/* * Mesa 3-D graphics library * * Copyright (C) 2014 LunarG, 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 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #ifndef GENHW_H #define GENHW_H #include "pipe/p_compiler.h" #include "util/u_debug.h" #include "gen_regs.xml.h" #include "gen_mi.xml.h" #include "gen_blitter.xml.h" #include "gen_render.xml.h" #include "gen_render_surface.xml.h" #include "gen_render_dynamic.xml.h" #include "gen_render_3d.xml.h" #include "gen_render_media.xml.h" #include "gen_eu_isa.xml.h" #include "gen_eu_message.xml.h" #define GEN_MI_CMD(gen, op) (GEN6_MI_TYPE_MI | gen ## _MI_OPCODE_ ## op) #define GEN6_MI_CMD(op) GEN_MI_CMD(GEN6, op) #define GEN7_MI_CMD(op) GEN_MI_CMD(GEN7, op) #define GEN_BLITTER_CMD(gen, op) \ (GEN6_BLITTER_TYPE_BLITTER | gen ## _BLITTER_OPCODE_ ## op) #define GEN6_BLITTER_CMD(op) GEN_BLITTER_CMD(GEN6, op) #define GEN_RENDER_CMD(subtype, gen, op) \ (GEN6_RENDER_TYPE_RENDER | \ GEN6_RENDER_SUBTYPE_ ## subtype | \ gen ## _RENDER_OPCODE_ ## op) #define GEN6_RENDER_CMD(subtype, op) GEN_RENDER_CMD(subtype, GEN6, op) #define GEN7_RENDER_CMD(subtype, op) GEN_RENDER_CMD(subtype, GEN7, op) #define GEN75_RENDER_CMD(subtype, op) GEN_RENDER_CMD(subtype, GEN75, op) #define GEN8_RENDER_CMD(subtype, op) GEN_RENDER_CMD(subtype, GEN8, op) #define GEN_EXTRACT(bits, field) (((bits) & field ## __MASK) >> field ## __SHIFT) #define GEN_SHIFT32(bits, field) gen_shift32(bits, field ## __MASK, field ## __SHIFT) static inline uint32_t gen_shift32(uint32_t bits, uint32_t mask, int shift) { bits <<= shift; assert((bits & mask) == bits); return bits & mask; } static inline bool gen_is_snb(int devid) { return (devid == 0x0102 || /* GT1 desktop */ devid == 0x0112 || /* GT2 desktop */ devid == 0x0122 || /* GT2_PLUS desktop */ devid == 0x0106 || /* GT1 mobile */ devid == 0x0116 || /* GT2 mobile */ devid == 0x0126 || /* GT2_PLUS mobile */ devid == 0x010a); /* GT1 server */ } static inline int gen_get_snb_gt(int devid) { assert(gen_is_snb(devid)); return (devid & 0x30) ? 2 : 1; } static inline bool gen_is_ivb(int devid) { return (devid == 0x0152 || /* GT1 desktop */ devid == 0x0162 || /* GT2 desktop */ devid == 0x0156 || /* GT1 mobile */ devid == 0x0166 || /* GT2 mobile */ devid == 0x015a || /* GT1 server */ devid == 0x016a); /* GT2 server */ } static inline int gen_get_ivb_gt(int devid) { assert(gen_is_ivb(devid)); return (devid & 0x30) >> 4; } static inline bool gen_is_hsw(int devid) { return (devid == 0x0402 || /* GT1 desktop */ devid == 0x0412 || /* GT2 desktop */ devid == 0x0422 || /* GT3 desktop */ devid == 0x0406 || /* GT1 mobile */ devid == 0x0416 || /* GT2 mobile */ devid == 0x0426 || /* GT2 mobile */ devid == 0x040a || /* GT1 server */ devid == 0x041a || /* GT2 server */ devid == 0x042a || /* GT3 server */ devid == 0x040b || /* GT1 reserved */ devid == 0x041b || /* GT2 reserved */ devid == 0x042b || /* GT3 reserved */ devid == 0x040e || /* GT1 reserved */ devid == 0x041e || /* GT2 reserved */ devid == 0x042e || /* GT3 reserved */ devid == 0x0c02 || /* SDV */ devid == 0x0c12 || devid == 0x0c22 || devid == 0x0c06 || devid == 0x0c16 || devid == 0x0c26 || devid == 0x0c0a || devid == 0x0c1a || devid == 0x0c2a || devid == 0x0c0b || devid == 0x0c1b || devid == 0x0c2b || devid == 0x0c0e || devid == 0x0c1e || devid == 0x0c2e || devid == 0x0a02 || /* ULT */ devid == 0x0a12 || devid == 0x0a22 || devid == 0x0a06 || devid == 0x0a16 || devid == 0x0a26 || devid == 0x0a0a || devid == 0x0a1a || devid == 0x0a2a || devid == 0x0a0b || devid == 0x0a1b || devid == 0x0a2b || devid == 0x0a0e || devid == 0x0a1e || devid == 0x0a2e || devid == 0x0d02 || /* CRW */ devid == 0x0d12 || devid == 0x0d22 || devid == 0x0d06 || devid == 0x0d16 || devid == 0x0d26 || devid == 0x0d0a || devid == 0x0d1a || devid == 0x0d2a || devid == 0x0d0b || devid == 0x0d1b || devid == 0x0d2b || devid == 0x0d0e || devid == 0x0d1e || devid == 0x0d2e); } static inline int gen_get_hsw_gt(int devid) { assert(gen_is_hsw(devid)); return ((devid & 0x30) >> 4) + 1; } static inline bool gen_is_bdw(int devid) { return (devid == 0x1602 || /* GT1 ULT */ devid == 0x1606 || /* GT1 ULT */ devid == 0x160a || /* GT1 server */ devid == 0x160b || /* GT1 Iris */ devid == 0x160d || /* GT1 workstation */ devid == 0x160e || /* GT1 ULX */ devid == 0x1612 || /* GT2 */ devid == 0x1616 || devid == 0x161a || devid == 0x161b || devid == 0x161d || devid == 0x161e || devid == 0x1622 || /* GT3 */ devid == 0x1626 || devid == 0x162a || devid == 0x162b || devid == 0x162d || devid == 0x162e); } static inline int gen_get_bdw_gt(int devid) { assert(gen_is_bdw(devid)); return ((devid & 0x30) >> 4) + 1; } static inline bool gen_is_vlv(int devid) { return (devid == 0x0f30 || devid == 0x0f31 || devid == 0x0f32 || devid == 0x0f33 || devid == 0x0157 || devid == 0x0155); } static inline bool gen_is_chv(int devid) { return (devid == 0x22b0 || devid == 0x22b1 || devid == 0x22b2 || devid == 0x22b3); } static inline bool gen_is_atom(int devid) { return (gen_is_vlv(devid) || gen_is_chv(devid)); } static inline bool gen_is_desktop(int devid) { assert(!gen_is_atom(devid)); return ((devid & 0xf) == 0x2); } static inline bool gen_is_mobile(int devid) { assert(!gen_is_atom(devid)); return ((devid & 0xf) == 0x6); } static inline bool gen_is_server(int devid) { assert(!gen_is_atom(devid)); return ((devid & 0xf) == 0xa); } #endif /* GENHW_H */