/* * Copyright © 2014 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ /** * @file brw_inst.h * * A representation of i965 EU assembly instructions, with helper methods to * get and set various fields. This is the actual hardware format. */ #ifndef BRW_INST_H #define BRW_INST_H #include #include #include "brw_eu_defines.h" #include "brw_reg_type.h" #include "dev/gen_device_info.h" #ifdef __cplusplus extern "C" { #endif /* brw_context.h has a forward declaration of brw_inst, so name the struct. */ typedef struct brw_inst { uint64_t data[2]; } brw_inst; static inline uint64_t brw_inst_bits(const brw_inst *inst, unsigned high, unsigned low); static inline void brw_inst_set_bits(brw_inst *inst, unsigned high, unsigned low, uint64_t value); #define FC(name, high, low, assertions) \ static inline void \ brw_inst_set_##name(const struct gen_device_info *devinfo, \ brw_inst *inst, uint64_t v) \ { \ assert(assertions); \ (void) devinfo; \ brw_inst_set_bits(inst, high, low, v); \ } \ static inline uint64_t \ brw_inst_##name(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ assert(assertions); \ (void) devinfo; \ return brw_inst_bits(inst, high, low); \ } /* A simple macro for fields which stay in the same place on all generations. */ #define F(name, high, low) FC(name, high, low, true) #define BOUNDS(hi4, lo4, hi45, lo45, hi5, lo5, hi6, lo6, hi7, lo7, hi8, lo8) \ unsigned high, low; \ if (devinfo->gen >= 8) { \ high = hi8; low = lo8; \ } else if (devinfo->gen >= 7) { \ high = hi7; low = lo7; \ } else if (devinfo->gen >= 6) { \ high = hi6; low = lo6; \ } else if (devinfo->gen >= 5) { \ high = hi5; low = lo5; \ } else if (devinfo->is_g4x) { \ high = hi45; low = lo45; \ } else { \ high = hi4; low = lo4; \ } \ assert(((int) high) != -1 && ((int) low) != -1); /* A general macro for cases where the field has moved to several different * bit locations across generations. GCC appears to combine cases where the * bits are identical, removing some of the inefficiency. */ #define FF(name, hi4, lo4, hi45, lo45, hi5, lo5, hi6, lo6, hi7, lo7, hi8, lo8)\ static inline void \ brw_inst_set_##name(const struct gen_device_info *devinfo, \ brw_inst *inst, uint64_t value) \ { \ BOUNDS(hi4, lo4, hi45, lo45, hi5, lo5, hi6, lo6, hi7, lo7, hi8, lo8) \ brw_inst_set_bits(inst, high, low, value); \ } \ static inline uint64_t \ brw_inst_##name(const struct gen_device_info *devinfo, const brw_inst *inst) \ { \ BOUNDS(hi4, lo4, hi45, lo45, hi5, lo5, hi6, lo6, hi7, lo7, hi8, lo8) \ return brw_inst_bits(inst, high, low); \ } /* A macro for fields which moved as of Gen8+. */ #define F8(name, gen4_high, gen4_low, gen8_high, gen8_low) \ FF(name, \ /* 4: */ gen4_high, gen4_low, \ /* 4.5: */ gen4_high, gen4_low, \ /* 5: */ gen4_high, gen4_low, \ /* 6: */ gen4_high, gen4_low, \ /* 7: */ gen4_high, gen4_low, \ /* 8: */ gen8_high, gen8_low); F(src1_vstride, 120, 117) F(src1_width, 116, 114) F(src1_da16_swiz_w, 115, 114) F(src1_da16_swiz_z, 113, 112) F(src1_hstride, 113, 112) F(src1_address_mode, 111, 111) /** Src1.SrcMod @{ */ F(src1_negate, 110, 110) F(src1_abs, 109, 109) /** @} */ F8(src1_ia_subreg_nr, /* 4+ */ 108, 106, /* 8+ */ 108, 105) F(src1_da_reg_nr, 108, 101) F(src1_da16_subreg_nr, 100, 100) F(src1_da1_subreg_nr, 100, 96) F(src1_da16_swiz_y, 99, 98) F(src1_da16_swiz_x, 97, 96) F8(src1_reg_hw_type, /* 4+ */ 46, 44, /* 8+ */ 94, 91) F8(src1_reg_file, /* 4+ */ 43, 42, /* 8+ */ 90, 89) F(src0_vstride, 88, 85) F(src0_width, 84, 82) F(src0_da16_swiz_w, 83, 82) F(src0_da16_swiz_z, 81, 80) F(src0_hstride, 81, 80) F(src0_address_mode, 79, 79) /** Src0.SrcMod @{ */ F(src0_negate, 78, 78) F(src0_abs, 77, 77) /** @} */ F8(src0_ia_subreg_nr, /* 4+ */ 76, 74, /* 8+ */ 76, 73) F(src0_da_reg_nr, 76, 69) F(src0_da16_subreg_nr, 68, 68) F(src0_da1_subreg_nr, 68, 64) F(src0_da16_swiz_y, 67, 66) F(src0_da16_swiz_x, 65, 64) F(dst_address_mode, 63, 63) F(dst_hstride, 62, 61) F8(dst_ia_subreg_nr, /* 4+ */ 60, 58, /* 8+ */ 60, 57) F(dst_da_reg_nr, 60, 53) F(dst_da16_subreg_nr, 52, 52) F(dst_da1_subreg_nr, 52, 48) F(da16_writemask, 51, 48) /* Dst.ChanEn */ F8(src0_reg_hw_type, /* 4+ */ 41, 39, /* 8+ */ 46, 43) F8(src0_reg_file, /* 4+ */ 38, 37, /* 8+ */ 42, 41) F8(dst_reg_hw_type, /* 4+ */ 36, 34, /* 8+ */ 40, 37) F8(dst_reg_file, /* 4+ */ 33, 32, /* 8+ */ 36, 35) F8(mask_control, /* 4+ */ 9, 9, /* 8+ */ 34, 34) FF(flag_reg_nr, /* 4-6: doesn't exist */ -1, -1, -1, -1, -1, -1, -1, -1, /* 7: */ 90, 90, /* 8: */ 33, 33) F8(flag_subreg_nr, /* 4+ */ 89, 89, /* 8+ */ 32, 32) F(saturate, 31, 31) F(debug_control, 30, 30) F(cmpt_control, 29, 29) FC(branch_control, 28, 28, devinfo->gen >= 8) FC(acc_wr_control, 28, 28, devinfo->gen >= 6) FC(mask_control_ex, 28, 28, devinfo->is_g4x || devinfo->gen == 5) F(cond_modifier, 27, 24) FC(math_function, 27, 24, devinfo->gen >= 6) F(exec_size, 23, 21) F(pred_inv, 20, 20) F(pred_control, 19, 16) F(thread_control, 15, 14) F(qtr_control, 13, 12) FF(nib_control, /* 4-6: doesn't exist */ -1, -1, -1, -1, -1, -1, -1, -1, /* 7: */ 47, 47, /* 8: */ 11, 11) F8(no_dd_check, /* 4+ */ 11, 11, /* 8+ */ 10, 10) F8(no_dd_clear, /* 4+ */ 10, 10, /* 8+ */ 9, 9) F(access_mode, 8, 8) /* Bit 7 is Reserved (for future Opcode expansion) */ F(opcode, 6, 0) /** * Three-source instructions: * @{ */ F(3src_src2_reg_nr, 125, 118) /* same in align1 */ F(3src_a16_src2_subreg_nr, 117, 115) /* Extra discontiguous bit on CHV? */ F(3src_a16_src2_swizzle, 114, 107) F(3src_a16_src2_rep_ctrl, 106, 106) F(3src_src1_reg_nr, 104, 97) /* same in align1 */ F(3src_a16_src1_subreg_nr, 96, 94) /* Extra discontiguous bit on CHV? */ F(3src_a16_src1_swizzle, 93, 86) F(3src_a16_src1_rep_ctrl, 85, 85) F(3src_src0_reg_nr, 83, 76) /* same in align1 */ F(3src_a16_src0_subreg_nr, 75, 73) /* Extra discontiguous bit on CHV? */ F(3src_a16_src0_swizzle, 72, 65) F(3src_a16_src0_rep_ctrl, 64, 64) F(3src_dst_reg_nr, 63, 56) /* same in align1 */ F(3src_a16_dst_subreg_nr, 55, 53) F(3src_a16_dst_writemask, 52, 49) F8(3src_a16_nib_ctrl, 47, 47, 11, 11) /* only exists on IVB+ */ F8(3src_a16_dst_hw_type, 45, 44, 48, 46) /* only exists on IVB+ */ F8(3src_a16_src_hw_type, 43, 42, 45, 43) F8(3src_src2_negate, 41, 41, 42, 42) F8(3src_src2_abs, 40, 40, 41, 41) F8(3src_src1_negate, 39, 39, 40, 40) F8(3src_src1_abs, 38, 38, 39, 39) F8(3src_src0_negate, 37, 37, 38, 38) F8(3src_src0_abs, 36, 36, 37, 37) F8(3src_a16_flag_reg_nr, 34, 34, 33, 33) F8(3src_a16_flag_subreg_nr, 33, 33, 32, 32) FF(3src_a16_dst_reg_file, /* 4-5: doesn't exist - no 3-source instructions */ -1, -1, -1, -1, -1, -1, /* 6: */ 32, 32, /* 7-8: doesn't exist - no MRFs */ -1, -1, -1, -1) F(3src_saturate, 31, 31) F(3src_debug_control, 30, 30) F(3src_cmpt_control, 29, 29) F(3src_acc_wr_control, 28, 28) F(3src_cond_modifier, 27, 24) F(3src_exec_size, 23, 21) F(3src_pred_inv, 20, 20) F(3src_pred_control, 19, 16) F(3src_thread_control, 15, 14) F(3src_qtr_control, 13, 12) F8(3src_no_dd_check, 11, 11, 10, 10) F8(3src_no_dd_clear, 10, 10, 9, 9) F8(3src_mask_control, 9, 9, 34, 34) F(3src_access_mode, 8, 8) /* Bit 7 is Reserved (for future Opcode expansion) */ F(3src_opcode, 6, 0) /** @} */ #define REG_TYPE(reg) \ static inline void \ brw_inst_set_3src_a16_##reg##_type(const struct gen_device_info *devinfo, \ brw_inst *inst, enum brw_reg_type type) \ { \ unsigned hw_type = brw_reg_type_to_a16_hw_3src_type(devinfo, type); \ brw_inst_set_3src_a16_##reg##_hw_type(devinfo, inst, hw_type); \ } \ \ static inline enum brw_reg_type \ brw_inst_3src_a16_##reg##_type(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ unsigned hw_type = brw_inst_3src_a16_##reg##_hw_type(devinfo, inst); \ return brw_a16_hw_3src_type_to_reg_type(devinfo, hw_type); \ } REG_TYPE(dst) REG_TYPE(src) #undef REG_TYPE /** * Three-source align1 instructions: * @{ */ /* Reserved 127:126 */ /* src2_reg_nr same in align16 */ FC(3src_a1_src2_subreg_nr, 117, 113, devinfo->gen >= 10) FC(3src_a1_src2_hstride, 112, 111, devinfo->gen >= 10) /* Reserved 110:109. src2 vstride is an implied parameter */ FC(3src_a1_src2_hw_type, 108, 106, devinfo->gen >= 10) /* Reserved 105 */ /* src1_reg_nr same in align16 */ FC(3src_a1_src1_subreg_nr, 96, 92, devinfo->gen >= 10) FC(3src_a1_src1_hstride, 91, 90, devinfo->gen >= 10) FC(3src_a1_src1_vstride, 89, 88, devinfo->gen >= 10) FC(3src_a1_src1_hw_type, 87, 85, devinfo->gen >= 10) /* Reserved 84 */ /* src0_reg_nr same in align16 */ FC(3src_a1_src0_subreg_nr, 75, 71, devinfo->gen >= 10) FC(3src_a1_src0_hstride, 70, 69, devinfo->gen >= 10) FC(3src_a1_src0_vstride, 68, 67, devinfo->gen >= 10) FC(3src_a1_src0_hw_type, 66, 64, devinfo->gen >= 10) /* dst_reg_nr same in align16 */ FC(3src_a1_dst_subreg_nr, 55, 54, devinfo->gen >= 10) FC(3src_a1_special_acc, 55, 52, devinfo->gen >= 10) /* aliases dst_subreg_nr */ /* Reserved 51:50 */ FC(3src_a1_dst_hstride, 49, 49, devinfo->gen >= 10) FC(3src_a1_dst_hw_type, 48, 46, devinfo->gen >= 10) FC(3src_a1_src2_reg_file, 45, 45, devinfo->gen >= 10) FC(3src_a1_src1_reg_file, 44, 44, devinfo->gen >= 10) FC(3src_a1_src0_reg_file, 43, 43, devinfo->gen >= 10) /* Source Modifier fields same in align16 */ FC(3src_a1_dst_reg_file, 36, 36, devinfo->gen >= 10) FC(3src_a1_exec_type, 35, 35, devinfo->gen >= 10) /* Fields below this same in align16 */ /** @} */ #define REG_TYPE(reg) \ static inline void \ brw_inst_set_3src_a1_##reg##_type(const struct gen_device_info *devinfo, \ brw_inst *inst, enum brw_reg_type type) \ { \ UNUSED enum gen10_align1_3src_exec_type exec_type = \ (enum gen10_align1_3src_exec_type) brw_inst_3src_a1_exec_type(devinfo, \ inst); \ if (brw_reg_type_is_floating_point(type)) { \ assert(exec_type == BRW_ALIGN1_3SRC_EXEC_TYPE_FLOAT); \ } else { \ assert(exec_type == BRW_ALIGN1_3SRC_EXEC_TYPE_INT); \ } \ unsigned hw_type = brw_reg_type_to_a1_hw_3src_type(devinfo, type); \ brw_inst_set_3src_a1_##reg##_hw_type(devinfo, inst, hw_type); \ } \ \ static inline enum brw_reg_type \ brw_inst_3src_a1_##reg##_type(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ enum gen10_align1_3src_exec_type exec_type = \ (enum gen10_align1_3src_exec_type) brw_inst_3src_a1_exec_type(devinfo, \ inst); \ unsigned hw_type = brw_inst_3src_a1_##reg##_hw_type(devinfo, inst); \ return brw_a1_hw_3src_type_to_reg_type(devinfo, hw_type, exec_type); \ } REG_TYPE(dst) REG_TYPE(src0) REG_TYPE(src1) REG_TYPE(src2) #undef REG_TYPE /** * Three-source align1 instruction immediates: * @{ */ static inline uint16_t brw_inst_3src_a1_src0_imm(MAYBE_UNUSED const struct gen_device_info *devinfo, const brw_inst *insn) { assert(devinfo->gen >= 10); return brw_inst_bits(insn, 82, 67); } static inline uint16_t brw_inst_3src_a1_src2_imm(MAYBE_UNUSED const struct gen_device_info *devinfo, const brw_inst *insn) { assert(devinfo->gen >= 10); return brw_inst_bits(insn, 124, 109); } static inline void brw_inst_set_3src_a1_src0_imm(MAYBE_UNUSED const struct gen_device_info *devinfo, brw_inst *insn, uint16_t value) { assert(devinfo->gen >= 10); brw_inst_set_bits(insn, 82, 67, value); } static inline void brw_inst_set_3src_a1_src2_imm(MAYBE_UNUSED const struct gen_device_info *devinfo, brw_inst *insn, uint16_t value) { assert(devinfo->gen >= 10); brw_inst_set_bits(insn, 124, 109, value); } /** @} */ /** * Flow control instruction bits: * @{ */ static inline void brw_inst_set_uip(const struct gen_device_info *devinfo, brw_inst *inst, int32_t value) { assert(devinfo->gen >= 6); if (devinfo->gen >= 8) { brw_inst_set_bits(inst, 95, 64, (uint32_t)value); } else { assert(value <= (1 << 16) - 1); assert(value > -(1 << 16)); brw_inst_set_bits(inst, 127, 112, (uint16_t)value); } } static inline int32_t brw_inst_uip(const struct gen_device_info *devinfo, const brw_inst *inst) { assert(devinfo->gen >= 6); if (devinfo->gen >= 8) { return brw_inst_bits(inst, 95, 64); } else { return (int16_t)brw_inst_bits(inst, 127, 112); } } static inline void brw_inst_set_jip(const struct gen_device_info *devinfo, brw_inst *inst, int32_t value) { assert(devinfo->gen >= 6); if (devinfo->gen >= 8) { brw_inst_set_bits(inst, 127, 96, (uint32_t)value); } else { assert(value <= (1 << 15) - 1); assert(value >= -(1 << 15)); brw_inst_set_bits(inst, 111, 96, (uint16_t)value); } } static inline int32_t brw_inst_jip(const struct gen_device_info *devinfo, const brw_inst *inst) { assert(devinfo->gen >= 6); if (devinfo->gen >= 8) { return brw_inst_bits(inst, 127, 96); } else { return (int16_t)brw_inst_bits(inst, 111, 96); } } /** Like FC, but using int16_t to handle negative jump targets. */ #define FJ(name, high, low, assertions) \ static inline void \ brw_inst_set_##name(const struct gen_device_info *devinfo, brw_inst *inst, int16_t v) \ { \ assert(assertions); \ (void) devinfo; \ brw_inst_set_bits(inst, high, low, (uint16_t) v); \ } \ static inline int16_t \ brw_inst_##name(const struct gen_device_info *devinfo, const brw_inst *inst) \ { \ assert(assertions); \ (void) devinfo; \ return brw_inst_bits(inst, high, low); \ } FJ(gen6_jump_count, 63, 48, devinfo->gen == 6) FJ(gen4_jump_count, 111, 96, devinfo->gen < 6) FC(gen4_pop_count, 115, 112, devinfo->gen < 6) /** @} */ /** * SEND instructions: * @{ */ FC(send_ex_desc_ia_subreg_nr, 82, 80, devinfo->gen >= 9) FC(send_src0_address_mode, 79, 79, devinfo->gen >= 9) FC(send_sel_reg32_desc, 77, 77, devinfo->gen >= 9) FC(send_sel_reg32_ex_desc, 61, 61, devinfo->gen >= 9) FC(send_src1_reg_nr, 51, 44, devinfo->gen >= 9) FC(send_src1_reg_file, 36, 36, devinfo->gen >= 9) FC(send_dst_reg_file, 35, 35, devinfo->gen >= 9) /** @} */ /* Message descriptor bits */ #define MD(x) ((x) + 96) /** * Set the SEND(C) message descriptor immediate. * * This doesn't include the SFID nor the EOT field that were considered to be * part of the message descriptor by ancient versions of the BSpec, because * they are present in the instruction even if the message descriptor is * provided indirectly in the address register, so we want to specify them * separately. */ static inline void brw_inst_set_send_desc(const struct gen_device_info *devinfo, brw_inst *inst, uint32_t value) { if (devinfo->gen >= 9) { brw_inst_set_bits(inst, 126, 96, value); assert(value >> 31 == 0); } else if (devinfo->gen >= 5) { brw_inst_set_bits(inst, 124, 96, value); assert(value >> 29 == 0); } else { brw_inst_set_bits(inst, 119, 96, value); assert(value >> 24 == 0); } } /** * Get the SEND(C) message descriptor immediate. * * \sa brw_inst_set_send_desc(). */ static inline uint32_t brw_inst_send_desc(const struct gen_device_info *devinfo, const brw_inst *inst) { if (devinfo->gen >= 9) return brw_inst_bits(inst, 126, 96); else if (devinfo->gen >= 5) return brw_inst_bits(inst, 124, 96); else return brw_inst_bits(inst, 119, 96); } /** * Set the SEND(C) message extended descriptor immediate. * * This doesn't include the SFID nor the EOT field that were considered to be * part of the extended message descriptor by some versions of the BSpec, * because they are present in the instruction even if the extended message * descriptor is provided indirectly in a register, so we want to specify them * separately. */ static inline void brw_inst_set_send_ex_desc(const struct gen_device_info *devinfo, brw_inst *inst, uint32_t value) { assert(devinfo->gen >= 9); if (brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SEND || brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDC) { brw_inst_set_bits(inst, 94, 91, GET_BITS(value, 31, 28)); brw_inst_set_bits(inst, 88, 85, GET_BITS(value, 27, 24)); brw_inst_set_bits(inst, 83, 80, GET_BITS(value, 23, 20)); brw_inst_set_bits(inst, 67, 64, GET_BITS(value, 19, 16)); assert(GET_BITS(value, 15, 0) == 0); } else { assert(brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDS || brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDSC); brw_inst_set_bits(inst, 95, 80, GET_BITS(value, 31, 16)); assert(GET_BITS(value, 15, 10) == 0); brw_inst_set_bits(inst, 67, 64, GET_BITS(value, 9, 6)); assert(GET_BITS(value, 5, 0) == 0); } } /** * Get the SEND(C) message extended descriptor immediate. * * \sa brw_inst_set_send_ex_desc(). */ static inline uint32_t brw_inst_send_ex_desc(const struct gen_device_info *devinfo, const brw_inst *inst) { assert(devinfo->gen >= 9); if (brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SEND || brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDC) { return (brw_inst_bits(inst, 94, 91) << 28 | brw_inst_bits(inst, 88, 85) << 24 | brw_inst_bits(inst, 83, 80) << 20 | brw_inst_bits(inst, 67, 64) << 16); } else { assert(brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDS || brw_inst_opcode(devinfo, inst) == BRW_OPCODE_SENDSC); return (brw_inst_bits(inst, 95, 80) << 16 | brw_inst_bits(inst, 67, 64) << 6); } } /** * Fields for SEND messages: * @{ */ F(eot, 127, 127) FF(mlen, /* 4: */ 119, 116, /* 4.5: */ 119, 116, /* 5: */ 124, 121, /* 6: */ 124, 121, /* 7: */ 124, 121, /* 8: */ 124, 121); FF(rlen, /* 4: */ 115, 112, /* 4.5: */ 115, 112, /* 5: */ 120, 116, /* 6: */ 120, 116, /* 7: */ 120, 116, /* 8: */ 120, 116); FF(header_present, /* 4: doesn't exist */ -1, -1, -1, -1, /* 5: */ 115, 115, /* 6: */ 115, 115, /* 7: */ 115, 115, /* 8: */ 115, 115) F(gateway_notify, MD(16), MD(15)) FF(function_control, /* 4: */ 111, 96, /* 4.5: */ 111, 96, /* 5: */ 114, 96, /* 6: */ 114, 96, /* 7: */ 114, 96, /* 8: */ 114, 96) FF(gateway_subfuncid, /* 4: */ MD(1), MD(0), /* 4.5: */ MD(1), MD(0), /* 5: */ MD(1), MD(0), /* 2:0, but bit 2 is reserved MBZ */ /* 6: */ MD(2), MD(0), /* 7: */ MD(2), MD(0), /* 8: */ MD(2), MD(0)) FF(sfid, /* 4: */ 123, 120, /* called msg_target */ /* 4.5 */ 123, 120, /* 5: */ 95, 92, /* 6: */ 27, 24, /* 7: */ 27, 24, /* 8: */ 27, 24) FF(null_rt, /* 4-7: */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 8: */ 80, 80) /* actually only Gen11+ */ FC(base_mrf, 27, 24, devinfo->gen < 6); /** @} */ /** * URB message function control bits: * @{ */ FF(urb_per_slot_offset, /* 4-6: */ -1, -1, -1, -1, -1, -1, -1, -1, /* 7: */ MD(16), MD(16), /* 8: */ MD(17), MD(17)) FC(urb_channel_mask_present, MD(15), MD(15), devinfo->gen >= 8) FC(urb_complete, MD(15), MD(15), devinfo->gen < 8) FC(urb_used, MD(14), MD(14), devinfo->gen < 7) FC(urb_allocate, MD(13), MD(13), devinfo->gen < 7) FF(urb_swizzle_control, /* 4: */ MD(11), MD(10), /* 4.5: */ MD(11), MD(10), /* 5: */ MD(11), MD(10), /* 6: */ MD(11), MD(10), /* 7: */ MD(14), MD(14), /* 8: */ MD(15), MD(15)) FF(urb_global_offset, /* 4: */ MD( 9), MD(4), /* 4.5: */ MD( 9), MD(4), /* 5: */ MD( 9), MD(4), /* 6: */ MD( 9), MD(4), /* 7: */ MD(13), MD(3), /* 8: */ MD(14), MD(4)) FF(urb_opcode, /* 4: */ MD( 3), MD(0), /* 4.5: */ MD( 3), MD(0), /* 5: */ MD( 3), MD(0), /* 6: */ MD( 3), MD(0), /* 7: */ MD( 2), MD(0), /* 8: */ MD( 3), MD(0)) /** @} */ /** * Gen4-5 math messages: * @{ */ FC(math_msg_data_type, MD(7), MD(7), devinfo->gen < 6) FC(math_msg_saturate, MD(6), MD(6), devinfo->gen < 6) FC(math_msg_precision, MD(5), MD(5), devinfo->gen < 6) FC(math_msg_signed_int, MD(4), MD(4), devinfo->gen < 6) FC(math_msg_function, MD(3), MD(0), devinfo->gen < 6) /** @} */ /** * Sampler message function control bits: * @{ */ FF(sampler_simd_mode, /* 4: doesn't exist */ -1, -1, -1, -1, /* 5: */ MD(17), MD(16), /* 6: */ MD(17), MD(16), /* 7: */ MD(18), MD(17), /* 8: */ MD(18), MD(17)) FF(sampler_msg_type, /* 4: */ MD(15), MD(14), /* 4.5: */ MD(15), MD(12), /* 5: */ MD(15), MD(12), /* 6: */ MD(15), MD(12), /* 7: */ MD(16), MD(12), /* 8: */ MD(16), MD(12)) FC(sampler_return_format, MD(13), MD(12), devinfo->gen == 4 && !devinfo->is_g4x) F(sampler, MD(11), MD(8)) F(binding_table_index, MD( 7), MD(0)) /* also used by other messages */ /** @} */ /** * Data port message function control bits: * @{ */ FC(dp_category, MD(18), MD(18), devinfo->gen >= 7) /* Gen4-5 store fields in different bits for read/write messages. */ FF(dp_read_msg_type, /* 4: */ MD(13), MD(12), /* 4.5: */ MD(13), MD(11), /* 5: */ MD(13), MD(11), /* 6: */ MD(16), MD(13), /* 7: */ MD(17), MD(14), /* 8: */ MD(17), MD(14)) FF(dp_write_msg_type, /* 4: */ MD(14), MD(12), /* 4.5: */ MD(14), MD(12), /* 5: */ MD(14), MD(12), /* 6: */ MD(16), MD(13), /* 7: */ MD(17), MD(14), /* 8: */ MD(17), MD(14)) FF(dp_read_msg_control, /* 4: */ MD(11), MD( 8), /* 4.5: */ MD(10), MD( 8), /* 5: */ MD(10), MD( 8), /* 6: */ MD(12), MD( 8), /* 7: */ MD(13), MD( 8), /* 8: */ MD(13), MD( 8)) FF(dp_write_msg_control, /* 4: */ MD(11), MD( 8), /* 4.5: */ MD(11), MD( 8), /* 5: */ MD(11), MD( 8), /* 6: */ MD(12), MD( 8), /* 7: */ MD(13), MD( 8), /* 8: */ MD(13), MD( 8)) FC(dp_read_target_cache, MD(15), MD(14), devinfo->gen < 6); FF(dp_write_commit, /* 4: */ MD(15), MD(15), /* 4.5: */ MD(15), MD(15), /* 5: */ MD(15), MD(15), /* 6: */ MD(17), MD(17), /* 7+: does not exist */ -1, -1, -1, -1) /* Gen6+ use the same bit locations for everything. */ FF(dp_msg_type, /* 4-5: use dp_read_msg_type or dp_write_msg_type instead */ -1, -1, -1, -1, -1, -1, /* 6: */ MD(16), MD(13), /* 7: */ MD(17), MD(14), /* 8: */ MD(18), MD(14)) FF(dp_msg_control, /* 4: */ MD(11), MD( 8), /* 4.5-5: use dp_read_msg_control or dp_write_msg_control */ -1, -1, -1, -1, /* 6: */ MD(12), MD( 8), /* 7: */ MD(13), MD( 8), /* 8: */ MD(13), MD( 8)) /** @} */ /** * Scratch message bits (Gen7+): * @{ */ FC(scratch_read_write, MD(17), MD(17), devinfo->gen >= 7) /* 0 = read, 1 = write */ FC(scratch_type, MD(16), MD(16), devinfo->gen >= 7) /* 0 = OWord, 1 = DWord */ FC(scratch_invalidate_after_read, MD(15), MD(15), devinfo->gen >= 7) FC(scratch_block_size, MD(13), MD(12), devinfo->gen >= 7) FC(scratch_addr_offset, MD(11), MD( 0), devinfo->gen >= 7) /** @} */ /** * Render Target message function control bits: * @{ */ FF(rt_last, /* 4: */ MD(11), MD(11), /* 4.5: */ MD(11), MD(11), /* 5: */ MD(11), MD(11), /* 6: */ MD(12), MD(12), /* 7: */ MD(12), MD(12), /* 8: */ MD(12), MD(12)) FC(rt_slot_group, MD(11), MD(11), devinfo->gen >= 6) F(rt_message_type, MD(10), MD( 8)) /** @} */ /** * Thread Spawn message function control bits: * @{ */ F(ts_resource_select, MD( 4), MD( 4)) F(ts_request_type, MD( 1), MD( 1)) F(ts_opcode, MD( 0), MD( 0)) /** @} */ /** * Pixel Interpolator message function control bits: * @{ */ F(pi_simd_mode, MD(16), MD(16)) F(pi_nopersp, MD(14), MD(14)) F(pi_message_type, MD(13), MD(12)) F(pi_slot_group, MD(11), MD(11)) F(pi_message_data, MD(7), MD(0)) /** @} */ /** * Immediates: * @{ */ static inline int brw_inst_imm_d(const struct gen_device_info *devinfo, const brw_inst *insn) { (void) devinfo; return brw_inst_bits(insn, 127, 96); } static inline unsigned brw_inst_imm_ud(const struct gen_device_info *devinfo, const brw_inst *insn) { (void) devinfo; return brw_inst_bits(insn, 127, 96); } static inline uint64_t brw_inst_imm_uq(MAYBE_UNUSED const struct gen_device_info *devinfo, const brw_inst *insn) { assert(devinfo->gen >= 8); return brw_inst_bits(insn, 127, 64); } static inline float brw_inst_imm_f(const struct gen_device_info *devinfo, const brw_inst *insn) { union { float f; uint32_t u; } ft; (void) devinfo; ft.u = brw_inst_bits(insn, 127, 96); return ft.f; } static inline double brw_inst_imm_df(const struct gen_device_info *devinfo, const brw_inst *insn) { union { double d; uint64_t u; } dt; (void) devinfo; dt.u = brw_inst_bits(insn, 127, 64); return dt.d; } static inline void brw_inst_set_imm_d(const struct gen_device_info *devinfo, brw_inst *insn, int value) { (void) devinfo; return brw_inst_set_bits(insn, 127, 96, value); } static inline void brw_inst_set_imm_ud(const struct gen_device_info *devinfo, brw_inst *insn, unsigned value) { (void) devinfo; return brw_inst_set_bits(insn, 127, 96, value); } static inline void brw_inst_set_imm_f(const struct gen_device_info *devinfo, brw_inst *insn, float value) { union { float f; uint32_t u; } ft; (void) devinfo; ft.f = value; brw_inst_set_bits(insn, 127, 96, ft.u); } static inline void brw_inst_set_imm_df(const struct gen_device_info *devinfo, brw_inst *insn, double value) { union { double d; uint64_t u; } dt; (void) devinfo; dt.d = value; brw_inst_set_bits(insn, 127, 64, dt.u); } static inline void brw_inst_set_imm_uq(const struct gen_device_info *devinfo, brw_inst *insn, uint64_t value) { (void) devinfo; brw_inst_set_bits(insn, 127, 64, value); } /** @} */ #define REG_TYPE(reg) \ static inline void \ brw_inst_set_##reg##_file_type(const struct gen_device_info *devinfo, \ brw_inst *inst, enum brw_reg_file file, \ enum brw_reg_type type) \ { \ assert(file <= BRW_IMMEDIATE_VALUE); \ unsigned hw_type = brw_reg_type_to_hw_type(devinfo, file, type); \ brw_inst_set_##reg##_reg_file(devinfo, inst, file); \ brw_inst_set_##reg##_reg_hw_type(devinfo, inst, hw_type); \ } \ \ static inline enum brw_reg_type \ brw_inst_##reg##_type(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ unsigned file = __builtin_strcmp("dst", #reg) == 0 ? \ (unsigned) BRW_GENERAL_REGISTER_FILE : \ brw_inst_##reg##_reg_file(devinfo, inst); \ unsigned hw_type = brw_inst_##reg##_reg_hw_type(devinfo, inst); \ return brw_hw_type_to_reg_type(devinfo, (enum brw_reg_file)file, hw_type); \ } REG_TYPE(dst) REG_TYPE(src0) REG_TYPE(src1) #undef REG_TYPE /* The AddrImm fields are split into two discontiguous sections on Gen8+ */ #define BRW_IA1_ADDR_IMM(reg, g4_high, g4_low, g8_nine, g8_high, g8_low) \ static inline void \ brw_inst_set_##reg##_ia1_addr_imm(const struct gen_device_info *devinfo, \ brw_inst *inst, \ unsigned value) \ { \ assert((value & ~0x3ff) == 0); \ if (devinfo->gen >= 8) { \ brw_inst_set_bits(inst, g8_high, g8_low, value & 0x1ff); \ brw_inst_set_bits(inst, g8_nine, g8_nine, value >> 9); \ } else { \ brw_inst_set_bits(inst, g4_high, g4_low, value); \ } \ } \ static inline unsigned \ brw_inst_##reg##_ia1_addr_imm(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ if (devinfo->gen >= 8) { \ return brw_inst_bits(inst, g8_high, g8_low) | \ (brw_inst_bits(inst, g8_nine, g8_nine) << 9); \ } else { \ return brw_inst_bits(inst, g4_high, g4_low); \ } \ } /* AddrImm[9:0] for Align1 Indirect Addressing */ /* -Gen 4- ----Gen8---- */ BRW_IA1_ADDR_IMM(src1, 105, 96, 121, 104, 96) BRW_IA1_ADDR_IMM(src0, 73, 64, 95, 72, 64) BRW_IA1_ADDR_IMM(dst, 57, 48, 47, 56, 48) #define BRW_IA16_ADDR_IMM(reg, g4_high, g4_low, g8_nine, g8_high, g8_low) \ static inline void \ brw_inst_set_##reg##_ia16_addr_imm(const struct gen_device_info *devinfo, \ brw_inst *inst, unsigned value) \ { \ assert((value & ~0x3ff) == 0); \ if (devinfo->gen >= 8) { \ assert(GET_BITS(value, 3, 0) == 0); \ brw_inst_set_bits(inst, g8_high, g8_low, GET_BITS(value, 8, 4)); \ brw_inst_set_bits(inst, g8_nine, g8_nine, GET_BITS(value, 9, 9)); \ } else { \ brw_inst_set_bits(inst, g4_high, g4_low, value); \ } \ } \ static inline unsigned \ brw_inst_##reg##_ia16_addr_imm(const struct gen_device_info *devinfo, \ const brw_inst *inst) \ { \ if (devinfo->gen >= 8) { \ return (brw_inst_bits(inst, g8_high, g8_low) << 4) | \ (brw_inst_bits(inst, g8_nine, g8_nine) << 9); \ } else { \ return brw_inst_bits(inst, g4_high, g4_low); \ } \ } /* AddrImm[9:0] for Align16 Indirect Addressing: * Compared to Align1, these are missing the low 4 bits. * -Gen 4- ----Gen8---- */ BRW_IA16_ADDR_IMM(src1, 105, 96, 121, 104, 100) BRW_IA16_ADDR_IMM(src0, 73, 64, 95, 72, 68) BRW_IA16_ADDR_IMM(dst, 57, 52, 47, 56, 52) BRW_IA16_ADDR_IMM(send_src0, -1, -1, 78, 72, 68) BRW_IA16_ADDR_IMM(send_dst, -1, -1, 62, 56, 52) /** * Fetch a set of contiguous bits from the instruction. * * Bits indices range from 0..127; fields may not cross 64-bit boundaries. */ static inline uint64_t brw_inst_bits(const brw_inst *inst, unsigned high, unsigned low) { /* We assume the field doesn't cross 64-bit boundaries. */ const unsigned word = high / 64; assert(word == low / 64); high %= 64; low %= 64; const uint64_t mask = (~0ull >> (64 - (high - low + 1))); return (inst->data[word] >> low) & mask; } /** * Set bits in the instruction, with proper shifting and masking. * * Bits indices range from 0..127; fields may not cross 64-bit boundaries. */ static inline void brw_inst_set_bits(brw_inst *inst, unsigned high, unsigned low, uint64_t value) { const unsigned word = high / 64; assert(word == low / 64); high %= 64; low %= 64; const uint64_t mask = (~0ull >> (64 - (high - low + 1))) << low; /* Make sure the supplied value actually fits in the given bitfield. */ assert((value & (mask >> low)) == value); inst->data[word] = (inst->data[word] & ~mask) | (value << low); } #undef BRW_IA16_ADDR_IMM #undef BRW_IA1_ADDR_IMM #undef MD #undef F8 #undef FF #undef BOUNDS #undef F #undef FC typedef struct { uint64_t data; } brw_compact_inst; /** * Fetch a set of contiguous bits from the compacted instruction. * * Bits indices range from 0..63. */ static inline unsigned brw_compact_inst_bits(const brw_compact_inst *inst, unsigned high, unsigned low) { const uint64_t mask = (1ull << (high - low + 1)) - 1; return (inst->data >> low) & mask; } /** * Set bits in the compacted instruction. * * Bits indices range from 0..63. */ static inline void brw_compact_inst_set_bits(brw_compact_inst *inst, unsigned high, unsigned low, uint64_t value) { const uint64_t mask = ((1ull << (high - low + 1)) - 1) << low; /* Make sure the supplied value actually fits in the given bitfield. */ assert((value & (mask >> low)) == value); inst->data = (inst->data & ~mask) | (value << low); } #define FC(name, high, low, assertions) \ static inline void \ brw_compact_inst_set_##name(const struct gen_device_info *devinfo, \ brw_compact_inst *inst, unsigned v) \ { \ assert(assertions); \ (void) devinfo; \ brw_compact_inst_set_bits(inst, high, low, v); \ } \ static inline unsigned \ brw_compact_inst_##name(const struct gen_device_info *devinfo, \ const brw_compact_inst *inst) \ { \ assert(assertions); \ (void) devinfo; \ return brw_compact_inst_bits(inst, high, low); \ } /* A simple macro for fields which stay in the same place on all generations. */ #define F(name, high, low) FC(name, high, low, true) F(src1_reg_nr, 63, 56) F(src0_reg_nr, 55, 48) F(dst_reg_nr, 47, 40) F(src1_index, 39, 35) F(src0_index, 34, 30) F(cmpt_control, 29, 29) /* Same location as brw_inst */ FC(flag_subreg_nr, 28, 28, devinfo->gen <= 6) F(cond_modifier, 27, 24) /* Same location as brw_inst */ FC(acc_wr_control, 23, 23, devinfo->gen >= 6) FC(mask_control_ex, 23, 23, devinfo->is_g4x || devinfo->gen == 5) F(subreg_index, 22, 18) F(datatype_index, 17, 13) F(control_index, 12, 8) F(debug_control, 7, 7) F(opcode, 6, 0) /* Same location as brw_inst */ /** * (Gen8+) Compacted three-source instructions: * @{ */ FC(3src_src2_reg_nr, 63, 57, devinfo->gen >= 8) FC(3src_src1_reg_nr, 56, 50, devinfo->gen >= 8) FC(3src_src0_reg_nr, 49, 43, devinfo->gen >= 8) FC(3src_src2_subreg_nr, 42, 40, devinfo->gen >= 8) FC(3src_src1_subreg_nr, 39, 37, devinfo->gen >= 8) FC(3src_src0_subreg_nr, 36, 34, devinfo->gen >= 8) FC(3src_src2_rep_ctrl, 33, 33, devinfo->gen >= 8) FC(3src_src1_rep_ctrl, 32, 32, devinfo->gen >= 8) FC(3src_saturate, 31, 31, devinfo->gen >= 8) FC(3src_debug_control, 30, 30, devinfo->gen >= 8) FC(3src_cmpt_control, 29, 29, devinfo->gen >= 8) FC(3src_src0_rep_ctrl, 28, 28, devinfo->gen >= 8) /* Reserved */ FC(3src_dst_reg_nr, 18, 12, devinfo->gen >= 8) FC(3src_source_index, 11, 10, devinfo->gen >= 8) FC(3src_control_index, 9, 8, devinfo->gen >= 8) /* Bit 7 is Reserved (for future Opcode expansion) */ FC(3src_opcode, 6, 0, devinfo->gen >= 8) /** @} */ #undef F #ifdef __cplusplus } #endif #endif