gcc/libjava/stacktrace.cc
Alan Modra 9cc20fa152 stacktrace.cc (UnwindTraceFn): Use UNWRAP_FUNCTION_DESCRIPTOR to compare _Jv_InterpMethod::run against current...
* stacktrace.cc (UnwindTraceFn): Use UNWRAP_FUNCTION_DESCRIPTOR
	to compare _Jv_InterpMethod::run against current func.

From-SVN: r107746
2005-12-01 10:28:16 +10:30

531 lines
15 KiB
C++

// stacktrace.cc - Functions for unwinding & inspecting the call stack.
/* Copyright (C) 2005 Free Software Foundation
This file is part of libgcj.
This software is copyrighted work licensed under the terms of the
Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
details. */
#include <config.h>
#include <jvm.h>
#include <gcj/cni.h>
#include <java-interp.h>
#include <java-stack.h>
#ifdef HAVE_DLFCN_H
#include <dlfcn.h>
#endif
#include <stdio.h>
#include <java/lang/Class.h>
#include <java/lang/Long.h>
#include <java/util/ArrayList.h>
#include <java/util/IdentityHashMap.h>
#include <gnu/java/lang/MainThread.h>
#include <gnu/gcj/runtime/NameFinder.h>
#include <sysdep/backtrace.h>
#include <sysdep/descriptor.h>
using namespace java::lang;
using namespace java::lang::reflect;
using namespace java::util;
using namespace gnu::gcj::runtime;
// Maps ncode values to their containing native class.
// NOTE: Currently this Map contradicts class GC for native classes. This map
// (and the "new class stack") will need to use WeakReferences in order to
// enable native class GC.
static java::util::IdentityHashMap *ncodeMap;
// Check the "class stack" for any classes initialized since we were last
// called, and add them to ncodeMap.
void
_Jv_StackTrace::UpdateNCodeMap ()
{
// The Map should be large enough so that a typical Java app doesn't cause
// it to rehash, without using too much memory. ~5000 entries should be
// enough.
if (ncodeMap == NULL)
ncodeMap = new java::util::IdentityHashMap (5087);
jclass klass;
while ((klass = _Jv_PopClass ()))
{
//printf ("got %s\n", klass->name->data);
#ifdef INTERPRETER
JvAssert (! _Jv_IsInterpretedClass (klass));
#endif
for (int i=0; i < klass->method_count; i++)
{
_Jv_Method *method = &klass->methods[i];
void *ncode = method->ncode;
// Add non-abstract methods to ncodeMap.
if (ncode)
{
ncode = UNWRAP_FUNCTION_DESCRIPTOR (ncode);
ncodeMap->put ((java::lang::Object *)ncode, klass);
}
}
}
}
// Given a native frame, return the class which this code belongs
// to. Returns NULL if this IP is not associated with a native Java class.
// If NCODE is supplied, it will be set with the ip for the entry point of the
// enclosing method.
jclass
_Jv_StackTrace::ClassForFrame (_Jv_StackFrame *frame)
{
JvAssert (frame->type == frame_native);
jclass klass = NULL;
// use _Unwind_FindEnclosingFunction to find start of method
//void *entryPoint = _Unwind_FindEnclosingFunction (ip);
// look it up in ncodeMap
if (frame->start_ip)
klass = (jclass) ncodeMap->get ((jobject) frame->start_ip);
return klass;
}
_Unwind_Reason_Code
_Jv_StackTrace::UnwindTraceFn (struct _Unwind_Context *context, void *state_ptr)
{
_Jv_UnwindState *state = (_Jv_UnwindState *) state_ptr;
jint pos = state->pos;
// Check if the trace buffer needs to be extended.
if (pos == state->length)
{
int newLength = state->length * 2;
void *newFrames = _Jv_AllocBytes (newLength * sizeof(_Jv_StackFrame));
memcpy (newFrames, state->frames, state->length * sizeof(_Jv_StackFrame));
state->frames = (_Jv_StackFrame *) newFrames;
state->length = newLength;
}
void *func_addr = (void *) _Unwind_GetRegionStart (context);
// If we see the interpreter's main function, "pop" an entry off the
// interpreter stack and use that instead, so that the trace goes through
// the java code and not the interpreter itself. This assumes a 1:1
// correspondance between call frames in the interpreted stack and occurances
// of _Jv_InterpMethod::run() on the native stack.
#ifdef INTERPRETER
void *interp_run = (void *) &_Jv_InterpMethod::run;
if (func_addr == UNWRAP_FUNCTION_DESCRIPTOR (interp_run))
{
state->frames[pos].type = frame_interpreter;
state->frames[pos].interp.meth = state->interp_frame->self;
state->frames[pos].interp.pc = state->interp_frame->pc;
state->interp_frame = state->interp_frame->next;
}
else
#endif
{
state->frames[pos].type = frame_native;
state->frames[pos].ip = (void *) _Unwind_GetIP (context);
state->frames[pos].start_ip = func_addr;
}
//printf ("unwind ip: %p\n", _Unwind_GetIP (context));
_Unwind_Reason_Code result = _URC_NO_REASON;
if (state->trace_function != NULL)
result = (state->trace_function) (state);
state->pos++;
return result;
}
// Return a raw stack trace from the current point of execution. The raw
// trace will include all functions that have unwind info.
_Jv_StackTrace *
_Jv_StackTrace::GetStackTrace(void)
{
int trace_size = 100;
_Jv_StackFrame frames[trace_size];
_Jv_UnwindState state (trace_size);
state.frames = (_Jv_StackFrame *) &frames;
#ifdef SJLJ_EXCEPTIONS
// The Unwind interface doesn't work with the SJLJ exception model.
// Fall back to a platform-specific unwinder.
fallback_backtrace (&state);
#else /* SJLJ_EXCEPTIONS */
_Unwind_Backtrace (UnwindTraceFn, &state);
#endif /* SJLJ_EXCEPTIONS */
// Copy the trace and return it.
int traceSize = sizeof (_Jv_StackTrace) +
(sizeof (_Jv_StackFrame) * state.pos);
_Jv_StackTrace *trace = (_Jv_StackTrace *) _Jv_AllocBytes (traceSize);
trace->length = state.pos;
memcpy (trace->frames, state.frames, sizeof (_Jv_StackFrame) * state.pos);
return trace;
}
void
_Jv_StackTrace::getLineNumberForFrame(_Jv_StackFrame *frame, NameFinder *finder,
jstring *sourceFileName, jint *lineNum)
{
#ifdef INTERPRETER
if (frame->type == frame_interpreter)
{
_Jv_InterpMethod *interp_meth = frame->interp.meth;
_Jv_InterpClass *interp_class =
(_Jv_InterpClass *) interp_meth->defining_class->aux_info;
*sourceFileName = interp_class->source_file_name;
*lineNum = interp_meth->get_source_line(frame->interp.pc);
return;
}
#endif
// Use dladdr() to determine in which binary the address IP resides.
#if defined (HAVE_DLFCN_H) && defined (HAVE_DLADDR)
Dl_info info;
jstring binaryName = NULL;
const char *argv0 = _Jv_GetSafeArg(0);
void *ip = frame->ip;
_Unwind_Ptr offset = 0;
if (dladdr (ip, &info))
{
if (info.dli_fname)
binaryName = JvNewStringUTF (info.dli_fname);
else
return;
// addr2line expects relative addresses for shared libraries.
if (strcmp (info.dli_fname, argv0) == 0)
offset = (_Unwind_Ptr) ip;
else
offset = (_Unwind_Ptr) ip - (_Unwind_Ptr) info.dli_fbase;
//printf ("linenum ip: %p\n", ip);
//printf ("%s: 0x%x\n", info.dli_fname, offset);
//offset -= sizeof(void *);
// The unwinder gives us the return address. In order to get the right
// line number for the stack trace, roll it back a little.
offset -= 1;
// printf ("%s: 0x%x\n", info.dli_fname, offset);
finder->lookup (binaryName, (jlong) offset);
*sourceFileName = finder->getSourceFile();
*lineNum = finder->getLineNum();
}
#endif
}
// Look up class and method info for the given stack frame, setting
// frame->klass and frame->meth if they are known.
void
_Jv_StackTrace::FillInFrameInfo (_Jv_StackFrame *frame)
{
jclass klass = NULL;
_Jv_Method *meth = NULL;
if (frame->type == frame_native)
{
klass = _Jv_StackTrace::ClassForFrame (frame);
if (klass != NULL)
// Find method in class
for (int j = 0; j < klass->method_count; j++)
{
if (klass->methods[j].ncode == frame->start_ip)
{
meth = &klass->methods[j];
break;
}
}
}
#ifdef INTERPRETER
else if (frame->type == frame_interpreter)
{
_Jv_InterpMethod *interp_meth = frame->interp.meth;
klass = interp_meth->defining_class;
meth = interp_meth->self;
}
#endif
else
JvFail ("Unknown frame type");
frame->klass = klass;
frame->meth = meth;
}
// Convert raw stack frames to a Java array of StackTraceElement objects.
JArray< ::java::lang::StackTraceElement *>*
_Jv_StackTrace::GetStackTraceElements (_Jv_StackTrace *trace,
Throwable *throwable __attribute__((unused)))
{
ArrayList *list = new ArrayList ();
#ifdef SJLJ_EXCEPTIONS
// We can't use the nCodeMap without unwinder support. Instead,
// fake the method name by giving the IP in hex - better than nothing.
jstring hex = JvNewStringUTF ("0x");
for (int i = 0; i < trace->length; i++)
{
jstring sourceFileName = NULL;
jint lineNum = -1;
_Jv_StackFrame *frame = &trace->frames[i];
jstring className = NULL;
jstring methodName = hex->concat (Long::toHexString ((jlong) frame->ip));
StackTraceElement *element = new StackTraceElement (sourceFileName,
lineNum, className, methodName, 0);
list->add (element);
}
#else /* SJLJ_EXCEPTIONS */
//JvSynchronized (ncodeMap);
UpdateNCodeMap ();
NameFinder *finder = new NameFinder();
int start_idx = 0;
int end_idx = trace->length - 1;
// First pass: strip superfluous frames from beginning and end of the trace.
for (int i = 0; i < trace->length; i++)
{
_Jv_StackFrame *frame = &trace->frames[i];
FillInFrameInfo (frame);
if (!frame->klass || !frame->meth)
// Not a Java frame.
continue;
// Throw away the top of the stack till we see:
// - the constructor(s) of this Throwable, or
// - the Throwable.fillInStackTrace call.
if (frame->klass == throwable->getClass()
&& strcmp (frame->meth->name->chars(), "<init>") == 0)
start_idx = i + 1;
if (frame->klass == &Throwable::class$
&& strcmp (frame->meth->name->chars(), "fillInStackTrace") == 0)
start_idx = i + 1;
// End the trace at the application's main() method if we see call_main.
if (frame->klass == &gnu::java::lang::MainThread::class$
&& strcmp (frame->meth->name->chars(), "call_main") == 0)
end_idx = i - 1;
}
// Second pass: Look up line-number info for remaining frames.
for (int i = start_idx; i <= end_idx; i++)
{
_Jv_StackFrame *frame = &trace->frames[i];
if (frame->klass == NULL)
// Not a Java frame.
continue;
jstring className = frame->klass->getName ();
jstring methodName = NULL;
if (frame->meth)
methodName = JvNewStringUTF (frame->meth->name->chars());
jstring sourceFileName = NULL;
jint lineNum = -1;
getLineNumberForFrame(frame, finder, &sourceFileName, &lineNum);
StackTraceElement *element = new StackTraceElement (sourceFileName, lineNum,
className, methodName, 0);
list->add (element);
}
finder->close();
#endif /* SJLJ_EXCEPTIONS */
JArray<Object *> *array = JvNewObjectArray (list->size (),
&StackTraceElement::class$, NULL);
return (JArray<StackTraceElement *>*) list->toArray (array);
}
struct CallingClassTraceData
{
jclass checkClass;
jclass foundClass;
_Jv_Method *foundMeth;
bool seen_checkClass;
};
_Unwind_Reason_Code
_Jv_StackTrace::calling_class_trace_fn (_Jv_UnwindState *state)
{
CallingClassTraceData *trace_data = (CallingClassTraceData *)
state->trace_data;
_Jv_StackFrame *frame = &state->frames[state->pos];
FillInFrameInfo (frame);
if (trace_data->seen_checkClass
&& frame->klass
&& frame->klass != trace_data->checkClass)
{
trace_data->foundClass = frame->klass;
trace_data->foundMeth = frame->meth;
return _URC_NORMAL_STOP;
}
if (frame->klass == trace_data->checkClass)
trace_data->seen_checkClass = true;
return _URC_NO_REASON;
}
// Find the class immediately above the given class on the call stack. Any
// intermediate non-Java
// frames are ignored. If the calling class could not be determined (eg because
// the unwinder is not supported on this platform), NULL is returned.
// This function is used to implement calling-classloader checks and reflection
// accessibility checks.
// CHECKCLASS is typically the class calling GetCallingClass. The first class
// above CHECKCLASS on the call stack will be returned.
jclass
_Jv_StackTrace::GetCallingClass (jclass checkClass)
{
jclass result = NULL;
GetCallerInfo (checkClass, &result, NULL);
return result;
}
void
_Jv_StackTrace::GetCallerInfo (jclass checkClass, jclass *caller_class,
_Jv_Method **caller_meth)
{
#ifndef SJLJ_EXCEPTIONS
int trace_size = 20;
_Jv_StackFrame frames[trace_size];
_Jv_UnwindState state (trace_size);
state.frames = (_Jv_StackFrame *) &frames;
CallingClassTraceData trace_data;
trace_data.checkClass = checkClass;
trace_data.seen_checkClass = false;
trace_data.foundClass = NULL;
trace_data.foundMeth = NULL;
state.trace_function = calling_class_trace_fn;
state.trace_data = (void *) &trace_data;
//JvSynchronized (ncodeMap);
UpdateNCodeMap ();
_Unwind_Backtrace (UnwindTraceFn, &state);
if (caller_class)
*caller_class = trace_data.foundClass;
if (caller_meth)
*caller_meth = trace_data.foundMeth;
#else
return;
#endif
}
// Return a java array containing the Java classes on the stack above CHECKCLASS.
JArray<jclass> *
_Jv_StackTrace::GetClassContext (jclass checkClass)
{
JArray<jclass> *result = NULL;
int trace_size = 100;
_Jv_StackFrame frames[trace_size];
_Jv_UnwindState state (trace_size);
state.frames = (_Jv_StackFrame *) &frames;
//JvSynchronized (ncodeMap);
UpdateNCodeMap ();
_Unwind_Backtrace (UnwindTraceFn, &state);
// Count the number of Java frames on the stack.
int jframe_count = 0;
bool seen_checkClass = false;
int start_pos = -1;
for (int i = 0; i < state.pos; i++)
{
_Jv_StackFrame *frame = &state.frames[i];
FillInFrameInfo (frame);
if (seen_checkClass)
{
if (frame->klass)
{
jframe_count++;
if (start_pos == -1)
start_pos = i;
}
}
else
seen_checkClass = frame->klass == checkClass;
}
result = (JArray<jclass> *) _Jv_NewObjectArray (jframe_count, &Class::class$, NULL);
int pos = 0;
for (int i = start_pos; i < state.pos; i++)
{
_Jv_StackFrame *frame = &state.frames[i];
if (frame->klass)
elements(result)[pos++] = frame->klass;
}
return result;
}
_Unwind_Reason_Code
_Jv_StackTrace::non_system_trace_fn (_Jv_UnwindState *state)
{
_Jv_StackFrame *frame = &state->frames[state->pos];
FillInFrameInfo (frame);
ClassLoader *classLoader = NULL;
if (frame->klass)
{
classLoader = frame->klass->getClassLoaderInternal();
#ifdef INTERPRETER
if (classLoader != NULL)
{
state->trace_data = (void *) classLoader;
return _URC_NORMAL_STOP;
}
#endif
}
return _URC_NO_REASON;
}
ClassLoader *
_Jv_StackTrace::GetFirstNonSystemClassLoader ()
{
int trace_size = 32;
_Jv_StackFrame frames[trace_size];
_Jv_UnwindState state (trace_size);
state.frames = (_Jv_StackFrame *) &frames;
state.trace_function = non_system_trace_fn;
state.trace_data = NULL;
//JvSynchronized (ncodeMap);
UpdateNCodeMap ();
_Unwind_Backtrace (UnwindTraceFn, &state);
if (state.trace_data)
return (ClassLoader *) state.trace_data;
return NULL;
}