diff -r 8144ec8f789e -r 2f32787e31b1 hotspot/src/share/vm/prims/stackwalk.cpp --- a/hotspot/src/share/vm/prims/stackwalk.cpp Thu May 05 08:51:27 2016 -0700 +++ b/hotspot/src/share/vm/prims/stackwalk.cpp Fri May 06 22:45:32 2016 -0700 @@ -1,5 +1,5 @@ /* - * Copyright (c) 2015, Oracle and/or its affiliates. All rights reserved. + * Copyright (c) 2015, 2016 Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it @@ -37,44 +37,44 @@ #include "utilities/globalDefinitions.hpp" // setup and cleanup actions -void StackWalkAnchor::setup_magic_on_entry(objArrayHandle frames_array) { +void JavaFrameStream::setup_magic_on_entry(objArrayHandle frames_array) { frames_array->obj_at_put(magic_pos, _thread->threadObj()); _anchor = address_value(); assert(check_magic(frames_array), "invalid magic"); } -bool StackWalkAnchor::check_magic(objArrayHandle frames_array) { +bool JavaFrameStream::check_magic(objArrayHandle frames_array) { oop m1 = frames_array->obj_at(magic_pos); jlong m2 = _anchor; if (m1 == _thread->threadObj() && m2 == address_value()) return true; return false; } -bool StackWalkAnchor::cleanup_magic_on_exit(objArrayHandle frames_array) { +bool JavaFrameStream::cleanup_magic_on_exit(objArrayHandle frames_array) { bool ok = check_magic(frames_array); frames_array->obj_at_put(magic_pos, NULL); _anchor = 0L; return ok; } -// Returns StackWalkAnchor for the current stack being traversed. +// Returns JavaFrameStream for the current stack being traversed. // // Parameters: // thread Current Java thread. // magic Magic value used for each stack walking // frames_array User-supplied buffers. The 0th element is reserved -// to this StackWalkAnchor to use +// to this JavaFrameStream to use // -StackWalkAnchor* StackWalkAnchor::from_current(JavaThread* thread, jlong magic, +JavaFrameStream* JavaFrameStream::from_current(JavaThread* thread, jlong magic, objArrayHandle frames_array) { assert(thread != NULL && thread->is_Java_thread(), ""); oop m1 = frames_array->obj_at(magic_pos); if (m1 != thread->threadObj()) return NULL; if (magic == 0L) return NULL; - StackWalkAnchor* anchor = (StackWalkAnchor*) (intptr_t) magic; - if (!anchor->is_valid_in(thread, frames_array)) return NULL; - return anchor; + JavaFrameStream* stream = (JavaFrameStream*) (intptr_t) magic; + if (!stream->is_valid_in(thread, frames_array)) return NULL; + return stream; } // Unpacks one or more frames into user-supplied buffers. @@ -84,19 +84,19 @@ // In other words, do not leave any stale data in the vfst. // // Parameters: -// mode Restrict which frames to be decoded. -// vfst vFrameStream. -// max_nframes Maximum number of frames to be filled. -// start_index Start index to the user-supplied buffers. -// frames_array Buffer to store Class or StackFrame in, starting at start_index. -// frames array is a Class[] array when only getting caller -// reference, and a StackFrameInfo[] array (or derivative) -// otherwise. It should never be null. -// end_index End index to the user-supplied buffers with unpacked frames. +// mode Restrict which frames to be decoded. +// JavaFrameStream stream of javaVFrames +// max_nframes Maximum number of frames to be filled. +// start_index Start index to the user-supplied buffers. +// frames_array Buffer to store Class or StackFrame in, starting at start_index. +// frames array is a Class[] array when only getting caller +// reference, and a StackFrameInfo[] array (or derivative) +// otherwise. It should never be null. +// end_index End index to the user-supplied buffers with unpacked frames. // // Returns the number of frames whose information was transferred into the buffers. // -int StackWalk::fill_in_frames(jlong mode, vframeStream& vfst, +int StackWalk::fill_in_frames(jlong mode, JavaFrameStream& stream, int max_nframes, int start_index, objArrayHandle frames_array, int& end_index, TRAPS) { @@ -108,9 +108,9 @@ assert(start_index + max_nframes <= frames_array->length(), "oob"); int frames_decoded = 0; - for (; !vfst.at_end(); vfst.next()) { - Method* method = vfst.method(); - int bci = vfst.bci(); + for (; !stream.at_end(); stream.next()) { + Method* method = stream.method(); + int bci = stream.bci(); if (method == NULL) continue; if (!ShowHiddenFrames && StackWalk::skip_hidden_frames(mode)) { @@ -133,7 +133,7 @@ if (live_frame_info(mode)) { assert (use_frames_array(mode), "Bad mode for get live frame"); Handle stackFrame(frames_array->obj_at(index)); - fill_live_stackframe(stackFrame, method, bci, vfst.java_frame(), CHECK_0); + fill_live_stackframe(stackFrame, method, bci, stream.java_frame(), CHECK_0); } else if (need_method_info(mode)) { assert (use_frames_array(mode), "Bad mode for get stack frame"); Handle stackFrame(frames_array->obj_at(index)); @@ -294,6 +294,7 @@ int skip_frames, int frame_count, int start_index, objArrayHandle frames_array, TRAPS) { + ResourceMark rm(THREAD); JavaThread* jt = (JavaThread*)THREAD; if (TraceStackWalk) { tty->print_cr("Start walking: mode " JLONG_FORMAT " skip %d frames batch size %d", @@ -309,41 +310,39 @@ methodHandle m_doStackWalk(THREAD, Universe::do_stack_walk_method()); - // Open up a traversable stream onto my stack. - // This stream will be made available by *reference* to the inner Java call. - StackWalkAnchor anchor(jt); - vframeStream& vfst = anchor.vframe_stream(); - + // Setup traversal onto my stack. + RegisterMap regMap(jt, true); + JavaFrameStream stream(jt, ®Map); { - while (!vfst.at_end()) { - InstanceKlass* ik = vfst.method()->method_holder(); + while (!stream.at_end()) { + InstanceKlass* ik = stream.method()->method_holder(); if (ik != stackWalker_klass && ik != abstractStackWalker_klass && ik->super() != abstractStackWalker_klass) { break; } if (TraceStackWalk) { - tty->print(" skip "); vfst.method()->print_short_name(); tty->print("\n"); + tty->print(" skip "); stream.method()->print_short_name(); tty->print("\n"); } - vfst.next(); + stream.next(); } // stack frame has been traversed individually and resume stack walk // from the stack frame at depth == skip_frames. - for (int n=0; n < skip_frames && !vfst.at_end(); vfst.next(), n++) { + for (int n=0; n < skip_frames && !stream.at_end(); stream.next(), n++) { if (TraceStackWalk) { - tty->print(" skip "); vfst.method()->print_short_name(); + tty->print(" skip "); stream.method()->print_short_name(); tty->print_cr(" frame id: " PTR_FORMAT " pc: " PTR_FORMAT, - p2i(vfst.frame_id()), p2i(vfst.frame_pc())); + p2i(stream.java_frame()->fr().id()), + p2i(stream.java_frame()->fr().pc())); } } } - // The Method* pointer in the vfst has a very short shelf life. Grab it now. int end_index = start_index; int numFrames = 0; - if (!vfst.at_end()) { - numFrames = fill_in_frames(mode, vfst, frame_count, start_index, + if (!stream.at_end()) { + numFrames = fill_in_frames(mode, stream, frame_count, start_index, frames_array, end_index, CHECK_NULL); if (numFrames < 1) { THROW_MSG_(vmSymbols::java_lang_InternalError(), "stack walk: decode failed", NULL); @@ -356,19 +355,19 @@ // When JVM_CallStackWalk returns, it invalidates the stack stream. JavaValue result(T_OBJECT); JavaCallArguments args(stackStream); - args.push_long(anchor.address_value()); + args.push_long(stream.address_value()); args.push_int(skip_frames); args.push_int(frame_count); args.push_int(start_index); args.push_int(end_index); // Link the thread and vframe stream into the callee-visible object - anchor.setup_magic_on_entry(frames_array); + stream.setup_magic_on_entry(frames_array); JavaCalls::call(&result, m_doStackWalk, &args, THREAD); // Do this before anything else happens, to disable any lingering stream objects - bool ok = anchor.cleanup_magic_on_exit(frames_array); + bool ok = stream.cleanup_magic_on_exit(frames_array); // Throw pending exception if we must (void) (CHECK_NULL); @@ -379,7 +378,6 @@ // Return normally return (oop)result.get_jobject(); - } // Walk the next batch of stack frames @@ -400,8 +398,8 @@ TRAPS) { JavaThread* jt = (JavaThread*)THREAD; - StackWalkAnchor* existing_anchor = StackWalkAnchor::from_current(jt, magic, frames_array); - if (existing_anchor == NULL) { + JavaFrameStream* existing_stream = JavaFrameStream::from_current(jt, magic, frames_array); + if (existing_stream == NULL) { THROW_MSG_(vmSymbols::java_lang_InternalError(), "doStackWalk: corrupted buffers", 0L); } @@ -410,8 +408,8 @@ } if (TraceStackWalk) { - tty->print_cr("StackWalk::moreFrames frame_count %d existing_anchor " PTR_FORMAT " start %d frames %d", - frame_count, p2i(existing_anchor), start_index, frames_array->length()); + tty->print_cr("StackWalk::moreFrames frame_count %d existing_stream " PTR_FORMAT " start %d frames %d", + frame_count, p2i(existing_stream), start_index, frames_array->length()); } int end_index = start_index; if (frame_count <= 0) { @@ -421,12 +419,11 @@ int count = frame_count + start_index; assert (frames_array->length() >= count, "not enough space in buffers"); - StackWalkAnchor& anchor = (*existing_anchor); - vframeStream& vfst = anchor.vframe_stream(); - if (!vfst.at_end()) { - vfst.next(); // this was the last frame decoded in the previous batch - if (!vfst.at_end()) { - int n = fill_in_frames(mode, vfst, frame_count, start_index, + JavaFrameStream& stream = (*existing_stream); + if (!stream.at_end()) { + stream.next(); // advance past the last frame decoded in previous batch + if (!stream.at_end()) { + int n = fill_in_frames(mode, stream, frame_count, start_index, frames_array, end_index, CHECK_0); if (n < 1) { THROW_MSG_(vmSymbols::java_lang_InternalError(), "doStackWalk: later decode failed", 0L);