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x86/kprobes: Fix instruction recovery on optimized path
Current probed-instruction recovery expects that only breakpoint instruction modifies instruction. However, since kprobes jump optimization can replace original instructions with a jump, that expectation is not enough. And it may cause instruction decoding failure on the function where an optimized probe already exists. This bug can reproduce easily as below: 1) find a target function address (any kprobe-able function is OK) $ grep __secure_computing /proc/kallsyms ffffffff810c19d0 T __secure_computing 2) decode the function $ objdump -d vmlinux --start-address=0xffffffff810c19d0 --stop-address=0xffffffff810c19eb vmlinux: file format elf64-x86-64 Disassembly of section .text: ffffffff810c19d0 <__secure_computing>: ffffffff810c19d0: 55 push %rbp ffffffff810c19d1: 48 89 e5 mov %rsp,%rbp ffffffff810c19d4: e8 67 8f 72 00 callq ffffffff817ea940 <mcount> ffffffff810c19d9: 65 48 8b 04 25 40 b8 mov %gs:0xb840,%rax ffffffff810c19e0: 00 00 ffffffff810c19e2: 83 b8 88 05 00 00 01 cmpl $0x1,0x588(%rax) ffffffff810c19e9: 74 05 je ffffffff810c19f0 <__secure_computing+0x20> 3) put a kprobe-event at an optimize-able place, where no call/jump places within the 5 bytes. $ su - # cd /sys/kernel/debug/tracing # echo p __secure_computing+0x9 > kprobe_events 4) enable it and check it is optimized. # echo 1 > events/kprobes/p___secure_computing_9/enable # cat ../kprobes/list ffffffff810c19d9 k __secure_computing+0x9 [OPTIMIZED] 5) put another kprobe on an instruction after previous probe in the same function. # echo p __secure_computing+0x12 >> kprobe_events bash: echo: write error: Invalid argument # dmesg | tail -n 1 [ 1666.500016] Probing address(0xffffffff810c19e2) is not an instruction boundary. 6) however, if the kprobes optimization is disabled, it works. # echo 0 > /proc/sys/debug/kprobes-optimization # cat ../kprobes/list ffffffff810c19d9 k __secure_computing+0x9 # echo p __secure_computing+0x12 >> kprobe_events (no error) This is because kprobes doesn't recover the instruction which is overwritten with a relative jump by another kprobe when finding instruction boundary. It only recovers the breakpoint instruction. This patch fixes kprobes to recover such instructions. With this fix: # echo p __secure_computing+0x9 > kprobe_events # echo 1 > events/kprobes/p___secure_computing_9/enable # cat ../kprobes/list ffffffff810c1aa9 k __secure_computing+0x9 [OPTIMIZED] # echo p __secure_computing+0x12 >> kprobe_events # cat ../kprobes/list ffffffff810c1aa9 k __secure_computing+0x9 [OPTIMIZED] ffffffff810c1ab2 k __secure_computing+0x12 [DISABLED] Changes in v4: - Fix a bug to ensure optimized probe is really optimized by jump. - Remove kprobe_optready() dependency. - Cleanup code for preparing optprobe separation. Changes in v3: - Fix a build error when CONFIG_OPTPROBE=n. (Thanks, Ingo!) To fix the error, split optprobe instruction recovering path from kprobes path. - Cleanup comments/styles. Changes in v2: - Fix a bug to recover original instruction address in RIP-relative instruction fixup. - Moved on tip/master. Signed-off-by: Masami Hiramatsu <masami.hiramatsu.pt@hitachi.com> Cc: Ananth N Mavinakayanahalli <ananth@in.ibm.com> Cc: yrl.pp-manager.tt@hitachi.com Cc: systemtap@sourceware.org Cc: anderson@redhat.com Link: http://lkml.kernel.org/r/20120305133209.5982.36568.stgit@localhost.localdomain Signed-off-by: Ingo Molnar <mingo@elte.hu>
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@ -207,13 +207,15 @@ static int __kprobes can_boost(kprobe_opcode_t *opcodes)
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}
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}
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/* Recover the probed instruction at addr for further analysis. */
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static int recover_probed_instruction(kprobe_opcode_t *buf, unsigned long addr)
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static unsigned long __recover_probed_insn(kprobe_opcode_t *buf,
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unsigned long addr)
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{
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struct kprobe *kp;
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kp = get_kprobe((void *)addr);
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/* There is no probe, return original address */
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if (!kp)
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return -EINVAL;
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return addr;
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/*
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* Basically, kp->ainsn.insn has an original instruction.
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@ -230,14 +232,76 @@ static int recover_probed_instruction(kprobe_opcode_t *buf, unsigned long addr)
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*/
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memcpy(buf, kp->addr, MAX_INSN_SIZE * sizeof(kprobe_opcode_t));
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buf[0] = kp->opcode;
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return 0;
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return (unsigned long)buf;
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}
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#ifdef CONFIG_OPTPROBES
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static unsigned long __recover_optprobed_insn(kprobe_opcode_t *buf,
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unsigned long addr)
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{
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struct optimized_kprobe *op;
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struct kprobe *kp;
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long offs;
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int i;
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for (i = 0; i < RELATIVEJUMP_SIZE; i++) {
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kp = get_kprobe((void *)addr - i);
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/* This function only handles jump-optimized kprobe */
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if (kp && kprobe_optimized(kp)) {
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op = container_of(kp, struct optimized_kprobe, kp);
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/* If op->list is not empty, op is under optimizing */
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if (list_empty(&op->list))
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goto found;
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}
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}
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return addr;
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found:
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/*
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* If the kprobe can be optimized, original bytes which can be
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* overwritten by jump destination address. In this case, original
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* bytes must be recovered from op->optinsn.copied_insn buffer.
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*/
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memcpy(buf, (void *)addr, MAX_INSN_SIZE * sizeof(kprobe_opcode_t));
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if (addr == (unsigned long)kp->addr) {
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buf[0] = kp->opcode;
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memcpy(buf + 1, op->optinsn.copied_insn, RELATIVE_ADDR_SIZE);
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} else {
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offs = addr - (unsigned long)kp->addr - 1;
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memcpy(buf, op->optinsn.copied_insn + offs, RELATIVE_ADDR_SIZE - offs);
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}
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return (unsigned long)buf;
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}
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#else
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static inline unsigned long __recover_optprobed_insn(kprobe_opcode_t *buf,
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unsigned long addr)
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{
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return addr;
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}
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#endif
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/*
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* Recover the probed instruction at addr for further analysis.
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* Caller must lock kprobes by kprobe_mutex, or disable preemption
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* for preventing to release referencing kprobes.
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*/
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static unsigned long recover_probed_instruction(kprobe_opcode_t *buf,
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unsigned long addr)
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{
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unsigned long __addr;
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__addr = __recover_optprobed_insn(buf, addr);
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if (__addr != addr)
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return __addr;
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return __recover_probed_insn(buf, addr);
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}
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/* Check if paddr is at an instruction boundary */
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static int __kprobes can_probe(unsigned long paddr)
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{
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int ret;
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unsigned long addr, offset = 0;
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unsigned long addr, __addr, offset = 0;
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struct insn insn;
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kprobe_opcode_t buf[MAX_INSN_SIZE];
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@ -247,26 +311,24 @@ static int __kprobes can_probe(unsigned long paddr)
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/* Decode instructions */
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addr = paddr - offset;
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while (addr < paddr) {
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kernel_insn_init(&insn, (void *)addr);
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insn_get_opcode(&insn);
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/*
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* Check if the instruction has been modified by another
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* kprobe, in which case we replace the breakpoint by the
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* original instruction in our buffer.
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* Also, jump optimization will change the breakpoint to
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* relative-jump. Since the relative-jump itself is
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* normally used, we just go through if there is no kprobe.
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*/
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if (insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION) {
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ret = recover_probed_instruction(buf, addr);
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if (ret)
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/*
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* Another debugging subsystem might insert
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* this breakpoint. In that case, we can't
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* recover it.
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*/
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return 0;
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kernel_insn_init(&insn, buf);
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}
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__addr = recover_probed_instruction(buf, addr);
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kernel_insn_init(&insn, (void *)__addr);
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insn_get_length(&insn);
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/*
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* Another debugging subsystem might insert this breakpoint.
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* In that case, we can't recover it.
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*/
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if (insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION)
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return 0;
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addr += insn.length;
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}
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@ -302,21 +364,17 @@ static int __kprobes is_IF_modifier(kprobe_opcode_t *insn)
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static int __kprobes __copy_instruction(u8 *dest, u8 *src, int recover)
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{
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struct insn insn;
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int ret;
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kprobe_opcode_t buf[MAX_INSN_SIZE];
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u8 *orig_src = src; /* Back up original src for RIP calculation */
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if (recover)
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src = (u8 *)recover_probed_instruction(buf, (unsigned long)src);
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kernel_insn_init(&insn, src);
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if (recover) {
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insn_get_opcode(&insn);
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if (insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION) {
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ret = recover_probed_instruction(buf,
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(unsigned long)src);
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if (ret)
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return 0;
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kernel_insn_init(&insn, buf);
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}
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}
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insn_get_length(&insn);
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/* Another subsystem puts a breakpoint, failed to recover */
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if (recover && insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION)
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return 0;
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memcpy(dest, insn.kaddr, insn.length);
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#ifdef CONFIG_X86_64
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@ -337,8 +395,7 @@ static int __kprobes __copy_instruction(u8 *dest, u8 *src, int recover)
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* extension of the original signed 32-bit displacement would
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* have given.
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*/
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newdisp = (u8 *) src + (s64) insn.displacement.value -
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(u8 *) dest;
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newdisp = (u8 *) orig_src + (s64) insn.displacement.value - (u8 *) dest;
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BUG_ON((s64) (s32) newdisp != newdisp); /* Sanity check. */
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disp = (u8 *) dest + insn_offset_displacement(&insn);
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*(s32 *) disp = (s32) newdisp;
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@ -1271,8 +1328,7 @@ static int insn_jump_into_range(struct insn *insn, unsigned long start, int len)
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/* Decode whole function to ensure any instructions don't jump into target */
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static int __kprobes can_optimize(unsigned long paddr)
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{
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int ret;
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unsigned long addr, size = 0, offset = 0;
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unsigned long addr, __addr, size = 0, offset = 0;
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struct insn insn;
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kprobe_opcode_t buf[MAX_INSN_SIZE];
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@ -1301,15 +1357,12 @@ static int __kprobes can_optimize(unsigned long paddr)
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* we can't optimize kprobe in this function.
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*/
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return 0;
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kernel_insn_init(&insn, (void *)addr);
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insn_get_opcode(&insn);
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if (insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION) {
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ret = recover_probed_instruction(buf, addr);
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if (ret)
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return 0;
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kernel_insn_init(&insn, buf);
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}
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__addr = recover_probed_instruction(buf, addr);
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kernel_insn_init(&insn, (void *)__addr);
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insn_get_length(&insn);
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/* Another subsystem puts a breakpoint */
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if (insn.opcode.bytes[0] == BREAKPOINT_INSTRUCTION)
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return 0;
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/* Recover address */
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insn.kaddr = (void *)addr;
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insn.next_byte = (void *)(addr + insn.length);
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@ -1366,6 +1419,7 @@ void __kprobes arch_remove_optimized_kprobe(struct optimized_kprobe *op)
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/*
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* Copy replacing target instructions
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* Target instructions MUST be relocatable (checked inside)
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* This is called when new aggr(opt)probe is allocated or reused.
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*/
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int __kprobes arch_prepare_optimized_kprobe(struct optimized_kprobe *op)
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{
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