/************************************************************************** * * Copyright 2003 Tungsten Graphics, Inc., Cedar Park, Texas. * All Rights Reserved. * * 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, 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 TUNGSTEN GRAPHICS AND/OR ITS 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 "cairoint.h" #include "cairo-drm-intel-private.h" struct debug_stream { unsigned offset; /* current gtt offset */ const char *ptr; /* pointer to gtt offset zero */ const char *end; /* pointer to gtt offset zero */ }; static cairo_bool_t debug (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t i; const uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); if (len == 0) { fprintf (stderr, "Error - zero length packet (0x%08x)\n", stream->ptr[0]); ASSERT_NOT_REACHED; return FALSE; } fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); for (i = 0; i < len; i++) fprintf (stderr, "\t0x%08x\n", ptr[i]); fprintf (stderr, "\n"); stream->offset += len * sizeof(uint32_t); return TRUE; } static const char * get_prim_name (uint32_t val) { switch (val & PRIM3D_MASK) { case PRIM3D_TRILIST: return "TRILIST"; case PRIM3D_TRISTRIP: return "TRISTRIP"; case PRIM3D_TRISTRIP_RVRSE: return "TRISTRIP_RVRSE"; case PRIM3D_TRIFAN: return "TRIFAN"; case PRIM3D_POLY: return "POLY"; case PRIM3D_LINELIST: return "LINELIST"; case PRIM3D_LINESTRIP: return "LINESTRIP"; case PRIM3D_RECTLIST: return "RECTLIST"; case PRIM3D_POINTLIST: return "POINTLIST"; case PRIM3D_DIB: return "DIB"; case PRIM3D_CLEAR_RECT: return "CLEAR_RECT"; case PRIM3D_ZONE_INIT: return "ZONE_INIT"; default: return "????"; } } static cairo_bool_t debug_prim (struct debug_stream *stream, const char *name, cairo_bool_t dump_floats, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); const char *prim = get_prim_name( ptr[0] ); uint32_t i; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s %s (%d dwords):\n", name, prim, len); fprintf (stderr, "\t0x%08x\n", ptr[0]); for (i = 1; i < len; i++) { if (dump_floats) fprintf (stderr, "\t0x%08x // %f\n", ptr[i], *(float *)&ptr[i]); else fprintf (stderr, "\t0x%08x\n", ptr[i]); } fprintf (stderr, "\n"); stream->offset += len * sizeof(uint32_t); return TRUE; } static const char *opcodes[] = { "NOP", "ADD", "MOV", "MUL", "MAD", "DP2ADD", "DP3", "DP4", "FRC", "RCP", "RSQ", "EXP", "LOG", "CMP", "MIN", "MAX", "FLR", "MOD", "TRC", "SGE", "SLT", "TEXLD", "TEXLDP", "TEXLDB", "TEXKILL", "DCL", "0x1a", "0x1b", "0x1c", "0x1d", "0x1e", "0x1f", }; static const int args[] = { 0, /* 0 nop */ 2, /* 1 add */ 1, /* 2 mov */ 2, /* 3 m ul */ 3, /* 4 mad */ 3, /* 5 dp2add */ 2, /* 6 dp3 */ 2, /* 7 dp4 */ 1, /* 8 frc */ 1, /* 9 rcp */ 1, /* a rsq */ 1, /* b exp */ 1, /* c log */ 3, /* d cmp */ 2, /* e min */ 2, /* f max */ 1, /* 10 flr */ 1, /* 11 mod */ 1, /* 12 trc */ 2, /* 13 sge */ 2, /* 14 slt */ 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, }; static const char *regname[] = { "R", "T", "CONST", "S", "OC", "OD", "U", "UNKNOWN", }; static void print_reg_type_nr(uint32_t type, uint32_t nr) { switch (type) { case REG_TYPE_T: switch (nr) { case T_DIFFUSE: fprintf (stderr, "T_DIFFUSE"); return; case T_SPECULAR: fprintf (stderr, "T_SPECULAR"); return; case T_FOG_W: fprintf (stderr, "T_FOG_W"); return; default: fprintf (stderr, "T_TEX%d", nr); return; } case REG_TYPE_OC: if (nr == 0) { fprintf (stderr, "oC"); return; } break; case REG_TYPE_OD: if (nr == 0) { fprintf (stderr, "oD"); return; } break; default: break; } fprintf (stderr, "%s[%d]", regname[type], nr); } #define REG_SWIZZLE_MASK 0x7777 #define REG_NEGATE_MASK 0x8888 #define REG_SWIZZLE_XYZW ((SRC_X << A2_SRC2_CHANNEL_X_SHIFT) | \ (SRC_Y << A2_SRC2_CHANNEL_Y_SHIFT) | \ (SRC_Z << A2_SRC2_CHANNEL_Z_SHIFT) | \ (SRC_W << A2_SRC2_CHANNEL_W_SHIFT)) static void print_reg_neg_swizzle(uint32_t reg) { int i; if ((reg & REG_SWIZZLE_MASK) == REG_SWIZZLE_XYZW && (reg & REG_NEGATE_MASK) == 0) return; fprintf (stderr, "."); for (i = 12; i >= 0; i -= 4) { if (reg & (8 << i)) fprintf (stderr, "-"); switch ((reg >> i) & 0x7) { case 0: fprintf (stderr, "x"); break; case 1: fprintf (stderr, "y"); break; case 2: fprintf (stderr, "z"); break; case 3: fprintf (stderr, "w"); break; case 4: fprintf (stderr, "0"); break; case 5: fprintf (stderr, "1"); break; default: fprintf (stderr, "?"); break; } } } static void print_src_reg(uint32_t dword) { uint32_t nr = (dword >> A2_SRC2_NR_SHIFT) & REG_NR_MASK; uint32_t type = (dword >> A2_SRC2_TYPE_SHIFT) & REG_TYPE_MASK; print_reg_type_nr(type, nr); print_reg_neg_swizzle(dword); } static void print_dest_reg(uint32_t dword) { uint32_t nr = (dword >> A0_DEST_NR_SHIFT) & REG_NR_MASK; uint32_t type = (dword >> A0_DEST_TYPE_SHIFT) & REG_TYPE_MASK; print_reg_type_nr(type, nr); if ((dword & A0_DEST_CHANNEL_ALL) == A0_DEST_CHANNEL_ALL) return; fprintf (stderr, "."); if (dword & A0_DEST_CHANNEL_X) fprintf (stderr, "x"); if (dword & A0_DEST_CHANNEL_Y) fprintf (stderr, "y"); if (dword & A0_DEST_CHANNEL_Z) fprintf (stderr, "z"); if (dword & A0_DEST_CHANNEL_W) fprintf (stderr, "w"); } #define GET_SRC0_REG(r0, r1) ((r0<<14)|(r1>>A1_SRC0_CHANNEL_W_SHIFT)) #define GET_SRC1_REG(r0, r1) ((r0<<8)|(r1>>A2_SRC1_CHANNEL_W_SHIFT)) #define GET_SRC2_REG(r) (r) static void print_arith_op(uint32_t opcode, const uint32_t * program) { if (opcode != A0_NOP) { print_dest_reg(program[0]); if (program[0] & A0_DEST_SATURATE) fprintf (stderr, " = SATURATE "); else fprintf (stderr, " = "); } fprintf (stderr, "%s ", opcodes[opcode]); print_src_reg(GET_SRC0_REG(program[0], program[1])); if (args[opcode] == 1) { fprintf (stderr, "\n"); return; } fprintf (stderr, ", "); print_src_reg(GET_SRC1_REG(program[1], program[2])); if (args[opcode] == 2) { fprintf (stderr, "\n"); return; } fprintf (stderr, ", "); print_src_reg(GET_SRC2_REG(program[2])); fprintf (stderr, "\n"); return; } static void print_tex_op(uint32_t opcode, const uint32_t * program) { print_dest_reg(program[0] | A0_DEST_CHANNEL_ALL); fprintf (stderr, " = "); fprintf (stderr, "%s ", opcodes[opcode]); fprintf (stderr, "S[%d],", program[0] & T0_SAMPLER_NR_MASK); print_reg_type_nr((program[1] >> T1_ADDRESS_REG_TYPE_SHIFT) & REG_TYPE_MASK, (program[1] >> T1_ADDRESS_REG_NR_SHIFT) & REG_NR_MASK); fprintf (stderr, "\n"); } static void print_dcl_op(uint32_t opcode, const uint32_t * program) { fprintf (stderr, "%s ", opcodes[opcode]); print_dest_reg(program[0] | A0_DEST_CHANNEL_ALL); fprintf (stderr, "\n"); } static void i915_disassemble_program (const uint32_t * program, uint32_t sz) { uint32_t size = program[0] & 0x1ff; uint32_t i; fprintf (stderr, "\tPROGRAM\n"); assert(size + 2 == sz); program++; for (i = 1; i < sz; i += 3, program += 3) { uint32_t opcode = program[0] & (0x1f << 24); fprintf (stderr, "\t\t"); if ((int) opcode >= A0_NOP && opcode <= A0_SLT) print_arith_op(opcode >> 24, program); else if (opcode >= T0_TEXLD && opcode <= T0_TEXKILL) print_tex_op(opcode >> 24, program); else if (opcode == D0_DCL) print_dcl_op(opcode >> 24, program); else fprintf (stderr, "Unknown opcode 0x%x\n", opcode); } fprintf (stderr, "\tEND-PROGRAM\n\n"); } static cairo_bool_t debug_program (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); if (len == 0) { fprintf (stderr, "Error - zero length packet (0x%08x)\n", stream->ptr[0]); ASSERT_NOT_REACHED; return FALSE; } fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); i915_disassemble_program (ptr, len); stream->offset += len * sizeof(uint32_t); return TRUE; } static cairo_bool_t debug_chain (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t old_offset = stream->offset + len * sizeof(uint32_t); uint32_t i; fprintf (stderr, "%s (%d dwords):\n", name, len); for (i = 0; i < len; i++) fprintf (stderr, "\t0x%08x\n", ptr[i]); stream->offset = ptr[1] & ~0x3; if (stream->offset < old_offset) fprintf (stderr, "\n... skipping backwards from 0x%x --> 0x%x ...\n\n", old_offset, stream->offset ); else fprintf (stderr, "\n... skipping from 0x%x --> 0x%x ...\n\n", old_offset, stream->offset ); return TRUE; } static cairo_bool_t debug_variable_length_prim (struct debug_stream *stream) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); const char *prim = get_prim_name( ptr[0] ); uint32_t i, len; uint16_t *idx = (uint16_t *)(ptr+1); for (i = 0; idx[i] != 0xffff; i++) ; len = 1+(i+2)/2; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "3DPRIM, %s variable length %d indicies (%d dwords):\n", prim, i, len); for (i = 0; i < len; i++) fprintf (stderr, "\t0x%08x\n", ptr[i]); fprintf (stderr, "\n"); stream->offset += len * sizeof(uint32_t); return TRUE; } #define BITS(dw, hi, lo, ...) \ do { \ unsigned himask = 0xffffffffU >> (31 - (hi)); \ fprintf (stderr, "\t\t "); \ fprintf (stderr, __VA_ARGS__); \ fprintf (stderr, ": 0x%x\n", ((dw) & himask) >> (lo)); \ } while (0) #define MBZ(dw, hi, lo) do { \ unsigned x = (dw) >> (lo); \ unsigned lomask = (1 << (lo)) - 1; \ unsigned himask; \ himask = (1UL << (hi)) - 1; \ assert ((x & himask & ~lomask) == 0); \ } while (0) #define FLAG(dw, bit, ... ) \ do { \ if (((dw) >> (bit)) & 1) { \ fprintf (stderr, "\t\t "); \ fprintf (stderr, __VA_ARGS__); \ fprintf (stderr, "\n"); \ } \ } while (0) static cairo_bool_t debug_load_immediate (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t bits = (ptr[0] >> 4) & 0xff; uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords, flags: %x):\n", name, len, bits); fprintf (stderr, "\t0x%08x\n", ptr[j++]); if (bits & (1<<0)) { fprintf (stderr, "\t LIS0: 0x%08x\n", ptr[j]); fprintf (stderr, "\t vb address: 0x%08x\n", (ptr[j] & ~0x3)); BITS (ptr[j], 0, 0, "vb invalidate disable"); j++; } if (bits & (1<<1)) { fprintf (stderr, "\t LIS1: 0x%08x\n", ptr[j]); BITS (ptr[j], 29, 24, "vb dword width"); BITS (ptr[j], 21, 16, "vb dword pitch"); BITS (ptr[j], 15, 0, "vb max index"); j++; } if (bits & (1<<2)) { int i; fprintf (stderr, "\t LIS2: 0x%08x\n", ptr[j]); for (i = 0; i < 8; i++) { unsigned tc = (ptr[j] >> (i * 4)) & 0xf; if (tc != 0xf) BITS (tc, 3, 0, "tex coord %d", i); } j++; } if (bits & (1<<3)) { fprintf (stderr, "\t LIS3: 0x%08x\n", ptr[j]); j++; } if (bits & (1<<4)) { fprintf (stderr, "\t LIS4: 0x%08x\n", ptr[j]); BITS (ptr[j], 31, 23, "point width"); BITS (ptr[j], 22, 19, "line width"); FLAG (ptr[j], 18, "alpha flatshade"); FLAG (ptr[j], 17, "fog flatshade"); FLAG (ptr[j], 16, "spec flatshade"); FLAG (ptr[j], 15, "rgb flatshade"); BITS (ptr[j], 14, 13, "cull mode"); FLAG (ptr[j], 12, "vfmt: point width"); FLAG (ptr[j], 11, "vfmt: specular/fog"); FLAG (ptr[j], 10, "vfmt: rgba"); FLAG (ptr[j], 9, "vfmt: depth offset"); BITS (ptr[j], 8, 6, "vfmt: position (2==xyzw)"); FLAG (ptr[j], 5, "force dflt diffuse"); FLAG (ptr[j], 4, "force dflt specular"); FLAG (ptr[j], 3, "local depth offset enable"); FLAG (ptr[j], 2, "vfmt: fp32 fog coord"); FLAG (ptr[j], 1, "sprite point"); FLAG (ptr[j], 0, "antialiasing"); j++; } if (bits & (1<<5)) { fprintf (stderr, "\t LIS5: 0x%08x\n", ptr[j]); BITS (ptr[j], 31, 28, "rgba write disables"); FLAG (ptr[j], 27, "force dflt point width"); FLAG (ptr[j], 26, "last pixel enable"); FLAG (ptr[j], 25, "global z offset enable"); FLAG (ptr[j], 24, "fog enable"); BITS (ptr[j], 23, 16, "stencil ref"); BITS (ptr[j], 15, 13, "stencil test"); BITS (ptr[j], 12, 10, "stencil fail op"); BITS (ptr[j], 9, 7, "stencil pass z fail op"); BITS (ptr[j], 6, 4, "stencil pass z pass op"); FLAG (ptr[j], 3, "stencil write enable"); FLAG (ptr[j], 2, "stencil test enable"); FLAG (ptr[j], 1, "color dither enable"); FLAG (ptr[j], 0, "logiop enable"); j++; } if (bits & (1<<6)) { fprintf (stderr, "\t LIS6: 0x%08x\n", ptr[j]); FLAG (ptr[j], 31, "alpha test enable"); BITS (ptr[j], 30, 28, "alpha func"); BITS (ptr[j], 27, 20, "alpha ref"); FLAG (ptr[j], 19, "depth test enable"); BITS (ptr[j], 18, 16, "depth func"); FLAG (ptr[j], 15, "blend enable"); BITS (ptr[j], 14, 12, "blend func"); BITS (ptr[j], 11, 8, "blend src factor"); BITS (ptr[j], 7, 4, "blend dst factor"); FLAG (ptr[j], 3, "depth write enable"); FLAG (ptr[j], 2, "color write enable"); BITS (ptr[j], 1, 0, "provoking vertex"); j++; } fprintf (stderr, "\n"); assert(j == len); stream->offset += len * sizeof(uint32_t); return TRUE; } static cairo_bool_t debug_load_indirect (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t bits = (ptr[0] >> 8) & 0x3f; uint32_t i, j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); for (i = 0; i < 6; i++) { if (bits & (1<offset += len * sizeof(uint32_t); return TRUE; } static void BR13 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x\n", val); FLAG (val, 30, "clipping enable"); BITS (val, 25, 24, "color depth (3==32bpp)"); BITS (val, 23, 16, "raster op"); BITS (val, 15, 0, "dest pitch"); } static void BR2223 (struct debug_stream *stream, uint32_t val22, uint32_t val23) { union { uint32_t val; short field[2]; } BR22, BR23; BR22.val = val22; BR23.val = val23; fprintf (stderr, "\t0x%08x\n", val22); BITS (val22, 31, 16, "dest y1"); BITS (val22, 15, 0, "dest x1"); fprintf (stderr, "\t0x%08x\n", val23); BITS (val23, 31, 16, "dest y2"); BITS (val23, 15, 0, "dest x2"); /* The blit engine may produce unexpected results when these aren't met */ assert(BR22.field[0] < BR23.field[0]); assert(BR22.field[1] < BR23.field[1]); } static void BR09 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x -- dest address\n", val); } static void BR26 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x\n", val); BITS (val, 31, 16, "src y1"); BITS (val, 15, 0, "src x1"); } static void BR11 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x\n", val); BITS (val, 15, 0, "src pitch"); } static void BR12 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x -- src address\n", val); } static void BR16 (struct debug_stream *stream, uint32_t val) { fprintf (stderr, "\t0x%08x -- color\n", val); } static cairo_bool_t debug_copy_blit (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); BR13(stream, ptr[j++]); BR2223(stream, ptr[j], ptr[j+1]); j += 2; BR09(stream, ptr[j++]); BR26(stream, ptr[j++]); BR11(stream, ptr[j++]); BR12(stream, ptr[j++]); stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_color_blit (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); BR13(stream, ptr[j++]); BR2223(stream, ptr[j], ptr[j+1]); j += 2; BR09(stream, ptr[j++]); BR16(stream, ptr[j++]); stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_modes4 (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j]); BITS (ptr[j], 21, 18, "logicop func"); FLAG (ptr[j], 17, "stencil test mask modify-enable"); FLAG (ptr[j], 16, "stencil write mask modify-enable"); BITS (ptr[j], 15, 8, "stencil test mask"); BITS (ptr[j], 7, 0, "stencil write mask"); fprintf (stderr, "\n"); j++; stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_map_state (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); { fprintf (stderr, "\t0x%08x\n", ptr[j]); BITS (ptr[j], 15, 0, "map mask"); j++; } while (j < len) { { fprintf (stderr, "\t TMn.0: 0x%08x\n", ptr[j]); fprintf (stderr, "\t map address: 0x%08x\n", (ptr[j] & ~0x3)); FLAG (ptr[j], 1, "vertical line stride"); FLAG (ptr[j], 0, "vertical line stride offset"); j++; } { fprintf (stderr, "\t TMn.1: 0x%08x\n", ptr[j]); BITS (ptr[j], 31, 21, "height"); BITS (ptr[j], 20, 10, "width"); BITS (ptr[j], 9, 7, "surface format"); BITS (ptr[j], 6, 3, "texel format"); FLAG (ptr[j], 2, "use fence regs"); FLAG (ptr[j], 1, "tiled surface"); FLAG (ptr[j], 0, "tile walk ymajor"); j++; } { fprintf (stderr, "\t TMn.2: 0x%08x\n", ptr[j]); BITS (ptr[j], 31, 21, "dword pitch"); BITS (ptr[j], 20, 15, "cube face enables"); BITS (ptr[j], 14, 9, "max lod"); FLAG (ptr[j], 8, "mip layout right"); BITS (ptr[j], 7, 0, "depth"); j++; } } stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_sampler_state (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); { fprintf (stderr, "\t0x%08x\n", ptr[j]); BITS (ptr[j], 15, 0, "sampler mask"); j++; } while (j < len) { { fprintf (stderr, "\t TSn.0: 0x%08x\n", ptr[j]); FLAG (ptr[j], 31, "reverse gamma"); FLAG (ptr[j], 30, "planar to packed"); FLAG (ptr[j], 29, "yuv->rgb"); BITS (ptr[j], 28, 27, "chromakey index"); BITS (ptr[j], 26, 22, "base mip level"); BITS (ptr[j], 21, 20, "mip mode filter"); BITS (ptr[j], 19, 17, "mag mode filter"); BITS (ptr[j], 16, 14, "min mode filter"); BITS (ptr[j], 13, 5, "lod bias (s4.4)"); FLAG (ptr[j], 4, "shadow enable"); FLAG (ptr[j], 3, "max-aniso-4"); BITS (ptr[j], 2, 0, "shadow func"); j++; } { fprintf (stderr, "\t TSn.1: 0x%08x\n", ptr[j]); BITS (ptr[j], 31, 24, "min lod"); MBZ( ptr[j], 23, 18 ); FLAG (ptr[j], 17, "kill pixel enable"); FLAG (ptr[j], 16, "keyed tex filter mode"); FLAG (ptr[j], 15, "chromakey enable"); BITS (ptr[j], 14, 12, "tcx wrap mode"); BITS (ptr[j], 11, 9, "tcy wrap mode"); BITS (ptr[j], 8, 6, "tcz wrap mode"); FLAG (ptr[j], 5, "normalized coords"); BITS (ptr[j], 4, 1, "map (surface) index"); FLAG (ptr[j], 0, "EAST deinterlacer enable"); j++; } { fprintf (stderr, "\t TSn.2: 0x%08x (default color)\n", ptr[j]); j++; } } stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_dest_vars (struct debug_stream *stream, const char *name, uint32_t len) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); { fprintf (stderr, "\t0x%08x\n", ptr[j]); FLAG (ptr[j], 31, "early classic ztest"); FLAG (ptr[j], 30, "opengl tex default color"); FLAG (ptr[j], 29, "bypass iz"); FLAG (ptr[j], 28, "lod preclamp"); BITS (ptr[j], 27, 26, "dither pattern"); FLAG (ptr[j], 25, "linear gamma blend"); FLAG (ptr[j], 24, "debug dither"); BITS (ptr[j], 23, 20, "dstorg x"); BITS (ptr[j], 19, 16, "dstorg y"); MBZ (ptr[j], 15, 15 ); BITS (ptr[j], 14, 12, "422 write select"); BITS (ptr[j], 11, 8, "cbuf format"); BITS (ptr[j], 3, 2, "zbuf format"); FLAG (ptr[j], 1, "vert line stride"); FLAG (ptr[j], 1, "vert line stride offset"); j++; } stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t debug_buf_info( struct debug_stream *stream, const char *name, uint32_t len ) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t j = 0; fprintf (stderr, "%04x: ", stream->offset); fprintf (stderr, "%s (%d dwords):\n", name, len); fprintf (stderr, "\t0x%08x\n", ptr[j++]); { fprintf (stderr, "\t0x%08x\n", ptr[j]); BITS (ptr[j], 28, 28, "aux buffer id"); BITS (ptr[j], 27, 24, "buffer id (7=depth, 3=back)"); FLAG (ptr[j], 23, "use fence regs"); FLAG (ptr[j], 22, "tiled surface"); FLAG (ptr[j], 21, "tile walk ymajor"); MBZ (ptr[j], 20, 14); BITS (ptr[j], 13, 2, "dword pitch"); MBZ (ptr[j], 2, 0); j++; } fprintf (stderr, "\t0x%08x -- buffer base address\n", ptr[j++]); stream->offset += len * sizeof(uint32_t); assert(j == len); return TRUE; } static cairo_bool_t decode_3d_i915 (struct debug_stream *stream) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t cmd = *ptr; switch ((cmd >> 24) & 0x1f) { case 0x6: return debug (stream, "3DSTATE_ANTI_ALIASING", 1); case 0x7: return debug (stream, "3DSTATE_RASTERIZATION_RULES", 1); case 0x8: return debug (stream, "3DSTATE_BACKFACE_STENCIL_OPS", 1); case 0x9: return debug (stream, "3DSTATE_BACKFACE_STENCIL_MASKS", 1); case 0xb: return debug (stream, "3DSTATE_INDEPENDENT_ALPHA_BLEND", 1); case 0xc: return debug (stream, "3DSTATE_MODES5", 1); case 0xd: return debug_modes4(stream, "3DSTATE_MODES4", 1); case 0x15: return debug (stream, "3DSTATE_FOG_COLOR", 1); case 0x16: return debug (stream, "3DSTATE_COORD_SET_BINDINGS", 1); case 0x1c: /* 3DState16NP */ switch((cmd >> 19) & 0x1f) { case 0x10: return debug (stream, "3DSTATE_SCISSOR_ENABLE", 1); case 0x11: return debug (stream, "3DSTATE_DEPTH_SUBRECTANGLE_DISABLE", 1); default: break; } break; case 0x1d: /* 3DStateMW */ switch ((cmd >> 16) & 0xff) { case 0x0: return debug_map_state(stream, "3DSTATE_MAP_STATE", (cmd & 0x1f) + 2); case 0x1: return debug_sampler_state(stream, "3DSTATE_SAMPLER_STATE", (cmd & 0x1f) + 2); case 0x4: return debug_load_immediate(stream, "3DSTATE_LOAD_STATE_IMMEDIATE", (cmd & 0xf) + 2); case 0x5: return debug_program(stream, "3DSTATE_PIXEL_SHADER_PROGRAM", (cmd & 0x1ff) + 2); case 0x6: return debug (stream, "3DSTATE_PIXEL_SHADER_CONSTANTS", (cmd & 0xff) + 2); case 0x7: return debug_load_indirect(stream, "3DSTATE_LOAD_INDIRECT", (cmd & 0xff) + 2); case 0x80: return debug (stream, "3DSTATE_DRAWING_RECTANGLE", (cmd & 0xffff) + 2); case 0x81: return debug (stream, "3DSTATE_SCISSOR_RECTANGLE", (cmd & 0xffff) + 2); case 0x83: return debug (stream, "3DSTATE_SPAN_STIPPLE", (cmd & 0xffff) + 2); case 0x85: return debug_dest_vars(stream, "3DSTATE_DEST_BUFFER_VARS", (cmd & 0xffff) + 2); case 0x88: return debug (stream, "3DSTATE_CONSTANT_BLEND_COLOR", (cmd & 0xffff) + 2); case 0x89: return debug (stream, "3DSTATE_FOG_MODE", (cmd & 0xffff) + 2); case 0x8e: return debug_buf_info(stream, "3DSTATE_BUFFER_INFO", (cmd & 0xffff) + 2); case 0x97: return debug (stream, "3DSTATE_DEPTH_OFFSET_SCALE", (cmd & 0xffff) + 2); case 0x98: return debug (stream, "3DSTATE_DEFAULT_Z", (cmd & 0xffff) + 2); case 0x99: return debug (stream, "3DSTATE_DEFAULT_DIFFUSE", (cmd & 0xffff) + 2); case 0x9a: return debug (stream, "3DSTATE_DEFAULT_SPECULAR", (cmd & 0xffff) + 2); case 0x9c: return debug (stream, "3DSTATE_CLEAR_PARAMETERS", (cmd & 0xffff) + 2); default: ASSERT_NOT_REACHED; return 0; } break; case 0x1e: if (cmd & (1 << 23)) return debug (stream, "???", (cmd & 0xffff) + 1); else return debug (stream, "", 1); break; case 0x1f: if ((cmd & (1 << 23)) == 0) { return debug_prim (stream, "3DPRIM (inline)", 1, (cmd & 0x1ffff) + 2); } else if (cmd & (1 << 17)) { if ((cmd & 0xffff) == 0) return debug_variable_length_prim (stream); else return debug_prim (stream, "3DPRIM (indexed)", 0, (((cmd & 0xffff) + 1) / 2) + 1); } else return debug_prim (stream, "3DPRIM (indirect sequential)", 0, 2); break; default: return debug (stream, "", 0); } return FALSE; } static cairo_bool_t decode_3d_i965 (struct debug_stream *stream) { const uint32_t *data = (uint32_t *) (stream->ptr + stream->offset); const uint32_t opcode = (data[0] & 0xffff0000) >> 16; unsigned int idx; const struct { uint32_t opcode; int min_len; int max_len; const char *name; } opcodes_3d[] = { { 0x6000, 3, 3, "URB_FENCE" }, { 0x6001, 2, 2, "CS_URB_STATE" }, { 0x6002, 2, 2, "CONSTANT_BUFFER" }, { 0x6101, 6, 6, "STATE_BASE_ADDRESS" }, { 0x6102, 2, 2 , "STATE_SIP" }, { 0x6104, 1, 1, "3DSTATE_PIPELINE_SELECT" }, { 0x680b, 1, 1, "3DSTATE_VF_STATISTICS" }, { 0x6904, 1, 1, "3DSTATE_PIPELINE_SELECT" }, { 0x7800, 7, 7, "3DSTATE_PIPELINED_POINTERS" }, { 0x7801, 6, 6, "3DSTATE_BINDING_TABLE_POINTERS" }, { 0x780b, 1, 1, "3DSTATE_VF_STATISTICS" }, { 0x7808, 5, 257, "3DSTATE_VERTEX_BUFFERS" }, { 0x7809, 3, 256, "3DSTATE_VERTEX_ELEMENTS" }, { 0x780a, 3, 3, "3DSTATE_INDEX_BUFFER" }, { 0x7900, 4, 4, "3DSTATE_DRAWING_RECTANGLE" }, { 0x7901, 5, 5, "3DSTATE_CONSTANT_COLOR" }, { 0x7905, 5, 7, "3DSTATE_DEPTH_BUFFER" }, { 0x7906, 2, 2, "3DSTATE_POLY_STIPPLE_OFFSET" }, { 0x7907, 33, 33, "3DSTATE_POLY_STIPPLE_PATTERN" }, { 0x7908, 3, 3, "3DSTATE_LINE_STIPPLE" }, { 0x7909, 2, 2, "3DSTATE_GLOBAL_DEPTH_OFFSET_CLAMP" }, { 0x790a, 3, 3, "3DSTATE_AA_LINE_PARAMETERS" }, { 0x7b00, 6, 6, "3DPRIMITIVE" }, }, *opcode_3d; for (idx = 0; idx < ARRAY_LENGTH (opcodes_3d); idx++) { opcode_3d = &opcodes_3d[idx]; if (opcode == opcode_3d->opcode) { unsigned int len = 1; if (opcode_3d->max_len != 1) len = (data[0] & 0x000000ff) + 2; return debug (stream, opcode_3d->name, len); } } return FALSE; } static cairo_bool_t decode_3d_i830 (struct debug_stream *stream) { ASSERT_NOT_REACHED; return FALSE; } static cairo_bool_t i915_debug_packet (struct debug_stream *stream, int devid) { uint32_t *ptr = (uint32_t *)(stream->ptr + stream->offset); uint32_t cmd = *ptr; switch (((cmd >> 29) & 0x7)) { case 0x0: switch ((cmd >> 23) & 0x3f) { case 0x0: return debug (stream, "MI_NOOP", 1); case 0x3: return debug (stream, "MI_WAIT_FOR_EVENT", 1); case 0x4: return debug (stream, "MI_FLUSH", 1); case 0xA: debug (stream, "MI_BATCH_BUFFER_END", 1); return FALSE; case 0x22: return debug (stream, "MI_LOAD_REGISTER_IMM", 3); case 0x31: return debug_chain(stream, "MI_BATCH_BUFFER_START", 2); default: break; } break; case 0x1: break; case 0x2: switch ((cmd >> 22) & 0xff) { case 0x50: return debug_color_blit(stream, "XY_COLOR_BLT", (cmd & 0xff) + 2); case 0x53: return debug_copy_blit(stream, "XY_SRC_COPY_BLT", (cmd & 0xff) + 2); default: return debug (stream, "blit command", (cmd & 0xff) + 2); } break; case 0x3: if (IS_965(devid)) return decode_3d_i965 (stream); else if (IS_9XX(devid)) return decode_3d_i915 (stream); else return decode_3d_i830 (stream); default: break; } fprintf (stderr, "Bogus cmd: %x [%x]\n", (cmd >> 29) & 7, cmd); ASSERT_NOT_REACHED; return 0; } void intel_dump_batchbuffer (const void *batch, uint32_t length, int devid) { struct debug_stream stream; cairo_bool_t done = FALSE; fprintf (stderr, "\nBATCH: (%d dwords)\n", length / 4); stream.offset = 0; stream.ptr = batch; while (! done && stream.offset < length) { if (! i915_debug_packet (&stream, devid)) break; assert (stream.offset <= length); } fprintf (stderr, "END-BATCH\n\n"); fflush (stderr); }