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openocd/src/target/mips32.h
Tomas Vanek eb8912ec38 target, flash: prepare infrastructure for multi-block blank check 
'flash erase_check' command runs a check algorithm on a target
if possible. The algorithm is run repeatedly for each flash sector.
Unfortunately every start and stop of the algorithm impose not negligible
overhead.
In practice it means checking is faster than plain read only for
sectors of size approx 4 kByte or bigger. And checking sectors
as short as 512 bytes runs approx 4 times slower than plain read.

The patch changes API call target_blank_check_memory() and related
to take an array of sectors (or arbitrary memory blocks).

Changes in target-specific checking routines are kept minimal.
They use only the first block from the array and process it by
the unchanged algorithm.

default_flash_blank_check() routine repeats target_blank_check_memory()
until all blocks are checked, so it works with both multi-block
and single-block based checkers.

Change-Id: I0e6c60f2d71364c9c07c09416b04de9268807f5e
Signed-off-by: Tomas Vanek <vanekt@fbl.cz>
Reviewed-on: http://openocd.zylin.com/4297
Tested-by: jenkins
Reviewed-by: Andreas Bolsch <hyphen0break@gmail.com>
2018-04-10 06:16:40 +01:00

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/***************************************************************************
* Copyright (C) 2008 by Spencer Oliver *
* spen@spen-soft.co.uk *
* *
* Copyright (C) 2008 by David T.L. Wong *
* *
* Copyright (C) 2011 by Drasko DRASKOVIC *
* drasko.draskovic@gmail.com *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that 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 <http://www.gnu.org/licenses/>. *
***************************************************************************/
#ifndef OPENOCD_TARGET_MIPS32_H
#define OPENOCD_TARGET_MIPS32_H
#include "target.h"
#include "mips32_pracc.h"
#define MIPS32_COMMON_MAGIC 0xB320B320
/**
* Memory segments (32bit kernel mode addresses)
* These are the traditional names used in the 32-bit universe.
*/
#define KUSEG 0x00000000
#define KSEG0 0x80000000
#define KSEG1 0xa0000000
#define KSEG2 0xc0000000
#define KSEG3 0xe0000000
/** Returns the kernel segment base of a given address */
#define KSEGX(a) ((a) & 0xe0000000)
/** CP0 CONFIG regites fields */
#define MIPS32_CONFIG0_KU_SHIFT 25
#define MIPS32_CONFIG0_KU_MASK (0x7 << MIPS32_CONFIG0_KU_SHIFT)
#define MIPS32_CONFIG0_K0_SHIFT 0
#define MIPS32_CONFIG0_K0_MASK (0x7 << MIPS32_CONFIG0_K0_SHIFT)
#define MIPS32_CONFIG0_K23_SHIFT 28
#define MIPS32_CONFIG0_K23_MASK (0x7 << MIPS32_CONFIG0_K23_SHIFT)
#define MIPS32_CONFIG0_AR_SHIFT 10
#define MIPS32_CONFIG0_AR_MASK (0x7 << MIPS32_CONFIG0_AR_SHIFT)
#define MIPS32_CONFIG1_DL_SHIFT 10
#define MIPS32_CONFIG1_DL_MASK (0x7 << MIPS32_CONFIG1_DL_SHIFT)
#define MIPS32_CONFIG3_ISA_SHIFT 14
#define MIPS32_CONFIG3_ISA_MASK (3 << MIPS32_CONFIG3_ISA_SHIFT)
#define MIPS32_ARCH_REL1 0x0
#define MIPS32_ARCH_REL2 0x1
#define MIPS32_SCAN_DELAY_LEGACY_MODE 2000000
/* offsets into mips32 core register cache */
enum {
MIPS32_PC = 37,
MIPS32_FIR = 71,
MIPS32NUMCOREREGS
};
enum mips32_isa_mode {
MIPS32_ISA_MIPS32 = 0,
MIPS32_ISA_MIPS16E = 1,
MIPS32_ISA_MMIPS32 = 3,
};
enum mips32_isa_imp {
MIPS32_ONLY = 0,
MMIPS32_ONLY = 1,
MIPS32_MIPS16 = 2,
MIPS32_MMIPS32 = 3,
};
struct mips32_comparator {
int used;
uint32_t bp_value;
uint32_t reg_address;
};
struct mips32_common {
uint32_t common_magic;
void *arch_info;
struct reg_cache *core_cache;
struct mips_ejtag ejtag_info;
uint32_t core_regs[MIPS32NUMCOREREGS];
enum mips32_isa_mode isa_mode;
enum mips32_isa_imp isa_imp;
/* working area for fastdata access */
struct working_area *fast_data_area;
int bp_scanned;
int num_inst_bpoints;
int num_data_bpoints;
int num_inst_bpoints_avail;
int num_data_bpoints_avail;
struct mips32_comparator *inst_break_list;
struct mips32_comparator *data_break_list;
/* register cache to processor synchronization */
int (*read_core_reg)(struct target *target, unsigned int num);
int (*write_core_reg)(struct target *target, unsigned int num);
};
static inline struct mips32_common *
target_to_mips32(struct target *target)
{
return target->arch_info;
}
struct mips32_core_reg {
uint32_t num;
struct target *target;
struct mips32_common *mips32_common;
};
struct mips32_algorithm {
int common_magic;
enum mips32_isa_mode isa_mode;
};
#define MIPS32_OP_ADDU 0x21u
#define MIPS32_OP_ADDIU 0x09u
#define MIPS32_OP_ANDI 0x0Cu
#define MIPS32_OP_BEQ 0x04u
#define MIPS32_OP_BGTZ 0x07u
#define MIPS32_OP_BNE 0x05u
#define MIPS32_OP_ADDI 0x08u
#define MIPS32_OP_AND 0x24u
#define MIPS32_OP_CACHE 0x2Fu
#define MIPS32_OP_COP0 0x10u
#define MIPS32_OP_J 0x02u
#define MIPS32_OP_JR 0x08u
#define MIPS32_OP_LUI 0x0Fu
#define MIPS32_OP_LW 0x23u
#define MIPS32_OP_LB 0x20u
#define MIPS32_OP_LBU 0x24u
#define MIPS32_OP_LHU 0x25u
#define MIPS32_OP_MFHI 0x10u
#define MIPS32_OP_MTHI 0x11u
#define MIPS32_OP_MFLO 0x12u
#define MIPS32_OP_MTLO 0x13u
#define MIPS32_OP_RDHWR 0x3Bu
#define MIPS32_OP_SB 0x28u
#define MIPS32_OP_SH 0x29u
#define MIPS32_OP_SW 0x2Bu
#define MIPS32_OP_ORI 0x0Du
#define MIPS32_OP_XORI 0x0Eu
#define MIPS32_OP_XOR 0x26u
#define MIPS32_OP_SLTU 0x2Bu
#define MIPS32_OP_SRL 0x03u
#define MIPS32_OP_SYNCI 0x1Fu
#define MIPS32_OP_SLL 0x00u
#define MIPS32_OP_SLTI 0x0Au
#define MIPS32_OP_MOVN 0x0Bu
#define MIPS32_OP_REGIMM 0x01u
#define MIPS32_OP_SDBBP 0x3Fu
#define MIPS32_OP_SPECIAL 0x00u
#define MIPS32_OP_SPECIAL2 0x07u
#define MIPS32_OP_SPECIAL3 0x1Fu
#define MIPS32_COP0_MF 0x00u
#define MIPS32_COP0_MT 0x04u
#define MIPS32_R_INST(opcode, rs, rt, rd, shamt, funct) \
(((opcode) << 26) | ((rs) << 21) | ((rt) << 16) | ((rd) << 11) | ((shamt) << 6) | (funct))
#define MIPS32_I_INST(opcode, rs, rt, immd) \
(((opcode) << 26) | ((rs) << 21) | ((rt) << 16) | (immd))
#define MIPS32_J_INST(opcode, addr) (((opcode) << 26) | (addr))
#define MIPS32_ISA_NOP 0
#define MIPS32_ISA_ADDI(tar, src, val) MIPS32_I_INST(MIPS32_OP_ADDI, src, tar, val)
#define MIPS32_ISA_ADDIU(tar, src, val) MIPS32_I_INST(MIPS32_OP_ADDIU, src, tar, val)
#define MIPS32_ISA_ADDU(dst, src, tar) MIPS32_R_INST(MIPS32_OP_SPECIAL, src, tar, dst, 0, MIPS32_OP_ADDU)
#define MIPS32_ISA_AND(dst, src, tar) MIPS32_R_INST(0, src, tar, dst, 0, MIPS32_OP_AND)
#define MIPS32_ISA_ANDI(tar, src, val) MIPS32_I_INST(MIPS32_OP_ANDI, src, tar, val)
#define MIPS32_ISA_B(off) MIPS32_ISA_BEQ(0, 0, off)
#define MIPS32_ISA_BEQ(src, tar, off) MIPS32_I_INST(MIPS32_OP_BEQ, src, tar, off)
#define MIPS32_ISA_BGTZ(reg, off) MIPS32_I_INST(MIPS32_OP_BGTZ, reg, 0, off)
#define MIPS32_ISA_BNE(src, tar, off) MIPS32_I_INST(MIPS32_OP_BNE, src, tar, off)
#define MIPS32_ISA_CACHE(op, off, base) MIPS32_I_INST(MIPS32_OP_CACHE, base, op, off)
#define MIPS32_ISA_J(tar) MIPS32_J_INST(MIPS32_OP_J, (0x0FFFFFFFu & (tar)) >> 2)
#define MIPS32_ISA_JR(reg) MIPS32_R_INST(0, reg, 0, 0, 0, MIPS32_OP_JR)
#define MIPS32_ISA_LB(reg, off, base) MIPS32_I_INST(MIPS32_OP_LB, base, reg, off)
#define MIPS32_ISA_LBU(reg, off, base) MIPS32_I_INST(MIPS32_OP_LBU, base, reg, off)
#define MIPS32_ISA_LHU(reg, off, base) MIPS32_I_INST(MIPS32_OP_LHU, base, reg, off)
#define MIPS32_ISA_LUI(reg, val) MIPS32_I_INST(MIPS32_OP_LUI, 0, reg, val)
#define MIPS32_ISA_LW(reg, off, base) MIPS32_I_INST(MIPS32_OP_LW, base, reg, off)
#define MIPS32_ISA_MFC0(gpr, cpr, sel) MIPS32_R_INST(MIPS32_OP_COP0, MIPS32_COP0_MF, gpr, cpr, 0, sel)
#define MIPS32_ISA_MTC0(gpr, cpr, sel) MIPS32_R_INST(MIPS32_OP_COP0, MIPS32_COP0_MT, gpr, cpr, 0, sel)
#define MIPS32_ISA_MFLO(reg) MIPS32_R_INST(0, 0, 0, reg, 0, MIPS32_OP_MFLO)
#define MIPS32_ISA_MFHI(reg) MIPS32_R_INST(0, 0, 0, reg, 0, MIPS32_OP_MFHI)
#define MIPS32_ISA_MTLO(reg) MIPS32_R_INST(0, reg, 0, 0, 0, MIPS32_OP_MTLO)
#define MIPS32_ISA_MTHI(reg) MIPS32_R_INST(0, reg, 0, 0, 0, MIPS32_OP_MTHI)
#define MIPS32_ISA_MOVN(dst, src, tar) MIPS32_R_INST(MIPS32_OP_SPECIAL, src, tar, dst, 0, MIPS32_OP_MOVN)
#define MIPS32_ISA_ORI(tar, src, val) MIPS32_I_INST(MIPS32_OP_ORI, src, tar, val)
#define MIPS32_ISA_RDHWR(tar, dst) MIPS32_R_INST(MIPS32_OP_SPECIAL3, 0, tar, dst, 0, MIPS32_OP_RDHWR)
#define MIPS32_ISA_SB(reg, off, base) MIPS32_I_INST(MIPS32_OP_SB, base, reg, off)
#define MIPS32_ISA_SH(reg, off, base) MIPS32_I_INST(MIPS32_OP_SH, base, reg, off)
#define MIPS32_ISA_SW(reg, off, base) MIPS32_I_INST(MIPS32_OP_SW, base, reg, off)
#define MIPS32_ISA_SLL(dst, src, sa) MIPS32_R_INST(MIPS32_OP_SPECIAL, 0, src, dst, sa, MIPS32_OP_SLL)
#define MIPS32_ISA_SLTI(tar, src, val) MIPS32_I_INST(MIPS32_OP_SLTI, src, tar, val)
#define MIPS32_ISA_SLTU(dst, src, tar) MIPS32_R_INST(MIPS32_OP_SPECIAL, src, tar, dst, 0, MIPS32_OP_SLTU)
#define MIPS32_ISA_SRL(reg, src, off) MIPS32_R_INST(0, 0, src, reg, off, MIPS32_OP_SRL)
#define MIPS32_ISA_SYNC 0xFu
#define MIPS32_ISA_SYNCI(off, base) MIPS32_I_INST(MIPS32_OP_REGIMM, base, MIPS32_OP_SYNCI, off)
#define MIPS32_ISA_XOR(reg, val1, val2) MIPS32_R_INST(0, val1, val2, reg, 0, MIPS32_OP_XOR)
#define MIPS32_ISA_XORI(tar, src, val) MIPS32_I_INST(MIPS32_OP_XORI, src, tar, val)
#define MIPS32_ISA_SYNCI_STEP 0x1 /* reg num od address step size to be used with synci instruction */
/**
* Cache operations definitions
* Operation field is 5 bits long :
* 1) bits 1..0 hold cache type
* 2) bits 4..2 hold operation code
*/
#define MIPS32_CACHE_D_HIT_WRITEBACK ((0x1 << 0) | (0x6 << 2))
#define MIPS32_CACHE_I_HIT_INVALIDATE ((0x0 << 0) | (0x4 << 2))
/* ejtag specific instructions */
#define MIPS32_ISA_DRET 0x4200001Fu
/* MIPS32_ISA_J_INST(MIPS32_ISA_OP_SPECIAL2, MIPS32_ISA_OP_SDBBP) */
#define MIPS32_ISA_SDBBP 0x7000003Fu
#define MIPS16_ISA_SDBBP 0xE801u
/*MICRO MIPS INSTRUCTIONS, see doc MD00582 */
#define POOL32A 0X00u
#define POOL32AXf 0x3Cu
#define POOL32B 0x08u
#define POOL32I 0x10u
#define MMIPS32_OP_ADDI 0x04u
#define MMIPS32_OP_ADDIU 0x0Cu
#define MMIPS32_OP_ADDU 0x150u
#define MMIPS32_OP_AND 0x250u
#define MMIPS32_OP_ANDI 0x34u
#define MMIPS32_OP_BEQ 0x25u
#define MMIPS32_OP_BGTZ 0x06u
#define MMIPS32_OP_BNE 0x2Du
#define MMIPS32_OP_CACHE 0x06u
#define MMIPS32_OP_J 0x35u
#define MMIPS32_OP_JALR 0x03Cu
#define MMIPS32_OP_LB 0x07u
#define MMIPS32_OP_LBU 0x05u
#define MMIPS32_OP_LHU 0x0Du
#define MMIPS32_OP_LUI 0x0Du
#define MMIPS32_OP_LW 0x3Fu
#define MMIPS32_OP_MFC0 0x03u
#define MMIPS32_OP_MTC0 0x0Bu
#define MMIPS32_OP_MFLO 0x075u
#define MMIPS32_OP_MFHI 0x035u
#define MMIPS32_OP_MTLO 0x0F5u
#define MMIPS32_OP_MTHI 0x0B5u
#define MMIPS32_OP_MOVN 0x018u
#define MMIPS32_OP_ORI 0x14u
#define MMIPS32_OP_RDHWR 0x1ACu
#define MMIPS32_OP_SB 0x06u
#define MMIPS32_OP_SH 0x0Eu
#define MMIPS32_OP_SW 0x3Eu
#define MMIPS32_OP_SLTU 0x390u
#define MMIPS32_OP_SLL 0x000u
#define MMIPS32_OP_SLTI 0x24u
#define MMIPS32_OP_SRL 0x040u
#define MMIPS32_OP_SYNCI 0x10u
#define MMIPS32_OP_XOR 0x310u
#define MMIPS32_OP_XORI 0x1Cu
#define MMIPS32_ADDI(tar, src, val) MIPS32_I_INST(MMIPS32_OP_ADDI, tar, src, val)
#define MMIPS32_ADDIU(tar, src, val) MIPS32_I_INST(MMIPS32_OP_ADDIU, tar, src, val)
#define MMIPS32_ADDU(dst, src, tar) MIPS32_R_INST(POOL32A, tar, src, dst, 0, MMIPS32_OP_ADDU)
#define MMIPS32_AND(dst, src, tar) MIPS32_R_INST(POOL32A, tar, src, dst, 0, MMIPS32_OP_AND)
#define MMIPS32_ANDI(tar, src, val) MIPS32_I_INST(MMIPS32_OP_ANDI, tar, src, val)
#define MMIPS32_B(off) MMIPS32_BEQ(0, 0, off)
#define MMIPS32_BEQ(src, tar, off) MIPS32_I_INST(MMIPS32_OP_BEQ, tar, src, off)
#define MMIPS32_BGTZ(reg, off) MIPS32_I_INST(POOL32I, MMIPS32_OP_BGTZ, reg, off)
#define MMIPS32_BNE(src, tar, off) MIPS32_I_INST(MMIPS32_OP_BNE, tar, src, off)
#define MMIPS32_CACHE(op, off, base) MIPS32_R_INST(POOL32B, op, base, MMIPS32_OP_CACHE << 1, 0, off)
#define MMIPS32_J(tar) MIPS32_J_INST(MMIPS32_OP_J, ((0x07FFFFFFu & ((tar) >> 1))))
#define MMIPS32_JR(reg) MIPS32_R_INST(POOL32A, 0, reg, 0, MMIPS32_OP_JALR, POOL32AXf)
#define MMIPS32_LB(reg, off, base) MIPS32_I_INST(MMIPS32_OP_LB, reg, base, off)
#define MMIPS32_LBU(reg, off, base) MIPS32_I_INST(MMIPS32_OP_LBU, reg, base, off)
#define MMIPS32_LHU(reg, off, base) MIPS32_I_INST(MMIPS32_OP_LHU, reg, base, off)
#define MMIPS32_LUI(reg, val) MIPS32_I_INST(POOL32I, MMIPS32_OP_LUI, reg, val)
#define MMIPS32_LW(reg, off, base) MIPS32_I_INST(MMIPS32_OP_LW, reg, base, off)
#define MMIPS32_MFC0(gpr, cpr, sel) MIPS32_R_INST(POOL32A, gpr, cpr, sel, MMIPS32_OP_MFC0, POOL32AXf)
#define MMIPS32_MFLO(reg) MIPS32_R_INST(POOL32A, 0, reg, 0, MMIPS32_OP_MFLO, POOL32AXf)
#define MMIPS32_MFHI(reg) MIPS32_R_INST(POOL32A, 0, reg, 0, MMIPS32_OP_MFHI, POOL32AXf)
#define MMIPS32_MTC0(gpr, cpr, sel) MIPS32_R_INST(POOL32A, gpr, cpr, sel, MMIPS32_OP_MTC0, POOL32AXf)
#define MMIPS32_MTLO(reg) MIPS32_R_INST(POOL32A, 0, reg, 0, MMIPS32_OP_MTLO, POOL32AXf)
#define MMIPS32_MTHI(reg) MIPS32_R_INST(POOL32A, 0, reg, 0, MMIPS32_OP_MTHI, POOL32AXf)
#define MMIPS32_MOVN(dst, src, tar) MIPS32_R_INST(POOL32A, tar, src, dst, 0, MMIPS32_OP_MOVN)
#define MMIPS32_NOP 0
#define MMIPS32_ORI(tar, src, val) MIPS32_I_INST(MMIPS32_OP_ORI, tar, src, val)
#define MMIPS32_RDHWR(tar, dst) MIPS32_R_INST(POOL32A, dst, tar, 0, MMIPS32_OP_RDHWR, POOL32AXf)
#define MMIPS32_SB(reg, off, base) MIPS32_I_INST(MMIPS32_OP_SB, reg, base, off)
#define MMIPS32_SH(reg, off, base) MIPS32_I_INST(MMIPS32_OP_SH, reg, base, off)
#define MMIPS32_SW(reg, off, base) MIPS32_I_INST(MMIPS32_OP_SW, reg, base, off)
#define MMIPS32_SRL(reg, src, off) MIPS32_R_INST(POOL32A, reg, src, off, 0, MMIPS32_OP_SRL)
#define MMIPS32_SLTU(dst, src, tar) MIPS32_R_INST(POOL32A, tar, src, dst, 0, MMIPS32_OP_SLTU)
#define MMIPS32_SYNCI(off, base) MIPS32_I_INST(POOL32I, MMIPS32_OP_SYNCI, base, off)
#define MMIPS32_SLL(dst, src, sa) MIPS32_R_INST(POOL32A, dst, src, sa, 0, MMIPS32_OP_SLL)
#define MMIPS32_SLTI(tar, src, val) MIPS32_I_INST(MMIPS32_OP_SLTI, tar, src, val)
#define MMIPS32_SYNC 0x00001A7Cu /* MIPS32_R_INST(POOL32A, 0, 0, 0, 0x1ADu, POOL32AXf) */
#define MMIPS32_XOR(reg, val1, val2) MIPS32_R_INST(POOL32A, val1, val2, reg, 0, MMIPS32_OP_XOR)
#define MMIPS32_XORI(tar, src, val) MIPS32_I_INST(MMIPS32_OP_XORI, tar, src, val)
#define MMIPS32_SYNCI_STEP 0x1u /* reg num od address step size to be used with synci instruction */
/* ejtag specific instructions */
#define MMIPS32_DRET 0x0000E37Cu /* MIPS32_R_INST(POOL32A, 0, 0, 0, 0x38D, POOL32AXf) */
#define MMIPS32_SDBBP 0x0000DB7Cu /* MIPS32_R_INST(POOL32A, 0, 0, 0, 0x1BD, POOL32AXf) */
#define MMIPS16_SDBBP 0x46C0u /* POOL16C instr */
/* instruction code with isa selection */
#define MIPS32_NOP 0 /* same for both isa's */
#define MIPS32_ADDI(isa, tar, src, val) (isa ? MMIPS32_ADDI(tar, src, val) : MIPS32_ISA_ADDI(tar, src, val))
#define MIPS32_ADDIU(isa, tar, src, val) (isa ? MMIPS32_ADDIU(tar, src, val) : MIPS32_ISA_ADDIU(tar, src, val))
#define MIPS32_ADDU(isa, dst, src, tar) (isa ? MMIPS32_ADDU(dst, src, tar) : MIPS32_ISA_ADDU(dst, src, tar))
#define MIPS32_AND(isa, dst, src, tar) (isa ? MMIPS32_AND(dst, src, tar) : MIPS32_ISA_AND(dst, src, tar))
#define MIPS32_ANDI(isa, tar, src, val) (isa ? MMIPS32_ANDI(tar, src, val) : MIPS32_ISA_ANDI(tar, src, val))
#define MIPS32_B(isa, off) (isa ? MMIPS32_B(off) : MIPS32_ISA_B(off))
#define MIPS32_BEQ(isa, src, tar, off) (isa ? MMIPS32_BEQ(src, tar, off) : MIPS32_ISA_BEQ(src, tar, off))
#define MIPS32_BGTZ(isa, reg, off) (isa ? MMIPS32_BGTZ(reg, off) : MIPS32_ISA_BGTZ(reg, off))
#define MIPS32_BNE(isa, src, tar, off) (isa ? MMIPS32_BNE(src, tar, off) : MIPS32_ISA_BNE(src, tar, off))
#define MIPS32_CACHE(isa, op, off, base) (isa ? MMIPS32_CACHE(op, off, base) : MIPS32_ISA_CACHE(op, off, base))
#define MIPS32_J(isa, tar) (isa ? MMIPS32_J(tar) : MIPS32_ISA_J(tar))
#define MIPS32_JR(isa, reg) (isa ? MMIPS32_JR(reg) : MIPS32_ISA_JR(reg))
#define MIPS32_LB(isa, reg, off, base) (isa ? MMIPS32_LB(reg, off, base) : MIPS32_ISA_LB(reg, off, base))
#define MIPS32_LBU(isa, reg, off, base) (isa ? MMIPS32_LBU(reg, off, base) : MIPS32_ISA_LBU(reg, off, base))
#define MIPS32_LHU(isa, reg, off, base) (isa ? MMIPS32_LHU(reg, off, base) : MIPS32_ISA_LHU(reg, off, base))
#define MIPS32_LW(isa, reg, off, base) (isa ? MMIPS32_LW(reg, off, base) : MIPS32_ISA_LW(reg, off, base))
#define MIPS32_LUI(isa, reg, val) (isa ? MMIPS32_LUI(reg, val) : MIPS32_ISA_LUI(reg, val))
#define MIPS32_MFC0(isa, gpr, cpr, sel) (isa ? MMIPS32_MFC0(gpr, cpr, sel) : MIPS32_ISA_MFC0(gpr, cpr, sel))
#define MIPS32_MTC0(isa, gpr, cpr, sel) (isa ? MMIPS32_MTC0(gpr, cpr, sel) : MIPS32_ISA_MTC0(gpr, cpr, sel))
#define MIPS32_MFLO(isa, reg) (isa ? MMIPS32_MFLO(reg) : MIPS32_ISA_MFLO(reg))
#define MIPS32_MFHI(isa, reg) (isa ? MMIPS32_MFHI(reg) : MIPS32_ISA_MFHI(reg))
#define MIPS32_MTLO(isa, reg) (isa ? MMIPS32_MTLO(reg) : MIPS32_ISA_MTLO(reg))
#define MIPS32_MTHI(isa, reg) (isa ? MMIPS32_MTHI(reg) : MIPS32_ISA_MTHI(reg))
#define MIPS32_MOVN(isa, dst, src, tar) (isa ? MMIPS32_MOVN(dst, src, tar) : MIPS32_ISA_MOVN(dst, src, tar))
#define MIPS32_ORI(isa, tar, src, val) (isa ? MMIPS32_ORI(tar, src, val) : MIPS32_ISA_ORI(tar, src, val))
#define MIPS32_RDHWR(isa, tar, dst) (isa ? MMIPS32_RDHWR(tar, dst) : MIPS32_ISA_RDHWR(tar, dst))
#define MIPS32_SB(isa, reg, off, base) (isa ? MMIPS32_SB(reg, off, base) : MIPS32_ISA_SB(reg, off, base))
#define MIPS32_SH(isa, reg, off, base) (isa ? MMIPS32_SH(reg, off, base) : MIPS32_ISA_SH(reg, off, base))
#define MIPS32_SW(isa, reg, off, base) (isa ? MMIPS32_SW(reg, off, base) : MIPS32_ISA_SW(reg, off, base))
#define MIPS32_SLL(isa, dst, src, sa) (isa ? MMIPS32_SLL(dst, src, sa) : MIPS32_ISA_SLL(dst, src, sa))
#define MIPS32_SLTI(isa, tar, src, val) (isa ? MMIPS32_SLTI(tar, src, val) : MIPS32_ISA_SLTI(tar, src, val))
#define MIPS32_SLTU(isa, dst, src, tar) (isa ? MMIPS32_SLTU(dst, src, tar) : MIPS32_ISA_SLTU(dst, src, tar))
#define MIPS32_SRL(isa, reg, src, off) (isa ? MMIPS32_SRL(reg, src, off) : MIPS32_ISA_SRL(reg, src, off))
#define MIPS32_SYNCI(isa, off, base) (isa ? MMIPS32_SYNCI(off, base) : MIPS32_ISA_SYNCI(off, base))
#define MIPS32_SYNC(isa) (isa ? MMIPS32_SYNC : MIPS32_ISA_SYNC)
#define MIPS32_XOR(isa, reg, val1, val2) (isa ? MMIPS32_XOR(reg, val1, val2) : MIPS32_ISA_XOR(reg, val1, val2))
#define MIPS32_XORI(isa, tar, src, val) (isa ? MMIPS32_XORI(tar, src, val) : MIPS32_ISA_XORI(tar, src, val))
#define MIPS32_SYNCI_STEP 0x1
/* ejtag specific instructions */
#define MIPS32_DRET(isa) (isa ? MMIPS32_DRET : MIPS32_ISA_DRET)
#define MIPS32_SDBBP(isa) (isa ? MMIPS32_SDBBP : MIPS32_ISA_SDBBP)
#define MIPS16_SDBBP(isa) (isa ? MMIPS16_SDBBP : MIPS16_ISA_SDBBP)
extern const struct command_registration mips32_command_handlers[];
int mips32_arch_state(struct target *target);
int mips32_init_arch_info(struct target *target,
struct mips32_common *mips32, struct jtag_tap *tap);
int mips32_restore_context(struct target *target);
int mips32_save_context(struct target *target);
struct reg_cache *mips32_build_reg_cache(struct target *target);
int mips32_run_algorithm(struct target *target,
int num_mem_params, struct mem_param *mem_params,
int num_reg_params, struct reg_param *reg_params,
target_addr_t entry_point, target_addr_t exit_point,
int timeout_ms, void *arch_info);
int mips32_configure_break_unit(struct target *target);
int mips32_enable_interrupts(struct target *target, int enable);
int mips32_examine(struct target *target);
int mips32_read_config_regs(struct target *target);
int mips32_register_commands(struct command_context *cmd_ctx);
int mips32_get_gdb_reg_list(struct target *target,
struct reg **reg_list[], int *reg_list_size,
enum target_register_class reg_class);
int mips32_checksum_memory(struct target *target, target_addr_t address,
uint32_t count, uint32_t *checksum);
int mips32_blank_check_memory(struct target *target,
struct target_memory_check_block *blocks, int num_blocks, uint8_t erased_value);
#endif /* OPENOCD_TARGET_MIPS32_H */
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