/
adtg_log.c
368 lines (314 loc) · 8.29 KB
/
adtg_log.c
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/**
*
*/
#define ADTG_WRITE_FUNC 0x11644
#define CMOS_WRITE_FUNC 0x119CC
#define CMOS16_WRITE_FUNC 0x11AB8
#include <module.h>
#include <dryos.h>
#include <property.h>
#include <bmp.h>
#include <menu.h>
#include <config.h>
#include <gdb.h>
#include <cache_hacks.h>
unsigned int hook_calls = 0;
unsigned int *adtg_buf = NULL;
unsigned int adtg_buf_pos = 0;
unsigned int adtg_buf_pos_max = 0;
unsigned int adtg_current_vsync_pos = 0;
unsigned int adtg_last_vsync_pos = 0;
static uint32_t nrzi_decode( uint32_t in_val )
{
uint32_t val = 0;
if (in_val & 0x8000)
val |= 0x8000;
for (int num = 0; num < 31; num++)
{
uint32_t old_bit = (val & 1<<(30-num+1)) >> 1;
val |= old_bit ^ (in_val & 1<<(30-num));
}
return val;
}
unsigned short cmos_regs[8];
static int cmos_delta[8];
static void cmos_reg_update(unsigned short cmos_data)
{
unsigned short reg = (cmos_data >> 12) & 0x07;
unsigned short data = cmos_data & 0x0FFF;
cmos_regs[reg] = data;
}
static void cmos_reg_manipulate(unsigned short *cmos_data)
{
unsigned short reg = (*cmos_data >> 12) & 0x07;
unsigned short data = *cmos_data & 0x0FFF;
data += cmos_delta[reg];
*cmos_data = (data & 0x0FFF) | (reg << 12);
}
static unsigned int adtg_log_vsync_cbr(unsigned int unused)
{
if(!adtg_buf)
{
return;
}
if(adtg_buf_pos + 2 >= adtg_buf_pos_max)
{
return;
}
adtg_last_vsync_pos = adtg_current_vsync_pos;
adtg_current_vsync_pos = adtg_buf_pos;
adtg_buf[adtg_buf_pos] = 0xFFFFFFFF;
adtg_buf_pos++;
adtg_buf[adtg_buf_pos] = 0xFFFFFFFF;
adtg_buf_pos++;
}
static void adtg_log(breakpoint_t *bkpt)
{
if(!adtg_buf)
{
return;
}
unsigned int cs = bkpt->ctx[0];
unsigned int *data_buf = bkpt->ctx[1];
void* buf0 = data_buf;
/* log all ADTG writes */
while(*data_buf != 0xFFFFFFFF)
{
if(adtg_buf_pos + 2 >= adtg_buf_pos_max)
{
return;
}
/* shutter override
uint32_t dat = *data_buf;
int reg = dat >> 16;
int val = dat & 0xFFFF;
if (reg == 0x8060)
{
*data_buf = 0x80600479;
NotifyBox(1000, "%x ", buf0);
}
*/
adtg_buf[adtg_buf_pos] = cs;
adtg_buf_pos++;
adtg_buf[adtg_buf_pos] = *data_buf;
adtg_buf_pos++;
data_buf++;
}
}
static void cmos_log(breakpoint_t *bkpt)
{
static int loops = 0;
loops++;
loops &= 0xFFF;
if(!adtg_buf)
{
return;
}
unsigned short *data_buf = bkpt->ctx[0];
/* log all CMOS writes */
while(*data_buf != 0xFFFF)
{
if(adtg_buf_pos + 2 >= adtg_buf_pos_max)
{
return;
}
adtg_buf[adtg_buf_pos] = 0x00FF0000;
adtg_buf_pos++;
adtg_buf[adtg_buf_pos] = *data_buf;
adtg_buf_pos++;
cmos_reg_update(*data_buf);
cmos_reg_manipulate(data_buf);
data_buf++;
}
}
static void cmos16_log(breakpoint_t *bkpt)
{
if(!adtg_buf)
{
return;
}
hook_calls++;
unsigned short *data_buf = bkpt->ctx[0];
/* log all CMOS writes */
while(*data_buf != 0xFFFF)
{
if(adtg_buf_pos + 2 >= adtg_buf_pos_max)
{
return;
}
adtg_buf[adtg_buf_pos] = 0xFF000000;
adtg_buf_pos++;
adtg_buf[adtg_buf_pos] = *data_buf;
adtg_buf_pos++;
cmos_reg_update(*data_buf);
cmos_reg_manipulate(data_buf);
data_buf++;
}
}
void adtg_log_task()
{
adtg_buf_pos_max = 128 * 1024;
adtg_buf = malloc(adtg_buf_pos_max * 4 + 0x100);
if(!adtg_buf)
{
return;
}
/* set watchpoints at ADTG and CMOS writes */
gdb_setup();
breakpoint_t *bkpt1 = gdb_add_watchpoint(ADTG_WRITE_FUNC, 0, &adtg_log);
breakpoint_t *bkpt2 = gdb_add_watchpoint(CMOS_WRITE_FUNC, 0, &cmos_log);
breakpoint_t *bkpt3 = gdb_add_watchpoint(CMOS16_WRITE_FUNC, 0, &cmos16_log);
/* wait for buffer being filled */
while(adtg_buf_pos + 2 < adtg_buf_pos_max)
{
bmp_printf(FONT_MED, 10, 20, "cmos:");
for(int pos = 0; pos < 8; pos++)
{
bmp_printf(FONT_MED, 10, 40 + pos * font_med.height, "[%d] 0x%03X ", pos, cmos_regs[pos]);
}
int x = 200;
int y = 30;
bmp_printf(FONT_MED, x, y-10, "adtg:");
for (int pos = adtg_last_vsync_pos + 2; pos < adtg_current_vsync_pos; pos += 2)
{
uint32_t dst = adtg_buf[pos];
uint32_t dat = adtg_buf[pos+1];
if (dst == 0xFF000000) /* CMOS16 */
{
}
else if (dst == 0x00FF0000) /* CMOS */
{
}
else
{
int reg = dat >> 16;
int val = dat & 0xFFFF;
bmp_printf(FONT_SMALL, x, y += font_small.height,
"[ADTG%d] %04X -> %04X (%X)", dst & 0x0F, reg, val, nrzi_decode(val)
);
if (y > 400)
{
y = 30;
x += 250;
}
}
}
msleep(100);
}
beep();
/* uninstall watchpoints */
gdb_delete_bkpt(bkpt1);
gdb_delete_bkpt(bkpt2);
gdb_delete_bkpt(bkpt3);
/* dump all stuff */
char filename[100];
snprintf(filename, sizeof(filename), "%s/adtg.bin", get_dcim_dir());
FILE* f = FIO_CreateFile(filename);
FIO_WriteFile(f, adtg_buf, adtg_buf_pos * 4);
FIO_CloseFile(f);
/* free buffer */
void *buf = adtg_buf;
adtg_buf = NULL;
free(buf);
}
static MENU_SELECT_FUNC(adtg_log_toggle)
{
if(!adtg_buf)
{
task_create("adtg_log_task", 0x1e, 0x1000, adtg_log_task, (void*)0);
}
else
{
adtg_buf_pos_max = adtg_buf_pos;
}
}
static struct menu_entry adtg_log_menu[] =
{
{
.name = "ADTG Logging",
.select = &adtg_log_toggle,
.priv = &adtg_buf,
.max = 1,
.help = "Log ADTG writes",
.children = (struct menu_entry[]) {
{
.name = "cmos[0]",
.priv = cmos_delta,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[1]",
.priv = cmos_delta+1,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[2]",
.priv = cmos_delta+2,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[3]",
.priv = cmos_delta+3,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[4]",
.priv = cmos_delta+4,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[5]",
.priv = cmos_delta+5,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[6]",
.priv = cmos_delta+6,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
{
.name = "cmos[7]",
.priv = cmos_delta+7,
.edit_mode = EM_SHOW_LIVEVIEW,
.min = -1000,
.max = 1000,
},
MENU_EOL,
},
}
};
static unsigned int adtg_log_init()
{
menu_add("Movie", adtg_log_menu, COUNT(adtg_log_menu));
return 0;
}
static unsigned int adtg_log_deinit()
{
return 0;
}
MODULE_INFO_START()
MODULE_INIT(adtg_log_init)
MODULE_DEINIT(adtg_log_deinit)
MODULE_INFO_END()
MODULE_STRINGS_START()
MODULE_STRING("Description", "ADTG Logging")
MODULE_STRING("License", "GPL")
MODULE_STRING("Author", "g3gg0")
MODULE_STRINGS_END()
MODULE_CBRS_START()
MODULE_CBR(CBR_VSYNC, adtg_log_vsync_cbr, 0)
MODULE_CBRS_END()