--- a/hotspot/src/cpu/x86/vm/assembler_x86.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/assembler_x86.hpp Fri May 06 19:34:55 2011 -0700
@@ -234,6 +234,20 @@
a._disp += disp;
return a;
}
+ Address plus_disp(RegisterOrConstant disp, ScaleFactor scale = times_1) const {
+ Address a = (*this);
+ a._disp += disp.constant_or_zero() * scale_size(scale);
+ if (disp.is_register()) {
+ assert(!a.index()->is_valid(), "competing indexes");
+ a._index = disp.as_register();
+ a._scale = scale;
+ }
+ return a;
+ }
+ bool is_same_address(Address a) const {
+ // disregard _rspec
+ return _base == a._base && _disp == a._disp && _index == a._index && _scale == a._scale;
+ }
// The following two overloads are used in connection with the
// ByteSize type (see sizes.hpp). They simplify the use of
@@ -2029,6 +2043,10 @@
void addptr(Register dst, Address src) { LP64_ONLY(addq(dst, src)) NOT_LP64(addl(dst, src)); }
void addptr(Register dst, int32_t src);
void addptr(Register dst, Register src);
+ void addptr(Register dst, RegisterOrConstant src) {
+ if (src.is_constant()) addptr(dst, (int) src.as_constant());
+ else addptr(dst, src.as_register());
+ }
void andptr(Register dst, int32_t src);
void andptr(Register src1, Register src2) { LP64_ONLY(andq(src1, src2)) NOT_LP64(andl(src1, src2)) ; }
@@ -2090,7 +2108,10 @@
void subptr(Register dst, Address src) { LP64_ONLY(subq(dst, src)) NOT_LP64(subl(dst, src)); }
void subptr(Register dst, int32_t src);
void subptr(Register dst, Register src);
-
+ void subptr(Register dst, RegisterOrConstant src) {
+ if (src.is_constant()) subptr(dst, (int) src.as_constant());
+ else subptr(dst, src.as_register());
+ }
void sbbptr(Address dst, int32_t src) { LP64_ONLY(sbbq(dst, src)) NOT_LP64(sbbl(dst, src)); }
void sbbptr(Register dst, int32_t src) { LP64_ONLY(sbbq(dst, src)) NOT_LP64(sbbl(dst, src)); }
@@ -2288,6 +2309,11 @@
void movptr(Address dst, Register src);
+ void movptr(Register dst, RegisterOrConstant src) {
+ if (src.is_constant()) movptr(dst, src.as_constant());
+ else movptr(dst, src.as_register());
+ }
+
#ifdef _LP64
// Generally the next two are only used for moving NULL
// Although there are situations in initializing the mark word where
--- a/hotspot/src/cpu/x86/vm/frame_x86.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/frame_x86.cpp Fri May 06 19:34:55 2011 -0700
@@ -339,7 +339,6 @@
return fr;
}
-
//------------------------------------------------------------------------------
// frame::verify_deopt_original_pc
//
@@ -361,6 +360,55 @@
}
#endif
+//------------------------------------------------------------------------------
+// frame::adjust_unextended_sp
+void frame::adjust_unextended_sp() {
+ // If we are returning to a compiled MethodHandle call site, the
+ // saved_fp will in fact be a saved value of the unextended SP. The
+ // simplest way to tell whether we are returning to such a call site
+ // is as follows:
+
+ nmethod* sender_nm = (_cb == NULL) ? NULL : _cb->as_nmethod_or_null();
+ if (sender_nm != NULL) {
+ // If the sender PC is a deoptimization point, get the original
+ // PC. For MethodHandle call site the unextended_sp is stored in
+ // saved_fp.
+ if (sender_nm->is_deopt_mh_entry(_pc)) {
+ DEBUG_ONLY(verify_deopt_mh_original_pc(sender_nm, _fp));
+ _unextended_sp = _fp;
+ }
+ else if (sender_nm->is_deopt_entry(_pc)) {
+ DEBUG_ONLY(verify_deopt_original_pc(sender_nm, _unextended_sp));
+ }
+ else if (sender_nm->is_method_handle_return(_pc)) {
+ _unextended_sp = _fp;
+ }
+ }
+}
+
+//------------------------------------------------------------------------------
+// frame::update_map_with_saved_link
+void frame::update_map_with_saved_link(RegisterMap* map, intptr_t** link_addr) {
+ // The interpreter and compiler(s) always save EBP/RBP in a known
+ // location on entry. We must record where that location is
+ // so this if EBP/RBP was live on callout from c2 we can find
+ // the saved copy no matter what it called.
+
+ // Since the interpreter always saves EBP/RBP if we record where it is then
+ // we don't have to always save EBP/RBP on entry and exit to c2 compiled
+ // code, on entry will be enough.
+ map->set_location(rbp->as_VMReg(), (address) link_addr);
+#ifdef AMD64
+ // this is weird "H" ought to be at a higher address however the
+ // oopMaps seems to have the "H" regs at the same address and the
+ // vanilla register.
+ // XXXX make this go away
+ if (true) {
+ map->set_location(rbp->as_VMReg()->next(), (address) link_addr);
+ }
+#endif // AMD64
+}
+
//------------------------------------------------------------------------------
// frame::sender_for_interpreter_frame
@@ -372,54 +420,13 @@
// This is the sp before any possible extension (adapter/locals).
intptr_t* unextended_sp = interpreter_frame_sender_sp();
- // Stored FP.
- intptr_t* saved_fp = link();
-
- address sender_pc = this->sender_pc();
- CodeBlob* sender_cb = CodeCache::find_blob_unsafe(sender_pc);
- assert(sender_cb, "sanity");
- nmethod* sender_nm = sender_cb->as_nmethod_or_null();
-
- if (sender_nm != NULL) {
- // If the sender PC is a deoptimization point, get the original
- // PC. For MethodHandle call site the unextended_sp is stored in
- // saved_fp.
- if (sender_nm->is_deopt_mh_entry(sender_pc)) {
- DEBUG_ONLY(verify_deopt_mh_original_pc(sender_nm, saved_fp));
- unextended_sp = saved_fp;
- }
- else if (sender_nm->is_deopt_entry(sender_pc)) {
- DEBUG_ONLY(verify_deopt_original_pc(sender_nm, unextended_sp));
- }
- else if (sender_nm->is_method_handle_return(sender_pc)) {
- unextended_sp = saved_fp;
- }
- }
-
- // The interpreter and compiler(s) always save EBP/RBP in a known
- // location on entry. We must record where that location is
- // so this if EBP/RBP was live on callout from c2 we can find
- // the saved copy no matter what it called.
-
- // Since the interpreter always saves EBP/RBP if we record where it is then
- // we don't have to always save EBP/RBP on entry and exit to c2 compiled
- // code, on entry will be enough.
#ifdef COMPILER2
if (map->update_map()) {
- map->set_location(rbp->as_VMReg(), (address) addr_at(link_offset));
-#ifdef AMD64
- // this is weird "H" ought to be at a higher address however the
- // oopMaps seems to have the "H" regs at the same address and the
- // vanilla register.
- // XXXX make this go away
- if (true) {
- map->set_location(rbp->as_VMReg()->next(), (address)addr_at(link_offset));
- }
-#endif // AMD64
+ update_map_with_saved_link(map, (intptr_t**) addr_at(link_offset));
}
#endif // COMPILER2
- return frame(sender_sp, unextended_sp, saved_fp, sender_pc);
+ return frame(sender_sp, unextended_sp, link(), sender_pc());
}
@@ -427,6 +434,7 @@
// frame::sender_for_compiled_frame
frame frame::sender_for_compiled_frame(RegisterMap* map) const {
assert(map != NULL, "map must be set");
+ assert(!is_ricochet_frame(), "caller must handle this");
// frame owned by optimizing compiler
assert(_cb->frame_size() >= 0, "must have non-zero frame size");
@@ -438,31 +446,7 @@
// This is the saved value of EBP which may or may not really be an FP.
// It is only an FP if the sender is an interpreter frame (or C1?).
- intptr_t* saved_fp = (intptr_t*) *(sender_sp - frame::sender_sp_offset);
-
- // If we are returning to a compiled MethodHandle call site, the
- // saved_fp will in fact be a saved value of the unextended SP. The
- // simplest way to tell whether we are returning to such a call site
- // is as follows:
- CodeBlob* sender_cb = CodeCache::find_blob_unsafe(sender_pc);
- assert(sender_cb, "sanity");
- nmethod* sender_nm = sender_cb->as_nmethod_or_null();
-
- if (sender_nm != NULL) {
- // If the sender PC is a deoptimization point, get the original
- // PC. For MethodHandle call site the unextended_sp is stored in
- // saved_fp.
- if (sender_nm->is_deopt_mh_entry(sender_pc)) {
- DEBUG_ONLY(verify_deopt_mh_original_pc(sender_nm, saved_fp));
- unextended_sp = saved_fp;
- }
- else if (sender_nm->is_deopt_entry(sender_pc)) {
- DEBUG_ONLY(verify_deopt_original_pc(sender_nm, unextended_sp));
- }
- else if (sender_nm->is_method_handle_return(sender_pc)) {
- unextended_sp = saved_fp;
- }
- }
+ intptr_t** saved_fp_addr = (intptr_t**) (sender_sp - frame::sender_sp_offset);
if (map->update_map()) {
// Tell GC to use argument oopmaps for some runtime stubs that need it.
@@ -472,23 +456,15 @@
if (_cb->oop_maps() != NULL) {
OopMapSet::update_register_map(this, map);
}
+
// Since the prolog does the save and restore of EBP there is no oopmap
// for it so we must fill in its location as if there was an oopmap entry
// since if our caller was compiled code there could be live jvm state in it.
- map->set_location(rbp->as_VMReg(), (address) (sender_sp - frame::sender_sp_offset));
-#ifdef AMD64
- // this is weird "H" ought to be at a higher address however the
- // oopMaps seems to have the "H" regs at the same address and the
- // vanilla register.
- // XXXX make this go away
- if (true) {
- map->set_location(rbp->as_VMReg()->next(), (address) (sender_sp - frame::sender_sp_offset));
- }
-#endif // AMD64
+ update_map_with_saved_link(map, saved_fp_addr);
}
assert(sender_sp != sp(), "must have changed");
- return frame(sender_sp, unextended_sp, saved_fp, sender_pc);
+ return frame(sender_sp, unextended_sp, *saved_fp_addr, sender_pc);
}
@@ -502,6 +478,7 @@
if (is_entry_frame()) return sender_for_entry_frame(map);
if (is_interpreted_frame()) return sender_for_interpreter_frame(map);
assert(_cb == CodeCache::find_blob(pc()),"Must be the same");
+ if (is_ricochet_frame()) return sender_for_ricochet_frame(map);
if (_cb != NULL) {
return sender_for_compiled_frame(map);
--- a/hotspot/src/cpu/x86/vm/frame_x86.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/frame_x86.hpp Fri May 06 19:34:55 2011 -0700
@@ -164,6 +164,7 @@
// original sp we use that convention.
intptr_t* _unextended_sp;
+ void adjust_unextended_sp();
intptr_t* ptr_at_addr(int offset) const {
return (intptr_t*) addr_at(offset);
@@ -197,6 +198,9 @@
// expression stack tos if we are nested in a java call
intptr_t* interpreter_frame_last_sp() const;
+ // helper to update a map with callee-saved RBP
+ static void update_map_with_saved_link(RegisterMap* map, intptr_t** link_addr);
+
#ifndef CC_INTERP
// deoptimization support
void interpreter_frame_set_last_sp(intptr_t* sp);
--- a/hotspot/src/cpu/x86/vm/frame_x86.inline.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/frame_x86.inline.hpp Fri May 06 19:34:55 2011 -0700
@@ -62,6 +62,7 @@
_pc = pc;
assert(pc != NULL, "no pc?");
_cb = CodeCache::find_blob(pc);
+ adjust_unextended_sp();
address original_pc = nmethod::get_deopt_original_pc(this);
if (original_pc != NULL) {
--- a/hotspot/src/cpu/x86/vm/interpreter_x86.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/interpreter_x86.hpp Fri May 06 19:34:55 2011 -0700
@@ -26,7 +26,9 @@
#define CPU_X86_VM_INTERPRETER_X86_HPP
public:
- static Address::ScaleFactor stackElementScale() { return Address::times_4; }
+ static Address::ScaleFactor stackElementScale() {
+ return NOT_LP64(Address::times_4) LP64_ONLY(Address::times_8);
+ }
// Offset from rsp (which points to the last stack element)
static int expr_offset_in_bytes(int i) { return stackElementSize * i; }
--- a/hotspot/src/cpu/x86/vm/methodHandles_x86.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/methodHandles_x86.cpp Fri May 06 19:34:55 2011 -0700
@@ -69,23 +69,475 @@
return me;
}
+// stack walking support
+
+frame MethodHandles::ricochet_frame_sender(const frame& fr, RegisterMap *map) {
+ RicochetFrame* f = RicochetFrame::from_frame(fr);
+ if (map->update_map())
+ frame::update_map_with_saved_link(map, &f->_sender_link);
+ return frame(f->extended_sender_sp(), f->exact_sender_sp(), f->sender_link(), f->sender_pc());
+}
+
+void MethodHandles::ricochet_frame_oops_do(const frame& fr, OopClosure* blk, const RegisterMap* reg_map) {
+ RicochetFrame* f = RicochetFrame::from_frame(fr);
+
+ // pick up the argument type descriptor:
+ Thread* thread = Thread::current();
+ Handle cookie(thread, f->compute_saved_args_layout(true, true));
+
+ // process fixed part
+ blk->do_oop((oop*)f->saved_target_addr());
+ blk->do_oop((oop*)f->saved_args_layout_addr());
+
+ // process variable arguments:
+ if (cookie.is_null()) return; // no arguments to describe
+
+ // the cookie is actually the invokeExact method for my target
+ // his argument signature is what I'm interested in
+ assert(cookie->is_method(), "");
+ methodHandle invoker(thread, methodOop(cookie()));
+ assert(invoker->name() == vmSymbols::invokeExact_name(), "must be this kind of method");
+ assert(!invoker->is_static(), "must have MH argument");
+ int slot_count = invoker->size_of_parameters();
+ assert(slot_count >= 1, "must include 'this'");
+ intptr_t* base = f->saved_args_base();
+ intptr_t* retval = NULL;
+ if (f->has_return_value_slot())
+ retval = f->return_value_slot_addr();
+ int slot_num = slot_count;
+ intptr_t* loc = &base[slot_num -= 1];
+ //blk->do_oop((oop*) loc); // original target, which is irrelevant
+ int arg_num = 0;
+ for (SignatureStream ss(invoker->signature()); !ss.is_done(); ss.next()) {
+ if (ss.at_return_type()) continue;
+ BasicType ptype = ss.type();
+ if (ptype == T_ARRAY) ptype = T_OBJECT; // fold all refs to T_OBJECT
+ assert(ptype >= T_BOOLEAN && ptype <= T_OBJECT, "not array or void");
+ loc = &base[slot_num -= type2size[ptype]];
+ bool is_oop = (ptype == T_OBJECT && loc != retval);
+ if (is_oop) blk->do_oop((oop*)loc);
+ arg_num += 1;
+ }
+ assert(slot_num == 0, "must have processed all the arguments");
+}
+
+oop MethodHandles::RicochetFrame::compute_saved_args_layout(bool read_cache, bool write_cache) {
+ oop cookie = NULL;
+ if (read_cache) {
+ cookie = saved_args_layout();
+ if (cookie != NULL) return cookie;
+ }
+ oop target = saved_target();
+ oop mtype = java_lang_invoke_MethodHandle::type(target);
+ oop mtform = java_lang_invoke_MethodType::form(mtype);
+ cookie = java_lang_invoke_MethodTypeForm::vmlayout(mtform);
+ if (write_cache) {
+ (*saved_args_layout_addr()) = cookie;
+ }
+ return cookie;
+}
+
+void MethodHandles::RicochetFrame::generate_ricochet_blob(MacroAssembler* _masm,
+ // output params:
+ int* frame_size_in_words,
+ int* bounce_offset,
+ int* exception_offset) {
+ (*frame_size_in_words) = RicochetFrame::frame_size_in_bytes() / wordSize;
+
+ address start = __ pc();
+
#ifdef ASSERT
-static void verify_argslot(MacroAssembler* _masm, Register argslot_reg,
- const char* error_message) {
+ __ hlt(); __ hlt(); __ hlt();
+ // here's a hint of something special:
+ __ push(MAGIC_NUMBER_1);
+ __ push(MAGIC_NUMBER_2);
+#endif //ASSERT
+ __ hlt(); // not reached
+
+ // A return PC has just been popped from the stack.
+ // Return values are in registers.
+ // The ebp points into the RicochetFrame, which contains
+ // a cleanup continuation we must return to.
+
+ (*bounce_offset) = __ pc() - start;
+ BLOCK_COMMENT("ricochet_blob.bounce");
+
+ if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
+ trace_method_handle(_masm, "ricochet_blob.bounce");
+
+ __ jmp(frame_address(continuation_offset_in_bytes()));
+ __ hlt();
+ DEBUG_ONLY(__ push(MAGIC_NUMBER_2));
+
+ (*exception_offset) = __ pc() - start;
+ BLOCK_COMMENT("ricochet_blob.exception");
+
+ // compare this to Interpreter::rethrow_exception_entry, which is parallel code
+ // for example, see TemplateInterpreterGenerator::generate_throw_exception
+ // Live registers in:
+ // rax: exception
+ // rdx: return address/pc that threw exception (ignored, always equal to bounce addr)
+ __ verify_oop(rax);
+
+ // no need to empty_FPU_stack or reinit_heapbase, since caller frame will do the same if needed
+
+ // Take down the frame.
+
+ // Cf. InterpreterMacroAssembler::remove_activation.
+ leave_ricochet_frame(_masm, /*rcx_recv=*/ noreg,
+ saved_last_sp_register(),
+ /*sender_pc_reg=*/ rdx);
+
+ // In between activations - previous activation type unknown yet
+ // compute continuation point - the continuation point expects the
+ // following registers set up:
+ //
+ // rax: exception
+ // rdx: return address/pc that threw exception
+ // rsp: expression stack of caller
+ // rbp: ebp of caller
+ __ push(rax); // save exception
+ __ push(rdx); // save return address
+ Register thread_reg = LP64_ONLY(r15_thread) NOT_LP64(rdi);
+ NOT_LP64(__ get_thread(thread_reg));
+ __ call_VM_leaf(CAST_FROM_FN_PTR(address,
+ SharedRuntime::exception_handler_for_return_address),
+ thread_reg, rdx);
+ __ mov(rbx, rax); // save exception handler
+ __ pop(rdx); // restore return address
+ __ pop(rax); // restore exception
+ __ jmp(rbx); // jump to exception
+ // handler of caller
+}
+
+void MethodHandles::RicochetFrame::enter_ricochet_frame(MacroAssembler* _masm,
+ Register rcx_recv,
+ Register rax_argv,
+ address return_handler,
+ Register rbx_temp) {
+ const Register saved_last_sp = saved_last_sp_register();
+ Address rcx_mh_vmtarget( rcx_recv, java_lang_invoke_MethodHandle::vmtarget_offset_in_bytes() );
+ Address rcx_amh_conversion( rcx_recv, java_lang_invoke_AdapterMethodHandle::conversion_offset_in_bytes() );
+
+ // Push the RicochetFrame a word at a time.
+ // This creates something similar to an interpreter frame.
+ // Cf. TemplateInterpreterGenerator::generate_fixed_frame.
+ BLOCK_COMMENT("push RicochetFrame {");
+ DEBUG_ONLY(int rfo = (int) sizeof(RicochetFrame));
+ assert((rfo -= wordSize) == RicochetFrame::sender_pc_offset_in_bytes(), "");
+#define RF_FIELD(push_value, name) \
+ { push_value; \
+ assert((rfo -= wordSize) == RicochetFrame::name##_offset_in_bytes(), ""); }
+ RF_FIELD(__ push(rbp), sender_link);
+ RF_FIELD(__ push(saved_last_sp), exact_sender_sp); // rsi/r13
+ RF_FIELD(__ pushptr(rcx_amh_conversion), conversion);
+ RF_FIELD(__ push(rax_argv), saved_args_base); // can be updated if args are shifted
+ RF_FIELD(__ push((int32_t) NULL_WORD), saved_args_layout); // cache for GC layout cookie
+ if (UseCompressedOops) {
+ __ load_heap_oop(rbx_temp, rcx_mh_vmtarget);
+ RF_FIELD(__ push(rbx_temp), saved_target);
+ } else {
+ RF_FIELD(__ pushptr(rcx_mh_vmtarget), saved_target);
+ }
+ __ lea(rbx_temp, ExternalAddress(return_handler));
+ RF_FIELD(__ push(rbx_temp), continuation);
+#undef RF_FIELD
+ assert(rfo == 0, "fully initialized the RicochetFrame");
+ // compute new frame pointer:
+ __ lea(rbp, Address(rsp, RicochetFrame::sender_link_offset_in_bytes()));
+ // Push guard word #1 in debug mode.
+ DEBUG_ONLY(__ push((int32_t) RicochetFrame::MAGIC_NUMBER_1));
+ // For debugging, leave behind an indication of which stub built this frame.
+ DEBUG_ONLY({ Label L; __ call(L, relocInfo::none); __ bind(L); });
+ BLOCK_COMMENT("} RicochetFrame");
+}
+
+void MethodHandles::RicochetFrame::leave_ricochet_frame(MacroAssembler* _masm,
+ Register rcx_recv,
+ Register new_sp_reg,
+ Register sender_pc_reg) {
+ assert_different_registers(rcx_recv, new_sp_reg, sender_pc_reg);
+ const Register saved_last_sp = saved_last_sp_register();
+ // Take down the frame.
+ // Cf. InterpreterMacroAssembler::remove_activation.
+ BLOCK_COMMENT("end_ricochet_frame {");
+ // TO DO: If (exact_sender_sp - extended_sender_sp) > THRESH, compact the frame down.
+ // This will keep stack in bounds even with unlimited tailcalls, each with an adapter.
+ if (rcx_recv->is_valid())
+ __ movptr(rcx_recv, RicochetFrame::frame_address(RicochetFrame::saved_target_offset_in_bytes()));
+ __ movptr(sender_pc_reg, RicochetFrame::frame_address(RicochetFrame::sender_pc_offset_in_bytes()));
+ __ movptr(saved_last_sp, RicochetFrame::frame_address(RicochetFrame::exact_sender_sp_offset_in_bytes()));
+ __ movptr(rbp, RicochetFrame::frame_address(RicochetFrame::sender_link_offset_in_bytes()));
+ __ mov(rsp, new_sp_reg);
+ BLOCK_COMMENT("} end_ricochet_frame");
+}
+
+// Emit code to verify that RBP is pointing at a valid ricochet frame.
+#ifdef ASSERT
+enum {
+ ARG_LIMIT = 255, SLOP = 4,
+ // use this parameter for checking for garbage stack movements:
+ UNREASONABLE_STACK_MOVE = (ARG_LIMIT + SLOP)
+ // the slop defends against false alarms due to fencepost errors
+};
+
+void MethodHandles::RicochetFrame::verify_clean(MacroAssembler* _masm) {
+ // The stack should look like this:
+ // ... keep1 | dest=42 | keep2 | RF | magic | handler | magic | recursive args |
+ // Check various invariants.
+ verify_offsets();
+
+ Register rdi_temp = rdi;
+ Register rcx_temp = rcx;
+ { __ push(rdi_temp); __ push(rcx_temp); }
+#define UNPUSH_TEMPS \
+ { __ pop(rcx_temp); __ pop(rdi_temp); }
+
+ Address magic_number_1_addr = RicochetFrame::frame_address(RicochetFrame::magic_number_1_offset_in_bytes());
+ Address magic_number_2_addr = RicochetFrame::frame_address(RicochetFrame::magic_number_2_offset_in_bytes());
+ Address continuation_addr = RicochetFrame::frame_address(RicochetFrame::continuation_offset_in_bytes());
+ Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
+ Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
+
+ Label L_bad, L_ok;
+ BLOCK_COMMENT("verify_clean {");
+ // Magic numbers must check out:
+ __ cmpptr(magic_number_1_addr, (int32_t) MAGIC_NUMBER_1);
+ __ jcc(Assembler::notEqual, L_bad);
+ __ cmpptr(magic_number_2_addr, (int32_t) MAGIC_NUMBER_2);
+ __ jcc(Assembler::notEqual, L_bad);
+
+ // Arguments pointer must look reasonable:
+ __ movptr(rcx_temp, saved_args_base_addr);
+ __ cmpptr(rcx_temp, rbp);
+ __ jcc(Assembler::below, L_bad);
+ __ subptr(rcx_temp, UNREASONABLE_STACK_MOVE * Interpreter::stackElementSize);
+ __ cmpptr(rcx_temp, rbp);
+ __ jcc(Assembler::above, L_bad);
+
+ load_conversion_dest_type(_masm, rdi_temp, conversion_addr);
+ __ cmpl(rdi_temp, T_VOID);
+ __ jcc(Assembler::equal, L_ok);
+ __ movptr(rcx_temp, saved_args_base_addr);
+ load_conversion_vminfo(_masm, rdi_temp, conversion_addr);
+ __ cmpptr(Address(rcx_temp, rdi_temp, Interpreter::stackElementScale()),
+ (int32_t) RETURN_VALUE_PLACEHOLDER);
+ __ jcc(Assembler::equal, L_ok);
+ __ BIND(L_bad);
+ UNPUSH_TEMPS;
+ __ stop("damaged ricochet frame");
+ __ BIND(L_ok);
+ UNPUSH_TEMPS;
+ BLOCK_COMMENT("} verify_clean");
+
+#undef UNPUSH_TEMPS
+
+}
+#endif //ASSERT
+
+void MethodHandles::load_klass_from_Class(MacroAssembler* _masm, Register klass_reg) {
+ if (VerifyMethodHandles)
+ verify_klass(_masm, klass_reg, SystemDictionaryHandles::Class_klass(),
+ "AMH argument is a Class");
+ __ load_heap_oop(klass_reg, Address(klass_reg, java_lang_Class::klass_offset_in_bytes()));
+}
+
+void MethodHandles::load_conversion_vminfo(MacroAssembler* _masm, Register reg, Address conversion_field_addr) {
+ int bits = BitsPerByte;
+ int offset = (CONV_VMINFO_SHIFT / bits);
+ int shift = (CONV_VMINFO_SHIFT % bits);
+ __ load_unsigned_byte(reg, conversion_field_addr.plus_disp(offset));
+ assert(CONV_VMINFO_MASK == right_n_bits(bits - shift), "else change type of previous load");
+ assert(shift == 0, "no shift needed");
+}
+
+void MethodHandles::load_conversion_dest_type(MacroAssembler* _masm, Register reg, Address conversion_field_addr) {
+ int bits = BitsPerByte;
+ int offset = (CONV_DEST_TYPE_SHIFT / bits);
+ int shift = (CONV_DEST_TYPE_SHIFT % bits);
+ __ load_unsigned_byte(reg, conversion_field_addr.plus_disp(offset));
+ assert(CONV_TYPE_MASK == right_n_bits(bits - shift), "else change type of previous load");
+ __ shrl(reg, shift);
+ DEBUG_ONLY(int conv_type_bits = (int) exact_log2(CONV_TYPE_MASK+1));
+ assert((shift + conv_type_bits) == bits, "left justified in byte");
+}
+
+void MethodHandles::load_stack_move(MacroAssembler* _masm,
+ Register rdi_stack_move,
+ Register rcx_amh,
+ bool might_be_negative) {
+ BLOCK_COMMENT("load_stack_move");
+ Address rcx_amh_conversion(rcx_amh, java_lang_invoke_AdapterMethodHandle::conversion_offset_in_bytes());
+ __ movl(rdi_stack_move, rcx_amh_conversion);
+ __ sarl(rdi_stack_move, CONV_STACK_MOVE_SHIFT);
+#ifdef _LP64
+ if (might_be_negative) {
+ // clean high bits of stack motion register (was loaded as an int)
+ __ movslq(rdi_stack_move, rdi_stack_move);
+ }
+#endif //_LP64
+ if (VerifyMethodHandles) {
+ Label L_ok, L_bad;
+ int32_t stack_move_limit = 0x4000; // extra-large
+ __ cmpptr(rdi_stack_move, stack_move_limit);
+ __ jcc(Assembler::greaterEqual, L_bad);
+ __ cmpptr(rdi_stack_move, -stack_move_limit);
+ __ jcc(Assembler::greater, L_ok);
+ __ bind(L_bad);
+ __ stop("load_stack_move of garbage value");
+ __ BIND(L_ok);
+ }
+}
+
+#ifndef PRODUCT
+void MethodHandles::RicochetFrame::verify_offsets() {
+ // Check compatibility of this struct with the more generally used offsets of class frame:
+ int ebp_off = sender_link_offset_in_bytes(); // offset from struct base to local rbp value
+ assert(ebp_off + wordSize*frame::interpreter_frame_method_offset == saved_args_base_offset_in_bytes(), "");
+ assert(ebp_off + wordSize*frame::interpreter_frame_last_sp_offset == conversion_offset_in_bytes(), "");
+ assert(ebp_off + wordSize*frame::interpreter_frame_sender_sp_offset == exact_sender_sp_offset_in_bytes(), "");
+ // These last two have to be exact:
+ assert(ebp_off + wordSize*frame::link_offset == sender_link_offset_in_bytes(), "");
+ assert(ebp_off + wordSize*frame::return_addr_offset == sender_pc_offset_in_bytes(), "");
+}
+
+void MethodHandles::RicochetFrame::verify() const {
+ verify_offsets();
+ assert(magic_number_1() == MAGIC_NUMBER_1, "");
+ assert(magic_number_2() == MAGIC_NUMBER_2, "");
+ if (!Universe::heap()->is_gc_active()) {
+ if (saved_args_layout() != NULL) {
+ assert(saved_args_layout()->is_method(), "must be valid oop");
+ }
+ if (saved_target() != NULL) {
+ assert(java_lang_invoke_MethodHandle::is_instance(saved_target()), "checking frame value");
+ }
+ }
+ int conv_op = adapter_conversion_op(conversion());
+ assert(conv_op == java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS ||
+ conv_op == java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS ||
+ conv_op == java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_REF,
+ "must be a sane conversion");
+ if (has_return_value_slot()) {
+ assert(*return_value_slot_addr() == RETURN_VALUE_PLACEHOLDER, "");
+ }
+}
+#endif //PRODUCT
+
+#ifdef ASSERT
+void MethodHandles::verify_argslot(MacroAssembler* _masm,
+ Register argslot_reg,
+ const char* error_message) {
// Verify that argslot lies within (rsp, rbp].
Label L_ok, L_bad;
- BLOCK_COMMENT("{ verify_argslot");
+ BLOCK_COMMENT("verify_argslot {");
__ cmpptr(argslot_reg, rbp);
__ jccb(Assembler::above, L_bad);
__ cmpptr(rsp, argslot_reg);
__ jccb(Assembler::below, L_ok);
__ bind(L_bad);
__ stop(error_message);
- __ bind(L_ok);
+ __ BIND(L_ok);
BLOCK_COMMENT("} verify_argslot");
}
-#endif
+
+void MethodHandles::verify_argslots(MacroAssembler* _masm,
+ RegisterOrConstant arg_slots,
+ Register arg_slot_base_reg,
+ bool negate_argslots,
+ const char* error_message) {
+ // Verify that [argslot..argslot+size) lies within (rsp, rbp).
+ Label L_ok, L_bad;
+ Register rdi_temp = rdi;
+ BLOCK_COMMENT("verify_argslots {");
+ __ push(rdi_temp);
+ if (negate_argslots) {
+ if (arg_slots.is_constant()) {
+ arg_slots = -1 * arg_slots.as_constant();
+ } else {
+ __ movptr(rdi_temp, arg_slots);
+ __ negptr(rdi_temp);
+ arg_slots = rdi_temp;
+ }
+ }
+ __ lea(rdi_temp, Address(arg_slot_base_reg, arg_slots, Interpreter::stackElementScale()));
+ __ cmpptr(rdi_temp, rbp);
+ __ pop(rdi_temp);
+ __ jcc(Assembler::above, L_bad);
+ __ cmpptr(rsp, arg_slot_base_reg);
+ __ jcc(Assembler::below, L_ok);
+ __ bind(L_bad);
+ __ stop(error_message);
+ __ BIND(L_ok);
+ BLOCK_COMMENT("} verify_argslots");
+}
+// Make sure that arg_slots has the same sign as the given direction.
+// If (and only if) arg_slots is a assembly-time constant, also allow it to be zero.
+void MethodHandles::verify_stack_move(MacroAssembler* _masm,
+ RegisterOrConstant arg_slots, int direction) {
+ bool allow_zero = arg_slots.is_constant();
+ if (direction == 0) { direction = +1; allow_zero = true; }
+ assert(stack_move_unit() == -1, "else add extra checks here");
+ if (arg_slots.is_register()) {
+ Label L_ok, L_bad;
+ BLOCK_COMMENT("verify_stack_move {");
+ // testl(arg_slots.as_register(), -stack_move_unit() - 1); // no need
+ // jcc(Assembler::notZero, L_bad);
+ __ cmpptr(arg_slots.as_register(), (int32_t) NULL_WORD);
+ if (direction > 0) {
+ __ jcc(allow_zero ? Assembler::less : Assembler::lessEqual, L_bad);
+ __ cmpptr(arg_slots.as_register(), (int32_t) UNREASONABLE_STACK_MOVE);
+ __ jcc(Assembler::less, L_ok);
+ } else {
+ __ jcc(allow_zero ? Assembler::greater : Assembler::greaterEqual, L_bad);
+ __ cmpptr(arg_slots.as_register(), (int32_t) -UNREASONABLE_STACK_MOVE);
+ __ jcc(Assembler::greater, L_ok);
+ }
+ __ bind(L_bad);
+ if (direction > 0)
+ __ stop("assert arg_slots > 0");
+ else
+ __ stop("assert arg_slots < 0");
+ __ BIND(L_ok);
+ BLOCK_COMMENT("} verify_stack_move");
+ } else {
+ intptr_t size = arg_slots.as_constant();
+ if (direction < 0) size = -size;
+ assert(size >= 0, "correct direction of constant move");
+ assert(size < UNREASONABLE_STACK_MOVE, "reasonable size of constant move");
+ }
+}
+
+void MethodHandles::verify_klass(MacroAssembler* _masm,
+ Register obj, KlassHandle klass,
+ const char* error_message) {
+ oop* klass_addr = klass.raw_value();
+ assert(klass_addr >= SystemDictionaryHandles::Object_klass().raw_value() &&
+ klass_addr <= SystemDictionaryHandles::Long_klass().raw_value(),
+ "must be one of the SystemDictionaryHandles");
+ Register temp = rdi;
+ Label L_ok, L_bad;
+ BLOCK_COMMENT("verify_klass {");
+ __ verify_oop(obj);
+ __ testptr(obj, obj);
+ __ jcc(Assembler::zero, L_bad);
+ __ push(temp);
+ __ load_klass(temp, obj);
+ __ cmpptr(temp, ExternalAddress((address) klass_addr));
+ __ jcc(Assembler::equal, L_ok);
+ intptr_t super_check_offset = klass->super_check_offset();
+ __ movptr(temp, Address(temp, super_check_offset));
+ __ cmpptr(temp, ExternalAddress((address) klass_addr));
+ __ jcc(Assembler::equal, L_ok);
+ __ pop(temp);
+ __ bind(L_bad);
+ __ stop(error_message);
+ __ BIND(L_ok);
+ __ pop(temp);
+ BLOCK_COMMENT("} verify_klass");
+}
+#endif //ASSERT
// Code generation
address MethodHandles::generate_method_handle_interpreter_entry(MacroAssembler* _masm) {
@@ -116,6 +568,9 @@
address entry_point = __ pc();
// fetch the MethodType from the method handle into rax (the 'check' register)
+ // FIXME: Interpreter should transmit pre-popped stack pointer, to locate base of arg list.
+ // This would simplify several touchy bits of code.
+ // See 6984712: JSR 292 method handle calls need a clean argument base pointer
{
Register tem = rbx_method;
for (jint* pchase = methodOopDesc::method_type_offsets_chain(); (*pchase) != -1; pchase++) {
@@ -128,17 +583,23 @@
__ load_heap_oop(rdx_temp, Address(rax_mtype, __ delayed_value(java_lang_invoke_MethodType::form_offset_in_bytes, rdi_temp)));
Register rdx_vmslots = rdx_temp;
__ movl(rdx_vmslots, Address(rdx_temp, __ delayed_value(java_lang_invoke_MethodTypeForm::vmslots_offset_in_bytes, rdi_temp)));
- __ movptr(rcx_recv, __ argument_address(rdx_vmslots));
+ Address mh_receiver_slot_addr = __ argument_address(rdx_vmslots);
+ __ movptr(rcx_recv, mh_receiver_slot_addr);
trace_method_handle(_masm, "invokeExact");
__ check_method_handle_type(rax_mtype, rcx_recv, rdi_temp, wrong_method_type);
+
+ // Nobody uses the MH receiver slot after this. Make sure.
+ DEBUG_ONLY(__ movptr(mh_receiver_slot_addr, (int32_t)0x999999));
+
__ jump_to_method_handle_entry(rcx_recv, rdi_temp);
// for invokeGeneric (only), apply argument and result conversions on the fly
__ bind(invoke_generic_slow_path);
#ifdef ASSERT
- { Label L;
+ if (VerifyMethodHandles) {
+ Label L;
__ cmpb(Address(rbx_method, methodOopDesc::intrinsic_id_offset_in_bytes()), (int) vmIntrinsics::_invokeGeneric);
__ jcc(Assembler::equal, L);
__ stop("bad methodOop::intrinsic_id");
@@ -150,7 +611,7 @@
// make room on the stack for another pointer:
Register rcx_argslot = rcx_recv;
__ lea(rcx_argslot, __ argument_address(rdx_vmslots, 1));
- insert_arg_slots(_masm, 2 * stack_move_unit(), _INSERT_REF_MASK,
+ insert_arg_slots(_masm, 2 * stack_move_unit(),
rcx_argslot, rbx_temp, rdx_temp);
// load up an adapter from the calling type (Java weaves this)
@@ -185,40 +646,28 @@
return entry_point;
}
+// Workaround for C++ overloading nastiness on '0' for RegisterOrConstant.
+static RegisterOrConstant constant(int value) {
+ return RegisterOrConstant(value);
+}
+
// Helper to insert argument slots into the stack.
-// arg_slots must be a multiple of stack_move_unit() and <= 0
+// arg_slots must be a multiple of stack_move_unit() and < 0
+// rax_argslot is decremented to point to the new (shifted) location of the argslot
+// But, rdx_temp ends up holding the original value of rax_argslot.
void MethodHandles::insert_arg_slots(MacroAssembler* _masm,
RegisterOrConstant arg_slots,
- int arg_mask,
Register rax_argslot,
- Register rbx_temp, Register rdx_temp, Register temp3_reg) {
- assert(temp3_reg == noreg, "temp3 not required");
+ Register rbx_temp, Register rdx_temp) {
+ // allow constant zero
+ if (arg_slots.is_constant() && arg_slots.as_constant() == 0)
+ return;
assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
(!arg_slots.is_register() ? rsp : arg_slots.as_register()));
-
-#ifdef ASSERT
- verify_argslot(_masm, rax_argslot, "insertion point must fall within current frame");
- if (arg_slots.is_register()) {
- Label L_ok, L_bad;
- __ cmpptr(arg_slots.as_register(), (int32_t) NULL_WORD);
- __ jccb(Assembler::greater, L_bad);
- __ testl(arg_slots.as_register(), -stack_move_unit() - 1);
- __ jccb(Assembler::zero, L_ok);
- __ bind(L_bad);
- __ stop("assert arg_slots <= 0 and clear low bits");
- __ bind(L_ok);
- } else {
- assert(arg_slots.as_constant() <= 0, "");
- assert(arg_slots.as_constant() % -stack_move_unit() == 0, "");
- }
-#endif //ASSERT
-
-#ifdef _LP64
- if (arg_slots.is_register()) {
- // clean high bits of stack motion register (was loaded as an int)
- __ movslq(arg_slots.as_register(), arg_slots.as_register());
- }
-#endif
+ if (VerifyMethodHandles)
+ verify_argslot(_masm, rax_argslot, "insertion point must fall within current frame");
+ if (VerifyMethodHandles)
+ verify_stack_move(_masm, arg_slots, -1);
// Make space on the stack for the inserted argument(s).
// Then pull down everything shallower than rax_argslot.
@@ -230,59 +679,39 @@
// argslot -= size;
BLOCK_COMMENT("insert_arg_slots {");
__ mov(rdx_temp, rsp); // source pointer for copy
- __ lea(rsp, Address(rsp, arg_slots, Address::times_ptr));
+ __ lea(rsp, Address(rsp, arg_slots, Interpreter::stackElementScale()));
{
Label loop;
__ BIND(loop);
// pull one word down each time through the loop
__ movptr(rbx_temp, Address(rdx_temp, 0));
- __ movptr(Address(rdx_temp, arg_slots, Address::times_ptr), rbx_temp);
+ __ movptr(Address(rdx_temp, arg_slots, Interpreter::stackElementScale()), rbx_temp);
__ addptr(rdx_temp, wordSize);
__ cmpptr(rdx_temp, rax_argslot);
- __ jccb(Assembler::less, loop);
+ __ jcc(Assembler::less, loop);
}
// Now move the argslot down, to point to the opened-up space.
- __ lea(rax_argslot, Address(rax_argslot, arg_slots, Address::times_ptr));
+ __ lea(rax_argslot, Address(rax_argslot, arg_slots, Interpreter::stackElementScale()));
BLOCK_COMMENT("} insert_arg_slots");
}
// Helper to remove argument slots from the stack.
-// arg_slots must be a multiple of stack_move_unit() and >= 0
+// arg_slots must be a multiple of stack_move_unit() and > 0
void MethodHandles::remove_arg_slots(MacroAssembler* _masm,
- RegisterOrConstant arg_slots,
- Register rax_argslot,
- Register rbx_temp, Register rdx_temp, Register temp3_reg) {
- assert(temp3_reg == noreg, "temp3 not required");
+ RegisterOrConstant arg_slots,
+ Register rax_argslot,
+ Register rbx_temp, Register rdx_temp) {
+ // allow constant zero
+ if (arg_slots.is_constant() && arg_slots.as_constant() == 0)
+ return;
assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
(!arg_slots.is_register() ? rsp : arg_slots.as_register()));
-
-#ifdef ASSERT
- // Verify that [argslot..argslot+size) lies within (rsp, rbp).
- __ lea(rbx_temp, Address(rax_argslot, arg_slots, Address::times_ptr));
- verify_argslot(_masm, rbx_temp, "deleted argument(s) must fall within current frame");
- if (arg_slots.is_register()) {
- Label L_ok, L_bad;
- __ cmpptr(arg_slots.as_register(), (int32_t) NULL_WORD);
- __ jccb(Assembler::less, L_bad);
- __ testl(arg_slots.as_register(), -stack_move_unit() - 1);
- __ jccb(Assembler::zero, L_ok);
- __ bind(L_bad);
- __ stop("assert arg_slots >= 0 and clear low bits");
- __ bind(L_ok);
- } else {
- assert(arg_slots.as_constant() >= 0, "");
- assert(arg_slots.as_constant() % -stack_move_unit() == 0, "");
- }
-#endif //ASSERT
-
-#ifdef _LP64
- if (false) { // not needed, since register is positive
- // clean high bits of stack motion register (was loaded as an int)
- if (arg_slots.is_register())
- __ movslq(arg_slots.as_register(), arg_slots.as_register());
- }
-#endif
+ if (VerifyMethodHandles)
+ verify_argslots(_masm, arg_slots, rax_argslot, false,
+ "deleted argument(s) must fall within current frame");
+ if (VerifyMethodHandles)
+ verify_stack_move(_masm, arg_slots, +1);
BLOCK_COMMENT("remove_arg_slots {");
// Pull up everything shallower than rax_argslot.
@@ -299,54 +728,332 @@
__ BIND(loop);
// pull one word up each time through the loop
__ movptr(rbx_temp, Address(rdx_temp, 0));
- __ movptr(Address(rdx_temp, arg_slots, Address::times_ptr), rbx_temp);
+ __ movptr(Address(rdx_temp, arg_slots, Interpreter::stackElementScale()), rbx_temp);
__ addptr(rdx_temp, -wordSize);
__ cmpptr(rdx_temp, rsp);
- __ jccb(Assembler::greaterEqual, loop);
+ __ jcc(Assembler::greaterEqual, loop);
}
// Now move the argslot up, to point to the just-copied block.
- __ lea(rsp, Address(rsp, arg_slots, Address::times_ptr));
+ __ lea(rsp, Address(rsp, arg_slots, Interpreter::stackElementScale()));
// And adjust the argslot address to point at the deletion point.
- __ lea(rax_argslot, Address(rax_argslot, arg_slots, Address::times_ptr));
+ __ lea(rax_argslot, Address(rax_argslot, arg_slots, Interpreter::stackElementScale()));
BLOCK_COMMENT("} remove_arg_slots");
}
+// Helper to copy argument slots to the top of the stack.
+// The sequence starts with rax_argslot and is counted by slot_count
+// slot_count must be a multiple of stack_move_unit() and >= 0
+// This function blows the temps but does not change rax_argslot.
+void MethodHandles::push_arg_slots(MacroAssembler* _masm,
+ Register rax_argslot,
+ RegisterOrConstant slot_count,
+ int skip_words_count,
+ Register rbx_temp, Register rdx_temp) {
+ assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
+ (!slot_count.is_register() ? rbp : slot_count.as_register()),
+ rsp);
+ assert(Interpreter::stackElementSize == wordSize, "else change this code");
+
+ if (VerifyMethodHandles)
+ verify_stack_move(_masm, slot_count, 0);
+
+ // allow constant zero
+ if (slot_count.is_constant() && slot_count.as_constant() == 0)
+ return;
+
+ BLOCK_COMMENT("push_arg_slots {");
+
+ Register rbx_top = rbx_temp;
+
+ // There is at most 1 word to carry down with the TOS.
+ switch (skip_words_count) {
+ case 1: __ pop(rdx_temp); break;
+ case 0: break;
+ default: ShouldNotReachHere();
+ }
+
+ if (slot_count.is_constant()) {
+ for (int i = slot_count.as_constant() - 1; i >= 0; i--) {
+ __ pushptr(Address(rax_argslot, i * wordSize));
+ }
+ } else {
+ Label L_plural, L_loop, L_break;
+ // Emit code to dynamically check for the common cases, zero and one slot.
+ __ cmpl(slot_count.as_register(), (int32_t) 1);
+ __ jccb(Assembler::greater, L_plural);
+ __ jccb(Assembler::less, L_break);
+ __ pushptr(Address(rax_argslot, 0));
+ __ jmpb(L_break);
+ __ BIND(L_plural);
+
+ // Loop for 2 or more:
+ // rbx = &rax[slot_count]
+ // while (rbx > rax) *(--rsp) = *(--rbx)
+ __ lea(rbx_top, Address(rax_argslot, slot_count, Address::times_ptr));
+ __ BIND(L_loop);
+ __ subptr(rbx_top, wordSize);
+ __ pushptr(Address(rbx_top, 0));
+ __ cmpptr(rbx_top, rax_argslot);
+ __ jcc(Assembler::above, L_loop);
+ __ bind(L_break);
+ }
+ switch (skip_words_count) {
+ case 1: __ push(rdx_temp); break;
+ case 0: break;
+ default: ShouldNotReachHere();
+ }
+ BLOCK_COMMENT("} push_arg_slots");
+}
+
+// in-place movement; no change to rsp
+// blows rax_temp, rdx_temp
+void MethodHandles::move_arg_slots_up(MacroAssembler* _masm,
+ Register rbx_bottom, // invariant
+ Address top_addr, // can use rax_temp
+ RegisterOrConstant positive_distance_in_slots,
+ Register rax_temp, Register rdx_temp) {
+ BLOCK_COMMENT("move_arg_slots_up {");
+ assert_different_registers(rbx_bottom,
+ rax_temp, rdx_temp,
+ positive_distance_in_slots.register_or_noreg());
+ Label L_loop, L_break;
+ Register rax_top = rax_temp;
+ if (!top_addr.is_same_address(Address(rax_top, 0)))
+ __ lea(rax_top, top_addr);
+ // Detect empty (or broken) loop:
+#ifdef ASSERT
+ if (VerifyMethodHandles) {
+ // Verify that &bottom < &top (non-empty interval)
+ Label L_ok, L_bad;
+ if (positive_distance_in_slots.is_register()) {
+ __ cmpptr(positive_distance_in_slots.as_register(), (int32_t) 0);
+ __ jcc(Assembler::lessEqual, L_bad);
+ }
+ __ cmpptr(rbx_bottom, rax_top);
+ __ jcc(Assembler::below, L_ok);
+ __ bind(L_bad);
+ __ stop("valid bounds (copy up)");
+ __ BIND(L_ok);
+ }
+#endif
+ __ cmpptr(rbx_bottom, rax_top);
+ __ jccb(Assembler::aboveEqual, L_break);
+ // work rax down to rbx, copying contiguous data upwards
+ // In pseudo-code:
+ // [rbx, rax) = &[bottom, top)
+ // while (--rax >= rbx) *(rax + distance) = *(rax + 0), rax--;
+ __ BIND(L_loop);
+ __ subptr(rax_top, wordSize);
+ __ movptr(rdx_temp, Address(rax_top, 0));
+ __ movptr( Address(rax_top, positive_distance_in_slots, Address::times_ptr), rdx_temp);
+ __ cmpptr(rax_top, rbx_bottom);
+ __ jcc(Assembler::above, L_loop);
+ assert(Interpreter::stackElementSize == wordSize, "else change loop");
+ __ bind(L_break);
+ BLOCK_COMMENT("} move_arg_slots_up");
+}
+
+// in-place movement; no change to rsp
+// blows rax_temp, rdx_temp
+void MethodHandles::move_arg_slots_down(MacroAssembler* _masm,
+ Address bottom_addr, // can use rax_temp
+ Register rbx_top, // invariant
+ RegisterOrConstant negative_distance_in_slots,
+ Register rax_temp, Register rdx_temp) {
+ BLOCK_COMMENT("move_arg_slots_down {");
+ assert_different_registers(rbx_top,
+ negative_distance_in_slots.register_or_noreg(),
+ rax_temp, rdx_temp);
+ Label L_loop, L_break;
+ Register rax_bottom = rax_temp;
+ if (!bottom_addr.is_same_address(Address(rax_bottom, 0)))
+ __ lea(rax_bottom, bottom_addr);
+ // Detect empty (or broken) loop:
+#ifdef ASSERT
+ assert(!negative_distance_in_slots.is_constant() || negative_distance_in_slots.as_constant() < 0, "");
+ if (VerifyMethodHandles) {
+ // Verify that &bottom < &top (non-empty interval)
+ Label L_ok, L_bad;
+ if (negative_distance_in_slots.is_register()) {
+ __ cmpptr(negative_distance_in_slots.as_register(), (int32_t) 0);
+ __ jcc(Assembler::greaterEqual, L_bad);
+ }
+ __ cmpptr(rax_bottom, rbx_top);
+ __ jcc(Assembler::below, L_ok);
+ __ bind(L_bad);
+ __ stop("valid bounds (copy down)");
+ __ BIND(L_ok);
+ }
+#endif
+ __ cmpptr(rax_bottom, rbx_top);
+ __ jccb(Assembler::aboveEqual, L_break);
+ // work rax up to rbx, copying contiguous data downwards
+ // In pseudo-code:
+ // [rax, rbx) = &[bottom, top)
+ // while (rax < rbx) *(rax - distance) = *(rax + 0), rax++;
+ __ BIND(L_loop);
+ __ movptr(rdx_temp, Address(rax_bottom, 0));
+ __ movptr( Address(rax_bottom, negative_distance_in_slots, Address::times_ptr), rdx_temp);
+ __ addptr(rax_bottom, wordSize);
+ __ cmpptr(rax_bottom, rbx_top);
+ __ jcc(Assembler::below, L_loop);
+ assert(Interpreter::stackElementSize == wordSize, "else change loop");
+ __ bind(L_break);
+ BLOCK_COMMENT("} move_arg_slots_down");
+}
+
+// Copy from a field or array element to a stacked argument slot.
+// is_element (ignored) says whether caller is loading an array element instead of an instance field.
+void MethodHandles::move_typed_arg(MacroAssembler* _masm,
+ BasicType type, bool is_element,
+ Address slot_dest, Address value_src,
+ Register rbx_temp, Register rdx_temp) {
+ BLOCK_COMMENT(!is_element ? "move_typed_arg {" : "move_typed_arg { (array element)");
+ if (type == T_OBJECT || type == T_ARRAY) {
+ __ load_heap_oop(rbx_temp, value_src);
+ __ movptr(slot_dest, rbx_temp);
+ } else if (type != T_VOID) {
+ int arg_size = type2aelembytes(type);
+ bool arg_is_signed = is_signed_subword_type(type);
+ int slot_size = (arg_size > wordSize) ? arg_size : wordSize;
+ __ load_sized_value( rdx_temp, value_src, arg_size, arg_is_signed, rbx_temp);
+ __ store_sized_value( slot_dest, rdx_temp, slot_size, rbx_temp);
+ }
+ BLOCK_COMMENT("} move_typed_arg");
+}
+
+void MethodHandles::move_return_value(MacroAssembler* _masm, BasicType type,
+ Address return_slot) {
+ BLOCK_COMMENT("move_return_value {");
+ // Old versions of the JVM must clean the FPU stack after every return.
+#ifndef _LP64
+#ifdef COMPILER2
+ // The FPU stack is clean if UseSSE >= 2 but must be cleaned in other cases
+ if ((type == T_FLOAT && UseSSE < 1) || (type == T_DOUBLE && UseSSE < 2)) {
+ for (int i = 1; i < 8; i++) {
+ __ ffree(i);
+ }
+ } else if (UseSSE < 2) {
+ __ empty_FPU_stack();
+ }
+#endif //COMPILER2
+#endif //!_LP64
+
+ // Look at the type and pull the value out of the corresponding register.
+ if (type == T_VOID) {
+ // nothing to do
+ } else if (type == T_OBJECT) {
+ __ movptr(return_slot, rax);
+ } else if (type == T_INT || is_subword_type(type)) {
+ // write the whole word, even if only 32 bits is significant
+ __ movptr(return_slot, rax);
+ } else if (type == T_LONG) {
+ // store the value by parts
+ // Note: We assume longs are continguous (if misaligned) on the interpreter stack.
+ __ store_sized_value(return_slot, rax, BytesPerLong, rdx);
+ } else if (NOT_LP64((type == T_FLOAT && UseSSE < 1) ||
+ (type == T_DOUBLE && UseSSE < 2) ||)
+ false) {
+ // Use old x86 FPU registers:
+ if (type == T_FLOAT)
+ __ fstp_s(return_slot);
+ else
+ __ fstp_d(return_slot);
+ } else if (type == T_FLOAT) {
+ __ movflt(return_slot, xmm0);
+ } else if (type == T_DOUBLE) {
+ __ movdbl(return_slot, xmm0);
+ } else {
+ ShouldNotReachHere();
+ }
+ BLOCK_COMMENT("} move_return_value");
+}
+
+
#ifndef PRODUCT
extern "C" void print_method_handle(oop mh);
void trace_method_handle_stub(const char* adaptername,
+ oop mh,
+ intptr_t* saved_regs,
+ intptr_t* entry_sp,
intptr_t* saved_sp,
- oop mh,
- intptr_t* sp) {
+ intptr_t* saved_bp) {
// called as a leaf from native code: do not block the JVM!
- intptr_t* entry_sp = sp + LP64_ONLY(16) NOT_LP64(8);
- tty->print_cr("MH %s mh="INTPTR_FORMAT" sp="INTPTR_FORMAT" saved_sp="INTPTR_FORMAT")",
- adaptername, (intptr_t)mh, (intptr_t)entry_sp, saved_sp);
+ intptr_t* last_sp = (intptr_t*) saved_bp[frame::interpreter_frame_last_sp_offset];
+ intptr_t* base_sp = (intptr_t*) saved_bp[frame::interpreter_frame_monitor_block_top_offset];
+ tty->print_cr("MH %s mh="INTPTR_FORMAT" sp=("INTPTR_FORMAT"+"INTX_FORMAT") stack_size="INTX_FORMAT" bp="INTPTR_FORMAT,
+ adaptername, (intptr_t)mh, (intptr_t)entry_sp, (intptr_t)(saved_sp - entry_sp), (intptr_t)(base_sp - last_sp), (intptr_t)saved_bp);
+ if (last_sp != saved_sp && last_sp != NULL)
+ tty->print_cr("*** last_sp="INTPTR_FORMAT, (intptr_t)last_sp);
if (Verbose) {
+ tty->print(" reg dump: ");
+ int saved_regs_count = (entry_sp-1) - saved_regs;
+ // 32 bit: rdi rsi rbp rsp; rbx rdx rcx (*) rax
+ int i;
+ for (i = 0; i <= saved_regs_count; i++) {
+ if (i > 0 && i % 4 == 0 && i != saved_regs_count) {
+ tty->cr();
+ tty->print(" + dump: ");
+ }
+ tty->print(" %d: "INTPTR_FORMAT, i, saved_regs[i]);
+ }
+ tty->cr();
+ int stack_dump_count = 16;
+ if (stack_dump_count < (int)(saved_bp + 2 - saved_sp))
+ stack_dump_count = (int)(saved_bp + 2 - saved_sp);
+ if (stack_dump_count > 64) stack_dump_count = 48;
+ for (i = 0; i < stack_dump_count; i += 4) {
+ tty->print_cr(" dump at SP[%d] "INTPTR_FORMAT": "INTPTR_FORMAT" "INTPTR_FORMAT" "INTPTR_FORMAT" "INTPTR_FORMAT,
+ i, (intptr_t) &entry_sp[i+0], entry_sp[i+0], entry_sp[i+1], entry_sp[i+2], entry_sp[i+3]);
+ }
print_method_handle(mh);
}
}
+
+// The stub wraps the arguments in a struct on the stack to avoid
+// dealing with the different calling conventions for passing 6
+// arguments.
+struct MethodHandleStubArguments {
+ const char* adaptername;
+ oopDesc* mh;
+ intptr_t* saved_regs;
+ intptr_t* entry_sp;
+ intptr_t* saved_sp;
+ intptr_t* saved_bp;
+};
+void trace_method_handle_stub_wrapper(MethodHandleStubArguments* args) {
+ trace_method_handle_stub(args->adaptername,
+ args->mh,
+ args->saved_regs,
+ args->entry_sp,
+ args->saved_sp,
+ args->saved_bp);
+}
+
void MethodHandles::trace_method_handle(MacroAssembler* _masm, const char* adaptername) {
if (!TraceMethodHandles) return;
BLOCK_COMMENT("trace_method_handle {");
+ __ push(rax);
+ __ lea(rax, Address(rsp, wordSize * NOT_LP64(6) LP64_ONLY(14))); // entry_sp __ pusha();
__ pusha();
-#ifdef _LP64
- // Pass arguments carefully since the registers overlap with the calling convention.
+ __ mov(rbx, rsp);
+ __ enter();
+ // incoming state:
// rcx: method handle
- // r13: saved sp
- __ mov(c_rarg2, rcx); // mh
- __ mov(c_rarg1, r13); // saved sp
- __ mov(c_rarg3, rsp); // sp
- __ movptr(c_rarg0, (intptr_t) adaptername);
- __ super_call_VM_leaf(CAST_FROM_FN_PTR(address, trace_method_handle_stub), c_rarg0, c_rarg1, c_rarg2, c_rarg3);
-#else
- // arguments:
- // rcx: method handle
- // rsi: saved sp
- __ movptr(rbx, (intptr_t) adaptername);
- __ super_call_VM_leaf(CAST_FROM_FN_PTR(address, trace_method_handle_stub), rbx, rsi, rcx, rsp);
-#endif
+ // r13 or rsi: saved sp
+ // To avoid calling convention issues, build a record on the stack and pass the pointer to that instead.
+ __ push(rbp); // saved_bp
+ __ push(rsi); // saved_sp
+ __ push(rax); // entry_sp
+ __ push(rbx); // pusha saved_regs
+ __ push(rcx); // mh
+ __ push(rcx); // adaptername
+ __ movptr(Address(rsp, 0), (intptr_t) adaptername);
+ __ super_call_VM_leaf(CAST_FROM_FN_PTR(address, trace_method_handle_stub_wrapper), rsp);
+ __ leave();
__ popa();
+ __ pop(rax);
BLOCK_COMMENT("} trace_method_handle");
}
#endif //PRODUCT
@@ -358,13 +1065,21 @@
|(1<<java_lang_invoke_AdapterMethodHandle::OP_CHECK_CAST)
|(1<<java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_PRIM)
|(1<<java_lang_invoke_AdapterMethodHandle::OP_REF_TO_PRIM)
+ //OP_PRIM_TO_REF is below...
|(1<<java_lang_invoke_AdapterMethodHandle::OP_SWAP_ARGS)
|(1<<java_lang_invoke_AdapterMethodHandle::OP_ROT_ARGS)
|(1<<java_lang_invoke_AdapterMethodHandle::OP_DUP_ARGS)
|(1<<java_lang_invoke_AdapterMethodHandle::OP_DROP_ARGS)
- //|(1<<java_lang_invoke_AdapterMethodHandle::OP_SPREAD_ARGS) //BUG!
+ //OP_COLLECT_ARGS is below...
+ |(1<<java_lang_invoke_AdapterMethodHandle::OP_SPREAD_ARGS)
+ |(!UseRicochetFrames ? 0 :
+ LP64_ONLY(FLAG_IS_DEFAULT(UseRicochetFrames) ? 0 :)
+ java_lang_invoke_MethodTypeForm::vmlayout_offset_in_bytes() <= 0 ? 0 :
+ ((1<<java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_REF)
+ |(1<<java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS)
+ |(1<<java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS)
+ ))
);
- // FIXME: MethodHandlesTest gets a crash if we enable OP_SPREAD_ARGS.
}
//------------------------------------------------------------------------------
@@ -373,6 +1088,8 @@
// Generate an "entry" field for a method handle.
// This determines how the method handle will respond to calls.
void MethodHandles::generate_method_handle_stub(MacroAssembler* _masm, MethodHandles::EntryKind ek) {
+ MethodHandles::EntryKind ek_orig = ek_original_kind(ek);
+
// Here is the register state during an interpreted call,
// as set up by generate_method_handle_interpreter_entry():
// - rbx: garbage temp (was MethodHandle.invoke methodOop, unused)
@@ -385,10 +1102,11 @@
const Register rax_argslot = rax;
const Register rbx_temp = rbx;
const Register rdx_temp = rdx;
+ const Register rdi_temp = rdi;
// This guy is set up by prepare_to_jump_from_interpreted (from interpreted calls)
// and gen_c2i_adapter (from compiled calls):
- const Register saved_last_sp = LP64_ONLY(r13) NOT_LP64(rsi);
+ const Register saved_last_sp = saved_last_sp_register();
// Argument registers for _raise_exception.
// 32-bit: Pass first two oop/int args in registers ECX and EDX.
@@ -421,6 +1139,13 @@
return;
}
+#ifdef ASSERT
+ __ push((int32_t) 0xEEEEEEEE);
+ __ push((int32_t) (intptr_t) entry_name(ek));
+ LP64_ONLY(__ push((int32_t) high((intptr_t) entry_name(ek))));
+ __ push((int32_t) 0x33333333);
+#endif //ASSERT
+
address interp_entry = __ pc();
trace_method_handle(_masm, entry_name(ek));
@@ -536,7 +1261,6 @@
__ load_klass(rax_klass, rcx_recv);
__ verify_oop(rax_klass);
- Register rdi_temp = rdi;
Register rbx_method = rbx_index;
// get interface klass
@@ -572,16 +1296,14 @@
case _bound_long_direct_mh:
{
bool direct_to_method = (ek >= _bound_ref_direct_mh);
- BasicType arg_type = T_ILLEGAL;
- int arg_mask = _INSERT_NO_MASK;
- int arg_slots = -1;
- get_ek_bound_mh_info(ek, arg_type, arg_mask, arg_slots);
+ BasicType arg_type = ek_bound_mh_arg_type(ek);
+ int arg_slots = type2size[arg_type];
// make room for the new argument:
__ movl(rax_argslot, rcx_bmh_vmargslot);
__ lea(rax_argslot, __ argument_address(rax_argslot));
- insert_arg_slots(_masm, arg_slots * stack_move_unit(), arg_mask, rax_argslot, rbx_temp, rdx_temp);
+ insert_arg_slots(_masm, arg_slots * stack_move_unit(), rax_argslot, rbx_temp, rdx_temp);
// store bound argument into the new stack slot:
__ load_heap_oop(rbx_temp, rcx_bmh_argument);
@@ -589,9 +1311,10 @@
__ movptr(Address(rax_argslot, 0), rbx_temp);
} else {
Address prim_value_addr(rbx_temp, java_lang_boxing_object::value_offset_in_bytes(arg_type));
- const int arg_size = type2aelembytes(arg_type);
- __ load_sized_value(rdx_temp, prim_value_addr, arg_size, is_signed_subword_type(arg_type), rbx_temp);
- __ store_sized_value(Address(rax_argslot, 0), rdx_temp, arg_size, rbx_temp);
+ move_typed_arg(_masm, arg_type, false,
+ Address(rax_argslot, 0),
+ prim_value_addr,
+ rbx_temp, rdx_temp);
}
if (direct_to_method) {
@@ -628,7 +1351,7 @@
// What class are we casting to?
__ load_heap_oop(rbx_klass, rcx_amh_argument); // this is a Class object!
- __ load_heap_oop(rbx_klass, Address(rbx_klass, java_lang_Class::klass_offset_in_bytes()));
+ load_klass_from_Class(_masm, rbx_klass);
Label done;
__ movptr(rdx_temp, vmarg);
@@ -663,6 +1386,7 @@
case _adapter_prim_to_prim:
case _adapter_ref_to_prim:
+ case _adapter_prim_to_ref:
// handled completely by optimized cases
__ stop("init_AdapterMethodHandle should not issue this");
break;
@@ -714,8 +1438,7 @@
// Do the requested conversion and store the value.
Register rbx_vminfo = rbx_temp;
- __ movl(rbx_vminfo, rcx_amh_conversion);
- assert(CONV_VMINFO_SHIFT == 0, "preshifted");
+ load_conversion_vminfo(_masm, rbx_vminfo, rcx_amh_conversion);
// get the new MH:
__ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
@@ -753,7 +1476,7 @@
// on a little-endian machine we keep the first slot and add another after
__ lea(rax_argslot, __ argument_address(rax_argslot, 1));
- insert_arg_slots(_masm, stack_move_unit(), _INSERT_INT_MASK,
+ insert_arg_slots(_masm, stack_move_unit(),
rax_argslot, rbx_temp, rdx_temp);
Address vmarg1(rax_argslot, -Interpreter::stackElementSize);
Address vmarg2 = vmarg1.plus_disp(Interpreter::stackElementSize);
@@ -805,7 +1528,7 @@
__ movl(rax_argslot, rcx_amh_vmargslot);
__ lea(rax_argslot, __ argument_address(rax_argslot, 1));
if (ek == _adapter_opt_f2d) {
- insert_arg_slots(_masm, stack_move_unit(), _INSERT_INT_MASK,
+ insert_arg_slots(_masm, stack_move_unit(),
rax_argslot, rbx_temp, rdx_temp);
}
Address vmarg(rax_argslot, -Interpreter::stackElementSize);
@@ -840,10 +1563,6 @@
}
break;
- case _adapter_prim_to_ref:
- __ unimplemented(entry_name(ek)); // %%% FIXME: NYI
- break;
-
case _adapter_swap_args:
case _adapter_rot_args:
// handled completely by optimized cases
@@ -857,8 +1576,8 @@
case _adapter_opt_rot_2_up:
case _adapter_opt_rot_2_down:
{
- int swap_bytes = 0, rotate = 0;
- get_ek_adapter_opt_swap_rot_info(ek, swap_bytes, rotate);
+ int swap_slots = ek_adapter_opt_swap_slots(ek);
+ int rotate = ek_adapter_opt_swap_mode(ek);
// 'argslot' is the position of the first argument to swap
__ movl(rax_argslot, rcx_amh_vmargslot);
@@ -866,83 +1585,69 @@
// 'vminfo' is the second
Register rbx_destslot = rbx_temp;
- __ movl(rbx_destslot, rcx_amh_conversion);
- assert(CONV_VMINFO_SHIFT == 0, "preshifted");
- __ andl(rbx_destslot, CONV_VMINFO_MASK);
+ load_conversion_vminfo(_masm, rbx_destslot, rcx_amh_conversion);
__ lea(rbx_destslot, __ argument_address(rbx_destslot));
- DEBUG_ONLY(verify_argslot(_masm, rbx_destslot, "swap point must fall within current frame"));
+ if (VerifyMethodHandles)
+ verify_argslot(_masm, rbx_destslot, "swap point must fall within current frame");
+ assert(Interpreter::stackElementSize == wordSize, "else rethink use of wordSize here");
if (!rotate) {
- for (int i = 0; i < swap_bytes; i += wordSize) {
- __ movptr(rdx_temp, Address(rax_argslot , i));
- __ push(rdx_temp);
- __ movptr(rdx_temp, Address(rbx_destslot, i));
- __ movptr(Address(rax_argslot, i), rdx_temp);
- __ pop(rdx_temp);
- __ movptr(Address(rbx_destslot, i), rdx_temp);
+ // simple swap
+ for (int i = 0; i < swap_slots; i++) {
+ __ movptr(rdi_temp, Address(rax_argslot, i * wordSize));
+ __ movptr(rdx_temp, Address(rbx_destslot, i * wordSize));
+ __ movptr(Address(rax_argslot, i * wordSize), rdx_temp);
+ __ movptr(Address(rbx_destslot, i * wordSize), rdi_temp);
}
} else {
- // push the first chunk, which is going to get overwritten
- for (int i = swap_bytes; (i -= wordSize) >= 0; ) {
- __ movptr(rdx_temp, Address(rax_argslot, i));
- __ push(rdx_temp);
+ // A rotate is actually pair of moves, with an "odd slot" (or pair)
+ // changing place with a series of other slots.
+ // First, push the "odd slot", which is going to get overwritten
+ for (int i = swap_slots - 1; i >= 0; i--) {
+ // handle one with rdi_temp instead of a push:
+ if (i == 0) __ movptr(rdi_temp, Address(rax_argslot, i * wordSize));
+ else __ pushptr( Address(rax_argslot, i * wordSize));
}
-
if (rotate > 0) {
- // rotate upward
- __ subptr(rax_argslot, swap_bytes);
-#ifdef ASSERT
- {
- // Verify that argslot > destslot, by at least swap_bytes.
- Label L_ok;
- __ cmpptr(rax_argslot, rbx_destslot);
- __ jccb(Assembler::aboveEqual, L_ok);
- __ stop("source must be above destination (upward rotation)");
- __ bind(L_ok);
- }
-#endif
+ // Here is rotate > 0:
+ // (low mem) (high mem)
+ // | dest: more_slots... | arg: odd_slot :arg+1 |
+ // =>
+ // | dest: odd_slot | dest+1: more_slots... :arg+1 |
// work argslot down to destslot, copying contiguous data upwards
// pseudo-code:
// rax = src_addr - swap_bytes
// rbx = dest_addr
// while (rax >= rbx) *(rax + swap_bytes) = *(rax + 0), rax--;
- Label loop;
- __ bind(loop);
- __ movptr(rdx_temp, Address(rax_argslot, 0));
- __ movptr(Address(rax_argslot, swap_bytes), rdx_temp);
- __ addptr(rax_argslot, -wordSize);
- __ cmpptr(rax_argslot, rbx_destslot);
- __ jccb(Assembler::aboveEqual, loop);
+ move_arg_slots_up(_masm,
+ rbx_destslot,
+ Address(rax_argslot, 0),
+ swap_slots,
+ rax_argslot, rdx_temp);
} else {
- __ addptr(rax_argslot, swap_bytes);
-#ifdef ASSERT
- {
- // Verify that argslot < destslot, by at least swap_bytes.
- Label L_ok;
- __ cmpptr(rax_argslot, rbx_destslot);
- __ jccb(Assembler::belowEqual, L_ok);
- __ stop("source must be below destination (downward rotation)");
- __ bind(L_ok);
- }
-#endif
+ // Here is the other direction, rotate < 0:
+ // (low mem) (high mem)
+ // | arg: odd_slot | arg+1: more_slots... :dest+1 |
+ // =>
+ // | arg: more_slots... | dest: odd_slot :dest+1 |
// work argslot up to destslot, copying contiguous data downwards
// pseudo-code:
// rax = src_addr + swap_bytes
// rbx = dest_addr
// while (rax <= rbx) *(rax - swap_bytes) = *(rax + 0), rax++;
- Label loop;
- __ bind(loop);
- __ movptr(rdx_temp, Address(rax_argslot, 0));
- __ movptr(Address(rax_argslot, -swap_bytes), rdx_temp);
- __ addptr(rax_argslot, wordSize);
- __ cmpptr(rax_argslot, rbx_destslot);
- __ jccb(Assembler::belowEqual, loop);
+ __ addptr(rbx_destslot, wordSize);
+ move_arg_slots_down(_masm,
+ Address(rax_argslot, swap_slots * wordSize),
+ rbx_destslot,
+ -swap_slots,
+ rax_argslot, rdx_temp);
+
+ __ subptr(rbx_destslot, wordSize);
}
-
// pop the original first chunk into the destination slot, now free
- for (int i = 0; i < swap_bytes; i += wordSize) {
- __ pop(rdx_temp);
- __ movptr(Address(rbx_destslot, i), rdx_temp);
+ for (int i = 0; i < swap_slots; i++) {
+ if (i == 0) __ movptr(Address(rbx_destslot, i * wordSize), rdi_temp);
+ else __ popptr(Address(rbx_destslot, i * wordSize));
}
}
@@ -958,53 +1663,22 @@
__ lea(rax_argslot, __ argument_address(rax_argslot));
// 'stack_move' is negative number of words to duplicate
- Register rdx_stack_move = rdx_temp;
- __ movl2ptr(rdx_stack_move, rcx_amh_conversion);
- __ sarptr(rdx_stack_move, CONV_STACK_MOVE_SHIFT);
-
- int argslot0_num = 0;
- Address argslot0 = __ argument_address(RegisterOrConstant(argslot0_num));
- assert(argslot0.base() == rsp, "");
- int pre_arg_size = argslot0.disp();
- assert(pre_arg_size % wordSize == 0, "");
- assert(pre_arg_size > 0, "must include PC");
-
- // remember the old rsp+1 (argslot[0])
- Register rbx_oldarg = rbx_temp;
- __ lea(rbx_oldarg, argslot0);
+ Register rdi_stack_move = rdi_temp;
+ load_stack_move(_masm, rdi_stack_move, rcx_recv, true);
- // move rsp down to make room for dups
- __ lea(rsp, Address(rsp, rdx_stack_move, Address::times_ptr));
-
- // compute the new rsp+1 (argslot[0])
- Register rdx_newarg = rdx_temp;
- __ lea(rdx_newarg, argslot0);
-
- __ push(rdi); // need a temp
- // (preceding push must be done after arg addresses are taken!)
-
- // pull down the pre_arg_size data (PC)
- for (int i = -pre_arg_size; i < 0; i += wordSize) {
- __ movptr(rdi, Address(rbx_oldarg, i));
- __ movptr(Address(rdx_newarg, i), rdi);
+ if (VerifyMethodHandles) {
+ verify_argslots(_masm, rdi_stack_move, rax_argslot, true,
+ "copied argument(s) must fall within current frame");
}
- // copy from rax_argslot[0...] down to new_rsp[1...]
- // pseudo-code:
- // rbx = old_rsp+1
- // rdx = new_rsp+1
- // rax = argslot
- // while (rdx < rbx) *rdx++ = *rax++
- Label loop;
- __ bind(loop);
- __ movptr(rdi, Address(rax_argslot, 0));
- __ movptr(Address(rdx_newarg, 0), rdi);
- __ addptr(rax_argslot, wordSize);
- __ addptr(rdx_newarg, wordSize);
- __ cmpptr(rdx_newarg, rbx_oldarg);
- __ jccb(Assembler::less, loop);
+ // insert location is always the bottom of the argument list:
+ Address insert_location = __ argument_address(constant(0));
+ int pre_arg_words = insert_location.disp() / wordSize; // return PC is pushed
+ assert(insert_location.base() == rsp, "");
- __ pop(rdi); // restore temp
+ __ negl(rdi_stack_move);
+ push_arg_slots(_masm, rax_argslot, rdi_stack_move,
+ pre_arg_words, rbx_temp, rdx_temp);
__ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
__ jump_to_method_handle_entry(rcx_recv, rdx_temp);
@@ -1017,63 +1691,583 @@
__ movl(rax_argslot, rcx_amh_vmargslot);
__ lea(rax_argslot, __ argument_address(rax_argslot));
- __ push(rdi); // need a temp
// (must do previous push after argslot address is taken)
// 'stack_move' is number of words to drop
- Register rdi_stack_move = rdi;
- __ movl2ptr(rdi_stack_move, rcx_amh_conversion);
- __ sarptr(rdi_stack_move, CONV_STACK_MOVE_SHIFT);
+ Register rdi_stack_move = rdi_temp;
+ load_stack_move(_masm, rdi_stack_move, rcx_recv, false);
remove_arg_slots(_masm, rdi_stack_move,
rax_argslot, rbx_temp, rdx_temp);
- __ pop(rdi); // restore temp
-
__ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
__ jump_to_method_handle_entry(rcx_recv, rdx_temp);
}
break;
case _adapter_collect_args:
- __ unimplemented(entry_name(ek)); // %%% FIXME: NYI
- break;
-
+ case _adapter_fold_args:
case _adapter_spread_args:
// handled completely by optimized cases
__ stop("init_AdapterMethodHandle should not issue this");
break;
+ case _adapter_opt_collect_ref:
+ case _adapter_opt_collect_int:
+ case _adapter_opt_collect_long:
+ case _adapter_opt_collect_float:
+ case _adapter_opt_collect_double:
+ case _adapter_opt_collect_void:
+ case _adapter_opt_collect_0_ref:
+ case _adapter_opt_collect_1_ref:
+ case _adapter_opt_collect_2_ref:
+ case _adapter_opt_collect_3_ref:
+ case _adapter_opt_collect_4_ref:
+ case _adapter_opt_collect_5_ref:
+ case _adapter_opt_filter_S0_ref:
+ case _adapter_opt_filter_S1_ref:
+ case _adapter_opt_filter_S2_ref:
+ case _adapter_opt_filter_S3_ref:
+ case _adapter_opt_filter_S4_ref:
+ case _adapter_opt_filter_S5_ref:
+ case _adapter_opt_collect_2_S0_ref:
+ case _adapter_opt_collect_2_S1_ref:
+ case _adapter_opt_collect_2_S2_ref:
+ case _adapter_opt_collect_2_S3_ref:
+ case _adapter_opt_collect_2_S4_ref:
+ case _adapter_opt_collect_2_S5_ref:
+ case _adapter_opt_fold_ref:
+ case _adapter_opt_fold_int:
+ case _adapter_opt_fold_long:
+ case _adapter_opt_fold_float:
+ case _adapter_opt_fold_double:
+ case _adapter_opt_fold_void:
+ case _adapter_opt_fold_1_ref:
+ case _adapter_opt_fold_2_ref:
+ case _adapter_opt_fold_3_ref:
+ case _adapter_opt_fold_4_ref:
+ case _adapter_opt_fold_5_ref:
+ {
+ // Given a fresh incoming stack frame, build a new ricochet frame.
+ // On entry, TOS points at a return PC, and RBP is the callers frame ptr.
+ // RSI/R13 has the caller's exact stack pointer, which we must also preserve.
+ // RCX contains an AdapterMethodHandle of the indicated kind.
+
+ // Relevant AMH fields:
+ // amh.vmargslot:
+ // points to the trailing edge of the arguments
+ // to filter, collect, or fold. For a boxing operation,
+ // it points just after the single primitive value.
+ // amh.argument:
+ // recursively called MH, on |collect| arguments
+ // amh.vmtarget:
+ // final destination MH, on return value, etc.
+ // amh.conversion.dest:
+ // tells what is the type of the return value
+ // (not needed here, since dest is also derived from ek)
+ // amh.conversion.vminfo:
+ // points to the trailing edge of the return value
+ // when the vmtarget is to be called; this is
+ // equal to vmargslot + (retained ? |collect| : 0)
+
+ // Pass 0 or more argument slots to the recursive target.
+ int collect_count_constant = ek_adapter_opt_collect_count(ek);
+
+ // The collected arguments are copied from the saved argument list:
+ int collect_slot_constant = ek_adapter_opt_collect_slot(ek);
+
+ assert(ek_orig == _adapter_collect_args ||
+ ek_orig == _adapter_fold_args, "");
+ bool retain_original_args = (ek_orig == _adapter_fold_args);
+
+ // The return value is replaced (or inserted) at the 'vminfo' argslot.
+ // Sometimes we can compute this statically.
+ int dest_slot_constant = -1;
+ if (!retain_original_args)
+ dest_slot_constant = collect_slot_constant;
+ else if (collect_slot_constant >= 0 && collect_count_constant >= 0)
+ // We are preserving all the arguments, and the return value is prepended,
+ // so the return slot is to the left (above) the |collect| sequence.
+ dest_slot_constant = collect_slot_constant + collect_count_constant;
+
+ // Replace all those slots by the result of the recursive call.
+ // The result type can be one of ref, int, long, float, double, void.
+ // In the case of void, nothing is pushed on the stack after return.
+ BasicType dest = ek_adapter_opt_collect_type(ek);
+ assert(dest == type2wfield[dest], "dest is a stack slot type");
+ int dest_count = type2size[dest];
+ assert(dest_count == 1 || dest_count == 2 || (dest_count == 0 && dest == T_VOID), "dest has a size");
+
+ // Choose a return continuation.
+ EntryKind ek_ret = _adapter_opt_return_any;
+ if (dest != T_CONFLICT && OptimizeMethodHandles) {
+ switch (dest) {
+ case T_INT : ek_ret = _adapter_opt_return_int; break;
+ case T_LONG : ek_ret = _adapter_opt_return_long; break;
+ case T_FLOAT : ek_ret = _adapter_opt_return_float; break;
+ case T_DOUBLE : ek_ret = _adapter_opt_return_double; break;
+ case T_OBJECT : ek_ret = _adapter_opt_return_ref; break;
+ case T_VOID : ek_ret = _adapter_opt_return_void; break;
+ default : ShouldNotReachHere();
+ }
+ if (dest == T_OBJECT && dest_slot_constant >= 0) {
+ EntryKind ek_try = EntryKind(_adapter_opt_return_S0_ref + dest_slot_constant);
+ if (ek_try <= _adapter_opt_return_LAST &&
+ ek_adapter_opt_return_slot(ek_try) == dest_slot_constant) {
+ ek_ret = ek_try;
+ }
+ }
+ assert(ek_adapter_opt_return_type(ek_ret) == dest, "");
+ }
+
+ // Already pushed: ... keep1 | collect | keep2 | sender_pc |
+ // push(sender_pc);
+
+ // Compute argument base:
+ Register rax_argv = rax_argslot;
+ __ lea(rax_argv, __ argument_address(constant(0)));
+
+ // Push a few extra argument words, if we need them to store the return value.
+ {
+ int extra_slots = 0;
+ if (retain_original_args) {
+ extra_slots = dest_count;
+ } else if (collect_count_constant == -1) {
+ extra_slots = dest_count; // collect_count might be zero; be generous
+ } else if (dest_count > collect_count_constant) {
+ extra_slots = (dest_count - collect_count_constant);
+ } else {
+ // else we know we have enough dead space in |collect| to repurpose for return values
+ }
+ DEBUG_ONLY(extra_slots += 1);
+ if (extra_slots > 0) {
+ __ pop(rbx_temp); // return value
+ __ subptr(rsp, (extra_slots * Interpreter::stackElementSize));
+ // Push guard word #2 in debug mode.
+ DEBUG_ONLY(__ movptr(Address(rsp, 0), (int32_t) RicochetFrame::MAGIC_NUMBER_2));
+ __ push(rbx_temp);
+ }
+ }
+
+ RicochetFrame::enter_ricochet_frame(_masm, rcx_recv, rax_argv,
+ entry(ek_ret)->from_interpreted_entry(), rbx_temp);
+
+ // Now pushed: ... keep1 | collect | keep2 | RF |
+ // some handy frame slots:
+ Address exact_sender_sp_addr = RicochetFrame::frame_address(RicochetFrame::exact_sender_sp_offset_in_bytes());
+ Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
+ Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
+
+#ifdef ASSERT
+ if (VerifyMethodHandles && dest != T_CONFLICT) {
+ BLOCK_COMMENT("verify AMH.conv.dest");
+ load_conversion_dest_type(_masm, rbx_temp, conversion_addr);
+ Label L_dest_ok;
+ __ cmpl(rbx_temp, (int) dest);
+ __ jcc(Assembler::equal, L_dest_ok);
+ if (dest == T_INT) {
+ for (int bt = T_BOOLEAN; bt < T_INT; bt++) {
+ if (is_subword_type(BasicType(bt))) {
+ __ cmpl(rbx_temp, (int) bt);
+ __ jcc(Assembler::equal, L_dest_ok);
+ }
+ }
+ }
+ __ stop("bad dest in AMH.conv");
+ __ BIND(L_dest_ok);
+ }
+#endif //ASSERT
+
+ // Find out where the original copy of the recursive argument sequence begins.
+ Register rax_coll = rax_argv;
+ {
+ RegisterOrConstant collect_slot = collect_slot_constant;
+ if (collect_slot_constant == -1) {
+ __ movl(rdi_temp, rcx_amh_vmargslot);
+ collect_slot = rdi_temp;
+ }
+ if (collect_slot_constant != 0)
+ __ lea(rax_coll, Address(rax_argv, collect_slot, Interpreter::stackElementScale()));
+ // rax_coll now points at the trailing edge of |collect| and leading edge of |keep2|
+ }
+
+ // Replace the old AMH with the recursive MH. (No going back now.)
+ // In the case of a boxing call, the recursive call is to a 'boxer' method,
+ // such as Integer.valueOf or Long.valueOf. In the case of a filter
+ // or collect call, it will take one or more arguments, transform them,
+ // and return some result, to store back into argument_base[vminfo].
+ __ load_heap_oop(rcx_recv, rcx_amh_argument);
+ if (VerifyMethodHandles) verify_method_handle(_masm, rcx_recv);
+
+ // Push a space for the recursively called MH first:
+ __ push((int32_t)NULL_WORD);
+
+ // Calculate |collect|, the number of arguments we are collecting.
+ Register rdi_collect_count = rdi_temp;
+ RegisterOrConstant collect_count;
+ if (collect_count_constant >= 0) {
+ collect_count = collect_count_constant;
+ } else {
+ __ load_method_handle_vmslots(rdi_collect_count, rcx_recv, rdx_temp);
+ collect_count = rdi_collect_count;
+ }
+#ifdef ASSERT
+ if (VerifyMethodHandles && collect_count_constant >= 0) {
+ __ load_method_handle_vmslots(rbx_temp, rcx_recv, rdx_temp);
+ Label L_count_ok;
+ __ cmpl(rbx_temp, collect_count_constant);
+ __ jcc(Assembler::equal, L_count_ok);
+ __ stop("bad vminfo in AMH.conv");
+ __ BIND(L_count_ok);
+ }
+#endif //ASSERT
+
+ // copy |collect| slots directly to TOS:
+ push_arg_slots(_masm, rax_coll, collect_count, 0, rbx_temp, rdx_temp);
+ // Now pushed: ... keep1 | collect | keep2 | RF... | collect |
+ // rax_coll still points at the trailing edge of |collect| and leading edge of |keep2|
+
+ // If necessary, adjust the saved arguments to make room for the eventual return value.
+ // Normal adjustment: ... keep1 | +dest+ | -collect- | keep2 | RF... | collect |
+ // If retaining args: ... keep1 | +dest+ | collect | keep2 | RF... | collect |
+ // In the non-retaining case, this might move keep2 either up or down.
+ // We don't have to copy the whole | RF... collect | complex,
+ // but we must adjust RF.saved_args_base.
+ // Also, from now on, we will forget about the origial copy of |collect|.
+ // If we are retaining it, we will treat it as part of |keep2|.
+ // For clarity we will define |keep3| = |collect|keep2| or |keep2|.
+
+ BLOCK_COMMENT("adjust trailing arguments {");
+ // Compare the sizes of |+dest+| and |-collect-|, which are opposed opening and closing movements.
+ int open_count = dest_count;
+ RegisterOrConstant close_count = collect_count_constant;
+ Register rdi_close_count = rdi_collect_count;
+ if (retain_original_args) {
+ close_count = constant(0);
+ } else if (collect_count_constant == -1) {
+ close_count = rdi_collect_count;
+ }
+
+ // How many slots need moving? This is simply dest_slot (0 => no |keep3|).
+ RegisterOrConstant keep3_count;
+ Register rsi_keep3_count = rsi; // can repair from RF.exact_sender_sp
+ if (dest_slot_constant >= 0) {
+ keep3_count = dest_slot_constant;
+ } else {
+ load_conversion_vminfo(_masm, rsi_keep3_count, conversion_addr);
+ keep3_count = rsi_keep3_count;
+ }
+#ifdef ASSERT
+ if (VerifyMethodHandles && dest_slot_constant >= 0) {
+ load_conversion_vminfo(_masm, rbx_temp, conversion_addr);
+ Label L_vminfo_ok;
+ __ cmpl(rbx_temp, dest_slot_constant);
+ __ jcc(Assembler::equal, L_vminfo_ok);
+ __ stop("bad vminfo in AMH.conv");
+ __ BIND(L_vminfo_ok);
+ }
+#endif //ASSERT
+
+ // tasks remaining:
+ bool move_keep3 = (!keep3_count.is_constant() || keep3_count.as_constant() != 0);
+ bool stomp_dest = (NOT_DEBUG(dest == T_OBJECT) DEBUG_ONLY(dest_count != 0));
+ bool fix_arg_base = (!close_count.is_constant() || open_count != close_count.as_constant());
+
+ if (stomp_dest | fix_arg_base) {
+ // we will probably need an updated rax_argv value
+ if (collect_slot_constant >= 0) {
+ // rax_coll already holds the leading edge of |keep2|, so tweak it
+ assert(rax_coll == rax_argv, "elided a move");
+ if (collect_slot_constant != 0)
+ __ subptr(rax_argv, collect_slot_constant * Interpreter::stackElementSize);
+ } else {
+ // Just reload from RF.saved_args_base.
+ __ movptr(rax_argv, saved_args_base_addr);
+ }
+ }
+
+ // Old and new argument locations (based at slot 0).
+ // Net shift (&new_argv - &old_argv) is (close_count - open_count).
+ bool zero_open_count = (open_count == 0); // remember this bit of info
+ if (move_keep3 && fix_arg_base) {
+ // It will be easier t have everything in one register:
+ if (close_count.is_register()) {
+ // Deduct open_count from close_count register to get a clean +/- value.
+ __ subptr(close_count.as_register(), open_count);
+ } else {
+ close_count = close_count.as_constant() - open_count;
+ }
+ open_count = 0;
+ }
+ Address old_argv(rax_argv, 0);
+ Address new_argv(rax_argv, close_count, Interpreter::stackElementScale(),
+ - open_count * Interpreter::stackElementSize);
+
+ // First decide if any actual data are to be moved.
+ // We can skip if (a) |keep3| is empty, or (b) the argument list size didn't change.
+ // (As it happens, all movements involve an argument list size change.)
+
+ // If there are variable parameters, use dynamic checks to skip around the whole mess.
+ Label L_done;
+ if (!keep3_count.is_constant()) {
+ __ testl(keep3_count.as_register(), keep3_count.as_register());
+ __ jcc(Assembler::zero, L_done);
+ }
+ if (!close_count.is_constant()) {
+ __ cmpl(close_count.as_register(), open_count);
+ __ jcc(Assembler::equal, L_done);
+ }
+
+ if (move_keep3 && fix_arg_base) {
+ bool emit_move_down = false, emit_move_up = false, emit_guard = false;
+ if (!close_count.is_constant()) {
+ emit_move_down = emit_guard = !zero_open_count;
+ emit_move_up = true;
+ } else if (open_count != close_count.as_constant()) {
+ emit_move_down = (open_count > close_count.as_constant());
+ emit_move_up = !emit_move_down;
+ }
+ Label L_move_up;
+ if (emit_guard) {
+ __ cmpl(close_count.as_register(), open_count);
+ __ jcc(Assembler::greater, L_move_up);
+ }
+
+ if (emit_move_down) {
+ // Move arguments down if |+dest+| > |-collect-|
+ // (This is rare, except when arguments are retained.)
+ // This opens space for the return value.
+ if (keep3_count.is_constant()) {
+ for (int i = 0; i < keep3_count.as_constant(); i++) {
+ __ movptr(rdx_temp, old_argv.plus_disp(i * Interpreter::stackElementSize));
+ __ movptr( new_argv.plus_disp(i * Interpreter::stackElementSize), rdx_temp);
+ }
+ } else {
+ Register rbx_argv_top = rbx_temp;
+ __ lea(rbx_argv_top, old_argv.plus_disp(keep3_count, Interpreter::stackElementScale()));
+ move_arg_slots_down(_masm,
+ old_argv, // beginning of old argv
+ rbx_argv_top, // end of old argv
+ close_count, // distance to move down (must be negative)
+ rax_argv, rdx_temp);
+ // Used argv as an iteration variable; reload from RF.saved_args_base.
+ __ movptr(rax_argv, saved_args_base_addr);
+ }
+ }
+
+ if (emit_guard) {
+ __ jmp(L_done); // assumes emit_move_up is true also
+ __ BIND(L_move_up);
+ }
+
+ if (emit_move_up) {
+
+ // Move arguments up if |+dest+| < |-collect-|
+ // (This is usual, except when |keep3| is empty.)
+ // This closes up the space occupied by the now-deleted collect values.
+ if (keep3_count.is_constant()) {
+ for (int i = keep3_count.as_constant() - 1; i >= 0; i--) {
+ __ movptr(rdx_temp, old_argv.plus_disp(i * Interpreter::stackElementSize));
+ __ movptr( new_argv.plus_disp(i * Interpreter::stackElementSize), rdx_temp);
+ }
+ } else {
+ Address argv_top = old_argv.plus_disp(keep3_count, Interpreter::stackElementScale());
+ move_arg_slots_up(_masm,
+ rax_argv, // beginning of old argv
+ argv_top, // end of old argv
+ close_count, // distance to move up (must be positive)
+ rbx_temp, rdx_temp);
+ }
+ }
+ }
+ __ BIND(L_done);
+
+ if (fix_arg_base) {
+ // adjust RF.saved_args_base by adding (close_count - open_count)
+ if (!new_argv.is_same_address(Address(rax_argv, 0)))
+ __ lea(rax_argv, new_argv);
+ __ movptr(saved_args_base_addr, rax_argv);
+ }
+
+ if (stomp_dest) {
+ // Stomp the return slot, so it doesn't hold garbage.
+ // This isn't strictly necessary, but it may help detect bugs.
+ int forty_two = RicochetFrame::RETURN_VALUE_PLACEHOLDER;
+ __ movptr(Address(rax_argv, keep3_count, Address::times_ptr),
+ (int32_t) forty_two);
+ // uses rsi_keep3_count
+ }
+ BLOCK_COMMENT("} adjust trailing arguments");
+
+ BLOCK_COMMENT("do_recursive_call");
+ __ mov(saved_last_sp, rsp); // set rsi/r13 for callee
+ __ pushptr(ExternalAddress(SharedRuntime::ricochet_blob()->bounce_addr()).addr());
+ // The globally unique bounce address has two purposes:
+ // 1. It helps the JVM recognize this frame (frame::is_ricochet_frame).
+ // 2. When returned to, it cuts back the stack and redirects control flow
+ // to the return handler.
+ // The return handler will further cut back the stack when it takes
+ // down the RF. Perhaps there is a way to streamline this further.
+
+ // State during recursive call:
+ // ... keep1 | dest | dest=42 | keep3 | RF... | collect | bounce_pc |
+ __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
+
+ break;
+ }
+
+ case _adapter_opt_return_ref:
+ case _adapter_opt_return_int:
+ case _adapter_opt_return_long:
+ case _adapter_opt_return_float:
+ case _adapter_opt_return_double:
+ case _adapter_opt_return_void:
+ case _adapter_opt_return_S0_ref:
+ case _adapter_opt_return_S1_ref:
+ case _adapter_opt_return_S2_ref:
+ case _adapter_opt_return_S3_ref:
+ case _adapter_opt_return_S4_ref:
+ case _adapter_opt_return_S5_ref:
+ {
+ BasicType dest_type_constant = ek_adapter_opt_return_type(ek);
+ int dest_slot_constant = ek_adapter_opt_return_slot(ek);
+
+ if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
+
+ if (dest_slot_constant == -1) {
+ // The current stub is a general handler for this dest_type.
+ // It can be called from _adapter_opt_return_any below.
+ // Stash the address in a little table.
+ assert((dest_type_constant & CONV_TYPE_MASK) == dest_type_constant, "oob");
+ address return_handler = __ pc();
+ _adapter_return_handlers[dest_type_constant] = return_handler;
+ if (dest_type_constant == T_INT) {
+ // do the subword types too
+ for (int bt = T_BOOLEAN; bt < T_INT; bt++) {
+ if (is_subword_type(BasicType(bt)) &&
+ _adapter_return_handlers[bt] == NULL) {
+ _adapter_return_handlers[bt] = return_handler;
+ }
+ }
+ }
+ }
+
+ Register rbx_arg_base = rbx_temp;
+ assert_different_registers(rax, rdx, // possibly live return value registers
+ rdi_temp, rbx_arg_base);
+
+ Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
+ Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
+
+ __ movptr(rbx_arg_base, saved_args_base_addr);
+ RegisterOrConstant dest_slot = dest_slot_constant;
+ if (dest_slot_constant == -1) {
+ load_conversion_vminfo(_masm, rdi_temp, conversion_addr);
+ dest_slot = rdi_temp;
+ }
+ // Store the result back into the argslot.
+ // This code uses the interpreter calling sequence, in which the return value
+ // is usually left in the TOS register, as defined by InterpreterMacroAssembler::pop.
+ // There are certain irregularities with floating point values, which can be seen
+ // in TemplateInterpreterGenerator::generate_return_entry_for.
+ move_return_value(_masm, dest_type_constant, Address(rbx_arg_base, dest_slot, Interpreter::stackElementScale()));
+
+ RicochetFrame::leave_ricochet_frame(_masm, rcx_recv, rbx_arg_base, rdx_temp);
+ __ push(rdx_temp); // repush the return PC
+
+ // Load the final target and go.
+ if (VerifyMethodHandles) verify_method_handle(_masm, rcx_recv);
+ __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
+ __ hlt(); // --------------------
+ break;
+ }
+
+ case _adapter_opt_return_any:
+ {
+ if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
+ Register rdi_conv = rdi_temp;
+ assert_different_registers(rax, rdx, // possibly live return value registers
+ rdi_conv, rbx_temp);
+
+ Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
+ load_conversion_dest_type(_masm, rdi_conv, conversion_addr);
+ __ lea(rbx_temp, ExternalAddress((address) &_adapter_return_handlers[0]));
+ __ movptr(rbx_temp, Address(rbx_temp, rdi_conv, Address::times_ptr));
+
+#ifdef ASSERT
+ { Label L_badconv;
+ __ testptr(rbx_temp, rbx_temp);
+ __ jccb(Assembler::zero, L_badconv);
+ __ jmp(rbx_temp);
+ __ bind(L_badconv);
+ __ stop("bad method handle return");
+ }
+#else //ASSERT
+ __ jmp(rbx_temp);
+#endif //ASSERT
+ break;
+ }
+
case _adapter_opt_spread_0:
- case _adapter_opt_spread_1:
- case _adapter_opt_spread_more:
+ case _adapter_opt_spread_1_ref:
+ case _adapter_opt_spread_2_ref:
+ case _adapter_opt_spread_3_ref:
+ case _adapter_opt_spread_4_ref:
+ case _adapter_opt_spread_5_ref:
+ case _adapter_opt_spread_ref:
+ case _adapter_opt_spread_byte:
+ case _adapter_opt_spread_char:
+ case _adapter_opt_spread_short:
+ case _adapter_opt_spread_int:
+ case _adapter_opt_spread_long:
+ case _adapter_opt_spread_float:
+ case _adapter_opt_spread_double:
{
// spread an array out into a group of arguments
- int length_constant = get_ek_adapter_opt_spread_info(ek);
+ int length_constant = ek_adapter_opt_spread_count(ek);
+ bool length_can_be_zero = (length_constant == 0);
+ if (length_constant < 0) {
+ // some adapters with variable length must handle the zero case
+ if (!OptimizeMethodHandles ||
+ ek_adapter_opt_spread_type(ek) != T_OBJECT)
+ length_can_be_zero = true;
+ }
// find the address of the array argument
__ movl(rax_argslot, rcx_amh_vmargslot);
__ lea(rax_argslot, __ argument_address(rax_argslot));
- // grab some temps
- { __ push(rsi); __ push(rdi); }
- // (preceding pushes must be done after argslot address is taken!)
-#define UNPUSH_RSI_RDI \
- { __ pop(rdi); __ pop(rsi); }
+ // grab another temp
+ Register rsi_temp = rsi;
+ { if (rsi_temp == saved_last_sp) __ push(saved_last_sp); }
+ // (preceding push must be done after argslot address is taken!)
+#define UNPUSH_RSI \
+ { if (rsi_temp == saved_last_sp) __ pop(saved_last_sp); }
// arx_argslot points both to the array and to the first output arg
vmarg = Address(rax_argslot, 0);
// Get the array value.
- Register rsi_array = rsi;
+ Register rsi_array = rsi_temp;
Register rdx_array_klass = rdx_temp;
- BasicType elem_type = T_OBJECT;
+ BasicType elem_type = ek_adapter_opt_spread_type(ek);
+ int elem_slots = type2size[elem_type]; // 1 or 2
+ int array_slots = 1; // array is always a T_OBJECT
int length_offset = arrayOopDesc::length_offset_in_bytes();
int elem0_offset = arrayOopDesc::base_offset_in_bytes(elem_type);
__ movptr(rsi_array, vmarg);
- Label skip_array_check;
- if (length_constant == 0) {
+
+ Label L_array_is_empty, L_insert_arg_space, L_copy_args, L_args_done;
+ if (length_can_be_zero) {
+ // handle the null pointer case, if zero is allowed
+ Label L_skip;
+ if (length_constant < 0) {
+ load_conversion_vminfo(_masm, rbx_temp, rcx_amh_conversion);
+ __ testl(rbx_temp, rbx_temp);
+ __ jcc(Assembler::notZero, L_skip);
+ }
__ testptr(rsi_array, rsi_array);
- __ jcc(Assembler::zero, skip_array_check);
+ __ jcc(Assembler::zero, L_array_is_empty);
+ __ bind(L_skip);
}
__ null_check(rsi_array, oopDesc::klass_offset_in_bytes());
__ load_klass(rdx_array_klass, rsi_array);
@@ -1081,22 +2275,20 @@
// Check the array type.
Register rbx_klass = rbx_temp;
__ load_heap_oop(rbx_klass, rcx_amh_argument); // this is a Class object!
- __ load_heap_oop(rbx_klass, Address(rbx_klass, java_lang_Class::klass_offset_in_bytes()));
+ load_klass_from_Class(_masm, rbx_klass);
Label ok_array_klass, bad_array_klass, bad_array_length;
- __ check_klass_subtype(rdx_array_klass, rbx_klass, rdi, ok_array_klass);
+ __ check_klass_subtype(rdx_array_klass, rbx_klass, rdi_temp, ok_array_klass);
// If we get here, the type check failed!
__ jmp(bad_array_klass);
- __ bind(ok_array_klass);
+ __ BIND(ok_array_klass);
// Check length.
if (length_constant >= 0) {
__ cmpl(Address(rsi_array, length_offset), length_constant);
} else {
Register rbx_vminfo = rbx_temp;
- __ movl(rbx_vminfo, rcx_amh_conversion);
- assert(CONV_VMINFO_SHIFT == 0, "preshifted");
- __ andl(rbx_vminfo, CONV_VMINFO_MASK);
+ load_conversion_vminfo(_masm, rbx_vminfo, rcx_amh_conversion);
__ cmpl(rbx_vminfo, Address(rsi_array, length_offset));
}
__ jcc(Assembler::notEqual, bad_array_length);
@@ -1108,90 +2300,104 @@
// Form a pointer to the end of the affected region.
__ lea(rdx_argslot_limit, Address(rax_argslot, Interpreter::stackElementSize));
// 'stack_move' is negative number of words to insert
- Register rdi_stack_move = rdi;
- __ movl2ptr(rdi_stack_move, rcx_amh_conversion);
- __ sarptr(rdi_stack_move, CONV_STACK_MOVE_SHIFT);
+ // This number already accounts for elem_slots.
+ Register rdi_stack_move = rdi_temp;
+ load_stack_move(_masm, rdi_stack_move, rcx_recv, true);
+ __ cmpptr(rdi_stack_move, 0);
+ assert(stack_move_unit() < 0, "else change this comparison");
+ __ jcc(Assembler::less, L_insert_arg_space);
+ __ jcc(Assembler::equal, L_copy_args);
+ // single argument case, with no array movement
+ __ BIND(L_array_is_empty);
+ remove_arg_slots(_masm, -stack_move_unit() * array_slots,
+ rax_argslot, rbx_temp, rdx_temp);
+ __ jmp(L_args_done); // no spreading to do
+ __ BIND(L_insert_arg_space);
+ // come here in the usual case, stack_move < 0 (2 or more spread arguments)
Register rsi_temp = rsi_array; // spill this
- insert_arg_slots(_masm, rdi_stack_move, -1,
+ insert_arg_slots(_masm, rdi_stack_move,
rax_argslot, rbx_temp, rsi_temp);
- // reload the array (since rsi was killed)
- __ movptr(rsi_array, vmarg);
- } else if (length_constant > 1) {
- int arg_mask = 0;
- int new_slots = (length_constant - 1);
- for (int i = 0; i < new_slots; i++) {
- arg_mask <<= 1;
- arg_mask |= _INSERT_REF_MASK;
- }
- insert_arg_slots(_masm, new_slots * stack_move_unit(), arg_mask,
+ // reload the array since rsi was killed
+ // reload from rdx_argslot_limit since rax_argslot is now decremented
+ __ movptr(rsi_array, Address(rdx_argslot_limit, -Interpreter::stackElementSize));
+ } else if (length_constant >= 1) {
+ int new_slots = (length_constant * elem_slots) - array_slots;
+ insert_arg_slots(_masm, new_slots * stack_move_unit(),
rax_argslot, rbx_temp, rdx_temp);
- } else if (length_constant == 1) {
- // no stack resizing required
} else if (length_constant == 0) {
- remove_arg_slots(_masm, -stack_move_unit(),
+ __ BIND(L_array_is_empty);
+ remove_arg_slots(_masm, -stack_move_unit() * array_slots,
rax_argslot, rbx_temp, rdx_temp);
+ } else {
+ ShouldNotReachHere();
}
// Copy from the array to the new slots.
// Note: Stack change code preserves integrity of rax_argslot pointer.
// So even after slot insertions, rax_argslot still points to first argument.
+ // Beware: Arguments that are shallow on the stack are deep in the array,
+ // and vice versa. So a downward-growing stack (the usual) has to be copied
+ // elementwise in reverse order from the source array.
+ __ BIND(L_copy_args);
if (length_constant == -1) {
// [rax_argslot, rdx_argslot_limit) is the area we are inserting into.
+ // Array element [0] goes at rdx_argslot_limit[-wordSize].
Register rsi_source = rsi_array;
__ lea(rsi_source, Address(rsi_array, elem0_offset));
+ Register rdx_fill_ptr = rdx_argslot_limit;
Label loop;
- __ bind(loop);
- __ movptr(rbx_temp, Address(rsi_source, 0));
- __ movptr(Address(rax_argslot, 0), rbx_temp);
+ __ BIND(loop);
+ __ addptr(rdx_fill_ptr, -Interpreter::stackElementSize * elem_slots);
+ move_typed_arg(_masm, elem_type, true,
+ Address(rdx_fill_ptr, 0), Address(rsi_source, 0),
+ rbx_temp, rdi_temp);
__ addptr(rsi_source, type2aelembytes(elem_type));
- __ addptr(rax_argslot, Interpreter::stackElementSize);
- __ cmpptr(rax_argslot, rdx_argslot_limit);
- __ jccb(Assembler::less, loop);
+ __ cmpptr(rdx_fill_ptr, rax_argslot);
+ __ jcc(Assembler::greater, loop);
} else if (length_constant == 0) {
- __ bind(skip_array_check);
// nothing to copy
} else {
int elem_offset = elem0_offset;
- int slot_offset = 0;
+ int slot_offset = length_constant * Interpreter::stackElementSize;
for (int index = 0; index < length_constant; index++) {
- __ movptr(rbx_temp, Address(rsi_array, elem_offset));
- __ movptr(Address(rax_argslot, slot_offset), rbx_temp);
+ slot_offset -= Interpreter::stackElementSize * elem_slots; // fill backward
+ move_typed_arg(_masm, elem_type, true,
+ Address(rax_argslot, slot_offset), Address(rsi_array, elem_offset),
+ rbx_temp, rdi_temp);
elem_offset += type2aelembytes(elem_type);
- slot_offset += Interpreter::stackElementSize;
}
}
+ __ BIND(L_args_done);
// Arguments are spread. Move to next method handle.
- UNPUSH_RSI_RDI;
+ UNPUSH_RSI;
__ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
__ jump_to_method_handle_entry(rcx_recv, rdx_temp);
__ bind(bad_array_klass);
- UNPUSH_RSI_RDI;
+ UNPUSH_RSI;
assert(!vmarg.uses(rarg2_required), "must be different registers");
- __ movptr(rarg2_required, Address(rdx_array_klass, java_mirror_offset)); // required type
- __ movptr(rarg1_actual, vmarg); // bad array
- __ movl( rarg0_code, (int) Bytecodes::_aaload); // who is complaining?
+ __ load_heap_oop( rarg2_required, Address(rdx_array_klass, java_mirror_offset)); // required type
+ __ movptr( rarg1_actual, vmarg); // bad array
+ __ movl( rarg0_code, (int) Bytecodes::_aaload); // who is complaining?
__ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
__ bind(bad_array_length);
- UNPUSH_RSI_RDI;
+ UNPUSH_RSI;
assert(!vmarg.uses(rarg2_required), "must be different registers");
- __ mov (rarg2_required, rcx_recv); // AMH requiring a certain length
- __ movptr(rarg1_actual, vmarg); // bad array
- __ movl( rarg0_code, (int) Bytecodes::_arraylength); // who is complaining?
+ __ mov( rarg2_required, rcx_recv); // AMH requiring a certain length
+ __ movptr( rarg1_actual, vmarg); // bad array
+ __ movl( rarg0_code, (int) Bytecodes::_arraylength); // who is complaining?
__ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
+#undef UNPUSH_RSI
-#undef UNPUSH_RSI_RDI
+ break;
}
- break;
- case _adapter_flyby:
- case _adapter_ricochet:
- __ unimplemented(entry_name(ek)); // %%% FIXME: NYI
- break;
-
- default: ShouldNotReachHere();
+ default:
+ // do not require all platforms to recognize all adapter types
+ __ nop();
+ return;
}
__ hlt();
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/hotspot/src/cpu/x86/vm/methodHandles_x86.hpp Fri May 06 19:34:55 2011 -0700
@@ -0,0 +1,292 @@
+/*
+ * Copyright (c) 2010, 2011, 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
+ * under the terms of the GNU General Public License version 2 only, as
+ * published by the Free Software Foundation.
+ *
+ * This code is distributed in the hope that it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+ * version 2 for more details (a copy is included in the LICENSE file that
+ * accompanied this code).
+ *
+ * You should have received a copy of the GNU General Public License version
+ * 2 along with this work; if not, write to the Free Software Foundation,
+ * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
+ *
+ * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
+ * or visit www.oracle.com if you need additional information or have any
+ * questions.
+ *
+ */
+
+// Platform-specific definitions for method handles.
+// These definitions are inlined into class MethodHandles.
+
+public:
+
+// The stack just after the recursive call from a ricochet frame
+// looks something like this. Offsets are marked in words, not bytes.
+// rsi (r13 on LP64) is part of the interpreter calling sequence
+// which tells the callee where is my real rsp (for frame walking).
+// (...lower memory addresses)
+// rsp: [ return pc ] always the global RicochetBlob::bounce_addr
+// rsp+1: [ recursive arg N ]
+// rsp+2: [ recursive arg N-1 ]
+// ...
+// rsp+N: [ recursive arg 1 ]
+// rsp+N+1: [ recursive method handle ]
+// ...
+// rbp-6: [ cleanup continuation pc ] <-- (struct RicochetFrame)
+// rbp-5: [ saved target MH ] the MH we will call on the saved args
+// rbp-4: [ saved args layout oop ] an int[] array which describes argument layout
+// rbp-3: [ saved args pointer ] address of transformed adapter arg M (slot 0)
+// rbp-2: [ conversion ] information about how the return value is used
+// rbp-1: [ exact sender sp ] exact TOS (rsi/r13) of original sender frame
+// rbp+0: [ saved sender fp ] (for original sender of AMH)
+// rbp+1: [ saved sender pc ] (back to original sender of AMH)
+// rbp+2: [ transformed adapter arg M ] <-- (extended TOS of original sender)
+// rbp+3: [ transformed adapter arg M-1]
+// ...
+// rbp+M+1: [ transformed adapter arg 1 ]
+// rbp+M+2: [ padding ] <-- (rbp + saved args base offset)
+// ... [ optional padding]
+// (higher memory addresses...)
+//
+// The arguments originally passed by the original sender
+// are lost, and arbitrary amounts of stack motion might have
+// happened due to argument transformation.
+// (This is done by C2I/I2C adapters and non-direct method handles.)
+// This is why there is an unpredictable amount of memory between
+// the extended and exact TOS of the sender.
+// The ricochet adapter itself will also (in general) perform
+// transformations before the recursive call.
+//
+// The transformed and saved arguments, immediately above the saved
+// return PC, are a well-formed method handle invocation ready to execute.
+// When the GC needs to walk the stack, these arguments are described
+// via the saved arg types oop, an int[] array with a private format.
+// This array is derived from the type of the transformed adapter
+// method handle, which also sits at the base of the saved argument
+// bundle. Since the GC may not be able to fish out the int[]
+// array, so it is pushed explicitly on the stack. This may be
+// an unnecessary expense.
+//
+// The following register conventions are significant at this point:
+// rsp the thread stack, as always; preserved by caller
+// rsi/r13 exact TOS of recursive frame (contents of [rbp-2])
+// rcx recursive method handle (contents of [rsp+N+1])
+// rbp preserved by caller (not used by caller)
+// Unless otherwise specified, all registers can be blown by the call.
+//
+// If this frame must be walked, the transformed adapter arguments
+// will be found with the help of the saved arguments descriptor.
+//
+// Therefore, the descriptor must match the referenced arguments.
+// The arguments must be followed by at least one word of padding,
+// which will be necessary to complete the final method handle call.
+// That word is not treated as holding an oop. Neither is the word
+//
+// The word pointed to by the return argument pointer is not
+// treated as an oop, even if points to a saved argument.
+// This allows the saved argument list to have a "hole" in it
+// to receive an oop from the recursive call.
+// (The hole might temporarily contain RETURN_VALUE_PLACEHOLDER.)
+//
+// When the recursive callee returns, RicochetBlob::bounce_addr will
+// immediately jump to the continuation stored in the RF.
+// This continuation will merge the recursive return value
+// into the saved argument list. At that point, the original
+// rsi, rbp, and rsp will be reloaded, the ricochet frame will
+// disappear, and the final target of the adapter method handle
+// will be invoked on the transformed argument list.
+
+class RicochetFrame {
+ friend class MethodHandles;
+
+ private:
+ intptr_t* _continuation; // what to do when control gets back here
+ oopDesc* _saved_target; // target method handle to invoke on saved_args
+ oopDesc* _saved_args_layout; // caching point for MethodTypeForm.vmlayout cookie
+ intptr_t* _saved_args_base; // base of pushed arguments (slot 0, arg N) (-3)
+ intptr_t _conversion; // misc. information from original AdapterMethodHandle (-2)
+ intptr_t* _exact_sender_sp; // parallel to interpreter_frame_sender_sp (-1)
+ intptr_t* _sender_link; // *must* coincide with frame::link_offset (0)
+ address _sender_pc; // *must* coincide with frame::return_addr_offset (1)
+
+ public:
+ intptr_t* continuation() const { return _continuation; }
+ oop saved_target() const { return _saved_target; }
+ oop saved_args_layout() const { return _saved_args_layout; }
+ intptr_t* saved_args_base() const { return _saved_args_base; }
+ intptr_t conversion() const { return _conversion; }
+ intptr_t* exact_sender_sp() const { return _exact_sender_sp; }
+ intptr_t* sender_link() const { return _sender_link; }
+ address sender_pc() const { return _sender_pc; }
+
+ intptr_t* extended_sender_sp() const { return saved_args_base(); }
+
+ intptr_t return_value_slot_number() const {
+ return adapter_conversion_vminfo(conversion());
+ }
+ BasicType return_value_type() const {
+ return adapter_conversion_dest_type(conversion());
+ }
+ bool has_return_value_slot() const {
+ return return_value_type() != T_VOID;
+ }
+ intptr_t* return_value_slot_addr() const {
+ assert(has_return_value_slot(), "");
+ return saved_arg_slot_addr(return_value_slot_number());
+ }
+ intptr_t* saved_target_slot_addr() const {
+ return saved_arg_slot_addr(saved_args_length());
+ }
+ intptr_t* saved_arg_slot_addr(int slot) const {
+ assert(slot >= 0, "");
+ return (intptr_t*)( (address)saved_args_base() + (slot * Interpreter::stackElementSize) );
+ }
+
+ jint saved_args_length() const;
+ jint saved_arg_offset(int arg) const;
+
+ // GC interface
+ oop* saved_target_addr() { return (oop*)&_saved_target; }
+ oop* saved_args_layout_addr() { return (oop*)&_saved_args_layout; }
+
+ oop compute_saved_args_layout(bool read_cache, bool write_cache);
+
+ // Compiler/assembler interface.
+ static int continuation_offset_in_bytes() { return offset_of(RicochetFrame, _continuation); }
+ static int saved_target_offset_in_bytes() { return offset_of(RicochetFrame, _saved_target); }
+ static int saved_args_layout_offset_in_bytes(){ return offset_of(RicochetFrame, _saved_args_layout); }
+ static int saved_args_base_offset_in_bytes() { return offset_of(RicochetFrame, _saved_args_base); }
+ static int conversion_offset_in_bytes() { return offset_of(RicochetFrame, _conversion); }
+ static int exact_sender_sp_offset_in_bytes() { return offset_of(RicochetFrame, _exact_sender_sp); }
+ static int sender_link_offset_in_bytes() { return offset_of(RicochetFrame, _sender_link); }
+ static int sender_pc_offset_in_bytes() { return offset_of(RicochetFrame, _sender_pc); }
+
+ // This value is not used for much, but it apparently must be nonzero.
+ static int frame_size_in_bytes() { return sender_link_offset_in_bytes(); }
+
+#ifdef ASSERT
+ // The magic number is supposed to help find ricochet frames within the bytes of stack dumps.
+ enum { MAGIC_NUMBER_1 = 0xFEED03E, MAGIC_NUMBER_2 = 0xBEEF03E };
+ static int magic_number_1_offset_in_bytes() { return -wordSize; }
+ static int magic_number_2_offset_in_bytes() { return sizeof(RicochetFrame); }
+ intptr_t magic_number_1() const { return *(intptr_t*)((address)this + magic_number_1_offset_in_bytes()); };
+ intptr_t magic_number_2() const { return *(intptr_t*)((address)this + magic_number_2_offset_in_bytes()); };
+#endif //ASSERT
+
+ enum { RETURN_VALUE_PLACEHOLDER = (NOT_DEBUG(0) DEBUG_ONLY(42)) };
+
+ static void verify_offsets() NOT_DEBUG_RETURN;
+ void verify() const NOT_DEBUG_RETURN; // check for MAGIC_NUMBER, etc.
+ void zap_arguments() NOT_DEBUG_RETURN;
+
+ static void generate_ricochet_blob(MacroAssembler* _masm,
+ // output params:
+ int* frame_size_in_words, int* bounce_offset, int* exception_offset);
+
+ static void enter_ricochet_frame(MacroAssembler* _masm,
+ Register rcx_recv,
+ Register rax_argv,
+ address return_handler,
+ Register rbx_temp);
+ static void leave_ricochet_frame(MacroAssembler* _masm,
+ Register rcx_recv,
+ Register new_sp_reg,
+ Register sender_pc_reg);
+
+ static Address frame_address(int offset = 0) {
+ // The RicochetFrame is found by subtracting a constant offset from rbp.
+ return Address(rbp, - sender_link_offset_in_bytes() + offset);
+ }
+
+ static RicochetFrame* from_frame(const frame& fr) {
+ address bp = (address) fr.fp();
+ RicochetFrame* rf = (RicochetFrame*)(bp - sender_link_offset_in_bytes());
+ rf->verify();
+ return rf;
+ }
+
+ static void verify_clean(MacroAssembler* _masm) NOT_DEBUG_RETURN;
+};
+
+// Additional helper methods for MethodHandles code generation:
+public:
+ static void load_klass_from_Class(MacroAssembler* _masm, Register klass_reg);
+ static void load_conversion_vminfo(MacroAssembler* _masm, Register reg, Address conversion_field_addr);
+ static void load_conversion_dest_type(MacroAssembler* _masm, Register reg, Address conversion_field_addr);
+
+ static void load_stack_move(MacroAssembler* _masm,
+ Register rdi_stack_move,
+ Register rcx_amh,
+ bool might_be_negative);
+
+ static void insert_arg_slots(MacroAssembler* _masm,
+ RegisterOrConstant arg_slots,
+ Register rax_argslot,
+ Register rbx_temp, Register rdx_temp);
+
+ static void remove_arg_slots(MacroAssembler* _masm,
+ RegisterOrConstant arg_slots,
+ Register rax_argslot,
+ Register rbx_temp, Register rdx_temp);
+
+ static void push_arg_slots(MacroAssembler* _masm,
+ Register rax_argslot,
+ RegisterOrConstant slot_count,
+ int skip_words_count,
+ Register rbx_temp, Register rdx_temp);
+
+ static void move_arg_slots_up(MacroAssembler* _masm,
+ Register rbx_bottom, // invariant
+ Address top_addr, // can use rax_temp
+ RegisterOrConstant positive_distance_in_slots,
+ Register rax_temp, Register rdx_temp);
+
+ static void move_arg_slots_down(MacroAssembler* _masm,
+ Address bottom_addr, // can use rax_temp
+ Register rbx_top, // invariant
+ RegisterOrConstant negative_distance_in_slots,
+ Register rax_temp, Register rdx_temp);
+
+ static void move_typed_arg(MacroAssembler* _masm,
+ BasicType type, bool is_element,
+ Address slot_dest, Address value_src,
+ Register rbx_temp, Register rdx_temp);
+
+ static void move_return_value(MacroAssembler* _masm, BasicType type,
+ Address return_slot);
+
+ static void verify_argslot(MacroAssembler* _masm, Register argslot_reg,
+ const char* error_message) NOT_DEBUG_RETURN;
+
+ static void verify_argslots(MacroAssembler* _masm,
+ RegisterOrConstant argslot_count,
+ Register argslot_reg,
+ bool negate_argslot,
+ const char* error_message) NOT_DEBUG_RETURN;
+
+ static void verify_stack_move(MacroAssembler* _masm,
+ RegisterOrConstant arg_slots,
+ int direction) NOT_DEBUG_RETURN;
+
+ static void verify_klass(MacroAssembler* _masm,
+ Register obj, KlassHandle klass,
+ const char* error_message = "wrong klass") NOT_DEBUG_RETURN;
+
+ static void verify_method_handle(MacroAssembler* _masm, Register mh_reg) {
+ verify_klass(_masm, mh_reg, SystemDictionaryHandles::MethodHandle_klass(),
+ "reference is a MH");
+ }
+
+ static void trace_method_handle(MacroAssembler* _masm, const char* adaptername) PRODUCT_RETURN;
+
+ static Register saved_last_sp_register() {
+ // Should be in sharedRuntime, not here.
+ return LP64_ONLY(r13) NOT_LP64(rsi);
+ }
--- a/hotspot/src/cpu/x86/vm/sharedRuntime_x86_32.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/sharedRuntime_x86_32.cpp Fri May 06 19:34:55 2011 -0700
@@ -2253,6 +2253,31 @@
return 0;
}
+//----------------------------generate_ricochet_blob---------------------------
+void SharedRuntime::generate_ricochet_blob() {
+ if (!EnableInvokeDynamic) return; // leave it as a null
+
+ // allocate space for the code
+ ResourceMark rm;
+ // setup code generation tools
+ CodeBuffer buffer("ricochet_blob", 256, 256);
+ MacroAssembler* masm = new MacroAssembler(&buffer);
+
+ int frame_size_in_words = -1, bounce_offset = -1, exception_offset = -1;
+ MethodHandles::RicochetFrame::generate_ricochet_blob(masm, &frame_size_in_words, &bounce_offset, &exception_offset);
+
+ // -------------
+ // make sure all code is generated
+ masm->flush();
+
+ // failed to generate?
+ if (frame_size_in_words < 0 || bounce_offset < 0 || exception_offset < 0) {
+ assert(false, "bad ricochet blob");
+ return;
+ }
+
+ _ricochet_blob = RicochetBlob::create(&buffer, bounce_offset, exception_offset, frame_size_in_words);
+}
//------------------------------generate_deopt_blob----------------------------
void SharedRuntime::generate_deopt_blob() {
@@ -2996,6 +3021,8 @@
generate_handler_blob(CAST_FROM_FN_PTR(address,
SafepointSynchronize::handle_polling_page_exception), true);
+ generate_ricochet_blob();
+
generate_deopt_blob();
#ifdef COMPILER2
generate_uncommon_trap_blob();
--- a/hotspot/src/cpu/x86/vm/sharedRuntime_x86_64.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/sharedRuntime_x86_64.cpp Fri May 06 19:34:55 2011 -0700
@@ -2530,6 +2530,32 @@
}
+//----------------------------generate_ricochet_blob---------------------------
+void SharedRuntime::generate_ricochet_blob() {
+ if (!EnableInvokeDynamic) return; // leave it as a null
+
+ // allocate space for the code
+ ResourceMark rm;
+ // setup code generation tools
+ CodeBuffer buffer("ricochet_blob", 512, 512);
+ MacroAssembler* masm = new MacroAssembler(&buffer);
+
+ int frame_size_in_words = -1, bounce_offset = -1, exception_offset = -1;
+ MethodHandles::RicochetFrame::generate_ricochet_blob(masm, &frame_size_in_words, &bounce_offset, &exception_offset);
+
+ // -------------
+ // make sure all code is generated
+ masm->flush();
+
+ // failed to generate?
+ if (frame_size_in_words < 0 || bounce_offset < 0 || exception_offset < 0) {
+ assert(false, "bad ricochet blob");
+ return;
+ }
+
+ _ricochet_blob = RicochetBlob::create(&buffer, bounce_offset, exception_offset, frame_size_in_words);
+}
+
//------------------------------generate_deopt_blob----------------------------
void SharedRuntime::generate_deopt_blob() {
// Allocate space for the code
@@ -3205,6 +3231,8 @@
generate_handler_blob(CAST_FROM_FN_PTR(address,
SafepointSynchronize::handle_polling_page_exception), true);
+ generate_ricochet_blob();
+
generate_deopt_blob();
#ifdef COMPILER2
--- a/hotspot/src/cpu/x86/vm/stubRoutines_x86_32.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/stubRoutines_x86_32.hpp Fri May 06 19:34:55 2011 -0700
@@ -36,7 +36,7 @@
// MethodHandles adapters
enum method_handles_platform_dependent_constants {
- method_handles_adapters_code_size = 10000
+ method_handles_adapters_code_size = 30000 DEBUG_ONLY(+ 10000)
};
class x86 {
--- a/hotspot/src/cpu/x86/vm/stubRoutines_x86_64.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/cpu/x86/vm/stubRoutines_x86_64.hpp Fri May 06 19:34:55 2011 -0700
@@ -38,7 +38,7 @@
// MethodHandles adapters
enum method_handles_platform_dependent_constants {
- method_handles_adapters_code_size = 40000
+ method_handles_adapters_code_size = 80000 DEBUG_ONLY(+ 120000)
};
class x86 {
--- a/hotspot/src/share/vm/c1/c1_InstructionPrinter.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/c1/c1_InstructionPrinter.cpp Fri May 06 19:34:55 2011 -0700
@@ -132,17 +132,22 @@
if (value->is_null_object()) {
output()->print("null");
} else if (!value->is_loaded()) {
- output()->print("<unloaded object 0x%x>", value);
+ output()->print("<unloaded object " PTR_FORMAT ">", value);
} else if (value->is_method()) {
ciMethod* m = (ciMethod*)value;
output()->print("<method %s.%s>", m->holder()->name()->as_utf8(), m->name()->as_utf8());
} else {
- output()->print("<object 0x%x>", value->constant_encoding());
+ output()->print("<object " PTR_FORMAT ">", value->constant_encoding());
}
} else if (type->as_InstanceConstant() != NULL) {
- output()->print("<instance 0x%x>", type->as_InstanceConstant()->value()->constant_encoding());
+ ciInstance* value = type->as_InstanceConstant()->value();
+ if (value->is_loaded()) {
+ output()->print("<instance " PTR_FORMAT ">", value->constant_encoding());
+ } else {
+ output()->print("<unloaded instance " PTR_FORMAT ">", value);
+ }
} else if (type->as_ArrayConstant() != NULL) {
- output()->print("<array 0x%x>", type->as_ArrayConstant()->value()->constant_encoding());
+ output()->print("<array " PTR_FORMAT ">", type->as_ArrayConstant()->value()->constant_encoding());
} else if (type->as_ClassConstant() != NULL) {
ciInstanceKlass* klass = type->as_ClassConstant()->value();
if (!klass->is_loaded()) {
--- a/hotspot/src/share/vm/c1/c1_Optimizer.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/c1/c1_Optimizer.cpp Fri May 06 19:34:55 2011 -0700
@@ -252,26 +252,28 @@
Constant::CompareResult t_compare_res = x_tval_const->compare(cond, y_const);
Constant::CompareResult f_compare_res = x_fval_const->compare(cond, y_const);
- guarantee(t_compare_res != Constant::not_comparable && f_compare_res != Constant::not_comparable, "incomparable constants in IfOp");
-
- Value new_tval = t_compare_res == Constant::cond_true ? tval : fval;
- Value new_fval = f_compare_res == Constant::cond_true ? tval : fval;
+ // not_comparable here is a valid return in case we're comparing unloaded oop constants
+ if (t_compare_res != Constant::not_comparable && f_compare_res != Constant::not_comparable) {
+ Value new_tval = t_compare_res == Constant::cond_true ? tval : fval;
+ Value new_fval = f_compare_res == Constant::cond_true ? tval : fval;
- _ifop_count++;
- if (new_tval == new_fval) {
- return new_tval;
- } else {
- return new IfOp(x_ifop->x(), x_ifop_cond, x_ifop->y(), new_tval, new_fval);
+ _ifop_count++;
+ if (new_tval == new_fval) {
+ return new_tval;
+ } else {
+ return new IfOp(x_ifop->x(), x_ifop_cond, x_ifop->y(), new_tval, new_fval);
+ }
}
}
} else {
Constant* x_const = x->as_Constant();
if (x_const != NULL) { // x and y are constants
Constant::CompareResult x_compare_res = x_const->compare(cond, y_const);
- guarantee(x_compare_res != Constant::not_comparable, "incomparable constants in IfOp");
-
- _ifop_count++;
- return x_compare_res == Constant::cond_true ? tval : fval;
+ // not_comparable here is a valid return in case we're comparing unloaded oop constants
+ if (x_compare_res != Constant::not_comparable) {
+ _ifop_count++;
+ return x_compare_res == Constant::cond_true ? tval : fval;
+ }
}
}
}
--- a/hotspot/src/share/vm/classfile/javaClasses.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/classfile/javaClasses.cpp Fri May 06 19:34:55 2011 -0700
@@ -2602,6 +2602,7 @@
// Support for java_lang_invoke_MethodTypeForm
int java_lang_invoke_MethodTypeForm::_vmslots_offset;
+int java_lang_invoke_MethodTypeForm::_vmlayout_offset;
int java_lang_invoke_MethodTypeForm::_erasedType_offset;
int java_lang_invoke_MethodTypeForm::_genericInvoker_offset;
@@ -2609,6 +2610,7 @@
klassOop k = SystemDictionary::MethodTypeForm_klass();
if (k != NULL) {
compute_optional_offset(_vmslots_offset, k, vmSymbols::vmslots_name(), vmSymbols::int_signature(), true);
+ compute_optional_offset(_vmlayout_offset, k, vmSymbols::vmlayout_name(), vmSymbols::object_signature());
compute_optional_offset(_erasedType_offset, k, vmSymbols::erasedType_name(), vmSymbols::java_lang_invoke_MethodType_signature(), true);
compute_optional_offset(_genericInvoker_offset, k, vmSymbols::genericInvoker_name(), vmSymbols::java_lang_invoke_MethodHandle_signature(), true);
if (_genericInvoker_offset == 0) _genericInvoker_offset = -1; // set to explicit "empty" value
@@ -2617,9 +2619,31 @@
int java_lang_invoke_MethodTypeForm::vmslots(oop mtform) {
assert(mtform->klass() == SystemDictionary::MethodTypeForm_klass(), "MTForm only");
+ assert(_vmslots_offset > 0, "");
return mtform->int_field(_vmslots_offset);
}
+oop java_lang_invoke_MethodTypeForm::vmlayout(oop mtform) {
+ assert(mtform->klass() == SystemDictionary::MethodTypeForm_klass(), "MTForm only");
+ assert(_vmlayout_offset > 0, "");
+ return mtform->obj_field(_vmlayout_offset);
+}
+
+oop java_lang_invoke_MethodTypeForm::init_vmlayout(oop mtform, oop cookie) {
+ assert(mtform->klass() == SystemDictionary::MethodTypeForm_klass(), "MTForm only");
+ oop previous = vmlayout(mtform);
+ if (previous != NULL) {
+ return previous; // someone else beat us to it
+ }
+ HeapWord* cookie_addr = (HeapWord*) mtform->obj_field_addr<oop>(_vmlayout_offset);
+ OrderAccess::storestore(); // make sure our copy is fully committed
+ previous = oopDesc::atomic_compare_exchange_oop(cookie, cookie_addr, previous);
+ if (previous != NULL) {
+ return previous; // someone else beat us to it
+ }
+ return cookie;
+}
+
oop java_lang_invoke_MethodTypeForm::erasedType(oop mtform) {
assert(mtform->klass() == SystemDictionary::MethodTypeForm_klass(), "MTForm only");
return mtform->obj_field(_erasedType_offset);
--- a/hotspot/src/share/vm/classfile/javaClasses.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/classfile/javaClasses.hpp Fri May 06 19:34:55 2011 -0700
@@ -949,18 +949,19 @@
OP_CHECK_CAST = 0x2, // ref-to-ref conversion; requires a Class argument
OP_PRIM_TO_PRIM = 0x3, // converts from one primitive to another
OP_REF_TO_PRIM = 0x4, // unboxes a wrapper to produce a primitive
- OP_PRIM_TO_REF = 0x5, // boxes a primitive into a wrapper (NYI)
+ OP_PRIM_TO_REF = 0x5, // boxes a primitive into a wrapper
OP_SWAP_ARGS = 0x6, // swap arguments (vminfo is 2nd arg)
OP_ROT_ARGS = 0x7, // rotate arguments (vminfo is displaced arg)
OP_DUP_ARGS = 0x8, // duplicates one or more arguments (at TOS)
OP_DROP_ARGS = 0x9, // remove one or more argument slots
- OP_COLLECT_ARGS = 0xA, // combine one or more arguments into a varargs (NYI)
+ OP_COLLECT_ARGS = 0xA, // combine arguments using an auxiliary function
OP_SPREAD_ARGS = 0xB, // expand in place a varargs array (of known size)
- OP_FLYBY = 0xC, // operate first on reified argument list (NYI)
- OP_RICOCHET = 0xD, // run an adapter chain on the return value (NYI)
+ OP_FOLD_ARGS = 0xC, // combine but do not remove arguments; prepend result
+ //OP_UNUSED_13 = 0xD, // unused code, perhaps for reified argument lists
CONV_OP_LIMIT = 0xE, // limit of CONV_OP enumeration
CONV_OP_MASK = 0xF00, // this nybble contains the conversion op field
+ CONV_TYPE_MASK = 0x0F, // fits T_ADDRESS and below
CONV_VMINFO_MASK = 0x0FF, // LSB is reserved for JVM use
CONV_VMINFO_SHIFT = 0, // position of bits in CONV_VMINFO_MASK
CONV_OP_SHIFT = 8, // position of bits in CONV_OP_MASK
@@ -1089,6 +1090,7 @@
private:
static int _vmslots_offset; // number of argument slots needed
+ static int _vmlayout_offset; // object describing internal calling sequence
static int _erasedType_offset; // erasedType = canonical MethodType
static int _genericInvoker_offset; // genericInvoker = adapter for invokeGeneric
@@ -1100,8 +1102,12 @@
static oop erasedType(oop mtform);
static oop genericInvoker(oop mtform);
+ static oop vmlayout(oop mtform);
+ static oop init_vmlayout(oop mtform, oop cookie);
+
// Accessors for code generation:
static int vmslots_offset_in_bytes() { return _vmslots_offset; }
+ static int vmlayout_offset_in_bytes() { return _vmlayout_offset; }
static int erasedType_offset_in_bytes() { return _erasedType_offset; }
static int genericInvoker_offset_in_bytes() { return _genericInvoker_offset; }
};
--- a/hotspot/src/share/vm/classfile/systemDictionary.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/classfile/systemDictionary.cpp Fri May 06 19:34:55 2011 -0700
@@ -2362,8 +2362,15 @@
spe = invoke_method_table()->find_entry(index, hash, signature, name_id);
if (spe == NULL)
spe = invoke_method_table()->add_entry(index, hash, signature, name_id);
- if (spe->property_oop() == NULL)
+ if (spe->property_oop() == NULL) {
spe->set_property_oop(m());
+ // Link m to his method type, if it is suitably generic.
+ oop mtform = java_lang_invoke_MethodType::form(mt());
+ if (mtform != NULL && mt() == java_lang_invoke_MethodTypeForm::erasedType(mtform)
+ && java_lang_invoke_MethodTypeForm::vmlayout_offset_in_bytes() > 0) {
+ java_lang_invoke_MethodTypeForm::init_vmlayout(mtform, m());
+ }
+ }
} else {
non_cached_result = m;
}
--- a/hotspot/src/share/vm/classfile/vmSymbols.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/classfile/vmSymbols.hpp Fri May 06 19:34:55 2011 -0700
@@ -341,6 +341,7 @@
template(vmtarget_name, "vmtarget") \
template(vmentry_name, "vmentry") \
template(vmslots_name, "vmslots") \
+ template(vmlayout_name, "vmlayout") \
template(vmindex_name, "vmindex") \
template(vmargslot_name, "vmargslot") \
template(flags_name, "flags") \
@@ -393,6 +394,7 @@
template(void_signature, "V") \
template(byte_array_signature, "[B") \
template(char_array_signature, "[C") \
+ template(int_array_signature, "[I") \
template(object_void_signature, "(Ljava/lang/Object;)V") \
template(object_int_signature, "(Ljava/lang/Object;)I") \
template(object_boolean_signature, "(Ljava/lang/Object;)Z") \
--- a/hotspot/src/share/vm/code/codeBlob.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/code/codeBlob.cpp Fri May 06 19:34:55 2011 -0700
@@ -152,6 +152,32 @@
}
+void CodeBlob::trace_new_stub(CodeBlob* stub, const char* name1, const char* name2) {
+ // Do not hold the CodeCache lock during name formatting.
+ assert(!CodeCache_lock->owned_by_self(), "release CodeCache before registering the stub");
+
+ if (stub != NULL) {
+ char stub_id[256];
+ assert(strlen(name1) + strlen(name2) < sizeof(stub_id), "");
+ jio_snprintf(stub_id, sizeof(stub_id), "%s%s", name1, name2);
+ if (PrintStubCode) {
+ tty->print_cr("Decoding %s " INTPTR_FORMAT, stub_id, (intptr_t) stub);
+ Disassembler::decode(stub->code_begin(), stub->code_end());
+ }
+ Forte::register_stub(stub_id, stub->code_begin(), stub->code_end());
+
+ if (JvmtiExport::should_post_dynamic_code_generated()) {
+ const char* stub_name = name2;
+ if (name2[0] == '\0') stub_name = name1;
+ JvmtiExport::post_dynamic_code_generated(stub_name, stub->code_begin(), stub->code_end());
+ }
+ }
+
+ // Track memory usage statistic after releasing CodeCache_lock
+ MemoryService::track_code_cache_memory_usage();
+}
+
+
void CodeBlob::flush() {
if (_oop_maps) {
FREE_C_HEAP_ARRAY(unsigned char, _oop_maps);
@@ -312,23 +338,7 @@
stub = new (size) RuntimeStub(stub_name, cb, size, frame_complete, frame_size, oop_maps, caller_must_gc_arguments);
}
- // Do not hold the CodeCache lock during name formatting.
- if (stub != NULL) {
- char stub_id[256];
- jio_snprintf(stub_id, sizeof(stub_id), "RuntimeStub - %s", stub_name);
- if (PrintStubCode) {
- tty->print_cr("Decoding %s " INTPTR_FORMAT, stub_id, stub);
- Disassembler::decode(stub->code_begin(), stub->code_end());
- }
- Forte::register_stub(stub_id, stub->code_begin(), stub->code_end());
-
- if (JvmtiExport::should_post_dynamic_code_generated()) {
- JvmtiExport::post_dynamic_code_generated(stub_name, stub->code_begin(), stub->code_end());
- }
- }
-
- // Track memory usage statistic after releasing CodeCache_lock
- MemoryService::track_code_cache_memory_usage();
+ trace_new_stub(stub, "RuntimeStub - ", stub_name);
return stub;
}
@@ -340,6 +350,50 @@
return p;
}
+// operator new shared by all singletons:
+void* SingletonBlob::operator new(size_t s, unsigned size) {
+ void* p = CodeCache::allocate(size);
+ if (!p) fatal("Initial size of CodeCache is too small");
+ return p;
+}
+
+
+//----------------------------------------------------------------------------------------------------
+// Implementation of RicochetBlob
+
+RicochetBlob::RicochetBlob(
+ CodeBuffer* cb,
+ int size,
+ int bounce_offset,
+ int exception_offset,
+ int frame_size
+)
+: SingletonBlob("RicochetBlob", cb, sizeof(RicochetBlob), size, frame_size, (OopMapSet*) NULL)
+{
+ _bounce_offset = bounce_offset;
+ _exception_offset = exception_offset;
+}
+
+
+RicochetBlob* RicochetBlob::create(
+ CodeBuffer* cb,
+ int bounce_offset,
+ int exception_offset,
+ int frame_size)
+{
+ RicochetBlob* blob = NULL;
+ ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
+ {
+ MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
+ unsigned int size = allocation_size(cb, sizeof(RicochetBlob));
+ blob = new (size) RicochetBlob(cb, size, bounce_offset, exception_offset, frame_size);
+ }
+
+ trace_new_stub(blob, "RicochetBlob");
+
+ return blob;
+}
+
//----------------------------------------------------------------------------------------------------
// Implementation of DeoptimizationBlob
@@ -386,34 +440,12 @@
frame_size);
}
- // Do not hold the CodeCache lock during name formatting.
- if (blob != NULL) {
- char blob_id[256];
- jio_snprintf(blob_id, sizeof(blob_id), "DeoptimizationBlob@" PTR_FORMAT, blob->code_begin());
- if (PrintStubCode) {
- tty->print_cr("Decoding %s " INTPTR_FORMAT, blob_id, blob);
- Disassembler::decode(blob->code_begin(), blob->code_end());
- }
- Forte::register_stub(blob_id, blob->code_begin(), blob->code_end());
-
- if (JvmtiExport::should_post_dynamic_code_generated()) {
- JvmtiExport::post_dynamic_code_generated("DeoptimizationBlob", blob->code_begin(), blob->code_end());
- }
- }
-
- // Track memory usage statistic after releasing CodeCache_lock
- MemoryService::track_code_cache_memory_usage();
+ trace_new_stub(blob, "DeoptimizationBlob");
return blob;
}
-void* DeoptimizationBlob::operator new(size_t s, unsigned size) {
- void* p = CodeCache::allocate(size);
- if (!p) fatal("Initial size of CodeCache is too small");
- return p;
-}
-
//----------------------------------------------------------------------------------------------------
// Implementation of UncommonTrapBlob
@@ -441,33 +473,12 @@
blob = new (size) UncommonTrapBlob(cb, size, oop_maps, frame_size);
}
- // Do not hold the CodeCache lock during name formatting.
- if (blob != NULL) {
- char blob_id[256];
- jio_snprintf(blob_id, sizeof(blob_id), "UncommonTrapBlob@" PTR_FORMAT, blob->code_begin());
- if (PrintStubCode) {
- tty->print_cr("Decoding %s " INTPTR_FORMAT, blob_id, blob);
- Disassembler::decode(blob->code_begin(), blob->code_end());
- }
- Forte::register_stub(blob_id, blob->code_begin(), blob->code_end());
-
- if (JvmtiExport::should_post_dynamic_code_generated()) {
- JvmtiExport::post_dynamic_code_generated("UncommonTrapBlob", blob->code_begin(), blob->code_end());
- }
- }
-
- // Track memory usage statistic after releasing CodeCache_lock
- MemoryService::track_code_cache_memory_usage();
+ trace_new_stub(blob, "UncommonTrapBlob");
return blob;
}
-void* UncommonTrapBlob::operator new(size_t s, unsigned size) {
- void* p = CodeCache::allocate(size);
- if (!p) fatal("Initial size of CodeCache is too small");
- return p;
-}
#endif // COMPILER2
@@ -498,33 +509,12 @@
blob = new (size) ExceptionBlob(cb, size, oop_maps, frame_size);
}
- // We do not need to hold the CodeCache lock during name formatting
- if (blob != NULL) {
- char blob_id[256];
- jio_snprintf(blob_id, sizeof(blob_id), "ExceptionBlob@" PTR_FORMAT, blob->code_begin());
- if (PrintStubCode) {
- tty->print_cr("Decoding %s " INTPTR_FORMAT, blob_id, blob);
- Disassembler::decode(blob->code_begin(), blob->code_end());
- }
- Forte::register_stub(blob_id, blob->code_begin(), blob->code_end());
-
- if (JvmtiExport::should_post_dynamic_code_generated()) {
- JvmtiExport::post_dynamic_code_generated("ExceptionBlob", blob->code_begin(), blob->code_end());
- }
- }
-
- // Track memory usage statistic after releasing CodeCache_lock
- MemoryService::track_code_cache_memory_usage();
+ trace_new_stub(blob, "ExceptionBlob");
return blob;
}
-void* ExceptionBlob::operator new(size_t s, unsigned size) {
- void* p = CodeCache::allocate(size);
- if (!p) fatal("Initial size of CodeCache is too small");
- return p;
-}
#endif // COMPILER2
@@ -554,35 +544,12 @@
blob = new (size) SafepointBlob(cb, size, oop_maps, frame_size);
}
- // We do not need to hold the CodeCache lock during name formatting.
- if (blob != NULL) {
- char blob_id[256];
- jio_snprintf(blob_id, sizeof(blob_id), "SafepointBlob@" PTR_FORMAT, blob->code_begin());
- if (PrintStubCode) {
- tty->print_cr("Decoding %s " INTPTR_FORMAT, blob_id, blob);
- Disassembler::decode(blob->code_begin(), blob->code_end());
- }
- Forte::register_stub(blob_id, blob->code_begin(), blob->code_end());
-
- if (JvmtiExport::should_post_dynamic_code_generated()) {
- JvmtiExport::post_dynamic_code_generated("SafepointBlob", blob->code_begin(), blob->code_end());
- }
- }
-
- // Track memory usage statistic after releasing CodeCache_lock
- MemoryService::track_code_cache_memory_usage();
+ trace_new_stub(blob, "SafepointBlob");
return blob;
}
-void* SafepointBlob::operator new(size_t s, unsigned size) {
- void* p = CodeCache::allocate(size);
- if (!p) fatal("Initial size of CodeCache is too small");
- return p;
-}
-
-
//----------------------------------------------------------------------------------------------------
// Verification and printing
--- a/hotspot/src/share/vm/code/codeBlob.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/code/codeBlob.hpp Fri May 06 19:34:55 2011 -0700
@@ -35,6 +35,7 @@
// Suptypes are:
// nmethod : Compiled Java methods (include method that calls to native code)
// RuntimeStub : Call to VM runtime methods
+// RicochetBlob : Used for blocking MethodHandle adapters
// DeoptimizationBlob : Used for deoptimizatation
// ExceptionBlob : Used for stack unrolling
// SafepointBlob : Used to handle illegal instruction exceptions
@@ -95,12 +96,13 @@
void flush();
// Typing
- virtual bool is_buffer_blob() const { return false; }
- virtual bool is_nmethod() const { return false; }
- virtual bool is_runtime_stub() const { return false; }
- virtual bool is_deoptimization_stub() const { return false; }
- virtual bool is_uncommon_trap_stub() const { return false; }
- virtual bool is_exception_stub() const { return false; }
+ virtual bool is_buffer_blob() const { return false; }
+ virtual bool is_nmethod() const { return false; }
+ virtual bool is_runtime_stub() const { return false; }
+ virtual bool is_ricochet_stub() const { return false; }
+ virtual bool is_deoptimization_stub() const { return false; }
+ virtual bool is_uncommon_trap_stub() const { return false; }
+ virtual bool is_exception_stub() const { return false; }
virtual bool is_safepoint_stub() const { return false; }
virtual bool is_adapter_blob() const { return false; }
virtual bool is_method_handles_adapter_blob() const { return false; }
@@ -182,6 +184,9 @@
virtual void print_on(outputStream* st) const;
virtual void print_value_on(outputStream* st) const;
+ // Deal with Disassembler, VTune, Forte, JvmtiExport, MemoryService.
+ static void trace_new_stub(CodeBlob* blob, const char* name1, const char* name2 = "");
+
// Print the comment associated with offset on stream, if there is one
virtual void print_block_comment(outputStream* stream, address block_begin) {
intptr_t offset = (intptr_t)(block_begin - code_begin());
@@ -318,7 +323,11 @@
class SingletonBlob: public CodeBlob {
friend class VMStructs;
- public:
+
+ protected:
+ void* operator new(size_t s, unsigned size);
+
+ public:
SingletonBlob(
const char* name,
CodeBuffer* cb,
@@ -341,6 +350,50 @@
//----------------------------------------------------------------------------------------------------
+// RicochetBlob
+// Holds an arbitrary argument list indefinitely while Java code executes recursively.
+
+class RicochetBlob: public SingletonBlob {
+ friend class VMStructs;
+ private:
+
+ int _bounce_offset;
+ int _exception_offset;
+
+ // Creation support
+ RicochetBlob(
+ CodeBuffer* cb,
+ int size,
+ int bounce_offset,
+ int exception_offset,
+ int frame_size
+ );
+
+ public:
+ // Creation
+ static RicochetBlob* create(
+ CodeBuffer* cb,
+ int bounce_offset,
+ int exception_offset,
+ int frame_size
+ );
+
+ // Typing
+ bool is_ricochet_stub() const { return true; }
+
+ // GC for args
+ void preserve_callee_argument_oops(frame fr, const RegisterMap *reg_map, OopClosure* f) { /* Nothing to do */ }
+
+ address bounce_addr() const { return code_begin() + _bounce_offset; }
+ address exception_addr() const { return code_begin() + _exception_offset; }
+ bool returns_to_bounce_addr(address pc) const {
+ address bounce_pc = bounce_addr();
+ return (pc == bounce_pc || (pc + frame::pc_return_offset) == bounce_pc);
+ }
+};
+
+
+//----------------------------------------------------------------------------------------------------
// DeoptimizationBlob
class DeoptimizationBlob: public SingletonBlob {
@@ -363,8 +416,6 @@
int frame_size
);
- void* operator new(size_t s, unsigned size);
-
public:
// Creation
static DeoptimizationBlob* create(
@@ -378,7 +429,6 @@
// Typing
bool is_deoptimization_stub() const { return true; }
- const DeoptimizationBlob *as_deoptimization_stub() const { return this; }
bool exception_address_is_unpack_entry(address pc) const {
address unpack_pc = unpack();
return (pc == unpack_pc || (pc + frame::pc_return_offset) == unpack_pc);
@@ -426,8 +476,6 @@
int frame_size
);
- void* operator new(size_t s, unsigned size);
-
public:
// Creation
static UncommonTrapBlob* create(
@@ -458,8 +506,6 @@
int frame_size
);
- void* operator new(size_t s, unsigned size);
-
public:
// Creation
static ExceptionBlob* create(
@@ -491,8 +537,6 @@
int frame_size
);
- void* operator new(size_t s, unsigned size);
-
public:
// Creation
static SafepointBlob* create(
--- a/hotspot/src/share/vm/code/codeCache.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/code/codeCache.cpp Fri May 06 19:34:55 2011 -0700
@@ -796,6 +796,7 @@
int nmethodCount = 0;
int runtimeStubCount = 0;
int adapterCount = 0;
+ int ricochetStubCount = 0;
int deoptimizationStubCount = 0;
int uncommonTrapStubCount = 0;
int bufferBlobCount = 0;
@@ -840,6 +841,8 @@
}
} else if (cb->is_runtime_stub()) {
runtimeStubCount++;
+ } else if (cb->is_ricochet_stub()) {
+ ricochetStubCount++;
} else if (cb->is_deoptimization_stub()) {
deoptimizationStubCount++;
} else if (cb->is_uncommon_trap_stub()) {
@@ -876,6 +879,7 @@
tty->print_cr("runtime_stubs: %d",runtimeStubCount);
tty->print_cr("adapters: %d",adapterCount);
tty->print_cr("buffer blobs: %d",bufferBlobCount);
+ tty->print_cr("ricochet_stubs: %d",ricochetStubCount);
tty->print_cr("deoptimization_stubs: %d",deoptimizationStubCount);
tty->print_cr("uncommon_traps: %d",uncommonTrapStubCount);
tty->print_cr("\nnmethod size distribution (non-zombie java)");
--- a/hotspot/src/share/vm/compiler/disassembler.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/compiler/disassembler.cpp Fri May 06 19:34:55 2011 -0700
@@ -283,10 +283,10 @@
st->print("Stub::%s", desc->name());
if (desc->begin() != adr)
st->print("%+d 0x%p",adr - desc->begin(), adr);
- else if (WizardMode) st->print(" " INTPTR_FORMAT, adr);
+ else if (WizardMode) st->print(" " PTR_FORMAT, adr);
return;
}
- st->print("Stub::<unknown> " INTPTR_FORMAT, adr);
+ st->print("Stub::<unknown> " PTR_FORMAT, adr);
return;
}
@@ -314,8 +314,8 @@
}
}
- // Fall through to a simple numeral.
- st->print(INTPTR_FORMAT, (intptr_t)adr);
+ // Fall through to a simple (hexadecimal) numeral.
+ st->print(PTR_FORMAT, adr);
}
void decode_env::print_insn_labels() {
@@ -326,7 +326,7 @@
cb->print_block_comment(st, p);
}
if (_print_pc) {
- st->print(" " INTPTR_FORMAT ": ", (intptr_t) p);
+ st->print(" " PTR_FORMAT ": ", p);
}
}
@@ -432,7 +432,7 @@
void Disassembler::decode(CodeBlob* cb, outputStream* st) {
if (!load_library()) return;
decode_env env(cb, st);
- env.output()->print_cr("Decoding CodeBlob " INTPTR_FORMAT, cb);
+ env.output()->print_cr("Decoding CodeBlob " PTR_FORMAT, cb);
env.decode_instructions(cb->code_begin(), cb->code_end());
}
@@ -446,7 +446,7 @@
void Disassembler::decode(nmethod* nm, outputStream* st) {
if (!load_library()) return;
decode_env env(nm, st);
- env.output()->print_cr("Decoding compiled method " INTPTR_FORMAT ":", nm);
+ env.output()->print_cr("Decoding compiled method " PTR_FORMAT ":", nm);
env.output()->print_cr("Code:");
#ifdef SHARK
@@ -478,9 +478,9 @@
int offset = 0;
for (address p = nm->consts_begin(); p < nm->consts_end(); p += 4, offset += 4) {
if ((offset % 8) == 0) {
- env.output()->print_cr(" " INTPTR_FORMAT " (offset: %4d): " PTR32_FORMAT " " PTR64_FORMAT, (intptr_t) p, offset, *((int32_t*) p), *((int64_t*) p));
+ env.output()->print_cr(" " PTR_FORMAT " (offset: %4d): " PTR32_FORMAT " " PTR64_FORMAT, p, offset, *((int32_t*) p), *((int64_t*) p));
} else {
- env.output()->print_cr(" " INTPTR_FORMAT " (offset: %4d): " PTR32_FORMAT, (intptr_t) p, offset, *((int32_t*) p));
+ env.output()->print_cr(" " PTR_FORMAT " (offset: %4d): " PTR32_FORMAT, p, offset, *((int32_t*) p));
}
}
}
--- a/hotspot/src/share/vm/prims/jvmtiTagMap.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/prims/jvmtiTagMap.cpp Fri May 06 19:34:55 2011 -0700
@@ -3158,6 +3158,9 @@
if (fr->is_entry_frame()) {
last_entry_frame = fr;
}
+ if (fr->is_ricochet_frame()) {
+ fr->oops_ricochet_do(blk, vf->register_map());
+ }
}
vf = vf->sender();
--- a/hotspot/src/share/vm/prims/methodHandleWalk.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/prims/methodHandleWalk.cpp Fri May 06 19:34:55 2011 -0700
@@ -409,6 +409,11 @@
break;
}
+ case java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS: { //NYI, may GC
+ lose("unimplemented", CHECK_(empty));
+ break;
+ }
+
case java_lang_invoke_AdapterMethodHandle::OP_SPREAD_ARGS: {
klassOop array_klass_oop = NULL;
BasicType array_type = java_lang_Class::as_BasicType(chain().adapter_arg_oop(),
@@ -452,9 +457,18 @@
Bytecodes::_invokestatic, false, 3, &arglist[0], CHECK_(empty));
// Spread out the array elements.
- Bytecodes::Code aload_op = Bytecodes::_aaload;
- if (element_type != T_OBJECT) {
- lose("primitive array NYI", CHECK_(empty));
+ Bytecodes::Code aload_op = Bytecodes::_nop;
+ switch (element_type) {
+ case T_INT: aload_op = Bytecodes::_iaload; break;
+ case T_LONG: aload_op = Bytecodes::_laload; break;
+ case T_FLOAT: aload_op = Bytecodes::_faload; break;
+ case T_DOUBLE: aload_op = Bytecodes::_daload; break;
+ case T_OBJECT: aload_op = Bytecodes::_aaload; break;
+ case T_BOOLEAN: // fall through:
+ case T_BYTE: aload_op = Bytecodes::_baload; break;
+ case T_CHAR: aload_op = Bytecodes::_caload; break;
+ case T_SHORT: aload_op = Bytecodes::_saload; break;
+ default: lose("primitive array NYI", CHECK_(empty));
}
int ap = arg_slot;
for (int i = 0; i < spread_length; i++) {
@@ -467,11 +481,6 @@
break;
}
- case java_lang_invoke_AdapterMethodHandle::OP_FLYBY: //NYI, runs Java code
- case java_lang_invoke_AdapterMethodHandle::OP_RICOCHET: //NYI, runs Java code
- lose("unimplemented", CHECK_(empty));
- break;
-
default:
lose("bad adapter conversion", CHECK_(empty));
break;
--- a/hotspot/src/share/vm/prims/methodHandles.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/prims/methodHandles.cpp Fri May 06 19:34:55 2011 -0700
@@ -66,8 +66,8 @@
"adapter_drop_args",
"adapter_collect_args",
"adapter_spread_args",
- "adapter_flyby",
- "adapter_ricochet",
+ "adapter_fold_args",
+ "adapter_unused_13",
// optimized adapter types:
"adapter_swap_args/1",
@@ -83,9 +83,76 @@
"adapter_prim_to_prim/f2d",
"adapter_ref_to_prim/unboxi",
"adapter_ref_to_prim/unboxl",
- "adapter_spread_args/0",
- "adapter_spread_args/1",
- "adapter_spread_args/more",
+
+ // return value handlers for collect/filter/fold adapters:
+ "return/ref",
+ "return/int",
+ "return/long",
+ "return/float",
+ "return/double",
+ "return/void",
+ "return/S0/ref",
+ "return/S1/ref",
+ "return/S2/ref",
+ "return/S3/ref",
+ "return/S4/ref",
+ "return/S5/ref",
+ "return/any",
+
+ // spreading (array length cases 0, 1, ...)
+ "adapter_spread/0",
+ "adapter_spread/1/ref",
+ "adapter_spread/2/ref",
+ "adapter_spread/3/ref",
+ "adapter_spread/4/ref",
+ "adapter_spread/5/ref",
+ "adapter_spread/ref",
+ "adapter_spread/byte",
+ "adapter_spread/char",
+ "adapter_spread/short",
+ "adapter_spread/int",
+ "adapter_spread/long",
+ "adapter_spread/float",
+ "adapter_spread/double",
+
+ // blocking filter/collect conversions:
+ "adapter_collect/ref",
+ "adapter_collect/int",
+ "adapter_collect/long",
+ "adapter_collect/float",
+ "adapter_collect/double",
+ "adapter_collect/void",
+ "adapter_collect/0/ref",
+ "adapter_collect/1/ref",
+ "adapter_collect/2/ref",
+ "adapter_collect/3/ref",
+ "adapter_collect/4/ref",
+ "adapter_collect/5/ref",
+ "adapter_filter/S0/ref",
+ "adapter_filter/S1/ref",
+ "adapter_filter/S2/ref",
+ "adapter_filter/S3/ref",
+ "adapter_filter/S4/ref",
+ "adapter_filter/S5/ref",
+ "adapter_collect/2/S0/ref",
+ "adapter_collect/2/S1/ref",
+ "adapter_collect/2/S2/ref",
+ "adapter_collect/2/S3/ref",
+ "adapter_collect/2/S4/ref",
+ "adapter_collect/2/S5/ref",
+
+ // blocking fold conversions:
+ "adapter_fold/ref",
+ "adapter_fold/int",
+ "adapter_fold/long",
+ "adapter_fold/float",
+ "adapter_fold/double",
+ "adapter_fold/void",
+ "adapter_fold/1/ref",
+ "adapter_fold/2/ref",
+ "adapter_fold/3/ref",
+ "adapter_fold/4/ref",
+ "adapter_fold/5/ref",
NULL
};
@@ -96,13 +163,23 @@
jobject MethodHandles::_raise_exception_method;
+address MethodHandles::_adapter_return_handlers[CONV_TYPE_MASK+1];
+
#ifdef ASSERT
bool MethodHandles::spot_check_entry_names() {
assert(!strcmp(entry_name(_invokestatic_mh), "invokestatic"), "");
assert(!strcmp(entry_name(_bound_ref_mh), "bound_ref"), "");
assert(!strcmp(entry_name(_adapter_retype_only), "adapter_retype_only"), "");
- assert(!strcmp(entry_name(_adapter_ricochet), "adapter_ricochet"), "");
+ assert(!strcmp(entry_name(_adapter_fold_args), "adapter_fold_args"), "");
assert(!strcmp(entry_name(_adapter_opt_unboxi), "adapter_ref_to_prim/unboxi"), "");
+ assert(!strcmp(entry_name(_adapter_opt_spread_char), "adapter_spread/char"), "");
+ assert(!strcmp(entry_name(_adapter_opt_spread_double), "adapter_spread/double"), "");
+ assert(!strcmp(entry_name(_adapter_opt_collect_int), "adapter_collect/int"), "");
+ assert(!strcmp(entry_name(_adapter_opt_collect_0_ref), "adapter_collect/0/ref"), "");
+ assert(!strcmp(entry_name(_adapter_opt_collect_2_S3_ref), "adapter_collect/2/S3/ref"), "");
+ assert(!strcmp(entry_name(_adapter_opt_filter_S5_ref), "adapter_filter/S5/ref"), "");
+ assert(!strcmp(entry_name(_adapter_opt_fold_3_ref), "adapter_fold/3/ref"), "");
+ assert(!strcmp(entry_name(_adapter_opt_fold_void), "adapter_fold/void"), "");
return true;
}
#endif
@@ -112,6 +189,9 @@
// MethodHandles::generate_adapters
//
void MethodHandles::generate_adapters() {
+#ifdef TARGET_ARCH_NYI_6939861
+ if (FLAG_IS_DEFAULT(UseRicochetFrames)) UseRicochetFrames = false;
+#endif
if (!EnableInvokeDynamic || SystemDictionary::MethodHandle_klass() == NULL) return;
assert(_adapter_code == NULL, "generate only once");
@@ -126,7 +206,6 @@
g.generate();
}
-
//------------------------------------------------------------------------------
// MethodHandlesAdapterGenerator::generate
//
@@ -135,12 +214,62 @@
for (MethodHandles::EntryKind ek = MethodHandles::_EK_FIRST;
ek < MethodHandles::_EK_LIMIT;
ek = MethodHandles::EntryKind(1 + (int)ek)) {
- StubCodeMark mark(this, "MethodHandle", MethodHandles::entry_name(ek));
- MethodHandles::generate_method_handle_stub(_masm, ek);
+ if (MethodHandles::ek_supported(ek)) {
+ StubCodeMark mark(this, "MethodHandle", MethodHandles::entry_name(ek));
+ MethodHandles::generate_method_handle_stub(_masm, ek);
+ }
}
}
+#ifdef TARGET_ARCH_NYI_6939861
+// these defs belong in methodHandles_<arch>.cpp
+frame MethodHandles::ricochet_frame_sender(const frame& fr, RegisterMap *map) {
+ ShouldNotCallThis();
+ return fr;
+}
+void MethodHandles::ricochet_frame_oops_do(const frame& fr, OopClosure* f, const RegisterMap* reg_map) {
+ ShouldNotCallThis();
+}
+#endif //TARGET_ARCH_NYI_6939861
+
+
+//------------------------------------------------------------------------------
+// MethodHandles::ek_supported
+//
+bool MethodHandles::ek_supported(MethodHandles::EntryKind ek) {
+ MethodHandles::EntryKind ek_orig = MethodHandles::ek_original_kind(ek);
+ switch (ek_orig) {
+ case _adapter_unused_13:
+ return false; // not defined yet
+ case _adapter_prim_to_ref:
+ return UseRicochetFrames && conv_op_supported(java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_REF);
+ case _adapter_collect_args:
+ return UseRicochetFrames && conv_op_supported(java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS);
+ case _adapter_fold_args:
+ return UseRicochetFrames && conv_op_supported(java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS);
+ case _adapter_opt_return_any:
+ return UseRicochetFrames;
+#ifdef TARGET_ARCH_NYI_6939861
+ // ports before 6939861 supported only three kinds of spread ops
+ case _adapter_spread_args:
+ // restrict spreads to three kinds:
+ switch (ek) {
+ case _adapter_opt_spread_0:
+ case _adapter_opt_spread_1:
+ case _adapter_opt_spread_more:
+ break;
+ default:
+ return false;
+ break;
+ }
+ break;
+#endif //TARGET_ARCH_NYI_6939861
+ }
+ return true;
+}
+
+
void MethodHandles::set_enabled(bool z) {
if (_enabled != z) {
guarantee(z && EnableInvokeDynamic, "can only enable once, and only if -XX:+EnableInvokeDynamic");
@@ -1564,6 +1693,8 @@
if (m->is_abstract()) { THROW(vmSymbols::java_lang_AbstractMethodError()); }
java_lang_invoke_MethodHandle::init_vmslots(mh());
+ int vmargslot = m->size_of_parameters() - 1;
+ assert(java_lang_invoke_BoundMethodHandle::vmargslot(mh()) == vmargslot, "");
if (VerifyMethodHandles) {
verify_BoundMethodHandle_with_receiver(mh, m, CHECK);
@@ -1642,14 +1773,9 @@
DEBUG_ONLY(int this_pushes = decode_MethodHandle_stack_pushes(mh()));
if (direct_to_method) {
assert(this_pushes == slots_pushed, "BMH pushes one or two stack slots");
- assert(slots_pushed <= MethodHandlePushLimit, "");
} else {
int target_pushes = decode_MethodHandle_stack_pushes(target());
assert(this_pushes == slots_pushed + target_pushes, "BMH stack motion must be correct");
- // do not blow the stack; use a Java-based adapter if this limit is exceeded
- // FIXME
- // if (slots_pushed + target_pushes > MethodHandlePushLimit)
- // err = "too many bound parameters";
}
}
@@ -1672,10 +1798,11 @@
}
java_lang_invoke_MethodHandle::init_vmslots(mh());
+ int argslot = java_lang_invoke_BoundMethodHandle::vmargslot(mh());
if (VerifyMethodHandles) {
int insert_after = argnum - 1;
- verify_vmargslot(mh, insert_after, java_lang_invoke_BoundMethodHandle::vmargslot(mh()), CHECK);
+ verify_vmargslot(mh, insert_after, argslot, CHECK);
verify_vmslots(mh, CHECK);
}
@@ -1769,6 +1896,7 @@
Handle target(THREAD, java_lang_invoke_AdapterMethodHandle::vmtarget(mh()));
Handle src_mtype(THREAD, java_lang_invoke_MethodHandle::type(mh()));
Handle dst_mtype(THREAD, java_lang_invoke_MethodHandle::type(target()));
+ Handle arg_mtype;
const char* err = NULL;
@@ -1777,25 +1905,29 @@
switch (ek) {
case _adapter_check_cast: // target type of cast
case _adapter_ref_to_prim: // wrapper type from which to unbox
- case _adapter_prim_to_ref: // wrapper type to box into
- case _adapter_collect_args: // array type to collect into
case _adapter_spread_args: // array type to spread from
if (!java_lang_Class::is_instance(argument())
|| java_lang_Class::is_primitive(argument()))
{ err = "adapter requires argument of type java.lang.Class"; break; }
- if (ek == _adapter_collect_args ||
- ek == _adapter_spread_args) {
+ if (ek == _adapter_spread_args) {
// Make sure it is a suitable collection type. (Array, for now.)
Klass* ak = Klass::cast(java_lang_Class::as_klassOop(argument()));
- if (!ak->oop_is_objArray()) {
- { err = "adapter requires argument of type java.lang.Class<Object[]>"; break; }
- }
+ if (!ak->oop_is_array())
+ { err = "spread adapter requires argument representing an array class"; break; }
+ BasicType et = arrayKlass::cast(ak->as_klassOop())->element_type();
+ if (et != dest && stack_move <= 0)
+ { err = "spread adapter requires array class argument of correct type"; break; }
}
break;
- case _adapter_flyby:
- case _adapter_ricochet:
+ case _adapter_prim_to_ref: // boxer MH to use
+ case _adapter_collect_args: // method handle which collects the args
+ case _adapter_fold_args: // method handle which collects the args
+ if (!UseRicochetFrames) {
+ { err = "box/collect/fold operators are not supported"; break; }
+ }
if (!java_lang_invoke_MethodHandle::is_instance(argument()))
{ err = "MethodHandle adapter argument required"; break; }
+ arg_mtype = Handle(THREAD, java_lang_invoke_MethodHandle::type(argument()));
break;
default:
if (argument.not_null())
@@ -1806,6 +1938,7 @@
if (err == NULL) {
// Check that the src/dest types are supplied if needed.
+ // Also check relevant parameter or return types.
switch (ek) {
case _adapter_check_cast:
if (src != T_OBJECT || dest != T_OBJECT) {
@@ -1828,8 +1961,7 @@
}
break;
case _adapter_prim_to_ref:
- if (!is_java_primitive(src) || dest != T_OBJECT
- || argument() != Klass::cast(SystemDictionary::box_klass(src))->java_mirror()) {
+ if (!is_java_primitive(src) || dest != T_OBJECT) {
err = "adapter requires primitive src conversion subfield"; break;
}
break;
@@ -1840,14 +1972,12 @@
err = "adapter requires src/dest conversion subfields for swap"; break;
}
int swap_size = type2size[src];
- oop src_mtype = java_lang_invoke_AdapterMethodHandle::type(mh());
- oop dest_mtype = java_lang_invoke_AdapterMethodHandle::type(target());
- int slot_limit = java_lang_invoke_AdapterMethodHandle::vmslots(target());
+ int slot_limit = java_lang_invoke_MethodHandle::vmslots(target());
int src_slot = argslot;
int dest_slot = vminfo;
bool rotate_up = (src_slot > dest_slot); // upward rotation
int src_arg = argnum;
- int dest_arg = argument_slot_to_argnum(dest_mtype, dest_slot);
+ int dest_arg = argument_slot_to_argnum(dst_mtype(), dest_slot);
verify_vmargslot(mh, dest_arg, dest_slot, CHECK);
if (!(dest_slot >= src_slot + swap_size) &&
!(src_slot >= dest_slot + swap_size)) {
@@ -1855,8 +1985,8 @@
} else if (ek == _adapter_swap_args && !(src_slot > dest_slot)) {
err = "source of swap must be deeper in stack";
} else if (ek == _adapter_swap_args) {
- err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype, dest_arg),
- java_lang_invoke_MethodType::ptype(dest_mtype, src_arg),
+ err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype(), dest_arg),
+ java_lang_invoke_MethodType::ptype(dst_mtype(), src_arg),
dest_arg);
} else if (ek == _adapter_rot_args) {
if (rotate_up) {
@@ -1864,8 +1994,8 @@
// rotate up: [dest_slot..src_slot-ss] --> [dest_slot+ss..src_slot]
// that is: [src_arg+1..dest_arg] --> [src_arg..dest_arg-1]
for (int i = src_arg+1; i <= dest_arg && err == NULL; i++) {
- err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype, i),
- java_lang_invoke_MethodType::ptype(dest_mtype, i-1),
+ err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype(), i),
+ java_lang_invoke_MethodType::ptype(dst_mtype(), i-1),
i);
}
} else { // rotate down
@@ -1873,28 +2003,54 @@
// rotate down: [src_slot+ss..dest_slot] --> [src_slot..dest_slot-ss]
// that is: [dest_arg..src_arg-1] --> [dst_arg+1..src_arg]
for (int i = dest_arg; i <= src_arg-1 && err == NULL; i++) {
- err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype, i),
- java_lang_invoke_MethodType::ptype(dest_mtype, i+1),
+ err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype(), i),
+ java_lang_invoke_MethodType::ptype(dst_mtype(), i+1),
i);
}
}
}
if (err == NULL)
- err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype, src_arg),
- java_lang_invoke_MethodType::ptype(dest_mtype, dest_arg),
+ err = check_argument_type_change(java_lang_invoke_MethodType::ptype(src_mtype(), src_arg),
+ java_lang_invoke_MethodType::ptype(dst_mtype(), dest_arg),
src_arg);
}
break;
+ case _adapter_spread_args:
case _adapter_collect_args:
- case _adapter_spread_args:
+ case _adapter_fold_args:
{
- BasicType coll_type = (ek == _adapter_collect_args) ? dest : src;
- BasicType elem_type = (ek == _adapter_collect_args) ? src : dest;
- if (coll_type != T_OBJECT || elem_type != T_OBJECT) {
- err = "adapter requires src/dest subfields"; break;
- // later:
- // - consider making coll be a primitive array
- // - consider making coll be a heterogeneous collection
+ bool is_spread = (ek == _adapter_spread_args);
+ bool is_fold = (ek == _adapter_fold_args);
+ BasicType coll_type = is_spread ? src : dest;
+ BasicType elem_type = is_spread ? dest : src;
+ // coll_type is type of args in collected form (or T_VOID if none)
+ // elem_type is common type of args in spread form (or T_VOID if missing or heterogeneous)
+ if (coll_type == 0 || elem_type == 0) {
+ err = "adapter requires src/dest subfields for spread or collect"; break;
+ }
+ if (is_spread && coll_type != T_OBJECT) {
+ err = "spread adapter requires object type for argument bundle"; break;
+ }
+ Handle spread_mtype = (is_spread ? dst_mtype : src_mtype);
+ int spread_slot = argslot;
+ int spread_arg = argnum;
+ int slots_pushed = stack_move / stack_move_unit();
+ int coll_slot_count = type2size[coll_type];
+ int spread_slot_count = (is_spread ? slots_pushed : -slots_pushed) + coll_slot_count;
+ if (is_fold) spread_slot_count = argument_slot_count(arg_mtype());
+ if (!is_spread) {
+ int init_slots = argument_slot_count(src_mtype());
+ int coll_slots = argument_slot_count(arg_mtype());
+ if (spread_slot_count > init_slots ||
+ spread_slot_count != coll_slots) {
+ err = "collect adapter has inconsistent arg counts"; break;
+ }
+ int next_slots = argument_slot_count(dst_mtype());
+ int unchanged_slots_in = (init_slots - spread_slot_count);
+ int unchanged_slots_out = (next_slots - coll_slot_count - (is_fold ? spread_slot_count : 0));
+ if (unchanged_slots_in != unchanged_slots_out) {
+ err = "collect adapter continuation has inconsistent arg counts"; break;
+ }
}
}
break;
@@ -1929,8 +2085,9 @@
}
break;
case _adapter_collect_args:
- if (slots_pushed > 1) {
- err = "adapter requires conversion subfield slots_pushed <= 1";
+ case _adapter_fold_args:
+ if (slots_pushed > 2) {
+ err = "adapter requires conversion subfield slots_pushed <= 2";
}
break;
case _adapter_spread_args:
@@ -1950,32 +2107,36 @@
}
if (err == NULL) {
- // Make sure this adapter does not push too deeply.
+ // Make sure this adapter's stack pushing is accurately recorded.
int slots_pushed = stack_move / stack_move_unit();
int this_vmslots = java_lang_invoke_MethodHandle::vmslots(mh());
int target_vmslots = java_lang_invoke_MethodHandle::vmslots(target());
+ int target_pushes = decode_MethodHandle_stack_pushes(target());
if (slots_pushed != (target_vmslots - this_vmslots)) {
err = "stack_move inconsistent with previous and current MethodType vmslots";
- } else if (slots_pushed > 0) {
- // verify stack_move against MethodHandlePushLimit
- int target_pushes = decode_MethodHandle_stack_pushes(target());
- // do not blow the stack; use a Java-based adapter if this limit is exceeded
- if (slots_pushed + target_pushes > MethodHandlePushLimit) {
- err = "adapter pushes too many parameters";
+ } else {
+ int this_pushes = decode_MethodHandle_stack_pushes(mh());
+ if (slots_pushed + target_pushes != this_pushes) {
+ if (this_pushes == 0)
+ err = "adapter push count not initialized";
+ else
+ err = "adapter push count is wrong";
}
}
// While we're at it, check that the stack motion decoder works:
- DEBUG_ONLY(int target_pushes = decode_MethodHandle_stack_pushes(target()));
DEBUG_ONLY(int this_pushes = decode_MethodHandle_stack_pushes(mh()));
assert(this_pushes == slots_pushed + target_pushes, "AMH stack motion must be correct");
}
if (err == NULL && vminfo != 0) {
switch (ek) {
- case _adapter_swap_args:
- case _adapter_rot_args:
- break; // OK
+ case _adapter_swap_args:
+ case _adapter_rot_args:
+ case _adapter_prim_to_ref:
+ case _adapter_collect_args:
+ case _adapter_fold_args:
+ break; // OK
default:
err = "vminfo subfield is reserved to the JVM";
}
@@ -2026,6 +2187,7 @@
// adjust the adapter code to the internal EntryKind enumeration:
EntryKind ek_orig = adapter_entry_kind(conv_op);
EntryKind ek_opt = ek_orig; // may be optimized
+ EntryKind ek_try; // temp
// Finalize the vmtarget field (Java initialized it to null).
if (!java_lang_invoke_MethodHandle::is_instance(target())) {
@@ -2034,17 +2196,23 @@
}
java_lang_invoke_AdapterMethodHandle::set_vmtarget(mh(), target());
- if (VerifyMethodHandles) {
- verify_AdapterMethodHandle(mh, argnum, CHECK);
- }
-
int stack_move = adapter_conversion_stack_move(conversion);
BasicType src = adapter_conversion_src_type(conversion);
BasicType dest = adapter_conversion_dest_type(conversion);
int vminfo = adapter_conversion_vminfo(conversion); // should be zero
+ int slots_pushed = stack_move / stack_move_unit();
+
+ if (VerifyMethodHandles) {
+ verify_AdapterMethodHandle(mh, argnum, CHECK);
+ }
+
const char* err = NULL;
+ if (!conv_op_supported(conv_op)) {
+ err = "adapter not yet implemented in the JVM";
+ }
+
// Now it's time to finish the case analysis and pick a MethodHandleEntry.
switch (ek_orig) {
case _adapter_retype_only:
@@ -2077,7 +2245,7 @@
}
break;
case 1 *4+ 2:
- if (src == T_INT && dest == T_LONG) {
+ if ((src == T_INT || is_subword_type(src)) && dest == T_LONG) {
ek_opt = _adapter_opt_i2l;
} else if (src == T_FLOAT && dest == T_DOUBLE) {
ek_opt = _adapter_opt_f2d;
@@ -2110,7 +2278,44 @@
break;
case _adapter_prim_to_ref:
- goto throw_not_impl; // allocates, hence could block
+ {
+ assert(UseRicochetFrames, "else don't come here");
+ // vminfo will be the location to insert the return value
+ vminfo = argslot;
+ ek_opt = _adapter_opt_collect_ref;
+ ensure_vmlayout_field(target, CHECK);
+ if (!OptimizeMethodHandles) break;
+ switch (type2size[src]) {
+ case 1:
+ ek_try = EntryKind(_adapter_opt_filter_S0_ref + argslot);
+ if (ek_try < _adapter_opt_collect_LAST &&
+ ek_adapter_opt_collect_slot(ek_try) == argslot) {
+ assert(ek_adapter_opt_collect_count(ek_try) == 1 &&
+ ek_adapter_opt_collect_type(ek_try) == T_OBJECT, "");
+ ek_opt = ek_try;
+ break;
+ }
+ // else downgrade to variable slot:
+ ek_opt = _adapter_opt_collect_1_ref;
+ break;
+ case 2:
+ ek_try = EntryKind(_adapter_opt_collect_2_S0_ref + argslot);
+ if (ek_try < _adapter_opt_collect_LAST &&
+ ek_adapter_opt_collect_slot(ek_try) == argslot) {
+ assert(ek_adapter_opt_collect_count(ek_try) == 2 &&
+ ek_adapter_opt_collect_type(ek_try) == T_OBJECT, "");
+ ek_opt = ek_try;
+ break;
+ }
+ // else downgrade to variable slot:
+ ek_opt = _adapter_opt_collect_2_ref;
+ break;
+ default:
+ assert(false, "");
+ break;
+ }
+ }
+ break;
case _adapter_swap_args:
case _adapter_rot_args:
@@ -2136,29 +2341,180 @@
}
break;
- case _adapter_collect_args:
- goto throw_not_impl; // allocates, hence could block
-
case _adapter_spread_args:
{
+#ifdef TARGET_ARCH_NYI_6939861
+ // ports before 6939861 supported only three kinds of spread ops
+ if (!UseRicochetFrames) {
+ int array_size = slots_pushed + 1;
+ assert(array_size >= 0, "");
+ vminfo = array_size;
+ switch (array_size) {
+ case 0: ek_opt = _adapter_opt_spread_0; break;
+ case 1: ek_opt = _adapter_opt_spread_1; break;
+ default: ek_opt = _adapter_opt_spread_more; break;
+ }
+ break;
+ }
+#endif //TARGET_ARCH_NYI_6939861
// vminfo will be the required length of the array
- int slots_pushed = stack_move / stack_move_unit();
- int array_size = slots_pushed + 1;
- assert(array_size >= 0, "");
+ int array_size = (slots_pushed + 1) / (type2size[dest] == 2 ? 2 : 1);
vminfo = array_size;
- switch (array_size) {
- case 0: ek_opt = _adapter_opt_spread_0; break;
- case 1: ek_opt = _adapter_opt_spread_1; break;
- default: ek_opt = _adapter_opt_spread_more; break;
+ // general case
+ switch (dest) {
+ case T_BOOLEAN : // fall through to T_BYTE:
+ case T_BYTE : ek_opt = _adapter_opt_spread_byte; break;
+ case T_CHAR : ek_opt = _adapter_opt_spread_char; break;
+ case T_SHORT : ek_opt = _adapter_opt_spread_short; break;
+ case T_INT : ek_opt = _adapter_opt_spread_int; break;
+ case T_LONG : ek_opt = _adapter_opt_spread_long; break;
+ case T_FLOAT : ek_opt = _adapter_opt_spread_float; break;
+ case T_DOUBLE : ek_opt = _adapter_opt_spread_double; break;
+ case T_OBJECT : ek_opt = _adapter_opt_spread_ref; break;
+ case T_VOID : if (array_size != 0) goto throw_not_impl;
+ ek_opt = _adapter_opt_spread_ref; break;
+ default : goto throw_not_impl;
}
- if ((vminfo & CONV_VMINFO_MASK) != vminfo)
- goto throw_not_impl; // overflow
+ assert(array_size == 0 || // it doesn't matter what the spreader is
+ (ek_adapter_opt_spread_count(ek_opt) == -1 &&
+ (ek_adapter_opt_spread_type(ek_opt) == dest ||
+ (ek_adapter_opt_spread_type(ek_opt) == T_BYTE && dest == T_BOOLEAN))),
+ err_msg("dest=%d ek_opt=%d", dest, ek_opt));
+
+ if (array_size <= 0) {
+ // since the general case does not handle length 0, this case is required:
+ ek_opt = _adapter_opt_spread_0;
+ break;
+ }
+ if (dest == T_OBJECT) {
+ ek_try = EntryKind(_adapter_opt_spread_1_ref - 1 + array_size);
+ if (ek_try < _adapter_opt_spread_LAST &&
+ ek_adapter_opt_spread_count(ek_try) == array_size) {
+ assert(ek_adapter_opt_spread_type(ek_try) == dest, "");
+ ek_opt = ek_try;
+ break;
+ }
+ }
+ break;
}
break;
- case _adapter_flyby:
- case _adapter_ricochet:
- goto throw_not_impl; // runs Java code, hence could block
+ case _adapter_collect_args:
+ {
+ assert(UseRicochetFrames, "else don't come here");
+ int elem_slots = argument_slot_count(
+ java_lang_invoke_MethodHandle::type(
+ java_lang_invoke_AdapterMethodHandle::argument(mh()) ) );
+ // vminfo will be the location to insert the return value
+ vminfo = argslot;
+ ensure_vmlayout_field(target, CHECK);
+
+ // general case:
+ switch (dest) {
+ default : if (!is_subword_type(dest)) goto throw_not_impl;
+ // else fall through:
+ case T_INT : ek_opt = _adapter_opt_collect_int; break;
+ case T_LONG : ek_opt = _adapter_opt_collect_long; break;
+ case T_FLOAT : ek_opt = _adapter_opt_collect_float; break;
+ case T_DOUBLE : ek_opt = _adapter_opt_collect_double; break;
+ case T_OBJECT : ek_opt = _adapter_opt_collect_ref; break;
+ case T_VOID : ek_opt = _adapter_opt_collect_void; break;
+ }
+ assert(ek_adapter_opt_collect_slot(ek_opt) == -1 &&
+ ek_adapter_opt_collect_count(ek_opt) == -1 &&
+ (ek_adapter_opt_collect_type(ek_opt) == dest ||
+ ek_adapter_opt_collect_type(ek_opt) == T_INT && is_subword_type(dest)),
+ "");
+
+ if (dest == T_OBJECT && elem_slots == 1 && OptimizeMethodHandles) {
+ // filter operation on a ref
+ ek_try = EntryKind(_adapter_opt_filter_S0_ref + argslot);
+ if (ek_try < _adapter_opt_collect_LAST &&
+ ek_adapter_opt_collect_slot(ek_try) == argslot) {
+ assert(ek_adapter_opt_collect_count(ek_try) == elem_slots &&
+ ek_adapter_opt_collect_type(ek_try) == dest, "");
+ ek_opt = ek_try;
+ break;
+ }
+ ek_opt = _adapter_opt_collect_1_ref;
+ break;
+ }
+
+ if (dest == T_OBJECT && elem_slots == 2 && OptimizeMethodHandles) {
+ // filter of two arguments
+ ek_try = EntryKind(_adapter_opt_collect_2_S0_ref + argslot);
+ if (ek_try < _adapter_opt_collect_LAST &&
+ ek_adapter_opt_collect_slot(ek_try) == argslot) {
+ assert(ek_adapter_opt_collect_count(ek_try) == elem_slots &&
+ ek_adapter_opt_collect_type(ek_try) == dest, "");
+ ek_opt = ek_try;
+ break;
+ }
+ ek_opt = _adapter_opt_collect_2_ref;
+ break;
+ }
+
+ if (dest == T_OBJECT && OptimizeMethodHandles) {
+ // try to use a fixed length adapter
+ ek_try = EntryKind(_adapter_opt_collect_0_ref + elem_slots);
+ if (ek_try < _adapter_opt_collect_LAST &&
+ ek_adapter_opt_collect_count(ek_try) == elem_slots) {
+ assert(ek_adapter_opt_collect_slot(ek_try) == -1 &&
+ ek_adapter_opt_collect_type(ek_try) == dest, "");
+ ek_opt = ek_try;
+ break;
+ }
+ }
+
+ break;
+ }
+
+ case _adapter_fold_args:
+ {
+ assert(UseRicochetFrames, "else don't come here");
+ int elem_slots = argument_slot_count(
+ java_lang_invoke_MethodHandle::type(
+ java_lang_invoke_AdapterMethodHandle::argument(mh()) ) );
+ // vminfo will be the location to insert the return value
+ vminfo = argslot + elem_slots;
+ ensure_vmlayout_field(target, CHECK);
+
+ switch (dest) {
+ default : if (!is_subword_type(dest)) goto throw_not_impl;
+ // else fall through:
+ case T_INT : ek_opt = _adapter_opt_fold_int; break;
+ case T_LONG : ek_opt = _adapter_opt_fold_long; break;
+ case T_FLOAT : ek_opt = _adapter_opt_fold_float; break;
+ case T_DOUBLE : ek_opt = _adapter_opt_fold_double; break;
+ case T_OBJECT : ek_opt = _adapter_opt_fold_ref; break;
+ case T_VOID : ek_opt = _adapter_opt_fold_void; break;
+ }
+ assert(ek_adapter_opt_collect_slot(ek_opt) == -1 &&
+ ek_adapter_opt_collect_count(ek_opt) == -1 &&
+ (ek_adapter_opt_collect_type(ek_opt) == dest ||
+ ek_adapter_opt_collect_type(ek_opt) == T_INT && is_subword_type(dest)),
+ "");
+
+ if (dest == T_OBJECT && elem_slots == 0 && OptimizeMethodHandles) {
+ // if there are no args, just pretend it's a collect
+ ek_opt = _adapter_opt_collect_0_ref;
+ break;
+ }
+
+ if (dest == T_OBJECT && OptimizeMethodHandles) {
+ // try to use a fixed length adapter
+ ek_try = EntryKind(_adapter_opt_fold_1_ref - 1 + elem_slots);
+ if (ek_try < _adapter_opt_fold_LAST &&
+ ek_adapter_opt_collect_count(ek_try) == elem_slots) {
+ assert(ek_adapter_opt_collect_slot(ek_try) == -1 &&
+ ek_adapter_opt_collect_type(ek_try) == dest, "");
+ ek_opt = ek_try;
+ break;
+ }
+ }
+
+ break;
+ }
default:
// should have failed much earlier; must be a missing case here
@@ -2166,11 +2522,20 @@
// and fall through:
throw_not_impl:
- // FIXME: these adapters are NYI
- err = "adapter not yet implemented in the JVM";
+ if (err == NULL)
+ err = "unknown adapter type";
break;
}
+ if (err != NULL && (vminfo & CONV_VMINFO_MASK) != vminfo) {
+ // should not happen, since vminfo is used to encode arg/slot indexes < 255
+ err = "vminfo overflow";
+ }
+
+ if (err != NULL && !have_entry(ek_opt)) {
+ err = "adapter stub for this kind of method handle is missing";
+ }
+
if (err != NULL) {
throw_InternalError_for_bad_conversion(conversion, err, THREAD);
return;
@@ -2190,6 +2555,26 @@
// Java code can publish it in global data structures.
}
+void MethodHandles::ensure_vmlayout_field(Handle target, TRAPS) {
+ Handle mtype(THREAD, java_lang_invoke_MethodHandle::type(target()));
+ Handle mtform(THREAD, java_lang_invoke_MethodType::form(mtype()));
+ if (mtform.is_null()) { THROW(vmSymbols::java_lang_InternalError()); }
+ if (java_lang_invoke_MethodTypeForm::vmlayout_offset_in_bytes() > 0) {
+ if (java_lang_invoke_MethodTypeForm::vmlayout(mtform()) == NULL) {
+ // fill it in
+ Handle erased_mtype(THREAD, java_lang_invoke_MethodTypeForm::erasedType(mtform()));
+ TempNewSymbol erased_signature
+ = java_lang_invoke_MethodType::as_signature(erased_mtype(), /*intern:*/true, CHECK);
+ methodOop cookie
+ = SystemDictionary::find_method_handle_invoke(vmSymbols::invokeExact_name(),
+ erased_signature,
+ SystemDictionaryHandles::Object_klass(),
+ THREAD);
+ java_lang_invoke_MethodTypeForm::init_vmlayout(mtform(), cookie);
+ }
+ }
+}
+
//
// Here are the native methods on sun.invoke.MethodHandleImpl.
// They are the private interface between this JVM and the HotSpot-specific
@@ -2360,8 +2745,10 @@
#ifndef PRODUCT
#define EACH_NAMED_CON(template) \
- template(MethodHandles,GC_JVM_PUSH_LIMIT) \
- template(MethodHandles,GC_JVM_STACK_MOVE_UNIT) \
+ /* hold back this one until JDK stabilizes */ \
+ /* template(MethodHandles,GC_JVM_PUSH_LIMIT) */ \
+ /* hold back this one until JDK stabilizes */ \
+ /* template(MethodHandles,GC_JVM_STACK_MOVE_UNIT) */ \
template(MethodHandles,ETF_HANDLE_OR_METHOD_NAME) \
template(MethodHandles,ETF_DIRECT_HANDLE) \
template(MethodHandles,ETF_METHOD_NAME) \
@@ -2385,9 +2772,8 @@
template(java_lang_invoke_AdapterMethodHandle,OP_DROP_ARGS) \
template(java_lang_invoke_AdapterMethodHandle,OP_COLLECT_ARGS) \
template(java_lang_invoke_AdapterMethodHandle,OP_SPREAD_ARGS) \
- template(java_lang_invoke_AdapterMethodHandle,OP_FLYBY) \
- template(java_lang_invoke_AdapterMethodHandle,OP_RICOCHET) \
- template(java_lang_invoke_AdapterMethodHandle,CONV_OP_LIMIT) \
+ /* hold back this one until JDK stabilizes */ \
+ /*template(java_lang_invoke_AdapterMethodHandle,CONV_OP_LIMIT)*/ \
template(java_lang_invoke_AdapterMethodHandle,CONV_OP_MASK) \
template(java_lang_invoke_AdapterMethodHandle,CONV_VMINFO_MASK) \
template(java_lang_invoke_AdapterMethodHandle,CONV_VMINFO_SHIFT) \
--- a/hotspot/src/share/vm/prims/methodHandles.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/prims/methodHandles.hpp Fri May 06 19:34:55 2011 -0700
@@ -66,8 +66,8 @@
_adapter_drop_args = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_DROP_ARGS,
_adapter_collect_args = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS,
_adapter_spread_args = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_SPREAD_ARGS,
- _adapter_flyby = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_FLYBY,
- _adapter_ricochet = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_RICOCHET,
+ _adapter_fold_args = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS,
+ _adapter_unused_13 = _adapter_mh_first + 13, //hole in the CONV_OP enumeration
_adapter_mh_last = _adapter_mh_first + java_lang_invoke_AdapterMethodHandle::CONV_OP_LIMIT - 1,
// Optimized adapter types
@@ -93,10 +93,99 @@
_adapter_opt_unboxi,
_adapter_opt_unboxl,
- // spreading (array length cases 0, 1, >=2)
- _adapter_opt_spread_0,
- _adapter_opt_spread_1,
- _adapter_opt_spread_more,
+ // %% Maybe tame the following with a VM_SYMBOLS_DO type macro?
+
+ // how a blocking adapter returns (platform-dependent)
+ _adapter_opt_return_ref,
+ _adapter_opt_return_int,
+ _adapter_opt_return_long,
+ _adapter_opt_return_float,
+ _adapter_opt_return_double,
+ _adapter_opt_return_void,
+ _adapter_opt_return_S0_ref, // return ref to S=0 (last slot)
+ _adapter_opt_return_S1_ref, // return ref to S=1 (2nd-to-last slot)
+ _adapter_opt_return_S2_ref,
+ _adapter_opt_return_S3_ref,
+ _adapter_opt_return_S4_ref,
+ _adapter_opt_return_S5_ref,
+ _adapter_opt_return_any, // dynamically select r/i/l/f/d
+ _adapter_opt_return_FIRST = _adapter_opt_return_ref,
+ _adapter_opt_return_LAST = _adapter_opt_return_any,
+
+ // spreading (array length cases 0, 1, ...)
+ _adapter_opt_spread_0, // spread empty array to N=0 arguments
+ _adapter_opt_spread_1_ref, // spread Object[] to N=1 argument
+ _adapter_opt_spread_2_ref, // spread Object[] to N=2 arguments
+ _adapter_opt_spread_3_ref, // spread Object[] to N=3 arguments
+ _adapter_opt_spread_4_ref, // spread Object[] to N=4 arguments
+ _adapter_opt_spread_5_ref, // spread Object[] to N=5 arguments
+ _adapter_opt_spread_ref, // spread Object[] to N arguments
+ _adapter_opt_spread_byte, // spread byte[] or boolean[] to N arguments
+ _adapter_opt_spread_char, // spread char[], etc., to N arguments
+ _adapter_opt_spread_short, // spread short[], etc., to N arguments
+ _adapter_opt_spread_int, // spread int[], short[], etc., to N arguments
+ _adapter_opt_spread_long, // spread long[] to N arguments
+ _adapter_opt_spread_float, // spread float[] to N arguments
+ _adapter_opt_spread_double, // spread double[] to N arguments
+ _adapter_opt_spread_FIRST = _adapter_opt_spread_0,
+ _adapter_opt_spread_LAST = _adapter_opt_spread_double,
+
+ // blocking filter/collect conversions
+ // These collect N arguments and replace them (at slot S) by a return value
+ // which is passed to the final target, along with the unaffected arguments.
+ // collect_{N}_{T} collects N arguments at any position into a T value
+ // collect_{N}_S{S}_{T} collects N arguments at slot S into a T value
+ // collect_{T} collects any number of arguments at any position
+ // filter_S{S}_{T} is the same as collect_1_S{S}_{T} (a unary collection)
+ // (collect_2 is also usable as a filter, with long or double arguments)
+ _adapter_opt_collect_ref, // combine N arguments, replace with a reference
+ _adapter_opt_collect_int, // combine N arguments, replace with an int, short, etc.
+ _adapter_opt_collect_long, // combine N arguments, replace with a long
+ _adapter_opt_collect_float, // combine N arguments, replace with a float
+ _adapter_opt_collect_double, // combine N arguments, replace with a double
+ _adapter_opt_collect_void, // combine N arguments, replace with nothing
+ // if there is a small fixed number to push, do so without a loop:
+ _adapter_opt_collect_0_ref, // collect N=0 arguments, insert a reference
+ _adapter_opt_collect_1_ref, // collect N=1 argument, replace with a reference
+ _adapter_opt_collect_2_ref, // combine N=2 arguments, replace with a reference
+ _adapter_opt_collect_3_ref, // combine N=3 arguments, replace with a reference
+ _adapter_opt_collect_4_ref, // combine N=4 arguments, replace with a reference
+ _adapter_opt_collect_5_ref, // combine N=5 arguments, replace with a reference
+ // filters are an important special case because they never move arguments:
+ _adapter_opt_filter_S0_ref, // filter N=1 argument at S=0, replace with a reference
+ _adapter_opt_filter_S1_ref, // filter N=1 argument at S=1, replace with a reference
+ _adapter_opt_filter_S2_ref, // filter N=1 argument at S=2, replace with a reference
+ _adapter_opt_filter_S3_ref, // filter N=1 argument at S=3, replace with a reference
+ _adapter_opt_filter_S4_ref, // filter N=1 argument at S=4, replace with a reference
+ _adapter_opt_filter_S5_ref, // filter N=1 argument at S=5, replace with a reference
+ // these move arguments, but they are important for boxing
+ _adapter_opt_collect_2_S0_ref, // combine last N=2 arguments, replace with a reference
+ _adapter_opt_collect_2_S1_ref, // combine N=2 arguments at S=1, replace with a reference
+ _adapter_opt_collect_2_S2_ref, // combine N=2 arguments at S=2, replace with a reference
+ _adapter_opt_collect_2_S3_ref, // combine N=2 arguments at S=3, replace with a reference
+ _adapter_opt_collect_2_S4_ref, // combine N=2 arguments at S=4, replace with a reference
+ _adapter_opt_collect_2_S5_ref, // combine N=2 arguments at S=5, replace with a reference
+ _adapter_opt_collect_FIRST = _adapter_opt_collect_ref,
+ _adapter_opt_collect_LAST = _adapter_opt_collect_2_S5_ref,
+
+ // blocking folding conversions
+ // these are like collects, but retain all the N arguments for the final target
+ //_adapter_opt_fold_0_ref, // same as _adapter_opt_collect_0_ref
+ // fold_{N}_{T} processes N arguments at any position into a T value, which it inserts
+ // fold_{T} processes any number of arguments at any position
+ _adapter_opt_fold_ref, // process N arguments, prepend a reference
+ _adapter_opt_fold_int, // process N arguments, prepend an int, short, etc.
+ _adapter_opt_fold_long, // process N arguments, prepend a long
+ _adapter_opt_fold_float, // process N arguments, prepend a float
+ _adapter_opt_fold_double, // process N arguments, prepend a double
+ _adapter_opt_fold_void, // process N arguments, but leave the list unchanged
+ _adapter_opt_fold_1_ref, // process N=1 argument, prepend a reference
+ _adapter_opt_fold_2_ref, // process N=2 arguments, prepend a reference
+ _adapter_opt_fold_3_ref, // process N=3 arguments, prepend a reference
+ _adapter_opt_fold_4_ref, // process N=4 arguments, prepend a reference
+ _adapter_opt_fold_5_ref, // process N=5 arguments, prepend a reference
+ _adapter_opt_fold_FIRST = _adapter_opt_fold_ref,
+ _adapter_opt_fold_LAST = _adapter_opt_fold_5_ref,
_EK_LIMIT,
_EK_FIRST = 0
@@ -110,6 +199,7 @@
enum { // import java_lang_invoke_AdapterMethodHandle::CONV_OP_*
CONV_OP_LIMIT = java_lang_invoke_AdapterMethodHandle::CONV_OP_LIMIT,
CONV_OP_MASK = java_lang_invoke_AdapterMethodHandle::CONV_OP_MASK,
+ CONV_TYPE_MASK = java_lang_invoke_AdapterMethodHandle::CONV_TYPE_MASK,
CONV_VMINFO_MASK = java_lang_invoke_AdapterMethodHandle::CONV_VMINFO_MASK,
CONV_VMINFO_SHIFT = java_lang_invoke_AdapterMethodHandle::CONV_VMINFO_SHIFT,
CONV_OP_SHIFT = java_lang_invoke_AdapterMethodHandle::CONV_OP_SHIFT,
@@ -123,6 +213,7 @@
static MethodHandleEntry* _entries[_EK_LIMIT];
static const char* _entry_names[_EK_LIMIT+1];
static jobject _raise_exception_method;
+ static address _adapter_return_handlers[CONV_TYPE_MASK+1];
// Adapters.
static MethodHandlesAdapterBlob* _adapter_code;
@@ -147,39 +238,195 @@
}
// Some adapter helper functions.
- static void get_ek_bound_mh_info(EntryKind ek, BasicType& arg_type, int& arg_mask, int& arg_slots) {
+ static EntryKind ek_original_kind(EntryKind ek) {
+ if (ek <= _adapter_mh_last) return ek;
switch (ek) {
- case _bound_int_mh : // fall-thru
- case _bound_int_direct_mh : arg_type = T_INT; arg_mask = _INSERT_INT_MASK; break;
- case _bound_long_mh : // fall-thru
- case _bound_long_direct_mh: arg_type = T_LONG; arg_mask = _INSERT_LONG_MASK; break;
- case _bound_ref_mh : // fall-thru
- case _bound_ref_direct_mh : arg_type = T_OBJECT; arg_mask = _INSERT_REF_MASK; break;
- default: ShouldNotReachHere();
+ case _adapter_opt_swap_1:
+ case _adapter_opt_swap_2:
+ return _adapter_swap_args;
+ case _adapter_opt_rot_1_up:
+ case _adapter_opt_rot_1_down:
+ case _adapter_opt_rot_2_up:
+ case _adapter_opt_rot_2_down:
+ return _adapter_rot_args;
+ case _adapter_opt_i2i:
+ case _adapter_opt_l2i:
+ case _adapter_opt_d2f:
+ case _adapter_opt_i2l:
+ case _adapter_opt_f2d:
+ return _adapter_prim_to_prim;
+ case _adapter_opt_unboxi:
+ case _adapter_opt_unboxl:
+ return _adapter_ref_to_prim;
}
- arg_slots = type2size[arg_type];
+ if (ek >= _adapter_opt_spread_FIRST && ek <= _adapter_opt_spread_LAST)
+ return _adapter_spread_args;
+ if (ek >= _adapter_opt_collect_FIRST && ek <= _adapter_opt_collect_LAST)
+ return _adapter_collect_args;
+ if (ek >= _adapter_opt_fold_FIRST && ek <= _adapter_opt_fold_LAST)
+ return _adapter_fold_args;
+ if (ek >= _adapter_opt_return_FIRST && ek <= _adapter_opt_return_LAST)
+ return _adapter_opt_return_any;
+ assert(false, "oob");
+ return _EK_LIMIT;
+ }
+
+ static bool ek_supported(MethodHandles::EntryKind ek);
+
+ static BasicType ek_bound_mh_arg_type(EntryKind ek) {
+ switch (ek) {
+ case _bound_int_mh : // fall-thru
+ case _bound_int_direct_mh : return T_INT;
+ case _bound_long_mh : // fall-thru
+ case _bound_long_direct_mh : return T_LONG;
+ default : return T_OBJECT;
+ }
+ }
+
+ static int ek_adapter_opt_swap_slots(EntryKind ek) {
+ switch (ek) {
+ case _adapter_opt_swap_1 : return 1;
+ case _adapter_opt_swap_2 : return 2;
+ case _adapter_opt_rot_1_up : return 1;
+ case _adapter_opt_rot_1_down : return 1;
+ case _adapter_opt_rot_2_up : return 2;
+ case _adapter_opt_rot_2_down : return 2;
+ default : ShouldNotReachHere(); return -1;
+ }
+ }
+
+ static int ek_adapter_opt_swap_mode(EntryKind ek) {
+ switch (ek) {
+ case _adapter_opt_swap_1 : return 0;
+ case _adapter_opt_swap_2 : return 0;
+ case _adapter_opt_rot_1_up : return 1;
+ case _adapter_opt_rot_1_down : return -1;
+ case _adapter_opt_rot_2_up : return 1;
+ case _adapter_opt_rot_2_down : return -1;
+ default : ShouldNotReachHere(); return 0;
+ }
}
- static void get_ek_adapter_opt_swap_rot_info(EntryKind ek, int& swap_bytes, int& rotate) {
- int swap_slots = 0;
+ static int ek_adapter_opt_collect_count(EntryKind ek) {
+ assert(ek >= _adapter_opt_collect_FIRST && ek <= _adapter_opt_collect_LAST ||
+ ek >= _adapter_opt_fold_FIRST && ek <= _adapter_opt_fold_LAST, "");
switch (ek) {
- case _adapter_opt_swap_1: swap_slots = 1; rotate = 0; break;
- case _adapter_opt_swap_2: swap_slots = 2; rotate = 0; break;
- case _adapter_opt_rot_1_up: swap_slots = 1; rotate = 1; break;
- case _adapter_opt_rot_1_down: swap_slots = 1; rotate = -1; break;
- case _adapter_opt_rot_2_up: swap_slots = 2; rotate = 1; break;
- case _adapter_opt_rot_2_down: swap_slots = 2; rotate = -1; break;
- default: ShouldNotReachHere();
+ case _adapter_opt_collect_0_ref : return 0;
+ case _adapter_opt_filter_S0_ref :
+ case _adapter_opt_filter_S1_ref :
+ case _adapter_opt_filter_S2_ref :
+ case _adapter_opt_filter_S3_ref :
+ case _adapter_opt_filter_S4_ref :
+ case _adapter_opt_filter_S5_ref :
+ case _adapter_opt_fold_1_ref :
+ case _adapter_opt_collect_1_ref : return 1;
+ case _adapter_opt_collect_2_S0_ref :
+ case _adapter_opt_collect_2_S1_ref :
+ case _adapter_opt_collect_2_S2_ref :
+ case _adapter_opt_collect_2_S3_ref :
+ case _adapter_opt_collect_2_S4_ref :
+ case _adapter_opt_collect_2_S5_ref :
+ case _adapter_opt_fold_2_ref :
+ case _adapter_opt_collect_2_ref : return 2;
+ case _adapter_opt_fold_3_ref :
+ case _adapter_opt_collect_3_ref : return 3;
+ case _adapter_opt_fold_4_ref :
+ case _adapter_opt_collect_4_ref : return 4;
+ case _adapter_opt_fold_5_ref :
+ case _adapter_opt_collect_5_ref : return 5;
+ default : return -1; // sentinel value for "variable"
}
- // Return the size of the stack slots to move in bytes.
- swap_bytes = swap_slots * Interpreter::stackElementSize;
+ }
+
+ static int ek_adapter_opt_collect_slot(EntryKind ek) {
+ assert(ek >= _adapter_opt_collect_FIRST && ek <= _adapter_opt_collect_LAST ||
+ ek >= _adapter_opt_fold_FIRST && ek <= _adapter_opt_fold_LAST, "");
+ switch (ek) {
+ case _adapter_opt_collect_2_S0_ref :
+ case _adapter_opt_filter_S0_ref : return 0;
+ case _adapter_opt_collect_2_S1_ref :
+ case _adapter_opt_filter_S1_ref : return 1;
+ case _adapter_opt_collect_2_S2_ref :
+ case _adapter_opt_filter_S2_ref : return 2;
+ case _adapter_opt_collect_2_S3_ref :
+ case _adapter_opt_filter_S3_ref : return 3;
+ case _adapter_opt_collect_2_S4_ref :
+ case _adapter_opt_filter_S4_ref : return 4;
+ case _adapter_opt_collect_2_S5_ref :
+ case _adapter_opt_filter_S5_ref : return 5;
+ default : return -1; // sentinel value for "variable"
+ }
}
- static int get_ek_adapter_opt_spread_info(EntryKind ek) {
+ static BasicType ek_adapter_opt_collect_type(EntryKind ek) {
+ assert(ek >= _adapter_opt_collect_FIRST && ek <= _adapter_opt_collect_LAST ||
+ ek >= _adapter_opt_fold_FIRST && ek <= _adapter_opt_fold_LAST, "");
+ switch (ek) {
+ case _adapter_opt_fold_int :
+ case _adapter_opt_collect_int : return T_INT;
+ case _adapter_opt_fold_long :
+ case _adapter_opt_collect_long : return T_LONG;
+ case _adapter_opt_fold_float :
+ case _adapter_opt_collect_float : return T_FLOAT;
+ case _adapter_opt_fold_double :
+ case _adapter_opt_collect_double : return T_DOUBLE;
+ case _adapter_opt_fold_void :
+ case _adapter_opt_collect_void : return T_VOID;
+ default : return T_OBJECT;
+ }
+ }
+
+ static int ek_adapter_opt_return_slot(EntryKind ek) {
+ assert(ek >= _adapter_opt_return_FIRST && ek <= _adapter_opt_return_LAST, "");
+ switch (ek) {
+ case _adapter_opt_return_S0_ref : return 0;
+ case _adapter_opt_return_S1_ref : return 1;
+ case _adapter_opt_return_S2_ref : return 2;
+ case _adapter_opt_return_S3_ref : return 3;
+ case _adapter_opt_return_S4_ref : return 4;
+ case _adapter_opt_return_S5_ref : return 5;
+ default : return -1; // sentinel value for "variable"
+ }
+ }
+
+ static BasicType ek_adapter_opt_return_type(EntryKind ek) {
+ assert(ek >= _adapter_opt_return_FIRST && ek <= _adapter_opt_return_LAST, "");
switch (ek) {
- case _adapter_opt_spread_0: return 0;
- case _adapter_opt_spread_1: return 1;
- default : return -1;
+ case _adapter_opt_return_int : return T_INT;
+ case _adapter_opt_return_long : return T_LONG;
+ case _adapter_opt_return_float : return T_FLOAT;
+ case _adapter_opt_return_double : return T_DOUBLE;
+ case _adapter_opt_return_void : return T_VOID;
+ case _adapter_opt_return_any : return T_CONFLICT; // sentinel value for "variable"
+ default : return T_OBJECT;
+ }
+ }
+
+ static int ek_adapter_opt_spread_count(EntryKind ek) {
+ assert(ek >= _adapter_opt_spread_FIRST && ek <= _adapter_opt_spread_LAST, "");
+ switch (ek) {
+ case _adapter_opt_spread_0 : return 0;
+ case _adapter_opt_spread_1_ref : return 1;
+ case _adapter_opt_spread_2_ref : return 2;
+ case _adapter_opt_spread_3_ref : return 3;
+ case _adapter_opt_spread_4_ref : return 4;
+ case _adapter_opt_spread_5_ref : return 5;
+ default : return -1; // sentinel value for "variable"
+ }
+ }
+
+ static BasicType ek_adapter_opt_spread_type(EntryKind ek) {
+ assert(ek >= _adapter_opt_spread_FIRST && ek <= _adapter_opt_spread_LAST, "");
+ switch (ek) {
+ // (there is no _adapter_opt_spread_boolean; we use byte)
+ case _adapter_opt_spread_byte : return T_BYTE;
+ case _adapter_opt_spread_char : return T_CHAR;
+ case _adapter_opt_spread_short : return T_SHORT;
+ case _adapter_opt_spread_int : return T_INT;
+ case _adapter_opt_spread_long : return T_LONG;
+ case _adapter_opt_spread_float : return T_FLOAT;
+ case _adapter_opt_spread_double : return T_DOUBLE;
+ default : return T_OBJECT;
}
}
@@ -228,12 +475,21 @@
// Bit mask of conversion_op values. May vary by platform.
static int adapter_conversion_ops_supported_mask();
+ static bool conv_op_supported(int conv_op) {
+ assert(conv_op_valid(conv_op), "");
+ return ((adapter_conversion_ops_supported_mask() & nth_bit(conv_op)) != 0);
+ }
+
// Offset in words that the interpreter stack pointer moves when an argument is pushed.
// The stack_move value must always be a multiple of this.
static int stack_move_unit() {
return frame::interpreter_frame_expression_stack_direction() * Interpreter::stackElementWords;
}
+ // Adapter frame traversal. (Implementation-specific.)
+ static frame ricochet_frame_sender(const frame& fr, RegisterMap* reg_map);
+ static void ricochet_frame_oops_do(const frame& fr, OopClosure* blk, const RegisterMap* reg_map);
+
enum { CONV_VMINFO_SIGN_FLAG = 0x80 };
// Shift values for prim-to-prim conversions.
static int adapter_prim_to_prim_subword_vminfo(BasicType dest) {
@@ -429,6 +685,7 @@
// Fill in the fields of an AdapterMethodHandle mh. (MH.type must be pre-filled.)
static void init_AdapterMethodHandle(Handle mh, Handle target, int argnum, TRAPS);
+ static void ensure_vmlayout_field(Handle target, TRAPS);
#ifdef ASSERT
static bool spot_check_entry_names();
@@ -448,12 +705,54 @@
return same_basic_type_for_arguments(src, dst, raw, true);
}
- enum { // arg_mask values
+ static Symbol* convert_to_signature(oop type_str, bool polymorphic, TRAPS);
+
+#ifdef TARGET_ARCH_x86
+# include "methodHandles_x86.hpp"
+#endif
+#ifdef TARGET_ARCH_sparc
+#define TARGET_ARCH_NYI_6939861 1 //FIXME
+//# include "methodHandles_sparc.hpp"
+#endif
+#ifdef TARGET_ARCH_zero
+#define TARGET_ARCH_NYI_6939861 1 //FIXME
+//# include "methodHandles_zero.hpp"
+#endif
+#ifdef TARGET_ARCH_arm
+#define TARGET_ARCH_NYI_6939861 1 //FIXME
+//# include "methodHandles_arm.hpp"
+#endif
+#ifdef TARGET_ARCH_ppc
+#define TARGET_ARCH_NYI_6939861 1 //FIXME
+//# include "methodHandles_ppc.hpp"
+#endif
+
+#ifdef TARGET_ARCH_NYI_6939861
+ // Here are some backward compatible declarations until the 6939861 ports are updated.
+ #define _adapter_flyby (_EK_LIMIT + 10)
+ #define _adapter_ricochet (_EK_LIMIT + 11)
+ #define _adapter_opt_spread_1 _adapter_opt_spread_1_ref
+ #define _adapter_opt_spread_more _adapter_opt_spread_ref
+ enum {
_INSERT_NO_MASK = -1,
_INSERT_REF_MASK = 0,
_INSERT_INT_MASK = 1,
_INSERT_LONG_MASK = 3
};
+ static void get_ek_bound_mh_info(EntryKind ek, BasicType& arg_type, int& arg_mask, int& arg_slots) {
+ arg_type = ek_bound_mh_arg_type(ek);
+ arg_mask = 0;
+ arg_slots = type2size[arg_type];;
+ }
+ static void get_ek_adapter_opt_swap_rot_info(EntryKind ek, int& swap_bytes, int& rotate) {
+ int swap_slots = ek_adapter_opt_swap_slots(ek);
+ rotate = ek_adapter_opt_swap_mode(ek);
+ swap_bytes = swap_slots * Interpreter::stackElementSize;
+ }
+ static int get_ek_adapter_opt_spread_info(EntryKind ek) {
+ return ek_adapter_opt_spread_count(ek);
+ }
+
static void insert_arg_slots(MacroAssembler* _masm,
RegisterOrConstant arg_slots,
int arg_mask,
@@ -466,8 +765,7 @@
Register temp_reg, Register temp2_reg, Register temp3_reg = noreg);
static void trace_method_handle(MacroAssembler* _masm, const char* adaptername) PRODUCT_RETURN;
-
- static Symbol* convert_to_signature(oop type_str, bool polymorphic, TRAPS);
+#endif //TARGET_ARCH_NYI_6939861
};
--- a/hotspot/src/share/vm/runtime/frame.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/runtime/frame.cpp Fri May 06 19:34:55 2011 -0700
@@ -33,6 +33,7 @@
#include "oops/methodOop.hpp"
#include "oops/oop.inline.hpp"
#include "oops/oop.inline2.hpp"
+#include "prims/methodHandles.hpp"
#include "runtime/frame.inline.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/javaCalls.hpp"
@@ -169,6 +170,11 @@
}
// type testers
+bool frame::is_ricochet_frame() const {
+ RicochetBlob* rcb = SharedRuntime::ricochet_blob();
+ return (_cb == rcb && rcb != NULL && rcb->returns_to_bounce_addr(_pc));
+}
+
bool frame::is_deoptimized_frame() const {
assert(_deopt_state != unknown, "not answerable");
return _deopt_state == is_deoptimized;
@@ -341,12 +347,18 @@
frame frame::real_sender(RegisterMap* map) const {
frame result = sender(map);
- while (result.is_runtime_frame()) {
+ while (result.is_runtime_frame() ||
+ result.is_ricochet_frame()) {
result = result.sender(map);
}
return result;
}
+frame frame::sender_for_ricochet_frame(RegisterMap* map) const {
+ assert(is_ricochet_frame(), "");
+ return MethodHandles::ricochet_frame_sender(*this, map);
+}
+
// Note: called by profiler - NOT for current thread
frame frame::profile_find_Java_sender_frame(JavaThread *thread) {
// If we don't recognize this frame, walk back up the stack until we do
@@ -529,6 +541,7 @@
const char* frame::print_name() const {
if (is_native_frame()) return "Native";
if (is_interpreted_frame()) return "Interpreted";
+ if (is_ricochet_frame()) return "Ricochet";
if (is_compiled_frame()) {
if (is_deoptimized_frame()) return "Deoptimized";
return "Compiled";
@@ -715,6 +728,8 @@
st->print("v ~RuntimeStub::%s", ((RuntimeStub *)_cb)->name());
} else if (_cb->is_deoptimization_stub()) {
st->print("v ~DeoptimizationBlob");
+ } else if (_cb->is_ricochet_stub()) {
+ st->print("v ~RichochetBlob");
} else if (_cb->is_exception_stub()) {
st->print("v ~ExceptionBlob");
} else if (_cb->is_safepoint_stub()) {
@@ -978,6 +993,9 @@
void frame::oops_code_blob_do(OopClosure* f, CodeBlobClosure* cf, const RegisterMap* reg_map) {
assert(_cb != NULL, "sanity check");
+ if (_cb == SharedRuntime::ricochet_blob()) {
+ oops_ricochet_do(f, reg_map);
+ }
if (_cb->oop_maps() != NULL) {
OopMapSet::oops_do(this, reg_map, f);
@@ -996,6 +1014,11 @@
cf->do_code_blob(_cb);
}
+void frame::oops_ricochet_do(OopClosure* f, const RegisterMap* map) {
+ assert(is_ricochet_frame(), "");
+ MethodHandles::ricochet_frame_oops_do(*this, f, map);
+}
+
class CompiledArgumentOopFinder: public SignatureInfo {
protected:
OopClosure* _f;
--- a/hotspot/src/share/vm/runtime/frame.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/runtime/frame.hpp Fri May 06 19:34:55 2011 -0700
@@ -135,6 +135,7 @@
bool is_interpreted_frame() const;
bool is_java_frame() const;
bool is_entry_frame() const; // Java frame called from C?
+ bool is_ricochet_frame() const;
bool is_native_frame() const;
bool is_runtime_frame() const;
bool is_compiled_frame() const;
@@ -175,6 +176,7 @@
// Helper methods for better factored code in frame::sender
frame sender_for_compiled_frame(RegisterMap* map) const;
frame sender_for_entry_frame(RegisterMap* map) const;
+ frame sender_for_ricochet_frame(RegisterMap* map) const;
frame sender_for_interpreter_frame(RegisterMap* map) const;
frame sender_for_native_frame(RegisterMap* map) const;
@@ -400,6 +402,7 @@
// Oops-do's
void oops_compiled_arguments_do(Symbol* signature, bool has_receiver, const RegisterMap* reg_map, OopClosure* f);
void oops_interpreted_do(OopClosure* f, const RegisterMap* map, bool query_oop_map_cache = true);
+ void oops_ricochet_do(OopClosure* f, const RegisterMap* map);
private:
void oops_interpreted_arguments_do(Symbol* signature, bool has_receiver, OopClosure* f);
--- a/hotspot/src/share/vm/runtime/globals.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/runtime/globals.hpp Fri May 06 19:34:55 2011 -0700
@@ -3708,6 +3708,10 @@
diagnostic(bool, OptimizeMethodHandles, true, \
"when constructing method handles, try to improve them") \
\
+ diagnostic(bool, UseRicochetFrames, true, \
+ "use ricochet stack frames for method handle combination, " \
+ "if the platform supports them") \
+ \
experimental(bool, TrustFinalNonStaticFields, false, \
"trust final non-static declarations for constant folding") \
\
--- a/hotspot/src/share/vm/runtime/sharedRuntime.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/runtime/sharedRuntime.cpp Fri May 06 19:34:55 2011 -0700
@@ -88,6 +88,8 @@
HS_DTRACE_PROBE_DECL7(hotspot, method__return, int,
char*, int, char*, int, char*, int);
+RicochetBlob* SharedRuntime::_ricochet_blob = NULL;
+
// Implementation of SharedRuntime
#ifndef PRODUCT
@@ -460,6 +462,10 @@
if (Interpreter::contains(return_address)) {
return Interpreter::rethrow_exception_entry();
}
+ // Ricochet frame unwind code
+ if (SharedRuntime::ricochet_blob() != NULL && SharedRuntime::ricochet_blob()->returns_to_bounce_addr(return_address)) {
+ return SharedRuntime::ricochet_blob()->exception_addr();
+ }
guarantee(blob == NULL || !blob->is_runtime_stub(), "caller should have skipped stub");
guarantee(!VtableStubs::contains(return_address), "NULL exceptions in vtables should have been handled already!");
@@ -1174,6 +1180,7 @@
assert(stub_frame.is_runtime_frame(), "sanity check");
frame caller_frame = stub_frame.sender(®_map);
assert(!caller_frame.is_interpreted_frame() && !caller_frame.is_entry_frame(), "unexpected frame");
+ assert(!caller_frame.is_ricochet_frame(), "unexpected frame");
#endif /* ASSERT */
methodHandle callee_method;
@@ -1222,6 +1229,7 @@
if (caller_frame.is_interpreted_frame() ||
caller_frame.is_entry_frame() ||
+ caller_frame.is_ricochet_frame() ||
is_mh_invoke_via_adapter) {
methodOop callee = thread->callee_target();
guarantee(callee != NULL && callee->is_method(), "bad handshake");
--- a/hotspot/src/share/vm/runtime/sharedRuntime.hpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/runtime/sharedRuntime.hpp Fri May 06 19:34:55 2011 -0700
@@ -58,6 +58,8 @@
static RuntimeStub* _resolve_virtual_call_blob;
static RuntimeStub* _resolve_static_call_blob;
+ static RicochetBlob* _ricochet_blob;
+
static SafepointBlob* _polling_page_safepoint_handler_blob;
static SafepointBlob* _polling_page_return_handler_blob;
#ifdef COMPILER2
@@ -213,6 +215,16 @@
return _resolve_static_call_blob->entry_point();
}
+ static RicochetBlob* ricochet_blob() {
+#ifdef X86
+ // Currently only implemented on x86
+ assert(!EnableInvokeDynamic || _ricochet_blob != NULL, "oops");
+#endif
+ return _ricochet_blob;
+ }
+
+ static void generate_ricochet_blob();
+
static SafepointBlob* polling_page_return_handler_blob() { return _polling_page_return_handler_blob; }
static SafepointBlob* polling_page_safepoint_handler_blob() { return _polling_page_safepoint_handler_blob; }
--- a/hotspot/src/share/vm/services/heapDumper.cpp Fri May 06 11:36:25 2011 -0700
+++ b/hotspot/src/share/vm/services/heapDumper.cpp Fri May 06 19:34:55 2011 -0700
@@ -1649,6 +1649,9 @@
if (fr->is_entry_frame()) {
last_entry_frame = fr;
}
+ if (fr->is_ricochet_frame()) {
+ fr->oops_ricochet_do(&blk, vf->register_map());
+ }
}
vf = vf->sender();
}
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/hotspot/test/compiler/7042153/Test7042153.java Fri May 06 19:34:55 2011 -0700
@@ -0,0 +1,45 @@
+/*
+ * Copyright (c) 2011, 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
+ * under the terms of the GNU General Public License version 2 only, as
+ * published by the Free Software Foundation.
+ *
+ * This code is distributed in the hope that it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+ * version 2 for more details (a copy is included in the LICENSE file that
+ * accompanied this code).
+ *
+ * You should have received a copy of the GNU General Public License version
+ * 2 along with this work; if not, write to the Free Software Foundation,
+ * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
+ *
+ * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
+ * or visit www.oracle.com if you need additional information or have any
+ * questions.
+ *
+ */
+
+/**
+ * @test
+ * @bug 7042153
+ * @summary Bad folding of IfOps with unloaded constant arguments in C1
+ *
+ * @run main/othervm -Xcomp Test7042153
+ */
+
+import java.lang.reflect.*;
+
+public class Test7042153 {
+ static public class Bar { }
+ static public class Foo { }
+
+ static volatile boolean z;
+ public static void main(String [] args) {
+ Class cx = Bar.class;
+ Class cy = Foo.class;
+ z = (cx == cy);
+ }
+}