u16 idx_gpr_out = CMDQ_GPR_P4;
const u16 idx_gpr_poll = CMDQ_GPR_R05;
const u16 idx_gpr_val = CMDQ_GPR_R05;
const u16 idx_out_low = CMDQ_GPR_CNT_ID + CMDQ_GPR_R08;
struct cmdq_operand lop, rop;
struct cmdq_pkt_buffer *buf;
CMDQ_MSG("%s buffer:%lx engine:%hu dre:%u\n",
__func__, (unsigned long)pa, engine, dre);
rb->start = pa;
rb->count = 768;
if (multiple)
rb->count += 16;
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (handle->secData.is_secure)
rb->engine = engine - CMDQ_ENG_MDP_AAL0 + CMDQ_SEC_MDP_AAL0;
else
#endif
rb->engine = engine;
rb->param = param;
handle->readback_cnt++;
handle->mdp_extension |= 1LL << DP_CMDEXT_AAL_DRE;
if (multiple)
handle->mdp_extension |= 1LL << DP_CMDEXT_AAL_MULTIPIPE;
if (handle->secData.is_secure)
return;
buf = list_last_entry(&pkt->buf, typeof(*buf), list_entry);
/* following part read back aal histogram */
cmdq_pkt_write_value_addr(pkt, base + MDP_AAL_SRAM_CFG,
(dre << 6) | (dre << 5) | BIT(4), GENMASK(6, 4));
/* for gpr r5 and p4, sharpness */
cmdq_pkt_wfe(pkt, CMDQ_SYNC_TOKEN_GPR_SET_1);
/* init sprs
* spr1 = AAL_SRAM_START
* gpr_p4 = out_pa
*/
cmdq_pkt_assign_command(pkt, idx_addr, dre30_hist_sram_start);
cmdq_pkt_move(pkt, idx_gpr_out, pa);
/* loop again here */
begin_pa = cmdq_pkt_get_curr_buf_pa(pkt);
/* config aal sram addr and poll */
cmdq_pkt_write_reg_addr(pkt, base + MDP_AAL_SRAM_RW_IF_2,
idx_addr, U32_MAX);
cmdq_pkt_poll_addr(pkt, MDP_AAL_SRAM_STATUS_BIT,
base + MDP_AAL_SRAM_STATUS,
MDP_AAL_SRAM_STATUS_BIT, idx_gpr_poll);
/* read to value gpr */
cmdq_pkt_read_addr(pkt, base + MDP_AAL_SRAM_RW_IF_3,
CMDQ_GPR_CNT_ID + idx_gpr_val);
/* write value gpr to dst gpr */
cmdq_pkt_store64_value_reg(pkt, idx_gpr_out, idx_gpr_val);
/* jump forward end if sram is last one
* if spr1 >= 4096 + 4 * 767
*/
lop.reg = true;
lop.idx = idx_addr;
rop.reg = false;
rop.value = dre30_hist_sram_start + 4 * (MDP_AAL_SRAM_CNT - 1);
cmdq_pkt_assign_command(pkt, CMDQ_THR_SPR_IDX0, 0);
condi_offset = pkt->cmd_buf_size - CMDQ_INST_SIZE;
cmdq_pkt_cond_jump_abs(pkt, CMDQ_THR_SPR_IDX0, &lop, &rop,
CMDQ_GREATER_THAN_AND_EQUAL);
/* inc src addr */
lop.reg = true;
lop.idx = idx_addr;
rop.reg = false;
rop.value = 4;
cmdq_pkt_logic_command(pkt, CMDQ_LOGIC_ADD, idx_addr, &lop, &rop);
/* inc outut pa */
lop.reg = true;
lop.idx = idx_out_low;
rop.reg = false;
rop.value = 4;
cmdq_pkt_logic_command(pkt, CMDQ_LOGIC_ADD, idx_out_low, &lop, &rop);
cmdq_pkt_jump_addr(pkt, begin_pa);
condi_inst = (u32 *)cmdq_pkt_get_va_by_offset(pkt, condi_offset);
if (unlikely(!condi_inst)) {
CMDQ_ERR("%s wrong offset %u\n", __func__, condi_offset);
return;
}
if (condi_inst[1] == 0x10000001) {
condi_inst = (u32 *)cmdq_pkt_get_va_by_offset(pkt,
condi_offset + CMDQ_INST_SIZE);
if (unlikely(!condi_inst)) {
CMDQ_ERR("%s wrong offset %u.\n", __func__, condi_offset);
return;
}
}
*condi_inst = (u32)CMDQ_REG_SHIFT_ADDR(cmdq_pkt_get_curr_buf_pa(pkt));
pa = pa + MDP_AAL_SRAM_CNT * 4;
if (multiple) {
u32 i;
offset = 0;
for (i = 0; i < 8; i++) {
cmdq_pkt_mem_move(pkt, NULL,
base + MDP_AAL_DUAL_PIPE_00 + i * 4,
pa + offset, CMDQ_THR_SPR_IDX3);
offset += 4;
}
for (i = 0; i < 8; i++) {
cmdq_pkt_mem_move(pkt, NULL,
base + MDP_AAL_DUAL_PIPE_08 + i * 4,
pa + offset, CMDQ_THR_SPR_IDX3);
offset += 4;
}
}
cmdq_pkt_set_event(pkt, CMDQ_SYNC_TOKEN_GPR_SET_1);
}
#define MDP_HDR_HIST_DATA 0x0D8
#define MDP_HDR_LBOX_DET_4 0x0FC
#define HDR_TONE_MAP_S14 0x0C8
#define HDR_GAIN_TABLE_2 0x0E8
#define MDP_HDR_HIST_CNT 57
static void mdp_readback_hdr_virtual(struct cmdqRecStruct *handle,
u16 engine, phys_addr_t base, dma_addr_t pa, u32 param)
{
struct mdp_readback_engine *rb =
&handle->readback_engs[handle->readback_cnt];
struct cmdq_pkt *pkt = handle->pkt;
u32 begin_pa, condi_offset;
u32 *condi_inst;
const uint16_t idx_counter = CMDQ_THR_SPR_IDX1;
const u16 idx_gpr_out = CMDQ_GPR_P4;
const u16 idx_gpr_val = CMDQ_GPR_R05;
const u16 idx_out_low = CMDQ_GPR_CNT_ID + CMDQ_GPR_R08;
struct cmdq_operand lop, rop;
struct cmdq_pkt_buffer *buf;
CMDQ_MSG("%s buffer:%lx engine:%hu\n",
__func__, (unsigned long)pa, engine);
rb->start = pa;
rb->count = 58;
#ifdef CMDQ_SECURE_PATH_SUPPORT
if (handle->secData.is_secure)
rb->engine = engine - CMDQ_ENG_MDP_HDR0 + CMDQ_SEC_MDP_HDR0;
else
#endif
rb->engine = engine;
rb->param = param;
handle->readback_cnt++;
handle->mdp_extension |= 1LL << DP_CMDEXT_HDR;
if (handle->secData.is_secure)
return;
buf = list_last_entry(&pkt->buf, typeof(*buf), list_entry);
/* for gpr r5 and p4, sharpness */
cmdq_pkt_wfe(pkt, CMDQ_SYNC_TOKEN_GPR_SET_1);
/* readback to this pa */
cmdq_pkt_move(pkt, idx_gpr_out, pa);
/* counter init to 0 */
cmdq_pkt_assign_command(pkt, idx_counter, 0);
/* loop again here */
begin_pa = cmdq_pkt_get_curr_buf_pa(pkt);
/* read to value gpr */
cmdq_pkt_read_addr(pkt, base + MDP_HDR_HIST_DATA,
CMDQ_GPR_CNT_ID + idx_gpr_val);
/* write value gpr to dst gpr */
cmdq_pkt_store64_value_reg(pkt, idx_gpr_out, idx_gpr_val);
/* jump forward end if match
* if spr1 >= 57 - 1
*/
lop.reg = true;
lop.idx = idx_counter;
rop.reg = false;
rop.value = MDP_HDR_HIST_CNT - 1;
cmdq_pkt_assign_command(pkt, CMDQ_THR_SPR_IDX0, 0);
condi_offset = pkt->cmd_buf_size - CMDQ_INST_SIZE;
cmdq_pkt_cond_jump_abs(pkt, CMDQ_THR_SPR_IDX0, &lop, &rop,
CMDQ_GREATER_THAN_AND_EQUAL);
/* inc counter */
lop.reg = true;
lop.idx = idx_counter;
rop.reg = false;
rop.value = 1;
cmdq_pkt_logic_command(pkt, CMDQ_LOGIC_ADD, idx_counter, &lop, &rop);
/* inc outut pa */
lop.reg = true;
lop.idx = idx_out_low;
rop.reg = false;
rop.value = 4;
cmdq_pkt_logic_command(pkt, CMDQ_LOGIC_ADD, idx_out_low, &lop, &rop);
cmdq_pkt_jump_addr(pkt, begin_pa);
condi_inst = (u32 *)cmdq_pkt_get_va_by_offset(pkt, condi_offset);
if (unlikely(!condi_inst)) {
CMDQ_ERR("%s wrong offset %u\n", __func__, condi_offset);
return;
}
if (condi_inst[1] == 0x10000001) {
condi_inst = (u32 *)cmdq_pkt_get_va_by_offset(pkt,
condi_offset + 8);
if (unlikely(!condi_inst)) {
CMDQ_ERR("%s wrong offset %u.\n", __func__, condi_offset);
return;
}
}
*condi_inst = (u32)CMDQ_REG_SHIFT_ADDR(cmdq_pkt_get_curr_buf_pa(pkt));
pa = pa + MDP_HDR_HIST_CNT * 4;
cmdq_pkt_mem_move(pkt, NULL, base + MDP_HDR_LBOX_DET_4, pa,
CMDQ_THR_SPR_IDX3);
cmdq_pkt_set_event(pkt, CMDQ_SYNC_TOKEN_GPR_SET_1);
}
void cmdq_mdp_virtual_function_setting(void)
{
struct cmdqMDPFuncStruct *pFunc;
pFunc = &mdp_funcs;
#ifdef CONFIG_MTK_SMI_EXT
pFunc->translatePort = cmdq_mdp_translate_port_virtual;
pFunc->getRequest = cmdq_mdp_get_request_virtual;
pFunc->initPmqosMdp = cmdq_mdp_init_pmqos_mdp_virtual;
pFunc->initPmqosIsp = cmdq_mdp_init_pmqos_isp_virtual;
#endif /* CONFIG_MTK_SMI_EXT */
pFunc->dumpMMSYSConfig = cmdq_mdp_dump_mmsys_config_virtual;
pFunc->initModuleBaseVA = cmdq_mdp_init_module_base_VA_virtual;
pFunc->deinitModuleBaseVA = cmdq_mdp_deinit_module_base_VA_virtual;
pFunc->mdpClockIsOn = cmdq_mdp_clock_is_on_virtual;
pFunc->enableMdpClock = cmdq_mdp_enable_clock_virtual;
pFunc->initModuleCLK = cmdq_mdp_init_module_clk_virtual;
pFunc->mdpDumpRsz = cmdq_mdp_dump_rsz_virtual;
pFunc->mdpDumpTdshp = cmdq_mdp_dump_tdshp_virtual;
pFunc->mdpClockOn = cmdqMdpClockOn_virtual;
pFunc->mdpDumpInfo = cmdqMdpDumpInfo_virtual;
pFunc->mdpResetEng = cmdqMdpResetEng_virtual;
pFunc->mdpClockOff = cmdqMdpClockOff_virtual;
pFunc->mdpInitialSet = cmdqMdpInitialSetting_virtual;
pFunc->rdmaGetRegOffsetSrcAddr =
cmdq_mdp_rdma_get_reg_offset_src_addr_virtual;
pFunc->wrotGetRegOffsetDstAddr =
cmdq_mdp_wrot_get_reg_offset_dst_addr_virtual;
pFunc->wdmaGetRegOffsetDstAddr =
cmdq_mdp_wdma_get_reg_offset_dst_addr_virtual;
pFunc->testcaseClkmgrMdp = testcase_clkmgr_mdp_virtual;
pFunc->dispatchModule = cmdq_mdp_dispatch_virtual;
pFunc->trackTask = cmdq_mdp_trackTask_virtual;
pFunc->parseErrModByEngFlag =
cmdq_mdp_parse_error_module_by_hwflag_virtual;
pFunc->parseHandleErrModByEngFlag =
cmdq_mdp_parse_handle_error_module_by_hwflag_virtual;
pFunc->getEngineGroupBits = cmdq_mdp_get_engine_group_bits_virtual;
pFunc->errorReset = cmdq_mdp_error_reset_virtual;
pFunc->mdpEnableCommonClock = cmdq_mdp_enable_common_clock_virtual;
pFunc->beginTask = cmdq_mdp_begin_task_virtual;
pFunc->endTask = cmdq_mdp_end_task_virtual;
pFunc->beginISPTask = cmdq_mdp_isp_begin_task_virtual;
pFunc->endISPTask = cmdq_mdp_isp_end_task_virtual;
pFunc->CheckHwStatus = cmdq_mdp_check_hw_status_virtual;
pFunc->mdpGetSecEngine = cmdq_mdp_get_secure_engine_virtual;
pFunc->resolve_token = cmdq_mdp_resolve_token_virtual;
pFunc->mdpComposeReadback = cmdq_mdp_compose_readback_virtual;
pFunc->mdpReadbackAal = mdp_readback_aal_virtual;
pFunc->mdpReadbackHdr = mdp_readback_hdr_virtual;
}
struct cmdqMDPFuncStruct *cmdq_mdp_get_func(void)
{
return &mdp_funcs;
}
void cmdq_mdp_enable(u64 engineFlag, enum CMDQ_ENG_ENUM engine)
{
#ifdef CMDQ_PWR_AWARE
CMDQ_VERBOSE("Test for ENG %d\n", engine);
if (engineFlag & (1LL << engine))
cmdq_mdp_get_func()->enableMdpClock(true, engine);
#endif
}
int cmdq_mdp_loop_reset_impl(const unsigned long resetReg,
const u32 resetWriteValue,
const unsigned long resetStateReg,
const u32 resetMask,
const u32 resetPollingValue, const s32 maxLoopCount)
{
u32 poll_value = 0;
s32 ret;
CMDQ_REG_SET32(resetReg, resetWriteValue);
/* polling with 10ms timeout */
ret = readl_poll_timeout_atomic((void *)resetStateReg, poll_value,
(poll_value & resetMask) == resetPollingValue, 0, 10000);
/* return polling result */
if (ret == -ETIMEDOUT) {
CMDQ_ERR(
"%s failed Reg:0x%lx writeValue:0x%08x stateReg:0x%lx mask:0x%08x pollingValue:0x%08x\n",
__func__, resetReg, resetWriteValue, resetStateReg,
resetMask, resetPollingValue);
dump_stack();
return -EFAULT;
}
return 0;
}
int cmdq_mdp_loop_reset(enum CMDQ_ENG_ENUM engine,
const unsigned long resetReg,
const unsigned long resetStateReg,
const u32 resetMask,
const u32 resetValue, const bool pollInitResult)
{
#ifdef CMDQ_PWR_AWARE
int resetStatus = 0;
int initStatus = 0;
if (cmdq_mdp_get_func()->mdpClockIsOn(engine)) {
CMDQ_PROF_START(current->pid, __func__);
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_reset,
MMPROFILE_FLAG_START, resetReg, resetStateReg);
/* loop reset */
resetStatus = cmdq_mdp_loop_reset_impl(resetReg, 0x1,
resetStateReg, resetMask, resetValue,
CMDQ_MAX_LOOP_COUNT);
if (pollInitResult) {
/* loop init */
initStatus = cmdq_mdp_loop_reset_impl(resetReg, 0x0,
resetStateReg, resetMask, 0x0,
CMDQ_MAX_LOOP_COUNT);
} else {
/* always clear to init state no matter what
* polling result
*/
CMDQ_REG_SET32(resetReg, 0x0);
}
CMDQ_PROF_MMP(mdp_mmp_get_event()->MDP_reset,
MMPROFILE_FLAG_END, resetReg, resetStateReg);
CMDQ_PROF_END(current->pid, __func__);
/* retrun failed if loop failed */
if ((resetStatus < 0) || (initStatus < 0)) {
CMDQ_ERR(
"Reset MDP %d failed, resetStatus:%d, initStatus:%d\n",
engine, resetStatus, initStatus);
return -EFAULT;
}
}
#endif
return 0;
};
void cmdq_mdp_loop_off(enum CMDQ_ENG_ENUM engine,
const unsigned long resetReg,
const unsigned long resetStateReg,
const u32 resetMask,
const u32 resetValue, const bool pollInitResult)
{
#ifdef CMDQ_PWR_AWARE
int resetStatus = 0;
int initStatus = 0;
if (cmdq_mdp_get_func()->mdpClockIsOn(engine)) {
/* loop reset */
resetStatus = cmdq_mdp_loop_reset_impl(resetReg, 0x1,
resetStateReg, resetMask, resetValue,
CMDQ_MAX_LOOP_COUNT);
if (pollInitResult) {
/* loop init */
initStatus = cmdq_mdp_loop_reset_impl(resetReg, 0x0,
resetStateReg, resetMask, 0x0,
CMDQ_MAX_LOOP_COUNT);
} else {
/* always clear to init state no matter what polling
* result
*/
CMDQ_REG_SET32(resetReg, 0x0);
}
cmdq_mdp_get_func()->enableMdpClock(false, engine);
/* retrun failed if loop failed */
if (resetStatus < 0 || initStatus < 0) {
CMDQ_AEE("MDP",
"Disable 0x%lx engine failed resetStatus:%d initStatus:%d\n",
resetReg, resetStatus, initStatus);
}
}
#endif
}
void cmdq_mdp_dump_venc(const unsigned long base, const char *label)
{
if (base == 0L) {
/* print error message */
CMDQ_ERR("venc base VA [0x%lx] is not correct\n", base);
return;
}
CMDQ_ERR("======== %s + ========\n", __func__);
CMDQ_ERR("[0x%lx] to [0x%lx]\n", base, base + 0x1000 * 4);
print_hex_dump(KERN_ERR, "[CMDQ][ERR][VENC]", DUMP_PREFIX_ADDRESS,
16, 4, (void *)base, 0x1000, false);
CMDQ_ERR("======== %s - ========\n", __func__);
}
const char *cmdq_mdp_get_rdma_state(u32 state)
{
switch (state) {
case 0x1:
return "idle";
case 0x2:
return "wait sof";
case 0x4:
return "reg update";
case 0x8:
return "clear0";
case 0x10:
return "clear1";
case 0x20:
return "int0";
case 0x40:
return "int1";
case 0x80:
return "data running";
case 0x100:
return "wait done";
case 0x200:
return "warm reset";
case 0x400:
return "wait reset";
default:
return "";
}
}
void cmdq_mdp_dump_rdma(const unsigned long base, const char *label)
{
u32 value[44] = { 0 };
u32 state = 0;
u32 grep = 0;
value[0] = CMDQ_REG_GET32(base + 0x030);
value[1] = CMDQ_REG_GET32(base +
cmdq_mdp_get_func()->rdmaGetRegOffsetSrcAddr());
value[2] = CMDQ_REG_GET32(base + 0x060);
value[3] = CMDQ_REG_GET32(base + 0x070);
value[4] = CMDQ_REG_GET32(base + 0x078);
value[5] = CMDQ_REG_GET32(base + 0x080);
value[6] = CMDQ_REG_GET32(base + 0x100);
value[7] = CMDQ_REG_GET32(base + 0x118);
value[8] = CMDQ_REG_GET32(base + 0x130);
value[9] = CMDQ_REG_GET32(base + 0x400);
value[10] = CMDQ_REG_GET32(base + 0x408);
value[11] = CMDQ_REG_GET32(base + 0x410);
value[12] = CMDQ_REG_GET32(base + 0x418);
value[13] = CMDQ_REG_GET32(base + 0x420);
value[14] = CMDQ_REG_GET32(base + 0x428);
value[15] = CMDQ_REG_GET32(base + 0x430);
value[16] = CMDQ_REG_GET32(base + 0x438);
value[17] = CMDQ_REG_GET32(base + 0x440);
value[18] = CMDQ_REG_GET32(base + 0x448);
value[19] = CMDQ_REG_GET32(base + 0x450);
value[20] = CMDQ_REG_GET32(base + 0x458);
value[21] = CMDQ_REG_GET32(base + 0x460);
value[22] = CMDQ_REG_GET32(base + 0x468);
value[23] = CMDQ_REG_GET32(base + 0x470);
value[24] = CMDQ_REG_GET32(base + 0x478);
value[25] = CMDQ_REG_GET32(base + 0x480);
value[26] = CMDQ_REG_GET32(base + 0x488);
value[27] = CMDQ_REG_GET32(base + 0x490);
value[28] = CMDQ_REG_GET32(base + 0x498);
value[29] = CMDQ_REG_GET32(base + 0x4A0);
value[30] = CMDQ_REG_GET32(base + 0x4A8);
value[31] = CMDQ_REG_GET32(base + 0x4B0);
value[32] = CMDQ_REG_GET32(base + 0x4B8);
value[33] = CMDQ_REG_GET32(base + 0x4C0);
value[34] = CMDQ_REG_GET32(base + 0x4C8);
value[35] = CMDQ_REG_GET32(base + 0x4D0);
value[36] = CMDQ_REG_GET32(base + 0x4D8);
value[37] = CMDQ_REG_GET32(base + 0x4E0);
value[38] = CMDQ_REG_GET32(base + 0x038);
value[39] = CMDQ_REG_GET32(base + 0x068);
value[40] = CMDQ_REG_GET32(base + 0x098);
value[41] = CMDQ_REG_GET32(base + 0x148);
value[42] = CMDQ_REG_GET32(base + 0x150);
value[43] = CMDQ_REG_GET32(base + 0x0);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR(
"RDMA_SRC_CON: 0x%08x, RDMA_SRC_BASE_0: 0x%08x, RDMA_MF_BKGD_SIZE_IN_BYTE: 0x%08x\n",
value[0], value[1], value[2]);
CMDQ_ERR(
"RDMA_MF_SRC_SIZE: 0x%08x, RDMA_MF_CLIP_SIZE: 0x%08x, RDMA_MF_OFFSET_1: 0x%08x\n",
value[3], value[4], value[5]);
CMDQ_ERR(
"RDMA_SRC_END_0: 0x%08x, RDMA_SRC_OFFSET_0: 0x%08x, RDMA_SRC_OFFSET_W_0: 0x%08x\n",
value[6], value[7], value[8]);
CMDQ_ERR(
"RDMA_MON_STA_0: 0x%08x, RDMA_MON_STA_1: 0x%08x, RDMA_MON_STA_2: 0x%08x\n",
value[9], value[10], value[11]);
CMDQ_ERR(
"RDMA_MON_STA_3: 0x%08x, RDMA_MON_STA_4: 0x%08x, RDMA_MON_STA_5: 0x%08x\n",
value[12], value[13], value[14]);
CMDQ_ERR(
"RDMA_MON_STA_6: 0x%08x, RDMA_MON_STA_7: 0x%08x, RDMA_MON_STA_8: 0x%08x\n",
value[15], value[16], value[17]);
CMDQ_ERR(
"RDMA_MON_STA_9: 0x%08x, RDMA_MON_STA_10: 0x%08x, RDMA_MON_STA_11: 0x%08x\n",
value[18], value[19], value[20]);
CMDQ_ERR(
"RDMA_MON_STA_12: 0x%08x, RDMA_MON_STA_13: 0x%08x, RDMA_MON_STA_14: 0x%08x\n",
value[21], value[22], value[23]);
CMDQ_ERR(
"RDMA_MON_STA_15: 0x%08x, RDMA_MON_STA_16: 0x%08x, RDMA_MON_STA_17: 0x%08x\n",
value[24], value[25], value[26]);
CMDQ_ERR(
"RDMA_MON_STA_18: 0x%08x, RDMA_MON_STA_19: 0x%08x, RDMA_MON_STA_20: 0x%08x\n",
value[27], value[28], value[29]);
CMDQ_ERR(
"RDMA_MON_STA_21: 0x%08x, RDMA_MON_STA_22: 0x%08x, RDMA_MON_STA_23: 0x%08x\n",
value[30], value[31], value[32]);
CMDQ_ERR(
"RDMA_MON_STA_24: 0x%08x, RDMA_MON_STA_25: 0x%08x, RDMA_MON_STA_26: 0x%08x\n",
value[33], value[34], value[35]);
CMDQ_ERR(
"RDMA_MON_STA_27: 0x%08x, RDMA_MON_STA_28: 0x%08x, RDMA_COMP_CON: 0x%08x\n",
value[36], value[37], value[38]);
CMDQ_ERR(
"MDP_RDMA_MF_BKGD_SIZE_IN_PXL: 0x%08x, MDP_RDMA_MF_BKGD_H_SIZE_IN_PXL: 0x%08x\n",
value[39], value[40]);
CMDQ_ERR(
"MDP_RDMA_SRC_OFFSET_WP: 0x%08x, MDP_RDMA_SRC_OFFSET_HP: 0x%08x\n",
value[41], value[42]);
CMDQ_ERR("RDMA_EN: 0x%08x\n", value[43]);
/* parse state */
CMDQ_ERR("RDMA ack:%d req:%d ufo:%d\n", (value[9] >> 11) & 0x1,
(value[9] >> 10) & 0x1, (value[9] >> 25) & 0x1);
state = (value[10] >> 8) & 0x7FF;
grep = (value[10] >> 20) & 0x1;
CMDQ_ERR("RDMA state: 0x%x (%s)\n",
state, cmdq_mdp_get_rdma_state(state));
CMDQ_ERR("RDMA horz_cnt: %d vert_cnt:%d\n",
value[35] & 0xFFF, (value[35] >> 16) & 0xFFF);
CMDQ_ERR("RDMA grep:%d => suggest to ask SMI help:%d\n", grep, grep);
#ifdef CONFIG_MTK_SMI_EXT
if (grep)
smi_debug_bus_hang_detect(false, "mdp");
#endif
}
const char *cmdq_mdp_get_rsz_state(const u32 state)
{
switch (state) {
case 0x5:
return "downstream hang"; /* 0,1,0,1 */
case 0xa:
return "upstream hang"; /* 1,0,1,0 */
default:
return "";
}
}
void cmdq_mdp_dump_rot(const unsigned long base, const char *label)
{
u32 value[50] = { 0 };
value[0] = CMDQ_REG_GET32(base + 0x000);
value[1] = CMDQ_REG_GET32(base + 0x008);
value[2] = CMDQ_REG_GET32(base + 0x00C);
value[3] = CMDQ_REG_GET32(base + 0x024);
value[4] = CMDQ_REG_GET32(base +
cmdq_mdp_get_func()->wrotGetRegOffsetDstAddr());
value[5] = CMDQ_REG_GET32(base + 0x02C);
value[6] = CMDQ_REG_GET32(base + 0x004);
value[7] = CMDQ_REG_GET32(base + 0x030);
value[8] = CMDQ_REG_GET32(base + 0x078);
value[9] = CMDQ_REG_GET32(base + 0x070);
CMDQ_REG_SET32(base + 0x018, 0x00000100);
value[10] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000200);
value[11] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000300);
value[12] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000400);
value[13] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000500);
value[14] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000600);
value[15] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000700);
value[16] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000800);
value[17] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000900);
value[18] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000A00);
value[19] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000B00);
value[20] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000C00);
value[21] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000D00);
value[22] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000E00);
value[23] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00000F00);
value[24] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001000);
value[25] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001100);
value[26] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001200);
value[27] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001300);
value[28] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001400);
value[29] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001500);
value[30] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001600);
value[31] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001700);
value[32] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001800);
value[33] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001900);
value[34] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001A00);
value[35] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001B00);
value[36] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001C00);
value[37] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001D00);
value[38] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001E00);
value[39] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00001F00);
value[40] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00002000);
value[41] = CMDQ_REG_GET32(base + 0x0D0);
CMDQ_REG_SET32(base + 0x018, 0x00002100);
value[42] = CMDQ_REG_GET32(base + 0x0D0);
value[43] = CMDQ_REG_GET32(base + 0x01C);
value[44] = CMDQ_REG_GET32(base + 0x07C);
value[45] = CMDQ_REG_GET32(base + 0x010);
value[46] = CMDQ_REG_GET32(base + 0x014);
value[47] = CMDQ_REG_GET32(base + 0x0D8);
value[48] = CMDQ_REG_GET32(base + 0x0E0);
value[49] = CMDQ_REG_GET32(base + 0x028);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR(
"ROT_CTRL: 0x%08x, ROT_MAIN_BUF_SIZE: 0x%08x, ROT_SUB_BUF_SIZE: 0x%08x\n",
value[0], value[1], value[2]);
CMDQ_ERR(
"ROT_TAR_SIZE: 0x%08x, ROT_BASE_ADDR: 0x%08x, ROT_OFST_ADDR: 0x%08x\n",
value[3], value[4], value[5]);
CMDQ_ERR(
"ROT_DMA_PERF: 0x%08x, ROT_STRIDE: 0x%08x, ROT_IN_SIZE: 0x%08x\n",
value[6], value[7], value[8]);
CMDQ_ERR(
"ROT_EOL: 0x%08x, ROT_DBUGG_1: 0x%08x, ROT_DEBUBG_2: 0x%08x\n",
value[9], value[10], value[11]);
CMDQ_ERR(
"ROT_DBUGG_3: 0x%08x, ROT_DBUGG_4: 0x%08x, ROT_DEBUBG_5: 0x%08x\n",
value[12], value[13], value[14]);
CMDQ_ERR(
"ROT_DBUGG_6: 0x%08x, ROT_DBUGG_7: 0x%08x, ROT_DEBUBG_8: 0x%08x\n",
value[15], value[16], value[17]);
CMDQ_ERR(
"ROT_DBUGG_9: 0x%08x, ROT_DBUGG_A: 0x%08x, ROT_DEBUBG_B: 0x%08x\n",
value[18], value[19], value[20]);
CMDQ_ERR(
"ROT_DBUGG_C: 0x%08x, ROT_DBUGG_D: 0x%08x, ROT_DEBUBG_E: 0x%08x\n",
value[21], value[22], value[23]);
CMDQ_ERR(
"ROT_DBUGG_F: 0x%08x, ROT_DBUGG_10: 0x%08x, ROT_DEBUBG_11: 0x%08x\n",
value[24], value[25], value[26]);
CMDQ_ERR(
"ROT_DEBUG_12: 0x%08x, ROT_DBUGG_13: 0x%08x, ROT_DBUGG_14: 0x%08x\n",
value[27], value[28], value[29]);
CMDQ_ERR(
"ROT_DEBUG_15: 0x%08x, ROT_DBUGG_16: 0x%08x, ROT_DBUGG_17: 0x%08x\n",
value[30], value[31], value[32]);
CMDQ_ERR(
"ROT_DEBUG_18: 0x%08x, ROT_DBUGG_19: 0x%08x, ROT_DBUGG_1A: 0x%08x\n",
value[33], value[34], value[35]);
CMDQ_ERR(
"ROT_DEBUG_1B: 0x%08x, ROT_DBUGG_1C: 0x%08x, ROT_DBUGG_1D: 0x%08x\n",
value[36], value[37], value[38]);
CMDQ_ERR(
"ROT_DEBUG_1E: 0x%08x, ROT_DBUGG_1F: 0x%08x, ROT_DBUGG_20: 0x%08x\n",
value[39], value[40], value[41]);
CMDQ_ERR(
"ROT_DEBUG_21: 0x%08x, VIDO_INT: 0x%08x, VIDO_ROT_EN: 0x%08x\n",
value[42], value[43], value[44]);
CMDQ_ERR("VIDO_SOFT_RST: 0x%08x, VIDO_SOFT_RST_STAT: 0x%08x\n",
value[45], value[46]);
CMDQ_ERR(
"VIDO_PVRIC: 0x%08x, VIDO_PENDING_ZERO: 0x%08x, VIDO_FRAME_SIZE: 0x%08x\n",
value[47], value[48], value[49]);
}
void cmdq_mdp_dump_color(const unsigned long base, const char *label)
{
u32 value[13] = { 0 };
value[0] = CMDQ_REG_GET32(base + 0x400);
value[1] = CMDQ_REG_GET32(base + 0x404);
value[2] = CMDQ_REG_GET32(base + 0x408);
value[3] = CMDQ_REG_GET32(base + 0x40C);
value[4] = CMDQ_REG_GET32(base + 0x410);
value[5] = CMDQ_REG_GET32(base + 0x420);
value[6] = CMDQ_REG_GET32(base + 0xC00);
value[7] = CMDQ_REG_GET32(base + 0xC04);
value[8] = CMDQ_REG_GET32(base + 0xC08);
value[9] = CMDQ_REG_GET32(base + 0xC0C);
value[10] = CMDQ_REG_GET32(base + 0xC10);
value[11] = CMDQ_REG_GET32(base + 0xC50);
value[12] = CMDQ_REG_GET32(base + 0xC54);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR("COLOR CFG_MAIN: 0x%08x\n", value[0]);
CMDQ_ERR("COLOR PXL_CNT_MAIN: 0x%08x, LINE_CNT_MAIN: 0x%08x\n",
value[1], value[2]);
CMDQ_ERR(
"COLOR WIN_X_MAIN: 0x%08x, WIN_Y_MAIN: 0x%08x, DBG_CFG_MAIN: 0x%08x\n",
value[3], value[4],
value[5]);
CMDQ_ERR("COLOR START: 0x%08x, INTEN: 0x%08x, INTSTA: 0x%08x\n",
value[6], value[7], value[8]);
CMDQ_ERR("COLOR OUT_SEL: 0x%08x, FRAME_DONE_DEL: 0x%08x\n",
value[9], value[10]);
CMDQ_ERR(
"COLOR INTERNAL_IP_WIDTH: 0x%08x, INTERNAL_IP_HEIGHT: 0x%08x\n",
value[11], value[12]);
}
const char *cmdq_mdp_get_wdma_state(u32 state)
{
switch (state) {
case 0x1:
return "idle";
case 0x2:
return "clear";
case 0x4:
return "prepare";
case 0x8:
return "prepare";
case 0x10:
return "data running";
case 0x20:
return "eof wait";
case 0x40:
return "soft reset wait";
case 0x80:
return "eof done";
case 0x100:
return "sof reset done";
case 0x200:
return "frame complete";
default:
return "";
}
}
void cmdq_mdp_dump_wdma(const unsigned long base, const char *label)
{
u32 value[56] = { 0 };
u32 state = 0;
/* grep bit = 1, WDMA has sent request to SMI,
* and not receive done yet
*/
u32 grep = 0;
u32 isFIFOFull = 0; /* 1 for WDMA FIFO full */
value[0] = CMDQ_REG_GET32(base + 0x014);
value[1] = CMDQ_REG_GET32(base + 0x018);
value[2] = CMDQ_REG_GET32(base + 0x028);
value[3] = CMDQ_REG_GET32(base +
cmdq_mdp_get_func()->wdmaGetRegOffsetDstAddr());
value[4] = CMDQ_REG_GET32(base + 0x078);
value[5] = CMDQ_REG_GET32(base + 0x080);
value[6] = CMDQ_REG_GET32(base + 0x0A0);
value[7] = CMDQ_REG_GET32(base + 0x0A8);
CMDQ_REG_SET32(base + 0x014, (value[0] & (0x0FFFFFFF)));
value[8] = CMDQ_REG_GET32(base + 0x014);
value[9] = CMDQ_REG_GET32(base + 0x0AC);
value[40] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x10000000 | (value[0] & (0x0FFFFFFF)));
value[10] = CMDQ_REG_GET32(base + 0x014);
value[11] = CMDQ_REG_GET32(base + 0x0AC);
value[41] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x20000000 | (value[0] & (0x0FFFFFFF)));
value[12] = CMDQ_REG_GET32(base + 0x014);
value[13] = CMDQ_REG_GET32(base + 0x0AC);
value[42] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x30000000 | (value[0] & (0x0FFFFFFF)));
value[14] = CMDQ_REG_GET32(base + 0x014);
value[15] = CMDQ_REG_GET32(base + 0x0AC);
value[43] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x40000000 | (value[0] & (0x0FFFFFFF)));
value[16] = CMDQ_REG_GET32(base + 0x014);
value[17] = CMDQ_REG_GET32(base + 0x0AC);
value[44] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x50000000 | (value[0] & (0x0FFFFFFF)));
value[18] = CMDQ_REG_GET32(base + 0x014);
value[19] = CMDQ_REG_GET32(base + 0x0AC);
value[45] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x60000000 | (value[0] & (0x0FFFFFFF)));
value[20] = CMDQ_REG_GET32(base + 0x014);
value[21] = CMDQ_REG_GET32(base + 0x0AC);
value[46] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x70000000 | (value[0] & (0x0FFFFFFF)));
value[22] = CMDQ_REG_GET32(base + 0x014);
value[23] = CMDQ_REG_GET32(base + 0x0AC);
value[47] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x80000000 | (value[0] & (0x0FFFFFFF)));
value[24] = CMDQ_REG_GET32(base + 0x014);
value[25] = CMDQ_REG_GET32(base + 0x0AC);
value[48] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0x90000000 | (value[0] & (0x0FFFFFFF)));
value[26] = CMDQ_REG_GET32(base + 0x014);
value[27] = CMDQ_REG_GET32(base + 0x0AC);
value[49] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xA0000000 | (value[0] & (0x0FFFFFFF)));
value[28] = CMDQ_REG_GET32(base + 0x014);
value[29] = CMDQ_REG_GET32(base + 0x0AC);
value[50] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xB0000000 | (value[0] & (0x0FFFFFFF)));
value[30] = CMDQ_REG_GET32(base + 0x014);
value[31] = CMDQ_REG_GET32(base + 0x0AC);
value[51] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xC0000000 | (value[0] & (0x0FFFFFFF)));
value[32] = CMDQ_REG_GET32(base + 0x014);
value[33] = CMDQ_REG_GET32(base + 0x0AC);
value[52] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xD0000000 | (value[0] & (0x0FFFFFFF)));
value[34] = CMDQ_REG_GET32(base + 0x014);
value[35] = CMDQ_REG_GET32(base + 0x0AC);
value[53] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xE0000000 | (value[0] & (0x0FFFFFFF)));
value[36] = CMDQ_REG_GET32(base + 0x014);
value[37] = CMDQ_REG_GET32(base + 0x0AC);
value[54] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_REG_SET32(base + 0x014, 0xF0000000 | (value[0] & (0x0FFFFFFF)));
value[38] = CMDQ_REG_GET32(base + 0x014);
value[39] = CMDQ_REG_GET32(base + 0x0AC);
value[55] = CMDQ_REG_GET32(base + 0x0B8);
CMDQ_ERR(
"=============== [CMDQ] %s Status ====================================\n",
label);
CMDQ_ERR(
"[CMDQ]WDMA_CFG: 0x%08x, WDMA_SRC_SIZE: 0x%08x, WDMA_DST_W_IN_BYTE = 0x%08x\n",
value[0], value[1], value[2]);
CMDQ_ERR(
"[CMDQ]WDMA_DST_ADDR0: 0x%08x, WDMA_DST_UV_PITCH: 0x%08x, WDMA_DST_ADDR_OFFSET0 = 0x%08x\n",
value[3], value[4], value[5]);
CMDQ_ERR("[CMDQ]WDMA_STATUS: 0x%08x, WDMA_INPUT_CNT: 0x%08x\n",
value[6], value[7]);
/* Dump Addtional WDMA debug info */
CMDQ_ERR("WDMA_DEBUG_0 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[8], value[9], value[40]);
CMDQ_ERR("WDMA_DEBUG_1 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[10], value[11], value[41]);
CMDQ_ERR("WDMA_DEBUG_2 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[12], value[13], value[42]);
CMDQ_ERR("WDMA_DEBUG_3 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[14], value[15], value[43]);
CMDQ_ERR("WDMA_DEBUG_4 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[16], value[17], value[44]);
CMDQ_ERR("WDMA_DEBUG_5 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[18], value[19], value[45]);
CMDQ_ERR("WDMA_DEBUG_6 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[20], value[21], value[46]);
CMDQ_ERR("WDMA_DEBUG_7 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[22], value[23], value[47]);
CMDQ_ERR("WDMA_DEBUG_8 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[24], value[25], value[48]);
CMDQ_ERR("WDMA_DEBUG_9 +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[26], value[27], value[49]);
CMDQ_ERR("WDMA_DEBUG_A +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[28], value[29], value[50]);
CMDQ_ERR("WDMA_DEBUG_B +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[30], value[31], value[51]);
CMDQ_ERR("WDMA_DEBUG_C +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[32], value[33], value[52]);
CMDQ_ERR("WDMA_DEBUG_D +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[34], value[35], value[53]);
CMDQ_ERR("WDMA_DEBUG_E +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[36], value[37], value[54]);
CMDQ_ERR("WDMA_DEBUG_F +014: 0x%08x , +0ac: 0x%08x , +0b8: 0x%08x\n",
value[38], value[39], value[55]);
/* parse WDMA state */
state = value[6] & 0x3FF;
grep = (value[6] >> 13) & 0x1;
isFIFOFull = (value[6] >> 12) & 0x1;
CMDQ_ERR("WDMA state:0x%x (%s)\n",
state, cmdq_mdp_get_wdma_state(state));
CMDQ_ERR("WDMA in_req:%d in_ack:%d\n",
(value[6] >> 15) & 0x1, (value[6] >> 14) & 0x1);
/* note WDMA send request(i.e command) to SMI first,
* then SMI takes request data from WDMA FIFO
* if SMI dose not process request and upstream HWs
* such as MDP_RSZ send data to WDMA, WDMA FIFO will full finally
*/
CMDQ_ERR("WDMA grep:%d, FIFO full:%d\n", grep, isFIFOFull);
CMDQ_ERR("WDMA suggest: Need SMI help:%d, Need check WDMA config:%d\n",
grep, grep == 0 && isFIFOFull == 1);
}
void cmdq_mdp_check_TF_address(unsigned int mva, char *module)
{
bool findTFTask = false;
char *searchStr = NULL;
char bufInfoKey[] = "x";
char str2int[MDP_BUF_INFO_STR_LEN + 1] = "";
char *callerNameEnd = NULL;
char *callerNameStart = NULL;
int callerNameLen = TASK_COMM_LEN;
int taskIndex = 0;
int bufInfoIndex = 0;
int tfTaskIndex = -1;
int planeIndex = 0;
unsigned int bufInfo[MDP_PORT_BUF_INFO_NUM] = {0};
unsigned int bufAddrStart = 0;
unsigned int bufAddrEnd = 0;
/* search track task */
for (taskIndex = 0; taskIndex < MDP_MAX_TASK_NUM; taskIndex++) {
searchStr = strpbrk(mdp_tasks[taskIndex].userDebugStr,
bufInfoKey);
bufInfoIndex = 0;
/* catch buffer info in string and transform to integer
* bufInfo format:
* [address1, address2, address3, size1, size2, size3]
*/
while (searchStr != NULL && findTFTask != true) {
strncpy(str2int, searchStr + 1, MDP_BUF_INFO_STR_LEN);
if (kstrtoint(str2int, 16, &bufInfo[bufInfoIndex])) {
CMDQ_ERR(
"[MDP] buf info transform to integer failed\n");
CMDQ_ERR("[MDP] fail string: %s\n", str2int);
}
searchStr = strpbrk(searchStr +
MDP_BUF_INFO_STR_LEN + 1, bufInfoKey);
bufInfoIndex++;
/* check TF mva in this port or not */
if (bufInfoIndex == MDP_PORT_BUF_INFO_NUM) {
for (planeIndex = 0;
planeIndex < MDP_MAX_PLANE_NUM;
planeIndex++) {
bufAddrStart = bufInfo[planeIndex];
bufAddrEnd = bufAddrStart +
bufInfo[planeIndex +
MDP_MAX_PLANE_NUM];
if (mva >= bufAddrStart &&
mva < bufAddrEnd) {
findTFTask = true;
break;
}
}
bufInfoIndex = 0;
}
}
/* find TF task and keep task index */
if (findTFTask == true) {
tfTaskIndex = taskIndex;
break;
}
}
/* find TF task caller and return dispatch key */
if (findTFTask == true) {
CMDQ_ERR("[MDP] TF caller: %s\n",
mdp_tasks[tfTaskIndex].callerName);
CMDQ_ERR("%s\n", mdp_tasks[tfTaskIndex].userDebugStr);
strncat(module, "_", 1);
/* catch caller name only before - or _ */
callerNameStart = mdp_tasks[tfTaskIndex].callerName;
callerNameEnd = strchr(mdp_tasks[tfTaskIndex].callerName,
'-');
if (callerNameEnd != NULL)
callerNameLen = callerNameEnd - callerNameStart;
else {
callerNameEnd = strchr(
mdp_tasks[tfTaskIndex].callerName, '_');
if (callerNameEnd != NULL)
callerNameLen = callerNameEnd -
callerNameStart;
}
strncat(module, mdp_tasks[tfTaskIndex].callerName,
callerNameLen);
}
CMDQ_ERR("[MDP] TF Other Task\n");
for (taskIndex = 0; taskIndex < MDP_MAX_TASK_NUM;
taskIndex++) {
CMDQ_ERR("[MDP] Task%d:\n", taskIndex);
CMDQ_ERR("[MDP] Caller: %s\n",
mdp_tasks[taskIndex].callerName);
CMDQ_ERR("%s\n", mdp_tasks[taskIndex].userDebugStr);
}
}
const char *cmdq_mdp_parse_handle_error_module_by_hwflag(
const struct cmdqRecStruct *handle)
{
return cmdq_mdp_get_func()->parseHandleErrModByEngFlag(handle);
}
#include "mdp_base.h"
u32 cmdq_mdp_get_hw_reg(enum MDP_ENG_BASE base, u16 offset)
{
if (unlikely(offset > 0x1000)) {
CMDQ_ERR("%s: invalid offset:%#x\n", __func__, offset);
return 0;
}
offset &= ~0x3;
if (unlikely(base >= ENGBASE_COUNT)) {
CMDQ_ERR("%s: invalid engine:%u, offset:%#x\n",
__func__, base, offset);
return 0;
}
return mdp_base[base] + offset;
}
u32 cmdq_mdp_get_hw_port(enum MDP_ENG_BASE base)
{
if (unlikely(base >= ENGBASE_COUNT)) {
CMDQ_ERR("%s: invalid engine:%u\n", __func__, base);
return 0;
}
return mdp_engine_port[base];
}
#ifdef MDP_COMMON_ENG_SUPPORT
void cmdq_mdp_platform_function_setting(void)
{
}
#endif