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- /*
- * ATI Mach64 CT/VT/GT/LT Support
- */
- #include <linux/fb.h>
- #include <linux/delay.h>
- #include <asm/io.h>
- #include <video/mach64.h>
- #include "atyfb.h"
- #ifdef CONFIG_PPC
- #include <asm/machdep.h>
- #endif
- #undef DEBUG
- static int aty_valid_pll_ct (const struct fb_info *info, u32 vclk_per, struct pll_ct *pll);
- static int aty_dsp_gt (const struct fb_info *info, u32 bpp, struct pll_ct *pll);
- static int aty_var_to_pll_ct(const struct fb_info *info, u32 vclk_per, u32 bpp, union aty_pll *pll);
- static u32 aty_pll_to_var_ct(const struct fb_info *info, const union aty_pll *pll);
- u8 aty_ld_pll_ct(int offset, const struct atyfb_par *par)
- {
- u8 res;
- /* write addr byte */
- aty_st_8(CLOCK_CNTL_ADDR, (offset << 2) & PLL_ADDR, par);
- /* read the register value */
- res = aty_ld_8(CLOCK_CNTL_DATA, par);
- return res;
- }
- static void aty_st_pll_ct(int offset, u8 val, const struct atyfb_par *par)
- {
- /* write addr byte */
- aty_st_8(CLOCK_CNTL_ADDR, ((offset << 2) & PLL_ADDR) | PLL_WR_EN, par);
- /* write the register value */
- aty_st_8(CLOCK_CNTL_DATA, val & PLL_DATA, par);
- aty_st_8(CLOCK_CNTL_ADDR, ((offset << 2) & PLL_ADDR) & ~PLL_WR_EN, par);
- }
- /*
- * by Daniel Mantione
- * <daniel.mantione@freepascal.org>
- *
- *
- * ATI Mach64 CT clock synthesis description.
- *
- * All clocks on the Mach64 can be calculated using the same principle:
- *
- * XTALIN * x * FB_DIV
- * CLK = ----------------------
- * PLL_REF_DIV * POST_DIV
- *
- * XTALIN is a fixed speed clock. Common speeds are 14.31 MHz and 29.50 MHz.
- * PLL_REF_DIV can be set by the user, but is the same for all clocks.
- * FB_DIV can be set by the user for each clock individually, it should be set
- * between 128 and 255, the chip will generate a bad clock signal for too low
- * values.
- * x depends on the type of clock; usually it is 2, but for the MCLK it can also
- * be set to 4.
- * POST_DIV can be set by the user for each clock individually, Possible values
- * are 1,2,4,8 and for some clocks other values are available too.
- * CLK is of course the clock speed that is generated.
- *
- * The Mach64 has these clocks:
- *
- * MCLK The clock rate of the chip
- * XCLK The clock rate of the on-chip memory
- * VCLK0 First pixel clock of first CRT controller
- * VCLK1 Second pixel clock of first CRT controller
- * VCLK2 Third pixel clock of first CRT controller
- * VCLK3 Fourth pixel clock of first CRT controller
- * VCLK Selected pixel clock, one of VCLK0, VCLK1, VCLK2, VCLK3
- * V2CLK Pixel clock of the second CRT controller.
- * SCLK Multi-purpose clock
- *
- * - MCLK and XCLK use the same FB_DIV
- * - VCLK0 .. VCLK3 use the same FB_DIV
- * - V2CLK is needed when the second CRTC is used (can be used for dualhead);
- * i.e. CRT monitor connected to laptop has different resolution than built
- * in LCD monitor.
- * - SCLK is not available on all cards; it is know to exist on the Rage LT-PRO,
- * Rage XL and Rage Mobility. It is know not to exist on the Mach64 VT.
- * - V2CLK is not available on all cards, most likely only the Rage LT-PRO,
- * the Rage XL and the Rage Mobility
- *
- * SCLK can be used to:
- * - Clock the chip instead of MCLK
- * - Replace XTALIN with a user defined frequency
- * - Generate the pixel clock for the LCD monitor (instead of VCLK)
- */
- /*
- * It can be quite hard to calculate XCLK and MCLK if they don't run at the
- * same frequency. Luckily, until now all cards that need asynchrone clock
- * speeds seem to have SCLK.
- * So this driver uses SCLK to clock the chip and XCLK to clock the memory.
- */
- /* ------------------------------------------------------------------------- */
- /*
- * PLL programming (Mach64 CT family)
- *
- *
- * This procedure sets the display fifo. The display fifo is a buffer that
- * contains data read from the video memory that waits to be processed by
- * the CRT controller.
- *
- * On the more modern Mach64 variants, the chip doesn't calculate the
- * interval after which the display fifo has to be reloaded from memory
- * automatically, the driver has to do it instead.
- */
- #define Maximum_DSP_PRECISION 7
- static u8 postdividers[] = {1,2,4,8,3};
- static int aty_dsp_gt(const struct fb_info *info, u32 bpp, struct pll_ct *pll)
- {
- u32 dsp_off, dsp_on, dsp_xclks;
- u32 multiplier, divider, ras_multiplier, ras_divider, tmp;
- u8 vshift, xshift;
- s8 dsp_precision;
- multiplier = ((u32)pll->mclk_fb_div) * pll->vclk_post_div_real;
- divider = ((u32)pll->vclk_fb_div) * pll->xclk_ref_div;
- ras_multiplier = pll->xclkmaxrasdelay;
- ras_divider = 1;
- if (bpp>=8)
- divider = divider * (bpp >> 2);
- vshift = (6 - 2) - pll->xclk_post_div; /* FIFO is 64 bits wide in accelerator mode ... */
- if (bpp == 0)
- vshift--; /* ... but only 32 bits in VGA mode. */
- #ifdef CONFIG_FB_ATY_GENERIC_LCD
- if (pll->xres != 0) {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- multiplier = multiplier * par->lcd_width;
- divider = divider * pll->xres & ~7;
- ras_multiplier = ras_multiplier * par->lcd_width;
- ras_divider = ras_divider * pll->xres & ~7;
- }
- #endif
- /* If we don't do this, 32 bits for multiplier & divider won't be
- enough in certain situations! */
- while (((multiplier | divider) & 1) == 0) {
- multiplier = multiplier >> 1;
- divider = divider >> 1;
- }
- /* Determine DSP precision first */
- tmp = ((multiplier * pll->fifo_size) << vshift) / divider;
- for (dsp_precision = -5; tmp; dsp_precision++)
- tmp >>= 1;
- if (dsp_precision < 0)
- dsp_precision = 0;
- else if (dsp_precision > Maximum_DSP_PRECISION)
- dsp_precision = Maximum_DSP_PRECISION;
- xshift = 6 - dsp_precision;
- vshift += xshift;
- /* Move on to dsp_off */
- dsp_off = ((multiplier * (pll->fifo_size - 1)) << vshift) / divider -
- (1 << (vshift - xshift));
- /* if (bpp == 0)
- dsp_on = ((multiplier * 20 << vshift) + divider) / divider;
- else */
- {
- dsp_on = ((multiplier << vshift) + divider) / divider;
- tmp = ((ras_multiplier << xshift) + ras_divider) / ras_divider;
- if (dsp_on < tmp)
- dsp_on = tmp;
- dsp_on = dsp_on + (tmp * 2) + (pll->xclkpagefaultdelay << xshift);
- }
- /* Calculate rounding factor and apply it to dsp_on */
- tmp = ((1 << (Maximum_DSP_PRECISION - dsp_precision)) - 1) >> 1;
- dsp_on = ((dsp_on + tmp) / (tmp + 1)) * (tmp + 1);
- if (dsp_on >= ((dsp_off / (tmp + 1)) * (tmp + 1))) {
- dsp_on = dsp_off - (multiplier << vshift) / divider;
- dsp_on = (dsp_on / (tmp + 1)) * (tmp + 1);
- }
- /* Last but not least: dsp_xclks */
- dsp_xclks = ((multiplier << (vshift + 5)) + divider) / divider;
- /* Get register values. */
- pll->dsp_on_off = (dsp_on << 16) + dsp_off;
- pll->dsp_config = (dsp_precision << 20) | (pll->dsp_loop_latency << 16) | dsp_xclks;
- #ifdef DEBUG
- printk("atyfb(%s): dsp_config 0x%08x, dsp_on_off 0x%08x\n",
- __func__, pll->dsp_config, pll->dsp_on_off);
- #endif
- return 0;
- }
- static int aty_valid_pll_ct(const struct fb_info *info, u32 vclk_per, struct pll_ct *pll)
- {
- u32 q;
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- int pllvclk;
- /* FIXME: use the VTB/GTB /{3,6,12} post dividers if they're better suited */
- q = par->ref_clk_per * pll->pll_ref_div * 4 / vclk_per;
- if (q < 16*8 || q > 255*8) {
- printk(KERN_CRIT "atyfb: vclk out of range\n");
- return -EINVAL;
- } else {
- pll->vclk_post_div = (q < 128*8);
- pll->vclk_post_div += (q < 64*8);
- pll->vclk_post_div += (q < 32*8);
- }
- pll->vclk_post_div_real = postdividers[pll->vclk_post_div];
- // pll->vclk_post_div <<= 6;
- pll->vclk_fb_div = q * pll->vclk_post_div_real / 8;
- pllvclk = (1000000 * 2 * pll->vclk_fb_div) /
- (par->ref_clk_per * pll->pll_ref_div);
- #ifdef DEBUG
- printk("atyfb(%s): pllvclk=%d MHz, vclk=%d MHz\n",
- __func__, pllvclk, pllvclk / pll->vclk_post_div_real);
- #endif
- pll->pll_vclk_cntl = 0x03; /* VCLK = PLL_VCLK/VCLKx_POST */
- /* Set ECP (scaler/overlay clock) divider */
- if (par->pll_limits.ecp_max) {
- int ecp = pllvclk / pll->vclk_post_div_real;
- int ecp_div = 0;
- while (ecp > par->pll_limits.ecp_max && ecp_div < 2) {
- ecp >>= 1;
- ecp_div++;
- }
- pll->pll_vclk_cntl |= ecp_div << 4;
- }
- return 0;
- }
- static int aty_var_to_pll_ct(const struct fb_info *info, u32 vclk_per, u32 bpp, union aty_pll *pll)
- {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- int err;
- if ((err = aty_valid_pll_ct(info, vclk_per, &pll->ct)))
- return err;
- if (M64_HAS(GTB_DSP) && (err = aty_dsp_gt(info, bpp, &pll->ct)))
- return err;
- /*aty_calc_pll_ct(info, &pll->ct);*/
- return 0;
- }
- static u32 aty_pll_to_var_ct(const struct fb_info *info, const union aty_pll *pll)
- {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- u32 ret;
- ret = par->ref_clk_per * pll->ct.pll_ref_div * pll->ct.vclk_post_div_real / pll->ct.vclk_fb_div / 2;
- #ifdef CONFIG_FB_ATY_GENERIC_LCD
- if(pll->ct.xres > 0) {
- ret *= par->lcd_width;
- ret /= pll->ct.xres;
- }
- #endif
- #ifdef DEBUG
- printk("atyfb(%s): calculated 0x%08X(%i)\n", __func__, ret, ret);
- #endif
- return ret;
- }
- void aty_set_pll_ct(const struct fb_info *info, const union aty_pll *pll)
- {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- u32 crtc_gen_cntl, lcd_gen_cntrl;
- u8 tmp, tmp2;
- lcd_gen_cntrl = 0;
- #ifdef DEBUG
- printk("atyfb(%s): about to program:\n"
- "pll_ext_cntl=0x%02x pll_gen_cntl=0x%02x pll_vclk_cntl=0x%02x\n",
- __func__,
- pll->ct.pll_ext_cntl, pll->ct.pll_gen_cntl, pll->ct.pll_vclk_cntl);
- printk("atyfb(%s): setting clock %lu for FeedBackDivider %i, ReferenceDivider %i, PostDivider %i(%i)\n",
- __func__,
- par->clk_wr_offset, pll->ct.vclk_fb_div,
- pll->ct.pll_ref_div, pll->ct.vclk_post_div, pll->ct.vclk_post_div_real);
- #endif
- #ifdef CONFIG_FB_ATY_GENERIC_LCD
- if (par->lcd_table != 0) {
- /* turn off LCD */
- lcd_gen_cntrl = aty_ld_lcd(LCD_GEN_CNTL, par);
- aty_st_lcd(LCD_GEN_CNTL, lcd_gen_cntrl & ~LCD_ON, par);
- }
- #endif
- aty_st_8(CLOCK_CNTL, par->clk_wr_offset | CLOCK_STROBE, par);
- /* Temporarily switch to accelerator mode */
- crtc_gen_cntl = aty_ld_le32(CRTC_GEN_CNTL, par);
- if (!(crtc_gen_cntl & CRTC_EXT_DISP_EN))
- aty_st_le32(CRTC_GEN_CNTL, crtc_gen_cntl | CRTC_EXT_DISP_EN, par);
- /* Reset VCLK generator */
- aty_st_pll_ct(PLL_VCLK_CNTL, pll->ct.pll_vclk_cntl, par);
- /* Set post-divider */
- tmp2 = par->clk_wr_offset << 1;
- tmp = aty_ld_pll_ct(VCLK_POST_DIV, par);
- tmp &= ~(0x03U << tmp2);
- tmp |= ((pll->ct.vclk_post_div & 0x03U) << tmp2);
- aty_st_pll_ct(VCLK_POST_DIV, tmp, par);
- /* Set extended post-divider */
- tmp = aty_ld_pll_ct(PLL_EXT_CNTL, par);
- tmp &= ~(0x10U << par->clk_wr_offset);
- tmp &= 0xF0U;
- tmp |= pll->ct.pll_ext_cntl;
- aty_st_pll_ct(PLL_EXT_CNTL, tmp, par);
- /* Set feedback divider */
- tmp = VCLK0_FB_DIV + par->clk_wr_offset;
- aty_st_pll_ct(tmp, (pll->ct.vclk_fb_div & 0xFFU), par);
- aty_st_pll_ct(PLL_GEN_CNTL, (pll->ct.pll_gen_cntl & (~(PLL_OVERRIDE | PLL_MCLK_RST))) | OSC_EN, par);
- /* End VCLK generator reset */
- aty_st_pll_ct(PLL_VCLK_CNTL, pll->ct.pll_vclk_cntl & ~(PLL_VCLK_RST), par);
- mdelay(5);
- aty_st_pll_ct(PLL_GEN_CNTL, pll->ct.pll_gen_cntl, par);
- aty_st_pll_ct(PLL_VCLK_CNTL, pll->ct.pll_vclk_cntl, par);
- mdelay(1);
- /* Restore mode register */
- if (!(crtc_gen_cntl & CRTC_EXT_DISP_EN))
- aty_st_le32(CRTC_GEN_CNTL, crtc_gen_cntl, par);
- if (M64_HAS(GTB_DSP)) {
- u8 dll_cntl;
- if (M64_HAS(XL_DLL))
- dll_cntl = 0x80;
- else if (par->ram_type >= SDRAM)
- dll_cntl = 0xa6;
- else
- dll_cntl = 0xa0;
- aty_st_pll_ct(DLL_CNTL, dll_cntl, par);
- aty_st_pll_ct(VFC_CNTL, 0x1b, par);
- aty_st_le32(DSP_CONFIG, pll->ct.dsp_config, par);
- aty_st_le32(DSP_ON_OFF, pll->ct.dsp_on_off, par);
- mdelay(10);
- aty_st_pll_ct(DLL_CNTL, dll_cntl, par);
- mdelay(10);
- aty_st_pll_ct(DLL_CNTL, dll_cntl | 0x40, par);
- mdelay(10);
- aty_st_pll_ct(DLL_CNTL, dll_cntl & ~0x40, par);
- }
- #ifdef CONFIG_FB_ATY_GENERIC_LCD
- if (par->lcd_table != 0) {
- /* restore LCD */
- aty_st_lcd(LCD_GEN_CNTL, lcd_gen_cntrl, par);
- }
- #endif
- }
- static void __devinit aty_get_pll_ct(const struct fb_info *info,
- union aty_pll *pll)
- {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- u8 tmp, clock;
- clock = aty_ld_8(CLOCK_CNTL, par) & 0x03U;
- tmp = clock << 1;
- pll->ct.vclk_post_div = (aty_ld_pll_ct(VCLK_POST_DIV, par) >> tmp) & 0x03U;
- pll->ct.pll_ext_cntl = aty_ld_pll_ct(PLL_EXT_CNTL, par) & 0x0FU;
- pll->ct.vclk_fb_div = aty_ld_pll_ct(VCLK0_FB_DIV + clock, par) & 0xFFU;
- pll->ct.pll_ref_div = aty_ld_pll_ct(PLL_REF_DIV, par);
- pll->ct.mclk_fb_div = aty_ld_pll_ct(MCLK_FB_DIV, par);
- pll->ct.pll_gen_cntl = aty_ld_pll_ct(PLL_GEN_CNTL, par);
- pll->ct.pll_vclk_cntl = aty_ld_pll_ct(PLL_VCLK_CNTL, par);
- if (M64_HAS(GTB_DSP)) {
- pll->ct.dsp_config = aty_ld_le32(DSP_CONFIG, par);
- pll->ct.dsp_on_off = aty_ld_le32(DSP_ON_OFF, par);
- }
- }
- static int __devinit aty_init_pll_ct(const struct fb_info *info,
- union aty_pll *pll)
- {
- struct atyfb_par *par = (struct atyfb_par *) info->par;
- u8 mpost_div, xpost_div, sclk_post_div_real;
- u32 q, memcntl, trp;
- u32 dsp_config, dsp_on_off, vga_dsp_config, vga_dsp_on_off;
- #ifdef DEBUG
- int pllmclk, pllsclk;
- #endif
- pll->ct.pll_ext_cntl = aty_ld_pll_ct(PLL_EXT_CNTL, par);
- pll->ct.xclk_post_div = pll->ct.pll_ext_cntl & 0x07;
- pll->ct.xclk_ref_div = 1;
- switch (pll->ct.xclk_post_div) {
- case 0: case 1: case 2: case 3:
- break;
- case 4:
- pll->ct.xclk_ref_div = 3;
- pll->ct.xclk_post_div = 0;
- break;
- default:
- printk(KERN_CRIT "atyfb: Unsupported xclk source: %d.\n", pll->ct.xclk_post_div);
- return -EINVAL;
- }
- pll->ct.mclk_fb_mult = 2;
- if(pll->ct.pll_ext_cntl & PLL_MFB_TIMES_4_2B) {
- pll->ct.mclk_fb_mult = 4;
- pll->ct.xclk_post_div -= 1;
- }
- #ifdef DEBUG
- printk("atyfb(%s): mclk_fb_mult=%d, xclk_post_div=%d\n",
- __func__, pll->ct.mclk_fb_mult, pll->ct.xclk_post_div);
- #endif
- memcntl = aty_ld_le32(MEM_CNTL, par);
- trp = (memcntl & 0x300) >> 8;
- pll->ct.xclkpagefaultdelay = ((memcntl & 0xc00) >> 10) + ((memcntl & 0x1000) >> 12) + trp + 2;
- pll->ct.xclkmaxrasdelay = ((memcntl & 0x70000) >> 16) + trp + 2;
- if (M64_HAS(FIFO_32)) {
- pll->ct.fifo_size = 32;
- } else {
- pll->ct.fifo_size = 24;
- pll->ct.xclkpagefaultdelay += 2;
- pll->ct.xclkmaxrasdelay += 3;
- }
- switch (par->ram_type) {
- case DRAM:
- if (info->fix.smem_len<=ONE_MB) {
- pll->ct.dsp_loop_latency = 10;
- } else {
- pll->ct.dsp_loop_latency = 8;
- pll->ct.xclkpagefaultdelay += 2;
- }
- break;
- case EDO:
- case PSEUDO_EDO:
- if (info->fix.smem_len<=ONE_MB) {
- pll->ct.dsp_loop_latency = 9;
- } else {
- pll->ct.dsp_loop_latency = 8;
- pll->ct.xclkpagefaultdelay += 1;
- }
- break;
- case SDRAM:
- if (info->fix.smem_len<=ONE_MB) {
- pll->ct.dsp_loop_latency = 11;
- } else {
- pll->ct.dsp_loop_latency = 10;
- pll->ct.xclkpagefaultdelay += 1;
- }
- break;
- case SGRAM:
- pll->ct.dsp_loop_latency = 8;
- pll->ct.xclkpagefaultdelay += 3;
- break;
- default:
- pll->ct.dsp_loop_latency = 11;
- pll->ct.xclkpagefaultdelay += 3;
- break;
- }
- if (pll->ct.xclkmaxrasdelay <= pll->ct.xclkpagefaultdelay)
- pll->ct.xclkmaxrasdelay = pll->ct.xclkpagefaultdelay + 1;
- /* Allow BIOS to override */
- dsp_config = aty_ld_le32(DSP_CONFIG, par);
- dsp_on_off = aty_ld_le32(DSP_ON_OFF, par);
- vga_dsp_config = aty_ld_le32(VGA_DSP_CONFIG, par);
- vga_dsp_on_off = aty_ld_le32(VGA_DSP_ON_OFF, par);
- if (dsp_config)
- pll->ct.dsp_loop_latency = (dsp_config & DSP_LOOP_LATENCY) >> 16;
- #if 0
- FIXME: is it relevant for us?
- if ((!dsp_on_off && !M64_HAS(RESET_3D)) ||
- ((dsp_on_off == vga_dsp_on_off) &&
- (!dsp_config || !((dsp_config ^ vga_dsp_config) & DSP_XCLKS_PER_QW)))) {
- vga_dsp_on_off &= VGA_DSP_OFF;
- vga_dsp_config &= VGA_DSP_XCLKS_PER_QW;
- if (ATIDivide(vga_dsp_on_off, vga_dsp_config, 5, 1) > 24)
- pll->ct.fifo_size = 32;
- else
- pll->ct.fifo_size = 24;
- }
- #endif
- /* Exit if the user does not want us to tamper with the clock
- rates of her chip. */
- if (par->mclk_per == 0) {
- u8 mclk_fb_div, pll_ext_cntl;
- pll->ct.pll_ref_div = aty_ld_pll_ct(PLL_REF_DIV, par);
- pll_ext_cntl = aty_ld_pll_ct(PLL_EXT_CNTL, par);
- pll->ct.xclk_post_div_real = postdividers[pll_ext_cntl & 0x07];
- mclk_fb_div = aty_ld_pll_ct(MCLK_FB_DIV, par);
- if (pll_ext_cntl & PLL_MFB_TIMES_4_2B)
- mclk_fb_div <<= 1;
- pll->ct.mclk_fb_div = mclk_fb_div;
- return 0;
- }
- pll->ct.pll_ref_div = par->pll_per * 2 * 255 / par->ref_clk_per;
- /* FIXME: use the VTB/GTB /3 post divider if it's better suited */
- q = par->ref_clk_per * pll->ct.pll_ref_div * 8 /
- (pll->ct.mclk_fb_mult * par->xclk_per);
- if (q < 16*8 || q > 255*8) {
- printk(KERN_CRIT "atxfb: xclk out of range\n");
- return -EINVAL;
- } else {
- xpost_div = (q < 128*8);
- xpost_div += (q < 64*8);
- xpost_div += (q < 32*8);
- }
- pll->ct.xclk_post_div_real = postdividers[xpost_div];
- pll->ct.mclk_fb_div = q * pll->ct.xclk_post_div_real / 8;
- #ifdef CONFIG_PPC
- if (machine_is(powermac)) {
- /* Override PLL_EXT_CNTL & 0x07. */
- pll->ct.xclk_post_div = xpost_div;
- pll->ct.xclk_ref_div = 1;
- }
- #endif
- #ifdef DEBUG
- pllmclk = (1000000 * pll->ct.mclk_fb_mult * pll->ct.mclk_fb_div) /
- (par->ref_clk_per * pll->ct.pll_ref_div);
- printk("atyfb(%s): pllmclk=%d MHz, xclk=%d MHz\n",
- __func__, pllmclk, pllmclk / pll->ct.xclk_post_div_real);
- #endif
- if (M64_HAS(SDRAM_MAGIC_PLL) && (par->ram_type >= SDRAM))
- pll->ct.pll_gen_cntl = OSC_EN;
- else
- pll->ct.pll_gen_cntl = OSC_EN | DLL_PWDN /* | FORCE_DCLK_TRI_STATE */;
- if (M64_HAS(MAGIC_POSTDIV))
- pll->ct.pll_ext_cntl = 0;
- else
- pll->ct.pll_ext_cntl = xpost_div;
- if (pll->ct.mclk_fb_mult == 4)
- pll->ct.pll_ext_cntl |= PLL_MFB_TIMES_4_2B;
- if (par->mclk_per == par->xclk_per) {
- pll->ct.pll_gen_cntl |= (xpost_div << 4); /* mclk == xclk */
- } else {
- /*
- * The chip clock is not equal to the memory clock.
- * Therefore we will use sclk to clock the chip.
- */
- pll->ct.pll_gen_cntl |= (6 << 4); /* mclk == sclk */
- q = par->ref_clk_per * pll->ct.pll_ref_div * 4 / par->mclk_per;
- if (q < 16*8 || q > 255*8) {
- printk(KERN_CRIT "atyfb: mclk out of range\n");
- return -EINVAL;
- } else {
- mpost_div = (q < 128*8);
- mpost_div += (q < 64*8);
- mpost_div += (q < 32*8);
- }
- sclk_post_div_real = postdividers[mpost_div];
- pll->ct.sclk_fb_div = q * sclk_post_div_real / 8;
- pll->ct.spll_cntl2 = mpost_div << 4;
- #ifdef DEBUG
- pllsclk = (1000000 * 2 * pll->ct.sclk_fb_div) /
- (par->ref_clk_per * pll->ct.pll_ref_div);
- printk("atyfb(%s): use sclk, pllsclk=%d MHz, sclk=mclk=%d MHz\n",
- __func__, pllsclk, pllsclk / sclk_post_div_real);
- #endif
- }
- /* Disable the extra precision pixel clock controls since we do not use them. */
- pll->ct.ext_vpll_cntl = aty_ld_pll_ct(EXT_VPLL_CNTL, par);
- pll->ct.ext_vpll_cntl &= ~(EXT_VPLL_EN | EXT_VPLL_VGA_EN | EXT_VPLL_INSYNC);
- return 0;
- }
- static void aty_resume_pll_ct(const struct fb_info *info,
- union aty_pll *pll)
- {
- struct atyfb_par *par = info->par;
- if (par->mclk_per != par->xclk_per) {
- /*
- * This disables the sclk, crashes the computer as reported:
- * aty_st_pll_ct(SPLL_CNTL2, 3, info);
- *
- * So it seems the sclk must be enabled before it is used;
- * so PLL_GEN_CNTL must be programmed *after* the sclk.
- */
- aty_st_pll_ct(SCLK_FB_DIV, pll->ct.sclk_fb_div, par);
- aty_st_pll_ct(SPLL_CNTL2, pll->ct.spll_cntl2, par);
- /*
- * SCLK has been started. Wait for the PLL to lock. 5 ms
- * should be enough according to mach64 programmer's guide.
- */
- mdelay(5);
- }
- aty_st_pll_ct(PLL_REF_DIV, pll->ct.pll_ref_div, par);
- aty_st_pll_ct(PLL_GEN_CNTL, pll->ct.pll_gen_cntl, par);
- aty_st_pll_ct(MCLK_FB_DIV, pll->ct.mclk_fb_div, par);
- aty_st_pll_ct(PLL_EXT_CNTL, pll->ct.pll_ext_cntl, par);
- aty_st_pll_ct(EXT_VPLL_CNTL, pll->ct.ext_vpll_cntl, par);
- }
- static int dummy(void)
- {
- return 0;
- }
- const struct aty_dac_ops aty_dac_ct = {
- .set_dac = (void *) dummy,
- };
- const struct aty_pll_ops aty_pll_ct = {
- .var_to_pll = aty_var_to_pll_ct,
- .pll_to_var = aty_pll_to_var_ct,
- .set_pll = aty_set_pll_ct,
- .get_pll = aty_get_pll_ct,
- .init_pll = aty_init_pll_ct,
- .resume_pll = aty_resume_pll_ct,
- };
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