kprobing "hash_64.constprop.26" crashes the system, recursion through get_kprobe?

[Timo Juhani Lindfors]

There is a long-standing problem in the systemtap community where
accidentally kprobing a delicate function causes the system to crash:

http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=604453
http://sourceware.org/bugzilla/show_bug.cgi?id=2725
https://bugzilla.redhat.com/show_bug.cgi?id=655904
http://sourceware.org/bugzilla/show_bug.cgi?id=13659

The current solution is to mark these functions with __kprobes that
places them to a separate kprobe-free section (from __kprobes_text_start
to __kprobes_text_end). This has the nice side effect that also inlined
copies of innocent functions can not be kprobed when they are called
from functions marked with __kprobes.

Now, hash_64 is marked "inline" but this is only a hint for the
compiler. On my Debian unstable system (Linux 3.7.3-1~experimental.1)
hash_64 actually exists in six different places thanks to the GCC
ipa-cp (interprocedural constant propagation) optimization:

$ grep -E "(__kprobes_text|hash_64|get_kprobe)" /boot/System.map-3.7-trunk-amd64
ffffffff810075f8 t hash_64.constprop.8
ffffffff810544a4 t hash_64
ffffffff81099908 t hash_64.constprop.26
ffffffff810b8a95 t hash_64.constprop.75
ffffffff810f70dc t hash_64.constprop.22
ffffffff811a33cc t hash_64.constprop.16
ffffffff81378538 T __kprobes_text_start
ffffffff8137c5b2 T get_kprobe
ffffffff8137d522 T __kprobes_text_end

Disassembly shows that get_kprobe calls one of these clones:

ffffffff8137c5b2 <get_kprobe>:
ffffffff8137c5b2:	53                   	push   %rbx
ffffffff8137c5b3:	48 89 fb             	mov    %rdi,%rbx
ffffffff8137c5b6:	e8 4d d3 d1 ff       	callq  ffffffff81099908 <hash_64.constprop.26>
ffffffff8137c5bb:	48 8b 04 c5 10 97 7b 	mov    -0x7e8468f0(,%rax,8),%rax
ffffffff8137c5c2:	81 
ffffffff8137c5c3:	eb 03                	jmp    ffffffff8137c5c8 <get_kprobe+0x16>
ffffffff8137c5c5:	48 8b 00             	mov    (%rax),%rax
ffffffff8137c5c8:	48 85 c0             	test   %rax,%rax
ffffffff8137c5cb:	74 08                	je     ffffffff8137c5d5 <get_kprobe+0x23>
ffffffff8137c5cd:	48 39 58 28          	cmp    %rbx,0x28(%rax)
ffffffff8137c5d1:	75 f2                	jne    ffffffff8137c5c5 <get_kprobe+0x13>
ffffffff8137c5d3:	eb 02                	jmp    ffffffff8137c5d7 <get_kprobe+0x25>
ffffffff8137c5d5:	31 c0                	xor    %eax,%eax
ffffffff8137c5d7:	5b                   	pop    %rbx
ffffffff8137c5d8:	c3                   	retq   

Trying to kprobe "hash_64.constprop.26" using



#include <linux/kprobes.h>
#include <linux/module.h>
#include <linux/ptrace.h>

static int handle_hash_64(struct kprobe *p, struct pt_regs *regs) {
    return 0;
}

static struct kprobe probe_hash_64 = {
    .symbol_name = "hash_64.constprop.26",
    .pre_handler = handle_hash_64,
};

static int __init init_testcase1(void) {
    int ret;
    
    ret = register_kprobe(&probe_hash_64);
    if (ret < 0) {
        printk(KERN_WARNING "register_kprobe failed with %d\n", ret);
        return -EINVAL;
    }
    return 0;
}

static void __exit cleanup_testcase1(void) {
    unregister_kprobe(&probe_hash_64);
}

MODULE_LICENSE("GPL");
module_init(init_testcase1);
module_exit(cleanup_testcase1);



crashes the system. I used the "xm dump-core" facility of xen to dump
the memory of the domU and obtained the following bactrace using
"crash vm.img /usr/lib/debug/boot/vmlinux-3.7-trunk-amd64" and
"for bt":

PID: 3007   TASK: ffff88003b9bb840  CPU: 0   COMMAND: "insmod"
 #0 [ffff88003db99998] __schedule at ffffffff813777f8
 #1 [ffff88003db999a8] hash_64.constprop.26 at ffffffff81099909
 #2 [ffff88003db999d0] get_kprobe at ffffffff8137c5bb
 #3 [ffff88003db999e0] kprobe_exceptions_notify at ffffffff8137a3c1
 #4 [ffff88003db99a40] notifier_call_chain at ffffffff8137b5a3
 #5 [ffff88003db99a80] notify_die at ffffffff8137b60c
 #6 [ffff88003db99ab0] do_int3 at ffffffff81378fa0
 #7 [ffff88003db99ad0] xen_int3 at ffffffff8137887e
    [exception RIP: hash_64.constprop.26+1]
    RIP: ffffffff81099909  RSP: ffff88003db99b80  RFLAGS: 00000086
    RAX: 0000000000000000  RBX: ffffffff81099908  RCX: 00000000ffffffff
    RDX: ffff88003db99c38  RSI: 0000000000000002  RDI: ffffffff81099908
    RBP: 0000000000000002   R8: 0000000000000000   R9: ffffffff81629b10
    R10: 00000000000066a8  R11: ffffffffa016a000  R12: ffff88003f80dd90
    R13: ffffffff81099908  R14: ffffffff81099909  R15: ffffffffa016a010
    ORIG_RAX: ffffffffffffffff  CS: 10000e030  SS: e02b
 #8 [ffff88003db99b80] get_kprobe at ffffffff8137c5bb
 #9 [ffff88003db99b90] kprobe_exceptions_notify at ffffffff8137a3c1
#10 [ffff88003db99bf0] notifier_call_chain at ffffffff8137b5a3
#11 [ffff88003db99c30] notify_die at ffffffff8137b60c
#12 [ffff88003db99c60] do_int3 at ffffffff81378fa0
#13 [ffff88003db99c80] xen_int3 at ffffffff8137887e
    [exception RIP: hash_64.constprop.26+1]
    RIP: ffffffff81099909  RSP: ffff88003db99d30  RFLAGS: 00000246
    RAX: 0000000000000000  RBX: ffffffff81099908  RCX: ffffffffa0000521
    RDX: ffffffff81099908  RSI: ffffffff81099908  RDI: ffffffff81099908
    RBP: ffff88003db99e10   R8: 000000000000140b   R9: ffffffff81099908
    R10: 00000000000066a8  R11: ffffffffa016a000  R12: ffffffff81099908
    R13: ffffffff81099903  R14: 0000000000000000  R15: ffffffffa016a010
    ORIG_RAX: ffffffffffffffff  CS: e030  SS: e02b
#14 [ffff88003db99d30] get_kprobe at ffffffff8137c5bb
#15 [ffff88003db99d40] __recover_optprobed_insn at ffffffff8102d4d4
#16 [ffff88003db99d70] recover_probed_instruction at ffffffff8102d479
#17 [ffff88003db99d90] can_optimize at ffffffff8137a952
#18 [ffff88003db99e50] arch_prepare_optimized_kprobe at ffffffff8137ab2c
#19 [ffff88003db99ea0] alloc_aggr_kprobe.isra.17 at ffffffff8137bb9b
#20 [ffff88003db99ec0] register_kprobe at ffffffff8137cf16
#21 [ffff88003db99f00] init_module at ffffffffa000600d [testcase1]
#22 [ffff88003db99f10] do_one_initcall at ffffffff810020b6
#23 [ffff88003db99f40] sys_init_module at ffffffff81083c4f
#24 [ffff88003db99f80] system_call_fastpath at ffffffff8137d6e9
    RIP: 00007f4aef62414a  RSP: 00007fffbd2e9d08  RFLAGS: 00000202
    RAX: 00000000000000af  RBX: ffffffff8137d6e9  RCX: 00007f4aef62048a
    RDX: 00007f4aef8e3f68  RSI: 000000000002b833  RDI: 00007f4aefcca000
    RBP: 00007f4af0a391a0   R8: 0000000000000003   R9: 0000000000000000
    R10: 00007f4aef62048a  R11: 0000000000000202  R12: 00007f4aef8e3f68
    R13: 00007f4af0a39270  R14: 00007f4af0a38090  R15: 0000000000000000
    ORIG_RAX: 00000000000000af  CS: e033  SS: e02b


It seems that the recursion occurs even before register_kprobe
returns. I am not sure how this should be solved. Should we mark hash_64
with __kprobes? Or perhaps with __attribute__((always_inline))?
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