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ce807d5f67
Instead of doing a linear search through the insn_table for each instruction, use the opcode as direct index into the table. This will give constant time lookup performance as the number of supported opcodes increases. Make the tables const as they are only ever read. For uasm-mips.c sort the table alphabetically, and remove duplicate entries, uasm-micromips.c was already sorted and duplicate free. There is a small savings in object size as struct insn loses a field: $ size arch/mips/mm/uasm-mips.o arch/mips/mm/uasm-mips.o.save text data bss dec hex filename 10040 0 0 10040 2738 arch/mips/mm/uasm-mips.o 9240 1120 0 10360 2878 arch/mips/mm/uasm-mips.o.save Signed-off-by: David Daney <david.daney@cavium.com> Cc: Alexei Starovoitov <ast@kernel.org> Cc: Daniel Borkmann <daniel@iogearbox.net> Cc: Matt Redfearn <matt.redfearn@imgtec.com> Cc: netdev@vger.kernel.org Cc: linux-kernel@vger.kernel.org Cc: linux-mips@linux-mips.org Patchwork: https://patchwork.linux-mips.org/patch/16365/ Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
233 lines
8.4 KiB
C
233 lines
8.4 KiB
C
/*
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* This file is subject to the terms and conditions of the GNU General Public
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* License. See the file "COPYING" in the main directory of this archive
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* for more details.
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*
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* A small micro-assembler. It is intentionally kept simple, does only
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* support a subset of instructions, and does not try to hide pipeline
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* effects like branch delay slots.
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*
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* Copyright (C) 2004, 2005, 2006, 2008 Thiemo Seufer
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* Copyright (C) 2005, 2007 Maciej W. Rozycki
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* Copyright (C) 2006 Ralf Baechle (ralf@linux-mips.org)
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* Copyright (C) 2012, 2013 MIPS Technologies, Inc. All rights reserved.
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*/
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#include <linux/kernel.h>
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#include <linux/types.h>
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#include <asm/inst.h>
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#include <asm/elf.h>
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#include <asm/bugs.h>
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#define UASM_ISA _UASM_ISA_MICROMIPS
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#include <asm/uasm.h>
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#define RS_MASK 0x1f
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#define RS_SH 16
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#define RT_MASK 0x1f
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#define RT_SH 21
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#define SCIMM_MASK 0x3ff
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#define SCIMM_SH 16
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/* This macro sets the non-variable bits of an instruction. */
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#define M(a, b, c, d, e, f) \
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((a) << OP_SH \
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| (b) << RT_SH \
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| (c) << RS_SH \
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| (d) << RD_SH \
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| (e) << RE_SH \
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| (f) << FUNC_SH)
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#include "uasm.c"
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static const struct insn const insn_table_MM[insn_invalid] = {
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[insn_addu] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_addu32_op), RT | RS | RD},
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[insn_addiu] = {M(mm_addiu32_op, 0, 0, 0, 0, 0), RT | RS | SIMM},
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[insn_and] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_and_op), RT | RS | RD},
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[insn_andi] = {M(mm_andi32_op, 0, 0, 0, 0, 0), RT | RS | UIMM},
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[insn_beq] = {M(mm_beq32_op, 0, 0, 0, 0, 0), RS | RT | BIMM},
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[insn_beql] = {0, 0},
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[insn_bgez] = {M(mm_pool32i_op, mm_bgez_op, 0, 0, 0, 0), RS | BIMM},
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[insn_bgezl] = {0, 0},
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[insn_bltz] = {M(mm_pool32i_op, mm_bltz_op, 0, 0, 0, 0), RS | BIMM},
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[insn_bltzl] = {0, 0},
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[insn_bne] = {M(mm_bne32_op, 0, 0, 0, 0, 0), RT | RS | BIMM},
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[insn_cache] = {M(mm_pool32b_op, 0, 0, mm_cache_func, 0, 0), RT | RS | SIMM},
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[insn_cfc1] = {M(mm_pool32f_op, 0, 0, 0, mm_cfc1_op, mm_32f_73_op), RT | RS},
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[insn_cfcmsa] = {M(mm_pool32s_op, 0, msa_cfc_op, 0, 0, mm_32s_elm_op), RD | RE},
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[insn_ctc1] = {M(mm_pool32f_op, 0, 0, 0, mm_ctc1_op, mm_32f_73_op), RT | RS},
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[insn_ctcmsa] = {M(mm_pool32s_op, 0, msa_ctc_op, 0, 0, mm_32s_elm_op), RD | RE},
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[insn_daddu] = {0, 0},
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[insn_daddiu] = {0, 0},
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[insn_di] = {M(mm_pool32a_op, 0, 0, 0, mm_di_op, mm_pool32axf_op), RS},
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[insn_divu] = {M(mm_pool32a_op, 0, 0, 0, mm_divu_op, mm_pool32axf_op), RT | RS},
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[insn_dmfc0] = {0, 0},
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[insn_dmtc0] = {0, 0},
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[insn_dsll] = {0, 0},
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[insn_dsll32] = {0, 0},
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[insn_dsra] = {0, 0},
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[insn_dsrl] = {0, 0},
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[insn_dsrl32] = {0, 0},
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[insn_drotr] = {0, 0},
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[insn_drotr32] = {0, 0},
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[insn_dsubu] = {0, 0},
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[insn_eret] = {M(mm_pool32a_op, 0, 0, 0, mm_eret_op, mm_pool32axf_op), 0},
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[insn_ins] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_ins_op), RT | RS | RD | RE},
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[insn_ext] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_ext_op), RT | RS | RD | RE},
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[insn_j] = {M(mm_j32_op, 0, 0, 0, 0, 0), JIMM},
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[insn_jal] = {M(mm_jal32_op, 0, 0, 0, 0, 0), JIMM},
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[insn_jalr] = {M(mm_pool32a_op, 0, 0, 0, mm_jalr_op, mm_pool32axf_op), RT | RS},
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[insn_jr] = {M(mm_pool32a_op, 0, 0, 0, mm_jalr_op, mm_pool32axf_op), RS},
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[insn_lb] = {M(mm_lb32_op, 0, 0, 0, 0, 0), RT | RS | SIMM},
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[insn_ld] = {0, 0},
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[insn_lh] = {M(mm_lh32_op, 0, 0, 0, 0, 0), RS | RS | SIMM},
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[insn_ll] = {M(mm_pool32c_op, 0, 0, (mm_ll_func << 1), 0, 0), RS | RT | SIMM},
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[insn_lld] = {0, 0},
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[insn_lui] = {M(mm_pool32i_op, mm_lui_op, 0, 0, 0, 0), RS | SIMM},
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[insn_lw] = {M(mm_lw32_op, 0, 0, 0, 0, 0), RT | RS | SIMM},
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[insn_mfc0] = {M(mm_pool32a_op, 0, 0, 0, mm_mfc0_op, mm_pool32axf_op), RT | RS | RD},
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[insn_mfhi] = {M(mm_pool32a_op, 0, 0, 0, mm_mfhi32_op, mm_pool32axf_op), RS},
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[insn_mflo] = {M(mm_pool32a_op, 0, 0, 0, mm_mflo32_op, mm_pool32axf_op), RS},
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[insn_mtc0] = {M(mm_pool32a_op, 0, 0, 0, mm_mtc0_op, mm_pool32axf_op), RT | RS | RD},
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[insn_mthi] = {M(mm_pool32a_op, 0, 0, 0, mm_mthi32_op, mm_pool32axf_op), RS},
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[insn_mtlo] = {M(mm_pool32a_op, 0, 0, 0, mm_mtlo32_op, mm_pool32axf_op), RS},
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[insn_mul] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_mul_op), RT | RS | RD},
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[insn_or] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_or32_op), RT | RS | RD},
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[insn_ori] = {M(mm_ori32_op, 0, 0, 0, 0, 0), RT | RS | UIMM},
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[insn_pref] = {M(mm_pool32c_op, 0, 0, (mm_pref_func << 1), 0, 0), RT | RS | SIMM},
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[insn_rfe] = {0, 0},
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[insn_sc] = {M(mm_pool32c_op, 0, 0, (mm_sc_func << 1), 0, 0), RT | RS | SIMM},
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[insn_scd] = {0, 0},
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[insn_sd] = {0, 0},
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[insn_sll] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_sll32_op), RT | RS | RD},
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[insn_sllv] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_sllv32_op), RT | RS | RD},
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[insn_slt] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_slt_op), RT | RS | RD},
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[insn_sltiu] = {M(mm_sltiu32_op, 0, 0, 0, 0, 0), RT | RS | SIMM},
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[insn_sltu] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_sltu_op), RT | RS | RD},
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[insn_sra] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_sra_op), RT | RS | RD},
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[insn_srl] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_srl32_op), RT | RS | RD},
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[insn_srlv] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_srlv32_op), RT | RS | RD},
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[insn_rotr] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_rotr_op), RT | RS | RD},
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[insn_subu] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_subu32_op), RT | RS | RD},
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[insn_sw] = {M(mm_sw32_op, 0, 0, 0, 0, 0), RT | RS | SIMM},
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[insn_sync] = {M(mm_pool32a_op, 0, 0, 0, mm_sync_op, mm_pool32axf_op), RS},
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[insn_tlbp] = {M(mm_pool32a_op, 0, 0, 0, mm_tlbp_op, mm_pool32axf_op), 0},
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[insn_tlbr] = {M(mm_pool32a_op, 0, 0, 0, mm_tlbr_op, mm_pool32axf_op), 0},
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[insn_tlbwi] = {M(mm_pool32a_op, 0, 0, 0, mm_tlbwi_op, mm_pool32axf_op), 0},
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[insn_tlbwr] = {M(mm_pool32a_op, 0, 0, 0, mm_tlbwr_op, mm_pool32axf_op), 0},
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[insn_wait] = {M(mm_pool32a_op, 0, 0, 0, mm_wait_op, mm_pool32axf_op), SCIMM},
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[insn_wsbh] = {M(mm_pool32a_op, 0, 0, 0, mm_wsbh_op, mm_pool32axf_op), RT | RS},
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[insn_xor] = {M(mm_pool32a_op, 0, 0, 0, 0, mm_xor32_op), RT | RS | RD},
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[insn_xori] = {M(mm_xori32_op, 0, 0, 0, 0, 0), RT | RS | UIMM},
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[insn_dins] = {0, 0},
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[insn_dinsm] = {0, 0},
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[insn_syscall] = {M(mm_pool32a_op, 0, 0, 0, mm_syscall_op, mm_pool32axf_op), SCIMM},
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[insn_bbit0] = {0, 0},
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[insn_bbit1] = {0, 0},
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[insn_lwx] = {0, 0},
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[insn_ldx] = {0, 0},
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};
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#undef M
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static inline u32 build_bimm(s32 arg)
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{
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WARN(arg > 0xffff || arg < -0x10000,
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KERN_WARNING "Micro-assembler field overflow\n");
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WARN(arg & 0x3, KERN_WARNING "Invalid micro-assembler branch target\n");
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return ((arg < 0) ? (1 << 15) : 0) | ((arg >> 1) & 0x7fff);
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}
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static inline u32 build_jimm(u32 arg)
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{
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WARN(arg & ~((JIMM_MASK << 2) | 1),
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KERN_WARNING "Micro-assembler field overflow\n");
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return (arg >> 1) & JIMM_MASK;
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}
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/*
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* The order of opcode arguments is implicitly left to right,
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* starting with RS and ending with FUNC or IMM.
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*/
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static void build_insn(u32 **buf, enum opcode opc, ...)
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{
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const struct insn *ip;
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va_list ap;
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u32 op;
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if (opc < 0 || opc >= insn_invalid ||
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(opc == insn_daddiu && r4k_daddiu_bug()) ||
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(insn_table_MM[opc].match == 0 && insn_table_MM[opc].fields == 0))
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panic("Unsupported Micro-assembler instruction %d", opc);
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ip = &insn_table_MM[opc];
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op = ip->match;
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va_start(ap, opc);
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if (ip->fields & RS) {
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if (opc == insn_mfc0 || opc == insn_mtc0 ||
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opc == insn_cfc1 || opc == insn_ctc1)
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op |= build_rt(va_arg(ap, u32));
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else
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op |= build_rs(va_arg(ap, u32));
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}
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if (ip->fields & RT) {
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if (opc == insn_mfc0 || opc == insn_mtc0 ||
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opc == insn_cfc1 || opc == insn_ctc1)
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op |= build_rs(va_arg(ap, u32));
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else
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op |= build_rt(va_arg(ap, u32));
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}
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if (ip->fields & RD)
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op |= build_rd(va_arg(ap, u32));
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if (ip->fields & RE)
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op |= build_re(va_arg(ap, u32));
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if (ip->fields & SIMM)
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op |= build_simm(va_arg(ap, s32));
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if (ip->fields & UIMM)
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op |= build_uimm(va_arg(ap, u32));
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if (ip->fields & BIMM)
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op |= build_bimm(va_arg(ap, s32));
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if (ip->fields & JIMM)
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op |= build_jimm(va_arg(ap, u32));
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if (ip->fields & FUNC)
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op |= build_func(va_arg(ap, u32));
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if (ip->fields & SET)
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op |= build_set(va_arg(ap, u32));
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if (ip->fields & SCIMM)
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op |= build_scimm(va_arg(ap, u32));
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va_end(ap);
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#ifdef CONFIG_CPU_LITTLE_ENDIAN
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**buf = ((op & 0xffff) << 16) | (op >> 16);
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#else
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**buf = op;
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#endif
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(*buf)++;
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}
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static inline void
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__resolve_relocs(struct uasm_reloc *rel, struct uasm_label *lab)
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{
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long laddr = (long)lab->addr;
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long raddr = (long)rel->addr;
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switch (rel->type) {
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case R_MIPS_PC16:
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#ifdef CONFIG_CPU_LITTLE_ENDIAN
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*rel->addr |= (build_bimm(laddr - (raddr + 4)) << 16);
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#else
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*rel->addr |= build_bimm(laddr - (raddr + 4));
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#endif
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break;
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default:
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panic("Unsupported Micro-assembler relocation %d",
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rel->type);
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}
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}
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