#ifndef JEMALLOC_INTERNAL_LOG_H #define JEMALLOC_INTERNAL_LOG_H #include "jemalloc/internal/jemalloc_preamble.h" #include "jemalloc/internal/atomic.h" #include "jemalloc/internal/malloc_io.h" #include "jemalloc/internal/mutex.h" #ifdef JEMALLOC_LOG # define JEMALLOC_LOG_VAR_BUFSIZE 1000 #else # define JEMALLOC_LOG_VAR_BUFSIZE 1 #endif #define JEMALLOC_LOG_BUFSIZE 4096 /* * The log malloc_conf option is a '|'-delimited list of log_var name segments * which should be logged. The names are themselves hierarchical, with '.' as * the delimiter (a "segment" is just a prefix in the log namespace). So, if * you have: * * log("arena", "log msg for arena"); // 1 * log("arena.a", "log msg for arena.a"); // 2 * log("arena.b", "log msg for arena.b"); // 3 * log("arena.a.a", "log msg for arena.a.a"); // 4 * log("extent.a", "log msg for extent.a"); // 5 * log("extent.b", "log msg for extent.b"); // 6 * * And your malloc_conf option is "log:arena.a|extent", then lines 2, 4, 5, and * 6 will print at runtime. You can enable logging from all log vars by * writing "log:.". * * None of this should be regarded as a stable API for right now. It's intended * as a debugging interface, to let us keep around some of our printf-debugging * statements. */ extern char log_var_names[JEMALLOC_LOG_VAR_BUFSIZE]; extern atomic_b_t log_init_done; typedef struct log_var_s log_var_t; struct log_var_s { /* * Lowest bit is "inited", second lowest is "enabled". Putting them in * a single word lets us avoid any fences on weak architectures. */ atomic_u_t state; const char *name; }; #define LOG_NOT_INITIALIZED 0U #define LOG_INITIALIZED_NOT_ENABLED 1U #define LOG_ENABLED 2U #define LOG_VAR_INIT(name_str) {ATOMIC_INIT(LOG_NOT_INITIALIZED), name_str} /* * Returns the value we should assume for state (which is not necessarily * accurate; if logging is done before logging has finished initializing, then * we default to doing the safe thing by logging everything). */ unsigned log_var_update_state(log_var_t *log_var); /* We factor out the metadata management to allow us to test more easily. */ #define log_do_begin(log_var) \ if (config_log) { \ unsigned log_state = atomic_load_u(&(log_var).state, \ ATOMIC_RELAXED); \ if (unlikely(log_state == LOG_NOT_INITIALIZED)) { \ log_state = log_var_update_state(&(log_var)); \ assert(log_state != LOG_NOT_INITIALIZED); \ } \ if (log_state == LOG_ENABLED) { \ { /* User code executes here. */ #define log_do_end(log_var) \ } \ } \ } /* * MSVC has some preprocessor bugs in its expansion of __VA_ARGS__ during * preprocessing. To work around this, we take all potential extra arguments in * a var-args functions. Since a varargs macro needs at least one argument in * the "...", we accept the format string there, and require that the first * argument in this "..." is a const char *. */ static inline void log_impl_varargs(const char *name, ...) { char buf[JEMALLOC_LOG_BUFSIZE]; va_list ap; va_start(ap, name); const char *format = va_arg(ap, const char *); size_t dst_offset = 0; dst_offset += malloc_snprintf(buf, JEMALLOC_LOG_BUFSIZE, "%s: ", name); dst_offset += malloc_vsnprintf(buf + dst_offset, JEMALLOC_LOG_BUFSIZE - dst_offset, format, ap); malloc_snprintf(buf + dst_offset, JEMALLOC_LOG_BUFSIZE - dst_offset, "\n"); va_end(ap); malloc_write(buf); } /* Call as log("log.var.str", "format_string %d", arg_for_format_string); */ #define LOG(log_var_str, ...) \ do { \ static log_var_t log_var = LOG_VAR_INIT(log_var_str); \ log_do_begin(log_var) \ log_impl_varargs((log_var).name, __VA_ARGS__); \ log_do_end(log_var) \ } while (0) #endif /* JEMALLOC_INTERNAL_LOG_H */