; Copyright (c) 2020 Valve 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. ; ; ; This file is the source for a simple mock firmware used to regression test ; the afuc assembler/disassembler. Note, it won't actually work if you try to ; load it on the GPU! First this is assembled, compared to the reference ; binary, then disassambled and compared to the reference disassembly. We do ; this to avoid having to host the actual firmware, especially the disassembled ; version, in Mesa. [01000001] [01000000] loc02: mov $02, 0x883 mov $03, 0xbeef mov $04, 0xdead << 16 or $03, $03, $04 cwrite $02, [$00 + @REG_WRITE_ADDR], 0x0 cwrite $03, [$00 + @REG_WRITE], 0x0 waitin mov $01, $data CP_ME_INIT: ; test label-as-immediate feature mov $02, #loc02 ; should be 0x0002 waitin mov $01, $data CP_MEM_WRITE: ; test $addr + (rep) + (xmovN) with ALU mov $addr, 0xa0 << 24 mov $02, 4 (xmov1)add $data, $02, $data mov $addr, 0xa204 << 16 (rep)(xmov3)mov $data, $data waitin mov $01, $data CP_SCRATCH_WRITE: ; test (rep) + flags + non-zero offset with cwrite ; TODO: 0x4 flag is actually pre-increment addressing, handle it as such mov $02, 0xff (rep)cwrite $data, [$02 + 0x001], 0x4 waitin mov $01, $data CP_SET_SECURE_MODE: ; test setsecure mov $02, $data setsecure $02, #setsecure_success err: jump #err nop setsecure_success: waitin mov $01, $data euclid: ; Euclid's algorithm in afuc: https://en.wikipedia.org/wiki/Euclidean_algorithm ; Since afuc doesn't do modulo, we implement the subtraction-based version. ; ; Demonstrates/tests comparisons and conditional branches. This also ; demonstrates the common trick of branching in a delay slot. Note that if a ; branch is taken and its delay slot includes another branch, the second ; branch cannot also be taken, which is why the last branch in the sequence ; cannot be unconditional. ; ; Inputs are in $02 and $03, and output is in $02. cmp $04, $02, $03 breq $04, b0, #euclid_exit brne $04, b1, #euclid_gt breq $04, b2, #euclid sub $03, $03, $02 euclid_gt: jump #euclid sub $02, $02, $03 euclid_exit: ret nop CP_REG_RMW: ; Test various ALU instructions, and read/write $addr2 cwrite $data, [$00 + @REG_READ_ADDR], 0x0 add $02, $addr2, 0x42 addhi $03, $00, $addr2 sub $02, $02, $addr2 call #euclid subhi $03, $03, $addr2 and $02, $02, $addr2 or $02, $02, 0x1 xor $02, $02, 0x1 not $02, $02 shl $02, $02, $addr2 ushr $02, $02, $addr2 ishr $02, $02, $addr2 rot $02, $02, $addr2 min $02, $02, $addr2 max $02, $02, $addr2 mul8 $02, $02, $addr2 msb $02, $02 mov $addr2, $data mov $data, $02 waitin mov $01, $data CP_MEMCPY: ; implement CP_MEMCPY using load/store instructions mov $02, $data mov $03, $data mov $04, $data mov $05, $data mov $06, $data cpy_header: breq $06, 0, #cpy_exit cwrite $03, [$00 + @LOAD_STORE_HI], 0x0 load $07, [$02 + 0x004], 0x4 cwrite $05, [$00 + @LOAD_STORE_HI], 0x0 jump #cpy_header store $07, [$04 + 0x004], 0x4 cpy_exit: waitin mov $01, $data CP_MEM_TO_MEM: ; implement CP_MEMCPY using mem read control regs ; tests @FOO+0x1 for 64-bit control regs, and reading/writing $rem cwrite $data, [$00 + @MEM_READ_ADDR], 0x0 cwrite $data, [$00 + @MEM_READ_ADDR+1], 0x0 mov $02, $data cwrite $data, [$00 + @LOAD_STORE_HI], 0x0 mov $rem, $data cwrite $rem, [$00 + @MEM_READ_DWORDS], 0x0 (rep)store $addr, [$02 + 0x004], 0x4 waitin mov $01, $data UNKN15: ; test preemptleave + iret + conditional branch w/ immed cread $02, [$00 + 0x101], 0x0 brne $02, 0x0001, #exit_iret nop preemptleave #err nop nop nop waitin mov $01, $data exit_iret: iret nop UNKN0: UNKN1: UNKN2: UNKN3: PKT4: UNKN5: UNKN6: UNKN7: UNKN8: UNKN9: UNKN10: UNKN11: UNKN12: UNKN13: UNKN14: CP_NOP: CP_RECORD_PFP_TIMESTAMP: CP_WAIT_MEM_WRITES: CP_WAIT_FOR_ME: CP_WAIT_MEM_GTE: UNKN21: UNKN22: UNKN23: UNKN24: CP_DRAW_PRED_ENABLE_GLOBAL: CP_DRAW_PRED_ENABLE_LOCAL: UNKN27: CP_PREEMPT_ENABLE: CP_SKIP_IB2_ENABLE_GLOBAL: CP_PREEMPT_TOKEN: UNKN31: UNKN32: CP_DRAW_INDX: CP_SKIP_IB2_ENABLE_LOCAL: CP_DRAW_AUTO: CP_SET_STATE: CP_WAIT_FOR_IDLE: CP_IM_LOAD: CP_DRAW_INDIRECT: CP_DRAW_INDX_INDIRECT: CP_DRAW_INDIRECT_MULTI: CP_IM_LOAD_IMMEDIATE: CP_BLIT: CP_SET_CONSTANT: CP_SET_BIN_DATA5_OFFSET: CP_SET_BIN_DATA5: UNKN48: CP_RUN_OPENCL: CP_LOAD_STATE6_GEOM: CP_EXEC_CS: CP_LOAD_STATE6_FRAG: CP_SET_SUBDRAW_SIZE: CP_LOAD_STATE6: CP_INDIRECT_BUFFER_PFD: CP_DRAW_INDX_OFFSET: CP_REG_TEST: CP_COND_INDIRECT_BUFFER_PFE: CP_INVALIDATE_STATE: CP_WAIT_REG_MEM: CP_REG_TO_MEM: CP_INDIRECT_BUFFER: CP_INTERRUPT: CP_EXEC_CS_INDIRECT: CP_MEM_TO_REG: CP_SET_DRAW_STATE: CP_COND_EXEC: CP_COND_WRITE5: CP_EVENT_WRITE: CP_COND_REG_EXEC: UNKN73: CP_REG_TO_SCRATCH: CP_SET_DRAW_INIT_FLAGS: CP_SCRATCH_TO_REG: CP_DRAW_PRED_SET: CP_MEM_WRITE_CNTR: UNKN80: CP_SET_BIN_SELECT: CP_WAIT_REG_EQ: CP_SMMU_TABLE_UPDATE: UNKN84: CP_SET_CTXSWITCH_IB: CP_SET_PSEUDO_REG: CP_INDIRECT_BUFFER_CHAIN: CP_EVENT_WRITE_SHD: CP_EVENT_WRITE_CFL: UNKN90: CP_EVENT_WRITE_ZPD: CP_CONTEXT_REG_BUNCH: CP_WAIT_IB_PFD_COMPLETE: CP_CONTEXT_UPDATE: CP_SET_PROTECTED_MODE: UNKN96: UNKN97: UNKN98: CP_SET_MODE: CP_SET_VISIBILITY_OVERRIDE: CP_SET_MARKER: UNKN103: UNKN104: UNKN105: UNKN106: UNKN107: UNKN108: CP_REG_WRITE: UNKN110: CP_BOOTSTRAP_UCODE: CP_WAIT_TWO_REGS: CP_TEST_TWO_MEMS: CP_REG_TO_MEM_OFFSET_REG: CP_REG_TO_MEM_OFFSET_MEM: UNKN118: UNKN119: CP_REG_WR_NO_CTXT: UNKN121: UNKN122: UNKN123: UNKN124: UNKN125: UNKN126: UNKN127: waitin mov $01, $data