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|
#include <linux/slab.h>
#include "disp_drv_log.h"
#include "lcm_drv.h"
#include "disp_drv_platform.h"
#include "ddp_manager.h"
#include "disp_lcm.h"
// This macro and arrya is designed for multiple LCM support
// for multiple LCM, we should assign I/F Port id in lcm driver, such as DPI0, DSI0/1
static disp_lcm_handle _disp_lcm_driver[MAX_LCM_NUMBER] = {0};
// these 2 variables are defined in mt65xx_lcm_list.c
extern LCM_DRIVER* lcm_driver_list[];
extern unsigned int lcm_count;
int _lcm_count(void)
{
return lcm_count;
}
int _is_lcm_inited(disp_lcm_handle *plcm)
{
if(plcm)
{
if(plcm->params && plcm->drv)
return 1;
}
else
{
DISPERR("WARNING, invalid lcm handle: %p\n", plcm);
return 0;
}
}
LCM_PARAMS *_get_lcm_params_by_handle(disp_lcm_handle *plcm)
{
if(plcm)
{
return plcm->params;
}
else
{
DISPERR("WARNING, invalid lcm handle:%p\n", plcm);
return NULL;
}
}
LCM_PARAMS *_get_lcm_driver_by_handle(disp_lcm_handle *plcm)
{
if(plcm)
{
return plcm->drv;
}
else
{
DISPERR("WARNING, invalid lcm handle:%p\n", plcm);
return NULL;
}
}
void _dump_lcm_info(disp_lcm_handle *plcm)
{
int i = 0;
LCM_DRIVER *l = NULL;
LCM_PARAMS *p = NULL;
if(plcm == NULL)
{
DISPERR("plcm is null\n");
return;
}
l = plcm->drv;
p = plcm->params;
if(l && p)
{
DISPCHECK("[LCM], name: %s\n", l->name);
DISPCHECK("[LCM] resolution: %d x %d\n", p->width, p->height);
DISPCHECK("[LCM] physical size: %d x %d\n", p->physical_width, p->physical_height);
DISPCHECK("[LCM] physical size: %d x %d\n", p->physical_width, p->physical_height);
switch(p->lcm_if)
{
case LCM_INTERFACE_DSI0:
DISPCHECK("[LCM] interface: DSI0\n");
break;
case LCM_INTERFACE_DSI1:
DISPCHECK("[LCM] interface: DSI1\n");
break;
case LCM_INTERFACE_DPI0:
DISPCHECK("[LCM] interface: DPI0\n");
break;
case LCM_INTERFACE_DPI1:
DISPCHECK("[LCM] interface: DPI1\n");
break;
case LCM_INTERFACE_DBI0:
DISPCHECK("[LCM] interface: DBI0\n");
break;
default:
DISPCHECK("[LCM] interface: unknown\n");
break;
}
switch(p->type)
{
case LCM_TYPE_DBI:
DISPCHECK("[LCM] Type: DBI\n");
break;
case LCM_TYPE_DSI:
DISPCHECK("[LCM] Type: DSI\n");
break;
case LCM_TYPE_DPI:
DISPCHECK("[LCM] Type: DPI\n");
break;
default:
DISPCHECK("[LCM] TYPE: unknown\n");
break;
}
if(p->type == LCM_TYPE_DSI)
{
switch(p->dsi.mode)
{
case CMD_MODE:
DISPCHECK("[LCM] DSI Mode: CMD_MODE\n");
break;
case SYNC_PULSE_VDO_MODE:
DISPCHECK("[LCM] DSI Mode: SYNC_PULSE_VDO_MODE\n");
break;
case SYNC_EVENT_VDO_MODE:
DISPCHECK("[LCM] DSI Mode: SYNC_EVENT_VDO_MODE\n");
break;
case BURST_VDO_MODE:
DISPCHECK("[LCM] DSI Mode: BURST_VDO_MODE\n");
break;
default:
DISPCHECK("[LCM] DSI Mode: Unknown\n");
break;
}
}
if(p->type == LCM_TYPE_DSI)
{
DISPCHECK("[LCM] LANE_NUM: %d,data_format\n",(int)p->dsi.LANE_NUM);
#ifdef MT_TODO
#error
#endif
DISPCHECK("[LCM] vact: %u, vbp: %u, vfp: %u, vact_line: %u, hact: %u, hbp: %u, hfp: %u, hblank: %u\n",
p->dsi.vertical_sync_active, p->dsi.vertical_backporch, p->dsi.vertical_frontporch,
p->dsi.vertical_active_line, p->dsi.horizontal_sync_active, p->dsi.horizontal_backporch,
p->dsi.horizontal_frontporch,p->dsi.horizontal_blanking_pixel);
DISPCHECK("[LCM] pll_select: %d, pll_div1: %d, pll_div2: %d, fbk_div: %d,fbk_sel: %d, rg_bir: %d\n",p->dsi.pll_select,p->dsi.pll_div1,p->dsi.pll_div2,p->dsi.fbk_div,p->dsi.fbk_sel,p->dsi.rg_bir);
DISPCHECK("[LCM] rg_bic: %d, rg_bp: %d, PLL_CLOCK: %d, dsi_clock: %d, ssc_range: %d, ssc_disable: %d, compatibility_for_nvk: %d, cont_clock: %d\n", p->dsi.rg_bic, p->dsi.rg_bp,p->dsi.PLL_CLOCK,p->dsi.dsi_clock,p->dsi.ssc_range,p->dsi.ssc_disable,p->dsi.compatibility_for_nvk,p->dsi.cont_clock);
DISPCHECK("[LCM] lcm_ext_te_enable: %d, noncont_clock: %d, noncont_clock_period: %d\n", p->dsi.lcm_ext_te_enable,p->dsi.noncont_clock,p->dsi.noncont_clock_period);
}
}
return;
}
disp_lcm_handle* disp_lcm_probe(char* plcm_name, LCM_INTERFACE_ID lcm_id)
{
DISPFUNC();
int ret = 0;
int lcmindex = 0;
bool isLCMFound = false;
bool isLCMInited = false;
LCM_DRIVER *lcm_drv = NULL;
LCM_PARAMS *lcm_param = NULL;
disp_lcm_handle *plcm = NULL;
DISPCHECK("plcm_name=%s\n", plcm_name);
if(_lcm_count() == 0)
{
DISPERR("no lcm driver defined in linux kernel driver\n");
return NULL;
}
else if(_lcm_count() == 1)
{
if(plcm_name == NULL)
{
lcm_drv = lcm_driver_list[0];
isLCMFound = true;
isLCMInited = false;
}
else
{
lcm_drv = lcm_driver_list[0];
if(strcmp(lcm_drv->name, plcm_name))
{
DISPERR("FATAL ERROR!!!LCM Driver defined in kernel is different with LK\n");
return NULL;
}
isLCMInited = true;
isLCMFound = true;
}
lcmindex = 0;
}
else
{
if(plcm_name == NULL)
{
// TODO: we need to detect all the lcm driver
}
else
{
int i = 0;
for(i=0;i<_lcm_count();i++)
{
lcm_drv = lcm_driver_list[i];
if(!strcmp(lcm_drv->name, plcm_name))
{
isLCMFound = true;
isLCMInited = true;
lcmindex = i;
break;
}
}
DISPERR("FATAL ERROR: can't found lcm driver:%s in linux kernel driver\n", plcm_name);
}
// TODO:
}
if(isLCMFound == false)
{
DISPERR("FATAL ERROR!!!No LCM Driver defined\n");
return NULL;
}
plcm = kzalloc(sizeof(uint8_t*) *sizeof(disp_lcm_handle), GFP_KERNEL);
lcm_param = kzalloc(sizeof(uint8_t*) *sizeof(LCM_PARAMS), GFP_KERNEL);
if(plcm && lcm_param)
{
plcm->params = lcm_param;
plcm->drv = lcm_drv;
plcm->is_inited = isLCMInited;
plcm->index = lcmindex;
}
else
{
DISPERR("FATAL ERROR!!!kzalloc plcm and plcm->params failed\n");
goto FAIL;
}
{
plcm->drv->get_params(plcm->params);
plcm->lcm_if_id = plcm->params->lcm_if;
// below code is for lcm driver forward compatible
if(plcm->params->type == LCM_TYPE_DSI && plcm->params->lcm_if == LCM_INTERFACE_NOTDEFINED) plcm->lcm_if_id = LCM_INTERFACE_DSI0;
if(plcm->params->type == LCM_TYPE_DPI && plcm->params->lcm_if == LCM_INTERFACE_NOTDEFINED) plcm->lcm_if_id = LCM_INTERFACE_DPI0;
if(plcm->params->type == LCM_TYPE_DBI && plcm->params->lcm_if == LCM_INTERFACE_NOTDEFINED) plcm->lcm_if_id = LCM_INTERFACE_DBI0;
if((lcm_id == LCM_INTERFACE_NOTDEFINED) || lcm_id == plcm->lcm_if_id)
{
plcm->lcm_original_width = plcm->params->width;
plcm->lcm_original_height = plcm->params->height;
_dump_lcm_info(plcm);
return plcm;
}
else
{
DISPERR("the specific LCM Interface [%d] didn't define any lcm driver\n", lcm_id);
goto FAIL;
}
}
FAIL:
if(plcm) kfree(plcm);
if(lcm_param) kfree(lcm_param);
return NULL;
}
int disp_lcm_init(disp_lcm_handle *plcm, int force)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->init_power)
{
if(!disp_lcm_is_inited(plcm) || force)
{
lcm_drv->init_power();
}
}
if(lcm_drv->init)
{
if(!disp_lcm_is_inited(plcm) || force)
{
lcm_drv->init();
}
}
else
{
DISPERR("FATAL ERROR, lcm_drv->init is null\n");
return -1;
}
return 0;
}
else
{
DISPERR("plcm is null\n");
return -1;
}
}
LCM_PARAMS* disp_lcm_get_params(disp_lcm_handle *plcm)
{
//DISPFUNC();
if(_is_lcm_inited(plcm))
return plcm->params;
else
return NULL;
}
LCM_INTERFACE_ID disp_lcm_get_interface_id(disp_lcm_handle *plcm)
{
DISPFUNC();
if(_is_lcm_inited(plcm))
return plcm->lcm_if_id;
else
return LCM_INTERFACE_NOTDEFINED;
}
int disp_lcm_update(disp_lcm_handle *plcm, int x, int y, int w, int h, int force)
{
DISPDBGFUNC();
LCM_DRIVER *lcm_drv = NULL;
LCM_INTERFACE_ID lcm_id = LCM_INTERFACE_NOTDEFINED;
LCM_PARAMS *plcm_param = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->update)
{
lcm_drv->update(x, y, w, h);
}
else
{
if(disp_lcm_is_video_mode(plcm))
{
// do nothing
}
else
{
DISPERR("FATAL ERROR, lcm is cmd mode lcm_drv->update is null\n");
}
return -1;
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
// return 1: esd check fail
// return 0: esd check pass
int disp_lcm_esd_check(disp_lcm_handle *plcm)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->esd_check)
{
return lcm_drv->esd_check();
}
else
{
DISPERR("FATAL ERROR, lcm_drv->esd_check is null\n");
return 0;
}
}
else
{
DISPERR("lcm_drv is null\n");
return 0;
}
}
int disp_lcm_esd_recover(disp_lcm_handle *plcm)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->esd_recover)
{
lcm_drv->esd_recover();
}
else
{
DISPERR("FATAL ERROR, lcm_drv->esd_check is null\n");
return -1;
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
int disp_lcm_suspend(disp_lcm_handle *plcm)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->suspend)
{
lcm_drv->suspend();
}
else
{
DISPERR("FATAL ERROR, lcm_drv->suspend is null\n");
return -1;
}
if(lcm_drv->suspend_power)
{
lcm_drv->suspend_power();
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
int disp_lcm_resume(disp_lcm_handle *plcm)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->resume_power)
{
lcm_drv->resume_power();
}
if(lcm_drv->resume)
{
lcm_drv->resume();
}
else
{
DISPERR("FATAL ERROR, lcm_drv->resume is null\n");
return -1;
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
#ifdef MT_TODO
#error "maybe CABC can be moved into lcm_ioctl??"
#endif
int disp_lcm_set_backlight(disp_lcm_handle *plcm, int level)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->set_backlight)
{
lcm_drv->set_backlight(level);
}
else
{
DISPERR("FATAL ERROR, lcm_drv->set_backlight is null\n");
return -1;
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
int disp_lcm_ioctl(disp_lcm_handle *plcm, LCM_IOCTL ioctl, unsigned int arg)
{
}
int disp_lcm_is_inited(disp_lcm_handle *plcm)
{
if(_is_lcm_inited(plcm))
return plcm->is_inited;
else
return 0;
}
unsigned int disp_lcm_ATA(disp_lcm_handle *plcm)
{
unsigned int ret = 0;
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->ata_check)
{
ret = lcm_drv->ata_check(NULL);
}
else
{
DISPERR("FATAL ERROR, lcm_drv->ata_check is null\n");
return 0;
}
return ret;
}
else
{
DISPERR("lcm_drv is null\n");
return 0;
}
}
void* disp_lcm_switch_mode(disp_lcm_handle *plcm,int mode)
{
unsigned int ret = 0;
// DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
LCM_DSI_MODE_SWITCH_CMD* lcm_cmd = NULL;
if(_is_lcm_inited(plcm))
{
if(plcm->params->dsi.switch_mode_enable == 0)
{
DISPERR(" ERROR, Not enable switch in lcm_get_params function\n");
return NULL;
}
lcm_drv = plcm->drv;
if(lcm_drv->switch_mode)
{
lcm_cmd =(LCM_DSI_MODE_SWITCH_CMD*) lcm_drv->switch_mode(mode);
lcm_cmd->cmd_if = (unsigned int)(plcm->params->lcm_cmd_if);
}
else
{
DISPERR("FATAL ERROR, lcm_drv->switch_mode is null\n");
return NULL;
}
return(void*)( lcm_cmd);
}
else
{
DISPERR("lcm_drv is null\n");
return NULL;
}
}
int disp_lcm_is_video_mode(disp_lcm_handle *plcm)
{
//DISPFUNC();
LCM_PARAMS *lcm_param = NULL;
LCM_INTERFACE_ID lcm_id = LCM_INTERFACE_NOTDEFINED;
if(_is_lcm_inited(plcm))
lcm_param = plcm->params;
else
ASSERT(0);
switch(lcm_param->type)
{
case LCM_TYPE_DBI:
return FALSE;
break;
case LCM_TYPE_DSI:
break;
case LCM_TYPE_DPI:
return TRUE;
break;
default:
DISPMSG("[LCM] TYPE: unknown\n");
break;
}
if(lcm_param->type == LCM_TYPE_DSI)
{
switch(lcm_param->dsi.mode)
{
case CMD_MODE:
return FALSE;
break;
case SYNC_PULSE_VDO_MODE:
case SYNC_EVENT_VDO_MODE:
case BURST_VDO_MODE:
return TRUE;
break;
default:
DISPMSG("[LCM] DSI Mode: Unknown\n");
break;
}
}
ASSERT(0);
}
int disp_lcm_set_cmd(disp_lcm_handle *plcm, void* handle,int* lcm_cmd,unsigned int cmd_num)
{
DISPFUNC();
LCM_DRIVER *lcm_drv = NULL;
if(_is_lcm_inited(plcm))
{
lcm_drv = plcm->drv;
if(lcm_drv->set_cmd)
{
lcm_drv->set_cmd(handle,lcm_cmd,cmd_num);
}
else
{
DISPERR("FATAL ERROR, lcm_drv->set_cmd is null\n");
return -1;
}
return 0;
}
else
{
DISPERR("lcm_drv is null\n");
return -1;
}
}
|
