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linux/arch/parisc/kernel/unwind.c
Helge Deller 009270208f parisc: Avoid crash due to unaligned access in unwinder 
commit fd9f30d103 upstream.

Guenter Roeck reported this kernel crash on his emulated B160L machine:

Starting network: udhcpc: started, v1.36.1
 Backtrace:
  [<104320d4>] unwind_once+0x1c/0x5c
  [<10434a00>] walk_stackframe.isra.0+0x74/0xb8
  [<10434a6c>] arch_stack_walk+0x28/0x38
  [<104e5efc>] stack_trace_save+0x48/0x5c
  [<105d1bdc>] set_track_prepare+0x44/0x6c
  [<105d9c80>] ___slab_alloc+0xfc4/0x1024
  [<105d9d38>] __slab_alloc.isra.0+0x58/0x90
  [<105dc80c>] kmem_cache_alloc_noprof+0x2ac/0x4a0
  [<105b8e54>] __anon_vma_prepare+0x60/0x280
  [<105a823c>] __vmf_anon_prepare+0x68/0x94
  [<105a8b34>] do_wp_page+0x8cc/0xf10
  [<105aad88>] handle_mm_fault+0x6c0/0xf08
  [<10425568>] do_page_fault+0x110/0x440
  [<10427938>] handle_interruption+0x184/0x748
  [<11178398>] schedule+0x4c/0x190
  BUG: spinlock recursion on CPU#0, ifconfig/2420
  lock: terminate_lock.2+0x0/0x1c, .magic: dead4ead, .owner: ifconfig/2420, .owner_cpu: 0

While creating the stack trace, the unwinder uses the stack pointer to guess
the previous frame to read the previous stack pointer from memory.  The crash
happens, because the unwinder tries to read from unaligned memory and as such
triggers the unalignment trap handler which then leads to the spinlock
recursion and finally to a deadlock.

Fix it by checking the alignment before accessing the memory.

Reported-by: Guenter Roeck <linux@roeck-us.net>
Signed-off-by: Helge Deller <deller@gmx.de>
Tested-by: Guenter Roeck <linux@roeck-us.net>
Cc: stable@vger.kernel.org # v6.12+
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
2025-11-13 15:37:46 -05:00

497 lines
13 KiB
C
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// SPDX-License-Identifier: GPL-2.0
/*
* Kernel unwinding support
*
* (c) 2002-2004 Randolph Chung <tausq@debian.org>
*
* Derived partially from the IA64 implementation. The PA-RISC
* Runtime Architecture Document is also a useful reference to
* understand what is happening here
*/
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/sort.h>
#include <linux/sched/task_stack.h>
#include <linux/uaccess.h>
#include <asm/assembly.h>
#include <asm/asm-offsets.h>
#include <asm/ptrace.h>
#include <asm/unwind.h>
#include <asm/switch_to.h>
#include <asm/sections.h>
#include <asm/ftrace.h>
/* #define DEBUG 1 */
#ifdef DEBUG
#define dbg(x...) pr_debug(x)
#else
#define dbg(x...) do { } while (0)
#endif
#define KERNEL_START (KERNEL_BINARY_TEXT_START)
#define ALIGNMENT_OK(ptr, type) (((ptr) & (sizeof(type) - 1)) == 0)
extern struct unwind_table_entry __start___unwind[];
extern struct unwind_table_entry __stop___unwind[];
static DEFINE_SPINLOCK(unwind_lock);
/*
* the kernel unwind block is not dynamically allocated so that
* we can call unwind_init as early in the bootup process as
* possible (before the slab allocator is initialized)
*/
static struct unwind_table kernel_unwind_table __ro_after_init;
static LIST_HEAD(unwind_tables);
static inline const struct unwind_table_entry *
find_unwind_entry_in_table(const struct unwind_table *table, unsigned long addr)
{
const struct unwind_table_entry *e = NULL;
unsigned long lo, hi, mid;
lo = 0;
hi = table->length - 1;
while (lo <= hi) {
mid = (hi - lo) / 2 + lo;
e = &table->table[mid];
if (addr < e->region_start)
hi = mid - 1;
else if (addr > e->region_end)
lo = mid + 1;
else
return e;
}
return NULL;
}
static const struct unwind_table_entry *
find_unwind_entry(unsigned long addr)
{
struct unwind_table *table;
const struct unwind_table_entry *e = NULL;
if (addr >= kernel_unwind_table.start &&
addr <= kernel_unwind_table.end)
e = find_unwind_entry_in_table(&kernel_unwind_table, addr);
else {
unsigned long flags;
spin_lock_irqsave(&unwind_lock, flags);
list_for_each_entry(table, &unwind_tables, list) {
if (addr >= table->start &&
addr <= table->end)
e = find_unwind_entry_in_table(table, addr);
if (e) {
/* Move-to-front to exploit common traces */
list_move(&table->list, &unwind_tables);
break;
}
}
spin_unlock_irqrestore(&unwind_lock, flags);
}
return e;
}
static void
unwind_table_init(struct unwind_table *table, const char *name,
unsigned long base_addr, unsigned long gp,
void *table_start, void *table_end)
{
struct unwind_table_entry *start = table_start;
struct unwind_table_entry *end =
(struct unwind_table_entry *)table_end - 1;
table->name = name;
table->base_addr = base_addr;
table->gp = gp;
table->start = base_addr + start->region_start;
table->end = base_addr + end->region_end;
table->table = (struct unwind_table_entry *)table_start;
table->length = end - start + 1;
INIT_LIST_HEAD(&table->list);
for (; start <= end; start++) {
if (start < end &&
start->region_end > (start+1)->region_start) {
pr_warn("Out of order unwind entry! %px and %px\n",
start, start+1);
}
start->region_start += base_addr;
start->region_end += base_addr;
}
}
static int cmp_unwind_table_entry(const void *a, const void *b)
{
return ((const struct unwind_table_entry *)a)->region_start
- ((const struct unwind_table_entry *)b)->region_start;
}
static void
unwind_table_sort(struct unwind_table_entry *start,
struct unwind_table_entry *finish)
{
sort(start, finish - start, sizeof(struct unwind_table_entry),
cmp_unwind_table_entry, NULL);
}
struct unwind_table *
unwind_table_add(const char *name, unsigned long base_addr,
unsigned long gp,
void *start, void *end)
{
struct unwind_table *table;
unsigned long flags;
struct unwind_table_entry *s = (struct unwind_table_entry *)start;
struct unwind_table_entry *e = (struct unwind_table_entry *)end;
unwind_table_sort(s, e);
table = kmalloc(sizeof(struct unwind_table), GFP_USER);
if (table == NULL)
return NULL;
unwind_table_init(table, name, base_addr, gp, start, end);
spin_lock_irqsave(&unwind_lock, flags);
list_add_tail(&table->list, &unwind_tables);
spin_unlock_irqrestore(&unwind_lock, flags);
return table;
}
void unwind_table_remove(struct unwind_table *table)
{
unsigned long flags;
spin_lock_irqsave(&unwind_lock, flags);
list_del(&table->list);
spin_unlock_irqrestore(&unwind_lock, flags);
kfree(table);
}
/* Called from setup_arch to import the kernel unwind info */
int __init unwind_init(void)
{
long start __maybe_unused, stop __maybe_unused;
register unsigned long gp __asm__ ("r27");
start = (long)&__start___unwind[0];
stop = (long)&__stop___unwind[0];
dbg("unwind_init: start = 0x%lx, end = 0x%lx, entries = %lu\n",
start, stop,
(stop - start) / sizeof(struct unwind_table_entry));
unwind_table_init(&kernel_unwind_table, "kernel", KERNEL_START,
gp,
&__start___unwind[0], &__stop___unwind[0]);
#if 0
{
int i;
for (i = 0; i < 10; i++)
{
printk("region 0x%x-0x%x\n",
__start___unwind[i].region_start,
__start___unwind[i].region_end);
}
}
#endif
return 0;
}
static bool pc_is_kernel_fn(unsigned long pc, void *fn)
{
return (unsigned long)dereference_kernel_function_descriptor(fn) == pc;
}
static int unwind_special(struct unwind_frame_info *info, unsigned long pc, int frame_size)
{
/*
* We have to use void * instead of a function pointer, because
* function pointers aren't a pointer to the function on 64-bit.
* Make them const so the compiler knows they live in .text
* Note: We could use dereference_kernel_function_descriptor()
* instead but we want to keep it simple here.
*/
extern void * const ret_from_kernel_thread;
extern void * const syscall_exit;
extern void * const intr_return;
extern void * const _switch_to_ret;
#ifdef CONFIG_IRQSTACKS
extern void * const _call_on_stack;
#endif /* CONFIG_IRQSTACKS */
if (pc_is_kernel_fn(pc, handle_interruption)) {
struct pt_regs *regs = (struct pt_regs *)(info->sp - frame_size - PT_SZ_ALGN);
dbg("Unwinding through handle_interruption()\n");
info->prev_sp = regs->gr[30];
info->prev_ip = regs->iaoq[0];
return 1;
}
if (pc == (unsigned long)&ret_from_kernel_thread ||
pc == (unsigned long)&syscall_exit) {
info->prev_sp = info->prev_ip = 0;
return 1;
}
if (pc == (unsigned long)&intr_return) {
struct pt_regs *regs;
dbg("Found intr_return()\n");
regs = (struct pt_regs *)(info->sp - PT_SZ_ALGN);
info->prev_sp = regs->gr[30];
info->prev_ip = regs->iaoq[0];
info->rp = regs->gr[2];
return 1;
}
if (pc_is_kernel_fn(pc, _switch_to) ||
pc == (unsigned long)&_switch_to_ret) {
info->prev_sp = info->sp - CALLEE_SAVE_FRAME_SIZE;
if (ALIGNMENT_OK(info->prev_sp, long))
info->prev_ip = *(unsigned long *)(info->prev_sp - RP_OFFSET);
else
info->prev_ip = info->prev_sp = 0;
return 1;
}
#ifdef CONFIG_IRQSTACKS
if (pc == (unsigned long)&_call_on_stack && ALIGNMENT_OK(info->sp, long)) {
info->prev_sp = *(unsigned long *)(info->sp - FRAME_SIZE - REG_SZ);
info->prev_ip = *(unsigned long *)(info->sp - FRAME_SIZE - RP_OFFSET);
return 1;
}
#endif
return 0;
}
static void unwind_frame_regs(struct unwind_frame_info *info)
{
const struct unwind_table_entry *e;
unsigned long npc;
unsigned int insn;
long frame_size = 0;
int looking_for_rp, rpoffset = 0;
e = find_unwind_entry(info->ip);
if (e == NULL) {
unsigned long sp;
dbg("Cannot find unwind entry for %pS; forced unwinding\n",
(void *) info->ip);
/* Since we are doing the unwinding blind, we don't know if
we are adjusting the stack correctly or extracting the rp
correctly. The rp is checked to see if it belongs to the
kernel text section, if not we assume we don't have a
correct stack frame and we continue to unwind the stack.
This is not quite correct, and will fail for loadable
modules. */
sp = info->sp & ~63;
do {
unsigned long tmp;
info->prev_sp = sp - 64;
info->prev_ip = 0;
/* Check if stack is inside kernel stack area */
if ((info->prev_sp - (unsigned long) task_stack_page(info->t))
>= THREAD_SIZE) {
info->prev_sp = 0;
break;
}
if (copy_from_kernel_nofault(&tmp,
(void *)info->prev_sp - RP_OFFSET, sizeof(tmp)))
break;
info->prev_ip = tmp;
sp = info->prev_sp;
} while (!kernel_text_address(info->prev_ip));
info->rp = 0;
dbg("analyzing func @ %lx with no unwind info, setting "
"prev_sp=%lx prev_ip=%lx\n", info->ip,
info->prev_sp, info->prev_ip);
} else {
dbg("e->start = 0x%x, e->end = 0x%x, Save_SP = %d, "
"Save_RP = %d, Millicode = %d size = %u\n",
e->region_start, e->region_end, e->Save_SP, e->Save_RP,
e->Millicode, e->Total_frame_size);
looking_for_rp = e->Save_RP;
for (npc = e->region_start;
(frame_size < (e->Total_frame_size << 3) ||
looking_for_rp) &&
npc < info->ip;
npc += 4) {
insn = *(unsigned int *)npc;
if ((insn & 0xffffc001) == 0x37de0000 ||
(insn & 0xffe00001) == 0x6fc00000) {
/* ldo X(sp), sp, or stwm X,D(sp) */
frame_size += (insn & 0x3fff) >> 1;
dbg("analyzing func @ %lx, insn=%08x @ "
"%lx, frame_size = %ld\n", info->ip,
insn, npc, frame_size);
} else if ((insn & 0xffe00009) == 0x73c00008) {
/* std,ma X,D(sp) */
frame_size += ((insn >> 4) & 0x3ff) << 3;
dbg("analyzing func @ %lx, insn=%08x @ "
"%lx, frame_size = %ld\n", info->ip,
insn, npc, frame_size);
} else if (insn == 0x6bc23fd9) {
/* stw rp,-20(sp) */
rpoffset = 20;
looking_for_rp = 0;
dbg("analyzing func @ %lx, insn=stw rp,"
"-20(sp) @ %lx\n", info->ip, npc);
} else if (insn == 0x0fc212c1) {
/* std rp,-16(sr0,sp) */
rpoffset = 16;
looking_for_rp = 0;
dbg("analyzing func @ %lx, insn=std rp,"
"-16(sp) @ %lx\n", info->ip, npc);
}
}
if (frame_size > e->Total_frame_size << 3)
frame_size = e->Total_frame_size << 3;
if (!unwind_special(info, e->region_start, frame_size)) {
info->prev_sp = info->sp - frame_size;
if (e->Millicode)
info->rp = info->r31;
else if (rpoffset && ALIGNMENT_OK(info->prev_sp, long))
info->rp = *(unsigned long *)(info->prev_sp - rpoffset);
else
info->rp = 0;
info->prev_ip = info->rp;
info->rp = 0;
}
dbg("analyzing func @ %lx, setting prev_sp=%lx "
"prev_ip=%lx npc=%lx\n", info->ip, info->prev_sp,
info->prev_ip, npc);
}
}
void unwind_frame_init(struct unwind_frame_info *info, struct task_struct *t,
struct pt_regs *regs)
{
memset(info, 0, sizeof(struct unwind_frame_info));
info->t = t;
info->sp = regs->gr[30];
info->ip = regs->iaoq[0];
info->rp = regs->gr[2];
info->r31 = regs->gr[31];
dbg("(%d) Start unwind from sp=%08lx ip=%08lx\n",
t ? (int)t->pid : -1, info->sp, info->ip);
}
void unwind_frame_init_from_blocked_task(struct unwind_frame_info *info, struct task_struct *t)
{
struct pt_regs *r = &t->thread.regs;
struct pt_regs *r2;
r2 = kmalloc(sizeof(struct pt_regs), GFP_ATOMIC);
if (!r2)
return;
*r2 = *r;
r2->gr[30] = r->ksp;
r2->iaoq[0] = r->kpc;
unwind_frame_init(info, t, r2);
kfree(r2);
}
#define get_parisc_stackpointer() ({ \
unsigned long sp; \
__asm__("copy %%r30, %0" : "=r"(sp)); \
(sp); \
})
void unwind_frame_init_task(struct unwind_frame_info *info,
struct task_struct *task, struct pt_regs *regs)
{
task = task ? task : current;
if (task == current) {
struct pt_regs r;
if (!regs) {
memset(&r, 0, sizeof(r));
r.iaoq[0] = _THIS_IP_;
r.gr[2] = _RET_IP_;
r.gr[30] = get_parisc_stackpointer();
regs = &r;
}
unwind_frame_init(info, task, regs);
} else {
unwind_frame_init_from_blocked_task(info, task);
}
}
int unwind_once(struct unwind_frame_info *next_frame)
{
unwind_frame_regs(next_frame);
if (next_frame->prev_sp == 0 ||
next_frame->prev_ip == 0)
return -1;
next_frame->sp = next_frame->prev_sp;
next_frame->ip = next_frame->prev_ip;
next_frame->prev_sp = 0;
next_frame->prev_ip = 0;
dbg("(%d) Continue unwind to sp=%08lx ip=%08lx\n",
next_frame->t ? (int)next_frame->t->pid : -1,
next_frame->sp, next_frame->ip);
return 0;
}
int unwind_to_user(struct unwind_frame_info *info)
{
int ret;
do {
ret = unwind_once(info);
} while (!ret && !(info->ip & 3));
return ret;
}
unsigned long return_address(unsigned int level)
{
struct unwind_frame_info info;
/* initialize unwind info */
unwind_frame_init_task(&info, current, NULL);
/* unwind stack */
level += 2;
do {
if (unwind_once(&info) < 0 || info.ip == 0)
return 0;
if (!kernel_text_address(info.ip))
return 0;
} while (info.ip && level--);
return info.ip;
}
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