forked from luck/tmp_suning_uos_patched
d1c392c9e2
I hit the following splat in my tests:
------------[ cut here ]------------
IRQs not enabled as expected
WARNING: CPU: 3 PID: 0 at kernel/time/tick-sched.c:982 tick_nohz_idle_enter+0x44/0x8c
Modules linked in: ip6t_REJECT nf_reject_ipv6 ip6table_filter ip6_tables ipv6
CPU: 3 PID: 0 Comm: swapper/3 Not tainted 4.19.0-rc2-test+ #2
Hardware name: MSI MS-7823/CSM-H87M-G43 (MS-7823), BIOS V1.6 02/22/2014
EIP: tick_nohz_idle_enter+0x44/0x8c
Code: ec 05 00 00 00 75 26 83 b8 c0 05 00 00 00 75 1d 80 3d d0 36 3e c1 00
75 14 68 94 63 12 c1 c6 05 d0 36 3e c1 01 e8 04 ee f8 ff <0f> 0b 58 fa bb a0
e5 66 c1 e8 25 0f 04 00 64 03 1d 28 31 52 c1 8b
EAX: 0000001c EBX: f26e7f8c ECX: 00000006 EDX: 00000007
ESI: f26dd1c0 EDI: 00000000 EBP: f26e7f40 ESP: f26e7f38
DS: 007b ES: 007b FS: 00d8 GS: 00e0 SS: 0068 EFLAGS: 00010296
CR0: 80050033 CR2: 0813c6b0 CR3: 2f342000 CR4: 001406f0
Call Trace:
do_idle+0x33/0x202
cpu_startup_entry+0x61/0x63
start_secondary+0x18e/0x1ed
startup_32_smp+0x164/0x168
irq event stamp: 18773830
hardirqs last enabled at (18773829): [<c040150c>] trace_hardirqs_on_thunk+0xc/0x10
hardirqs last disabled at (18773830): [<c040151c>] trace_hardirqs_off_thunk+0xc/0x10
softirqs last enabled at (18773824): [<c0ddaa6f>] __do_softirq+0x25f/0x2bf
softirqs last disabled at (18773767): [<c0416bbe>] call_on_stack+0x45/0x4b
---[ end trace b7c64aa79e17954a ]---
After a bit of debugging, I found what was happening. This would trigger
when performing "perf" with a high NMI interrupt rate, while enabling and
disabling function tracer. Ftrace uses breakpoints to convert the nops at
the start of functions to calls to the function trampolines. The breakpoint
traps disable interrupts and this makes calls into lockdep via the
trace_hardirqs_off_thunk in the entry.S code. What happens is the following:
do_idle {
[interrupts enabled]
<interrupt> [interrupts disabled]
TRACE_IRQS_OFF [lockdep says irqs off]
[...]
TRACE_IRQS_IRET
test if pt_regs say return to interrupts enabled [yes]
TRACE_IRQS_ON [lockdep says irqs are on]
<nmi>
nmi_enter() {
printk_nmi_enter() [traced by ftrace]
[ hit ftrace breakpoint ]
<breakpoint exception>
TRACE_IRQS_OFF [lockdep says irqs off]
[...]
TRACE_IRQS_IRET [return from breakpoint]
test if pt_regs say interrupts enabled [no]
[iret back to interrupt]
[iret back to code]
tick_nohz_idle_enter() {
lockdep_assert_irqs_enabled() [lockdep say no!]
Although interrupts are indeed enabled, lockdep thinks it is not, and since
we now do asserts via lockdep, it gives a false warning. The issue here is
that printk_nmi_enter() is called before lockdep_off(), which disables
lockdep (for this reason) in NMIs. By simply not allowing ftrace to see
printk_nmi_enter() (via notrace annotation) we keep lockdep from getting
confused.
Cc: stable@vger.kernel.org
Fixes: 42a0bb3f71
("printk/nmi: generic solution for safe printk in NMI")
Acked-by: Sergey Senozhatsky <sergey.senozhatsky@gmail.com>
Acked-by: Petr Mladek <pmladek@suse.com>
Signed-off-by: Steven Rostedt (VMware) <rostedt@goodmis.org>
428 lines
11 KiB
C
428 lines
11 KiB
C
/*
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* printk_safe.c - Safe printk for printk-deadlock-prone contexts
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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#include <linux/preempt.h>
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#include <linux/spinlock.h>
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#include <linux/debug_locks.h>
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#include <linux/smp.h>
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#include <linux/cpumask.h>
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#include <linux/irq_work.h>
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#include <linux/printk.h>
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#include "internal.h"
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/*
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* printk() could not take logbuf_lock in NMI context. Instead,
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* it uses an alternative implementation that temporary stores
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* the strings into a per-CPU buffer. The content of the buffer
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* is later flushed into the main ring buffer via IRQ work.
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*
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* The alternative implementation is chosen transparently
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* by examinig current printk() context mask stored in @printk_context
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* per-CPU variable.
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*
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* The implementation allows to flush the strings also from another CPU.
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* There are situations when we want to make sure that all buffers
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* were handled or when IRQs are blocked.
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*/
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static int printk_safe_irq_ready __read_mostly;
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#define SAFE_LOG_BUF_LEN ((1 << CONFIG_PRINTK_SAFE_LOG_BUF_SHIFT) - \
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sizeof(atomic_t) - \
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sizeof(atomic_t) - \
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sizeof(struct irq_work))
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struct printk_safe_seq_buf {
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atomic_t len; /* length of written data */
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atomic_t message_lost;
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struct irq_work work; /* IRQ work that flushes the buffer */
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unsigned char buffer[SAFE_LOG_BUF_LEN];
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};
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static DEFINE_PER_CPU(struct printk_safe_seq_buf, safe_print_seq);
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static DEFINE_PER_CPU(int, printk_context);
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#ifdef CONFIG_PRINTK_NMI
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static DEFINE_PER_CPU(struct printk_safe_seq_buf, nmi_print_seq);
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#endif
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/* Get flushed in a more safe context. */
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static void queue_flush_work(struct printk_safe_seq_buf *s)
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{
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if (printk_safe_irq_ready)
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irq_work_queue(&s->work);
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}
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/*
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* Add a message to per-CPU context-dependent buffer. NMI and printk-safe
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* have dedicated buffers, because otherwise printk-safe preempted by
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* NMI-printk would have overwritten the NMI messages.
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*
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* The messages are flushed from irq work (or from panic()), possibly,
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* from other CPU, concurrently with printk_safe_log_store(). Should this
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* happen, printk_safe_log_store() will notice the buffer->len mismatch
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* and repeat the write.
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*/
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static __printf(2, 0) int printk_safe_log_store(struct printk_safe_seq_buf *s,
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const char *fmt, va_list args)
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{
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int add;
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size_t len;
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va_list ap;
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again:
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len = atomic_read(&s->len);
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/* The trailing '\0' is not counted into len. */
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if (len >= sizeof(s->buffer) - 1) {
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atomic_inc(&s->message_lost);
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queue_flush_work(s);
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return 0;
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}
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/*
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* Make sure that all old data have been read before the buffer
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* was reset. This is not needed when we just append data.
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*/
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if (!len)
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smp_rmb();
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va_copy(ap, args);
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add = vscnprintf(s->buffer + len, sizeof(s->buffer) - len, fmt, ap);
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va_end(ap);
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if (!add)
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return 0;
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/*
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* Do it once again if the buffer has been flushed in the meantime.
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* Note that atomic_cmpxchg() is an implicit memory barrier that
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* makes sure that the data were written before updating s->len.
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*/
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if (atomic_cmpxchg(&s->len, len, len + add) != len)
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goto again;
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queue_flush_work(s);
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return add;
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}
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static inline void printk_safe_flush_line(const char *text, int len)
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{
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/*
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* Avoid any console drivers calls from here, because we may be
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* in NMI or printk_safe context (when in panic). The messages
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* must go only into the ring buffer at this stage. Consoles will
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* get explicitly called later when a crashdump is not generated.
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*/
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printk_deferred("%.*s", len, text);
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}
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/* printk part of the temporary buffer line by line */
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static int printk_safe_flush_buffer(const char *start, size_t len)
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{
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const char *c, *end;
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bool header;
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c = start;
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end = start + len;
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header = true;
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/* Print line by line. */
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while (c < end) {
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if (*c == '\n') {
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printk_safe_flush_line(start, c - start + 1);
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start = ++c;
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header = true;
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continue;
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}
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/* Handle continuous lines or missing new line. */
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if ((c + 1 < end) && printk_get_level(c)) {
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if (header) {
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c = printk_skip_level(c);
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continue;
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}
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printk_safe_flush_line(start, c - start);
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start = c++;
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header = true;
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continue;
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}
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header = false;
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c++;
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}
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/* Check if there was a partial line. Ignore pure header. */
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if (start < end && !header) {
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static const char newline[] = KERN_CONT "\n";
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printk_safe_flush_line(start, end - start);
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printk_safe_flush_line(newline, strlen(newline));
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}
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return len;
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}
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static void report_message_lost(struct printk_safe_seq_buf *s)
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{
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int lost = atomic_xchg(&s->message_lost, 0);
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if (lost)
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printk_deferred("Lost %d message(s)!\n", lost);
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}
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/*
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* Flush data from the associated per-CPU buffer. The function
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* can be called either via IRQ work or independently.
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*/
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static void __printk_safe_flush(struct irq_work *work)
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{
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static raw_spinlock_t read_lock =
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__RAW_SPIN_LOCK_INITIALIZER(read_lock);
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struct printk_safe_seq_buf *s =
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container_of(work, struct printk_safe_seq_buf, work);
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unsigned long flags;
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size_t len;
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int i;
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/*
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* The lock has two functions. First, one reader has to flush all
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* available message to make the lockless synchronization with
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* writers easier. Second, we do not want to mix messages from
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* different CPUs. This is especially important when printing
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* a backtrace.
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*/
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raw_spin_lock_irqsave(&read_lock, flags);
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i = 0;
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more:
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len = atomic_read(&s->len);
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/*
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* This is just a paranoid check that nobody has manipulated
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* the buffer an unexpected way. If we printed something then
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* @len must only increase. Also it should never overflow the
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* buffer size.
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*/
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if ((i && i >= len) || len > sizeof(s->buffer)) {
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const char *msg = "printk_safe_flush: internal error\n";
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printk_safe_flush_line(msg, strlen(msg));
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len = 0;
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}
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if (!len)
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goto out; /* Someone else has already flushed the buffer. */
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/* Make sure that data has been written up to the @len */
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smp_rmb();
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i += printk_safe_flush_buffer(s->buffer + i, len - i);
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/*
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* Check that nothing has got added in the meantime and truncate
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* the buffer. Note that atomic_cmpxchg() is an implicit memory
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* barrier that makes sure that the data were copied before
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* updating s->len.
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*/
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if (atomic_cmpxchg(&s->len, len, 0) != len)
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goto more;
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out:
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report_message_lost(s);
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raw_spin_unlock_irqrestore(&read_lock, flags);
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}
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/**
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* printk_safe_flush - flush all per-cpu nmi buffers.
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*
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* The buffers are flushed automatically via IRQ work. This function
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* is useful only when someone wants to be sure that all buffers have
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* been flushed at some point.
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*/
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void printk_safe_flush(void)
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{
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int cpu;
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for_each_possible_cpu(cpu) {
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#ifdef CONFIG_PRINTK_NMI
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__printk_safe_flush(&per_cpu(nmi_print_seq, cpu).work);
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#endif
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__printk_safe_flush(&per_cpu(safe_print_seq, cpu).work);
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}
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}
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/**
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* printk_safe_flush_on_panic - flush all per-cpu nmi buffers when the system
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* goes down.
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*
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* Similar to printk_safe_flush() but it can be called even in NMI context when
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* the system goes down. It does the best effort to get NMI messages into
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* the main ring buffer.
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*
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* Note that it could try harder when there is only one CPU online.
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*/
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void printk_safe_flush_on_panic(void)
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{
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/*
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* Make sure that we could access the main ring buffer.
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* Do not risk a double release when more CPUs are up.
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*/
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if (raw_spin_is_locked(&logbuf_lock)) {
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if (num_online_cpus() > 1)
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return;
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debug_locks_off();
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raw_spin_lock_init(&logbuf_lock);
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}
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printk_safe_flush();
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}
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#ifdef CONFIG_PRINTK_NMI
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/*
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* Safe printk() for NMI context. It uses a per-CPU buffer to
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* store the message. NMIs are not nested, so there is always only
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* one writer running. But the buffer might get flushed from another
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* CPU, so we need to be careful.
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*/
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static __printf(1, 0) int vprintk_nmi(const char *fmt, va_list args)
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{
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struct printk_safe_seq_buf *s = this_cpu_ptr(&nmi_print_seq);
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return printk_safe_log_store(s, fmt, args);
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}
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void notrace printk_nmi_enter(void)
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{
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this_cpu_or(printk_context, PRINTK_NMI_CONTEXT_MASK);
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}
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void notrace printk_nmi_exit(void)
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{
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this_cpu_and(printk_context, ~PRINTK_NMI_CONTEXT_MASK);
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}
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/*
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* Marks a code that might produce many messages in NMI context
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* and the risk of losing them is more critical than eventual
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* reordering.
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*
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* It has effect only when called in NMI context. Then printk()
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* will try to store the messages into the main logbuf directly
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* and use the per-CPU buffers only as a fallback when the lock
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* is not available.
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*/
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void printk_nmi_direct_enter(void)
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{
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if (this_cpu_read(printk_context) & PRINTK_NMI_CONTEXT_MASK)
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this_cpu_or(printk_context, PRINTK_NMI_DIRECT_CONTEXT_MASK);
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}
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void printk_nmi_direct_exit(void)
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{
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this_cpu_and(printk_context, ~PRINTK_NMI_DIRECT_CONTEXT_MASK);
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}
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#else
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static __printf(1, 0) int vprintk_nmi(const char *fmt, va_list args)
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{
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return 0;
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}
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#endif /* CONFIG_PRINTK_NMI */
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/*
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* Lock-less printk(), to avoid deadlocks should the printk() recurse
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* into itself. It uses a per-CPU buffer to store the message, just like
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* NMI.
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*/
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static __printf(1, 0) int vprintk_safe(const char *fmt, va_list args)
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{
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struct printk_safe_seq_buf *s = this_cpu_ptr(&safe_print_seq);
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return printk_safe_log_store(s, fmt, args);
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}
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/* Can be preempted by NMI. */
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void __printk_safe_enter(void)
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{
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this_cpu_inc(printk_context);
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}
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/* Can be preempted by NMI. */
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void __printk_safe_exit(void)
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{
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this_cpu_dec(printk_context);
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}
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__printf(1, 0) int vprintk_func(const char *fmt, va_list args)
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{
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/*
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* Try to use the main logbuf even in NMI. But avoid calling console
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* drivers that might have their own locks.
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*/
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if ((this_cpu_read(printk_context) & PRINTK_NMI_DIRECT_CONTEXT_MASK) &&
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raw_spin_trylock(&logbuf_lock)) {
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int len;
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len = vprintk_store(0, LOGLEVEL_DEFAULT, NULL, 0, fmt, args);
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raw_spin_unlock(&logbuf_lock);
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defer_console_output();
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return len;
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}
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/* Use extra buffer in NMI when logbuf_lock is taken or in safe mode. */
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if (this_cpu_read(printk_context) & PRINTK_NMI_CONTEXT_MASK)
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return vprintk_nmi(fmt, args);
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/* Use extra buffer to prevent a recursion deadlock in safe mode. */
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if (this_cpu_read(printk_context) & PRINTK_SAFE_CONTEXT_MASK)
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return vprintk_safe(fmt, args);
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/* No obstacles. */
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return vprintk_default(fmt, args);
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}
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void __init printk_safe_init(void)
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{
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int cpu;
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for_each_possible_cpu(cpu) {
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struct printk_safe_seq_buf *s;
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s = &per_cpu(safe_print_seq, cpu);
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init_irq_work(&s->work, __printk_safe_flush);
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#ifdef CONFIG_PRINTK_NMI
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s = &per_cpu(nmi_print_seq, cpu);
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init_irq_work(&s->work, __printk_safe_flush);
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#endif
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}
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/*
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* In the highly unlikely event that a NMI were to trigger at
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* this moment. Make sure IRQ work is set up before this
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* variable is set.
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*/
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barrier();
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printk_safe_irq_ready = 1;
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/* Flush pending messages that did not have scheduled IRQ works. */
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printk_safe_flush();
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}
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