view src/hotspot/cpu/ppc/gc/g1/g1BarrierSetAssembler_ppc.cpp @ 49677:93d84f667d12

8201318: Introduce GCThreadLocalData to abstract GC-specific data belonging to a thread Reviewed-by: shade, rehn
author pliden
date Thu, 12 Apr 2018 08:25:56 +0200
parents 6a880e576856
children 46f2dc7c4c39
line wrap: on
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/*
 * Copyright (c) 2018, Oracle and/or its affiliates. All rights reserved.
 * Copyright (c) 2018, SAP SE. 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 "precompiled.hpp"
#include "asm/macroAssembler.inline.hpp"
#include "gc/g1/g1BarrierSet.hpp"
#include "gc/g1/g1CardTable.hpp"
#include "gc/g1/g1BarrierSetAssembler.hpp"
#include "gc/g1/g1ThreadLocalData.hpp"
#include "gc/g1/heapRegion.hpp"
#include "gc/shared/collectedHeap.hpp"
#include "interpreter/interp_masm.hpp"

#define __ masm->

void G1BarrierSetAssembler::gen_write_ref_array_pre_barrier(MacroAssembler* masm, DecoratorSet decorators,
                                                            Register from, Register to, Register count,
                                                            Register preserve1, Register preserve2) {
  bool dest_uninitialized = (decorators & AS_DEST_NOT_INITIALIZED) != 0;
  // With G1, don't generate the call if we statically know that the target in uninitialized
  if (!dest_uninitialized) {
    int spill_slots = 3;
    if (preserve1 != noreg) { spill_slots++; }
    if (preserve2 != noreg) { spill_slots++; }
    const int frame_size = align_up(frame::abi_reg_args_size + spill_slots * BytesPerWord, frame::alignment_in_bytes);
    Label filtered;

    // Is marking active?
    if (in_bytes(SATBMarkQueue::byte_width_of_active()) == 4) {
      __ lwz(R0, in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset()), R16_thread);
    } else {
      guarantee(in_bytes(SATBMarkQueue::byte_width_of_active()) == 1, "Assumption");
      __ lbz(R0, in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset()), R16_thread);
    }
    __ cmpdi(CCR0, R0, 0);
    __ beq(CCR0, filtered);

    __ save_LR_CR(R0);
    __ push_frame(frame_size, R0);
    int slot_nr = 0;
    __ std(from,  frame_size - (++slot_nr) * wordSize, R1_SP);
    __ std(to,    frame_size - (++slot_nr) * wordSize, R1_SP);
    __ std(count, frame_size - (++slot_nr) * wordSize, R1_SP);
    if (preserve1 != noreg) { __ std(preserve1, frame_size - (++slot_nr) * wordSize, R1_SP); }
    if (preserve2 != noreg) { __ std(preserve2, frame_size - (++slot_nr) * wordSize, R1_SP); }

    if (UseCompressedOops) {
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, G1BarrierSet::write_ref_array_pre_narrow_oop_entry), to, count);
    } else {
      __ call_VM_leaf(CAST_FROM_FN_PTR(address, G1BarrierSet::write_ref_array_pre_oop_entry), to, count);
    }

    slot_nr = 0;
    __ ld(from,  frame_size - (++slot_nr) * wordSize, R1_SP);
    __ ld(to,    frame_size - (++slot_nr) * wordSize, R1_SP);
    __ ld(count, frame_size - (++slot_nr) * wordSize, R1_SP);
    if (preserve1 != noreg) { __ ld(preserve1, frame_size - (++slot_nr) * wordSize, R1_SP); }
    if (preserve2 != noreg) { __ ld(preserve2, frame_size - (++slot_nr) * wordSize, R1_SP); }
    __ addi(R1_SP, R1_SP, frame_size); // pop_frame()
    __ restore_LR_CR(R0);

    __ bind(filtered);
  }
}

void G1BarrierSetAssembler::gen_write_ref_array_post_barrier(MacroAssembler* masm, DecoratorSet decorators,
                                                             Register addr, Register count, Register preserve) {
  int spill_slots = (preserve != noreg) ? 1 : 0;
  const int frame_size = align_up(frame::abi_reg_args_size + spill_slots * BytesPerWord, frame::alignment_in_bytes);

  __ save_LR_CR(R0);
  __ push_frame(frame_size, R0);
  if (preserve != noreg) { __ std(preserve, frame_size - 1 * wordSize, R1_SP); }
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, G1BarrierSet::write_ref_array_post_entry), addr, count);
  if (preserve != noreg) { __ ld(preserve, frame_size - 1 * wordSize, R1_SP); }
  __ addi(R1_SP, R1_SP, frame_size); // pop_frame();
  __ restore_LR_CR(R0);
}

void G1BarrierSetAssembler::g1_write_barrier_pre(MacroAssembler* masm, DecoratorSet decorators, Register obj, RegisterOrConstant ind_or_offs, Register pre_val,
                                                 Register tmp1, Register tmp2, bool needs_frame) {
  bool not_null  = (decorators & OOP_NOT_NULL) != 0,
       preloaded = obj == noreg;
  Register nv_save = noreg;

  if (preloaded) {
    // We are not loading the previous value so make
    // sure that we don't trash the value in pre_val
    // with the code below.
    assert_different_registers(pre_val, tmp1, tmp2);
    if (pre_val->is_volatile()) {
      nv_save = !tmp1->is_volatile() ? tmp1 : tmp2;
      assert(!nv_save->is_volatile(), "need one nv temp register if pre_val lives in volatile register");
    }
  }

  Label runtime, filtered;

  // Is marking active?
  if (in_bytes(SATBMarkQueue::byte_width_of_active()) == 4) {
    __ lwz(tmp1, in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset()), R16_thread);
  } else {
    guarantee(in_bytes(SATBMarkQueue::byte_width_of_active()) == 1, "Assumption");
    __ lbz(tmp1, in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset()), R16_thread);
  }
  __ cmpdi(CCR0, tmp1, 0);
  __ beq(CCR0, filtered);

  // Do we need to load the previous value?
  if (!preloaded) {
    // Load the previous value...
    if (UseCompressedOops) {
      __ lwz(pre_val, ind_or_offs, obj);
    } else {
      __ ld(pre_val, ind_or_offs, obj);
    }
    // Previous value has been loaded into Rpre_val.
  }
  assert(pre_val != noreg, "must have a real register");

  // Is the previous value null?
  if (preloaded && not_null) {
#ifdef ASSERT
    __ cmpdi(CCR0, pre_val, 0);
    __ asm_assert_ne("null oop not allowed (G1 pre)", 0x321); // Checked by caller.
#endif
  } else {
    __ cmpdi(CCR0, pre_val, 0);
    __ beq(CCR0, filtered);
  }

  if (!preloaded && UseCompressedOops) {
    __ decode_heap_oop_not_null(pre_val);
  }

  // OK, it's not filtered, so we'll need to call enqueue. In the normal
  // case, pre_val will be a scratch G-reg, but there are some cases in
  // which it's an O-reg. In the first case, do a normal call. In the
  // latter, do a save here and call the frameless version.

  // Can we store original value in the thread's buffer?
  // Is index == 0?
  // (The index field is typed as size_t.)
  const Register Rbuffer = tmp1, Rindex = tmp2;

  __ ld(Rindex, in_bytes(G1ThreadLocalData::satb_mark_queue_index_offset()), R16_thread);
  __ cmpdi(CCR0, Rindex, 0);
  __ beq(CCR0, runtime); // If index == 0, goto runtime.
  __ ld(Rbuffer, in_bytes(G1ThreadLocalData::satb_mark_queue_buffer_offset()), R16_thread);

  __ addi(Rindex, Rindex, -wordSize); // Decrement index.
  __ std(Rindex, in_bytes(G1ThreadLocalData::satb_mark_queue_index_offset()), R16_thread);

  // Record the previous value.
  __ stdx(pre_val, Rbuffer, Rindex);
  __ b(filtered);

  __ bind(runtime);

  // May need to preserve LR. Also needed if current frame is not compatible with C calling convention.
  if (needs_frame) {
    __ save_LR_CR(tmp1);
    __ push_frame_reg_args(0, tmp2);
  }

  if (pre_val->is_volatile() && preloaded) { __ mr(nv_save, pre_val); } // Save pre_val across C call if it was preloaded.
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_pre), pre_val, R16_thread);
  if (pre_val->is_volatile() && preloaded) { __ mr(pre_val, nv_save); } // restore

  if (needs_frame) {
    __ pop_frame();
    __ restore_LR_CR(tmp1);
  }

  __ bind(filtered);
}

void G1BarrierSetAssembler::g1_write_barrier_post(MacroAssembler* masm, DecoratorSet decorators, Register store_addr, Register new_val,
                                                  Register tmp1, Register tmp2, Register tmp3) {
  bool not_null = (decorators & OOP_NOT_NULL) != 0;

  Label runtime, filtered;
  assert_different_registers(store_addr, new_val, tmp1, tmp2);

  CardTableBarrierSet* ct = barrier_set_cast<CardTableBarrierSet>(Universe::heap()->barrier_set());
  assert(sizeof(*ct->card_table()->byte_map_base()) == sizeof(jbyte), "adjust this code");

  // Does store cross heap regions?
  if (G1RSBarrierRegionFilter) {
    __ xorr(tmp1, store_addr, new_val);
    __ srdi_(tmp1, tmp1, HeapRegion::LogOfHRGrainBytes);
    __ beq(CCR0, filtered);
  }

  // Crosses regions, storing NULL?
  if (not_null) {
#ifdef ASSERT
    __ cmpdi(CCR0, new_val, 0);
    __ asm_assert_ne("null oop not allowed (G1 post)", 0x322); // Checked by caller.
#endif
  } else {
    __ cmpdi(CCR0, new_val, 0);
    __ beq(CCR0, filtered);
  }

  // Storing region crossing non-NULL, is card already dirty?
  const Register Rcard_addr = tmp1;
  Register Rbase = tmp2;
  __ load_const_optimized(Rbase, (address)(ct->card_table()->byte_map_base()), /*temp*/ tmp3);

  __ srdi(Rcard_addr, store_addr, CardTable::card_shift);

  // Get the address of the card.
  __ lbzx(/*card value*/ tmp3, Rbase, Rcard_addr);
  __ cmpwi(CCR0, tmp3, (int)G1CardTable::g1_young_card_val());
  __ beq(CCR0, filtered);

  __ membar(Assembler::StoreLoad);
  __ lbzx(/*card value*/ tmp3, Rbase, Rcard_addr);  // Reload after membar.
  __ cmpwi(CCR0, tmp3 /* card value */, (int)G1CardTable::dirty_card_val());
  __ beq(CCR0, filtered);

  // Storing a region crossing, non-NULL oop, card is clean.
  // Dirty card and log.
  __ li(tmp3, (int)G1CardTable::dirty_card_val());
  //release(); // G1: oops are allowed to get visible after dirty marking.
  __ stbx(tmp3, Rbase, Rcard_addr);

  __ add(Rcard_addr, Rbase, Rcard_addr); // This is the address which needs to get enqueued.
  Rbase = noreg; // end of lifetime

  const Register Rqueue_index = tmp2,
                 Rqueue_buf   = tmp3;
  __ ld(Rqueue_index, in_bytes(G1ThreadLocalData::dirty_card_queue_index_offset()), R16_thread);
  __ cmpdi(CCR0, Rqueue_index, 0);
  __ beq(CCR0, runtime); // index == 0 then jump to runtime
  __ ld(Rqueue_buf, in_bytes(G1ThreadLocalData::dirty_card_queue_buffer_offset()), R16_thread);

  __ addi(Rqueue_index, Rqueue_index, -wordSize); // decrement index
  __ std(Rqueue_index, in_bytes(G1ThreadLocalData::dirty_card_queue_index_offset()), R16_thread);

  __ stdx(Rcard_addr, Rqueue_buf, Rqueue_index); // store card
  __ b(filtered);

  __ bind(runtime);

  // Save the live input values.
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_post), Rcard_addr, R16_thread);

  __ bind(filtered);
}

void G1BarrierSetAssembler::oop_store_at(MacroAssembler* masm, DecoratorSet decorators, BasicType type,
                                       Register base, RegisterOrConstant ind_or_offs, Register val,
                                       Register tmp1, Register tmp2, Register tmp3, bool needs_frame) {
  bool on_array = (decorators & IN_HEAP_ARRAY) != 0;
  bool on_anonymous = (decorators & ON_UNKNOWN_OOP_REF) != 0;
  bool precise = on_array || on_anonymous;
  // Load and record the previous value.
  g1_write_barrier_pre(masm, decorators, base, ind_or_offs,
                       tmp1, tmp2, tmp3, needs_frame);

  BarrierSetAssembler::store_at(masm, decorators, type, base, ind_or_offs, val, tmp1, tmp2, tmp3, needs_frame);

  // No need for post barrier if storing NULL
  if (val != noreg) {
    if (precise) {
      if (ind_or_offs.is_constant()) {
        __ add_const_optimized(base, base, ind_or_offs.as_constant(), tmp1);
      } else {
        __ add(base, ind_or_offs.as_register(), base);
      }
    }
    g1_write_barrier_post(masm, decorators, base, val, tmp1, tmp2, tmp3);
  }
}

void G1BarrierSetAssembler::load_at(MacroAssembler* masm, DecoratorSet decorators, BasicType type,
                                    Register base, RegisterOrConstant ind_or_offs, Register dst,
                                    Register tmp1, Register tmp2, bool needs_frame, Label *is_null) {
  bool on_oop = type == T_OBJECT || type == T_ARRAY;
  bool on_weak = (decorators & ON_WEAK_OOP_REF) != 0;
  bool on_phantom = (decorators & ON_PHANTOM_OOP_REF) != 0;
  bool on_reference = on_weak || on_phantom;
  Label done;
  if (on_oop && on_reference && is_null == NULL) { is_null = &done; }
  // Load the value of the referent field.
  ModRefBarrierSetAssembler::load_at(masm, decorators, type, base, ind_or_offs, dst, tmp1, tmp2, needs_frame, is_null);
  if (on_oop && on_reference) {
    // Generate the G1 pre-barrier code to log the value of
    // the referent field in an SATB buffer. Note with
    // these parameters the pre-barrier does not generate
    // the load of the previous value
    // We only reach here if value is not null.
    g1_write_barrier_pre(masm, decorators | OOP_NOT_NULL, noreg /* obj */, (intptr_t)0, dst /* pre_val */,
                         tmp1, tmp2, needs_frame);
  }
  __ bind(done);
}

void G1BarrierSetAssembler::resolve_jobject(MacroAssembler* masm, Register value, Register tmp1, Register tmp2, bool needs_frame) {
  Label done, not_weak;
  __ cmpdi(CCR0, value, 0);
  __ beq(CCR0, done);         // Use NULL as-is.

  __ clrrdi(tmp1, value, JNIHandles::weak_tag_size);
  __ andi_(tmp2, value, JNIHandles::weak_tag_mask);
  __ ld(value, 0, tmp1);      // Resolve (untagged) jobject.

  __ beq(CCR0, not_weak);     // Test for jweak tag.
  __ verify_oop(value);
  g1_write_barrier_pre(masm, IN_ROOT | ON_PHANTOM_OOP_REF,
                       noreg, noreg, value,
                       tmp1, tmp2, needs_frame);
  __ bind(not_weak);
  __ verify_oop(value);
  __ bind(done);
}

#undef __