xenocara/xserver/hw/xfree86/i2c/bt829.c
matthieu 4f58590a42 Update to xserver 1.16.1.
Tested by naddy@, jsg@ & kettenis@
2014-09-27 17:52:59 +00:00

823 lines
21 KiB
C

/* TODO: clean up/fix CC code */
#ifdef HAVE_XORG_CONFIG_H
#include <xorg-config.h>
#endif
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "xf86.h"
#include "xf86i2c.h"
#include "bt829.h"
#include "i2c_def.h"
/* Changing the following settings (especially VCROP) may */
/* require modifying code that calls this driver. */
#define HCROP 0 /* amount to crop from the left and right edges */
#define VCROP 0 /* amount to crop from the top and bottom edges */
#define BTVERSION (bt->id>>4)
#define H(X) ( ((X)>>8) & 0xFF )
#define L(X) ( (X) & 0xFF )
#define LIMIT(X,A,B) (((X)<(A)) ? (A) : ((X)>(B)) ? (B) : (X) )
/* Bt829 family chip ID's */
#define BT815 0x02
#define BT817 0x06
#define BT819 0x07
#define BT827 0x0C
#define BT829 0x0E
/* Bt829 registers */
#define STATUS 0x00 /* Device Status */
#define IFORM 0x01 /* Input Format */
#define TDEC 0x02 /* Temporal Decimation */
#define CROP 0x03 /* MSB Cropping */
#define VDELAY_LO 0x04 /* Vertical Delay */
#define VACTIVE_LO 0x05 /* Vertical Active */
#define HDELAY_LO 0x06 /* Horizontal Delay */
#define HACTIVE_LO 0x07 /* Horizontal Active */
#define HSCALE_HI 0x08 /* Horizontal Scaling */
#define HSCALE_LO 0x09 /* Horizontal Scaling */
#define BRIGHT 0x0A /* Brightness Control */
#define CONTROL 0x0B /* Miscellaneous Control */
#define CONTRAST_LO 0x0C /* Luma Gain (Contrast) */
#define SAT_U_LO 0x0D /* Chroma (U) Gain (Saturation) */
#define SAT_V_LO 0x0E /* Chroma (V) Gain (Saturation) */
#define HUE 0x0F /* Hue Control */
#define SCLOOP 0x10 /* SC Loop Control */
#define WC_UP 0x11 /* White Crush Up Count */
#define OFORM 0x12 /* Output Format */
#define VSCALE_HI 0x13 /* Vertical Scaling */
#define VSCALE_LO 0x14 /* Vertical Scaling */
#define TEST 0x15 /* Test Control */
#define VPOLE 0x16 /* Video Timing Polarity */
#define IDCODE 0x17 /* ID Code */
#define ADELAY 0x18 /* AGC Delay */
#define BDELAY 0x19 /* Burst Gate Delay */
#define ADC 0x1A /* ADC Interface */
#define VTC 0x1B /* Video Timing Control */
#define CC_STATUS 0x1C /* Extended Data Services/Closed Capt Status */
#define CC_DATA 0x1D /* Extended Data Services/Closed Capt Data */
#define WC_DN 0x1E /* White Crush Down Count */
#define SRESET 0x1F /* Software Reset */
#define P_IO 0x3F /* Programmable I/O */
static CARD8
btread(BT829Ptr bt, CARD8 reg)
{
CARD8 v;
I2C_WriteRead(&(bt->d), &reg, 1, &v, 1);
return v;
}
static void
btwrite(BT829Ptr bt, CARD8 reg, CARD8 val)
{
CARD8 data[2];
data[0] = reg;
data[1] = val;
I2C_WriteRead(&(bt->d), data, 2, NULL, 0);
}
/*
* Register access
*/
static void
btwrite_status(BT829Ptr bt)
{ /* STATUS */
btwrite(bt, STATUS, 0x00); /* clear */
}
static void
btwrite_iform(BT829Ptr bt)
{ /* IFORM */
int xtsel;
switch (bt->format) {
case BT829_NTSC:
case BT829_NTSC_JAPAN:
case BT829_PAL_M:
case BT829_PAL_N_COMB: /* gatos says xtsel = 2 */
xtsel = 1;
break;
case BT829_PAL:
case BT829_PAL_N:
case BT829_SECAM:
xtsel = 2;
break;
default: /* shouldn't get here */
xtsel = 3; /* hardware default */
break;
}
btwrite(bt, IFORM, (bt->mux << 5) | (xtsel << 3) | bt->format);
}
static void
btwrite_tdec(BT829Ptr bt)
{ /* TDEC */
/* use default */
}
static void
btwrite_crop(BT829Ptr bt)
{ /* CROP */
btwrite(bt, CROP, (H(bt->vdelay) << 6) | (H(bt->vactive) << 4) |
(H(bt->hdelay) << 2) | H(bt->width));
}
static void
btwrite_vdelay_lo(BT829Ptr bt)
{ /* VDELAY_LO */
btwrite(bt, VDELAY_LO, L(bt->vdelay));
}
static void
btwrite_vactive_lo(BT829Ptr bt)
{ /* VACTIVE_LO */
btwrite(bt, VACTIVE_LO, L(bt->vactive));
}
static void
btwrite_hdelay_lo(BT829Ptr bt)
{ /* HDELAY_LO */
btwrite(bt, HDELAY_LO, L(bt->hdelay));
}
static void
btwrite_hactive_lo(BT829Ptr bt)
{ /* HACTIVE_LO */
btwrite(bt, HACTIVE_LO, L(bt->width));
}
static void
btwrite_hscale_hi(BT829Ptr bt)
{ /* HSCALE_HI */
btwrite(bt, HSCALE_HI, H(bt->hscale));
}
static void
btwrite_hscale_lo(BT829Ptr bt)
{ /* HSCALE_LO */
btwrite(bt, HSCALE_LO, L(bt->hscale));
}
static void
btwrite_bright(BT829Ptr bt)
{ /* BRIGHT */
btwrite(bt, BRIGHT, bt->brightness);
}
static void
btwrite_control(BT829Ptr bt)
{ /* CONTROL */
int ldec;
/* The data sheet says ldec should always be 0 for SECAM */
/* but the picture quality is better with ldec = 1 */
ldec = (bt->width > 360); /* gatos says 384 */
btwrite(bt, CONTROL, ((bt->mux == bt->svideo_mux) ? 0xC0 : 0x00) | /* LNOTCH and COMP */
(ldec << 5) | (H(bt->contrast) << 2) | (H(bt->sat_u) << 1) | H(bt->
sat_v));
}
static void
btwrite_contrast_lo(BT829Ptr bt)
{ /* CONTRAST_LO */
btwrite(bt, CONTRAST_LO, L(bt->contrast));
}
static void
btwrite_sat_u_lo(BT829Ptr bt)
{ /* SAT_U_LO */
btwrite(bt, SAT_U_LO, L(bt->sat_u));
}
static void
btwrite_sat_v_lo(BT829Ptr bt)
{ /* SAT_V_LO */
btwrite(bt, SAT_V_LO, L(bt->sat_v));
}
static void
btwrite_hue(BT829Ptr bt)
{ /* HUE */
btwrite(bt, HUE, bt->hue);
}
static void
btwrite_scloop(BT829Ptr bt)
{ /* SCLOOP */
if (BTVERSION >= BT827) {
btwrite(bt, SCLOOP, (bt->format == BT829_SECAM) ? 0x10 : 0x00 /* QCIF or AUTO */
);
}
}
static void
btwrite_wc_up(BT829Ptr bt)
{ /* WC_UP */
if (BTVERSION >= BT827) {
/* use default */
}
}
static void
btwrite_oform(BT829Ptr bt)
{ /* OFORM */
btwrite(bt, OFORM, (bt->code << 3) | (bt->len << 2) | 0x02 /* RANGE = 0, CORE = 0, VBI_FRAME = 0, OES = 2 (default) */
);
}
static void
btwrite_vscale_hi(BT829Ptr bt)
{ /* VSCALE_HI */
btwrite(bt, VSCALE_HI, H(bt->vscale) | 0x60 /* YCOMB = 0, COMB = 1, INT = 1 (default) */
);
}
static void
btwrite_vscale_lo(BT829Ptr bt)
{ /* VSCALE_LO */
btwrite(bt, VSCALE_LO, L(bt->vscale));
}
/* TEST should not be written to */
static void
btwrite_vpole(BT829Ptr bt)
{ /* VPOLE */
btwrite(bt, VPOLE, (bt->out_en << 7));
}
/* IDCODE is read only */
static void
btwrite_adelay(BT829Ptr bt)
{ /* ADELAY */
switch (bt->format) {
case BT829_NTSC:
case BT829_NTSC_JAPAN:
case BT829_PAL_M:
btwrite(bt, ADELAY, 104);
break;
case BT829_PAL:
case BT829_PAL_N:
case BT829_SECAM:
case BT829_PAL_N_COMB:
btwrite(bt, ADELAY, 127);
break;
default: /* shouldn't get here */
btwrite(bt, ADELAY, 104); /* hardware default */
break;
}
}
static void
btwrite_bdelay(BT829Ptr bt)
{ /* BDELAY */
switch (bt->format) {
case BT829_NTSC:
case BT829_NTSC_JAPAN:
case BT829_PAL_M:
btwrite(bt, BDELAY, 93);
break;
case BT829_PAL:
case BT829_PAL_N:
case BT829_PAL_N_COMB:
btwrite(bt, BDELAY, 114);
break;
case BT829_SECAM:
btwrite(bt, BDELAY, 160);
break;
default: /* shouldn't get here */
btwrite(bt, BDELAY, 93); /* hardware default */
break;
}
}
static void
btwrite_adc(BT829Ptr bt)
{ /* ADC */
btwrite(bt, ADC, bt->mux == bt->svideo_mux ? 0x80 : 0x82); /* CSLEEP = 0 or 1 */
}
static void
btwrite_vtc(BT829Ptr bt)
{ /* VTC */
int vfilt = 0; /* hardware default */
if (BTVERSION > BT827) { /* gatos says >= BT827 */
switch (bt->format) {
case BT829_NTSC:
case BT829_NTSC_JAPAN:
case BT829_PAL_M:
case BT829_PAL_N_COMB: /* gatos groups with BT829_PAL */
if (bt->width <= 360)
vfilt = 1; /* gatos says <= 240 */
if (bt->width <= 180)
vfilt = 2; /* gatos says <= 120 */
if (bt->width <= 90)
vfilt = 3; /* gatos says <= 60 */
break;
case BT829_PAL:
case BT829_PAL_N:
case BT829_SECAM:
if (bt->width <= 384)
vfilt = 1;
if (bt->width <= 192)
vfilt = 2;
if (bt->width <= 96)
vfilt = 3;
break;
default: /* shouldn't get here */
break; /* use hardware default */
}
btwrite(bt, VTC, (bt->vbien << 4) | (bt->vbifmt << 3) | vfilt);
}
}
static void
btwrite_cc_status(BT829Ptr bt)
{ /* CC_STATUS *//* FIXME: ATI specific */
if (BTVERSION >= BT827) {
if (bt->ccmode == 0)
btwrite(bt, CC_STATUS, 0x00);
/* 0x40 is activate to set the CCVALID line. Not required yet */
else
btwrite(bt, CC_STATUS, (bt->ccmode << 4) | 0x40);
}
}
/* CC_DATA is read only */
static void
btwrite_wc_dn(BT829Ptr bt)
{ /* WC_DN */
if (BTVERSION >= BT827) {
/* use default */
}
}
static void
bt_reset(BT829Ptr bt)
{ /* SRESET */
btwrite(bt, SRESET, 0x0); /* Reset all registers */
}
static void
btwrite_p_io(BT829Ptr bt)
{ /* P_IO */
if (BTVERSION >= BT827) {
btwrite(bt, P_IO, bt->p_io);
}
}
/*
* Deal with dependencies
*/
static void
propagate_changes(BT829Ptr bt)
{
CARD16 hdelay, unscaled_hdelay, vdelay, hscale, vscale;
int htotal, vactive;
switch (bt->format) {
case BT829_NTSC:
case BT829_NTSC_JAPAN:
case BT829_PAL_M:
vdelay = 22;
htotal = 754;
vactive = 480;
unscaled_hdelay = 135;
break;
case BT829_PAL:
case BT829_PAL_N:
vdelay = (bt->tunertype == 5) ? 34 : 22;
htotal = 922;
vactive = 576;
unscaled_hdelay = 186;
break;
case BT829_SECAM:
vdelay = 34;
htotal = 922;
vactive = 576;
unscaled_hdelay = 186;
break;
case BT829_PAL_N_COMB:
vdelay = (bt->tunertype == 5) ? 34 : 22; /* windows says 22 */
htotal = 754; /* gatos and windows say 922 */
vactive = 576;
unscaled_hdelay = 135; /* gatos and windows say 186 */
break;
default: /* shouldn't get here */
vdelay = 22; /* hardware default */
htotal = 754;
vactive = 480; /* hardware default */
unscaled_hdelay = 135;
break;
}
bt->htotal = htotal; /* Used for error checking in bt829_SetCaptSize */
hscale = 4096 * htotal / (bt->width + 2 * HCROP) - 4096;
hdelay =
(HCROP + (bt->width + 2 * HCROP) * unscaled_hdelay / htotal) & 0x3FE;
vactive = vactive - 2 * VCROP;
vdelay = vdelay + VCROP;
vscale = (0x10000 - (512 * vactive / bt->height - 512)) & 0x1FFF;
if ((hdelay != bt->hdelay) || (vdelay != bt->vdelay) ||
(vactive != bt->vactive) || (hscale != bt->hscale) ||
(vscale != bt->vscale)) {
bt->hdelay = hdelay;
bt->vdelay = vdelay;
bt->vactive = vactive;
bt->hscale = hscale;
bt->vscale = vscale;
btwrite_crop(bt);
btwrite_vdelay_lo(bt);
btwrite_vactive_lo(bt);
btwrite_hdelay_lo(bt);
btwrite_hscale_hi(bt);
btwrite_hscale_lo(bt);
btwrite_control(bt);
btwrite_vscale_hi(bt);
btwrite_vscale_lo(bt);
}
}
static void
write_all(BT829Ptr bt)
{
bt_reset(bt);
propagate_changes(bt); /* ensure consistency */
btwrite_iform(bt);
btwrite_tdec(bt);
btwrite_crop(bt);
btwrite_vdelay_lo(bt);
btwrite_vactive_lo(bt);
btwrite_hdelay_lo(bt);
btwrite_hactive_lo(bt);
btwrite_hscale_hi(bt);
btwrite_hscale_lo(bt);
btwrite_bright(bt);
btwrite_control(bt);
btwrite_contrast_lo(bt);
btwrite_sat_u_lo(bt);
btwrite_sat_v_lo(bt);
btwrite_hue(bt);
btwrite_scloop(bt);
btwrite_wc_up(bt);
btwrite_oform(bt);
btwrite_vscale_hi(bt);
btwrite_vscale_lo(bt);
btwrite_vpole(bt);
btwrite_adelay(bt);
btwrite_bdelay(bt);
btwrite_adc(bt);
btwrite_vtc(bt);
/* btwrite_cc_status(bt); *//* FIXME: CC code needs cleaning */
btwrite_wc_dn(bt);
btwrite_p_io(bt);
}
/*
* Public functions
*/
BT829Ptr
bt829_Detect(I2CBusPtr b, I2CSlaveAddr addr)
{
BT829Ptr bt;
I2CByte a;
char *devname;
bt = calloc(1, sizeof(BT829Rec));
if (bt == NULL)
return NULL;
bt->d.DevName = strdup("BT829 video decoder");
bt->d.SlaveAddr = addr;
bt->d.pI2CBus = b;
bt->d.NextDev = NULL;
bt->d.StartTimeout = b->StartTimeout;
bt->d.BitTimeout = b->BitTimeout;
bt->d.AcknTimeout = b->AcknTimeout;
bt->d.ByteTimeout = b->ByteTimeout;
if (!I2C_WriteRead(&(bt->d), NULL, 0, &a, 1)) {
free(bt);
return NULL;
}
bt->id = btread(bt, IDCODE);
free((void *) bt->d.DevName);
bt->d.DevName = devname = calloc(200, sizeof(char));
switch (BTVERSION) {
case BT815:
sprintf(devname, "bt815a video decoder, revision %d",
bt->id & 0xf);
break;
case BT817:
sprintf(devname, "bt817a video decoder, revision %d",
bt->id & 0xf);
break;
case BT819:
sprintf(devname, "bt819a video decoder, revision %d",
bt->id & 0xf);
break;
case BT827:
sprintf(devname, "bt827a/b video decoder, revision %d",
bt->id & 0xf);
break;
case BT829:
sprintf(devname, "bt829a/b video decoder, revision %d",
bt->id & 0xf);
break;
default:
sprintf(devname,
"bt8xx/unknown video decoder version %d, revision %d",
bt->id >> 4, bt->id & 0xf);
break;
}
/* set default parameters */
if (!I2CDevInit(&(bt->d))) {
free(bt);
return NULL;
}
bt->tunertype = 1;
bt->brightness = 0; /* hardware default */
bt->ccmode = 0;
bt->code = 0; /* hardware default */
bt->contrast = 216; /* hardware default */
bt->format = BT829_NTSC;
bt->height = 480; /* hardware default for vactive */
bt->hue = 0; /* hardware default */
bt->len = 1; /* hardware default */
bt->mux = BT829_MUX0; /* hardware default */
bt->out_en = 0; /* hardware default */
bt->p_io = 0; /* hardware default */
bt->sat_u = 254; /* hardware default */
bt->sat_v = 180; /* hardware default */
bt->vbien = 0; /* hardware default */
bt->vbifmt = 0; /* hardware default */
bt->width = 640; /* hardware default for hactive */
bt->hdelay = 120; /* hardware default */
bt->hscale = 684; /* hardware default */
bt->vactive = 480; /* hardware default */
bt->vdelay = 22; /* hardware default */
bt->vscale = 0; /* hardware default */
bt->htotal = 754; /* NTSC */
bt->svideo_mux = 0; /* no s-video */
return bt;
}
int
bt829_ATIInit(BT829Ptr bt)
{
bt->code = 1;
bt->len = 0;
bt->vbien = 1;
bt->vbifmt = 1;
bt->svideo_mux = BT829_MUX1;
write_all(bt);
return 0;
}
int
bt829_SetFormat(BT829Ptr bt, CARD8 format)
{
if ((format < 1) || (format > 7))
return -1;
if ((BTVERSION <= BT819) && (format != BT829_NTSC) && (format != BT829_PAL))
return -1;
if (format == bt->format)
return 0;
bt->format = format;
propagate_changes(bt);
btwrite_iform(bt);
btwrite_scloop(bt);
btwrite_adelay(bt);
btwrite_bdelay(bt);
btwrite_vtc(bt);
return 0;
}
int
bt829_SetMux(BT829Ptr bt, CARD8 mux)
{
if ((mux < 1) || (mux > 3))
return -1;
if (mux == bt->mux)
return 0;
bt->mux = mux;
/* propagate_changes(bt); *//* no dependencies */
btwrite_iform(bt);
btwrite_control(bt);
btwrite_adc(bt);
return 0;
}
void
bt829_SetBrightness(BT829Ptr bt, int brightness)
{
brightness = LIMIT(brightness, -1000, 999); /* ensure -128 <= brightness <= 127 below */
brightness = (128 * brightness) / 1000;
if (brightness == bt->brightness)
return;
bt->brightness = brightness;
/* propagate_changes(bt); *//* no dependencies */
btwrite_bright(bt);
}
void
bt829_SetContrast(BT829Ptr bt, int contrast)
{
contrast = LIMIT(contrast, -1000, 1000);
contrast = (216 * (contrast + 1000)) / 1000;
if (contrast == bt->contrast)
return;
bt->contrast = contrast;
/* propagate_changes(bt); *//* no dependencies */
btwrite_control(bt);
btwrite_contrast_lo(bt);
}
void
bt829_SetSaturation(BT829Ptr bt, int saturation)
{
CARD16 sat_u, sat_v;
saturation = LIMIT(saturation, -1000, 1000);
sat_u = (254 * (saturation + 1000)) / 1000;
sat_v = (180 * (saturation + 1000)) / 1000;
if ((sat_u == bt->sat_u) && (sat_v == bt->sat_v))
return;
bt->sat_u = sat_u;
bt->sat_v = sat_v;
/* propagate_changes(bt); *//* no dependencies */
btwrite_control(bt);
btwrite_sat_u_lo(bt);
btwrite_sat_v_lo(bt);
}
void
bt829_SetTint(BT829Ptr bt, int hue)
{
hue = LIMIT(hue, -1000, 999); /* ensure -128 <= hue <= 127 below */
hue = (128 * hue) / 1000;
if (hue == bt->hue)
return;
bt->hue = hue;
/* propagate_changes(bt); *//* no dependencies */
btwrite_hue(bt);
}
int
bt829_SetCaptSize(BT829Ptr bt, int width, int height)
{
if ((width > bt->htotal - 2 * HCROP) ||
(16 * width < bt->htotal - 32 * HCROP))
return -1;
if ((height > bt->vactive) || (16 * height < bt->vactive))
return -1;
if ((width == bt->width) && (height == bt->height))
return 0;
bt->width = width;
bt->height = height;
propagate_changes(bt);
btwrite_crop(bt);
btwrite_hactive_lo(bt);
btwrite_control(bt);
btwrite_vtc(bt);
return 0;
}
int
bt829_SetCC(BT829Ptr bt)
{ /* FIXME: should take ccmode as a parameter */
if (BTVERSION < BT827)
return -1; /* can't do it */
/* propagate_changes(bt); *//* no dependencies */
btwrite_cc_status(bt);
/* we write to STATUS to reset the CCVALID flag */
if (bt->ccmode != 0)
btwrite_status(bt);
return 0;
}
void
bt829_SetOUT_EN(BT829Ptr bt, BOOL out_en)
{
out_en = (out_en != 0);
if (out_en == bt->out_en)
return;
bt->out_en = out_en;
/* propagate_changes(bt); *//* no dependencies */
btwrite_vpole(bt);
}
void
bt829_SetP_IO(BT829Ptr bt, CARD8 p_io)
{
if (p_io == bt->p_io)
return;
bt->p_io = p_io;
/* propagate_changes(bt); *//* no dependencies */
btwrite_p_io(bt);
}
#define BTREAD(R) btread(bt,(R))
#if 0
void
bt829_getCCdata(BT829Ptr bt, struct CCdata *data)
{
CARD8 status;
data->num_valid = 0;
/* wait for buffer to be half full (means 8/16 bytes)
* either 4 (one of CC/EDS) or 2 (both CC/EDS) frames */
if (!(BTREAD(STATUS) & 0x04))
return; /* could comment this line */
for (; data->num_valid < CC_FIFO_SIZE; data->num_valid++) {
status = BTREAD(CC_STATUS);
if (!(status & 0x04))
break;
data->data[data->num_valid] = BTREAD(CC_DATA) & 0x7f;
/* stripped high bit (parity) */
data->status[data->num_valid] = (CCS_EDS * ((status & 0x02) >> 1)) |
(CCS_HIGH * (status & 0x01)) |
(CCS_OVER * ((status & 0x08) >> 3)) |
(CCS_PAR * ((status & 0x80) >> 7));
}
btwrite(bt, STATUS, 0x00); /* Reset CCVALID status bit */
return;
}
#endif
/* ------------------------------------------------------------------------ */
/* Debug and report routines */
#define DUMPREG(REG) \
xf86DrvMsg(bt->d.pI2CBus->scrnIndex,X_INFO," %-12s (0x%02X) = 0x%02X\n", \
#REG,REG,BTREAD(REG))
/*static void bt829_dumpregs(BT829Ptr bt)
{
DUMPREG(STATUS);
DUMPREG(IFORM);
DUMPREG(TDEC);
DUMPREG(CROP);
DUMPREG(VDELAY_LO);
DUMPREG(VACTIVE_LO);
DUMPREG(HDELAY_LO);
DUMPREG(HACTIVE_LO);
DUMPREG(HSCALE_HI);
DUMPREG(HSCALE_LO);
DUMPREG(BRIGHT);
DUMPREG(CONTROL);
DUMPREG(CONTRAST_LO);
DUMPREG(SAT_U_LO);
DUMPREG(SAT_V_LO);
DUMPREG(HUE);
if (BTVERSION >= BT827) {
DUMPREG(SCLOOP);
DUMPREG(WC_UP) ; }
DUMPREG(OFORM);
DUMPREG(VSCALE_HI);
DUMPREG(VSCALE_LO);
DUMPREG(TEST);
DUMPREG(VPOLE);
DUMPREG(IDCODE);
DUMPREG(ADELAY);
DUMPREG(BDELAY);
DUMPREG(ADC);
if (BTVERSION >= BT827) {
DUMPREG(VTC);
DUMPREG(CC_STATUS);
DUMPREG(CC_DATA);
DUMPREG(WC_DN);
DUMPREG(P_IO) ; }
}*/