#ifndef _LTTNG_TRACEPOINT_H #define _LTTNG_TRACEPOINT_H /* * Copyright 2011-2012 - Mathieu Desnoyers * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include #include #include #include #include /* for dlopen */ #include /* for memset */ #include /* for sdt */ #include #ifdef LTTNG_UST_HAVE_SDT_INTEGRATION #define SDT_USE_VARIADIC #include #define LTTNG_STAP_PROBEV STAP_PROBEV #else #define LTTNG_STAP_PROBEV(...) #endif #ifdef __cplusplus extern "C" { #endif #define tracepoint_enabled(provider, name) \ caa_unlikely(CMM_LOAD_SHARED(__tracepoint_##provider##___##name.state)) #define do_tracepoint(provider, name, ...) \ __tracepoint_cb_##provider##___##name(__VA_ARGS__) #define tracepoint(provider, name, ...) \ do { \ LTTNG_STAP_PROBEV(provider, name, ## __VA_ARGS__); \ if (tracepoint_enabled(provider, name)) \ do_tracepoint(provider, name, __VA_ARGS__); \ } while (0) #define TP_ARGS(...) __VA_ARGS__ /* * TP_ARGS takes tuples of type, argument separated by a comma. * It can take up to 10 tuples (which means that less than 10 tuples is * fine too). * Each tuple is also separated by a comma. */ #define __TP_COMBINE_TOKENS(_tokena, _tokenb) \ _tokena##_tokenb #define _TP_COMBINE_TOKENS(_tokena, _tokenb) \ __TP_COMBINE_TOKENS(_tokena, _tokenb) #define __TP_COMBINE_TOKENS3(_tokena, _tokenb, _tokenc) \ _tokena##_tokenb##_tokenc #define _TP_COMBINE_TOKENS3(_tokena, _tokenb, _tokenc) \ __TP_COMBINE_TOKENS3(_tokena, _tokenb, _tokenc) #define __TP_COMBINE_TOKENS4(_tokena, _tokenb, _tokenc, _tokend) \ _tokena##_tokenb##_tokenc##_tokend #define _TP_COMBINE_TOKENS4(_tokena, _tokenb, _tokenc, _tokend) \ __TP_COMBINE_TOKENS4(_tokena, _tokenb, _tokenc, _tokend) /* * _TP_EXVAR* extract the var names. * _TP_EXVAR1 and _TP_EXDATA_VAR1 are needed for -std=c99. */ #define _TP_EXVAR0() #define _TP_EXVAR1(a) #define _TP_EXVAR2(a,b) b #define _TP_EXVAR4(a,b,c,d) b,d #define _TP_EXVAR6(a,b,c,d,e,f) b,d,f #define _TP_EXVAR8(a,b,c,d,e,f,g,h) b,d,f,h #define _TP_EXVAR10(a,b,c,d,e,f,g,h,i,j) b,d,f,h,j #define _TP_EXVAR12(a,b,c,d,e,f,g,h,i,j,k,l) b,d,f,h,j,l #define _TP_EXVAR14(a,b,c,d,e,f,g,h,i,j,k,l,m,n) b,d,f,h,j,l,n #define _TP_EXVAR16(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p) b,d,f,h,j,l,n,p #define _TP_EXVAR18(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r) b,d,f,h,j,l,n,p,r #define _TP_EXVAR20(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t) b,d,f,h,j,l,n,p,r,t #define _TP_EXDATA_VAR0() __tp_data #define _TP_EXDATA_VAR1(a) __tp_data #define _TP_EXDATA_VAR2(a,b) __tp_data,b #define _TP_EXDATA_VAR4(a,b,c,d) __tp_data,b,d #define _TP_EXDATA_VAR6(a,b,c,d,e,f) __tp_data,b,d,f #define _TP_EXDATA_VAR8(a,b,c,d,e,f,g,h) __tp_data,b,d,f,h #define _TP_EXDATA_VAR10(a,b,c,d,e,f,g,h,i,j) __tp_data,b,d,f,h,j #define _TP_EXDATA_VAR12(a,b,c,d,e,f,g,h,i,j,k,l) __tp_data,b,d,f,h,j,l #define _TP_EXDATA_VAR14(a,b,c,d,e,f,g,h,i,j,k,l,m,n) __tp_data,b,d,f,h,j,l,n #define _TP_EXDATA_VAR16(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p) __tp_data,b,d,f,h,j,l,n,p #define _TP_EXDATA_VAR18(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r) __tp_data,b,d,f,h,j,l,n,p,r #define _TP_EXDATA_VAR20(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t) __tp_data,b,d,f,h,j,l,n,p,r,t /* * _TP_EXPROTO* extract tuples of type, var. * _TP_EXPROTO1 and _TP_EXDATA_PROTO1 are needed for -std=c99. */ #define _TP_EXPROTO0() void #define _TP_EXPROTO1(a) void #define _TP_EXPROTO2(a,b) a b #define _TP_EXPROTO4(a,b,c,d) a b,c d #define _TP_EXPROTO6(a,b,c,d,e,f) a b,c d,e f #define _TP_EXPROTO8(a,b,c,d,e,f,g,h) a b,c d,e f,g h #define _TP_EXPROTO10(a,b,c,d,e,f,g,h,i,j) a b,c d,e f,g h,i j #define _TP_EXPROTO12(a,b,c,d,e,f,g,h,i,j,k,l) a b,c d,e f,g h,i j,k l #define _TP_EXPROTO14(a,b,c,d,e,f,g,h,i,j,k,l,m,n) a b,c d,e f,g h,i j,k l,m n #define _TP_EXPROTO16(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p) a b,c d,e f,g h,i j,k l,m n,o p #define _TP_EXPROTO18(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r) a b,c d,e f,g h,i j,k l,m n,o p,q r #define _TP_EXPROTO20(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t) a b,c d,e f,g h,i j,k l,m n,o p,q r,s t #define _TP_EXDATA_PROTO0() void *__tp_data #define _TP_EXDATA_PROTO1(a) void *__tp_data #define _TP_EXDATA_PROTO2(a,b) void *__tp_data,a b #define _TP_EXDATA_PROTO4(a,b,c,d) void *__tp_data,a b,c d #define _TP_EXDATA_PROTO6(a,b,c,d,e,f) void *__tp_data,a b,c d,e f #define _TP_EXDATA_PROTO8(a,b,c,d,e,f,g,h) void *__tp_data,a b,c d,e f,g h #define _TP_EXDATA_PROTO10(a,b,c,d,e,f,g,h,i,j) void *__tp_data,a b,c d,e f,g h,i j #define _TP_EXDATA_PROTO12(a,b,c,d,e,f,g,h,i,j,k,l) void *__tp_data,a b,c d,e f,g h,i j,k l #define _TP_EXDATA_PROTO14(a,b,c,d,e,f,g,h,i,j,k,l,m,n) void *__tp_data,a b,c d,e f,g h,i j,k l,m n #define _TP_EXDATA_PROTO16(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p) void *__tp_data,a b,c d,e f,g h,i j,k l,m n,o p #define _TP_EXDATA_PROTO18(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r) void *__tp_data,a b,c d,e f,g h,i j,k l,m n,o p,q r #define _TP_EXDATA_PROTO20(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t) void *__tp_data,a b,c d,e f,g h,i j,k l,m n,o p,q r,s t /* Preprocessor trick to count arguments. Inspired from sdt.h. */ #define _TP_NARGS(...) __TP_NARGS(__VA_ARGS__, 20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,2,1,0) #define __TP_NARGS(_0,_1,_2,_3,_4,_5,_6,_7,_8,_9,_10,_11,_12,_13,_14,_15,_16,_17,_18,_19,_20, N, ...) N #define _TP_PROTO_N(N, ...) _TP_PARAMS(_TP_COMBINE_TOKENS(_TP_EXPROTO, N)(__VA_ARGS__)) #define _TP_VAR_N(N, ...) _TP_PARAMS(_TP_COMBINE_TOKENS(_TP_EXVAR, N)(__VA_ARGS__)) #define _TP_DATA_PROTO_N(N, ...) _TP_PARAMS(_TP_COMBINE_TOKENS(_TP_EXDATA_PROTO, N)(__VA_ARGS__)) #define _TP_DATA_VAR_N(N, ...) _TP_PARAMS(_TP_COMBINE_TOKENS(_TP_EXDATA_VAR, N)(__VA_ARGS__)) #define _TP_ARGS_PROTO(...) _TP_PROTO_N(_TP_NARGS(0, ##__VA_ARGS__), ##__VA_ARGS__) #define _TP_ARGS_VAR(...) _TP_VAR_N(_TP_NARGS(0, ##__VA_ARGS__), ##__VA_ARGS__) #define _TP_ARGS_DATA_PROTO(...) _TP_DATA_PROTO_N(_TP_NARGS(0, ##__VA_ARGS__), ##__VA_ARGS__) #define _TP_ARGS_DATA_VAR(...) _TP_DATA_VAR_N(_TP_NARGS(0, ##__VA_ARGS__), ##__VA_ARGS__) #define _TP_PARAMS(...) __VA_ARGS__ /* * The tracepoint cb is marked always inline so we can distinguish * between caller's ip addresses within the probe using the return * address. */ #define _DECLARE_TRACEPOINT(_provider, _name, ...) \ extern struct lttng_ust_tracepoint __tracepoint_##_provider##___##_name; \ static inline __attribute__((always_inline, unused)) lttng_ust_notrace \ void __tracepoint_cb_##_provider##___##_name(_TP_ARGS_PROTO(__VA_ARGS__)); \ static \ void __tracepoint_cb_##_provider##___##_name(_TP_ARGS_PROTO(__VA_ARGS__)) \ { \ struct lttng_ust_tracepoint_probe *__tp_probe; \ \ if (caa_unlikely(!TP_RCU_LINK_TEST())) \ return; \ tp_rcu_read_lock_bp(); \ __tp_probe = tp_rcu_dereference_bp(__tracepoint_##_provider##___##_name.probes); \ if (caa_unlikely(!__tp_probe)) \ goto end; \ do { \ void (*__tp_cb)(void) = __tp_probe->func; \ void *__tp_data = __tp_probe->data; \ \ URCU_FORCE_CAST(void (*)(_TP_ARGS_DATA_PROTO(__VA_ARGS__)), __tp_cb) \ (_TP_ARGS_DATA_VAR(__VA_ARGS__)); \ } while ((++__tp_probe)->func); \ end: \ tp_rcu_read_unlock_bp(); \ } \ static inline lttng_ust_notrace \ void __tracepoint_register_##_provider##___##_name(char *name, \ void (*func)(void), void *data); \ static inline \ void __tracepoint_register_##_provider##___##_name(char *name, \ void (*func)(void), void *data) \ { \ __tracepoint_probe_register(name, func, data, \ __tracepoint_##_provider##___##_name.signature); \ } \ static inline lttng_ust_notrace \ void __tracepoint_unregister_##_provider##___##_name(char *name, \ void (*func)(void), void *data); \ static inline \ void __tracepoint_unregister_##_provider##___##_name(char *name, \ void (*func)(void), void *data) \ { \ __tracepoint_probe_unregister(name, func, data); \ } extern int __tracepoint_probe_register(const char *name, void (*func)(void), void *data, const char *signature); extern int __tracepoint_probe_unregister(const char *name, void (*func)(void), void *data); /* * tracepoint dynamic linkage handling (callbacks). Hidden visibility: * shared across objects in a module/main executable. */ struct lttng_ust_tracepoint_dlopen { void *liblttngust_handle; int (*tracepoint_register_lib)(struct lttng_ust_tracepoint * const *tracepoints_start, int tracepoints_count); int (*tracepoint_unregister_lib)(struct lttng_ust_tracepoint * const *tracepoints_start); void (*rcu_read_lock_sym_bp)(void); void (*rcu_read_unlock_sym_bp)(void); void *(*rcu_dereference_sym_bp)(void *p); }; extern struct lttng_ust_tracepoint_dlopen tracepoint_dlopen; extern struct lttng_ust_tracepoint_dlopen *tracepoint_dlopen_ptr; /* * These weak symbols, the constructor, and destructor take care of * registering only _one_ instance of the tracepoints per shared-ojbect * (or for the whole main program). */ int __tracepoint_registered __attribute__((weak, visibility("hidden"))); int __tracepoint_ptrs_registered __attribute__((weak, visibility("hidden"))); struct lttng_ust_tracepoint_dlopen tracepoint_dlopen __attribute__((weak, visibility("hidden"))); /* * Deal with gcc O1 optimisation issues with weak hidden symbols. gcc * 4.8 and prior does not have the same behavior for symbol scoping on * 32-bit powerpc depending on the object size: symbols for objects of 8 * bytes or less have the same address throughout a module, whereas they * have different addresses between compile units for objects larger * than 8 bytes. Add this pointer indirection to ensure that the symbol * scoping match that of the other weak hidden symbols found in this * header. */ struct lttng_ust_tracepoint_dlopen *tracepoint_dlopen_ptr __attribute__((weak, visibility("hidden"))); /* * Tracepoint dynamic linkage handling (callbacks). Hidden visibility: shared * across objects in a module/main executable. The callbacks are used to * control and check if the destructors should be executed. */ struct lttng_ust_tracepoint_destructors_syms { int *old_tracepoint_disable_destructors; void (*tracepoint_disable_destructors)(void); int (*tracepoint_get_destructors_state)(void); }; extern struct lttng_ust_tracepoint_destructors_syms tracepoint_destructors_syms; extern struct lttng_ust_tracepoint_destructors_syms *tracepoint_destructors_syms_ptr; struct lttng_ust_tracepoint_destructors_syms tracepoint_destructors_syms __attribute__((weak, visibility("hidden"))); struct lttng_ust_tracepoint_destructors_syms *tracepoint_destructors_syms_ptr __attribute__((weak, visibility("hidden"))); static inline void tracepoint_disable_destructors(void) { if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; if (!tracepoint_destructors_syms_ptr) tracepoint_destructors_syms_ptr = &tracepoint_destructors_syms; if (tracepoint_dlopen_ptr->liblttngust_handle && tracepoint_destructors_syms_ptr->tracepoint_disable_destructors) tracepoint_destructors_syms_ptr->tracepoint_disable_destructors(); *tracepoint_destructors_syms_ptr->old_tracepoint_disable_destructors = 1; } #ifndef _LGPL_SOURCE static inline void lttng_ust_notrace __tracepoint__init_urcu_sym(void); static inline void __tracepoint__init_urcu_sym(void) { if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; /* * Symbols below are needed by tracepoint call sites and probe * providers. */ if (!tracepoint_dlopen_ptr->rcu_read_lock_sym_bp) tracepoint_dlopen_ptr->rcu_read_lock_sym_bp = URCU_FORCE_CAST(void (*)(void), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tp_rcu_read_lock_bp")); if (!tracepoint_dlopen_ptr->rcu_read_unlock_sym_bp) tracepoint_dlopen_ptr->rcu_read_unlock_sym_bp = URCU_FORCE_CAST(void (*)(void), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tp_rcu_read_unlock_bp")); if (!tracepoint_dlopen_ptr->rcu_dereference_sym_bp) tracepoint_dlopen_ptr->rcu_dereference_sym_bp = URCU_FORCE_CAST(void *(*)(void *p), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tp_rcu_dereference_sym_bp")); } #else static inline void lttng_ust_notrace __tracepoint__init_urcu_sym(void); static inline void __tracepoint__init_urcu_sym(void) { } #endif static void lttng_ust_notrace __attribute__((constructor)) __tracepoints__init(void); static void __tracepoints__init(void) { if (__tracepoint_registered++) { if (!tracepoint_dlopen_ptr->liblttngust_handle) return; __tracepoint__init_urcu_sym(); return; } if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; if (!tracepoint_dlopen_ptr->liblttngust_handle) tracepoint_dlopen_ptr->liblttngust_handle = dlopen("liblttng-ust-tracepoint.so.0", RTLD_NOW | RTLD_GLOBAL); if (!tracepoint_dlopen_ptr->liblttngust_handle) return; __tracepoint__init_urcu_sym(); } static void lttng_ust_notrace __attribute__((destructor)) __tracepoints__destroy(void); static void __tracepoints__destroy(void) { int ret; if (--__tracepoint_registered) return; if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; if (!tracepoint_destructors_syms_ptr) tracepoint_destructors_syms_ptr = &tracepoint_destructors_syms; if (!tracepoint_dlopen_ptr->liblttngust_handle) return; if (__tracepoint_ptrs_registered) return; /* * Lookup if destructors must be executed using the new method. */ if (tracepoint_destructors_syms_ptr->tracepoint_get_destructors_state && !tracepoint_destructors_syms_ptr->tracepoint_get_destructors_state()) { /* * The tracepoint_get_destructors_state symbol was found with * dlsym but its returned value is 0 meaning that destructors * must not be executed. */ return; } /* * Lookup if destructors must be executed using the old method. */ if (tracepoint_destructors_syms_ptr->old_tracepoint_disable_destructors && *tracepoint_destructors_syms_ptr->old_tracepoint_disable_destructors) { /* * The old_tracepoint_disable_destructors symbol was found with * dlsym but its value is 1 meaning that destructors must not * be executed. */ return; } ret = dlclose(tracepoint_dlopen_ptr->liblttngust_handle); if (ret) { fprintf(stderr, "Error (%d) in dlclose\n", ret); abort(); } memset(tracepoint_dlopen_ptr, 0, sizeof(*tracepoint_dlopen_ptr)); } #ifdef TRACEPOINT_DEFINE /* * These weak symbols, the constructor, and destructor take care of * registering only _one_ instance of the tracepoints per shared-ojbect * (or for the whole main program). */ extern struct lttng_ust_tracepoint * const __start___tracepoints_ptrs[] __attribute__((weak, visibility("hidden"))); extern struct lttng_ust_tracepoint * const __stop___tracepoints_ptrs[] __attribute__((weak, visibility("hidden"))); /* * When TRACEPOINT_PROBE_DYNAMIC_LINKAGE is defined, we do not emit a * unresolved symbol that requires the provider to be linked in. When * TRACEPOINT_PROBE_DYNAMIC_LINKAGE is not defined, we emit an * unresolved symbol that depends on having the provider linked in, * otherwise the linker complains. This deals with use of static * libraries, ensuring that the linker does not remove the provider * object from the executable. */ #ifdef TRACEPOINT_PROBE_DYNAMIC_LINKAGE #define _TRACEPOINT_UNDEFINED_REF(provider) NULL #else /* TRACEPOINT_PROBE_DYNAMIC_LINKAGE */ #define _TRACEPOINT_UNDEFINED_REF(provider) &__tracepoint_provider_##provider #endif /* TRACEPOINT_PROBE_DYNAMIC_LINKAGE */ /* * Note: to allow PIC code, we need to allow the linker to update the pointers * in the __tracepoints_ptrs section. * Therefore, this section is _not_ const (read-only). */ #define _TP_EXTRACT_STRING(...) #__VA_ARGS__ #define _DEFINE_TRACEPOINT(_provider, _name, _args) \ extern int __tracepoint_provider_##_provider; \ static const char __tp_strtab_##_provider##___##_name[] \ __attribute__((section("__tracepoints_strings"))) = \ #_provider ":" #_name; \ struct lttng_ust_tracepoint __tracepoint_##_provider##___##_name \ __attribute__((section("__tracepoints"))) = \ { \ __tp_strtab_##_provider##___##_name, \ 0, \ NULL, \ _TRACEPOINT_UNDEFINED_REF(_provider), \ _TP_EXTRACT_STRING(_args), \ { }, \ }; \ static struct lttng_ust_tracepoint * \ __tracepoint_ptr_##_provider##___##_name \ __attribute__((section("__tracepoints_ptrs"), used)) \ __lttng_ust_variable_attribute_no_sanitize_address = \ &__tracepoint_##_provider##___##_name; static void lttng_ust_notrace __attribute__((constructor)) __tracepoints__ptrs_init(void); static void __tracepoints__ptrs_init(void) { if (__tracepoint_ptrs_registered++) return; if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; if (!tracepoint_dlopen_ptr->liblttngust_handle) tracepoint_dlopen_ptr->liblttngust_handle = dlopen("liblttng-ust-tracepoint.so.0", RTLD_NOW | RTLD_GLOBAL); if (!tracepoint_dlopen_ptr->liblttngust_handle) return; if (!tracepoint_destructors_syms_ptr) tracepoint_destructors_syms_ptr = &tracepoint_destructors_syms; tracepoint_dlopen_ptr->tracepoint_register_lib = URCU_FORCE_CAST(int (*)(struct lttng_ust_tracepoint * const *, int), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tracepoint_register_lib")); tracepoint_dlopen_ptr->tracepoint_unregister_lib = URCU_FORCE_CAST(int (*)(struct lttng_ust_tracepoint * const *), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tracepoint_unregister_lib")); tracepoint_destructors_syms_ptr->old_tracepoint_disable_destructors = URCU_FORCE_CAST(int *, dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "__tracepoints__disable_destructors")); tracepoint_destructors_syms_ptr->tracepoint_disable_destructors = URCU_FORCE_CAST(void (*)(void), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tp_disable_destructors")); tracepoint_destructors_syms_ptr->tracepoint_get_destructors_state = URCU_FORCE_CAST(int (*)(void), dlsym(tracepoint_dlopen_ptr->liblttngust_handle, "tp_get_destructors_state")); __tracepoint__init_urcu_sym(); if (tracepoint_dlopen_ptr->tracepoint_register_lib) { tracepoint_dlopen_ptr->tracepoint_register_lib(__start___tracepoints_ptrs, __stop___tracepoints_ptrs - __start___tracepoints_ptrs); } } static void lttng_ust_notrace __attribute__((destructor)) __tracepoints__ptrs_destroy(void); static void __tracepoints__ptrs_destroy(void) { int ret; if (--__tracepoint_ptrs_registered) return; if (!tracepoint_dlopen_ptr) tracepoint_dlopen_ptr = &tracepoint_dlopen; if (!tracepoint_destructors_syms_ptr) tracepoint_destructors_syms_ptr = &tracepoint_destructors_syms; if (tracepoint_dlopen_ptr->tracepoint_unregister_lib) tracepoint_dlopen_ptr->tracepoint_unregister_lib(__start___tracepoints_ptrs); if (tracepoint_dlopen_ptr->liblttngust_handle && tracepoint_destructors_syms_ptr->tracepoint_get_destructors_state && tracepoint_destructors_syms_ptr->tracepoint_get_destructors_state() && !__tracepoint_ptrs_registered) { ret = dlclose(tracepoint_dlopen_ptr->liblttngust_handle); if (ret) { fprintf(stderr, "Error (%d) in dlclose\n", ret); abort(); } memset(tracepoint_dlopen_ptr, 0, sizeof(*tracepoint_dlopen_ptr)); } } #else /* TRACEPOINT_DEFINE */ #define _DEFINE_TRACEPOINT(_provider, _name, _args) #endif /* #else TRACEPOINT_DEFINE */ #ifdef __cplusplus } #endif #endif /* _LTTNG_TRACEPOINT_H */ /* The following declarations must be outside re-inclusion protection. */ #ifndef TRACEPOINT_ENUM /* * Tracepoint Enumerations * * The enumeration is a mapping between an integer, or range of integers, and * a string. It can be used to have a more compact trace in cases where the * possible values for a field are limited: * * An example: * * TRACEPOINT_ENUM(someproject_component, enumname, * TP_ENUM_VALUES( * ctf_enum_value("even", 0) * ctf_enum_value("uneven", 1) * ctf_enum_range("twoto4", 2, 4) * ctf_enum_value("five", 5) * ) * ) * * Where "someproject_component" is the name of the component this enumeration * belongs to and "enumname" identifies this enumeration. Inside the * TP_ENUM_VALUES macro is the actual mapping. Each string value can map * to either a single value with ctf_enum_value or a range of values * with ctf_enum_range. * * Enumeration ranges may overlap, but the behavior is implementation-defined, * each trace reader will handle overlapping as it wishes. * * That enumeration can then be used in a field inside the TP_FIELD macro using * the following line: * * ctf_enum(someproject_component, enumname, enumtype, enumfield, enumval) * * Where "someproject_component" and "enumname" match those in the * TRACEPOINT_ENUM, "enumtype" is a signed or unsigned integer type * backing the enumeration, "enumfield" is the name of the field and * "enumval" is the value. */ #define TRACEPOINT_ENUM(provider, name, values) #endif /* #ifndef TRACEPOINT_ENUM */ #ifndef TRACEPOINT_EVENT /* * How to use the TRACEPOINT_EVENT macro: * * An example: * * TRACEPOINT_EVENT(someproject_component, event_name, * * * TP_ARGS takes from 0 to 10 "type, field_name" pairs * * * TP_ARGS(int, arg0, void *, arg1, char *, string, size_t, strlen, * long *, arg4, size_t, arg4_len), * * * TP_FIELDS describes the event payload layout in the trace * * * TP_FIELDS( * * Integer, printed in base 10 * * ctf_integer(int, field_a, arg0) * * * Integer, printed with 0x base 16 * * ctf_integer_hex(unsigned long, field_d, arg1) * * * Enumeration * * ctf_enum(someproject_component, enum_name, int, field_e, arg0) * * * Array Sequence, printed as UTF8-encoded array of bytes * * ctf_array_text(char, field_b, string, FIXED_LEN) * ctf_sequence_text(char, field_c, string, size_t, strlen) * * * String, printed as UTF8-encoded string * * ctf_string(field_e, string) * * * Array sequence of signed integer values * * ctf_array(long, field_f, arg4, FIXED_LEN4) * ctf_sequence(long, field_g, arg4, size_t, arg4_len) * ) * ) * * More detailed explanation: * * The name of the tracepoint is expressed as a tuple with the provider * and name arguments. * * The provider and name should be a proper C99 identifier. * The "provider" and "name" MUST follow these rules to ensure no * namespace clash occurs: * * For projects (applications and libraries) for which an entity * specific to the project controls the source code and thus its * tracepoints (typically with a scope larger than a single company): * * either: * project_component, event * or: * project, event * * Where "project" is the name of the project, * "component" is the name of the project component (which may * include several levels of sub-components, e.g. * ...component_subcomponent_...) where the tracepoint is located * (optional), * "event" is the name of the tracepoint event. * * For projects issued from a single company wishing to advertise that * the company controls the source code and thus the tracepoints, the * "com_" prefix should be used: * * either: * com_company_project_component, event * or: * com_company_project, event * * Where "company" is the name of the company, * "project" is the name of the project, * "component" is the name of the project component (which may * include several levels of sub-components, e.g. * ...component_subcomponent_...) where the tracepoint is located * (optional), * "event" is the name of the tracepoint event. * * the provider:event identifier is limited to 127 characters. */ #define TRACEPOINT_EVENT(provider, name, args, fields) \ _DECLARE_TRACEPOINT(provider, name, _TP_PARAMS(args)) \ _DEFINE_TRACEPOINT(provider, name, _TP_PARAMS(args)) #define TRACEPOINT_EVENT_CLASS(provider, name, args, fields) #define TRACEPOINT_EVENT_INSTANCE(provider, _template, name, args) \ _DECLARE_TRACEPOINT(provider, name, _TP_PARAMS(args)) \ _DEFINE_TRACEPOINT(provider, name, _TP_PARAMS(args)) #endif /* #ifndef TRACEPOINT_EVENT */ #ifndef TRACEPOINT_LOGLEVEL /* * Tracepoint Loglevels * * Typical use of these loglevels: * * The loglevels go from 0 to 14. Higher numbers imply the most * verbosity (higher event throughput expected. * * Loglevels 0 through 6, and loglevel 14, match syslog(3) loglevels * semantic. Loglevels 7 through 13 offer more fine-grained selection of * debug information. * * TRACE_EMERG 0 * system is unusable * * TRACE_ALERT 1 * action must be taken immediately * * TRACE_CRIT 2 * critical conditions * * TRACE_ERR 3 * error conditions * * TRACE_WARNING 4 * warning conditions * * TRACE_NOTICE 5 * normal, but significant, condition * * TRACE_INFO 6 * informational message * * TRACE_DEBUG_SYSTEM 7 * debug information with system-level scope (set of programs) * * TRACE_DEBUG_PROGRAM 8 * debug information with program-level scope (set of processes) * * TRACE_DEBUG_PROCESS 9 * debug information with process-level scope (set of modules) * * TRACE_DEBUG_MODULE 10 * debug information with module (executable/library) scope (set of units) * * TRACE_DEBUG_UNIT 11 * debug information with compilation unit scope (set of functions) * * TRACE_DEBUG_FUNCTION 12 * debug information with function-level scope * * TRACE_DEBUG_LINE 13 * debug information with line-level scope (TRACEPOINT_EVENT default) * * TRACE_DEBUG 14 * debug-level message * * Declare tracepoint loglevels for tracepoints. A TRACEPOINT_EVENT * should be declared prior to the the TRACEPOINT_LOGLEVEL for a given * tracepoint name. The first field is the provider name, the second * field is the name of the tracepoint, the third field is the loglevel * name. * * TRACEPOINT_LOGLEVEL(< [com_company_]project[_component] >, < event >, * < loglevel_name >) * * The TRACEPOINT_PROVIDER must be already declared before declaring a * TRACEPOINT_LOGLEVEL. */ enum { TRACE_EMERG = 0, TRACE_ALERT = 1, TRACE_CRIT = 2, TRACE_ERR = 3, TRACE_WARNING = 4, TRACE_NOTICE = 5, TRACE_INFO = 6, TRACE_DEBUG_SYSTEM = 7, TRACE_DEBUG_PROGRAM = 8, TRACE_DEBUG_PROCESS = 9, TRACE_DEBUG_MODULE = 10, TRACE_DEBUG_UNIT = 11, TRACE_DEBUG_FUNCTION = 12, TRACE_DEBUG_LINE = 13, TRACE_DEBUG = 14, }; #define TRACEPOINT_LOGLEVEL(provider, name, loglevel) #endif /* #ifndef TRACEPOINT_LOGLEVEL */ #ifndef TRACEPOINT_MODEL_EMF_URI #define TRACEPOINT_MODEL_EMF_URI(provider, name, uri) #endif /* #ifndef TRACEPOINT_MODEL_EMF_URI */