/* * RISC-V translation routines for the RVC Compressed Instruction Set. * * Copyright (c) 2016-2017 Sagar Karandikar, sagark@eecs.berkeley.edu * Copyright (c) 2018 Peer Adelt, peer.adelt@hni.uni-paderborn.de * Bastian Koppelmann, kbastian@mail.uni-paderborn.de * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2 or later, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License along with * this program. If not, see . */ static bool trans_c_addi4spn(DisasContext *ctx, arg_c_addi4spn *a) { if (a->nzuimm == 0) { /* Reserved in ISA */ return false; } arg_addi arg = { .rd = a->rd, .rs1 = 2, .imm = a->nzuimm }; return trans_addi(ctx, &arg); } static bool trans_c_fld(DisasContext *ctx, arg_c_fld *a) { arg_fld arg = { .rd = a->rd, .rs1 = a->rs1, .imm = a->uimm }; return trans_fld(ctx, &arg); } static bool trans_c_lw(DisasContext *ctx, arg_c_lw *a) { arg_lw arg = { .rd = a->rd, .rs1 = a->rs1, .imm = a->uimm }; return trans_lw(ctx, &arg); } static bool trans_c_flw_ld(DisasContext *ctx, arg_c_flw_ld *a) { #ifdef TARGET_RISCV32 /* C.FLW ( RV32FC-only ) */ REQUIRE_FPU; REQUIRE_EXT(ctx, RVF); arg_c_lw tmp; decode_insn16_extract_cl_w(ctx, &tmp, ctx->opcode); arg_flw arg = { .rd = tmp.rd, .rs1 = tmp.rs1, .imm = tmp.uimm }; return trans_flw(ctx, &arg); #else /* C.LD ( RV64C/RV128C-only ) */ arg_c_fld tmp; decode_insn16_extract_cl_d(ctx, &tmp, ctx->opcode); arg_ld arg = { .rd = tmp.rd, .rs1 = tmp.rs1, .imm = tmp.uimm }; return trans_ld(ctx, &arg); #endif } static bool trans_c_fsd(DisasContext *ctx, arg_c_fsd *a) { arg_fsd arg = { .rs1 = a->rs1, .rs2 = a->rs2, .imm = a->uimm }; return trans_fsd(ctx, &arg); } static bool trans_c_sw(DisasContext *ctx, arg_c_sw *a) { arg_sw arg = { .rs1 = a->rs1, .rs2 = a->rs2, .imm = a->uimm }; return trans_sw(ctx, &arg); } static bool trans_c_fsw_sd(DisasContext *ctx, arg_c_fsw_sd *a) { #ifdef TARGET_RISCV32 /* C.FSW ( RV32FC-only ) */ REQUIRE_FPU; REQUIRE_EXT(ctx, RVF); arg_c_sw tmp; decode_insn16_extract_cs_w(ctx, &tmp, ctx->opcode); arg_fsw arg = { .rs1 = tmp.rs1, .rs2 = tmp.rs2, .imm = tmp.uimm }; return trans_fsw(ctx, &arg); #else /* C.SD ( RV64C/RV128C-only ) */ arg_c_fsd tmp; decode_insn16_extract_cs_d(ctx, &tmp, ctx->opcode); arg_sd arg = { .rs1 = tmp.rs1, .rs2 = tmp.rs2, .imm = tmp.uimm }; return trans_sd(ctx, &arg); #endif } static bool trans_c_addi(DisasContext *ctx, arg_c_addi *a) { if (a->imm == 0) { /* Hint: insn is valid but does not affect state */ return true; } arg_addi arg = { .rd = a->rd, .rs1 = a->rd, .imm = a->imm }; return trans_addi(ctx, &arg); } static bool trans_c_jal_addiw(DisasContext *ctx, arg_c_jal_addiw *a) { #ifdef TARGET_RISCV32 /* C.JAL */ arg_c_j tmp; decode_insn16_extract_cj(ctx, &tmp, ctx->opcode); arg_jal arg = { .rd = 1, .imm = tmp.imm }; return trans_jal(ctx, &arg); #else /* C.ADDIW */ arg_addiw arg = { .rd = a->rd, .rs1 = a->rd, .imm = a->imm }; return trans_addiw(ctx, &arg); #endif } static bool trans_c_li(DisasContext *ctx, arg_c_li *a) { if (a->rd == 0) { /* Hint: insn is valid but does not affect state */ return true; } arg_addi arg = { .rd = a->rd, .rs1 = 0, .imm = a->imm }; return trans_addi(ctx, &arg); } static bool trans_c_addi16sp_lui(DisasContext *ctx, arg_c_addi16sp_lui *a) { if (a->rd == 2) { /* C.ADDI16SP */ arg_addi arg = { .rd = 2, .rs1 = 2, .imm = a->imm_addi16sp }; return trans_addi(ctx, &arg); } else if (a->imm_lui != 0) { /* C.LUI */ if (a->rd == 0) { /* Hint: insn is valid but does not affect state */ return true; } arg_lui arg = { .rd = a->rd, .imm = a->imm_lui }; return trans_lui(ctx, &arg); } return false; } static bool trans_c_srli(DisasContext *ctx, arg_c_srli *a) { int shamt = a->shamt; if (shamt == 0) { /* For RV128 a shamt of 0 means a shift by 64 */ shamt = 64; } /* Ensure, that shamt[5] is zero for RV32 */ if (shamt >= TARGET_LONG_BITS) { return false; } arg_srli arg = { .rd = a->rd, .rs1 = a->rd, .shamt = a->shamt }; return trans_srli(ctx, &arg); } static bool trans_c_srai(DisasContext *ctx, arg_c_srai *a) { int shamt = a->shamt; if (shamt == 0) { /* For RV128 a shamt of 0 means a shift by 64 */ shamt = 64; } /* Ensure, that shamt[5] is zero for RV32 */ if (shamt >= TARGET_LONG_BITS) { return false; } arg_srai arg = { .rd = a->rd, .rs1 = a->rd, .shamt = a->shamt }; return trans_srai(ctx, &arg); } static bool trans_c_andi(DisasContext *ctx, arg_c_andi *a) { arg_andi arg = { .rd = a->rd, .rs1 = a->rd, .imm = a->imm }; return trans_andi(ctx, &arg); } static bool trans_c_sub(DisasContext *ctx, arg_c_sub *a) { arg_sub arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_sub(ctx, &arg); } static bool trans_c_xor(DisasContext *ctx, arg_c_xor *a) { arg_xor arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_xor(ctx, &arg); } static bool trans_c_or(DisasContext *ctx, arg_c_or *a) { arg_or arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_or(ctx, &arg); } static bool trans_c_and(DisasContext *ctx, arg_c_and *a) { arg_and arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_and(ctx, &arg); } static bool trans_c_subw(DisasContext *ctx, arg_c_subw *a) { #ifdef TARGET_RISCV64 arg_subw arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_subw(ctx, &arg); #else return false; #endif } static bool trans_c_addw(DisasContext *ctx, arg_c_addw *a) { #ifdef TARGET_RISCV64 arg_addw arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_addw(ctx, &arg); #else return false; #endif } static bool trans_c_j(DisasContext *ctx, arg_c_j *a) { arg_jal arg = { .rd = 0, .imm = a->imm }; return trans_jal(ctx, &arg); } static bool trans_c_beqz(DisasContext *ctx, arg_c_beqz *a) { arg_beq arg = { .rs1 = a->rs1, .rs2 = 0, .imm = a->imm }; return trans_beq(ctx, &arg); } static bool trans_c_bnez(DisasContext *ctx, arg_c_bnez *a) { arg_bne arg = { .rs1 = a->rs1, .rs2 = 0, .imm = a->imm }; return trans_bne(ctx, &arg); } static bool trans_c_slli(DisasContext *ctx, arg_c_slli *a) { int shamt = a->shamt; if (shamt == 0) { /* For RV128 a shamt of 0 means a shift by 64 */ shamt = 64; } /* Ensure, that shamt[5] is zero for RV32 */ if (shamt >= TARGET_LONG_BITS) { return false; } arg_slli arg = { .rd = a->rd, .rs1 = a->rd, .shamt = a->shamt }; return trans_slli(ctx, &arg); } static bool trans_c_fldsp(DisasContext *ctx, arg_c_fldsp *a) { arg_fld arg = { .rd = a->rd, .rs1 = 2, .imm = a->uimm }; return trans_fld(ctx, &arg); } static bool trans_c_lwsp(DisasContext *ctx, arg_c_lwsp *a) { arg_lw arg = { .rd = a->rd, .rs1 = 2, .imm = a->uimm }; return trans_lw(ctx, &arg); } static bool trans_c_flwsp_ldsp(DisasContext *ctx, arg_c_flwsp_ldsp *a) { #ifdef TARGET_RISCV32 /* C.FLWSP */ arg_flw arg_flw = { .rd = a->rd, .rs1 = 2, .imm = a->uimm_flwsp }; return trans_flw(ctx, &arg_flw); #else /* C.LDSP */ arg_ld arg_ld = { .rd = a->rd, .rs1 = 2, .imm = a->uimm_ldsp }; return trans_ld(ctx, &arg_ld); #endif return false; } static bool trans_c_jr_mv(DisasContext *ctx, arg_c_jr_mv *a) { if (a->rd != 0 && a->rs2 == 0) { /* C.JR */ arg_jalr arg = { .rd = 0, .rs1 = a->rd, .imm = 0 }; return trans_jalr(ctx, &arg); } else if (a->rd != 0 && a->rs2 != 0) { /* C.MV */ arg_add arg = { .rd = a->rd, .rs1 = 0, .rs2 = a->rs2 }; return trans_add(ctx, &arg); } return false; } static bool trans_c_ebreak_jalr_add(DisasContext *ctx, arg_c_ebreak_jalr_add *a) { if (a->rd == 0 && a->rs2 == 0) { /* C.EBREAK */ arg_ebreak arg = { }; return trans_ebreak(ctx, &arg); } else if (a->rd != 0) { if (a->rs2 == 0) { /* C.JALR */ arg_jalr arg = { .rd = 1, .rs1 = a->rd, .imm = 0 }; return trans_jalr(ctx, &arg); } else { /* C.ADD */ arg_add arg = { .rd = a->rd, .rs1 = a->rd, .rs2 = a->rs2 }; return trans_add(ctx, &arg); } } return false; } static bool trans_c_fsdsp(DisasContext *ctx, arg_c_fsdsp *a) { arg_fsd arg = { .rs1 = 2, .rs2 = a->rs2, .imm = a->uimm }; return trans_fsd(ctx, &arg); } static bool trans_c_swsp(DisasContext *ctx, arg_c_swsp *a) { arg_sw arg = { .rs1 = 2, .rs2 = a->rs2, .imm = a->uimm }; return trans_sw(ctx, &arg); } static bool trans_c_fswsp_sdsp(DisasContext *ctx, arg_c_fswsp_sdsp *a) { #ifdef TARGET_RISCV32 /* C.FSWSP */ arg_fsw a_fsw = { .rs1 = 2, .rs2 = a->rs2, .imm = a->uimm_fswsp }; return trans_fsw(ctx, &a_fsw); #else /* C.SDSP */ arg_sd a_sd = { .rs1 = 2, .rs2 = a->rs2, .imm = a->uimm_sdsp }; return trans_sd(ctx, &a_sd); #endif }