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path: root/src/gallium/drivers/iris/iris_state.c
blob: f3a73aeb81af718b724dbbb28e97e1c7b6d212b7 (plain)
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/*
 * Copyright © 2017 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
 * on the rights to use, copy, modify, merge, publish, distribute, sub
 * license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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.
 */
#include <stdio.h>
#include <errno.h>

#if HAVE_VALGRIND
#include <valgrind.h>
#include <memcheck.h>
#define VG(x) x
#ifndef NDEBUG
#define __gen_validate_value(x) VALGRIND_CHECK_MEM_IS_DEFINED(&(x), sizeof(x))
#endif
#else
#define VG(x)
#endif

#include "pipe/p_defines.h"
#include "pipe/p_state.h"
#include "pipe/p_context.h"
#include "pipe/p_screen.h"
#include "util/u_inlines.h"
#include "util/u_format.h"
#include "util/u_framebuffer.h"
#include "util/u_transfer.h"
#include "util/u_upload_mgr.h"
#include "i915_drm.h"
#include "nir.h"
#include "intel/compiler/brw_compiler.h"
#include "intel/common/gen_l3_config.h"
#include "intel/common/gen_sample_positions.h"
#include "iris_batch.h"
#include "iris_context.h"
#include "iris_pipe.h"
#include "iris_resource.h"

#define __gen_address_type struct iris_address
#define __gen_user_data struct iris_batch

#define ARRAY_BYTES(x) (sizeof(uint32_t) * ARRAY_SIZE(x))

static uint64_t
__gen_combine_address(struct iris_batch *batch, void *location,
                      struct iris_address addr, uint32_t delta)
{
   uint64_t result = addr.offset + delta;

   if (addr.bo) {
      iris_use_pinned_bo(batch, addr.bo, addr.write);
      /* Assume this is a general address, not relative to a base. */
      result += addr.bo->gtt_offset;
   }

   return result;
}

#define __genxml_cmd_length(cmd) cmd ## _length
#define __genxml_cmd_length_bias(cmd) cmd ## _length_bias
#define __genxml_cmd_header(cmd) cmd ## _header
#define __genxml_cmd_pack(cmd) cmd ## _pack

#define _iris_pack_command(batch, cmd, dst, name)                 \
   for (struct cmd name = { __genxml_cmd_header(cmd) },           \
        *_dst = (void *)(dst); __builtin_expect(_dst != NULL, 1); \
        ({ __genxml_cmd_pack(cmd)(batch, (void *)_dst, &name);    \
           _dst = NULL;                                           \
           }))

#define iris_pack_command(cmd, dst, name) \
   _iris_pack_command(NULL, cmd, dst, name)

#define iris_pack_state(cmd, dst, name)                           \
   for (struct cmd name = {},                                     \
        *_dst = (void *)(dst); __builtin_expect(_dst != NULL, 1); \
        __genxml_cmd_pack(cmd)(NULL, (void *)_dst, &name),        \
        _dst = NULL)

#define iris_emit_cmd(batch, cmd, name) \
   _iris_pack_command(batch, cmd, iris_get_command_space(batch, 4 * __genxml_cmd_length(cmd)), name)

#define iris_emit_merge(batch, dwords0, dwords1, num_dwords)   \
   do {                                                        \
      uint32_t *dw = iris_get_command_space(batch, 4 * num_dwords); \
      for (uint32_t i = 0; i < num_dwords; i++)                \
         dw[i] = (dwords0)[i] | (dwords1)[i];                  \
      VG(VALGRIND_CHECK_MEM_IS_DEFINED(dw, num_dwords));       \
   } while (0)

#include "genxml/genX_pack.h"
#include "genxml/gen_macros.h"
#include "genxml/genX_bits.h"

#define MOCS_WB (2 << 1)

UNUSED static void pipe_asserts()
{
#define PIPE_ASSERT(x) STATIC_ASSERT((int)x)

   /* pipe_logicop happens to match the hardware. */
   PIPE_ASSERT(PIPE_LOGICOP_CLEAR == LOGICOP_CLEAR);
   PIPE_ASSERT(PIPE_LOGICOP_NOR == LOGICOP_NOR);
   PIPE_ASSERT(PIPE_LOGICOP_AND_INVERTED == LOGICOP_AND_INVERTED);
   PIPE_ASSERT(PIPE_LOGICOP_COPY_INVERTED == LOGICOP_COPY_INVERTED);
   PIPE_ASSERT(PIPE_LOGICOP_AND_REVERSE == LOGICOP_AND_REVERSE);
   PIPE_ASSERT(PIPE_LOGICOP_INVERT == LOGICOP_INVERT);
   PIPE_ASSERT(PIPE_LOGICOP_XOR == LOGICOP_XOR);
   PIPE_ASSERT(PIPE_LOGICOP_NAND == LOGICOP_NAND);
   PIPE_ASSERT(PIPE_LOGICOP_AND == LOGICOP_AND);
   PIPE_ASSERT(PIPE_LOGICOP_EQUIV == LOGICOP_EQUIV);
   PIPE_ASSERT(PIPE_LOGICOP_NOOP == LOGICOP_NOOP);
   PIPE_ASSERT(PIPE_LOGICOP_OR_INVERTED == LOGICOP_OR_INVERTED);
   PIPE_ASSERT(PIPE_LOGICOP_COPY == LOGICOP_COPY);
   PIPE_ASSERT(PIPE_LOGICOP_OR_REVERSE == LOGICOP_OR_REVERSE);
   PIPE_ASSERT(PIPE_LOGICOP_OR == LOGICOP_OR);
   PIPE_ASSERT(PIPE_LOGICOP_SET == LOGICOP_SET);

   /* pipe_blend_func happens to match the hardware. */
   PIPE_ASSERT(PIPE_BLENDFACTOR_ONE == BLENDFACTOR_ONE);
   PIPE_ASSERT(PIPE_BLENDFACTOR_SRC_COLOR == BLENDFACTOR_SRC_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_SRC_ALPHA == BLENDFACTOR_SRC_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_DST_ALPHA == BLENDFACTOR_DST_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_DST_COLOR == BLENDFACTOR_DST_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_SRC_ALPHA_SATURATE == BLENDFACTOR_SRC_ALPHA_SATURATE);
   PIPE_ASSERT(PIPE_BLENDFACTOR_CONST_COLOR == BLENDFACTOR_CONST_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_CONST_ALPHA == BLENDFACTOR_CONST_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_SRC1_COLOR == BLENDFACTOR_SRC1_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_SRC1_ALPHA == BLENDFACTOR_SRC1_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_ZERO == BLENDFACTOR_ZERO);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_SRC_COLOR == BLENDFACTOR_INV_SRC_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_SRC_ALPHA == BLENDFACTOR_INV_SRC_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_DST_ALPHA == BLENDFACTOR_INV_DST_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_DST_COLOR == BLENDFACTOR_INV_DST_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_CONST_COLOR == BLENDFACTOR_INV_CONST_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_CONST_ALPHA == BLENDFACTOR_INV_CONST_ALPHA);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_SRC1_COLOR == BLENDFACTOR_INV_SRC1_COLOR);
   PIPE_ASSERT(PIPE_BLENDFACTOR_INV_SRC1_ALPHA == BLENDFACTOR_INV_SRC1_ALPHA);

   /* pipe_blend_func happens to match the hardware. */
   PIPE_ASSERT(PIPE_BLEND_ADD == BLENDFUNCTION_ADD);
   PIPE_ASSERT(PIPE_BLEND_SUBTRACT == BLENDFUNCTION_SUBTRACT);
   PIPE_ASSERT(PIPE_BLEND_REVERSE_SUBTRACT == BLENDFUNCTION_REVERSE_SUBTRACT);
   PIPE_ASSERT(PIPE_BLEND_MIN == BLENDFUNCTION_MIN);
   PIPE_ASSERT(PIPE_BLEND_MAX == BLENDFUNCTION_MAX);

   /* pipe_stencil_op happens to match the hardware. */
   PIPE_ASSERT(PIPE_STENCIL_OP_KEEP == STENCILOP_KEEP);
   PIPE_ASSERT(PIPE_STENCIL_OP_ZERO == STENCILOP_ZERO);
   PIPE_ASSERT(PIPE_STENCIL_OP_REPLACE == STENCILOP_REPLACE);
   PIPE_ASSERT(PIPE_STENCIL_OP_INCR == STENCILOP_INCRSAT);
   PIPE_ASSERT(PIPE_STENCIL_OP_DECR == STENCILOP_DECRSAT);
   PIPE_ASSERT(PIPE_STENCIL_OP_INCR_WRAP == STENCILOP_INCR);
   PIPE_ASSERT(PIPE_STENCIL_OP_DECR_WRAP == STENCILOP_DECR);
   PIPE_ASSERT(PIPE_STENCIL_OP_INVERT == STENCILOP_INVERT);

   /* pipe_sprite_coord_mode happens to match 3DSTATE_SBE */
   PIPE_ASSERT(PIPE_SPRITE_COORD_UPPER_LEFT == UPPERLEFT);
   PIPE_ASSERT(PIPE_SPRITE_COORD_LOWER_LEFT == LOWERLEFT);
#undef PIPE_ASSERT
}

static unsigned
translate_prim_type(enum pipe_prim_type prim, uint8_t verts_per_patch)
{
   static const unsigned map[] = {
      [PIPE_PRIM_POINTS]                   = _3DPRIM_POINTLIST,
      [PIPE_PRIM_LINES]                    = _3DPRIM_LINELIST,
      [PIPE_PRIM_LINE_LOOP]                = _3DPRIM_LINELOOP,
      [PIPE_PRIM_LINE_STRIP]               = _3DPRIM_LINESTRIP,
      [PIPE_PRIM_TRIANGLES]                = _3DPRIM_TRILIST,
      [PIPE_PRIM_TRIANGLE_STRIP]           = _3DPRIM_TRISTRIP,
      [PIPE_PRIM_TRIANGLE_FAN]             = _3DPRIM_TRIFAN,
      [PIPE_PRIM_QUADS]                    = _3DPRIM_QUADLIST,
      [PIPE_PRIM_QUAD_STRIP]               = _3DPRIM_QUADSTRIP,
      [PIPE_PRIM_POLYGON]                  = _3DPRIM_POLYGON,
      [PIPE_PRIM_LINES_ADJACENCY]          = _3DPRIM_LINELIST_ADJ,
      [PIPE_PRIM_LINE_STRIP_ADJACENCY]     = _3DPRIM_LINESTRIP_ADJ,
      [PIPE_PRIM_TRIANGLES_ADJACENCY]      = _3DPRIM_TRILIST_ADJ,
      [PIPE_PRIM_TRIANGLE_STRIP_ADJACENCY] = _3DPRIM_TRISTRIP_ADJ,
      [PIPE_PRIM_PATCHES]                  = _3DPRIM_PATCHLIST_1 - 1,
   };

   return map[prim] + (prim == PIPE_PRIM_PATCHES ? verts_per_patch : 0);
}

static unsigned
translate_compare_func(enum pipe_compare_func pipe_func)
{
   static const unsigned map[] = {
      [PIPE_FUNC_NEVER]    = COMPAREFUNCTION_NEVER,
      [PIPE_FUNC_LESS]     = COMPAREFUNCTION_LESS,
      [PIPE_FUNC_EQUAL]    = COMPAREFUNCTION_EQUAL,
      [PIPE_FUNC_LEQUAL]   = COMPAREFUNCTION_LEQUAL,
      [PIPE_FUNC_GREATER]  = COMPAREFUNCTION_GREATER,
      [PIPE_FUNC_NOTEQUAL] = COMPAREFUNCTION_NOTEQUAL,
      [PIPE_FUNC_GEQUAL]   = COMPAREFUNCTION_GEQUAL,
      [PIPE_FUNC_ALWAYS]   = COMPAREFUNCTION_ALWAYS,
   };
   return map[pipe_func];
}

static unsigned
translate_shadow_func(enum pipe_compare_func pipe_func)
{
   /* Gallium specifies the result of shadow comparisons as:
    *
    *    1 if ref <op> texel,
    *    0 otherwise.
    *
    * The hardware does:
    *
    *    0 if texel <op> ref,
    *    1 otherwise.
    *
    * So we need to flip the operator and also negate.
    */
   static const unsigned map[] = {
      [PIPE_FUNC_NEVER]    = PREFILTEROPALWAYS,
      [PIPE_FUNC_LESS]     = PREFILTEROPLEQUAL,
      [PIPE_FUNC_EQUAL]    = PREFILTEROPNOTEQUAL,
      [PIPE_FUNC_LEQUAL]   = PREFILTEROPLESS,
      [PIPE_FUNC_GREATER]  = PREFILTEROPGEQUAL,
      [PIPE_FUNC_NOTEQUAL] = PREFILTEROPEQUAL,
      [PIPE_FUNC_GEQUAL]   = PREFILTEROPGREATER,
      [PIPE_FUNC_ALWAYS]   = PREFILTEROPNEVER,
   };
   return map[pipe_func];
}

static unsigned
translate_cull_mode(unsigned pipe_face)
{
   static const unsigned map[4] = {
      [PIPE_FACE_NONE]           = CULLMODE_NONE,
      [PIPE_FACE_FRONT]          = CULLMODE_FRONT,
      [PIPE_FACE_BACK]           = CULLMODE_BACK,
      [PIPE_FACE_FRONT_AND_BACK] = CULLMODE_BOTH,
   };
   return map[pipe_face];
}

static unsigned
translate_fill_mode(unsigned pipe_polymode)
{
   static const unsigned map[4] = {
      [PIPE_POLYGON_MODE_FILL]           = FILL_MODE_SOLID,
      [PIPE_POLYGON_MODE_LINE]           = FILL_MODE_WIREFRAME,
      [PIPE_POLYGON_MODE_POINT]          = FILL_MODE_POINT,
      [PIPE_POLYGON_MODE_FILL_RECTANGLE] = FILL_MODE_SOLID,
   };
   return map[pipe_polymode];
}

static struct iris_address
ro_bo(struct iris_bo *bo, uint64_t offset)
{
   /* Not for CSOs! */
   return (struct iris_address) { .bo = bo, .offset = offset };
}

static uint32_t *
stream_state(struct iris_batch *batch,
             struct u_upload_mgr *uploader,
             unsigned size,
             unsigned alignment,
             uint32_t *out_offset)
{
   struct pipe_resource *res = NULL;
   void *ptr = NULL;

   u_upload_alloc(uploader, 0, size, alignment, out_offset, &res, &ptr);

   struct iris_bo *bo = iris_resource_bo(res);
   iris_use_pinned_bo(batch, bo, false);

   *out_offset += iris_bo_offset_from_base_address(bo);

   pipe_resource_reference(&res, NULL);

   return ptr;
}

static uint32_t
emit_state(struct iris_batch *batch,
           struct u_upload_mgr *uploader,
           const void *data,
           unsigned size,
           unsigned alignment)
{
   unsigned offset = 0;
   uint32_t *map = stream_state(batch, uploader, size, alignment, &offset);

   if (map)
      memcpy(map, data, size);

   return offset;
}

static void
iris_init_render_context(struct iris_screen *screen,
                         struct iris_batch *batch,
                         struct iris_vtable *vtbl,
                         struct pipe_debug_callback *dbg)
{
   iris_init_batch(batch, screen, vtbl, dbg, I915_EXEC_RENDER);

   /* XXX: PIPE_CONTROLs */

   iris_emit_cmd(batch, GENX(STATE_BASE_ADDRESS), sba) {
   #if 0
   // XXX: MOCS is stupid for this.
      sba.GeneralStateMemoryObjectControlState            = MOCS_WB;
      sba.StatelessDataPortAccessMemoryObjectControlState = MOCS_WB;
      sba.SurfaceStateMemoryObjectControlState            = MOCS_WB;
      sba.DynamicStateMemoryObjectControlState            = MOCS_WB;
      sba.IndirectObjectMemoryObjectControlState          = MOCS_WB;
      sba.InstructionMemoryObjectControlState             = MOCS_WB;
      sba.BindlessSurfaceStateMemoryObjectControlState    = MOCS_WB;
   #endif

      sba.GeneralStateBaseAddressModifyEnable   = true;
      sba.SurfaceStateBaseAddressModifyEnable   = true;
      sba.DynamicStateBaseAddressModifyEnable   = true;
      sba.IndirectObjectBaseAddressModifyEnable = true;
      sba.InstructionBaseAddressModifyEnable    = true;
      sba.GeneralStateBufferSizeModifyEnable    = true;
      sba.DynamicStateBufferSizeModifyEnable    = true;
      sba.BindlessSurfaceStateBaseAddressModifyEnable = true;
      sba.IndirectObjectBufferSizeModifyEnable  = true;
      sba.InstructionBuffersizeModifyEnable     = true;

      sba.InstructionBaseAddress  = ro_bo(NULL, IRIS_MEMZONE_SHADER_START);
      sba.SurfaceStateBaseAddress = ro_bo(NULL, IRIS_MEMZONE_SURFACE_START);
      sba.DynamicStateBaseAddress = ro_bo(NULL, IRIS_MEMZONE_DYNAMIC_START);

      sba.GeneralStateBufferSize   = 0xfffff;
      sba.IndirectObjectBufferSize = 0xfffff;
      sba.InstructionBufferSize    = 0xfffff;
      sba.DynamicStateBufferSize   = 0xfffff;
   }

   iris_emit_cmd(batch, GENX(3DSTATE_DRAWING_RECTANGLE), rect) {
      rect.ClippedDrawingRectangleXMax = UINT16_MAX;
      rect.ClippedDrawingRectangleYMax = UINT16_MAX;
   }
   iris_emit_cmd(batch, GENX(3DSTATE_SAMPLE_PATTERN), pat) {
      GEN_SAMPLE_POS_1X(pat._1xSample);
      GEN_SAMPLE_POS_2X(pat._2xSample);
      GEN_SAMPLE_POS_4X(pat._4xSample);
      GEN_SAMPLE_POS_8X(pat._8xSample);
      GEN_SAMPLE_POS_16X(pat._16xSample);
   }
   iris_emit_cmd(batch, GENX(3DSTATE_AA_LINE_PARAMETERS), foo);
   iris_emit_cmd(batch, GENX(3DSTATE_WM_CHROMAKEY), foo);
   iris_emit_cmd(batch, GENX(3DSTATE_WM_HZ_OP), foo);
   /* XXX: may need to set an offset for origin-UL framebuffers */
   iris_emit_cmd(batch, GENX(3DSTATE_POLY_STIPPLE_OFFSET), foo);

   /* Just assign a static partitioning. */
   for (int i = 0; i <= MESA_SHADER_FRAGMENT; i++) {
      iris_emit_cmd(batch, GENX(3DSTATE_PUSH_CONSTANT_ALLOC_VS), alloc) {
         alloc._3DCommandSubOpcode = 18 + i;
         alloc.ConstantBufferOffset = 6 * i;
         alloc.ConstantBufferSize = i == MESA_SHADER_FRAGMENT ? 8 : 6;
      }
   }
}

static void
iris_launch_grid(struct pipe_context *ctx, const struct pipe_grid_info *info)
{
}

static void
iris_set_blend_color(struct pipe_context *ctx,
                     const struct pipe_blend_color *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;

   memcpy(&ice->state.blend_color, state, sizeof(struct pipe_blend_color));
   ice->state.dirty |= IRIS_DIRTY_COLOR_CALC_STATE;
}

struct iris_blend_state {
   uint32_t ps_blend[GENX(3DSTATE_PS_BLEND_length)];
   uint32_t blend_state[GENX(BLEND_STATE_length) +
                        BRW_MAX_DRAW_BUFFERS * GENX(BLEND_STATE_ENTRY_length)];

   bool alpha_to_coverage; /* for shader key */
};

static void *
iris_create_blend_state(struct pipe_context *ctx,
                        const struct pipe_blend_state *state)
{
   struct iris_blend_state *cso = malloc(sizeof(struct iris_blend_state));
   uint32_t *blend_state = cso->blend_state;

   cso->alpha_to_coverage = state->alpha_to_coverage;

   iris_pack_command(GENX(3DSTATE_PS_BLEND), cso->ps_blend, pb) {
      /* pb.HasWriteableRT is filled in at draw time. */
      /* pb.AlphaTestEnable is filled in at draw time. */
      pb.AlphaToCoverageEnable = state->alpha_to_coverage;
      pb.IndependentAlphaBlendEnable = state->independent_blend_enable;

      pb.ColorBufferBlendEnable = state->rt[0].blend_enable;

      pb.SourceBlendFactor           = state->rt[0].rgb_src_factor;
      pb.SourceAlphaBlendFactor      = state->rt[0].alpha_func;
      pb.DestinationBlendFactor      = state->rt[0].rgb_dst_factor;
      pb.DestinationAlphaBlendFactor = state->rt[0].alpha_dst_factor;
   }

   iris_pack_state(GENX(BLEND_STATE), blend_state, bs) {
      bs.AlphaToCoverageEnable = state->alpha_to_coverage;
      bs.IndependentAlphaBlendEnable = state->independent_blend_enable;
      bs.AlphaToOneEnable = state->alpha_to_one;
      bs.AlphaToCoverageDitherEnable = state->alpha_to_coverage;
      bs.ColorDitherEnable = state->dither;
      /* bl.AlphaTestEnable and bs.AlphaTestFunction are filled in later. */
   }

   blend_state += GENX(BLEND_STATE_length);

   for (int i = 0; i < BRW_MAX_DRAW_BUFFERS; i++) {
      iris_pack_state(GENX(BLEND_STATE_ENTRY), blend_state, be) {
         be.LogicOpEnable = state->logicop_enable;
         be.LogicOpFunction = state->logicop_func;

         be.PreBlendSourceOnlyClampEnable = false;
         be.ColorClampRange = COLORCLAMP_RTFORMAT;
         be.PreBlendColorClampEnable = true;
         be.PostBlendColorClampEnable = true;

         be.ColorBufferBlendEnable = state->rt[i].blend_enable;

         be.ColorBlendFunction          = state->rt[i].rgb_func;
         be.AlphaBlendFunction          = state->rt[i].alpha_func;
         be.SourceBlendFactor           = state->rt[i].rgb_src_factor;
         be.SourceAlphaBlendFactor      = state->rt[i].alpha_func;
         be.DestinationBlendFactor      = state->rt[i].rgb_dst_factor;
         be.DestinationAlphaBlendFactor = state->rt[i].alpha_dst_factor;

         be.WriteDisableRed   = !(state->rt[i].colormask & PIPE_MASK_R);
         be.WriteDisableGreen = !(state->rt[i].colormask & PIPE_MASK_G);
         be.WriteDisableBlue  = !(state->rt[i].colormask & PIPE_MASK_B);
         be.WriteDisableAlpha = !(state->rt[i].colormask & PIPE_MASK_A);
      }
      blend_state += GENX(BLEND_STATE_ENTRY_length);
   }

   return cso;
}

static void
iris_bind_blend_state(struct pipe_context *ctx, void *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   ice->state.cso_blend = state;
   ice->state.dirty |= IRIS_DIRTY_CC_VIEWPORT;
   ice->state.dirty |= IRIS_DIRTY_WM_DEPTH_STENCIL;
}

struct iris_depth_stencil_alpha_state {
   uint32_t wmds[GENX(3DSTATE_WM_DEPTH_STENCIL_length)];
   uint32_t cc_vp[GENX(CC_VIEWPORT_length)];

   struct pipe_alpha_state alpha; /* to BLEND_STATE, 3DSTATE_PS_BLEND */
};

static void *
iris_create_zsa_state(struct pipe_context *ctx,
                      const struct pipe_depth_stencil_alpha_state *state)
{
   struct iris_depth_stencil_alpha_state *cso =
      malloc(sizeof(struct iris_depth_stencil_alpha_state));

   cso->alpha = state->alpha;

   bool two_sided_stencil = state->stencil[1].enabled;

   /* The state tracker needs to optimize away EQUAL writes for us. */
   assert(!(state->depth.func == PIPE_FUNC_EQUAL && state->depth.writemask));

   iris_pack_command(GENX(3DSTATE_WM_DEPTH_STENCIL), cso->wmds, wmds) {
      wmds.StencilFailOp = state->stencil[0].fail_op;
      wmds.StencilPassDepthFailOp = state->stencil[0].zfail_op;
      wmds.StencilPassDepthPassOp = state->stencil[0].zpass_op;
      wmds.StencilTestFunction =
         translate_compare_func(state->stencil[0].func);
      wmds.BackfaceStencilFailOp = state->stencil[1].fail_op;
      wmds.BackfaceStencilPassDepthFailOp = state->stencil[1].zfail_op;
      wmds.BackfaceStencilPassDepthPassOp = state->stencil[1].zpass_op;
      wmds.BackfaceStencilTestFunction =
         translate_compare_func(state->stencil[1].func);
      wmds.DepthTestFunction = translate_compare_func(state->depth.func);
      wmds.DoubleSidedStencilEnable = two_sided_stencil;
      wmds.StencilTestEnable = state->stencil[0].enabled;
      wmds.StencilBufferWriteEnable =
         state->stencil[0].writemask != 0 ||
         (two_sided_stencil && state->stencil[1].writemask != 0);
      wmds.DepthTestEnable = state->depth.enabled;
      wmds.DepthBufferWriteEnable = state->depth.writemask;
      wmds.StencilTestMask = state->stencil[0].valuemask;
      wmds.StencilWriteMask = state->stencil[0].writemask;
      wmds.BackfaceStencilTestMask = state->stencil[1].valuemask;
      wmds.BackfaceStencilWriteMask = state->stencil[1].writemask;
      /* wmds.[Backface]StencilReferenceValue are merged later */
   }

   iris_pack_state(GENX(CC_VIEWPORT), cso->cc_vp, ccvp) {
      ccvp.MinimumDepth = state->depth.bounds_min;
      ccvp.MaximumDepth = state->depth.bounds_max;
   }

   return cso;
}

static void
iris_bind_zsa_state(struct pipe_context *ctx, void *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_depth_stencil_alpha_state *old_cso = ice->state.cso_zsa;
   struct iris_depth_stencil_alpha_state *new_cso = state;

   if (new_cso) {
      if (!old_cso || old_cso->alpha.ref_value != new_cso->alpha.ref_value) {
         ice->state.dirty |= IRIS_DIRTY_COLOR_CALC_STATE;
      }
   }

   ice->state.cso_zsa = new_cso;
   ice->state.dirty |= IRIS_DIRTY_CC_VIEWPORT;
   ice->state.dirty |= IRIS_DIRTY_WM_DEPTH_STENCIL;
}

struct iris_rasterizer_state {
   uint32_t sf[GENX(3DSTATE_SF_length)];
   uint32_t clip[GENX(3DSTATE_CLIP_length)];
   uint32_t raster[GENX(3DSTATE_RASTER_length)];
   uint32_t wm[GENX(3DSTATE_WM_length)];
   uint32_t line_stipple[GENX(3DSTATE_LINE_STIPPLE_length)];

   bool flatshade; /* for shader state */
   bool clamp_fragment_color; /* for shader state */
   bool light_twoside; /* for shader state */
   bool rasterizer_discard; /* for 3DSTATE_STREAMOUT */
   bool half_pixel_center; /* for 3DSTATE_MULTISAMPLE */
   enum pipe_sprite_coord_mode sprite_coord_mode; /* PIPE_SPRITE_* */
   uint16_t sprite_coord_enable;
};

static void *
iris_create_rasterizer_state(struct pipe_context *ctx,
                             const struct pipe_rasterizer_state *state)
{
   struct iris_rasterizer_state *cso =
      malloc(sizeof(struct iris_rasterizer_state));

#if 0
   point_quad_rasterization -> SBE?

   not necessary?
   {
      poly_smooth
      force_persample_interp - ?
      bottom_edge_rule

      offset_units_unscaled - cap not exposed
   }
   #endif

   cso->flatshade = state->flatshade;
   cso->clamp_fragment_color = state->clamp_fragment_color;
   cso->light_twoside = state->light_twoside;
   cso->rasterizer_discard = state->rasterizer_discard;
   cso->half_pixel_center = state->half_pixel_center;
   cso->sprite_coord_mode = state->sprite_coord_mode;
   cso->sprite_coord_enable = state->sprite_coord_enable;

   iris_pack_command(GENX(3DSTATE_SF), cso->sf, sf) {
      sf.StatisticsEnable = true;
      sf.ViewportTransformEnable = true;
      sf.AALineDistanceMode = AALINEDISTANCE_TRUE;
      sf.LineEndCapAntialiasingRegionWidth =
         state->line_smooth ? _10pixels : _05pixels;
      sf.LastPixelEnable = state->line_last_pixel;
      sf.LineWidth = state->line_width;
      sf.SmoothPointEnable = state->point_smooth;
      sf.PointWidthSource = state->point_size_per_vertex ? Vertex : State;
      sf.PointWidth = state->point_size;

      if (state->flatshade_first) {
         sf.TriangleStripListProvokingVertexSelect = 2;
         sf.TriangleFanProvokingVertexSelect = 2;
         sf.LineStripListProvokingVertexSelect = 1;
      } else {
         sf.TriangleFanProvokingVertexSelect = 1;
      }
   }

   /* COMPLETE! */
   iris_pack_command(GENX(3DSTATE_RASTER), cso->raster, rr) {
      rr.FrontWinding = state->front_ccw ? CounterClockwise : Clockwise;
      rr.CullMode = translate_cull_mode(state->cull_face);
      rr.FrontFaceFillMode = translate_fill_mode(state->fill_front);
      rr.BackFaceFillMode = translate_fill_mode(state->fill_back);
      rr.DXMultisampleRasterizationEnable = state->multisample;
      rr.GlobalDepthOffsetEnableSolid = state->offset_tri;
      rr.GlobalDepthOffsetEnableWireframe = state->offset_line;
      rr.GlobalDepthOffsetEnablePoint = state->offset_point;
      rr.GlobalDepthOffsetConstant = state->offset_units;
      rr.GlobalDepthOffsetScale = state->offset_scale;
      rr.GlobalDepthOffsetClamp = state->offset_clamp;
      rr.SmoothPointEnable = state->point_smooth;
      rr.AntialiasingEnable = state->line_smooth;
      rr.ScissorRectangleEnable = state->scissor;
      rr.ViewportZNearClipTestEnable = state->depth_clip_near;
      rr.ViewportZFarClipTestEnable = state->depth_clip_far;
      //rr.ConservativeRasterizationEnable = not yet supported by Gallium...
   }

   iris_pack_command(GENX(3DSTATE_CLIP), cso->clip, cl) {
      /* cl.NonPerspectiveBarycentricEnable is filled in at draw time from
       * the FS program; cl.ForceZeroRTAIndexEnable is filled in from the FB.
       */
      cl.StatisticsEnable = true;
      cl.EarlyCullEnable = true;
      cl.UserClipDistanceClipTestEnableBitmask = state->clip_plane_enable;
      cl.ForceUserClipDistanceClipTestEnableBitmask = true;
      cl.APIMode = state->clip_halfz ? APIMODE_D3D : APIMODE_OGL;
      cl.GuardbandClipTestEnable = true;
      cl.ClipMode = CLIPMODE_NORMAL;
      cl.ClipEnable = true;
      cl.ViewportXYClipTestEnable = state->point_tri_clip;
      cl.MinimumPointWidth = 0.125;
      cl.MaximumPointWidth = 255.875;

      if (state->flatshade_first) {
         cl.TriangleStripListProvokingVertexSelect = 2;
         cl.TriangleFanProvokingVertexSelect = 2;
         cl.LineStripListProvokingVertexSelect = 1;
      } else {
         cl.TriangleFanProvokingVertexSelect = 1;
      }
   }

   iris_pack_command(GENX(3DSTATE_WM), cso->wm, wm) {
      /* wm.BarycentricInterpolationMode and wm.EarlyDepthStencilControl are
       * filled in at draw time from the FS program.
       */
      wm.LineAntialiasingRegionWidth = _10pixels;
      wm.LineEndCapAntialiasingRegionWidth = _05pixels;
      wm.PointRasterizationRule = RASTRULE_UPPER_RIGHT;
      wm.StatisticsEnable = true;
      wm.LineStippleEnable = state->line_stipple_enable;
      wm.PolygonStippleEnable = state->poly_stipple_enable;
   }

   /* Remap from 0..255 back to 1..256 */
   const unsigned line_stipple_factor = state->line_stipple_factor + 1;

   iris_pack_command(GENX(3DSTATE_LINE_STIPPLE), cso->line_stipple, line) {
      line.LineStipplePattern = state->line_stipple_pattern;
      line.LineStippleInverseRepeatCount = 1.0f / line_stipple_factor;
      line.LineStippleRepeatCount = line_stipple_factor;
   }

   return cso;
}

static void
iris_bind_rasterizer_state(struct pipe_context *ctx, void *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_rasterizer_state *old_cso = ice->state.cso_rast;
   struct iris_rasterizer_state *new_cso = state;

   if (new_cso) {
      /* Try to avoid re-emitting 3DSTATE_LINE_STIPPLE, it's non-pipelined */
      if (!old_cso || memcmp(old_cso->line_stipple, new_cso->line_stipple,
                             sizeof(old_cso->line_stipple)) != 0) {
         ice->state.dirty |= IRIS_DIRTY_LINE_STIPPLE;
      }

      if (!old_cso ||
          old_cso->half_pixel_center != new_cso->half_pixel_center) {
         ice->state.dirty |= IRIS_DIRTY_MULTISAMPLE;
      }
   }

   ice->state.cso_rast = new_cso;
   ice->state.dirty |= IRIS_DIRTY_RASTER;
}

static uint32_t
translate_wrap(unsigned pipe_wrap)
{
   static const unsigned map[] = {
      [PIPE_TEX_WRAP_REPEAT]                 = TCM_WRAP,
      [PIPE_TEX_WRAP_CLAMP]                  = TCM_HALF_BORDER,
      [PIPE_TEX_WRAP_CLAMP_TO_EDGE]          = TCM_CLAMP,
      [PIPE_TEX_WRAP_CLAMP_TO_BORDER]        = TCM_CLAMP_BORDER,
      [PIPE_TEX_WRAP_MIRROR_REPEAT]          = TCM_MIRROR,
      [PIPE_TEX_WRAP_MIRROR_CLAMP_TO_EDGE]   = TCM_MIRROR_ONCE,
      [PIPE_TEX_WRAP_MIRROR_CLAMP]           = -1, // XXX: ???
      [PIPE_TEX_WRAP_MIRROR_CLAMP_TO_BORDER] = -1, // XXX: ???
   };
   return map[pipe_wrap];
}

/**
 * Return true if the given wrap mode requires the border color to exist.
 */
static bool
wrap_mode_needs_border_color(unsigned wrap_mode)
{
   return wrap_mode == TCM_CLAMP_BORDER || wrap_mode == TCM_HALF_BORDER;
}

static unsigned
translate_mip_filter(enum pipe_tex_mipfilter pipe_mip)
{
   static const unsigned map[] = {
      [PIPE_TEX_MIPFILTER_NEAREST] = MIPFILTER_NEAREST,
      [PIPE_TEX_MIPFILTER_LINEAR]  = MIPFILTER_LINEAR,
      [PIPE_TEX_MIPFILTER_NONE]    = MIPFILTER_NONE,
   };
   return map[pipe_mip];
}

struct iris_sampler_state {
   struct pipe_sampler_state base;

   bool needs_border_color;

   uint32_t sampler_state[GENX(SAMPLER_STATE_length)];
};

static void *
iris_create_sampler_state(struct pipe_context *pctx,
                          const struct pipe_sampler_state *state)
{
   struct iris_sampler_state *cso = CALLOC_STRUCT(iris_sampler_state);

   if (!cso)
      return NULL;

   STATIC_ASSERT(PIPE_TEX_FILTER_NEAREST == MAPFILTER_NEAREST);
   STATIC_ASSERT(PIPE_TEX_FILTER_LINEAR == MAPFILTER_LINEAR);

   unsigned wrap_s = translate_wrap(state->wrap_s);
   unsigned wrap_t = translate_wrap(state->wrap_t);
   unsigned wrap_r = translate_wrap(state->wrap_r);

   cso->needs_border_color = wrap_mode_needs_border_color(wrap_s) ||
                             wrap_mode_needs_border_color(wrap_t) ||
                             wrap_mode_needs_border_color(wrap_r);

   iris_pack_state(GENX(SAMPLER_STATE), cso->sampler_state, samp) {
      samp.TCXAddressControlMode = wrap_s;
      samp.TCYAddressControlMode = wrap_t;
      samp.TCZAddressControlMode = wrap_r;
      samp.CubeSurfaceControlMode = state->seamless_cube_map;
      samp.NonnormalizedCoordinateEnable = !state->normalized_coords;
      samp.MinModeFilter = state->min_img_filter;
      samp.MagModeFilter = state->mag_img_filter;
      samp.MipModeFilter = translate_mip_filter(state->min_mip_filter);
      samp.MaximumAnisotropy = RATIO21;

      if (state->max_anisotropy >= 2) {
         if (state->min_img_filter == PIPE_TEX_FILTER_LINEAR) {
            samp.MinModeFilter = MAPFILTER_ANISOTROPIC;
            samp.AnisotropicAlgorithm = EWAApproximation;
         }

         if (state->mag_img_filter == PIPE_TEX_FILTER_LINEAR)
            samp.MagModeFilter = MAPFILTER_ANISOTROPIC;

         samp.MaximumAnisotropy =
            MIN2((state->max_anisotropy - 2) / 2, RATIO161);
      }

      /* Set address rounding bits if not using nearest filtering. */
      if (state->min_img_filter != PIPE_TEX_FILTER_NEAREST) {
         samp.UAddressMinFilterRoundingEnable = true;
         samp.VAddressMinFilterRoundingEnable = true;
         samp.RAddressMinFilterRoundingEnable = true;
      }

      if (state->mag_img_filter != PIPE_TEX_FILTER_NEAREST) {
         samp.UAddressMagFilterRoundingEnable = true;
         samp.VAddressMagFilterRoundingEnable = true;
         samp.RAddressMagFilterRoundingEnable = true;
      }

      if (state->compare_mode == PIPE_TEX_COMPARE_R_TO_TEXTURE)
         samp.ShadowFunction = translate_shadow_func(state->compare_func);

      const float hw_max_lod = GEN_GEN >= 7 ? 14 : 13;

      samp.LODPreClampMode = CLAMP_MODE_OGL;
      samp.MinLOD = CLAMP(state->min_lod, 0, hw_max_lod);
      samp.MaxLOD = CLAMP(state->max_lod, 0, hw_max_lod);
      samp.TextureLODBias = CLAMP(state->lod_bias, -16, 15);

      //samp.BorderColorPointer = <<comes from elsewhere>>
   }

   return cso;
}

static void
iris_bind_sampler_states(struct pipe_context *ctx,
                         enum pipe_shader_type p_stage,
                         unsigned start, unsigned count,
                         void **states)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   gl_shader_stage stage = stage_from_pipe(p_stage);

   assert(start + count <= IRIS_MAX_TEXTURE_SAMPLERS);

   /* Assemble the SAMPLER_STATEs into a contiguous chunk of memory
    * relative to Dynamic State Base Address.
    */
   void *map = NULL;
   u_upload_alloc(ice->state.dynamic_uploader, 0,
                  count * 4 * GENX(SAMPLER_STATE_length), 32,
                  &ice->state.sampler_table_offset[stage],
                  &ice->state.sampler_table_resource[stage],
                  &map);
   if (unlikely(!map))
      return;

   struct pipe_resource *res = ice->state.sampler_table_resource[stage];
   ice->state.sampler_table_offset[stage] +=
      iris_bo_offset_from_base_address(iris_resource_bo(res));

   for (int i = 0; i < count; i++) {
      struct iris_sampler_state *state = states[i];

      /* Save a pointer to the iris_sampler_state, a few fields need
       * to inform draw-time decisions.
       */
      ice->state.samplers[stage][start + i] = state;

      if (state)
         memcpy(map, state->sampler_state, 4 * GENX(SAMPLER_STATE_length));

      map += GENX(SAMPLER_STATE_length);
   }

   ice->state.num_samplers[stage] = count;

   ice->state.dirty |= IRIS_DIRTY_SAMPLER_STATES_VS << stage;
}

struct iris_sampler_view {
   struct pipe_sampler_view pipe;
   struct isl_view view;

   /** The resource (BO) holding our SURFACE_STATE. */
   struct pipe_resource *surface_state_resource;
   unsigned surface_state_offset;

   //uint32_t surface_state[GENX(RENDER_SURFACE_STATE_length)];
};

/**
 * Convert an swizzle enumeration (i.e. PIPE_SWIZZLE_X) to one of the Gen7.5+
 * "Shader Channel Select" enumerations (i.e. HSW_SCS_RED).  The mappings are
 *
 * SWIZZLE_X, SWIZZLE_Y, SWIZZLE_Z, SWIZZLE_W, SWIZZLE_ZERO, SWIZZLE_ONE
 *         0          1          2          3             4            5
 *         4          5          6          7             0            1
 *   SCS_RED, SCS_GREEN,  SCS_BLUE, SCS_ALPHA,     SCS_ZERO,     SCS_ONE
 *
 * which is simply adding 4 then modding by 8 (or anding with 7).
 *
 * We then may need to apply workarounds for textureGather hardware bugs.
 */
static enum isl_channel_select
pipe_swizzle_to_isl_channel(enum pipe_swizzle swizzle)
{
   return (swizzle + 4) & 7;
}

static struct pipe_sampler_view *
iris_create_sampler_view(struct pipe_context *ctx,
                         struct pipe_resource *tex,
                         const struct pipe_sampler_view *tmpl)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_screen *screen = (struct iris_screen *)ctx->screen;
   struct iris_resource *itex = (struct iris_resource *) tex;
   struct iris_sampler_view *isv = calloc(1, sizeof(struct iris_sampler_view));

   if (!isv)
      return NULL;

   /* initialize base object */
   isv->pipe = *tmpl;
   isv->pipe.context = ctx;
   isv->pipe.texture = NULL;
   pipe_reference_init(&isv->pipe.reference, 1);
   pipe_resource_reference(&isv->pipe.texture, tex);

   /* XXX: do we need brw_get_texture_swizzle hacks here? */

   isv->view = (struct isl_view) {
      .format = iris_isl_format_for_pipe_format(tmpl->format),
      .base_level = tmpl->u.tex.first_level,
      .levels = tmpl->u.tex.last_level - tmpl->u.tex.first_level + 1,
      .base_array_layer = tmpl->u.tex.first_layer,
      .array_len = tmpl->u.tex.last_layer - tmpl->u.tex.first_layer + 1,
      .swizzle = (struct isl_swizzle) {
         .r = pipe_swizzle_to_isl_channel(tmpl->swizzle_r),
         .g = pipe_swizzle_to_isl_channel(tmpl->swizzle_g),
         .b = pipe_swizzle_to_isl_channel(tmpl->swizzle_b),
         .a = pipe_swizzle_to_isl_channel(tmpl->swizzle_a),
      },
      .usage = ISL_SURF_USAGE_TEXTURE_BIT,
   };

   void *map = NULL;
   u_upload_alloc(ice->state.surface_uploader, 0,
                  4 * GENX(RENDER_SURFACE_STATE_length), 64,
                  &isv->surface_state_offset,
                  &isv->surface_state_resource,
                  &map);
   if (!unlikely(map))
      return NULL;

   struct iris_bo *state_bo = iris_resource_bo(isv->surface_state_resource);
   isv->surface_state_offset += iris_bo_offset_from_base_address(state_bo);

   isl_surf_fill_state(&screen->isl_dev, map,
                       .surf = &itex->surf, .view = &isv->view,
                       .mocs = MOCS_WB,
                       .address = itex->bo->gtt_offset);
                       // .aux_surf =
                       // .clear_color = clear_color,

   return &isv->pipe;
}

struct iris_surface {
   struct pipe_surface pipe;
   struct isl_view view;

   /** The resource (BO) holding our SURFACE_STATE. */
   struct pipe_resource *surface_state_resource;
   unsigned surface_state_offset;

   // uint32_t surface_state[GENX(RENDER_SURFACE_STATE_length)];
};

static struct pipe_surface *
iris_create_surface(struct pipe_context *ctx,
                    struct pipe_resource *tex,
                    const struct pipe_surface *tmpl)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_screen *screen = (struct iris_screen *)ctx->screen;
   struct iris_surface *surf = calloc(1, sizeof(struct iris_surface));
   struct pipe_surface *psurf = &surf->pipe;
   struct iris_resource *res = (struct iris_resource *) tex;

   if (!surf)
      return NULL;

   pipe_reference_init(&psurf->reference, 1);
   pipe_resource_reference(&psurf->texture, tex);
   psurf->context = ctx;
   psurf->format = tmpl->format;
   psurf->width = tex->width0;
   psurf->height = tex->height0;
   psurf->texture = tex;
   psurf->u.tex.first_layer = tmpl->u.tex.first_layer;
   psurf->u.tex.last_layer = tmpl->u.tex.last_layer;
   psurf->u.tex.level = tmpl->u.tex.level;

   unsigned usage = 0;
   if (tmpl->writable)
      usage = ISL_SURF_USAGE_STORAGE_BIT;
   else if (util_format_is_depth_or_stencil(tmpl->format))
      usage = ISL_SURF_USAGE_DEPTH_BIT;
   else
      usage = ISL_SURF_USAGE_RENDER_TARGET_BIT;

   surf->view = (struct isl_view) {
      .format = iris_isl_format_for_pipe_format(tmpl->format),
      .base_level = tmpl->u.tex.level,
      .levels = 1,
      .base_array_layer = tmpl->u.tex.first_layer,
      .array_len = tmpl->u.tex.last_layer - tmpl->u.tex.first_layer + 1,
      .swizzle = ISL_SWIZZLE_IDENTITY,
      .usage = usage,
   };

   /* Bail early for depth/stencil */
   if (res->surf.usage & (ISL_SURF_USAGE_DEPTH_BIT |
                          ISL_SURF_USAGE_STENCIL_BIT))
      return psurf;

   void *map = NULL;
   u_upload_alloc(ice->state.surface_uploader, 0,
                  4 * GENX(RENDER_SURFACE_STATE_length), 64,
                  &surf->surface_state_offset,
                  &surf->surface_state_resource,
                  &map);
   if (!unlikely(map))
      return NULL;

   struct iris_bo *state_bo = iris_resource_bo(surf->surface_state_resource);
   surf->surface_state_offset += iris_bo_offset_from_base_address(state_bo);

   isl_surf_fill_state(&screen->isl_dev, map,
                       .surf = &res->surf, .view = &surf->view,
                       .mocs = MOCS_WB,
                       .address = res->bo->gtt_offset);
                       // .aux_surf =
                       // .clear_color = clear_color,

   return psurf;
}

static void
iris_set_sampler_views(struct pipe_context *ctx,
                       enum pipe_shader_type p_stage,
                       unsigned start, unsigned count,
                       struct pipe_sampler_view **views)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   gl_shader_stage stage = stage_from_pipe(p_stage);

   unsigned i;
   for (i = 0; i < count; i++) {
      pipe_sampler_view_reference((struct pipe_sampler_view **)
                                  &ice->state.textures[stage][i], views[i]);
   }
   for (; i < ice->state.num_textures[stage]; i++) {
      pipe_sampler_view_reference((struct pipe_sampler_view **)
                                  &ice->state.textures[stage][i], NULL);
   }

   ice->state.num_textures[stage] = count;

   // XXX: ice->state.dirty |= (IRIS_DIRTY_BINDING_TABLE_VS << stage);
}

static void
iris_set_clip_state(struct pipe_context *ctx,
                    const struct pipe_clip_state *state)
{
}

static void
iris_set_polygon_stipple(struct pipe_context *ctx,
                         const struct pipe_poly_stipple *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   memcpy(&ice->state.poly_stipple, state, sizeof(*state));
   ice->state.dirty |= IRIS_DIRTY_POLYGON_STIPPLE;
}

static void
iris_set_sample_mask(struct pipe_context *ctx, unsigned sample_mask)
{
   struct iris_context *ice = (struct iris_context *) ctx;

   ice->state.sample_mask = sample_mask;
   ice->state.dirty |= IRIS_DIRTY_SAMPLE_MASK;
}

static void
iris_set_scissor_states(struct pipe_context *ctx,
                        unsigned start_slot,
                        unsigned num_scissors,
                        const struct pipe_scissor_state *states)
{
   struct iris_context *ice = (struct iris_context *) ctx;

   ice->state.num_scissors = num_scissors;

   for (unsigned i = 0; i < num_scissors; i++) {
      ice->state.scissors[start_slot + i] = states[i];
   }

   ice->state.dirty |= IRIS_DIRTY_SCISSOR_RECT;
}

static void
iris_set_stencil_ref(struct pipe_context *ctx,
                     const struct pipe_stencil_ref *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   memcpy(&ice->state.stencil_ref, state, sizeof(*state));
   ice->state.dirty |= IRIS_DIRTY_WM_DEPTH_STENCIL;
}


struct iris_viewport_state {
   uint32_t sf_cl_vp[GENX(SF_CLIP_VIEWPORT_length) * IRIS_MAX_VIEWPORTS];
};

static float
viewport_extent(const struct pipe_viewport_state *state, int axis, float sign)
{
   return copysignf(state->scale[axis], sign) + state->translate[axis];
}

#if 0
static void
calculate_guardband_size(uint32_t fb_width, uint32_t fb_height,
                         float m00, float m11, float m30, float m31,
                         float *xmin, float *xmax,
                         float *ymin, float *ymax)
{
   /* According to the "Vertex X,Y Clamping and Quantization" section of the
    * Strips and Fans documentation:
    *
    * "The vertex X and Y screen-space coordinates are also /clamped/ to the
    *  fixed-point "guardband" range supported by the rasterization hardware"
    *
    * and
    *
    * "In almost all circumstances, if an object’s vertices are actually
    *  modified by this clamping (i.e., had X or Y coordinates outside of
    *  the guardband extent the rendered object will not match the intended
    *  result.  Therefore software should take steps to ensure that this does
    *  not happen - e.g., by clipping objects such that they do not exceed
    *  these limits after the Drawing Rectangle is applied."
    *
    * I believe the fundamental restriction is that the rasterizer (in
    * the SF/WM stages) have a limit on the number of pixels that can be
    * rasterized.  We need to ensure any coordinates beyond the rasterizer
    * limit are handled by the clipper.  So effectively that limit becomes
    * the clipper's guardband size.
    *
    * It goes on to say:
    *
    * "In addition, in order to be correctly rendered, objects must have a
    *  screenspace bounding box not exceeding 8K in the X or Y direction.
    *  This additional restriction must also be comprehended by software,
    *  i.e., enforced by use of clipping."
    *
    * This makes no sense.  Gen7+ hardware supports 16K render targets,
    * and you definitely need to be able to draw polygons that fill the
    * surface.  Our assumption is that the rasterizer was limited to 8K
    * on Sandybridge, which only supports 8K surfaces, and it was actually
    * increased to 16K on Ivybridge and later.
    *
    * So, limit the guardband to 16K on Gen7+ and 8K on Sandybridge.
    */
   const float gb_size = GEN_GEN >= 7 ? 16384.0f : 8192.0f;

   if (m00 != 0 && m11 != 0) {
      /* First, we compute the screen-space render area */
      const float ss_ra_xmin = MIN3(        0, m30 + m00, m30 - m00);
      const float ss_ra_xmax = MAX3( fb_width, m30 + m00, m30 - m00);
      const float ss_ra_ymin = MIN3(        0, m31 + m11, m31 - m11);
      const float ss_ra_ymax = MAX3(fb_height, m31 + m11, m31 - m11);

      /* We want the guardband to be centered on that */
      const float ss_gb_xmin = (ss_ra_xmin + ss_ra_xmax) / 2 - gb_size;
      const float ss_gb_xmax = (ss_ra_xmin + ss_ra_xmax) / 2 + gb_size;
      const float ss_gb_ymin = (ss_ra_ymin + ss_ra_ymax) / 2 - gb_size;
      const float ss_gb_ymax = (ss_ra_ymin + ss_ra_ymax) / 2 + gb_size;

      /* Now we need it in native device coordinates */
      const float ndc_gb_xmin = (ss_gb_xmin - m30) / m00;
      const float ndc_gb_xmax = (ss_gb_xmax - m30) / m00;
      const float ndc_gb_ymin = (ss_gb_ymin - m31) / m11;
      const float ndc_gb_ymax = (ss_gb_ymax - m31) / m11;

      /* Thanks to Y-flipping and ORIGIN_UPPER_LEFT, the Y coordinates may be
       * flipped upside-down.  X should be fine though.
       */
      assert(ndc_gb_xmin <= ndc_gb_xmax);
      *xmin = ndc_gb_xmin;
      *xmax = ndc_gb_xmax;
      *ymin = MIN2(ndc_gb_ymin, ndc_gb_ymax);
      *ymax = MAX2(ndc_gb_ymin, ndc_gb_ymax);
   } else {
      /* The viewport scales to 0, so nothing will be rendered. */
      *xmin = 0.0f;
      *xmax = 0.0f;
      *ymin = 0.0f;
      *ymax = 0.0f;
   }
}
#endif

static void
iris_set_viewport_states(struct pipe_context *ctx,
                         unsigned start_slot,
                         unsigned num_viewports,
                         const struct pipe_viewport_state *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_viewport_state *cso =
      malloc(sizeof(struct iris_viewport_state));
   uint32_t *vp_map = &cso->sf_cl_vp[start_slot];

   // XXX: sf_cl_vp is only big enough for one slot, we don't iterate right
   for (unsigned i = 0; i < num_viewports; i++) {
      iris_pack_state(GENX(SF_CLIP_VIEWPORT), vp_map, vp) {
         vp.ViewportMatrixElementm00 = state[i].scale[0];
         vp.ViewportMatrixElementm11 = state[i].scale[1];
         vp.ViewportMatrixElementm22 = state[i].scale[2];
         vp.ViewportMatrixElementm30 = state[i].translate[0];
         vp.ViewportMatrixElementm31 = state[i].translate[1];
         vp.ViewportMatrixElementm32 = state[i].translate[2];
         /* XXX: in i965 this is computed based on the drawbuffer size,
          * but we don't have that here...
          */
         vp.XMinClipGuardband = -1.0;
         vp.XMaxClipGuardband = 1.0;
         vp.YMinClipGuardband = -1.0;
         vp.YMaxClipGuardband = 1.0;
         vp.XMinViewPort = viewport_extent(&state[i], 0, -1.0f);
         vp.XMaxViewPort = viewport_extent(&state[i], 0,  1.0f) - 1;
         vp.YMinViewPort = viewport_extent(&state[i], 1, -1.0f);
         vp.YMaxViewPort = viewport_extent(&state[i], 1,  1.0f) - 1;
      }

      vp_map += GENX(SF_CLIP_VIEWPORT_length);
   }

   ice->state.cso_vp = cso;
   ice->state.num_viewports = num_viewports;
   ice->state.dirty |= IRIS_DIRTY_SF_CL_VIEWPORT;
}

struct iris_depth_buffer_state
{
   uint32_t packets[GENX(3DSTATE_DEPTH_BUFFER_length) +
                    GENX(3DSTATE_STENCIL_BUFFER_length) +
                    GENX(3DSTATE_HIER_DEPTH_BUFFER_length) +
                    GENX(3DSTATE_CLEAR_PARAMS_length)];
};

static void
iris_set_framebuffer_state(struct pipe_context *ctx,
                           const struct pipe_framebuffer_state *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_screen *screen = (struct iris_screen *)ctx->screen;
   struct isl_device *isl_dev = &screen->isl_dev;
   struct pipe_framebuffer_state *cso = &ice->state.framebuffer;

   if (cso->samples != state->samples) {
      ice->state.dirty |= IRIS_DIRTY_MULTISAMPLE;
   }

   if (cso->nr_cbufs != state->nr_cbufs) {
      ice->state.dirty |= IRIS_DIRTY_BLEND_STATE;
   }

   util_copy_framebuffer_state(cso, state);

   struct iris_depth_buffer_state *cso_z =
      malloc(sizeof(struct iris_depth_buffer_state));

   struct isl_view view = {
      /* Some nice defaults */
      .base_level = 0,
      .levels = 1,
      .base_array_layer = 0,
      .array_len = 1,
      .swizzle = ISL_SWIZZLE_IDENTITY,
   };

   struct isl_depth_stencil_hiz_emit_info info = {
      .view = &view,
      .mocs = MOCS_WB,
   };

   struct iris_resource *zres =
      (void *) (cso->zsbuf ? cso->zsbuf->texture : NULL);

   if (zres) {
      view.usage |= ISL_SURF_USAGE_DEPTH_BIT;

      info.depth_surf = &zres->surf;
      info.depth_address = zres->bo->gtt_offset;

      view.format = zres->surf.format;

      view.base_level = cso->zsbuf->u.tex.level;
      view.base_array_layer = cso->zsbuf->u.tex.first_layer;
      view.array_len =
         cso->zsbuf->u.tex.last_layer - cso->zsbuf->u.tex.first_layer + 1;

      info.hiz_usage = ISL_AUX_USAGE_NONE;
   }

#if 0
   if (stencil_mt) {
      view.usage |= ISL_SURF_USAGE_STENCIL_BIT;
      info.stencil_surf = &stencil_mt->surf;

      if (!depth_mt) {
         view.base_level = stencil_irb->mt_level - stencil_irb->mt->first_level;
         view.base_array_layer = stencil_irb->mt_layer;
         view.array_len = MAX2(stencil_irb->layer_count, 1);
         view.format = stencil_mt->surf.format;
      }

      uint32_t stencil_offset = 0;
      info.stencil_address = stencil_mt->bo->gtt_offset + stencil_mt->offset;
   }
#endif

   isl_emit_depth_stencil_hiz_s(isl_dev, cso_z->packets, &info);

   ice->state.cso_depthbuffer = cso_z;
   ice->state.dirty |= IRIS_DIRTY_DEPTH_BUFFER;
}

static void
iris_set_constant_buffer(struct pipe_context *ctx,
                         enum pipe_shader_type p_stage, unsigned index,
                         const struct pipe_constant_buffer *input)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_screen *screen = (struct iris_screen *)ctx->screen;
   gl_shader_stage stage = stage_from_pipe(p_stage);
   struct iris_shader_state *shs = &ice->shaders.state[stage];
   struct iris_const_buffer *cbuf = &shs->constbuf[index];

   if (input && (input->buffer || input->user_buffer)) {
      if (input->user_buffer) {
         u_upload_data(ctx->const_uploader, 0, input->buffer_size, 32,
                       input->user_buffer, &cbuf->offset, &cbuf->resource);
      } else {
         pipe_resource_reference(&cbuf->resource, input->buffer);
      }

      void *map = NULL;
      // XXX: these are not retained forever, use a separate uploader?
      u_upload_alloc(ice->state.surface_uploader, 0,
                     4 * GENX(RENDER_SURFACE_STATE_length), 64,
                     &cbuf->surface_state_offset,
                     &cbuf->surface_state_resource,
                     &map);
      if (!unlikely(map)) {
         pipe_resource_reference(&cbuf->resource, NULL);
         return;
      }

      struct iris_resource *res = (void *) cbuf->resource;
      struct iris_bo *surf_bo = iris_resource_bo(cbuf->surface_state_resource);
      cbuf->surface_state_offset += iris_bo_offset_from_base_address(surf_bo);

      isl_buffer_fill_state(&screen->isl_dev, map,
                            .address = res->bo->gtt_offset + cbuf->offset,
                            .size_B = input->buffer_size,
                            .format = ISL_FORMAT_R32G32B32A32_FLOAT,
                            .stride_B = 1,
                            .mocs = MOCS_WB)
   } else {
      pipe_resource_reference(&cbuf->resource, NULL);
      pipe_resource_reference(&cbuf->surface_state_resource, NULL);
   }
}

static void
iris_sampler_view_destroy(struct pipe_context *ctx,
                          struct pipe_sampler_view *state)
{
   struct iris_sampler_view *isv = (void *) state;
   pipe_resource_reference(&state->texture, NULL);
   pipe_resource_reference(&isv->surface_state_resource, NULL);
   free(isv);
}


static void
iris_surface_destroy(struct pipe_context *ctx, struct pipe_surface *p_surf)
{
   struct iris_surface *surf = (void *) p_surf;
   pipe_resource_reference(&p_surf->texture, NULL);
   pipe_resource_reference(&surf->surface_state_resource, NULL);
   free(surf);
}

static void
iris_delete_state(struct pipe_context *ctx, void *state)
{
   free(state);
}

struct iris_vertex_buffer_state {
   uint32_t vertex_buffers[1 + 33 * GENX(VERTEX_BUFFER_STATE_length)];
   struct iris_bo *bos[33];
   unsigned num_buffers;
};

static void
iris_free_vertex_buffers(struct iris_vertex_buffer_state *cso)
{
   if (cso) {
      for (unsigned i = 0; i < cso->num_buffers; i++)
         iris_bo_unreference(cso->bos[i]);
      free(cso);
   }
}

static void
iris_set_vertex_buffers(struct pipe_context *ctx,
                        unsigned start_slot, unsigned count,
                        const struct pipe_vertex_buffer *buffers)
{
   struct iris_context *ice = (struct iris_context *) ctx;
   struct iris_vertex_buffer_state *cso =
      malloc(sizeof(struct iris_vertex_buffer_state));

   /* If there are no buffers, do nothing.  We can leave the stale
    * 3DSTATE_VERTEX_BUFFERS in place - as long as there are no vertex
    * elements that point to them, it should be fine.
    */
   if (!buffers)
      return;

   iris_free_vertex_buffers(ice->state.cso_vertex_buffers);

   cso->num_buffers = count;

   iris_pack_command(GENX(3DSTATE_VERTEX_BUFFERS), cso->vertex_buffers, vb) {
      vb.DWordLength = 4 * cso->num_buffers - 1;
   }

   uint32_t *vb_pack_dest = &cso->vertex_buffers[1];

   for (unsigned i = 0; i < count; i++) {
      assert(!buffers[i].is_user_buffer);

      struct iris_resource *res = (void *) buffers[i].buffer.resource;
      iris_bo_reference(res->bo);
      cso->bos[i] = res->bo;

      iris_pack_state(GENX(VERTEX_BUFFER_STATE), vb_pack_dest, vb) {
         vb.VertexBufferIndex = start_slot + i;
         vb.MOCS = MOCS_WB;
         vb.AddressModifyEnable = true;
         vb.BufferPitch = buffers[i].stride;
         vb.BufferSize = res->bo->size;
         vb.BufferStartingAddress =
            ro_bo(NULL, res->bo->gtt_offset + buffers[i].buffer_offset);
      }

      vb_pack_dest += GENX(VERTEX_BUFFER_STATE_length);
   }

   ice->state.cso_vertex_buffers = cso;
   ice->state.dirty |= IRIS_DIRTY_VERTEX_BUFFERS;
}

struct iris_vertex_element_state {
   uint32_t vertex_elements[1 + 33 * GENX(VERTEX_ELEMENT_STATE_length)];
   uint32_t vf_instancing[33 * GENX(3DSTATE_VF_INSTANCING_length)];
   unsigned count;
};

static void *
iris_create_vertex_elements(struct pipe_context *ctx,
                            unsigned count,
                            const struct pipe_vertex_element *state)
{
   struct iris_vertex_element_state *cso =
      malloc(sizeof(struct iris_vertex_element_state));

   cso->count = count;

   /* TODO:
    *  - create edge flag one
    *  - create SGV ones
    *  - if those are necessary, use count + 1/2/3... OR in the length
    */
   iris_pack_command(GENX(3DSTATE_VERTEX_ELEMENTS), cso->vertex_elements, ve) {
      ve.DWordLength =
         1 + GENX(VERTEX_ELEMENT_STATE_length) * MAX2(count, 1) - 2;
   }

   uint32_t *ve_pack_dest = &cso->vertex_elements[1];
   uint32_t *vfi_pack_dest = cso->vf_instancing;

   for (int i = 0; i < count; i++) {
      enum isl_format isl_format =
         iris_isl_format_for_pipe_format(state[i].src_format);
      unsigned comp[4] = { VFCOMP_STORE_SRC, VFCOMP_STORE_SRC,
                           VFCOMP_STORE_SRC, VFCOMP_STORE_SRC };

      switch (isl_format_get_num_channels(isl_format)) {
      case 0: comp[0] = VFCOMP_STORE_0;
      case 1: comp[1] = VFCOMP_STORE_0;
      case 2: comp[2] = VFCOMP_STORE_0;
      case 3:
         comp[3] = isl_format_has_int_channel(isl_format) ? VFCOMP_STORE_1_INT
                                                          : VFCOMP_STORE_1_FP;
         break;
      }
      iris_pack_state(GENX(VERTEX_ELEMENT_STATE), ve_pack_dest, ve) {
         ve.VertexBufferIndex = state[i].vertex_buffer_index;
         ve.Valid = true;
         ve.SourceElementOffset = state[i].src_offset;
         ve.SourceElementFormat = isl_format;
         ve.Component0Control = comp[0];
         ve.Component1Control = comp[1];
         ve.Component2Control = comp[2];
         ve.Component3Control = comp[3];
      }

      iris_pack_command(GENX(3DSTATE_VF_INSTANCING), vfi_pack_dest, vi) {
         vi.VertexElementIndex = i;
         vi.InstancingEnable = state[i].instance_divisor > 0;
         vi.InstanceDataStepRate = state[i].instance_divisor;
      }

      ve_pack_dest += GENX(VERTEX_ELEMENT_STATE_length);
      vfi_pack_dest += GENX(3DSTATE_VF_INSTANCING_length);
   }

   return cso;
}

static void
iris_bind_vertex_elements_state(struct pipe_context *ctx, void *state)
{
   struct iris_context *ice = (struct iris_context *) ctx;

   ice->state.cso_vertex_elements = state;
   ice->state.dirty |= IRIS_DIRTY_VERTEX_ELEMENTS;
}

static void *
iris_create_compute_state(struct pipe_context *ctx,
                          const struct pipe_compute_state *state)
{
   return malloc(1);
}

static struct pipe_stream_output_target *
iris_create_stream_output_target(struct pipe_context *ctx,
                                 struct pipe_resource *res,
                                 unsigned buffer_offset,
                                 unsigned buffer_size)
{
   struct pipe_stream_output_target *t =
      CALLOC_STRUCT(pipe_stream_output_target);
   if (!t)
      return NULL;

   pipe_reference_init(&t->reference, 1);
   pipe_resource_reference(&t->buffer, res);
   t->buffer_offset = buffer_offset;
   t->buffer_size = buffer_size;
   return t;
}

static void
iris_stream_output_target_destroy(struct pipe_context *ctx,
                                  struct pipe_stream_output_target *t)
{
   pipe_resource_reference(&t->buffer, NULL);
   free(t);
}

static void
iris_set_stream_output_targets(struct pipe_context *ctx,
                               unsigned num_targets,
                               struct pipe_stream_output_target **targets,
                               const unsigned *offsets)
{
}

static void
iris_compute_sbe_urb_read_interval(uint64_t fs_input_slots,
                                   const struct brw_vue_map *last_vue_map,
                                   bool two_sided_color,
                                   unsigned *out_offset,
                                   unsigned *out_length)
{
   /* The compiler computes the first URB slot without considering COL/BFC
    * swizzling (because it doesn't know whether it's enabled), so we need
    * to do that here too.  This may result in a smaller offset, which
    * should be safe.
    */
   const unsigned first_slot =
      brw_compute_first_urb_slot_required(fs_input_slots, last_vue_map);

   /* This becomes the URB read offset (counted in pairs of slots). */
   assert(first_slot % 2 == 0);
   *out_offset = first_slot / 2;

   /* We need to adjust the inputs read to account for front/back color
    * swizzling, as it can make the URB length longer.
    */
   for (int c = 0; c <= 1; c++) {
      if (fs_input_slots & (VARYING_BIT_COL0 << c)) {
         /* If two sided color is enabled, the fragment shader's gl_Color
          * (COL0) input comes from either the gl_FrontColor (COL0) or
          * gl_BackColor (BFC0) input varyings.  Mark BFC as used, too.
          */
         if (two_sided_color)
            fs_input_slots |= (VARYING_BIT_BFC0 << c);

         /* If front color isn't written, we opt to give them back color
          * instead of an undefined value.  Switch from COL to BFC.
          */
         if (last_vue_map->varying_to_slot[VARYING_SLOT_COL0 + c] == -1) {
            fs_input_slots &= ~(VARYING_BIT_COL0 << c);
            fs_input_slots |= (VARYING_BIT_BFC0 << c);
         }
      }
   }

   /* Compute the minimum URB Read Length necessary for the FS inputs.
    *
    * From the Sandy Bridge PRM, Volume 2, Part 1, documentation for
    * 3DSTATE_SF DWord 1 bits 15:11, "Vertex URB Entry Read Length":
    *
    * "This field should be set to the minimum length required to read the
    *  maximum source attribute.  The maximum source attribute is indicated
    *  by the maximum value of the enabled Attribute # Source Attribute if
    *  Attribute Swizzle Enable is set, Number of Output Attributes-1 if
    *  enable is not set.
    *  read_length = ceiling((max_source_attr + 1) / 2)
    *
    *  [errata] Corruption/Hang possible if length programmed larger than
    *  recommended"
    *
    * Similar text exists for Ivy Bridge.
    *
    * We find the last URB slot that's actually read by the FS.
    */
   unsigned last_read_slot = last_vue_map->num_slots - 1;
   while (last_read_slot > first_slot && !(fs_input_slots &
          (1ull << last_vue_map->slot_to_varying[last_read_slot])))
      --last_read_slot;

   /* The URB read length is the difference of the two, counted in pairs. */
   *out_length = DIV_ROUND_UP(last_read_slot - first_slot + 1, 2);
}

static void
iris_emit_sbe(struct iris_batch *batch, const struct iris_context *ice)
{
   const struct iris_rasterizer_state *cso_rast = ice->state.cso_rast;
   const struct brw_wm_prog_data *wm_prog_data = (void *)
      ice->shaders.prog[MESA_SHADER_FRAGMENT]->prog_data;
   struct pipe_shader_state *p_fs =
      (void *) ice->shaders.uncompiled[MESA_SHADER_FRAGMENT];
   assert(p_fs->type == PIPE_SHADER_IR_NIR);
   nir_shader *fs_nir = p_fs->ir.nir;

   unsigned urb_read_offset, urb_read_length;
   iris_compute_sbe_urb_read_interval(fs_nir->info.inputs_read,
                                      ice->shaders.last_vue_map,
                                      cso_rast->light_twoside,
                                      &urb_read_offset, &urb_read_length);

   iris_emit_cmd(batch, GENX(3DSTATE_SBE), sbe) {
      sbe.AttributeSwizzleEnable = true;
      sbe.NumberofSFOutputAttributes = wm_prog_data->num_varying_inputs;
      sbe.PointSpriteTextureCoordinateOrigin = cso_rast->sprite_coord_mode;
      sbe.VertexURBEntryReadOffset = urb_read_offset;
      sbe.VertexURBEntryReadLength = urb_read_length;
      sbe.ForceVertexURBEntryReadOffset = true;
      sbe.ForceVertexURBEntryReadLength = true;
      sbe.ConstantInterpolationEnable = wm_prog_data->flat_inputs;

      for (int i = 0; i < 32; i++) {
         sbe.AttributeActiveComponentFormat[i] = ACTIVE_COMPONENT_XYZW;
      }
   }
}

static void
iris_bind_compute_state(struct pipe_context *ctx, void *state)
{
}

static void
iris_populate_sampler_key(const struct iris_context *ice,
                          struct brw_sampler_prog_key_data *key)
{
   for (int i = 0; i < MAX_SAMPLERS; i++) {
      key->swizzles[i] = 0x688; /* XYZW */
   }
}

static void
iris_populate_vs_key(const struct iris_context *ice,
                     struct brw_vs_prog_key *key)
{
   memset(key, 0, sizeof(*key));
   iris_populate_sampler_key(ice, &key->tex);
}

static void
iris_populate_tcs_key(const struct iris_context *ice,
                      struct brw_tcs_prog_key *key)
{
   memset(key, 0, sizeof(*key));
   iris_populate_sampler_key(ice, &key->tex);
}

static void
iris_populate_tes_key(const struct iris_context *ice,
                      struct brw_tes_prog_key *key)
{
   memset(key, 0, sizeof(*key));
   iris_populate_sampler_key(ice, &key->tex);
}

static void
iris_populate_gs_key(const struct iris_context *ice,
                     struct brw_gs_prog_key *key)
{
   memset(key, 0, sizeof(*key));
   iris_populate_sampler_key(ice, &key->tex);
}

static void
iris_populate_fs_key(const struct iris_context *ice,
                     struct brw_wm_prog_key *key)
{
   memset(key, 0, sizeof(*key));
   iris_populate_sampler_key(ice, &key->tex);

   /* XXX: dirty flags? */
   const struct pipe_framebuffer_state *fb = &ice->state.framebuffer;
   const struct iris_depth_stencil_alpha_state *zsa = ice->state.cso_zsa;
   const struct iris_rasterizer_state *rast = ice->state.cso_rast;
   const struct iris_blend_state *blend = ice->state.cso_blend;

   key->nr_color_regions = fb->nr_cbufs;

   key->clamp_fragment_color = rast->clamp_fragment_color;

   key->replicate_alpha = fb->nr_cbufs > 1 &&
      (zsa->alpha.enabled || blend->alpha_to_coverage);

   // key->force_dual_color_blend for unigine
#if 0
   if (cso_rast->multisample) {
      key->persample_interp =
         ctx->Multisample.SampleShading &&
         (ctx->Multisample.MinSampleShadingValue *
          _mesa_geometric_samples(ctx->DrawBuffer) > 1);

      key->multisample_fbo = fb->samples > 1;
   }
#endif

   key->coherent_fb_fetch = true;
}

   //pkt.SamplerCount =                                                     \
      //DIV_ROUND_UP(CLAMP(stage_state->sampler_count, 0, 16), 4);          \
   //pkt.PerThreadScratchSpace = prog_data->total_scratch == 0 ? 0 :        \
      //ffs(stage_state->per_thread_scratch) - 11;                          \

static uint64_t
KSP(const struct iris_compiled_shader *shader)
{
   struct iris_resource *res = (void *) shader->buffer;
   return res->bo->gtt_offset + shader->offset;
}

#define INIT_THREAD_DISPATCH_FIELDS(pkt, prefix)                          \
   pkt.KernelStartPointer = KSP(shader);                                  \
   pkt.BindingTableEntryCount = prog_data->binding_table.size_bytes / 4;  \
   pkt.FloatingPointMode = prog_data->use_alt_mode;                       \
                                                                          \
   pkt.DispatchGRFStartRegisterForURBData =                               \
      prog_data->dispatch_grf_start_reg;                                  \
   pkt.prefix##URBEntryReadLength = vue_prog_data->urb_read_length;       \
   pkt.prefix##URBEntryReadOffset = 0;                                    \
                                                                          \
   pkt.StatisticsEnable = true;                                           \
   pkt.Enable           = true;

static void
iris_set_vs_state(const struct gen_device_info *devinfo,
                  struct iris_compiled_shader *shader)
{
   struct brw_stage_prog_data *prog_data = shader->prog_data;
   struct brw_vue_prog_data *vue_prog_data = (void *) prog_data;

   iris_pack_command(GENX(3DSTATE_VS), shader->derived_data, vs) {
      INIT_THREAD_DISPATCH_FIELDS(vs, Vertex);
      vs.MaximumNumberofThreads = devinfo->max_vs_threads - 1;
      vs.SIMD8DispatchEnable = true;
      vs.UserClipDistanceCullTestEnableBitmask =
         vue_prog_data->cull_distance_mask;
   }
}

static void
iris_set_tcs_state(const struct gen_device_info *devinfo,
                   struct iris_compiled_shader *shader)
{
   struct brw_stage_prog_data *prog_data = shader->prog_data;
   struct brw_vue_prog_data *vue_prog_data = (void *) prog_data;
   struct brw_tcs_prog_data *tcs_prog_data = (void *) prog_data;

   iris_pack_command(GENX(3DSTATE_HS), shader->derived_data, hs) {
      INIT_THREAD_DISPATCH_FIELDS(hs, Vertex);

      hs.InstanceCount = tcs_prog_data->instances - 1;
      hs.MaximumNumberofThreads = devinfo->max_tcs_threads - 1;
      hs.IncludeVertexHandles = true;
   }
}

static void
iris_set_tes_state(const struct gen_device_info *devinfo,
                   struct iris_compiled_shader *shader)
{
   struct brw_stage_prog_data *prog_data = shader->prog_data;
   struct brw_vue_prog_data *vue_prog_data = (void *) prog_data;
   struct brw_tes_prog_data *tes_prog_data = (void *) prog_data;

   uint32_t *te_state = (void *) shader->derived_data;
   uint32_t *ds_state = te_state + GENX(3DSTATE_TE_length);

   iris_pack_command(GENX(3DSTATE_TE), te_state, te) {
      te.Partitioning = tes_prog_data->partitioning;
      te.OutputTopology = tes_prog_data->output_topology;
      te.TEDomain = tes_prog_data->domain;
      te.TEEnable = true;
      te.MaximumTessellationFactorOdd = 63.0;
      te.MaximumTessellationFactorNotOdd = 64.0;
   }

   iris_pack_command(GENX(3DSTATE_DS), ds_state, ds) {
      INIT_THREAD_DISPATCH_FIELDS(ds, Patch);

      ds.DispatchMode = DISPATCH_MODE_SIMD8_SINGLE_PATCH;
      ds.MaximumNumberofThreads = devinfo->max_tes_threads - 1;
      ds.ComputeWCoordinateEnable =
         tes_prog_data->domain == BRW_TESS_DOMAIN_TRI;

      ds.UserClipDistanceCullTestEnableBitmask =
         vue_prog_data->cull_distance_mask;
   }

}

static void
iris_set_gs_state(const struct gen_device_info *devinfo,
                  struct iris_compiled_shader *shader)
{
   struct brw_stage_prog_data *prog_data = shader->prog_data;
   struct brw_vue_prog_data *vue_prog_data = (void *) prog_data;
   struct brw_gs_prog_data *gs_prog_data = (void *) prog_data;

   iris_pack_command(GENX(3DSTATE_GS), shader->derived_data, gs) {
      INIT_THREAD_DISPATCH_FIELDS(gs, Vertex);

      gs.OutputVertexSize = gs_prog_data->output_vertex_size_hwords * 2 - 1;
      gs.OutputTopology = gs_prog_data->output_topology;
      gs.ControlDataHeaderSize =
         gs_prog_data->control_data_header_size_hwords;
      gs.InstanceControl = gs_prog_data->invocations - 1;
      gs.DispatchMode = SIMD8;
      gs.IncludePrimitiveID = gs_prog_data->include_primitive_id;
      gs.ControlDataFormat = gs_prog_data->control_data_format;
      gs.ReorderMode = TRAILING;
      gs.ExpectedVertexCount = gs_prog_data->vertices_in;
      gs.MaximumNumberofThreads =
         GEN_GEN == 8 ? (devinfo->max_gs_threads / 2 - 1)
                      : (devinfo->max_gs_threads - 1);

      if (gs_prog_data->static_vertex_count != -1) {
         gs.StaticOutput = true;
         gs.StaticOutputVertexCount = gs_prog_data->static_vertex_count;
      }
      gs.IncludeVertexHandles = vue_prog_data->include_vue_handles;

      gs.UserClipDistanceCullTestEnableBitmask =
         vue_prog_data->cull_distance_mask;

      const int urb_entry_write_offset = 1;
      const uint32_t urb_entry_output_length =
         DIV_ROUND_UP(vue_prog_data->vue_map.num_slots, 2) -
         urb_entry_write_offset;

      gs.VertexURBEntryOutputReadOffset = urb_entry_write_offset;
      gs.VertexURBEntryOutputLength = MAX2(urb_entry_output_length, 1);
   }
}

static void
iris_set_fs_state(const struct gen_device_info *devinfo,
                  struct iris_compiled_shader *shader)
{
   struct brw_stage_prog_data *prog_data = shader->prog_data;
   struct brw_wm_prog_data *wm_prog_data = (void *) shader->prog_data;

   uint32_t *ps_state = (void *) shader->derived_data;
   uint32_t *psx_state = ps_state + GENX(3DSTATE_PS_length);

   iris_pack_command(GENX(3DSTATE_PS), ps_state, ps) {
      ps.VectorMaskEnable = true;
      //ps.SamplerCount = ...
      ps.BindingTableEntryCount = prog_data->binding_table.size_bytes / 4;
      ps.FloatingPointMode = prog_data->use_alt_mode;
      ps.MaximumNumberofThreadsPerPSD = 64 - (GEN_GEN == 8 ? 2 : 1);

      ps.PushConstantEnable = prog_data->nr_params > 0 ||
                              prog_data->ubo_ranges[0].length > 0;

      /* From the documentation for this packet:
       * "If the PS kernel does not need the Position XY Offsets to
       *  compute a Position Value, then this field should be programmed
       *  to POSOFFSET_NONE."
       *
       * "SW Recommendation: If the PS kernel needs the Position Offsets
       *  to compute a Position XY value, this field should match Position
       *  ZW Interpolation Mode to ensure a consistent position.xyzw
       *  computation."
       *
       * We only require XY sample offsets. So, this recommendation doesn't
       * look useful at the moment.  We might need this in future.
       */
      ps.PositionXYOffsetSelect =
         wm_prog_data->uses_pos_offset ? POSOFFSET_SAMPLE : POSOFFSET_NONE;
      ps._8PixelDispatchEnable = wm_prog_data->dispatch_8;
      ps._16PixelDispatchEnable = wm_prog_data->dispatch_16;
      ps._32PixelDispatchEnable = wm_prog_data->dispatch_32;

      // XXX: Disable SIMD32 with 16x MSAA

      ps.DispatchGRFStartRegisterForConstantSetupData0 =
         brw_wm_prog_data_dispatch_grf_start_reg(wm_prog_data, ps, 0);
      ps.DispatchGRFStartRegisterForConstantSetupData1 =
         brw_wm_prog_data_dispatch_grf_start_reg(wm_prog_data, ps, 1);
      ps.DispatchGRFStartRegisterForConstantSetupData2 =
         brw_wm_prog_data_dispatch_grf_start_reg(wm_prog_data, ps, 2);

      ps.KernelStartPointer0 =
         KSP(shader) + brw_wm_prog_data_prog_offset(wm_prog_data, ps, 0);
      ps.KernelStartPointer1 =
         KSP(shader) + brw_wm_prog_data_prog_offset(wm_prog_data, ps, 1);
      ps.KernelStartPointer2 =
         KSP(shader) + brw_wm_prog_data_prog_offset(wm_prog_data, ps, 2);
   }

   iris_pack_command(GENX(3DSTATE_PS_EXTRA), psx_state, psx) {
      psx.PixelShaderValid = true;
      psx.PixelShaderComputedDepthMode = wm_prog_data->computed_depth_mode;
      psx.PixelShaderKillsPixel = wm_prog_data->uses_kill;
      psx.AttributeEnable = wm_prog_data->num_varying_inputs != 0;
      psx.PixelShaderUsesSourceDepth = wm_prog_data->uses_src_depth;
      psx.PixelShaderUsesSourceW = wm_prog_data->uses_src_w;
      psx.PixelShaderIsPerSample = wm_prog_data->persample_dispatch;

      if (wm_prog_data->uses_sample_mask) {
         /* TODO: conservative rasterization */
         if (wm_prog_data->post_depth_coverage)
            psx.InputCoverageMaskState = ICMS_DEPTH_COVERAGE;
         else
            psx.InputCoverageMaskState = ICMS_NORMAL;
      }

      psx.oMaskPresenttoRenderTarget = wm_prog_data->uses_omask;
      psx.PixelShaderPullsBary = wm_prog_data->pulls_bary;
      psx.PixelShaderComputesStencil = wm_prog_data->computed_stencil;

      // XXX: UAV bit
   }
}

static unsigned
iris_derived_program_state_size(enum iris_program_cache_id cache_id)
{
   assert(cache_id <= IRIS_CACHE_BLORP);

   static const unsigned dwords[] = {
      [IRIS_CACHE_VS] = GENX(3DSTATE_VS_length),
      [IRIS_CACHE_TCS] = GENX(3DSTATE_HS_length),
      [IRIS_CACHE_TES] = GENX(3DSTATE_TE_length) + GENX(3DSTATE_DS_length),
      [IRIS_CACHE_GS] = GENX(3DSTATE_GS_length),
      [IRIS_CACHE_FS] =
         GENX(3DSTATE_PS_length) + GENX(3DSTATE_PS_EXTRA_length),
      [IRIS_CACHE_CS] = 0,
      [IRIS_CACHE_BLORP] = 0,
   };

   return sizeof(uint32_t) * dwords[cache_id];
}

static void
iris_set_derived_program_state(const struct gen_device_info *devinfo,
                               enum iris_program_cache_id cache_id,
                               struct iris_compiled_shader *shader)
{
   switch (cache_id) {
   case IRIS_CACHE_VS:
      iris_set_vs_state(devinfo, shader);
      break;
   case IRIS_CACHE_TCS:
      iris_set_tcs_state(devinfo, shader);
      break;
   case IRIS_CACHE_TES:
      iris_set_tes_state(devinfo, shader);
      break;
   case IRIS_CACHE_GS:
      iris_set_gs_state(devinfo, shader);
      break;
   case IRIS_CACHE_FS:
      iris_set_fs_state(devinfo, shader);
      break;
   case IRIS_CACHE_CS:
   case IRIS_CACHE_BLORP:
      break;
   default:
      break;
   }
}

static void
iris_upload_urb_config(struct iris_context *ice, struct iris_batch *batch)
{
   const struct gen_device_info *devinfo = &batch->screen->devinfo;
   const unsigned push_size_kB = 32;
   unsigned entries[4];
   unsigned start[4];
   unsigned size[4];

   for (int i = MESA_SHADER_VERTEX; i <= MESA_SHADER_GEOMETRY; i++) {
      if (!ice->shaders.prog[i]) {
         size[i] = 1;
      } else {
         struct brw_vue_prog_data *vue_prog_data =
            (void *) ice->shaders.prog[i]->prog_data;
         size[i] = vue_prog_data->urb_entry_size;
      }
      assert(size[i] != 0);
   }

   gen_get_urb_config(devinfo, 1024 * push_size_kB,
                      1024 * ice->shaders.urb_size,
                      ice->shaders.prog[MESA_SHADER_TESS_EVAL] != NULL,
                      ice->shaders.prog[MESA_SHADER_GEOMETRY] != NULL,
                      size, entries, start);

   for (int i = MESA_SHADER_VERTEX; i <= MESA_SHADER_GEOMETRY; i++) {
      iris_emit_cmd(batch, GENX(3DSTATE_URB_VS), urb) {
         urb._3DCommandSubOpcode += i;
         urb.VSURBStartingAddress     = start[i];
         urb.VSURBEntryAllocationSize = size[i] - 1;
         urb.VSNumberofURBEntries     = entries[i];
      }
   }
}

static const uint32_t push_constant_opcodes[] = {
   [MESA_SHADER_VERTEX]    = 21,
   [MESA_SHADER_TESS_CTRL] = 25, /* HS */
   [MESA_SHADER_TESS_EVAL] = 26, /* DS */
   [MESA_SHADER_GEOMETRY]  = 22,
   [MESA_SHADER_FRAGMENT]  = 23,
   [MESA_SHADER_COMPUTE]   = 0,
};

/**
 * Add a surface to the validation list, as well as the buffer containing
 * the corresponding SURFACE_STATE.
 *
 * Returns the binding table entry (offset to SURFACE_STATE).
 */
static uint32_t
use_surface(struct iris_batch *batch,
            struct pipe_surface *p_surf,
            bool writeable)
{
   struct iris_surface *surf = (void *) p_surf;
   struct iris_resource *res = (void *) p_surf->texture;
   struct iris_resource *state_res = (void *) surf->surface_state_resource;
   iris_use_pinned_bo(batch, res->bo, writeable);
   iris_use_pinned_bo(batch, state_res->bo, false);

   return surf->surface_state_offset;
}

static uint32_t
use_sampler_view(struct iris_batch *batch, struct iris_sampler_view *isv)
{
   struct iris_resource *res = (void *) isv->pipe.texture;
   struct iris_resource *state_res = (void *) isv->surface_state_resource;
   iris_use_pinned_bo(batch, res->bo, false);
   iris_use_pinned_bo(batch, state_res->bo, false);

   return isv->surface_state_offset;
}

static uint32_t
use_const_buffer(struct iris_batch *batch, struct iris_const_buffer *cbuf)
{
   struct iris_resource *res = (void *) cbuf->resource;
   struct iris_resource *state_res = (void *) cbuf->surface_state_resource;
   iris_use_pinned_bo(batch, res->bo, false);
   iris_use_pinned_bo(batch, state_res->bo, false);

   return cbuf->surface_state_offset;
}

static void
iris_populate_binding_table(struct iris_context *ice,
                            struct iris_batch *batch,
                            gl_shader_stage stage)
{
   const struct iris_binder *binder = &batch->binder;
   struct iris_compiled_shader *shader = ice->shaders.prog[stage];
   if (!shader)
      return;

   // Surfaces:
   // - pull constants
   // - ubos/ssbos/abos
   // - images
   // - textures
   // - render targets - write and read

   struct brw_stage_prog_data *prog_data = (void *) shader->prog_data;
   uint32_t *bt_map = binder->map + binder->bt_offset[stage];
   int s = 0;

   if (stage == MESA_SHADER_FRAGMENT) {
      struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
      for (unsigned i = 0; i < cso_fb->nr_cbufs; i++) {
         bt_map[s++] = use_surface(batch, cso_fb->cbufs[i], true);
      }
   }

   //assert(prog_data->binding_table.texture_start ==
          //(ice->state.num_textures[stage] ? s : 0xd0d0d0d0));

   for (int i = 0; i < ice->state.num_textures[stage]; i++) {
      struct iris_sampler_view *view = ice->state.textures[stage][i];
      bt_map[s++] = use_sampler_view(batch, view);
   }

   // XXX: want the number of BTE's to shorten this loop
   struct iris_shader_state *shs = &ice->shaders.state[stage];
   for (int i = 0; i < PIPE_MAX_CONSTANT_BUFFERS; i++) {
      struct iris_const_buffer *cbuf = &shs->constbuf[i];
      if (!cbuf->surface_state_resource)
         break;

      bt_map[s++] = use_const_buffer(batch, cbuf);
   }
#if 0
      // XXX: not implemented yet
      assert(prog_data->binding_table.pull_constants_start == 0xd0d0d0d0);
      assert(prog_data->binding_table.ubo_start == 0xd0d0d0d0);
      assert(prog_data->binding_table.ssbo_start == 0xd0d0d0d0);
      assert(prog_data->binding_table.image_start == 0xd0d0d0d0);
      assert(prog_data->binding_table.shader_time_start == 0xd0d0d0d0);
      //assert(prog_data->binding_table.plane_start[1] == 0xd0d0d0d0);
      //assert(prog_data->binding_table.plane_start[2] == 0xd0d0d0d0);
#endif
}

static void
iris_upload_render_state(struct iris_context *ice,
                         struct iris_batch *batch,
                         const struct pipe_draw_info *draw)
{
   const uint64_t dirty =
      unlikely(INTEL_DEBUG & DEBUG_REEMIT) ? ~0ull : ice->state.dirty;

   struct brw_wm_prog_data *wm_prog_data = (void *)
      ice->shaders.prog[MESA_SHADER_FRAGMENT]->prog_data;

   if (dirty & IRIS_DIRTY_CC_VIEWPORT) {
      struct iris_depth_stencil_alpha_state *cso = ice->state.cso_zsa;
      iris_emit_cmd(batch, GENX(3DSTATE_VIEWPORT_STATE_POINTERS_CC), ptr) {
         ptr.CCViewportPointer =
            emit_state(batch, ice->state.dynamic_uploader,
                       cso->cc_vp, sizeof(cso->cc_vp), 32);
      }
   }

   if (dirty & IRIS_DIRTY_SF_CL_VIEWPORT) {
      struct iris_viewport_state *cso = ice->state.cso_vp;
      iris_emit_cmd(batch, GENX(3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP), ptr) {
         ptr.SFClipViewportPointer =
            emit_state(batch, ice->state.dynamic_uploader, cso->sf_cl_vp,
                       4 * GENX(SF_CLIP_VIEWPORT_length) *
                       ice->state.num_viewports, 64);
      }
   }

   /* XXX: L3 State */

   if (dirty & IRIS_DIRTY_URB) {
      iris_upload_urb_config(ice, batch);
   }

   if (dirty & IRIS_DIRTY_BLEND_STATE) {
      struct iris_blend_state *cso_blend = ice->state.cso_blend;
      struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
      struct iris_depth_stencil_alpha_state *cso_zsa = ice->state.cso_zsa;
      const int num_dwords = 4 * (GENX(BLEND_STATE_length) +
         cso_fb->nr_cbufs * GENX(BLEND_STATE_ENTRY_length));
      uint32_t blend_offset;
      uint32_t *blend_map =
         stream_state(batch, ice->state.dynamic_uploader, 4 * num_dwords, 64,
                      &blend_offset);

      uint32_t blend_state_header;
      iris_pack_state(GENX(BLEND_STATE), &blend_state_header, bs) {
         bs.AlphaTestEnable = cso_zsa->alpha.enabled;
         bs.AlphaTestFunction = translate_compare_func(cso_zsa->alpha.func);
      }

      blend_map[0] = blend_state_header | cso_blend->blend_state[0];
      memcpy(&blend_map[1], &cso_blend->blend_state[1],
             sizeof(cso_blend->blend_state) - sizeof(uint32_t));

      iris_emit_cmd(batch, GENX(3DSTATE_BLEND_STATE_POINTERS), ptr) {
         ptr.BlendStatePointer = blend_offset;
         ptr.BlendStatePointerValid = true;
      }
   }

   if (dirty & IRIS_DIRTY_COLOR_CALC_STATE) {
      struct iris_depth_stencil_alpha_state *cso = ice->state.cso_zsa;
      uint32_t cc_offset;
      void *cc_map =
         stream_state(batch, ice->state.dynamic_uploader,
                      sizeof(uint32_t) * GENX(COLOR_CALC_STATE_length),
                      64, &cc_offset);
      iris_pack_state(GENX(COLOR_CALC_STATE), cc_map, cc) {
         cc.AlphaTestFormat = ALPHATEST_FLOAT32;
         cc.AlphaReferenceValueAsFLOAT32 = cso->alpha.ref_value;
         cc.BlendConstantColorRed   = ice->state.blend_color.color[0];
         cc.BlendConstantColorGreen = ice->state.blend_color.color[1];
         cc.BlendConstantColorBlue  = ice->state.blend_color.color[2];
         cc.BlendConstantColorAlpha = ice->state.blend_color.color[3];
      }
      iris_emit_cmd(batch, GENX(3DSTATE_CC_STATE_POINTERS), ptr) {
         ptr.ColorCalcStatePointer = cc_offset;
         ptr.ColorCalcStatePointerValid = true;
      }
   }

   for (int stage = 0; stage <= MESA_SHADER_FRAGMENT; stage++) {
      // XXX: wrong dirty tracking...
      if (!(dirty & (IRIS_DIRTY_CONSTANTS_VS << stage)))
         continue;

      struct iris_shader_state *shs = &ice->shaders.state[stage];
      struct iris_compiled_shader *shader = ice->shaders.prog[stage];

      if (!shader)
         continue;

      struct brw_stage_prog_data *prog_data = (void *) shader->prog_data;

      iris_emit_cmd(batch, GENX(3DSTATE_CONSTANT_VS), pkt) {
         pkt._3DCommandSubOpcode = push_constant_opcodes[stage];
         if (prog_data) {
            /* The Skylake PRM contains the following restriction:
             *
             *    "The driver must ensure The following case does not occur
             *     without a flush to the 3D engine: 3DSTATE_CONSTANT_* with
             *     buffer 3 read length equal to zero committed followed by a
             *     3DSTATE_CONSTANT_* with buffer 0 read length not equal to
             *     zero committed."
             *
             * To avoid this, we program the buffers in the highest slots.
             * This way, slot 0 is only used if slot 3 is also used.
             */
            int n = 3;

            for (int i = 3; i >= 0; i--) {
               const struct brw_ubo_range *range = &prog_data->ubo_ranges[i];

               if (range->length == 0)
                  continue;

               // XXX: is range->block a constbuf index?  it would be nice
               struct iris_const_buffer *cbuf = &shs->constbuf[range->block];
               struct iris_resource *res = (void *) cbuf->resource;

               assert(cbuf->offset % 32 == 0);

               pkt.ConstantBody.ReadLength[n] = range->length;
               pkt.ConstantBody.Buffer[n] =
                  ro_bo(res->bo, range->start * 32 + cbuf->offset);
               n--;
            }
         }
      }
   }

   if (1) { // XXX: DIRTY BINDINGS
      const struct iris_binder *binder = &batch->binder;

      for (int stage = 0; stage <= MESA_SHADER_FRAGMENT; stage++) {
         iris_emit_cmd(batch, GENX(3DSTATE_BINDING_TABLE_POINTERS_VS), ptr) {
            ptr._3DCommandSubOpcode = 38 + stage;
            ptr.PointertoVSBindingTable = binder->bt_offset[stage];
         }
      }

      for (int stage = 0; stage <= MESA_SHADER_FRAGMENT; stage++) {
         iris_populate_binding_table(ice, batch, stage);
      }
   }

   for (int stage = 0; stage <= MESA_SHADER_FRAGMENT; stage++) {
      if (!(dirty & (IRIS_DIRTY_SAMPLER_STATES_VS << stage)) ||
          !ice->shaders.prog[stage])
         continue;

      iris_emit_cmd(batch, GENX(3DSTATE_SAMPLER_STATE_POINTERS_VS), ptr) {
         ptr._3DCommandSubOpcode = 43 + stage;
         ptr.PointertoVSSamplerState = ice->state.sampler_table_offset[stage];
      }
   }

   if (dirty & IRIS_DIRTY_MULTISAMPLE) {
      iris_emit_cmd(batch, GENX(3DSTATE_MULTISAMPLE), ms) {
         ms.PixelLocation =
            ice->state.cso_rast->half_pixel_center ? CENTER : UL_CORNER;
         if (ice->state.framebuffer.samples > 0)
            ms.NumberofMultisamples = ffs(ice->state.framebuffer.samples) - 1;
      }
   }

   if (dirty & IRIS_DIRTY_SAMPLE_MASK) {
      iris_emit_cmd(batch, GENX(3DSTATE_SAMPLE_MASK), ms) {
         ms.SampleMask = MAX2(ice->state.sample_mask, 1);
      }
   }

   for (int stage = 0; stage <= MESA_SHADER_FRAGMENT; stage++) {
      if (!(dirty & (IRIS_DIRTY_VS << stage)))
         continue;

      struct iris_compiled_shader *shader = ice->shaders.prog[stage];

      if (shader) {
         struct iris_resource *cache = (void *) shader->buffer;
         iris_use_pinned_bo(batch, cache->bo, false);
         iris_batch_emit(batch, shader->derived_data,
                         iris_derived_program_state_size(stage));
      } else {
         if (stage == MESA_SHADER_TESS_EVAL) {
            iris_emit_cmd(batch, GENX(3DSTATE_HS), hs);
            iris_emit_cmd(batch, GENX(3DSTATE_TE), te);
            iris_emit_cmd(batch, GENX(3DSTATE_DS), ds);
         } else if (stage == MESA_SHADER_GEOMETRY) {
            iris_emit_cmd(batch, GENX(3DSTATE_GS), gs);
         }
      }
   }

   // XXX: SOL:
   // 3DSTATE_STREAMOUT
   // 3DSTATE_SO_BUFFER
   // 3DSTATE_SO_DECL_LIST

   if (dirty & IRIS_DIRTY_CLIP) {
      struct iris_rasterizer_state *cso_rast = ice->state.cso_rast;
      struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;

      uint32_t dynamic_clip[GENX(3DSTATE_CLIP_length)];
      iris_pack_command(GENX(3DSTATE_CLIP), &dynamic_clip, cl) {
         if (wm_prog_data->barycentric_interp_modes &
             BRW_BARYCENTRIC_NONPERSPECTIVE_BITS)
            cl.NonPerspectiveBarycentricEnable = true;

         cl.ForceZeroRTAIndexEnable = cso_fb->layers == 0;
      }
      iris_emit_merge(batch, cso_rast->clip, dynamic_clip,
                      ARRAY_SIZE(cso_rast->clip));
   }

   if (dirty & IRIS_DIRTY_RASTER) {
      struct iris_rasterizer_state *cso = ice->state.cso_rast;
      iris_batch_emit(batch, cso->raster, sizeof(cso->raster));
      iris_batch_emit(batch, cso->sf, sizeof(cso->sf));

   }

   if (dirty & (IRIS_DIRTY_RASTER | IRIS_DIRTY_FS)) {
      struct iris_rasterizer_state *cso = ice->state.cso_rast;
      uint32_t dynamic_wm[GENX(3DSTATE_WM_length)];

      iris_pack_command(GENX(3DSTATE_WM), &dynamic_wm, wm) {
         wm.BarycentricInterpolationMode =
            wm_prog_data->barycentric_interp_modes;

         if (wm_prog_data->early_fragment_tests)
            wm.EarlyDepthStencilControl = EDSC_PREPS;
         else if (wm_prog_data->has_side_effects)
            wm.EarlyDepthStencilControl = EDSC_PSEXEC;
      }
      iris_emit_merge(batch, cso->wm, dynamic_wm, ARRAY_SIZE(cso->wm));
   }

   if (1) {
      // XXX: 3DSTATE_SBE, 3DSTATE_SBE_SWIZ
      // -> iris_raster_state (point sprite texture coordinate origin)
      // -> bunch of shader state...
      iris_emit_sbe(batch, ice);
      iris_emit_cmd(batch, GENX(3DSTATE_SBE_SWIZ), sbe) {
      }
   }

   if (dirty & IRIS_DIRTY_PS_BLEND) {
      struct iris_blend_state *cso_blend = ice->state.cso_blend;
      struct iris_depth_stencil_alpha_state *cso_zsa = ice->state.cso_zsa;
      uint32_t dynamic_pb[GENX(3DSTATE_PS_BLEND_length)];
      iris_pack_command(GENX(3DSTATE_PS_BLEND), &dynamic_pb, pb) {
         pb.HasWriteableRT = true; // XXX: comes from somewhere :(
         pb.AlphaTestEnable = cso_zsa->alpha.enabled;
      }

      iris_emit_merge(batch, cso_blend->ps_blend, dynamic_pb,
                      ARRAY_SIZE(cso_blend->ps_blend));
   }

   if (dirty & IRIS_DIRTY_WM_DEPTH_STENCIL) {
      struct iris_depth_stencil_alpha_state *cso = ice->state.cso_zsa;
      struct pipe_stencil_ref *p_stencil_refs = &ice->state.stencil_ref;

      uint32_t stencil_refs[GENX(3DSTATE_WM_DEPTH_STENCIL_length)];
      iris_pack_command(GENX(3DSTATE_WM_DEPTH_STENCIL), &stencil_refs, wmds) {
         wmds.StencilReferenceValue = p_stencil_refs->ref_value[0];
         wmds.BackfaceStencilReferenceValue = p_stencil_refs->ref_value[1];
      }
      iris_emit_merge(batch, cso->wmds, stencil_refs, ARRAY_SIZE(cso->wmds));
   }

   if (dirty & IRIS_DIRTY_SCISSOR) {
      // XXX: allocate at set_scissor time?
      uint32_t scissor_offset = ice->state.num_scissors == 0 ? 0 :
         emit_state(batch, ice->state.dynamic_uploader, ice->state.scissors,
                    sizeof(struct pipe_scissor_state) *
                    ice->state.num_scissors, 32);

      iris_emit_cmd(batch, GENX(3DSTATE_SCISSOR_STATE_POINTERS), ptr) {
         ptr.ScissorRectPointer = scissor_offset;
      }
   }

   if (dirty & IRIS_DIRTY_DEPTH_BUFFER) {
      struct pipe_framebuffer_state *cso_fb = &ice->state.framebuffer;
      struct iris_depth_buffer_state *cso_z = ice->state.cso_depthbuffer;

      iris_batch_emit(batch, cso_z->packets, sizeof(cso_z->packets));

      if (cso_fb->zsbuf) {
         struct iris_resource *zres = (void *) cso_fb->zsbuf->texture;
         // XXX: depth might not be writable...
         iris_use_pinned_bo(batch, zres->bo, true);
      }
   }

   if (dirty & IRIS_DIRTY_POLYGON_STIPPLE) {
      iris_emit_cmd(batch, GENX(3DSTATE_POLY_STIPPLE_PATTERN), poly) {
         for (int i = 0; i < 32; i++) {
            poly.PatternRow[i] = ice->state.poly_stipple.stipple[i];
         }
      }
   }

   if (dirty & IRIS_DIRTY_LINE_STIPPLE) {
      struct iris_rasterizer_state *cso = ice->state.cso_rast;
      iris_batch_emit(batch, cso->line_stipple, sizeof(cso->line_stipple));
   }

   if (1) {
      iris_emit_cmd(batch, GENX(3DSTATE_VF_TOPOLOGY), topo) {
         topo.PrimitiveTopologyType =
            translate_prim_type(draw->mode, draw->vertices_per_patch);
      }
   }

   if (draw->index_size > 0) {
      struct iris_resource *res = (struct iris_resource *)draw->index.resource;

      assert(!draw->has_user_indices);

      iris_emit_cmd(batch, GENX(3DSTATE_INDEX_BUFFER), ib) {
         ib.IndexFormat = draw->index_size >> 1;
         ib.MOCS = MOCS_WB;
         ib.BufferSize = res->bo->size;
         ib.BufferStartingAddress = ro_bo(res->bo, 0);
      }
   }

   if (dirty & IRIS_DIRTY_VERTEX_BUFFERS) {
      struct iris_vertex_buffer_state *cso = ice->state.cso_vertex_buffers;

      STATIC_ASSERT(GENX(VERTEX_BUFFER_STATE_length) == 4);
      STATIC_ASSERT((GENX(VERTEX_BUFFER_STATE_BufferStartingAddress_bits) % 32) == 0);

      iris_batch_emit(batch, cso->vertex_buffers,
                      sizeof(uint32_t) * (1 + 4 * cso->num_buffers));

      for (unsigned i = 0; i < cso->num_buffers; i++) {
         iris_use_pinned_bo(batch, cso->bos[i], false);
      }
   }

   if (dirty & IRIS_DIRTY_VERTEX_ELEMENTS) {
      struct iris_vertex_element_state *cso = ice->state.cso_vertex_elements;
      iris_batch_emit(batch, cso->vertex_elements, sizeof(uint32_t) *
                      (1 + cso->count * GENX(VERTEX_ELEMENT_STATE_length)));
      iris_batch_emit(batch, cso->vf_instancing, sizeof(uint32_t) *
                      cso->count * GENX(3DSTATE_VF_INSTANCING_length));
      for (int i = 0; i < cso->count; i++) {
         /* TODO: vertexid, instanceid support */
         iris_emit_cmd(batch, GENX(3DSTATE_VF_SGVS), sgvs);
      }
   }

   if (1) {
      iris_emit_cmd(batch, GENX(3DSTATE_VF), vf) {
         if (draw->primitive_restart) {
            vf.IndexedDrawCutIndexEnable = true;
            vf.CutIndex = draw->restart_index;
         }
      }
   }

   // XXX: Gen8 - PMA fix

   assert(!draw->indirect); // XXX: indirect support

   iris_emit_cmd(batch, GENX(3DPRIMITIVE), prim) {
      prim.StartInstanceLocation = draw->start_instance;
      prim.InstanceCount = draw->instance_count;
      prim.VertexCountPerInstance = draw->count;
      prim.VertexAccessType = draw->index_size > 0 ? RANDOM : SEQUENTIAL;

      // XXX: this is probably bonkers.
      prim.StartVertexLocation = draw->start;

      if (draw->index_size) {
         prim.BaseVertexLocation += draw->index_bias;
      } else {
         prim.StartVertexLocation += draw->index_bias;
      }

      //prim.BaseVertexLocation = ...;
   }
}

static void
iris_destroy_state(struct iris_context *ice)
{
   // XXX: unreference resources/surfaces.
   for (unsigned i = 0; i < ice->state.framebuffer.nr_cbufs; i++) {
      pipe_surface_reference(&ice->state.framebuffer.cbufs[i], NULL);
   }
   pipe_surface_reference(&ice->state.framebuffer.zsbuf, NULL);
}

static unsigned
flags_to_post_sync_op(uint32_t flags)
{
   if (flags & PIPE_CONTROL_WRITE_IMMEDIATE)
      return WriteImmediateData;

   if (flags & PIPE_CONTROL_WRITE_DEPTH_COUNT)
      return WritePSDepthCount;

   if (flags & PIPE_CONTROL_WRITE_TIMESTAMP)
      return WriteTimestamp;

   return 0;
}

/**
 * Do the given flags have a Post Sync or LRI Post Sync operation?
 */
static enum pipe_control_flags
get_post_sync_flags(enum pipe_control_flags flags)
{
   flags &= PIPE_CONTROL_WRITE_IMMEDIATE |
            PIPE_CONTROL_WRITE_DEPTH_COUNT |
            PIPE_CONTROL_WRITE_TIMESTAMP |
            PIPE_CONTROL_LRI_POST_SYNC_OP;

   /* Only one "Post Sync Op" is allowed, and it's mutually exclusive with
    * "LRI Post Sync Operation".  So more than one bit set would be illegal.
    */
   assert(util_bitcount(flags) <= 1);

   return flags;
}

// XXX: compute support
#define IS_COMPUTE_PIPELINE(batch) (batch->ring != I915_EXEC_RENDER)

/**
 * Emit a series of PIPE_CONTROL commands, taking into account any
 * workarounds necessary to actually accomplish the caller's request.
 *
 * Unless otherwise noted, spec quotations in this function come from:
 *
 * Synchronization of the 3D Pipeline > PIPE_CONTROL Command > Programming
 * Restrictions for PIPE_CONTROL.
 */
static void
iris_emit_raw_pipe_control(struct iris_batch *batch, uint32_t flags,
                           struct iris_bo *bo, uint32_t offset, uint64_t imm)
{
   UNUSED const struct gen_device_info *devinfo = &batch->screen->devinfo;
   enum pipe_control_flags post_sync_flags = get_post_sync_flags(flags);
   enum pipe_control_flags non_lri_post_sync_flags =
      post_sync_flags & ~PIPE_CONTROL_LRI_POST_SYNC_OP;

   /* Recursive PIPE_CONTROL workarounds --------------------------------
    * (http://knowyourmeme.com/memes/xzibit-yo-dawg)
    *
    * We do these first because we want to look at the original operation,
    * rather than any workarounds we set.
    */
   if (GEN_GEN == 9 && (flags & PIPE_CONTROL_VF_CACHE_INVALIDATE)) {
      /* The PIPE_CONTROL "VF Cache Invalidation Enable" bit description
       * lists several workarounds:
       *
       *    "Project: SKL, KBL, BXT
       *
       *     If the VF Cache Invalidation Enable is set to a 1 in a
       *     PIPE_CONTROL, a separate Null PIPE_CONTROL, all bitfields
       *     sets to 0, with the VF Cache Invalidation Enable set to 0
       *     needs to be sent prior to the PIPE_CONTROL with VF Cache
       *     Invalidation Enable set to a 1."
       */
      iris_emit_raw_pipe_control(batch, 0, NULL, 0, 0);
   }

   if (GEN_GEN == 9 && IS_COMPUTE_PIPELINE(batch) && post_sync_flags) {
      /* Project: SKL / Argument: LRI Post Sync Operation [23]
       *
       * "PIPECONTROL command with “Command Streamer Stall Enable” must be
       *  programmed prior to programming a PIPECONTROL command with "LRI
       *  Post Sync Operation" in GPGPU mode of operation (i.e when
       *  PIPELINE_SELECT command is set to GPGPU mode of operation)."
       *
       * The same text exists a few rows below for Post Sync Op.
       */
      iris_emit_raw_pipe_control(batch, PIPE_CONTROL_CS_STALL, bo, offset, imm);
   }

   if (GEN_GEN == 10 && (flags & PIPE_CONTROL_RENDER_TARGET_FLUSH)) {
      /* Cannonlake:
       * "Before sending a PIPE_CONTROL command with bit 12 set, SW must issue
       *  another PIPE_CONTROL with Render Target Cache Flush Enable (bit 12)
       *  = 0 and Pipe Control Flush Enable (bit 7) = 1"
       */
      iris_emit_raw_pipe_control(batch, PIPE_CONTROL_FLUSH_ENABLE, bo,
                                 offset, imm);
   }

   /* "Flush Types" workarounds ---------------------------------------------
    * We do these now because they may add post-sync operations or CS stalls.
    */

   if (flags & PIPE_CONTROL_VF_CACHE_INVALIDATE) {
      /* Project: BDW, SKL+ (stopping at CNL) / Argument: VF Invalidate
       *
       * "'Post Sync Operation' must be enabled to 'Write Immediate Data' or
       *  'Write PS Depth Count' or 'Write Timestamp'."
       */
      if (!bo) {
         flags |= PIPE_CONTROL_WRITE_IMMEDIATE;
         post_sync_flags |= PIPE_CONTROL_WRITE_IMMEDIATE;
         non_lri_post_sync_flags |= PIPE_CONTROL_WRITE_IMMEDIATE;
         bo = batch->screen->workaround_bo;
      }
   }

   /* #1130 from Gen10 workarounds page:
    *
    *    "Enable Depth Stall on every Post Sync Op if Render target Cache
    *     Flush is not enabled in same PIPE CONTROL and Enable Pixel score
    *     board stall if Render target cache flush is enabled."
    *
    * Applicable to CNL B0 and C0 steppings only.
    *
    * The wording here is unclear, and this workaround doesn't look anything
    * like the internal bug report recommendations, but leave it be for now...
    */
   if (GEN_GEN == 10) {
      if (flags & PIPE_CONTROL_RENDER_TARGET_FLUSH) {
         flags |= PIPE_CONTROL_STALL_AT_SCOREBOARD;
      } else if (flags & non_lri_post_sync_flags) {
         flags |= PIPE_CONTROL_DEPTH_STALL;
      }
   }

   if (flags & PIPE_CONTROL_DEPTH_STALL) {
      /* From the PIPE_CONTROL instruction table, bit 13 (Depth Stall Enable):
       *
       *    "This bit must be DISABLED for operations other than writing
       *     PS_DEPTH_COUNT."
       *
       * This seems like nonsense.  An Ivybridge workaround requires us to
       * emit a PIPE_CONTROL with a depth stall and write immediate post-sync
       * operation.  Gen8+ requires us to emit depth stalls and depth cache
       * flushes together.  So, it's hard to imagine this means anything other
       * than "we originally intended this to be used for PS_DEPTH_COUNT".
       *
       * We ignore the supposed restriction and do nothing.
       */
   }

   if (flags & (PIPE_CONTROL_RENDER_TARGET_FLUSH |
                PIPE_CONTROL_STALL_AT_SCOREBOARD)) {
      /* From the PIPE_CONTROL instruction table, bit 12 and bit 1:
       *
       *    "This bit must be DISABLED for End-of-pipe (Read) fences,
       *     PS_DEPTH_COUNT or TIMESTAMP queries."
       *
       * TODO: Implement end-of-pipe checking.
       */
      assert(!(post_sync_flags & (PIPE_CONTROL_WRITE_DEPTH_COUNT |
                                  PIPE_CONTROL_WRITE_TIMESTAMP)));
   }

   if (flags & PIPE_CONTROL_STALL_AT_SCOREBOARD) {
      /* From the PIPE_CONTROL instruction table, bit 1:
       *
       *    "This bit is ignored if Depth Stall Enable is set.
       *     Further, the render cache is not flushed even if Write Cache
       *     Flush Enable bit is set."
       *
       * We assert that the caller doesn't do this combination, to try and
       * prevent mistakes.  It shouldn't hurt the GPU, though.
       */
      assert(!(flags & (PIPE_CONTROL_DEPTH_STALL |
                        PIPE_CONTROL_RENDER_TARGET_FLUSH)));
   }

   /* PIPE_CONTROL page workarounds ------------------------------------- */

   if (GEN_GEN <= 8 && (flags & PIPE_CONTROL_STATE_CACHE_INVALIDATE)) {
      /* From the PIPE_CONTROL page itself:
       *
       *    "IVB, HSW, BDW
       *     Restriction: Pipe_control with CS-stall bit set must be issued
       *     before a pipe-control command that has the State Cache
       *     Invalidate bit set."
       */
      flags |= PIPE_CONTROL_CS_STALL;
   }

   if (flags & PIPE_CONTROL_FLUSH_LLC) {
      /* From the PIPE_CONTROL instruction table, bit 26 (Flush LLC):
       *
       *    "Project: ALL
       *     SW must always program Post-Sync Operation to "Write Immediate
       *     Data" when Flush LLC is set."
       *
       * For now, we just require the caller to do it.
       */
      assert(flags & PIPE_CONTROL_WRITE_IMMEDIATE);
   }

   /* "Post-Sync Operation" workarounds -------------------------------- */

   /* Project: All / Argument: Global Snapshot Count Reset [19]
    *
    * "This bit must not be exercised on any product.
    *  Requires stall bit ([20] of DW1) set."
    *
    * We don't use this, so we just assert that it isn't used.  The
    * PIPE_CONTROL instruction page indicates that they intended this
    * as a debug feature and don't think it is useful in production,
    * but it may actually be usable, should we ever want to.
    */
   assert((flags & PIPE_CONTROL_GLOBAL_SNAPSHOT_COUNT_RESET) == 0);

   if (flags & (PIPE_CONTROL_MEDIA_STATE_CLEAR |
                PIPE_CONTROL_INDIRECT_STATE_POINTERS_DISABLE)) {
      /* Project: All / Arguments:
       *
       * - Generic Media State Clear [16]
       * - Indirect State Pointers Disable [16]
       *
       *    "Requires stall bit ([20] of DW1) set."
       *
       * Also, the PIPE_CONTROL instruction table, bit 16 (Generic Media
       * State Clear) says:
       *
       *    "PIPECONTROL command with “Command Streamer Stall Enable” must be
       *     programmed prior to programming a PIPECONTROL command with "Media
       *     State Clear" set in GPGPU mode of operation"
       *
       * This is a subset of the earlier rule, so there's nothing to do.
       */
      flags |= PIPE_CONTROL_CS_STALL;
   }

   if (flags & PIPE_CONTROL_STORE_DATA_INDEX) {
      /* Project: All / Argument: Store Data Index
       *
       * "Post-Sync Operation ([15:14] of DW1) must be set to something other
       *  than '0'."
       *
       * For now, we just assert that the caller does this.  We might want to
       * automatically add a write to the workaround BO...
       */
      assert(non_lri_post_sync_flags != 0);
   }

   if (flags & PIPE_CONTROL_SYNC_GFDT) {
      /* Project: All / Argument: Sync GFDT
       *
       * "Post-Sync Operation ([15:14] of DW1) must be set to something other
       *  than '0' or 0x2520[13] must be set."
       *
       * For now, we just assert that the caller does this.
       */
      assert(non_lri_post_sync_flags != 0);
   }

   if (flags & PIPE_CONTROL_TLB_INVALIDATE) {
      /* Project: IVB+ / Argument: TLB inv
       *
       *    "Requires stall bit ([20] of DW1) set."
       *
       * Also, from the PIPE_CONTROL instruction table:
       *
       *    "Project: SKL+
       *     Post Sync Operation or CS stall must be set to ensure a TLB
       *     invalidation occurs.  Otherwise no cycle will occur to the TLB
       *     cache to invalidate."
       *
       * This is not a subset of the earlier rule, so there's nothing to do.
       */
      flags |= PIPE_CONTROL_CS_STALL;
   }

   if (GEN_GEN == 9 && devinfo->gt == 4) {
      /* TODO: The big Skylake GT4 post sync op workaround */
   }

   /* "GPGPU specific workarounds" (both post-sync and flush) ------------ */

   if (IS_COMPUTE_PIPELINE(batch)) {
      if (GEN_GEN >= 9 && (flags & PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE)) {
         /* Project: SKL+ / Argument: Tex Invalidate
          * "Requires stall bit ([20] of DW) set for all GPGPU Workloads."
          */
         flags |= PIPE_CONTROL_CS_STALL;
      }

      if (GEN_GEN == 8 && (post_sync_flags ||
                           (flags & (PIPE_CONTROL_NOTIFY_ENABLE |
                                     PIPE_CONTROL_DEPTH_STALL |
                                     PIPE_CONTROL_RENDER_TARGET_FLUSH |
                                     PIPE_CONTROL_DEPTH_CACHE_FLUSH |
                                     PIPE_CONTROL_DATA_CACHE_FLUSH)))) {
         /* Project: BDW / Arguments:
          *
          * - LRI Post Sync Operation   [23]
          * - Post Sync Op              [15:14]
          * - Notify En                 [8]
          * - Depth Stall               [13]
          * - Render Target Cache Flush [12]
          * - Depth Cache Flush         [0]
          * - DC Flush Enable           [5]
          *
          *    "Requires stall bit ([20] of DW) set for all GPGPU and Media
          *     Workloads."
          */
         flags |= PIPE_CONTROL_CS_STALL;

         /* Also, from the PIPE_CONTROL instruction table, bit 20:
          *
          *    "Project: BDW
          *     This bit must be always set when PIPE_CONTROL command is
          *     programmed by GPGPU and MEDIA workloads, except for the cases
          *     when only Read Only Cache Invalidation bits are set (State
          *     Cache Invalidation Enable, Instruction cache Invalidation
          *     Enable, Texture Cache Invalidation Enable, Constant Cache
          *     Invalidation Enable). This is to WA FFDOP CG issue, this WA
          *     need not implemented when FF_DOP_CG is disable via "Fixed
          *     Function DOP Clock Gate Disable" bit in RC_PSMI_CTRL register."
          *
          * It sounds like we could avoid CS stalls in some cases, but we
          * don't currently bother.  This list isn't exactly the list above,
          * either...
          */
      }
   }

   /* "Stall" workarounds ----------------------------------------------
    * These have to come after the earlier ones because we may have added
    * some additional CS stalls above.
    */

   if (GEN_GEN < 9 && (flags & PIPE_CONTROL_CS_STALL)) {
      /* Project: PRE-SKL, VLV, CHV
       *
       * "[All Stepping][All SKUs]:
       *
       *  One of the following must also be set:
       *
       *  - Render Target Cache Flush Enable ([12] of DW1)
       *  - Depth Cache Flush Enable ([0] of DW1)
       *  - Stall at Pixel Scoreboard ([1] of DW1)
       *  - Depth Stall ([13] of DW1)
       *  - Post-Sync Operation ([13] of DW1)
       *  - DC Flush Enable ([5] of DW1)"
       *
       * If we don't already have one of those bits set, we choose to add
       * "Stall at Pixel Scoreboard".  Some of the other bits require a
       * CS stall as a workaround (see above), which would send us into
       * an infinite recursion of PIPE_CONTROLs.  "Stall at Pixel Scoreboard"
       * appears to be safe, so we choose that.
       */
      const uint32_t wa_bits = PIPE_CONTROL_RENDER_TARGET_FLUSH |
                               PIPE_CONTROL_DEPTH_CACHE_FLUSH |
                               PIPE_CONTROL_WRITE_IMMEDIATE |
                               PIPE_CONTROL_WRITE_DEPTH_COUNT |
                               PIPE_CONTROL_WRITE_TIMESTAMP |
                               PIPE_CONTROL_STALL_AT_SCOREBOARD |
                               PIPE_CONTROL_DEPTH_STALL |
                               PIPE_CONTROL_DATA_CACHE_FLUSH;
      if (!(flags & wa_bits))
         flags |= PIPE_CONTROL_STALL_AT_SCOREBOARD;
   }

   /* Emit --------------------------------------------------------------- */

   iris_emit_cmd(batch, GENX(PIPE_CONTROL), pc) {
      pc.LRIPostSyncOperation = NoLRIOperation;
      pc.PipeControlFlushEnable = flags & PIPE_CONTROL_FLUSH_ENABLE;
      pc.DCFlushEnable = flags & PIPE_CONTROL_DATA_CACHE_FLUSH;
      pc.StoreDataIndex = 0;
      pc.CommandStreamerStallEnable = flags & PIPE_CONTROL_CS_STALL;
      pc.GlobalSnapshotCountReset =
         flags & PIPE_CONTROL_GLOBAL_SNAPSHOT_COUNT_RESET;
      pc.TLBInvalidate = flags & PIPE_CONTROL_TLB_INVALIDATE;
      pc.GenericMediaStateClear = flags & PIPE_CONTROL_MEDIA_STATE_CLEAR;
      pc.StallAtPixelScoreboard = flags & PIPE_CONTROL_STALL_AT_SCOREBOARD;
      pc.RenderTargetCacheFlushEnable =
         flags & PIPE_CONTROL_RENDER_TARGET_FLUSH;
      pc.DepthCacheFlushEnable = flags & PIPE_CONTROL_DEPTH_CACHE_FLUSH;
      pc.StateCacheInvalidationEnable =
         flags & PIPE_CONTROL_STATE_CACHE_INVALIDATE;
      pc.VFCacheInvalidationEnable = flags & PIPE_CONTROL_VF_CACHE_INVALIDATE;
      pc.ConstantCacheInvalidationEnable =
         flags & PIPE_CONTROL_CONST_CACHE_INVALIDATE;
      pc.PostSyncOperation = flags_to_post_sync_op(flags);
      pc.DepthStallEnable = flags & PIPE_CONTROL_DEPTH_STALL;
      pc.InstructionCacheInvalidateEnable =
         flags & PIPE_CONTROL_INSTRUCTION_INVALIDATE;
      pc.NotifyEnable = flags & PIPE_CONTROL_NOTIFY_ENABLE;
      pc.IndirectStatePointersDisable =
         flags & PIPE_CONTROL_INDIRECT_STATE_POINTERS_DISABLE;
      pc.TextureCacheInvalidationEnable =
         flags & PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE;
      pc.Address = ro_bo(bo, offset);
      pc.ImmediateData = imm;
   }
}

void
genX(init_state)(struct iris_context *ice)
{
   struct pipe_context *ctx = &ice->ctx;

   ctx->create_blend_state = iris_create_blend_state;
   ctx->create_depth_stencil_alpha_state = iris_create_zsa_state;
   ctx->create_rasterizer_state = iris_create_rasterizer_state;
   ctx->create_sampler_state = iris_create_sampler_state;
   ctx->create_sampler_view = iris_create_sampler_view;
   ctx->create_surface = iris_create_surface;
   ctx->create_vertex_elements_state = iris_create_vertex_elements;
   ctx->create_compute_state = iris_create_compute_state;
   ctx->bind_blend_state = iris_bind_blend_state;
   ctx->bind_depth_stencil_alpha_state = iris_bind_zsa_state;
   ctx->bind_sampler_states = iris_bind_sampler_states;
   ctx->bind_rasterizer_state = iris_bind_rasterizer_state;
   ctx->bind_vertex_elements_state = iris_bind_vertex_elements_state;
   ctx->bind_compute_state = iris_bind_compute_state;
   ctx->delete_blend_state = iris_delete_state;
   ctx->delete_depth_stencil_alpha_state = iris_delete_state;
   ctx->delete_fs_state = iris_delete_state;
   ctx->delete_rasterizer_state = iris_delete_state;
   ctx->delete_sampler_state = iris_delete_state;
   ctx->delete_vertex_elements_state = iris_delete_state;
   ctx->delete_compute_state = iris_delete_state;
   ctx->delete_tcs_state = iris_delete_state;
   ctx->delete_tes_state = iris_delete_state;
   ctx->delete_gs_state = iris_delete_state;
   ctx->delete_vs_state = iris_delete_state;
   ctx->set_blend_color = iris_set_blend_color;
   ctx->set_clip_state = iris_set_clip_state;
   ctx->set_constant_buffer = iris_set_constant_buffer;
   ctx->set_sampler_views = iris_set_sampler_views;
   ctx->set_framebuffer_state = iris_set_framebuffer_state;
   ctx->set_polygon_stipple = iris_set_polygon_stipple;
   ctx->set_sample_mask = iris_set_sample_mask;
   ctx->set_scissor_states = iris_set_scissor_states;
   ctx->set_stencil_ref = iris_set_stencil_ref;
   ctx->set_vertex_buffers = iris_set_vertex_buffers;
   ctx->set_viewport_states = iris_set_viewport_states;
   ctx->sampler_view_destroy = iris_sampler_view_destroy;
   ctx->surface_destroy = iris_surface_destroy;
   ctx->draw_vbo = iris_draw_vbo;
   ctx->launch_grid = iris_launch_grid;
   ctx->create_stream_output_target = iris_create_stream_output_target;
   ctx->stream_output_target_destroy = iris_stream_output_target_destroy;
   ctx->set_stream_output_targets = iris_set_stream_output_targets;

   ice->vtbl.destroy_state = iris_destroy_state;
   ice->vtbl.init_render_context = iris_init_render_context;
   ice->vtbl.upload_render_state = iris_upload_render_state;
   ice->vtbl.emit_raw_pipe_control = iris_emit_raw_pipe_control;
   ice->vtbl.derived_program_state_size = iris_derived_program_state_size;
   ice->vtbl.set_derived_program_state = iris_set_derived_program_state;
   ice->vtbl.populate_vs_key = iris_populate_vs_key;
   ice->vtbl.populate_tcs_key = iris_populate_tcs_key;
   ice->vtbl.populate_tes_key = iris_populate_tes_key;
   ice->vtbl.populate_gs_key = iris_populate_gs_key;
   ice->vtbl.populate_fs_key = iris_populate_fs_key;

   ice->state.dirty = ~0ull;
}