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path: root/drivers/gpu/drm/nouveau/nva3_copy.fuc
blob: eaf35f8321eede807fedf760fc54c21a0b8e7978 (plain)
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/* fuc microcode for copy engine on nva3- chipsets
 *
 * Copyright 2011 Red Hat Inc.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 * OTHER DEALINGS IN THE SOFTWARE.
 *
 * Authors: Ben Skeggs
 */

/* To build for nva3:nvc0
 *    m4 -DNVA3 nva3_copy.fuc | envyas -a -w -m fuc -V nva3 -o nva3_copy.fuc.h
 *
 * To build for nvc0-
 *    m4 -DNVC0 nva3_copy.fuc | envyas -a -w -m fuc -V nva3 -o nvc0_copy.fuc.h
 */

ifdef(`NVA3',
.section nva3_pcopy_data,
.section nvc0_pcopy_data
)

ctx_object:                   .b32 0
ifdef(`NVA3',
ctx_dma:
ctx_dma_query:                .b32 0
ctx_dma_src:                  .b32 0
ctx_dma_dst:                  .b32 0
,)
.equ ctx_dma_count 3
ctx_query_address_high:       .b32 0
ctx_query_address_low:        .b32 0
ctx_query_counter:            .b32 0
ctx_src_address_high:         .b32 0
ctx_src_address_low:          .b32 0
ctx_src_pitch:                .b32 0
ctx_src_tile_mode:            .b32 0
ctx_src_xsize:                .b32 0
ctx_src_ysize:                .b32 0
ctx_src_zsize:                .b32 0
ctx_src_zoff:                 .b32 0
ctx_src_xoff:                 .b32 0
ctx_src_yoff:                 .b32 0
ctx_src_cpp:                  .b32 0
ctx_dst_address_high:         .b32 0
ctx_dst_address_low:          .b32 0
ctx_dst_pitch:                .b32 0
ctx_dst_tile_mode:            .b32 0
ctx_dst_xsize:                .b32 0
ctx_dst_ysize:                .b32 0
ctx_dst_zsize:                .b32 0
ctx_dst_zoff:                 .b32 0
ctx_dst_xoff:                 .b32 0
ctx_dst_yoff:                 .b32 0
ctx_dst_cpp:                  .b32 0
ctx_format:                   .b32 0
ctx_swz_const0:               .b32 0
ctx_swz_const1:               .b32 0
ctx_xcnt:                     .b32 0
ctx_ycnt:                     .b32 0
.align 256

dispatch_table:
// mthd 0x0000, NAME
.b16 0x000 1
.b32 ctx_object                     ~0xffffffff
// mthd 0x0100, NOP
.b16 0x040 1
.b32 0x00010000 + cmd_nop           ~0xffffffff
// mthd 0x0140, PM_TRIGGER
.b16 0x050 1
.b32 0x00010000 + cmd_pm_trigger    ~0xffffffff
ifdef(`NVA3', `
// mthd 0x0180-0x018c, DMA_
.b16 0x060 ctx_dma_count
dispatch_dma:
.b32 0x00010000 + cmd_dma           ~0xffffffff
.b32 0x00010000 + cmd_dma           ~0xffffffff
.b32 0x00010000 + cmd_dma           ~0xffffffff
',)
// mthd 0x0200-0x0218, SRC_TILE
.b16 0x80 7
.b32 ctx_src_tile_mode              ~0x00000fff
.b32 ctx_src_xsize                  ~0x0007ffff
.b32 ctx_src_ysize                  ~0x00001fff
.b32 ctx_src_zsize                  ~0x000007ff
.b32 ctx_src_zoff                   ~0x00000fff
.b32 ctx_src_xoff                   ~0x0007ffff
.b32 ctx_src_yoff                   ~0x00001fff
// mthd 0x0220-0x0238, DST_TILE
.b16 0x88 7
.b32 ctx_dst_tile_mode              ~0x00000fff
.b32 ctx_dst_xsize                  ~0x0007ffff
.b32 ctx_dst_ysize                  ~0x00001fff
.b32 ctx_dst_zsize                  ~0x000007ff
.b32 ctx_dst_zoff                   ~0x00000fff
.b32 ctx_dst_xoff                   ~0x0007ffff
.b32 ctx_dst_yoff                   ~0x00001fff
// mthd 0x0300-0x0304, EXEC, WRCACHE_FLUSH
.b16 0xc0 2
.b32 0x00010000 + cmd_exec          ~0xffffffff
.b32 0x00010000 + cmd_wrcache_flush ~0xffffffff
// mthd 0x030c-0x0340, various stuff
.b16 0xc3 14
.b32 ctx_src_address_high           ~0x000000ff
.b32 ctx_src_address_low            ~0xfffffff0
.b32 ctx_dst_address_high           ~0x000000ff
.b32 ctx_dst_address_low            ~0xfffffff0
.b32 ctx_src_pitch                  ~0x0007ffff
.b32 ctx_dst_pitch                  ~0x0007ffff
.b32 ctx_xcnt                       ~0x0000ffff
.b32 ctx_ycnt                       ~0x00001fff
.b32 ctx_format                     ~0x0333ffff
.b32 ctx_swz_const0                 ~0xffffffff
.b32 ctx_swz_const1                 ~0xffffffff
.b32 ctx_query_address_high         ~0x000000ff
.b32 ctx_query_address_low          ~0xffffffff
.b32 ctx_query_counter              ~0xffffffff
.b16 0x800 0

ifdef(`NVA3',
.section nva3_pcopy_code,
.section nvc0_pcopy_code
)

main:
   clear b32 $r0
   mov $sp $r0

   // setup i0 handler and route fifo and ctxswitch to it
   mov $r1 ih
   mov $iv0 $r1
   mov $r1 0x400
   movw $r2 0xfff3
   sethi $r2 0
   iowr I[$r2 + 0x300] $r2

   // enable interrupts
   or $r2 0xc
   iowr I[$r1] $r2
   bset $flags ie0

   // enable fifo access and context switching
   mov $r1 0x1200
   mov $r2 3
   iowr I[$r1] $r2

   // sleep forever, waking for interrupts
   bset $flags $p0
   spin:
      sleep $p0
      bra spin

// i0 handler
ih:
   iord $r1 I[$r0 + 0x200]

   and $r2 $r1 0x00000008
   bra e ih_no_chsw
      call chsw
   ih_no_chsw:
   and $r2 $r1 0x00000004
   bra e ih_no_cmd
      call dispatch

   ih_no_cmd:
   and $r1 $r1 0x0000000c
   iowr I[$r0 + 0x100] $r1
   iret

// $p1 direction (0 = unload, 1 = load)
// $r3 channel
swctx:
   mov $r4 0x7700
   mov $xtargets $r4
ifdef(`NVA3', `
   // target 7 hardcoded to ctx dma object
   mov $xdbase $r0
', ` // NVC0
   // read SCRATCH3 to decide if we are PCOPY0 or PCOPY1
   mov $r4 0x2100
   iord $r4 I[$r4 + 0]
   and $r4 1
   shl b32 $r4 4
   add b32 $r4 0x30

   // channel is in vram
   mov $r15 0x61c
   shl b32 $r15 6
   mov $r5 0x114
   iowrs I[$r15] $r5

   // read 16-byte PCOPYn info, containing context pointer, from channel
   shl b32 $r5 $r3 4
   add b32 $r5 2
   mov $xdbase $r5
   mov $r5 $sp
   // get a chunk of stack space, aligned to 256 byte boundary
   sub b32 $r5 0x100
   mov $r6 0xff
   not b32 $r6
   and $r5 $r6
   sethi $r5 0x00020000
   xdld $r4 $r5
   xdwait
   sethi $r5 0

   // set context pointer, from within channel VM
   mov $r14 0
   iowrs I[$r15] $r14
   ld b32 $r4 D[$r5 + 0]
   shr b32 $r4 8
   ld b32 $r6 D[$r5 + 4]
   shl b32 $r6 24
   or $r4 $r6
   mov $xdbase $r4
')
   // 256-byte context, at start of data segment
   mov b32 $r4 $r0
   sethi $r4 0x60000

   // swap!
   bra $p1 swctx_load
      xdst $r0 $r4
      bra swctx_done
   swctx_load:
      xdld $r0 $r4
   swctx_done:
   xdwait
   ret

chsw:
   // read current channel
   mov $r2 0x1400
   iord $r3 I[$r2]

   // if it's active, unload it and return
   xbit $r15 $r3 0x1e
   bra e chsw_no_unload
      bclr $flags $p1
      call swctx
      bclr $r3 0x1e
      iowr I[$r2] $r3
      mov $r4 1
      iowr I[$r2 + 0x200] $r4
      ret

   // read next channel
   chsw_no_unload:
   iord $r3 I[$r2 + 0x100]

   // is there a channel waiting to be loaded?
   xbit $r13 $r3 0x1e
   bra e chsw_finish_load
      bset $flags $p1
      call swctx
ifdef(`NVA3',
      // load dma objects back into TARGET regs
      mov $r5 ctx_dma
      mov $r6 ctx_dma_count
      chsw_load_ctx_dma:
         ld b32 $r7 D[$r5 + $r6 * 4]
         add b32 $r8 $r6 0x180
         shl b32 $r8 8
         iowr I[$r8] $r7
         sub b32 $r6 1
         bra nc chsw_load_ctx_dma
,)

   chsw_finish_load:
   mov $r3 2
   iowr I[$r2 + 0x200] $r3
   ret

dispatch:
   // read incoming fifo command
   mov $r3 0x1900
   iord $r2 I[$r3 + 0x100]
   iord $r3 I[$r3 + 0x000]
   and $r4 $r2 0x7ff
   // $r2 will be used to store exception data
   shl b32 $r2 0x10

   // lookup method in the dispatch table, ILLEGAL_MTHD if not found
   mov $r5 dispatch_table
   clear b32 $r6
   clear b32 $r7
   dispatch_loop:
      ld b16 $r6 D[$r5 + 0]
      ld b16 $r7 D[$r5 + 2]
      add b32 $r5 4
      cmpu b32 $r4 $r6
      bra c dispatch_illegal_mthd
      add b32 $r7 $r6
      cmpu b32 $r4 $r7
      bra c dispatch_valid_mthd
      sub b32 $r7 $r6
      shl b32 $r7 3
      add b32 $r5 $r7
      bra dispatch_loop

   // ensure no bits set in reserved fields, INVALID_BITFIELD
   dispatch_valid_mthd:
   sub b32 $r4 $r6
   shl b32 $r4 3
   add b32 $r4 $r5
   ld b32 $r5 D[$r4 + 4]
   and $r5 $r3
   cmpu b32 $r5 0
   bra ne dispatch_invalid_bitfield

   // depending on dispatch flags: execute method, or save data as state
   ld b16 $r5 D[$r4 + 0]
   ld b16 $r6 D[$r4 + 2]
   cmpu b32 $r6 0
   bra ne dispatch_cmd
      st b32 D[$r5] $r3
      bra dispatch_done
   dispatch_cmd:
      bclr $flags $p1
      call $r5
      bra $p1 dispatch_error
      bra dispatch_done

   dispatch_invalid_bitfield:
   or $r2 2
   dispatch_illegal_mthd:
   or $r2 1

   // store exception data in SCRATCH0/SCRATCH1, signal hostirq
   dispatch_error:
   mov $r4 0x1000
   iowr I[$r4 + 0x000] $r2
   iowr I[$r4 + 0x100] $r3
   mov $r2 0x40
   iowr I[$r0] $r2
   hostirq_wait:
      iord $r2 I[$r0 + 0x200]
      and $r2 0x40
      cmpu b32 $r2 0
      bra ne hostirq_wait

   dispatch_done:
   mov $r2 0x1d00
   mov $r3 1
   iowr I[$r2] $r3
   ret

// No-operation
//
// Inputs:
//    $r1: irqh state
//    $r2: hostirq state
//    $r3: data
//    $r4: dispatch table entry
// Outputs:
//    $r1: irqh state
//    $p1: set on error
//       $r2: hostirq state
//       $r3: data
cmd_nop:
   ret

// PM_TRIGGER
//
// Inputs:
//    $r1: irqh state
//    $r2: hostirq state
//    $r3: data
//    $r4: dispatch table entry
// Outputs:
//    $r1: irqh state
//    $p1: set on error
//       $r2: hostirq state
//       $r3: data
cmd_pm_trigger:
   mov $r2 0x2200
   clear b32 $r3
   sethi $r3 0x20000
   iowr I[$r2] $r3
   ret

ifdef(`NVA3',
// SET_DMA_* method handler
//
// Inputs:
//    $r1: irqh state
//    $r2: hostirq state
//    $r3: data
//    $r4: dispatch table entry
// Outputs:
//    $r1: irqh state
//    $p1: set on error
//       $r2: hostirq state
//       $r3: data
cmd_dma:
   sub b32 $r4 dispatch_dma
   shr b32 $r4 1
   bset $r3 0x1e
   st b32 D[$r4 + ctx_dma] $r3
   add b32 $r4 0x600
   shl b32 $r4 6
   iowr I[$r4] $r3
   ret
,)

// Calculates the hw swizzle mask and adjusts the surface's xcnt to match
//
cmd_exec_set_format:
   // zero out a chunk of the stack to store the swizzle into
   add $sp -0x10
   st b32 D[$sp + 0x00] $r0
   st b32 D[$sp + 0x04] $r0
   st b32 D[$sp + 0x08] $r0
   st b32 D[$sp + 0x0c] $r0

   // extract cpp, src_ncomp and dst_ncomp from FORMAT
   ld b32 $r4 D[$r0 + ctx_format]
   extr $r5 $r4 16:17
   add b32 $r5 1
   extr $r6 $r4 20:21
   add b32 $r6 1
   extr $r7 $r4 24:25
   add b32 $r7 1

   // convert FORMAT swizzle mask to hw swizzle mask
   bclr $flags $p2
   clear b32 $r8
   clear b32 $r9
   ncomp_loop:
      and $r10 $r4 0xf
      shr b32 $r4 4
      clear b32 $r11
      bpc_loop:
         cmpu b8 $r10 4
         bra nc cmp_c0
            mulu $r12 $r10 $r5
            add b32 $r12 $r11
            bset $flags $p2
            bra bpc_next
         cmp_c0:
         bra ne cmp_c1
            mov $r12 0x10
            add b32 $r12 $r11
            bra bpc_next
         cmp_c1:
         cmpu b8 $r10 6
         bra nc cmp_zero
            mov $r12 0x14
            add b32 $r12 $r11
            bra bpc_next
         cmp_zero:
            mov $r12 0x80
         bpc_next:
         st b8 D[$sp + $r8] $r12
         add b32 $r8 1
         add b32 $r11 1
         cmpu b32 $r11 $r5
         bra c bpc_loop
      add b32 $r9 1
      cmpu b32 $r9 $r7
      bra c ncomp_loop

   // SRC_XCNT = (xcnt * src_cpp), or 0 if no src ref in swz (hw will hang)
   mulu $r6 $r5
   st b32 D[$r0 + ctx_src_cpp] $r6
   ld b32 $r8 D[$r0 + ctx_xcnt]
   mulu $r6 $r8
   bra $p2 dst_xcnt
   clear b32 $r6

   dst_xcnt:
   mulu $r7 $r5
   st b32 D[$r0 + ctx_dst_cpp] $r7
   mulu $r7 $r8

   mov $r5 0x810
   shl b32 $r5 6
   iowr I[$r5 + 0x000] $r6
   iowr I[$r5 + 0x100] $r7
   add b32 $r5 0x800
   ld b32 $r6 D[$r0 + ctx_dst_cpp]
   sub b32 $r6 1
   shl b32 $r6 8
   ld b32 $r7 D[$r0 + ctx_src_cpp]
   sub b32 $r7 1
   or $r6 $r7
   iowr I[$r5 + 0x000] $r6
   add b32 $r5 0x100
   ld b32 $r6 D[$sp + 0x00]
   iowr I[$r5 + 0x000] $r6
   ld b32 $r6 D[$sp + 0x04]
   iowr I[$r5 + 0x100] $r6
   ld b32 $r6 D[$sp + 0x08]
   iowr I[$r5 + 0x200] $r6
   ld b32 $r6 D[$sp + 0x0c]
   iowr I[$r5 + 0x300] $r6
   add b32 $r5 0x400
   ld b32 $r6 D[$r0 + ctx_swz_const0]
   iowr I[$r5 + 0x000] $r6
   ld b32 $r6 D[$r0 + ctx_swz_const1]
   iowr I[$r5 + 0x100] $r6
   add $sp 0x10
   ret

// Setup to handle a tiled surface
//
// Calculates a number of parameters the hardware requires in order
// to correctly handle tiling.
//
// Offset calculation is performed as follows (Tp/Th/Td from TILE_MODE):
//    nTx = round_up(w * cpp, 1 << Tp) >> Tp
//    nTy = round_up(h, 1 << Th) >> Th
//    Txo = (x * cpp) & ((1 << Tp) - 1)
//     Tx = (x * cpp) >> Tp
//    Tyo = y & ((1 << Th) - 1)
//     Ty = y >> Th
//    Tzo = z & ((1 << Td) - 1)
//     Tz = z >> Td
//
//    off  = (Tzo << Tp << Th) + (Tyo << Tp) + Txo
//    off += ((Tz * nTy * nTx)) + (Ty * nTx) + Tx) << Td << Th << Tp;
//
// Inputs:
//    $r4: hw command (0x104800)
//    $r5: ctx offset adjustment for src/dst selection
//    $p2: set if dst surface
//
cmd_exec_set_surface_tiled:
   // translate TILE_MODE into Tp, Th, Td shift values
   ld b32 $r7 D[$r5 + ctx_src_tile_mode]
   extr $r9 $r7 8:11
   extr $r8 $r7 4:7
ifdef(`NVA3',
   add b32 $r8 2
,
   add b32 $r8 3
)
   extr $r7 $r7 0:3
   cmp b32 $r7 0xe
   bra ne xtile64
   mov $r7 4
   bra xtileok
   xtile64:
   xbit $r7 $flags $p2
   add b32 $r7 17
   bset $r4 $r7
   mov $r7 6
   xtileok:

   // Op = (x * cpp) & ((1 << Tp) - 1)
   // Tx = (x * cpp) >> Tp
   ld b32 $r10 D[$r5 + ctx_src_xoff]
   ld b32 $r11 D[$r5 + ctx_src_cpp]
   mulu $r10 $r11
   mov $r11 1
   shl b32 $r11 $r7
   sub b32 $r11 1
   and $r12 $r10 $r11
   shr b32 $r10 $r7

   // Tyo = y & ((1 << Th) - 1)
   // Ty  = y >> Th
   ld b32 $r13 D[$r5 + ctx_src_yoff]
   mov $r14 1
   shl b32 $r14 $r8
   sub b32 $r14 1
   and $r11 $r13 $r14
   shr b32 $r13 $r8

   // YTILE = ((1 << Th) << 12) | ((1 << Th) - Tyo)
   add b32 $r14 1
   shl b32 $r15 $r14 12
   sub b32 $r14 $r11
   or $r15 $r14
   xbit $r6 $flags $p2
   add b32 $r6 0x208
   shl b32 $r6 8
   iowr I[$r6 + 0x000] $r15

   // Op += Tyo << Tp
   shl b32 $r11 $r7
   add b32 $r12 $r11

   // nTx = ((w * cpp) + ((1 << Tp) - 1) >> Tp)
   ld b32 $r15 D[$r5 + ctx_src_xsize]
   ld b32 $r11 D[$r5 + ctx_src_cpp]
   mulu $r15 $r11
   mov $r11 1
   shl b32 $r11 $r7
   sub b32 $r11 1
   add b32 $r15 $r11
   shr b32 $r15 $r7
   push $r15

   // nTy = (h + ((1 << Th) - 1)) >> Th
   ld b32 $r15 D[$r5 + ctx_src_ysize]
   mov $r11 1
   shl b32 $r11 $r8
   sub b32 $r11 1
   add b32 $r15 $r11
   shr b32 $r15 $r8
   push $r15

   // Tys = Tp + Th
   // CFG_YZ_TILE_SIZE = ((1 << Th) >> 2) << Td
   add b32 $r7 $r8
   sub b32 $r8 2
   mov $r11 1
   shl b32 $r11 $r8
   shl b32 $r11 $r9

   // Tzo = z & ((1 << Td) - 1)
   // Tz  = z >> Td
   // Op += Tzo << Tys
   // Ts  = Tys + Td
   ld b32 $r8 D[$r5 + ctx_src_zoff]
   mov $r14 1
   shl b32 $r14 $r9
   sub b32 $r14 1
   and $r15 $r8 $r14
   shl b32 $r15 $r7
   add b32 $r12 $r15
   add b32 $r7 $r9
   shr b32 $r8 $r9

   // Ot = ((Tz * nTy * nTx) + (Ty * nTx) + Tx) << Ts
   pop $r15
   pop $r9
   mulu $r13 $r9
   add b32 $r10 $r13
   mulu $r8 $r9
   mulu $r8 $r15
   add b32 $r10 $r8
   shl b32 $r10 $r7

   // PITCH = (nTx - 1) << Ts
   sub b32 $r9 1
   shl b32 $r9 $r7
   iowr I[$r6 + 0x200] $r9

   // SRC_ADDRESS_LOW   = (Ot + Op) & 0xffffffff
   // CFG_ADDRESS_HIGH |= ((Ot + Op) >> 32) << 16
   ld b32 $r7 D[$r5 + ctx_src_address_low]
   ld b32 $r8 D[$r5 + ctx_src_address_high]
   add b32 $r10 $r12
   add b32 $r7 $r10
   adc b32 $r8 0
   shl b32 $r8 16
   or $r8 $r11
   sub b32 $r6 0x600
   iowr I[$r6 + 0x000] $r7
   add b32 $r6 0x400
   iowr I[$r6 + 0x000] $r8
   ret

// Setup to handle a linear surface
//
// Nothing to see here.. Sets ADDRESS and PITCH, pretty non-exciting
//
cmd_exec_set_surface_linear:
   xbit $r6 $flags $p2
   add b32 $r6 0x202
   shl b32 $r6 8
   ld b32 $r7 D[$r5 + ctx_src_address_low]
   iowr I[$r6 + 0x000] $r7
   add b32 $r6 0x400
   ld b32 $r7 D[$r5 + ctx_src_address_high]
   shl b32 $r7 16
   iowr I[$r6 + 0x000] $r7
   add b32 $r6 0x400
   ld b32 $r7 D[$r5 + ctx_src_pitch]
   iowr I[$r6 + 0x000] $r7
   ret

// wait for regs to be available for use
cmd_exec_wait:
   push $r0
   push $r1
   mov $r0 0x800
   shl b32 $r0 6
   loop:
      iord $r1 I[$r0]
      and $r1 1
      bra ne loop
   pop $r1
   pop $r0
   ret

cmd_exec_query:
   // if QUERY_SHORT not set, write out { -, 0, TIME_LO, TIME_HI }
   xbit $r4 $r3 13
   bra ne query_counter
      call cmd_exec_wait
      mov $r4 0x80c
      shl b32 $r4 6
      ld b32 $r5 D[$r0 + ctx_query_address_low]
      add b32 $r5 4
      iowr I[$r4 + 0x000] $r5
      iowr I[$r4 + 0x100] $r0
      mov $r5 0xc
      iowr I[$r4 + 0x200] $r5
      add b32 $r4 0x400
      ld b32 $r5 D[$r0 + ctx_query_address_high]
      shl b32 $r5 16
      iowr I[$r4 + 0x000] $r5
      add b32 $r4 0x500
      mov $r5 0x00000b00
      sethi $r5 0x00010000
      iowr I[$r4 + 0x000] $r5
      mov $r5 0x00004040
      shl b32 $r5 1
      sethi $r5 0x80800000
      iowr I[$r4 + 0x100] $r5
      mov $r5 0x00001110
      sethi $r5 0x13120000
      iowr I[$r4 + 0x200] $r5
      mov $r5 0x00001514
      sethi $r5 0x17160000
      iowr I[$r4 + 0x300] $r5
      mov $r5 0x00002601
      sethi $r5 0x00010000
      mov $r4 0x800
      shl b32 $r4 6
      iowr I[$r4 + 0x000] $r5

   // write COUNTER
   query_counter:
   call cmd_exec_wait
   mov $r4 0x80c
   shl b32 $r4 6
   ld b32 $r5 D[$r0 + ctx_query_address_low]
   iowr I[$r4 + 0x000] $r5
   iowr I[$r4 + 0x100] $r0
   mov $r5 0x4
   iowr I[$r4 + 0x200] $r5
   add b32 $r4 0x400
   ld b32 $r5 D[$r0 + ctx_query_address_high]
   shl b32 $r5 16
   iowr I[$r4 + 0x000] $r5
   add b32 $r4 0x500
   mov $r5 0x00000300
   iowr I[$r4 + 0x000] $r5
   mov $r5 0x00001110
   sethi $r5 0x13120000
   iowr I[$r4 + 0x100] $r5
   ld b32 $r5 D[$r0 + ctx_query_counter]
   add b32 $r4 0x500
   iowr I[$r4 + 0x000] $r5
   mov $r5 0x00002601
   sethi $r5 0x00010000
   mov $r4 0x800
   shl b32 $r4 6
   iowr I[$r4 + 0x000] $r5
   ret

// Execute a copy operation
//
// Inputs:
//    $r1: irqh state
//    $r2: hostirq state
//    $r3: data
//       000002000 QUERY_SHORT
//       000001000 QUERY
//       000000100 DST_LINEAR
//       000000010 SRC_LINEAR
//       000000001 FORMAT
//    $r4: dispatch table entry
// Outputs:
//    $r1: irqh state
//    $p1: set on error
//       $r2: hostirq state
//       $r3: data
cmd_exec:
   call cmd_exec_wait

   // if format requested, call function to calculate it, otherwise
   // fill in cpp/xcnt for both surfaces as if (cpp == 1)
   xbit $r15 $r3 0
   bra e cmd_exec_no_format
      call cmd_exec_set_format
      mov $r4 0x200
      bra cmd_exec_init_src_surface
   cmd_exec_no_format:
      mov $r6 0x810
      shl b32 $r6 6
      mov $r7 1
      st b32 D[$r0 + ctx_src_cpp] $r7
      st b32 D[$r0 + ctx_dst_cpp] $r7
      ld b32 $r7 D[$r0 + ctx_xcnt]
      iowr I[$r6 + 0x000] $r7
      iowr I[$r6 + 0x100] $r7
      clear b32 $r4

   cmd_exec_init_src_surface:
   bclr $flags $p2
   clear b32 $r5
   xbit $r15 $r3 4
   bra e src_tiled
      call cmd_exec_set_surface_linear
      bra cmd_exec_init_dst_surface
   src_tiled:
      call cmd_exec_set_surface_tiled
      bset $r4 7

   cmd_exec_init_dst_surface:
   bset $flags $p2
   mov $r5 ctx_dst_address_high - ctx_src_address_high
   xbit $r15 $r3 8
   bra e dst_tiled
      call cmd_exec_set_surface_linear
      bra cmd_exec_kick
   dst_tiled:
      call cmd_exec_set_surface_tiled
      bset $r4 8

   cmd_exec_kick:
   mov $r5 0x800
   shl b32 $r5 6
   ld b32 $r6 D[$r0 + ctx_ycnt]
   iowr I[$r5 + 0x100] $r6
   mov $r6 0x0041
   // SRC_TARGET = 1, DST_TARGET = 2
   sethi $r6 0x44000000
   or $r4 $r6
   iowr I[$r5] $r4

   // if requested, queue up a QUERY write after the copy has completed
   xbit $r15 $r3 12
   bra e cmd_exec_done
      call cmd_exec_query

   cmd_exec_done:
   ret

// Flush write cache
//
// Inputs:
//    $r1: irqh state
//    $r2: hostirq state
//    $r3: data
//    $r4: dispatch table entry
// Outputs:
//    $r1: irqh state
//    $p1: set on error
//       $r2: hostirq state
//       $r3: data
cmd_wrcache_flush:
   mov $r2 0x2200
   clear b32 $r3
   sethi $r3 0x10000
   iowr I[$r2] $r3
   ret

.align 0x100