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 /*

  * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.

  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

  *

  * This code is free software; you can redistribute it and/or modify it

  * under the terms of the GNU General Public License version 2 only, as

  * published by the Free Software Foundation.

  *

  * This code is distributed in the hope that it will be useful, but WITHOUT

  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

  * version 2 for more details (a copy is included in the LICENSE file that

  * accompanied this code).

  *

  * You should have received a copy of the GNU General Public License version

  * 2 along with this work; if not, write to the Free Software Foundation,

  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.

  *

  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA

  * or visit www.oracle.com if you need additional information or have any

  * questions.

  *

  */

 #include "incls/_precompiled.incl"

 #include "incls/_vtableStubs_x86_64.cpp.incl"

 // machine-dependent part of VtableStubs: create VtableStub of correct size and

 // initialize its code

 #define __ masm->

 #ifndef PRODUCT

 extern "C" void bad_compiled_vtable_index(JavaThread* thread,

                                           oop receiver,

                                           int index);

 #endif

 VtableStub* VtableStubs::create_vtable_stub(int vtable_index) {

   const int amd64_code_length = VtableStub::pd_code_size_limit(true);

   VtableStub* s = new(amd64_code_length) VtableStub(true, vtable_index);

   ResourceMark rm;

   CodeBuffer cb(s->entry_point(), amd64_code_length);

   MacroAssembler* masm = new MacroAssembler(&cb);

 #ifndef PRODUCT

   if (CountCompiledCalls) {

     __ incrementl(ExternalAddress((address) SharedRuntime::nof_megamorphic_calls_addr()));

   }

 #endif

   // get receiver (need to skip return address on top of stack)

   assert(VtableStub::receiver_location() == j_rarg0->as_VMReg(), "receiver expected in j_rarg0");

   // Free registers (non-args) are rax, rbx

   // get receiver klass

   address npe_addr = __ pc();

   __ load_klass(rax, j_rarg0);

   // compute entry offset (in words)

   int entry_offset =

     instanceKlass::vtable_start_offset() + vtable_index * vtableEntry::size();

 #ifndef PRODUCT

   if (DebugVtables) {

     Label L;

     // check offset vs vtable length

     __ cmpl(Address(rax, instanceKlass::vtable_length_offset() * wordSize),

             vtable_index * vtableEntry::size());

     __ jcc(Assembler::greater, L);

     __ movl(rbx, vtable_index);

     __ call_VM(noreg,

                CAST_FROM_FN_PTR(address, bad_compiled_vtable_index), j_rarg0, rbx);

     __ bind(L);

   }

 #endif // PRODUCT

   // load methodOop and target address

   const Register method = rbx;

   __ movptr(method, Address(rax,

                             entry_offset * wordSize +

                             vtableEntry::method_offset_in_bytes()));

   if (DebugVtables) {

     Label L;

     __ cmpptr(method, (int32_t)NULL_WORD);

     __ jcc(Assembler::equal, L);

     __ cmpptr(Address(method, methodOopDesc::from_compiled_offset()), (int32_t)NULL_WORD);

     __ jcc(Assembler::notZero, L);

     __ stop("Vtable entry is NULL");

     __ bind(L);

   }

   // rax: receiver klass

   // rbx: methodOop

   // rcx: receiver

   address ame_addr = __ pc();

   __ jmp( Address(rbx, methodOopDesc::from_compiled_offset()));

   __ flush();

   if (PrintMiscellaneous && (WizardMode || Verbose)) {

     tty->print_cr("vtable #%d at "PTR_FORMAT"[%d] left over: %d",

                   vtable_index, s->entry_point(),

                   (int)(s->code_end() - s->entry_point()),

                   (int)(s->code_end() - __ pc()));

   }

   guarantee(__ pc() <= s->code_end(), "overflowed buffer");

   // shut the door on sizing bugs

   int slop = 3;  // 32-bit offset is this much larger than an 8-bit one

   assert(vtable_index > 10 || __ pc() + slop <= s->code_end(), "room for 32-bit offset");

   s->set_exception_points(npe_addr, ame_addr);

   return s;

 }

 VtableStub* VtableStubs::create_itable_stub(int itable_index) {

   // Note well: pd_code_size_limit is the absolute minimum we can get

   // away with.  If you add code here, bump the code stub size

   // returned by pd_code_size_limit!

   const int amd64_code_length = VtableStub::pd_code_size_limit(false);

   VtableStub* s = new(amd64_code_length) VtableStub(false, itable_index);

   ResourceMark rm;

   CodeBuffer cb(s->entry_point(), amd64_code_length);

   MacroAssembler* masm = new MacroAssembler(&cb);

 #ifndef PRODUCT

   if (CountCompiledCalls) {

     __ incrementl(ExternalAddress((address) SharedRuntime::nof_megamorphic_calls_addr()));

   }

 #endif

   // Entry arguments:

   //  rax: Interface

   //  j_rarg0: Receiver

   // Free registers (non-args) are rax (interface), rbx

   // get receiver (need to skip return address on top of stack)

   assert(VtableStub::receiver_location() == j_rarg0->as_VMReg(), "receiver expected in j_rarg0");

   // get receiver klass (also an implicit null-check)

   address npe_addr = __ pc();

   // Most registers are in use; we'll use rax, rbx, r10, r11

   // (various calling sequences use r[cd]x, r[sd]i, r[89]; stay away from them)

   __ load_klass(r10, j_rarg0);

   // If we take a trap while this arg is on the stack we will not

   // be able to walk the stack properly. This is not an issue except

   // when there are mistakes in this assembly code that could generate

   // a spurious fault. Ask me how I know...

   const Register method = rbx;

   Label throw_icce;

   // Get methodOop and entrypoint for compiler

   __ lookup_interface_method(// inputs: rec. class, interface, itable index

                              r10, rax, itable_index,

                              // outputs: method, scan temp. reg

                              method, r11,

                              throw_icce);

   // method (rbx): methodOop

   // j_rarg0: receiver

 #ifdef ASSERT

   if (DebugVtables) {

     Label L2;

     __ cmpptr(method, (int32_t)NULL_WORD);

     __ jcc(Assembler::equal, L2);

     __ cmpptr(Address(method, methodOopDesc::from_compiled_offset()), (int32_t)NULL_WORD);

     __ jcc(Assembler::notZero, L2);

     __ stop("compiler entrypoint is null");

     __ bind(L2);

   }

 #endif // ASSERT

   // rbx: methodOop

   // j_rarg0: receiver

   address ame_addr = __ pc();

   __ jmp(Address(method, methodOopDesc::from_compiled_offset()));

   __ bind(throw_icce);

   __ jump(RuntimeAddress(StubRoutines::throw_IncompatibleClassChangeError_entry()));

   __ flush();

   if (PrintMiscellaneous && (WizardMode || Verbose)) {

     tty->print_cr("itable #%d at "PTR_FORMAT"[%d] left over: %d",

                   itable_index, s->entry_point(),

                   (int)(s->code_end() - s->entry_point()),

                   (int)(s->code_end() - __ pc()));

   }

   guarantee(__ pc() <= s->code_end(), "overflowed buffer");

   // shut the door on sizing bugs

   int slop = 3;  // 32-bit offset is this much larger than an 8-bit one

   assert(itable_index > 10 || __ pc() + slop <= s->code_end(), "room for 32-bit offset");

   s->set_exception_points(npe_addr, ame_addr);

   return s;

 }

 int VtableStub::pd_code_size_limit(bool is_vtable_stub) {

   if (is_vtable_stub) {

     // Vtable stub size

     return (DebugVtables ? 512 : 24) + (CountCompiledCalls ? 13 : 0) +

            (UseCompressedOops ? 16 : 0);  // 1 leaq can be 3 bytes + 1 long

   } else {

     // Itable stub size

     return (DebugVtables ? 512 : 74) + (CountCompiledCalls ? 13 : 0) +

            (UseCompressedOops ? 32 : 0);  // 2 leaqs

   }

   // In order to tune these parameters, run the JVM with VM options

   // +PrintMiscellaneous and +WizardMode to see information about

   // actual itable stubs.  Look for lines like this:

   //   itable #1 at 0x5551212[71] left over: 3

   // Reduce the constants so that the "left over" number is >=3

   // for the common cases.

   // Do not aim at a left-over number of zero, because a

   // large vtable or itable index (>= 32) will require a 32-bit

   // immediate displacement instead of an 8-bit one.

   //

   // The JVM98 app. _202_jess has a megamorphic interface call.

   // The itable code looks like this:

   // Decoding VtableStub itbl[1]@12

   //   mov    0x8(%rsi),%r10

   //   mov    0x198(%r10),%r11d

   //   lea    0x218(%r10,%r11,8),%r11

   //   lea    0x8(%r10),%r10

   //   mov    (%r11),%rbx

   //   cmp    %rbx,%rax

   //   je     success

   // loop:

   //   test   %rbx,%rbx

   //   je     throw_icce

   //   add    $0x10,%r11

   //   mov    (%r11),%rbx

   //   cmp    %rbx,%rax

   //   jne    loop

   // success:

   //   mov    0x8(%r11),%r11d

   //   mov    (%r10,%r11,1),%rbx

   //   jmpq   *0x60(%rbx)

   // throw_icce:

   //   jmpq   throw_ICCE_entry

 }

 int VtableStub::pd_code_alignment() {

   return wordSize;

 }