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e30f419245
* Support for two new platforms based on ARC700 - Abilis TB10x SoC [Chritisian/Pierrick] - Simulator only System-C Model [Mischa] * ARC specific MM improvements - Avoid full TLB flush (ASID increment) on munmap (even single page) - VIPT Cache Flushing improvements + Delayed dcache flush for non-aliasing dcache (big performance boost) + icache flush aliasing agnostic (no need to kill all possible aliases) * Others - Avoid needless rebuild of DTB files for every kernel build - Remove builtin cmdline as that is already provided by DeviceTree/bootargs - Fixing unaligned access emulation corner case - checkpatch fixes [Sachin] - Various fixlets [Noam] - Minor build failures/cleanups -----BEGIN PGP SIGNATURE----- Version: GnuPG v1.4.11 (GNU/Linux) iQIcBAABAgAGBQJRiydEAAoJEGnX8d3iisJewBkQAJ/cvIjrIuMMdeDo0bokzZN2 bfsG8U+V7S0CKjqLyUD1bMRXo7rTgus8hp/klVORRXoAwSKiWhkj0p6dqJjCGUGc LqtEPlxaLR1X+pe5wKtpB3j6kTpRwictVhFUqkFACUxGZx1GbYFxdeL8+3oDsepW lwidBYgoya+Q4puRfmY/sCTtVhJlwTUi6g0lmpaEPWc3T2s83/u1GnlVBYd9B7yA fCYkUceC2ZnuRMfH00sRsjQ3USyyYptGpY8U1nv9STFJ3fC+EestBPppAAwAzcm0 iiRgo3s314EzfeNRgzjjHrbULnVUJWkrdFXPisWepyPyVjsgnVr84YkO3kiEN6l7 JM1cUCvJUbKZaOb2iUwrlPOqISNjCyY9QZWwqW6PCG3TBpfQsJM2mnXKnPLvV2v2 5Ttba4+ETZ3rn4pPIuTeC6REr0aV/Zl1LKeWuk8PXz4aljWrlOrifBN6QkXWr4HU 4z6X3j2nw4T2LzqwbNYF+xLaDaZZpV8UdvQwOkliCxZ04myx135ImvgOim7Hh9j+ Ow1Jp9mRZha/44qM3jXdZ6Cv55pEOR4oQJsl6OBNUXgb5bnDcFHz1UpZtzoZ2V+s RPozsfnleNXxDIJlCGK96+PG5qVTRQvklowsz6aTP8r+EEbQnrRlnrhi82cQWqnM sMxzN320zrt/MWXxec89 =WeDp -----END PGP SIGNATURE----- Merge tag 'arc-v3.10-rc1-part1' of git://git.kernel.org/pub/scm/linux/kernel/git/vgupta/arc Pull ARC port updates from Vineet Gupta: "Support for two new platforms based on ARC700: - Abilis TB10x SoC [Chritisian/Pierrick] - Simulator only System-C Model [Mischa] ARC specific MM improvements: - Avoid full TLB flush (ASID increment) on munmap (even single page) - VIPT Cache Flushing improvements + Delayed dcache flush for non-aliasing dcache (big performance boost) + icache flush aliasing agnostic (no need to kill all possible aliases) Others: - Avoid needless rebuild of DTB files for every kernel build - Remove builtin cmdline as that is already provided by DeviceTree/bootargs - Fixing unaligned access emulation corner case - checkpatch fixes [Sachin] - Various fixlets [Noam] - Minor build failures/cleanups" * tag 'arc-v3.10-rc1-part1' of git://git.kernel.org/pub/scm/linux/kernel/git/vgupta/arc: (35 commits) ARC: [mm] Lazy D-cache flush (non aliasing VIPT) ARC: [mm] micro-optimize page size icache invalidate ARC: [mm] remove the pessimistic all-alias-invalidate icache helpers ARC: [mm] consolidate icache/dcache sync code ARC: [mm] optimise icache flush for kernel mappings ARC: [mm] optimise icache flush for user mappings ARC: [mm] optimize needless full mm TLB flush on munmap ARC: Add support for nSIM OSCI System C model ARC: [TB10x] Adapt device tree to new compatible string ARC: [TB10x] Add support for TB10x platform ARC: [TB10x] Device tree of TB100 and TB101 Development Kits ARC: Prepare interrupt code for external controllers ARC: Allow embedded arc-intc to be properly placed in DT intc hierarchy ARC: [cmdline] Don't overwrite u-boot provided bootargs ARC: [cmdline] Remove CONFIG_CMDLINE ARC: [plat-arcfpga] defconfig update ARC: unaligned access emulation broken if callee-reg dest of LD/ST ARC: unaligned access emulation error handling consolidation ARC: Debug/crash-printing Improvements ARC: fix typo with clock speed ...
539 lines
14 KiB
C
539 lines
14 KiB
C
/*
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* several functions that help interpret ARC instructions
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* used for unaligned accesses, kprobes and kgdb
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*
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* Copyright (C) 2004, 2007-2010, 2011-2012 Synopsys, Inc. (www.synopsys.com)
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*/
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#include <linux/types.h>
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#include <linux/kprobes.h>
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#include <linux/slab.h>
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#include <linux/uaccess.h>
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#include <asm/disasm.h>
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#if defined(CONFIG_KGDB) || defined(CONFIG_ARC_MISALIGN_ACCESS) || \
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defined(CONFIG_KPROBES)
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/* disasm_instr: Analyses instruction at addr, stores
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* findings in *state
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*/
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void __kprobes disasm_instr(unsigned long addr, struct disasm_state *state,
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int userspace, struct pt_regs *regs, struct callee_regs *cregs)
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{
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int fieldA = 0;
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int fieldC = 0, fieldCisReg = 0;
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uint16_t word1 = 0, word0 = 0;
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int subopcode, is_linked, op_format;
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uint16_t *ins_ptr;
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uint16_t ins_buf[4];
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int bytes_not_copied = 0;
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memset(state, 0, sizeof(struct disasm_state));
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/* This fetches the upper part of the 32 bit instruction
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* in both the cases of Little Endian or Big Endian configurations. */
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if (userspace) {
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bytes_not_copied = copy_from_user(ins_buf,
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(const void __user *) addr, 8);
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if (bytes_not_copied > 6)
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goto fault;
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ins_ptr = ins_buf;
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} else {
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ins_ptr = (uint16_t *) addr;
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}
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word1 = *((uint16_t *)addr);
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state->major_opcode = (word1 >> 11) & 0x1F;
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/* Check if the instruction is 32 bit or 16 bit instruction */
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if (state->major_opcode < 0x0B) {
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if (bytes_not_copied > 4)
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goto fault;
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state->instr_len = 4;
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word0 = *((uint16_t *)(addr+2));
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state->words[0] = (word1 << 16) | word0;
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} else {
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state->instr_len = 2;
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state->words[0] = word1;
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}
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/* Read the second word in case of limm */
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word1 = *((uint16_t *)(addr + state->instr_len));
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word0 = *((uint16_t *)(addr + state->instr_len + 2));
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state->words[1] = (word1 << 16) | word0;
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switch (state->major_opcode) {
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case op_Bcc:
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state->is_branch = 1;
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/* unconditional branch s25, conditional branch s21 */
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fieldA = (IS_BIT(state->words[0], 16)) ?
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FIELD_s25(state->words[0]) :
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FIELD_s21(state->words[0]);
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state->delay_slot = IS_BIT(state->words[0], 5);
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state->target = fieldA + (addr & ~0x3);
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state->flow = direct_jump;
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break;
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case op_BLcc:
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if (IS_BIT(state->words[0], 16)) {
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/* Branch and Link*/
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/* unconditional branch s25, conditional branch s21 */
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fieldA = (IS_BIT(state->words[0], 17)) ?
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(FIELD_s25(state->words[0]) & ~0x3) :
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FIELD_s21(state->words[0]);
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state->flow = direct_call;
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} else {
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/*Branch On Compare */
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fieldA = FIELD_s9(state->words[0]) & ~0x3;
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state->flow = direct_jump;
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}
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state->delay_slot = IS_BIT(state->words[0], 5);
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state->target = fieldA + (addr & ~0x3);
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state->is_branch = 1;
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break;
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case op_LD: /* LD<zz> a,[b,s9] */
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state->write = 0;
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state->di = BITS(state->words[0], 11, 11);
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if (state->di)
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break;
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state->x = BITS(state->words[0], 6, 6);
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state->zz = BITS(state->words[0], 7, 8);
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state->aa = BITS(state->words[0], 9, 10);
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state->wb_reg = FIELD_B(state->words[0]);
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if (state->wb_reg == REG_LIMM) {
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state->instr_len += 4;
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state->aa = 0;
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state->src1 = state->words[1];
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} else {
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state->src1 = get_reg(state->wb_reg, regs, cregs);
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}
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state->src2 = FIELD_s9(state->words[0]);
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state->dest = FIELD_A(state->words[0]);
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state->pref = (state->dest == REG_LIMM);
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break;
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case op_ST:
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state->write = 1;
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state->di = BITS(state->words[0], 5, 5);
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if (state->di)
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break;
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state->aa = BITS(state->words[0], 3, 4);
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state->zz = BITS(state->words[0], 1, 2);
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state->src1 = FIELD_C(state->words[0]);
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if (state->src1 == REG_LIMM) {
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state->instr_len += 4;
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state->src1 = state->words[1];
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} else {
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state->src1 = get_reg(state->src1, regs, cregs);
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}
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state->wb_reg = FIELD_B(state->words[0]);
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if (state->wb_reg == REG_LIMM) {
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state->aa = 0;
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state->instr_len += 4;
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state->src2 = state->words[1];
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} else {
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state->src2 = get_reg(state->wb_reg, regs, cregs);
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}
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state->src3 = FIELD_s9(state->words[0]);
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break;
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case op_MAJOR_4:
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subopcode = MINOR_OPCODE(state->words[0]);
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switch (subopcode) {
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case 32: /* Jcc */
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case 33: /* Jcc.D */
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case 34: /* JLcc */
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case 35: /* JLcc.D */
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is_linked = 0;
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if (subopcode == 33 || subopcode == 35)
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state->delay_slot = 1;
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if (subopcode == 34 || subopcode == 35)
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is_linked = 1;
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fieldCisReg = 0;
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op_format = BITS(state->words[0], 22, 23);
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if (op_format == 0 || ((op_format == 3) &&
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(!IS_BIT(state->words[0], 5)))) {
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fieldC = FIELD_C(state->words[0]);
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if (fieldC == REG_LIMM) {
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fieldC = state->words[1];
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state->instr_len += 4;
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} else {
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fieldCisReg = 1;
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}
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} else if (op_format == 1 || ((op_format == 3)
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&& (IS_BIT(state->words[0], 5)))) {
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fieldC = FIELD_C(state->words[0]);
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} else {
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/* op_format == 2 */
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fieldC = FIELD_s12(state->words[0]);
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}
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if (!fieldCisReg) {
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state->target = fieldC;
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state->flow = is_linked ?
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direct_call : direct_jump;
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} else {
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state->target = get_reg(fieldC, regs, cregs);
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state->flow = is_linked ?
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indirect_call : indirect_jump;
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}
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state->is_branch = 1;
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break;
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case 40: /* LPcc */
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if (BITS(state->words[0], 22, 23) == 3) {
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/* Conditional LPcc u7 */
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fieldC = FIELD_C(state->words[0]);
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fieldC = fieldC << 1;
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fieldC += (addr & ~0x03);
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state->is_branch = 1;
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state->flow = direct_jump;
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state->target = fieldC;
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}
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/* For Unconditional lp, next pc is the fall through
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* which is updated */
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break;
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case 48 ... 55: /* LD a,[b,c] */
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state->di = BITS(state->words[0], 15, 15);
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if (state->di)
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break;
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state->x = BITS(state->words[0], 16, 16);
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state->zz = BITS(state->words[0], 17, 18);
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state->aa = BITS(state->words[0], 22, 23);
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state->wb_reg = FIELD_B(state->words[0]);
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if (state->wb_reg == REG_LIMM) {
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state->instr_len += 4;
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state->src1 = state->words[1];
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} else {
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state->src1 = get_reg(state->wb_reg, regs,
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cregs);
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}
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state->src2 = FIELD_C(state->words[0]);
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if (state->src2 == REG_LIMM) {
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state->instr_len += 4;
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state->src2 = state->words[1];
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} else {
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state->src2 = get_reg(state->src2, regs,
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cregs);
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}
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state->dest = FIELD_A(state->words[0]);
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if (state->dest == REG_LIMM)
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state->pref = 1;
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break;
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case 10: /* MOV */
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/* still need to check for limm to extract instr len */
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/* MOV is special case because it only takes 2 args */
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switch (BITS(state->words[0], 22, 23)) {
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case 0: /* OP a,b,c */
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if (FIELD_C(state->words[0]) == REG_LIMM)
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state->instr_len += 4;
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break;
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case 1: /* OP a,b,u6 */
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break;
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case 2: /* OP b,b,s12 */
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break;
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case 3: /* OP.cc b,b,c/u6 */
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if ((!IS_BIT(state->words[0], 5)) &&
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(FIELD_C(state->words[0]) == REG_LIMM))
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state->instr_len += 4;
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break;
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}
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break;
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default:
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/* Not a Load, Jump or Loop instruction */
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/* still need to check for limm to extract instr len */
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switch (BITS(state->words[0], 22, 23)) {
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case 0: /* OP a,b,c */
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if ((FIELD_B(state->words[0]) == REG_LIMM) ||
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(FIELD_C(state->words[0]) == REG_LIMM))
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state->instr_len += 4;
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break;
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case 1: /* OP a,b,u6 */
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break;
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case 2: /* OP b,b,s12 */
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break;
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case 3: /* OP.cc b,b,c/u6 */
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if ((!IS_BIT(state->words[0], 5)) &&
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((FIELD_B(state->words[0]) == REG_LIMM) ||
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(FIELD_C(state->words[0]) == REG_LIMM)))
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state->instr_len += 4;
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break;
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}
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break;
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}
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break;
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/* 16 Bit Instructions */
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case op_LD_ADD: /* LD_S|LDB_S|LDW_S a,[b,c] */
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state->zz = BITS(state->words[0], 3, 4);
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state->src1 = get_reg(FIELD_S_B(state->words[0]), regs, cregs);
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state->src2 = get_reg(FIELD_S_C(state->words[0]), regs, cregs);
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state->dest = FIELD_S_A(state->words[0]);
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break;
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case op_ADD_MOV_CMP:
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/* check for limm, ignore mov_s h,b (== mov_s 0,b) */
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if ((BITS(state->words[0], 3, 4) < 3) &&
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(FIELD_S_H(state->words[0]) == REG_LIMM))
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state->instr_len += 4;
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break;
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case op_S:
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subopcode = BITS(state->words[0], 5, 7);
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switch (subopcode) {
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case 0: /* j_s */
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case 1: /* j_s.d */
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case 2: /* jl_s */
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case 3: /* jl_s.d */
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state->target = get_reg(FIELD_S_B(state->words[0]),
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regs, cregs);
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state->delay_slot = subopcode & 1;
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state->flow = (subopcode >= 2) ?
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direct_call : indirect_jump;
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break;
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case 7:
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switch (BITS(state->words[0], 8, 10)) {
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case 4: /* jeq_s [blink] */
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case 5: /* jne_s [blink] */
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case 6: /* j_s [blink] */
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case 7: /* j_s.d [blink] */
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state->delay_slot = (subopcode == 7);
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state->flow = indirect_jump;
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state->target = get_reg(31, regs, cregs);
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default:
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break;
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}
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default:
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break;
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}
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break;
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case op_LD_S: /* LD_S c, [b, u7] */
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state->src1 = get_reg(FIELD_S_B(state->words[0]), regs, cregs);
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state->src2 = FIELD_S_u7(state->words[0]);
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state->dest = FIELD_S_C(state->words[0]);
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break;
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case op_LDB_S:
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case op_STB_S:
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/* no further handling required as byte accesses should not
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* cause an unaligned access exception */
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state->zz = 1;
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break;
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case op_LDWX_S: /* LDWX_S c, [b, u6] */
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state->x = 1;
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/* intentional fall-through */
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case op_LDW_S: /* LDW_S c, [b, u6] */
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state->zz = 2;
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state->src1 = get_reg(FIELD_S_B(state->words[0]), regs, cregs);
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state->src2 = FIELD_S_u6(state->words[0]);
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state->dest = FIELD_S_C(state->words[0]);
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break;
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case op_ST_S: /* ST_S c, [b, u7] */
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state->write = 1;
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state->src1 = get_reg(FIELD_S_C(state->words[0]), regs, cregs);
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state->src2 = get_reg(FIELD_S_B(state->words[0]), regs, cregs);
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state->src3 = FIELD_S_u7(state->words[0]);
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break;
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case op_STW_S: /* STW_S c,[b,u6] */
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state->write = 1;
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state->zz = 2;
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state->src1 = get_reg(FIELD_S_C(state->words[0]), regs, cregs);
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state->src2 = get_reg(FIELD_S_B(state->words[0]), regs, cregs);
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state->src3 = FIELD_S_u6(state->words[0]);
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break;
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case op_SP: /* LD_S|LDB_S b,[sp,u7], ST_S|STB_S b,[sp,u7] */
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/* note: we are ignoring possibility of:
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* ADD_S, SUB_S, PUSH_S, POP_S as these should not
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* cause unaliged exception anyway */
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state->write = BITS(state->words[0], 6, 6);
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state->zz = BITS(state->words[0], 5, 5);
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if (state->zz)
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break; /* byte accesses should not come here */
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if (!state->write) {
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state->src1 = get_reg(28, regs, cregs);
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state->src2 = FIELD_S_u7(state->words[0]);
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state->dest = FIELD_S_B(state->words[0]);
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} else {
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state->src1 = get_reg(FIELD_S_B(state->words[0]), regs,
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cregs);
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state->src2 = get_reg(28, regs, cregs);
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state->src3 = FIELD_S_u7(state->words[0]);
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}
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break;
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case op_GP: /* LD_S|LDB_S|LDW_S r0,[gp,s11/s9/s10] */
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/* note: ADD_S r0, gp, s11 is ignored */
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|
state->zz = BITS(state->words[0], 9, 10);
|
|
state->src1 = get_reg(26, regs, cregs);
|
|
state->src2 = state->zz ? FIELD_S_s10(state->words[0]) :
|
|
FIELD_S_s11(state->words[0]);
|
|
state->dest = 0;
|
|
break;
|
|
|
|
case op_Pcl: /* LD_S b,[pcl,u10] */
|
|
state->src1 = regs->ret & ~3;
|
|
state->src2 = FIELD_S_u10(state->words[0]);
|
|
state->dest = FIELD_S_B(state->words[0]);
|
|
break;
|
|
|
|
case op_BR_S:
|
|
state->target = FIELD_S_s8(state->words[0]) + (addr & ~0x03);
|
|
state->flow = direct_jump;
|
|
state->is_branch = 1;
|
|
break;
|
|
|
|
case op_B_S:
|
|
fieldA = (BITS(state->words[0], 9, 10) == 3) ?
|
|
FIELD_S_s7(state->words[0]) :
|
|
FIELD_S_s10(state->words[0]);
|
|
state->target = fieldA + (addr & ~0x03);
|
|
state->flow = direct_jump;
|
|
state->is_branch = 1;
|
|
break;
|
|
|
|
case op_BL_S:
|
|
state->target = FIELD_S_s13(state->words[0]) + (addr & ~0x03);
|
|
state->flow = direct_call;
|
|
state->is_branch = 1;
|
|
break;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
|
|
if (bytes_not_copied <= (8 - state->instr_len))
|
|
return;
|
|
|
|
fault: state->fault = 1;
|
|
}
|
|
|
|
long __kprobes get_reg(int reg, struct pt_regs *regs,
|
|
struct callee_regs *cregs)
|
|
{
|
|
long *p;
|
|
|
|
if (reg <= 12) {
|
|
p = ®s->r0;
|
|
return p[-reg];
|
|
}
|
|
|
|
if (cregs && (reg <= 25)) {
|
|
p = &cregs->r13;
|
|
return p[13-reg];
|
|
}
|
|
|
|
if (reg == 26)
|
|
return regs->r26;
|
|
if (reg == 27)
|
|
return regs->fp;
|
|
if (reg == 28)
|
|
return regs->sp;
|
|
if (reg == 31)
|
|
return regs->blink;
|
|
|
|
return 0;
|
|
}
|
|
|
|
void __kprobes set_reg(int reg, long val, struct pt_regs *regs,
|
|
struct callee_regs *cregs)
|
|
{
|
|
long *p;
|
|
|
|
switch (reg) {
|
|
case 0 ... 12:
|
|
p = ®s->r0;
|
|
p[-reg] = val;
|
|
break;
|
|
case 13 ... 25:
|
|
if (cregs) {
|
|
p = &cregs->r13;
|
|
p[13-reg] = val;
|
|
}
|
|
break;
|
|
case 26:
|
|
regs->r26 = val;
|
|
break;
|
|
case 27:
|
|
regs->fp = val;
|
|
break;
|
|
case 28:
|
|
regs->sp = val;
|
|
break;
|
|
case 31:
|
|
regs->blink = val;
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
}
|
|
|
|
/*
|
|
* Disassembles the insn at @pc and sets @next_pc to next PC (which could be
|
|
* @pc +2/4/6 (ARCompact ISA allows free intermixing of 16/32 bit insns).
|
|
*
|
|
* If @pc is a branch
|
|
* -@tgt_if_br is set to branch target.
|
|
* -If branch has delay slot, @next_pc updated with actual next PC.
|
|
*/
|
|
int __kprobes disasm_next_pc(unsigned long pc, struct pt_regs *regs,
|
|
struct callee_regs *cregs,
|
|
unsigned long *next_pc, unsigned long *tgt_if_br)
|
|
{
|
|
struct disasm_state instr;
|
|
|
|
memset(&instr, 0, sizeof(struct disasm_state));
|
|
disasm_instr(pc, &instr, 0, regs, cregs);
|
|
|
|
*next_pc = pc + instr.instr_len;
|
|
|
|
/* Instruction with possible two targets branch, jump and loop */
|
|
if (instr.is_branch)
|
|
*tgt_if_br = instr.target;
|
|
|
|
/* For the instructions with delay slots, the fall through is the
|
|
* instruction following the instruction in delay slot.
|
|
*/
|
|
if (instr.delay_slot) {
|
|
struct disasm_state instr_d;
|
|
|
|
disasm_instr(*next_pc, &instr_d, 0, regs, cregs);
|
|
|
|
*next_pc += instr_d.instr_len;
|
|
}
|
|
|
|
/* Zero Overhead Loop - end of the loop */
|
|
if (!(regs->status32 & STATUS32_L) && (*next_pc == regs->lp_end)
|
|
&& (regs->lp_count > 1)) {
|
|
*next_pc = regs->lp_start;
|
|
}
|
|
|
|
return instr.is_branch;
|
|
}
|
|
|
|
#endif /* CONFIG_KGDB || CONFIG_ARC_MISALIGN_ACCESS || CONFIG_KPROBES */
|