[ust.git] / libust / tracer.h

/*
 * Copyright (C) 2005,2006,2008 Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca)
 * Copyright (C) 2009 Pierre-Marc Fournier
 *
 * This contains the definitions for the Linux Trace Toolkit tracer.
 *
 * Ported to userspace by Pierre-Marc Fournier.
 *
 * This file is released under the GPLv2.
 */

#ifndef _LTT_TRACER_H
#define _LTT_TRACER_H

#include <sys/types.h>
#include <stdarg.h>
//#include "list.h"
#include "kernelcompat.h"
#include "buffer.h"
#include "relay.h"
#include "channels.h"
#include "tracercore.h"
#include "marker.h"

/* Number of bytes to log with a read/write event */
#define LTT_LOG_RW_SIZE			32L

/* Interval (in jiffies) at which the LTT per-CPU timer fires */
#define LTT_PERCPU_TIMER_INTERVAL	1

#ifndef LTT_ARCH_TYPE
#define LTT_ARCH_TYPE			LTT_ARCH_TYPE_UNDEFINED
#endif

#ifndef LTT_ARCH_VARIANT
#define LTT_ARCH_VARIANT		LTT_ARCH_VARIANT_NONE
#endif

struct ltt_active_marker;

/* Maximum number of callbacks per marker */
#define LTT_NR_CALLBACKS	10

struct ltt_serialize_closure;
struct ltt_probe_private_data;

/* Serialization callback '%k' */
typedef size_t (*ltt_serialize_cb)(struct rchan_buf *buf, size_t buf_offset,
			struct ltt_serialize_closure *closure,
			void *serialize_private, int *largest_align,
			const char *fmt, va_list *args);

struct ltt_serialize_closure {
	ltt_serialize_cb *callbacks;
	long cb_args[LTT_NR_CALLBACKS];
	unsigned int cb_idx;
};

size_t ltt_serialize_data(struct rchan_buf *buf, size_t buf_offset,
			struct ltt_serialize_closure *closure,
			void *serialize_private,
			int *largest_align, const char *fmt, va_list *args);

struct ltt_available_probe {
	const char *name;		/* probe name */
	const char *format;
	marker_probe_func *probe_func;
	ltt_serialize_cb callbacks[LTT_NR_CALLBACKS];
	struct list_head node;		/* registered probes list */
};

struct ltt_probe_private_data {
	struct ltt_trace_struct *trace;	/*
					 * Target trace, for metadata
					 * or statedump.
					 */
	ltt_serialize_cb serializer;	/*
					 * Serialization function override.
					 */
	void *serialize_private;	/*
					 * Private data for serialization
					 * functions.
					 */
};

enum ltt_channels {
	LTT_CHANNEL_METADATA,
	LTT_CHANNEL_UST,
};

struct ltt_active_marker {
	struct list_head node;		/* active markers list */
	const char *channel;
	const char *name;
	const char *format;
	struct ltt_available_probe *probe;
};

struct marker; //ust//
extern void ltt_vtrace(const struct marker *mdata, void *probe_data,
	void *call_data, const char *fmt, va_list *args);
extern void ltt_trace(const struct marker *mdata, void *probe_data,
	void *call_data, const char *fmt, ...);

/*
 * Unique ID assigned to each registered probe.
 */
enum marker_id {
	MARKER_ID_SET_MARKER_ID = 0,	/* Static IDs available (range 0-7) */
	MARKER_ID_SET_MARKER_FORMAT,
	MARKER_ID_COMPACT,		/* Compact IDs (range: 8-127)	    */
	MARKER_ID_DYNAMIC,		/* Dynamic IDs (range: 128-65535)   */
};

/* static ids 0-1 reserved for internal use. */
#define MARKER_CORE_IDS		2
static inline enum marker_id marker_id_type(uint16_t id)
{
	if (id < MARKER_CORE_IDS)
		return (enum marker_id)id;
	else
		return MARKER_ID_DYNAMIC;
}

struct user_dbg_data {
	unsigned long avail_size;
	unsigned long write;
	unsigned long read;
};

struct ltt_trace_ops {
	/* First 32 bytes cache-hot cacheline */
	int (*reserve_slot) (struct ltt_trace_struct *trace,
				struct ltt_channel_struct *channel,
				void **transport_data, size_t data_size,
				size_t *slot_size, long *buf_offset, u64 *tsc,
				unsigned int *rflags,
				int largest_align);
//ust//	void (*commit_slot) (struct ltt_channel_struct *channel,
//ust//				void **transport_data, long buf_offset,
//ust//				size_t slot_size);
	void (*wakeup_channel) (struct ltt_channel_struct *ltt_channel);
	int (*user_blocking) (struct ltt_trace_struct *trace,
				unsigned int index, size_t data_size,
				struct user_dbg_data *dbg);
 	/* End of first 32 bytes cacheline */
 	int (*create_dirs) (struct ltt_trace_struct *new_trace);
 	void (*remove_dirs) (struct ltt_trace_struct *new_trace);
 	int (*create_channel) (const char *trace_name,
 				struct ltt_trace_struct *trace,
 				struct dentry *dir, const char *channel_name,
 				struct ltt_channel_struct *ltt_chan,
 				unsigned int subbuf_size,
 				unsigned int n_subbufs, int overwrite);
 	void (*finish_channel) (struct ltt_channel_struct *channel);
 	void (*remove_channel) (struct ltt_channel_struct *channel);
 	void (*user_errors) (struct ltt_trace_struct *trace,
 				unsigned int index, size_t data_size,
 				struct user_dbg_data *dbg);
} ____cacheline_aligned;

struct ltt_transport {
	char *name;
	struct module *owner;
	struct list_head node;
	struct ltt_trace_ops ops;
};

enum trace_mode { LTT_TRACE_NORMAL, LTT_TRACE_FLIGHT, LTT_TRACE_HYBRID };

#define CHANNEL_FLAG_ENABLE	(1U<<0)
#define CHANNEL_FLAG_OVERWRITE	(1U<<1)

/* Per-trace information - each trace/flight recorder represented by one */
struct ltt_trace_struct {
	/* First 32 bytes cache-hot cacheline */
	struct list_head list;
	struct ltt_trace_ops *ops;
	int active;
	/* Second 32 bytes cache-hot cacheline */
	struct ltt_channel_struct *channels;
	unsigned int nr_channels;
	u32 freq_scale;
	u64 start_freq;
	u64 start_tsc;
	unsigned long long start_monotonic;
	struct timeval		start_time;
	struct ltt_channel_setting *settings;
	struct {
		struct dentry			*trace_root;
	} dentry;
	struct kref kref; /* Each channel has a kref of the trace struct */
	struct ltt_transport *transport;
	struct kref ltt_transport_kref;
	char trace_name[NAME_MAX];
} ____cacheline_aligned;

/* Hardcoded event headers
 *
 * event header for a trace with active heartbeat : 27 bits timestamps
 *
 * headers are 32-bits aligned. In order to insure such alignment, a dynamic per
 * trace alignment value must be done.
 *
 * Remember that the C compiler does align each member on the boundary
 * equivalent to their own size.
 *
 * As relay subbuffers are aligned on pages, we are sure that they are 4 and 8
 * bytes aligned, so the buffer header and trace header are aligned.
 *
 * Event headers are aligned depending on the trace alignment option.
 *
 * Note using C structure bitfields for cross-endianness and portability
 * concerns.
 */

#define LTT_RESERVED_EVENTS	3
#define LTT_EVENT_BITS		5
#define LTT_FREE_EVENTS		((1 << LTT_EVENT_BITS) - LTT_RESERVED_EVENTS)
#define LTT_TSC_BITS		27
#define LTT_TSC_MASK		((1 << LTT_TSC_BITS) - 1)

struct ltt_event_header {
	u32 id_time;		/* 5 bits event id (MSB); 27 bits time (LSB) */
};

/* Reservation flags */
#define	LTT_RFLAG_ID			(1 << 0)
#define	LTT_RFLAG_ID_SIZE		(1 << 1)
#define	LTT_RFLAG_ID_SIZE_TSC		(1 << 2)

/*
 * We use asm/timex.h : cpu_khz/HZ variable in here : we might have to deal
 * specifically with CPU frequency scaling someday, so using an interpolation
 * between the start and end of buffer values is not flexible enough. Using an
 * immediate frequency value permits to calculate directly the times for parts
 * of a buffer that would be before a frequency change.
 *
 * Keep the natural field alignment for _each field_ within this structure if
 * you ever add/remove a field from this header. Packed attribute is not used
 * because gcc generates poor code on at least powerpc and mips. Don't ever
 * let gcc add padding between the structure elements.
 */
struct ltt_subbuffer_header {
	uint64_t cycle_count_begin;	/* Cycle count at subbuffer start */
	uint64_t cycle_count_end;	/* Cycle count at subbuffer end */
	uint32_t magic_number;		/*
					 * Trace magic number.
					 * contains endianness information.
					 */
	uint8_t major_version;
	uint8_t minor_version;
	uint8_t arch_size;		/* Architecture pointer size */
	uint8_t alignment;		/* LTT data alignment */
	uint64_t start_time_sec;	/* NTP-corrected start time */
	uint64_t start_time_usec;
	uint64_t start_freq;		/*
					 * Frequency at trace start,
					 * used all along the trace.
					 */
	uint32_t freq_scale;		/* Frequency scaling (divisor) */
	uint32_t lost_size;		/* Size unused at end of subbuffer */
	uint32_t buf_size;		/* Size of this subbuffer */
	uint32_t events_lost;		/*
					 * Events lost in this subbuffer since
					 * the beginning of the trace.
					 * (may overflow)
					 */
	uint32_t subbuf_corrupt;	/*
					 * Corrupted (lost) subbuffers since
					 * the begginig of the trace.
					 * (may overflow)
					 */
	uint8_t header_end[0];		/* End of header */
};

/**
 * ltt_subbuffer_header_size - called on buffer-switch to a new sub-buffer
 *
 * Return header size without padding after the structure. Don't use packed
 * structure because gcc generates inefficient code on some architectures
 * (powerpc, mips..)
 */
static inline size_t ltt_subbuffer_header_size(void)
{
	return offsetof(struct ltt_subbuffer_header, header_end);
}

/*
 * ltt_get_header_size
 *
 * Calculate alignment offset to 32-bits. This is the alignment offset of the
 * event header.
 *
 * Important note :
 * The event header must be 32-bits. The total offset calculated here :
 *
 * Alignment of header struct on 32 bits (min arch size, header size)
 * + sizeof(header struct)  (32-bits)
 * + (opt) u16 (ext. event id)
 * + (opt) u16 (event_size) (if event_size == 0xFFFFUL, has ext. event size)
 * + (opt) u32 (ext. event size)
 * + (opt) u64 full TSC (aligned on min(64-bits, arch size))
 *
 * The payload must itself determine its own alignment from the biggest type it
 * contains.
 * */
static inline unsigned char ltt_get_header_size(
		struct ltt_channel_struct *channel,
		size_t offset,
		size_t data_size,
		size_t *before_hdr_pad,
		unsigned int rflags)
{
	size_t orig_offset = offset;
	size_t padding;

	padding = ltt_align(offset, sizeof(struct ltt_event_header));
	offset += padding;
	offset += sizeof(struct ltt_event_header);

	switch (rflags) {
	case LTT_RFLAG_ID_SIZE_TSC:
		offset += sizeof(u16) + sizeof(u16);
		if (data_size >= 0xFFFFU)
			offset += sizeof(u32);
		offset += ltt_align(offset, sizeof(u64));
		offset += sizeof(u64);
		break;
	case LTT_RFLAG_ID_SIZE:
		offset += sizeof(u16) + sizeof(u16);
		if (data_size >= 0xFFFFU)
			offset += sizeof(u32);
		break;
	case LTT_RFLAG_ID:
		offset += sizeof(u16);
		break;
	}

	*before_hdr_pad = padding;
	return offset - orig_offset;
}

/*
 * ltt_write_event_header
 *
 * Writes the event header to the offset (already aligned on 32-bits).
 *
 * @trace : trace to write to.
 * @channel : pointer to the channel structure..
 * @buf : buffer to write to.
 * @buf_offset : buffer offset to write to (aligned on 32 bits).
 * @eID : event ID
 * @event_size : size of the event, excluding the event header.
 * @tsc : time stamp counter.
 * @rflags : reservation flags.
 *
 * returns : offset where the event data must be written.
 */
static inline size_t ltt_write_event_header(struct ltt_trace_struct *trace,
		struct ltt_channel_struct *channel,
		struct rchan_buf *buf, long buf_offset,
		u16 eID, size_t event_size,
		u64 tsc, unsigned int rflags)
{
	struct ltt_event_header header;
	size_t small_size;

	switch (rflags) {
	case LTT_RFLAG_ID_SIZE_TSC:
		header.id_time = 29 << LTT_TSC_BITS;
		break;
	case LTT_RFLAG_ID_SIZE:
		header.id_time = 30 << LTT_TSC_BITS;
		break;
	case LTT_RFLAG_ID:
		header.id_time = 31 << LTT_TSC_BITS;
		break;
	default:
		header.id_time = eID << LTT_TSC_BITS;
		break;
	}
	header.id_time |= (u32)tsc & LTT_TSC_MASK;
	ltt_relay_write(buf, buf_offset, &header, sizeof(header));
	buf_offset += sizeof(header);

	switch (rflags) {
	case LTT_RFLAG_ID_SIZE_TSC:
		small_size = min_t(size_t, event_size, 0xFFFFU);
		ltt_relay_write(buf, buf_offset,
			(u16[]){ (u16)eID }, sizeof(u16));
		buf_offset += sizeof(u16);
		ltt_relay_write(buf, buf_offset,
			(u16[]){ (u16)small_size }, sizeof(u16));
		buf_offset += sizeof(u16);
		if (small_size == 0xFFFFU) {
			ltt_relay_write(buf, buf_offset,
				(u32[]){ (u32)event_size }, sizeof(u32));
			buf_offset += sizeof(u32);
		}
		buf_offset += ltt_align(buf_offset, sizeof(u64));
		ltt_relay_write(buf, buf_offset,
			(u64[]){ (u64)tsc }, sizeof(u64));
		buf_offset += sizeof(u64);
		break;
	case LTT_RFLAG_ID_SIZE:
		small_size = min_t(size_t, event_size, 0xFFFFU);
		ltt_relay_write(buf, buf_offset,
			(u16[]){ (u16)eID }, sizeof(u16));
		buf_offset += sizeof(u16);
		ltt_relay_write(buf, buf_offset,
			(u16[]){ (u16)small_size }, sizeof(u16));
		buf_offset += sizeof(u16);
		if (small_size == 0xFFFFU) {
			ltt_relay_write(buf, buf_offset,
				(u32[]){ (u32)event_size }, sizeof(u32));
			buf_offset += sizeof(u32);
		}
		break;
	case LTT_RFLAG_ID:
		ltt_relay_write(buf, buf_offset,
			(u16[]){ (u16)eID }, sizeof(u16));
		buf_offset += sizeof(u16);
		break;
	default:
		break;
	}

	return buf_offset;
}

/* Lockless LTTng */

/*
 * ltt_reserve_slot
 *
 * Atomic slot reservation in a LTTng buffer. It will take care of
 * sub-buffer switching.
 *
 * Parameters:
 *
 * @trace : the trace structure to log to.
 * @channel : the chanel to reserve space into.
 * @transport_data : specific transport data.
 * @data_size : size of the variable length data to log.
 * @slot_size : pointer to total size of the slot (out)
 * @buf_offset : pointer to reserve offset (out)
 * @tsc : pointer to the tsc at the slot reservation (out)
 * @rflags : reservation flags (header specificity)
 * @cpu : cpu id
 *
 * Return : -ENOSPC if not enough space, else 0.
 */
static inline int ltt_reserve_slot(
		struct ltt_trace_struct *trace,
		struct ltt_channel_struct *channel,
		void **transport_data,
		size_t data_size,
		size_t *slot_size,
		long *buf_offset,
		u64 *tsc,
		unsigned int *rflags,
		int largest_align)
{
	return trace->ops->reserve_slot(trace, channel, transport_data,
			data_size, slot_size, buf_offset, tsc, rflags,
			largest_align);
}


///*
// * ltt_commit_slot
// *
// * Atomic unordered slot commit. Increments the commit count in the
// * specified sub-buffer, and delivers it if necessary.
// *
// * Parameters:
// *
// * @channel : the chanel to reserve space into.
// * @transport_data : specific transport data.
// * @buf_offset : offset of beginning of reserved slot
// * @slot_size : size of the reserved slot.
// */
//static inline void ltt_commit_slot(
//		struct ltt_channel_struct *channel,
//		void **transport_data,
//		long buf_offset,
//		size_t slot_size)
//{
//	struct ltt_trace_struct *trace = channel->trace;
//
//	trace->ops->commit_slot(channel, transport_data, buf_offset, slot_size);
//}

/*
 * Control channels :
 * control/metadata
 * control/interrupts
 * control/...
 *
 * cpu channel :
 * cpu
 */

#define LTT_METADATA_CHANNEL		"metadata_state"
#define LTT_UST_CHANNEL			"ust"

#define LTT_FLIGHT_PREFIX	"flight-"

/* Tracer properties */
//#define LTT_DEFAULT_SUBBUF_SIZE_LOW	65536
#define LTT_DEFAULT_SUBBUF_SIZE_LOW	4096
#define LTT_DEFAULT_N_SUBBUFS_LOW	2
//#define LTT_DEFAULT_SUBBUF_SIZE_MED	262144
#define LTT_DEFAULT_SUBBUF_SIZE_MED	4096
#define LTT_DEFAULT_N_SUBBUFS_MED	2
//#define LTT_DEFAULT_SUBBUF_SIZE_HIGH	1048576
#define LTT_DEFAULT_SUBBUF_SIZE_HIGH	4096	
#define LTT_DEFAULT_N_SUBBUFS_HIGH	2
#define LTT_TRACER_MAGIC_NUMBER		0x00D6B7ED
#define LTT_TRACER_VERSION_MAJOR	2
#define LTT_TRACER_VERSION_MINOR	3

/*
 * Size reserved for high priority events (interrupts, NMI, BH) at the end of a
 * nearly full buffer. User space won't use this last amount of space when in
 * blocking mode. This space also includes the event header that would be
 * written by this user space event.
 */
#define LTT_RESERVE_CRITICAL		4096

/* Register and unregister function pointers */

enum ltt_module_function {
	LTT_FUNCTION_RUN_FILTER,
	LTT_FUNCTION_FILTER_CONTROL,
	LTT_FUNCTION_STATEDUMP
};

void ltt_transport_register(struct ltt_transport *transport);
void ltt_transport_unregister(struct ltt_transport *transport);

/* Exported control function */

union ltt_control_args {
	struct {
		enum trace_mode mode;
		unsigned int subbuf_size_low;
		unsigned int n_subbufs_low;
		unsigned int subbuf_size_med;
		unsigned int n_subbufs_med;
		unsigned int subbuf_size_high;
		unsigned int n_subbufs_high;
	} new_trace;
};

int _ltt_trace_setup(const char *trace_name);
int ltt_trace_setup(const char *trace_name);
struct ltt_trace_struct *_ltt_trace_find_setup(const char *trace_name);
int ltt_trace_set_type(const char *trace_name, const char *trace_type);
int ltt_trace_set_channel_subbufsize(const char *trace_name,
		const char *channel_name, unsigned int size);
int ltt_trace_set_channel_subbufcount(const char *trace_name,
		const char *channel_name, unsigned int cnt);
int ltt_trace_set_channel_enable(const char *trace_name,
		const char *channel_name, unsigned int enable);
int ltt_trace_set_channel_overwrite(const char *trace_name,
		const char *channel_name, unsigned int overwrite);
int ltt_trace_alloc(const char *trace_name);
int ltt_trace_destroy(const char *trace_name);
int ltt_trace_start(const char *trace_name);
int ltt_trace_stop(const char *trace_name);

enum ltt_filter_control_msg {
	LTT_FILTER_DEFAULT_ACCEPT,
	LTT_FILTER_DEFAULT_REJECT
};

extern int ltt_filter_control(enum ltt_filter_control_msg msg,
		const char *trace_name);

extern struct dentry *get_filter_root(void);

void ltt_write_trace_header(struct ltt_trace_struct *trace,
		struct ltt_subbuffer_header *header);
extern void ltt_buffer_destroy(struct ltt_channel_struct *ltt_chan);

void ltt_core_register(int (*function)(u8, void *));

void ltt_core_unregister(void);

void ltt_release_trace(struct kref *kref);
void ltt_release_transport(struct kref *kref);

extern int ltt_probe_register(struct ltt_available_probe *pdata);
extern int ltt_probe_unregister(struct ltt_available_probe *pdata);
extern int ltt_marker_connect(const char *channel, const char *mname,
		const char *pname);
extern int ltt_marker_disconnect(const char *channel, const char *mname,
		const char *pname);
extern void ltt_dump_marker_state(struct ltt_trace_struct *trace);

void ltt_lock_traces(void);
void ltt_unlock_traces(void);

struct ltt_trace_struct *_ltt_trace_find(const char *trace_name);

#endif /* _LTT_TRACER_H */
Commit	Line	Data
9dad1eb8 PMF	1	/*
9dad1eb8 PMF	2	* Copyright (C) 2005,2006,2008 Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca)
e4621c7f	3	* Copyright (C) 2009 Pierre-Marc Fournier
9dad1eb8 PMF	4	*
9dad1eb8 PMF	5	* This contains the definitions for the Linux Trace Toolkit tracer.
e4621c7f PMF	6	*
	7	* Ported to userspace by Pierre-Marc Fournier.
	8	*
	9	* This file is released under the GPLv2.
9dad1eb8 PMF	10	*/
	11
	12	#ifndef _LTT_TRACER_H
	13	#define _LTT_TRACER_H
	14
b6bf28ec	15	#include <sys/types.h>
9dad1eb8	16	#include <stdarg.h>
769d0157	17	//#include "list.h"
b6bf28ec	18	#include "kernelcompat.h"
a6de7618	19	#include "buffer.h"
769d0157	20	#include "relay.h"
b6bf28ec	21	#include "channels.h"
bb07823d	22	#include "tracercore.h"
8d938dbd	23	#include "marker.h"
9dad1eb8 PMF	24
	25	/* Number of bytes to log with a read/write event */
	26	#define LTT_LOG_RW_SIZE 32L
	27
	28	/* Interval (in jiffies) at which the LTT per-CPU timer fires */
	29	#define LTT_PERCPU_TIMER_INTERVAL 1
	30
	31	#ifndef LTT_ARCH_TYPE
	32	#define LTT_ARCH_TYPE LTT_ARCH_TYPE_UNDEFINED
	33	#endif
	34
	35	#ifndef LTT_ARCH_VARIANT
	36	#define LTT_ARCH_VARIANT LTT_ARCH_VARIANT_NONE
	37	#endif
	38
	39	struct ltt_active_marker;
	40
	41	/* Maximum number of callbacks per marker */
	42	#define LTT_NR_CALLBACKS 10
	43
	44	struct ltt_serialize_closure;
	45	struct ltt_probe_private_data;
	46
	47	/* Serialization callback '%k' */
	48	typedef size_t (ltt_serialize_cb)(struct rchan_buf buf, size_t buf_offset,
	49	struct ltt_serialize_closure *closure,
	50	void serialize_private, int largest_align,
	51	const char fmt, va_list args);
	52
	53	struct ltt_serialize_closure {
	54	ltt_serialize_cb *callbacks;
	55	long cb_args[LTT_NR_CALLBACKS];
	56	unsigned int cb_idx;
	57	};
	58
	59	size_t ltt_serialize_data(struct rchan_buf *buf, size_t buf_offset,
	60	struct ltt_serialize_closure *closure,
	61	void *serialize_private,
	62	int largest_align, const char fmt, va_list *args);
	63
8d938dbd PMF	64	struct ltt_available_probe {
	65	const char name; / probe name */
	66	const char *format;
	67	marker_probe_func *probe_func;
	68	ltt_serialize_cb callbacks[LTT_NR_CALLBACKS];
	69	struct list_head node; /* registered probes list */
	70	};
9dad1eb8 PMF	71
	72	struct ltt_probe_private_data {
	73	struct ltt_trace_struct trace; /
	74	* Target trace, for metadata
	75	* or statedump.
	76	*/
	77	ltt_serialize_cb serializer; /*
	78	* Serialization function override.
	79	*/
	80	void serialize_private; /
	81	* Private data for serialization
	82	* functions.
	83	*/
	84	};
	85
	86	enum ltt_channels {
	87	LTT_CHANNEL_METADATA,
b6bf28ec	88	LTT_CHANNEL_UST,
9dad1eb8 PMF	89	};
	90
	91	struct ltt_active_marker {
	92	struct list_head node; /* active markers list */
	93	const char *channel;
	94	const char *name;
	95	const char *format;
	96	struct ltt_available_probe *probe;
	97	};
	98
b6bf28ec	99	struct marker; //ust//
9dad1eb8 PMF	100	extern void ltt_vtrace(const struct marker mdata, void probe_data,
	101	void call_data, const char fmt, va_list *args);
	102	extern void ltt_trace(const struct marker mdata, void probe_data,
	103	void call_data, const char fmt, ...);
	104
	105	/*
	106	* Unique ID assigned to each registered probe.
	107	*/
	108	enum marker_id {
	109	MARKER_ID_SET_MARKER_ID = 0, /* Static IDs available (range 0-7) */
	110	MARKER_ID_SET_MARKER_FORMAT,
	111	MARKER_ID_COMPACT, /* Compact IDs (range: 8-127) */
	112	MARKER_ID_DYNAMIC, /* Dynamic IDs (range: 128-65535) */
	113	};
	114
	115	/* static ids 0-1 reserved for internal use. */
	116	#define MARKER_CORE_IDS 2
	117	static inline enum marker_id marker_id_type(uint16_t id)
	118	{
	119	if (id < MARKER_CORE_IDS)
	120	return (enum marker_id)id;
	121	else
	122	return MARKER_ID_DYNAMIC;
	123	}
	124
9dad1eb8 PMF	125	struct user_dbg_data {
	126	unsigned long avail_size;
	127	unsigned long write;
	128	unsigned long read;
	129	};
	130
	131	struct ltt_trace_ops {
	132	/* First 32 bytes cache-hot cacheline */
	133	int (reserve_slot) (struct ltt_trace_struct trace,
	134	struct ltt_channel_struct *channel,
	135	void **transport_data, size_t data_size,
	136	size_t slot_size, long buf_offset, u64 *tsc,
	137	unsigned int *rflags,
c1dea0b3	138	int largest_align);
8431032f PMF	139	//ust// void (commit_slot) (struct ltt_channel_struct channel,
	140	//ust// void **transport_data, long buf_offset,
	141	//ust// size_t slot_size);
9dad1eb8	142	void (wakeup_channel) (struct ltt_channel_struct ltt_channel);
bb07823d PMF	143	int (user_blocking) (struct ltt_trace_struct trace,
	144	unsigned int index, size_t data_size,
	145	struct user_dbg_data *dbg);
	146	/* End of first 32 bytes cacheline */
	147	int (create_dirs) (struct ltt_trace_struct new_trace);
	148	void (remove_dirs) (struct ltt_trace_struct new_trace);
b6bf28ec PMF	149	int (create_channel) (const char trace_name,
	150	struct ltt_trace_struct *trace,
	151	struct dentry dir, const char channel_name,
	152	struct ltt_channel_struct *ltt_chan,
	153	unsigned int subbuf_size,
	154	unsigned int n_subbufs, int overwrite);
	155	void (finish_channel) (struct ltt_channel_struct channel);
	156	void (remove_channel) (struct ltt_channel_struct channel);
	157	void (user_errors) (struct ltt_trace_struct trace,
	158	unsigned int index, size_t data_size,
c1dea0b3	159	struct user_dbg_data *dbg);
9dad1eb8 PMF	160	} ____cacheline_aligned;
	161
	162	struct ltt_transport {
	163	char *name;
	164	struct module *owner;
	165	struct list_head node;
	166	struct ltt_trace_ops ops;
	167	};
	168
	169	enum trace_mode { LTT_TRACE_NORMAL, LTT_TRACE_FLIGHT, LTT_TRACE_HYBRID };
	170
	171	#define CHANNEL_FLAG_ENABLE (1U<<0)
	172	#define CHANNEL_FLAG_OVERWRITE (1U<<1)
	173
	174	/* Per-trace information - each trace/flight recorder represented by one */
	175	struct ltt_trace_struct {
	176	/* First 32 bytes cache-hot cacheline */
	177	struct list_head list;
	178	struct ltt_trace_ops *ops;
	179	int active;
	180	/* Second 32 bytes cache-hot cacheline */
	181	struct ltt_channel_struct *channels;
	182	unsigned int nr_channels;
	183	u32 freq_scale;
	184	u64 start_freq;
	185	u64 start_tsc;
	186	unsigned long long start_monotonic;
	187	struct timeval start_time;
	188	struct ltt_channel_setting *settings;
	189	struct {
	190	struct dentry *trace_root;
	191	} dentry;
9dad1eb8 PMF	192	struct kref kref; /* Each channel has a kref of the trace struct */
	193	struct ltt_transport *transport;
	194	struct kref ltt_transport_kref;
9dad1eb8 PMF	195	char trace_name[NAME_MAX];
	196	} ____cacheline_aligned;
	197
	198	/* Hardcoded event headers
	199	*
	200	* event header for a trace with active heartbeat : 27 bits timestamps
	201	*
	202	* headers are 32-bits aligned. In order to insure such alignment, a dynamic per
	203	* trace alignment value must be done.
	204	*
	205	* Remember that the C compiler does align each member on the boundary
	206	* equivalent to their own size.
	207	*
	208	* As relay subbuffers are aligned on pages, we are sure that they are 4 and 8
	209	* bytes aligned, so the buffer header and trace header are aligned.
	210	*
	211	* Event headers are aligned depending on the trace alignment option.
	212	*
	213	* Note using C structure bitfields for cross-endianness and portability
	214	* concerns.
	215	*/
	216
	217	#define LTT_RESERVED_EVENTS 3
	218	#define LTT_EVENT_BITS 5
	219	#define LTT_FREE_EVENTS ((1 << LTT_EVENT_BITS) - LTT_RESERVED_EVENTS)
	220	#define LTT_TSC_BITS 27
	221	#define LTT_TSC_MASK ((1 << LTT_TSC_BITS) - 1)
	222
	223	struct ltt_event_header {
	224	u32 id_time; /* 5 bits event id (MSB); 27 bits time (LSB) */
	225	};
	226
	227	/* Reservation flags */
	228	#define LTT_RFLAG_ID (1 << 0)
	229	#define LTT_RFLAG_ID_SIZE (1 << 1)
	230	#define LTT_RFLAG_ID_SIZE_TSC (1 << 2)
	231
	232	/*
	233	* We use asm/timex.h : cpu_khz/HZ variable in here : we might have to deal
	234	* specifically with CPU frequency scaling someday, so using an interpolation
	235	* between the start and end of buffer values is not flexible enough. Using an
	236	* immediate frequency value permits to calculate directly the times for parts
	237	* of a buffer that would be before a frequency change.
	238	*
	239	* Keep the natural field alignment for _each field_ within this structure if
	240	* you ever add/remove a field from this header. Packed attribute is not used
	241	* because gcc generates poor code on at least powerpc and mips. Don't ever
	242	* let gcc add padding between the structure elements.
	243	*/
	244	struct ltt_subbuffer_header {
	245	uint64_t cycle_count_begin; /* Cycle count at subbuffer start */
	246	uint64_t cycle_count_end; /* Cycle count at subbuffer end */
	247	uint32_t magic_number; /*
	248	* Trace magic number.
	249	* contains endianness information.
	250	*/
	251	uint8_t major_version;
	252	uint8_t minor_version;
	253	uint8_t arch_size; /* Architecture pointer size */
	254	uint8_t alignment; /* LTT data alignment */
	255	uint64_t start_time_sec; /* NTP-corrected start time */
	256	uint64_t start_time_usec;
	257	uint64_t start_freq; /*
	258	* Frequency at trace start,
259	* used all along the trace.
260	*/
261	uint32_t freq_scale; /* Frequency scaling (divisor) */
262	uint32_t lost_size; /* Size unused at end of subbuffer */
263	uint32_t buf_size; /* Size of this subbuffer */
264	uint32_t events_lost; /*
265	* Events lost in this subbuffer since
266	* the beginning of the trace.
267	* (may overflow)
268	*/
269	uint32_t subbuf_corrupt; /*
270	* Corrupted (lost) subbuffers since
271	* the begginig of the trace.
272	* (may overflow)
273	*/
274	uint8_t header_end[0]; /* End of header */
275	};
276
277	/**
278	* ltt_subbuffer_header_size - called on buffer-switch to a new sub-buffer
279	*
280	* Return header size without padding after the structure. Don't use packed
281	* structure because gcc generates inefficient code on some architectures
282	* (powerpc, mips..)
283	*/
284	static inline size_t ltt_subbuffer_header_size(void)
285	{
286	return offsetof(struct ltt_subbuffer_header, header_end);
287	}
288
289	/*
290	* ltt_get_header_size
291	*
292	* Calculate alignment offset to 32-bits. This is the alignment offset of the
293	* event header.
294	*
295	* Important note :
296	* The event header must be 32-bits. The total offset calculated here :
297	*
298	* Alignment of header struct on 32 bits (min arch size, header size)
299	* + sizeof(header struct) (32-bits)
300	* + (opt) u16 (ext. event id)
301	* + (opt) u16 (event_size) (if event_size == 0xFFFFUL, has ext. event size)
302	* + (opt) u32 (ext. event size)
303	* + (opt) u64 full TSC (aligned on min(64-bits, arch size))
304	*
305	* The payload must itself determine its own alignment from the biggest type it
306	* contains.
307	* */
308	static inline unsigned char ltt_get_header_size(
309	struct ltt_channel_struct *channel,
310	size_t offset,
311	size_t data_size,
312	size_t *before_hdr_pad,
313	unsigned int rflags)
314	{
315	size_t orig_offset = offset;
316	size_t padding;
317
9dad1eb8 PMF	318	padding = ltt_align(offset, sizeof(struct ltt_event_header));
	319	offset += padding;
	320	offset += sizeof(struct ltt_event_header);
	321
	322	switch (rflags) {
	323	case LTT_RFLAG_ID_SIZE_TSC:
	324	offset += sizeof(u16) + sizeof(u16);
	325	if (data_size >= 0xFFFFU)
	326	offset += sizeof(u32);
	327	offset += ltt_align(offset, sizeof(u64));
	328	offset += sizeof(u64);
	329	break;
	330	case LTT_RFLAG_ID_SIZE:
	331	offset += sizeof(u16) + sizeof(u16);
	332	if (data_size >= 0xFFFFU)
	333	offset += sizeof(u32);
	334	break;
	335	case LTT_RFLAG_ID:
	336	offset += sizeof(u16);
	337	break;
	338	}
	339
	340	*before_hdr_pad = padding;
	341	return offset - orig_offset;
	342	}
	343
	344	/*
	345	* ltt_write_event_header
	346	*
	347	* Writes the event header to the offset (already aligned on 32-bits).
	348	*
	349	* @trace : trace to write to.
	350	* @channel : pointer to the channel structure..
	351	* @buf : buffer to write to.
	352	* @buf_offset : buffer offset to write to (aligned on 32 bits).
	353	* @eID : event ID
	354	* @event_size : size of the event, excluding the event header.
	355	* @tsc : time stamp counter.
	356	* @rflags : reservation flags.
	357	*
	358	* returns : offset where the event data must be written.
	359	*/
	360	static inline size_t ltt_write_event_header(struct ltt_trace_struct *trace,
	361	struct ltt_channel_struct *channel,
	362	struct rchan_buf *buf, long buf_offset,
	363	u16 eID, size_t event_size,
	364	u64 tsc, unsigned int rflags)
	365	{
	366	struct ltt_event_header header;
	367	size_t small_size;
	368
	369	switch (rflags) {
	370	case LTT_RFLAG_ID_SIZE_TSC:
	371	header.id_time = 29 << LTT_TSC_BITS;
	372	break;
	373	case LTT_RFLAG_ID_SIZE:
	374	header.id_time = 30 << LTT_TSC_BITS;
	375	break;
	376	case LTT_RFLAG_ID:
	377	header.id_time = 31 << LTT_TSC_BITS;
	378	break;
	379	default:
	380	header.id_time = eID << LTT_TSC_BITS;
	381	break;
382	}
383	header.id_time \|= (u32)tsc & LTT_TSC_MASK;
384	ltt_relay_write(buf, buf_offset, &header, sizeof(header));
385	buf_offset += sizeof(header);
386
387	switch (rflags) {
388	case LTT_RFLAG_ID_SIZE_TSC:
389	small_size = min_t(size_t, event_size, 0xFFFFU);
390	ltt_relay_write(buf, buf_offset,
391	(u16[]){ (u16)eID }, sizeof(u16));
392	buf_offset += sizeof(u16);
393	ltt_relay_write(buf, buf_offset,
394	(u16[]){ (u16)small_size }, sizeof(u16));
395	buf_offset += sizeof(u16);
396	if (small_size == 0xFFFFU) {
397	ltt_relay_write(buf, buf_offset,
398	(u32[]){ (u32)event_size }, sizeof(u32));
399	buf_offset += sizeof(u32);
400	}
401	buf_offset += ltt_align(buf_offset, sizeof(u64));
402	ltt_relay_write(buf, buf_offset,
403	(u64[]){ (u64)tsc }, sizeof(u64));
404	buf_offset += sizeof(u64);
405	break;
406	case LTT_RFLAG_ID_SIZE:
407	small_size = min_t(size_t, event_size, 0xFFFFU);
408	ltt_relay_write(buf, buf_offset,
409	(u16[]){ (u16)eID }, sizeof(u16));
410	buf_offset += sizeof(u16);
411	ltt_relay_write(buf, buf_offset,
412	(u16[]){ (u16)small_size }, sizeof(u16));
413	buf_offset += sizeof(u16);
414	if (small_size == 0xFFFFU) {
415	ltt_relay_write(buf, buf_offset,
416	(u32[]){ (u32)event_size }, sizeof(u32));
417	buf_offset += sizeof(u32);
418	}
419	break;
420	case LTT_RFLAG_ID:
421	ltt_relay_write(buf, buf_offset,
422	(u16[]){ (u16)eID }, sizeof(u16));
423	buf_offset += sizeof(u16);
424	break;
425	default:
426	break;
427	}
428
429	return buf_offset;
430	}
431
432	/* Lockless LTTng */
433
9dad1eb8 PMF	434	/*
	435	* ltt_reserve_slot
	436	*
	437	* Atomic slot reservation in a LTTng buffer. It will take care of
	438	* sub-buffer switching.
	439	*
	440	* Parameters:
	441	*
	442	* @trace : the trace structure to log to.
	443	* @channel : the chanel to reserve space into.
	444	* @transport_data : specific transport data.
	445	* @data_size : size of the variable length data to log.
	446	* @slot_size : pointer to total size of the slot (out)
	447	* @buf_offset : pointer to reserve offset (out)
	448	* @tsc : pointer to the tsc at the slot reservation (out)
	449	* @rflags : reservation flags (header specificity)
	450	* @cpu : cpu id
	451	*
	452	* Return : -ENOSPC if not enough space, else 0.
	453	*/
	454	static inline int ltt_reserve_slot(
	455	struct ltt_trace_struct *trace,
	456	struct ltt_channel_struct *channel,
	457	void **transport_data,
	458	size_t data_size,
	459	size_t *slot_size,
	460	long *buf_offset,
	461	u64 *tsc,
	462	unsigned int *rflags,
c1dea0b3	463	int largest_align)
9dad1eb8 PMF	464	{
	465	return trace->ops->reserve_slot(trace, channel, transport_data,
	466	data_size, slot_size, buf_offset, tsc, rflags,
c1dea0b3	467	largest_align);
9dad1eb8 PMF	468	}
	469
	470
8431032f PMF	471	///*
	472	// * ltt_commit_slot
	473	// *
	474	// * Atomic unordered slot commit. Increments the commit count in the
	475	// * specified sub-buffer, and delivers it if necessary.
	476	// *
	477	// * Parameters:
	478	// *
	479	// * @channel : the chanel to reserve space into.
	480	// * @transport_data : specific transport data.
	481	// * @buf_offset : offset of beginning of reserved slot
	482	// * @slot_size : size of the reserved slot.
	483	// */
	484	//static inline void ltt_commit_slot(
	485	// struct ltt_channel_struct *channel,
	486	// void **transport_data,
	487	// long buf_offset,
	488	// size_t slot_size)
	489	//{
	490	// struct ltt_trace_struct *trace = channel->trace;
	491	//
	492	// trace->ops->commit_slot(channel, transport_data, buf_offset, slot_size);
	493	//}
9dad1eb8 PMF	494
	495	/*
	496	* Control channels :
	497	* control/metadata
	498	* control/interrupts
	499	* control/...
	500	*
	501	* cpu channel :
	502	* cpu
	503	*/
9dad1eb8 PMF	504
9dad1eb8 PMF	505	#define LTT_METADATA_CHANNEL "metadata_state"
b6bf28ec	506	#define LTT_UST_CHANNEL "ust"
9dad1eb8 PMF	507
	508	#define LTT_FLIGHT_PREFIX "flight-"
	509
	510	/* Tracer properties */
9c67dc50 PMF	511	//#define LTT_DEFAULT_SUBBUF_SIZE_LOW 65536
9c67dc50 PMF	512	#define LTT_DEFAULT_SUBBUF_SIZE_LOW 4096
9dad1eb8	513	#define LTT_DEFAULT_N_SUBBUFS_LOW 2
9c67dc50 PMF	514	//#define LTT_DEFAULT_SUBBUF_SIZE_MED 262144
9c67dc50 PMF	515	#define LTT_DEFAULT_SUBBUF_SIZE_MED 4096
9dad1eb8	516	#define LTT_DEFAULT_N_SUBBUFS_MED 2
9c67dc50 PMF	517	//#define LTT_DEFAULT_SUBBUF_SIZE_HIGH 1048576
9c67dc50 PMF	518	#define LTT_DEFAULT_SUBBUF_SIZE_HIGH 4096
9dad1eb8 PMF	519	#define LTT_DEFAULT_N_SUBBUFS_HIGH 2
	520	#define LTT_TRACER_MAGIC_NUMBER 0x00D6B7ED
	521	#define LTT_TRACER_VERSION_MAJOR 2
	522	#define LTT_TRACER_VERSION_MINOR 3
	523
	524	/*
	525	* Size reserved for high priority events (interrupts, NMI, BH) at the end of a
	526	* nearly full buffer. User space won't use this last amount of space when in
	527	* blocking mode. This space also includes the event header that would be
	528	* written by this user space event.
	529	*/
	530	#define LTT_RESERVE_CRITICAL 4096
	531
	532	/* Register and unregister function pointers */
	533
	534	enum ltt_module_function {
	535	LTT_FUNCTION_RUN_FILTER,
	536	LTT_FUNCTION_FILTER_CONTROL,
	537	LTT_FUNCTION_STATEDUMP
	538	};
	539
9dad1eb8 PMF	540	void ltt_transport_register(struct ltt_transport *transport);
	541	void ltt_transport_unregister(struct ltt_transport *transport);
	542
	543	/* Exported control function */
	544
9dad1eb8 PMF	545	union ltt_control_args {
	546	struct {
	547	enum trace_mode mode;
	548	unsigned int subbuf_size_low;
	549	unsigned int n_subbufs_low;
	550	unsigned int subbuf_size_med;
	551	unsigned int n_subbufs_med;
	552	unsigned int subbuf_size_high;
	553	unsigned int n_subbufs_high;
	554	} new_trace;
	555	};
	556
	557	int _ltt_trace_setup(const char *trace_name);
	558	int ltt_trace_setup(const char *trace_name);
	559	struct ltt_trace_struct _ltt_trace_find_setup(const char trace_name);
	560	int ltt_trace_set_type(const char trace_name, const char trace_type);
	561	int ltt_trace_set_channel_subbufsize(const char *trace_name,
	562	const char *channel_name, unsigned int size);
	563	int ltt_trace_set_channel_subbufcount(const char *trace_name,
	564	const char *channel_name, unsigned int cnt);
	565	int ltt_trace_set_channel_enable(const char *trace_name,
	566	const char *channel_name, unsigned int enable);
	567	int ltt_trace_set_channel_overwrite(const char *trace_name,
	568	const char *channel_name, unsigned int overwrite);
	569	int ltt_trace_alloc(const char *trace_name);
	570	int ltt_trace_destroy(const char *trace_name);
	571	int ltt_trace_start(const char *trace_name);
	572	int ltt_trace_stop(const char *trace_name);
	573
9dad1eb8 PMF	574	enum ltt_filter_control_msg {
	575	LTT_FILTER_DEFAULT_ACCEPT,
	576	LTT_FILTER_DEFAULT_REJECT
	577	};
	578
	579	extern int ltt_filter_control(enum ltt_filter_control_msg msg,
	580	const char *trace_name);
	581
	582	extern struct dentry *get_filter_root(void);
	583
	584	void ltt_write_trace_header(struct ltt_trace_struct *trace,
	585	struct ltt_subbuffer_header *header);
	586	extern void ltt_buffer_destroy(struct ltt_channel_struct *ltt_chan);
	587
	588	void ltt_core_register(int (function)(u8, void ));
	589
	590	void ltt_core_unregister(void);
	591
	592	void ltt_release_trace(struct kref *kref);
	593	void ltt_release_transport(struct kref *kref);
	594
	595	extern int ltt_probe_register(struct ltt_available_probe *pdata);
	596	extern int ltt_probe_unregister(struct ltt_available_probe *pdata);
	597	extern int ltt_marker_connect(const char channel, const char mname,
	598	const char *pname);
	599	extern int ltt_marker_disconnect(const char channel, const char mname,
	600	const char *pname);
	601	extern void ltt_dump_marker_state(struct ltt_trace_struct *trace);
	602
	603	void ltt_lock_traces(void);
	604	void ltt_unlock_traces(void);
	605
d0b5f2b9 PMF	606	struct ltt_trace_struct _ltt_trace_find(const char trace_name);
d0b5f2b9 PMF	607
9dad1eb8	608	#endif /* _LTT_TRACER_H */