builtin/submodule--helper: fix leaking error buffer
[git/gitster.git] / trace2 / tr2_tls.h
blob3dfe6557fc46129edfa7a121522e9a6d54973f28
1 #ifndef TR2_TLS_H
2 #define TR2_TLS_H
4 #include "trace2/tr2_ctr.h"
5 #include "trace2/tr2_tmr.h"
7 /*
8 * Notice: the term "TLS" refers to "thread-local storage" in the
9 * Trace2 source files. This usage is borrowed from GCC and Windows.
10 * There is NO relation to "transport layer security".
14 * Arbitry limit for thread names for column alignment.
16 #define TR2_MAX_THREAD_NAME (24)
18 struct tr2tls_thread_ctx {
19 const char *thread_name;
20 uint64_t *array_us_start;
21 size_t alloc;
22 size_t nr_open_regions; /* plays role of "nr" in ALLOC_GROW */
23 int thread_id;
24 struct tr2_timer_block timer_block;
25 struct tr2_counter_block counter_block;
26 unsigned int used_any_timer:1;
27 unsigned int used_any_per_thread_timer:1;
28 unsigned int used_any_counter:1;
29 unsigned int used_any_per_thread_counter:1;
33 * Create thread-local storage for the current thread.
35 * The first thread in the process will have:
36 * { .thread_id=0, .thread_name="main" }
37 * Subsequent threads are given a non-zero thread_id and a thread_name
38 * constructed from the id and a thread base name (which is usually just
39 * the name of the thread-proc function). For example:
40 * { .thread_id=10, .thread_name="th10:fsm-listen" }
41 * This helps to identify and distinguish messages from concurrent threads.
42 * The ctx.thread_name field is truncated if necessary to help with column
43 * alignment in printf-style messages.
45 * In this and all following functions the term "self" refers to the
46 * current thread.
48 struct tr2tls_thread_ctx *tr2tls_create_self(const char *thread_base_name,
49 uint64_t us_thread_start);
52 * Get the thread-local storage pointer of the current thread.
54 struct tr2tls_thread_ctx *tr2tls_get_self(void);
57 * return true if the current thread is the main thread.
59 int tr2tls_is_main_thread(void);
62 * Free the current thread's thread-local storage.
64 void tr2tls_unset_self(void);
67 * Begin a new nested region and remember the start time.
69 void tr2tls_push_self(uint64_t us_now);
72 * End the innermost nested region.
74 void tr2tls_pop_self(void);
77 * Pop any extra (above the first) open regions on the current
78 * thread and discard. During a thread-exit, we should only
79 * have region[0] that was pushed in trace2_thread_start() if
80 * the thread exits normally.
82 void tr2tls_pop_unwind_self(void);
85 * Compute the elapsed time since the innermost region in the
86 * current thread started and the given time (usually now).
88 uint64_t tr2tls_region_elasped_self(uint64_t us);
91 * Compute the elapsed time since the main thread started
92 * and the given time (usually now). This is assumed to
93 * be the absolute run time of the process.
95 uint64_t tr2tls_absolute_elapsed(uint64_t us);
98 * Initialize thread-local storage for Trace2.
100 void tr2tls_init(void);
103 * Free all Trace2 thread-local storage resources.
105 void tr2tls_release(void);
108 * Protected increment of an integer.
110 int tr2tls_locked_increment(int *p);
113 * Capture the process start time and do nothing else.
115 void tr2tls_start_process_clock(void);
118 * Explicitly lock/unlock our mutex.
120 void tr2tls_lock(void);
121 void tr2tls_unlock(void);
123 #endif /* TR2_TLS_H */