mirror of
https://github.com/edk2-porting/linux-next.git
synced 2024-12-25 05:34:00 +08:00
e99e88a9d2
This converts all remaining cases of the old setup_timer() API into using timer_setup(), where the callback argument is the structure already holding the struct timer_list. These should have no behavioral changes, since they just change which pointer is passed into the callback with the same available pointers after conversion. It handles the following examples, in addition to some other variations. Casting from unsigned long: void my_callback(unsigned long data) { struct something *ptr = (struct something *)data; ... } ... setup_timer(&ptr->my_timer, my_callback, ptr); and forced object casts: void my_callback(struct something *ptr) { ... } ... setup_timer(&ptr->my_timer, my_callback, (unsigned long)ptr); become: void my_callback(struct timer_list *t) { struct something *ptr = from_timer(ptr, t, my_timer); ... } ... timer_setup(&ptr->my_timer, my_callback, 0); Direct function assignments: void my_callback(unsigned long data) { struct something *ptr = (struct something *)data; ... } ... ptr->my_timer.function = my_callback; have a temporary cast added, along with converting the args: void my_callback(struct timer_list *t) { struct something *ptr = from_timer(ptr, t, my_timer); ... } ... ptr->my_timer.function = (TIMER_FUNC_TYPE)my_callback; And finally, callbacks without a data assignment: void my_callback(unsigned long data) { ... } ... setup_timer(&ptr->my_timer, my_callback, 0); have their argument renamed to verify they're unused during conversion: void my_callback(struct timer_list *unused) { ... } ... timer_setup(&ptr->my_timer, my_callback, 0); The conversion is done with the following Coccinelle script: spatch --very-quiet --all-includes --include-headers \ -I ./arch/x86/include -I ./arch/x86/include/generated \ -I ./include -I ./arch/x86/include/uapi \ -I ./arch/x86/include/generated/uapi -I ./include/uapi \ -I ./include/generated/uapi --include ./include/linux/kconfig.h \ --dir . \ --cocci-file ~/src/data/timer_setup.cocci @fix_address_of@ expression e; @@ setup_timer( -&(e) +&e , ...) // Update any raw setup_timer() usages that have a NULL callback, but // would otherwise match change_timer_function_usage, since the latter // will update all function assignments done in the face of a NULL // function initialization in setup_timer(). @change_timer_function_usage_NULL@ expression _E; identifier _timer; type _cast_data; @@ ( -setup_timer(&_E->_timer, NULL, _E); +timer_setup(&_E->_timer, NULL, 0); | -setup_timer(&_E->_timer, NULL, (_cast_data)_E); +timer_setup(&_E->_timer, NULL, 0); | -setup_timer(&_E._timer, NULL, &_E); +timer_setup(&_E._timer, NULL, 0); | -setup_timer(&_E._timer, NULL, (_cast_data)&_E); +timer_setup(&_E._timer, NULL, 0); ) @change_timer_function_usage@ expression _E; identifier _timer; struct timer_list _stl; identifier _callback; type _cast_func, _cast_data; @@ ( -setup_timer(&_E->_timer, _callback, _E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, &_callback, _E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, _callback, (_cast_data)_E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, &_callback, (_cast_data)_E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, (_cast_func)_callback, _E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, (_cast_func)&_callback, _E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, (_cast_func)_callback, (_cast_data)_E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, (_cast_func)&_callback, (_cast_data)_E); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E._timer, _callback, (_cast_data)_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, _callback, (_cast_data)&_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, &_callback, (_cast_data)_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, &_callback, (_cast_data)&_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, (_cast_func)_callback, (_cast_data)_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, (_cast_func)_callback, (_cast_data)&_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, (_cast_func)&_callback, (_cast_data)_E); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, (_cast_func)&_callback, (_cast_data)&_E); +timer_setup(&_E._timer, _callback, 0); | _E->_timer@_stl.function = _callback; | _E->_timer@_stl.function = &_callback; | _E->_timer@_stl.function = (_cast_func)_callback; | _E->_timer@_stl.function = (_cast_func)&_callback; | _E._timer@_stl.function = _callback; | _E._timer@_stl.function = &_callback; | _E._timer@_stl.function = (_cast_func)_callback; | _E._timer@_stl.function = (_cast_func)&_callback; ) // callback(unsigned long arg) @change_callback_handle_cast depends on change_timer_function_usage@ identifier change_timer_function_usage._callback; identifier change_timer_function_usage._timer; type _origtype; identifier _origarg; type _handletype; identifier _handle; @@ void _callback( -_origtype _origarg +struct timer_list *t ) { ( ... when != _origarg _handletype *_handle = -(_handletype *)_origarg; +from_timer(_handle, t, _timer); ... when != _origarg | ... when != _origarg _handletype *_handle = -(void *)_origarg; +from_timer(_handle, t, _timer); ... when != _origarg | ... when != _origarg _handletype *_handle; ... when != _handle _handle = -(_handletype *)_origarg; +from_timer(_handle, t, _timer); ... when != _origarg | ... when != _origarg _handletype *_handle; ... when != _handle _handle = -(void *)_origarg; +from_timer(_handle, t, _timer); ... when != _origarg ) } // callback(unsigned long arg) without existing variable @change_callback_handle_cast_no_arg depends on change_timer_function_usage && !change_callback_handle_cast@ identifier change_timer_function_usage._callback; identifier change_timer_function_usage._timer; type _origtype; identifier _origarg; type _handletype; @@ void _callback( -_origtype _origarg +struct timer_list *t ) { + _handletype *_origarg = from_timer(_origarg, t, _timer); + ... when != _origarg - (_handletype *)_origarg + _origarg ... when != _origarg } // Avoid already converted callbacks. @match_callback_converted depends on change_timer_function_usage && !change_callback_handle_cast && !change_callback_handle_cast_no_arg@ identifier change_timer_function_usage._callback; identifier t; @@ void _callback(struct timer_list *t) { ... } // callback(struct something *handle) @change_callback_handle_arg depends on change_timer_function_usage && !match_callback_converted && !change_callback_handle_cast && !change_callback_handle_cast_no_arg@ identifier change_timer_function_usage._callback; identifier change_timer_function_usage._timer; type _handletype; identifier _handle; @@ void _callback( -_handletype *_handle +struct timer_list *t ) { + _handletype *_handle = from_timer(_handle, t, _timer); ... } // If change_callback_handle_arg ran on an empty function, remove // the added handler. @unchange_callback_handle_arg depends on change_timer_function_usage && change_callback_handle_arg@ identifier change_timer_function_usage._callback; identifier change_timer_function_usage._timer; type _handletype; identifier _handle; identifier t; @@ void _callback(struct timer_list *t) { - _handletype *_handle = from_timer(_handle, t, _timer); } // We only want to refactor the setup_timer() data argument if we've found // the matching callback. This undoes changes in change_timer_function_usage. @unchange_timer_function_usage depends on change_timer_function_usage && !change_callback_handle_cast && !change_callback_handle_cast_no_arg && !change_callback_handle_arg@ expression change_timer_function_usage._E; identifier change_timer_function_usage._timer; identifier change_timer_function_usage._callback; type change_timer_function_usage._cast_data; @@ ( -timer_setup(&_E->_timer, _callback, 0); +setup_timer(&_E->_timer, _callback, (_cast_data)_E); | -timer_setup(&_E._timer, _callback, 0); +setup_timer(&_E._timer, _callback, (_cast_data)&_E); ) // If we fixed a callback from a .function assignment, fix the // assignment cast now. @change_timer_function_assignment depends on change_timer_function_usage && (change_callback_handle_cast || change_callback_handle_cast_no_arg || change_callback_handle_arg)@ expression change_timer_function_usage._E; identifier change_timer_function_usage._timer; identifier change_timer_function_usage._callback; type _cast_func; typedef TIMER_FUNC_TYPE; @@ ( _E->_timer.function = -_callback +(TIMER_FUNC_TYPE)_callback ; | _E->_timer.function = -&_callback +(TIMER_FUNC_TYPE)_callback ; | _E->_timer.function = -(_cast_func)_callback; +(TIMER_FUNC_TYPE)_callback ; | _E->_timer.function = -(_cast_func)&_callback +(TIMER_FUNC_TYPE)_callback ; | _E._timer.function = -_callback +(TIMER_FUNC_TYPE)_callback ; | _E._timer.function = -&_callback; +(TIMER_FUNC_TYPE)_callback ; | _E._timer.function = -(_cast_func)_callback +(TIMER_FUNC_TYPE)_callback ; | _E._timer.function = -(_cast_func)&_callback +(TIMER_FUNC_TYPE)_callback ; ) // Sometimes timer functions are called directly. Replace matched args. @change_timer_function_calls depends on change_timer_function_usage && (change_callback_handle_cast || change_callback_handle_cast_no_arg || change_callback_handle_arg)@ expression _E; identifier change_timer_function_usage._timer; identifier change_timer_function_usage._callback; type _cast_data; @@ _callback( ( -(_cast_data)_E +&_E->_timer | -(_cast_data)&_E +&_E._timer | -_E +&_E->_timer ) ) // If a timer has been configured without a data argument, it can be // converted without regard to the callback argument, since it is unused. @match_timer_function_unused_data@ expression _E; identifier _timer; identifier _callback; @@ ( -setup_timer(&_E->_timer, _callback, 0); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, _callback, 0L); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E->_timer, _callback, 0UL); +timer_setup(&_E->_timer, _callback, 0); | -setup_timer(&_E._timer, _callback, 0); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, _callback, 0L); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_E._timer, _callback, 0UL); +timer_setup(&_E._timer, _callback, 0); | -setup_timer(&_timer, _callback, 0); +timer_setup(&_timer, _callback, 0); | -setup_timer(&_timer, _callback, 0L); +timer_setup(&_timer, _callback, 0); | -setup_timer(&_timer, _callback, 0UL); +timer_setup(&_timer, _callback, 0); | -setup_timer(_timer, _callback, 0); +timer_setup(_timer, _callback, 0); | -setup_timer(_timer, _callback, 0L); +timer_setup(_timer, _callback, 0); | -setup_timer(_timer, _callback, 0UL); +timer_setup(_timer, _callback, 0); ) @change_callback_unused_data depends on match_timer_function_unused_data@ identifier match_timer_function_unused_data._callback; type _origtype; identifier _origarg; @@ void _callback( -_origtype _origarg +struct timer_list *unused ) { ... when != _origarg } Signed-off-by: Kees Cook <keescook@chromium.org>
288 lines
5.7 KiB
C
288 lines
5.7 KiB
C
/*
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* Blackfin nmi_watchdog Driver
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*
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* Originally based on bfin_wdt.c
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* Copyright 2010-2010 Analog Devices Inc.
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* Graff Yang <graf.yang@analog.com>
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*
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* Enter bugs at http://blackfin.uclinux.org/
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*
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* Licensed under the GPL-2 or later.
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*/
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#include <linux/bitops.h>
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#include <linux/hardirq.h>
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#include <linux/syscore_ops.h>
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#include <linux/pm.h>
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#include <linux/nmi.h>
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#include <linux/smp.h>
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#include <linux/timer.h>
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#include <linux/sched/debug.h>
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#include <asm/blackfin.h>
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#include <linux/atomic.h>
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#include <asm/cacheflush.h>
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#include <asm/bfin_watchdog.h>
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#define DRV_NAME "nmi-wdt"
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#define NMI_WDT_TIMEOUT 5 /* 5 seconds */
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#define NMI_CHECK_TIMEOUT (4 * HZ) /* 4 seconds in jiffies */
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static int nmi_wdt_cpu = 1;
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static unsigned int timeout = NMI_WDT_TIMEOUT;
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static int nmi_active;
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static unsigned short wdoga_ctl;
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static unsigned int wdoga_cnt;
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static struct corelock_slot saved_corelock;
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static atomic_t nmi_touched[NR_CPUS];
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static struct timer_list ntimer;
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enum {
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COREA_ENTER_NMI = 0,
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COREA_EXIT_NMI,
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COREB_EXIT_NMI,
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NMI_EVENT_NR,
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};
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static unsigned long nmi_event __attribute__ ((__section__(".l2.bss")));
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/* we are in nmi, non-atomic bit ops is safe */
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static inline void set_nmi_event(int event)
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{
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__set_bit(event, &nmi_event);
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}
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static inline void wait_nmi_event(int event)
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{
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while (!test_bit(event, &nmi_event))
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barrier();
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__clear_bit(event, &nmi_event);
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}
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static inline void send_corea_nmi(void)
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{
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wdoga_ctl = bfin_read_WDOGA_CTL();
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wdoga_cnt = bfin_read_WDOGA_CNT();
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bfin_write_WDOGA_CTL(WDEN_DISABLE);
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bfin_write_WDOGA_CNT(0);
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bfin_write_WDOGA_CTL(WDEN_ENABLE | ICTL_NMI);
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}
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static inline void restore_corea_nmi(void)
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{
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bfin_write_WDOGA_CTL(WDEN_DISABLE);
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bfin_write_WDOGA_CTL(WDOG_EXPIRED | WDEN_DISABLE | ICTL_NONE);
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bfin_write_WDOGA_CNT(wdoga_cnt);
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bfin_write_WDOGA_CTL(wdoga_ctl);
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}
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static inline void save_corelock(void)
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{
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saved_corelock = corelock;
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corelock.lock = 0;
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}
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static inline void restore_corelock(void)
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{
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corelock = saved_corelock;
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}
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static inline void nmi_wdt_keepalive(void)
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{
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bfin_write_WDOGB_STAT(0);
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}
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static inline void nmi_wdt_stop(void)
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{
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bfin_write_WDOGB_CTL(WDEN_DISABLE);
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}
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/* before calling this function, you must stop the WDT */
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static inline void nmi_wdt_clear(void)
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{
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/* clear TRO bit, disable event generation */
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bfin_write_WDOGB_CTL(WDOG_EXPIRED | WDEN_DISABLE | ICTL_NONE);
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}
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static inline void nmi_wdt_start(void)
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{
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bfin_write_WDOGB_CTL(WDEN_ENABLE | ICTL_NMI);
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}
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static inline int nmi_wdt_running(void)
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{
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return ((bfin_read_WDOGB_CTL() & WDEN_MASK) != WDEN_DISABLE);
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}
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static inline int nmi_wdt_set_timeout(unsigned long t)
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{
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u32 cnt, max_t, sclk;
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int run;
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sclk = get_sclk();
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max_t = -1 / sclk;
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cnt = t * sclk;
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if (t > max_t) {
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pr_warning("NMI: timeout value is too large\n");
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return -EINVAL;
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}
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run = nmi_wdt_running();
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nmi_wdt_stop();
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bfin_write_WDOGB_CNT(cnt);
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if (run)
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nmi_wdt_start();
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timeout = t;
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return 0;
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}
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int check_nmi_wdt_touched(void)
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{
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unsigned int this_cpu = smp_processor_id();
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unsigned int cpu;
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cpumask_t mask;
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cpumask_copy(&mask, cpu_online_mask);
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if (!atomic_read(&nmi_touched[this_cpu]))
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return 0;
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atomic_set(&nmi_touched[this_cpu], 0);
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cpumask_clear_cpu(this_cpu, &mask);
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for_each_cpu(cpu, &mask) {
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invalidate_dcache_range((unsigned long)(&nmi_touched[cpu]),
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(unsigned long)(&nmi_touched[cpu]));
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if (!atomic_read(&nmi_touched[cpu]))
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return 0;
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atomic_set(&nmi_touched[cpu], 0);
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}
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return 1;
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}
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static void nmi_wdt_timer(struct timer_list *unused)
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{
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if (check_nmi_wdt_touched())
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nmi_wdt_keepalive();
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mod_timer(&ntimer, jiffies + NMI_CHECK_TIMEOUT);
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}
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static int __init init_nmi_wdt(void)
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{
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nmi_wdt_set_timeout(timeout);
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nmi_wdt_start();
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nmi_active = true;
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timer_setup(&ntimer, nmi_wdt_timer, 0);
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ntimer.expires = jiffies + NMI_CHECK_TIMEOUT;
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add_timer(&ntimer);
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pr_info("nmi_wdt: initialized: timeout=%d sec\n", timeout);
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return 0;
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}
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device_initcall(init_nmi_wdt);
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void arch_touch_nmi_watchdog(void)
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{
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atomic_set(&nmi_touched[smp_processor_id()], 1);
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}
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/* Suspend/resume support */
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#ifdef CONFIG_PM
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static int nmi_wdt_suspend(void)
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{
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nmi_wdt_stop();
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return 0;
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}
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static void nmi_wdt_resume(void)
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{
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if (nmi_active)
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nmi_wdt_start();
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}
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static struct syscore_ops nmi_syscore_ops = {
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.resume = nmi_wdt_resume,
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.suspend = nmi_wdt_suspend,
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};
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static int __init init_nmi_wdt_syscore(void)
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{
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if (nmi_active)
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register_syscore_ops(&nmi_syscore_ops);
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return 0;
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}
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late_initcall(init_nmi_wdt_syscore);
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#endif /* CONFIG_PM */
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asmlinkage notrace void do_nmi(struct pt_regs *fp)
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{
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unsigned int cpu = smp_processor_id();
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nmi_enter();
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cpu_pda[cpu].__nmi_count += 1;
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if (cpu == nmi_wdt_cpu) {
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/* CoreB goes here first */
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/* reload the WDOG_STAT */
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nmi_wdt_keepalive();
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/* clear nmi interrupt for CoreB */
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nmi_wdt_stop();
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nmi_wdt_clear();
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/* trigger NMI interrupt of CoreA */
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send_corea_nmi();
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/* waiting CoreB to enter NMI */
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wait_nmi_event(COREA_ENTER_NMI);
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/* recover WDOGA's settings */
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restore_corea_nmi();
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save_corelock();
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/* corelock is save/cleared, CoreA is dummping messages */
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wait_nmi_event(COREA_EXIT_NMI);
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} else {
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/* OK, CoreA entered NMI */
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set_nmi_event(COREA_ENTER_NMI);
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}
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pr_emerg("\nNMI Watchdog detected LOCKUP, dump for CPU %d\n", cpu);
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dump_bfin_process(fp);
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dump_bfin_mem(fp);
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show_regs(fp);
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dump_bfin_trace_buffer();
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show_stack(current, (unsigned long *)fp);
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if (cpu == nmi_wdt_cpu) {
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pr_emerg("This fault is not recoverable, sorry!\n");
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/* CoreA dump finished, restore the corelock */
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restore_corelock();
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set_nmi_event(COREB_EXIT_NMI);
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} else {
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/* CoreB dump finished, notice the CoreA we are done */
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set_nmi_event(COREA_EXIT_NMI);
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/* synchronize with CoreA */
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wait_nmi_event(COREB_EXIT_NMI);
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}
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nmi_exit();
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}
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