* Author:
* Paolo Molaro (lupus@ximian.com)
*
- * (C) 2001-2003 Ximian, Inc.
- * (C) 2003-2006 Novell, Inc.
+ * Copyright 2001-2003 Ximian, Inc (http://www.ximian.com)
+ * Copyright 2004-2009 Novell, Inc (http://www.novell.com)
+ * Copyright 2011 Xamarin Inc (http://www.xamarin.com).
*/
#include "config.h"
#include "mono/metadata/profiler-private.h"
+#include "mono/metadata/assembly.h"
#include "mono/metadata/debug-helpers.h"
#include "mono/metadata/mono-debug.h"
#include "mono/metadata/debug-mono-symfile.h"
#include "mono/metadata/domain-internals.h"
#include "mono/metadata/gc-internal.h"
#include "mono/io-layer/io-layer.h"
+#include "mono/utils/mono-dl.h"
#include <string.h>
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>
+#endif
+#ifdef HAVE_SYS_TIME_H
#include <sys/time.h>
-#include <gmodule.h>
+#endif
#ifdef HAVE_BACKTRACE_SYMBOLS
#include <execinfo.h>
#endif
-static MonoProfiler * current_profiler = NULL;
-
-static MonoProfileAppDomainFunc domain_start_load;
-static MonoProfileAppDomainResult domain_end_load;
-static MonoProfileAppDomainFunc domain_start_unload;
-static MonoProfileAppDomainFunc domain_end_unload;
-
-static MonoProfileAssemblyFunc assembly_start_load;
-static MonoProfileAssemblyResult assembly_end_load;
-static MonoProfileAssemblyFunc assembly_start_unload;
-static MonoProfileAssemblyFunc assembly_end_unload;
-
-static MonoProfileModuleFunc module_start_load;
-static MonoProfileModuleResult module_end_load;
-static MonoProfileModuleFunc module_start_unload;
-static MonoProfileModuleFunc module_end_unload;
-
-static MonoProfileClassFunc class_start_load;
-static MonoProfileClassResult class_end_load;
-static MonoProfileClassFunc class_start_unload;
-static MonoProfileClassFunc class_end_unload;
-
-static MonoProfileMethodFunc jit_start;
-static MonoProfileMethodResult jit_end;
-static MonoProfileJitResult jit_end2;
-static MonoProfileMethodResult man_unman_transition;
-static MonoProfileAllocFunc allocation_cb;
-static MonoProfileStatFunc statistical_cb;
-static MonoProfileMethodFunc method_enter;
-static MonoProfileMethodFunc method_leave;
-
-static MonoProfileThreadFunc thread_start;
-static MonoProfileThreadFunc thread_end;
-
-static MonoProfileCoverageFilterFunc coverage_filter_cb;
-
-static MonoProfileFunc shutdown_callback;
+typedef struct _ProfilerDesc ProfilerDesc;
+struct _ProfilerDesc {
+ ProfilerDesc *next;
+ MonoProfiler *profiler;
+ MonoProfileFlags events;
+
+ MonoProfileAppDomainFunc domain_start_load;
+ MonoProfileAppDomainResult domain_end_load;
+ MonoProfileAppDomainFunc domain_start_unload;
+ MonoProfileAppDomainFunc domain_end_unload;
+
+ MonoProfileAssemblyFunc assembly_start_load;
+ MonoProfileAssemblyResult assembly_end_load;
+ MonoProfileAssemblyFunc assembly_start_unload;
+ MonoProfileAssemblyFunc assembly_end_unload;
+
+ MonoProfileModuleFunc module_start_load;
+ MonoProfileModuleResult module_end_load;
+ MonoProfileModuleFunc module_start_unload;
+ MonoProfileModuleFunc module_end_unload;
+
+ MonoProfileClassFunc class_start_load;
+ MonoProfileClassResult class_end_load;
+ MonoProfileClassFunc class_start_unload;
+ MonoProfileClassFunc class_end_unload;
+
+ MonoProfileMethodFunc jit_start;
+ MonoProfileMethodResult jit_end;
+ MonoProfileJitResult jit_end2;
+ MonoProfileMethodFunc method_free;
+ MonoProfileMethodFunc method_start_invoke;
+ MonoProfileMethodFunc method_end_invoke;
+ MonoProfileMethodResult man_unman_transition;
+ MonoProfileAllocFunc allocation_cb;
+ MonoProfileMonitorFunc monitor_event_cb;
+ MonoProfileStatFunc statistical_cb;
+ MonoProfileStatCallChainFunc statistical_call_chain_cb;
+ int statistical_call_chain_depth;
+ MonoProfilerCallChainStrategy statistical_call_chain_strategy;
+ MonoProfileMethodFunc method_enter;
+ MonoProfileMethodFunc method_leave;
+
+ MonoProfileExceptionFunc exception_throw_cb;
+ MonoProfileMethodFunc exception_method_leave_cb;
+ MonoProfileExceptionClauseFunc exception_clause_cb;
+
+ MonoProfileIomapFunc iomap_cb;
+
+ MonoProfileThreadFunc thread_start;
+ MonoProfileThreadFunc thread_end;
+ MonoProfileThreadNameFunc thread_name;
+
+ MonoProfileCoverageFilterFunc coverage_filter_cb;
+
+ MonoProfileFunc shutdown_callback;
+
+ MonoProfileGCFunc gc_event;
+ MonoProfileGCResizeFunc gc_heap_resize;
+ MonoProfileGCMoveFunc gc_moves;
+ MonoProfileGCHandleFunc gc_handle;
+ MonoProfileGCRootFunc gc_roots;
+
+ MonoProfileFunc runtime_initialized_event;
+
+ MonoProfilerCodeChunkNew code_chunk_new;
+ MonoProfilerCodeChunkDestroy code_chunk_destroy;
+ MonoProfilerCodeBufferNew code_buffer_new;
+};
-static MonoProfileGCFunc gc_event;
-static MonoProfileGCResizeFunc gc_heap_resize;
+static ProfilerDesc *prof_list = NULL;
#define mono_profiler_coverage_lock() EnterCriticalSection (&profiler_coverage_mutex)
#define mono_profiler_coverage_unlock() LeaveCriticalSection (&profiler_coverage_mutex)
static CRITICAL_SECTION profiler_coverage_mutex;
-/* this is directly accessible to other mono libs. */
+/* this is directly accessible to other mono libs.
+ * It is the ORed value of all the profiler's events.
+ */
MonoProfileFlags mono_profiler_events;
/**
void
mono_profiler_install (MonoProfiler *prof, MonoProfileFunc callback)
{
- if (current_profiler)
- g_error ("profiler already setup");
- current_profiler = prof;
- shutdown_callback = callback;
- InitializeCriticalSection (&profiler_coverage_mutex);
+ ProfilerDesc *desc = g_new0 (ProfilerDesc, 1);
+ if (!prof_list)
+ InitializeCriticalSection (&profiler_coverage_mutex);
+ desc->profiler = prof;
+ desc->shutdown_callback = callback;
+ desc->next = prof_list;
+ prof_list = desc;
}
/**
void
mono_profiler_set_events (MonoProfileFlags events)
{
- mono_profiler_events = events;
+ ProfilerDesc *prof;
+ MonoProfileFlags value = 0;
+ if (prof_list)
+ prof_list->events = events;
+ for (prof = prof_list; prof; prof = prof->next)
+ value |= prof->events;
+ mono_profiler_events = value;
}
/**
void
mono_profiler_install_enter_leave (MonoProfileMethodFunc enter, MonoProfileMethodFunc fleave)
{
- method_enter = enter;
- method_leave = fleave;
+ if (!prof_list)
+ return;
+ prof_list->method_enter = enter;
+ prof_list->method_leave = fleave;
}
/**
void
mono_profiler_install_jit_compile (MonoProfileMethodFunc start, MonoProfileMethodResult end)
{
- jit_start = start;
- jit_end = end;
+ if (!prof_list)
+ return;
+ prof_list->jit_start = start;
+ prof_list->jit_end = end;
}
void
mono_profiler_install_jit_end (MonoProfileJitResult end)
{
- jit_end2 = end;
+ if (!prof_list)
+ return;
+ prof_list->jit_end2 = end;
+}
+
+void
+mono_profiler_install_method_free (MonoProfileMethodFunc callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->method_free = callback;
+}
+
+void
+mono_profiler_install_method_invoke (MonoProfileMethodFunc start, MonoProfileMethodFunc end)
+{
+ if (!prof_list)
+ return;
+ prof_list->method_start_invoke = start;
+ prof_list->method_end_invoke = end;
}
void
mono_profiler_install_thread (MonoProfileThreadFunc start, MonoProfileThreadFunc end)
{
- thread_start = start;
- thread_end = end;
+ if (!prof_list)
+ return;
+ prof_list->thread_start = start;
+ prof_list->thread_end = end;
+}
+
+void
+mono_profiler_install_thread_name (MonoProfileThreadNameFunc thread_name_cb)
+{
+ if (!prof_list)
+ return;
+ prof_list->thread_name = thread_name_cb;
}
void
mono_profiler_install_transition (MonoProfileMethodResult callback)
{
- man_unman_transition = callback;
+ if (!prof_list)
+ return;
+ prof_list->man_unman_transition = callback;
}
void
mono_profiler_install_allocation (MonoProfileAllocFunc callback)
{
- allocation_cb = callback;
+ if (!prof_list)
+ return;
+ prof_list->allocation_cb = callback;
+}
+
+void
+mono_profiler_install_monitor (MonoProfileMonitorFunc callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->monitor_event_cb = callback;
}
void
mono_profiler_install_statistical (MonoProfileStatFunc callback)
{
- statistical_cb = callback;
+ if (!prof_list)
+ return;
+ prof_list->statistical_cb = callback;
+}
+
+void
+mono_profiler_install_statistical_call_chain (MonoProfileStatCallChainFunc callback, int call_chain_depth, MonoProfilerCallChainStrategy call_chain_strategy) {
+ if (!prof_list)
+ return;
+ if (call_chain_depth > MONO_PROFILER_MAX_STAT_CALL_CHAIN_DEPTH) {
+ call_chain_depth = MONO_PROFILER_MAX_STAT_CALL_CHAIN_DEPTH;
+ }
+ if ((call_chain_strategy >= MONO_PROFILER_CALL_CHAIN_INVALID) || (call_chain_strategy < MONO_PROFILER_CALL_CHAIN_NONE)) {
+ call_chain_strategy = MONO_PROFILER_CALL_CHAIN_NONE;
+ }
+ prof_list->statistical_call_chain_cb = callback;
+ prof_list->statistical_call_chain_depth = call_chain_depth;
+ prof_list->statistical_call_chain_strategy = call_chain_strategy;
+}
+
+int
+mono_profiler_stat_get_call_chain_depth (void) {
+ if (prof_list && prof_list->statistical_call_chain_cb != NULL) {
+ return prof_list->statistical_call_chain_depth;
+ } else {
+ return 0;
+ }
+}
+
+MonoProfilerCallChainStrategy
+mono_profiler_stat_get_call_chain_strategy (void) {
+ if (prof_list && prof_list->statistical_call_chain_cb != NULL) {
+ return prof_list->statistical_call_chain_strategy;
+ } else {
+ return MONO_PROFILER_CALL_CHAIN_NONE;
+ }
+}
+
+void mono_profiler_install_exception (MonoProfileExceptionFunc throw_callback, MonoProfileMethodFunc exc_method_leave, MonoProfileExceptionClauseFunc clause_callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->exception_throw_cb = throw_callback;
+ prof_list->exception_method_leave_cb = exc_method_leave;
+ prof_list->exception_clause_cb = clause_callback;
}
void
mono_profiler_install_coverage_filter (MonoProfileCoverageFilterFunc callback)
{
- coverage_filter_cb = callback;
+ if (!prof_list)
+ return;
+ prof_list->coverage_filter_cb = callback;
}
void
MonoProfileAppDomainFunc start_unload, MonoProfileAppDomainFunc end_unload)
{
- domain_start_load = start_load;
- domain_end_load = end_load;
- domain_start_unload = start_unload;
- domain_end_unload = end_unload;
+ if (!prof_list)
+ return;
+ prof_list->domain_start_load = start_load;
+ prof_list->domain_end_load = end_load;
+ prof_list->domain_start_unload = start_unload;
+ prof_list->domain_end_unload = end_unload;
}
void
mono_profiler_install_assembly (MonoProfileAssemblyFunc start_load, MonoProfileAssemblyResult end_load,
MonoProfileAssemblyFunc start_unload, MonoProfileAssemblyFunc end_unload)
{
- assembly_start_load = start_load;
- assembly_end_load = end_load;
- assembly_start_unload = start_unload;
- assembly_end_unload = end_unload;
+ if (!prof_list)
+ return;
+ prof_list->assembly_start_load = start_load;
+ prof_list->assembly_end_load = end_load;
+ prof_list->assembly_start_unload = start_unload;
+ prof_list->assembly_end_unload = end_unload;
}
void
mono_profiler_install_module (MonoProfileModuleFunc start_load, MonoProfileModuleResult end_load,
MonoProfileModuleFunc start_unload, MonoProfileModuleFunc end_unload)
{
- module_start_load = start_load;
- module_end_load = end_load;
- module_start_unload = start_unload;
- module_end_unload = end_unload;
+ if (!prof_list)
+ return;
+ prof_list->module_start_load = start_load;
+ prof_list->module_end_load = end_load;
+ prof_list->module_start_unload = start_unload;
+ prof_list->module_end_unload = end_unload;
}
void
mono_profiler_install_class (MonoProfileClassFunc start_load, MonoProfileClassResult end_load,
MonoProfileClassFunc start_unload, MonoProfileClassFunc end_unload)
{
- class_start_load = start_load;
- class_end_load = end_load;
- class_start_unload = start_unload;
- class_end_unload = end_unload;
+ if (!prof_list)
+ return;
+ prof_list->class_start_load = start_load;
+ prof_list->class_end_load = end_load;
+ prof_list->class_start_unload = start_unload;
+ prof_list->class_end_unload = end_unload;
}
void
mono_profiler_method_enter (MonoMethod *method)
{
- if ((mono_profiler_events & MONO_PROFILE_ENTER_LEAVE) && method_enter)
- method_enter (current_profiler, method);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_ENTER_LEAVE) && prof->method_enter)
+ prof->method_enter (prof->profiler, method);
+ }
}
void
mono_profiler_method_leave (MonoMethod *method)
{
- if ((mono_profiler_events & MONO_PROFILE_ENTER_LEAVE) && method_leave)
- method_leave (current_profiler, method);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_ENTER_LEAVE) && prof->method_leave)
+ prof->method_leave (prof->profiler, method);
+ }
}
void
mono_profiler_method_jit (MonoMethod *method)
{
- if ((mono_profiler_events & MONO_PROFILE_JIT_COMPILATION) && jit_start)
- jit_start (current_profiler, method);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_JIT_COMPILATION) && prof->jit_start)
+ prof->jit_start (prof->profiler, method);
+ }
}
void
mono_profiler_method_end_jit (MonoMethod *method, MonoJitInfo* jinfo, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_JIT_COMPILATION)) {
- if (jit_end)
- jit_end (current_profiler, method, result);
- if (jit_end2)
- jit_end2 (current_profiler, method, jinfo, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_JIT_COMPILATION)) {
+ if (prof->jit_end)
+ prof->jit_end (prof->profiler, method, result);
+ if (prof->jit_end2)
+ prof->jit_end2 (prof->profiler, method, jinfo, result);
+ }
+ }
+}
+
+void
+mono_profiler_method_free (MonoMethod *method)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_METHOD_EVENTS) && prof->method_free)
+ prof->method_free (prof->profiler, method);
+ }
+}
+
+void
+mono_profiler_method_start_invoke (MonoMethod *method)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_METHOD_EVENTS) && prof->method_start_invoke)
+ prof->method_start_invoke (prof->profiler, method);
+ }
+}
+
+void
+mono_profiler_method_end_invoke (MonoMethod *method)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_METHOD_EVENTS) && prof->method_end_invoke)
+ prof->method_end_invoke (prof->profiler, method);
}
}
void
mono_profiler_code_transition (MonoMethod *method, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_TRANSITIONS) && man_unman_transition)
- man_unman_transition (current_profiler, method, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_TRANSITIONS) && prof->man_unman_transition)
+ prof->man_unman_transition (prof->profiler, method, result);
+ }
}
void
mono_profiler_allocation (MonoObject *obj, MonoClass *klass)
{
- if ((mono_profiler_events & MONO_PROFILE_ALLOCATIONS) && allocation_cb)
- allocation_cb (current_profiler, obj, klass);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_ALLOCATIONS) && prof->allocation_cb)
+ prof->allocation_cb (prof->profiler, obj, klass);
+ }
+}
+
+void
+mono_profiler_monitor_event (MonoObject *obj, MonoProfilerMonitorEvent event) {
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_MONITOR_EVENTS) && prof->monitor_event_cb)
+ prof->monitor_event_cb (prof->profiler, obj, event);
+ }
}
void
mono_profiler_stat_hit (guchar *ip, void *context)
{
- if ((mono_profiler_events & MONO_PROFILE_STATISTICAL) && statistical_cb)
- statistical_cb (current_profiler, ip, context);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_STATISTICAL) && prof->statistical_cb)
+ prof->statistical_cb (prof->profiler, ip, context);
+ }
+}
+
+void
+mono_profiler_stat_call_chain (int call_chain_depth, guchar **ips, void *context)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_STATISTICAL) && prof->statistical_call_chain_cb)
+ prof->statistical_call_chain_cb (prof->profiler, call_chain_depth, ips, context);
+ }
+}
+
+void
+mono_profiler_exception_thrown (MonoObject *exception)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_EXCEPTIONS) && prof->exception_throw_cb)
+ prof->exception_throw_cb (prof->profiler, exception);
+ }
+}
+
+void
+mono_profiler_exception_method_leave (MonoMethod *method)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_EXCEPTIONS) && prof->exception_method_leave_cb)
+ prof->exception_method_leave_cb (prof->profiler, method);
+ }
+}
+
+void
+mono_profiler_exception_clause_handler (MonoMethod *method, int clause_type, int clause_num)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_EXCEPTIONS) && prof->exception_clause_cb)
+ prof->exception_clause_cb (prof->profiler, method, clause_type, clause_num);
+ }
}
void
mono_profiler_thread_start (gsize tid)
{
- if ((mono_profiler_events & MONO_PROFILE_THREADS) && thread_start)
- thread_start (current_profiler, tid);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_THREADS) && prof->thread_start)
+ prof->thread_start (prof->profiler, tid);
+ }
}
void
mono_profiler_thread_end (gsize tid)
{
- if ((mono_profiler_events & MONO_PROFILE_THREADS) && thread_end)
- thread_end (current_profiler, tid);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_THREADS) && prof->thread_end)
+ prof->thread_end (prof->profiler, tid);
+ }
+}
+
+void
+mono_profiler_thread_name (gsize tid, const char *name)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_THREADS) && prof->thread_name)
+ prof->thread_name (prof->profiler, tid, name);
+ }
}
void
mono_profiler_assembly_event (MonoAssembly *assembly, int code)
{
- if (!(mono_profiler_events & MONO_PROFILE_ASSEMBLY_EVENTS))
- return;
-
- switch (code) {
- case MONO_PROFILE_START_LOAD:
- if (assembly_start_load)
- assembly_start_load (current_profiler, assembly);
- break;
- case MONO_PROFILE_START_UNLOAD:
- if (assembly_start_unload)
- assembly_start_unload (current_profiler, assembly);
- break;
- case MONO_PROFILE_END_UNLOAD:
- if (assembly_end_unload)
- assembly_end_unload (current_profiler, assembly);
- break;
- default:
- g_assert_not_reached ();
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (!(prof->events & MONO_PROFILE_ASSEMBLY_EVENTS))
+ continue;
+
+ switch (code) {
+ case MONO_PROFILE_START_LOAD:
+ if (prof->assembly_start_load)
+ prof->assembly_start_load (prof->profiler, assembly);
+ break;
+ case MONO_PROFILE_START_UNLOAD:
+ if (prof->assembly_start_unload)
+ prof->assembly_start_unload (prof->profiler, assembly);
+ break;
+ case MONO_PROFILE_END_UNLOAD:
+ if (prof->assembly_end_unload)
+ prof->assembly_end_unload (prof->profiler, assembly);
+ break;
+ default:
+ g_assert_not_reached ();
+ }
}
}
void
mono_profiler_assembly_loaded (MonoAssembly *assembly, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_ASSEMBLY_EVENTS) && assembly_end_load)
- assembly_end_load (current_profiler, assembly, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_ASSEMBLY_EVENTS) && prof->assembly_end_load)
+ prof->assembly_end_load (prof->profiler, assembly, result);
+ }
+}
+
+void mono_profiler_iomap (char *report, const char *pathname, const char *new_pathname)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_IOMAP_EVENTS) && prof->iomap_cb)
+ prof->iomap_cb (prof->profiler, report, pathname, new_pathname);
+ }
}
void
mono_profiler_module_event (MonoImage *module, int code)
{
- if (!(mono_profiler_events & MONO_PROFILE_MODULE_EVENTS))
- return;
-
- switch (code) {
- case MONO_PROFILE_START_LOAD:
- if (module_start_load)
- module_start_load (current_profiler, module);
- break;
- case MONO_PROFILE_START_UNLOAD:
- if (module_start_unload)
- module_start_unload (current_profiler, module);
- break;
- case MONO_PROFILE_END_UNLOAD:
- if (module_end_unload)
- module_end_unload (current_profiler, module);
- break;
- default:
- g_assert_not_reached ();
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (!(prof->events & MONO_PROFILE_MODULE_EVENTS))
+ continue;
+
+ switch (code) {
+ case MONO_PROFILE_START_LOAD:
+ if (prof->module_start_load)
+ prof->module_start_load (prof->profiler, module);
+ break;
+ case MONO_PROFILE_START_UNLOAD:
+ if (prof->module_start_unload)
+ prof->module_start_unload (prof->profiler, module);
+ break;
+ case MONO_PROFILE_END_UNLOAD:
+ if (prof->module_end_unload)
+ prof->module_end_unload (prof->profiler, module);
+ break;
+ default:
+ g_assert_not_reached ();
+ }
}
}
void
mono_profiler_module_loaded (MonoImage *module, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_MODULE_EVENTS) && module_end_load)
- module_end_load (current_profiler, module, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_MODULE_EVENTS) && prof->module_end_load)
+ prof->module_end_load (prof->profiler, module, result);
+ }
}
void
mono_profiler_class_event (MonoClass *klass, int code)
{
- if (!(mono_profiler_events & MONO_PROFILE_CLASS_EVENTS))
- return;
-
- switch (code) {
- case MONO_PROFILE_START_LOAD:
- if (class_start_load)
- class_start_load (current_profiler, klass);
- break;
- case MONO_PROFILE_START_UNLOAD:
- if (class_start_unload)
- class_start_unload (current_profiler, klass);
- break;
- case MONO_PROFILE_END_UNLOAD:
- if (class_end_unload)
- class_end_unload (current_profiler, klass);
- break;
- default:
- g_assert_not_reached ();
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (!(prof->events & MONO_PROFILE_CLASS_EVENTS))
+ continue;
+
+ switch (code) {
+ case MONO_PROFILE_START_LOAD:
+ if (prof->class_start_load)
+ prof->class_start_load (prof->profiler, klass);
+ break;
+ case MONO_PROFILE_START_UNLOAD:
+ if (prof->class_start_unload)
+ prof->class_start_unload (prof->profiler, klass);
+ break;
+ case MONO_PROFILE_END_UNLOAD:
+ if (prof->class_end_unload)
+ prof->class_end_unload (prof->profiler, klass);
+ break;
+ default:
+ g_assert_not_reached ();
+ }
}
}
void
mono_profiler_class_loaded (MonoClass *klass, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_CLASS_EVENTS) && class_end_load)
- class_end_load (current_profiler, klass, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_CLASS_EVENTS) && prof->class_end_load)
+ prof->class_end_load (prof->profiler, klass, result);
+ }
}
void
mono_profiler_appdomain_event (MonoDomain *domain, int code)
{
- if (!(mono_profiler_events & MONO_PROFILE_APPDOMAIN_EVENTS))
- return;
-
- switch (code) {
- case MONO_PROFILE_START_LOAD:
- if (domain_start_load)
- domain_start_load (current_profiler, domain);
- break;
- case MONO_PROFILE_START_UNLOAD:
- if (domain_start_unload)
- domain_start_unload (current_profiler, domain);
- break;
- case MONO_PROFILE_END_UNLOAD:
- if (domain_end_unload)
- domain_end_unload (current_profiler, domain);
- break;
- default:
- g_assert_not_reached ();
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (!(prof->events & MONO_PROFILE_APPDOMAIN_EVENTS))
+ continue;
+
+ switch (code) {
+ case MONO_PROFILE_START_LOAD:
+ if (prof->domain_start_load)
+ prof->domain_start_load (prof->profiler, domain);
+ break;
+ case MONO_PROFILE_START_UNLOAD:
+ if (prof->domain_start_unload)
+ prof->domain_start_unload (prof->profiler, domain);
+ break;
+ case MONO_PROFILE_END_UNLOAD:
+ if (prof->domain_end_unload)
+ prof->domain_end_unload (prof->profiler, domain);
+ break;
+ default:
+ g_assert_not_reached ();
+ }
}
}
void
mono_profiler_appdomain_loaded (MonoDomain *domain, int result)
{
- if ((mono_profiler_events & MONO_PROFILE_APPDOMAIN_EVENTS) && domain_end_load)
- domain_end_load (current_profiler, domain, result);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_APPDOMAIN_EVENTS) && prof->domain_end_load)
+ prof->domain_end_load (prof->profiler, domain, result);
+ }
}
void
mono_profiler_shutdown (void)
{
- if (current_profiler && shutdown_callback)
- shutdown_callback (current_profiler);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (prof->shutdown_callback)
+ prof->shutdown_callback (prof->profiler);
+ }
+
+ mono_profiler_set_events (0);
}
void
mono_profiler_gc_heap_resize (gint64 new_size)
{
- if ((mono_profiler_events & MONO_PROFILE_GC) && gc_heap_resize)
- gc_heap_resize (current_profiler, new_size);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_GC) && prof->gc_heap_resize)
+ prof->gc_heap_resize (prof->profiler, new_size);
+ }
}
void
mono_profiler_gc_event (MonoGCEvent event, int generation)
{
- if ((mono_profiler_events & MONO_PROFILE_GC) && gc_event)
- gc_event (current_profiler, event, generation);
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_GC) && prof->gc_event)
+ prof->gc_event (prof->profiler, event, generation);
+ }
+}
+
+void
+mono_profiler_gc_moves (void **objects, int num)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_GC_MOVES) && prof->gc_moves)
+ prof->gc_moves (prof->profiler, objects, num);
+ }
+}
+
+void
+mono_profiler_gc_handle (int op, int type, uintptr_t handle, MonoObject *obj)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_GC_ROOTS) && prof->gc_handle)
+ prof->gc_handle (prof->profiler, op, type, handle, obj);
+ }
+}
+
+void
+mono_profiler_gc_roots (int num, void **objects, int *root_types, uintptr_t *extra_info)
+{
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if ((prof->events & MONO_PROFILE_GC_ROOTS) && prof->gc_roots)
+ prof->gc_roots (prof->profiler, num, objects, root_types, extra_info);
+ }
}
void
mono_profiler_install_gc (MonoProfileGCFunc callback, MonoProfileGCResizeFunc heap_resize_callback)
{
mono_gc_enable_events ();
- gc_event = callback;
- gc_heap_resize = heap_resize_callback;
+ if (!prof_list)
+ return;
+ prof_list->gc_event = callback;
+ prof_list->gc_heap_resize = heap_resize_callback;
+}
+
+/**
+ * mono_profiler_install_gc_moves:
+ * @callback: callback function
+ *
+ * Install the @callback function that the GC will call when moving objects.
+ * The callback receives an array of pointers and the number of elements
+ * in the array. Every even element in the array is the original object location
+ * and the following odd element is the new location of the object in memory.
+ * So the number of elements argument will always be a multiple of 2.
+ * Since this callback happens during the GC, it is a restricted environment:
+ * no locks can be taken and the object pointers can be inspected only once
+ * the GC is finished (of course the original location pointers will not
+ * point to valid objects anymore).
+ */
+void
+mono_profiler_install_gc_moves (MonoProfileGCMoveFunc callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->gc_moves = callback;
+}
+
+/**
+ * mono_profiler_install_gc_roots:
+ * @handle_callback: callback function
+ * @roots_callback: callback function
+ *
+ * Install the @handle_callback function that the GC will call when GC
+ * handles are created or destroyed.
+ * The callback receives an operation, which is either #MONO_PROFILER_GC_HANDLE_CREATED
+ * or #MONO_PROFILER_GC_HANDLE_DESTROYED, the handle type, the handle value and the
+ * object pointer, if present.
+ * Install the @roots_callback function that the GC will call when tracing
+ * the roots for a collection.
+ * The callback receives the number of elements and three arrays: an array
+ * of objects, an array of root types and flags and an array of extra info.
+ * The size of each array is given by the first argument.
+ */
+void
+mono_profiler_install_gc_roots (MonoProfileGCHandleFunc handle_callback, MonoProfileGCRootFunc roots_callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->gc_handle = handle_callback;
+ prof_list->gc_roots = roots_callback;
+}
+
+void
+mono_profiler_install_runtime_initialized (MonoProfileFunc runtime_initialized_callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->runtime_initialized_event = runtime_initialized_callback;
+}
+
+void
+mono_profiler_runtime_initialized (void) {
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (prof->runtime_initialized_event)
+ prof->runtime_initialized_event (prof->profiler);
+ }
+}
+
+void
+mono_profiler_install_code_chunk_new (MonoProfilerCodeChunkNew callback) {
+ if (!prof_list)
+ return;
+ prof_list->code_chunk_new = callback;
+}
+void
+mono_profiler_code_chunk_new (gpointer chunk, int size) {
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (prof->code_chunk_new)
+ prof->code_chunk_new (prof->profiler, chunk, size);
+ }
+}
+
+void
+mono_profiler_install_code_chunk_destroy (MonoProfilerCodeChunkDestroy callback) {
+ if (!prof_list)
+ return;
+ prof_list->code_chunk_destroy = callback;
+}
+void
+mono_profiler_code_chunk_destroy (gpointer chunk) {
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (prof->code_chunk_destroy)
+ prof->code_chunk_destroy (prof->profiler, chunk);
+ }
+}
+
+void
+mono_profiler_install_code_buffer_new (MonoProfilerCodeBufferNew callback) {
+ if (!prof_list)
+ return;
+ prof_list->code_buffer_new = callback;
+}
+
+void
+mono_profiler_install_iomap (MonoProfileIomapFunc callback)
+{
+ if (!prof_list)
+ return;
+ prof_list->iomap_cb = callback;
+}
+
+void
+mono_profiler_code_buffer_new (gpointer buffer, int size, MonoProfilerCodeBufferType type, void *data) {
+ ProfilerDesc *prof;
+ for (prof = prof_list; prof; prof = prof->next) {
+ if (prof->code_buffer_new)
+ prof->code_buffer_new (prof->profiler, buffer, size, type, data);
+ }
}
static GHashTable *coverage_hash = NULL;
mono_profiler_coverage_alloc (MonoMethod *method, int entries)
{
MonoProfileCoverageInfo *res;
-
- if (coverage_filter_cb)
- if (! (*coverage_filter_cb) (current_profiler, method))
- return NULL;
+ int instrument = FALSE;
+ ProfilerDesc *prof;
+
+ for (prof = prof_list; prof; prof = prof->next) {
+ /* note that we call the filter on all the profilers even if just
+ * a single one would be enough to instrument a method
+ */
+ if (prof->coverage_filter_cb)
+ if (prof->coverage_filter_cb (prof->profiler, method))
+ instrument = TRUE;
+ }
+ if (!instrument)
+ return NULL;
mono_profiler_coverage_lock ();
if (!coverage_hash)
for (i = 0; i < info->entries; ++i) {
cil_code = info->data [i].cil_code;
if (cil_code && cil_code >= start && cil_code < end) {
+ char *fname = NULL;
offset = cil_code - start;
entry.iloffset = offset;
entry.method = method;
if (location) {
entry.line = location->row;
entry.col = location->column;
- entry.filename = g_strdup (location->source_file);
+ entry.filename = fname = g_strdup (location->source_file);
mono_debug_free_source_location (location);
}
}
func (prof, &entry);
- g_free (entry.filename);
- }
- }
-}
-
-#ifndef DISABLE_PROFILER
-/*
- * Small profiler extracted from mint: we should move it in a loadable module
- * and improve it to do graphs and more accurate timestamping with rdtsc.
- */
-
-static FILE* poutput = NULL;
-
-#define USE_X86TSC 0
-#define USE_WIN32COUNTER 0
-#if USE_X86TSC
-
-typedef struct {
- unsigned int lows, highs, lowe, highe;
-} MonoRdtscTimer;
-
-#define rdtsc(low,high) \
- __asm__ __volatile__("rdtsc" : "=a" (low), "=d" (high))
-
-static int freq;
-
-static double
-rdtsc_elapsed (MonoRdtscTimer *t)
-{
- unsigned long long diff;
- unsigned int highe = t->highe;
- if (t->lowe < t->lows)
- highe--;
- diff = (((unsigned long long) highe - t->highs) << 32) + (t->lowe - t->lows);
- return ((double)diff / freq) / 1000000; /* have to return the result in seconds */
-}
-
-static int
-have_rdtsc (void) {
- char buf[256];
- int have_freq = 0;
- int have_flag = 0;
- float val;
- FILE *cpuinfo;
-
- if (!(cpuinfo = fopen ("/proc/cpuinfo", "r")))
- return 0;
- while (fgets (buf, sizeof(buf), cpuinfo)) {
- if (sscanf (buf, "cpu MHz : %f", &val) == 1) {
- /*printf ("got mh: %f\n", val);*/
- have_freq = val;
- }
- if (strncmp (buf, "flags", 5) == 0) {
- if (strstr (buf, "tsc")) {
- have_flag = 1;
- /*printf ("have tsc\n");*/
- }
+ g_free (fname);
}
}
- fclose (cpuinfo);
- return have_flag? have_freq: 0;
-}
-
-#define MONO_TIMER_STARTUP \
- if (!(freq = have_rdtsc ())) g_error ("Compiled with TSC support, but none found");
-#define MONO_TIMER_TYPE MonoRdtscTimer
-#define MONO_TIMER_INIT(t)
-#define MONO_TIMER_DESTROY(t)
-#define MONO_TIMER_START(t) rdtsc ((t).lows, (t).highs);
-#define MONO_TIMER_STOP(t) rdtsc ((t).lowe, (t).highe);
-#define MONO_TIMER_ELAPSED(t) rdtsc_elapsed (&(t))
-
-#elif USE_WIN32COUNTER
-#include <windows.h>
-
-typedef struct {
- LARGE_INTEGER start, stop;
-} MonoWin32Timer;
-
-static int freq;
-
-static double
-win32_elapsed (MonoWin32Timer *t)
-{
- LONGLONG diff = t->stop.QuadPart - t->start.QuadPart;
- return ((double)diff / freq) / 1000000; /* have to return the result in seconds */
-}
-
-static int
-have_win32counter (void) {
- LARGE_INTEGER f;
-
- if (!QueryPerformanceFrequency (&f))
- return 0;
- return f.LowPart;
+ mono_metadata_free_mh (header);
}
-#define MONO_TIMER_STARTUP \
- if (!(freq = have_win32counter ())) g_error ("Compiled with Win32 counter support, but none found");
-#define MONO_TIMER_TYPE MonoWin32Timer
-#define MONO_TIMER_INIT(t)
-#define MONO_TIMER_DESTROY(t)
-#define MONO_TIMER_START(t) QueryPerformanceCounter (&(t).start)
-#define MONO_TIMER_STOP(t) QueryPerformanceCounter (&(t).stop)
-#define MONO_TIMER_ELAPSED(t) win32_elapsed (&(t))
-
-#else
-
-typedef struct {
- GTimeVal start, stop;
-} MonoGLibTimer;
-
-static double
-timeval_elapsed (MonoGLibTimer *t)
-{
- if (t->start.tv_usec > t->stop.tv_usec) {
- t->stop.tv_usec += G_USEC_PER_SEC;
- t->stop.tv_sec--;
- }
- return (t->stop.tv_sec - t->start.tv_sec)
- + ((double)(t->stop.tv_usec - t->start.tv_usec))/ G_USEC_PER_SEC;
-}
-
-#define MONO_TIMER_STARTUP
-#define MONO_TIMER_TYPE MonoGLibTimer
-#define MONO_TIMER_INIT(t)
-#define MONO_TIMER_DESTROY(t)
-#define MONO_TIMER_START(t) g_get_current_time (&(t).start)
-#define MONO_TIMER_STOP(t) g_get_current_time (&(t).stop)
-#define MONO_TIMER_ELAPSED(t) timeval_elapsed (&(t))
-#endif
-
-typedef struct _AllocInfo AllocInfo;
-typedef struct _CallerInfo CallerInfo;
-typedef struct _LastCallerInfo LastCallerInfo;
-
-struct _MonoProfiler {
- GHashTable *methods;
- MonoMemPool *mempool;
- /* info about JIT time */
- MONO_TIMER_TYPE jit_timer;
- double jit_time;
- double max_jit_time;
- MonoMethod *max_jit_method;
- int methods_jitted;
-
- GSList *per_thread;
-
- /* chain of callers for the current thread */
- LastCallerInfo *callers;
- /* LastCallerInfo nodes for faster allocation */
- LastCallerInfo *cstorage;
-};
-
-typedef struct {
- MonoMethod *method;
- guint64 count;
- double total;
- AllocInfo *alloc_info;
- CallerInfo *caller_info;
-} MethodProfile;
-
-typedef struct _MethodCallProfile MethodCallProfile;
-
-struct _MethodCallProfile {
- MethodCallProfile *next;
- MONO_TIMER_TYPE timer;
- MonoMethod *method;
-};
-
-struct _AllocInfo {
- AllocInfo *next;
- MonoClass *klass;
- guint64 count;
- guint64 mem;
-};
-
-struct _CallerInfo {
- CallerInfo *next;
- MonoMethod *caller;
- guint count;
-};
-
-struct _LastCallerInfo {
- LastCallerInfo *next;
- MonoMethod *method;
- MONO_TIMER_TYPE timer;
-};
-
-static MonoProfiler*
-create_profiler (void)
-{
- MonoProfiler *prof = g_new0 (MonoProfiler, 1);
-
- prof->methods = g_hash_table_new (mono_aligned_addr_hash, NULL);
- MONO_TIMER_INIT (prof->jit_timer);
- prof->mempool = mono_mempool_new ();
- return prof;
-}
-#if 1
-
-#ifdef HAVE_KW_THREAD
- static __thread MonoProfiler * tls_profiler;
-# define GET_PROFILER() tls_profiler
-# define SET_PROFILER(x) tls_profiler = (x)
-# define ALLOC_PROFILER() /* nop */
-#else
- static guint32 profiler_thread_id = -1;
-# define GET_PROFILER() ((MonoProfiler *)TlsGetValue (profiler_thread_id))
-# define SET_PROFILER(x) TlsSetValue (profiler_thread_id, x);
-# define ALLOC_PROFILER() profiler_thread_id = TlsAlloc ()
-#endif
-
-#define GET_THREAD_PROF(prof) do { \
- MonoProfiler *_tprofiler = GET_PROFILER (); \
- if (!_tprofiler) { \
- _tprofiler = create_profiler (); \
- prof->per_thread = g_slist_prepend (prof->per_thread, _tprofiler); \
- SET_PROFILER (_tprofiler); \
- } \
- prof = _tprofiler; \
- } while (0)
-#else
-/* thread unsafe but faster variant */
-#define GET_THREAD_PROF(prof)
-#endif
-
-static gint
-compare_profile (MethodProfile *profa, MethodProfile *profb)
-{
- return (gint)((profb->total - profa->total)*1000);
-}
-
-static void
-build_profile (MonoMethod *m, MethodProfile *prof, GList **funcs)
-{
- prof->method = m;
- *funcs = g_list_insert_sorted (*funcs, prof, (GCompareFunc)compare_profile);
-}
-
-static char*
-method_get_name (MonoMethod* method)
-{
- char *sig, *res;
-
- sig = mono_signature_get_desc (mono_method_signature (method), FALSE);
- res = g_strdup_printf ("%s%s%s::%s(%s)", method->klass->name_space,
- method->klass->name_space ? "." : "", method->klass->name,
- method->name, sig);
- g_free (sig);
- return res;
-}
-
-static void output_callers (MethodProfile *p);
-
-static void
-output_profile (GList *funcs)
-{
- GList *tmp;
- MethodProfile *p;
- char *m;
- guint64 total_calls = 0;
-
- if (funcs)
- fprintf (poutput, "Time(ms) Count P/call(ms) Method name\n");
- for (tmp = funcs; tmp; tmp = tmp->next) {
- p = tmp->data;
- total_calls += p->count;
- if (!(gint)(p->total*1000))
- continue;
- m = method_get_name (p->method);
- fprintf (poutput, "########################\n");
- fprintf (poutput, "% 8.3f ", (double) (p->total * 1000));
- fprintf (poutput, "%7llu ", (unsigned long long)p->count);
- fprintf (poutput, "% 8.3f ", (double) (p->total * 1000)/(double)p->count);
- fprintf (poutput, " %s\n", m);
-
- g_free (m);
- /* callers */
- output_callers (p);
- }
- fprintf (poutput, "Total number of calls: %lld\n", (long long)total_calls);
-}
-
-typedef struct {
- MethodProfile *mp;
- guint64 count;
-} NewobjProfile;
-
-static gint
-compare_newobj_profile (NewobjProfile *profa, NewobjProfile *profb)
-{
- if (profb->count == profa->count)
- return 0;
- else
- return profb->count > profa->count ? 1 : -1;
-}
-
-static void
-build_newobj_profile (MonoClass *class, MethodProfile *mprof, GList **funcs)
-{
- NewobjProfile *prof = g_new (NewobjProfile, 1);
- AllocInfo *tmp;
- guint64 count = 0;
-
- prof->mp = mprof;
- /* we use the total amount of memory to sort */
- for (tmp = mprof->alloc_info; tmp; tmp = tmp->next)
- count += tmp->mem;
- prof->count = count;
- *funcs = g_list_insert_sorted (*funcs, prof, (GCompareFunc)compare_newobj_profile);
-}
-
-static int
-compare_caller (CallerInfo *a, CallerInfo *b)
-{
- return b->count - a->count;
-}
-
-static int
-compare_alloc (AllocInfo *a, AllocInfo *b)
-{
- return b->mem - a->mem;
-}
-
-static GSList*
-sort_alloc_list (AllocInfo *ai)
-{
- GSList *l = NULL;
- AllocInfo *tmp;
- for (tmp = ai; tmp; tmp = tmp->next) {
- l = g_slist_insert_sorted (l, tmp, (GCompareFunc)compare_alloc);
- }
- return l;
-}
-
-static GSList*
-sort_caller_list (CallerInfo *ai)
-{
- GSList *l = NULL;
- CallerInfo *tmp;
- for (tmp = ai; tmp; tmp = tmp->next) {
- l = g_slist_insert_sorted (l, tmp, (GCompareFunc)compare_caller);
- }
- return l;
-}
-
-static void
-output_callers (MethodProfile *p) {
- guint total_callers, percent;
- GSList *sorted, *tmps;
- CallerInfo *cinfo;
- char *m;
-
- fprintf (poutput, " Callers (with count) that contribute at least for 1%%:\n");
- total_callers = 0;
- for (cinfo = p->caller_info; cinfo; cinfo = cinfo->next) {
- total_callers += cinfo->count;
- }
- sorted = sort_caller_list (p->caller_info);
- for (tmps = sorted; tmps; tmps = tmps->next) {
- cinfo = tmps->data;
- percent = (cinfo->count * 100)/total_callers;
- if (percent < 1)
- continue;
- m = method_get_name (cinfo->caller);
- fprintf (poutput, " %8d % 3d %% %s\n", cinfo->count, percent, m);
- g_free (m);
- }
-}
-
-/* This isn't defined on older glib versions and on some platforms */
-#ifndef G_GUINT64_FORMAT
-#define G_GUINT64_FORMAT "ul"
-#endif
-
-static void
-output_newobj_profile (GList *proflist)
-{
- GList *tmp;
- NewobjProfile *p;
- MethodProfile *mp;
- AllocInfo *ainfo;
- MonoClass *klass;
- const char* isarray;
- char buf [256];
- char *m;
- guint64 total = 0;
- GSList *sorted, *tmps;
-
- fprintf (poutput, "\nAllocation profiler\n");
-
- if (proflist)
- fprintf (poutput, "%-9s %s\n", "Total mem", "Method");
- for (tmp = proflist; tmp; tmp = tmp->next) {
- p = tmp->data;
- total += p->count;
- if (p->count < 50000)
- continue;
- mp = p->mp;
- m = method_get_name (mp->method);
- fprintf (poutput, "########################\n%8" G_GUINT64_FORMAT " KB %s\n", (p->count / 1024), m);
- g_free (m);
- sorted = sort_alloc_list (mp->alloc_info);
- for (tmps = sorted; tmps; tmps = tmps->next) {
- ainfo = tmps->data;
- if (ainfo->mem < 50000)
- continue;
- klass = ainfo->klass;
- if (klass->rank) {
- isarray = "[]";
- klass = klass->element_class;
- } else {
- isarray = "";
- }
- g_snprintf (buf, sizeof (buf), "%s%s%s%s",
- klass->name_space, klass->name_space ? "." : "", klass->name, isarray);
- fprintf (poutput, " %8" G_GUINT64_FORMAT " KB %8" G_GUINT64_FORMAT " %-48s\n", (ainfo->mem / 1024), ainfo->count, buf);
- }
- /* callers */
- output_callers (mp);
- }
- fprintf (poutput, "Total memory allocated: %" G_GUINT64_FORMAT " KB\n", total / 1024);
-}
-
-static void
-merge_methods (MonoMethod *method, MethodProfile *profile, MonoProfiler *prof)
-{
- MethodProfile *mprof;
- AllocInfo *talloc_info, *alloc_info;
- CallerInfo *tcaller_info, *caller_info;
-
- mprof = g_hash_table_lookup (prof->methods, method);
- if (!mprof) {
- /* the master thread didn't see this method, just transfer the info as is */
- g_hash_table_insert (prof->methods, method, profile);
- return;
- }
- /* merge the info from profile into mprof */
- mprof->count += profile->count;
- mprof->total += profile->total;
- /* merge alloc info */
- for (talloc_info = profile->alloc_info; talloc_info; talloc_info = talloc_info->next) {
- for (alloc_info = mprof->alloc_info; alloc_info; alloc_info = alloc_info->next) {
- if (alloc_info->klass == talloc_info->klass) {
- /* mprof already has a record for the klass, merge */
- alloc_info->count += talloc_info->count;
- alloc_info->mem += talloc_info->mem;
- break;
- }
- }
- if (!alloc_info) {
- /* mprof didn't have the info, just copy it over */
- alloc_info = mono_mempool_alloc0 (prof->mempool, sizeof (AllocInfo));
- *alloc_info = *talloc_info;
- alloc_info->next = mprof->alloc_info;
- mprof->alloc_info = alloc_info->next;
- }
- }
- /* merge callers info */
- for (tcaller_info = profile->caller_info; tcaller_info; tcaller_info = tcaller_info->next) {
- for (caller_info = mprof->caller_info; caller_info; caller_info = caller_info->next) {
- if (caller_info->caller == tcaller_info->caller) {
- /* mprof already has a record for the caller method, merge */
- caller_info->count += tcaller_info->count;
- break;
- }
- }
- if (!caller_info) {
- /* mprof didn't have the info, just copy it over */
- caller_info = mono_mempool_alloc0 (prof->mempool, sizeof (CallerInfo));
- *caller_info = *tcaller_info;
- caller_info->next = mprof->caller_info;
- mprof->caller_info = caller_info;
- }
- }
-}
-
-static void
-merge_thread_data (MonoProfiler *master, MonoProfiler *tprof)
-{
- master->jit_time += tprof->jit_time;
- master->methods_jitted += tprof->methods_jitted;
- if (master->max_jit_time < tprof->max_jit_time) {
- master->max_jit_time = tprof->max_jit_time;
- master->max_jit_method = tprof->max_jit_method;
- }
-
- g_hash_table_foreach (tprof->methods, (GHFunc)merge_methods, master);
-}
-
-static void
-simple_method_enter (MonoProfiler *prof, MonoMethod *method)
-{
- MethodProfile *profile_info;
- LastCallerInfo *callinfo;
- GET_THREAD_PROF (prof);
- /*g_print ("enter %p %s::%s in %d (%p)\n", method, method->klass->name, method->name, GetCurrentThreadId (), prof);*/
- if (!(profile_info = g_hash_table_lookup (prof->methods, method))) {
- profile_info = mono_mempool_alloc0 (prof->mempool, sizeof (MethodProfile));
- MONO_TIMER_INIT (profile_info->u.timer);
- g_hash_table_insert (prof->methods, method, profile_info);
- }
- profile_info->count++;
- if (prof->callers) {
- CallerInfo *cinfo;
- MonoMethod *caller = prof->callers->method;
- for (cinfo = profile_info->caller_info; cinfo; cinfo = cinfo->next) {
- if (cinfo->caller == caller)
- break;
- }
- if (!cinfo) {
- cinfo = mono_mempool_alloc0 (prof->mempool, sizeof (CallerInfo));
- cinfo->caller = caller;
- cinfo->next = profile_info->caller_info;
- profile_info->caller_info = cinfo;
- }
- cinfo->count++;
- }
- if (!(callinfo = prof->cstorage)) {
- callinfo = mono_mempool_alloc (prof->mempool, sizeof (LastCallerInfo));
- MONO_TIMER_INIT (callinfo->timer);
- } else {
- prof->cstorage = prof->cstorage->next;
- }
- callinfo->method = method;
- callinfo->next = prof->callers;
- prof->callers = callinfo;
- MONO_TIMER_START (callinfo->timer);
-}
-
-static void
-simple_method_leave (MonoProfiler *prof, MonoMethod *method)
-{
- MethodProfile *profile_info;
- LastCallerInfo *callinfo, *newcallinfo = NULL;
-
- GET_THREAD_PROF (prof);
- /*g_print ("leave %p %s::%s in %d (%p)\n", method, method->klass->name, method->name, GetCurrentThreadId (), prof);*/
- callinfo = prof->callers;
- /* should really not happen, but we don't catch exceptions events, yet ... */
- while (callinfo) {
- MONO_TIMER_STOP (callinfo->timer);
- profile_info = g_hash_table_lookup (prof->methods, callinfo->method);
- if (profile_info)
- profile_info->total += MONO_TIMER_ELAPSED (callinfo->timer);
- newcallinfo = callinfo->next;
- callinfo->next = prof->cstorage;
- prof->cstorage = callinfo;
- if (callinfo->method == method)
- break;
- callinfo = newcallinfo;
- }
- prof->callers = newcallinfo;
-}
-
-static void
-simple_allocation (MonoProfiler *prof, MonoObject *obj, MonoClass *klass)
-{
- MethodProfile *profile_info;
- AllocInfo *tmp;
-
- GET_THREAD_PROF (prof);
- if (prof->callers) {
- MonoMethod *caller = prof->callers->method;
-
- /* Otherwise all allocations are attributed to icall_wrapper_mono_object_new */
- if (caller->wrapper_type == MONO_WRAPPER_MANAGED_TO_NATIVE)
- caller = prof->callers->next->method;
-
- if (!(profile_info = g_hash_table_lookup (prof->methods, caller)))
- g_assert_not_reached ();
- } else {
- return; /* fine for now */
- }
-
- for (tmp = profile_info->alloc_info; tmp; tmp = tmp->next) {
- if (tmp->klass == klass)
- break;
- }
- if (!tmp) {
- tmp = mono_mempool_alloc0 (prof->mempool, sizeof (AllocInfo));
- tmp->klass = klass;
- tmp->next = profile_info->alloc_info;
- profile_info->alloc_info = tmp;
- }
- tmp->count++;
- tmp->mem += mono_object_get_size (obj);
-}
-
-static void
-simple_method_jit (MonoProfiler *prof, MonoMethod *method)
-{
- GET_THREAD_PROF (prof);
- prof->methods_jitted++;
- MONO_TIMER_START (prof->jit_timer);
-}
-
-static void
-simple_method_end_jit (MonoProfiler *prof, MonoMethod *method, int result)
-{
- double jtime;
- GET_THREAD_PROF (prof);
- MONO_TIMER_STOP (prof->jit_timer);
- jtime = MONO_TIMER_ELAPSED (prof->jit_timer);
- prof->jit_time += jtime;
- if (jtime > prof->max_jit_time) {
- prof->max_jit_time = jtime;
- prof->max_jit_method = method;
- }
-}
-
-/* about 10 minutes of samples */
-#define MAX_PROF_SAMPLES (1000*60*10)
-static int prof_counts = 0;
-static int prof_ucounts = 0;
-static gpointer* prof_addresses = NULL;
-static GHashTable *prof_table = NULL;
-
-static void
-simple_stat_hit (MonoProfiler *prof, guchar *ip, void *context)
-{
- int pos;
-
- if (prof_counts >= MAX_PROF_SAMPLES)
- return;
- pos = InterlockedIncrement (&prof_counts);
- prof_addresses [pos - 1] = ip;
-}
-
-static int
-compare_methods_prof (gconstpointer a, gconstpointer b)
-{
- int ca = GPOINTER_TO_UINT (g_hash_table_lookup (prof_table, a));
- int cb = GPOINTER_TO_UINT (g_hash_table_lookup (prof_table, b));
- return cb-ca;
-}
-
-static void
-prof_foreach (char *method, gpointer c, gpointer data)
-{
- GList **list = data;
- *list = g_list_insert_sorted (*list, method, compare_methods_prof);
-}
-
-typedef struct Addr2LineData Addr2LineData;
-
-struct Addr2LineData {
- Addr2LineData *next;
- FILE *pipein;
- FILE *pipeout;
- char *binary;
- int child_pid;
-};
+typedef void (*ProfilerInitializer) (const char*);
+#define INITIALIZER_NAME "mono_profiler_startup"
-static Addr2LineData *addr2line_pipes = NULL;
-static char*
-try_addr2line (const char* binary, gpointer ip)
+static gboolean
+load_profiler_from_directory (const char *directory, const char *libname, const char *desc)
{
- char buf [1024];
- char *res;
- Addr2LineData *addr2line;
-
- for (addr2line = addr2line_pipes; addr2line; addr2line = addr2line->next) {
- if (strcmp (binary, addr2line->binary) == 0)
- break;
- }
- if (!addr2line) {
- const char *addr_argv[] = {"addr2line", "-f", "-e", binary, NULL};
- int child_pid;
- int ch_in, ch_out;
- if (!g_spawn_async_with_pipes (NULL, (char**)addr_argv, NULL, G_SPAWN_SEARCH_PATH, NULL, NULL,
- &child_pid, &ch_in, &ch_out, NULL, NULL)) {
- return g_strdup (binary);
- }
- addr2line = g_new0 (Addr2LineData, 1);
- addr2line->child_pid = child_pid;
- addr2line->binary = g_strdup (binary);
- addr2line->pipein = fdopen (ch_in, "w");
- addr2line->pipeout = fdopen (ch_out, "r");
- addr2line->next = addr2line_pipes;
- addr2line_pipes = addr2line;
- }
- fprintf (addr2line->pipein, "%p\n", ip);
- fflush (addr2line->pipein);
- /* we first get the func name and then file:lineno in a second line */
- if (fgets (buf, sizeof (buf), addr2line->pipeout) && buf [0] != '?') {
- char *end = strchr (buf, '\n');
- if (end)
- *end = 0;
- res = g_strdup_printf ("%s(%s", binary, buf);
- /* discard the filename/line info */
- fgets (buf, sizeof (buf), addr2line->pipeout);
- } else {
- res = g_strdup (binary);
- }
- return res;
-}
+ MonoDl *pmodule = NULL;
+ char* path;
+ char *err;
+ void *iter;
-static void
-stat_prof_report (void)
-{
- MonoJitInfo *ji;
- int count = prof_counts;
- int i, c;
- char *mn;
- gpointer ip;
- GList *tmp, *sorted = NULL;
- int pcount = ++ prof_counts;
-
- prof_counts = MAX_PROF_SAMPLES;
- for (i = 0; i < count; ++i) {
- ip = prof_addresses [i];
- ji = mono_jit_info_table_find (mono_domain_get (), ip);
- if (ji) {
- mn = mono_method_full_name (ji->method, TRUE);
- } else {
-#ifdef HAVE_BACKTRACE_SYMBOLS
- char **names;
- char *send;
- int no_func;
- prof_ucounts++;
- names = backtrace_symbols (&ip, 1);
- send = strchr (names [0], '+');
- if (send) {
- *send = 0;
- no_func = 0;
- } else {
- no_func = 1;
- }
- send = strchr (names [0], '[');
- if (send)
- *send = 0;
- if (no_func && names [0][0]) {
- char *endp = strchr (names [0], 0);
- while (--endp >= names [0] && g_ascii_isspace (*endp))
- *endp = 0;
- mn = try_addr2line (names [0], ip);
+ iter = NULL;
+ err = NULL;
+ while ((path = mono_dl_build_path (directory, libname, &iter))) {
+ g_free (err);
+ pmodule = mono_dl_open (path, MONO_DL_LAZY, &err);
+ if (pmodule) {
+ ProfilerInitializer func;
+ if ((err = mono_dl_symbol (pmodule, INITIALIZER_NAME, (gpointer *)&func))) {
+ g_warning ("Cannot find initializer function %s in profiler module: %s (%s)", INITIALIZER_NAME, libname, err);
+ g_free (err);
+ err = NULL;
} else {
- mn = g_strdup (names [0]);
+ func (desc);
}
- free (names);
-#else
- prof_ucounts++;
- mn = g_strdup_printf ("unmanaged [%p]", ip);
-#endif
+ g_free (path);
+ return TRUE;
}
- c = GPOINTER_TO_UINT (g_hash_table_lookup (prof_table, mn));
- c++;
- g_hash_table_insert (prof_table, mn, GUINT_TO_POINTER (c));
- if (c > 1)
- g_free (mn);
- }
- fprintf (poutput, "prof counts: total/unmanaged: %d/%d\n", pcount, prof_ucounts);
- g_hash_table_foreach (prof_table, (GHFunc)prof_foreach, &sorted);
- for (tmp = sorted; tmp; tmp = tmp->next) {
- double perc;
- c = GPOINTER_TO_UINT (g_hash_table_lookup (prof_table, tmp->data));
- perc = c*100.0/count;
- fprintf (poutput, "%7d\t%5.2f %% %s\n", c, perc, (char*)tmp->data);
- }
- g_list_free (sorted);
-}
-
-static void
-simple_appdomain_unload (MonoProfiler *prof, MonoDomain *domain)
-{
- /* FIXME: we should actually record partial data for each domain,
- * since the ip->ji->method mappings are going away at domain unload time.
- */
- if (domain == mono_get_root_domain ())
- stat_prof_report ();
-}
-
-static void
-simple_shutdown (MonoProfiler *prof)
-{
- GList *profile = NULL;
- MonoProfiler *tprof;
- GSList *tmp;
- char *str;
-
- for (tmp = prof->per_thread; tmp; tmp = tmp->next) {
- tprof = tmp->data;
- merge_thread_data (prof, tprof);
- }
-
- fprintf (poutput, "Total time spent compiling %d methods (sec): %.4g\n", prof->methods_jitted, prof->jit_time);
- if (prof->max_jit_method) {
- str = method_get_name (prof->max_jit_method);
- fprintf (poutput, "Slowest method to compile (sec): %.4g: %s\n", prof->max_jit_time, str);
- g_free (str);
+ g_free (path);
}
- g_hash_table_foreach (prof->methods, (GHFunc)build_profile, &profile);
- output_profile (profile);
- g_list_free (profile);
- profile = NULL;
- g_hash_table_foreach (prof->methods, (GHFunc)build_newobj_profile, &profile);
- output_newobj_profile (profile);
- g_list_free (profile);
-
- g_free (prof_addresses);
- prof_addresses = NULL;
- g_hash_table_destroy (prof_table);
+ return FALSE;
}
-static void
-mono_profiler_install_simple (const char *desc)
+/**
+ * mono_profiler_load:
+ * @desc: arguments to configure the profiler
+ *
+ * Invoke this method to initialize the profiler. This will drive the
+ * loading of the internal ("default") or any external profilers.
+ *
+ * This routine is invoked by Mono's driver, but must be called manually
+ * if you embed Mono into your application.
+ */
+void
+mono_profiler_load (const char *desc)
{
- MonoProfiler *prof;
- gchar **args, **ptr;
- MonoProfileFlags flags = 0;
-
- MONO_TIMER_STARTUP;
- poutput = stdout;
-
- if (!desc)
- desc = "alloc,time,jit";
-
- if (desc) {
- /* Parse options */
- if (strstr (desc, ":"))
- desc = strstr (desc, ":") + 1;
- else
- desc = "alloc,time,jit";
- args = g_strsplit (desc, ",", -1);
+ char *cdesc = NULL;
+ mono_gc_base_init ();
+ if (!desc || (strcmp ("default", desc) == 0)) {
+ desc = "log:report";
+ }
+ /* we keep command-line compat with the old version here */
+ if (strncmp (desc, "default:", 8) == 0) {
+ gchar **args, **ptr;
+ GString *str = g_string_new ("log:report");
+ args = g_strsplit (desc + 8, ",", -1);
for (ptr = args; ptr && *ptr; ptr++) {
const char *arg = *ptr;
if (!strcmp (arg, "time"))
- flags |= MONO_PROFILE_ENTER_LEAVE;
+ g_string_append (str, ",calls");
else if (!strcmp (arg, "alloc"))
- flags |= MONO_PROFILE_ALLOCATIONS;
+ g_string_append (str, ",alloc");
else if (!strcmp (arg, "stat"))
- flags |= MONO_PROFILE_STATISTICAL | MONO_PROFILE_APPDOMAIN_EVENTS;
+ g_string_append (str, ",sample");
else if (!strcmp (arg, "jit"))
- flags |= MONO_PROFILE_JIT_COMPILATION;
+ continue; /* accept and do nothing */
else if (strncmp (arg, "file=", 5) == 0) {
- poutput = fopen (arg + 5, "wb");
- if (!poutput) {
- poutput = stdout;
- fprintf (stderr, "profiler : cannot open profile output file '%s'.\n", arg + 5);
- }
+ g_string_append_printf (str, ",output=%s", arg + 5);
} else {
fprintf (stderr, "profiler : Unknown argument '%s'.\n", arg);
return;
}
}
+ desc = cdesc = g_string_free (str, FALSE);
}
-
- prof = create_profiler ();
- ALLOC_PROFILER ();
- SET_PROFILER (prof);
-
- /* statistical profiler data */
- prof_addresses = g_new0 (gpointer, MAX_PROF_SAMPLES);
- prof_table = g_hash_table_new (g_str_hash, g_str_equal);
-
- mono_profiler_install (prof, simple_shutdown);
- mono_profiler_install_enter_leave (simple_method_enter, simple_method_leave);
- mono_profiler_install_jit_compile (simple_method_jit, simple_method_end_jit);
- mono_profiler_install_allocation (simple_allocation);
- mono_profiler_install_appdomain (NULL, NULL, simple_appdomain_unload, NULL);
- mono_profiler_install_statistical (simple_stat_hit);
- mono_profiler_set_events (flags);
-}
-
-#endif /* DISABLE_PROFILER */
-
-typedef void (*ProfilerInitializer) (const char*);
-#define INITIALIZER_NAME "mono_profiler_startup"
-
-/**
- * mono_profiler_load:
- * @desc: arguments to configure the profiler
- *
- * Invoke this method to initialize the profiler. This will drive the
- * loading of the internal ("default") or any external profilers.
- *
- * This routine is invoked by Mono's driver, but must be called manually
- * if you embed Mono into your application.
- */
-void
-mono_profiler_load (const char *desc)
-{
-#ifndef DISABLE_PROFILER
- if (!desc || (strcmp ("default", desc) == 0) || (strncmp (desc, "default:", 8) == 0)) {
- mono_profiler_install_simple (desc);
- return;
- }
-#else
- if (!desc) {
- desc = "default";
- }
-#endif
{
- GModule *pmodule;
const char* col = strchr (desc, ':');
char* libname;
- char* path;
char *mname;
if (col != NULL) {
- mname = g_memdup (desc, col - desc);
+ mname = g_memdup (desc, col - desc + 1);
mname [col - desc] = 0;
} else {
mname = g_strdup (desc);
}
libname = g_strdup_printf ("mono-profiler-%s", mname);
- path = g_module_build_path (NULL, libname);
- pmodule = g_module_open (path, G_MODULE_BIND_LAZY);
- if (pmodule) {
- ProfilerInitializer func;
- if (!g_module_symbol (pmodule, INITIALIZER_NAME, (gpointer *)&func)) {
- g_warning ("Cannot find initializer function %s in profiler module: %s", INITIALIZER_NAME, libname);
- } else {
- func (desc);
- }
- } else {
- g_warning ("Error loading profiler module '%s': %s", libname, g_module_error ());
- }
-
+ if (!load_profiler_from_directory (NULL, libname, desc))
+ if (!load_profiler_from_directory (mono_assembly_getrootdir (), libname, desc))
+ g_warning ("Error loading profiler module '%s'", libname);
+
g_free (libname);
g_free (mname);
- g_free (path);
}
+ g_free (cdesc);
}