zephyr/subsys/tracing/ctf/ctf_top.h

244 lines
4.9 KiB
C

/*
* Copyright (c) 2018 Oticon A/S
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef SUBSYS_DEBUG_TRACING_CTF_TOP_H
#define SUBSYS_DEBUG_TRACING_CTF_TOP_H
#include <stddef.h>
#include <string.h>
#include <ctf_map.h>
#include <tracing/tracing_format.h>
/* Limit strings to 20 bytes to optimize bandwidth */
#define CTF_MAX_STRING_LEN 20
/*
* Obtain a field's size at compile-time.
*/
#define CTF_INTERNAL_FIELD_SIZE(x) + sizeof(x)
/*
* Append a field to current event-packet.
*/
#define CTF_INTERNAL_FIELD_APPEND(x) \
{ \
memcpy(epacket_cursor, &(x), sizeof(x)); \
epacket_cursor += sizeof(x); \
}
/*
* Gather fields to a contiguous event-packet, then atomically emit.
*/
#define CTF_GATHER_FIELDS(...) \
{ \
u8_t epacket[0 MAP(CTF_INTERNAL_FIELD_SIZE, ##__VA_ARGS__)]; \
u8_t *epacket_cursor = &epacket[0]; \
\
MAP(CTF_INTERNAL_FIELD_APPEND, ##__VA_ARGS__) \
tracing_format_raw_data(epacket, sizeof(epacket)); \
}
#ifdef CONFIG_TRACING_CTF_TIMESTAMP
#define CTF_EVENT(...) \
{ \
const u32_t tstamp = k_cycle_get_32(); \
\
CTF_GATHER_FIELDS(tstamp, __VA_ARGS__) \
}
#else
#define CTF_EVENT(...) \
{ \
CTF_GATHER_FIELDS(__VA_ARGS__) \
}
#endif
/* Anonymous compound literal with 1 member. Legal since C99.
* This permits us to take the address of literals, like so:
* &CTF_LITERAL(int, 1234)
*
* This may be required if a ctf_bottom layer uses memcpy.
*
* NOTE string literals already support address-of and sizeof,
* so string literals should not be wrapped with CTF_LITERAL.
*/
#define CTF_LITERAL(type, value) ((type) { (type)(value) })
typedef enum {
CTF_EVENT_THREAD_SWITCHED_OUT = 0x10,
CTF_EVENT_THREAD_SWITCHED_IN = 0x11,
CTF_EVENT_THREAD_PRIORITY_SET = 0x12,
CTF_EVENT_THREAD_CREATE = 0x13,
CTF_EVENT_THREAD_ABORT = 0x14,
CTF_EVENT_THREAD_SUSPEND = 0x15,
CTF_EVENT_THREAD_RESUME = 0x16,
CTF_EVENT_THREAD_READY = 0x17,
CTF_EVENT_THREAD_PENDING = 0x18,
CTF_EVENT_THREAD_INFO = 0x19,
CTF_EVENT_THREAD_NAME_SET = 0x1A,
CTF_EVENT_ISR_ENTER = 0x20,
CTF_EVENT_ISR_EXIT = 0x21,
CTF_EVENT_ISR_EXIT_TO_SCHEDULER = 0x22,
CTF_EVENT_IDLE = 0x30,
CTF_EVENT_ID_START_CALL = 0x41,
CTF_EVENT_ID_END_CALL = 0x42
} ctf_event_t;
typedef struct {
char buf[CTF_MAX_STRING_LEN];
} ctf_bounded_string_t;
static inline void ctf_top_thread_switched_out(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_SWITCHED_OUT),
thread_id
);
}
static inline void ctf_top_thread_switched_in(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_SWITCHED_IN),
thread_id
);
}
static inline void ctf_top_thread_priority_set(u32_t thread_id, s8_t prio)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_PRIORITY_SET),
thread_id,
prio
);
}
static inline void ctf_top_thread_create(
u32_t thread_id,
s8_t prio,
ctf_bounded_string_t name
)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_CREATE),
thread_id,
name
);
}
static inline void ctf_top_thread_abort(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_ABORT),
thread_id
);
}
static inline void ctf_top_thread_suspend(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_SUSPEND),
thread_id
);
}
static inline void ctf_top_thread_resume(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_RESUME),
thread_id
);
}
static inline void ctf_top_thread_ready(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_READY),
thread_id
);
}
static inline void ctf_top_thread_pend(u32_t thread_id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_PENDING),
thread_id
);
}
static inline void ctf_top_thread_info(
u32_t thread_id,
u32_t stack_base,
u32_t stack_size
)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_INFO),
thread_id,
stack_base,
stack_size
);
}
static inline void ctf_top_thread_name_set(
u32_t thread_id,
ctf_bounded_string_t name
)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_THREAD_NAME_SET),
thread_id,
name
);
}
static inline void ctf_top_isr_enter(void)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_ISR_ENTER)
);
}
static inline void ctf_top_isr_exit(void)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_ISR_EXIT)
);
}
static inline void ctf_top_isr_exit_to_scheduler(void)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_ISR_EXIT_TO_SCHEDULER)
);
}
static inline void ctf_top_idle(void)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_IDLE)
);
}
static inline void ctf_top_void(u32_t id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_ID_START_CALL),
id
);
}
static inline void ctf_top_end_call(u32_t id)
{
CTF_EVENT(
CTF_LITERAL(u8_t, CTF_EVENT_ID_END_CALL),
id
);
}
#endif /* SUBSYS_DEBUG_TRACING_CTF_TOP_H */