Example #1
0
/* This function will configure the window size to be capture in CCDC reg */
static void ccdc_setwin(struct v4l2_rect *image_win,
			enum ccdc_frmfmt frm_fmt, int ppc, int mode)
{
	int horz_start, horz_nr_pixels;
	int vert_start, vert_nr_lines;
	int mid_img = 0;

	dev_dbg(dev, "\nStarting ccdc_setwin...");
	/**
	 * ppc - per pixel count. indicates how many pixels per cell
	 * output to SDRAM. example, for ycbcr, it is one y and one c, so 2.
	 * raw capture this is 1
	 */
	horz_start = image_win->left << (ppc - 1);
	horz_nr_pixels = ((image_win->width) << (ppc - 1)) - 1;

	/* Writing the horizontal info into the registers */
	regw(horz_start & START_PX_HOR_MASK, SPH);
	regw(horz_nr_pixels & NUM_PX_HOR_MASK, LNH);
	vert_start = image_win->top;

	if (frm_fmt == CCDC_FRMFMT_INTERLACED) {
		vert_nr_lines = (image_win->height >> 1) - 1;
		vert_start >>= 1;
		/* To account for VD since line 0 doesn't have any data */
		vert_start += 1;
	} else {
Example #2
0
/* vpif_set_mode_info:
 * This function is used to set horizontal and vertical config parameters
 * As per the standard in the channel, configure the values of L1, L3,
 * L5, L7  L9, L11 in VPIF Register , also write width and height
 */
static void vpif_set_mode_info(const struct vpif_channel_config_params *config,
				u8 channel_id, u8 config_channel_id)
{
	u32 value;

	value = (config->eav2sav & vpifregs[config_channel_id].width_mask);
	value <<= VPIF_CH_LEN_SHIFT;
	value |= (config->sav2eav & vpifregs[config_channel_id].width_mask);
	regw(value, vpifregs[channel_id].h_cfg);

	value = (config->l1 & vpifregs[config_channel_id].len_mask);
	value <<= VPIF_CH_LEN_SHIFT;
	value |= (config->l3 & vpifregs[config_channel_id].len_mask);
	regw(value, vpifregs[channel_id].v_cfg_00);

	value = (config->l5 & vpifregs[config_channel_id].len_mask);
	value <<= VPIF_CH_LEN_SHIFT;
	value |= (config->l7 & vpifregs[config_channel_id].len_mask);
	regw(value, vpifregs[channel_id].v_cfg_01);

	value = (config->l9 & vpifregs[config_channel_id].len_mask);
	value <<= VPIF_CH_LEN_SHIFT;
	value |= (config->l11 & vpifregs[config_channel_id].len_mask);
	regw(value, vpifregs[channel_id].v_cfg_02);

	value = (config->vsize & vpifregs[config_channel_id].len_mask);
	regw(value, vpifregs[channel_id].v_cfg);
}
Example #3
0
static void ccdc_reset(void)
{
	int i, clkctrl;
	/* disable CCDC */
	printk(KERN_DEBUG "\nstarting ccdc_reset...");
	ccdc_enable(0);
	/* set all registers to default value */
	for (i = 0; i <= 0x15c; i += 4)
		regw(0, i);
	/* no culling support */
	regw(0xffff, CULH);
	regw(0xff, CULV);
	/* Set default Gain and Offset */
	ccdc_hw_params_raw.gain.r_ye = 256;
	ccdc_hw_params_raw.gain.gb_g = 256;
	ccdc_hw_params_raw.gain.gr_cy = 256;
	ccdc_hw_params_raw.gain.b_mg = 256;
	ccdc_hw_params_raw.ccdc_offset = 0;
	ccdc_config_gain_offset();
	/* up to 12 bit sensor */
	regw(0x0FFF, OUTCLIP);
	vpss_dfc_memory_sel(VPSS_DFC_SEL_IPIPE);
	regw_bl(0x00, CCDCMUX);	/*CCDC input Mux select directly from sensor */
	clkctrl = regr_bl(CLKCTRL);
	clkctrl &= 0x3f;
	clkctrl |= 0x40;
	regw_bl(clkctrl, CLKCTRL);

	printk(KERN_DEBUG "\nEnd of ccdc_reset...");
}
Example #4
0
static void ccdc_restore_defaults(void)
{
	enum vpss_ccdc_source_sel source = VPSS_CCDCIN;
	int i;

	memcpy(&ccdc_cfg.bayer.config_params, &ccdc_config_defaults,
		sizeof(struct ccdc_config_params_raw));

	dev_dbg(dev, "\nstarting ccdc_restore_defaults...");
	/* Enable clock to ISIF, IPIPEIF and BL */
	vpss_enable_clock(VPSS_CCDC_CLOCK, 1);
	vpss_enable_clock(VPSS_IPIPEIF_CLOCK, 1);
	vpss_enable_clock(VPSS_BL_CLOCK, 1);

	/* set all registers to default value */
	for (i = 0; i <= 0x1f8; i += 4)
		regw(0, i);

	/* no culling support */
	regw(0xffff, CULH);
	regw(0xff, CULV);

	/* Set default offset and gain */
	ccdc_config_gain_offset();

	vpss_select_ccdc_source(source);

	dev_dbg(dev, "\nEnd of ccdc_restore_defaults...");
}
Example #5
0
/*
 * vdce_interrupt set : Function to set interrupt
 */
inline int vdce_enable_int(void)
{
	regw(1, VDCE_INTEN);
	regw(1, VDCE_INTEN_SET);
	/* Disable emulation control signal */
	regw(1, VDCE_EMULATION_CTRL);
	return 0;
}
Example #6
0
static void ccdc_config_gain_offset(void)
{
	/* configure gain */
	regw(ccdc_hw_params_raw.gain.r_ye, RYEGAIN);
	regw(ccdc_hw_params_raw.gain.gr_cy, GRCYGAIN);
	regw(ccdc_hw_params_raw.gain.gb_g, GBGGAIN);
	regw(ccdc_hw_params_raw.gain.b_mg, BMGGAIN);
	/* configure offset */
	regw(ccdc_hw_params_raw.ccdc_offset, OFFSET);
}
Example #7
0
static void ccdc_disable_all_modules(void)
{
	/* disable BC */
	regw(0, CLAMPCFG);
	/* disable vdfc */
	regw(0, DFCCTL);
	/* disable CSC */
	regw(0, CSCCTL);
	/* disable linearization */
	regw(0, LINCFG0);
	/* disable other modules here as they are supported */
}
Example #8
0
/* config_vpif_params
 * Function to set the parameters of a channel
 * Mainly modifies the channel ciontrol register
 * It sets frame format, yc mux mode
 */
static void config_vpif_params(struct vpif_params *vpifparams,
				u8 channel_id, u8 found)
{
	const struct vpif_channel_config_params *config = &vpifparams->std_info;
	u32 value, ch_nip, reg;
	u8 start, end;
	int i;

	start = channel_id;
	end = channel_id + found;

	for (i = start; i < end; i++) {
		reg = vpifregs[i].ch_ctrl;
		if (channel_id < 2)
			ch_nip = VPIF_CAPTURE_CH_NIP;
		else
			ch_nip = VPIF_DISPLAY_CH_NIP;

		vpif_wr_bit(reg, ch_nip, config->frm_fmt);
		vpif_wr_bit(reg, VPIF_CH_YC_MUX_BIT, config->ycmux_mode);
		vpif_wr_bit(reg, VPIF_CH_INPUT_FIELD_FRAME_BIT,
					vpifparams->video_params.storage_mode);

		/* Set raster scanning SDR Format */
		vpif_clr_bit(reg, VPIF_CH_SDR_FMT_BIT);
		vpif_wr_bit(reg, VPIF_CH_DATA_MODE_BIT, config->capture_format);

		if (channel_id > 1)	/* Set the Pixel enable bit */
			vpif_set_bit(reg, VPIF_DISPLAY_PIX_EN_BIT);
		else if (config->capture_format) {
			/* Set the polarity of various pins */
			vpif_wr_bit(reg, VPIF_CH_FID_POLARITY_BIT,
					vpifparams->iface.fid_pol);
			vpif_wr_bit(reg, VPIF_CH_V_VALID_POLARITY_BIT,
					vpifparams->iface.vd_pol);
			vpif_wr_bit(reg, VPIF_CH_H_VALID_POLARITY_BIT,
					vpifparams->iface.hd_pol);

			value = regr(reg);
			/* Set data width */
			value &= ((~(unsigned int)(0x3)) <<
					VPIF_CH_DATA_WIDTH_BIT);
			value |= ((vpifparams->params.data_sz) <<
						     VPIF_CH_DATA_WIDTH_BIT);
			regw(value, reg);
		}

		/* Write the pitch in the driver */
		regw((vpifparams->video_params.hpitch),
						vpifregs[i].line_offset);
	}
}
Example #9
0
static inline u32 ccdc_merge(u32 mask, u32 val, u32 offset)
{
	u32 new_val = (regr(offset) & ~mask) | (val & mask);

	regw(new_val, offset);
	return new_val;
}
Example #10
0
static void ccdc_config_culling(struct ccdc_cul *cul)
{
	u32 val;

	/* Horizontal pattern */
	val = (cul->hcpat_even) << CULL_PAT_EVEN_LINE_SHIFT;
	val |= cul->hcpat_odd;
	regw(val, CULH);

	/* vertical pattern */
	regw(cul->vcpat, CULV);

	/* LPF */
	ccdc_merge((CCDC_LPF_MASK << CCDC_LPF_SHIFT),
		   (cul->en_lpf << CCDC_LPF_SHIFT), MODESET);
}
Example #11
0
static void ccdc_enable(int en)
{
	unsigned int temp;
	temp = regr(SYNCEN);
	temp &= (~0x1);
	temp |= (en & 0x01);
	regw(temp, SYNCEN);
}
Example #12
0
static void ccdc_enable_output_to_sdram(int en)
{
	unsigned int temp;
	temp = regr(SYNCEN);
	temp &= (~(0x1 << 1));
	temp |= (en & 0x01) << 1;
	regw(temp, SYNCEN);
}
Example #13
0
static void ccdc_enable(int en)
{
	unsigned int temp;
	temp = regr(SYNCEN);
	temp &= (~CCDC_SYNCEN_VDHDEN_MASK);
	temp |= (en & CCDC_SYNCEN_VDHDEN_MASK);
	regw(temp, SYNCEN);
}
Example #14
0
static void ccdc_enable_output_to_sdram(int en)
{
	unsigned int temp;
	temp = regr(SYNCEN);
	temp &= (~(CCDC_SYNCEN_WEN_MASK));
	temp |= ((en << CCDC_SYNCEN_WEN_SHIFT) & CCDC_SYNCEN_WEN_MASK);
	regw(temp, SYNCEN);
}
Example #15
0
/* vpif_set_video_params
 * This function is used to set video parameters in VPIF register
 */
int vpif_set_video_params(struct vpif_params *vpifparams, u8 channel_id)
{
	const struct vpif_channel_config_params *config = &vpifparams->std_info;
	int found = 1;

	vpif_set_mode_info(config, channel_id, channel_id);
	if (!config->ycmux_mode) {
		/* YC are on separate channels (HDTV formats) */
		vpif_set_mode_info(config, channel_id + 1, channel_id);
		found = 2;
	}

	config_vpif_params(vpifparams, channel_id, found);

	regw(0x80, VPIF_REQ_SIZE);
	regw(0x01, VPIF_EMULATION_CTRL);

	return found;
}
Example #16
0
static void ccdc_config_gain_offset(void)
{
	struct ccdc_gain_offsets_adj *gain_off_ptr =
		&ccdc_cfg.bayer.config_params.gain_offset;
	u32 val;

	val = ((gain_off_ptr->gain_sdram_en & 1) << GAIN_SDRAM_EN_SHIFT) |
	((gain_off_ptr->gain_ipipe_en & 1) << GAIN_IPIPE_EN_SHIFT) |
	((gain_off_ptr->gain_h3a_en & 1) << GAIN_H3A_EN_SHIFT) |
	((gain_off_ptr->offset_sdram_en & 1) << OFST_SDRAM_EN_SHIFT) |
	((gain_off_ptr->offset_ipipe_en & 1) << OFST_IPIPE_EN_SHIFT) |
	((gain_off_ptr->offset_h3a_en & 1) << OFST_H3A_EN_SHIFT);

	ccdc_merge(GAIN_OFFSET_EN_MASK, val, CGAMMAWD);

	val = ((gain_off_ptr->gain.r_ye.integer	& GAIN_INTEGER_MASK)
		<< GAIN_INTEGER_SHIFT);
	val |= (ccdc_cfg.bayer.
		config_params.gain_offset.gain.r_ye.decimal &
		GAIN_DECIMAL_MASK);
	regw(val, CRGAIN);

	val = ((gain_off_ptr->gain.gr_cy
		.integer & GAIN_INTEGER_MASK) << GAIN_INTEGER_SHIFT);
	val |= (gain_off_ptr->gain.gr_cy
		.decimal & GAIN_DECIMAL_MASK);
	regw(val, CGRGAIN);

	val = ((gain_off_ptr->gain.gb_g
		.integer & GAIN_INTEGER_MASK) << GAIN_INTEGER_SHIFT);
	val |= (gain_off_ptr->gain.gb_g
		.decimal & GAIN_DECIMAL_MASK);
	regw(val, CGBGAIN);

	val = ((gain_off_ptr->gain.b_mg
		.integer & GAIN_INTEGER_MASK) << GAIN_INTEGER_SHIFT);
	val |= (gain_off_ptr->gain.b_mg
		.decimal & GAIN_DECIMAL_MASK);
	regw(val, CBGAIN);

	regw((gain_off_ptr->offset &
		OFFSET_MASK), COFSTA);
}
Example #17
0
/*
 * ccdc_restore_defaults()
 * This function restore power on defaults in the ccdc registers
 */
static int ccdc_restore_defaults(void)
{
	int i;

	dev_dbg(dev, "\nstarting ccdc_restore_defaults...");
	/* set all registers to zero */
	for (i = 0; i <= CCDC_REG_LAST; i += 4)
		regw(0, i);

	/* now override the values with power on defaults in registers */
	regw(MODESET_DEFAULT, MODESET);
	/* no culling support */
	regw(CULH_DEFAULT, CULH);
	regw(CULV_DEFAULT, CULV);
	/* Set default Gain and Offset */
	ccdc_hw_params_raw.gain.r_ye = GAIN_DEFAULT;
	ccdc_hw_params_raw.gain.gb_g = GAIN_DEFAULT;
	ccdc_hw_params_raw.gain.gr_cy = GAIN_DEFAULT;
	ccdc_hw_params_raw.gain.b_mg = GAIN_DEFAULT;
	ccdc_config_gain_offset();
	regw(OUTCLIP_DEFAULT, OUTCLIP);
	regw(LSCCFG2_DEFAULT, LSCCFG2);
	/* select ccdc input */
	if (vpss_select_ccdc_source(VPSS_CCDCIN)) {
		dev_dbg(dev, "\ncouldn't select ccdc input source");
		return -EFAULT;
	}
	/* select ccdc clock */
	if (vpss_enable_clock(VPSS_CCDC_CLOCK, 1) < 0) {
		dev_dbg(dev, "\ncouldn't enable ccdc clock");
		return -EFAULT;
	}
	dev_dbg(dev, "\nEnd of ccdc_restore_defaults...");
	return 0;
}
Example #18
0
/*This function will configure the window size to be capture in CCDC reg */
void ccdc_setwin(ccdc_imgwin * image_win, ccdc_frmfmt frm_fmt, int ppc)
{
    int horz_start, horz_nr_pixels;
    int vert_start, vert_nr_lines;
    int val = 0, mid_img = 0;
    dev_dbg(vpfe_dev, "\nStarting ccdc_setwin...");
    /* configure horizonal and vertical starts and sizes */
    horz_start = image_win->left << (ppc - 1);
    horz_nr_pixels = (image_win->width << (ppc - 1)) - 1;
    regw((horz_start << CCDC_HORZ_INFO_SPH_SHIFT) | horz_nr_pixels,
         HORZ_INFO);

    vert_start = image_win->top;

    if (frm_fmt == CCDC_FRMFMT_INTERLACED) {
        vert_nr_lines = (image_win->height >> 1) - 1;
        vert_start >>= 1;
        /* configure VDINT0 and VDINT1 */
        val = (vert_start << CCDC_VDINT_VDINT0_SHIFT);
        regw(val, VDINT);

    } else {
Example #19
0
void
dp8390getea(Ether* ether, uchar* ea)
{
	Dp8390 *ctlr;
	uchar cr;
	int i;

	ctlr = ether->ctlr;

	/*
	 * Get the ethernet address from the chip.
	 * Take care to restore the command register
	 * afterwards.
	 */
	ilock(ctlr);
	cr = regr(ctlr, Cr) & ~Txp;
	regw(ctlr, Cr, Page1|(~(Ps1|Ps0) & cr));
	for(i = 0; i < Eaddrlen; i++)
		ea[i] = regr(ctlr, Par0+i);
	regw(ctlr, Cr, cr);
	iunlock(ctlr);
}
Example #20
0
void vpif_set_vbi_display_params(struct vpif_vbi_params *vbiparams,
				u8 channel_id)
{
	u32 value;

	value = 0x3F8 & (vbiparams->hstart0);
	value |= 0x3FFFFFF & ((vbiparams->vstart0) << 16);
	regw(value, vpifregs[channel_id].vanc0_strt);

	value = 0x3F8 & (vbiparams->hstart1);
	value |= 0x3FFFFFF & ((vbiparams->vstart1) << 16);
	regw(value, vpifregs[channel_id].vanc1_strt);

	value = 0x3F8 & (vbiparams->hsize0);
	value |= 0x3FFFFFF & ((vbiparams->vsize0) << 16);
	regw(value, vpifregs[channel_id].vanc0_size);

	value = 0x3F8 & (vbiparams->hsize1);
	value |= 0x3FFFFFF & ((vbiparams->vsize1) << 16);
	regw(value, vpifregs[channel_id].vanc1_size);

}
Example #21
0
/*
 * ======== ccdc_setwin  ========
 *
 * This function will configure the window size to
 * be capture in CCDC reg
 */
static void ccdc_setwin(struct ccdc_imgwin *image_win,
			enum ccdc_frmfmt frm_fmt, int ppc, int mode)
{
	int horz_start, horz_nr_pixels;
	int vert_start, vert_nr_lines;
	int mid_img = 0;
	printk(KERN_DEBUG "\nStarting ccdc_setwin...");
	/* configure horizonal and vertical starts and sizes */
	horz_start = image_win->left << (ppc - 1);
	horz_nr_pixels = ((image_win->width) << (ppc - 1)) - 1;

	/*Writing the horizontal info into the registers */
	regw(horz_start & START_PX_HOR_MASK, SPH);
	regw(horz_nr_pixels & NUM_PX_HOR_MASK, NPH);
	vert_start = image_win->top;

	if (frm_fmt == CCDC_FRMFMT_INTERLACED) {
		vert_nr_lines = (image_win->height >> 1) - 1;
		vert_start >>= 1;
		/* Since first line doesn't have any data */
		vert_start += 1;
	} else {
Example #22
0
void
dp8390setea(Ether* ether)
{
	int i;
	uchar cr;
	Dp8390 *ctlr;

	ctlr = ether->ctlr;

	/*
	 * Set the ethernet address into the chip.
	 * Take care to restore the command register
	 * afterwards. Don't care about multicast
	 * addresses as multicast is never enabled
	 * (currently).
	 */
	ilock(ctlr);
	cr = regr(ctlr, Cr) & ~Txp;
	regw(ctlr, Cr, Page1|(~(Ps1|Ps0) & cr));
	for(i = 0; i < Eaddrlen; i++)
		regw(ctlr, Par0+i, ether->ea[i]);
	regw(ctlr, Cr, cr);
	iunlock(ctlr);
}
Example #23
0
/*
 * vdce_enable : Function to enable the	ge module
 */
int vdce_enable(vdce_hw_config_t * register_config)
{
	dev_dbg(vdce_device, " vdce_enable E\n");
	/* enabling the resizer the setting enable bit */
	register_config->vdce_ctrl =
	    BITSET(register_config->vdce_ctrl, VDCE_ENABLE);

	regw(register_config->vdce_ctrl, VDCE_CTRL);

	register_config->vdce_ctrl =
	    BITRESET(register_config->vdce_ctrl, VDCE_ENABLE);

	dev_dbg(vdce_device, "vdce enable L\n");

	return 0;
}
Example #24
0
static void*
_dp8390read(Dp8390* ctlr, void* to, ulong from, ulong len)
{
	uchar cr;
	int timo;

	/*
	 * Read some data at offset 'from' in the card's memory
	 * using the DP8390 remote DMA facility, and place it at
	 * 'to' in main memory, via the I/O data port.
	 */
	cr = regr(ctlr, Cr) & ~Txp;
	regw(ctlr, Cr, Page0|RdABORT|Sta);
	regw(ctlr, Isr, Rdc);

	/*
	 * Set up the remote DMA address and count.
	 */
	len = ROUNDUP(len, ctlr->width);
	regw(ctlr, Rbcr0, len & 0xFF);
	regw(ctlr, Rbcr1, (len>>8) & 0xFF);
	regw(ctlr, Rsar0, from & 0xFF);
	regw(ctlr, Rsar1, (from>>8) & 0xFF);

	/*
	 * Start the remote DMA read and suck the data
	 * out of the I/O port.
	 */
	regw(ctlr, Cr, Page0|RdREAD|Sta);
	rdread(ctlr, to, len);

	/*
	 * Wait for the remote DMA to complete. The timeout
	 * is necessary because this routine may be called on
	 * a non-existent chip during initialisation and, due
	 * to the miracles of the bus, it's possible to get this
	 * far and still be talking to a slot full of nothing.
	 */
	for(timo = 10000; (regr(ctlr, Isr) & Rdc) == 0 && timo; timo--)
			;

	regw(ctlr, Isr, Rdc);
	regw(ctlr, Cr, cr);

	return to;
}
Example #25
0
/* Function to enable/ disable AEW Engine */
inline void aew_engine_setup(int value)
{
	unsigned int pcr;
	dev_dbg(aewdev, __FUNCTION__ "E\n");
	dev_dbg(aewdev, "\nAEW_REG(PCR) Before Setting %x", regr(AEWPCR));

	/* Read Pcr Register */
	pcr = regr(AEWPCR);
	pcr &= ~AEW_EN;
	pcr |= (value << AEW_EN_SHIFT);

	/*Set AF_EN bit in PCR Register */
	regw(pcr, AEWPCR);

	dev_dbg(aewdev, "\nAfter Setting %d : PCR VALUE %x", value,
		regr(AEWPCR));
	dev_dbg(aewdev, __FUNCTION__ "L\n");

}
Example #26
0
void ccdc_reset()
{
    int i;
    /* disable CCDC */
    ccdc_enable(0);
    /* set all registers to default value */
    for (i = 0; i <= 0x94; i += 4) {
        regw(0, i);
    }
    regw(0, PCR);
    regw(0, SYN_MODE);
    regw(0, HD_VD_WID);
    regw(0, PIX_LINES);
    regw(0, HORZ_INFO);
    regw(0, VERT_START);
    regw(0, VERT_LINES);
    regw(0xffff00ff, CULLING);
    regw(0, HSIZE_OFF);
    regw(0, SDOFST);
    regw(0, SDR_ADDR);
    regw(0, VDINT);
    regw(0, REC656IF);
    regw(0, CCDCFG);
    regw(0, FMTCFG);
    regw(0, VP_OUT);
}
Example #27
0
/*
 * vdce_hardware_setup :Function to set GE hardware configuration registers
 */
void vdce_hw_setup(vdce_hw_config_t * register_config)
{
	/* all devdbg will be removed after UT */
	int status;
	dev_dbg(vdce_device, " vdce_hw_setup E\n");

	/* setting the hardware register GE ctrl */
	regw(register_config->vdce_ctrl, VDCE_CTRL);
	dev_dbg(vdce_device, "GE CTRL : %x	regr = %x \n",
		register_config->vdce_ctrl, regr(VDCE_CTRL));

	regw(register_config->vdce_emulation_ctrl, VDCE_EMULATION_CTRL);
	dev_dbg(vdce_device, "VDCE_EMULATION_CTRL	%x regr	= %x\n",
		register_config->vdce_emulation_ctrl,
		regr(VDCE_EMULATION_CTRL));

	/* setting the hardware register sdr_fmt */
	regw(register_config->vdce_sdr_fmt, VDCE_SDR_FMT);
	dev_dbg(vdce_device, "VDCE_SDR_FMT %x regr = %x\n",
		register_config->vdce_sdr_fmt, regr(VDCE_SDR_FMT));

	/* setting the hardware register req_sz */
	regw(register_config->vdce_req_sz, VDCE_REQ_SZ);
	dev_dbg(vdce_device, "VDCE_REQ_SZ %x	regr = %x\n",
		register_config->vdce_req_sz, regr(VDCE_REQ_SZ));

	regw(register_config->vdce_prcs_unit_size, VDCE_PRCS_UNIT_SIZE);
	dev_dbg(vdce_device, "VDCE_PRCS_UNIT_SIZE :	%x	regr = %x \n",
		register_config->vdce_prcs_unit_size,
		regr(VDCE_PRCS_UNIT_SIZE));

	regw(register_config->src_Y_strt_ps, SRC_Y_STRT_PS);
	dev_dbg(vdce_device, "SRC_Y_STRT_PS : %x	regr = %x \n",
		register_config->src_Y_strt_ps, regr(SRC_Y_STRT_PS));

	regw(register_config->src_Y_sz, SRC_Y_SZ);
	dev_dbg(vdce_device, "SRC_Y_SZ : %x	regr = %x \n",
		register_config->src_Y_sz, regr(SRC_Y_SZ));

	regw(register_config->src_C_strt_ps, SRC_C_STRT_PS);
	dev_dbg(vdce_device, "SRC_C_STRT_PS : %x	regr = %x \n",
		register_config->src_C_strt_ps, regr(SRC_C_STRT_PS));

	regw(register_config->src_C_sz, SRC_C_SZ);
	dev_dbg(vdce_device, "SRC_C_SZ : %x	regr = %x \n",
		register_config->src_C_sz, regr(SRC_C_SZ));

	regw(register_config->src_bmp_strt_ps, SRC_BMP_STRT_PS);
	dev_dbg(vdce_device, "SRC_BMP_STRT_PS : %x	regr = %x \n",
		register_config->src_bmp_strt_ps, regr(SRC_BMP_STRT_PS));

	regw(register_config->src_bmp_sz, SRC_BMP_SZ);
	dev_dbg(vdce_device, "SRC_BMP_SZ : %x	regr = %x \n",
		register_config->src_bmp_sz, regr(SRC_BMP_SZ));

	regw(register_config->res_Y_strt_ps, RES_Y_STRT_PS);
	dev_dbg(vdce_device, "RES_Y_STRT_PS : %x	regr = %x \n",
		register_config->res_Y_strt_ps, regr(RES_Y_STRT_PS));

	regw(register_config->res_Y_sz, RES_Y_SZ);
	dev_dbg(vdce_device, "RES_Y_SZ : %x	regr = %x \n",
		register_config->res_Y_sz, regr(RES_Y_SZ));

	regw(register_config->res_C_strt_ps, RES_C_STRT_PS);
	dev_dbg(vdce_device, "RES_C_STRT_PS : %x	regr = %x \n",
		register_config->res_C_strt_ps, regr(RES_C_STRT_PS));

	regw(register_config->res_C_sz, RES_C_SZ);
	dev_dbg(vdce_device, "RES_C_SZ : %x	regr = %x \n",
		register_config->res_C_sz, regr(RES_C_SZ));

	regw(register_config->res_bmp_strt_ps, RES_BMP_STRT_PS);
	dev_dbg(vdce_device, "RES_BMP_STRT_PS : %x	regr = %x \n",
		register_config->res_bmp_strt_ps, regr(RES_BMP_STRT_PS));

	regw(register_config->rsz_mode, RSZ_MODE);
	dev_dbg(vdce_device, "RSZ_MODE : %x	regr = %x \n",
		register_config->rsz_mode, regr(RSZ_MODE));

	regw(register_config->rsz_h_mag, RSZ_H_MAG);
	dev_dbg(vdce_device, "RSZ_H_MAG :	%x	regr = %x \n",
		register_config->rsz_h_mag, regr(RSZ_H_MAG));

	regw(register_config->rsz_v_mag, RSZ_V_MAG);
	dev_dbg(vdce_device, "RSZ_V_MAG :	%x	regr = %x \n",
		register_config->rsz_v_mag, regr(RSZ_V_MAG));

	regw(register_config->rsz_h_phase, RSZ_H_PHASE);
	dev_dbg(vdce_device, "RSZ_H_PHASE	: %x	regr = %x \n",
		register_config->rsz_h_phase, regr(RSZ_H_PHASE));

	regw(register_config->rsz_v_phase, RSZ_V_PHASE);
	dev_dbg(vdce_device, "RSZ_V_PHASE	: %x	regr = %x \n",
		register_config->rsz_v_phase, regr(RSZ_V_PHASE));

	regw(register_config->rsz_alf_intensity, RSZ_ALF_INTENSITY);
	dev_dbg(vdce_device, "RSZ_ALF_INTENSITY :	%x	regr = %x \n",
		register_config->rsz_alf_intensity, regr(RSZ_ALF_INTENSITY));

	regw(register_config->ccv_mode, CCV_MODE);
	dev_dbg(vdce_device, "CCV_MODE : %x	regr = %x \n",
		register_config->ccv_mode, regr(CCV_MODE));

	regw(register_config->bld_lut[0], BLD_LUT_00);
	dev_dbg(vdce_device, "BLD_LUT_00 : %x	regr = %x \n",
		register_config->bld_lut[0], regr(BLD_LUT_00));

	regw(register_config->bld_lut[1], BLD_LUT_01);
	dev_dbg(vdce_device, "BLD_LUT_01 : %x	regr = %x \n",
		register_config->bld_lut[1], regr(BLD_LUT_01));

	regw(register_config->bld_lut[2], BLD_LUT_02);
	dev_dbg(vdce_device, "BLD_LUT_02 : %x	regr = %x \n",
		register_config->bld_lut[2], regr(BLD_LUT_02));

	regw(register_config->bld_lut[3], BLD_LUT_03);
	dev_dbg(vdce_device, "BLD_LUT_03 : %x	regr = %x \n",
		register_config->bld_lut[3], regr(BLD_LUT_03));

	regw(register_config->rgmp_ctrl, RGMP_CTRL);
	dev_dbg(vdce_device, "RGMP_CTRL :	%x	regr = %x \n",
		register_config->rgmp_ctrl, regr(RGMP_CTRL));

	regw(register_config->epd_luma_width, EPD_LUMA_WIDTH);
	dev_dbg(vdce_device, "EPD_LUMA_WIDTH : %x	regr = %x \n",
		register_config->epd_luma_width, regr(EPD_LUMA_WIDTH));

	regw(register_config->epd_chroma_width, EPD_CHROMA_WIDTH);
	dev_dbg(vdce_device, "EPD_CHROMA_WIDTH : %x	regr = %x \n",
		register_config->epd_chroma_width, regr(EPD_CHROMA_WIDTH));

	/* source addres for luma and chroma */
	regw(register_config->vdce_src_strt_add_ytop, VDCE_SRC_STRT_ADD_YTOP);

	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_YTOP %x	regr = %x\n",
		register_config->vdce_src_strt_add_ytop,
		regr(VDCE_SRC_STRT_ADD_YTOP));

	regw(register_config->vdce_src_strt_add_ctop, VDCE_SRC_STRT_ADD_CTOP);

	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_CTOP %x	regr = %x\n",
		register_config->vdce_src_strt_add_ctop,
		regr(VDCE_SRC_STRT_ADD_CTOP));

	regw(register_config->vdce_src_strt_add_ybot, VDCE_SRC_STRT_ADD_YBOT);

	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_YBOT %x	regr = %x\n",
		register_config->vdce_src_strt_add_ybot,
		regr(VDCE_SRC_STRT_ADD_YBOT));

	regw(register_config->vdce_src_strt_add_cbot, VDCE_SRC_STRT_ADD_CBOT);

	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_CBOT %x	regr = %x\n",
		register_config->vdce_src_strt_add_cbot,
		regr(VDCE_SRC_STRT_ADD_CBOT));

	/* result address for luma and chroma */
	regw(register_config->vdce_res_strt_add_ytop, VDCE_RES_STRT_ADD_YTOP);

	dev_dbg(vdce_device, "VDCE_RES_STRT_ADD_YTOP %x	regr = %x\n",
		register_config->vdce_res_strt_add_ytop,
		regr(VDCE_RES_STRT_ADD_YTOP));

	regw(register_config->vdce_res_strt_add_ctop, VDCE_RES_STRT_ADD_CTOP);
	dev_dbg(vdce_device, "VDCE_RES_STRT_ADD_CTOP %x	regr = %x\n",
		register_config->vdce_res_strt_add_ctop,
		regr(VDCE_RES_STRT_ADD_CTOP));

	regw(register_config->vdce_res_strt_add_ybot, VDCE_RES_STRT_ADD_YBOT);

	dev_dbg(vdce_device, "VDCE_RES_STRT_ADD_YTOP %x	regr = %x\n",
		register_config->vdce_res_strt_add_ybot,
		regr(VDCE_RES_STRT_ADD_YBOT));

	regw(register_config->vdce_res_strt_add_cbot, VDCE_RES_STRT_ADD_CBOT);
	dev_dbg(vdce_device, "VDCE_RES_STRT_ADD_CBOT %x	regr = %x\n",
		register_config->vdce_res_strt_add_cbot,
		regr(VDCE_RES_STRT_ADD_CBOT));

	/* source offset for luma and chroma */
	regw(register_config->vdce_src_add_ofst_ytop, VDCE_SRC_STRT_OFF_YTOP);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_YTOP %x	regr = %x\n",
		register_config->vdce_src_add_ofst_ytop,
		regr(VDCE_SRC_STRT_OFF_YTOP));

	regw(register_config->vdce_src_add_ofst_ctop, VDCE_SRC_STRT_OFF_CTOP);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_CTOP %x	regr = %x\n",
		register_config->vdce_src_add_ofst_ctop,
		regr(VDCE_SRC_STRT_OFF_CTOP));

	regw(register_config->vdce_src_add_ofst_ybot, VDCE_SRC_STRT_OFF_YBOT);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_YBOT %x	regr = %x\n",
		register_config->vdce_src_add_ofst_ybot,
		regr(VDCE_SRC_STRT_OFF_YBOT));

	regw(register_config->vdce_src_add_ofst_cbot, VDCE_SRC_STRT_OFF_CBOT);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_CBOT %x	regr = %x\n",
		register_config->vdce_src_add_ofst_cbot,
		regr(VDCE_SRC_STRT_OFF_CBOT));

	/* result offset for luma and chroma */
	regw(register_config->vdce_res_strt_off_ytop, VDCE_RES_STRT_OFF_YTOP);
	dev_dbg(vdce_device, "VDCE_RES_STRT_OFF_YTOP %x	regr = %x\n",
		register_config->vdce_res_strt_off_ytop,
		regr(VDCE_RES_STRT_OFF_YTOP));

	regw(register_config->vdce_res_strt_off_ctop, VDCE_RES_STRT_OFF_CTOP);
	dev_dbg(vdce_device, "VDCE_RES_STRT_OFF_CTOP %x	regr = %x\n",
		register_config->vdce_res_strt_off_ctop,
		regr(VDCE_RES_STRT_OFF_CTOP));

	regw(register_config->vdce_res_strt_off_ybot, VDCE_RES_STRT_OFF_YBOT);
	dev_dbg(vdce_device, "VDCE_RES_STRT_OFF_YBOT %x	regr = %x\n",
		register_config->vdce_res_strt_off_ybot,
		regr(VDCE_RES_STRT_OFF_YBOT));

	regw(register_config->vdce_res_strt_off_cbot, VDCE_RES_STRT_OFF_CBOT);
	dev_dbg(vdce_device, "VDCE_RES_STRT_OFF_CBOT %x	regr = %x\n",
		register_config->vdce_res_strt_off_cbot,
		regr(VDCE_RES_STRT_OFF_CBOT));

	/* bitmap address and offset for luma and chroma */
	regw(register_config->vdce_src_strt_add_bmp_top,
	     VDCE_SRC_STRT_ADD_BMP_TOP);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_BMP_TOP %x	regr = %x\n",
		register_config->vdce_src_strt_add_bmp_top,
		regr(VDCE_SRC_STRT_ADD_BMP_TOP));

	regw(register_config->vdce_src_strt_add_bmp_bot,
	     VDCE_SRC_STRT_ADD_BMP_BOT);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_ADD_BMP_BOT %x	regr = %x\n",
		register_config->vdce_src_strt_add_bmp_bot,
		regr(VDCE_SRC_STRT_ADD_BMP_BOT));

	regw(register_config->vdce_src_strt_off_bmp_top,
	     VDCE_SRC_STRT_OFF_BMP_TOP);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_BMP_TOP %x	regr = %x\n",
		register_config->vdce_src_strt_off_bmp_top,
		regr(VDCE_SRC_STRT_OFF_BMP_TOP));

	regw(register_config->vdce_src_strt_off_bmp_bot,
	     VDCE_SRC_STRT_OFF_BMP_BOT);

	status = regr(VDCE_STATUS);
	dev_dbg(vdce_device, "VDCE_SRC_STRT_OFF_BMP_BOT %x	regr = %x\n",
		register_config->vdce_src_strt_off_bmp_bot,
		regr(VDCE_SRC_STRT_OFF_BMP_BOT));
	dev_dbg(vdce_device, "vdce_hw_setup L\n");
}
Example #28
0
static void*
dp8390write(Dp8390* ctlr, ulong to, void* from, ulong len)
{
	ulong crda;
	uchar cr;
	int timo, width;

top:
	/*
	 * Write some data to offset 'to' in the card's memory
	 * using the DP8390 remote DMA facility, reading it at
	 * 'from' in main memory, via the I/O data port.
	 */
	cr = regr(ctlr, Cr) & ~Txp;
	regw(ctlr, Cr, Page0|RdABORT|Sta);
	regw(ctlr, Isr, Rdc);

	len = ROUNDUP(len, ctlr->width);

	/*
	 * Set up the remote DMA address and count.
	 * This is straight from the DP8390[12D] datasheet,
	 * hence the initial set up for read.
	 * Assumption here that the A7000 EtherV card will
	 * never need a dummyrr.
	 */
	if(ctlr->dummyrr && (ctlr->width == 1 || ctlr->width == 2)){
		if(ctlr->width == 2)
			width = 1;
		else
			width = 0;
		crda = to-1-width;
		regw(ctlr, Rbcr0, (len+1+width) & 0xFF);
		regw(ctlr, Rbcr1, ((len+1+width)>>8) & 0xFF);
		regw(ctlr, Rsar0, crda & 0xFF);
		regw(ctlr, Rsar1, (crda>>8) & 0xFF);
		regw(ctlr, Cr, Page0|RdREAD|Sta);
	
		for(timo=0;; timo++){
			if(timo > 10000){
				print("ether8390: dummyrr timeout; assuming nodummyrr\n");
				ctlr->dummyrr = 0;
				goto top;
			}
			crda = regr(ctlr, Crda0);
			crda |= regr(ctlr, Crda1)<<8;
			if(crda == to){
				/*
				 * Start the remote DMA write and make sure
				 * the registers are correct.
				 */
				regw(ctlr, Cr, Page0|RdWRITE|Sta);
	
				crda = regr(ctlr, Crda0);
				crda |= regr(ctlr, Crda1)<<8;
				if(crda != to)
					panic("crda write %lud to %lud", crda, to);
	
				break;
			}
		}
	}
	else{
Example #29
0
/*
 * vdce_clear_status : Function to clear the status
 */
inline int vdce_clear_status(void)
{
	regw(1, VDCE_STATUS_CLR);
	return 0;
}
Example #30
0
File: outb.c Project: 8l/inferno
void
main(void)
{
	regw(TxFrame, 0x1234);
}