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Some tracepoints have a registration function that gets enabled when the tracepoint is enabled. There may be cases that the registraction function must fail (for example, can't allocate enough memory). In this case, the tracepoint should also fail to register, otherwise the user would not know why the tracepoint is not working. Cc: David Howells <dhowells@redhat.com> Cc: Seiji Aguchi <seiji.aguchi@hds.com> Cc: Anton Blanchard <anton@samba.org> Cc: Mathieu Desnoyers <mathieu.desnoyers@efficios.com> Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
502 lines
16 KiB
C
502 lines
16 KiB
C
#ifndef _LINUX_TRACEPOINT_H
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#define _LINUX_TRACEPOINT_H
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/*
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* Kernel Tracepoint API.
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*
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* See Documentation/trace/tracepoints.txt.
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*
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* Copyright (C) 2008-2014 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
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*
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* Heavily inspired from the Linux Kernel Markers.
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*
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* This file is released under the GPLv2.
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* See the file COPYING for more details.
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*/
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#include <linux/smp.h>
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#include <linux/errno.h>
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#include <linux/types.h>
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#include <linux/cpumask.h>
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#include <linux/rcupdate.h>
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#include <linux/tracepoint-defs.h>
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struct module;
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struct tracepoint;
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struct notifier_block;
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struct trace_enum_map {
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const char *system;
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const char *enum_string;
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unsigned long enum_value;
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};
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#define TRACEPOINT_DEFAULT_PRIO 10
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extern int
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tracepoint_probe_register(struct tracepoint *tp, void *probe, void *data);
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extern int
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tracepoint_probe_register_prio(struct tracepoint *tp, void *probe, void *data,
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int prio);
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extern int
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tracepoint_probe_unregister(struct tracepoint *tp, void *probe, void *data);
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extern void
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for_each_kernel_tracepoint(void (*fct)(struct tracepoint *tp, void *priv),
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void *priv);
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#ifdef CONFIG_MODULES
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struct tp_module {
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struct list_head list;
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struct module *mod;
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};
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bool trace_module_has_bad_taint(struct module *mod);
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extern int register_tracepoint_module_notifier(struct notifier_block *nb);
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extern int unregister_tracepoint_module_notifier(struct notifier_block *nb);
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#else
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static inline bool trace_module_has_bad_taint(struct module *mod)
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{
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return false;
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}
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static inline
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int register_tracepoint_module_notifier(struct notifier_block *nb)
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{
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return 0;
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}
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static inline
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int unregister_tracepoint_module_notifier(struct notifier_block *nb)
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{
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return 0;
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}
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#endif /* CONFIG_MODULES */
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/*
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* tracepoint_synchronize_unregister must be called between the last tracepoint
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* probe unregistration and the end of module exit to make sure there is no
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* caller executing a probe when it is freed.
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*/
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static inline void tracepoint_synchronize_unregister(void)
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{
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synchronize_sched();
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}
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#ifdef CONFIG_HAVE_SYSCALL_TRACEPOINTS
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extern int syscall_regfunc(void);
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extern void syscall_unregfunc(void);
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#endif /* CONFIG_HAVE_SYSCALL_TRACEPOINTS */
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#define PARAMS(args...) args
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#define TRACE_DEFINE_ENUM(x)
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#endif /* _LINUX_TRACEPOINT_H */
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/*
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* Note: we keep the TRACE_EVENT and DECLARE_TRACE outside the include
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* file ifdef protection.
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* This is due to the way trace events work. If a file includes two
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* trace event headers under one "CREATE_TRACE_POINTS" the first include
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* will override the TRACE_EVENT and break the second include.
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*/
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#ifndef DECLARE_TRACE
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#define TP_PROTO(args...) args
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#define TP_ARGS(args...) args
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#define TP_CONDITION(args...) args
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/*
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* Individual subsystem my have a separate configuration to
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* enable their tracepoints. By default, this file will create
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* the tracepoints if CONFIG_TRACEPOINT is defined. If a subsystem
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* wants to be able to disable its tracepoints from being created
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* it can define NOTRACE before including the tracepoint headers.
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*/
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#if defined(CONFIG_TRACEPOINTS) && !defined(NOTRACE)
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#define TRACEPOINTS_ENABLED
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#endif
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#ifdef TRACEPOINTS_ENABLED
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/*
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* it_func[0] is never NULL because there is at least one element in the array
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* when the array itself is non NULL.
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*
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* Note, the proto and args passed in includes "__data" as the first parameter.
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* The reason for this is to handle the "void" prototype. If a tracepoint
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* has a "void" prototype, then it is invalid to declare a function
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* as "(void *, void)". The DECLARE_TRACE_NOARGS() will pass in just
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* "void *data", where as the DECLARE_TRACE() will pass in "void *data, proto".
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*/
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#define __DO_TRACE(tp, proto, args, cond, prercu, postrcu) \
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do { \
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struct tracepoint_func *it_func_ptr; \
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void *it_func; \
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void *__data; \
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\
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if (!(cond)) \
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return; \
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prercu; \
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rcu_read_lock_sched_notrace(); \
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it_func_ptr = rcu_dereference_sched((tp)->funcs); \
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if (it_func_ptr) { \
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do { \
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it_func = (it_func_ptr)->func; \
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__data = (it_func_ptr)->data; \
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((void(*)(proto))(it_func))(args); \
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} while ((++it_func_ptr)->func); \
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} \
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rcu_read_unlock_sched_notrace(); \
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postrcu; \
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} while (0)
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#ifndef MODULE
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#define __DECLARE_TRACE_RCU(name, proto, args, cond, data_proto, data_args) \
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static inline void trace_##name##_rcuidle(proto) \
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{ \
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if (static_key_false(&__tracepoint_##name.key)) \
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__DO_TRACE(&__tracepoint_##name, \
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TP_PROTO(data_proto), \
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TP_ARGS(data_args), \
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TP_CONDITION(cond), \
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rcu_irq_enter_irqson(), \
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rcu_irq_exit_irqson()); \
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}
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#else
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#define __DECLARE_TRACE_RCU(name, proto, args, cond, data_proto, data_args)
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#endif
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/*
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* Make sure the alignment of the structure in the __tracepoints section will
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* not add unwanted padding between the beginning of the section and the
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* structure. Force alignment to the same alignment as the section start.
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*
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* When lockdep is enabled, we make sure to always do the RCU portions of
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* the tracepoint code, regardless of whether tracing is on. However,
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* don't check if the condition is false, due to interaction with idle
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* instrumentation. This lets us find RCU issues triggered with tracepoints
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* even when this tracepoint is off. This code has no purpose other than
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* poking RCU a bit.
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*/
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#define __DECLARE_TRACE(name, proto, args, cond, data_proto, data_args) \
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extern struct tracepoint __tracepoint_##name; \
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static inline void trace_##name(proto) \
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{ \
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if (static_key_false(&__tracepoint_##name.key)) \
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__DO_TRACE(&__tracepoint_##name, \
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TP_PROTO(data_proto), \
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TP_ARGS(data_args), \
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TP_CONDITION(cond),,); \
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if (IS_ENABLED(CONFIG_LOCKDEP) && (cond)) { \
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rcu_read_lock_sched_notrace(); \
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rcu_dereference_sched(__tracepoint_##name.funcs);\
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rcu_read_unlock_sched_notrace(); \
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} \
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} \
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__DECLARE_TRACE_RCU(name, PARAMS(proto), PARAMS(args), \
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PARAMS(cond), PARAMS(data_proto), PARAMS(data_args)) \
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static inline int \
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register_trace_##name(void (*probe)(data_proto), void *data) \
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{ \
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return tracepoint_probe_register(&__tracepoint_##name, \
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(void *)probe, data); \
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} \
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static inline int \
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register_trace_prio_##name(void (*probe)(data_proto), void *data,\
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int prio) \
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{ \
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return tracepoint_probe_register_prio(&__tracepoint_##name, \
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(void *)probe, data, prio); \
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} \
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static inline int \
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unregister_trace_##name(void (*probe)(data_proto), void *data) \
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{ \
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return tracepoint_probe_unregister(&__tracepoint_##name,\
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(void *)probe, data); \
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} \
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static inline void \
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check_trace_callback_type_##name(void (*cb)(data_proto)) \
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{ \
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} \
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static inline bool \
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trace_##name##_enabled(void) \
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{ \
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return static_key_false(&__tracepoint_##name.key); \
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}
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/*
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* We have no guarantee that gcc and the linker won't up-align the tracepoint
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* structures, so we create an array of pointers that will be used for iteration
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* on the tracepoints.
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*/
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#define DEFINE_TRACE_FN(name, reg, unreg) \
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static const char __tpstrtab_##name[] \
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__attribute__((section("__tracepoints_strings"))) = #name; \
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struct tracepoint __tracepoint_##name \
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__attribute__((section("__tracepoints"))) = \
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{ __tpstrtab_##name, STATIC_KEY_INIT_FALSE, reg, unreg, NULL };\
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static struct tracepoint * const __tracepoint_ptr_##name __used \
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__attribute__((section("__tracepoints_ptrs"))) = \
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&__tracepoint_##name;
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#define DEFINE_TRACE(name) \
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DEFINE_TRACE_FN(name, NULL, NULL);
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#define EXPORT_TRACEPOINT_SYMBOL_GPL(name) \
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EXPORT_SYMBOL_GPL(__tracepoint_##name)
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#define EXPORT_TRACEPOINT_SYMBOL(name) \
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EXPORT_SYMBOL(__tracepoint_##name)
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#else /* !TRACEPOINTS_ENABLED */
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#define __DECLARE_TRACE(name, proto, args, cond, data_proto, data_args) \
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static inline void trace_##name(proto) \
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{ } \
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static inline void trace_##name##_rcuidle(proto) \
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{ } \
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static inline int \
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register_trace_##name(void (*probe)(data_proto), \
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void *data) \
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{ \
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return -ENOSYS; \
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} \
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static inline int \
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unregister_trace_##name(void (*probe)(data_proto), \
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void *data) \
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{ \
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return -ENOSYS; \
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} \
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static inline void check_trace_callback_type_##name(void (*cb)(data_proto)) \
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{ \
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} \
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static inline bool \
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trace_##name##_enabled(void) \
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{ \
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return false; \
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}
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#define DEFINE_TRACE_FN(name, reg, unreg)
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#define DEFINE_TRACE(name)
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#define EXPORT_TRACEPOINT_SYMBOL_GPL(name)
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#define EXPORT_TRACEPOINT_SYMBOL(name)
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#endif /* TRACEPOINTS_ENABLED */
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#ifdef CONFIG_TRACING
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/**
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* tracepoint_string - register constant persistent string to trace system
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* @str - a constant persistent string that will be referenced in tracepoints
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*
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* If constant strings are being used in tracepoints, it is faster and
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* more efficient to just save the pointer to the string and reference
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* that with a printf "%s" instead of saving the string in the ring buffer
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* and wasting space and time.
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*
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* The problem with the above approach is that userspace tools that read
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* the binary output of the trace buffers do not have access to the string.
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* Instead they just show the address of the string which is not very
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* useful to users.
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*
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* With tracepoint_string(), the string will be registered to the tracing
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* system and exported to userspace via the debugfs/tracing/printk_formats
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* file that maps the string address to the string text. This way userspace
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* tools that read the binary buffers have a way to map the pointers to
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* the ASCII strings they represent.
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*
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* The @str used must be a constant string and persistent as it would not
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* make sense to show a string that no longer exists. But it is still fine
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* to be used with modules, because when modules are unloaded, if they
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* had tracepoints, the ring buffers are cleared too. As long as the string
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* does not change during the life of the module, it is fine to use
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* tracepoint_string() within a module.
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*/
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#define tracepoint_string(str) \
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({ \
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static const char *___tp_str __tracepoint_string = str; \
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___tp_str; \
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})
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#define __tracepoint_string __attribute__((section("__tracepoint_str")))
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#else
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/*
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* tracepoint_string() is used to save the string address for userspace
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* tracing tools. When tracing isn't configured, there's no need to save
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* anything.
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*/
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# define tracepoint_string(str) str
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# define __tracepoint_string
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#endif
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/*
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* The need for the DECLARE_TRACE_NOARGS() is to handle the prototype
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* (void). "void" is a special value in a function prototype and can
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* not be combined with other arguments. Since the DECLARE_TRACE()
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* macro adds a data element at the beginning of the prototype,
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* we need a way to differentiate "(void *data, proto)" from
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* "(void *data, void)". The second prototype is invalid.
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*
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* DECLARE_TRACE_NOARGS() passes "void" as the tracepoint prototype
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* and "void *__data" as the callback prototype.
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*
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* DECLARE_TRACE() passes "proto" as the tracepoint protoype and
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* "void *__data, proto" as the callback prototype.
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*/
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#define DECLARE_TRACE_NOARGS(name) \
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__DECLARE_TRACE(name, void, , \
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cpu_online(raw_smp_processor_id()), \
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void *__data, __data)
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#define DECLARE_TRACE(name, proto, args) \
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__DECLARE_TRACE(name, PARAMS(proto), PARAMS(args), \
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cpu_online(raw_smp_processor_id()), \
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PARAMS(void *__data, proto), \
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PARAMS(__data, args))
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#define DECLARE_TRACE_CONDITION(name, proto, args, cond) \
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__DECLARE_TRACE(name, PARAMS(proto), PARAMS(args), \
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cpu_online(raw_smp_processor_id()) && (PARAMS(cond)), \
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PARAMS(void *__data, proto), \
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PARAMS(__data, args))
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#define TRACE_EVENT_FLAGS(event, flag)
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#define TRACE_EVENT_PERF_PERM(event, expr...)
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#endif /* DECLARE_TRACE */
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#ifndef TRACE_EVENT
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/*
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* For use with the TRACE_EVENT macro:
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*
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* We define a tracepoint, its arguments, its printk format
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* and its 'fast binary record' layout.
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*
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* Firstly, name your tracepoint via TRACE_EVENT(name : the
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* 'subsystem_event' notation is fine.
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*
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* Think about this whole construct as the
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* 'trace_sched_switch() function' from now on.
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*
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*
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* TRACE_EVENT(sched_switch,
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*
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* *
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* * A function has a regular function arguments
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* * prototype, declare it via TP_PROTO():
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* *
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*
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* TP_PROTO(struct rq *rq, struct task_struct *prev,
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* struct task_struct *next),
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*
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* *
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* * Define the call signature of the 'function'.
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* * (Design sidenote: we use this instead of a
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* * TP_PROTO1/TP_PROTO2/TP_PROTO3 ugliness.)
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* *
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*
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* TP_ARGS(rq, prev, next),
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*
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* *
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* * Fast binary tracing: define the trace record via
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* * TP_STRUCT__entry(). You can think about it like a
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* * regular C structure local variable definition.
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* *
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* * This is how the trace record is structured and will
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* * be saved into the ring buffer. These are the fields
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* * that will be exposed to user-space in
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* * /sys/kernel/debug/tracing/events/<*>/format.
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* *
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* * The declared 'local variable' is called '__entry'
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* *
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* * __field(pid_t, prev_prid) is equivalent to a standard declariton:
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* *
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* * pid_t prev_pid;
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* *
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* * __array(char, prev_comm, TASK_COMM_LEN) is equivalent to:
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* *
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* * char prev_comm[TASK_COMM_LEN];
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* *
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*
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* TP_STRUCT__entry(
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* __array( char, prev_comm, TASK_COMM_LEN )
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* __field( pid_t, prev_pid )
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* __field( int, prev_prio )
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* __array( char, next_comm, TASK_COMM_LEN )
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* __field( pid_t, next_pid )
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* __field( int, next_prio )
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* ),
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*
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* *
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* * Assign the entry into the trace record, by embedding
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* * a full C statement block into TP_fast_assign(). You
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* * can refer to the trace record as '__entry' -
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* * otherwise you can put arbitrary C code in here.
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* *
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* * Note: this C code will execute every time a trace event
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* * happens, on an active tracepoint.
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* *
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*
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* TP_fast_assign(
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* memcpy(__entry->next_comm, next->comm, TASK_COMM_LEN);
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* __entry->prev_pid = prev->pid;
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* __entry->prev_prio = prev->prio;
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* memcpy(__entry->prev_comm, prev->comm, TASK_COMM_LEN);
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* __entry->next_pid = next->pid;
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* __entry->next_prio = next->prio;
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* ),
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*
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* *
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* * Formatted output of a trace record via TP_printk().
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* * This is how the tracepoint will appear under ftrace
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* * plugins that make use of this tracepoint.
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* *
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* * (raw-binary tracing wont actually perform this step.)
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* *
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*
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* TP_printk("task %s:%d [%d] ==> %s:%d [%d]",
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* __entry->prev_comm, __entry->prev_pid, __entry->prev_prio,
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* __entry->next_comm, __entry->next_pid, __entry->next_prio),
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*
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* );
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*
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* This macro construct is thus used for the regular printk format
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* tracing setup, it is used to construct a function pointer based
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* tracepoint callback (this is used by programmatic plugins and
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* can also by used by generic instrumentation like SystemTap), and
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* it is also used to expose a structured trace record in
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* /sys/kernel/debug/tracing/events/.
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*
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* A set of (un)registration functions can be passed to the variant
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* TRACE_EVENT_FN to perform any (un)registration work.
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*/
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#define DECLARE_EVENT_CLASS(name, proto, args, tstruct, assign, print)
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#define DEFINE_EVENT(template, name, proto, args) \
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DECLARE_TRACE(name, PARAMS(proto), PARAMS(args))
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#define DEFINE_EVENT_FN(template, name, proto, args, reg, unreg)\
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DECLARE_TRACE(name, PARAMS(proto), PARAMS(args))
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#define DEFINE_EVENT_PRINT(template, name, proto, args, print) \
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DECLARE_TRACE(name, PARAMS(proto), PARAMS(args))
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#define DEFINE_EVENT_CONDITION(template, name, proto, \
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args, cond) \
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DECLARE_TRACE_CONDITION(name, PARAMS(proto), \
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PARAMS(args), PARAMS(cond))
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#define TRACE_EVENT(name, proto, args, struct, assign, print) \
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DECLARE_TRACE(name, PARAMS(proto), PARAMS(args))
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#define TRACE_EVENT_FN(name, proto, args, struct, \
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assign, print, reg, unreg) \
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DECLARE_TRACE(name, PARAMS(proto), PARAMS(args))
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#define TRACE_EVENT_FN_COND(name, proto, args, cond, struct, \
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assign, print, reg, unreg) \
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DECLARE_TRACE_CONDITION(name, PARAMS(proto), \
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PARAMS(args), PARAMS(cond))
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#define TRACE_EVENT_CONDITION(name, proto, args, cond, \
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struct, assign, print) \
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DECLARE_TRACE_CONDITION(name, PARAMS(proto), \
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PARAMS(args), PARAMS(cond))
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#define TRACE_EVENT_FLAGS(event, flag)
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#define TRACE_EVENT_PERF_PERM(event, expr...)
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#endif /* ifdef TRACE_EVENT (see note above) */
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