Mercurial > jdk8-mips64-public > hotspot / annotate

src/cpu/x86/vm/methodHandles_x86.cpp@fabcf26ee72f (annotated)

src/cpu/x86/vm/methodHandles_x86.cpp

Thu, 12 May 2011 14:04:48 -0700

author
twisti
date
Thu, 12 May 2011 14:04:48 -0700
changeset 2903
fabcf26ee72f
parent 2895
167b70ff3abc
child 2920
a80577f854f9
permissions
-rw-r--r--

6998541: JSR 292 implement missing return-type conversion for OP_RETYPE_RAW
Reviewed-by: jrose, kvn, never

jrose@1145 1 /*
twisti@2436 2 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved.
jrose@1145 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
jrose@1145 4 *
jrose@1145 5 * This code is free software; you can redistribute it and/or modify it
jrose@1145 6 * under the terms of the GNU General Public License version 2 only, as
jrose@1145 7 * published by the Free Software Foundation.
jrose@1145 8 *
jrose@1145 9 * This code is distributed in the hope that it will be useful, but WITHOUT
jrose@1145 10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
jrose@1145 11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
jrose@1145 12 * version 2 for more details (a copy is included in the LICENSE file that
jrose@1145 13 * accompanied this code).
jrose@1145 14 *
jrose@1145 15 * You should have received a copy of the GNU General Public License version
jrose@1145 16 * 2 along with this work; if not, write to the Free Software Foundation,
jrose@1145 17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
jrose@1145 18 *
trims@1907 19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907 20 * or visit www.oracle.com if you need additional information or have any
trims@1907 21 * questions.
jrose@1145 22 *
jrose@1145 23 */
jrose@1145 24
stefank@2314 25 #include "precompiled.hpp"
stefank@2314 26 #include "interpreter/interpreter.hpp"
stefank@2314 27 #include "memory/allocation.inline.hpp"
stefank@2314 28 #include "prims/methodHandles.hpp"
jrose@1145 29
jrose@1145 30 #define __ _masm->
jrose@1145 31
jrose@2148 32 #ifdef PRODUCT
jrose@2148 33 #define BLOCK_COMMENT(str) /* nothing */
jrose@2148 34 #else
jrose@2148 35 #define BLOCK_COMMENT(str) __ block_comment(str)
jrose@2148 36 #endif
jrose@2148 37
jrose@2148 38 #define BIND(label) bind(label); BLOCK_COMMENT(#label ":")
jrose@2148 39
jrose@1145 40 address MethodHandleEntry::start_compiled_entry(MacroAssembler* _masm,
jrose@1145 41 address interpreted_entry) {
jrose@1145 42 // Just before the actual machine code entry point, allocate space
jrose@1145 43 // for a MethodHandleEntry::Data record, so that we can manage everything
jrose@1145 44 // from one base pointer.
jrose@1145 45 __ align(wordSize);
jrose@1145 46 address target = __ pc() + sizeof(Data);
jrose@1145 47 while (__ pc() < target) {
jrose@1145 48 __ nop();
jrose@1145 49 __ align(wordSize);
jrose@1145 50 }
jrose@1145 51
jrose@1145 52 MethodHandleEntry* me = (MethodHandleEntry*) __ pc();
jrose@1145 53 me->set_end_address(__ pc()); // set a temporary end_address
jrose@1145 54 me->set_from_interpreted_entry(interpreted_entry);
jrose@1145 55 me->set_type_checking_entry(NULL);
jrose@1145 56
jrose@1145 57 return (address) me;
jrose@1145 58 }
jrose@1145 59
jrose@1145 60 MethodHandleEntry* MethodHandleEntry::finish_compiled_entry(MacroAssembler* _masm,
jrose@1145 61 address start_addr) {
jrose@1145 62 MethodHandleEntry* me = (MethodHandleEntry*) start_addr;
jrose@1145 63 assert(me->end_address() == start_addr, "valid ME");
jrose@1145 64
jrose@1145 65 // Fill in the real end_address:
jrose@1145 66 __ align(wordSize);
jrose@1145 67 me->set_end_address(__ pc());
jrose@1145 68
jrose@1145 69 return me;
jrose@1145 70 }
jrose@1145 71
never@2895 72 // stack walking support
never@2895 73
never@2895 74 frame MethodHandles::ricochet_frame_sender(const frame& fr, RegisterMap *map) {
never@2895 75 RicochetFrame* f = RicochetFrame::from_frame(fr);
never@2895 76 if (map->update_map())
never@2895 77 frame::update_map_with_saved_link(map, &f->_sender_link);
never@2895 78 return frame(f->extended_sender_sp(), f->exact_sender_sp(), f->sender_link(), f->sender_pc());
never@2895 79 }
never@2895 80
never@2895 81 void MethodHandles::ricochet_frame_oops_do(const frame& fr, OopClosure* blk, const RegisterMap* reg_map) {
never@2895 82 RicochetFrame* f = RicochetFrame::from_frame(fr);
never@2895 83
never@2895 84 // pick up the argument type descriptor:
never@2895 85 Thread* thread = Thread::current();
never@2895 86 Handle cookie(thread, f->compute_saved_args_layout(true, true));
never@2895 87
never@2895 88 // process fixed part
never@2895 89 blk->do_oop((oop*)f->saved_target_addr());
never@2895 90 blk->do_oop((oop*)f->saved_args_layout_addr());
never@2895 91
never@2895 92 // process variable arguments:
never@2895 93 if (cookie.is_null()) return; // no arguments to describe
never@2895 94
never@2895 95 // the cookie is actually the invokeExact method for my target
never@2895 96 // his argument signature is what I'm interested in
never@2895 97 assert(cookie->is_method(), "");
never@2895 98 methodHandle invoker(thread, methodOop(cookie()));
never@2895 99 assert(invoker->name() == vmSymbols::invokeExact_name(), "must be this kind of method");
never@2895 100 assert(!invoker->is_static(), "must have MH argument");
never@2895 101 int slot_count = invoker->size_of_parameters();
never@2895 102 assert(slot_count >= 1, "must include 'this'");
never@2895 103 intptr_t* base = f->saved_args_base();
never@2895 104 intptr_t* retval = NULL;
never@2895 105 if (f->has_return_value_slot())
never@2895 106 retval = f->return_value_slot_addr();
never@2895 107 int slot_num = slot_count;
never@2895 108 intptr_t* loc = &base[slot_num -= 1];
never@2895 109 //blk->do_oop((oop*) loc); // original target, which is irrelevant
never@2895 110 int arg_num = 0;
never@2895 111 for (SignatureStream ss(invoker->signature()); !ss.is_done(); ss.next()) {
never@2895 112 if (ss.at_return_type()) continue;
never@2895 113 BasicType ptype = ss.type();
never@2895 114 if (ptype == T_ARRAY) ptype = T_OBJECT; // fold all refs to T_OBJECT
never@2895 115 assert(ptype >= T_BOOLEAN && ptype <= T_OBJECT, "not array or void");
never@2895 116 loc = &base[slot_num -= type2size[ptype]];
never@2895 117 bool is_oop = (ptype == T_OBJECT && loc != retval);
never@2895 118 if (is_oop) blk->do_oop((oop*)loc);
never@2895 119 arg_num += 1;
never@2895 120 }
never@2895 121 assert(slot_num == 0, "must have processed all the arguments");
never@2895 122 }
never@2895 123
never@2895 124 oop MethodHandles::RicochetFrame::compute_saved_args_layout(bool read_cache, bool write_cache) {
never@2895 125 oop cookie = NULL;
never@2895 126 if (read_cache) {
never@2895 127 cookie = saved_args_layout();
never@2895 128 if (cookie != NULL) return cookie;
never@2895 129 }
never@2895 130 oop target = saved_target();
never@2895 131 oop mtype = java_lang_invoke_MethodHandle::type(target);
never@2895 132 oop mtform = java_lang_invoke_MethodType::form(mtype);
never@2895 133 cookie = java_lang_invoke_MethodTypeForm::vmlayout(mtform);
never@2895 134 if (write_cache) {
never@2895 135 (*saved_args_layout_addr()) = cookie;
never@2895 136 }
never@2895 137 return cookie;
never@2895 138 }
never@2895 139
never@2895 140 void MethodHandles::RicochetFrame::generate_ricochet_blob(MacroAssembler* _masm,
never@2895 141 // output params:
never@2895 142 int* frame_size_in_words,
never@2895 143 int* bounce_offset,
never@2895 144 int* exception_offset) {
never@2895 145 (*frame_size_in_words) = RicochetFrame::frame_size_in_bytes() / wordSize;
never@2895 146
never@2895 147 address start = __ pc();
never@2895 148
jrose@1145 149 #ifdef ASSERT
never@2895 150 __ hlt(); __ hlt(); __ hlt();
never@2895 151 // here's a hint of something special:
never@2895 152 __ push(MAGIC_NUMBER_1);
never@2895 153 __ push(MAGIC_NUMBER_2);
never@2895 154 #endif //ASSERT
never@2895 155 __ hlt(); // not reached
never@2895 156
never@2895 157 // A return PC has just been popped from the stack.
never@2895 158 // Return values are in registers.
never@2895 159 // The ebp points into the RicochetFrame, which contains
never@2895 160 // a cleanup continuation we must return to.
never@2895 161
never@2895 162 (*bounce_offset) = __ pc() - start;
never@2895 163 BLOCK_COMMENT("ricochet_blob.bounce");
never@2895 164
never@2895 165 if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
twisti@2903 166 trace_method_handle(_masm, "return/ricochet_blob.bounce");
never@2895 167
never@2895 168 __ jmp(frame_address(continuation_offset_in_bytes()));
never@2895 169 __ hlt();
never@2895 170 DEBUG_ONLY(__ push(MAGIC_NUMBER_2));
never@2895 171
never@2895 172 (*exception_offset) = __ pc() - start;
never@2895 173 BLOCK_COMMENT("ricochet_blob.exception");
never@2895 174
never@2895 175 // compare this to Interpreter::rethrow_exception_entry, which is parallel code
never@2895 176 // for example, see TemplateInterpreterGenerator::generate_throw_exception
never@2895 177 // Live registers in:
never@2895 178 // rax: exception
never@2895 179 // rdx: return address/pc that threw exception (ignored, always equal to bounce addr)
never@2895 180 __ verify_oop(rax);
never@2895 181
never@2895 182 // no need to empty_FPU_stack or reinit_heapbase, since caller frame will do the same if needed
never@2895 183
never@2895 184 // Take down the frame.
never@2895 185
never@2895 186 // Cf. InterpreterMacroAssembler::remove_activation.
never@2895 187 leave_ricochet_frame(_masm, /*rcx_recv=*/ noreg,
never@2895 188 saved_last_sp_register(),
never@2895 189 /*sender_pc_reg=*/ rdx);
never@2895 190
never@2895 191 // In between activations - previous activation type unknown yet
never@2895 192 // compute continuation point - the continuation point expects the
never@2895 193 // following registers set up:
never@2895 194 //
never@2895 195 // rax: exception
never@2895 196 // rdx: return address/pc that threw exception
never@2895 197 // rsp: expression stack of caller
never@2895 198 // rbp: ebp of caller
never@2895 199 __ push(rax); // save exception
never@2895 200 __ push(rdx); // save return address
never@2895 201 Register thread_reg = LP64_ONLY(r15_thread) NOT_LP64(rdi);
never@2895 202 NOT_LP64(__ get_thread(thread_reg));
never@2895 203 __ call_VM_leaf(CAST_FROM_FN_PTR(address,
never@2895 204 SharedRuntime::exception_handler_for_return_address),
never@2895 205 thread_reg, rdx);
never@2895 206 __ mov(rbx, rax); // save exception handler
never@2895 207 __ pop(rdx); // restore return address
never@2895 208 __ pop(rax); // restore exception
never@2895 209 __ jmp(rbx); // jump to exception
never@2895 210 // handler of caller
never@2895 211 }
never@2895 212
never@2895 213 void MethodHandles::RicochetFrame::enter_ricochet_frame(MacroAssembler* _masm,
never@2895 214 Register rcx_recv,
never@2895 215 Register rax_argv,
never@2895 216 address return_handler,
never@2895 217 Register rbx_temp) {
never@2895 218 const Register saved_last_sp = saved_last_sp_register();
never@2895 219 Address rcx_mh_vmtarget( rcx_recv, java_lang_invoke_MethodHandle::vmtarget_offset_in_bytes() );
never@2895 220 Address rcx_amh_conversion( rcx_recv, java_lang_invoke_AdapterMethodHandle::conversion_offset_in_bytes() );
never@2895 221
never@2895 222 // Push the RicochetFrame a word at a time.
never@2895 223 // This creates something similar to an interpreter frame.
never@2895 224 // Cf. TemplateInterpreterGenerator::generate_fixed_frame.
never@2895 225 BLOCK_COMMENT("push RicochetFrame {");
never@2895 226 DEBUG_ONLY(int rfo = (int) sizeof(RicochetFrame));
never@2895 227 assert((rfo -= wordSize) == RicochetFrame::sender_pc_offset_in_bytes(), "");
never@2895 228 #define RF_FIELD(push_value, name) \
never@2895 229 { push_value; \
never@2895 230 assert((rfo -= wordSize) == RicochetFrame::name##_offset_in_bytes(), ""); }
never@2895 231 RF_FIELD(__ push(rbp), sender_link);
never@2895 232 RF_FIELD(__ push(saved_last_sp), exact_sender_sp); // rsi/r13
never@2895 233 RF_FIELD(__ pushptr(rcx_amh_conversion), conversion);
never@2895 234 RF_FIELD(__ push(rax_argv), saved_args_base); // can be updated if args are shifted
never@2895 235 RF_FIELD(__ push((int32_t) NULL_WORD), saved_args_layout); // cache for GC layout cookie
never@2895 236 if (UseCompressedOops) {
never@2895 237 __ load_heap_oop(rbx_temp, rcx_mh_vmtarget);
never@2895 238 RF_FIELD(__ push(rbx_temp), saved_target);
never@2895 239 } else {
never@2895 240 RF_FIELD(__ pushptr(rcx_mh_vmtarget), saved_target);
never@2895 241 }
never@2895 242 __ lea(rbx_temp, ExternalAddress(return_handler));
never@2895 243 RF_FIELD(__ push(rbx_temp), continuation);
never@2895 244 #undef RF_FIELD
never@2895 245 assert(rfo == 0, "fully initialized the RicochetFrame");
never@2895 246 // compute new frame pointer:
never@2895 247 __ lea(rbp, Address(rsp, RicochetFrame::sender_link_offset_in_bytes()));
never@2895 248 // Push guard word #1 in debug mode.
never@2895 249 DEBUG_ONLY(__ push((int32_t) RicochetFrame::MAGIC_NUMBER_1));
never@2895 250 // For debugging, leave behind an indication of which stub built this frame.
never@2895 251 DEBUG_ONLY({ Label L; __ call(L, relocInfo::none); __ bind(L); });
never@2895 252 BLOCK_COMMENT("} RicochetFrame");
never@2895 253 }
never@2895 254
never@2895 255 void MethodHandles::RicochetFrame::leave_ricochet_frame(MacroAssembler* _masm,
never@2895 256 Register rcx_recv,
never@2895 257 Register new_sp_reg,
never@2895 258 Register sender_pc_reg) {
never@2895 259 assert_different_registers(rcx_recv, new_sp_reg, sender_pc_reg);
never@2895 260 const Register saved_last_sp = saved_last_sp_register();
never@2895 261 // Take down the frame.
never@2895 262 // Cf. InterpreterMacroAssembler::remove_activation.
never@2895 263 BLOCK_COMMENT("end_ricochet_frame {");
never@2895 264 // TO DO: If (exact_sender_sp - extended_sender_sp) > THRESH, compact the frame down.
never@2895 265 // This will keep stack in bounds even with unlimited tailcalls, each with an adapter.
never@2895 266 if (rcx_recv->is_valid())
never@2895 267 __ movptr(rcx_recv, RicochetFrame::frame_address(RicochetFrame::saved_target_offset_in_bytes()));
never@2895 268 __ movptr(sender_pc_reg, RicochetFrame::frame_address(RicochetFrame::sender_pc_offset_in_bytes()));
never@2895 269 __ movptr(saved_last_sp, RicochetFrame::frame_address(RicochetFrame::exact_sender_sp_offset_in_bytes()));
never@2895 270 __ movptr(rbp, RicochetFrame::frame_address(RicochetFrame::sender_link_offset_in_bytes()));
never@2895 271 __ mov(rsp, new_sp_reg);
never@2895 272 BLOCK_COMMENT("} end_ricochet_frame");
never@2895 273 }
never@2895 274
never@2895 275 // Emit code to verify that RBP is pointing at a valid ricochet frame.
never@2895 276 #ifdef ASSERT
never@2895 277 enum {
never@2895 278 ARG_LIMIT = 255, SLOP = 4,
never@2895 279 // use this parameter for checking for garbage stack movements:
never@2895 280 UNREASONABLE_STACK_MOVE = (ARG_LIMIT + SLOP)
never@2895 281 // the slop defends against false alarms due to fencepost errors
never@2895 282 };
never@2895 283
never@2895 284 void MethodHandles::RicochetFrame::verify_clean(MacroAssembler* _masm) {
never@2895 285 // The stack should look like this:
never@2895 286 // ... keep1 | dest=42 | keep2 | RF | magic | handler | magic | recursive args |
never@2895 287 // Check various invariants.
never@2895 288 verify_offsets();
never@2895 289
never@2895 290 Register rdi_temp = rdi;
never@2895 291 Register rcx_temp = rcx;
never@2895 292 { __ push(rdi_temp); __ push(rcx_temp); }
never@2895 293 #define UNPUSH_TEMPS \
never@2895 294 { __ pop(rcx_temp); __ pop(rdi_temp); }
never@2895 295
never@2895 296 Address magic_number_1_addr = RicochetFrame::frame_address(RicochetFrame::magic_number_1_offset_in_bytes());
never@2895 297 Address magic_number_2_addr = RicochetFrame::frame_address(RicochetFrame::magic_number_2_offset_in_bytes());
never@2895 298 Address continuation_addr = RicochetFrame::frame_address(RicochetFrame::continuation_offset_in_bytes());
never@2895 299 Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
never@2895 300 Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
never@2895 301
never@2895 302 Label L_bad, L_ok;
never@2895 303 BLOCK_COMMENT("verify_clean {");
never@2895 304 // Magic numbers must check out:
never@2895 305 __ cmpptr(magic_number_1_addr, (int32_t) MAGIC_NUMBER_1);
never@2895 306 __ jcc(Assembler::notEqual, L_bad);
never@2895 307 __ cmpptr(magic_number_2_addr, (int32_t) MAGIC_NUMBER_2);
never@2895 308 __ jcc(Assembler::notEqual, L_bad);
never@2895 309
never@2895 310 // Arguments pointer must look reasonable:
never@2895 311 __ movptr(rcx_temp, saved_args_base_addr);
never@2895 312 __ cmpptr(rcx_temp, rbp);
never@2895 313 __ jcc(Assembler::below, L_bad);
never@2895 314 __ subptr(rcx_temp, UNREASONABLE_STACK_MOVE * Interpreter::stackElementSize);
never@2895 315 __ cmpptr(rcx_temp, rbp);
never@2895 316 __ jcc(Assembler::above, L_bad);
never@2895 317
never@2895 318 load_conversion_dest_type(_masm, rdi_temp, conversion_addr);
never@2895 319 __ cmpl(rdi_temp, T_VOID);
never@2895 320 __ jcc(Assembler::equal, L_ok);
never@2895 321 __ movptr(rcx_temp, saved_args_base_addr);
never@2895 322 load_conversion_vminfo(_masm, rdi_temp, conversion_addr);
never@2895 323 __ cmpptr(Address(rcx_temp, rdi_temp, Interpreter::stackElementScale()),
never@2895 324 (int32_t) RETURN_VALUE_PLACEHOLDER);
never@2895 325 __ jcc(Assembler::equal, L_ok);
never@2895 326 __ BIND(L_bad);
never@2895 327 UNPUSH_TEMPS;
never@2895 328 __ stop("damaged ricochet frame");
never@2895 329 __ BIND(L_ok);
never@2895 330 UNPUSH_TEMPS;
never@2895 331 BLOCK_COMMENT("} verify_clean");
never@2895 332
never@2895 333 #undef UNPUSH_TEMPS
never@2895 334
never@2895 335 }
never@2895 336 #endif //ASSERT
never@2895 337
never@2895 338 void MethodHandles::load_klass_from_Class(MacroAssembler* _masm, Register klass_reg) {
never@2895 339 if (VerifyMethodHandles)
never@2895 340 verify_klass(_masm, klass_reg, SystemDictionaryHandles::Class_klass(),
never@2895 341 "AMH argument is a Class");
never@2895 342 __ load_heap_oop(klass_reg, Address(klass_reg, java_lang_Class::klass_offset_in_bytes()));
never@2895 343 }
never@2895 344
never@2895 345 void MethodHandles::load_conversion_vminfo(MacroAssembler* _masm, Register reg, Address conversion_field_addr) {
never@2895 346 int bits = BitsPerByte;
never@2895 347 int offset = (CONV_VMINFO_SHIFT / bits);
never@2895 348 int shift = (CONV_VMINFO_SHIFT % bits);
never@2895 349 __ load_unsigned_byte(reg, conversion_field_addr.plus_disp(offset));
never@2895 350 assert(CONV_VMINFO_MASK == right_n_bits(bits - shift), "else change type of previous load");
never@2895 351 assert(shift == 0, "no shift needed");
never@2895 352 }
never@2895 353
never@2895 354 void MethodHandles::load_conversion_dest_type(MacroAssembler* _masm, Register reg, Address conversion_field_addr) {
never@2895 355 int bits = BitsPerByte;
never@2895 356 int offset = (CONV_DEST_TYPE_SHIFT / bits);
never@2895 357 int shift = (CONV_DEST_TYPE_SHIFT % bits);
never@2895 358 __ load_unsigned_byte(reg, conversion_field_addr.plus_disp(offset));
never@2895 359 assert(CONV_TYPE_MASK == right_n_bits(bits - shift), "else change type of previous load");
never@2895 360 __ shrl(reg, shift);
never@2895 361 DEBUG_ONLY(int conv_type_bits = (int) exact_log2(CONV_TYPE_MASK+1));
never@2895 362 assert((shift + conv_type_bits) == bits, "left justified in byte");
never@2895 363 }
never@2895 364
never@2895 365 void MethodHandles::load_stack_move(MacroAssembler* _masm,
never@2895 366 Register rdi_stack_move,
never@2895 367 Register rcx_amh,
never@2895 368 bool might_be_negative) {
never@2895 369 BLOCK_COMMENT("load_stack_move");
never@2895 370 Address rcx_amh_conversion(rcx_amh, java_lang_invoke_AdapterMethodHandle::conversion_offset_in_bytes());
never@2895 371 __ movl(rdi_stack_move, rcx_amh_conversion);
never@2895 372 __ sarl(rdi_stack_move, CONV_STACK_MOVE_SHIFT);
never@2895 373 #ifdef _LP64
never@2895 374 if (might_be_negative) {
never@2895 375 // clean high bits of stack motion register (was loaded as an int)
never@2895 376 __ movslq(rdi_stack_move, rdi_stack_move);
never@2895 377 }
never@2895 378 #endif //_LP64
never@2895 379 if (VerifyMethodHandles) {
never@2895 380 Label L_ok, L_bad;
never@2895 381 int32_t stack_move_limit = 0x4000; // extra-large
never@2895 382 __ cmpptr(rdi_stack_move, stack_move_limit);
never@2895 383 __ jcc(Assembler::greaterEqual, L_bad);
never@2895 384 __ cmpptr(rdi_stack_move, -stack_move_limit);
never@2895 385 __ jcc(Assembler::greater, L_ok);
never@2895 386 __ bind(L_bad);
never@2895 387 __ stop("load_stack_move of garbage value");
never@2895 388 __ BIND(L_ok);
never@2895 389 }
never@2895 390 }
never@2895 391
never@2895 392 #ifndef PRODUCT
never@2895 393 void MethodHandles::RicochetFrame::verify_offsets() {
never@2895 394 // Check compatibility of this struct with the more generally used offsets of class frame:
never@2895 395 int ebp_off = sender_link_offset_in_bytes(); // offset from struct base to local rbp value
never@2895 396 assert(ebp_off + wordSize*frame::interpreter_frame_method_offset == saved_args_base_offset_in_bytes(), "");
never@2895 397 assert(ebp_off + wordSize*frame::interpreter_frame_last_sp_offset == conversion_offset_in_bytes(), "");
never@2895 398 assert(ebp_off + wordSize*frame::interpreter_frame_sender_sp_offset == exact_sender_sp_offset_in_bytes(), "");
never@2895 399 // These last two have to be exact:
never@2895 400 assert(ebp_off + wordSize*frame::link_offset == sender_link_offset_in_bytes(), "");
never@2895 401 assert(ebp_off + wordSize*frame::return_addr_offset == sender_pc_offset_in_bytes(), "");
never@2895 402 }
never@2895 403
never@2895 404 void MethodHandles::RicochetFrame::verify() const {
never@2895 405 verify_offsets();
never@2895 406 assert(magic_number_1() == MAGIC_NUMBER_1, "");
never@2895 407 assert(magic_number_2() == MAGIC_NUMBER_2, "");
never@2895 408 if (!Universe::heap()->is_gc_active()) {
never@2895 409 if (saved_args_layout() != NULL) {
never@2895 410 assert(saved_args_layout()->is_method(), "must be valid oop");
never@2895 411 }
never@2895 412 if (saved_target() != NULL) {
never@2895 413 assert(java_lang_invoke_MethodHandle::is_instance(saved_target()), "checking frame value");
never@2895 414 }
never@2895 415 }
never@2895 416 int conv_op = adapter_conversion_op(conversion());
never@2895 417 assert(conv_op == java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS ||
never@2895 418 conv_op == java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS ||
never@2895 419 conv_op == java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_REF,
never@2895 420 "must be a sane conversion");
never@2895 421 if (has_return_value_slot()) {
never@2895 422 assert(*return_value_slot_addr() == RETURN_VALUE_PLACEHOLDER, "");
never@2895 423 }
never@2895 424 }
never@2895 425 #endif //PRODUCT
never@2895 426
never@2895 427 #ifdef ASSERT
never@2895 428 void MethodHandles::verify_argslot(MacroAssembler* _masm,
never@2895 429 Register argslot_reg,
never@2895 430 const char* error_message) {
jrose@1145 431 // Verify that argslot lies within (rsp, rbp].
jrose@1145 432 Label L_ok, L_bad;
never@2895 433 BLOCK_COMMENT("verify_argslot {");
twisti@1739 434 __ cmpptr(argslot_reg, rbp);
twisti@1570 435 __ jccb(Assembler::above, L_bad);
twisti@1739 436 __ cmpptr(rsp, argslot_reg);
twisti@1570 437 __ jccb(Assembler::below, L_ok);
jrose@1145 438 __ bind(L_bad);
jrose@1145 439 __ stop(error_message);
never@2895 440 __ BIND(L_ok);
jrose@2148 441 BLOCK_COMMENT("} verify_argslot");
jrose@1145 442 }
jrose@1145 443
never@2895 444 void MethodHandles::verify_argslots(MacroAssembler* _masm,
never@2895 445 RegisterOrConstant arg_slots,
never@2895 446 Register arg_slot_base_reg,
never@2895 447 bool negate_argslots,
never@2895 448 const char* error_message) {
never@2895 449 // Verify that [argslot..argslot+size) lies within (rsp, rbp).
never@2895 450 Label L_ok, L_bad;
never@2895 451 Register rdi_temp = rdi;
never@2895 452 BLOCK_COMMENT("verify_argslots {");
never@2895 453 __ push(rdi_temp);
never@2895 454 if (negate_argslots) {
never@2895 455 if (arg_slots.is_constant()) {
never@2895 456 arg_slots = -1 * arg_slots.as_constant();
never@2895 457 } else {
never@2895 458 __ movptr(rdi_temp, arg_slots);
never@2895 459 __ negptr(rdi_temp);
never@2895 460 arg_slots = rdi_temp;
never@2895 461 }
never@2895 462 }
never@2895 463 __ lea(rdi_temp, Address(arg_slot_base_reg, arg_slots, Interpreter::stackElementScale()));
never@2895 464 __ cmpptr(rdi_temp, rbp);
never@2895 465 __ pop(rdi_temp);
never@2895 466 __ jcc(Assembler::above, L_bad);
never@2895 467 __ cmpptr(rsp, arg_slot_base_reg);
never@2895 468 __ jcc(Assembler::below, L_ok);
never@2895 469 __ bind(L_bad);
never@2895 470 __ stop(error_message);
never@2895 471 __ BIND(L_ok);
never@2895 472 BLOCK_COMMENT("} verify_argslots");
never@2895 473 }
never@2895 474
never@2895 475 // Make sure that arg_slots has the same sign as the given direction.
never@2895 476 // If (and only if) arg_slots is a assembly-time constant, also allow it to be zero.
never@2895 477 void MethodHandles::verify_stack_move(MacroAssembler* _masm,
never@2895 478 RegisterOrConstant arg_slots, int direction) {
never@2895 479 bool allow_zero = arg_slots.is_constant();
never@2895 480 if (direction == 0) { direction = +1; allow_zero = true; }
never@2895 481 assert(stack_move_unit() == -1, "else add extra checks here");
never@2895 482 if (arg_slots.is_register()) {
never@2895 483 Label L_ok, L_bad;
never@2895 484 BLOCK_COMMENT("verify_stack_move {");
never@2895 485 // testl(arg_slots.as_register(), -stack_move_unit() - 1); // no need
never@2895 486 // jcc(Assembler::notZero, L_bad);
never@2895 487 __ cmpptr(arg_slots.as_register(), (int32_t) NULL_WORD);
never@2895 488 if (direction > 0) {
never@2895 489 __ jcc(allow_zero ? Assembler::less : Assembler::lessEqual, L_bad);
never@2895 490 __ cmpptr(arg_slots.as_register(), (int32_t) UNREASONABLE_STACK_MOVE);
never@2895 491 __ jcc(Assembler::less, L_ok);
never@2895 492 } else {
never@2895 493 __ jcc(allow_zero ? Assembler::greater : Assembler::greaterEqual, L_bad);
never@2895 494 __ cmpptr(arg_slots.as_register(), (int32_t) -UNREASONABLE_STACK_MOVE);
never@2895 495 __ jcc(Assembler::greater, L_ok);
never@2895 496 }
never@2895 497 __ bind(L_bad);
never@2895 498 if (direction > 0)
never@2895 499 __ stop("assert arg_slots > 0");
never@2895 500 else
never@2895 501 __ stop("assert arg_slots < 0");
never@2895 502 __ BIND(L_ok);
never@2895 503 BLOCK_COMMENT("} verify_stack_move");
never@2895 504 } else {
never@2895 505 intptr_t size = arg_slots.as_constant();
never@2895 506 if (direction < 0) size = -size;
never@2895 507 assert(size >= 0, "correct direction of constant move");
never@2895 508 assert(size < UNREASONABLE_STACK_MOVE, "reasonable size of constant move");
never@2895 509 }
never@2895 510 }
never@2895 511
never@2895 512 void MethodHandles::verify_klass(MacroAssembler* _masm,
never@2895 513 Register obj, KlassHandle klass,
never@2895 514 const char* error_message) {
never@2895 515 oop* klass_addr = klass.raw_value();
never@2895 516 assert(klass_addr >= SystemDictionaryHandles::Object_klass().raw_value() &&
never@2895 517 klass_addr <= SystemDictionaryHandles::Long_klass().raw_value(),
never@2895 518 "must be one of the SystemDictionaryHandles");
never@2895 519 Register temp = rdi;
never@2895 520 Label L_ok, L_bad;
never@2895 521 BLOCK_COMMENT("verify_klass {");
never@2895 522 __ verify_oop(obj);
never@2895 523 __ testptr(obj, obj);
never@2895 524 __ jcc(Assembler::zero, L_bad);
never@2895 525 __ push(temp);
never@2895 526 __ load_klass(temp, obj);
never@2895 527 __ cmpptr(temp, ExternalAddress((address) klass_addr));
never@2895 528 __ jcc(Assembler::equal, L_ok);
never@2895 529 intptr_t super_check_offset = klass->super_check_offset();
never@2895 530 __ movptr(temp, Address(temp, super_check_offset));
never@2895 531 __ cmpptr(temp, ExternalAddress((address) klass_addr));
never@2895 532 __ jcc(Assembler::equal, L_ok);
never@2895 533 __ pop(temp);
never@2895 534 __ bind(L_bad);
never@2895 535 __ stop(error_message);
never@2895 536 __ BIND(L_ok);
never@2895 537 __ pop(temp);
never@2895 538 BLOCK_COMMENT("} verify_klass");
never@2895 539 }
never@2895 540 #endif //ASSERT
jrose@1145 541
jrose@1145 542 // Code generation
jrose@1145 543 address MethodHandles::generate_method_handle_interpreter_entry(MacroAssembler* _masm) {
jrose@1145 544 // rbx: methodOop
jrose@1145 545 // rcx: receiver method handle (must load from sp[MethodTypeForm.vmslots])
jrose@1145 546 // rsi/r13: sender SP (must preserve; see prepare_to_jump_from_interpreted)
jrose@2148 547 // rdx, rdi: garbage temp, blown away
jrose@1145 548
jrose@1145 549 Register rbx_method = rbx;
jrose@1145 550 Register rcx_recv = rcx;
jrose@1145 551 Register rax_mtype = rax;
jrose@1145 552 Register rdx_temp = rdx;
jrose@2148 553 Register rdi_temp = rdi;
jrose@1145 554
jrose@1145 555 // emit WrongMethodType path first, to enable jccb back-branch from main path
jrose@1145 556 Label wrong_method_type;
jrose@1145 557 __ bind(wrong_method_type);
jrose@2148 558 Label invoke_generic_slow_path;
jrose@2148 559 assert(methodOopDesc::intrinsic_id_size_in_bytes() == sizeof(u1), "");;
jrose@2148 560 __ cmpb(Address(rbx_method, methodOopDesc::intrinsic_id_offset_in_bytes()), (int) vmIntrinsics::_invokeExact);
jrose@2148 561 __ jcc(Assembler::notEqual, invoke_generic_slow_path);
jrose@1145 562 __ push(rax_mtype); // required mtype
jrose@1145 563 __ push(rcx_recv); // bad mh (1st stacked argument)
jrose@1145 564 __ jump(ExternalAddress(Interpreter::throw_WrongMethodType_entry()));
jrose@1145 565
jrose@1145 566 // here's where control starts out:
jrose@1145 567 __ align(CodeEntryAlignment);
jrose@1145 568 address entry_point = __ pc();
jrose@1145 569
jrose@1145 570 // fetch the MethodType from the method handle into rax (the 'check' register)
never@2895 571 // FIXME: Interpreter should transmit pre-popped stack pointer, to locate base of arg list.
never@2895 572 // This would simplify several touchy bits of code.
never@2895 573 // See 6984712: JSR 292 method handle calls need a clean argument base pointer
jrose@1145 574 {
jrose@1145 575 Register tem = rbx_method;
jrose@1145 576 for (jint* pchase = methodOopDesc::method_type_offsets_chain(); (*pchase) != -1; pchase++) {
jrose@1145 577 __ movptr(rax_mtype, Address(tem, *pchase));
jrose@1145 578 tem = rax_mtype; // in case there is another indirection
jrose@1145 579 }
jrose@1145 580 }
jrose@1145 581
jrose@1145 582 // given the MethodType, find out where the MH argument is buried
jrose@2639 583 __ load_heap_oop(rdx_temp, Address(rax_mtype, __ delayed_value(java_lang_invoke_MethodType::form_offset_in_bytes, rdi_temp)));
jrose@2148 584 Register rdx_vmslots = rdx_temp;
jrose@2639 585 __ movl(rdx_vmslots, Address(rdx_temp, __ delayed_value(java_lang_invoke_MethodTypeForm::vmslots_offset_in_bytes, rdi_temp)));
never@2895 586 Address mh_receiver_slot_addr = __ argument_address(rdx_vmslots);
never@2895 587 __ movptr(rcx_recv, mh_receiver_slot_addr);
jrose@1145 588
jrose@2148 589 trace_method_handle(_masm, "invokeExact");
jrose@2148 590
jrose@2148 591 __ check_method_handle_type(rax_mtype, rcx_recv, rdi_temp, wrong_method_type);
never@2895 592
never@2895 593 // Nobody uses the MH receiver slot after this. Make sure.
never@2895 594 DEBUG_ONLY(__ movptr(mh_receiver_slot_addr, (int32_t)0x999999));
never@2895 595
jrose@2148 596 __ jump_to_method_handle_entry(rcx_recv, rdi_temp);
jrose@2148 597
jrose@2148 598 // for invokeGeneric (only), apply argument and result conversions on the fly
jrose@2148 599 __ bind(invoke_generic_slow_path);
jrose@2148 600 #ifdef ASSERT
never@2895 601 if (VerifyMethodHandles) {
never@2895 602 Label L;
jrose@2148 603 __ cmpb(Address(rbx_method, methodOopDesc::intrinsic_id_offset_in_bytes()), (int) vmIntrinsics::_invokeGeneric);
jrose@2148 604 __ jcc(Assembler::equal, L);
jrose@2148 605 __ stop("bad methodOop::intrinsic_id");
jrose@2148 606 __ bind(L);
jrose@2148 607 }
jrose@2148 608 #endif //ASSERT
jrose@2148 609 Register rbx_temp = rbx_method; // don't need it now
jrose@2148 610
jrose@2148 611 // make room on the stack for another pointer:
jrose@2148 612 Register rcx_argslot = rcx_recv;
jrose@2148 613 __ lea(rcx_argslot, __ argument_address(rdx_vmslots, 1));
never@2895 614 insert_arg_slots(_masm, 2 * stack_move_unit(),
jrose@2148 615 rcx_argslot, rbx_temp, rdx_temp);
jrose@2148 616
jrose@2148 617 // load up an adapter from the calling type (Java weaves this)
jrose@2148 618 Register rdx_adapter = rdx_temp;
twisti@2903 619 __ load_heap_oop(rdx_temp, Address(rax_mtype, __ delayed_value(java_lang_invoke_MethodType::form_offset_in_bytes, rdi_temp)));
twisti@2903 620 __ load_heap_oop(rdx_adapter, Address(rdx_temp, __ delayed_value(java_lang_invoke_MethodTypeForm::genericInvoker_offset_in_bytes, rdi_temp)));
twisti@2903 621 __ verify_oop(rdx_adapter);
jrose@2148 622 __ movptr(Address(rcx_argslot, 1 * Interpreter::stackElementSize), rdx_adapter);
jrose@2148 623 // As a trusted first argument, pass the type being called, so the adapter knows
jrose@2148 624 // the actual types of the arguments and return values.
jrose@2148 625 // (Generic invokers are shared among form-families of method-type.)
jrose@2148 626 __ movptr(Address(rcx_argslot, 0 * Interpreter::stackElementSize), rax_mtype);
jrose@2148 627 // FIXME: assert that rdx_adapter is of the right method-type.
jrose@2148 628 __ mov(rcx, rdx_adapter);
jrose@2148 629 trace_method_handle(_masm, "invokeGeneric");
jrose@2148 630 __ jump_to_method_handle_entry(rcx, rdi_temp);
jrose@2148 631
jrose@1145 632 return entry_point;
jrose@1145 633 }
jrose@1145 634
never@2895 635 // Workaround for C++ overloading nastiness on '0' for RegisterOrConstant.
never@2895 636 static RegisterOrConstant constant(int value) {
never@2895 637 return RegisterOrConstant(value);
never@2895 638 }
never@2895 639
jrose@1145 640 // Helper to insert argument slots into the stack.
never@2895 641 // arg_slots must be a multiple of stack_move_unit() and < 0
never@2895 642 // rax_argslot is decremented to point to the new (shifted) location of the argslot
never@2895 643 // But, rdx_temp ends up holding the original value of rax_argslot.
jrose@1145 644 void MethodHandles::insert_arg_slots(MacroAssembler* _masm,
jrose@1145 645 RegisterOrConstant arg_slots,
jrose@1145 646 Register rax_argslot,
never@2895 647 Register rbx_temp, Register rdx_temp) {
never@2895 648 // allow constant zero
never@2895 649 if (arg_slots.is_constant() && arg_slots.as_constant() == 0)
never@2895 650 return;
jrose@1145 651 assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
jrose@1145 652 (!arg_slots.is_register() ? rsp : arg_slots.as_register()));
never@2895 653 if (VerifyMethodHandles)
never@2895 654 verify_argslot(_masm, rax_argslot, "insertion point must fall within current frame");
never@2895 655 if (VerifyMethodHandles)
never@2895 656 verify_stack_move(_masm, arg_slots, -1);
jrose@1145 657
jrose@1145 658 // Make space on the stack for the inserted argument(s).
jrose@1145 659 // Then pull down everything shallower than rax_argslot.
jrose@1145 660 // The stacked return address gets pulled down with everything else.
jrose@1145 661 // That is, copy [rsp, argslot) downward by -size words. In pseudo-code:
jrose@1145 662 // rsp -= size;
jrose@1145 663 // for (rdx = rsp + size; rdx < argslot; rdx++)
jrose@1145 664 // rdx[-size] = rdx[0]
jrose@1145 665 // argslot -= size;
jrose@2148 666 BLOCK_COMMENT("insert_arg_slots {");
jrose@1145 667 __ mov(rdx_temp, rsp); // source pointer for copy
never@2895 668 __ lea(rsp, Address(rsp, arg_slots, Interpreter::stackElementScale()));
jrose@1145 669 {
jrose@1145 670 Label loop;
jrose@2148 671 __ BIND(loop);
jrose@1145 672 // pull one word down each time through the loop
jrose@1145 673 __ movptr(rbx_temp, Address(rdx_temp, 0));
never@2895 674 __ movptr(Address(rdx_temp, arg_slots, Interpreter::stackElementScale()), rbx_temp);
jrose@1145 675 __ addptr(rdx_temp, wordSize);
jrose@1145 676 __ cmpptr(rdx_temp, rax_argslot);
twisti@2903 677 __ jcc(Assembler::below, loop);
jrose@1145 678 }
jrose@1145 679
jrose@1145 680 // Now move the argslot down, to point to the opened-up space.
never@2895 681 __ lea(rax_argslot, Address(rax_argslot, arg_slots, Interpreter::stackElementScale()));
jrose@2148 682 BLOCK_COMMENT("} insert_arg_slots");
jrose@1145 683 }
jrose@1145 684
jrose@1145 685 // Helper to remove argument slots from the stack.
never@2895 686 // arg_slots must be a multiple of stack_move_unit() and > 0
jrose@1145 687 void MethodHandles::remove_arg_slots(MacroAssembler* _masm,
never@2895 688 RegisterOrConstant arg_slots,
never@2895 689 Register rax_argslot,
never@2895 690 Register rbx_temp, Register rdx_temp) {
never@2895 691 // allow constant zero
never@2895 692 if (arg_slots.is_constant() && arg_slots.as_constant() == 0)
never@2895 693 return;
jrose@1145 694 assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
jrose@1145 695 (!arg_slots.is_register() ? rsp : arg_slots.as_register()));
never@2895 696 if (VerifyMethodHandles)
never@2895 697 verify_argslots(_masm, arg_slots, rax_argslot, false,
never@2895 698 "deleted argument(s) must fall within current frame");
never@2895 699 if (VerifyMethodHandles)
never@2895 700 verify_stack_move(_masm, arg_slots, +1);
jrose@1145 701
jrose@2148 702 BLOCK_COMMENT("remove_arg_slots {");
jrose@1145 703 // Pull up everything shallower than rax_argslot.
jrose@1145 704 // Then remove the excess space on the stack.
jrose@1145 705 // The stacked return address gets pulled up with everything else.
jrose@1145 706 // That is, copy [rsp, argslot) upward by size words. In pseudo-code:
jrose@1145 707 // for (rdx = argslot-1; rdx >= rsp; --rdx)
jrose@1145 708 // rdx[size] = rdx[0]
jrose@1145 709 // argslot += size;
jrose@1145 710 // rsp += size;
jrose@1145 711 __ lea(rdx_temp, Address(rax_argslot, -wordSize)); // source pointer for copy
jrose@1145 712 {
jrose@1145 713 Label loop;
jrose@2148 714 __ BIND(loop);
jrose@1145 715 // pull one word up each time through the loop
jrose@1145 716 __ movptr(rbx_temp, Address(rdx_temp, 0));
never@2895 717 __ movptr(Address(rdx_temp, arg_slots, Interpreter::stackElementScale()), rbx_temp);
jrose@1145 718 __ addptr(rdx_temp, -wordSize);
jrose@1145 719 __ cmpptr(rdx_temp, rsp);
twisti@2903 720 __ jcc(Assembler::aboveEqual, loop);
jrose@1145 721 }
jrose@1145 722
jrose@1145 723 // Now move the argslot up, to point to the just-copied block.
never@2895 724 __ lea(rsp, Address(rsp, arg_slots, Interpreter::stackElementScale()));
jrose@1145 725 // And adjust the argslot address to point at the deletion point.
never@2895 726 __ lea(rax_argslot, Address(rax_argslot, arg_slots, Interpreter::stackElementScale()));
jrose@2148 727 BLOCK_COMMENT("} remove_arg_slots");
jrose@1145 728 }
jrose@1145 729
never@2895 730 // Helper to copy argument slots to the top of the stack.
never@2895 731 // The sequence starts with rax_argslot and is counted by slot_count
never@2895 732 // slot_count must be a multiple of stack_move_unit() and >= 0
never@2895 733 // This function blows the temps but does not change rax_argslot.
never@2895 734 void MethodHandles::push_arg_slots(MacroAssembler* _masm,
never@2895 735 Register rax_argslot,
never@2895 736 RegisterOrConstant slot_count,
never@2895 737 int skip_words_count,
never@2895 738 Register rbx_temp, Register rdx_temp) {
never@2895 739 assert_different_registers(rax_argslot, rbx_temp, rdx_temp,
never@2895 740 (!slot_count.is_register() ? rbp : slot_count.as_register()),
never@2895 741 rsp);
never@2895 742 assert(Interpreter::stackElementSize == wordSize, "else change this code");
never@2895 743
never@2895 744 if (VerifyMethodHandles)
never@2895 745 verify_stack_move(_masm, slot_count, 0);
never@2895 746
never@2895 747 // allow constant zero
never@2895 748 if (slot_count.is_constant() && slot_count.as_constant() == 0)
never@2895 749 return;
never@2895 750
never@2895 751 BLOCK_COMMENT("push_arg_slots {");
never@2895 752
never@2895 753 Register rbx_top = rbx_temp;
never@2895 754
never@2895 755 // There is at most 1 word to carry down with the TOS.
never@2895 756 switch (skip_words_count) {
never@2895 757 case 1: __ pop(rdx_temp); break;
never@2895 758 case 0: break;
never@2895 759 default: ShouldNotReachHere();
never@2895 760 }
never@2895 761
never@2895 762 if (slot_count.is_constant()) {
never@2895 763 for (int i = slot_count.as_constant() - 1; i >= 0; i--) {
never@2895 764 __ pushptr(Address(rax_argslot, i * wordSize));
never@2895 765 }
never@2895 766 } else {
never@2895 767 Label L_plural, L_loop, L_break;
never@2895 768 // Emit code to dynamically check for the common cases, zero and one slot.
never@2895 769 __ cmpl(slot_count.as_register(), (int32_t) 1);
never@2895 770 __ jccb(Assembler::greater, L_plural);
never@2895 771 __ jccb(Assembler::less, L_break);
never@2895 772 __ pushptr(Address(rax_argslot, 0));
never@2895 773 __ jmpb(L_break);
never@2895 774 __ BIND(L_plural);
never@2895 775
never@2895 776 // Loop for 2 or more:
never@2895 777 // rbx = &rax[slot_count]
never@2895 778 // while (rbx > rax) *(--rsp) = *(--rbx)
never@2895 779 __ lea(rbx_top, Address(rax_argslot, slot_count, Address::times_ptr));
never@2895 780 __ BIND(L_loop);
never@2895 781 __ subptr(rbx_top, wordSize);
never@2895 782 __ pushptr(Address(rbx_top, 0));
never@2895 783 __ cmpptr(rbx_top, rax_argslot);
never@2895 784 __ jcc(Assembler::above, L_loop);
never@2895 785 __ bind(L_break);
never@2895 786 }
never@2895 787 switch (skip_words_count) {
never@2895 788 case 1: __ push(rdx_temp); break;
never@2895 789 case 0: break;
never@2895 790 default: ShouldNotReachHere();
never@2895 791 }
never@2895 792 BLOCK_COMMENT("} push_arg_slots");
never@2895 793 }
never@2895 794
never@2895 795 // in-place movement; no change to rsp
never@2895 796 // blows rax_temp, rdx_temp
never@2895 797 void MethodHandles::move_arg_slots_up(MacroAssembler* _masm,
never@2895 798 Register rbx_bottom, // invariant
never@2895 799 Address top_addr, // can use rax_temp
never@2895 800 RegisterOrConstant positive_distance_in_slots,
never@2895 801 Register rax_temp, Register rdx_temp) {
never@2895 802 BLOCK_COMMENT("move_arg_slots_up {");
never@2895 803 assert_different_registers(rbx_bottom,
never@2895 804 rax_temp, rdx_temp,
never@2895 805 positive_distance_in_slots.register_or_noreg());
never@2895 806 Label L_loop, L_break;
never@2895 807 Register rax_top = rax_temp;
never@2895 808 if (!top_addr.is_same_address(Address(rax_top, 0)))
never@2895 809 __ lea(rax_top, top_addr);
never@2895 810 // Detect empty (or broken) loop:
never@2895 811 #ifdef ASSERT
never@2895 812 if (VerifyMethodHandles) {
never@2895 813 // Verify that &bottom < &top (non-empty interval)
never@2895 814 Label L_ok, L_bad;
never@2895 815 if (positive_distance_in_slots.is_register()) {
never@2895 816 __ cmpptr(positive_distance_in_slots.as_register(), (int32_t) 0);
never@2895 817 __ jcc(Assembler::lessEqual, L_bad);
never@2895 818 }
never@2895 819 __ cmpptr(rbx_bottom, rax_top);
never@2895 820 __ jcc(Assembler::below, L_ok);
never@2895 821 __ bind(L_bad);
never@2895 822 __ stop("valid bounds (copy up)");
never@2895 823 __ BIND(L_ok);
never@2895 824 }
never@2895 825 #endif
never@2895 826 __ cmpptr(rbx_bottom, rax_top);
never@2895 827 __ jccb(Assembler::aboveEqual, L_break);
never@2895 828 // work rax down to rbx, copying contiguous data upwards
never@2895 829 // In pseudo-code:
never@2895 830 // [rbx, rax) = &[bottom, top)
never@2895 831 // while (--rax >= rbx) *(rax + distance) = *(rax + 0), rax--;
never@2895 832 __ BIND(L_loop);
never@2895 833 __ subptr(rax_top, wordSize);
never@2895 834 __ movptr(rdx_temp, Address(rax_top, 0));
never@2895 835 __ movptr( Address(rax_top, positive_distance_in_slots, Address::times_ptr), rdx_temp);
never@2895 836 __ cmpptr(rax_top, rbx_bottom);
never@2895 837 __ jcc(Assembler::above, L_loop);
never@2895 838 assert(Interpreter::stackElementSize == wordSize, "else change loop");
never@2895 839 __ bind(L_break);
never@2895 840 BLOCK_COMMENT("} move_arg_slots_up");
never@2895 841 }
never@2895 842
never@2895 843 // in-place movement; no change to rsp
never@2895 844 // blows rax_temp, rdx_temp
never@2895 845 void MethodHandles::move_arg_slots_down(MacroAssembler* _masm,
never@2895 846 Address bottom_addr, // can use rax_temp
never@2895 847 Register rbx_top, // invariant
never@2895 848 RegisterOrConstant negative_distance_in_slots,
never@2895 849 Register rax_temp, Register rdx_temp) {
never@2895 850 BLOCK_COMMENT("move_arg_slots_down {");
never@2895 851 assert_different_registers(rbx_top,
never@2895 852 negative_distance_in_slots.register_or_noreg(),
never@2895 853 rax_temp, rdx_temp);
never@2895 854 Label L_loop, L_break;
never@2895 855 Register rax_bottom = rax_temp;
never@2895 856 if (!bottom_addr.is_same_address(Address(rax_bottom, 0)))
never@2895 857 __ lea(rax_bottom, bottom_addr);
never@2895 858 // Detect empty (or broken) loop:
never@2895 859 #ifdef ASSERT
never@2895 860 assert(!negative_distance_in_slots.is_constant() || negative_distance_in_slots.as_constant() < 0, "");
never@2895 861 if (VerifyMethodHandles) {
never@2895 862 // Verify that &bottom < &top (non-empty interval)
never@2895 863 Label L_ok, L_bad;
never@2895 864 if (negative_distance_in_slots.is_register()) {
never@2895 865 __ cmpptr(negative_distance_in_slots.as_register(), (int32_t) 0);
never@2895 866 __ jcc(Assembler::greaterEqual, L_bad);
never@2895 867 }
never@2895 868 __ cmpptr(rax_bottom, rbx_top);
never@2895 869 __ jcc(Assembler::below, L_ok);
never@2895 870 __ bind(L_bad);
never@2895 871 __ stop("valid bounds (copy down)");
never@2895 872 __ BIND(L_ok);
never@2895 873 }
never@2895 874 #endif
never@2895 875 __ cmpptr(rax_bottom, rbx_top);
never@2895 876 __ jccb(Assembler::aboveEqual, L_break);
never@2895 877 // work rax up to rbx, copying contiguous data downwards
never@2895 878 // In pseudo-code:
never@2895 879 // [rax, rbx) = &[bottom, top)
never@2895 880 // while (rax < rbx) *(rax - distance) = *(rax + 0), rax++;
never@2895 881 __ BIND(L_loop);
never@2895 882 __ movptr(rdx_temp, Address(rax_bottom, 0));
never@2895 883 __ movptr( Address(rax_bottom, negative_distance_in_slots, Address::times_ptr), rdx_temp);
never@2895 884 __ addptr(rax_bottom, wordSize);
never@2895 885 __ cmpptr(rax_bottom, rbx_top);
never@2895 886 __ jcc(Assembler::below, L_loop);
never@2895 887 assert(Interpreter::stackElementSize == wordSize, "else change loop");
never@2895 888 __ bind(L_break);
never@2895 889 BLOCK_COMMENT("} move_arg_slots_down");
never@2895 890 }
never@2895 891
never@2895 892 // Copy from a field or array element to a stacked argument slot.
never@2895 893 // is_element (ignored) says whether caller is loading an array element instead of an instance field.
never@2895 894 void MethodHandles::move_typed_arg(MacroAssembler* _masm,
never@2895 895 BasicType type, bool is_element,
never@2895 896 Address slot_dest, Address value_src,
never@2895 897 Register rbx_temp, Register rdx_temp) {
never@2895 898 BLOCK_COMMENT(!is_element ? "move_typed_arg {" : "move_typed_arg { (array element)");
never@2895 899 if (type == T_OBJECT || type == T_ARRAY) {
never@2895 900 __ load_heap_oop(rbx_temp, value_src);
never@2895 901 __ movptr(slot_dest, rbx_temp);
never@2895 902 } else if (type != T_VOID) {
never@2895 903 int arg_size = type2aelembytes(type);
never@2895 904 bool arg_is_signed = is_signed_subword_type(type);
never@2895 905 int slot_size = (arg_size > wordSize) ? arg_size : wordSize;
never@2895 906 __ load_sized_value( rdx_temp, value_src, arg_size, arg_is_signed, rbx_temp);
never@2895 907 __ store_sized_value( slot_dest, rdx_temp, slot_size, rbx_temp);
never@2895 908 }
never@2895 909 BLOCK_COMMENT("} move_typed_arg");
never@2895 910 }
never@2895 911
never@2895 912 void MethodHandles::move_return_value(MacroAssembler* _masm, BasicType type,
never@2895 913 Address return_slot) {
never@2895 914 BLOCK_COMMENT("move_return_value {");
never@2895 915 // Old versions of the JVM must clean the FPU stack after every return.
never@2895 916 #ifndef _LP64
never@2895 917 #ifdef COMPILER2
never@2895 918 // The FPU stack is clean if UseSSE >= 2 but must be cleaned in other cases
never@2895 919 if ((type == T_FLOAT && UseSSE < 1) || (type == T_DOUBLE && UseSSE < 2)) {
never@2895 920 for (int i = 1; i < 8; i++) {
never@2895 921 __ ffree(i);
never@2895 922 }
never@2895 923 } else if (UseSSE < 2) {
never@2895 924 __ empty_FPU_stack();
never@2895 925 }
never@2895 926 #endif //COMPILER2
never@2895 927 #endif //!_LP64
never@2895 928
never@2895 929 // Look at the type and pull the value out of the corresponding register.
never@2895 930 if (type == T_VOID) {
never@2895 931 // nothing to do
never@2895 932 } else if (type == T_OBJECT) {
never@2895 933 __ movptr(return_slot, rax);
never@2895 934 } else if (type == T_INT || is_subword_type(type)) {
never@2895 935 // write the whole word, even if only 32 bits is significant
never@2895 936 __ movptr(return_slot, rax);
never@2895 937 } else if (type == T_LONG) {
never@2895 938 // store the value by parts
never@2895 939 // Note: We assume longs are continguous (if misaligned) on the interpreter stack.
never@2895 940 __ store_sized_value(return_slot, rax, BytesPerLong, rdx);
never@2895 941 } else if (NOT_LP64((type == T_FLOAT && UseSSE < 1) ||
never@2895 942 (type == T_DOUBLE && UseSSE < 2) ||)
never@2895 943 false) {
never@2895 944 // Use old x86 FPU registers:
never@2895 945 if (type == T_FLOAT)
never@2895 946 __ fstp_s(return_slot);
never@2895 947 else
never@2895 948 __ fstp_d(return_slot);
never@2895 949 } else if (type == T_FLOAT) {
never@2895 950 __ movflt(return_slot, xmm0);
never@2895 951 } else if (type == T_DOUBLE) {
never@2895 952 __ movdbl(return_slot, xmm0);
never@2895 953 } else {
never@2895 954 ShouldNotReachHere();
never@2895 955 }
never@2895 956 BLOCK_COMMENT("} move_return_value");
never@2895 957 }
never@2895 958
never@2895 959
jrose@1145 960 #ifndef PRODUCT
twisti@1568 961 extern "C" void print_method_handle(oop mh);
jrose@1145 962 void trace_method_handle_stub(const char* adaptername,
never@2895 963 oop mh,
never@2895 964 intptr_t* saved_regs,
never@2895 965 intptr_t* entry_sp,
never@2868 966 intptr_t* saved_sp,
never@2895 967 intptr_t* saved_bp) {
jrose@1145 968 // called as a leaf from native code: do not block the JVM!
twisti@2903 969 bool has_mh = (strstr(adaptername, "return/") == NULL); // return adapters don't have rcx_mh
never@2895 970 intptr_t* last_sp = (intptr_t*) saved_bp[frame::interpreter_frame_last_sp_offset];
twisti@2903 971 intptr_t* base_sp = last_sp;
twisti@2903 972 typedef MethodHandles::RicochetFrame RicochetFrame;
twisti@2903 973 RicochetFrame* rfp = (RicochetFrame*)((address)saved_bp - RicochetFrame::sender_link_offset_in_bytes());
twisti@2903 974 if (!UseRicochetFrames || Universe::heap()->is_in((address) rfp->saved_args_base())) {
twisti@2903 975 // Probably an interpreter frame.
twisti@2903 976 base_sp = (intptr_t*) saved_bp[frame::interpreter_frame_monitor_block_top_offset];
twisti@2903 977 }
twisti@2903 978 intptr_t mh_reg = (intptr_t)mh;
twisti@2903 979 const char* mh_reg_name = "rcx_mh";
twisti@2903 980 if (!has_mh) mh_reg_name = "rcx";
twisti@2903 981 tty->print_cr("MH %s %s="PTR_FORMAT" sp=("PTR_FORMAT"+"INTX_FORMAT") stack_size="INTX_FORMAT" bp="PTR_FORMAT,
twisti@2903 982 adaptername, mh_reg_name, mh_reg,
twisti@2903 983 (intptr_t)entry_sp, (intptr_t)(saved_sp - entry_sp), (intptr_t)(base_sp - last_sp), (intptr_t)saved_bp);
jrose@2148 984 if (Verbose) {
never@2895 985 tty->print(" reg dump: ");
never@2895 986 int saved_regs_count = (entry_sp-1) - saved_regs;
never@2895 987 // 32 bit: rdi rsi rbp rsp; rbx rdx rcx (*) rax
never@2895 988 int i;
never@2895 989 for (i = 0; i <= saved_regs_count; i++) {
never@2895 990 if (i > 0 && i % 4 == 0 && i != saved_regs_count) {
never@2895 991 tty->cr();
never@2895 992 tty->print(" + dump: ");
never@2895 993 }
twisti@2903 994 tty->print(" %d: "PTR_FORMAT, i, saved_regs[i]);
never@2895 995 }
never@2895 996 tty->cr();
twisti@2903 997 if (last_sp != saved_sp && last_sp != NULL)
twisti@2903 998 tty->print_cr("*** last_sp="PTR_FORMAT, (intptr_t)last_sp);
never@2895 999 int stack_dump_count = 16;
never@2895 1000 if (stack_dump_count < (int)(saved_bp + 2 - saved_sp))
never@2895 1001 stack_dump_count = (int)(saved_bp + 2 - saved_sp);
never@2895 1002 if (stack_dump_count > 64) stack_dump_count = 48;
never@2895 1003 for (i = 0; i < stack_dump_count; i += 4) {
twisti@2903 1004 tty->print_cr(" dump at SP[%d] "PTR_FORMAT": "PTR_FORMAT" "PTR_FORMAT" "PTR_FORMAT" "PTR_FORMAT,
never@2895 1005 i, (intptr_t) &entry_sp[i+0], entry_sp[i+0], entry_sp[i+1], entry_sp[i+2], entry_sp[i+3]);
never@2895 1006 }
twisti@2903 1007 if (has_mh)
twisti@2903 1008 print_method_handle(mh);
jrose@2148 1009 }
jrose@2148 1010 }
never@2895 1011
never@2895 1012 // The stub wraps the arguments in a struct on the stack to avoid
never@2895 1013 // dealing with the different calling conventions for passing 6
never@2895 1014 // arguments.
never@2895 1015 struct MethodHandleStubArguments {
never@2895 1016 const char* adaptername;
never@2895 1017 oopDesc* mh;
never@2895 1018 intptr_t* saved_regs;
never@2895 1019 intptr_t* entry_sp;
never@2895 1020 intptr_t* saved_sp;
never@2895 1021 intptr_t* saved_bp;
never@2895 1022 };
never@2895 1023 void trace_method_handle_stub_wrapper(MethodHandleStubArguments* args) {
never@2895 1024 trace_method_handle_stub(args->adaptername,
never@2895 1025 args->mh,
never@2895 1026 args->saved_regs,
never@2895 1027 args->entry_sp,
never@2895 1028 args->saved_sp,
never@2895 1029 args->saved_bp);
never@2895 1030 }
never@2895 1031
jrose@2148 1032 void MethodHandles::trace_method_handle(MacroAssembler* _masm, const char* adaptername) {
jrose@2148 1033 if (!TraceMethodHandles) return;
jrose@2148 1034 BLOCK_COMMENT("trace_method_handle {");
never@2895 1035 __ push(rax);
never@2895 1036 __ lea(rax, Address(rsp, wordSize * NOT_LP64(6) LP64_ONLY(14))); // entry_sp __ pusha();
jrose@2148 1037 __ pusha();
never@2895 1038 __ mov(rbx, rsp);
never@2895 1039 __ enter();
never@2895 1040 // incoming state:
never@2868 1041 // rcx: method handle
never@2895 1042 // r13 or rsi: saved sp
never@2895 1043 // To avoid calling convention issues, build a record on the stack and pass the pointer to that instead.
never@2895 1044 __ push(rbp); // saved_bp
never@2895 1045 __ push(rsi); // saved_sp
never@2895 1046 __ push(rax); // entry_sp
never@2895 1047 __ push(rbx); // pusha saved_regs
never@2895 1048 __ push(rcx); // mh
never@2895 1049 __ push(rcx); // adaptername
never@2895 1050 __ movptr(Address(rsp, 0), (intptr_t) adaptername);
never@2895 1051 __ super_call_VM_leaf(CAST_FROM_FN_PTR(address, trace_method_handle_stub_wrapper), rsp);
never@2895 1052 __ leave();
jrose@2148 1053 __ popa();
never@2895 1054 __ pop(rax);
jrose@2148 1055 BLOCK_COMMENT("} trace_method_handle");
jrose@1145 1056 }
jrose@1145 1057 #endif //PRODUCT
jrose@1145 1058
jrose@1862 1059 // which conversion op types are implemented here?
jrose@1862 1060 int MethodHandles::adapter_conversion_ops_supported_mask() {
jrose@2639 1061 return ((1<<java_lang_invoke_AdapterMethodHandle::OP_RETYPE_ONLY)
jrose@2639 1062 |(1<<java_lang_invoke_AdapterMethodHandle::OP_RETYPE_RAW)
jrose@2639 1063 |(1<<java_lang_invoke_AdapterMethodHandle::OP_CHECK_CAST)
jrose@2639 1064 |(1<<java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_PRIM)
jrose@2639 1065 |(1<<java_lang_invoke_AdapterMethodHandle::OP_REF_TO_PRIM)
never@2895 1066 //OP_PRIM_TO_REF is below...
jrose@2639 1067 |(1<<java_lang_invoke_AdapterMethodHandle::OP_SWAP_ARGS)
jrose@2639 1068 |(1<<java_lang_invoke_AdapterMethodHandle::OP_ROT_ARGS)
jrose@2639 1069 |(1<<java_lang_invoke_AdapterMethodHandle::OP_DUP_ARGS)
jrose@2639 1070 |(1<<java_lang_invoke_AdapterMethodHandle::OP_DROP_ARGS)
never@2895 1071 //OP_COLLECT_ARGS is below...
never@2895 1072 |(1<<java_lang_invoke_AdapterMethodHandle::OP_SPREAD_ARGS)
never@2895 1073 |(!UseRicochetFrames ? 0 :
never@2895 1074 java_lang_invoke_MethodTypeForm::vmlayout_offset_in_bytes() <= 0 ? 0 :
never@2895 1075 ((1<<java_lang_invoke_AdapterMethodHandle::OP_PRIM_TO_REF)
never@2895 1076 |(1<<java_lang_invoke_AdapterMethodHandle::OP_COLLECT_ARGS)
never@2895 1077 |(1<<java_lang_invoke_AdapterMethodHandle::OP_FOLD_ARGS)
never@2895 1078 ))
jrose@1862 1079 );
jrose@1862 1080 }
jrose@1862 1081
twisti@2411 1082 //------------------------------------------------------------------------------
twisti@2411 1083 // MethodHandles::generate_method_handle_stub
twisti@2411 1084 //
jrose@1145 1085 // Generate an "entry" field for a method handle.
jrose@1145 1086 // This determines how the method handle will respond to calls.
twisti@2436 1087 void MethodHandles::generate_method_handle_stub(MacroAssembler* _masm, MethodHandles::EntryKind ek) {
never@2895 1088 MethodHandles::EntryKind ek_orig = ek_original_kind(ek);
never@2895 1089
jrose@1145 1090 // Here is the register state during an interpreted call,
jrose@1145 1091 // as set up by generate_method_handle_interpreter_entry():
jrose@1145 1092 // - rbx: garbage temp (was MethodHandle.invoke methodOop, unused)
jrose@1145 1093 // - rcx: receiver method handle
jrose@1145 1094 // - rax: method handle type (only used by the check_mtype entry point)
jrose@1145 1095 // - rsi/r13: sender SP (must preserve; see prepare_to_jump_from_interpreted)
jrose@1145 1096 // - rdx: garbage temp, can blow away
jrose@1145 1097
twisti@2411 1098 const Register rcx_recv = rcx;
twisti@2411 1099 const Register rax_argslot = rax;
twisti@2411 1100 const Register rbx_temp = rbx;
twisti@2411 1101 const Register rdx_temp = rdx;
never@2895 1102 const Register rdi_temp = rdi;
jrose@1145 1103
jrose@1474 1104 // This guy is set up by prepare_to_jump_from_interpreted (from interpreted calls)
jrose@1474 1105 // and gen_c2i_adapter (from compiled calls):
never@2895 1106 const Register saved_last_sp = saved_last_sp_register();
twisti@2411 1107
twisti@2411 1108 // Argument registers for _raise_exception.
twisti@2411 1109 // 32-bit: Pass first two oop/int args in registers ECX and EDX.
twisti@2411 1110 const Register rarg0_code = LP64_ONLY(j_rarg0) NOT_LP64(rcx);
twisti@2411 1111 const Register rarg1_actual = LP64_ONLY(j_rarg1) NOT_LP64(rdx);
twisti@2411 1112 const Register rarg2_required = LP64_ONLY(j_rarg2) NOT_LP64(rdi);
twisti@2411 1113 assert_different_registers(rarg0_code, rarg1_actual, rarg2_required, saved_last_sp);
jrose@1474 1114
jrose@2639 1115 guarantee(java_lang_invoke_MethodHandle::vmentry_offset_in_bytes() != 0, "must have offsets");
jrose@1145 1116
jrose@1145 1117 // some handy addresses
jrose@1145 1118 Address rbx_method_fie( rbx, methodOopDesc::from_interpreted_offset() );
twisti@2603 1119 Address rbx_method_fce( rbx, methodOopDesc::from_compiled_offset() );
jrose@1145 1120
jrose@2639 1121 Address rcx_mh_vmtarget( rcx_recv, java_lang_invoke_MethodHandle::vmtarget_offset_in_bytes() );
jrose@2639 1122 Address rcx_dmh_vmindex( rcx_recv, java_lang_invoke_DirectMethodHandle::vmindex_offset_in_bytes() );
jrose@1145 1123
jrose@2639 1124 Address rcx_bmh_vmargslot( rcx_recv, java_lang_invoke_BoundMethodHandle::vmargslot_offset_in_bytes() );
jrose@2639 1125 Address rcx_bmh_argument( rcx_recv, java_lang_invoke_BoundMethodHandle::argument_offset_in_bytes() );
jrose@1145 1126
jrose@2639 1127 Address rcx_amh_vmargslot( rcx_recv, java_lang_invoke_AdapterMethodHandle::vmargslot_offset_in_bytes() );
jrose@2639 1128 Address rcx_amh_argument( rcx_recv, java_lang_invoke_AdapterMethodHandle::argument_offset_in_bytes() );
jrose@2639 1129 Address rcx_amh_conversion( rcx_recv, java_lang_invoke_AdapterMethodHandle::conversion_offset_in_bytes() );
jrose@1145 1130 Address vmarg; // __ argument_address(vmargslot)
jrose@1145 1131
jrose@1474 1132 const int java_mirror_offset = klassOopDesc::klass_part_offset_in_bytes() + Klass::java_mirror_offset_in_bytes();
jrose@1474 1133
jrose@1145 1134 if (have_entry(ek)) {
jrose@1145 1135 __ nop(); // empty stubs make SG sick
jrose@1145 1136 return;
jrose@1145 1137 }
jrose@1145 1138
never@2895 1139 #ifdef ASSERT
never@2895 1140 __ push((int32_t) 0xEEEEEEEE);
never@2895 1141 __ push((int32_t) (intptr_t) entry_name(ek));
never@2895 1142 LP64_ONLY(__ push((int32_t) high((intptr_t) entry_name(ek))));
never@2895 1143 __ push((int32_t) 0x33333333);
never@2895 1144 #endif //ASSERT
never@2895 1145
jrose@1145 1146 address interp_entry = __ pc();
jrose@1145 1147
jrose@2148 1148 trace_method_handle(_masm, entry_name(ek));
jrose@2148 1149
jrose@2148 1150 BLOCK_COMMENT(entry_name(ek));
jrose@1145 1151
jrose@1145 1152 switch ((int) ek) {
jrose@1474 1153 case _raise_exception:
jrose@1145 1154 {
twisti@2411 1155 // Not a real MH entry, but rather shared code for raising an
twisti@2603 1156 // exception. Since we use the compiled entry, arguments are
twisti@2603 1157 // expected in compiler argument registers.
twisti@2436 1158 assert(raise_exception_method(), "must be set");
twisti@2603 1159 assert(raise_exception_method()->from_compiled_entry(), "method must be linked");
jrose@1145 1160
twisti@2411 1161 const Register rdi_pc = rax;
twisti@2411 1162 __ pop(rdi_pc); // caller PC
twisti@2411 1163 __ mov(rsp, saved_last_sp); // cut the stack back to where the caller started
jrose@1145 1164
jrose@1474 1165 Register rbx_method = rbx_temp;
twisti@2411 1166 Label L_no_method;
jrose@2639 1167 // FIXME: fill in _raise_exception_method with a suitable java.lang.invoke method
jrose@1474 1168 __ movptr(rbx_method, ExternalAddress((address) &_raise_exception_method));
jrose@1474 1169 __ testptr(rbx_method, rbx_method);
twisti@2411 1170 __ jccb(Assembler::zero, L_no_method);
twisti@2411 1171
twisti@2411 1172 const int jobject_oop_offset = 0;
jrose@1474 1173 __ movptr(rbx_method, Address(rbx_method, jobject_oop_offset)); // dereference the jobject
jrose@1474 1174 __ testptr(rbx_method, rbx_method);
twisti@2411 1175 __ jccb(Assembler::zero, L_no_method);
jrose@1474 1176 __ verify_oop(rbx_method);
twisti@2411 1177
twisti@2411 1178 NOT_LP64(__ push(rarg2_required));
twisti@2603 1179 __ push(rdi_pc); // restore caller PC
twisti@2603 1180 __ jmp(rbx_method_fce); // jump to compiled entry
twisti@2411 1181
jrose@1474 1182 // Do something that is at least causes a valid throw from the interpreter.
twisti@2411 1183 __ bind(L_no_method);
twisti@2411 1184 __ push(rarg2_required);
twisti@2411 1185 __ push(rarg1_actual);
jrose@1145 1186 __ jump(ExternalAddress(Interpreter::throw_WrongMethodType_entry()));
jrose@1145 1187 }
jrose@1145 1188 break;
jrose@1145 1189
jrose@1145 1190 case _invokestatic_mh:
jrose@1145 1191 case _invokespecial_mh:
jrose@1145 1192 {
jrose@1145 1193 Register rbx_method = rbx_temp;
twisti@2201 1194 __ load_heap_oop(rbx_method, rcx_mh_vmtarget); // target is a methodOop
jrose@1145 1195 __ verify_oop(rbx_method);
jrose@1145 1196 // same as TemplateTable::invokestatic or invokespecial,
jrose@1145 1197 // minus the CP setup and profiling:
jrose@1145 1198 if (ek == _invokespecial_mh) {
jrose@1145 1199 // Must load & check the first argument before entering the target method.
jrose@1145 1200 __ load_method_handle_vmslots(rax_argslot, rcx_recv, rdx_temp);
jrose@1145 1201 __ movptr(rcx_recv, __ argument_address(rax_argslot, -1));
jrose@1145 1202 __ null_check(rcx_recv);
jrose@1145 1203 __ verify_oop(rcx_recv);
jrose@1145 1204 }
jrose@1145 1205 __ jmp(rbx_method_fie);
jrose@1145 1206 }
jrose@1145 1207 break;
jrose@1145 1208
jrose@1145 1209 case _invokevirtual_mh:
jrose@1145 1210 {
jrose@1145 1211 // same as TemplateTable::invokevirtual,
jrose@1145 1212 // minus the CP setup and profiling:
jrose@1145 1213
jrose@1145 1214 // pick out the vtable index and receiver offset from the MH,
jrose@1145 1215 // and then we can discard it:
jrose@1145 1216 __ load_method_handle_vmslots(rax_argslot, rcx_recv, rdx_temp);
jrose@1145 1217 Register rbx_index = rbx_temp;
jrose@1145 1218 __ movl(rbx_index, rcx_dmh_vmindex);
jrose@1145 1219 // Note: The verifier allows us to ignore rcx_mh_vmtarget.
jrose@1145 1220 __ movptr(rcx_recv, __ argument_address(rax_argslot, -1));
jrose@1145 1221 __ null_check(rcx_recv, oopDesc::klass_offset_in_bytes());
jrose@1145 1222
jrose@1145 1223 // get receiver klass
jrose@1145 1224 Register rax_klass = rax_argslot;
jrose@1145 1225 __ load_klass(rax_klass, rcx_recv);
jrose@1145 1226 __ verify_oop(rax_klass);
jrose@1145 1227
jrose@1145 1228 // get target methodOop & entry point
jrose@1145 1229 const int base = instanceKlass::vtable_start_offset() * wordSize;
jrose@1145 1230 assert(vtableEntry::size() * wordSize == wordSize, "adjust the scaling in the code below");
jrose@1145 1231 Address vtable_entry_addr(rax_klass,
jrose@1145 1232 rbx_index, Address::times_ptr,
jrose@1145 1233 base + vtableEntry::method_offset_in_bytes());
jrose@1145 1234 Register rbx_method = rbx_temp;
twisti@1543 1235 __ movptr(rbx_method, vtable_entry_addr);
jrose@1145 1236
jrose@1145 1237 __ verify_oop(rbx_method);
jrose@1145 1238 __ jmp(rbx_method_fie);
jrose@1145 1239 }
jrose@1145 1240 break;
jrose@1145 1241
jrose@1145 1242 case _invokeinterface_mh:
jrose@1145 1243 {
jrose@1145 1244 // same as TemplateTable::invokeinterface,
jrose@1145 1245 // minus the CP setup and profiling:
jrose@1145 1246
jrose@1145 1247 // pick out the interface and itable index from the MH.
jrose@1145 1248 __ load_method_handle_vmslots(rax_argslot, rcx_recv, rdx_temp);
jrose@1145 1249 Register rdx_intf = rdx_temp;
jrose@1145 1250 Register rbx_index = rbx_temp;
twisti@2201 1251 __ load_heap_oop(rdx_intf, rcx_mh_vmtarget);
twisti@2201 1252 __ movl(rbx_index, rcx_dmh_vmindex);
jrose@1145 1253 __ movptr(rcx_recv, __ argument_address(rax_argslot, -1));
jrose@1145 1254 __ null_check(rcx_recv, oopDesc::klass_offset_in_bytes());
jrose@1145 1255
jrose@1145 1256 // get receiver klass
jrose@1145 1257 Register rax_klass = rax_argslot;
jrose@1145 1258 __ load_klass(rax_klass, rcx_recv);
jrose@1145 1259 __ verify_oop(rax_klass);
jrose@1145 1260
jrose@1145 1261 Register rbx_method = rbx_index;
jrose@1145 1262
jrose@1145 1263 // get interface klass
jrose@1145 1264 Label no_such_interface;
jrose@1145 1265 __ verify_oop(rdx_intf);
jrose@1145 1266 __ lookup_interface_method(rax_klass, rdx_intf,
jrose@1145 1267 // note: next two args must be the same:
jrose@1145 1268 rbx_index, rbx_method,
jrose@1474 1269 rdi_temp,
jrose@1145 1270 no_such_interface);
jrose@1145 1271
jrose@1145 1272 __ verify_oop(rbx_method);
jrose@1145 1273 __ jmp(rbx_method_fie);
jrose@1145 1274 __ hlt();
jrose@1145 1275
jrose@1145 1276 __ bind(no_such_interface);
jrose@1145 1277 // Throw an exception.
jrose@1145 1278 // For historical reasons, it will be IncompatibleClassChangeError.
twisti@2411 1279 __ mov(rbx_temp, rcx_recv); // rarg2_required might be RCX
twisti@2411 1280 assert_different_registers(rarg2_required, rbx_temp);
twisti@2411 1281 __ movptr(rarg2_required, Address(rdx_intf, java_mirror_offset)); // required interface
twisti@2411 1282 __ mov( rarg1_actual, rbx_temp); // bad receiver
twisti@2411 1283 __ movl( rarg0_code, (int) Bytecodes::_invokeinterface); // who is complaining?
jrose@1474 1284 __ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
jrose@1145 1285 }
jrose@1145 1286 break;
jrose@1145 1287
jrose@1145 1288 case _bound_ref_mh:
jrose@1145 1289 case _bound_int_mh:
jrose@1145 1290 case _bound_long_mh:
jrose@1145 1291 case _bound_ref_direct_mh:
jrose@1145 1292 case _bound_int_direct_mh:
jrose@1145 1293 case _bound_long_direct_mh:
jrose@1145 1294 {
jrose@1145 1295 bool direct_to_method = (ek >= _bound_ref_direct_mh);
never@2895 1296 BasicType arg_type = ek_bound_mh_arg_type(ek);
never@2895 1297 int arg_slots = type2size[arg_type];
jrose@1145 1298
jrose@1145 1299 // make room for the new argument:
jrose@1145 1300 __ movl(rax_argslot, rcx_bmh_vmargslot);
jrose@1145 1301 __ lea(rax_argslot, __ argument_address(rax_argslot));
twisti@2565 1302
never@2895 1303 insert_arg_slots(_masm, arg_slots * stack_move_unit(), rax_argslot, rbx_temp, rdx_temp);
jrose@1145 1304
jrose@1145 1305 // store bound argument into the new stack slot:
twisti@2201 1306 __ load_heap_oop(rbx_temp, rcx_bmh_argument);
jrose@1145 1307 if (arg_type == T_OBJECT) {
jrose@1145 1308 __ movptr(Address(rax_argslot, 0), rbx_temp);
jrose@1145 1309 } else {
twisti@2565 1310 Address prim_value_addr(rbx_temp, java_lang_boxing_object::value_offset_in_bytes(arg_type));
never@2895 1311 move_typed_arg(_masm, arg_type, false,
never@2895 1312 Address(rax_argslot, 0),
never@2895 1313 prim_value_addr,
never@2895 1314 rbx_temp, rdx_temp);
jrose@1145 1315 }
jrose@1145 1316
jrose@1145 1317 if (direct_to_method) {
jrose@1145 1318 Register rbx_method = rbx_temp;
twisti@2201 1319 __ load_heap_oop(rbx_method, rcx_mh_vmtarget);
jrose@1145 1320 __ verify_oop(rbx_method);
jrose@1145 1321 __ jmp(rbx_method_fie);
jrose@1145 1322 } else {
twisti@2201 1323 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1324 __ verify_oop(rcx_recv);
jrose@1145 1325 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1326 }
jrose@1145 1327 }
jrose@1145 1328 break;
jrose@1145 1329
jrose@1145 1330 case _adapter_retype_only:
jrose@1474 1331 case _adapter_retype_raw:
jrose@1145 1332 // immediately jump to the next MH layer:
twisti@2201 1333 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1334 __ verify_oop(rcx_recv);
jrose@1145 1335 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1336 // This is OK when all parameter types widen.
jrose@1145 1337 // It is also OK when a return type narrows.
jrose@1145 1338 break;
jrose@1145 1339
jrose@1145 1340 case _adapter_check_cast:
jrose@1145 1341 {
jrose@1145 1342 // temps:
jrose@1145 1343 Register rbx_klass = rbx_temp; // interesting AMH data
jrose@1145 1344
jrose@1145 1345 // check a reference argument before jumping to the next layer of MH:
jrose@1145 1346 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1347 vmarg = __ argument_address(rax_argslot);
jrose@1145 1348
jrose@1145 1349 // What class are we casting to?
twisti@2201 1350 __ load_heap_oop(rbx_klass, rcx_amh_argument); // this is a Class object!
never@2895 1351 load_klass_from_Class(_masm, rbx_klass);
jrose@1145 1352
jrose@1145 1353 Label done;
jrose@1145 1354 __ movptr(rdx_temp, vmarg);
twisti@1712 1355 __ testptr(rdx_temp, rdx_temp);
twisti@2201 1356 __ jcc(Assembler::zero, done); // no cast if null
jrose@1145 1357 __ load_klass(rdx_temp, rdx_temp);
jrose@1145 1358
jrose@1145 1359 // live at this point:
jrose@1145 1360 // - rbx_klass: klass required by the target method
jrose@1145 1361 // - rdx_temp: argument klass to test
jrose@1474 1362 // - rcx_recv: adapter method handle
jrose@1145 1363 __ check_klass_subtype(rdx_temp, rbx_klass, rax_argslot, done);
jrose@1145 1364
jrose@1145 1365 // If we get here, the type check failed!
jrose@1145 1366 // Call the wrong_method_type stub, passing the failing argument type in rax.
jrose@1145 1367 Register rax_mtype = rax_argslot;
jrose@1474 1368 __ movl(rax_argslot, rcx_amh_vmargslot); // reload argslot field
jrose@1474 1369 __ movptr(rdx_temp, vmarg);
jrose@1474 1370
twisti@2411 1371 assert_different_registers(rarg2_required, rdx_temp);
twisti@2411 1372 __ load_heap_oop(rarg2_required, rcx_amh_argument); // required class
twisti@2411 1373 __ mov( rarg1_actual, rdx_temp); // bad object
twisti@2411 1374 __ movl( rarg0_code, (int) Bytecodes::_checkcast); // who is complaining?
jrose@1474 1375 __ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
jrose@1145 1376
jrose@1145 1377 __ bind(done);
jrose@1474 1378 // get the new MH:
twisti@2201 1379 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1380 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1381 }
jrose@1145 1382 break;
jrose@1145 1383
jrose@1145 1384 case _adapter_prim_to_prim:
jrose@1145 1385 case _adapter_ref_to_prim:
never@2895 1386 case _adapter_prim_to_ref:
jrose@1145 1387 // handled completely by optimized cases
jrose@1145 1388 __ stop("init_AdapterMethodHandle should not issue this");
jrose@1145 1389 break;
jrose@1145 1390
jrose@1145 1391 case _adapter_opt_i2i: // optimized subcase of adapt_prim_to_prim
jrose@1145 1392 //case _adapter_opt_f2i: // optimized subcase of adapt_prim_to_prim
jrose@1145 1393 case _adapter_opt_l2i: // optimized subcase of adapt_prim_to_prim
jrose@1145 1394 case _adapter_opt_unboxi: // optimized subcase of adapt_ref_to_prim
jrose@1145 1395 {
jrose@1145 1396 // perform an in-place conversion to int or an int subword
jrose@1145 1397 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1398 vmarg = __ argument_address(rax_argslot);
jrose@1145 1399
jrose@1145 1400 switch (ek) {
jrose@1145 1401 case _adapter_opt_i2i:
jrose@1145 1402 __ movl(rdx_temp, vmarg);
jrose@1145 1403 break;
jrose@1145 1404 case _adapter_opt_l2i:
jrose@1145 1405 {
jrose@1145 1406 // just delete the extra slot; on a little-endian machine we keep the first
jrose@1145 1407 __ lea(rax_argslot, __ argument_address(rax_argslot, 1));
jrose@1145 1408 remove_arg_slots(_masm, -stack_move_unit(),
jrose@1145 1409 rax_argslot, rbx_temp, rdx_temp);
twisti@1861 1410 vmarg = Address(rax_argslot, -Interpreter::stackElementSize);
jrose@1145 1411 __ movl(rdx_temp, vmarg);
jrose@1145 1412 }
jrose@1145 1413 break;
jrose@1145 1414 case _adapter_opt_unboxi:
jrose@1145 1415 {
jrose@1145 1416 // Load the value up from the heap.
jrose@1145 1417 __ movptr(rdx_temp, vmarg);
jrose@1145 1418 int value_offset = java_lang_boxing_object::value_offset_in_bytes(T_INT);
jrose@1145 1419 #ifdef ASSERT
jrose@1145 1420 for (int bt = T_BOOLEAN; bt < T_INT; bt++) {
jrose@1145 1421 if (is_subword_type(BasicType(bt)))
jrose@1145 1422 assert(value_offset == java_lang_boxing_object::value_offset_in_bytes(BasicType(bt)), "");
jrose@1145 1423 }
jrose@1145 1424 #endif
jrose@1145 1425 __ null_check(rdx_temp, value_offset);
jrose@1145 1426 __ movl(rdx_temp, Address(rdx_temp, value_offset));
jrose@1145 1427 // We load this as a word. Because we are little-endian,
jrose@1145 1428 // the low bits will be correct, but the high bits may need cleaning.
jrose@1145 1429 // The vminfo will guide us to clean those bits.
jrose@1145 1430 }
jrose@1145 1431 break;
jrose@1145 1432 default:
twisti@1739 1433 ShouldNotReachHere();
jrose@1145 1434 }
jrose@1145 1435
twisti@1739 1436 // Do the requested conversion and store the value.
jrose@1145 1437 Register rbx_vminfo = rbx_temp;
never@2895 1438 load_conversion_vminfo(_masm, rbx_vminfo, rcx_amh_conversion);
jrose@1145 1439
jrose@1145 1440 // get the new MH:
twisti@2201 1441 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1442 // (now we are done with the old MH)
jrose@1145 1443
jrose@1145 1444 // original 32-bit vmdata word must be of this form:
twisti@1570 1445 // | MBZ:6 | signBitCount:8 | srcDstTypes:8 | conversionOp:8 |
twisti@1570 1446 __ xchgptr(rcx, rbx_vminfo); // free rcx for shifts
jrose@1145 1447 __ shll(rdx_temp /*, rcx*/);
jrose@1145 1448 Label zero_extend, done;
jrose@1145 1449 __ testl(rcx, CONV_VMINFO_SIGN_FLAG);
twisti@1570 1450 __ jccb(Assembler::zero, zero_extend);
jrose@1145 1451
jrose@1145 1452 // this path is taken for int->byte, int->short
jrose@1145 1453 __ sarl(rdx_temp /*, rcx*/);
twisti@1570 1454 __ jmpb(done);
jrose@1145 1455
jrose@1145 1456 __ bind(zero_extend);
jrose@1145 1457 // this is taken for int->char
jrose@1145 1458 __ shrl(rdx_temp /*, rcx*/);
jrose@1145 1459
jrose@1145 1460 __ bind(done);
twisti@1739 1461 __ movl(vmarg, rdx_temp); // Store the value.
twisti@1570 1462 __ xchgptr(rcx, rbx_vminfo); // restore rcx_recv
jrose@1145 1463
jrose@1145 1464 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1465 }
jrose@1145 1466 break;
jrose@1145 1467
jrose@1145 1468 case _adapter_opt_i2l: // optimized subcase of adapt_prim_to_prim
jrose@1145 1469 case _adapter_opt_unboxl: // optimized subcase of adapt_ref_to_prim
jrose@1145 1470 {
jrose@1145 1471 // perform an in-place int-to-long or ref-to-long conversion
jrose@1145 1472 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1473
jrose@1145 1474 // on a little-endian machine we keep the first slot and add another after
jrose@1145 1475 __ lea(rax_argslot, __ argument_address(rax_argslot, 1));
never@2895 1476 insert_arg_slots(_masm, stack_move_unit(),
jrose@1145 1477 rax_argslot, rbx_temp, rdx_temp);
twisti@1861 1478 Address vmarg1(rax_argslot, -Interpreter::stackElementSize);
twisti@1861 1479 Address vmarg2 = vmarg1.plus_disp(Interpreter::stackElementSize);
jrose@1145 1480
jrose@1145 1481 switch (ek) {
jrose@1145 1482 case _adapter_opt_i2l:
jrose@1145 1483 {
twisti@1728 1484 #ifdef _LP64
twisti@1728 1485 __ movslq(rdx_temp, vmarg1); // Load sign-extended
twisti@1728 1486 __ movq(vmarg1, rdx_temp); // Store into first slot
twisti@1728 1487 #else
jrose@1145 1488 __ movl(rdx_temp, vmarg1);
twisti@1728 1489 __ sarl(rdx_temp, BitsPerInt - 1); // __ extend_sign()
jrose@1145 1490 __ movl(vmarg2, rdx_temp); // store second word
twisti@1728 1491 #endif
jrose@1145 1492 }
jrose@1145 1493 break;
jrose@1145 1494 case _adapter_opt_unboxl:
jrose@1145 1495 {
jrose@1145 1496 // Load the value up from the heap.
jrose@1145 1497 __ movptr(rdx_temp, vmarg1);
jrose@1145 1498 int value_offset = java_lang_boxing_object::value_offset_in_bytes(T_LONG);
jrose@1145 1499 assert(value_offset == java_lang_boxing_object::value_offset_in_bytes(T_DOUBLE), "");
jrose@1145 1500 __ null_check(rdx_temp, value_offset);
twisti@1728 1501 #ifdef _LP64
twisti@1728 1502 __ movq(rbx_temp, Address(rdx_temp, value_offset));
twisti@1728 1503 __ movq(vmarg1, rbx_temp);
twisti@1728 1504 #else
jrose@1145 1505 __ movl(rbx_temp, Address(rdx_temp, value_offset + 0*BytesPerInt));
jrose@1145 1506 __ movl(rdx_temp, Address(rdx_temp, value_offset + 1*BytesPerInt));
jrose@1145 1507 __ movl(vmarg1, rbx_temp);
jrose@1145 1508 __ movl(vmarg2, rdx_temp);
twisti@1728 1509 #endif
jrose@1145 1510 }
jrose@1145 1511 break;
jrose@1145 1512 default:
twisti@1739 1513 ShouldNotReachHere();
jrose@1145 1514 }
jrose@1145 1515
twisti@2201 1516 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1517 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1518 }
jrose@1145 1519 break;
jrose@1145 1520
jrose@1145 1521 case _adapter_opt_f2d: // optimized subcase of adapt_prim_to_prim
jrose@1145 1522 case _adapter_opt_d2f: // optimized subcase of adapt_prim_to_prim
jrose@1145 1523 {
jrose@1145 1524 // perform an in-place floating primitive conversion
jrose@1145 1525 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1526 __ lea(rax_argslot, __ argument_address(rax_argslot, 1));
jrose@1145 1527 if (ek == _adapter_opt_f2d) {
never@2895 1528 insert_arg_slots(_masm, stack_move_unit(),
jrose@1145 1529 rax_argslot, rbx_temp, rdx_temp);
jrose@1145 1530 }
twisti@1861 1531 Address vmarg(rax_argslot, -Interpreter::stackElementSize);
jrose@1145 1532
jrose@1145 1533 #ifdef _LP64
jrose@1145 1534 if (ek == _adapter_opt_f2d) {
jrose@1145 1535 __ movflt(xmm0, vmarg);
jrose@1145 1536 __ cvtss2sd(xmm0, xmm0);
jrose@1145 1537 __ movdbl(vmarg, xmm0);
jrose@1145 1538 } else {
jrose@1145 1539 __ movdbl(xmm0, vmarg);
jrose@1145 1540 __ cvtsd2ss(xmm0, xmm0);
jrose@1145 1541 __ movflt(vmarg, xmm0);
jrose@1145 1542 }
jrose@1145 1543 #else //_LP64
jrose@1145 1544 if (ek == _adapter_opt_f2d) {
jrose@1145 1545 __ fld_s(vmarg); // load float to ST0
twisti@2903 1546 __ fstp_d(vmarg); // store double
twisti@1739 1547 } else {
jrose@1145 1548 __ fld_d(vmarg); // load double to ST0
jrose@1145 1549 __ fstp_s(vmarg); // store single
jrose@1145 1550 }
jrose@1145 1551 #endif //_LP64
jrose@1145 1552
jrose@1145 1553 if (ek == _adapter_opt_d2f) {
jrose@1145 1554 remove_arg_slots(_masm, -stack_move_unit(),
jrose@1145 1555 rax_argslot, rbx_temp, rdx_temp);
jrose@1145 1556 }
jrose@1145 1557
twisti@2201 1558 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1559 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1560 }
jrose@1145 1561 break;
jrose@1145 1562
jrose@1145 1563 case _adapter_swap_args:
jrose@1145 1564 case _adapter_rot_args:
jrose@1145 1565 // handled completely by optimized cases
jrose@1145 1566 __ stop("init_AdapterMethodHandle should not issue this");
jrose@1145 1567 break;
jrose@1145 1568
jrose@1145 1569 case _adapter_opt_swap_1:
jrose@1145 1570 case _adapter_opt_swap_2:
jrose@1145 1571 case _adapter_opt_rot_1_up:
jrose@1145 1572 case _adapter_opt_rot_1_down:
jrose@1145 1573 case _adapter_opt_rot_2_up:
jrose@1145 1574 case _adapter_opt_rot_2_down:
jrose@1145 1575 {
never@2895 1576 int swap_slots = ek_adapter_opt_swap_slots(ek);
never@2895 1577 int rotate = ek_adapter_opt_swap_mode(ek);
jrose@1145 1578
jrose@1145 1579 // 'argslot' is the position of the first argument to swap
jrose@1145 1580 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1581 __ lea(rax_argslot, __ argument_address(rax_argslot));
jrose@1145 1582
jrose@1145 1583 // 'vminfo' is the second
jrose@1145 1584 Register rbx_destslot = rbx_temp;
never@2895 1585 load_conversion_vminfo(_masm, rbx_destslot, rcx_amh_conversion);
jrose@1145 1586 __ lea(rbx_destslot, __ argument_address(rbx_destslot));
never@2895 1587 if (VerifyMethodHandles)
never@2895 1588 verify_argslot(_masm, rbx_destslot, "swap point must fall within current frame");
jrose@1145 1589
never@2895 1590 assert(Interpreter::stackElementSize == wordSize, "else rethink use of wordSize here");
jrose@1145 1591 if (!rotate) {
never@2895 1592 // simple swap
never@2895 1593 for (int i = 0; i < swap_slots; i++) {
never@2895 1594 __ movptr(rdi_temp, Address(rax_argslot, i * wordSize));
never@2895 1595 __ movptr(rdx_temp, Address(rbx_destslot, i * wordSize));
never@2895 1596 __ movptr(Address(rax_argslot, i * wordSize), rdx_temp);
never@2895 1597 __ movptr(Address(rbx_destslot, i * wordSize), rdi_temp);
jrose@1145 1598 }
jrose@1145 1599 } else {
never@2895 1600 // A rotate is actually pair of moves, with an "odd slot" (or pair)
never@2895 1601 // changing place with a series of other slots.
never@2895 1602 // First, push the "odd slot", which is going to get overwritten
never@2895 1603 for (int i = swap_slots - 1; i >= 0; i--) {
never@2895 1604 // handle one with rdi_temp instead of a push:
never@2895 1605 if (i == 0) __ movptr(rdi_temp, Address(rax_argslot, i * wordSize));
never@2895 1606 else __ pushptr( Address(rax_argslot, i * wordSize));
jrose@1145 1607 }
jrose@1145 1608 if (rotate > 0) {
never@2895 1609 // Here is rotate > 0:
never@2895 1610 // (low mem) (high mem)
never@2895 1611 // | dest: more_slots... | arg: odd_slot :arg+1 |
never@2895 1612 // =>
never@2895 1613 // | dest: odd_slot | dest+1: more_slots... :arg+1 |
jrose@1145 1614 // work argslot down to destslot, copying contiguous data upwards
jrose@1145 1615 // pseudo-code:
jrose@1145 1616 // rax = src_addr - swap_bytes
jrose@1145 1617 // rbx = dest_addr
jrose@1145 1618 // while (rax >= rbx) *(rax + swap_bytes) = *(rax + 0), rax--;
never@2895 1619 move_arg_slots_up(_masm,
never@2895 1620 rbx_destslot,
never@2895 1621 Address(rax_argslot, 0),
never@2895 1622 swap_slots,
never@2895 1623 rax_argslot, rdx_temp);
jrose@1145 1624 } else {
never@2895 1625 // Here is the other direction, rotate < 0:
never@2895 1626 // (low mem) (high mem)
never@2895 1627 // | arg: odd_slot | arg+1: more_slots... :dest+1 |
never@2895 1628 // =>
never@2895 1629 // | arg: more_slots... | dest: odd_slot :dest+1 |
jrose@1145 1630 // work argslot up to destslot, copying contiguous data downwards
jrose@1145 1631 // pseudo-code:
jrose@1145 1632 // rax = src_addr + swap_bytes
jrose@1145 1633 // rbx = dest_addr
jrose@1145 1634 // while (rax <= rbx) *(rax - swap_bytes) = *(rax + 0), rax++;
never@2895 1635 __ addptr(rbx_destslot, wordSize);
never@2895 1636 move_arg_slots_down(_masm,
never@2895 1637 Address(rax_argslot, swap_slots * wordSize),
never@2895 1638 rbx_destslot,
never@2895 1639 -swap_slots,
never@2895 1640 rax_argslot, rdx_temp);
never@2895 1641
never@2895 1642 __ subptr(rbx_destslot, wordSize);
jrose@1145 1643 }
jrose@1145 1644 // pop the original first chunk into the destination slot, now free
never@2895 1645 for (int i = 0; i < swap_slots; i++) {
never@2895 1646 if (i == 0) __ movptr(Address(rbx_destslot, i * wordSize), rdi_temp);
never@2895 1647 else __ popptr(Address(rbx_destslot, i * wordSize));
jrose@1145 1648 }
jrose@1145 1649 }
jrose@1145 1650
twisti@2201 1651 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1652 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1653 }
jrose@1145 1654 break;
jrose@1145 1655
jrose@1145 1656 case _adapter_dup_args:
jrose@1145 1657 {
jrose@1145 1658 // 'argslot' is the position of the first argument to duplicate
jrose@1145 1659 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1660 __ lea(rax_argslot, __ argument_address(rax_argslot));
jrose@1145 1661
jrose@1145 1662 // 'stack_move' is negative number of words to duplicate
never@2895 1663 Register rdi_stack_move = rdi_temp;
never@2895 1664 load_stack_move(_masm, rdi_stack_move, rcx_recv, true);
jrose@1145 1665
never@2895 1666 if (VerifyMethodHandles) {
never@2895 1667 verify_argslots(_masm, rdi_stack_move, rax_argslot, true,
never@2895 1668 "copied argument(s) must fall within current frame");
jrose@1145 1669 }
jrose@1145 1670
never@2895 1671 // insert location is always the bottom of the argument list:
never@2895 1672 Address insert_location = __ argument_address(constant(0));
never@2895 1673 int pre_arg_words = insert_location.disp() / wordSize; // return PC is pushed
never@2895 1674 assert(insert_location.base() == rsp, "");
jrose@1145 1675
never@2895 1676 __ negl(rdi_stack_move);
never@2895 1677 push_arg_slots(_masm, rax_argslot, rdi_stack_move,
never@2895 1678 pre_arg_words, rbx_temp, rdx_temp);
jrose@1145 1679
twisti@2201 1680 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1681 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1682 }
jrose@1145 1683 break;
jrose@1145 1684
jrose@1145 1685 case _adapter_drop_args:
jrose@1145 1686 {
jrose@1145 1687 // 'argslot' is the position of the first argument to nuke
jrose@1145 1688 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 1689 __ lea(rax_argslot, __ argument_address(rax_argslot));
jrose@1145 1690
jrose@1145 1691 // (must do previous push after argslot address is taken)
jrose@1145 1692
jrose@1145 1693 // 'stack_move' is number of words to drop
never@2895 1694 Register rdi_stack_move = rdi_temp;
never@2895 1695 load_stack_move(_masm, rdi_stack_move, rcx_recv, false);
jrose@1145 1696 remove_arg_slots(_masm, rdi_stack_move,
jrose@1145 1697 rax_argslot, rbx_temp, rdx_temp);
jrose@1145 1698
twisti@2201 1699 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 1700 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 1701 }
jrose@1145 1702 break;
jrose@1145 1703
jrose@1145 1704 case _adapter_collect_args:
never@2895 1705 case _adapter_fold_args:
jrose@1145 1706 case _adapter_spread_args:
jrose@1145 1707 // handled completely by optimized cases
jrose@1145 1708 __ stop("init_AdapterMethodHandle should not issue this");
jrose@1145 1709 break;
jrose@1145 1710
never@2895 1711 case _adapter_opt_collect_ref:
never@2895 1712 case _adapter_opt_collect_int:
never@2895 1713 case _adapter_opt_collect_long:
never@2895 1714 case _adapter_opt_collect_float:
never@2895 1715 case _adapter_opt_collect_double:
never@2895 1716 case _adapter_opt_collect_void:
never@2895 1717 case _adapter_opt_collect_0_ref:
never@2895 1718 case _adapter_opt_collect_1_ref:
never@2895 1719 case _adapter_opt_collect_2_ref:
never@2895 1720 case _adapter_opt_collect_3_ref:
never@2895 1721 case _adapter_opt_collect_4_ref:
never@2895 1722 case _adapter_opt_collect_5_ref:
never@2895 1723 case _adapter_opt_filter_S0_ref:
never@2895 1724 case _adapter_opt_filter_S1_ref:
never@2895 1725 case _adapter_opt_filter_S2_ref:
never@2895 1726 case _adapter_opt_filter_S3_ref:
never@2895 1727 case _adapter_opt_filter_S4_ref:
never@2895 1728 case _adapter_opt_filter_S5_ref:
never@2895 1729 case _adapter_opt_collect_2_S0_ref:
never@2895 1730 case _adapter_opt_collect_2_S1_ref:
never@2895 1731 case _adapter_opt_collect_2_S2_ref:
never@2895 1732 case _adapter_opt_collect_2_S3_ref:
never@2895 1733 case _adapter_opt_collect_2_S4_ref:
never@2895 1734 case _adapter_opt_collect_2_S5_ref:
never@2895 1735 case _adapter_opt_fold_ref:
never@2895 1736 case _adapter_opt_fold_int:
never@2895 1737 case _adapter_opt_fold_long:
never@2895 1738 case _adapter_opt_fold_float:
never@2895 1739 case _adapter_opt_fold_double:
never@2895 1740 case _adapter_opt_fold_void:
never@2895 1741 case _adapter_opt_fold_1_ref:
never@2895 1742 case _adapter_opt_fold_2_ref:
never@2895 1743 case _adapter_opt_fold_3_ref:
never@2895 1744 case _adapter_opt_fold_4_ref:
never@2895 1745 case _adapter_opt_fold_5_ref:
never@2895 1746 {
never@2895 1747 // Given a fresh incoming stack frame, build a new ricochet frame.
never@2895 1748 // On entry, TOS points at a return PC, and RBP is the callers frame ptr.
never@2895 1749 // RSI/R13 has the caller's exact stack pointer, which we must also preserve.
never@2895 1750 // RCX contains an AdapterMethodHandle of the indicated kind.
never@2895 1751
never@2895 1752 // Relevant AMH fields:
never@2895 1753 // amh.vmargslot:
never@2895 1754 // points to the trailing edge of the arguments
never@2895 1755 // to filter, collect, or fold. For a boxing operation,
never@2895 1756 // it points just after the single primitive value.
never@2895 1757 // amh.argument:
never@2895 1758 // recursively called MH, on |collect| arguments
never@2895 1759 // amh.vmtarget:
never@2895 1760 // final destination MH, on return value, etc.
never@2895 1761 // amh.conversion.dest:
never@2895 1762 // tells what is the type of the return value
never@2895 1763 // (not needed here, since dest is also derived from ek)
never@2895 1764 // amh.conversion.vminfo:
never@2895 1765 // points to the trailing edge of the return value
never@2895 1766 // when the vmtarget is to be called; this is
never@2895 1767 // equal to vmargslot + (retained ? |collect| : 0)
never@2895 1768
never@2895 1769 // Pass 0 or more argument slots to the recursive target.
never@2895 1770 int collect_count_constant = ek_adapter_opt_collect_count(ek);
never@2895 1771
never@2895 1772 // The collected arguments are copied from the saved argument list:
never@2895 1773 int collect_slot_constant = ek_adapter_opt_collect_slot(ek);
never@2895 1774
never@2895 1775 assert(ek_orig == _adapter_collect_args ||
never@2895 1776 ek_orig == _adapter_fold_args, "");
never@2895 1777 bool retain_original_args = (ek_orig == _adapter_fold_args);
never@2895 1778
never@2895 1779 // The return value is replaced (or inserted) at the 'vminfo' argslot.
never@2895 1780 // Sometimes we can compute this statically.
never@2895 1781 int dest_slot_constant = -1;
never@2895 1782 if (!retain_original_args)
never@2895 1783 dest_slot_constant = collect_slot_constant;
never@2895 1784 else if (collect_slot_constant >= 0 && collect_count_constant >= 0)
never@2895 1785 // We are preserving all the arguments, and the return value is prepended,
never@2895 1786 // so the return slot is to the left (above) the |collect| sequence.
never@2895 1787 dest_slot_constant = collect_slot_constant + collect_count_constant;
never@2895 1788
never@2895 1789 // Replace all those slots by the result of the recursive call.
never@2895 1790 // The result type can be one of ref, int, long, float, double, void.
never@2895 1791 // In the case of void, nothing is pushed on the stack after return.
never@2895 1792 BasicType dest = ek_adapter_opt_collect_type(ek);
never@2895 1793 assert(dest == type2wfield[dest], "dest is a stack slot type");
never@2895 1794 int dest_count = type2size[dest];
never@2895 1795 assert(dest_count == 1 || dest_count == 2 || (dest_count == 0 && dest == T_VOID), "dest has a size");
never@2895 1796
never@2895 1797 // Choose a return continuation.
never@2895 1798 EntryKind ek_ret = _adapter_opt_return_any;
never@2895 1799 if (dest != T_CONFLICT && OptimizeMethodHandles) {
never@2895 1800 switch (dest) {
never@2895 1801 case T_INT : ek_ret = _adapter_opt_return_int; break;
never@2895 1802 case T_LONG : ek_ret = _adapter_opt_return_long; break;
never@2895 1803 case T_FLOAT : ek_ret = _adapter_opt_return_float; break;
never@2895 1804 case T_DOUBLE : ek_ret = _adapter_opt_return_double; break;
never@2895 1805 case T_OBJECT : ek_ret = _adapter_opt_return_ref; break;
never@2895 1806 case T_VOID : ek_ret = _adapter_opt_return_void; break;
never@2895 1807 default : ShouldNotReachHere();
never@2895 1808 }
never@2895 1809 if (dest == T_OBJECT && dest_slot_constant >= 0) {
never@2895 1810 EntryKind ek_try = EntryKind(_adapter_opt_return_S0_ref + dest_slot_constant);
never@2895 1811 if (ek_try <= _adapter_opt_return_LAST &&
never@2895 1812 ek_adapter_opt_return_slot(ek_try) == dest_slot_constant) {
never@2895 1813 ek_ret = ek_try;
never@2895 1814 }
never@2895 1815 }
never@2895 1816 assert(ek_adapter_opt_return_type(ek_ret) == dest, "");
never@2895 1817 }
never@2895 1818
never@2895 1819 // Already pushed: ... keep1 | collect | keep2 | sender_pc |
never@2895 1820 // push(sender_pc);
never@2895 1821
never@2895 1822 // Compute argument base:
never@2895 1823 Register rax_argv = rax_argslot;
never@2895 1824 __ lea(rax_argv, __ argument_address(constant(0)));
never@2895 1825
never@2895 1826 // Push a few extra argument words, if we need them to store the return value.
never@2895 1827 {
never@2895 1828 int extra_slots = 0;
never@2895 1829 if (retain_original_args) {
never@2895 1830 extra_slots = dest_count;
never@2895 1831 } else if (collect_count_constant == -1) {
never@2895 1832 extra_slots = dest_count; // collect_count might be zero; be generous
never@2895 1833 } else if (dest_count > collect_count_constant) {
never@2895 1834 extra_slots = (dest_count - collect_count_constant);
never@2895 1835 } else {
never@2895 1836 // else we know we have enough dead space in |collect| to repurpose for return values
never@2895 1837 }
never@2895 1838 DEBUG_ONLY(extra_slots += 1);
never@2895 1839 if (extra_slots > 0) {
never@2895 1840 __ pop(rbx_temp); // return value
never@2895 1841 __ subptr(rsp, (extra_slots * Interpreter::stackElementSize));
never@2895 1842 // Push guard word #2 in debug mode.
never@2895 1843 DEBUG_ONLY(__ movptr(Address(rsp, 0), (int32_t) RicochetFrame::MAGIC_NUMBER_2));
never@2895 1844 __ push(rbx_temp);
never@2895 1845 }
never@2895 1846 }
never@2895 1847
never@2895 1848 RicochetFrame::enter_ricochet_frame(_masm, rcx_recv, rax_argv,
never@2895 1849 entry(ek_ret)->from_interpreted_entry(), rbx_temp);
never@2895 1850
never@2895 1851 // Now pushed: ... keep1 | collect | keep2 | RF |
never@2895 1852 // some handy frame slots:
never@2895 1853 Address exact_sender_sp_addr = RicochetFrame::frame_address(RicochetFrame::exact_sender_sp_offset_in_bytes());
never@2895 1854 Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
never@2895 1855 Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
never@2895 1856
never@2895 1857 #ifdef ASSERT
never@2895 1858 if (VerifyMethodHandles && dest != T_CONFLICT) {
never@2895 1859 BLOCK_COMMENT("verify AMH.conv.dest");
never@2895 1860 load_conversion_dest_type(_masm, rbx_temp, conversion_addr);
never@2895 1861 Label L_dest_ok;
never@2895 1862 __ cmpl(rbx_temp, (int) dest);
never@2895 1863 __ jcc(Assembler::equal, L_dest_ok);
never@2895 1864 if (dest == T_INT) {
never@2895 1865 for (int bt = T_BOOLEAN; bt < T_INT; bt++) {
never@2895 1866 if (is_subword_type(BasicType(bt))) {
never@2895 1867 __ cmpl(rbx_temp, (int) bt);
never@2895 1868 __ jcc(Assembler::equal, L_dest_ok);
never@2895 1869 }
never@2895 1870 }
never@2895 1871 }
never@2895 1872 __ stop("bad dest in AMH.conv");
never@2895 1873 __ BIND(L_dest_ok);
never@2895 1874 }
never@2895 1875 #endif //ASSERT
never@2895 1876
never@2895 1877 // Find out where the original copy of the recursive argument sequence begins.
never@2895 1878 Register rax_coll = rax_argv;
never@2895 1879 {
never@2895 1880 RegisterOrConstant collect_slot = collect_slot_constant;
never@2895 1881 if (collect_slot_constant == -1) {
never@2895 1882 __ movl(rdi_temp, rcx_amh_vmargslot);
never@2895 1883 collect_slot = rdi_temp;
never@2895 1884 }
never@2895 1885 if (collect_slot_constant != 0)
never@2895 1886 __ lea(rax_coll, Address(rax_argv, collect_slot, Interpreter::stackElementScale()));
never@2895 1887 // rax_coll now points at the trailing edge of |collect| and leading edge of |keep2|
never@2895 1888 }
never@2895 1889
never@2895 1890 // Replace the old AMH with the recursive MH. (No going back now.)
never@2895 1891 // In the case of a boxing call, the recursive call is to a 'boxer' method,
never@2895 1892 // such as Integer.valueOf or Long.valueOf. In the case of a filter
never@2895 1893 // or collect call, it will take one or more arguments, transform them,
never@2895 1894 // and return some result, to store back into argument_base[vminfo].
never@2895 1895 __ load_heap_oop(rcx_recv, rcx_amh_argument);
never@2895 1896 if (VerifyMethodHandles) verify_method_handle(_masm, rcx_recv);
never@2895 1897
never@2895 1898 // Push a space for the recursively called MH first:
never@2895 1899 __ push((int32_t)NULL_WORD);
never@2895 1900
never@2895 1901 // Calculate |collect|, the number of arguments we are collecting.
never@2895 1902 Register rdi_collect_count = rdi_temp;
never@2895 1903 RegisterOrConstant collect_count;
never@2895 1904 if (collect_count_constant >= 0) {
never@2895 1905 collect_count = collect_count_constant;
never@2895 1906 } else {
never@2895 1907 __ load_method_handle_vmslots(rdi_collect_count, rcx_recv, rdx_temp);
never@2895 1908 collect_count = rdi_collect_count;
never@2895 1909 }
never@2895 1910 #ifdef ASSERT
never@2895 1911 if (VerifyMethodHandles && collect_count_constant >= 0) {
never@2895 1912 __ load_method_handle_vmslots(rbx_temp, rcx_recv, rdx_temp);
never@2895 1913 Label L_count_ok;
never@2895 1914 __ cmpl(rbx_temp, collect_count_constant);
never@2895 1915 __ jcc(Assembler::equal, L_count_ok);
never@2895 1916 __ stop("bad vminfo in AMH.conv");
never@2895 1917 __ BIND(L_count_ok);
never@2895 1918 }
never@2895 1919 #endif //ASSERT
never@2895 1920
never@2895 1921 // copy |collect| slots directly to TOS:
never@2895 1922 push_arg_slots(_masm, rax_coll, collect_count, 0, rbx_temp, rdx_temp);
never@2895 1923 // Now pushed: ... keep1 | collect | keep2 | RF... | collect |
never@2895 1924 // rax_coll still points at the trailing edge of |collect| and leading edge of |keep2|
never@2895 1925
never@2895 1926 // If necessary, adjust the saved arguments to make room for the eventual return value.
never@2895 1927 // Normal adjustment: ... keep1 | +dest+ | -collect- | keep2 | RF... | collect |
never@2895 1928 // If retaining args: ... keep1 | +dest+ | collect | keep2 | RF... | collect |
never@2895 1929 // In the non-retaining case, this might move keep2 either up or down.
never@2895 1930 // We don't have to copy the whole | RF... collect | complex,
never@2895 1931 // but we must adjust RF.saved_args_base.
never@2895 1932 // Also, from now on, we will forget about the origial copy of |collect|.
never@2895 1933 // If we are retaining it, we will treat it as part of |keep2|.
never@2895 1934 // For clarity we will define |keep3| = |collect|keep2| or |keep2|.
never@2895 1935
never@2895 1936 BLOCK_COMMENT("adjust trailing arguments {");
never@2895 1937 // Compare the sizes of |+dest+| and |-collect-|, which are opposed opening and closing movements.
never@2895 1938 int open_count = dest_count;
never@2895 1939 RegisterOrConstant close_count = collect_count_constant;
never@2895 1940 Register rdi_close_count = rdi_collect_count;
never@2895 1941 if (retain_original_args) {
never@2895 1942 close_count = constant(0);
never@2895 1943 } else if (collect_count_constant == -1) {
never@2895 1944 close_count = rdi_collect_count;
never@2895 1945 }
never@2895 1946
never@2895 1947 // How many slots need moving? This is simply dest_slot (0 => no |keep3|).
never@2895 1948 RegisterOrConstant keep3_count;
never@2895 1949 Register rsi_keep3_count = rsi; // can repair from RF.exact_sender_sp
never@2895 1950 if (dest_slot_constant >= 0) {
never@2895 1951 keep3_count = dest_slot_constant;
never@2895 1952 } else {
never@2895 1953 load_conversion_vminfo(_masm, rsi_keep3_count, conversion_addr);
never@2895 1954 keep3_count = rsi_keep3_count;
never@2895 1955 }
never@2895 1956 #ifdef ASSERT
never@2895 1957 if (VerifyMethodHandles && dest_slot_constant >= 0) {
never@2895 1958 load_conversion_vminfo(_masm, rbx_temp, conversion_addr);
never@2895 1959 Label L_vminfo_ok;
never@2895 1960 __ cmpl(rbx_temp, dest_slot_constant);
never@2895 1961 __ jcc(Assembler::equal, L_vminfo_ok);
never@2895 1962 __ stop("bad vminfo in AMH.conv");
never@2895 1963 __ BIND(L_vminfo_ok);
never@2895 1964 }
never@2895 1965 #endif //ASSERT
never@2895 1966
never@2895 1967 // tasks remaining:
never@2895 1968 bool move_keep3 = (!keep3_count.is_constant() || keep3_count.as_constant() != 0);
never@2895 1969 bool stomp_dest = (NOT_DEBUG(dest == T_OBJECT) DEBUG_ONLY(dest_count != 0));
never@2895 1970 bool fix_arg_base = (!close_count.is_constant() || open_count != close_count.as_constant());
never@2895 1971
never@2895 1972 if (stomp_dest | fix_arg_base) {
never@2895 1973 // we will probably need an updated rax_argv value
never@2895 1974 if (collect_slot_constant >= 0) {
never@2895 1975 // rax_coll already holds the leading edge of |keep2|, so tweak it
never@2895 1976 assert(rax_coll == rax_argv, "elided a move");
never@2895 1977 if (collect_slot_constant != 0)
never@2895 1978 __ subptr(rax_argv, collect_slot_constant * Interpreter::stackElementSize);
never@2895 1979 } else {
never@2895 1980 // Just reload from RF.saved_args_base.
never@2895 1981 __ movptr(rax_argv, saved_args_base_addr);
never@2895 1982 }
never@2895 1983 }
never@2895 1984
never@2895 1985 // Old and new argument locations (based at slot 0).
never@2895 1986 // Net shift (&new_argv - &old_argv) is (close_count - open_count).
never@2895 1987 bool zero_open_count = (open_count == 0); // remember this bit of info
never@2895 1988 if (move_keep3 && fix_arg_base) {
never@2895 1989 // It will be easier t have everything in one register:
never@2895 1990 if (close_count.is_register()) {
never@2895 1991 // Deduct open_count from close_count register to get a clean +/- value.
never@2895 1992 __ subptr(close_count.as_register(), open_count);
never@2895 1993 } else {
never@2895 1994 close_count = close_count.as_constant() - open_count;
never@2895 1995 }
never@2895 1996 open_count = 0;
never@2895 1997 }
never@2895 1998 Address old_argv(rax_argv, 0);
never@2895 1999 Address new_argv(rax_argv, close_count, Interpreter::stackElementScale(),
never@2895 2000 - open_count * Interpreter::stackElementSize);
never@2895 2001
never@2895 2002 // First decide if any actual data are to be moved.
never@2895 2003 // We can skip if (a) |keep3| is empty, or (b) the argument list size didn't change.
never@2895 2004 // (As it happens, all movements involve an argument list size change.)
never@2895 2005
never@2895 2006 // If there are variable parameters, use dynamic checks to skip around the whole mess.
never@2895 2007 Label L_done;
never@2895 2008 if (!keep3_count.is_constant()) {
never@2895 2009 __ testl(keep3_count.as_register(), keep3_count.as_register());
never@2895 2010 __ jcc(Assembler::zero, L_done);
never@2895 2011 }
never@2895 2012 if (!close_count.is_constant()) {
never@2895 2013 __ cmpl(close_count.as_register(), open_count);
never@2895 2014 __ jcc(Assembler::equal, L_done);
never@2895 2015 }
never@2895 2016
never@2895 2017 if (move_keep3 && fix_arg_base) {
never@2895 2018 bool emit_move_down = false, emit_move_up = false, emit_guard = false;
never@2895 2019 if (!close_count.is_constant()) {
never@2895 2020 emit_move_down = emit_guard = !zero_open_count;
never@2895 2021 emit_move_up = true;
never@2895 2022 } else if (open_count != close_count.as_constant()) {
never@2895 2023 emit_move_down = (open_count > close_count.as_constant());
never@2895 2024 emit_move_up = !emit_move_down;
never@2895 2025 }
never@2895 2026 Label L_move_up;
never@2895 2027 if (emit_guard) {
never@2895 2028 __ cmpl(close_count.as_register(), open_count);
never@2895 2029 __ jcc(Assembler::greater, L_move_up);
never@2895 2030 }
never@2895 2031
never@2895 2032 if (emit_move_down) {
never@2895 2033 // Move arguments down if |+dest+| > |-collect-|
never@2895 2034 // (This is rare, except when arguments are retained.)
never@2895 2035 // This opens space for the return value.
never@2895 2036 if (keep3_count.is_constant()) {
never@2895 2037 for (int i = 0; i < keep3_count.as_constant(); i++) {
never@2895 2038 __ movptr(rdx_temp, old_argv.plus_disp(i * Interpreter::stackElementSize));
never@2895 2039 __ movptr( new_argv.plus_disp(i * Interpreter::stackElementSize), rdx_temp);
never@2895 2040 }
never@2895 2041 } else {
never@2895 2042 Register rbx_argv_top = rbx_temp;
never@2895 2043 __ lea(rbx_argv_top, old_argv.plus_disp(keep3_count, Interpreter::stackElementScale()));
never@2895 2044 move_arg_slots_down(_masm,
never@2895 2045 old_argv, // beginning of old argv
never@2895 2046 rbx_argv_top, // end of old argv
never@2895 2047 close_count, // distance to move down (must be negative)
never@2895 2048 rax_argv, rdx_temp);
never@2895 2049 // Used argv as an iteration variable; reload from RF.saved_args_base.
never@2895 2050 __ movptr(rax_argv, saved_args_base_addr);
never@2895 2051 }
never@2895 2052 }
never@2895 2053
never@2895 2054 if (emit_guard) {
never@2895 2055 __ jmp(L_done); // assumes emit_move_up is true also
never@2895 2056 __ BIND(L_move_up);
never@2895 2057 }
never@2895 2058
never@2895 2059 if (emit_move_up) {
never@2895 2060
never@2895 2061 // Move arguments up if |+dest+| < |-collect-|
never@2895 2062 // (This is usual, except when |keep3| is empty.)
never@2895 2063 // This closes up the space occupied by the now-deleted collect values.
never@2895 2064 if (keep3_count.is_constant()) {
never@2895 2065 for (int i = keep3_count.as_constant() - 1; i >= 0; i--) {
never@2895 2066 __ movptr(rdx_temp, old_argv.plus_disp(i * Interpreter::stackElementSize));
never@2895 2067 __ movptr( new_argv.plus_disp(i * Interpreter::stackElementSize), rdx_temp);
never@2895 2068 }
never@2895 2069 } else {
never@2895 2070 Address argv_top = old_argv.plus_disp(keep3_count, Interpreter::stackElementScale());
never@2895 2071 move_arg_slots_up(_masm,
never@2895 2072 rax_argv, // beginning of old argv
never@2895 2073 argv_top, // end of old argv
never@2895 2074 close_count, // distance to move up (must be positive)
never@2895 2075 rbx_temp, rdx_temp);
never@2895 2076 }
never@2895 2077 }
never@2895 2078 }
never@2895 2079 __ BIND(L_done);
never@2895 2080
never@2895 2081 if (fix_arg_base) {
never@2895 2082 // adjust RF.saved_args_base by adding (close_count - open_count)
never@2895 2083 if (!new_argv.is_same_address(Address(rax_argv, 0)))
never@2895 2084 __ lea(rax_argv, new_argv);
never@2895 2085 __ movptr(saved_args_base_addr, rax_argv);
never@2895 2086 }
never@2895 2087
never@2895 2088 if (stomp_dest) {
never@2895 2089 // Stomp the return slot, so it doesn't hold garbage.
never@2895 2090 // This isn't strictly necessary, but it may help detect bugs.
never@2895 2091 int forty_two = RicochetFrame::RETURN_VALUE_PLACEHOLDER;
never@2895 2092 __ movptr(Address(rax_argv, keep3_count, Address::times_ptr),
never@2895 2093 (int32_t) forty_two);
never@2895 2094 // uses rsi_keep3_count
never@2895 2095 }
never@2895 2096 BLOCK_COMMENT("} adjust trailing arguments");
never@2895 2097
never@2895 2098 BLOCK_COMMENT("do_recursive_call");
never@2895 2099 __ mov(saved_last_sp, rsp); // set rsi/r13 for callee
never@2895 2100 __ pushptr(ExternalAddress(SharedRuntime::ricochet_blob()->bounce_addr()).addr());
never@2895 2101 // The globally unique bounce address has two purposes:
never@2895 2102 // 1. It helps the JVM recognize this frame (frame::is_ricochet_frame).
never@2895 2103 // 2. When returned to, it cuts back the stack and redirects control flow
never@2895 2104 // to the return handler.
never@2895 2105 // The return handler will further cut back the stack when it takes
never@2895 2106 // down the RF. Perhaps there is a way to streamline this further.
never@2895 2107
never@2895 2108 // State during recursive call:
never@2895 2109 // ... keep1 | dest | dest=42 | keep3 | RF... | collect | bounce_pc |
never@2895 2110 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
never@2895 2111
never@2895 2112 break;
never@2895 2113 }
never@2895 2114
never@2895 2115 case _adapter_opt_return_ref:
never@2895 2116 case _adapter_opt_return_int:
never@2895 2117 case _adapter_opt_return_long:
never@2895 2118 case _adapter_opt_return_float:
never@2895 2119 case _adapter_opt_return_double:
never@2895 2120 case _adapter_opt_return_void:
never@2895 2121 case _adapter_opt_return_S0_ref:
never@2895 2122 case _adapter_opt_return_S1_ref:
never@2895 2123 case _adapter_opt_return_S2_ref:
never@2895 2124 case _adapter_opt_return_S3_ref:
never@2895 2125 case _adapter_opt_return_S4_ref:
never@2895 2126 case _adapter_opt_return_S5_ref:
never@2895 2127 {
never@2895 2128 BasicType dest_type_constant = ek_adapter_opt_return_type(ek);
never@2895 2129 int dest_slot_constant = ek_adapter_opt_return_slot(ek);
never@2895 2130
never@2895 2131 if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
never@2895 2132
never@2895 2133 if (dest_slot_constant == -1) {
never@2895 2134 // The current stub is a general handler for this dest_type.
never@2895 2135 // It can be called from _adapter_opt_return_any below.
never@2895 2136 // Stash the address in a little table.
never@2895 2137 assert((dest_type_constant & CONV_TYPE_MASK) == dest_type_constant, "oob");
never@2895 2138 address return_handler = __ pc();
never@2895 2139 _adapter_return_handlers[dest_type_constant] = return_handler;
never@2895 2140 if (dest_type_constant == T_INT) {
never@2895 2141 // do the subword types too
never@2895 2142 for (int bt = T_BOOLEAN; bt < T_INT; bt++) {
never@2895 2143 if (is_subword_type(BasicType(bt)) &&
never@2895 2144 _adapter_return_handlers[bt] == NULL) {
never@2895 2145 _adapter_return_handlers[bt] = return_handler;
never@2895 2146 }
never@2895 2147 }
never@2895 2148 }
never@2895 2149 }
never@2895 2150
never@2895 2151 Register rbx_arg_base = rbx_temp;
never@2895 2152 assert_different_registers(rax, rdx, // possibly live return value registers
never@2895 2153 rdi_temp, rbx_arg_base);
never@2895 2154
never@2895 2155 Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
never@2895 2156 Address saved_args_base_addr = RicochetFrame::frame_address(RicochetFrame::saved_args_base_offset_in_bytes());
never@2895 2157
never@2895 2158 __ movptr(rbx_arg_base, saved_args_base_addr);
never@2895 2159 RegisterOrConstant dest_slot = dest_slot_constant;
never@2895 2160 if (dest_slot_constant == -1) {
never@2895 2161 load_conversion_vminfo(_masm, rdi_temp, conversion_addr);
never@2895 2162 dest_slot = rdi_temp;
never@2895 2163 }
never@2895 2164 // Store the result back into the argslot.
never@2895 2165 // This code uses the interpreter calling sequence, in which the return value
never@2895 2166 // is usually left in the TOS register, as defined by InterpreterMacroAssembler::pop.
never@2895 2167 // There are certain irregularities with floating point values, which can be seen
never@2895 2168 // in TemplateInterpreterGenerator::generate_return_entry_for.
never@2895 2169 move_return_value(_masm, dest_type_constant, Address(rbx_arg_base, dest_slot, Interpreter::stackElementScale()));
never@2895 2170
never@2895 2171 RicochetFrame::leave_ricochet_frame(_masm, rcx_recv, rbx_arg_base, rdx_temp);
never@2895 2172 __ push(rdx_temp); // repush the return PC
never@2895 2173
never@2895 2174 // Load the final target and go.
never@2895 2175 if (VerifyMethodHandles) verify_method_handle(_masm, rcx_recv);
never@2895 2176 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
never@2895 2177 __ hlt(); // --------------------
never@2895 2178 break;
never@2895 2179 }
never@2895 2180
never@2895 2181 case _adapter_opt_return_any:
never@2895 2182 {
never@2895 2183 if (VerifyMethodHandles) RicochetFrame::verify_clean(_masm);
never@2895 2184 Register rdi_conv = rdi_temp;
never@2895 2185 assert_different_registers(rax, rdx, // possibly live return value registers
never@2895 2186 rdi_conv, rbx_temp);
never@2895 2187
never@2895 2188 Address conversion_addr = RicochetFrame::frame_address(RicochetFrame::conversion_offset_in_bytes());
never@2895 2189 load_conversion_dest_type(_masm, rdi_conv, conversion_addr);
never@2895 2190 __ lea(rbx_temp, ExternalAddress((address) &_adapter_return_handlers[0]));
never@2895 2191 __ movptr(rbx_temp, Address(rbx_temp, rdi_conv, Address::times_ptr));
never@2895 2192
never@2895 2193 #ifdef ASSERT
never@2895 2194 { Label L_badconv;
never@2895 2195 __ testptr(rbx_temp, rbx_temp);
never@2895 2196 __ jccb(Assembler::zero, L_badconv);
never@2895 2197 __ jmp(rbx_temp);
never@2895 2198 __ bind(L_badconv);
never@2895 2199 __ stop("bad method handle return");
never@2895 2200 }
never@2895 2201 #else //ASSERT
never@2895 2202 __ jmp(rbx_temp);
never@2895 2203 #endif //ASSERT
never@2895 2204 break;
never@2895 2205 }
never@2895 2206
jrose@1145 2207 case _adapter_opt_spread_0:
never@2895 2208 case _adapter_opt_spread_1_ref:
never@2895 2209 case _adapter_opt_spread_2_ref:
never@2895 2210 case _adapter_opt_spread_3_ref:
never@2895 2211 case _adapter_opt_spread_4_ref:
never@2895 2212 case _adapter_opt_spread_5_ref:
never@2895 2213 case _adapter_opt_spread_ref:
never@2895 2214 case _adapter_opt_spread_byte:
never@2895 2215 case _adapter_opt_spread_char:
never@2895 2216 case _adapter_opt_spread_short:
never@2895 2217 case _adapter_opt_spread_int:
never@2895 2218 case _adapter_opt_spread_long:
never@2895 2219 case _adapter_opt_spread_float:
never@2895 2220 case _adapter_opt_spread_double:
jrose@1145 2221 {
jrose@1145 2222 // spread an array out into a group of arguments
never@2895 2223 int length_constant = ek_adapter_opt_spread_count(ek);
never@2895 2224 bool length_can_be_zero = (length_constant == 0);
never@2895 2225 if (length_constant < 0) {
never@2895 2226 // some adapters with variable length must handle the zero case
never@2895 2227 if (!OptimizeMethodHandles ||
never@2895 2228 ek_adapter_opt_spread_type(ek) != T_OBJECT)
never@2895 2229 length_can_be_zero = true;
never@2895 2230 }
jrose@1145 2231
jrose@1145 2232 // find the address of the array argument
jrose@1145 2233 __ movl(rax_argslot, rcx_amh_vmargslot);
jrose@1145 2234 __ lea(rax_argslot, __ argument_address(rax_argslot));
jrose@1145 2235
never@2895 2236 // grab another temp
never@2895 2237 Register rsi_temp = rsi;
never@2895 2238 { if (rsi_temp == saved_last_sp) __ push(saved_last_sp); }
never@2895 2239 // (preceding push must be done after argslot address is taken!)
never@2895 2240 #define UNPUSH_RSI \
never@2895 2241 { if (rsi_temp == saved_last_sp) __ pop(saved_last_sp); }
jrose@1145 2242
jrose@1145 2243 // arx_argslot points both to the array and to the first output arg
jrose@1145 2244 vmarg = Address(rax_argslot, 0);
jrose@1145 2245
jrose@1145 2246 // Get the array value.
never@2895 2247 Register rsi_array = rsi_temp;
jrose@1145 2248 Register rdx_array_klass = rdx_temp;
never@2895 2249 BasicType elem_type = ek_adapter_opt_spread_type(ek);
never@2895 2250 int elem_slots = type2size[elem_type]; // 1 or 2
never@2895 2251 int array_slots = 1; // array is always a T_OBJECT
jrose@1145 2252 int length_offset = arrayOopDesc::length_offset_in_bytes();
jrose@1145 2253 int elem0_offset = arrayOopDesc::base_offset_in_bytes(elem_type);
jrose@1145 2254 __ movptr(rsi_array, vmarg);
never@2895 2255
never@2895 2256 Label L_array_is_empty, L_insert_arg_space, L_copy_args, L_args_done;
never@2895 2257 if (length_can_be_zero) {
never@2895 2258 // handle the null pointer case, if zero is allowed
never@2895 2259 Label L_skip;
never@2895 2260 if (length_constant < 0) {
never@2895 2261 load_conversion_vminfo(_masm, rbx_temp, rcx_amh_conversion);
never@2895 2262 __ testl(rbx_temp, rbx_temp);
never@2895 2263 __ jcc(Assembler::notZero, L_skip);
never@2895 2264 }
jrose@1145 2265 __ testptr(rsi_array, rsi_array);
never@2895 2266 __ jcc(Assembler::zero, L_array_is_empty);
never@2895 2267 __ bind(L_skip);
jrose@1145 2268 }
jrose@1145 2269 __ null_check(rsi_array, oopDesc::klass_offset_in_bytes());
jrose@1145 2270 __ load_klass(rdx_array_klass, rsi_array);
jrose@1145 2271
jrose@1145 2272 // Check the array type.
jrose@1145 2273 Register rbx_klass = rbx_temp;
twisti@2201 2274 __ load_heap_oop(rbx_klass, rcx_amh_argument); // this is a Class object!
never@2895 2275 load_klass_from_Class(_masm, rbx_klass);
jrose@1145 2276
jrose@1145 2277 Label ok_array_klass, bad_array_klass, bad_array_length;
never@2895 2278 __ check_klass_subtype(rdx_array_klass, rbx_klass, rdi_temp, ok_array_klass);
jrose@1145 2279 // If we get here, the type check failed!
jrose@1145 2280 __ jmp(bad_array_klass);
never@2895 2281 __ BIND(ok_array_klass);
jrose@1145 2282
jrose@1145 2283 // Check length.
jrose@1145 2284 if (length_constant >= 0) {
jrose@1145 2285 __ cmpl(Address(rsi_array, length_offset), length_constant);
jrose@1145 2286 } else {
jrose@1145 2287 Register rbx_vminfo = rbx_temp;
never@2895 2288 load_conversion_vminfo(_masm, rbx_vminfo, rcx_amh_conversion);
jrose@1145 2289 __ cmpl(rbx_vminfo, Address(rsi_array, length_offset));
jrose@1145 2290 }
jrose@1145 2291 __ jcc(Assembler::notEqual, bad_array_length);
jrose@1145 2292
jrose@1145 2293 Register rdx_argslot_limit = rdx_temp;
jrose@1145 2294
jrose@1145 2295 // Array length checks out. Now insert any required stack slots.
jrose@1145 2296 if (length_constant == -1) {
jrose@1145 2297 // Form a pointer to the end of the affected region.
twisti@1861 2298 __ lea(rdx_argslot_limit, Address(rax_argslot, Interpreter::stackElementSize));
jrose@1145 2299 // 'stack_move' is negative number of words to insert
never@2895 2300 // This number already accounts for elem_slots.
never@2895 2301 Register rdi_stack_move = rdi_temp;
never@2895 2302 load_stack_move(_masm, rdi_stack_move, rcx_recv, true);
never@2895 2303 __ cmpptr(rdi_stack_move, 0);
never@2895 2304 assert(stack_move_unit() < 0, "else change this comparison");
never@2895 2305 __ jcc(Assembler::less, L_insert_arg_space);
never@2895 2306 __ jcc(Assembler::equal, L_copy_args);
never@2895 2307 // single argument case, with no array movement
never@2895 2308 __ BIND(L_array_is_empty);
never@2895 2309 remove_arg_slots(_masm, -stack_move_unit() * array_slots,
never@2895 2310 rax_argslot, rbx_temp, rdx_temp);
never@2895 2311 __ jmp(L_args_done); // no spreading to do
never@2895 2312 __ BIND(L_insert_arg_space);
never@2895 2313 // come here in the usual case, stack_move < 0 (2 or more spread arguments)
jrose@1145 2314 Register rsi_temp = rsi_array; // spill this
never@2895 2315 insert_arg_slots(_masm, rdi_stack_move,
jrose@1145 2316 rax_argslot, rbx_temp, rsi_temp);
never@2895 2317 // reload the array since rsi was killed
never@2895 2318 // reload from rdx_argslot_limit since rax_argslot is now decremented
never@2895 2319 __ movptr(rsi_array, Address(rdx_argslot_limit, -Interpreter::stackElementSize));
never@2895 2320 } else if (length_constant >= 1) {
never@2895 2321 int new_slots = (length_constant * elem_slots) - array_slots;
never@2895 2322 insert_arg_slots(_masm, new_slots * stack_move_unit(),
jrose@1145 2323 rax_argslot, rbx_temp, rdx_temp);
jrose@1145 2324 } else if (length_constant == 0) {
never@2895 2325 __ BIND(L_array_is_empty);
never@2895 2326 remove_arg_slots(_masm, -stack_move_unit() * array_slots,
jrose@1145 2327 rax_argslot, rbx_temp, rdx_temp);
never@2895 2328 } else {
never@2895 2329 ShouldNotReachHere();
jrose@1145 2330 }
jrose@1145 2331
jrose@1145 2332 // Copy from the array to the new slots.
jrose@1145 2333 // Note: Stack change code preserves integrity of rax_argslot pointer.
jrose@1145 2334 // So even after slot insertions, rax_argslot still points to first argument.
never@2895 2335 // Beware: Arguments that are shallow on the stack are deep in the array,
never@2895 2336 // and vice versa. So a downward-growing stack (the usual) has to be copied
never@2895 2337 // elementwise in reverse order from the source array.
never@2895 2338 __ BIND(L_copy_args);
jrose@1145 2339 if (length_constant == -1) {
jrose@1145 2340 // [rax_argslot, rdx_argslot_limit) is the area we are inserting into.
never@2895 2341 // Array element [0] goes at rdx_argslot_limit[-wordSize].
jrose@1145 2342 Register rsi_source = rsi_array;
jrose@1145 2343 __ lea(rsi_source, Address(rsi_array, elem0_offset));
never@2895 2344 Register rdx_fill_ptr = rdx_argslot_limit;
jrose@1145 2345 Label loop;
never@2895 2346 __ BIND(loop);
never@2895 2347 __ addptr(rdx_fill_ptr, -Interpreter::stackElementSize * elem_slots);
never@2895 2348 move_typed_arg(_masm, elem_type, true,
never@2895 2349 Address(rdx_fill_ptr, 0), Address(rsi_source, 0),
never@2895 2350 rbx_temp, rdi_temp);
jrose@1145 2351 __ addptr(rsi_source, type2aelembytes(elem_type));
never@2895 2352 __ cmpptr(rdx_fill_ptr, rax_argslot);
twisti@2903 2353 __ jcc(Assembler::above, loop);
jrose@1145 2354 } else if (length_constant == 0) {
jrose@1145 2355 // nothing to copy
jrose@1145 2356 } else {
jrose@1145 2357 int elem_offset = elem0_offset;
never@2895 2358 int slot_offset = length_constant * Interpreter::stackElementSize;
jrose@1145 2359 for (int index = 0; index < length_constant; index++) {
never@2895 2360 slot_offset -= Interpreter::stackElementSize * elem_slots; // fill backward
never@2895 2361 move_typed_arg(_masm, elem_type, true,
never@2895 2362 Address(rax_argslot, slot_offset), Address(rsi_array, elem_offset),
never@2895 2363 rbx_temp, rdi_temp);
jrose@1145 2364 elem_offset += type2aelembytes(elem_type);
jrose@1145 2365 }
jrose@1145 2366 }
never@2895 2367 __ BIND(L_args_done);
jrose@1145 2368
jrose@1145 2369 // Arguments are spread. Move to next method handle.
never@2895 2370 UNPUSH_RSI;
twisti@2201 2371 __ load_heap_oop(rcx_recv, rcx_mh_vmtarget);
jrose@1145 2372 __ jump_to_method_handle_entry(rcx_recv, rdx_temp);
jrose@1145 2373
jrose@1145 2374 __ bind(bad_array_klass);
never@2895 2375 UNPUSH_RSI;
twisti@2411 2376 assert(!vmarg.uses(rarg2_required), "must be different registers");
never@2895 2377 __ load_heap_oop( rarg2_required, Address(rdx_array_klass, java_mirror_offset)); // required type
never@2895 2378 __ movptr( rarg1_actual, vmarg); // bad array
never@2895 2379 __ movl( rarg0_code, (int) Bytecodes::_aaload); // who is complaining?
jrose@1474 2380 __ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
jrose@1145 2381
jrose@1145 2382 __ bind(bad_array_length);
never@2895 2383 UNPUSH_RSI;
twisti@2411 2384 assert(!vmarg.uses(rarg2_required), "must be different registers");
never@2895 2385 __ mov( rarg2_required, rcx_recv); // AMH requiring a certain length
never@2895 2386 __ movptr( rarg1_actual, vmarg); // bad array
never@2895 2387 __ movl( rarg0_code, (int) Bytecodes::_arraylength); // who is complaining?
jrose@1474 2388 __ jump(ExternalAddress(from_interpreted_entry(_raise_exception)));
never@2895 2389 #undef UNPUSH_RSI
jrose@1145 2390
never@2895 2391 break;
jrose@1145 2392 }
jrose@1145 2393
never@2895 2394 default:
never@2895 2395 // do not require all platforms to recognize all adapter types
never@2895 2396 __ nop();
never@2895 2397 return;
jrose@1145 2398 }
jrose@1145 2399 __ hlt();
jrose@1145 2400
jrose@1145 2401 address me_cookie = MethodHandleEntry::start_compiled_entry(_masm, interp_entry);
jrose@1145 2402 __ unimplemented(entry_name(ek)); // %%% FIXME: NYI
jrose@1145 2403
jrose@1145 2404 init_entry(ek, MethodHandleEntry::finish_compiled_entry(_masm, me_cookie));
jrose@1145 2405 }

Mercurial Repository: jdk8-mips64-public/hotspot

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