intel_display.c 59.2 KB
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/*
 * Copyright © 2006-2007 Intel Corporation
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice (including the next
 * paragraph) shall be included in all copies or substantial portions of the
 * Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 *
 * Authors:
 *	Eric Anholt <eric@anholt.net>
 */

#include <linux/i2c.h>
#include "drmP.h"
#include "intel_drv.h"
#include "i915_drm.h"
#include "i915_drv.h"

#include "drm_crtc_helper.h"

bool intel_pipe_has_type (struct drm_crtc *crtc, int type);

typedef struct {
    /* given values */
    int n;
    int m1, m2;
    int p1, p2;
    /* derived values */
    int	dot;
    int	vco;
    int	m;
    int	p;
} intel_clock_t;

typedef struct {
    int	min, max;
} intel_range_t;

typedef struct {
    int	dot_limit;
    int	p2_slow, p2_fast;
} intel_p2_t;

#define INTEL_P2_NUM		      2
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typedef struct intel_limit intel_limit_t;
struct intel_limit {
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    intel_range_t   dot, vco, n, m, m1, m2, p, p1;
    intel_p2_t	    p2;
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    bool (* find_pll)(const intel_limit_t *, struct drm_crtc *,
		      int, int, intel_clock_t *);
};
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#define I8XX_DOT_MIN		  25000
#define I8XX_DOT_MAX		 350000
#define I8XX_VCO_MIN		 930000
#define I8XX_VCO_MAX		1400000
#define I8XX_N_MIN		      3
#define I8XX_N_MAX		     16
#define I8XX_M_MIN		     96
#define I8XX_M_MAX		    140
#define I8XX_M1_MIN		     18
#define I8XX_M1_MAX		     26
#define I8XX_M2_MIN		      6
#define I8XX_M2_MAX		     16
#define I8XX_P_MIN		      4
#define I8XX_P_MAX		    128
#define I8XX_P1_MIN		      2
#define I8XX_P1_MAX		     33
#define I8XX_P1_LVDS_MIN	      1
#define I8XX_P1_LVDS_MAX	      6
#define I8XX_P2_SLOW		      4
#define I8XX_P2_FAST		      2
#define I8XX_P2_LVDS_SLOW	      14
#define I8XX_P2_LVDS_FAST	      14 /* No fast option */
#define I8XX_P2_SLOW_LIMIT	 165000

#define I9XX_DOT_MIN		  20000
#define I9XX_DOT_MAX		 400000
#define I9XX_VCO_MIN		1400000
#define I9XX_VCO_MAX		2800000
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#define IGD_VCO_MIN		1700000
#define IGD_VCO_MAX		3500000
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#define I9XX_N_MIN		      1
#define I9XX_N_MAX		      6
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/* IGD's Ncounter is a ring counter */
#define IGD_N_MIN		      3
#define IGD_N_MAX		      6
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#define I9XX_M_MIN		     70
#define I9XX_M_MAX		    120
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#define IGD_M_MIN		      2
#define IGD_M_MAX		    256
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#define I9XX_M1_MIN		     10
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#define I9XX_M1_MAX		     22
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#define I9XX_M2_MIN		      5
#define I9XX_M2_MAX		      9
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/* IGD M1 is reserved, and must be 0 */
#define IGD_M1_MIN		      0
#define IGD_M1_MAX		      0
#define IGD_M2_MIN		      0
#define IGD_M2_MAX		      254
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#define I9XX_P_SDVO_DAC_MIN	      5
#define I9XX_P_SDVO_DAC_MAX	     80
#define I9XX_P_LVDS_MIN		      7
#define I9XX_P_LVDS_MAX		     98
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#define IGD_P_LVDS_MIN		      7
#define IGD_P_LVDS_MAX		     112
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#define I9XX_P1_MIN		      1
#define I9XX_P1_MAX		      8
#define I9XX_P2_SDVO_DAC_SLOW		     10
#define I9XX_P2_SDVO_DAC_FAST		      5
#define I9XX_P2_SDVO_DAC_SLOW_LIMIT	 200000
#define I9XX_P2_LVDS_SLOW		     14
#define I9XX_P2_LVDS_FAST		      7
#define I9XX_P2_LVDS_SLOW_LIMIT		 112000

#define INTEL_LIMIT_I8XX_DVO_DAC    0
#define INTEL_LIMIT_I8XX_LVDS	    1
#define INTEL_LIMIT_I9XX_SDVO_DAC   2
#define INTEL_LIMIT_I9XX_LVDS	    3
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#define INTEL_LIMIT_G4X_SDVO	    4
#define INTEL_LIMIT_G4X_HDMI_DAC   5
#define INTEL_LIMIT_G4X_SINGLE_CHANNEL_LVDS   6
#define INTEL_LIMIT_G4X_DUAL_CHANNEL_LVDS   7
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#define INTEL_LIMIT_IGD_SDVO_DAC    8
#define INTEL_LIMIT_IGD_LVDS	    9
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/*The parameter is for SDVO on G4x platform*/
#define G4X_DOT_SDVO_MIN           25000
#define G4X_DOT_SDVO_MAX           270000
#define G4X_VCO_MIN                1750000
#define G4X_VCO_MAX                3500000
#define G4X_N_SDVO_MIN             1
#define G4X_N_SDVO_MAX             4
#define G4X_M_SDVO_MIN             104
#define G4X_M_SDVO_MAX             138
#define G4X_M1_SDVO_MIN            17
#define G4X_M1_SDVO_MAX            23
#define G4X_M2_SDVO_MIN            5
#define G4X_M2_SDVO_MAX            11
#define G4X_P_SDVO_MIN             10
#define G4X_P_SDVO_MAX             30
#define G4X_P1_SDVO_MIN            1
#define G4X_P1_SDVO_MAX            3
#define G4X_P2_SDVO_SLOW           10
#define G4X_P2_SDVO_FAST           10
#define G4X_P2_SDVO_LIMIT          270000

/*The parameter is for HDMI_DAC on G4x platform*/
#define G4X_DOT_HDMI_DAC_MIN           22000
#define G4X_DOT_HDMI_DAC_MAX           400000
#define G4X_N_HDMI_DAC_MIN             1
#define G4X_N_HDMI_DAC_MAX             4
#define G4X_M_HDMI_DAC_MIN             104
#define G4X_M_HDMI_DAC_MAX             138
#define G4X_M1_HDMI_DAC_MIN            16
#define G4X_M1_HDMI_DAC_MAX            23
#define G4X_M2_HDMI_DAC_MIN            5
#define G4X_M2_HDMI_DAC_MAX            11
#define G4X_P_HDMI_DAC_MIN             5
#define G4X_P_HDMI_DAC_MAX             80
#define G4X_P1_HDMI_DAC_MIN            1
#define G4X_P1_HDMI_DAC_MAX            8
#define G4X_P2_HDMI_DAC_SLOW           10
#define G4X_P2_HDMI_DAC_FAST           5
#define G4X_P2_HDMI_DAC_LIMIT          165000

/*The parameter is for SINGLE_CHANNEL_LVDS on G4x platform*/
#define G4X_DOT_SINGLE_CHANNEL_LVDS_MIN           20000
#define G4X_DOT_SINGLE_CHANNEL_LVDS_MAX           115000
#define G4X_N_SINGLE_CHANNEL_LVDS_MIN             1
#define G4X_N_SINGLE_CHANNEL_LVDS_MAX             3
#define G4X_M_SINGLE_CHANNEL_LVDS_MIN             104
#define G4X_M_SINGLE_CHANNEL_LVDS_MAX             138
#define G4X_M1_SINGLE_CHANNEL_LVDS_MIN            17
#define G4X_M1_SINGLE_CHANNEL_LVDS_MAX            23
#define G4X_M2_SINGLE_CHANNEL_LVDS_MIN            5
#define G4X_M2_SINGLE_CHANNEL_LVDS_MAX            11
#define G4X_P_SINGLE_CHANNEL_LVDS_MIN             28
#define G4X_P_SINGLE_CHANNEL_LVDS_MAX             112
#define G4X_P1_SINGLE_CHANNEL_LVDS_MIN            2
#define G4X_P1_SINGLE_CHANNEL_LVDS_MAX            8
#define G4X_P2_SINGLE_CHANNEL_LVDS_SLOW           14
#define G4X_P2_SINGLE_CHANNEL_LVDS_FAST           14
#define G4X_P2_SINGLE_CHANNEL_LVDS_LIMIT          0

/*The parameter is for DUAL_CHANNEL_LVDS on G4x platform*/
#define G4X_DOT_DUAL_CHANNEL_LVDS_MIN           80000
#define G4X_DOT_DUAL_CHANNEL_LVDS_MAX           224000
#define G4X_N_DUAL_CHANNEL_LVDS_MIN             1
#define G4X_N_DUAL_CHANNEL_LVDS_MAX             3
#define G4X_M_DUAL_CHANNEL_LVDS_MIN             104
#define G4X_M_DUAL_CHANNEL_LVDS_MAX             138
#define G4X_M1_DUAL_CHANNEL_LVDS_MIN            17
#define G4X_M1_DUAL_CHANNEL_LVDS_MAX            23
#define G4X_M2_DUAL_CHANNEL_LVDS_MIN            5
#define G4X_M2_DUAL_CHANNEL_LVDS_MAX            11
#define G4X_P_DUAL_CHANNEL_LVDS_MIN             14
#define G4X_P_DUAL_CHANNEL_LVDS_MAX             42
#define G4X_P1_DUAL_CHANNEL_LVDS_MIN            2
#define G4X_P1_DUAL_CHANNEL_LVDS_MAX            6
#define G4X_P2_DUAL_CHANNEL_LVDS_SLOW           7
#define G4X_P2_DUAL_CHANNEL_LVDS_FAST           7
#define G4X_P2_DUAL_CHANNEL_LVDS_LIMIT          0

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static bool
intel_find_best_PLL(const intel_limit_t *limit, struct drm_crtc *crtc,
		    int target, int refclk, intel_clock_t *best_clock);
static bool
intel_g4x_find_best_PLL(const intel_limit_t *limit, struct drm_crtc *crtc,
			int target, int refclk, intel_clock_t *best_clock);
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static const intel_limit_t intel_limits[] = {
    { /* INTEL_LIMIT_I8XX_DVO_DAC */
        .dot = { .min = I8XX_DOT_MIN,		.max = I8XX_DOT_MAX },
        .vco = { .min = I8XX_VCO_MIN,		.max = I8XX_VCO_MAX },
        .n   = { .min = I8XX_N_MIN,		.max = I8XX_N_MAX },
        .m   = { .min = I8XX_M_MIN,		.max = I8XX_M_MAX },
        .m1  = { .min = I8XX_M1_MIN,		.max = I8XX_M1_MAX },
        .m2  = { .min = I8XX_M2_MIN,		.max = I8XX_M2_MAX },
        .p   = { .min = I8XX_P_MIN,		.max = I8XX_P_MAX },
        .p1  = { .min = I8XX_P1_MIN,		.max = I8XX_P1_MAX },
	.p2  = { .dot_limit = I8XX_P2_SLOW_LIMIT,
		 .p2_slow = I8XX_P2_SLOW,	.p2_fast = I8XX_P2_FAST },
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	.find_pll = intel_find_best_PLL,
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    },
    { /* INTEL_LIMIT_I8XX_LVDS */
        .dot = { .min = I8XX_DOT_MIN,		.max = I8XX_DOT_MAX },
        .vco = { .min = I8XX_VCO_MIN,		.max = I8XX_VCO_MAX },
        .n   = { .min = I8XX_N_MIN,		.max = I8XX_N_MAX },
        .m   = { .min = I8XX_M_MIN,		.max = I8XX_M_MAX },
        .m1  = { .min = I8XX_M1_MIN,		.max = I8XX_M1_MAX },
        .m2  = { .min = I8XX_M2_MIN,		.max = I8XX_M2_MAX },
        .p   = { .min = I8XX_P_MIN,		.max = I8XX_P_MAX },
        .p1  = { .min = I8XX_P1_LVDS_MIN,	.max = I8XX_P1_LVDS_MAX },
	.p2  = { .dot_limit = I8XX_P2_SLOW_LIMIT,
		 .p2_slow = I8XX_P2_LVDS_SLOW,	.p2_fast = I8XX_P2_LVDS_FAST },
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	.find_pll = intel_find_best_PLL,
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    },
    { /* INTEL_LIMIT_I9XX_SDVO_DAC */
        .dot = { .min = I9XX_DOT_MIN,		.max = I9XX_DOT_MAX },
        .vco = { .min = I9XX_VCO_MIN,		.max = I9XX_VCO_MAX },
        .n   = { .min = I9XX_N_MIN,		.max = I9XX_N_MAX },
        .m   = { .min = I9XX_M_MIN,		.max = I9XX_M_MAX },
        .m1  = { .min = I9XX_M1_MIN,		.max = I9XX_M1_MAX },
        .m2  = { .min = I9XX_M2_MIN,		.max = I9XX_M2_MAX },
        .p   = { .min = I9XX_P_SDVO_DAC_MIN,	.max = I9XX_P_SDVO_DAC_MAX },
        .p1  = { .min = I9XX_P1_MIN,		.max = I9XX_P1_MAX },
	.p2  = { .dot_limit = I9XX_P2_SDVO_DAC_SLOW_LIMIT,
		 .p2_slow = I9XX_P2_SDVO_DAC_SLOW,	.p2_fast = I9XX_P2_SDVO_DAC_FAST },
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	.find_pll = intel_find_best_PLL,
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    },
    { /* INTEL_LIMIT_I9XX_LVDS */
        .dot = { .min = I9XX_DOT_MIN,		.max = I9XX_DOT_MAX },
        .vco = { .min = I9XX_VCO_MIN,		.max = I9XX_VCO_MAX },
        .n   = { .min = I9XX_N_MIN,		.max = I9XX_N_MAX },
        .m   = { .min = I9XX_M_MIN,		.max = I9XX_M_MAX },
        .m1  = { .min = I9XX_M1_MIN,		.max = I9XX_M1_MAX },
        .m2  = { .min = I9XX_M2_MIN,		.max = I9XX_M2_MAX },
        .p   = { .min = I9XX_P_LVDS_MIN,	.max = I9XX_P_LVDS_MAX },
        .p1  = { .min = I9XX_P1_MIN,		.max = I9XX_P1_MAX },
	/* The single-channel range is 25-112Mhz, and dual-channel
	 * is 80-224Mhz.  Prefer single channel as much as possible.
	 */
	.p2  = { .dot_limit = I9XX_P2_LVDS_SLOW_LIMIT,
		 .p2_slow = I9XX_P2_LVDS_SLOW,	.p2_fast = I9XX_P2_LVDS_FAST },
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	.find_pll = intel_find_best_PLL,
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    },
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    /* below parameter and function is for G4X Chipset Family*/
    { /* INTEL_LIMIT_G4X_SDVO */
	.dot = { .min = G4X_DOT_SDVO_MIN,	.max = G4X_DOT_SDVO_MAX },
	.vco = { .min = G4X_VCO_MIN,	        .max = G4X_VCO_MAX},
	.n   = { .min = G4X_N_SDVO_MIN,	        .max = G4X_N_SDVO_MAX },
	.m   = { .min = G4X_M_SDVO_MIN,         .max = G4X_M_SDVO_MAX },
	.m1  = { .min = G4X_M1_SDVO_MIN,	.max = G4X_M1_SDVO_MAX },
	.m2  = { .min = G4X_M2_SDVO_MIN,	.max = G4X_M2_SDVO_MAX },
	.p   = { .min = G4X_P_SDVO_MIN,         .max = G4X_P_SDVO_MAX },
	.p1  = { .min = G4X_P1_SDVO_MIN,	.max = G4X_P1_SDVO_MAX},
	.p2  = { .dot_limit = G4X_P2_SDVO_LIMIT,
		 .p2_slow = G4X_P2_SDVO_SLOW,
		 .p2_fast = G4X_P2_SDVO_FAST
	},
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	.find_pll = intel_g4x_find_best_PLL,
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    },
    { /* INTEL_LIMIT_G4X_HDMI_DAC */
	.dot = { .min = G4X_DOT_HDMI_DAC_MIN,	.max = G4X_DOT_HDMI_DAC_MAX },
	.vco = { .min = G4X_VCO_MIN,	        .max = G4X_VCO_MAX},
	.n   = { .min = G4X_N_HDMI_DAC_MIN,	.max = G4X_N_HDMI_DAC_MAX },
	.m   = { .min = G4X_M_HDMI_DAC_MIN,	.max = G4X_M_HDMI_DAC_MAX },
	.m1  = { .min = G4X_M1_HDMI_DAC_MIN,	.max = G4X_M1_HDMI_DAC_MAX },
	.m2  = { .min = G4X_M2_HDMI_DAC_MIN,	.max = G4X_M2_HDMI_DAC_MAX },
	.p   = { .min = G4X_P_HDMI_DAC_MIN,	.max = G4X_P_HDMI_DAC_MAX },
	.p1  = { .min = G4X_P1_HDMI_DAC_MIN,	.max = G4X_P1_HDMI_DAC_MAX},
	.p2  = { .dot_limit = G4X_P2_HDMI_DAC_LIMIT,
		 .p2_slow = G4X_P2_HDMI_DAC_SLOW,
		 .p2_fast = G4X_P2_HDMI_DAC_FAST
	},
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	.find_pll = intel_g4x_find_best_PLL,
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    },
    { /* INTEL_LIMIT_G4X_SINGLE_CHANNEL_LVDS */
	.dot = { .min = G4X_DOT_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_DOT_SINGLE_CHANNEL_LVDS_MAX },
	.vco = { .min = G4X_VCO_MIN,
		 .max = G4X_VCO_MAX },
	.n   = { .min = G4X_N_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_N_SINGLE_CHANNEL_LVDS_MAX },
	.m   = { .min = G4X_M_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_M_SINGLE_CHANNEL_LVDS_MAX },
	.m1  = { .min = G4X_M1_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_M1_SINGLE_CHANNEL_LVDS_MAX },
	.m2  = { .min = G4X_M2_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_M2_SINGLE_CHANNEL_LVDS_MAX },
	.p   = { .min = G4X_P_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_P_SINGLE_CHANNEL_LVDS_MAX },
	.p1  = { .min = G4X_P1_SINGLE_CHANNEL_LVDS_MIN,
		 .max = G4X_P1_SINGLE_CHANNEL_LVDS_MAX },
	.p2  = { .dot_limit = G4X_P2_SINGLE_CHANNEL_LVDS_LIMIT,
		 .p2_slow = G4X_P2_SINGLE_CHANNEL_LVDS_SLOW,
		 .p2_fast = G4X_P2_SINGLE_CHANNEL_LVDS_FAST
	},
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	.find_pll = intel_g4x_find_best_PLL,
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    },
    { /* INTEL_LIMIT_G4X_DUAL_CHANNEL_LVDS */
	.dot = { .min = G4X_DOT_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_DOT_DUAL_CHANNEL_LVDS_MAX },
	.vco = { .min = G4X_VCO_MIN,
		 .max = G4X_VCO_MAX },
	.n   = { .min = G4X_N_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_N_DUAL_CHANNEL_LVDS_MAX },
	.m   = { .min = G4X_M_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_M_DUAL_CHANNEL_LVDS_MAX },
	.m1  = { .min = G4X_M1_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_M1_DUAL_CHANNEL_LVDS_MAX },
	.m2  = { .min = G4X_M2_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_M2_DUAL_CHANNEL_LVDS_MAX },
	.p   = { .min = G4X_P_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_P_DUAL_CHANNEL_LVDS_MAX },
	.p1  = { .min = G4X_P1_DUAL_CHANNEL_LVDS_MIN,
		 .max = G4X_P1_DUAL_CHANNEL_LVDS_MAX },
	.p2  = { .dot_limit = G4X_P2_DUAL_CHANNEL_LVDS_LIMIT,
		 .p2_slow = G4X_P2_DUAL_CHANNEL_LVDS_SLOW,
		 .p2_fast = G4X_P2_DUAL_CHANNEL_LVDS_FAST
	},
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	.find_pll = intel_g4x_find_best_PLL,
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    },
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    { /* INTEL_LIMIT_IGD_SDVO */
        .dot = { .min = I9XX_DOT_MIN,		.max = I9XX_DOT_MAX},
        .vco = { .min = IGD_VCO_MIN,		.max = IGD_VCO_MAX },
        .n   = { .min = IGD_N_MIN,		.max = IGD_N_MAX },
        .m   = { .min = IGD_M_MIN,		.max = IGD_M_MAX },
        .m1  = { .min = IGD_M1_MIN,		.max = IGD_M1_MAX },
        .m2  = { .min = IGD_M2_MIN,		.max = IGD_M2_MAX },
        .p   = { .min = I9XX_P_SDVO_DAC_MIN,    .max = I9XX_P_SDVO_DAC_MAX },
        .p1  = { .min = I9XX_P1_MIN,		.max = I9XX_P1_MAX },
	.p2  = { .dot_limit = I9XX_P2_SDVO_DAC_SLOW_LIMIT,
		 .p2_slow = I9XX_P2_SDVO_DAC_SLOW,	.p2_fast = I9XX_P2_SDVO_DAC_FAST },
    },
    { /* INTEL_LIMIT_IGD_LVDS */
        .dot = { .min = I9XX_DOT_MIN,		.max = I9XX_DOT_MAX },
        .vco = { .min = IGD_VCO_MIN,		.max = IGD_VCO_MAX },
        .n   = { .min = IGD_N_MIN,		.max = IGD_N_MAX },
        .m   = { .min = IGD_M_MIN,		.max = IGD_M_MAX },
        .m1  = { .min = IGD_M1_MIN,		.max = IGD_M1_MAX },
        .m2  = { .min = IGD_M2_MIN,		.max = IGD_M2_MAX },
        .p   = { .min = IGD_P_LVDS_MIN,	.max = IGD_P_LVDS_MAX },
        .p1  = { .min = I9XX_P1_MIN,		.max = I9XX_P1_MAX },
	/* IGD only supports single-channel mode. */
	.p2  = { .dot_limit = I9XX_P2_LVDS_SLOW_LIMIT,
		 .p2_slow = I9XX_P2_LVDS_SLOW,	.p2_fast = I9XX_P2_LVDS_SLOW },
    },

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};

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static const intel_limit_t *intel_g4x_limit(struct drm_crtc *crtc)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	const intel_limit_t *limit;

	if (intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS)) {
		if ((I915_READ(LVDS) & LVDS_CLKB_POWER_MASK) ==
		    LVDS_CLKB_POWER_UP)
			/* LVDS with dual channel */
			limit = &intel_limits
					[INTEL_LIMIT_G4X_DUAL_CHANNEL_LVDS];
		else
			/* LVDS with dual channel */
			limit = &intel_limits
					[INTEL_LIMIT_G4X_SINGLE_CHANNEL_LVDS];
	} else if (intel_pipe_has_type(crtc, INTEL_OUTPUT_HDMI) ||
		   intel_pipe_has_type(crtc, INTEL_OUTPUT_ANALOG)) {
		limit = &intel_limits[INTEL_LIMIT_G4X_HDMI_DAC];
	} else if (intel_pipe_has_type(crtc, INTEL_OUTPUT_SDVO)) {
		limit = &intel_limits[INTEL_LIMIT_G4X_SDVO];
	} else /* The option is for other outputs */
		limit = &intel_limits[INTEL_LIMIT_I9XX_SDVO_DAC];

	return limit;
}

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static const intel_limit_t *intel_limit(struct drm_crtc *crtc)
{
	struct drm_device *dev = crtc->dev;
	const intel_limit_t *limit;

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	if (IS_G4X(dev)) {
		limit = intel_g4x_limit(crtc);
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	} else if (IS_I9XX(dev) && !IS_IGD(dev)) {
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		if (intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS))
			limit = &intel_limits[INTEL_LIMIT_I9XX_LVDS];
		else
			limit = &intel_limits[INTEL_LIMIT_I9XX_SDVO_DAC];
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	} else if (IS_IGD(dev)) {
		if (intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS))
			limit = &intel_limits[INTEL_LIMIT_IGD_LVDS];
		else
			limit = &intel_limits[INTEL_LIMIT_IGD_SDVO_DAC];
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	} else {
		if (intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS))
			limit = &intel_limits[INTEL_LIMIT_I8XX_LVDS];
		else
			limit = &intel_limits[INTEL_LIMIT_I8XX_DVO_DAC];
	}
	return limit;
}

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/* m1 is reserved as 0 in IGD, n is a ring counter */
static void igd_clock(int refclk, intel_clock_t *clock)
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{
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	clock->m = clock->m2 + 2;
	clock->p = clock->p1 * clock->p2;
	clock->vco = refclk * clock->m / clock->n;
	clock->dot = clock->vco / clock->p;
}

static void intel_clock(struct drm_device *dev, int refclk, intel_clock_t *clock)
{
	if (IS_IGD(dev)) {
		igd_clock(refclk, clock);
		return;
	}
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	clock->m = 5 * (clock->m1 + 2) + (clock->m2 + 2);
	clock->p = clock->p1 * clock->p2;
	clock->vco = refclk * clock->m / (clock->n + 2);
	clock->dot = clock->vco / clock->p;
}

/**
 * Returns whether any output on the specified pipe is of the specified type
 */
bool intel_pipe_has_type (struct drm_crtc *crtc, int type)
{
    struct drm_device *dev = crtc->dev;
    struct drm_mode_config *mode_config = &dev->mode_config;
    struct drm_connector *l_entry;

    list_for_each_entry(l_entry, &mode_config->connector_list, head) {
	    if (l_entry->encoder &&
	        l_entry->encoder->crtc == crtc) {
		    struct intel_output *intel_output = to_intel_output(l_entry);
		    if (intel_output->type == type)
			    return true;
	    }
    }
    return false;
}

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#define INTELPllInvalid(s)   do { /* DRM_DEBUG(s); */ return false; } while (0)
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/**
 * Returns whether the given set of divisors are valid for a given refclk with
 * the given connectors.
 */

static bool intel_PLL_is_valid(struct drm_crtc *crtc, intel_clock_t *clock)
{
	const intel_limit_t *limit = intel_limit (crtc);
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	struct drm_device *dev = crtc->dev;
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	if (clock->p1  < limit->p1.min  || limit->p1.max  < clock->p1)
		INTELPllInvalid ("p1 out of range\n");
	if (clock->p   < limit->p.min   || limit->p.max   < clock->p)
		INTELPllInvalid ("p out of range\n");
	if (clock->m2  < limit->m2.min  || limit->m2.max  < clock->m2)
		INTELPllInvalid ("m2 out of range\n");
	if (clock->m1  < limit->m1.min  || limit->m1.max  < clock->m1)
		INTELPllInvalid ("m1 out of range\n");
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	if (clock->m1 <= clock->m2 && !IS_IGD(dev))
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		INTELPllInvalid ("m1 <= m2\n");
	if (clock->m   < limit->m.min   || limit->m.max   < clock->m)
		INTELPllInvalid ("m out of range\n");
	if (clock->n   < limit->n.min   || limit->n.max   < clock->n)
		INTELPllInvalid ("n out of range\n");
	if (clock->vco < limit->vco.min || limit->vco.max < clock->vco)
		INTELPllInvalid ("vco out of range\n");
	/* XXX: We may need to be checking "Dot clock" depending on the multiplier,
	 * connector, etc., rather than just a single range.
	 */
	if (clock->dot < limit->dot.min || limit->dot.max < clock->dot)
		INTELPllInvalid ("dot out of range\n");

	return true;
}

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static bool
intel_find_best_PLL(const intel_limit_t *limit, struct drm_crtc *crtc,
		    int target, int refclk, intel_clock_t *best_clock)

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{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	intel_clock_t clock;
	int err = target;

	if (IS_I9XX(dev) && intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS) &&
	    (I915_READ(LVDS) & LVDS_PORT_EN) != 0) {
		/*
		 * For LVDS, if the panel is on, just rely on its current
		 * settings for dual-channel.  We haven't figured out how to
		 * reliably set up different single/dual channel state, if we
		 * even can.
		 */
		if ((I915_READ(LVDS) & LVDS_CLKB_POWER_MASK) ==
		    LVDS_CLKB_POWER_UP)
			clock.p2 = limit->p2.p2_fast;
		else
			clock.p2 = limit->p2.p2_slow;
	} else {
		if (target < limit->p2.dot_limit)
			clock.p2 = limit->p2.p2_slow;
		else
			clock.p2 = limit->p2.p2_fast;
	}

	memset (best_clock, 0, sizeof (*best_clock));

	for (clock.m1 = limit->m1.min; clock.m1 <= limit->m1.max; clock.m1++) {
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		for (clock.m2 = limit->m2.min; clock.m2 <= limit->m2.max; clock.m2++) {
			/* m1 is always 0 in IGD */
			if (clock.m2 >= clock.m1 && !IS_IGD(dev))
				break;
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			for (clock.n = limit->n.min; clock.n <= limit->n.max;
			     clock.n++) {
				for (clock.p1 = limit->p1.min;
				     clock.p1 <= limit->p1.max; clock.p1++) {
					int this_err;

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					intel_clock(dev, refclk, &clock);
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					if (!intel_PLL_is_valid(crtc, &clock))
						continue;

					this_err = abs(clock.dot - target);
					if (this_err < err) {
						*best_clock = clock;
						err = this_err;
					}
				}
			}
		}
	}

	return (err != target);
}

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static bool
intel_g4x_find_best_PLL(const intel_limit_t *limit, struct drm_crtc *crtc,
			int target, int refclk, intel_clock_t *best_clock)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	intel_clock_t clock;
	int max_n;
	bool found;
	/* approximately equals target * 0.00488 */
	int err_most = (target >> 8) + (target >> 10);
	found = false;

	if (intel_pipe_has_type(crtc, INTEL_OUTPUT_LVDS)) {
		if ((I915_READ(LVDS) & LVDS_CLKB_POWER_MASK) ==
		    LVDS_CLKB_POWER_UP)
			clock.p2 = limit->p2.p2_fast;
		else
			clock.p2 = limit->p2.p2_slow;
	} else {
		if (target < limit->p2.dot_limit)
			clock.p2 = limit->p2.p2_slow;
		else
			clock.p2 = limit->p2.p2_fast;
	}

	memset(best_clock, 0, sizeof(*best_clock));
	max_n = limit->n.max;
	/* based on hardware requriment prefer smaller n to precision */
	for (clock.n = limit->n.min; clock.n <= max_n; clock.n++) {
		/* based on hardware requirment prefere larger m1,m2, p1 */
		for (clock.m1 = limit->m1.max;
		     clock.m1 >= limit->m1.min; clock.m1--) {
			for (clock.m2 = limit->m2.max;
			     clock.m2 >= limit->m2.min; clock.m2--) {
				for (clock.p1 = limit->p1.max;
				     clock.p1 >= limit->p1.min; clock.p1--) {
					int this_err;

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					intel_clock(dev, refclk, &clock);
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					if (!intel_PLL_is_valid(crtc, &clock))
						continue;
					this_err = abs(clock.dot - target) ;
					if (this_err < err_most) {
						*best_clock = clock;
						err_most = this_err;
						max_n = clock.n;
						found = true;
					}
				}
			}
		}
	}

	return found;
}

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void
intel_wait_for_vblank(struct drm_device *dev)
{
	/* Wait for 20ms, i.e. one cycle at 50hz. */
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	mdelay(20);
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}

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static int
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intel_pipe_set_base(struct drm_crtc *crtc, int x, int y,
		    struct drm_framebuffer *old_fb)
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{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct drm_i915_master_private *master_priv;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	struct intel_framebuffer *intel_fb;
	struct drm_i915_gem_object *obj_priv;
	struct drm_gem_object *obj;
	int pipe = intel_crtc->pipe;
	unsigned long Start, Offset;
	int dspbase = (pipe == 0 ? DSPAADDR : DSPBADDR);
	int dspsurf = (pipe == 0 ? DSPASURF : DSPBSURF);
	int dspstride = (pipe == 0) ? DSPASTRIDE : DSPBSTRIDE;
	int dspcntr_reg = (pipe == 0) ? DSPACNTR : DSPBCNTR;
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	u32 dspcntr, alignment;
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	int ret;
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	/* no fb bound */
	if (!crtc->fb) {
		DRM_DEBUG("No FB bound\n");
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		return 0;
	}

	switch (pipe) {
	case 0:
	case 1:
		break;
	default:
		DRM_ERROR("Can't update pipe %d in SAREA\n", pipe);
		return -EINVAL;
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	}

	intel_fb = to_intel_framebuffer(crtc->fb);
	obj = intel_fb->obj;
	obj_priv = obj->driver_private;

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	switch (obj_priv->tiling_mode) {
	case I915_TILING_NONE:
		alignment = 64 * 1024;
		break;
	case I915_TILING_X:
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		/* pin() will align the object as required by fence */
		alignment = 0;
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		break;
	case I915_TILING_Y:
		/* FIXME: Is this true? */
		DRM_ERROR("Y tiled not allowed for scan out buffers\n");
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		return -EINVAL;
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	default:
		BUG();
	}

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	mutex_lock(&dev->struct_mutex);
	ret = i915_gem_object_pin(intel_fb->obj, alignment);
	if (ret != 0) {
		mutex_unlock(&dev->struct_mutex);
		return ret;
	}
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	ret = i915_gem_object_set_to_gtt_domain(intel_fb->obj, 1);
	if (ret != 0) {
		i915_gem_object_unpin(intel_fb->obj);
		mutex_unlock(&dev->struct_mutex);
		return ret;
	}
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	dspcntr = I915_READ(dspcntr_reg);
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	/* Mask out pixel format bits in case we change it */
	dspcntr &= ~DISPPLANE_PIXFORMAT_MASK;
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	switch (crtc->fb->bits_per_pixel) {
	case 8:
		dspcntr |= DISPPLANE_8BPP;
		break;
	case 16:
		if (crtc->fb->depth == 15)
			dspcntr |= DISPPLANE_15_16BPP;
		else
			dspcntr |= DISPPLANE_16BPP;
		break;
	case 24:
	case 32:
		dspcntr |= DISPPLANE_32BPP_NO_ALPHA;
		break;
	default:
		DRM_ERROR("Unknown color depth\n");
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		i915_gem_object_unpin(intel_fb->obj);
		mutex_unlock(&dev->struct_mutex);
		return -EINVAL;
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	}
	I915_WRITE(dspcntr_reg, dspcntr);

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	Start = obj_priv->gtt_offset;
	Offset = y * crtc->fb->pitch + x * (crtc->fb->bits_per_pixel / 8);

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	DRM_DEBUG("Writing base %08lX %08lX %d %d\n", Start, Offset, x, y);
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	I915_WRITE(dspstride, crtc->fb->pitch);
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	if (IS_I965G(dev)) {
		I915_WRITE(dspbase, Offset);
		I915_READ(dspbase);
		I915_WRITE(dspsurf, Start);
		I915_READ(dspsurf);
	} else {
		I915_WRITE(dspbase, Start + Offset);
		I915_READ(dspbase);
	}

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	intel_wait_for_vblank(dev);

	if (old_fb) {
		intel_fb = to_intel_framebuffer(old_fb);
		i915_gem_object_unpin(intel_fb->obj);
	}
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	mutex_unlock(&dev->struct_mutex);
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	if (!dev->primary->master)
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		return 0;
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	master_priv = dev->primary->master->driver_priv;
	if (!master_priv->sarea_priv)
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		return 0;
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	if (pipe) {
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		master_priv->sarea_priv->pipeB_x = x;
		master_priv->sarea_priv->pipeB_y = y;
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	} else {
		master_priv->sarea_priv->pipeA_x = x;
		master_priv->sarea_priv->pipeA_y = y;
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	}
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	return 0;
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}



/**
 * Sets the power management mode of the pipe and plane.
 *
 * This code should probably grow support for turning the cursor off and back
 * on appropriately at the same time as we're turning the pipe off/on.
 */
static void intel_crtc_dpms(struct drm_crtc *crtc, int mode)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_master_private *master_priv;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int pipe = intel_crtc->pipe;
	int dpll_reg = (pipe == 0) ? DPLL_A : DPLL_B;
	int dspcntr_reg = (pipe == 0) ? DSPACNTR : DSPBCNTR;
	int dspbase_reg = (pipe == 0) ? DSPAADDR : DSPBADDR;
	int pipeconf_reg = (pipe == 0) ? PIPEACONF : PIPEBCONF;
	u32 temp;
	bool enabled;

	/* XXX: When our outputs are all unaware of DPMS modes other than off
	 * and on, we should map those modes to DRM_MODE_DPMS_OFF in the CRTC.
	 */
	switch (mode) {
	case DRM_MODE_DPMS_ON:
	case DRM_MODE_DPMS_STANDBY:
	case DRM_MODE_DPMS_SUSPEND:
		/* Enable the DPLL */
		temp = I915_READ(dpll_reg);
		if ((temp & DPLL_VCO_ENABLE) == 0) {
			I915_WRITE(dpll_reg, temp);
			I915_READ(dpll_reg);
			/* Wait for the clocks to stabilize. */
			udelay(150);
			I915_WRITE(dpll_reg, temp | DPLL_VCO_ENABLE);
			I915_READ(dpll_reg);
			/* Wait for the clocks to stabilize. */
			udelay(150);
			I915_WRITE(dpll_reg, temp | DPLL_VCO_ENABLE);
			I915_READ(dpll_reg);
			/* Wait for the clocks to stabilize. */
			udelay(150);
		}

		/* Enable the pipe */
		temp = I915_READ(pipeconf_reg);
		if ((temp & PIPEACONF_ENABLE) == 0)
			I915_WRITE(pipeconf_reg, temp | PIPEACONF_ENABLE);

		/* Enable the plane */
		temp = I915_READ(dspcntr_reg);
		if ((temp & DISPLAY_PLANE_ENABLE) == 0) {
			I915_WRITE(dspcntr_reg, temp | DISPLAY_PLANE_ENABLE);
			/* Flush the plane changes */
			I915_WRITE(dspbase_reg, I915_READ(dspbase_reg));
		}

		intel_crtc_load_lut(crtc);

		/* Give the overlay scaler a chance to enable if it's on this pipe */
		//intel_crtc_dpms_video(crtc, true); TODO
	break;
	case DRM_MODE_DPMS_OFF:
		/* Give the overlay scaler a chance to disable if it's on this pipe */
		//intel_crtc_dpms_video(crtc, FALSE); TODO

		/* Disable the VGA plane that we never use */
		I915_WRITE(VGACNTRL, VGA_DISP_DISABLE);

		/* Disable display plane */
		temp = I915_READ(dspcntr_reg);
		if ((temp & DISPLAY_PLANE_ENABLE) != 0) {
			I915_WRITE(dspcntr_reg, temp & ~DISPLAY_PLANE_ENABLE);
			/* Flush the plane changes */
			I915_WRITE(dspbase_reg, I915_READ(dspbase_reg));
			I915_READ(dspbase_reg);
		}

		if (!IS_I9XX(dev)) {
			/* Wait for vblank for the disable to take effect */
			intel_wait_for_vblank(dev);
		}

		/* Next, disable display pipes */
		temp = I915_READ(pipeconf_reg);
		if ((temp & PIPEACONF_ENABLE) != 0) {
			I915_WRITE(pipeconf_reg, temp & ~PIPEACONF_ENABLE);
			I915_READ(pipeconf_reg);
		}

		/* Wait for vblank for the disable to take effect. */
		intel_wait_for_vblank(dev);

		temp = I915_READ(dpll_reg);
		if ((temp & DPLL_VCO_ENABLE) != 0) {
			I915_WRITE(dpll_reg, temp & ~DPLL_VCO_ENABLE);
			I915_READ(dpll_reg);
		}

		/* Wait for the clocks to turn off. */
		udelay(150);
		break;
	}

	if (!dev->primary->master)
		return;

	master_priv = dev->primary->master->driver_priv;
	if (!master_priv->sarea_priv)
		return;

	enabled = crtc->enabled && mode != DRM_MODE_DPMS_OFF;

	switch (pipe) {
	case 0:
		master_priv->sarea_priv->pipeA_w = enabled ? crtc->mode.hdisplay : 0;
		master_priv->sarea_priv->pipeA_h = enabled ? crtc->mode.vdisplay : 0;
		break;
	case 1:
		master_priv->sarea_priv->pipeB_w = enabled ? crtc->mode.hdisplay : 0;
		master_priv->sarea_priv->pipeB_h = enabled ? crtc->mode.vdisplay : 0;
		break;
	default:
		DRM_ERROR("Can't update pipe %d in SAREA\n", pipe);
		break;
	}

	intel_crtc->dpms_mode = mode;
}

static void intel_crtc_prepare (struct drm_crtc *crtc)
{
	struct drm_crtc_helper_funcs *crtc_funcs = crtc->helper_private;
	crtc_funcs->dpms(crtc, DRM_MODE_DPMS_OFF);
}

static void intel_crtc_commit (struct drm_crtc *crtc)
{
	struct drm_crtc_helper_funcs *crtc_funcs = crtc->helper_private;
	crtc_funcs->dpms(crtc, DRM_MODE_DPMS_ON);
}

void intel_encoder_prepare (struct drm_encoder *encoder)
{
	struct drm_encoder_helper_funcs *encoder_funcs = encoder->helper_private;
	/* lvds has its own version of prepare see intel_lvds_prepare */
	encoder_funcs->dpms(encoder, DRM_MODE_DPMS_OFF);
}

void intel_encoder_commit (struct drm_encoder *encoder)
{
	struct drm_encoder_helper_funcs *encoder_funcs = encoder->helper_private;
	/* lvds has its own version of commit see intel_lvds_commit */
	encoder_funcs->dpms(encoder, DRM_MODE_DPMS_ON);
}

static bool intel_crtc_mode_fixup(struct drm_crtc *crtc,
				  struct drm_display_mode *mode,
				  struct drm_display_mode *adjusted_mode)
{
	return true;
}


/** Returns the core display clock speed for i830 - i945 */
static int intel_get_core_clock_speed(struct drm_device *dev)
{

	/* Core clock values taken from the published datasheets.
	 * The 830 may go up to 166 Mhz, which we should check.
	 */
	if (IS_I945G(dev))
		return 400000;
	else if (IS_I915G(dev))
		return 333000;
954
	else if (IS_I945GM(dev) || IS_845G(dev) || IS_IGDGM(dev))
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		return 200000;
	else if (IS_I915GM(dev)) {
		u16 gcfgc = 0;

		pci_read_config_word(dev->pdev, GCFGC, &gcfgc);

		if (gcfgc & GC_LOW_FREQUENCY_ENABLE)
			return 133000;
		else {
			switch (gcfgc & GC_DISPLAY_CLOCK_MASK) {
			case GC_DISPLAY_CLOCK_333_MHZ:
				return 333000;
			default:
			case GC_DISPLAY_CLOCK_190_200_MHZ:
				return 190000;
			}
		}
	} else if (IS_I865G(dev))
		return 266000;
	else if (IS_I855(dev)) {
		u16 hpllcc = 0;
		/* Assume that the hardware is in the high speed state.  This
		 * should be the default.
		 */
		switch (hpllcc & GC_CLOCK_CONTROL_MASK) {
		case GC_CLOCK_133_200:
		case GC_CLOCK_100_200:
			return 200000;
		case GC_CLOCK_166_250:
			return 250000;
		case GC_CLOCK_100_133:
			return 133000;
		}
	} else /* 852, 830 */
		return 133000;

	return 0; /* Silence gcc warning */
}


/**
 * Return the pipe currently connected to the panel fitter,
 * or -1 if the panel fitter is not present or not in use
 */
static int intel_panel_fitter_pipe (struct drm_device *dev)
{
	struct drm_i915_private *dev_priv = dev->dev_private;
	u32  pfit_control;

	/* i830 doesn't have a panel fitter */
	if (IS_I830(dev))
		return -1;

	pfit_control = I915_READ(PFIT_CONTROL);

	/* See if the panel fitter is in use */
	if ((pfit_control & PFIT_ENABLE) == 0)
		return -1;

	/* 965 can place panel fitter on either pipe */
	if (IS_I965G(dev))
		return (pfit_control >> 29) & 0x3;

	/* older chips can only use pipe 1 */
	return 1;
}

1022 1023 1024 1025 1026
static int intel_crtc_mode_set(struct drm_crtc *crtc,
			       struct drm_display_mode *mode,
			       struct drm_display_mode *adjusted_mode,
			       int x, int y,
			       struct drm_framebuffer *old_fb)
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{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int pipe = intel_crtc->pipe;
	int fp_reg = (pipe == 0) ? FPA0 : FPB0;
	int dpll_reg = (pipe == 0) ? DPLL_A : DPLL_B;
	int dpll_md_reg = (intel_crtc->pipe == 0) ? DPLL_A_MD : DPLL_B_MD;
	int dspcntr_reg = (pipe == 0) ? DSPACNTR : DSPBCNTR;
	int pipeconf_reg = (pipe == 0) ? PIPEACONF : PIPEBCONF;
	int htot_reg = (pipe == 0) ? HTOTAL_A : HTOTAL_B;
	int hblank_reg = (pipe == 0) ? HBLANK_A : HBLANK_B;
	int hsync_reg = (pipe == 0) ? HSYNC_A : HSYNC_B;
	int vtot_reg = (pipe == 0) ? VTOTAL_A : VTOTAL_B;
	int vblank_reg = (pipe == 0) ? VBLANK_A : VBLANK_B;
	int vsync_reg = (pipe == 0) ? VSYNC_A : VSYNC_B;
	int dspsize_reg = (pipe == 0) ? DSPASIZE : DSPBSIZE;
	int dsppos_reg = (pipe == 0) ? DSPAPOS : DSPBPOS;
	int pipesrc_reg = (pipe == 0) ? PIPEASRC : PIPEBSRC;
1046
	int refclk, num_outputs = 0;
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	intel_clock_t clock;
	u32 dpll = 0, fp = 0, dspcntr, pipeconf;
	bool ok, is_sdvo = false, is_dvo = false;
	bool is_crt = false, is_lvds = false, is_tv = false;
	struct drm_mode_config *mode_config = &dev->mode_config;
	struct drm_connector *connector;
1053
	const intel_limit_t *limit;
1054
	int ret;
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	drm_vblank_pre_modeset(dev, pipe);

	list_for_each_entry(connector, &mode_config->connector_list, head) {
		struct intel_output *intel_output = to_intel_output(connector);

		if (!connector->encoder || connector->encoder->crtc != crtc)
			continue;

		switch (intel_output->type) {
		case INTEL_OUTPUT_LVDS:
			is_lvds = true;
			break;
		case INTEL_OUTPUT_SDVO:
1069
		case INTEL_OUTPUT_HDMI:
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			is_sdvo = true;
1071 1072
			if (intel_output->needs_tv_clock)
				is_tv = true;
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			break;
		case INTEL_OUTPUT_DVO:
			is_dvo = true;
			break;
		case INTEL_OUTPUT_TVOUT:
			is_tv = true;
			break;
		case INTEL_OUTPUT_ANALOG:
			is_crt = true;
			break;
		}
1084 1085

		num_outputs++;
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	}

1088 1089 1090 1091
	if (is_lvds && dev_priv->lvds_use_ssc && num_outputs < 2) {
		refclk = dev_priv->lvds_ssc_freq * 1000;
		DRM_DEBUG("using SSC reference clock of %d MHz\n", refclk / 1000);
	} else if (IS_I9XX(dev)) {
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		refclk = 96000;
	} else {
		refclk = 48000;
	}

1097 1098 1099 1100 1101 1102 1103
	/*
	 * Returns a set of divisors for the desired target clock with the given
	 * refclk, or FALSE.  The returned values represent the clock equation:
	 * reflck * (5 * (m1 + 2) + (m2 + 2)) / (n + 2) / p1 / p2.
	 */
	limit = intel_limit(crtc);
	ok = limit->find_pll(limit, crtc, adjusted_mode->clock, refclk, &clock);
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	if (!ok) {
		DRM_ERROR("Couldn't find PLL settings for mode!\n");
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		return -EINVAL;
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	}

1109 1110 1111 1112
	if (IS_IGD(dev))
		fp = (1 << clock.n) << 16 | clock.m1 << 8 | clock.m2;
	else
		fp = clock.n << 16 | clock.m1 << 8 | clock.m2;
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	dpll = DPLL_VGA_MODE_DIS;
	if (IS_I9XX(dev)) {
		if (is_lvds)
			dpll |= DPLLB_MODE_LVDS;
		else
			dpll |= DPLLB_MODE_DAC_SERIAL;
		if (is_sdvo) {
			dpll |= DPLL_DVO_HIGH_SPEED;
			if (IS_I945G(dev) || IS_I945GM(dev)) {
				int sdvo_pixel_multiply = adjusted_mode->clock / mode->clock;
				dpll |= (sdvo_pixel_multiply - 1) << SDVO_MULTIPLIER_SHIFT_HIRES;
			}
		}

		/* compute bitmask from p1 value */
1129 1130 1131 1132
		if (IS_IGD(dev))
			dpll |= (1 << (clock.p1 - 1)) << DPLL_FPA01_P1_POST_DIV_SHIFT_IGD;
		else
			dpll |= (1 << (clock.p1 - 1)) << DPLL_FPA01_P1_POST_DIV_SHIFT;
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		switch (clock.p2) {
		case 5:
			dpll |= DPLL_DAC_SERIAL_P2_CLOCK_DIV_5;
			break;
		case 7:
			dpll |= DPLLB_LVDS_P2_CLOCK_DIV_7;
			break;
		case 10:
			dpll |= DPLL_DAC_SERIAL_P2_CLOCK_DIV_10;
			break;
		case 14:
			dpll |= DPLLB_LVDS_P2_CLOCK_DIV_14;
			break;
		}
		if (IS_I965G(dev))
			dpll |= (6 << PLL_LOAD_PULSE_PHASE_SHIFT);
	} else {
		if (is_lvds) {
			dpll |= (1 << (clock.p1 - 1)) << DPLL_FPA01_P1_POST_DIV_SHIFT;
		} else {
			if (clock.p1 == 2)
				dpll |= PLL_P1_DIVIDE_BY_TWO;
			else
				dpll |= (clock.p1 - 2) << DPLL_FPA01_P1_POST_DIV_SHIFT;
			if (clock.p2 == 4)
				dpll |= PLL_P2_DIVIDE_BY_4;
		}
	}

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	if (is_sdvo && is_tv)
		dpll |= PLL_REF_INPUT_TVCLKINBC;
	else if (is_tv)
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		/* XXX: just matching BIOS for now */
1166
		/*	dpll |= PLL_REF_INPUT_TVCLKINBC; */
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		dpll |= 3;
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	else if (is_lvds && dev_priv->lvds_use_ssc && num_outputs < 2)
		dpll |= PLLB_REF_INPUT_SPREADSPECTRUMIN;
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	else
		dpll |= PLL_REF_INPUT_DREFCLK;

	/* setup pipeconf */
	pipeconf = I915_READ(pipeconf_reg);

	/* Set up the display plane register */
	dspcntr = DISPPLANE_GAMMA_ENABLE;

	if (pipe == 0)
		dspcntr |= DISPPLANE_SEL_PIPE_A;
	else
		dspcntr |= DISPPLANE_SEL_PIPE_B;

	if (pipe == 0 && !IS_I965G(dev)) {
		/* Enable pixel doubling when the dot clock is > 90% of the (display)
		 * core speed.
		 *
		 * XXX: No double-wide on 915GM pipe B. Is that the only reason for the
		 * pipe == 0 check?
		 */
		if (mode->clock > intel_get_core_clock_speed(dev) * 9 / 10)
			pipeconf |= PIPEACONF_DOUBLE_WIDE;
		else
			pipeconf &= ~PIPEACONF_DOUBLE_WIDE;
	}

	dspcntr |= DISPLAY_PLANE_ENABLE;
	pipeconf |= PIPEACONF_ENABLE;
	dpll |= DPLL_VCO_ENABLE;


	/* Disable the panel fitter if it was on our pipe */
	if (intel_panel_fitter_pipe(dev) == pipe)
		I915_WRITE(PFIT_CONTROL, 0);

	DRM_DEBUG("Mode for pipe %c:\n", pipe == 0 ? 'A' : 'B');
	drm_mode_debug_printmodeline(mode);


	if (dpll & DPLL_VCO_ENABLE) {
		I915_WRITE(fp_reg, fp);
		I915_WRITE(dpll_reg, dpll & ~DPLL_VCO_ENABLE);
		I915_READ(dpll_reg);
		udelay(150);
	}

	/* The LVDS pin pair needs to be on before the DPLLs are enabled.
	 * This is an exception to the general rule that mode_set doesn't turn
	 * things on.
	 */
	if (is_lvds) {
		u32 lvds = I915_READ(LVDS);

		lvds |= LVDS_PORT_EN | LVDS_A0A2_CLKA_POWER_UP | LVDS_PIPEB_SELECT;
		/* Set the B0-B3 data pairs corresponding to whether we're going to
		 * set the DPLLs for dual-channel mode or not.
		 */
		if (clock.p2 == 7)
			lvds |= LVDS_B0B3_POWER_UP | LVDS_CLKB_POWER_UP;
		else
			lvds &= ~(LVDS_B0B3_POWER_UP | LVDS_CLKB_POWER_UP);

		/* It would be nice to set 24 vs 18-bit mode (LVDS_A3_POWER_UP)
		 * appropriately here, but we need to look more thoroughly into how
		 * panels behave in the two modes.
		 */

		I915_WRITE(LVDS, lvds);
		I915_READ(LVDS);
	}

	I915_WRITE(fp_reg, fp);
	I915_WRITE(dpll_reg, dpll);
	I915_READ(dpll_reg);
	/* Wait for the clocks to stabilize. */
	udelay(150);

	if (IS_I965G(dev)) {
		int sdvo_pixel_multiply = adjusted_mode->clock / mode->clock;
		I915_WRITE(dpll_md_reg, (0 << DPLL_MD_UDI_DIVIDER_SHIFT) |
			   ((sdvo_pixel_multiply - 1) << DPLL_MD_UDI_MULTIPLIER_SHIFT));
	} else {
		/* write it again -- the BIOS does, after all */
		I915_WRITE(dpll_reg, dpll);
	}
	I915_READ(dpll_reg);
	/* Wait for the clocks to stabilize. */
	udelay(150);

	I915_WRITE(htot_reg, (adjusted_mode->crtc_hdisplay - 1) |
		   ((adjusted_mode->crtc_htotal - 1) << 16));
	I915_WRITE(hblank_reg, (adjusted_mode->crtc_hblank_start - 1) |
		   ((adjusted_mode->crtc_hblank_end - 1) << 16));
	I915_WRITE(hsync_reg, (adjusted_mode->crtc_hsync_start - 1) |
		   ((adjusted_mode->crtc_hsync_end - 1) << 16));
	I915_WRITE(vtot_reg, (adjusted_mode->crtc_vdisplay - 1) |
		   ((adjusted_mode->crtc_vtotal - 1) << 16));
	I915_WRITE(vblank_reg, (adjusted_mode->crtc_vblank_start - 1) |
		   ((adjusted_mode->crtc_vblank_end - 1) << 16));
	I915_WRITE(vsync_reg, (adjusted_mode->crtc_vsync_start - 1) |
		   ((adjusted_mode->crtc_vsync_end - 1) << 16));
	/* pipesrc and dspsize control the size that is scaled from, which should
	 * always be the user's requested size.
	 */
	I915_WRITE(dspsize_reg, ((mode->vdisplay - 1) << 16) | (mode->hdisplay - 1));
	I915_WRITE(dsppos_reg, 0);
	I915_WRITE(pipesrc_reg, ((mode->hdisplay - 1) << 16) | (mode->vdisplay - 1));
	I915_WRITE(pipeconf_reg, pipeconf);
	I915_READ(pipeconf_reg);

	intel_wait_for_vblank(dev);

	I915_WRITE(dspcntr_reg, dspcntr);

	/* Flush the plane changes */
1286 1287 1288
	ret = intel_pipe_set_base(crtc, x, y, old_fb);
	if (ret != 0)
	    return ret;
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	drm_vblank_post_modeset(dev, pipe);
1291 1292

	return 0;
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}

/** Loads the palette/gamma unit for the CRTC with the prepared values */
void intel_crtc_load_lut(struct drm_crtc *crtc)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int palreg = (intel_crtc->pipe == 0) ? PALETTE_A : PALETTE_B;
	int i;

	/* The clocks have to be on to load the palette. */
	if (!crtc->enabled)
		return;

	for (i = 0; i < 256; i++) {
		I915_WRITE(palreg + 4 * i,
			   (intel_crtc->lut_r[i] << 16) |
			   (intel_crtc->lut_g[i] << 8) |
			   intel_crtc->lut_b[i]);
	}
}

static int intel_crtc_cursor_set(struct drm_crtc *crtc,
				 struct drm_file *file_priv,
				 uint32_t handle,
				 uint32_t width, uint32_t height)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	struct drm_gem_object *bo;
	struct drm_i915_gem_object *obj_priv;
	int pipe = intel_crtc->pipe;
	uint32_t control = (pipe == 0) ? CURACNTR : CURBCNTR;
	uint32_t base = (pipe == 0) ? CURABASE : CURBBASE;
	uint32_t temp;
	size_t addr;
1331
	int ret;
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	DRM_DEBUG("\n");

	/* if we want to turn off the cursor ignore width and height */
	if (!handle) {
		DRM_DEBUG("cursor off\n");
1338 1339 1340
		temp = CURSOR_MODE_DISABLE;
		addr = 0;
		bo = NULL;
1341
		mutex_lock(&dev->struct_mutex);
1342
		goto finish;
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	}

	/* Currently we only support 64x64 cursors */
	if (width != 64 || height != 64) {
		DRM_ERROR("we currently only support 64x64 cursors\n");
		return -EINVAL;
	}

	bo = drm_gem_object_lookup(dev, file_priv, handle);
	if (!bo)
		return -ENOENT;

	obj_priv = bo->driver_private;

	if (bo->size < width * height * 4) {
		DRM_ERROR("buffer is to small\n");
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		ret = -ENOMEM;
		goto fail;
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	}

1363
	/* we only need to pin inside GTT if cursor is non-phy */
1364
	mutex_lock(&dev->struct_mutex);
1365 1366 1367 1368
	if (!dev_priv->cursor_needs_physical) {
		ret = i915_gem_object_pin(bo, PAGE_SIZE);
		if (ret) {
			DRM_ERROR("failed to pin cursor bo\n");
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			goto fail_locked;
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		}
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		addr = obj_priv->gtt_offset;
1372 1373 1374 1375
	} else {
		ret = i915_gem_attach_phys_object(dev, bo, (pipe == 0) ? I915_GEM_PHYS_CURSOR_0 : I915_GEM_PHYS_CURSOR_1);
		if (ret) {
			DRM_ERROR("failed to attach phys object\n");
1376
			goto fail_locked;
1377 1378
		}
		addr = obj_priv->phys_obj->handle->busaddr;
1379 1380
	}

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	temp = 0;
	/* set the pipe for the cursor */
	temp |= (pipe << 28);
	temp |= CURSOR_MODE_64_ARGB_AX | MCURSOR_GAMMA_ENABLE;

1386
 finish:
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	I915_WRITE(control, temp);
	I915_WRITE(base, addr);

1390
	if (intel_crtc->cursor_bo) {
1391 1392 1393 1394 1395
		if (dev_priv->cursor_needs_physical) {
			if (intel_crtc->cursor_bo != bo)
				i915_gem_detach_phys_object(dev, intel_crtc->cursor_bo);
		} else
			i915_gem_object_unpin(intel_crtc->cursor_bo);
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		drm_gem_object_unreference(intel_crtc->cursor_bo);
	}
1398
	mutex_unlock(&dev->struct_mutex);
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	intel_crtc->cursor_addr = addr;
	intel_crtc->cursor_bo = bo;

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	return 0;
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fail:
	mutex_lock(&dev->struct_mutex);
1406
fail_locked:
1407 1408 1409
	drm_gem_object_unreference(bo);
	mutex_unlock(&dev->struct_mutex);
	return ret;
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}

static int intel_crtc_cursor_move(struct drm_crtc *crtc, int x, int y)
{
	struct drm_device *dev = crtc->dev;
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int pipe = intel_crtc->pipe;
	uint32_t temp = 0;
	uint32_t adder;

	if (x < 0) {
		temp |= (CURSOR_POS_SIGN << CURSOR_X_SHIFT);
		x = -x;
	}
	if (y < 0) {
		temp |= (CURSOR_POS_SIGN << CURSOR_Y_SHIFT);
		y = -y;
	}

	temp |= ((x & CURSOR_POS_MASK) << CURSOR_X_SHIFT);
	temp |= ((y & CURSOR_POS_MASK) << CURSOR_Y_SHIFT);

	adder = intel_crtc->cursor_addr;
	I915_WRITE((pipe == 0) ? CURAPOS : CURBPOS, temp);
	I915_WRITE((pipe == 0) ? CURABASE : CURBBASE, adder);

	return 0;
}

/** Sets the color ramps on behalf of RandR */
void intel_crtc_fb_gamma_set(struct drm_crtc *crtc, u16 red, u16 green,
				 u16 blue, int regno)
{
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);

	intel_crtc->lut_r[regno] = red >> 8;
	intel_crtc->lut_g[regno] = green >> 8;
	intel_crtc->lut_b[regno] = blue >> 8;
}

static void intel_crtc_gamma_set(struct drm_crtc *crtc, u16 *red, u16 *green,
				 u16 *blue, uint32_t size)
{
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int i;

	if (size != 256)
		return;

	for (i = 0; i < 256; i++) {
		intel_crtc->lut_r[i] = red[i] >> 8;
		intel_crtc->lut_g[i] = green[i] >> 8;
		intel_crtc->lut_b[i] = blue[i] >> 8;
	}

	intel_crtc_load_lut(crtc);
}

/**
 * Get a pipe with a simple mode set on it for doing load-based monitor
 * detection.
 *
 * It will be up to the load-detect code to adjust the pipe as appropriate for
 * its requirements.  The pipe will be connected to no other outputs.
 *
 * Currently this code will only succeed if there is a pipe with no outputs
 * configured for it.  In the future, it could choose to temporarily disable
 * some outputs to free up a pipe for its use.
 *
 * \return crtc, or NULL if no pipes are available.
 */

/* VESA 640x480x72Hz mode to set on the pipe */
static struct drm_display_mode load_detect_mode = {
	DRM_MODE("640x480", DRM_MODE_TYPE_DEFAULT, 31500, 640, 664,
		 704, 832, 0, 480, 489, 491, 520, 0, DRM_MODE_FLAG_NHSYNC | DRM_MODE_FLAG_NVSYNC),
};

struct drm_crtc *intel_get_load_detect_pipe(struct intel_output *intel_output,
					    struct drm_display_mode *mode,
					    int *dpms_mode)
{
	struct intel_crtc *intel_crtc;
	struct drm_crtc *possible_crtc;
	struct drm_crtc *supported_crtc =NULL;
	struct drm_encoder *encoder = &intel_output->enc;
	struct drm_crtc *crtc = NULL;
	struct drm_device *dev = encoder->dev;
	struct drm_encoder_helper_funcs *encoder_funcs = encoder->helper_private;
	struct drm_crtc_helper_funcs *crtc_funcs;
	int i = -1;

	/*
	 * Algorithm gets a little messy:
	 *   - if the connector already has an assigned crtc, use it (but make
	 *     sure it's on first)
	 *   - try to find the first unused crtc that can drive this connector,
	 *     and use that if we find one
	 *   - if there are no unused crtcs available, try to use the first
	 *     one we found that supports the connector
	 */

	/* See if we already have a CRTC for this connector */
	if (encoder->crtc) {
		crtc = encoder->crtc;
		/* Make sure the crtc and connector are running */
		intel_crtc = to_intel_crtc(crtc);
		*dpms_mode = intel_crtc->dpms_mode;
		if (intel_crtc->dpms_mode != DRM_MODE_DPMS_ON) {
			crtc_funcs = crtc->helper_private;
			crtc_funcs->dpms(crtc, DRM_MODE_DPMS_ON);
			encoder_funcs->dpms(encoder, DRM_MODE_DPMS_ON);
		}
		return crtc;
	}

	/* Find an unused one (if possible) */
	list_for_each_entry(possible_crtc, &dev->mode_config.crtc_list, head) {
		i++;
		if (!(encoder->possible_crtcs & (1 << i)))
			continue;
		if (!possible_crtc->enabled) {
			crtc = possible_crtc;
			break;
		}
		if (!supported_crtc)
			supported_crtc = possible_crtc;
	}

	/*
	 * If we didn't find an unused CRTC, don't use any.
	 */
	if (!crtc) {
		return NULL;
	}

	encoder->crtc = crtc;
	intel_output->load_detect_temp = true;

	intel_crtc = to_intel_crtc(crtc);
	*dpms_mode = intel_crtc->dpms_mode;

	if (!crtc->enabled) {
		if (!mode)
			mode = &load_detect_mode;
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		drm_crtc_helper_set_mode(crtc, mode, 0, 0, crtc->fb);
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	} else {
		if (intel_crtc->dpms_mode != DRM_MODE_DPMS_ON) {
			crtc_funcs = crtc->helper_private;
			crtc_funcs->dpms(crtc, DRM_MODE_DPMS_ON);
		}

		/* Add this connector to the crtc */
		encoder_funcs->mode_set(encoder, &crtc->mode, &crtc->mode);
		encoder_funcs->commit(encoder);
	}
	/* let the connector get through one full cycle before testing */
	intel_wait_for_vblank(dev);

	return crtc;
}

void intel_release_load_detect_pipe(struct intel_output *intel_output, int dpms_mode)
{
	struct drm_encoder *encoder = &intel_output->enc;
	struct drm_device *dev = encoder->dev;
	struct drm_crtc *crtc = encoder->crtc;
	struct drm_encoder_helper_funcs *encoder_funcs = encoder->helper_private;
	struct drm_crtc_helper_funcs *crtc_funcs = crtc->helper_private;

	if (intel_output->load_detect_temp) {
		encoder->crtc = NULL;
		intel_output->load_detect_temp = false;
		crtc->enabled = drm_helper_crtc_in_use(crtc);
		drm_helper_disable_unused_functions(dev);
	}

	/* Switch crtc and output back off if necessary */
	if (crtc->enabled && dpms_mode != DRM_MODE_DPMS_ON) {
		if (encoder->crtc == crtc)
			encoder_funcs->dpms(encoder, dpms_mode);
		crtc_funcs->dpms(crtc, dpms_mode);
	}
}

/* Returns the clock of the currently programmed mode of the given pipe. */
static int intel_crtc_clock_get(struct drm_device *dev, struct drm_crtc *crtc)
{
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int pipe = intel_crtc->pipe;
	u32 dpll = I915_READ((pipe == 0) ? DPLL_A : DPLL_B);
	u32 fp;
	intel_clock_t clock;

	if ((dpll & DISPLAY_RATE_SELECT_FPA1) == 0)
		fp = I915_READ((pipe == 0) ? FPA0 : FPB0);
	else
		fp = I915_READ((pipe == 0) ? FPA1 : FPB1);

	clock.m1 = (fp & FP_M1_DIV_MASK) >> FP_M1_DIV_SHIFT;
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	if (IS_IGD(dev)) {
		clock.n = ffs((fp & FP_N_IGD_DIV_MASK) >> FP_N_DIV_SHIFT) - 1;
		clock.m2 = (fp & FP_M2_IGD_DIV_MASK) >> FP_M2_DIV_SHIFT;
	} else {
		clock.n = (fp & FP_N_DIV_MASK) >> FP_N_DIV_SHIFT;
		clock.m2 = (fp & FP_M2_DIV_MASK) >> FP_M2_DIV_SHIFT;
	}

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	if (IS_I9XX(dev)) {
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		if (IS_IGD(dev))
			clock.p1 = ffs((dpll & DPLL_FPA01_P1_POST_DIV_MASK_IGD) >>
				DPLL_FPA01_P1_POST_DIV_SHIFT_IGD);
		else
			clock.p1 = ffs((dpll & DPLL_FPA01_P1_POST_DIV_MASK) >>
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			       DPLL_FPA01_P1_POST_DIV_SHIFT);

		switch (dpll & DPLL_MODE_MASK) {
		case DPLLB_MODE_DAC_SERIAL:
			clock.p2 = dpll & DPLL_DAC_SERIAL_P2_CLOCK_DIV_5 ?
				5 : 10;
			break;
		case DPLLB_MODE_LVDS:
			clock.p2 = dpll & DPLLB_LVDS_P2_CLOCK_DIV_7 ?
				7 : 14;
			break;
		default:
			DRM_DEBUG("Unknown DPLL mode %08x in programmed "
				  "mode\n", (int)(dpll & DPLL_MODE_MASK));
			return 0;
		}

		/* XXX: Handle the 100Mhz refclk */
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		intel_clock(dev, 96000, &clock);
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	} else {
		bool is_lvds = (pipe == 1) && (I915_READ(LVDS) & LVDS_PORT_EN);

		if (is_lvds) {
			clock.p1 = ffs((dpll & DPLL_FPA01_P1_POST_DIV_MASK_I830_LVDS) >>
				       DPLL_FPA01_P1_POST_DIV_SHIFT);
			clock.p2 = 14;

			if ((dpll & PLL_REF_INPUT_MASK) ==
			    PLLB_REF_INPUT_SPREADSPECTRUMIN) {
				/* XXX: might not be 66MHz */
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				intel_clock(dev, 66000, &clock);
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			} else
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				intel_clock(dev, 48000, &clock);
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		} else {
			if (dpll & PLL_P1_DIVIDE_BY_TWO)
				clock.p1 = 2;
			else {
				clock.p1 = ((dpll & DPLL_FPA01_P1_POST_DIV_MASK_I830) >>
					    DPLL_FPA01_P1_POST_DIV_SHIFT) + 2;
			}
			if (dpll & PLL_P2_DIVIDE_BY_4)
				clock.p2 = 4;
			else
				clock.p2 = 2;

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			intel_clock(dev, 48000, &clock);
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		}
	}

	/* XXX: It would be nice to validate the clocks, but we can't reuse
	 * i830PllIsValid() because it relies on the xf86_config connector
	 * configuration being accurate, which it isn't necessarily.
	 */

	return clock.dot;
}

/** Returns the currently programmed mode of the given pipe. */
struct drm_display_mode *intel_crtc_mode_get(struct drm_device *dev,
					     struct drm_crtc *crtc)
{
	struct drm_i915_private *dev_priv = dev->dev_private;
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
	int pipe = intel_crtc->pipe;
	struct drm_display_mode *mode;
	int htot = I915_READ((pipe == 0) ? HTOTAL_A : HTOTAL_B);
	int hsync = I915_READ((pipe == 0) ? HSYNC_A : HSYNC_B);
	int vtot = I915_READ((pipe == 0) ? VTOTAL_A : VTOTAL_B);
	int vsync = I915_READ((pipe == 0) ? VSYNC_A : VSYNC_B);

	mode = kzalloc(sizeof(*mode), GFP_KERNEL);
	if (!mode)
		return NULL;

	mode->clock = intel_crtc_clock_get(dev, crtc);
	mode->hdisplay = (htot & 0xffff) + 1;
	mode->htotal = ((htot & 0xffff0000) >> 16) + 1;
	mode->hsync_start = (hsync & 0xffff) + 1;
	mode->hsync_end = ((hsync & 0xffff0000) >> 16) + 1;
	mode->vdisplay = (vtot & 0xffff) + 1;
	mode->vtotal = ((vtot & 0xffff0000) >> 16) + 1;
	mode->vsync_start = (vsync & 0xffff) + 1;
	mode->vsync_end = ((vsync & 0xffff0000) >> 16) + 1;

	drm_mode_set_name(mode);
	drm_mode_set_crtcinfo(mode, 0);

	return mode;
}

static void intel_crtc_destroy(struct drm_crtc *crtc)
{
	struct intel_crtc *intel_crtc = to_intel_crtc(crtc);

	drm_crtc_cleanup(crtc);
	kfree(intel_crtc);
}

static const struct drm_crtc_helper_funcs intel_helper_funcs = {
	.dpms = intel_crtc_dpms,
	.mode_fixup = intel_crtc_mode_fixup,
	.mode_set = intel_crtc_mode_set,
	.mode_set_base = intel_pipe_set_base,
	.prepare = intel_crtc_prepare,
	.commit = intel_crtc_commit,
};

static const struct drm_crtc_funcs intel_crtc_funcs = {
	.cursor_set = intel_crtc_cursor_set,
	.cursor_move = intel_crtc_cursor_move,
	.gamma_set = intel_crtc_gamma_set,
	.set_config = drm_crtc_helper_set_config,
	.destroy = intel_crtc_destroy,
};


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static void intel_crtc_init(struct drm_device *dev, int pipe)
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{
	struct intel_crtc *intel_crtc;
	int i;

	intel_crtc = kzalloc(sizeof(struct intel_crtc) + (INTELFB_CONN_LIMIT * sizeof(struct drm_connector *)), GFP_KERNEL);
	if (intel_crtc == NULL)
		return;

	drm_crtc_init(dev, &intel_crtc->base, &intel_crtc_funcs);

	drm_mode_crtc_set_gamma_size(&intel_crtc->base, 256);
	intel_crtc->pipe = pipe;
	for (i = 0; i < 256; i++) {
		intel_crtc->lut_r[i] = i;
		intel_crtc->lut_g[i] = i;
		intel_crtc->lut_b[i] = i;
	}

	intel_crtc->cursor_addr = 0;
	intel_crtc->dpms_mode = DRM_MODE_DPMS_OFF;
	drm_crtc_helper_add(&intel_crtc->base, &intel_helper_funcs);

	intel_crtc->mode_set.crtc = &intel_crtc->base;
	intel_crtc->mode_set.connectors = (struct drm_connector **)(intel_crtc + 1);
	intel_crtc->mode_set.num_connectors = 0;

	if (i915_fbpercrtc) {



	}
}

struct drm_crtc *intel_get_crtc_from_pipe(struct drm_device *dev, int pipe)
{
	struct drm_crtc *crtc = NULL;

	list_for_each_entry(crtc, &dev->mode_config.crtc_list, head) {
		struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
		if (intel_crtc->pipe == pipe)
			break;
	}
	return crtc;
}

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static int intel_connector_clones(struct drm_device *dev, int type_mask)
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{
	int index_mask = 0;
	struct drm_connector *connector;
	int entry = 0;

        list_for_each_entry(connector, &dev->mode_config.connector_list, head) {
		struct intel_output *intel_output = to_intel_output(connector);
		if (type_mask & (1 << intel_output->type))
			index_mask |= (1 << entry);
		entry++;
	}
	return index_mask;
}


static void intel_setup_outputs(struct drm_device *dev)
{
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	struct drm_i915_private *dev_priv = dev->dev_private;
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	struct drm_connector *connector;

	intel_crt_init(dev);

	/* Set up integrated LVDS */
	if (IS_MOBILE(dev) && !IS_I830(dev))
		intel_lvds_init(dev);

	if (IS_I9XX(dev)) {
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		int found;
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		u32 reg;
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		if (I915_READ(SDVOB) & SDVO_DETECTED) {
			found = intel_sdvo_init(dev, SDVOB);
			if (!found && SUPPORTS_INTEGRATED_HDMI(dev))
				intel_hdmi_init(dev, SDVOB);
		}
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		/* Before G4X SDVOC doesn't have its own detect register */
		if (IS_G4X(dev))
			reg = SDVOC;
		else
			reg = SDVOB;

		if (I915_READ(reg) & SDVO_DETECTED) {
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			found = intel_sdvo_init(dev, SDVOC);
			if (!found && SUPPORTS_INTEGRATED_HDMI(dev))
				intel_hdmi_init(dev, SDVOC);
		}
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	} else
		intel_dvo_init(dev);

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	if (IS_I9XX(dev) && IS_MOBILE(dev))
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		intel_tv_init(dev);

	list_for_each_entry(connector, &dev->mode_config.connector_list, head) {
		struct intel_output *intel_output = to_intel_output(connector);
		struct drm_encoder *encoder = &intel_output->enc;
		int crtc_mask = 0, clone_mask = 0;

		/* valid crtcs */
		switch(intel_output->type) {
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		case INTEL_OUTPUT_HDMI:
			crtc_mask = ((1 << 0)|
				     (1 << 1));
			clone_mask = ((1 << INTEL_OUTPUT_HDMI));
			break;
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		case INTEL_OUTPUT_DVO:
		case INTEL_OUTPUT_SDVO:
			crtc_mask = ((1 << 0)|
				     (1 << 1));
			clone_mask = ((1 << INTEL_OUTPUT_ANALOG) |
				      (1 << INTEL_OUTPUT_DVO) |
				      (1 << INTEL_OUTPUT_SDVO));
			break;
		case INTEL_OUTPUT_ANALOG:
			crtc_mask = ((1 << 0)|
				     (1 << 1));
			clone_mask = ((1 << INTEL_OUTPUT_ANALOG) |
				      (1 << INTEL_OUTPUT_DVO) |
				      (1 << INTEL_OUTPUT_SDVO));
			break;
		case INTEL_OUTPUT_LVDS:
			crtc_mask = (1 << 1);
			clone_mask = (1 << INTEL_OUTPUT_LVDS);
			break;
		case INTEL_OUTPUT_TVOUT:
			crtc_mask = ((1 << 0) |
				     (1 << 1));
			clone_mask = (1 << INTEL_OUTPUT_TVOUT);
			break;
		}
		encoder->possible_crtcs = crtc_mask;
		encoder->possible_clones = intel_connector_clones(dev, clone_mask);
	}
}

static void intel_user_framebuffer_destroy(struct drm_framebuffer *fb)
{
	struct intel_framebuffer *intel_fb = to_intel_framebuffer(fb);
	struct drm_device *dev = fb->dev;

	if (fb->fbdev)
		intelfb_remove(dev, fb);

	drm_framebuffer_cleanup(fb);
	mutex_lock(&dev->struct_mutex);
	drm_gem_object_unreference(intel_fb->obj);
	mutex_unlock(&dev->struct_mutex);

	kfree(intel_fb);
}

static int intel_user_framebuffer_create_handle(struct drm_framebuffer *fb,
						struct drm_file *file_priv,
						unsigned int *handle)
{
	struct intel_framebuffer *intel_fb = to_intel_framebuffer(fb);
	struct drm_gem_object *object = intel_fb->obj;

	return drm_gem_handle_create(file_priv, object, handle);
}

static const struct drm_framebuffer_funcs intel_fb_funcs = {
	.destroy = intel_user_framebuffer_destroy,
	.create_handle = intel_user_framebuffer_create_handle,
};

int intel_framebuffer_create(struct drm_device *dev,
			     struct drm_mode_fb_cmd *mode_cmd,
			     struct drm_framebuffer **fb,
			     struct drm_gem_object *obj)
{
	struct intel_framebuffer *intel_fb;
	int ret;

	intel_fb = kzalloc(sizeof(*intel_fb), GFP_KERNEL);
	if (!intel_fb)
		return -ENOMEM;

	ret = drm_framebuffer_init(dev, &intel_fb->base, &intel_fb_funcs);
	if (ret) {
		DRM_ERROR("framebuffer init failed %d\n", ret);
		return ret;
	}

	drm_helper_mode_fill_fb_struct(&intel_fb->base, mode_cmd);

	intel_fb->obj = obj;

	*fb = &intel_fb->base;

	return 0;
}


static struct drm_framebuffer *
intel_user_framebuffer_create(struct drm_device *dev,
			      struct drm_file *filp,
			      struct drm_mode_fb_cmd *mode_cmd)
{
	struct drm_gem_object *obj;
	struct drm_framebuffer *fb;
	int ret;

	obj = drm_gem_object_lookup(dev, filp, mode_cmd->handle);
	if (!obj)
		return NULL;

	ret = intel_framebuffer_create(dev, mode_cmd, &fb, obj);
	if (ret) {
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		mutex_lock(&dev->struct_mutex);
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		drm_gem_object_unreference(obj);
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		mutex_unlock(&dev->struct_mutex);
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		return NULL;
	}

	return fb;
}

static const struct drm_mode_config_funcs intel_mode_funcs = {
	.fb_create = intel_user_framebuffer_create,
	.fb_changed = intelfb_probe,
};

void intel_modeset_init(struct drm_device *dev)
{
	int num_pipe;
	int i;

	drm_mode_config_init(dev);

	dev->mode_config.min_width = 0;
	dev->mode_config.min_height = 0;

	dev->mode_config.funcs = (void *)&intel_mode_funcs;

	if (IS_I965G(dev)) {
		dev->mode_config.max_width = 8192;
		dev->mode_config.max_height = 8192;
	} else {
		dev->mode_config.max_width = 2048;
		dev->mode_config.max_height = 2048;
	}

	/* set memory base */
	if (IS_I9XX(dev))
		dev->mode_config.fb_base = pci_resource_start(dev->pdev, 2);
	else
		dev->mode_config.fb_base = pci_resource_start(dev->pdev, 0);

	if (IS_MOBILE(dev) || IS_I9XX(dev))
		num_pipe = 2;
	else
		num_pipe = 1;
	DRM_DEBUG("%d display pipe%s available.\n",
		  num_pipe, num_pipe > 1 ? "s" : "");

	for (i = 0; i < num_pipe; i++) {
		intel_crtc_init(dev, i);
	}

	intel_setup_outputs(dev);
}

void intel_modeset_cleanup(struct drm_device *dev)
{
	drm_mode_config_cleanup(dev);
}


/* current intel driver doesn't take advantage of encoders
   always give back the encoder for the connector
*/
struct drm_encoder *intel_best_encoder(struct drm_connector *connector)
{
	struct intel_output *intel_output = to_intel_output(connector);

	return &intel_output->enc;
}