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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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3cf5d076fb
All of the remaining callers pass current into force_sig so remove the task parameter to make this obvious and to make misuse more difficult in the future. This also makes it clear force_sig passes current into force_sig_info. Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com>
257 lines
7.2 KiB
C
257 lines
7.2 KiB
C
/*
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* ptrace cpu depend helper functions
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*
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* Copyright 2003, 2015 Yoshinori Sato <ysato@users.sourceforge.jp>
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*
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* This file is subject to the terms and conditions of the GNU General
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* Public License. See the file COPYING in the main directory of
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* this archive for more details.
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*/
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#include <linux/linkage.h>
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#include <linux/sched/signal.h>
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#include <asm/ptrace.h>
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#define BREAKINST 0x5730 /* trapa #3 */
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/* disable singlestep */
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void user_disable_single_step(struct task_struct *child)
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{
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if ((long)child->thread.breakinfo.addr != -1L) {
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*(child->thread.breakinfo.addr) = child->thread.breakinfo.inst;
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child->thread.breakinfo.addr = (unsigned short *)-1L;
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}
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}
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/* calculate next pc */
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enum jump_type {none, /* normal instruction */
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jabs, /* absolute address jump */
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ind, /* indirect address jump */
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ret, /* return to subrutine */
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reg, /* register indexed jump */
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relb, /* pc relative jump (byte offset) */
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relw, /* pc relative jump (word offset) */
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};
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/* opcode decode table define
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ptn: opcode pattern
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msk: opcode bitmask
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len: instruction length (<0 next table index)
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jmp: jump operation mode */
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struct optable {
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unsigned char bitpattern;
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unsigned char bitmask;
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signed char length;
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signed char type;
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} __packed __aligned(1);
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#define OPTABLE(ptn, msk, len, jmp) \
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{ \
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.bitpattern = ptn, \
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.bitmask = msk, \
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.length = len, \
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.type = jmp, \
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}
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static const struct optable optable_0[] = {
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OPTABLE(0x00, 0xff, 1, none), /* 0x00 */
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OPTABLE(0x01, 0xff, -1, none), /* 0x01 */
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OPTABLE(0x02, 0xfe, 1, none), /* 0x02-0x03 */
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OPTABLE(0x04, 0xee, 1, none), /* 0x04-0x05/0x14-0x15 */
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OPTABLE(0x06, 0xfe, 1, none), /* 0x06-0x07 */
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OPTABLE(0x08, 0xea, 1, none), /* 0x08-0x09/0x0c-0x0d/0x18-0x19/0x1c-0x1d */
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OPTABLE(0x0a, 0xee, 1, none), /* 0x0a-0x0b/0x1a-0x1b */
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OPTABLE(0x0e, 0xee, 1, none), /* 0x0e-0x0f/0x1e-0x1f */
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OPTABLE(0x10, 0xfc, 1, none), /* 0x10-0x13 */
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OPTABLE(0x16, 0xfe, 1, none), /* 0x16-0x17 */
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OPTABLE(0x20, 0xe0, 1, none), /* 0x20-0x3f */
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OPTABLE(0x40, 0xf0, 1, relb), /* 0x40-0x4f */
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OPTABLE(0x50, 0xfc, 1, none), /* 0x50-0x53 */
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OPTABLE(0x54, 0xfd, 1, ret), /* 0x54/0x56 */
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OPTABLE(0x55, 0xff, 1, relb), /* 0x55 */
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OPTABLE(0x57, 0xff, 1, none), /* 0x57 */
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OPTABLE(0x58, 0xfb, 2, relw), /* 0x58/0x5c */
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OPTABLE(0x59, 0xfb, 1, reg), /* 0x59/0x5b */
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OPTABLE(0x5a, 0xfb, 2, jabs), /* 0x5a/0x5e */
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OPTABLE(0x5b, 0xfb, 2, ind), /* 0x5b/0x5f */
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OPTABLE(0x60, 0xe8, 1, none), /* 0x60-0x67/0x70-0x77 */
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OPTABLE(0x68, 0xfa, 1, none), /* 0x68-0x69/0x6c-0x6d */
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OPTABLE(0x6a, 0xfe, -2, none), /* 0x6a-0x6b */
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OPTABLE(0x6e, 0xfe, 2, none), /* 0x6e-0x6f */
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OPTABLE(0x78, 0xff, 4, none), /* 0x78 */
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OPTABLE(0x79, 0xff, 2, none), /* 0x79 */
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OPTABLE(0x7a, 0xff, 3, none), /* 0x7a */
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OPTABLE(0x7b, 0xff, 2, none), /* 0x7b */
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OPTABLE(0x7c, 0xfc, 2, none), /* 0x7c-0x7f */
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OPTABLE(0x80, 0x80, 1, none), /* 0x80-0xff */
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};
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static const struct optable optable_1[] = {
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OPTABLE(0x00, 0xff, -3, none), /* 0x0100 */
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OPTABLE(0x40, 0xf0, -3, none), /* 0x0140-0x14f */
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OPTABLE(0x80, 0xf0, 1, none), /* 0x0180-0x018f */
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OPTABLE(0xc0, 0xc0, 2, none), /* 0x01c0-0x01ff */
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};
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static const struct optable optable_2[] = {
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OPTABLE(0x00, 0x20, 2, none), /* 0x6a0?/0x6a8?/0x6b0?/0x6b8? */
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OPTABLE(0x20, 0x20, 3, none), /* 0x6a2?/0x6aa?/0x6b2?/0x6ba? */
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};
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static const struct optable optable_3[] = {
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OPTABLE(0x69, 0xfb, 2, none), /* 0x010069/0x01006d/014069/0x01406d */
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OPTABLE(0x6b, 0xff, -4, none), /* 0x01006b/0x01406b */
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OPTABLE(0x6f, 0xff, 3, none), /* 0x01006f/0x01406f */
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OPTABLE(0x78, 0xff, 5, none), /* 0x010078/0x014078 */
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};
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static const struct optable optable_4[] = {
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/* 0x0100690?/0x01006d0?/0140690?/0x01406d0?/
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0x0100698?/0x01006d8?/0140698?/0x01406d8? */
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OPTABLE(0x00, 0x78, 3, none),
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/* 0x0100692?/0x01006d2?/0140692?/0x01406d2?/
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0x010069a?/0x01006da?/014069a?/0x01406da? */
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OPTABLE(0x20, 0x78, 4, none),
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};
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static const struct optables_list {
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const struct optable *ptr;
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int size;
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} optables[] = {
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#define OPTABLES(no) \
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{ \
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.ptr = optable_##no, \
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.size = sizeof(optable_##no) / sizeof(struct optable), \
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}
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OPTABLES(0),
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OPTABLES(1),
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OPTABLES(2),
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OPTABLES(3),
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OPTABLES(4),
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};
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const unsigned char condmask[] = {
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0x00, 0x40, 0x01, 0x04, 0x02, 0x08, 0x10, 0x20
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};
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static int isbranch(struct task_struct *task, int reson)
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{
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unsigned char cond = h8300_get_reg(task, PT_CCR);
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/* encode complex conditions */
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/* B4: N^V
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B5: Z|(N^V)
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B6: C|Z */
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__asm__("bld #3,%w0\n\t"
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"bxor #1,%w0\n\t"
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"bst #4,%w0\n\t"
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"bor #2,%w0\n\t"
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"bst #5,%w0\n\t"
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"bld #2,%w0\n\t"
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"bor #0,%w0\n\t"
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"bst #6,%w0\n\t"
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: "=&r"(cond) : "0"(cond) : "cc");
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cond &= condmask[reson >> 1];
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if (!(reson & 1))
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return cond == 0;
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else
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return cond != 0;
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}
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static unsigned short *decode(struct task_struct *child,
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const struct optable *op,
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char *fetch_p, unsigned short *pc,
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unsigned char inst)
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{
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unsigned long addr;
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unsigned long *sp;
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int regno;
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switch (op->type) {
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case none:
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return (unsigned short *)pc + op->length;
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case jabs:
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addr = *(unsigned long *)pc;
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return (unsigned short *)(addr & 0x00ffffff);
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case ind:
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addr = *pc & 0xff;
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return (unsigned short *)(*(unsigned long *)addr);
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case ret:
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sp = (unsigned long *)h8300_get_reg(child, PT_USP);
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/* user stack frames
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| er0 | temporary saved
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+--------+
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| exp | exception stack frames
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+--------+
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| ret pc | userspace return address
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*/
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return (unsigned short *)(*(sp+2) & 0x00ffffff);
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case reg:
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regno = (*pc >> 4) & 0x07;
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if (regno == 0)
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addr = h8300_get_reg(child, PT_ER0);
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else
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addr = h8300_get_reg(child, regno-1 + PT_ER1);
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return (unsigned short *)addr;
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case relb:
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if (inst == 0x55 || isbranch(child, inst & 0x0f))
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pc = (unsigned short *)((unsigned long)pc +
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((signed char)(*fetch_p)));
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return pc+1; /* skip myself */
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case relw:
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if (inst == 0x5c || isbranch(child, (*fetch_p & 0xf0) >> 4))
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pc = (unsigned short *)((unsigned long)pc +
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((signed short)(*(pc+1))));
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return pc+2; /* skip myself */
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default:
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return NULL;
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}
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}
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static unsigned short *nextpc(struct task_struct *child, unsigned short *pc)
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{
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const struct optable *op;
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unsigned char *fetch_p;
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int op_len;
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unsigned char inst;
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op = optables[0].ptr;
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op_len = optables[0].size;
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fetch_p = (unsigned char *)pc;
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inst = *fetch_p++;
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do {
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if ((inst & op->bitmask) == op->bitpattern) {
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if (op->length < 0) {
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op = optables[-op->length].ptr;
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op_len = optables[-op->length].size + 1;
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inst = *fetch_p++;
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} else
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return decode(child, op, fetch_p, pc, inst);
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} else
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op++;
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} while (--op_len > 0);
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return NULL;
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}
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/* Set breakpoint(s) to simulate a single step from the current PC. */
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void user_enable_single_step(struct task_struct *child)
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{
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unsigned short *next;
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next = nextpc(child, (unsigned short *)h8300_get_reg(child, PT_PC));
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child->thread.breakinfo.addr = next;
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child->thread.breakinfo.inst = *next;
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*next = BREAKINST;
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}
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asmlinkage void trace_trap(unsigned long bp)
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{
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if ((unsigned long)current->thread.breakinfo.addr == bp) {
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user_disable_single_step(current);
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force_sig(SIGTRAP);
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} else
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force_sig(SIGILL);
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}
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