/* * Copyright © 2012 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 gen8_instruction.h * * A representation of a Gen8+ EU instruction, with helper methods to get * and set various fields. This is the actual hardware format. */ #ifndef GEN8_INSTRUCTION_H #define GEN8_INSTRUCTION_H #include #include #include "brw_compat.h" #include "brw_reg.h" struct gen8_instruction { uint32_t data[4]; }; static inline unsigned gen8_bits(struct gen8_instruction *insn, unsigned high, unsigned low); static inline void gen8_set_bits(struct gen8_instruction *insn, unsigned high, unsigned low, unsigned value); #define F(name, high, low) \ static inline void gen8_set_##name(struct gen8_instruction *insn, unsigned v) \ { \ gen8_set_bits(insn, high, low, v); \ } \ static inline unsigned gen8_##name(struct gen8_instruction *insn) \ { \ return gen8_bits(insn, high, low); \ } /** * Direct addressing only: * @{ */ F(src1_da_reg_nr, 108, 101); F(src0_da_reg_nr, 76, 69); F(dst_da1_hstride, 62, 61); 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 */ /** @} */ F(src1_vert_stride, 120, 117) F(src1_da1_width, 116, 114) F(src1_da16_swiz_w, 115, 114) F(src1_da16_swiz_z, 113, 112) F(src1_da1_hstride, 113, 112) F(src1_address_mode, 111, 111) /** Src1.SrcMod @{ */ F(src1_negate, 110, 110) F(src1_abs, 109, 109) /** @} */ 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) F(src1_reg_type, 94, 91) F(src1_reg_file, 90, 89) F(src0_vert_stride, 88, 85) F(src0_da1_width, 84, 82) F(src0_da16_swiz_w, 83, 82) F(src0_da16_swiz_z, 81, 80) F(src0_da1_hstride, 81, 80) F(src0_address_mode, 79, 79) /** Src0.SrcMod @{ */ F(src0_negate, 78, 78) F(src0_abs, 77, 77) /** @} */ 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(src0_reg_type, 46, 43) F(src0_reg_file, 42, 41) F(dst_reg_type, 40, 37) F(dst_reg_file, 36, 35) F(mask_control, 34, 34) F(flag_reg_nr, 33, 33) F(flag_subreg_nr, 32, 32) F(saturate, 31, 31) F(branch_control, 30, 30) F(debug_control, 30, 30) F(cmpt_control, 29, 29) F(acc_wr_control, 28, 28) F(cond_modifier, 27, 24) 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) F(nib_control, 11, 11) F(dep_control, 10, 9) F(access_mode, 8, 8) /* Bit 7 is Reserve d (for future Opcode expansion) */ F(opcode, 6, 0) /** * Three-source instructions: * @{ */ F(src2_3src_reg_nr, 125, 118) F(src2_3src_subreg_nr, 117, 115) F(src2_3src_swizzle, 114, 107) F(src2_3src_rep_ctrl, 106, 106) F(src1_3src_reg_nr, 104, 97) F(src1_3src_subreg_hi, 96, 96) F(src1_3src_subreg_lo, 95, 94) F(src1_3src_swizzle, 93, 86) F(src1_3src_rep_ctrl, 85, 85) F(src0_3src_reg_nr, 83, 76) F(src0_3src_subreg_nr, 75, 73) F(src0_3src_swizzle, 72, 65) F(src0_3src_rep_ctrl, 64, 64) F(dst_3src_reg_nr, 63, 56) F(dst_3src_subreg_nr, 55, 53) F(dst_3src_writemask, 52, 49) F(dst_3src_type, 48, 46) F(src_3src_type, 45, 43) F(src2_3src_negate, 42, 42) F(src2_3src_abs, 41, 41) F(src1_3src_negate, 40, 40) F(src1_3src_abs, 39, 39) F(src0_3src_negate, 38, 38) F(src0_3src_abs, 37, 37) /** @} */ /** * Fields for SEND messages: * @{ */ F(eot, 127, 127) F(mlen, 124, 121) F(rlen, 120, 116) F(header_present, 115, 115) F(function_control, 114, 96) F(sfid, 27, 24) F(math_function, 27, 24) /** @} */ /** * URB message function control bits: * @{ */ F(urb_per_slot_offset, 113, 113) F(urb_interleave, 111, 111) F(urb_global_offset, 110, 100) F(urb_opcode, 99, 96) /** @} */ /** * Sampler message function control bits: * @{ */ F(sampler_simd_mode, 114, 113) F(sampler_msg_type, 112, 108) F(sampler, 107, 104) F(binding_table_index, 103, 96) /** @} */ /** * Data port message function control bits: * @ { */ F(dp_category, 114, 114) F(dp_message_type, 113, 110) F(dp_message_control, 109, 104) F(dp_binding_table_index, 103, 96) /** @} */ /** * Thread Spawn message function control bits: * @ { */ F(ts_resource_select, 100, 100) F(ts_request_type, 97, 97) F(ts_opcode, 96, 96) /** @} */ /** * Video Motion Estimation message function control bits: * @ { */ F(vme_message_type, 110, 109) F(vme_binding_table_index, 103, 96) /** @} */ /** * Check & Refinement Engine message function control bits: * @ { */ F(cre_message_type, 110, 109) F(cre_binding_table_index, 103, 96) /** @} */ /* Addr Mode */ F(dst_addr_mode, 63, 63) F(src0_addr_mode, 79, 79) F(src1_addr_mode, 111, 111) /* Indirect access mode for Align1. */ F(dst_ida1_sub_nr, 60, 57) F(src0_ida1_sub_nr, 76, 73) F(src1_ida1_sub_nr, 108, 105) /* Imm[8:0] of Immediate addr offset under Indirect mode */ F(dst_ida1_imm8, 56, 48) F(src0_ida1_imm8, 72, 64) F(src1_ida1_imm8, 104, 96) /* Imm Bit9 of Immediate addr offset under Indirect mode */ F(dst_ida1_imm9, 47, 47) F(src0_ida1_imm9, 95, 95) F(src1_ida1_imm9, 121, 121) #undef F #define IMM8_MASK 0x1FF #define IMM9_MASK 0x200 /** * Flow control instruction bits: * @{ */ static inline unsigned gen8_uip(struct gen8_instruction *insn) { return insn->data[2]; } static inline void gen8_set_uip(struct gen8_instruction *insn, unsigned uip) { insn->data[2] = uip; } static inline unsigned gen8_jip(struct gen8_instruction *insn) { return insn->data[3]; } static inline void gen8_set_jip(struct gen8_instruction *insn, unsigned jip) { insn->data[3] = jip; } /** @} */ static inline int gen8_src1_imm_d(struct gen8_instruction *insn) { return insn->data[3]; } static inline unsigned gen8_src1_imm_ud(struct gen8_instruction *insn) { return insn->data[3]; } static inline float gen8_src1_imm_f(struct gen8_instruction *insn) { fi_type ft; ft.u = insn->data[3]; return ft.f; } void gen8_set_dst(struct gen8_instruction *insn, struct brw_reg reg); void gen8_set_src0(struct gen8_instruction *insn, struct brw_reg reg); void gen8_set_src1(struct gen8_instruction *insn, struct brw_reg reg); void gen8_set_urb_message(struct gen8_instruction *insn, unsigned opcode, unsigned mlen, unsigned rlen, bool eot, unsigned offset, bool interleave); void gen8_set_sampler_message(struct gen8_instruction *insn, unsigned binding_table_index, unsigned sampler, unsigned msg_type, unsigned rlen, unsigned mlen, bool header_present, unsigned simd_mode); void gen8_set_dp_message(struct gen8_instruction *insn, enum brw_message_target sfid, unsigned binding_table_index, unsigned msg_type, unsigned msg_control, unsigned msg_length, unsigned response_length, bool header_present, bool end_of_thread); /** Disassemble the instruction. */ int gen8_disassemble(FILE *file, struct gen8_instruction *insn, int gen); /** * Fetch a set of contiguous bits from the instruction. * * Bits indexes range from 0..127; fields may not cross 32-bit boundaries. */ static inline unsigned gen8_bits(struct gen8_instruction *insn, unsigned high, unsigned low) { /* We assume the field doesn't cross 32-bit boundaries. */ const unsigned word = high / 32; assert(word == low / 32); high %= 32; low %= 32; const unsigned mask = (((1 << (high - low + 1)) - 1) << low); return (insn->data[word] & mask) >> low; } /** * Set bits in the instruction, with proper shifting and masking. * * Bits indexes range from 0..127; fields may not cross 32-bit boundaries. */ static inline void gen8_set_bits(struct gen8_instruction *insn, unsigned high, unsigned low, unsigned value) { const unsigned word = high / 32; assert(word == low / 32); high %= 32; low %= 32; const unsigned mask = (((1 << (high - low + 1)) - 1) << low); insn->data[word] = (insn->data[word] & ~mask) | ((value << low) & mask); } void gen9_set_send_extdesc(struct gen8_instruction *insn, unsigned int value); #endif