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#ifdef ASSERT
template <ChunkFrames frame_kind>
inline bool StackChunkFrameStream<frame_kind>::is_in_frame(void* p0) const {
assert(!is_done(), "");
intptr_t* p = (intptr_t*)p0;
! int argsize = is_compiled() ? (_cb->as_nmethod()->num_stack_arg_slots() * VMRegImpl::stack_slot_size) >> LogBytesPerWord : 0;
! int frame_size = _cb->frame_size() + argsize;
return p == sp() - frame::sender_sp_offset || ((p - unextended_sp()) >= 0 && (p - unextended_sp()) < frame_size);
}
#endif
template <ChunkFrames frame_kind>
inline frame StackChunkFrameStream<frame_kind>::to_frame() const {
if (is_done()) {
return frame(_sp, _sp, nullptr, nullptr, nullptr, nullptr, true);
} else {
! return frame(sp(), unextended_sp(), fp(), pc(), cb(), _oopmap, true);
}
}
template <ChunkFrames frame_kind>
inline address StackChunkFrameStream<frame_kind>::get_pc() const {
assert(!is_done(), "");
// Just strip it for frames on the heap.
! return pauth_strip_pointer(*(address*)(_sp - 1));
}
template <ChunkFrames frame_kind>
inline intptr_t* StackChunkFrameStream<frame_kind>::fp() const {
intptr_t* fp_addr = _sp - frame::sender_sp_offset;
#ifdef ASSERT
template <ChunkFrames frame_kind>
inline bool StackChunkFrameStream<frame_kind>::is_in_frame(void* p0) const {
assert(!is_done(), "");
intptr_t* p = (intptr_t*)p0;
! int frame_size = _cb->frame_size();
! if (is_compiled()) {
+ nmethod* nm = _cb->as_nmethod_or_null();
+ if (nm->needs_stack_repair() && nm->is_compiled_by_c2()) {
+ frame f = to_frame();
+ bool augmented = f.was_augmented_on_entry(frame_size);
+ if (!augmented) {
+ // Fix: C2 caller, so frame was not extended and thus the
+ // size read from the frame does not include the arguments.
+ // Ideally we have to count the arg size for the scalarized
+ // convention. For now we include the size of the caller frame
+ // which would at least be equal to that.
+ RegisterMap map(nullptr,
+ RegisterMap::UpdateMap::skip,
+ RegisterMap::ProcessFrames::skip,
+ RegisterMap::WalkContinuation::skip);
+ frame caller = to_frame().sender(&map);
+ assert(caller.is_compiled_frame() && caller.cb()->as_nmethod()->is_compiled_by_c2(), "needs stack repair but was not extended with c1/interpreter caller");
+ frame_size += (caller.real_fp() - caller.sp());
+ }
+ } else {
+ frame_size += _cb->as_nmethod()->num_stack_arg_slots() * VMRegImpl::stack_slot_size >> LogBytesPerWord;
+ }
+ }
return p == sp() - frame::sender_sp_offset || ((p - unextended_sp()) >= 0 && (p - unextended_sp()) < frame_size);
}
#endif
template <ChunkFrames frame_kind>
inline frame StackChunkFrameStream<frame_kind>::to_frame() const {
if (is_done()) {
return frame(_sp, _sp, nullptr, nullptr, nullptr, nullptr, true);
} else {
! frame f = frame(sp(), unextended_sp(), fp(), pc(), cb(), _oopmap, true);
+ // If caller tries to get the sender of this frame and PreserveFramePointer
+ // is set, fp() will be used which contains the old value at the time of
+ // freeze (fp is reconstructed again during thaw). Setting sp as trusted
+ // causes the sender code to use _unextended_sp instead (see sender_for_compiled_frame()).
+ f.set_sp_is_trusted();
+ return f;
}
}
template <ChunkFrames frame_kind>
inline address StackChunkFrameStream<frame_kind>::get_pc() const {
assert(!is_done(), "");
// Just strip it for frames on the heap.
! return pauth_strip_pointer(*(address*)((_callee_augmented ? _unextended_sp : _sp) - 1));
}
template <ChunkFrames frame_kind>
inline intptr_t* StackChunkFrameStream<frame_kind>::fp() const {
intptr_t* fp_addr = _sp - frame::sender_sp_offset;
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