[lttng-ust.git] / hello / serialize.c

/*
 * LTTng serializing code.
 *
 * Copyright Mathieu Desnoyers, March 2007.
 *
 * Licensed under the GPLv2.
 *
 * See this discussion about weirdness about passing va_list and then va_list to
 * functions. (related to array argument passing). va_list seems to be
 * implemented as an array on x86_64, but not on i386... This is why we pass a
 * va_list * to ltt_vtrace.
 */

#include <stdarg.h>
//ust// #include <linux/ctype.h>
//ust// #include <linux/string.h>
//ust// #include <linux/module.h>
//ust// #include <linux/ltt-tracer.h>
#include <string.h>
#include <stdint.h>
#include "kernelcompat.h"
#include "relay.h"
#include "tracer.h"
#include "list.h"
#include "usterr.h"

enum ltt_type {
	LTT_TYPE_SIGNED_INT,
	LTT_TYPE_UNSIGNED_INT,
	LTT_TYPE_STRING,
	LTT_TYPE_NONE,
};

#define LTT_ATTRIBUTE_NETWORK_BYTE_ORDER (1<<1)

/*
 * Inspired from vsnprintf
 *
 * The serialization format string supports the basic printf format strings.
 * In addition, it defines new formats that can be used to serialize more
 * complex/non portable data structures.
 *
 * Typical use:
 *
 * field_name %ctype
 * field_name #tracetype %ctype
 * field_name #tracetype %ctype1 %ctype2 ...
 *
 * A conversion is performed between format string types supported by GCC and
 * the trace type requested. GCC type is used to perform type checking on format
 * strings. Trace type is used to specify the exact binary representation
 * in the trace. A mapping is done between one or more GCC types to one trace
 * type. Sign extension, if required by the conversion, is performed following
 * the trace type.
 *
 * If a gcc format is not declared with a trace format, the gcc format is
 * also used as binary representation in the trace.
 *
 * Strings are supported with %s.
 * A single tracetype (sequence) can take multiple c types as parameter.
 *
 * c types:
 *
 * see printf(3).
 *
 * Note: to write a uint32_t in a trace, the following expression is recommended
 * si it can be portable:
 *
 * ("#4u%lu", (unsigned long)var)
 *
 * trace types:
 *
 * Serialization specific formats :
 *
 * Fixed size integers
 * #1u     writes uint8_t
 * #2u     writes uint16_t
 * #4u     writes uint32_t
 * #8u     writes uint64_t
 * #1d     writes int8_t
 * #2d     writes int16_t
 * #4d     writes int32_t
 * #8d     writes int64_t
 * i.e.:
 * #1u%lu #2u%lu #4d%lu #8d%lu #llu%hu #d%lu
 *
 * * Attributes:
 *
 * n:  (for network byte order)
 * #ntracetype%ctype
 *            is written in the trace in network byte order.
 *
 * i.e.: #bn4u%lu, #n%lu, #b%u
 *
 * TODO (eventually)
 * Variable length sequence
 * #a #tracetype1 #tracetype2 %array_ptr %elem_size %num_elems
 *            In the trace:
 *            #a specifies that this is a sequence
 *            #tracetype1 is the type of elements in the sequence
 *            #tracetype2 is the type of the element count
 *            GCC input:
 *            array_ptr is a pointer to an array that contains members of size
 *            elem_size.
 *            num_elems is the number of elements in the array.
 * i.e.: #a #lu #lu %p %lu %u
 *
 * Callback
 * #k         callback (taken from the probe data)
 *            The following % arguments are exepected by the callback
 *
 * i.e.: #a #lu #lu #k %p
 *
 * Note: No conversion is done from floats to integers, nor from integers to
 * floats between c types and trace types. float conversion from double to float
 * or from float to double is also not supported.
 *
 * REMOVE
 * %*b     expects sizeof(data), data
 *         where sizeof(data) is 1, 2, 4 or 8
 *
 * Fixed length struct, union or array.
 * FIXME: unable to extract those sizes statically.
 * %*r     expects sizeof(*ptr), ptr
 * %*.*r   expects sizeof(*ptr), __alignof__(*ptr), ptr
 * struct and unions removed.
 * Fixed length array:
 * [%p]#a[len #tracetype]
 * i.e.: [%p]#a[12 #lu]
 *
 * Variable length sequence
 * %*.*:*v expects sizeof(*ptr), __alignof__(*ptr), elem_num, ptr
 *         where elem_num is the number of elements in the sequence
 */
static inline const char *parse_trace_type(const char *fmt,
		char *trace_size, enum ltt_type *trace_type,
		unsigned long *attributes)
{
	int qualifier;		/* 'h', 'l', or 'L' for integer fields */
				/* 'z' support added 23/7/1999 S.H.    */
				/* 'z' changed to 'Z' --davidm 1/25/99 */
				/* 't' added for ptrdiff_t */

	/* parse attributes. */
repeat:
	switch (*fmt) {
	case 'n':
		*attributes |= LTT_ATTRIBUTE_NETWORK_BYTE_ORDER;
		++fmt;
		goto repeat;
	}

	/* get the conversion qualifier */
	qualifier = -1;
	if (*fmt == 'h' || *fmt == 'l' || *fmt == 'L' ||
	    *fmt == 'Z' || *fmt == 'z' || *fmt == 't' ||
	    *fmt == 'S' || *fmt == '1' || *fmt == '2' ||
	    *fmt == '4' || *fmt == 8) {
		qualifier = *fmt;
		++fmt;
		if (qualifier == 'l' && *fmt == 'l') {
			qualifier = 'L';
			++fmt;
		}
	}

	switch (*fmt) {
	case 'c':
		*trace_type = LTT_TYPE_UNSIGNED_INT;
		*trace_size = sizeof(unsigned char);
		goto parse_end;
	case 's':
		*trace_type = LTT_TYPE_STRING;
		goto parse_end;
	case 'p':
		*trace_type = LTT_TYPE_UNSIGNED_INT;
		*trace_size = sizeof(void *);
		goto parse_end;
	case 'd':
	case 'i':
		*trace_type = LTT_TYPE_SIGNED_INT;
		break;
	case 'o':
	case 'u':
	case 'x':
	case 'X':
		*trace_type = LTT_TYPE_UNSIGNED_INT;
		break;
	default:
		if (!*fmt)
			--fmt;
		goto parse_end;
	}
	switch (qualifier) {
	case 'L':
		*trace_size = sizeof(long long);
		break;
	case 'l':
		*trace_size = sizeof(long);
		break;
	case 'Z':
	case 'z':
		*trace_size = sizeof(size_t);
		break;
//ust//	case 't':
//ust//		*trace_size = sizeof(ptrdiff_t);
//ust//		break;
	case 'h':
		*trace_size = sizeof(short);
		break;
	case '1':
		*trace_size = sizeof(uint8_t);
		break;
	case '2':
		*trace_size = sizeof(uint16_t);
		break;
	case '4':
		*trace_size = sizeof(uint32_t);
		break;
	case '8':
		*trace_size = sizeof(uint64_t);
		break;
	default:
		*trace_size = sizeof(int);
	}

parse_end:
	return fmt;
}

/*
 * Restrictions:
 * Field width and precision are *not* supported.
 * %n not supported.
 */
static inline const char *parse_c_type(const char *fmt,
		char *c_size, enum ltt_type *c_type)
{
	int qualifier;		/* 'h', 'l', or 'L' for integer fields */
				/* 'z' support added 23/7/1999 S.H.    */
				/* 'z' changed to 'Z' --davidm 1/25/99 */
				/* 't' added for ptrdiff_t */

	/* process flags : ignore standard print formats for now. */
repeat:
	switch (*fmt) {
	case '-':
	case '+':
	case ' ':
	case '#':
	case '0':
		++fmt;
		goto repeat;
	}

	/* get the conversion qualifier */
	qualifier = -1;
	if (*fmt == 'h' || *fmt == 'l' || *fmt == 'L' ||
	    *fmt == 'Z' || *fmt == 'z' || *fmt == 't' ||
	    *fmt == 'S') {
		qualifier = *fmt;
		++fmt;
		if (qualifier == 'l' && *fmt == 'l') {
			qualifier = 'L';
			++fmt;
		}
	}

	switch (*fmt) {
	case 'c':
		*c_type = LTT_TYPE_UNSIGNED_INT;
		*c_size = sizeof(unsigned char);
		goto parse_end;
	case 's':
		*c_type = LTT_TYPE_STRING;
		goto parse_end;
	case 'p':
		*c_type = LTT_TYPE_UNSIGNED_INT;
		*c_size = sizeof(void *);
		goto parse_end;
	case 'd':
	case 'i':
		*c_type = LTT_TYPE_SIGNED_INT;
		break;
	case 'o':
	case 'u':
	case 'x':
	case 'X':
		*c_type = LTT_TYPE_UNSIGNED_INT;
		break;
	default:
		if (!*fmt)
			--fmt;
		goto parse_end;
	}
	switch (qualifier) {
	case 'L':
		*c_size = sizeof(long long);
		break;
	case 'l':
		*c_size = sizeof(long);
		break;
	case 'Z':
	case 'z':
		*c_size = sizeof(size_t);
		break;
//ust//	case 't':
//ust//		*c_size = sizeof(ptrdiff_t);
//ust//		break;
	case 'h':
		*c_size = sizeof(short);
		break;
	default:
		*c_size = sizeof(int);
	}

parse_end:
	return fmt;
}

static inline size_t serialize_trace_data(struct rchan_buf *buf,
		size_t buf_offset,
		char trace_size, enum ltt_type trace_type,
		char c_size, enum ltt_type c_type,
		int *largest_align, va_list *args)
{
	union {
		unsigned long v_ulong;
		uint64_t v_uint64;
		struct {
			const char *s;
			size_t len;
		} v_string;
	} tmp;

	/*
	 * Be careful about sign extension here.
	 * Sign extension is done with the destination (trace) type.
	 */
	switch (trace_type) {
	case LTT_TYPE_SIGNED_INT:
		switch (c_size) {
		case 1:
			tmp.v_ulong = (long)(int8_t)va_arg(*args, int);
			break;
		case 2:
			tmp.v_ulong = (long)(int16_t)va_arg(*args, int);
			break;
		case 4:
			tmp.v_ulong = (long)(int32_t)va_arg(*args, int);
			break;
		case 8:
			tmp.v_uint64 = va_arg(*args, int64_t);
			break;
		default:
			BUG();
		}
		break;
	case LTT_TYPE_UNSIGNED_INT:
		switch (c_size) {
		case 1:
			tmp.v_ulong = (unsigned long)(uint8_t)
					va_arg(*args, unsigned int);
			break;
		case 2:
			tmp.v_ulong = (unsigned long)(uint16_t)
					va_arg(*args, unsigned int);
			break;
		case 4:
			tmp.v_ulong = (unsigned long)(uint32_t)
					va_arg(*args, unsigned int);
			break;
		case 8:
			tmp.v_uint64 = va_arg(*args, uint64_t);
			break;
		default:
			BUG();
		}
		break;
	case LTT_TYPE_STRING:
		tmp.v_string.s = va_arg(*args, const char *);
		if ((unsigned long)tmp.v_string.s < PAGE_SIZE)
			tmp.v_string.s = "<NULL>";
		tmp.v_string.len = strlen(tmp.v_string.s)+1;
		if (buf)
			ltt_relay_write(buf, buf_offset, tmp.v_string.s,
				tmp.v_string.len);
		buf_offset += tmp.v_string.len;
		goto copydone;
	default:
		BUG();
	}

	/*
	 * If trace_size is lower or equal to 4 bytes, there is no sign
	 * extension to do because we are already encoded in a long. Therefore,
	 * we can combine signed and unsigned ops. 4 bytes float also works
	 * with this, because we do a simple copy of 4 bytes into 4 bytes
	 * without manipulation (and we do not support conversion from integers
	 * to floats).
	 * It is also the case if c_size is 8 bytes, which is the largest
	 * possible integer.
	 */
	if (ltt_get_alignment()) {
		buf_offset += ltt_align(buf_offset, trace_size);
		if (largest_align)
			*largest_align = max_t(int, *largest_align, trace_size);
	}
	if (trace_size <= 4 || c_size == 8) {
		if (buf) {
			switch (trace_size) {
			case 1:
				if (c_size == 8)
					ltt_relay_write(buf, buf_offset,
					(uint8_t[]){ (uint8_t)tmp.v_uint64 },
					sizeof(uint8_t));
				else
					ltt_relay_write(buf, buf_offset,
					(uint8_t[]){ (uint8_t)tmp.v_ulong },
					sizeof(uint8_t));
				break;
			case 2:
				if (c_size == 8)
					ltt_relay_write(buf, buf_offset,
					(uint16_t[]){ (uint16_t)tmp.v_uint64 },
					sizeof(uint16_t));
				else
					ltt_relay_write(buf, buf_offset,
					(uint16_t[]){ (uint16_t)tmp.v_ulong },
					sizeof(uint16_t));
				break;
			case 4:
				if (c_size == 8)
					ltt_relay_write(buf, buf_offset,
					(uint32_t[]){ (uint32_t)tmp.v_uint64 },
					sizeof(uint32_t));
				else
					ltt_relay_write(buf, buf_offset,
					(uint32_t[]){ (uint32_t)tmp.v_ulong },
					sizeof(uint32_t));
				break;
			case 8:
				/*
				 * c_size cannot be other than 8 here because
				 * trace_size > 4.
				 */
				ltt_relay_write(buf, buf_offset,
				(uint64_t[]){ (uint64_t)tmp.v_uint64 },
				sizeof(uint64_t));
				break;
			default:
				BUG();
			}
		}
		buf_offset += trace_size;
		goto copydone;
	} else {
		/*
		 * Perform sign extension.
		 */
		if (buf) {
			switch (trace_type) {
			case LTT_TYPE_SIGNED_INT:
				ltt_relay_write(buf, buf_offset,
					(int64_t[]){ (int64_t)tmp.v_ulong },
					sizeof(int64_t));
				break;
			case LTT_TYPE_UNSIGNED_INT:
				ltt_relay_write(buf, buf_offset,
					(uint64_t[]){ (uint64_t)tmp.v_ulong },
					sizeof(uint64_t));
				break;
			default:
				BUG();
			}
		}
		buf_offset += trace_size;
		goto copydone;
	}

copydone:
	return buf_offset;
}

notrace 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)
{
	char trace_size = 0, c_size = 0;	/*
						 * 0 (unset), 1, 2, 4, 8 bytes.
						 */
	enum ltt_type trace_type = LTT_TYPE_NONE, c_type = LTT_TYPE_NONE;
	unsigned long attributes = 0;

	for (; *fmt ; ++fmt) {
		switch (*fmt) {
		case '#':
			/* tracetypes (#) */
			++fmt;			/* skip first '#' */
			if (*fmt == '#')	/* Escaped ## */
				break;
			attributes = 0;
			fmt = parse_trace_type(fmt, &trace_size, &trace_type,
				&attributes);
			break;
		case '%':
			/* c types (%) */
			++fmt;			/* skip first '%' */
			if (*fmt == '%')	/* Escaped %% */
				break;
			fmt = parse_c_type(fmt, &c_size, &c_type);
			/*
			 * Output c types if no trace types has been
			 * specified.
			 */
			if (!trace_size)
				trace_size = c_size;
			if (trace_type == LTT_TYPE_NONE)
				trace_type = c_type;
			if (c_type == LTT_TYPE_STRING)
				trace_type = LTT_TYPE_STRING;
			/* perform trace write */
			buf_offset = serialize_trace_data(buf,
						buf_offset, trace_size,
						trace_type, c_size, c_type,
						largest_align, args);
			trace_size = 0;
			c_size = 0;
			trace_type = LTT_TYPE_NONE;
			c_size = LTT_TYPE_NONE;
			attributes = 0;
			break;
			/* default is to skip the text, doing nothing */
		}
	}
	return buf_offset;
}
EXPORT_SYMBOL_GPL(ltt_serialize_data);

/*
 * Calculate data size
 * Assume that the padding for alignment starts at a sizeof(void *) address.
 */
static notrace size_t ltt_get_data_size(struct ltt_serialize_closure *closure,
				void *serialize_private, int *largest_align,
				const char *fmt, va_list *args)
{
	ltt_serialize_cb cb = closure->callbacks[0];
	closure->cb_idx = 0;
	return (size_t)cb(NULL, 0, closure, serialize_private,
				largest_align, fmt, args);
}

static notrace
void ltt_write_event_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)
{
	ltt_serialize_cb cb = closure->callbacks[0];
	closure->cb_idx = 0;
	buf_offset += ltt_align(buf_offset, largest_align);
	cb(buf, buf_offset, closure, serialize_private, NULL, fmt, args);
}


notrace void ltt_vtrace(const struct marker *mdata, void *probe_data,
			void *call_data, const char *fmt, va_list *args)
{
	int largest_align, ret;
	struct ltt_active_marker *pdata;
	uint16_t eID;
	size_t data_size, slot_size;
	unsigned int chan_index;
	struct ltt_channel_struct *channel;
	struct ltt_trace_struct *trace, *dest_trace = NULL;
	struct rchan_buf *buf;
	void *transport_data;
	uint64_t tsc;
	long buf_offset;
	va_list args_copy;
	struct ltt_serialize_closure closure;
	struct ltt_probe_private_data *private_data = call_data;
	void *serialize_private = NULL;
	int cpu;
	unsigned int rflags;

	/*
	 * This test is useful for quickly exiting static tracing when no trace
	 * is active. We expect to have an active trace when we get here.
	 */
	if (unlikely(ltt_traces.num_active_traces == 0))
		return;

	rcu_read_lock_sched_notrace();
	cpu = smp_processor_id();
//ust//	__get_cpu_var(ltt_nesting)++;
	ltt_nesting++;

	pdata = (struct ltt_active_marker *)probe_data;
	eID = mdata->event_id;
	chan_index = mdata->channel_id;
	closure.callbacks = pdata->probe->callbacks;

	if (unlikely(private_data)) {
		dest_trace = private_data->trace;
		if (private_data->serializer)
			closure.callbacks = &private_data->serializer;
		serialize_private = private_data->serialize_private;
	}

	va_copy(args_copy, *args);
	/*
	 * Assumes event payload to start on largest_align alignment.
	 */
	largest_align = 1;	/* must be non-zero for ltt_align */
	data_size = ltt_get_data_size(&closure, serialize_private,
					&largest_align, fmt, &args_copy);
	largest_align = min_t(int, largest_align, sizeof(void *));
	va_end(args_copy);

	/* Iterate on each trace */
	list_for_each_entry_rcu(trace, &ltt_traces.head, list) {
		/*
		 * Expect the filter to filter out events. If we get here,
		 * we went through tracepoint activation as a first step.
		 */
		if (unlikely(dest_trace && trace != dest_trace))
			continue;
		if (unlikely(!trace->active))
			continue;
		if (unlikely(!ltt_run_filter(trace, eID)))
			continue;
#ifdef CONFIG_LTT_DEBUG_EVENT_SIZE
		rflags = LTT_RFLAG_ID_SIZE;
#else
		if (unlikely(eID >= LTT_FREE_EVENTS))
			rflags = LTT_RFLAG_ID;
		else
			rflags = 0;
#endif
		/*
		 * Skip channels added after trace creation.
		 */
		if (unlikely(chan_index >= trace->nr_channels))
			continue;
		channel = &trace->channels[chan_index];
		if (!channel->active)
			continue;

		/* reserve space : header and data */
		ret = ltt_reserve_slot(trace, channel, &transport_data,
					data_size, &slot_size, &buf_offset,
					&tsc, &rflags,
					largest_align);
		if (unlikely(ret < 0))
			continue; /* buffer full */

		va_copy(args_copy, *args);
		/* FIXME : could probably encapsulate transport better. */
//ust//		buf = ((struct rchan *)channel->trans_channel_data)->buf[cpu];
		buf = ((struct rchan *)channel->trans_channel_data)->buf;
		/* Out-of-order write : header and data */
		buf_offset = ltt_write_event_header(trace,
					channel, buf, buf_offset,
					eID, data_size, tsc, rflags);
		ltt_write_event_data(buf, buf_offset, &closure,
					serialize_private,
					largest_align, fmt, &args_copy);
		va_end(args_copy);
		/* Out-of-order commit */
		ltt_commit_slot(channel, &transport_data, buf_offset,
				slot_size);
		printf("just commited event at offset %d and size %d\n", buf_offset, slot_size);
	}
//ust//	__get_cpu_var(ltt_nesting)--;
	ltt_nesting--;
	rcu_read_unlock_sched_notrace();
}
EXPORT_SYMBOL_GPL(ltt_vtrace);

notrace void ltt_trace(const struct marker *mdata, void *probe_data,
		       void *call_data, const char *fmt, ...)
{
	va_list args;

	va_start(args, fmt);
	ltt_vtrace(mdata, probe_data, call_data, fmt, &args);
	va_end(args);
}
EXPORT_SYMBOL_GPL(ltt_trace);

//ust// MODULE_LICENSE("GPL");
//ust// MODULE_AUTHOR("Mathieu Desnoyers");
//ust// MODULE_DESCRIPTION("Linux Trace Toolkit Next Generation Serializer");
Commit	Line	Data
8d938dbd PMF	1	/*
	2	* LTTng serializing code.
	3	*
	4	* Copyright Mathieu Desnoyers, March 2007.
	5	*
	6	* Licensed under the GPLv2.
	7	*
	8	* See this discussion about weirdness about passing va_list and then va_list to
	9	* functions. (related to array argument passing). va_list seems to be
	10	* implemented as an array on x86_64, but not on i386... This is why we pass a
	11	* va_list * to ltt_vtrace.
	12	*/
	13
	14	#include <stdarg.h>
	15	//ust// #include <linux/ctype.h>
	16	//ust// #include <linux/string.h>
	17	//ust// #include <linux/module.h>
	18	//ust// #include <linux/ltt-tracer.h>
	19	#include <string.h>
	20	#include <stdint.h>
	21	#include "kernelcompat.h"
	22	#include "relay.h"
	23	#include "tracer.h"
	24	#include "list.h"
ba6459ba	25	#include "usterr.h"
8d938dbd PMF	26
	27	enum ltt_type {
	28	LTT_TYPE_SIGNED_INT,
	29	LTT_TYPE_UNSIGNED_INT,
	30	LTT_TYPE_STRING,
	31	LTT_TYPE_NONE,
	32	};
	33
	34	#define LTT_ATTRIBUTE_NETWORK_BYTE_ORDER (1<<1)
	35
	36	/*
	37	* Inspired from vsnprintf
	38	*
	39	* The serialization format string supports the basic printf format strings.
	40	* In addition, it defines new formats that can be used to serialize more
	41	* complex/non portable data structures.
	42	*
	43	* Typical use:
	44	*
	45	* field_name %ctype
	46	* field_name #tracetype %ctype
	47	* field_name #tracetype %ctype1 %ctype2 ...
	48	*
	49	* A conversion is performed between format string types supported by GCC and
	50	* the trace type requested. GCC type is used to perform type checking on format
	51	* strings. Trace type is used to specify the exact binary representation
	52	* in the trace. A mapping is done between one or more GCC types to one trace
	53	* type. Sign extension, if required by the conversion, is performed following
	54	* the trace type.
	55	*
	56	* If a gcc format is not declared with a trace format, the gcc format is
	57	* also used as binary representation in the trace.
	58	*
	59	* Strings are supported with %s.
	60	* A single tracetype (sequence) can take multiple c types as parameter.
	61	*
	62	* c types:
	63	*
	64	* see printf(3).
	65	*
	66	* Note: to write a uint32_t in a trace, the following expression is recommended
	67	* si it can be portable:
	68	*
	69	* ("#4u%lu", (unsigned long)var)
	70	*
	71	* trace types:
	72	*
	73	* Serialization specific formats :
	74	*
	75	* Fixed size integers
	76	* #1u writes uint8_t
	77	* #2u writes uint16_t
	78	* #4u writes uint32_t
	79	* #8u writes uint64_t
	80	* #1d writes int8_t
	81	* #2d writes int16_t
	82	* #4d writes int32_t
	83	* #8d writes int64_t
	84	* i.e.:
	85	* #1u%lu #2u%lu #4d%lu #8d%lu #llu%hu #d%lu
	86	*
	87	* * Attributes:
	88	*
	89	* n: (for network byte order)
90	* #ntracetype%ctype
91	* is written in the trace in network byte order.
92	*
93	* i.e.: #bn4u%lu, #n%lu, #b%u
94	*
95	* TODO (eventually)
96	* Variable length sequence
97	* #a #tracetype1 #tracetype2 %array_ptr %elem_size %num_elems
98	* In the trace:
99	* #a specifies that this is a sequence
100	* #tracetype1 is the type of elements in the sequence
101	* #tracetype2 is the type of the element count
102	* GCC input:
103	* array_ptr is a pointer to an array that contains members of size
104	* elem_size.
105	* num_elems is the number of elements in the array.
106	* i.e.: #a #lu #lu %p %lu %u
107	*
108	* Callback
109	* #k callback (taken from the probe data)
110	* The following % arguments are exepected by the callback
111	*
112	* i.e.: #a #lu #lu #k %p
113	*
114	* Note: No conversion is done from floats to integers, nor from integers to
115	* floats between c types and trace types. float conversion from double to float
116	* or from float to double is also not supported.
117	*
118	* REMOVE
119	* %*b expects sizeof(data), data
120	* where sizeof(data) is 1, 2, 4 or 8
121	*
122	* Fixed length struct, union or array.
123	* FIXME: unable to extract those sizes statically.
124	* %r expects sizeof(ptr), ptr
125	* %.r expects sizeof(ptr), __alignof__(ptr), ptr
126	* struct and unions removed.
127	* Fixed length array:
128	* [%p]#a[len #tracetype]
129	* i.e.: [%p]#a[12 #lu]
130	*
131	* Variable length sequence
132	* %.:v expects sizeof(ptr), __alignof__(*ptr), elem_num, ptr
133	* where elem_num is the number of elements in the sequence
134	*/
135	static inline const char parse_trace_type(const char fmt,
136	char trace_size, enum ltt_type trace_type,
137	unsigned long *attributes)
138	{
139	int qualifier; /* 'h', 'l', or 'L' for integer fields */
140	/* 'z' support added 23/7/1999 S.H. */
141	/* 'z' changed to 'Z' --davidm 1/25/99 */
142	/* 't' added for ptrdiff_t */
143
144	/* parse attributes. */
145	repeat:
146	switch (*fmt) {
147	case 'n':
148	*attributes \|= LTT_ATTRIBUTE_NETWORK_BYTE_ORDER;
149	++fmt;
150	goto repeat;
151	}
152
153	/* get the conversion qualifier */
154	qualifier = -1;
155	if (fmt == 'h' \|\| fmt == 'l' \|\| *fmt == 'L' \|\|
156	fmt == 'Z' \|\| fmt == 'z' \|\| *fmt == 't' \|\|
157	fmt == 'S' \|\| fmt == '1' \|\| *fmt == '2' \|\|
158	fmt == '4' \|\| fmt == 8) {
159	qualifier = *fmt;
160	++fmt;
161	if (qualifier == 'l' && *fmt == 'l') {
162	qualifier = 'L';
163	++fmt;
164	}
165	}
166
167	switch (*fmt) {
168	case 'c':
169	*trace_type = LTT_TYPE_UNSIGNED_INT;
170	*trace_size = sizeof(unsigned char);
171	goto parse_end;
172	case 's':
173	*trace_type = LTT_TYPE_STRING;
174	goto parse_end;
175	case 'p':
176	*trace_type = LTT_TYPE_UNSIGNED_INT;
177	trace_size = sizeof(void );
178	goto parse_end;
179	case 'd':
180	case 'i':
181	*trace_type = LTT_TYPE_SIGNED_INT;
182	break;
183	case 'o':
184	case 'u':
185	case 'x':
186	case 'X':
187	*trace_type = LTT_TYPE_UNSIGNED_INT;
188	break;
189	default:
190	if (!*fmt)
191	--fmt;
192	goto parse_end;
193	}
194	switch (qualifier) {
195	case 'L':
196	*trace_size = sizeof(long long);
197	break;
198	case 'l':
199	*trace_size = sizeof(long);
200	break;
201	case 'Z':
202	case 'z':
203	*trace_size = sizeof(size_t);
204	break;
205	//ust// case 't':
206	//ust// *trace_size = sizeof(ptrdiff_t);
207	//ust// break;
208	case 'h':
209	*trace_size = sizeof(short);
210	break;
211	case '1':
212	*trace_size = sizeof(uint8_t);
213	break;
214	case '2':
215	*trace_size = sizeof(uint16_t);
216	break;
217	case '4':
218	*trace_size = sizeof(uint32_t);
219	break;
220	case '8':
221	*trace_size = sizeof(uint64_t);
222	break;
223	default:
224	*trace_size = sizeof(int);
225	}
226
227	parse_end:
228	return fmt;
229	}
230
231	/*
232	* Restrictions:
233	* Field width and precision are not supported.
234	* %n not supported.
235	*/
236	static inline const char parse_c_type(const char fmt,
237	char c_size, enum ltt_type c_type)
238	{
239	int qualifier; /* 'h', 'l', or 'L' for integer fields */
240	/* 'z' support added 23/7/1999 S.H. */
241	/* 'z' changed to 'Z' --davidm 1/25/99 */
242	/* 't' added for ptrdiff_t */
243
244	/* process flags : ignore standard print formats for now. */
245	repeat:
246	switch (*fmt) {
247	case '-':
248	case '+':
249	case ' ':
250	case '#':
251	case '0':
252	++fmt;
253	goto repeat;
254	}
255
256	/* get the conversion qualifier */
257	qualifier = -1;
258	if (fmt == 'h' \|\| fmt == 'l' \|\| *fmt == 'L' \|\|
259	fmt == 'Z' \|\| fmt == 'z' \|\| *fmt == 't' \|\|
260	*fmt == 'S') {
261	qualifier = *fmt;
262	++fmt;
263	if (qualifier == 'l' && *fmt == 'l') {
264	qualifier = 'L';
265	++fmt;
266	}
267	}
268
269	switch (*fmt) {
270	case 'c':
271	*c_type = LTT_TYPE_UNSIGNED_INT;
272	*c_size = sizeof(unsigned char);
273	goto parse_end;
274	case 's':
275	*c_type = LTT_TYPE_STRING;
276	goto parse_end;
277	case 'p':
278	*c_type = LTT_TYPE_UNSIGNED_INT;
279	c_size = sizeof(void );
280	goto parse_end;
281	case 'd':
282	case 'i':
283	*c_type = LTT_TYPE_SIGNED_INT;
284	break;
285	case 'o':
286	case 'u':
287	case 'x':
288	case 'X':
289	*c_type = LTT_TYPE_UNSIGNED_INT;
290	break;
291	default:
292	if (!*fmt)
293	--fmt;
294	goto parse_end;
295	}
296	switch (qualifier) {
297	case 'L':
298	*c_size = sizeof(long long);
299	break;
300	case 'l':
301	*c_size = sizeof(long);
302	break;
303	case 'Z':
304	case 'z':
305	*c_size = sizeof(size_t);
306	break;
307	//ust// case 't':
308	//ust// *c_size = sizeof(ptrdiff_t);
309	//ust// break;
310	case 'h':
311	*c_size = sizeof(short);
312	break;
313	default:
314	*c_size = sizeof(int);
315	}
316
317	parse_end:
318	return fmt;
319	}
320
321	static inline size_t serialize_trace_data(struct rchan_buf *buf,
322	size_t buf_offset,
323	char trace_size, enum ltt_type trace_type,
324	char c_size, enum ltt_type c_type,
325	int largest_align, va_list args)
326	{
327	union {
328	unsigned long v_ulong;
329	uint64_t v_uint64;
330	struct {
331	const char *s;
332	size_t len;
333	} v_string;
334	} tmp;
335
336	/*
337	* Be careful about sign extension here.
338	* Sign extension is done with the destination (trace) type.
339	*/
340	switch (trace_type) {
341	case LTT_TYPE_SIGNED_INT:
342	switch (c_size) {
343	case 1:
344	tmp.v_ulong = (long)(int8_t)va_arg(*args, int);
345	break;
346	case 2:
347	tmp.v_ulong = (long)(int16_t)va_arg(*args, int);
348	break;
349	case 4:
350	tmp.v_ulong = (long)(int32_t)va_arg(*args, int);
351	break;
352	case 8:
353	tmp.v_uint64 = va_arg(*args, int64_t);
354	break;
355	default:
356	BUG();
357	}
358	break;
359	case LTT_TYPE_UNSIGNED_INT:
360	switch (c_size) {
361	case 1:
362	tmp.v_ulong = (unsigned long)(uint8_t)
363	va_arg(*args, unsigned int);
364	break;
365	case 2:
366	tmp.v_ulong = (unsigned long)(uint16_t)
367	va_arg(*args, unsigned int);
368	break;
369	case 4:
370	tmp.v_ulong = (unsigned long)(uint32_t)
371	va_arg(*args, unsigned int);
372	break;
373	case 8:
374	tmp.v_uint64 = va_arg(*args, uint64_t);
375	break;
376	default:
377	BUG();
378	}
379	break;
380	case LTT_TYPE_STRING:
381	tmp.v_string.s = va_arg(args, const char );
382	if ((unsigned long)tmp.v_string.s < PAGE_SIZE)
383	tmp.v_string.s = "<NULL>";
384	tmp.v_string.len = strlen(tmp.v_string.s)+1;
385	if (buf)
386	ltt_relay_write(buf, buf_offset, tmp.v_string.s,
387	tmp.v_string.len);
388	buf_offset += tmp.v_string.len;
389	goto copydone;
390	default:
391	BUG();
392	}
393
394	/*
395	* If trace_size is lower or equal to 4 bytes, there is no sign
396	* extension to do because we are already encoded in a long. Therefore,
397	* we can combine signed and unsigned ops. 4 bytes float also works
398	* with this, because we do a simple copy of 4 bytes into 4 bytes
399	* without manipulation (and we do not support conversion from integers
400	* to floats).
401	* It is also the case if c_size is 8 bytes, which is the largest
402	* possible integer.
403	*/
404	if (ltt_get_alignment()) {
405	buf_offset += ltt_align(buf_offset, trace_size);
406	if (largest_align)
407	largest_align = max_t(int, largest_align, trace_size);
408	}
409	if (trace_size <= 4 \|\| c_size == 8) {
410	if (buf) {
411	switch (trace_size) {
412	case 1:
413	if (c_size == 8)
414	ltt_relay_write(buf, buf_offset,
415	(uint8_t[]){ (uint8_t)tmp.v_uint64 },
416	sizeof(uint8_t));
417	else
418	ltt_relay_write(buf, buf_offset,
419	(uint8_t[]){ (uint8_t)tmp.v_ulong },
420	sizeof(uint8_t));
421	break;
422	case 2:
423	if (c_size == 8)
424	ltt_relay_write(buf, buf_offset,
425	(uint16_t[]){ (uint16_t)tmp.v_uint64 },
426	sizeof(uint16_t));
427	else
428	ltt_relay_write(buf, buf_offset,
429	(uint16_t[]){ (uint16_t)tmp.v_ulong },
430	sizeof(uint16_t));
431	break;
432	case 4:
433	if (c_size == 8)
434	ltt_relay_write(buf, buf_offset,
435	(uint32_t[]){ (uint32_t)tmp.v_uint64 },
436	sizeof(uint32_t));
437	else
438	ltt_relay_write(buf, buf_offset,
439	(uint32_t[]){ (uint32_t)tmp.v_ulong },
440	sizeof(uint32_t));
441	break;
442	case 8:
443	/*
444	* c_size cannot be other than 8 here because
445	* trace_size > 4.
446	*/
447	ltt_relay_write(buf, buf_offset,
448	(uint64_t[]){ (uint64_t)tmp.v_uint64 },
449	sizeof(uint64_t));
450	break;
451	default:
452	BUG();
453	}
454	}
455	buf_offset += trace_size;
456	goto copydone;
457	} else {
458	/*
459	* Perform sign extension.
460	*/
461	if (buf) {
462	switch (trace_type) {
463	case LTT_TYPE_SIGNED_INT:
464	ltt_relay_write(buf, buf_offset,
465	(int64_t[]){ (int64_t)tmp.v_ulong },
466	sizeof(int64_t));
467	break;
468	case LTT_TYPE_UNSIGNED_INT:
469	ltt_relay_write(buf, buf_offset,
470	(uint64_t[]){ (uint64_t)tmp.v_ulong },
471	sizeof(uint64_t));
472	break;
473	default:
474	BUG();
475	}
476	}
477	buf_offset += trace_size;
478	goto copydone;
479	}
480
481	copydone:
482	return buf_offset;
483	}
484
485	notrace size_t ltt_serialize_data(struct rchan_buf *buf, size_t buf_offset,
486	struct ltt_serialize_closure *closure,
487	void serialize_private, int largest_align,
488	const char fmt, va_list args)
489	{
490	char trace_size = 0, c_size = 0; /*
491	* 0 (unset), 1, 2, 4, 8 bytes.
492	*/
493	enum ltt_type trace_type = LTT_TYPE_NONE, c_type = LTT_TYPE_NONE;
494	unsigned long attributes = 0;
495
496	for (; *fmt ; ++fmt) {
497	switch (*fmt) {
498	case '#':
499	/* tracetypes (#) */
500	++fmt; /* skip first '#' */
501	if (fmt == '#') / Escaped ## */
502	break;
503	attributes = 0;
504	fmt = parse_trace_type(fmt, &trace_size, &trace_type,
505	&attributes);
506	break;
507	case '%':
508	/* c types (%) */
509	++fmt; /* skip first '%' */
510	if (fmt == '%') / Escaped %% */
511	break;
512	fmt = parse_c_type(fmt, &c_size, &c_type);
513	/*
514	* Output c types if no trace types has been
515	* specified.
516	*/
517	if (!trace_size)
518	trace_size = c_size;
519	if (trace_type == LTT_TYPE_NONE)
520	trace_type = c_type;
521	if (c_type == LTT_TYPE_STRING)
522	trace_type = LTT_TYPE_STRING;
523	/* perform trace write */
524	buf_offset = serialize_trace_data(buf,
525	buf_offset, trace_size,
526	trace_type, c_size, c_type,
527	largest_align, args);
528	trace_size = 0;
529	c_size = 0;
530	trace_type = LTT_TYPE_NONE;
531	c_size = LTT_TYPE_NONE;
532	attributes = 0;
533	break;
534	/* default is to skip the text, doing nothing */
535	}
536	}
537	return buf_offset;
538	}
539	EXPORT_SYMBOL_GPL(ltt_serialize_data);
540
541	/*
542	* Calculate data size
543	* Assume that the padding for alignment starts at a sizeof(void *) address.
544	*/
545	static notrace size_t ltt_get_data_size(struct ltt_serialize_closure *closure,
546	void serialize_private, int largest_align,
547	const char fmt, va_list args)
548	{
549	ltt_serialize_cb cb = closure->callbacks[0];
550	closure->cb_idx = 0;
551	return (size_t)cb(NULL, 0, closure, serialize_private,
552	largest_align, fmt, args);
553	}
554
555	static notrace
556	void ltt_write_event_data(struct rchan_buf *buf, size_t buf_offset,
557	struct ltt_serialize_closure *closure,
558	void *serialize_private, int largest_align,
559	const char fmt, va_list args)
560	{
561	ltt_serialize_cb cb = closure->callbacks[0];
562	closure->cb_idx = 0;
563	buf_offset += ltt_align(buf_offset, largest_align);
564	cb(buf, buf_offset, closure, serialize_private, NULL, fmt, args);
565	}
566
567
568	notrace void ltt_vtrace(const struct marker mdata, void probe_data,
569	void call_data, const char fmt, va_list *args)
570	{
571	int largest_align, ret;
572	struct ltt_active_marker *pdata;
573	uint16_t eID;
574	size_t data_size, slot_size;
575	unsigned int chan_index;
576	struct ltt_channel_struct *channel;
577	struct ltt_trace_struct trace, dest_trace = NULL;
578	struct rchan_buf *buf;
579	void *transport_data;
580	uint64_t tsc;
581	long buf_offset;
582	va_list args_copy;
583	struct ltt_serialize_closure closure;
584	struct ltt_probe_private_data *private_data = call_data;
585	void *serialize_private = NULL;
586	int cpu;
587	unsigned int rflags;
588
589	/*
590	* This test is useful for quickly exiting static tracing when no trace
591	* is active. We expect to have an active trace when we get here.
592	*/
593	if (unlikely(ltt_traces.num_active_traces == 0))
594	return;
595
596	rcu_read_lock_sched_notrace();
597	cpu = smp_processor_id();
598	//ust// __get_cpu_var(ltt_nesting)++;
599	ltt_nesting++;
600
601	pdata = (struct ltt_active_marker *)probe_data;
602	eID = mdata->event_id;
603	chan_index = mdata->channel_id;
604	closure.callbacks = pdata->probe->callbacks;
605
606	if (unlikely(private_data)) {
607	dest_trace = private_data->trace;
608	if (private_data->serializer)
609	closure.callbacks = &private_data->serializer;
610	serialize_private = private_data->serialize_private;
611	}
612
613	va_copy(args_copy, *args);
614	/*
615	* Assumes event payload to start on largest_align alignment.
616	*/
617	largest_align = 1; /* must be non-zero for ltt_align */
618	data_size = ltt_get_data_size(&closure, serialize_private,
619	&largest_align, fmt, &args_copy);
620	largest_align = min_t(int, largest_align, sizeof(void *));
621	va_end(args_copy);
622
623	/* Iterate on each trace */
624	list_for_each_entry_rcu(trace, &ltt_traces.head, list) {
625	/*
626	* Expect the filter to filter out events. If we get here,
627	* we went through tracepoint activation as a first step.
628	*/
629	if (unlikely(dest_trace && trace != dest_trace))
630	continue;
631	if (unlikely(!trace->active))
632	continue;
633	if (unlikely(!ltt_run_filter(trace, eID)))
634	continue;
635	#ifdef CONFIG_LTT_DEBUG_EVENT_SIZE
636	rflags = LTT_RFLAG_ID_SIZE;
637	#else
638	if (unlikely(eID >= LTT_FREE_EVENTS))
639	rflags = LTT_RFLAG_ID;
640	else
641	rflags = 0;
642	#endif
643	/*
644	* Skip channels added after trace creation.
645	*/
646	if (unlikely(chan_index >= trace->nr_channels))
647	continue;
648	channel = &trace->channels[chan_index];
649	if (!channel->active)
650	continue;
651
652	/* reserve space : header and data */
653	ret = ltt_reserve_slot(trace, channel, &transport_data,
654	data_size, &slot_size, &buf_offset,
655	&tsc, &rflags,
c1dea0b3	656	largest_align);
8d938dbd PMF	657	if (unlikely(ret < 0))
	658	continue; /* buffer full */
	659
	660	va_copy(args_copy, *args);
	661	/* FIXME : could probably encapsulate transport better. */
	662	//ust// buf = ((struct rchan *)channel->trans_channel_data)->buf[cpu];
	663	buf = ((struct rchan *)channel->trans_channel_data)->buf;
	664	/* Out-of-order write : header and data */
	665	buf_offset = ltt_write_event_header(trace,
	666	channel, buf, buf_offset,
	667	eID, data_size, tsc, rflags);
	668	ltt_write_event_data(buf, buf_offset, &closure,
	669	serialize_private,
	670	largest_align, fmt, &args_copy);
	671	va_end(args_copy);
	672	/* Out-of-order commit */
	673	ltt_commit_slot(channel, &transport_data, buf_offset,
	674	slot_size);
9c67dc50	675	printf("just commited event at offset %d and size %d\n", buf_offset, slot_size);
8d938dbd PMF	676	}
	677	//ust// __get_cpu_var(ltt_nesting)--;
	678	ltt_nesting--;
	679	rcu_read_unlock_sched_notrace();
	680	}
	681	EXPORT_SYMBOL_GPL(ltt_vtrace);
	682
	683	notrace void ltt_trace(const struct marker mdata, void probe_data,
	684	void call_data, const char fmt, ...)
	685	{
	686	va_list args;
	687
	688	va_start(args, fmt);
	689	ltt_vtrace(mdata, probe_data, call_data, fmt, &args);
	690	va_end(args);
	691	}
	692	EXPORT_SYMBOL_GPL(ltt_trace);
	693
	694	//ust// MODULE_LICENSE("GPL");
	695	//ust// MODULE_AUTHOR("Mathieu Desnoyers");
	696	//ust// MODULE_DESCRIPTION("Linux Trace Toolkit Next Generation Serializer");