747 lines
42 KiB
NASM
747 lines
42 KiB
NASM
/*
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* Copyright 2015-2017 Advanced Micro Devices, Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
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* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*/
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/* To compile this assembly code:
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* PROJECT=vi ./sp3 cwsr_trap_handler_gfx8.asm -hex tmp.hex
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*/
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/**************************************************************************/
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/* variables */
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/**************************************************************************/
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var SQ_WAVE_STATUS_INST_ATC_SHIFT = 23
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var SQ_WAVE_STATUS_INST_ATC_MASK = 0x00800000
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var SQ_WAVE_STATUS_SPI_PRIO_SHIFT = 1
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var SQ_WAVE_STATUS_SPI_PRIO_MASK = 0x00000006
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var SQ_WAVE_STATUS_PRE_SPI_PRIO_SHIFT = 0
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var SQ_WAVE_STATUS_PRE_SPI_PRIO_SIZE = 1
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var SQ_WAVE_STATUS_POST_SPI_PRIO_SHIFT = 3
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var SQ_WAVE_STATUS_POST_SPI_PRIO_SIZE = 29
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var SQ_WAVE_LDS_ALLOC_LDS_SIZE_SHIFT = 12
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var SQ_WAVE_LDS_ALLOC_LDS_SIZE_SIZE = 9
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var SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SHIFT = 8
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var SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SIZE = 6
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var SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SHIFT = 24
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var SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SIZE = 3 //FIXME sq.blk still has 4 bits at this time while SQ programming guide has 3 bits
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var SQ_WAVE_TRAPSTS_SAVECTX_MASK = 0x400
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var SQ_WAVE_TRAPSTS_EXCE_MASK = 0x1FF // Exception mask
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var SQ_WAVE_TRAPSTS_SAVECTX_SHIFT = 10
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var SQ_WAVE_TRAPSTS_MEM_VIOL_MASK = 0x100
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var SQ_WAVE_TRAPSTS_MEM_VIOL_SHIFT = 8
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var SQ_WAVE_TRAPSTS_PRE_SAVECTX_MASK = 0x3FF
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var SQ_WAVE_TRAPSTS_PRE_SAVECTX_SHIFT = 0x0
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var SQ_WAVE_TRAPSTS_PRE_SAVECTX_SIZE = 10
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var SQ_WAVE_TRAPSTS_POST_SAVECTX_MASK = 0xFFFFF800
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var SQ_WAVE_TRAPSTS_POST_SAVECTX_SHIFT = 11
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var SQ_WAVE_TRAPSTS_POST_SAVECTX_SIZE = 21
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var SQ_WAVE_IB_STS_RCNT_SHIFT = 16 //FIXME
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var SQ_WAVE_IB_STS_RCNT_SIZE = 4 //FIXME
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var SQ_WAVE_IB_STS_FIRST_REPLAY_SHIFT = 15 //FIXME
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var SQ_WAVE_IB_STS_FIRST_REPLAY_SIZE = 1 //FIXME
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var SQ_WAVE_IB_STS_RCNT_FIRST_REPLAY_MASK_NEG = 0x00007FFF //FIXME
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var SQ_BUF_RSRC_WORD1_ATC_SHIFT = 24
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var SQ_BUF_RSRC_WORD3_MTYPE_SHIFT = 27
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/* Save */
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var S_SAVE_BUF_RSRC_WORD1_STRIDE = 0x00040000 //stride is 4 bytes
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var S_SAVE_BUF_RSRC_WORD3_MISC = 0x00807FAC //SQ_SEL_X/Y/Z/W, BUF_NUM_FORMAT_FLOAT, (0 for MUBUF stride[17:14] when ADD_TID_ENABLE and BUF_DATA_FORMAT_32 for MTBUF), ADD_TID_ENABLE
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var S_SAVE_SPI_INIT_ATC_MASK = 0x08000000 //bit[27]: ATC bit
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var S_SAVE_SPI_INIT_ATC_SHIFT = 27
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var S_SAVE_SPI_INIT_MTYPE_MASK = 0x70000000 //bit[30:28]: Mtype
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var S_SAVE_SPI_INIT_MTYPE_SHIFT = 28
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var S_SAVE_SPI_INIT_FIRST_WAVE_MASK = 0x04000000 //bit[26]: FirstWaveInTG
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var S_SAVE_SPI_INIT_FIRST_WAVE_SHIFT = 26
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var S_SAVE_PC_HI_RCNT_SHIFT = 28 //FIXME check with Brian to ensure all fields other than PC[47:0] can be used
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var S_SAVE_PC_HI_RCNT_MASK = 0xF0000000 //FIXME
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var S_SAVE_PC_HI_FIRST_REPLAY_SHIFT = 27 //FIXME
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var S_SAVE_PC_HI_FIRST_REPLAY_MASK = 0x08000000 //FIXME
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var s_save_spi_init_lo = exec_lo
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var s_save_spi_init_hi = exec_hi
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//tba_lo and tba_hi need to be saved/restored
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var s_save_pc_lo = ttmp0 //{TTMP1, TTMP0} = {3'h0,pc_rewind[3:0], HT[0],trapID[7:0], PC[47:0]}
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var s_save_pc_hi = ttmp1
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var s_save_exec_lo = ttmp2
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var s_save_exec_hi = ttmp3
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var s_save_status = ttmp4
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var s_save_trapsts = ttmp5 //not really used until the end of the SAVE routine
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var s_save_xnack_mask_lo = ttmp6
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var s_save_xnack_mask_hi = ttmp7
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var s_save_buf_rsrc0 = ttmp8
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var s_save_buf_rsrc1 = ttmp9
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var s_save_buf_rsrc2 = ttmp10
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var s_save_buf_rsrc3 = ttmp11
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var s_save_mem_offset = tma_lo
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var s_save_alloc_size = s_save_trapsts //conflict
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var s_save_tmp = s_save_buf_rsrc2 //shared with s_save_buf_rsrc2 (conflict: should not use mem access with s_save_tmp at the same time)
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var s_save_m0 = tma_hi
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/* Restore */
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var S_RESTORE_BUF_RSRC_WORD1_STRIDE = S_SAVE_BUF_RSRC_WORD1_STRIDE
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var S_RESTORE_BUF_RSRC_WORD3_MISC = S_SAVE_BUF_RSRC_WORD3_MISC
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var S_RESTORE_SPI_INIT_ATC_MASK = 0x08000000 //bit[27]: ATC bit
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var S_RESTORE_SPI_INIT_ATC_SHIFT = 27
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var S_RESTORE_SPI_INIT_MTYPE_MASK = 0x70000000 //bit[30:28]: Mtype
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var S_RESTORE_SPI_INIT_MTYPE_SHIFT = 28
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var S_RESTORE_SPI_INIT_FIRST_WAVE_MASK = 0x04000000 //bit[26]: FirstWaveInTG
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var S_RESTORE_SPI_INIT_FIRST_WAVE_SHIFT = 26
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var S_RESTORE_PC_HI_RCNT_SHIFT = S_SAVE_PC_HI_RCNT_SHIFT
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var S_RESTORE_PC_HI_RCNT_MASK = S_SAVE_PC_HI_RCNT_MASK
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var S_RESTORE_PC_HI_FIRST_REPLAY_SHIFT = S_SAVE_PC_HI_FIRST_REPLAY_SHIFT
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var S_RESTORE_PC_HI_FIRST_REPLAY_MASK = S_SAVE_PC_HI_FIRST_REPLAY_MASK
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var s_restore_spi_init_lo = exec_lo
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var s_restore_spi_init_hi = exec_hi
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var s_restore_mem_offset = ttmp2
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var s_restore_alloc_size = ttmp3
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var s_restore_tmp = ttmp6 //tba_lo/hi need to be restored
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var s_restore_mem_offset_save = s_restore_tmp //no conflict
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var s_restore_m0 = s_restore_alloc_size //no conflict
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var s_restore_mode = ttmp7
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var s_restore_pc_lo = ttmp0
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var s_restore_pc_hi = ttmp1
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var s_restore_exec_lo = tma_lo //no conflict
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var s_restore_exec_hi = tma_hi //no conflict
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var s_restore_status = ttmp4
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var s_restore_trapsts = ttmp5
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var s_restore_xnack_mask_lo = xnack_mask_lo
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var s_restore_xnack_mask_hi = xnack_mask_hi
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var s_restore_buf_rsrc0 = ttmp8
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var s_restore_buf_rsrc1 = ttmp9
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var s_restore_buf_rsrc2 = ttmp10
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var s_restore_buf_rsrc3 = ttmp11
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/**************************************************************************/
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/* trap handler entry points */
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/**************************************************************************/
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/* Shader Main*/
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shader main
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asic(VI)
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type(CS)
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s_branch L_SKIP_RESTORE //NOT restore. might be a regular trap or save
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L_JUMP_TO_RESTORE:
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s_branch L_RESTORE //restore
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L_SKIP_RESTORE:
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s_getreg_b32 s_save_status, hwreg(HW_REG_STATUS) //save STATUS since we will change SCC
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s_andn2_b32 s_save_status, s_save_status, SQ_WAVE_STATUS_SPI_PRIO_MASK //check whether this is for save
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s_getreg_b32 s_save_trapsts, hwreg(HW_REG_TRAPSTS)
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s_and_b32 s_save_trapsts, s_save_trapsts, SQ_WAVE_TRAPSTS_SAVECTX_MASK //check whether this is for save
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s_cbranch_scc1 L_SAVE //this is the operation for save
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// ********* Handle non-CWSR traps *******************
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/* read tba and tma for next level trap handler, ttmp4 is used as s_save_status */
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s_load_dwordx4 [ttmp8,ttmp9,ttmp10, ttmp11], [tma_lo,tma_hi], 0
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s_waitcnt lgkmcnt(0)
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s_or_b32 ttmp7, ttmp8, ttmp9
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s_cbranch_scc0 L_NO_NEXT_TRAP //next level trap handler not been set
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set_status_without_spi_prio(s_save_status, ttmp2) //restore HW status(SCC)
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s_setpc_b64 [ttmp8,ttmp9] //jump to next level trap handler
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L_NO_NEXT_TRAP:
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s_getreg_b32 s_save_trapsts, hwreg(HW_REG_TRAPSTS)
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s_and_b32 s_save_trapsts, s_save_trapsts, SQ_WAVE_TRAPSTS_EXCE_MASK // Check whether it is an exception
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s_cbranch_scc1 L_EXCP_CASE // Exception, jump back to the shader program directly.
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s_add_u32 ttmp0, ttmp0, 4 // S_TRAP case, add 4 to ttmp0
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s_addc_u32 ttmp1, ttmp1, 0
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L_EXCP_CASE:
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s_and_b32 ttmp1, ttmp1, 0xFFFF
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set_status_without_spi_prio(s_save_status, ttmp2) //restore HW status(SCC)
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s_rfe_b64 [ttmp0, ttmp1]
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// ********* End handling of non-CWSR traps *******************
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/**************************************************************************/
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/* save routine */
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/**************************************************************************/
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L_SAVE:
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s_mov_b32 s_save_tmp, 0 //clear saveCtx bit
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s_setreg_b32 hwreg(HW_REG_TRAPSTS, SQ_WAVE_TRAPSTS_SAVECTX_SHIFT, 1), s_save_tmp //clear saveCtx bit
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s_mov_b32 s_save_xnack_mask_lo, xnack_mask_lo //save XNACK_MASK
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s_mov_b32 s_save_xnack_mask_hi, xnack_mask_hi //save XNACK must before any memory operation
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s_getreg_b32 s_save_tmp, hwreg(HW_REG_IB_STS, SQ_WAVE_IB_STS_RCNT_SHIFT, SQ_WAVE_IB_STS_RCNT_SIZE) //save RCNT
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s_lshl_b32 s_save_tmp, s_save_tmp, S_SAVE_PC_HI_RCNT_SHIFT
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s_or_b32 s_save_pc_hi, s_save_pc_hi, s_save_tmp
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s_getreg_b32 s_save_tmp, hwreg(HW_REG_IB_STS, SQ_WAVE_IB_STS_FIRST_REPLAY_SHIFT, SQ_WAVE_IB_STS_FIRST_REPLAY_SIZE) //save FIRST_REPLAY
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s_lshl_b32 s_save_tmp, s_save_tmp, S_SAVE_PC_HI_FIRST_REPLAY_SHIFT
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s_or_b32 s_save_pc_hi, s_save_pc_hi, s_save_tmp
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s_getreg_b32 s_save_tmp, hwreg(HW_REG_IB_STS) //clear RCNT and FIRST_REPLAY in IB_STS
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s_and_b32 s_save_tmp, s_save_tmp, SQ_WAVE_IB_STS_RCNT_FIRST_REPLAY_MASK_NEG
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s_setreg_b32 hwreg(HW_REG_IB_STS), s_save_tmp
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/* inform SPI the readiness and wait for SPI's go signal */
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s_mov_b32 s_save_exec_lo, exec_lo //save EXEC and use EXEC for the go signal from SPI
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s_mov_b32 s_save_exec_hi, exec_hi
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s_mov_b64 exec, 0x0 //clear EXEC to get ready to receive
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s_sendmsg sendmsg(MSG_SAVEWAVE) //send SPI a message and wait for SPI's write to EXEC
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// Set SPI_PRIO=2 to avoid starving instruction fetch in the waves we're waiting for.
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s_or_b32 s_save_tmp, s_save_status, (2 << SQ_WAVE_STATUS_SPI_PRIO_SHIFT)
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s_setreg_b32 hwreg(HW_REG_STATUS), s_save_tmp
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L_SLEEP:
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s_sleep 0x2 // sleep 1 (64clk) is not enough for 8 waves per SIMD, which will cause SQ hang, since the 7,8th wave could not get arbit to exec inst, while other waves are stuck into the sleep-loop and waiting for wrexec!=0
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s_cbranch_execz L_SLEEP
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/* setup Resource Contants */
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s_mov_b32 s_save_buf_rsrc0, s_save_spi_init_lo //base_addr_lo
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s_and_b32 s_save_buf_rsrc1, s_save_spi_init_hi, 0x0000FFFF //base_addr_hi
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s_or_b32 s_save_buf_rsrc1, s_save_buf_rsrc1, S_SAVE_BUF_RSRC_WORD1_STRIDE
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s_mov_b32 s_save_buf_rsrc2, 0 //NUM_RECORDS initial value = 0 (in bytes) although not neccessarily inited
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s_mov_b32 s_save_buf_rsrc3, S_SAVE_BUF_RSRC_WORD3_MISC
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s_and_b32 s_save_tmp, s_save_spi_init_hi, S_SAVE_SPI_INIT_ATC_MASK
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s_lshr_b32 s_save_tmp, s_save_tmp, (S_SAVE_SPI_INIT_ATC_SHIFT-SQ_BUF_RSRC_WORD1_ATC_SHIFT) //get ATC bit into position
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s_or_b32 s_save_buf_rsrc3, s_save_buf_rsrc3, s_save_tmp //or ATC
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s_and_b32 s_save_tmp, s_save_spi_init_hi, S_SAVE_SPI_INIT_MTYPE_MASK
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s_lshr_b32 s_save_tmp, s_save_tmp, (S_SAVE_SPI_INIT_MTYPE_SHIFT-SQ_BUF_RSRC_WORD3_MTYPE_SHIFT) //get MTYPE bits into position
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s_or_b32 s_save_buf_rsrc3, s_save_buf_rsrc3, s_save_tmp //or MTYPE
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//FIXME right now s_save_m0/s_save_mem_offset use tma_lo/tma_hi (might need to save them before using them?)
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s_mov_b32 s_save_m0, m0 //save M0
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/* global mem offset */
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s_mov_b32 s_save_mem_offset, 0x0 //mem offset initial value = 0
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/* save HW registers */
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//////////////////////////////
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L_SAVE_HWREG:
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// HWREG SR memory offset : size(VGPR)+size(SGPR)
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get_vgpr_size_bytes(s_save_mem_offset)
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get_sgpr_size_bytes(s_save_tmp)
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s_add_u32 s_save_mem_offset, s_save_mem_offset, s_save_tmp
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s_mov_b32 s_save_buf_rsrc2, 0x4 //NUM_RECORDS in bytes
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s_mov_b32 s_save_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
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write_hwreg_to_mem(s_save_m0, s_save_buf_rsrc0, s_save_mem_offset) //M0
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write_hwreg_to_mem(s_save_pc_lo, s_save_buf_rsrc0, s_save_mem_offset) //PC
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write_hwreg_to_mem(s_save_pc_hi, s_save_buf_rsrc0, s_save_mem_offset)
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write_hwreg_to_mem(s_save_exec_lo, s_save_buf_rsrc0, s_save_mem_offset) //EXEC
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write_hwreg_to_mem(s_save_exec_hi, s_save_buf_rsrc0, s_save_mem_offset)
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write_hwreg_to_mem(s_save_status, s_save_buf_rsrc0, s_save_mem_offset) //STATUS
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//s_save_trapsts conflicts with s_save_alloc_size
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s_getreg_b32 s_save_trapsts, hwreg(HW_REG_TRAPSTS)
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write_hwreg_to_mem(s_save_trapsts, s_save_buf_rsrc0, s_save_mem_offset) //TRAPSTS
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write_hwreg_to_mem(s_save_xnack_mask_lo, s_save_buf_rsrc0, s_save_mem_offset) //XNACK_MASK_LO
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write_hwreg_to_mem(s_save_xnack_mask_hi, s_save_buf_rsrc0, s_save_mem_offset) //XNACK_MASK_HI
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//use s_save_tmp would introduce conflict here between s_save_tmp and s_save_buf_rsrc2
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s_getreg_b32 s_save_m0, hwreg(HW_REG_MODE) //MODE
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write_hwreg_to_mem(s_save_m0, s_save_buf_rsrc0, s_save_mem_offset)
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write_hwreg_to_mem(tba_lo, s_save_buf_rsrc0, s_save_mem_offset) //TBA_LO
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write_hwreg_to_mem(tba_hi, s_save_buf_rsrc0, s_save_mem_offset) //TBA_HI
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/* the first wave in the threadgroup */
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// save fist_wave bits in tba_hi unused bit.26
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s_and_b32 s_save_tmp, s_save_spi_init_hi, S_SAVE_SPI_INIT_FIRST_WAVE_MASK // extract fisrt wave bit
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//s_or_b32 tba_hi, s_save_tmp, tba_hi // save first wave bit to tba_hi.bits[26]
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s_mov_b32 s_save_exec_hi, 0x0
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s_or_b32 s_save_exec_hi, s_save_tmp, s_save_exec_hi // save first wave bit to s_save_exec_hi.bits[26]
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/* save SGPRs */
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// Save SGPR before LDS save, then the s0 to s4 can be used during LDS save...
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//////////////////////////////
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// SGPR SR memory offset : size(VGPR)
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get_vgpr_size_bytes(s_save_mem_offset)
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// TODO, change RSRC word to rearrange memory layout for SGPRS
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s_getreg_b32 s_save_alloc_size, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SIZE) //spgr_size
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s_add_u32 s_save_alloc_size, s_save_alloc_size, 1
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s_lshl_b32 s_save_alloc_size, s_save_alloc_size, 4 //Number of SGPRs = (sgpr_size + 1) * 16 (non-zero value)
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s_lshl_b32 s_save_buf_rsrc2, s_save_alloc_size, 2 //NUM_RECORDS in bytes
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s_mov_b32 s_save_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
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// backup s_save_buf_rsrc0,1 to s_save_pc_lo/hi, since write_16sgpr_to_mem function will change the rsrc0
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//s_mov_b64 s_save_pc_lo, s_save_buf_rsrc0
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s_mov_b64 s_save_xnack_mask_lo, s_save_buf_rsrc0
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s_add_u32 s_save_buf_rsrc0, s_save_buf_rsrc0, s_save_mem_offset
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s_addc_u32 s_save_buf_rsrc1, s_save_buf_rsrc1, 0
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s_mov_b32 m0, 0x0 //SGPR initial index value =0
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L_SAVE_SGPR_LOOP:
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// SGPR is allocated in 16 SGPR granularity
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s_movrels_b64 s0, s0 //s0 = s[0+m0], s1 = s[1+m0]
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s_movrels_b64 s2, s2 //s2 = s[2+m0], s3 = s[3+m0]
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s_movrels_b64 s4, s4 //s4 = s[4+m0], s5 = s[5+m0]
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s_movrels_b64 s6, s6 //s6 = s[6+m0], s7 = s[7+m0]
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s_movrels_b64 s8, s8 //s8 = s[8+m0], s9 = s[9+m0]
|
|
s_movrels_b64 s10, s10 //s10 = s[10+m0], s11 = s[11+m0]
|
|
s_movrels_b64 s12, s12 //s12 = s[12+m0], s13 = s[13+m0]
|
|
s_movrels_b64 s14, s14 //s14 = s[14+m0], s15 = s[15+m0]
|
|
|
|
write_16sgpr_to_mem(s0, s_save_buf_rsrc0, s_save_mem_offset) //PV: the best performance should be using s_buffer_store_dwordx4
|
|
s_add_u32 m0, m0, 16 //next sgpr index
|
|
s_cmp_lt_u32 m0, s_save_alloc_size //scc = (m0 < s_save_alloc_size) ? 1 : 0
|
|
s_cbranch_scc1 L_SAVE_SGPR_LOOP //SGPR save is complete?
|
|
// restore s_save_buf_rsrc0,1
|
|
//s_mov_b64 s_save_buf_rsrc0, s_save_pc_lo
|
|
s_mov_b64 s_save_buf_rsrc0, s_save_xnack_mask_lo
|
|
|
|
|
|
|
|
|
|
/* save first 4 VGPR, then LDS save could use */
|
|
// each wave will alloc 4 vgprs at least...
|
|
/////////////////////////////////////////////////////////////////////////////////////
|
|
|
|
s_mov_b32 s_save_mem_offset, 0
|
|
s_mov_b32 exec_lo, 0xFFFFFFFF //need every thread from now on
|
|
s_mov_b32 exec_hi, 0xFFFFFFFF
|
|
|
|
s_mov_b32 s_save_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
|
|
// VGPR Allocated in 4-GPR granularity
|
|
|
|
buffer_store_dword v0, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1
|
|
buffer_store_dword v1, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256
|
|
buffer_store_dword v2, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256*2
|
|
buffer_store_dword v3, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256*3
|
|
|
|
|
|
|
|
/* save LDS */
|
|
//////////////////////////////
|
|
|
|
L_SAVE_LDS:
|
|
|
|
// Change EXEC to all threads...
|
|
s_mov_b32 exec_lo, 0xFFFFFFFF //need every thread from now on
|
|
s_mov_b32 exec_hi, 0xFFFFFFFF
|
|
|
|
s_getreg_b32 s_save_alloc_size, hwreg(HW_REG_LDS_ALLOC,SQ_WAVE_LDS_ALLOC_LDS_SIZE_SHIFT,SQ_WAVE_LDS_ALLOC_LDS_SIZE_SIZE) //lds_size
|
|
s_and_b32 s_save_alloc_size, s_save_alloc_size, 0xFFFFFFFF //lds_size is zero?
|
|
s_cbranch_scc0 L_SAVE_LDS_DONE //no lds used? jump to L_SAVE_DONE
|
|
|
|
s_barrier //LDS is used? wait for other waves in the same TG
|
|
//s_and_b32 s_save_tmp, tba_hi, S_SAVE_SPI_INIT_FIRST_WAVE_MASK //exec is still used here
|
|
s_and_b32 s_save_tmp, s_save_exec_hi, S_SAVE_SPI_INIT_FIRST_WAVE_MASK //exec is still used here
|
|
s_cbranch_scc0 L_SAVE_LDS_DONE
|
|
|
|
// first wave do LDS save;
|
|
|
|
s_lshl_b32 s_save_alloc_size, s_save_alloc_size, 6 //LDS size in dwords = lds_size * 64dw
|
|
s_lshl_b32 s_save_alloc_size, s_save_alloc_size, 2 //LDS size in bytes
|
|
s_mov_b32 s_save_buf_rsrc2, s_save_alloc_size //NUM_RECORDS in bytes
|
|
|
|
// LDS at offset: size(VGPR)+SIZE(SGPR)+SIZE(HWREG)
|
|
//
|
|
get_vgpr_size_bytes(s_save_mem_offset)
|
|
get_sgpr_size_bytes(s_save_tmp)
|
|
s_add_u32 s_save_mem_offset, s_save_mem_offset, s_save_tmp
|
|
s_add_u32 s_save_mem_offset, s_save_mem_offset, get_hwreg_size_bytes()
|
|
|
|
|
|
s_mov_b32 s_save_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
s_mov_b32 m0, 0x0 //lds_offset initial value = 0
|
|
|
|
|
|
v_mbcnt_lo_u32_b32 v2, 0xffffffff, 0x0
|
|
v_mbcnt_hi_u32_b32 v3, 0xffffffff, v2 // tid
|
|
v_mul_i32_i24 v2, v3, 8 // tid*8
|
|
v_mov_b32 v3, 256*2
|
|
s_mov_b32 m0, 0x10000
|
|
s_mov_b32 s0, s_save_buf_rsrc3
|
|
s_and_b32 s_save_buf_rsrc3, s_save_buf_rsrc3, 0xFF7FFFFF // disable add_tid
|
|
s_or_b32 s_save_buf_rsrc3, s_save_buf_rsrc3, 0x58000 //DFMT
|
|
|
|
L_SAVE_LDS_LOOP_VECTOR:
|
|
ds_read_b64 v[0:1], v2 //x =LDS[a], byte address
|
|
s_waitcnt lgkmcnt(0)
|
|
buffer_store_dwordx2 v[0:1], v2, s_save_buf_rsrc0, s_save_mem_offset offen:1 glc:1 slc:1
|
|
// s_waitcnt vmcnt(0)
|
|
v_add_u32 v2, vcc[0:1], v2, v3
|
|
v_cmp_lt_u32 vcc[0:1], v2, s_save_alloc_size
|
|
s_cbranch_vccnz L_SAVE_LDS_LOOP_VECTOR
|
|
|
|
// restore rsrc3
|
|
s_mov_b32 s_save_buf_rsrc3, s0
|
|
|
|
L_SAVE_LDS_DONE:
|
|
|
|
|
|
/* save VGPRs - set the Rest VGPRs */
|
|
//////////////////////////////////////////////////////////////////////////////////////
|
|
L_SAVE_VGPR:
|
|
// VGPR SR memory offset: 0
|
|
// TODO rearrange the RSRC words to use swizzle for VGPR save...
|
|
|
|
s_mov_b32 s_save_mem_offset, (0+256*4) // for the rest VGPRs
|
|
s_mov_b32 exec_lo, 0xFFFFFFFF //need every thread from now on
|
|
s_mov_b32 exec_hi, 0xFFFFFFFF
|
|
|
|
s_getreg_b32 s_save_alloc_size, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SIZE) //vpgr_size
|
|
s_add_u32 s_save_alloc_size, s_save_alloc_size, 1
|
|
s_lshl_b32 s_save_alloc_size, s_save_alloc_size, 2 //Number of VGPRs = (vgpr_size + 1) * 4 (non-zero value) //FIXME for GFX, zero is possible
|
|
s_lshl_b32 s_save_buf_rsrc2, s_save_alloc_size, 8 //NUM_RECORDS in bytes (64 threads*4)
|
|
s_mov_b32 s_save_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
|
|
// VGPR store using dw burst
|
|
s_mov_b32 m0, 0x4 //VGPR initial index value =0
|
|
s_cmp_lt_u32 m0, s_save_alloc_size
|
|
s_cbranch_scc0 L_SAVE_VGPR_END
|
|
|
|
|
|
s_set_gpr_idx_on m0, 0x1 //M0[7:0] = M0[7:0] and M0[15:12] = 0x1
|
|
s_add_u32 s_save_alloc_size, s_save_alloc_size, 0x1000 //add 0x1000 since we compare m0 against it later
|
|
|
|
L_SAVE_VGPR_LOOP:
|
|
v_mov_b32 v0, v0 //v0 = v[0+m0]
|
|
v_mov_b32 v1, v1 //v0 = v[0+m0]
|
|
v_mov_b32 v2, v2 //v0 = v[0+m0]
|
|
v_mov_b32 v3, v3 //v0 = v[0+m0]
|
|
|
|
buffer_store_dword v0, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1
|
|
buffer_store_dword v1, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256
|
|
buffer_store_dword v2, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256*2
|
|
buffer_store_dword v3, v0, s_save_buf_rsrc0, s_save_mem_offset slc:1 glc:1 offset:256*3
|
|
|
|
s_add_u32 m0, m0, 4 //next vgpr index
|
|
s_add_u32 s_save_mem_offset, s_save_mem_offset, 256*4 //every buffer_store_dword does 256 bytes
|
|
s_cmp_lt_u32 m0, s_save_alloc_size //scc = (m0 < s_save_alloc_size) ? 1 : 0
|
|
s_cbranch_scc1 L_SAVE_VGPR_LOOP //VGPR save is complete?
|
|
s_set_gpr_idx_off
|
|
|
|
L_SAVE_VGPR_END:
|
|
s_branch L_END_PGM
|
|
|
|
|
|
|
|
/**************************************************************************/
|
|
/* restore routine */
|
|
/**************************************************************************/
|
|
|
|
L_RESTORE:
|
|
/* Setup Resource Contants */
|
|
s_mov_b32 s_restore_buf_rsrc0, s_restore_spi_init_lo //base_addr_lo
|
|
s_and_b32 s_restore_buf_rsrc1, s_restore_spi_init_hi, 0x0000FFFF //base_addr_hi
|
|
s_or_b32 s_restore_buf_rsrc1, s_restore_buf_rsrc1, S_RESTORE_BUF_RSRC_WORD1_STRIDE
|
|
s_mov_b32 s_restore_buf_rsrc2, 0 //NUM_RECORDS initial value = 0 (in bytes)
|
|
s_mov_b32 s_restore_buf_rsrc3, S_RESTORE_BUF_RSRC_WORD3_MISC
|
|
s_and_b32 s_restore_tmp, s_restore_spi_init_hi, S_RESTORE_SPI_INIT_ATC_MASK
|
|
s_lshr_b32 s_restore_tmp, s_restore_tmp, (S_RESTORE_SPI_INIT_ATC_SHIFT-SQ_BUF_RSRC_WORD1_ATC_SHIFT) //get ATC bit into position
|
|
s_or_b32 s_restore_buf_rsrc3, s_restore_buf_rsrc3, s_restore_tmp //or ATC
|
|
s_and_b32 s_restore_tmp, s_restore_spi_init_hi, S_RESTORE_SPI_INIT_MTYPE_MASK
|
|
s_lshr_b32 s_restore_tmp, s_restore_tmp, (S_RESTORE_SPI_INIT_MTYPE_SHIFT-SQ_BUF_RSRC_WORD3_MTYPE_SHIFT) //get MTYPE bits into position
|
|
s_or_b32 s_restore_buf_rsrc3, s_restore_buf_rsrc3, s_restore_tmp //or MTYPE
|
|
|
|
/* global mem offset */
|
|
// s_mov_b32 s_restore_mem_offset, 0x0 //mem offset initial value = 0
|
|
|
|
/* the first wave in the threadgroup */
|
|
s_and_b32 s_restore_tmp, s_restore_spi_init_hi, S_RESTORE_SPI_INIT_FIRST_WAVE_MASK
|
|
s_cbranch_scc0 L_RESTORE_VGPR
|
|
|
|
/* restore LDS */
|
|
//////////////////////////////
|
|
L_RESTORE_LDS:
|
|
|
|
s_mov_b32 exec_lo, 0xFFFFFFFF //need every thread from now on //be consistent with SAVE although can be moved ahead
|
|
s_mov_b32 exec_hi, 0xFFFFFFFF
|
|
|
|
s_getreg_b32 s_restore_alloc_size, hwreg(HW_REG_LDS_ALLOC,SQ_WAVE_LDS_ALLOC_LDS_SIZE_SHIFT,SQ_WAVE_LDS_ALLOC_LDS_SIZE_SIZE) //lds_size
|
|
s_and_b32 s_restore_alloc_size, s_restore_alloc_size, 0xFFFFFFFF //lds_size is zero?
|
|
s_cbranch_scc0 L_RESTORE_VGPR //no lds used? jump to L_RESTORE_VGPR
|
|
s_lshl_b32 s_restore_alloc_size, s_restore_alloc_size, 6 //LDS size in dwords = lds_size * 64dw
|
|
s_lshl_b32 s_restore_alloc_size, s_restore_alloc_size, 2 //LDS size in bytes
|
|
s_mov_b32 s_restore_buf_rsrc2, s_restore_alloc_size //NUM_RECORDS in bytes
|
|
|
|
// LDS at offset: size(VGPR)+SIZE(SGPR)+SIZE(HWREG)
|
|
//
|
|
get_vgpr_size_bytes(s_restore_mem_offset)
|
|
get_sgpr_size_bytes(s_restore_tmp)
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, s_restore_tmp
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, get_hwreg_size_bytes() //FIXME, Check if offset overflow???
|
|
|
|
|
|
s_mov_b32 s_restore_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
s_mov_b32 m0, 0x0 //lds_offset initial value = 0
|
|
|
|
L_RESTORE_LDS_LOOP:
|
|
buffer_load_dword v0, v0, s_restore_buf_rsrc0, s_restore_mem_offset lds:1 // first 64DW
|
|
buffer_load_dword v0, v0, s_restore_buf_rsrc0, s_restore_mem_offset lds:1 offset:256 // second 64DW
|
|
s_add_u32 m0, m0, 256*2 // 128 DW
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, 256*2 //mem offset increased by 128DW
|
|
s_cmp_lt_u32 m0, s_restore_alloc_size //scc=(m0 < s_restore_alloc_size) ? 1 : 0
|
|
s_cbranch_scc1 L_RESTORE_LDS_LOOP //LDS restore is complete?
|
|
|
|
|
|
/* restore VGPRs */
|
|
//////////////////////////////
|
|
L_RESTORE_VGPR:
|
|
// VGPR SR memory offset : 0
|
|
s_mov_b32 s_restore_mem_offset, 0x0
|
|
s_mov_b32 exec_lo, 0xFFFFFFFF //need every thread from now on //be consistent with SAVE although can be moved ahead
|
|
s_mov_b32 exec_hi, 0xFFFFFFFF
|
|
|
|
s_getreg_b32 s_restore_alloc_size, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SIZE) //vpgr_size
|
|
s_add_u32 s_restore_alloc_size, s_restore_alloc_size, 1
|
|
s_lshl_b32 s_restore_alloc_size, s_restore_alloc_size, 2 //Number of VGPRs = (vgpr_size + 1) * 4 (non-zero value)
|
|
s_lshl_b32 s_restore_buf_rsrc2, s_restore_alloc_size, 8 //NUM_RECORDS in bytes (64 threads*4)
|
|
s_mov_b32 s_restore_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
|
|
// VGPR load using dw burst
|
|
s_mov_b32 s_restore_mem_offset_save, s_restore_mem_offset // restore start with v1, v0 will be the last
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, 256*4
|
|
s_mov_b32 m0, 4 //VGPR initial index value = 1
|
|
s_set_gpr_idx_on m0, 0x8 //M0[7:0] = M0[7:0] and M0[15:12] = 0x8
|
|
s_add_u32 s_restore_alloc_size, s_restore_alloc_size, 0x8000 //add 0x8000 since we compare m0 against it later
|
|
|
|
L_RESTORE_VGPR_LOOP:
|
|
buffer_load_dword v0, v0, s_restore_buf_rsrc0, s_restore_mem_offset slc:1 glc:1
|
|
buffer_load_dword v1, v0, s_restore_buf_rsrc0, s_restore_mem_offset slc:1 glc:1 offset:256
|
|
buffer_load_dword v2, v0, s_restore_buf_rsrc0, s_restore_mem_offset slc:1 glc:1 offset:256*2
|
|
buffer_load_dword v3, v0, s_restore_buf_rsrc0, s_restore_mem_offset slc:1 glc:1 offset:256*3
|
|
s_waitcnt vmcnt(0) //ensure data ready
|
|
v_mov_b32 v0, v0 //v[0+m0] = v0
|
|
v_mov_b32 v1, v1
|
|
v_mov_b32 v2, v2
|
|
v_mov_b32 v3, v3
|
|
s_add_u32 m0, m0, 4 //next vgpr index
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, 256*4 //every buffer_load_dword does 256 bytes
|
|
s_cmp_lt_u32 m0, s_restore_alloc_size //scc = (m0 < s_restore_alloc_size) ? 1 : 0
|
|
s_cbranch_scc1 L_RESTORE_VGPR_LOOP //VGPR restore (except v0) is complete?
|
|
s_set_gpr_idx_off
|
|
/* VGPR restore on v0 */
|
|
buffer_load_dword v0, v0, s_restore_buf_rsrc0, s_restore_mem_offset_save slc:1 glc:1
|
|
buffer_load_dword v1, v0, s_restore_buf_rsrc0, s_restore_mem_offset_save slc:1 glc:1 offset:256
|
|
buffer_load_dword v2, v0, s_restore_buf_rsrc0, s_restore_mem_offset_save slc:1 glc:1 offset:256*2
|
|
buffer_load_dword v3, v0, s_restore_buf_rsrc0, s_restore_mem_offset_save slc:1 glc:1 offset:256*3
|
|
|
|
/* restore SGPRs */
|
|
//////////////////////////////
|
|
|
|
// SGPR SR memory offset : size(VGPR)
|
|
get_vgpr_size_bytes(s_restore_mem_offset)
|
|
get_sgpr_size_bytes(s_restore_tmp)
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, s_restore_tmp
|
|
s_sub_u32 s_restore_mem_offset, s_restore_mem_offset, 16*4 // restore SGPR from S[n] to S[0], by 16 sgprs group
|
|
// TODO, change RSRC word to rearrange memory layout for SGPRS
|
|
|
|
s_getreg_b32 s_restore_alloc_size, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SIZE) //spgr_size
|
|
s_add_u32 s_restore_alloc_size, s_restore_alloc_size, 1
|
|
s_lshl_b32 s_restore_alloc_size, s_restore_alloc_size, 4 //Number of SGPRs = (sgpr_size + 1) * 16 (non-zero value)
|
|
|
|
s_lshl_b32 s_restore_buf_rsrc2, s_restore_alloc_size, 2 //NUM_RECORDS in bytes
|
|
s_mov_b32 s_restore_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
|
|
/* If 112 SGPRs ar allocated, 4 sgprs are not used TBA(108,109),TMA(110,111),
|
|
However, we are safe to restore these 4 SGPRs anyway, since TBA,TMA will later be restored by HWREG
|
|
*/
|
|
s_mov_b32 m0, s_restore_alloc_size
|
|
|
|
L_RESTORE_SGPR_LOOP:
|
|
read_16sgpr_from_mem(s0, s_restore_buf_rsrc0, s_restore_mem_offset) //PV: further performance improvement can be made
|
|
s_waitcnt lgkmcnt(0) //ensure data ready
|
|
|
|
s_sub_u32 m0, m0, 16 // Restore from S[n] to S[0]
|
|
|
|
s_movreld_b64 s0, s0 //s[0+m0] = s0
|
|
s_movreld_b64 s2, s2
|
|
s_movreld_b64 s4, s4
|
|
s_movreld_b64 s6, s6
|
|
s_movreld_b64 s8, s8
|
|
s_movreld_b64 s10, s10
|
|
s_movreld_b64 s12, s12
|
|
s_movreld_b64 s14, s14
|
|
|
|
s_cmp_eq_u32 m0, 0 //scc = (m0 < s_restore_alloc_size) ? 1 : 0
|
|
s_cbranch_scc0 L_RESTORE_SGPR_LOOP //SGPR restore (except s0) is complete?
|
|
|
|
/* restore HW registers */
|
|
//////////////////////////////
|
|
L_RESTORE_HWREG:
|
|
|
|
// HWREG SR memory offset : size(VGPR)+size(SGPR)
|
|
get_vgpr_size_bytes(s_restore_mem_offset)
|
|
get_sgpr_size_bytes(s_restore_tmp)
|
|
s_add_u32 s_restore_mem_offset, s_restore_mem_offset, s_restore_tmp
|
|
|
|
|
|
s_mov_b32 s_restore_buf_rsrc2, 0x4 //NUM_RECORDS in bytes
|
|
s_mov_b32 s_restore_buf_rsrc2, 0x1000000 //NUM_RECORDS in bytes
|
|
|
|
read_hwreg_from_mem(s_restore_m0, s_restore_buf_rsrc0, s_restore_mem_offset) //M0
|
|
read_hwreg_from_mem(s_restore_pc_lo, s_restore_buf_rsrc0, s_restore_mem_offset) //PC
|
|
read_hwreg_from_mem(s_restore_pc_hi, s_restore_buf_rsrc0, s_restore_mem_offset)
|
|
read_hwreg_from_mem(s_restore_exec_lo, s_restore_buf_rsrc0, s_restore_mem_offset) //EXEC
|
|
read_hwreg_from_mem(s_restore_exec_hi, s_restore_buf_rsrc0, s_restore_mem_offset)
|
|
read_hwreg_from_mem(s_restore_status, s_restore_buf_rsrc0, s_restore_mem_offset) //STATUS
|
|
read_hwreg_from_mem(s_restore_trapsts, s_restore_buf_rsrc0, s_restore_mem_offset) //TRAPSTS
|
|
read_hwreg_from_mem(xnack_mask_lo, s_restore_buf_rsrc0, s_restore_mem_offset) //XNACK_MASK_LO
|
|
read_hwreg_from_mem(xnack_mask_hi, s_restore_buf_rsrc0, s_restore_mem_offset) //XNACK_MASK_HI
|
|
read_hwreg_from_mem(s_restore_mode, s_restore_buf_rsrc0, s_restore_mem_offset) //MODE
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read_hwreg_from_mem(tba_lo, s_restore_buf_rsrc0, s_restore_mem_offset) //TBA_LO
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read_hwreg_from_mem(tba_hi, s_restore_buf_rsrc0, s_restore_mem_offset) //TBA_HI
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s_waitcnt lgkmcnt(0) //from now on, it is safe to restore STATUS and IB_STS
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s_mov_b32 m0, s_restore_m0
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s_mov_b32 exec_lo, s_restore_exec_lo
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s_mov_b32 exec_hi, s_restore_exec_hi
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s_and_b32 s_restore_m0, SQ_WAVE_TRAPSTS_PRE_SAVECTX_MASK, s_restore_trapsts
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s_setreg_b32 hwreg(HW_REG_TRAPSTS, SQ_WAVE_TRAPSTS_PRE_SAVECTX_SHIFT, SQ_WAVE_TRAPSTS_PRE_SAVECTX_SIZE), s_restore_m0
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s_and_b32 s_restore_m0, SQ_WAVE_TRAPSTS_POST_SAVECTX_MASK, s_restore_trapsts
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s_lshr_b32 s_restore_m0, s_restore_m0, SQ_WAVE_TRAPSTS_POST_SAVECTX_SHIFT
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s_setreg_b32 hwreg(HW_REG_TRAPSTS, SQ_WAVE_TRAPSTS_POST_SAVECTX_SHIFT, SQ_WAVE_TRAPSTS_POST_SAVECTX_SIZE), s_restore_m0
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//s_setreg_b32 hwreg(HW_REG_TRAPSTS), s_restore_trapsts //don't overwrite SAVECTX bit as it may be set through external SAVECTX during restore
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s_setreg_b32 hwreg(HW_REG_MODE), s_restore_mode
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//reuse s_restore_m0 as a temp register
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s_and_b32 s_restore_m0, s_restore_pc_hi, S_SAVE_PC_HI_RCNT_MASK
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s_lshr_b32 s_restore_m0, s_restore_m0, S_SAVE_PC_HI_RCNT_SHIFT
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s_lshl_b32 s_restore_m0, s_restore_m0, SQ_WAVE_IB_STS_RCNT_SHIFT
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s_mov_b32 s_restore_tmp, 0x0 //IB_STS is zero
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s_or_b32 s_restore_tmp, s_restore_tmp, s_restore_m0
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s_and_b32 s_restore_m0, s_restore_pc_hi, S_SAVE_PC_HI_FIRST_REPLAY_MASK
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s_lshr_b32 s_restore_m0, s_restore_m0, S_SAVE_PC_HI_FIRST_REPLAY_SHIFT
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s_lshl_b32 s_restore_m0, s_restore_m0, SQ_WAVE_IB_STS_FIRST_REPLAY_SHIFT
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s_or_b32 s_restore_tmp, s_restore_tmp, s_restore_m0
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s_and_b32 s_restore_m0, s_restore_status, SQ_WAVE_STATUS_INST_ATC_MASK
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s_lshr_b32 s_restore_m0, s_restore_m0, SQ_WAVE_STATUS_INST_ATC_SHIFT
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s_setreg_b32 hwreg(HW_REG_IB_STS), s_restore_tmp
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s_and_b32 s_restore_pc_hi, s_restore_pc_hi, 0x0000ffff //pc[47:32] //Do it here in order not to affect STATUS
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s_and_b64 exec, exec, exec // Restore STATUS.EXECZ, not writable by s_setreg_b32
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s_and_b64 vcc, vcc, vcc // Restore STATUS.VCCZ, not writable by s_setreg_b32
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set_status_without_spi_prio(s_restore_status, s_restore_tmp) // SCC is included, which is changed by previous salu
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s_barrier //barrier to ensure the readiness of LDS before access attempts from any other wave in the same TG //FIXME not performance-optimal at this time
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// s_rfe_b64 s_restore_pc_lo //Return to the main shader program and resume execution
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s_rfe_restore_b64 s_restore_pc_lo, s_restore_m0 // s_restore_m0[0] is used to set STATUS.inst_atc
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/**************************************************************************/
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/* the END */
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/**************************************************************************/
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L_END_PGM:
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s_endpgm
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end
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/**************************************************************************/
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/* the helper functions */
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/**************************************************************************/
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//Only for save hwreg to mem
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function write_hwreg_to_mem(s, s_rsrc, s_mem_offset)
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s_mov_b32 exec_lo, m0 //assuming exec_lo is not needed anymore from this point on
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s_mov_b32 m0, s_mem_offset
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s_buffer_store_dword s, s_rsrc, m0 glc:1
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s_add_u32 s_mem_offset, s_mem_offset, 4
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s_mov_b32 m0, exec_lo
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end
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// HWREG are saved before SGPRs, so all HWREG could be use.
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function write_16sgpr_to_mem(s, s_rsrc, s_mem_offset)
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s_buffer_store_dwordx4 s[0], s_rsrc, 0 glc:1
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s_buffer_store_dwordx4 s[4], s_rsrc, 16 glc:1
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s_buffer_store_dwordx4 s[8], s_rsrc, 32 glc:1
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s_buffer_store_dwordx4 s[12], s_rsrc, 48 glc:1
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s_add_u32 s_rsrc[0], s_rsrc[0], 4*16
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s_addc_u32 s_rsrc[1], s_rsrc[1], 0x0 // +scc
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end
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function read_hwreg_from_mem(s, s_rsrc, s_mem_offset)
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s_buffer_load_dword s, s_rsrc, s_mem_offset glc:1
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s_add_u32 s_mem_offset, s_mem_offset, 4
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|
end
|
|
|
|
function read_16sgpr_from_mem(s, s_rsrc, s_mem_offset)
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s_buffer_load_dwordx16 s, s_rsrc, s_mem_offset glc:1
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s_sub_u32 s_mem_offset, s_mem_offset, 4*16
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end
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function get_lds_size_bytes(s_lds_size_byte)
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// SQ LDS granularity is 64DW, while PGM_RSRC2.lds_size is in granularity 128DW
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s_getreg_b32 s_lds_size_byte, hwreg(HW_REG_LDS_ALLOC, SQ_WAVE_LDS_ALLOC_LDS_SIZE_SHIFT, SQ_WAVE_LDS_ALLOC_LDS_SIZE_SIZE) // lds_size
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s_lshl_b32 s_lds_size_byte, s_lds_size_byte, 8 //LDS size in dwords = lds_size * 64 *4Bytes // granularity 64DW
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end
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function get_vgpr_size_bytes(s_vgpr_size_byte)
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s_getreg_b32 s_vgpr_size_byte, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_VGPR_SIZE_SIZE) //vpgr_size
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s_add_u32 s_vgpr_size_byte, s_vgpr_size_byte, 1
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s_lshl_b32 s_vgpr_size_byte, s_vgpr_size_byte, (2+8) //Number of VGPRs = (vgpr_size + 1) * 4 * 64 * 4 (non-zero value) //FIXME for GFX, zero is possible
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end
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|
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function get_sgpr_size_bytes(s_sgpr_size_byte)
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|
s_getreg_b32 s_sgpr_size_byte, hwreg(HW_REG_GPR_ALLOC,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SHIFT,SQ_WAVE_GPR_ALLOC_SGPR_SIZE_SIZE) //spgr_size
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s_add_u32 s_sgpr_size_byte, s_sgpr_size_byte, 1
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s_lshl_b32 s_sgpr_size_byte, s_sgpr_size_byte, 6 //Number of SGPRs = (sgpr_size + 1) * 16 *4 (non-zero value)
|
|
end
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|
|
|
function get_hwreg_size_bytes
|
|
return 128 //HWREG size 128 bytes
|
|
end
|
|
|
|
function set_status_without_spi_prio(status, tmp)
|
|
// Do not restore STATUS.SPI_PRIO since scheduler may have raised it.
|
|
s_lshr_b32 tmp, status, SQ_WAVE_STATUS_POST_SPI_PRIO_SHIFT
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|
s_setreg_b32 hwreg(HW_REG_STATUS, SQ_WAVE_STATUS_POST_SPI_PRIO_SHIFT, SQ_WAVE_STATUS_POST_SPI_PRIO_SIZE), tmp
|
|
s_nop 0x2 // avoid S_SETREG => S_SETREG hazard
|
|
s_setreg_b32 hwreg(HW_REG_STATUS, SQ_WAVE_STATUS_PRE_SPI_PRIO_SHIFT, SQ_WAVE_STATUS_PRE_SPI_PRIO_SIZE), status
|
|
end
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