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Re: [Qemu-devel] [PATCH 0/2] decodetree: Support for variable-length ISA
From: |
Yoshinori Sato |
Subject: |
Re: [Qemu-devel] [PATCH 0/2] decodetree: Support for variable-length ISAs |
Date: |
Sat, 02 Feb 2019 17:16:09 +0900 |
User-agent: |
Wanderlust/2.15.9 (Almost Unreal) SEMI-EPG/1.14.7 (Harue) FLIM/1.14.9 (Gojō) APEL/10.8 EasyPG/1.0.0 Emacs/25.1 (x86_64-pc-linux-gnu) MULE/6.0 (HANACHIRUSATO) |
On Fri, 01 Feb 2019 06:08:49 +0900,
Richard Henderson wrote:
>
> I'm not sure how much simplication could be had for "simple"
> variable-length ISAs like ARM thumb2 or RISC-V.
>
> But the recently posted RX port is more complicated than those.
> For me, what makes RX more difficult is that there is no easy
> test of the first N bits to determine the length of the insn.
>
> I put together a starting point for the RX decode. I'm sure
> there are a few mistakes, but it's close enough to see how the
> decoding might work.
>
> I have chosen to have this RX decoder only consider the "base"
> instruction, without the "extra" bits like the immediate associated
> with the LI field, or the memory displacement associated with
> the LD field.
>
> The new decode_load function reads the bytes of the insn with
> minimal decoding and no further validation of invalid insns;
> that is left for the main decode function.
I tried that several MOV instructions can be decoded correctly.
I will confirm the rest of the instructions from now,
but I think that there is no problem because it is not as
complicated as MOV.
> This is expecting a helper function that assembles the bytes.
> While I say I rule out Thumb2+RISC-V above, they are not implausible
> examples. These have uint16_t granularity, and I didn't want to
> assume the endianness of the granules.
>
> But for RX, with byte granularity,
>
> uint32_t decode_load_bytes(DisasContext *ctx, uint32_t insn,
> int i, int n)
> {
> while (++i <= n) {
> uint8_t b = cpu_ldub_code(ctx->env, ctx->base.pc_next++);
> insn |= b << (32 - i * 8);
> }
> return insn;
> }
>
> For the actual port submission, I would break up the translation
> into small bits. Just a few lines into the decode file and the
> associated functions within translate.c.
>
OK.
Too many thanks.
>
> r~
>
>
> Richard Henderson (2):
> decodetree: Initial support for variable-length ISAs
> decodetree: Expand a decode_load function
>
> scripts/decodetree.py | 213 +++++++++++++++++++++++++++++++++++++++---
> 1 file changed, 200 insertions(+), 13 deletions(-)
>
> ---
>
> &bcnd cd dsp
> &jdsp dsp
> &jreg rs
> &rr rd rs
> &ri rd imm
> &rrr rd rs rs2
> &rri rd imm rs2
> &rm rd rs ld mi
> &mi rs ld mi imm
> &mr rs ld mi rs2
>
> ########
>
> %b2_r_0 16:4
> %b2_li_2 18:2 !function=li
> %b2_li_8 24:2 !function=li
> %b2_dsp5_3 23:4 19:1
>
> @b2_rds .... .... .... rd:4 &rr rs=%b2_r_0
> @b2_rds_li .... .... .... rd:4 &rri rs2=%b2_r_0 imm=%b2_li_8
> @b2_rds_uimm4 .... .... imm:4 rd:4 &rri rs2=%b2_r_0
> @b2_rds_imm5 .... ... imm:5 rd:4 &rri rs2=%b2_r_0
> @b2_rd_rs_li .... .... rs2:4 rd:4 &rri imm=%b2_li_8
> @b2_rd_ld_ub .... .. ld:2 rs:4 rd:4 &rm mi=4
> @b2_ld_imm3 .... .. ld:2 rs:4 . imm:3 &mi mi=4
>
> ########
>
> %b3_r_0 8:4
> %b3_li_10 18:2 !function=li
> %b3_dsp5_8 23:1 16:4
>
> @b3_rd_rs .... .... .... .... rs:4 rd:4 &rr
> @b3_rd_li .... .... .... .... .... rd:4 \
> &rri rs2=%b3_r_0 imm=%b3_li_10
> @b3_rd_ld .... .... mi:2 .... ld:2 rs:4 rd:4 &rm
> @b3_rd_ld_ub .... .... .... .. ld:2 rs:4 rd:4 &rm mi=4
> @b3_rd_ld_ul .... .... .... .. ld:2 rs:4 rd:4 &rm mi=2
> @b3_rd_rs_rs2 .... .... .... rd:4 rs:4 rs2:4 &rrr
> @b3_ld_rs2 .... .... .... .. ld:2 rs:4 rs2:4 &mr
> @b3_rds_imm5 .... .... ....... imm:5 rd:4 &rri rs2=%b3_r_0
> @b3_rd_rs_imm5 .... .... ... imm:5 rs2:4 rd:4 &rri
>
> ########
>
> %b4_li_18 18:2 !function=li
>
> @b4_rd_ldmi .... .... mi:2 .... ld:2 .... .... rs:4 rd:4 &rm
>
> ########
>
> ABS_rr 0111 1110 0010 .... @b2_rds
> ABS_rr 1111 1100 0000 1111 .... .... @b3_rd_rs
>
> ADC_ri 1111 1101 0111 ..00 0000 .... @b3_rd_li
> ADC_rr 1111 1100 0000 1011 .... .... @b3_rd_rs
> # Note only mi==2 allowed.
> ADC_rl 0000 0110 ..10 00.. 0000 0010 .... .... @b4_rd_ldmi
>
> ADD_rri 0110 0010 .... .... @b2_rds_uimm4
> ADD_rri 0111 00.. .... .... @b2_rd_rs_li
> ADD_rl 0100 10.. .... .... @b2_rd_ld_ub
> ADD_rl 0000 0110 ..00 10.. .... .... @b3_rd_ld
> ADD_rrr 1111 1111 0010 .... .... .... @b3_rd_rs_rs2
>
> AND_rri 0110 0100 .... .... @b2_rds_uimm4
> AND_rri 0111 01.. 0010 .... @b2_rds_li
> AND_rl 0101 00.. .... .... @b2_rd_ld_ub
> AND_rl 0000 0110 ..01 00.. .... .... @b3_rd_ld
> AND_rrr 1111 1111 0100 .... .... .... @b3_rd_rs_rs2
>
> BCLR_li 1111 00.. .... 1... @b2_ld_imm3
> BCLR_ri 0111 101. .... .... @b2_rds_imm5
> BCLR_lr 1111 1100 0110 01.. .... .... @b3_ld_rs2 mi=4
>
> BCnd_s 0001 cd:1 dsp:3 &bcnd
> BCnd_b 0010 cd:4 dsp:8 &bcnd
> BCnd_w 0011 101 cd:1 dsp:16 &bcnd
>
> # Note that BNOT has cd = 15
> BMCnd_BNOT_mi 1111 1100 111 imm:3 ld:2 rd:4 cd:4
> BMCnd_BNOT_ri 1111 1101 111 imm:5 cd:4 rd:4
>
> BNOT_lr 1111 1100 0110 11.. .... .... @b3_ld_rs2 mi=2
>
> BRA_s 0000 1 dsp:3 &jdsp
> #BRA_b 0010 1110 dsp:8 # overlaps BCnd_b
> BRA_w 0011 1000 dsp:16 &jdsp
> BRA_a 0000 0100 dsp:24 &jdsp
>
> BRK 0000 0000
>
> BSET_li 1111 00.. .... 0... @b2_ld_imm3
> BSET_ri 0111 100. .... .... @b2_rds_imm5
> BSET_lr 1111 1100 0110 00.. .... .... @b3_ld_rs2 mi=4
>
> BSR_w 0011 1001 dsp:16 &jdsp
> BSR_a 0000 0101 dsp:24 &jdsp
>
> BTST_li 1111 01.. .... 0... @b2_ld_imm3
> BTST_ri 0111 110. .... .... @b2_rds_imm5
> BTST_lr 1111 1100 0110 10.. .... .... @b3_ld_rs2 mi=4
>
> CLRPSW 0111 1111 1011 cb:4
>
> CMP_ri 0110 0001 .... .... @b2_rds_uimm4
> CMP_ri 0111 0101 0101 rs2:4 imm:8 &rri rd=0
> CMP_ri 0111 01.. 0000 rs2:4 &rri
> imm=%b2_li_8 rd=0
> CMP_rl 0100 01.. .... .... @b2_rd_ld_ub
> CMP_rl 0000 0110 ..00 01.. .... .... @b3_rd_ld
>
> DIV_rri 1111 1101 0111 ..00 1000 .... @b3_rd_li
> DIV_rl 1111 1100 0010 00.. .... .... @b3_rd_ld_ub
> DIV_rl 0000 0110 ..10 00.. 0000 1000 .... .... @b4_rd_ldmi
>
> DIVU_rri 1111 1101 0111 ..00 1001 .... @b3_rd_li
> DIVU_rl 1111 1100 0010 01.. .... .... @b3_rd_ld_ub
> DIVU_rl 0000 0110 ..10 00.. 0000 1001 .... .... @b4_rd_ldmi
>
> EMUL_rri 1111 1101 0111 ..00 0110 .... @b3_rd_li
> EMUL_rl 1111 1100 0001 10.. .... .... @b3_rd_ld_ub
> EMUL_rl 0000 0110 ..10 00.. 0000 0110 .... .... @b4_rd_ldmi
>
> EMULU_rri 1111 1101 0111 ..00 0111 .... @b3_rd_li
> EMULU_rl 1111 1100 0001 11.. .... .... @b3_rd_ld_ub
> EMULU_rl 0000 0110 ..10 00.. 0000 0111 .... .... @b4_rd_ldmi
>
> FADD_ri 1111 1101 0111 0010 0010 rd:4
> FADD_rl 1111 1100 1000 10.. .... .... @b3_rd_ld_ul
>
> FCMP_ri 1111 1101 0111 0010 0001 rd:4
> FCMP_rl 1111 1100 1000 01.. .... .... @b3_rd_ld_ul
>
> FDIV_ri 1111 1101 0111 0010 0100 rd:4
> FDIV_rl 1111 1100 1001 00.. .... .... @b3_rd_ld_ul
>
> FMUL_ri 1111 1101 0111 0010 0011 rd:4
> FMUL_rl 1111 1100 1000 11.. .... .... @b3_rd_ld_ul
>
> FSUB_ri 1111 1101 0111 0010 0000 rd:4
> FSUB_rl 1111 1100 1000 00.. .... .... @b3_rd_ld_ul
>
> FTOI 1111 1100 1001 01.. .... .... @b3_rd_ld_ul
>
> INT 0111 0101 0110 0000 imm:8
>
> ITOF 1111 1100 0100 01.. .... .... @b3_rd_ld_ub
> ITOF 0000 0110 ..10 00.. 0001 0001 .... .... @b4_rd_ldmi
>
> JMP 0111 1111 0000 rs:4 &jreg
> JSR 0111 1111 0001 rs:4 &jreg
>
> MACHI 1111 1101 0000 0100 rs:4 rs2:4
> MACLO 1111 1101 0000 0101 rs:4 rs2:4
>
> MAX_ri 1111 1101 0111 ..00 0100 .... @b3_rd_li
> MAX_rl 1111 1100 0001 00.. .... .... @b3_rd_ld_ub
> MAX_rl 0000 0110 ..10 00.. 0000 0100 .... .... @b4_rd_ldmi
>
> MIN_ri 1111 1101 0111 ..00 0101 .... @b3_rd_li
> MIN_rl 1111 1100 0001 01.. .... .... @b3_rd_ld_ub
> MIN_rl 0000 0110 ..10 00.. 0000 0101 .... .... @b4_rd_ldmi
>
> MOV_mr 1000 0 .... rd:3 . rs:3 dsp=%b2_dsp5_3
> mi=4
> MOV_mr 1001 0 .... rd:3 . rs:3 dsp=%b2_dsp5_3
> mi=3
> MOV_mr 1010 0 .... rd:3 . rs:3 dsp=%b2_dsp5_3
> mi=2
> MOV_rm 1000 1 .... rs:3 . rd:3 dsp=%b2_dsp5_3
> mi=0
> MOV_rm 1001 1 .... rs:3 . rd:3 dsp=%b2_dsp5_3
> mi=1
> MOV_rm 1010 1 .... rs:3 . rd:3 dsp=%b2_dsp5_3
> mi=2
> MOV_ri 0110 0110 imm:4 rd:4
> MOV_mi 0011 1100 . rd:3 .... imm:8 sz=0
> dsp=%b3_dsp5_8
> MOV_mi 0011 1101 . rd:3 .... imm:s8 sz=1
> dsp=%b3_dsp5_8
> MOV_mi 0011 1110 . rd:3 .... imm:s8 sz=2
> dsp=%b3_dsp5_8
> MOV_ri 0111 0101 0100 rd:4 imm:8
> MOV_ri 1111 1011 rd:4 .. 10 imm=%b2_li_2
> MOV_mi 1111 1000 rd:4 .. sz:2 dsp=0
> imm=%b2_li_2
> MOV_mi 1111 1001 rd:4 .. sz:2 dsp:8 imm=%b3_li_10
> MOV_mi 1111 1010 rd:4 .. sz:2 dsp:16 imm=%b4_li_18
> MOV_ar 1111 1110 01 sz:2 ri:4 rb:4 rd:4
> MOV_ra 1111 1110 00 sz:2 ri:4 rb:4 rs:4
> # Note ldd=3 and lds=3 indicate register src or dst
> MOV_ll 1100 ldd:2 lds:2 rs:4 rd:4 sz=0
> MOV_ll 1101 ldd:2 lds:2 rs:4 rd:4 sz=1
> MOV_ll 1110 ldd:2 lds:2 rs:4 rd:4 sz=2
> MOV_pr 1111 1101 0010 0 ad:1 sz:2 rd:4 rs:4
> MOV_rp 1111 1101 0010 1 ad:1 sz:2 rs:4 rd:4
>
> MOVU_rm 1011 sz:1 ... . rs:3 . rd:3 dsp=%b2_dsp5_3
> MOVU_rl 0101 1 sz:1 ld:2 rs:4 rd:4
> MOVU_ra 1111 1110 110 sz:1 ri:4 rb:4 rd:4
> MOVU_rp 1111 1101 0011 1 ad:1 0 sz:1 rs:4 rd:4
>
> MUL_ri 0110 0011 .... .... @b2_rds_uimm4
> MUL_ri 0111 01.. 0001 .... @b2_rds_li
> MUL_rl 0100 11.. .... .... @b2_rd_ld_ub
> MUL_rl 0000 0110 ..00 11.. .... .... @b3_rd_ld
> MUL_rrr 1111 1111 0011 .... .... .... @b3_rd_rs_rs2
>
> MULHI 1111 1101 0000 0000 rs:4 rs2:4
> MULLO 1111 1101 0000 0001 rs:4 rs2:4
>
> MVFACHI 1111 1101 0001 1111 0000 rd:4
> MVFACMI 1111 1101 0001 1111 0010 rd:4
>
> MVFC 1111 1101 0110 1010 cr:4 rd:4
>
> MVTACHI 1111 1101 0001 0111 0000 rs:4
> MVTACLO 1111 1101 0001 0111 0001 rs:4
>
> MVTC_i 1111 1101 0111 ..11 0000 cr:4 imm=%b3_li_10
> MVTC_r 1111 1101 0110 1000 rs:4 cr:4
>
> NEG_rr 0111 1110 0001 .... @b2_rds
> NEG_rr 1111 1100 0000 0111 .... .... @b3_rd_rs
>
> NOP 0000 0011
>
> NOT_rr 0111 1110 0000 .... @b2_rds
> NOT_rr 1111 1100 0011 1011 .... .... @b3_rd_rs
>
> OR_rri 0110 0101 .... .... @b2_rds_uimm4
> OR_rri 0111 01.. 0011 .... @b2_rds_li
> OR_rl 0101 01.. .... .... @b2_rd_ld_ub
> OR_rl 0000 0110 .. 0101 .. .... .... @b3_rd_ld
> OR_rrr 1111 1111 0101 .... .... .... @b3_rd_rs_rs2
>
> POP 0111 1110 1011 rd:4
> POPC 0111 1110 1110 cr:4
> POPM 0110 1111 rd:4 rd2:4
>
> PUSH_r 0111 1110 1000 rs:4 sz=0
> PUSH_r 0111 1110 1001 rs:4 sz=1
> PUSH_r 0111 1110 1010 rs:4 sz=2
> PUSH_m 1111 01 ld:2 rs:4 10 sz:2
> PUSHC 0111 1110 1100 cr:4
> PUSHM 0110 1110 rs:4 rs2:4
>
> RACW 1111 1101 0001 1000 000 imm:1 0000
>
> REVL 1111 1101 0110 0111 rs:4 rd:4
> REVW 1111 1101 0110 0101 rs:4 rd:4
>
> # Note that sz=3 overlaps SMOVF
> RMPA 0111 1111 1000 1100 sz=0
> RMPA 0111 1111 1000 1101 sz=1
> RMPA 0111 1111 1000 1110 sz=2
>
> ROLC 0111 1110 0101 .... @b2_rds
> RORC 0111 1110 0100 .... @b2_rds
>
> ROTL_ri 1111 1101 0110 111. .... .... @b3_rds_imm5
> ROTL_rr 1111 1101 0110 0110 .... .... @b3_rd_rs
>
> ROTR_ri 1111 1101 0110 110. .... .... @b3_rds_imm5
> ROTR_rr 1111 1101 0110 0100 .... .... @b3_rd_rs
>
> ROUND 1111 1100 1001 10 ld:2 rs:4 rd:4
>
> RTE 0111 1111 1001 0101
>
> RTFI 0111 1111 1001 0100
>
> RTS 0000 0010
>
> RTSD_i 0110 0111 imm:8
> RTSD_irr 0011 1111 rd:4 rd2:4 imm:8
>
> SAT 0111 1110 0011 .... @b2_rds
> SATR 0111 1111 1001 0011
>
> SBB_rr 1111 1100 0000 0011 .... .... @b3_rd_rs
> # Note only mi==2 allowed.
> SBB_rl 0000 0110 ..10 00.. 0000 0000 .... .... @b4_rd_ldmi
>
> SCCnd 1111 1100 1101 sz:2 ld:2 rd:4 cd:4
>
> SCMPU 0111 1111 1000 0011
>
> SETPSW 0111 1111 1010 cb:4
>
> SHAR_rri 0110 101. .... .... @b2_rds_imm5
> SHAR_rri 1111 1101 101. .... .... .... @b3_rd_rs_imm5
> SHAR_rr 1111 1101 0110 0001 .... .... @b3_rd_rs
>
> SHLL_rri 0110 110. .... .... @b2_rds_imm5
> SHLL_rri 1111 1101 110. .... .... .... @b3_rd_rs_imm5
> SHLL_rr 1111 1101 0110 0010 .... .... @b3_rd_rs
>
> SHLR_rri 0110 100. .... .... @b2_rds_imm5
> SHLR_rri 1111 1101 100. .... .... .... @b3_rd_rs_imm5
> SHLR_rr 1111 1101 0110 0000 .... .... @b3_rd_rs
>
> SMOVB 0111 1111 1000 1011
> SMOVF 0111 1111 1000 1111
> SMOVU 0111 1111 1000 0111
>
> # Note that sz=3 overlaps SMOVB
> SSTR 0111 1111 1000 1000 sz=0
> SSTR 0111 1111 1000 1001 sz=1
> SSTR 0111 1111 1000 1010 sz=2
>
> STNZ 1111 1101 0111 ..00 1111 .... @b3_rd_li
> STZ 1111 1101 0111 ..00 1110 .... @b3_rd_li
>
> SUB_rri 0110 0000 .... .... @b2_rds_uimm4
> SUB_rl 0100 00.. .... .... @b2_rd_ld_ub
> SUB_rl 0000 0110 ..00 00.. .... .... @b3_rd_ld
> SUB_rrr 1111 1111 0000 .... .... .... @b3_rd_rs_rs2
>
> # Note that sz=3 overlaps SCMPU
> SUNTIL 0111 1111 1000 0000 sz=0
> SUNTIL 0111 1111 1000 0001 sz=1
> SUNTIL 0111 1111 1000 0010 sz=2
>
> # Note that sz=3 overlaps SMOVU
> SWHILE 0111 1111 1000 0100 sz=0
> SWHILE 0111 1111 1000 0101 sz=1
> SWHILE 0111 1111 1000 0110 sz=2
>
> TST_ri 1111 1101 0111 ..00 1100 .... @b3_rd_li
>
> WAIT 0111 1111 1001 0110
>
> XCHG_rl 1111 1100 0100 00.. .... .... @b3_rd_ld_ub
> XCHG_rl 0000 0110 ..10 00.. 0001 0000 .... .... @b4_rd_ldmi
>
> XOR_rri 1111 1101 0111 ..00 1101 .... @b3_rd_li
> XOR_rl 1111 1100 0011 01.. .... .... @b3_rd_ld_ub
> XOR_rl 0000 0110 ..10 00.. 0000 1101 .... .... @b4_rd_ldmi
>
--
Yosinori Sato
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- Re: [Qemu-devel] [PATCH 0/2] decodetree: Support for variable-length ISAs,
Yoshinori Sato <=