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This commit is contained in:
Lana Steuck 2013-09-27 18:38:29 -07:00
commit cb1bbba5c8
189 changed files with 3852 additions and 1798 deletions
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1
.hgtags
View File

@ -229,3 +229,4 @@ b5ed503c26ad38869c247c5e32debec217fd056b jdk8-b104
589f4fdc584e373a47cde0162e9eceec9165c381 jdk8-b105
514b0b69fb9683ef52062fd962a3e0644431f64d jdk8-b106
892889f445755790ae90e61775bfb59ddc6182b5 jdk8-b107
74049f7a28b48c14910106a75d9f2504169c352e jdk8-b108

1
.hgtags-top-repo
View File

@ -229,3 +229,4 @@ b7e64be81c8a7690703df5711f4fc2375da8a9cb jdk8-b103
5166118c59178b5d31001bc4058e92486ee07d9b jdk8-b105
8e7b4d9fb00fdf1334376aeac050c9bca6d1b383 jdk8-b106
0874bb4707b723d5bb108d379c557cf41529d1a7 jdk8-b107
9286a6e61291246d88af713f1ef79adeea30fe2e jdk8-b108

1
corba/.hgtags
View File

@ -229,3 +229,4 @@ d411c60a8c2fe8fdc572af907775e90f7eefd513 jdk8-b104
4e38de7c767e34104fa147b5b346d9fe6b731279 jdk8-b105
2e3a056c84a71eba78945c18b05397858ffd7ad0 jdk8-b106
23fc34133152692b725db4bd617b4c8dfd6ccb05 jdk8-b107
a4bb3b4500164748a9c33b2283cfda76d89f25ab jdk8-b108

6
corba/make/jprt.properties
View File

@ -1,5 +1,5 @@
#
# Copyright (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved.
# Copyright (c) 2006, 2013, 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
@ -39,8 +39,8 @@ jprt.build.targets= \
solaris_x64_5.10-{product|fastdebug}, \
linux_i586_2.6-{product|fastdebug}, \
linux_x64_2.6-{product|fastdebug}, \
windows_i586_5.1-{product|fastdebug}, \
windows_x64_5.2-{product|fastdebug}
windows_i586_6.1-{product|fastdebug}, \
windows_x64_6.1-{product|fastdebug}
# Directories to be excluded from the source bundles
jprt.bundle.exclude.src.dirs=build dist webrev

2
hotspot/.hgtags
View File

@ -377,3 +377,5 @@ aed585cafc0d9655726af6d1e1081d1c94cb3b5c jdk8-b106
50794d8ac11c9579b41dec4de23b808fef9f34a1 hs25-b49
5b7f90aab3ad25a25b75b7b2bb18d5ae23d8231c jdk8-b107
a09fe9d1e016c285307507a5793bc4fa6215e9c9 hs25-b50
85072013aad46050a362d10ab78e963121c8014c jdk8-b108
566db1b0e6efca31f181456e54c8911d0192410d hs25-b51

2
hotspot/agent/src/share/classes/sun/jvm/hotspot/CommandProcessor.java
View File

@ -1213,6 +1213,7 @@ public class CommandProcessor {
}
HotSpotTypeDataBase db = (HotSpotTypeDataBase)agent.getTypeDataBase();
if (t.countTokens() == 1) {
String name = t.nextToken();
out.println("intConstant " + name + " " + db.lookupIntConstant(name));
} else if (t.countTokens() == 0) {
Iterator i = db.getIntConstants();
@ -1235,6 +1236,7 @@ public class CommandProcessor {
}
HotSpotTypeDataBase db = (HotSpotTypeDataBase)agent.getTypeDataBase();
if (t.countTokens() == 1) {
String name = t.nextToken();
out.println("longConstant " + name + " " + db.lookupLongConstant(name));
} else if (t.countTokens() == 0) {
Iterator i = db.getLongConstants();

2
hotspot/agent/src/share/classes/sun/jvm/hotspot/debugger/bsd/BsdAddress.java
View File

@ -81,7 +81,7 @@ class BsdAddress implements Address {
public Address getCompKlassAddressAt(long offset)
throws UnalignedAddressException, UnmappedAddressException {
return debugger.readCompOopAddress(addr + offset);
return debugger.readCompKlassAddress(addr + offset);
}
//

2
hotspot/agent/src/share/classes/sun/jvm/hotspot/runtime/VM.java
View File

@ -792,7 +792,7 @@ public class VM {
public boolean isCompressedKlassPointersEnabled() {
if (compressedKlassPointersEnabled == null) {
Flag flag = getCommandLineFlag("UseCompressedKlassPointers");
Flag flag = getCommandLineFlag("UseCompressedClassPointers");
compressedKlassPointersEnabled = (flag == null) ? Boolean.FALSE:
(flag.getBool()? Boolean.TRUE: Boolean.FALSE);
}

24
hotspot/agent/src/share/classes/sun/jvm/hotspot/tools/HeapSummary.java
View File

@ -66,18 +66,18 @@ public class HeapSummary extends Tool {
printGCAlgorithm(flagMap);
System.out.println();
System.out.println("Heap Configuration:");
printValue("MinHeapFreeRatio = ", getFlagValue("MinHeapFreeRatio", flagMap));
printValue("MaxHeapFreeRatio = ", getFlagValue("MaxHeapFreeRatio", flagMap));
printValMB("MaxHeapSize = ", getFlagValue("MaxHeapSize", flagMap));
printValMB("NewSize = ", getFlagValue("NewSize", flagMap));
printValMB("MaxNewSize = ", getFlagValue("MaxNewSize", flagMap));
printValMB("OldSize = ", getFlagValue("OldSize", flagMap));
printValue("NewRatio = ", getFlagValue("NewRatio", flagMap));
printValue("SurvivorRatio = ", getFlagValue("SurvivorRatio", flagMap));
printValMB("MetaspaceSize = ", getFlagValue("MetaspaceSize", flagMap));
printValMB("ClassMetaspaceSize = ", getFlagValue("ClassMetaspaceSize", flagMap));
printValMB("MaxMetaspaceSize = ", getFlagValue("MaxMetaspaceSize", flagMap));
printValMB("G1HeapRegionSize = ", HeapRegion.grainBytes());
printValue("MinHeapFreeRatio = ", getFlagValue("MinHeapFreeRatio", flagMap));
printValue("MaxHeapFreeRatio = ", getFlagValue("MaxHeapFreeRatio", flagMap));
printValMB("MaxHeapSize = ", getFlagValue("MaxHeapSize", flagMap));
printValMB("NewSize = ", getFlagValue("NewSize", flagMap));
printValMB("MaxNewSize = ", getFlagValue("MaxNewSize", flagMap));
printValMB("OldSize = ", getFlagValue("OldSize", flagMap));
printValue("NewRatio = ", getFlagValue("NewRatio", flagMap));
printValue("SurvivorRatio = ", getFlagValue("SurvivorRatio", flagMap));
printValMB("MetaspaceSize = ", getFlagValue("MetaspaceSize", flagMap));
printValMB("CompressedClassSpaceSize = ", getFlagValue("CompressedClassSpaceSize", flagMap));
printValMB("MaxMetaspaceSize = ", getFlagValue("MaxMetaspaceSize", flagMap));
printValMB("G1HeapRegionSize = ", HeapRegion.grainBytes());
System.out.println();
System.out.println("Heap Usage:");

9
hotspot/make/bsd/makefiles/gcc.make
View File

@ -80,7 +80,7 @@ ifeq ($(SPEC),)
HOSTCC = $(CC)
endif
AS = $(CC) -c -x assembler-with-cpp
AS = $(CC) -c
endif
@ -347,6 +347,13 @@ ifeq ($(OS_VENDOR), Darwin)
LDFLAGS += -mmacosx-version-min=$(MACOSX_VERSION_MIN)
endif
#------------------------------------------------------------------------
# Assembler flags
# Enforce prerpocessing of .s files
ASFLAGS += -x assembler-with-cpp
#------------------------------------------------------------------------
# Linker flags

2
hotspot/make/excludeSrc.make
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@ -99,7 +99,7 @@ ifeq ($(INCLUDE_ALL_GCS), false)
psTasks.cpp psVirtualspace.cpp psYoungGen.cpp vmPSOperations.cpp asParNewGeneration.cpp \
parCardTableModRefBS.cpp parGCAllocBuffer.cpp parNewGeneration.cpp mutableSpace.cpp \
gSpaceCounters.cpp allocationStats.cpp spaceCounters.cpp gcAdaptivePolicyCounters.cpp \
mutableNUMASpace.cpp immutableSpace.cpp yieldingWorkGroup.cpp
mutableNUMASpace.cpp immutableSpace.cpp yieldingWorkGroup.cpp hSpaceCounters.cpp
endif
ifeq ($(INCLUDE_NMT), false)

2
hotspot/make/hotspot_version
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@ -35,7 +35,7 @@ HOTSPOT_VM_COPYRIGHT=Copyright 2013
HS_MAJOR_VER=25
HS_MINOR_VER=0
HS_BUILD_NUMBER=50
HS_BUILD_NUMBER=51
JDK_MAJOR_VER=1
JDK_MINOR_VER=8

8
hotspot/make/jprt.properties
View File

@ -120,13 +120,13 @@ jprt.my.macosx.x64.jdk7=macosx_x64_10.7
jprt.my.macosx.x64.jdk7u8=${jprt.my.macosx.x64.jdk7}
jprt.my.macosx.x64=${jprt.my.macosx.x64.${jprt.tools.default.release}}
jprt.my.windows.i586.jdk8=windows_i586_5.1
jprt.my.windows.i586.jdk7=windows_i586_5.1
jprt.my.windows.i586.jdk8=windows_i586_6.1
jprt.my.windows.i586.jdk7=windows_i586_6.1
jprt.my.windows.i586.jdk7u8=${jprt.my.windows.i586.jdk7}
jprt.my.windows.i586=${jprt.my.windows.i586.${jprt.tools.default.release}}
jprt.my.windows.x64.jdk8=windows_x64_5.2
jprt.my.windows.x64.jdk7=windows_x64_5.2
jprt.my.windows.x64.jdk8=windows_x64_6.1
jprt.my.windows.x64.jdk7=windows_x64_6.1
jprt.my.windows.x64.jdk7u8=${jprt.my.windows.x64.jdk7}
jprt.my.windows.x64=${jprt.my.windows.x64.${jprt.tools.default.release}}

8
hotspot/src/cpu/sparc/vm/c1_LIRAssembler_sparc.cpp
View File

@ -105,7 +105,7 @@ bool LIR_Assembler::is_single_instruction(LIR_Op* op) {
if (src->is_address() && !src->is_stack() && (src->type() == T_OBJECT || src->type() == T_ARRAY)) return false;
}
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
if (src->is_address() && !src->is_stack() && src->type() == T_ADDRESS &&
src->as_address_ptr()->disp() == oopDesc::klass_offset_in_bytes()) return false;
}
@ -963,7 +963,7 @@ int LIR_Assembler::load(Register base, int offset, LIR_Opr to_reg, BasicType typ
case T_METADATA: __ ld_ptr(base, offset, to_reg->as_register()); break;
case T_ADDRESS:
#ifdef _LP64
if (offset == oopDesc::klass_offset_in_bytes() && UseCompressedKlassPointers) {
if (offset == oopDesc::klass_offset_in_bytes() && UseCompressedClassPointers) {
__ lduw(base, offset, to_reg->as_register());
__ decode_klass_not_null(to_reg->as_register());
} else
@ -2208,7 +2208,7 @@ void LIR_Assembler::emit_arraycopy(LIR_OpArrayCopy* op) {
// We don't know the array types are compatible
if (basic_type != T_OBJECT) {
// Simple test for basic type arrays
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
// We don't need decode because we just need to compare
__ lduw(src, oopDesc::klass_offset_in_bytes(), tmp);
__ lduw(dst, oopDesc::klass_offset_in_bytes(), tmp2);
@ -2342,7 +2342,7 @@ void LIR_Assembler::emit_arraycopy(LIR_OpArrayCopy* op) {
// but not necessarily exactly of type default_type.
Label known_ok, halt;
metadata2reg(op->expected_type()->constant_encoding(), tmp);
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
// tmp holds the default type. It currently comes uncompressed after the
// load of a constant, so encode it.
__ encode_klass_not_null(tmp);

4
hotspot/src/cpu/sparc/vm/c1_MacroAssembler_sparc.cpp
View File

@ -186,7 +186,7 @@ void C1_MacroAssembler::initialize_header(Register obj, Register klass, Register
set((intx)markOopDesc::prototype(), t1);
}
st_ptr(t1, obj, oopDesc::mark_offset_in_bytes());
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
// Save klass
mov(klass, t1);
encode_klass_not_null(t1);
@ -196,7 +196,7 @@ void C1_MacroAssembler::initialize_header(Register obj, Register klass, Register
}
if (len->is_valid()) {
st(len, obj, arrayOopDesc::length_offset_in_bytes());
} else if (UseCompressedKlassPointers) {
} else if (UseCompressedClassPointers) {
// otherwise length is in the class gap
store_klass_gap(G0, obj);
}

18
hotspot/src/cpu/sparc/vm/macroAssembler_sparc.cpp
View File

@ -3911,7 +3911,7 @@ void MacroAssembler::load_klass(Register src_oop, Register klass) {
// The number of bytes in this code is used by
// MachCallDynamicJavaNode::ret_addr_offset()
// if this changes, change that.
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
lduw(src_oop, oopDesc::klass_offset_in_bytes(), klass);
decode_klass_not_null(klass);
} else {
@ -3920,7 +3920,7 @@ void MacroAssembler::load_klass(Register src_oop, Register klass) {
}
void MacroAssembler::store_klass(Register klass, Register dst_oop) {
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
assert(dst_oop != klass, "not enough registers");
encode_klass_not_null(klass);
st(klass, dst_oop, oopDesc::klass_offset_in_bytes());
@ -3930,7 +3930,7 @@ void MacroAssembler::store_klass(Register klass, Register dst_oop) {
}
void MacroAssembler::store_klass_gap(Register s, Register d) {
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
assert(s != d, "not enough registers");
st(s, d, oopDesc::klass_gap_offset_in_bytes());
}
@ -4089,7 +4089,7 @@ void MacroAssembler::decode_heap_oop_not_null(Register src, Register dst) {
}
void MacroAssembler::encode_klass_not_null(Register r) {
assert (UseCompressedKlassPointers, "must be compressed");
assert (UseCompressedClassPointers, "must be compressed");
assert(Universe::narrow_klass_base() != NULL, "narrow_klass_base should be initialized");
assert(r != G6_heapbase, "bad register choice");
set((intptr_t)Universe::narrow_klass_base(), G6_heapbase);
@ -4105,7 +4105,7 @@ void MacroAssembler::encode_klass_not_null(Register src, Register dst) {
if (src == dst) {
encode_klass_not_null(src);
} else {
assert (UseCompressedKlassPointers, "must be compressed");
assert (UseCompressedClassPointers, "must be compressed");
assert(Universe::narrow_klass_base() != NULL, "narrow_klass_base should be initialized");
set((intptr_t)Universe::narrow_klass_base(), dst);
sub(src, dst, dst);
@ -4119,7 +4119,7 @@ void MacroAssembler::encode_klass_not_null(Register src, Register dst) {
// generated by decode_klass_not_null() and reinit_heapbase(). Hence, if
// the instructions they generate change, then this method needs to be updated.
int MacroAssembler::instr_size_for_decode_klass_not_null() {
assert (UseCompressedKlassPointers, "only for compressed klass ptrs");
assert (UseCompressedClassPointers, "only for compressed klass ptrs");
// set + add + set
int num_instrs = insts_for_internal_set((intptr_t)Universe::narrow_klass_base()) + 1 +
insts_for_internal_set((intptr_t)Universe::narrow_ptrs_base());
@ -4135,7 +4135,7 @@ int MacroAssembler::instr_size_for_decode_klass_not_null() {
void MacroAssembler::decode_klass_not_null(Register r) {
// Do not add assert code to this unless you change vtableStubs_sparc.cpp
// pd_code_size_limit.
assert (UseCompressedKlassPointers, "must be compressed");
assert (UseCompressedClassPointers, "must be compressed");
assert(Universe::narrow_klass_base() != NULL, "narrow_klass_base should be initialized");
assert(r != G6_heapbase, "bad register choice");
set((intptr_t)Universe::narrow_klass_base(), G6_heapbase);
@ -4151,7 +4151,7 @@ void MacroAssembler::decode_klass_not_null(Register src, Register dst) {
} else {
// Do not add assert code to this unless you change vtableStubs_sparc.cpp
// pd_code_size_limit.
assert (UseCompressedKlassPointers, "must be compressed");
assert (UseCompressedClassPointers, "must be compressed");
assert(Universe::narrow_klass_base() != NULL, "narrow_klass_base should be initialized");
if (Universe::narrow_klass_shift() != 0) {
assert((src != G6_heapbase) && (dst != G6_heapbase), "bad register choice");
@ -4167,7 +4167,7 @@ void MacroAssembler::decode_klass_not_null(Register src, Register dst) {
}
void MacroAssembler::reinit_heapbase() {
if (UseCompressedOops || UseCompressedKlassPointers) {
if (UseCompressedOops || UseCompressedClassPointers) {
if (Universe::heap() != NULL) {
set((intptr_t)Universe::narrow_ptrs_base(), G6_heapbase);
} else {

8
hotspot/src/cpu/sparc/vm/sparc.ad
View File

@ -557,7 +557,7 @@ int MachCallDynamicJavaNode::ret_addr_offset() {
int entry_offset = InstanceKlass::vtable_start_offset() + vtable_index*vtableEntry::size();
int v_off = entry_offset*wordSize + vtableEntry::method_offset_in_bytes();
int klass_load_size;
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
assert(Universe::heap() != NULL, "java heap should be initialized");
klass_load_size = MacroAssembler::instr_size_for_decode_klass_not_null() + 1*BytesPerInstWord;
} else {
@ -1657,7 +1657,7 @@ uint BoxLockNode::size(PhaseRegAlloc *ra_) const {
void MachUEPNode::format( PhaseRegAlloc *ra_, outputStream *st ) const {
st->print_cr("\nUEP:");
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
assert(Universe::heap() != NULL, "java heap should be initialized");
st->print_cr("\tLDUW [R_O0 + oopDesc::klass_offset_in_bytes],R_G5\t! Inline cache check - compressed klass");
st->print_cr("\tSET Universe::narrow_klass_base,R_G6_heap_base");
@ -1897,7 +1897,7 @@ bool Matcher::narrow_oop_use_complex_address() {
bool Matcher::narrow_klass_use_complex_address() {
NOT_LP64(ShouldNotCallThis());
assert(UseCompressedKlassPointers, "only for compressed klass code");
assert(UseCompressedClassPointers, "only for compressed klass code");
return false;
}
@ -2561,7 +2561,7 @@ encode %{
int off = __ offset();
__ load_klass(O0, G3_scratch);
int klass_load_size;
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
assert(Universe::heap() != NULL, "java heap should be initialized");
klass_load_size = MacroAssembler::instr_size_for_decode_klass_not_null() + 1*BytesPerInstWord;
} else {

6
hotspot/src/cpu/sparc/vm/stubGenerator_sparc.cpp
View File

@ -2945,7 +2945,7 @@ class StubGenerator: public StubCodeGenerator {
BLOCK_COMMENT("arraycopy argument klass checks");
// get src->klass()
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ delayed()->nop(); // ??? not good
__ load_klass(src, G3_src_klass);
} else {
@ -2980,7 +2980,7 @@ class StubGenerator: public StubCodeGenerator {
// Load 32-bits signed value. Use br() instruction with it to check icc.
__ lduw(G3_src_klass, lh_offset, G5_lh);
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ load_klass(dst, G4_dst_klass);
}
// Handle objArrays completely differently...
@ -2988,7 +2988,7 @@ class StubGenerator: public StubCodeGenerator {
__ set(objArray_lh, O5_temp);
__ cmp(G5_lh, O5_temp);
__ br(Assembler::equal, false, Assembler::pt, L_objArray);
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ delayed()->nop();
} else {
__ delayed()->ld_ptr(dst, oopDesc::klass_offset_in_bytes(), G4_dst_klass);

4
hotspot/src/cpu/sparc/vm/vtableStubs_sparc.cpp
View File

@ -218,13 +218,13 @@ int VtableStub::pd_code_size_limit(bool is_vtable_stub) {
// ld;ld;ld,jmp,nop
const int basic = 5*BytesPerInstWord +
// shift;add for load_klass (only shift with zero heap based)
(UseCompressedKlassPointers ?
(UseCompressedClassPointers ?
MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
return basic + slop;
} else {
const int basic = (28 LP64_ONLY(+ 6)) * BytesPerInstWord +
// shift;add for load_klass (only shift with zero heap based)
(UseCompressedKlassPointers ?
(UseCompressedClassPointers ?
MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
return (basic + slop);
}

2
hotspot/src/cpu/x86/vm/c1_FrameMap_x86.hpp
View File

@ -148,7 +148,7 @@
static int adjust_reg_range(int range) {
// Reduce the number of available regs (to free r12) in case of compressed oops
if (UseCompressedOops || UseCompressedKlassPointers) return range - 1;
if (UseCompressedOops || UseCompressedClassPointers) return range - 1;
return range;
}

36
hotspot/src/cpu/x86/vm/c1_LIRAssembler_x86.cpp
View File

@ -341,7 +341,7 @@ int LIR_Assembler::check_icache() {
Register receiver = FrameMap::receiver_opr->as_register();
Register ic_klass = IC_Klass;
const int ic_cmp_size = LP64_ONLY(10) NOT_LP64(9);
const bool do_post_padding = VerifyOops || UseCompressedKlassPointers;
const bool do_post_padding = VerifyOops || UseCompressedClassPointers;
if (!do_post_padding) {
// insert some nops so that the verified entry point is aligned on CodeEntryAlignment
while ((__ offset() + ic_cmp_size) % CodeEntryAlignment != 0) {
@ -1263,7 +1263,7 @@ void LIR_Assembler::mem2reg(LIR_Opr src, LIR_Opr dest, BasicType type, LIR_Patch
break;
case T_ADDRESS:
if (UseCompressedKlassPointers && addr->disp() == oopDesc::klass_offset_in_bytes()) {
if (UseCompressedClassPointers && addr->disp() == oopDesc::klass_offset_in_bytes()) {
__ movl(dest->as_register(), from_addr);
} else {
__ movptr(dest->as_register(), from_addr);
@ -1371,7 +1371,7 @@ void LIR_Assembler::mem2reg(LIR_Opr src, LIR_Opr dest, BasicType type, LIR_Patch
__ verify_oop(dest->as_register());
} else if (type == T_ADDRESS && addr->disp() == oopDesc::klass_offset_in_bytes()) {
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ decode_klass_not_null(dest->as_register());
}
#endif
@ -1716,7 +1716,7 @@ void LIR_Assembler::emit_typecheck_helper(LIR_OpTypeCheck *op, Label* success, L
} else if (obj == klass_RInfo) {
klass_RInfo = dst;
}
if (k->is_loaded() && !UseCompressedKlassPointers) {
if (k->is_loaded() && !UseCompressedClassPointers) {
select_different_registers(obj, dst, k_RInfo, klass_RInfo);
} else {
Rtmp1 = op->tmp3()->as_register();
@ -1724,14 +1724,6 @@ void LIR_Assembler::emit_typecheck_helper(LIR_OpTypeCheck *op, Label* success, L
}
assert_different_registers(obj, k_RInfo, klass_RInfo);
if (!k->is_loaded()) {
klass2reg_with_patching(k_RInfo, op->info_for_patch());
} else {
#ifdef _LP64
__ mov_metadata(k_RInfo, k->constant_encoding());
#endif // _LP64
}
assert(obj != k_RInfo, "must be different");
__ cmpptr(obj, (int32_t)NULL_WORD);
if (op->should_profile()) {
@ -1748,13 +1740,21 @@ void LIR_Assembler::emit_typecheck_helper(LIR_OpTypeCheck *op, Label* success, L
} else {
__ jcc(Assembler::equal, *obj_is_null);
}
if (!k->is_loaded()) {
klass2reg_with_patching(k_RInfo, op->info_for_patch());
} else {
#ifdef _LP64
__ mov_metadata(k_RInfo, k->constant_encoding());
#endif // _LP64
}
__ verify_oop(obj);
if (op->fast_check()) {
// get object class
// not a safepoint as obj null check happens earlier
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ load_klass(Rtmp1, obj);
__ cmpptr(k_RInfo, Rtmp1);
} else {
@ -3294,7 +3294,7 @@ void LIR_Assembler::emit_arraycopy(LIR_OpArrayCopy* op) {
// We don't know the array types are compatible
if (basic_type != T_OBJECT) {
// Simple test for basic type arrays
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ movl(tmp, src_klass_addr);
__ cmpl(tmp, dst_klass_addr);
} else {
@ -3456,21 +3456,21 @@ void LIR_Assembler::emit_arraycopy(LIR_OpArrayCopy* op) {
Label known_ok, halt;
__ mov_metadata(tmp, default_type->constant_encoding());
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
__ encode_klass_not_null(tmp);
}
#endif
if (basic_type != T_OBJECT) {
if (UseCompressedKlassPointers) __ cmpl(tmp, dst_klass_addr);
if (UseCompressedClassPointers) __ cmpl(tmp, dst_klass_addr);
else __ cmpptr(tmp, dst_klass_addr);
__ jcc(Assembler::notEqual, halt);
if (UseCompressedKlassPointers) __ cmpl(tmp, src_klass_addr);
if (UseCompressedClassPointers) __ cmpl(tmp, src_klass_addr);
else __ cmpptr(tmp, src_klass_addr);
__ jcc(Assembler::equal, known_ok);
} else {
if (UseCompressedKlassPointers) __ cmpl(tmp, dst_klass_addr);
if (UseCompressedClassPointers) __ cmpl(tmp, dst_klass_addr);
else __ cmpptr(tmp, dst_klass_addr);
__ jcc(Assembler::equal, known_ok);
__ cmpptr(src, dst);

4
hotspot/src/cpu/x86/vm/c1_LIRGenerator_x86.cpp
View File

@ -1239,7 +1239,7 @@ void LIRGenerator::do_CheckCast(CheckCast* x) {
}
LIR_Opr reg = rlock_result(x);
LIR_Opr tmp3 = LIR_OprFact::illegalOpr;
if (!x->klass()->is_loaded() || UseCompressedKlassPointers) {
if (!x->klass()->is_loaded() || UseCompressedClassPointers) {
tmp3 = new_register(objectType);
}
__ checkcast(reg, obj.result(), x->klass(),
@ -1261,7 +1261,7 @@ void LIRGenerator::do_InstanceOf(InstanceOf* x) {
}
obj.load_item();
LIR_Opr tmp3 = LIR_OprFact::illegalOpr;
if (!x->klass()->is_loaded() || UseCompressedKlassPointers) {
if (!x->klass()->is_loaded() || UseCompressedClassPointers) {
tmp3 = new_register(objectType);
}
__ instanceof(reg, obj.result(), x->klass(),

8
hotspot/src/cpu/x86/vm/c1_MacroAssembler_x86.cpp
View File

@ -157,7 +157,7 @@ void C1_MacroAssembler::initialize_header(Register obj, Register klass, Register
movptr(Address(obj, oopDesc::mark_offset_in_bytes ()), (int32_t)(intptr_t)markOopDesc::prototype());
}
#ifdef _LP64
if (UseCompressedKlassPointers) { // Take care not to kill klass
if (UseCompressedClassPointers) { // Take care not to kill klass
movptr(t1, klass);
encode_klass_not_null(t1);
movl(Address(obj, oopDesc::klass_offset_in_bytes()), t1);
@ -171,7 +171,7 @@ void C1_MacroAssembler::initialize_header(Register obj, Register klass, Register
movl(Address(obj, arrayOopDesc::length_offset_in_bytes()), len);
}
#ifdef _LP64
else if (UseCompressedKlassPointers) {
else if (UseCompressedClassPointers) {
xorptr(t1, t1);
store_klass_gap(obj, t1);
}
@ -334,7 +334,7 @@ void C1_MacroAssembler::inline_cache_check(Register receiver, Register iCache) {
assert(!MacroAssembler::needs_explicit_null_check(oopDesc::klass_offset_in_bytes()), "must add explicit null check");
int start_offset = offset();
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
load_klass(rscratch1, receiver);
cmpptr(rscratch1, iCache);
} else {
@ -345,7 +345,7 @@ void C1_MacroAssembler::inline_cache_check(Register receiver, Register iCache) {
jump_cc(Assembler::notEqual,
RuntimeAddress(SharedRuntime::get_ic_miss_stub()));
const int ic_cmp_size = LP64_ONLY(10) NOT_LP64(9);
assert(UseCompressedKlassPointers || offset() - start_offset == ic_cmp_size, "check alignment in emit_method_entry");
assert(UseCompressedClassPointers || offset() - start_offset == ic_cmp_size, "check alignment in emit_method_entry");
}

24
hotspot/src/cpu/x86/vm/macroAssembler_x86.cpp
View File

@ -1635,7 +1635,7 @@ void MacroAssembler::call_VM_base(Register oop_result,
#ifdef ASSERT
// TraceBytecodes does not use r12 but saves it over the call, so don't verify
// r12 is the heapbase.
LP64_ONLY(if ((UseCompressedOops || UseCompressedKlassPointers) && !TraceBytecodes) verify_heapbase("call_VM_base: heap base corrupted?");)
LP64_ONLY(if ((UseCompressedOops || UseCompressedClassPointers) && !TraceBytecodes) verify_heapbase("call_VM_base: heap base corrupted?");)
#endif // ASSERT
assert(java_thread != oop_result , "cannot use the same register for java_thread & oop_result");
@ -4802,7 +4802,7 @@ void MacroAssembler::restore_cpu_control_state_after_jni() {
void MacroAssembler::load_klass(Register dst, Register src) {
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
movl(dst, Address(src, oopDesc::klass_offset_in_bytes()));
decode_klass_not_null(dst);
} else
@ -4817,7 +4817,7 @@ void MacroAssembler::load_prototype_header(Register dst, Register src) {
void MacroAssembler::store_klass(Register dst, Register src) {
#ifdef _LP64
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
encode_klass_not_null(src);
movl(Address(dst, oopDesc::klass_offset_in_bytes()), src);
} else
@ -4892,7 +4892,7 @@ void MacroAssembler::store_heap_oop_null(Address dst) {
#ifdef _LP64
void MacroAssembler::store_klass_gap(Register dst, Register src) {
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
// Store to klass gap in destination
movl(Address(dst, oopDesc::klass_gap_offset_in_bytes()), src);
}
@ -5075,7 +5075,7 @@ void MacroAssembler::encode_klass_not_null(Register dst, Register src) {
// when (Universe::heap() != NULL). Hence, if the instructions they
// generate change, then this method needs to be updated.
int MacroAssembler::instr_size_for_decode_klass_not_null() {
assert (UseCompressedKlassPointers, "only for compressed klass ptrs");
assert (UseCompressedClassPointers, "only for compressed klass ptrs");
// mov64 + addq + shlq? + mov64 (for reinit_heapbase()).
return (Universe::narrow_klass_shift() == 0 ? 20 : 24);
}
@ -5085,7 +5085,7 @@ int MacroAssembler::instr_size_for_decode_klass_not_null() {
void MacroAssembler::decode_klass_not_null(Register r) {
// Note: it will change flags
assert(Universe::narrow_klass_base() != NULL, "Base should be initialized");
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
assert(r != r12_heapbase, "Decoding a klass in r12");
// Cannot assert, unverified entry point counts instructions (see .ad file)
// vtableStubs also counts instructions in pd_code_size_limit.
@ -5103,7 +5103,7 @@ void MacroAssembler::decode_klass_not_null(Register r) {
void MacroAssembler::decode_klass_not_null(Register dst, Register src) {
// Note: it will change flags
assert(Universe::narrow_klass_base() != NULL, "Base should be initialized");
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
if (dst == src) {
decode_klass_not_null(dst);
} else {
@ -5141,7 +5141,7 @@ void MacroAssembler::set_narrow_oop(Address dst, jobject obj) {
}
void MacroAssembler::set_narrow_klass(Register dst, Klass* k) {
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
assert (oop_recorder() != NULL, "this assembler needs an OopRecorder");
int klass_index = oop_recorder()->find_index(k);
RelocationHolder rspec = metadata_Relocation::spec(klass_index);
@ -5149,7 +5149,7 @@ void MacroAssembler::set_narrow_klass(Register dst, Klass* k) {
}
void MacroAssembler::set_narrow_klass(Address dst, Klass* k) {
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
assert (oop_recorder() != NULL, "this assembler needs an OopRecorder");
int klass_index = oop_recorder()->find_index(k);
RelocationHolder rspec = metadata_Relocation::spec(klass_index);
@ -5175,7 +5175,7 @@ void MacroAssembler::cmp_narrow_oop(Address dst, jobject obj) {
}
void MacroAssembler::cmp_narrow_klass(Register dst, Klass* k) {
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
assert (oop_recorder() != NULL, "this assembler needs an OopRecorder");
int klass_index = oop_recorder()->find_index(k);
RelocationHolder rspec = metadata_Relocation::spec(klass_index);
@ -5183,7 +5183,7 @@ void MacroAssembler::cmp_narrow_klass(Register dst, Klass* k) {
}
void MacroAssembler::cmp_narrow_klass(Address dst, Klass* k) {
assert (UseCompressedKlassPointers, "should only be used for compressed headers");
assert (UseCompressedClassPointers, "should only be used for compressed headers");
assert (oop_recorder() != NULL, "this assembler needs an OopRecorder");
int klass_index = oop_recorder()->find_index(k);
RelocationHolder rspec = metadata_Relocation::spec(klass_index);
@ -5191,7 +5191,7 @@ void MacroAssembler::cmp_narrow_klass(Address dst, Klass* k) {
}
void MacroAssembler::reinit_heapbase() {
if (UseCompressedOops || UseCompressedKlassPointers) {
if (UseCompressedOops || UseCompressedClassPointers) {
if (Universe::heap() != NULL) {
if (Universe::narrow_oop_base() == NULL) {
MacroAssembler::xorptr(r12_heapbase, r12_heapbase);

4
hotspot/src/cpu/x86/vm/templateInterpreter_x86.hpp
View File

@ -34,9 +34,9 @@
// Run with +PrintInterpreter to get the VM to print out the size.
// Max size with JVMTI
#ifdef AMD64
const static int InterpreterCodeSize = 200 * 1024;
const static int InterpreterCodeSize = 208 * 1024;
#else
const static int InterpreterCodeSize = 168 * 1024;
const static int InterpreterCodeSize = 176 * 1024;
#endif // AMD64
#endif // CPU_X86_VM_TEMPLATEINTERPRETER_X86_HPP

4
hotspot/src/cpu/x86/vm/vtableStubs_x86_64.cpp
View File

@ -211,11 +211,11 @@ int VtableStub::pd_code_size_limit(bool is_vtable_stub) {
if (is_vtable_stub) {
// Vtable stub size
return (DebugVtables ? 512 : 24) + (CountCompiledCalls ? 13 : 0) +
(UseCompressedKlassPointers ? MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
(UseCompressedClassPointers ? MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
} else {
// Itable stub size
return (DebugVtables ? 512 : 74) + (CountCompiledCalls ? 13 : 0) +
(UseCompressedKlassPointers ? MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
(UseCompressedClassPointers ? MacroAssembler::instr_size_for_decode_klass_not_null() : 0);
}
// In order to tune these parameters, run the JVM with VM options
// +PrintMiscellaneous and +WizardMode to see information about

6
hotspot/src/cpu/x86/vm/x86_64.ad
View File

@ -1391,7 +1391,7 @@ uint BoxLockNode::size(PhaseRegAlloc *ra_) const
#ifndef PRODUCT
void MachUEPNode::format(PhaseRegAlloc* ra_, outputStream* st) const
{
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
st->print_cr("movl rscratch1, [j_rarg0 + oopDesc::klass_offset_in_bytes()]\t# compressed klass");
st->print_cr("\tdecode_klass_not_null rscratch1, rscratch1");
st->print_cr("\tcmpq rax, rscratch1\t # Inline cache check");
@ -1408,7 +1408,7 @@ void MachUEPNode::emit(CodeBuffer& cbuf, PhaseRegAlloc* ra_) const
{
MacroAssembler masm(&cbuf);
uint insts_size = cbuf.insts_size();
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
masm.load_klass(rscratch1, j_rarg0);
masm.cmpptr(rax, rscratch1);
} else {
@ -1557,7 +1557,7 @@ bool Matcher::narrow_oop_use_complex_address() {
}
bool Matcher::narrow_klass_use_complex_address() {
assert(UseCompressedKlassPointers, "only for compressed klass code");
assert(UseCompressedClassPointers, "only for compressed klass code");
return (LogKlassAlignmentInBytes <= 3);
}

2
hotspot/src/os/bsd/vm/os_bsd.cpp
View File

@ -3589,8 +3589,6 @@ jint os::init_2(void)
#endif
}
os::large_page_init();
// initialize suspend/resume support - must do this before signal_sets_init()
if (SR_initialize() != 0) {
perror("SR_initialize failed");

208
hotspot/src/os/linux/vm/os_linux.cpp
View File

@ -131,6 +131,7 @@ bool os::Linux::_is_NPTL = false;
bool os::Linux::_supports_fast_thread_cpu_time = false;
const char * os::Linux::_glibc_version = NULL;
const char * os::Linux::_libpthread_version = NULL;
pthread_condattr_t os::Linux::_condattr[1];
static jlong initial_time_count=0;
@ -1399,12 +1400,15 @@ void os::Linux::clock_init() {
clock_gettime_func(CLOCK_MONOTONIC, &tp) == 0) {
// yes, monotonic clock is supported
_clock_gettime = clock_gettime_func;
return;
} else {
// close librt if there is no monotonic clock
dlclose(handle);
}
}
}
warning("No monotonic clock was available - timed services may " \
"be adversely affected if the time-of-day clock changes");
}
#ifndef SYS_clock_getres
@ -2165,23 +2169,49 @@ void os::print_os_info(outputStream* st) {
}
// Try to identify popular distros.
// Most Linux distributions have /etc/XXX-release file, which contains
// the OS version string. Some have more than one /etc/XXX-release file
// (e.g. Mandrake has both /etc/mandrake-release and /etc/redhat-release.),
// so the order is important.
// Most Linux distributions have a /etc/XXX-release file, which contains
// the OS version string. Newer Linux distributions have a /etc/lsb-release
// file that also contains the OS version string. Some have more than one
// /etc/XXX-release file (e.g. Mandrake has both /etc/mandrake-release and
// /etc/redhat-release.), so the order is important.
// Any Linux that is based on Redhat (i.e. Oracle, Mandrake, Sun JDS...) have
// their own specific XXX-release file as well as a redhat-release file.
// Because of this the XXX-release file needs to be searched for before the
// redhat-release file.
// Since Red Hat has a lsb-release file that is not very descriptive the
// search for redhat-release needs to be before lsb-release.
// Since the lsb-release file is the new standard it needs to be searched
// before the older style release files.
// Searching system-release (Red Hat) and os-release (other Linuxes) are a
// next to last resort. The os-release file is a new standard that contains
// distribution information and the system-release file seems to be an old
// standard that has been replaced by the lsb-release and os-release files.
// Searching for the debian_version file is the last resort. It contains
// an informative string like "6.0.6" or "wheezy/sid". Because of this
// "Debian " is printed before the contents of the debian_version file.
void os::Linux::print_distro_info(outputStream* st) {
if (!_print_ascii_file("/etc/mandrake-release", st) &&
!_print_ascii_file("/etc/sun-release", st) &&
!_print_ascii_file("/etc/redhat-release", st) &&
!_print_ascii_file("/etc/SuSE-release", st) &&
!_print_ascii_file("/etc/turbolinux-release", st) &&
!_print_ascii_file("/etc/gentoo-release", st) &&
!_print_ascii_file("/etc/debian_version", st) &&
!_print_ascii_file("/etc/ltib-release", st) &&
!_print_ascii_file("/etc/angstrom-version", st)) {
st->print("Linux");
}
st->cr();
if (!_print_ascii_file("/etc/oracle-release", st) &&
!_print_ascii_file("/etc/mandriva-release", st) &&
!_print_ascii_file("/etc/mandrake-release", st) &&
!_print_ascii_file("/etc/sun-release", st) &&
!_print_ascii_file("/etc/redhat-release", st) &&
!_print_ascii_file("/etc/lsb-release", st) &&
!_print_ascii_file("/etc/SuSE-release", st) &&
!_print_ascii_file("/etc/turbolinux-release", st) &&
!_print_ascii_file("/etc/gentoo-release", st) &&
!_print_ascii_file("/etc/ltib-release", st) &&
!_print_ascii_file("/etc/angstrom-version", st) &&
!_print_ascii_file("/etc/system-release", st) &&
!_print_ascii_file("/etc/os-release", st)) {
if (file_exists("/etc/debian_version")) {
st->print("Debian ");
_print_ascii_file("/etc/debian_version", st);
} else {
st->print("Linux");
}
}
st->cr();
}
void os::Linux::print_libversion_info(outputStream* st) {
@ -4709,6 +4739,26 @@ void os::init(void) {
Linux::clock_init();
initial_time_count = os::elapsed_counter();
// pthread_condattr initialization for monotonic clock
int status;
pthread_condattr_t* _condattr = os::Linux::condAttr();
if ((status = pthread_condattr_init(_condattr)) != 0) {
fatal(err_msg("pthread_condattr_init: %s", strerror(status)));
}
// Only set the clock if CLOCK_MONOTONIC is available
if (Linux::supports_monotonic_clock()) {
if ((status = pthread_condattr_setclock(_condattr, CLOCK_MONOTONIC)) != 0) {
if (status == EINVAL) {
warning("Unable to use monotonic clock with relative timed-waits" \
" - changes to the time-of-day clock may have adverse affects");
} else {
fatal(err_msg("pthread_condattr_setclock: %s", strerror(status)));
}
}
}
// else it defaults to CLOCK_REALTIME
pthread_mutex_init(&dl_mutex, NULL);
// If the pagesize of the VM is greater than 8K determine the appropriate
@ -4755,8 +4805,6 @@ jint os::init_2(void)
#endif
}
os::large_page_init();
// initialize suspend/resume support - must do this before signal_sets_init()
if (SR_initialize() != 0) {
perror("SR_initialize failed");
@ -5519,21 +5567,36 @@ void os::pause() {
static struct timespec* compute_abstime(timespec* abstime, jlong millis) {
if (millis < 0) millis = 0;
struct timeval now;
int status = gettimeofday(&now, NULL);
assert(status == 0, "gettimeofday");
jlong seconds = millis / 1000;
millis %= 1000;
if (seconds > 50000000) { // see man cond_timedwait(3T)
seconds = 50000000;
}
abstime->tv_sec = now.tv_sec + seconds;
long usec = now.tv_usec + millis * 1000;
if (usec >= 1000000) {
abstime->tv_sec += 1;
usec -= 1000000;
if (os::Linux::supports_monotonic_clock()) {
struct timespec now;
int status = os::Linux::clock_gettime(CLOCK_MONOTONIC, &now);
assert_status(status == 0, status, "clock_gettime");
abstime->tv_sec = now.tv_sec + seconds;
long nanos = now.tv_nsec + millis * NANOSECS_PER_MILLISEC;
if (nanos >= NANOSECS_PER_SEC) {
abstime->tv_sec += 1;
nanos -= NANOSECS_PER_SEC;
}
abstime->tv_nsec = nanos;
} else {
struct timeval now;
int status = gettimeofday(&now, NULL);
assert(status == 0, "gettimeofday");
abstime->tv_sec = now.tv_sec + seconds;
long usec = now.tv_usec + millis * 1000;
if (usec >= 1000000) {
abstime->tv_sec += 1;
usec -= 1000000;
}
abstime->tv_nsec = usec * 1000;
}
abstime->tv_nsec = usec * 1000;
return abstime;
}
@ -5625,7 +5688,7 @@ int os::PlatformEvent::park(jlong millis) {
status = os::Linux::safe_cond_timedwait(_cond, _mutex, &abst);
if (status != 0 && WorkAroundNPTLTimedWaitHang) {
pthread_cond_destroy (_cond);
pthread_cond_init (_cond, NULL) ;
pthread_cond_init (_cond, os::Linux::condAttr()) ;
}
assert_status(status == 0 || status == EINTR ||
status == ETIME || status == ETIMEDOUT,
@ -5726,32 +5789,50 @@ void os::PlatformEvent::unpark() {
static void unpackTime(timespec* absTime, bool isAbsolute, jlong time) {
assert (time > 0, "convertTime");
time_t max_secs = 0;
struct timeval now;
int status = gettimeofday(&now, NULL);
assert(status == 0, "gettimeofday");
if (!os::Linux::supports_monotonic_clock() || isAbsolute) {
struct timeval now;
int status = gettimeofday(&now, NULL);
assert(status == 0, "gettimeofday");
time_t max_secs = now.tv_sec + MAX_SECS;
max_secs = now.tv_sec + MAX_SECS;
if (isAbsolute) {
jlong secs = time / 1000;
if (secs > max_secs) {
absTime->tv_sec = max_secs;
if (isAbsolute) {
jlong secs = time / 1000;
if (secs > max_secs) {
absTime->tv_sec = max_secs;
} else {
absTime->tv_sec = secs;
}
absTime->tv_nsec = (time % 1000) * NANOSECS_PER_MILLISEC;
} else {
jlong secs = time / NANOSECS_PER_SEC;
if (secs >= MAX_SECS) {
absTime->tv_sec = max_secs;
absTime->tv_nsec = 0;
} else {
absTime->tv_sec = now.tv_sec + secs;
absTime->tv_nsec = (time % NANOSECS_PER_SEC) + now.tv_usec*1000;
if (absTime->tv_nsec >= NANOSECS_PER_SEC) {
absTime->tv_nsec -= NANOSECS_PER_SEC;
++absTime->tv_sec; // note: this must be <= max_secs
}
}
}
else {
absTime->tv_sec = secs;
}
absTime->tv_nsec = (time % 1000) * NANOSECS_PER_MILLISEC;
}
else {
} else {
// must be relative using monotonic clock
struct timespec now;
int status = os::Linux::clock_gettime(CLOCK_MONOTONIC, &now);
assert_status(status == 0, status, "clock_gettime");
max_secs = now.tv_sec + MAX_SECS;
jlong secs = time / NANOSECS_PER_SEC;
if (secs >= MAX_SECS) {
absTime->tv_sec = max_secs;
absTime->tv_nsec = 0;
}
else {
} else {
absTime->tv_sec = now.tv_sec + secs;
absTime->tv_nsec = (time % NANOSECS_PER_SEC) + now.tv_usec*1000;
absTime->tv_nsec = (time % NANOSECS_PER_SEC) + now.tv_nsec;
if (absTime->tv_nsec >= NANOSECS_PER_SEC) {
absTime->tv_nsec -= NANOSECS_PER_SEC;
++absTime->tv_sec; // note: this must be <= max_secs
@ -5831,15 +5912,19 @@ void Parker::park(bool isAbsolute, jlong time) {
jt->set_suspend_equivalent();
// cleared by handle_special_suspend_equivalent_condition() or java_suspend_self()
assert(_cur_index == -1, "invariant");
if (time == 0) {
status = pthread_cond_wait (_cond, _mutex) ;
_cur_index = REL_INDEX; // arbitrary choice when not timed
status = pthread_cond_wait (&_cond[_cur_index], _mutex) ;
} else {
status = os::Linux::safe_cond_timedwait (_cond, _mutex, &absTime) ;
_cur_index = isAbsolute ? ABS_INDEX : REL_INDEX;
status = os::Linux::safe_cond_timedwait (&_cond[_cur_index], _mutex, &absTime) ;
if (status != 0 && WorkAroundNPTLTimedWaitHang) {
pthread_cond_destroy (_cond) ;
pthread_cond_init (_cond, NULL);
pthread_cond_destroy (&_cond[_cur_index]) ;
pthread_cond_init (&_cond[_cur_index], isAbsolute ? NULL : os::Linux::condAttr());
}
}
_cur_index = -1;
assert_status(status == 0 || status == EINTR ||
status == ETIME || status == ETIMEDOUT,
status, "cond_timedwait");
@ -5868,17 +5953,24 @@ void Parker::unpark() {
s = _counter;
_counter = 1;
if (s < 1) {
if (WorkAroundNPTLTimedWaitHang) {
status = pthread_cond_signal (_cond) ;
assert (status == 0, "invariant") ;
// thread might be parked
if (_cur_index != -1) {
// thread is definitely parked
if (WorkAroundNPTLTimedWaitHang) {
status = pthread_cond_signal (&_cond[_cur_index]);
assert (status == 0, "invariant");
status = pthread_mutex_unlock(_mutex);
assert (status == 0, "invariant") ;
} else {
assert (status == 0, "invariant");
} else {
status = pthread_mutex_unlock(_mutex);
assert (status == 0, "invariant") ;
status = pthread_cond_signal (_cond) ;
assert (status == 0, "invariant") ;
}
assert (status == 0, "invariant");
status = pthread_cond_signal (&_cond[_cur_index]);
assert (status == 0, "invariant");
}
} else {
pthread_mutex_unlock(_mutex);
assert (status == 0, "invariant") ;
}
} else {
pthread_mutex_unlock(_mutex);
assert (status == 0, "invariant") ;

25
hotspot/src/os/linux/vm/os_linux.hpp
View File

@ -221,6 +221,13 @@ class Linux {
static jlong fast_thread_cpu_time(clockid_t clockid);
// pthread_cond clock suppport
private:
static pthread_condattr_t _condattr[1];
public:
static pthread_condattr_t* condAttr() { return _condattr; }
// Stack repair handling
// none present
@ -295,7 +302,7 @@ class PlatformEvent : public CHeapObj<mtInternal> {
public:
PlatformEvent() {
int status;
status = pthread_cond_init (_cond, NULL);
status = pthread_cond_init (_cond, os::Linux::condAttr());
assert_status(status == 0, status, "cond_init");
status = pthread_mutex_init (_mutex, NULL);
assert_status(status == 0, status, "mutex_init");
@ -310,14 +317,19 @@ class PlatformEvent : public CHeapObj<mtInternal> {
void park () ;
void unpark () ;
int TryPark () ;
int park (jlong millis) ;
int park (jlong millis) ; // relative timed-wait only
void SetAssociation (Thread * a) { _Assoc = a ; }
} ;
class PlatformParker : public CHeapObj<mtInternal> {
protected:
enum {
REL_INDEX = 0,
ABS_INDEX = 1
};
int _cur_index; // which cond is in use: -1, 0, 1
pthread_mutex_t _mutex [1] ;
pthread_cond_t _cond [1] ;
pthread_cond_t _cond [2] ; // one for relative times and one for abs.
public: // TODO-FIXME: make dtor private
~PlatformParker() { guarantee (0, "invariant") ; }
@ -325,10 +337,13 @@ class PlatformParker : public CHeapObj<mtInternal> {
public:
PlatformParker() {
int status;
status = pthread_cond_init (_cond, NULL);
assert_status(status == 0, status, "cond_init");
status = pthread_cond_init (&_cond[REL_INDEX], os::Linux::condAttr());
assert_status(status == 0, status, "cond_init rel");
status = pthread_cond_init (&_cond[ABS_INDEX], NULL);
assert_status(status == 0, status, "cond_init abs");
status = pthread_mutex_init (_mutex, NULL);
assert_status(status == 0, status, "mutex_init");
_cur_index = -1; // mark as unused
}
};

4
hotspot/src/os/solaris/vm/os_solaris.cpp
View File

@ -5178,9 +5178,7 @@ jint os::init_2(void) {
if(Verbose && PrintMiscellaneous)
tty->print("[Memory Serialize Page address: " INTPTR_FORMAT "]\n", (intptr_t)mem_serialize_page);
#endif
}
os::large_page_init();
}
// Check minimum allowable stack size for thread creation and to initialize
// the java system classes, including StackOverflowError - depends on page

91
hotspot/src/os/windows/vm/decoder_windows.cpp
View File

@ -32,7 +32,11 @@ WindowsDecoder::WindowsDecoder() {
_can_decode_in_vm = false;
_pfnSymGetSymFromAddr64 = NULL;
_pfnUndecorateSymbolName = NULL;
#ifdef AMD64
_pfnStackWalk64 = NULL;
_pfnSymFunctionTableAccess64 = NULL;
_pfnSymGetModuleBase64 = NULL;
#endif
_decoder_status = no_error;
initialize();
}
@ -53,14 +57,24 @@ void WindowsDecoder::initialize() {
_pfnUndecorateSymbolName = (pfn_UndecorateSymbolName)::GetProcAddress(handle, "UnDecorateSymbolName");
if (_pfnSymSetOptions == NULL || _pfnSymInitialize == NULL || _pfnSymGetSymFromAddr64 == NULL) {
_pfnSymGetSymFromAddr64 = NULL;
_pfnUndecorateSymbolName = NULL;
::FreeLibrary(handle);
_dbghelp_handle = NULL;
uninitialize();
_decoder_status = helper_func_error;
return;
}
#ifdef AMD64
_pfnStackWalk64 = (pfn_StackWalk64)::GetProcAddress(handle, "StackWalk64");
_pfnSymFunctionTableAccess64 = (pfn_SymFunctionTableAccess64)::GetProcAddress(handle, "SymFunctionTableAccess64");
_pfnSymGetModuleBase64 = (pfn_SymGetModuleBase64)::GetProcAddress(handle, "SymGetModuleBase64");
if (_pfnStackWalk64 == NULL || _pfnSymFunctionTableAccess64 == NULL || _pfnSymGetModuleBase64 == NULL) {
// We can't call StackWalk64 to walk the stack, but we are still
// able to decode the symbols. Let's limp on.
_pfnStackWalk64 = NULL;
_pfnSymFunctionTableAccess64 = NULL;
_pfnSymGetModuleBase64 = NULL;
}
#endif
HANDLE hProcess = ::GetCurrentProcess();
_pfnSymSetOptions(SYMOPT_UNDNAME | SYMOPT_DEFERRED_LOADS | SYMOPT_EXACT_SYMBOLS);
if (!_pfnSymInitialize(hProcess, NULL, TRUE)) {
@ -156,6 +170,11 @@ void WindowsDecoder::initialize() {
void WindowsDecoder::uninitialize() {
_pfnSymGetSymFromAddr64 = NULL;
_pfnUndecorateSymbolName = NULL;
#ifdef AMD64
_pfnStackWalk64 = NULL;
_pfnSymFunctionTableAccess64 = NULL;
_pfnSymGetModuleBase64 = NULL;
#endif
if (_dbghelp_handle != NULL) {
::FreeLibrary(_dbghelp_handle);
}
@ -195,3 +214,65 @@ bool WindowsDecoder::demangle(const char* symbol, char *buf, int buflen) {
_pfnUndecorateSymbolName(symbol, buf, buflen, UNDNAME_COMPLETE);
}
#ifdef AMD64
BOOL WindowsDbgHelp::StackWalk64(DWORD MachineType,
HANDLE hProcess,
HANDLE hThread,
LPSTACKFRAME64 StackFrame,
PVOID ContextRecord,
PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine,
PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine,
PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine,
PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress) {
DecoderLocker locker;
WindowsDecoder* wd = (WindowsDecoder*)locker.decoder();
if (!wd->has_error() && wd->_pfnStackWalk64) {
return wd->_pfnStackWalk64(MachineType,
hProcess,
hThread,
StackFrame,
ContextRecord,
ReadMemoryRoutine,
FunctionTableAccessRoutine,
GetModuleBaseRoutine,
TranslateAddress);
} else {
return false;
}
}
PVOID WindowsDbgHelp::SymFunctionTableAccess64(HANDLE hProcess, DWORD64 AddrBase) {
DecoderLocker locker;
WindowsDecoder* wd = (WindowsDecoder*)locker.decoder();
if (!wd->has_error() && wd->_pfnSymFunctionTableAccess64) {
return wd->_pfnSymFunctionTableAccess64(hProcess, AddrBase);
} else {
return NULL;
}
}
pfn_SymFunctionTableAccess64 WindowsDbgHelp::pfnSymFunctionTableAccess64() {
DecoderLocker locker;
WindowsDecoder* wd = (WindowsDecoder*)locker.decoder();
if (!wd->has_error()) {
return wd->_pfnSymFunctionTableAccess64;
} else {
return NULL;
}
}
pfn_SymGetModuleBase64 WindowsDbgHelp::pfnSymGetModuleBase64() {
DecoderLocker locker;
WindowsDecoder* wd = (WindowsDecoder*)locker.decoder();
if (!wd->has_error()) {
return wd->_pfnSymGetModuleBase64;
} else {
return NULL;
}
}
#endif // AMD64

41
hotspot/src/os/windows/vm/decoder_windows.hpp
View File

@ -38,6 +38,20 @@ typedef DWORD (WINAPI *pfn_UndecorateSymbolName)(const char*, char*, DWORD, DWOR
typedef BOOL (WINAPI *pfn_SymSetSearchPath)(HANDLE, PCTSTR);
typedef BOOL (WINAPI *pfn_SymGetSearchPath)(HANDLE, PTSTR, int);
#ifdef AMD64
typedef BOOL (WINAPI *pfn_StackWalk64)(DWORD MachineType,
HANDLE hProcess,
HANDLE hThread,
LPSTACKFRAME64 StackFrame,
PVOID ContextRecord,
PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine,
PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine,
PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine,
PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress);
typedef PVOID (WINAPI *pfn_SymFunctionTableAccess64)(HANDLE hProcess, DWORD64 AddrBase);
typedef DWORD64 (WINAPI *pfn_SymGetModuleBase64)(HANDLE hProcess, DWORD64 dwAddr);
#endif
class WindowsDecoder : public AbstractDecoder {
public:
@ -61,7 +75,34 @@ private:
bool _can_decode_in_vm;
pfn_SymGetSymFromAddr64 _pfnSymGetSymFromAddr64;
pfn_UndecorateSymbolName _pfnUndecorateSymbolName;
#ifdef AMD64
pfn_StackWalk64 _pfnStackWalk64;
pfn_SymFunctionTableAccess64 _pfnSymFunctionTableAccess64;
pfn_SymGetModuleBase64 _pfnSymGetModuleBase64;
friend class WindowsDbgHelp;
#endif
};
#ifdef AMD64
// TODO: refactor and move the handling of dbghelp.dll outside of Decoder
class WindowsDbgHelp : public Decoder {
public:
static BOOL StackWalk64(DWORD MachineType,
HANDLE hProcess,
HANDLE hThread,
LPSTACKFRAME64 StackFrame,
PVOID ContextRecord,
PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine,
PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine,
PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine,
PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress);
static PVOID SymFunctionTableAccess64(HANDLE hProcess, DWORD64 AddrBase);
static pfn_SymFunctionTableAccess64 pfnSymFunctionTableAccess64();
static pfn_SymGetModuleBase64 pfnSymGetModuleBase64();
};
#endif
#endif // OS_WINDOWS_VM_DECODER_WINDOWS_HPP

72
hotspot/src/os/windows/vm/os_windows.cpp
View File

@ -3189,9 +3189,12 @@ char* os::reserve_memory_special(size_t bytes, size_t alignment, char* addr, boo
return p_buf;
} else {
if (TracePageSizes && Verbose) {
tty->print_cr("Reserving large pages in a single large chunk.");
}
// normal policy just allocate it all at once
DWORD flag = MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES;
char * res = (char *)VirtualAlloc(NULL, bytes, flag, prot);
char * res = (char *)VirtualAlloc(addr, bytes, flag, prot);
if (res != NULL) {
address pc = CALLER_PC;
MemTracker::record_virtual_memory_reserve_and_commit((address)res, bytes, mtNone, pc);
@ -3917,8 +3920,6 @@ jint os::init_2(void) {
#endif
}
os::large_page_init();
// Setup Windows Exceptions
// for debugging float code generation bugs
@ -5429,7 +5430,7 @@ char* os::build_agent_function_name(const char *sym_name, const char *lib_name,
if ((start = strrchr(lib_name, *os::file_separator())) != NULL) {
lib_name = ++start;
} else {
// Need to check for C:
// Need to check for drive prefix
if ((start = strchr(lib_name, ':')) != NULL) {
lib_name = ++start;
}
@ -5714,7 +5715,66 @@ BOOL os::Advapi32Dll::AdvapiAvailable() {
#endif
#ifndef PRODUCT
// test the code path in reserve_memory_special() that tries to allocate memory in a single
// contiguous memory block at a particular address.
// The test first tries to find a good approximate address to allocate at by using the same
// method to allocate some memory at any address. The test then tries to allocate memory in
// the vicinity (not directly after it to avoid possible by-chance use of that location)
// This is of course only some dodgy assumption, there is no guarantee that the vicinity of
// the previously allocated memory is available for allocation. The only actual failure
// that is reported is when the test tries to allocate at a particular location but gets a
// different valid one. A NULL return value at this point is not considered an error but may
// be legitimate.
// If -XX:+VerboseInternalVMTests is enabled, print some explanatory messages.
void TestReserveMemorySpecial_test() {
// No tests available for this platform
if (!UseLargePages) {
if (VerboseInternalVMTests) {
gclog_or_tty->print("Skipping test because large pages are disabled");
}
return;
}
// save current value of globals
bool old_use_large_pages_individual_allocation = UseLargePagesIndividualAllocation;
bool old_use_numa_interleaving = UseNUMAInterleaving;
// set globals to make sure we hit the correct code path
UseLargePagesIndividualAllocation = UseNUMAInterleaving = false;
// do an allocation at an address selected by the OS to get a good one.
const size_t large_allocation_size = os::large_page_size() * 4;
char* result = os::reserve_memory_special(large_allocation_size, os::large_page_size(), NULL, false);
if (result == NULL) {
if (VerboseInternalVMTests) {
gclog_or_tty->print("Failed to allocate control block with size "SIZE_FORMAT". Skipping remainder of test.",
large_allocation_size);
}
} else {
os::release_memory_special(result, large_allocation_size);
// allocate another page within the recently allocated memory area which seems to be a good location. At least
// we managed to get it once.
const size_t expected_allocation_size = os::large_page_size();
char* expected_location = result + os::large_page_size();
char* actual_location = os::reserve_memory_special(expected_allocation_size, os::large_page_size(), expected_location, false);
if (actual_location == NULL) {
if (VerboseInternalVMTests) {
gclog_or_tty->print("Failed to allocate any memory at "PTR_FORMAT" size "SIZE_FORMAT". Skipping remainder of test.",
expected_location, large_allocation_size);
}
} else {
// release memory
os::release_memory_special(actual_location, expected_allocation_size);
// only now check, after releasing any memory to avoid any leaks.
assert(actual_location == expected_location,
err_msg("Failed to allocate memory at requested location "PTR_FORMAT" of size "SIZE_FORMAT", is "PTR_FORMAT" instead",
expected_location, expected_allocation_size, actual_location));
}
}
// restore globals
UseLargePagesIndividualAllocation = old_use_large_pages_individual_allocation;
UseNUMAInterleaving = old_use_numa_interleaving;
}
#endif
#endif // PRODUCT

4
hotspot/src/os_cpu/solaris_sparc/vm/globals_solaris_sparc.hpp
View File

@ -35,7 +35,9 @@ define_pd_global(intx, CompilerThreadStackSize, 0);
// Used on 64 bit platforms for UseCompressedOops base address
#ifdef _LP64
define_pd_global(uintx, HeapBaseMinAddress, CONST64(4)*G);
// use 6G as default base address because by default the OS maps the application
// to 4G on Solaris-Sparc. This leaves at least 2G for the native heap.
define_pd_global(uintx, HeapBaseMinAddress, CONST64(6)*G);
#else
define_pd_global(uintx, HeapBaseMinAddress, 2*G);
#endif

92
hotspot/src/os_cpu/windows_x86/vm/os_windows_x86.cpp
View File

@ -29,6 +29,7 @@
#include "classfile/vmSymbols.hpp"
#include "code/icBuffer.hpp"
#include "code/vtableStubs.hpp"
#include "decoder_windows.hpp"
#include "interpreter/interpreter.hpp"
#include "jvm_windows.h"
#include "memory/allocation.inline.hpp"
@ -327,6 +328,94 @@ add_ptr_func_t* os::atomic_add_ptr_func = os::atomic_add_ptr_bootstrap
cmpxchg_long_func_t* os::atomic_cmpxchg_long_func = os::atomic_cmpxchg_long_bootstrap;
#ifdef AMD64
/*
* Windows/x64 does not use stack frames the way expected by Java:
* [1] in most cases, there is no frame pointer. All locals are addressed via RSP
* [2] in rare cases, when alloca() is used, a frame pointer is used, but this may
* not be RBP.
* See http://msdn.microsoft.com/en-us/library/ew5tede7.aspx
*
* So it's not possible to print the native stack using the
* while (...) {... fr = os::get_sender_for_C_frame(&fr); }
* loop in vmError.cpp. We need to roll our own loop.
*/
bool os::platform_print_native_stack(outputStream* st, void* context,
char *buf, int buf_size)
{
CONTEXT ctx;
if (context != NULL) {
memcpy(&ctx, context, sizeof(ctx));
} else {
RtlCaptureContext(&ctx);
}
st->print_cr("Native frames: (J=compiled Java code, j=interpreted, Vv=VM code, C=native code)");
STACKFRAME stk;
memset(&stk, 0, sizeof(stk));
stk.AddrStack.Offset = ctx.Rsp;
stk.AddrStack.Mode = AddrModeFlat;
stk.AddrFrame.Offset = ctx.Rbp;
stk.AddrFrame.Mode = AddrModeFlat;
stk.AddrPC.Offset = ctx.Rip;
stk.AddrPC.Mode = AddrModeFlat;
int count = 0;
address lastpc = 0;
while (count++ < StackPrintLimit) {
intptr_t* sp = (intptr_t*)stk.AddrStack.Offset;
intptr_t* fp = (intptr_t*)stk.AddrFrame.Offset; // NOT necessarily the same as ctx.Rbp!
address pc = (address)stk.AddrPC.Offset;
if (pc != NULL && sp != NULL && fp != NULL) {
if (count == 2 && lastpc == pc) {
// Skip it -- StackWalk64() may return the same PC
// (but different SP) on the first try.
} else {
// Don't try to create a frame(sp, fp, pc) -- on WinX64, stk.AddrFrame
// may not contain what Java expects, and may cause the frame() constructor
// to crash. Let's just print out the symbolic address.
frame::print_C_frame(st, buf, buf_size, pc);
st->cr();
}
lastpc = pc;
} else {
break;
}
PVOID p = WindowsDbgHelp::SymFunctionTableAccess64(GetCurrentProcess(), stk.AddrPC.Offset);
if (!p) {
// StackWalk64() can't handle this PC. Calling StackWalk64 again may cause crash.
break;
}
BOOL result = WindowsDbgHelp::StackWalk64(
IMAGE_FILE_MACHINE_AMD64, // __in DWORD MachineType,
GetCurrentProcess(), // __in HANDLE hProcess,
GetCurrentThread(), // __in HANDLE hThread,
&stk, // __inout LP STACKFRAME64 StackFrame,
&ctx, // __inout PVOID ContextRecord,
NULL, // __in_opt PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine,
WindowsDbgHelp::pfnSymFunctionTableAccess64(),
// __in_opt PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine,
WindowsDbgHelp::pfnSymGetModuleBase64(),
// __in_opt PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine,
NULL); // __in_opt PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress
if (!result) {
break;
}
}
if (count > StackPrintLimit) {
st->print_cr("...<more frames>...");
}
st->cr();
return true;
}
#endif // AMD64
ExtendedPC os::fetch_frame_from_context(void* ucVoid,
intptr_t** ret_sp, intptr_t** ret_fp) {
@ -401,6 +490,9 @@ frame os::current_frame() {
StubRoutines::x86::get_previous_fp_entry());
if (func == NULL) return frame();
intptr_t* fp = (*func)();
if (fp == NULL) {
return frame();
}
#else
intptr_t* fp = _get_previous_fp();
#endif // AMD64

6
hotspot/src/os_cpu/windows_x86/vm/os_windows_x86.hpp
View File

@ -62,4 +62,10 @@
static bool register_code_area(char *low, char *high);
#ifdef AMD64
#define PLATFORM_PRINT_NATIVE_STACK 1
static bool platform_print_native_stack(outputStream* st, void* context,
char *buf, int buf_size);
#endif
#endif // OS_CPU_WINDOWS_X86_VM_OS_WINDOWS_X86_HPP

6
hotspot/src/share/tools/LogCompilation/README
View File

@ -4,14 +4,14 @@ It's main purpose is to recreate output similar to
requires a 1.5 JDK to build and simply typing make should build it.
It produces a jar file, logc.jar, that can be run on the
hotspot.log from LogCompilation output like this:
HotSpot log (by default, hotspot_pid{pid}.log) from LogCompilation output like this:
java -jar logc.jar hotspot.log
java -jar logc.jar hotspot_pid1234.log
This will produce something like the normal PrintCompilation output.
Adding the -i option with also report inlining like PrintInlining.
More information about the LogCompilation output can be found at
More information about the LogCompilation output can be found at
https://wikis.oracle.com/display/HotSpotInternals/LogCompilation+overview
https://wikis.oracle.com/display/HotSpotInternals/PrintCompilation

12
hotspot/src/share/vm/c1/c1_Runtime1.cpp
View File

@ -709,10 +709,10 @@ static Klass* resolve_field_return_klass(methodHandle caller, int bci, TRAPS) {
Bytecodes::Code code = field_access.code();
// We must load class, initialize class and resolvethe field
FieldAccessInfo result; // initialize class if needed
fieldDescriptor result; // initialize class if needed
constantPoolHandle constants(THREAD, caller->constants());
LinkResolver::resolve_field(result, constants, field_access.index(), Bytecodes::java_code(code), false, CHECK_NULL);
return result.klass()();
LinkResolver::resolve_field_access(result, constants, field_access.index(), Bytecodes::java_code(code), CHECK_NULL);
return result.field_holder();
}
@ -826,11 +826,11 @@ JRT_ENTRY(void, Runtime1::patch_code(JavaThread* thread, Runtime1::StubID stub_i
if (stub_id == Runtime1::access_field_patching_id) {
Bytecode_field field_access(caller_method, bci);
FieldAccessInfo result; // initialize class if needed
fieldDescriptor result; // initialize class if needed
Bytecodes::Code code = field_access.code();
constantPoolHandle constants(THREAD, caller_method->constants());
LinkResolver::resolve_field(result, constants, field_access.index(), Bytecodes::java_code(code), false, CHECK);
patch_field_offset = result.field_offset();
LinkResolver::resolve_field_access(result, constants, field_access.index(), Bytecodes::java_code(code), CHECK);
patch_field_offset = result.offset();
// If we're patching a field which is volatile then at compile it
// must not have been know to be volatile, so the generated code

18
hotspot/src/share/vm/ci/ciField.cpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1999, 2013, 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
@ -75,7 +75,6 @@ ciField::ciField(ciInstanceKlass* klass, int index): _known_to_link_with_put(NUL
assert(klass->get_instanceKlass()->is_linked(), "must be linked before using its constan-pool");
_cp_index = index;
constantPoolHandle cpool(thread, klass->get_instanceKlass()->constants());
// Get the field's name, signature, and type.
@ -116,7 +115,7 @@ ciField::ciField(ciInstanceKlass* klass, int index): _known_to_link_with_put(NUL
// The declared holder of this field may not have been loaded.
// Bail out with partial field information.
if (!holder_is_accessible) {
// _cp_index and _type have already been set.
// _type has already been set.
// The default values for _flags and _constant_value will suffice.
// We need values for _holder, _offset, and _is_constant,
_holder = declared_holder;
@ -146,8 +145,6 @@ ciField::ciField(ciInstanceKlass* klass, int index): _known_to_link_with_put(NUL
ciField::ciField(fieldDescriptor *fd): _known_to_link_with_put(NULL), _known_to_link_with_get(NULL) {
ASSERT_IN_VM;
_cp_index = -1;
// Get the field's name, signature, and type.
ciEnv* env = CURRENT_ENV;
_name = env->get_symbol(fd->name());
@ -351,12 +348,11 @@ bool ciField::will_link(ciInstanceKlass* accessing_klass,
}
}
FieldAccessInfo result;
constantPoolHandle c_pool(THREAD,
accessing_klass->get_instanceKlass()->constants());
LinkResolver::resolve_field(result, c_pool, _cp_index,
Bytecodes::java_code(bc),
true, false, KILL_COMPILE_ON_FATAL_(false));
fieldDescriptor result;
LinkResolver::resolve_field(result, _holder->get_instanceKlass(),
_name->get_symbol(), _signature->get_symbol(),
accessing_klass->get_Klass(), bc, true, false,
KILL_COMPILE_ON_FATAL_(false));
// update the hit-cache, unless there is a problem with memory scoping:
if (accessing_klass->is_shared() || !is_shared()) {

5
hotspot/src/share/vm/ci/ciField.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1999, 2013, 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
@ -53,9 +53,6 @@ private:
ciInstanceKlass* _known_to_link_with_get;
ciConstant _constant_value;
// Used for will_link
int _cp_index;
ciType* compute_type();
ciType* compute_type_impl();

5
hotspot/src/share/vm/ci/ciInstanceKlass.cpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1999, 2013, 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
@ -522,8 +522,7 @@ ciInstanceKlass::compute_nonstatic_fields_impl(GrowableArray<ciField*>*
for (JavaFieldStream fs(k); !fs.done(); fs.next()) {
if (fs.access_flags().is_static()) continue;
fieldDescriptor fd;
fd.initialize(k, fs.index());
fieldDescriptor& fd = fs.field_descriptor();
ciField* field = new (arena) ciField(&fd);
fields->append(field);
}

9
hotspot/src/share/vm/ci/ciMethod.cpp
View File

@ -286,7 +286,10 @@ int ciMethod::itable_index() {
check_is_loaded();
assert(holder()->is_linked(), "must be linked");
VM_ENTRY_MARK;
return klassItable::compute_itable_index(get_Method());
Method* m = get_Method();
if (!m->has_itable_index())
return Method::nonvirtual_vtable_index;
return m->itable_index();
}
#endif // SHARK
@ -1137,6 +1140,10 @@ bool ciMethod::is_klass_loaded(int refinfo_index, bool must_be_resolved) const {
// ------------------------------------------------------------------
// ciMethod::check_call
bool ciMethod::check_call(int refinfo_index, bool is_static) const {
// This method is used only in C2 from InlineTree::ok_to_inline,
// and is only used under -Xcomp or -XX:CompileTheWorld.
// It appears to fail when applied to an invokeinterface call site.
// FIXME: Remove this method and resolve_method_statically; refactor to use the other LinkResolver entry points.
VM_ENTRY_MARK;
{
EXCEPTION_MARK;

3
hotspot/src/share/vm/ci/ciSymbol.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1999, 2013, 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
@ -44,6 +44,7 @@ class ciSymbol : public ciBaseObject {
friend class ciInstanceKlass;
friend class ciSignature;
friend class ciMethod;
friend class ciField;
friend class ciObjArrayKlass;
private:

76
hotspot/src/share/vm/classfile/classFileParser.cpp
View File

@ -888,6 +888,7 @@ void ClassFileParser::parse_field_attributes(u2 attributes_count,
int runtime_visible_type_annotations_length = 0;
u1* runtime_invisible_type_annotations = NULL;
int runtime_invisible_type_annotations_length = 0;
bool runtime_invisible_type_annotations_exists = false;
while (attributes_count--) {
cfs->guarantee_more(6, CHECK); // attribute_name_index, attribute_length
u2 attribute_name_index = cfs->get_u2_fast();
@ -946,15 +947,27 @@ void ClassFileParser::parse_field_attributes(u2 attributes_count,
assert(runtime_invisible_annotations != NULL, "null invisible annotations");
cfs->skip_u1(runtime_invisible_annotations_length, CHECK);
} else if (attribute_name == vmSymbols::tag_runtime_visible_type_annotations()) {
if (runtime_visible_type_annotations != NULL) {
classfile_parse_error(
"Multiple RuntimeVisibleTypeAnnotations attributes for field in class file %s", CHECK);
}
runtime_visible_type_annotations_length = attribute_length;
runtime_visible_type_annotations = cfs->get_u1_buffer();
assert(runtime_visible_type_annotations != NULL, "null visible type annotations");
cfs->skip_u1(runtime_visible_type_annotations_length, CHECK);
} else if (PreserveAllAnnotations && attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) {
runtime_invisible_type_annotations_length = attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
cfs->skip_u1(runtime_invisible_type_annotations_length, CHECK);
} else if (attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) {
if (runtime_invisible_type_annotations_exists) {
classfile_parse_error(
"Multiple RuntimeInvisibleTypeAnnotations attributes for field in class file %s", CHECK);
} else {
runtime_invisible_type_annotations_exists = true;
}
if (PreserveAllAnnotations) {
runtime_invisible_type_annotations_length = attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
}
cfs->skip_u1(attribute_length, CHECK);
} else {
cfs->skip_u1(attribute_length, CHECK); // Skip unknown attributes
}
@ -2066,6 +2079,7 @@ methodHandle ClassFileParser::parse_method(bool is_interface,
int runtime_visible_type_annotations_length = 0;
u1* runtime_invisible_type_annotations = NULL;
int runtime_invisible_type_annotations_length = 0;
bool runtime_invisible_type_annotations_exists = false;
u1* annotation_default = NULL;
int annotation_default_length = 0;
@ -2322,16 +2336,30 @@ methodHandle ClassFileParser::parse_method(bool is_interface,
assert(annotation_default != NULL, "null annotation default");
cfs->skip_u1(annotation_default_length, CHECK_(nullHandle));
} else if (method_attribute_name == vmSymbols::tag_runtime_visible_type_annotations()) {
if (runtime_visible_type_annotations != NULL) {
classfile_parse_error(
"Multiple RuntimeVisibleTypeAnnotations attributes for method in class file %s",
CHECK_(nullHandle));
}
runtime_visible_type_annotations_length = method_attribute_length;
runtime_visible_type_annotations = cfs->get_u1_buffer();
assert(runtime_visible_type_annotations != NULL, "null visible type annotations");
// No need for the VM to parse Type annotations
cfs->skip_u1(runtime_visible_type_annotations_length, CHECK_(nullHandle));
} else if (PreserveAllAnnotations && method_attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) {
runtime_invisible_type_annotations_length = method_attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
cfs->skip_u1(runtime_invisible_type_annotations_length, CHECK_(nullHandle));
} else if (method_attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) {
if (runtime_invisible_type_annotations_exists) {
classfile_parse_error(
"Multiple RuntimeInvisibleTypeAnnotations attributes for method in class file %s",
CHECK_(nullHandle));
} else {
runtime_invisible_type_annotations_exists = true;
}
if (PreserveAllAnnotations) {
runtime_invisible_type_annotations_length = method_attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
}
cfs->skip_u1(method_attribute_length, CHECK_(nullHandle));
} else {
// Skip unknown attributes
cfs->skip_u1(method_attribute_length, CHECK_(nullHandle));
@ -2824,6 +2852,7 @@ void ClassFileParser::parse_classfile_attributes(ClassFileParser::ClassAnnotatio
int runtime_visible_type_annotations_length = 0;
u1* runtime_invisible_type_annotations = NULL;
int runtime_invisible_type_annotations_length = 0;
bool runtime_invisible_type_annotations_exists = false;
u1* inner_classes_attribute_start = NULL;
u4 inner_classes_attribute_length = 0;
u2 enclosing_method_class_index = 0;
@ -2927,16 +2956,28 @@ void ClassFileParser::parse_classfile_attributes(ClassFileParser::ClassAnnotatio
parsed_bootstrap_methods_attribute = true;
parse_classfile_bootstrap_methods_attribute(attribute_length, CHECK);
} else if (tag == vmSymbols::tag_runtime_visible_type_annotations()) {
if (runtime_visible_type_annotations != NULL) {
classfile_parse_error(
"Multiple RuntimeVisibleTypeAnnotations attributes in class file %s", CHECK);
}
runtime_visible_type_annotations_length = attribute_length;
runtime_visible_type_annotations = cfs->get_u1_buffer();
assert(runtime_visible_type_annotations != NULL, "null visible type annotations");
// No need for the VM to parse Type annotations
cfs->skip_u1(runtime_visible_type_annotations_length, CHECK);
} else if (PreserveAllAnnotations && tag == vmSymbols::tag_runtime_invisible_type_annotations()) {
runtime_invisible_type_annotations_length = attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
cfs->skip_u1(runtime_invisible_type_annotations_length, CHECK);
} else if (tag == vmSymbols::tag_runtime_invisible_type_annotations()) {
if (runtime_invisible_type_annotations_exists) {
classfile_parse_error(
"Multiple RuntimeInvisibleTypeAnnotations attributes in class file %s", CHECK);
} else {
runtime_invisible_type_annotations_exists = true;
}
if (PreserveAllAnnotations) {
runtime_invisible_type_annotations_length = attribute_length;
runtime_invisible_type_annotations = cfs->get_u1_buffer();
assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations");
}
cfs->skip_u1(attribute_length, CHECK);
} else {
// Unknown attribute
cfs->skip_u1(attribute_length, CHECK);
@ -3954,9 +3995,8 @@ instanceKlassHandle ClassFileParser::parseClassFile(Symbol* name,
this_klass->set_has_final_method();
}
this_klass->copy_method_ordering(method_ordering, CHECK_NULL);
// The InstanceKlass::_methods_jmethod_ids cache and the
// InstanceKlass::_methods_cached_itable_indices cache are
// both managed on the assumption that the initial cache
// The InstanceKlass::_methods_jmethod_ids cache
// is managed on the assumption that the initial cache
// size is equal to the number of methods in the class. If
// that changes, then InstanceKlass::idnum_can_increment()
// has to be changed accordingly.

28
hotspot/src/share/vm/classfile/classLoader.cpp
View File

@ -1319,6 +1319,25 @@ static void clear_pending_exception_if_not_oom(TRAPS) {
// The CHECK at the caller will propagate the exception out
}
/**
* Returns if the given method should be compiled when doing compile-the-world.
*
* TODO: This should be a private method in a CompileTheWorld class.
*/
static bool can_be_compiled(methodHandle m, int comp_level) {
assert(CompileTheWorld, "must be");
// It's not valid to compile a native wrapper for MethodHandle methods
// that take a MemberName appendix since the bytecode signature is not
// correct.
vmIntrinsics::ID iid = m->intrinsic_id();
if (MethodHandles::is_signature_polymorphic(iid) && MethodHandles::has_member_arg(iid)) {
return false;
}
return CompilationPolicy::can_be_compiled(m, comp_level);
}
void ClassLoader::compile_the_world_in(char* name, Handle loader, TRAPS) {
int len = (int)strlen(name);
if (len > 6 && strcmp(".class", name + len - 6) == 0) {
@ -1362,8 +1381,7 @@ void ClassLoader::compile_the_world_in(char* name, Handle loader, TRAPS) {
int comp_level = CompilationPolicy::policy()->initial_compile_level();
for (int n = 0; n < k->methods()->length(); n++) {
methodHandle m (THREAD, k->methods()->at(n));
if (CompilationPolicy::can_be_compiled(m, comp_level)) {
if (can_be_compiled(m, comp_level)) {
if (++_codecache_sweep_counter == CompileTheWorldSafepointInterval) {
// Give sweeper a chance to keep up with CTW
VM_ForceSafepoint op;
@ -1375,7 +1393,7 @@ void ClassLoader::compile_the_world_in(char* name, Handle loader, TRAPS) {
methodHandle(), 0, "CTW", THREAD);
if (HAS_PENDING_EXCEPTION) {
clear_pending_exception_if_not_oom(CHECK);
tty->print_cr("CompileTheWorld (%d) : Skipping method: %s", _compile_the_world_class_counter, m->name()->as_C_string());
tty->print_cr("CompileTheWorld (%d) : Skipping method: %s", _compile_the_world_class_counter, m->name_and_sig_as_C_string());
} else {
_compile_the_world_method_counter++;
}
@ -1391,11 +1409,13 @@ void ClassLoader::compile_the_world_in(char* name, Handle loader, TRAPS) {
methodHandle(), 0, "CTW", THREAD);
if (HAS_PENDING_EXCEPTION) {
clear_pending_exception_if_not_oom(CHECK);
tty->print_cr("CompileTheWorld (%d) : Skipping method: %s", _compile_the_world_class_counter, m->name()->as_C_string());
tty->print_cr("CompileTheWorld (%d) : Skipping method: %s", _compile_the_world_class_counter, m->name_and_sig_as_C_string());
} else {
_compile_the_world_method_counter++;
}
}
} else {
tty->print_cr("CompileTheWorld (%d) : Skipping method: %s", _compile_the_world_class_counter, m->name_and_sig_as_C_string());
}
nmethod* nm = m->code();

18
hotspot/src/share/vm/classfile/defaultMethods.cpp
View File

@ -450,6 +450,10 @@ class MethodFamily : public ResourceObj {
streamIndentor si(str, indent * 2);
str->indent().print("Selected method: ");
print_method(str, _selected_target);
Klass* method_holder = _selected_target->method_holder();
if (!method_holder->is_interface()) {
tty->print(" : in superclass");
}
str->print_cr("");
}
@ -1141,19 +1145,23 @@ static void create_overpasses(
#endif // ndef PRODUCT
if (method->has_target()) {
Method* selected = method->get_selected_target();
max_stack = assemble_redirect(
if (selected->method_holder()->is_interface()) {
max_stack = assemble_redirect(
&bpool, &buffer, slot->signature(), selected, CHECK);
}
} else if (method->throws_exception()) {
max_stack = assemble_abstract_method_error(
&bpool, &buffer, method->get_exception_message(), CHECK);
}
AccessFlags flags = accessFlags_from(
if (max_stack != 0) {
AccessFlags flags = accessFlags_from(
JVM_ACC_PUBLIC | JVM_ACC_SYNTHETIC | JVM_ACC_BRIDGE);
Method* m = new_method(&bpool, &buffer, slot->name(), slot->signature(),
Method* m = new_method(&bpool, &buffer, slot->name(), slot->signature(),
flags, max_stack, slot->size_of_parameters(),
ConstMethod::OVERPASS, CHECK);
if (m != NULL) {
overpasses.push(m);
if (m != NULL) {
overpasses.push(m);
}
}
}
}

27
hotspot/src/share/vm/code/compiledIC.cpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1997, 2013, 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
@ -161,31 +161,36 @@ address CompiledIC::stub_address() const {
void CompiledIC::set_to_megamorphic(CallInfo* call_info, Bytecodes::Code bytecode, TRAPS) {
methodHandle method = call_info->selected_method();
bool is_invoke_interface = (bytecode == Bytecodes::_invokeinterface && !call_info->has_vtable_index());
assert(CompiledIC_lock->is_locked() || SafepointSynchronize::is_at_safepoint(), "");
assert(!is_optimized(), "cannot set an optimized virtual call to megamorphic");
assert(is_call_to_compiled() || is_call_to_interpreted(), "going directly to megamorphic?");
address entry;
if (is_invoke_interface) {
int index = klassItable::compute_itable_index(call_info->resolved_method()());
entry = VtableStubs::create_stub(false, index, method());
if (call_info->call_kind() == CallInfo::itable_call) {
assert(bytecode == Bytecodes::_invokeinterface, "");
int itable_index = call_info->itable_index();
entry = VtableStubs::find_itable_stub(itable_index);
#ifdef ASSERT
assert(entry != NULL, "entry not computed");
int index = call_info->resolved_method()->itable_index();
assert(index == itable_index, "CallInfo pre-computes this");
#endif //ASSERT
InstanceKlass* k = call_info->resolved_method()->method_holder();
assert(k->is_interface(), "sanity check");
assert(k->verify_itable_index(itable_index), "sanity check");
InlineCacheBuffer::create_transition_stub(this, k, entry);
} else {
// Can be different than method->vtable_index(), due to package-private etc.
assert(call_info->call_kind() == CallInfo::vtable_call, "either itable or vtable");
// Can be different than selected_method->vtable_index(), due to package-private etc.
int vtable_index = call_info->vtable_index();
entry = VtableStubs::create_stub(true, vtable_index, method());
InlineCacheBuffer::create_transition_stub(this, method(), entry);
assert(call_info->resolved_klass()->verify_vtable_index(vtable_index), "sanity check");
entry = VtableStubs::find_vtable_stub(vtable_index);
InlineCacheBuffer::create_transition_stub(this, NULL, entry);
}
if (TraceICs) {
ResourceMark rm;
tty->print_cr ("IC@" INTPTR_FORMAT ": to megamorphic %s entry: " INTPTR_FORMAT,
instruction_address(), method->print_value_string(), entry);
instruction_address(), call_info->selected_method()->print_value_string(), entry);
}
// We can't check this anymore. With lazy deopt we could have already

2
hotspot/src/share/vm/code/vtableStubs.cpp
View File

@ -111,7 +111,7 @@ void VtableStubs::initialize() {
}
address VtableStubs::create_stub(bool is_vtable_stub, int vtable_index, Method* method) {
address VtableStubs::find_stub(bool is_vtable_stub, int vtable_index) {
assert(vtable_index >= 0, "must be positive");
VtableStub* s = ShareVtableStubs ? lookup(is_vtable_stub, vtable_index) : NULL;

4
hotspot/src/share/vm/code/vtableStubs.hpp
View File

@ -121,9 +121,11 @@ class VtableStubs : AllStatic {
static VtableStub* lookup (bool is_vtable_stub, int vtable_index);
static void enter (bool is_vtable_stub, int vtable_index, VtableStub* s);
static inline uint hash (bool is_vtable_stub, int vtable_index);
static address find_stub (bool is_vtable_stub, int vtable_index);
public:
static address create_stub(bool is_vtable_stub, int vtable_index, Method* method); // return the entry point of a stub for this call
static address find_vtable_stub(int vtable_index) { return find_stub(true, vtable_index); }
static address find_itable_stub(int itable_index) { return find_stub(false, itable_index); }
static bool is_entry_point(address pc); // is pc a vtable stub entry point?
static bool contains(address pc); // is pc within any stub?
static VtableStub* stub_containing(address pc); // stub containing pc or NULL

4
hotspot/src/share/vm/gc_implementation/concurrentMarkSweep/concurrentMarkSweepGeneration.cpp
View File

@ -230,7 +230,7 @@ ConcurrentMarkSweepGeneration::ConcurrentMarkSweepGeneration(
// depends on this property.
debug_only(
FreeChunk* junk = NULL;
assert(UseCompressedKlassPointers ||
assert(UseCompressedClassPointers ||
junk->prev_addr() == (void*)(oop(junk)->klass_addr()),
"Offset of FreeChunk::_prev within FreeChunk must match"
" that of OopDesc::_klass within OopDesc");
@ -1407,7 +1407,7 @@ ConcurrentMarkSweepGeneration::par_promote(int thread_num,
assert(!((FreeChunk*)obj_ptr)->is_free(), "Error, block will look free but show wrong size");
OrderAccess::storestore();
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
// Copy gap missed by (aligned) header size calculation below
obj->set_klass_gap(old->klass_gap());
}

5
hotspot/src/share/vm/gc_implementation/g1/concurrentMark.cpp
View File

@ -481,9 +481,8 @@ uint ConcurrentMark::scale_parallel_threads(uint n_par_threads) {
ConcurrentMark::ConcurrentMark(G1CollectedHeap* g1h, ReservedSpace heap_rs) :
_g1h(g1h),
_markBitMap1(MinObjAlignment - 1),
_markBitMap2(MinObjAlignment - 1),
_markBitMap1(log2_intptr(MinObjAlignment)),
_markBitMap2(log2_intptr(MinObjAlignment)),
_parallel_marking_threads(0),
_max_parallel_marking_threads(0),
_sleep_factor(0.0),

4
hotspot/src/share/vm/gc_implementation/g1/g1CardCounts.cpp
View File

@ -33,8 +33,8 @@
void G1CardCounts::clear_range(size_t from_card_num, size_t to_card_num) {
if (has_count_table()) {
check_card_num(from_card_num,
err_msg("from card num out of range: "SIZE_FORMAT, from_card_num));
assert(from_card_num >= 0 && from_card_num < _committed_max_card_num,
err_msg("from card num out of range: "SIZE_FORMAT, from_card_num));
assert(from_card_num < to_card_num,
err_msg("Wrong order? from: " SIZE_FORMAT ", to: "SIZE_FORMAT,
from_card_num, to_card_num));

14
hotspot/src/share/vm/gc_implementation/g1/g1CardCounts.hpp
View File

@ -72,25 +72,21 @@ class G1CardCounts: public CHeapObj<mtGC> {
return has_reserved_count_table() && _committed_max_card_num > 0;
}
void check_card_num(size_t card_num, const char* msg) {
assert(card_num >= 0 && card_num < _committed_max_card_num, msg);
}
size_t ptr_2_card_num(const jbyte* card_ptr) {
assert(card_ptr >= _ct_bot,
err_msg("Inavalied card pointer: "
err_msg("Invalid card pointer: "
"card_ptr: " PTR_FORMAT ", "
"_ct_bot: " PTR_FORMAT,
card_ptr, _ct_bot));
size_t card_num = pointer_delta(card_ptr, _ct_bot, sizeof(jbyte));
check_card_num(card_num,
err_msg("card pointer out of range: " PTR_FORMAT, card_ptr));
assert(card_num >= 0 && card_num < _committed_max_card_num,
err_msg("card pointer out of range: " PTR_FORMAT, card_ptr));
return card_num;
}
jbyte* card_num_2_ptr(size_t card_num) {
check_card_num(card_num,
err_msg("card num out of range: "SIZE_FORMAT, card_num));
assert(card_num >= 0 && card_num < _committed_max_card_num,
err_msg("card num out of range: "SIZE_FORMAT, card_num));
return (jbyte*) (_ct_bot + card_num);
}

4
hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.cpp
View File

@ -2191,6 +2191,10 @@ jint G1CollectedHeap::initialize() {
return JNI_OK;
}
size_t G1CollectedHeap::conservative_max_heap_alignment() {
return HeapRegion::max_region_size();
}
void G1CollectedHeap::ref_processing_init() {
// Reference processing in G1 currently works as follows:
//

3
hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.hpp
View File

@ -1092,6 +1092,9 @@ public:
// specified by the policy object.
jint initialize();
// Return the (conservative) maximum heap alignment for any G1 heap
static size_t conservative_max_heap_alignment();
// Initialize weak reference processing.
virtual void ref_processing_init();

6
hotspot/src/share/vm/gc_implementation/g1/heapRegion.cpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2001, 2013, 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
@ -149,6 +149,10 @@ void HeapRegionDCTOC::walk_mem_region_with_cl(MemRegion mr,
// many regions in the heap (based on the min heap size).
#define TARGET_REGION_NUMBER 2048
size_t HeapRegion::max_region_size() {
return (size_t)MAX_REGION_SIZE;
}
void HeapRegion::setup_heap_region_size(size_t initial_heap_size, size_t max_heap_size) {
uintx region_size = G1HeapRegionSize;
if (FLAG_IS_DEFAULT(G1HeapRegionSize)) {

4
hotspot/src/share/vm/gc_implementation/g1/heapRegion.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2001, 2013, 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
@ -355,6 +355,8 @@ class HeapRegion: public G1OffsetTableContigSpace {
~((1 << (size_t) LogOfHRGrainBytes) - 1);
}
static size_t max_region_size();
// It sets up the heap region size (GrainBytes / GrainWords), as
// well as other related fields that are based on the heap region
// size (LogOfHRGrainBytes / LogOfHRGrainWords /

1
hotspot/src/share/vm/gc_implementation/g1/ptrQueue.hpp
View File

@ -38,6 +38,7 @@
class PtrQueueSet;
class PtrQueue VALUE_OBJ_CLASS_SPEC {
friend class VMStructs;
protected:
// The ptr queue set to which this queue belongs.

3
hotspot/src/share/vm/gc_implementation/g1/vmStructs_g1.hpp
View File

@ -31,7 +31,8 @@
#define VM_STRUCTS_G1(nonstatic_field, static_field) \
\
static_field(HeapRegion, GrainBytes, size_t) \
static_field(HeapRegion, GrainBytes, size_t) \
static_field(HeapRegion, LogOfHRGrainBytes, int) \
\
nonstatic_field(HeapRegionSeq, _regions, HeapRegion**) \
nonstatic_field(HeapRegionSeq, _length, uint) \

5
hotspot/src/share/vm/gc_implementation/parallelScavenge/generationSizer.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2001, 2013, 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
@ -68,9 +68,6 @@ class GenerationSizer : public TwoGenerationCollectorPolicy {
size_t min_old_gen_size() { return _min_gen1_size; }
size_t old_gen_size() { return _initial_gen1_size; }
size_t max_old_gen_size() { return _max_gen1_size; }
size_t metaspace_size() { return MetaspaceSize; }
size_t max_metaspace_size() { return MaxMetaspaceSize; }
};
#endif // SHARE_VM_GC_IMPLEMENTATION_PARALLELSCAVENGE_GENERATIONSIZER_HPP

7
hotspot/src/share/vm/gc_implementation/parallelScavenge/parallelScavengeHeap.hpp
View File

@ -86,6 +86,11 @@ class ParallelScavengeHeap : public CollectedHeap {
set_alignment(_old_gen_alignment, intra_heap_alignment());
}
// Return the (conservative) maximum heap alignment
static size_t conservative_max_heap_alignment() {
return intra_heap_alignment();
}
// For use by VM operations
enum CollectionType {
Scavenge,
@ -122,7 +127,7 @@ class ParallelScavengeHeap : public CollectedHeap {
// The alignment used for eden and survivors within the young gen
// and for boundary between young gen and old gen.
size_t intra_heap_alignment() const { return 64 * K * HeapWordSize; }
static size_t intra_heap_alignment() { return 64 * K * HeapWordSize; }
size_t capacity() const;
size_t used() const;

6
hotspot/src/share/vm/gc_implementation/shared/allocationStats.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2001, 2013, 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
@ -26,11 +26,9 @@
#define SHARE_VM_GC_IMPLEMENTATION_SHARED_ALLOCATIONSTATS_HPP
#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
#include "gc_implementation/shared/gcUtil.hpp"
#include "memory/allocation.hpp"
#include "utilities/globalDefinitions.hpp"
#endif // INCLUDE_ALL_GCS
#include "gc_implementation/shared/gcUtil.hpp"
class AllocationStats VALUE_OBJ_CLASS_SPEC {
// A duration threshold (in ms) used to filter

4
hotspot/src/share/vm/gc_implementation/shared/hSpaceCounters.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2011, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2011, 2013, 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
@ -26,11 +26,9 @@
#define SHARE_VM_GC_IMPLEMENTATION_SHARED_HSPACECOUNTERS_HPP
#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
#include "gc_implementation/shared/generationCounters.hpp"
#include "memory/generation.hpp"
#include "runtime/perfData.hpp"
#endif // INCLUDE_ALL_GCS
// A HSpaceCounter is a holder class for performance counters
// that track a collections (logical spaces) in a heap;

6
hotspot/src/share/vm/gc_interface/collectedHeap.cpp
View File

@ -87,15 +87,15 @@ MetaspaceSummary CollectedHeap::create_metaspace_summary() {
const MetaspaceSizes meta_space(
MetaspaceAux::allocated_capacity_bytes(),
MetaspaceAux::allocated_used_bytes(),
MetaspaceAux::reserved_in_bytes());
MetaspaceAux::reserved_bytes());
const MetaspaceSizes data_space(
MetaspaceAux::allocated_capacity_bytes(Metaspace::NonClassType),
MetaspaceAux::allocated_used_bytes(Metaspace::NonClassType),
MetaspaceAux::reserved_in_bytes(Metaspace::NonClassType));
MetaspaceAux::reserved_bytes(Metaspace::NonClassType));
const MetaspaceSizes class_space(
MetaspaceAux::allocated_capacity_bytes(Metaspace::ClassType),
MetaspaceAux::allocated_used_bytes(Metaspace::ClassType),
MetaspaceAux::reserved_in_bytes(Metaspace::ClassType));
MetaspaceAux::reserved_bytes(Metaspace::ClassType));
return MetaspaceSummary(meta_space, data_space, class_space);
}

52
hotspot/src/share/vm/interpreter/interpreterRuntime.cpp
View File

@ -496,15 +496,15 @@ IRT_END
IRT_ENTRY(void, InterpreterRuntime::resolve_get_put(JavaThread* thread, Bytecodes::Code bytecode))
// resolve field
FieldAccessInfo info;
fieldDescriptor info;
constantPoolHandle pool(thread, method(thread)->constants());
bool is_put = (bytecode == Bytecodes::_putfield || bytecode == Bytecodes::_putstatic);
bool is_static = (bytecode == Bytecodes::_getstatic || bytecode == Bytecodes::_putstatic);
{
JvmtiHideSingleStepping jhss(thread);
LinkResolver::resolve_field(info, pool, get_index_u2_cpcache(thread, bytecode),
bytecode, false, CHECK);
LinkResolver::resolve_field_access(info, pool, get_index_u2_cpcache(thread, bytecode),
bytecode, CHECK);
} // end JvmtiHideSingleStepping
// check if link resolution caused cpCache to be updated
@ -524,7 +524,7 @@ IRT_ENTRY(void, InterpreterRuntime::resolve_get_put(JavaThread* thread, Bytecode
// class is intitialized. This is required so that access to the static
// field will call the initialization function every time until the class
// is completely initialized ala. in 2.17.5 in JVM Specification.
InstanceKlass *klass = InstanceKlass::cast(info.klass()());
InstanceKlass* klass = InstanceKlass::cast(info.field_holder());
bool uninitialized_static = ((bytecode == Bytecodes::_getstatic || bytecode == Bytecodes::_putstatic) &&
!klass->is_initialized());
Bytecodes::Code get_code = (Bytecodes::Code)0;
@ -539,9 +539,9 @@ IRT_ENTRY(void, InterpreterRuntime::resolve_get_put(JavaThread* thread, Bytecode
cache_entry(thread)->set_field(
get_code,
put_code,
info.klass(),
info.field_index(),
info.field_offset(),
info.field_holder(),
info.index(),
info.offset(),
state,
info.access_flags().is_final(),
info.access_flags().is_volatile(),
@ -686,29 +686,55 @@ IRT_ENTRY(void, InterpreterRuntime::resolve_invoke(JavaThread* thread, Bytecodes
if (already_resolved(thread)) return;
if (bytecode == Bytecodes::_invokeinterface) {
if (TraceItables && Verbose) {
ResourceMark rm(thread);
tty->print_cr("Resolving: klass: %s to method: %s", info.resolved_klass()->name()->as_C_string(), info.resolved_method()->name()->as_C_string());
}
}
#ifdef ASSERT
if (bytecode == Bytecodes::_invokeinterface) {
if (info.resolved_method()->method_holder() ==
SystemDictionary::Object_klass()) {
// NOTE: THIS IS A FIX FOR A CORNER CASE in the JVM spec
// (see also cpCacheOop.cpp for details)
// (see also CallInfo::set_interface for details)
assert(info.call_kind() == CallInfo::vtable_call ||
info.call_kind() == CallInfo::direct_call, "");
methodHandle rm = info.resolved_method();
assert(rm->is_final() || info.has_vtable_index(),
"should have been set already");
cache_entry(thread)->set_method(bytecode, rm, info.vtable_index());
} else if (!info.resolved_method()->has_itable_index()) {
// Resolved something like CharSequence.toString. Use vtable not itable.
assert(info.call_kind() != CallInfo::itable_call, "");
} else {
// Setup itable entry
int index = klassItable::compute_itable_index(info.resolved_method()());
cache_entry(thread)->set_interface_call(info.resolved_method(), index);
assert(info.call_kind() == CallInfo::itable_call, "");
int index = info.resolved_method()->itable_index();
assert(info.itable_index() == index, "");
}
} else {
cache_entry(thread)->set_method(
assert(info.call_kind() == CallInfo::direct_call ||
info.call_kind() == CallInfo::vtable_call, "");
}
#endif
switch (info.call_kind()) {
case CallInfo::direct_call:
cache_entry(thread)->set_direct_call(
bytecode,
info.resolved_method());
break;
case CallInfo::vtable_call:
cache_entry(thread)->set_vtable_call(
bytecode,
info.resolved_method(),
info.vtable_index());
break;
case CallInfo::itable_call:
cache_entry(thread)->set_itable_call(
bytecode,
info.resolved_method(),
info.itable_index());
break;
default: ShouldNotReachHere();
}
}
IRT_END

213
hotspot/src/share/vm/interpreter/linkResolver.cpp
View File

@ -46,19 +46,6 @@
#include "runtime/thread.inline.hpp"
#include "runtime/vmThread.hpp"
//------------------------------------------------------------------------------------------------------------------------
// Implementation of FieldAccessInfo
void FieldAccessInfo::set(KlassHandle klass, Symbol* name, int field_index, int field_offset,
BasicType field_type, AccessFlags access_flags) {
_klass = klass;
_name = name;
_field_index = field_index;
_field_offset = field_offset;
_field_type = field_type;
_access_flags = access_flags;
}
//------------------------------------------------------------------------------------------------------------------------
// Implementation of CallInfo
@ -66,26 +53,25 @@ BasicType field_type, AccessFlags access_flags) {
void CallInfo::set_static(KlassHandle resolved_klass, methodHandle resolved_method, TRAPS) {
int vtable_index = Method::nonvirtual_vtable_index;
set_common(resolved_klass, resolved_klass, resolved_method, resolved_method, vtable_index, CHECK);
set_common(resolved_klass, resolved_klass, resolved_method, resolved_method, CallInfo::direct_call, vtable_index, CHECK);
}
void CallInfo::set_interface(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, TRAPS) {
void CallInfo::set_interface(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int itable_index, TRAPS) {
// This is only called for interface methods. If the resolved_method
// comes from java/lang/Object, it can be the subject of a virtual call, so
// we should pick the vtable index from the resolved method.
// Other than that case, there is no valid vtable index to specify.
int vtable_index = Method::invalid_vtable_index;
if (resolved_method->method_holder() == SystemDictionary::Object_klass()) {
assert(resolved_method->vtable_index() == selected_method->vtable_index(), "sanity check");
vtable_index = resolved_method->vtable_index();
}
set_common(resolved_klass, selected_klass, resolved_method, selected_method, vtable_index, CHECK);
// In that case, the caller must call set_virtual instead of set_interface.
assert(resolved_method->method_holder()->is_interface(), "");
assert(itable_index == resolved_method()->itable_index(), "");
set_common(resolved_klass, selected_klass, resolved_method, selected_method, CallInfo::itable_call, itable_index, CHECK);
}
void CallInfo::set_virtual(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int vtable_index, TRAPS) {
assert(vtable_index >= 0 || vtable_index == Method::nonvirtual_vtable_index, "valid index");
set_common(resolved_klass, selected_klass, resolved_method, selected_method, vtable_index, CHECK);
assert(vtable_index < 0 || !resolved_method->has_vtable_index() || vtable_index == resolved_method->vtable_index(), "");
CallKind kind = (vtable_index >= 0 && !resolved_method->can_be_statically_bound() ? CallInfo::vtable_call : CallInfo::direct_call);
set_common(resolved_klass, selected_klass, resolved_method, selected_method, kind, vtable_index, CHECK);
assert(!resolved_method->is_compiled_lambda_form(), "these must be handled via an invokehandle call");
}
@ -98,20 +84,29 @@ void CallInfo::set_handle(methodHandle resolved_method, Handle resolved_appendix
resolved_method->is_compiled_lambda_form(),
"linkMethod must return one of these");
int vtable_index = Method::nonvirtual_vtable_index;
assert(resolved_method->vtable_index() == vtable_index, "");
set_common(resolved_klass, resolved_klass, resolved_method, resolved_method, vtable_index, CHECK);
assert(!resolved_method->has_vtable_index(), "");
set_common(resolved_klass, resolved_klass, resolved_method, resolved_method, CallInfo::direct_call, vtable_index, CHECK);
_resolved_appendix = resolved_appendix;
_resolved_method_type = resolved_method_type;
}
void CallInfo::set_common(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int vtable_index, TRAPS) {
void CallInfo::set_common(KlassHandle resolved_klass,
KlassHandle selected_klass,
methodHandle resolved_method,
methodHandle selected_method,
CallKind kind,
int index,
TRAPS) {
assert(resolved_method->signature() == selected_method->signature(), "signatures must correspond");
_resolved_klass = resolved_klass;
_selected_klass = selected_klass;
_resolved_method = resolved_method;
_selected_method = selected_method;
_vtable_index = vtable_index;
_call_kind = kind;
_call_index = index;
_resolved_appendix = Handle();
DEBUG_ONLY(verify()); // verify before making side effects
if (CompilationPolicy::must_be_compiled(selected_method)) {
// This path is unusual, mostly used by the '-Xcomp' stress test mode.
@ -138,6 +133,65 @@ void CallInfo::set_common(KlassHandle resolved_klass, KlassHandle selected_klass
}
}
// utility query for unreflecting a method
CallInfo::CallInfo(Method* resolved_method, Klass* resolved_klass) {
Klass* resolved_method_holder = resolved_method->method_holder();
if (resolved_klass == NULL) { // 2nd argument defaults to holder of 1st
resolved_klass = resolved_method_holder;
}
_resolved_klass = resolved_klass;
_selected_klass = resolved_klass;
_resolved_method = resolved_method;
_selected_method = resolved_method;
// classify:
CallKind kind = CallInfo::unknown_kind;
int index = resolved_method->vtable_index();
if (resolved_method->can_be_statically_bound()) {
kind = CallInfo::direct_call;
} else if (!resolved_method_holder->is_interface()) {
// Could be an Object method inherited into an interface, but still a vtable call.
kind = CallInfo::vtable_call;
} else if (!resolved_klass->is_interface()) {
// A miranda method. Compute the vtable index.
ResourceMark rm;
klassVtable* vt = InstanceKlass::cast(resolved_klass)->vtable();
index = vt->index_of_miranda(resolved_method->name(),
resolved_method->signature());
kind = CallInfo::vtable_call;
} else {
// A regular interface call.
kind = CallInfo::itable_call;
index = resolved_method->itable_index();
}
assert(index == Method::nonvirtual_vtable_index || index >= 0, err_msg("bad index %d", index));
_call_kind = kind;
_call_index = index;
_resolved_appendix = Handle();
DEBUG_ONLY(verify());
}
#ifdef ASSERT
void CallInfo::verify() {
switch (call_kind()) { // the meaning and allowed value of index depends on kind
case CallInfo::direct_call:
if (_call_index == Method::nonvirtual_vtable_index) break;
// else fall through to check vtable index:
case CallInfo::vtable_call:
assert(resolved_klass()->verify_vtable_index(_call_index), "");
break;
case CallInfo::itable_call:
assert(resolved_method()->method_holder()->verify_itable_index(_call_index), "");
break;
case CallInfo::unknown_kind:
assert(call_kind() != CallInfo::unknown_kind, "CallInfo must be set");
break;
default:
fatal(err_msg_res("Unexpected call kind %d", call_kind()));
}
}
#endif //ASSERT
//------------------------------------------------------------------------------------------------------------------------
// Klass resolution
@ -163,13 +217,6 @@ void LinkResolver::resolve_klass(KlassHandle& result, constantPoolHandle pool, i
result = KlassHandle(THREAD, result_oop);
}
void LinkResolver::resolve_klass_no_update(KlassHandle& result, constantPoolHandle pool, int index, TRAPS) {
Klass* result_oop =
ConstantPool::klass_ref_at_if_loaded_check(pool, index, CHECK);
result = KlassHandle(THREAD, result_oop);
}
//------------------------------------------------------------------------------------------------------------------------
// Method resolution
//
@ -360,7 +407,12 @@ void LinkResolver::check_method_accessability(KlassHandle ref_klass,
void LinkResolver::resolve_method_statically(methodHandle& resolved_method, KlassHandle& resolved_klass,
Bytecodes::Code code, constantPoolHandle pool, int index, TRAPS) {
// This method is used only
// (1) in C2 from InlineTree::ok_to_inline (via ciMethod::check_call),
// and
// (2) in Bytecode_invoke::static_target
// It appears to fail when applied to an invokeinterface call site.
// FIXME: Remove this method and ciMethod::check_call; refactor to use the other LinkResolver entry points.
// resolve klass
if (code == Bytecodes::_invokedynamic) {
resolved_klass = SystemDictionary::MethodHandle_klass();
@ -580,45 +632,49 @@ void LinkResolver::check_field_accessability(KlassHandle ref_klass,
}
}
void LinkResolver::resolve_field(FieldAccessInfo& result, constantPoolHandle pool, int index, Bytecodes::Code byte, bool check_only, TRAPS) {
resolve_field(result, pool, index, byte, check_only, true, CHECK);
void LinkResolver::resolve_field_access(fieldDescriptor& result, constantPoolHandle pool, int index, Bytecodes::Code byte, TRAPS) {
// Load these early in case the resolve of the containing klass fails
Symbol* field = pool->name_ref_at(index);
Symbol* sig = pool->signature_ref_at(index);
// resolve specified klass
KlassHandle resolved_klass;
resolve_klass(resolved_klass, pool, index, CHECK);
KlassHandle current_klass(THREAD, pool->pool_holder());
resolve_field(result, resolved_klass, field, sig, current_klass, byte, true, true, CHECK);
}
void LinkResolver::resolve_field(FieldAccessInfo& result, constantPoolHandle pool, int index, Bytecodes::Code byte, bool check_only, bool update_pool, TRAPS) {
void LinkResolver::resolve_field(fieldDescriptor& fd, KlassHandle resolved_klass, Symbol* field, Symbol* sig,
KlassHandle current_klass, Bytecodes::Code byte, bool check_access, bool initialize_class,
TRAPS) {
assert(byte == Bytecodes::_getstatic || byte == Bytecodes::_putstatic ||
byte == Bytecodes::_getfield || byte == Bytecodes::_putfield, "bad bytecode");
byte == Bytecodes::_getfield || byte == Bytecodes::_putfield ||
(byte == Bytecodes::_nop && !check_access), "bad field access bytecode");
bool is_static = (byte == Bytecodes::_getstatic || byte == Bytecodes::_putstatic);
bool is_put = (byte == Bytecodes::_putfield || byte == Bytecodes::_putstatic);
// resolve specified klass
KlassHandle resolved_klass;
if (update_pool) {
resolve_klass(resolved_klass, pool, index, CHECK);
} else {
resolve_klass_no_update(resolved_klass, pool, index, CHECK);
}
// Load these early in case the resolve of the containing klass fails
Symbol* field = pool->name_ref_at(index);
Symbol* sig = pool->signature_ref_at(index);
// Check if there's a resolved klass containing the field
if( resolved_klass.is_null() ) {
if (resolved_klass.is_null()) {
ResourceMark rm(THREAD);
THROW_MSG(vmSymbols::java_lang_NoSuchFieldError(), field->as_C_string());
}
// Resolve instance field
fieldDescriptor fd; // find_field initializes fd if found
KlassHandle sel_klass(THREAD, InstanceKlass::cast(resolved_klass())->find_field(field, sig, &fd));
// check if field exists; i.e., if a klass containing the field def has been selected
if (sel_klass.is_null()){
if (sel_klass.is_null()) {
ResourceMark rm(THREAD);
THROW_MSG(vmSymbols::java_lang_NoSuchFieldError(), field->as_C_string());
}
if (!check_access)
// Access checking may be turned off when calling from within the VM.
return;
// check access
KlassHandle ref_klass(THREAD, pool->pool_holder());
check_field_accessability(ref_klass, resolved_klass, sel_klass, fd, CHECK);
check_field_accessability(current_klass, resolved_klass, sel_klass, fd, CHECK);
// check for errors
if (is_static != fd.is_static()) {
@ -629,7 +685,7 @@ void LinkResolver::resolve_field(FieldAccessInfo& result, constantPoolHandle poo
}
// Final fields can only be accessed from its own class.
if (is_put && fd.access_flags().is_final() && sel_klass() != pool->pool_holder()) {
if (is_put && fd.access_flags().is_final() && sel_klass() != current_klass()) {
THROW(vmSymbols::java_lang_IllegalAccessError());
}
@ -639,19 +695,18 @@ void LinkResolver::resolve_field(FieldAccessInfo& result, constantPoolHandle poo
//
// note 2: we don't want to force initialization if we are just checking
// if the field access is legal; e.g., during compilation
if (is_static && !check_only) {
if (is_static && initialize_class) {
sel_klass->initialize(CHECK);
}
{
if (sel_klass() != current_klass()) {
HandleMark hm(THREAD);
Handle ref_loader (THREAD, InstanceKlass::cast(ref_klass())->class_loader());
Handle ref_loader (THREAD, InstanceKlass::cast(current_klass())->class_loader());
Handle sel_loader (THREAD, InstanceKlass::cast(sel_klass())->class_loader());
Symbol* signature_ref = pool->signature_ref_at(index);
{
ResourceMark rm(THREAD);
Symbol* failed_type_symbol =
SystemDictionary::check_signature_loaders(signature_ref,
SystemDictionary::check_signature_loaders(sig,
ref_loader, sel_loader,
false,
CHECK);
@ -677,9 +732,6 @@ void LinkResolver::resolve_field(FieldAccessInfo& result, constantPoolHandle poo
// return information. note that the klass is set to the actual klass containing the
// field, otherwise access of static fields in superclasses will not work.
KlassHandle holder (THREAD, fd.field_holder());
Symbol* name = fd.name();
result.set(holder, name, fd.index(), fd.offset(), fd.field_type(), fd.access_flags());
}
@ -906,10 +958,6 @@ void LinkResolver::runtime_resolve_virtual_method(CallInfo& result,
THROW(vmSymbols::java_lang_NullPointerException());
}
// Virtual methods cannot be resolved before its klass has been linked, for otherwise the Method*'s
// has not been rewritten, and the vtable initialized.
assert(resolved_method->method_holder()->is_linked(), "must be linked");
// Virtual methods cannot be resolved before its klass has been linked, for otherwise the Method*'s
// has not been rewritten, and the vtable initialized. Make sure to do this after the nullcheck, since
// a missing receiver might result in a bogus lookup.
@ -920,6 +968,7 @@ void LinkResolver::runtime_resolve_virtual_method(CallInfo& result,
vtable_index = vtable_index_of_miranda_method(resolved_klass,
resolved_method->name(),
resolved_method->signature(), CHECK);
assert(vtable_index >= 0 , "we should have valid vtable index at this point");
InstanceKlass* inst = InstanceKlass::cast(recv_klass());
@ -927,6 +976,7 @@ void LinkResolver::runtime_resolve_virtual_method(CallInfo& result,
} else {
// at this point we are sure that resolved_method is virtual and not
// a miranda method; therefore, it must have a valid vtable index.
assert(!resolved_method->has_itable_index(), "");
vtable_index = resolved_method->vtable_index();
// We could get a negative vtable_index for final methods,
// because as an optimization they are they are never put in the vtable,
@ -1006,6 +1056,12 @@ void LinkResolver::runtime_resolve_interface_method(CallInfo& result, methodHand
lookup_instance_method_in_klasses(sel_method, recv_klass,
resolved_method->name(),
resolved_method->signature(), CHECK);
if (sel_method.is_null() && !check_null_and_abstract) {
// In theory this is a harmless placeholder value, but
// in practice leaving in null affects the nsk default method tests.
// This needs further study.
sel_method = resolved_method;
}
// check if method exists
if (sel_method.is_null()) {
ResourceMark rm(THREAD);
@ -1046,7 +1102,14 @@ void LinkResolver::runtime_resolve_interface_method(CallInfo& result, methodHand
sel_method->signature()));
}
// setup result
result.set_interface(resolved_klass, recv_klass, resolved_method, sel_method, CHECK);
if (!resolved_method->has_itable_index()) {
int vtable_index = resolved_method->vtable_index();
assert(vtable_index == sel_method->vtable_index(), "sanity check");
result.set_virtual(resolved_klass, recv_klass, resolved_method, sel_method, vtable_index, CHECK);
return;
}
int itable_index = resolved_method()->itable_index();
result.set_interface(resolved_klass, recv_klass, resolved_method, sel_method, itable_index, CHECK);
}
@ -1293,7 +1356,8 @@ void LinkResolver::resolve_invokedynamic(CallInfo& result, constantPoolHandle po
}
if (TraceMethodHandles) {
tty->print_cr("resolve_invokedynamic #%d %s %s",
ResourceMark rm(THREAD);
tty->print_cr("resolve_invokedynamic #%d %s %s",
ConstantPool::decode_invokedynamic_index(index),
method_name->as_C_string(), method_signature->as_C_string());
tty->print(" BSM info: "); bootstrap_specifier->print();
@ -1342,9 +1406,16 @@ void LinkResolver::resolve_dynamic_call(CallInfo& result,
//------------------------------------------------------------------------------------------------------------------------
#ifndef PRODUCT
void FieldAccessInfo::print() {
void CallInfo::print() {
ResourceMark rm;
tty->print_cr("Field %s@%d", name()->as_C_string(), field_offset());
const char* kindstr = "unknown";
switch (_call_kind) {
case direct_call: kindstr = "direct"; break;
case vtable_call: kindstr = "vtable"; break;
case itable_call: kindstr = "itable"; break;
}
tty->print_cr("Call %s@%d %s", kindstr, _call_index,
_resolved_method.is_null() ? "(none)" : _resolved_method->name_and_sig_as_C_string());
}
#endif

111
hotspot/src/share/vm/interpreter/linkResolver.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 1997, 2013, 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
@ -30,63 +30,54 @@
// All the necessary definitions for run-time link resolution.
// LinkInfo & its subclasses provide all the information gathered
// for a particular link after resolving it. A link is any reference
// CallInfo provides all the information gathered for a particular
// linked call site after resolving it. A link is any reference
// made from within the bytecodes of a method to an object outside of
// that method. If the info is invalid, the link has not been resolved
// successfully.
class LinkInfo VALUE_OBJ_CLASS_SPEC {
};
// Link information for getfield/putfield & getstatic/putstatic bytecodes.
class FieldAccessInfo: public LinkInfo {
protected:
KlassHandle _klass;
Symbol* _name;
AccessFlags _access_flags;
int _field_index; // original index in the klass
int _field_offset;
BasicType _field_type;
class CallInfo VALUE_OBJ_CLASS_SPEC {
public:
void set(KlassHandle klass, Symbol* name, int field_index, int field_offset,
BasicType field_type, AccessFlags access_flags);
KlassHandle klass() const { return _klass; }
Symbol* name() const { return _name; }
int field_index() const { return _field_index; }
int field_offset() const { return _field_offset; }
BasicType field_type() const { return _field_type; }
AccessFlags access_flags() const { return _access_flags; }
// debugging
void print() PRODUCT_RETURN;
};
// Link information for all calls.
class CallInfo: public LinkInfo {
// Ways that a method call might be selected (or not) based on receiver type.
// Note that an invokevirtual instruction might be linked with no_dispatch,
// and an invokeinterface instruction might be linked with any of the three options
enum CallKind {
direct_call, // jump into resolved_method (must be concrete)
vtable_call, // select recv.klass.method_at_vtable(index)
itable_call, // select recv.klass.method_at_itable(resolved_method.holder, index)
unknown_kind = -1
};
private:
KlassHandle _resolved_klass; // static receiver klass
KlassHandle _resolved_klass; // static receiver klass, resolved from a symbolic reference
KlassHandle _selected_klass; // dynamic receiver class (same as static, or subklass)
methodHandle _resolved_method; // static target method
methodHandle _selected_method; // dynamic (actual) target method
int _vtable_index; // vtable index of selected method
CallKind _call_kind; // kind of call (static(=bytecode static/special +
// others inferred), vtable, itable)
int _call_index; // vtable or itable index of selected class method (if any)
Handle _resolved_appendix; // extra argument in constant pool (if CPCE::has_appendix)
Handle _resolved_method_type; // MethodType (for invokedynamic and invokehandle call sites)
void set_static( KlassHandle resolved_klass, methodHandle resolved_method , TRAPS);
void set_interface(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method , TRAPS);
void set_interface(KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int itable_index , TRAPS);
void set_virtual( KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int vtable_index , TRAPS);
void set_handle( methodHandle resolved_method, Handle resolved_appendix, Handle resolved_method_type, TRAPS);
void set_common( KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, int vtable_index , TRAPS);
void set_common( KlassHandle resolved_klass, KlassHandle selected_klass, methodHandle resolved_method, methodHandle selected_method, CallKind kind, int index, TRAPS);
friend class LinkResolver;
public:
CallInfo() {
#ifndef PRODUCT
_call_kind = CallInfo::unknown_kind;
_call_index = Method::garbage_vtable_index;
#endif //PRODUCT
}
// utility to extract an effective CallInfo from a method and an optional receiver limit
// does not queue the method for compilation
CallInfo(Method* resolved_method, Klass* resolved_klass = NULL);
KlassHandle resolved_klass() const { return _resolved_klass; }
KlassHandle selected_klass() const { return _selected_klass; }
methodHandle resolved_method() const { return _resolved_method; }
@ -95,21 +86,43 @@ class CallInfo: public LinkInfo {
Handle resolved_method_type() const { return _resolved_method_type; }
BasicType result_type() const { return selected_method()->result_type(); }
bool has_vtable_index() const { return _vtable_index >= 0; }
bool is_statically_bound() const { return _vtable_index == Method::nonvirtual_vtable_index; }
CallKind call_kind() const { return _call_kind; }
int call_index() const { return _call_index; }
int vtable_index() const {
// Even for interface calls the vtable index could be non-negative.
// See CallInfo::set_interface.
assert(has_vtable_index() || is_statically_bound(), "");
return _vtable_index;
assert(call_kind() == vtable_call || call_kind() == direct_call, "");
// The returned value is < 0 if the call is statically bound.
// But, the returned value may be >= 0 even if the kind is direct_call.
// It is up to the caller to decide which way to go.
return _call_index;
}
int itable_index() const {
assert(call_kind() == itable_call, "");
// The returned value is always >= 0, a valid itable index.
return _call_index;
}
// debugging
#ifdef ASSERT
bool has_vtable_index() const { return _call_index >= 0 && _call_kind != CallInfo::itable_call; }
bool is_statically_bound() const { return _call_index == Method::nonvirtual_vtable_index; }
#endif //ASSERT
void verify() PRODUCT_RETURN;
void print() PRODUCT_RETURN;
};
// Link information for getfield/putfield & getstatic/putstatic bytecodes
// is represented using a fieldDescriptor.
// The LinkResolver is used to resolve constant-pool references at run-time.
// It does all necessary link-time checks & throws exceptions if necessary.
class LinkResolver: AllStatic {
friend class klassVtable;
friend class klassItable;
private:
static void lookup_method_in_klasses (methodHandle& result, KlassHandle klass, Symbol* name, Symbol* signature, TRAPS);
static void lookup_instance_method_in_klasses (methodHandle& result, KlassHandle klass, Symbol* name, Symbol* signature, TRAPS);
@ -120,7 +133,6 @@ class LinkResolver: AllStatic {
static int vtable_index_of_miranda_method(KlassHandle klass, Symbol* name, Symbol* signature, TRAPS);
static void resolve_klass (KlassHandle& result, constantPoolHandle pool, int index, TRAPS);
static void resolve_klass_no_update (KlassHandle& result, constantPoolHandle pool, int index, TRAPS); // no update of constantPool entry
static void resolve_pool (KlassHandle& resolved_klass, Symbol*& method_name, Symbol*& method_signature, KlassHandle& current_klass, constantPoolHandle pool, int index, TRAPS);
@ -148,9 +160,16 @@ class LinkResolver: AllStatic {
Bytecodes::Code code, constantPoolHandle pool, int index, TRAPS);
// runtime/static resolving for fields
static void resolve_field(FieldAccessInfo& result, constantPoolHandle pool, int index, Bytecodes::Code byte, bool check_only, TRAPS);
// takes an extra bool argument "update_pool" to decide whether to update the constantPool during klass resolution.
static void resolve_field(FieldAccessInfo& result, constantPoolHandle pool, int index, Bytecodes::Code byte, bool check_only, bool update_pool, TRAPS);
static void resolve_field_access(fieldDescriptor& result, constantPoolHandle pool, int index, Bytecodes::Code byte, TRAPS);
static void resolve_field(fieldDescriptor& result, KlassHandle resolved_klass, Symbol* field_name, Symbol* field_signature,
KlassHandle current_klass, Bytecodes::Code access_kind, bool check_access, bool initialize_class, TRAPS);
// source of access_kind codes:
static Bytecodes::Code field_access_kind(bool is_static, bool is_put) {
return (is_static
? (is_put ? Bytecodes::_putstatic : Bytecodes::_getstatic)
: (is_put ? Bytecodes::_putfield : Bytecodes::_getfield ));
}
// runtime resolving:
// resolved_klass = specified class (i.e., static receiver class)

4
hotspot/src/share/vm/memory/binaryTreeDictionary.cpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2001, 2013, 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
@ -33,10 +33,10 @@
#include "runtime/globals.hpp"
#include "utilities/ostream.hpp"
#include "utilities/macros.hpp"
#include "gc_implementation/shared/spaceDecorator.hpp"
#if INCLUDE_ALL_GCS
#include "gc_implementation/concurrentMarkSweep/adaptiveFreeList.hpp"
#include "gc_implementation/concurrentMarkSweep/freeChunk.hpp"
#include "gc_implementation/shared/spaceDecorator.hpp"
#include "gc_implementation/concurrentMarkSweep/freeChunk.hpp"
#endif // INCLUDE_ALL_GCS

78
hotspot/src/share/vm/memory/collectorPolicy.cpp
View File

@ -47,6 +47,11 @@
// CollectorPolicy methods.
// Align down. If the aligning result in 0, return 'alignment'.
static size_t restricted_align_down(size_t size, size_t alignment) {
return MAX2(alignment, align_size_down_(size, alignment));
}
void CollectorPolicy::initialize_flags() {
assert(max_alignment() >= min_alignment(),
err_msg("max_alignment: " SIZE_FORMAT " less than min_alignment: " SIZE_FORMAT,
@ -59,18 +64,24 @@ void CollectorPolicy::initialize_flags() {
vm_exit_during_initialization("Incompatible initial and maximum heap sizes specified");
}
if (MetaspaceSize > MaxMetaspaceSize) {
MaxMetaspaceSize = MetaspaceSize;
}
MetaspaceSize = MAX2(min_alignment(), align_size_down_(MetaspaceSize, min_alignment()));
// Don't increase Metaspace size limit above specified.
MaxMetaspaceSize = align_size_down(MaxMetaspaceSize, max_alignment());
if (MetaspaceSize > MaxMetaspaceSize) {
MetaspaceSize = MaxMetaspaceSize;
if (!is_size_aligned(MaxMetaspaceSize, max_alignment())) {
FLAG_SET_ERGO(uintx, MaxMetaspaceSize,
restricted_align_down(MaxMetaspaceSize, max_alignment()));
}
MinMetaspaceExpansion = MAX2(min_alignment(), align_size_down_(MinMetaspaceExpansion, min_alignment()));
MaxMetaspaceExpansion = MAX2(min_alignment(), align_size_down_(MaxMetaspaceExpansion, min_alignment()));
if (MetaspaceSize > MaxMetaspaceSize) {
FLAG_SET_ERGO(uintx, MetaspaceSize, MaxMetaspaceSize);
}
if (!is_size_aligned(MetaspaceSize, min_alignment())) {
FLAG_SET_ERGO(uintx, MetaspaceSize,
restricted_align_down(MetaspaceSize, min_alignment()));
}
assert(MetaspaceSize <= MaxMetaspaceSize, "Must be");
MinMetaspaceExpansion = restricted_align_down(MinMetaspaceExpansion, min_alignment());
MaxMetaspaceExpansion = restricted_align_down(MaxMetaspaceExpansion, min_alignment());
MinHeapDeltaBytes = align_size_up(MinHeapDeltaBytes, min_alignment());
@ -145,6 +156,30 @@ void CollectorPolicy::cleared_all_soft_refs() {
_all_soft_refs_clear = true;
}
size_t CollectorPolicy::compute_max_alignment() {
// The card marking array and the offset arrays for old generations are
// committed in os pages as well. Make sure they are entirely full (to
// avoid partial page problems), e.g. if 512 bytes heap corresponds to 1
// byte entry and the os page size is 4096, the maximum heap size should
// be 512*4096 = 2MB aligned.
// There is only the GenRemSet in Hotspot and only the GenRemSet::CardTable
// is supported.
// Requirements of any new remembered set implementations must be added here.
size_t alignment = GenRemSet::max_alignment_constraint(GenRemSet::CardTable);
// Parallel GC does its own alignment of the generations to avoid requiring a
// large page (256M on some platforms) for the permanent generation. The
// other collectors should also be updated to do their own alignment and then
// this use of lcm() should be removed.
if (UseLargePages && !UseParallelGC) {
// in presence of large pages we have to make sure that our
// alignment is large page aware
alignment = lcm(os::large_page_size(), alignment);
}
return alignment;
}
// GenCollectorPolicy methods.
@ -175,29 +210,6 @@ void GenCollectorPolicy::initialize_size_policy(size_t init_eden_size,
GCTimeRatio);
}
size_t GenCollectorPolicy::compute_max_alignment() {
// The card marking array and the offset arrays for old generations are
// committed in os pages as well. Make sure they are entirely full (to
// avoid partial page problems), e.g. if 512 bytes heap corresponds to 1
// byte entry and the os page size is 4096, the maximum heap size should
// be 512*4096 = 2MB aligned.
size_t alignment = GenRemSet::max_alignment_constraint(rem_set_name());
// Parallel GC does its own alignment of the generations to avoid requiring a
// large page (256M on some platforms) for the permanent generation. The
// other collectors should also be updated to do their own alignment and then
// this use of lcm() should be removed.
if (UseLargePages && !UseParallelGC) {
// in presence of large pages we have to make sure that our
// alignment is large page aware
alignment = lcm(os::large_page_size(), alignment);
}
assert(alignment >= min_alignment(), "Must be");
return alignment;
}
void GenCollectorPolicy::initialize_flags() {
// All sizes must be multiples of the generation granularity.
set_min_alignment((uintx) Generation::GenGrain);

6
hotspot/src/share/vm/memory/collectorPolicy.hpp
View File

@ -98,6 +98,9 @@ class CollectorPolicy : public CHeapObj<mtGC> {
{}
public:
// Return maximum heap alignment that may be imposed by the policy
static size_t compute_max_alignment();
void set_min_alignment(size_t align) { _min_alignment = align; }
size_t min_alignment() { return _min_alignment; }
void set_max_alignment(size_t align) { _max_alignment = align; }
@ -234,9 +237,6 @@ class GenCollectorPolicy : public CollectorPolicy {
// Try to allocate space by expanding the heap.
virtual HeapWord* expand_heap_and_allocate(size_t size, bool is_tlab);
// compute max heap alignment
size_t compute_max_alignment();
// Scale the base_size by NewRation according to
// result = base_size / (NewRatio + 1)
// and align by min_alignment()

7
hotspot/src/share/vm/memory/genCollectedHeap.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2000, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2000, 2013, 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
@ -148,6 +148,11 @@ public:
return gen_policy()->size_policy();
}
// Return the (conservative) maximum heap alignment
static size_t conservative_max_heap_alignment() {
return Generation::GenGrain;
}
size_t capacity() const;
size_t used() const;

7
hotspot/src/share/vm/memory/metablock.cpp
View File

@ -50,13 +50,6 @@
// Chunks, change Chunks so that they can be allocated out of a VirtualSpace.
size_t Metablock::_min_block_byte_size = sizeof(Metablock);
#ifdef ASSERT
size_t Metablock::_overhead =
Chunk::aligned_overhead_size(sizeof(Metablock)) / BytesPerWord;
#else
size_t Metablock::_overhead = 0;
#endif
// New blocks returned by the Metaspace are zero initialized.
// We should fix the constructors to not assume this instead.
Metablock* Metablock::initialize(MetaWord* p, size_t word_size) {

2
hotspot/src/share/vm/memory/metablock.hpp
View File

@ -48,7 +48,6 @@ class Metablock VALUE_OBJ_CLASS_SPEC {
} _header;
} _block;
static size_t _min_block_byte_size;
static size_t _overhead;
typedef union block_t Block;
typedef struct header_t Header;
@ -73,7 +72,6 @@ class Metablock VALUE_OBJ_CLASS_SPEC {
void set_prev(Metablock* v) { _block._header._prev = v; }
static size_t min_block_byte_size() { return _min_block_byte_size; }
static size_t overhead() { return _overhead; }
bool is_free() { return header()->_word_size != 0; }
void clear_next() { set_next(NULL); }

387
hotspot/src/share/vm/memory/metaspace.cpp
View File

@ -51,7 +51,7 @@ const bool metaspace_slow_verify = false;
// Parameters for stress mode testing
const uint metadata_deallocate_a_lot_block = 10;
const uint metadata_deallocate_a_lock_chunk = 3;
size_t const allocation_from_dictionary_limit = 64 * K;
size_t const allocation_from_dictionary_limit = 4 * K;
MetaWord* last_allocated = 0;
@ -177,8 +177,8 @@ class ChunkManager VALUE_OBJ_CLASS_SPEC {
void return_chunks(ChunkIndex index, Metachunk* chunks);
// Total of the space in the free chunks list
size_t free_chunks_total();
size_t free_chunks_total_in_bytes();
size_t free_chunks_total_words();
size_t free_chunks_total_bytes();
// Number of chunks in the free chunks list
size_t free_chunks_count();
@ -228,6 +228,10 @@ class BlockFreelist VALUE_OBJ_CLASS_SPEC {
BlockTreeDictionary* _dictionary;
static Metablock* initialize_free_chunk(MetaWord* p, size_t word_size);
// Only allocate and split from freelist if the size of the allocation
// is at least 1/4th the size of the available block.
const static int WasteMultiplier = 4;
// Accessors
BlockTreeDictionary* dictionary() const { return _dictionary; }
@ -287,6 +291,10 @@ class VirtualSpaceNode : public CHeapObj<mtClass> {
MetaWord* bottom() const { return (MetaWord*) _virtual_space.low(); }
MetaWord* end() const { return (MetaWord*) _virtual_space.high(); }
size_t reserved_words() const { return _virtual_space.reserved_size() / BytesPerWord; }
size_t expanded_words() const { return _virtual_space.committed_size() / BytesPerWord; }
size_t committed_words() const { return _virtual_space.actual_committed_size() / BytesPerWord; }
// address of next available space in _virtual_space;
// Accessors
VirtualSpaceNode* next() { return _next; }
@ -323,12 +331,10 @@ class VirtualSpaceNode : public CHeapObj<mtClass> {
// Allocate a chunk from the virtual space and return it.
Metachunk* get_chunk_vs(size_t chunk_word_size);
Metachunk* get_chunk_vs_with_expand(size_t chunk_word_size);
// Expands/shrinks the committed space in a virtual space. Delegates
// to Virtualspace
bool expand_by(size_t words, bool pre_touch = false);
bool shrink_by(size_t words);
// In preparation for deleting this node, remove all the chunks
// in the node from any freelist.
@ -336,8 +342,6 @@ class VirtualSpaceNode : public CHeapObj<mtClass> {
#ifdef ASSERT
// Debug support
static void verify_virtual_space_total();
static void verify_virtual_space_count();
void mangle();
#endif
@ -423,10 +427,13 @@ class VirtualSpaceList : public CHeapObj<mtClass> {
// Can this virtual list allocate >1 spaces? Also, used to determine
// whether to allocate unlimited small chunks in this virtual space
bool _is_class;
bool can_grow() const { return !is_class() || !UseCompressedKlassPointers; }
bool can_grow() const { return !is_class() || !UseCompressedClassPointers; }
// Sum of space in all virtual spaces and number of virtual spaces
size_t _virtual_space_total;
// Sum of reserved and committed memory in the virtual spaces
size_t _reserved_words;
size_t _committed_words;
// Number of virtual spaces
size_t _virtual_space_count;
~VirtualSpaceList();
@ -440,7 +447,7 @@ class VirtualSpaceList : public CHeapObj<mtClass> {
_current_virtual_space = v;
}
void link_vs(VirtualSpaceNode* new_entry, size_t vs_word_size);
void link_vs(VirtualSpaceNode* new_entry);
// Get another virtual space and add it to the list. This
// is typically prompted by a failed attempt to allocate a chunk
@ -457,6 +464,8 @@ class VirtualSpaceList : public CHeapObj<mtClass> {
size_t grow_chunks_by_words,
size_t medium_chunk_bunch);
bool expand_by(VirtualSpaceNode* node, size_t word_size, bool pre_touch = false);
// Get the first chunk for a Metaspace. Used for
// special cases such as the boot class loader, reflection
// class loader and anonymous class loader.
@ -472,10 +481,15 @@ class VirtualSpaceList : public CHeapObj<mtClass> {
// Allocate the first virtualspace.
void initialize(size_t word_size);
size_t virtual_space_total() { return _virtual_space_total; }
size_t reserved_words() { return _reserved_words; }
size_t reserved_bytes() { return reserved_words() * BytesPerWord; }
size_t committed_words() { return _committed_words; }
size_t committed_bytes() { return committed_words() * BytesPerWord; }
void inc_virtual_space_total(size_t v);
void dec_virtual_space_total(size_t v);
void inc_reserved_words(size_t v);
void dec_reserved_words(size_t v);
void inc_committed_words(size_t v);
void dec_committed_words(size_t v);
void inc_virtual_space_count();
void dec_virtual_space_count();
@ -623,6 +637,7 @@ class SpaceManager : public CHeapObj<mtClass> {
// Add chunk to the list of chunks in use
void add_chunk(Metachunk* v, bool make_current);
void retire_current_chunk();
Mutex* lock() const { return _lock; }
@ -722,9 +737,7 @@ class SpaceManager : public CHeapObj<mtClass> {
// MinChunkSize is a placeholder for the real minimum size JJJ
size_t byte_size = word_size * BytesPerWord;
size_t byte_size_with_overhead = byte_size + Metablock::overhead();
size_t raw_bytes_size = MAX2(byte_size_with_overhead,
size_t raw_bytes_size = MAX2(byte_size,
Metablock::min_block_byte_size());
raw_bytes_size = ARENA_ALIGN(raw_bytes_size);
size_t raw_word_size = raw_bytes_size / BytesPerWord;
@ -807,12 +820,25 @@ MetaWord* BlockFreelist::get_block(size_t word_size) {
}
Metablock* free_block =
dictionary()->get_chunk(word_size, FreeBlockDictionary<Metablock>::exactly);
dictionary()->get_chunk(word_size, FreeBlockDictionary<Metablock>::atLeast);
if (free_block == NULL) {
return NULL;
}
return (MetaWord*) free_block;
const size_t block_size = free_block->size();
if (block_size > WasteMultiplier * word_size) {
return_block((MetaWord*)free_block, block_size);
return NULL;
}
MetaWord* new_block = (MetaWord*)free_block;
assert(block_size >= word_size, "Incorrect size of block from freelist");
const size_t unused = block_size - word_size;
if (unused >= TreeChunk<Metablock, FreeList>::min_size()) {
return_block(new_block + word_size, unused);
}
return new_block;
}
void BlockFreelist::print_on(outputStream* st) const {
@ -855,9 +881,9 @@ Metachunk* VirtualSpaceNode::take_from_committed(size_t chunk_word_size) {
if (!is_available(chunk_word_size)) {
if (TraceMetadataChunkAllocation) {
tty->print("VirtualSpaceNode::take_from_committed() not available %d words ", chunk_word_size);
gclog_or_tty->print("VirtualSpaceNode::take_from_committed() not available %d words ", chunk_word_size);
// Dump some information about the virtual space that is nearly full
print_on(tty);
print_on(gclog_or_tty);
}
return NULL;
}
@ -878,20 +904,11 @@ bool VirtualSpaceNode::expand_by(size_t words, bool pre_touch) {
if (TraceMetavirtualspaceAllocation && !result) {
gclog_or_tty->print_cr("VirtualSpaceNode::expand_by() failed "
"for byte size " SIZE_FORMAT, bytes);
virtual_space()->print();
virtual_space()->print_on(gclog_or_tty);
}
return result;
}
// Shrink the virtual space (commit more of the reserved space)
bool VirtualSpaceNode::shrink_by(size_t words) {
size_t bytes = words * BytesPerWord;
virtual_space()->shrink_by(bytes);
return true;
}
// Add another chunk to the chunk list.
Metachunk* VirtualSpaceNode::get_chunk_vs(size_t chunk_word_size) {
assert_lock_strong(SpaceManager::expand_lock());
Metachunk* result = take_from_committed(chunk_word_size);
@ -901,23 +918,6 @@ Metachunk* VirtualSpaceNode::get_chunk_vs(size_t chunk_word_size) {
return result;
}
Metachunk* VirtualSpaceNode::get_chunk_vs_with_expand(size_t chunk_word_size) {
assert_lock_strong(SpaceManager::expand_lock());
Metachunk* new_chunk = get_chunk_vs(chunk_word_size);
if (new_chunk == NULL) {
// Only a small part of the virtualspace is committed when first
// allocated so committing more here can be expected.
size_t page_size_words = os::vm_page_size() / BytesPerWord;
size_t aligned_expand_vs_by_words = align_size_up(chunk_word_size,
page_size_words);
expand_by(aligned_expand_vs_by_words, false);
new_chunk = get_chunk_vs(chunk_word_size);
}
return new_chunk;
}
bool VirtualSpaceNode::initialize() {
if (!_rs.is_reserved()) {
@ -977,13 +977,22 @@ VirtualSpaceList::~VirtualSpaceList() {
}
}
void VirtualSpaceList::inc_virtual_space_total(size_t v) {
void VirtualSpaceList::inc_reserved_words(size_t v) {
assert_lock_strong(SpaceManager::expand_lock());
_virtual_space_total = _virtual_space_total + v;
_reserved_words = _reserved_words + v;
}
void VirtualSpaceList::dec_virtual_space_total(size_t v) {
void VirtualSpaceList::dec_reserved_words(size_t v) {
assert_lock_strong(SpaceManager::expand_lock());
_virtual_space_total = _virtual_space_total - v;
_reserved_words = _reserved_words - v;
}
void VirtualSpaceList::inc_committed_words(size_t v) {
assert_lock_strong(SpaceManager::expand_lock());
_committed_words = _committed_words + v;
}
void VirtualSpaceList::dec_committed_words(size_t v) {
assert_lock_strong(SpaceManager::expand_lock());
_committed_words = _committed_words - v;
}
void VirtualSpaceList::inc_virtual_space_count() {
@ -1034,7 +1043,8 @@ void VirtualSpaceList::purge() {
}
vsl->purge(chunk_manager());
dec_virtual_space_total(vsl->reserved()->word_size());
dec_reserved_words(vsl->reserved_words());
dec_committed_words(vsl->committed_words());
dec_virtual_space_count();
purged_vsl = vsl;
delete vsl;
@ -1062,12 +1072,12 @@ size_t VirtualSpaceList::used_words_sum() {
// Sum used region [bottom, top) in each virtualspace
allocated_by_vs += vsl->used_words_in_vs();
}
assert(allocated_by_vs >= chunk_manager()->free_chunks_total(),
assert(allocated_by_vs >= chunk_manager()->free_chunks_total_words(),
err_msg("Total in free chunks " SIZE_FORMAT
" greater than total from virtual_spaces " SIZE_FORMAT,
allocated_by_vs, chunk_manager()->free_chunks_total()));
allocated_by_vs, chunk_manager()->free_chunks_total_words()));
size_t used =
allocated_by_vs - chunk_manager()->free_chunks_total();
allocated_by_vs - chunk_manager()->free_chunks_total_words();
return used;
}
@ -1088,7 +1098,8 @@ VirtualSpaceList::VirtualSpaceList(size_t word_size ) :
_is_class(false),
_virtual_space_list(NULL),
_current_virtual_space(NULL),
_virtual_space_total(0),
_reserved_words(0),
_committed_words(0),
_virtual_space_count(0) {
MutexLockerEx cl(SpaceManager::expand_lock(),
Mutex::_no_safepoint_check_flag);
@ -1105,7 +1116,8 @@ VirtualSpaceList::VirtualSpaceList(ReservedSpace rs) :
_is_class(true),
_virtual_space_list(NULL),
_current_virtual_space(NULL),
_virtual_space_total(0),
_reserved_words(0),
_committed_words(0),
_virtual_space_count(0) {
MutexLockerEx cl(SpaceManager::expand_lock(),
Mutex::_no_safepoint_check_flag);
@ -1115,7 +1127,7 @@ VirtualSpaceList::VirtualSpaceList(ReservedSpace rs) :
_chunk_manager.free_chunks(SmallIndex)->set_size(ClassSmallChunk);
_chunk_manager.free_chunks(MediumIndex)->set_size(ClassMediumChunk);
assert(succeeded, " VirtualSpaceList initialization should not fail");
link_vs(class_entry, rs.size()/BytesPerWord);
link_vs(class_entry);
}
size_t VirtualSpaceList::free_bytes() {
@ -1138,31 +1150,47 @@ bool VirtualSpaceList::grow_vs(size_t vs_word_size) {
delete new_entry;
return false;
} else {
assert(new_entry->reserved_words() == vs_word_size, "Must be");
// ensure lock-free iteration sees fully initialized node
OrderAccess::storestore();
link_vs(new_entry, vs_word_size);
link_vs(new_entry);
return true;
}
}
void VirtualSpaceList::link_vs(VirtualSpaceNode* new_entry, size_t vs_word_size) {
void VirtualSpaceList::link_vs(VirtualSpaceNode* new_entry) {
if (virtual_space_list() == NULL) {
set_virtual_space_list(new_entry);
} else {
current_virtual_space()->set_next(new_entry);
}
set_current_virtual_space(new_entry);
inc_virtual_space_total(vs_word_size);
inc_reserved_words(new_entry->reserved_words());
inc_committed_words(new_entry->committed_words());
inc_virtual_space_count();
#ifdef ASSERT
new_entry->mangle();
#endif
if (TraceMetavirtualspaceAllocation && Verbose) {
VirtualSpaceNode* vsl = current_virtual_space();
vsl->print_on(tty);
vsl->print_on(gclog_or_tty);
}
}
bool VirtualSpaceList::expand_by(VirtualSpaceNode* node, size_t word_size, bool pre_touch) {
size_t before = node->committed_words();
bool result = node->expand_by(word_size, pre_touch);
size_t after = node->committed_words();
// after and before can be the same if the memory was pre-committed.
assert(after >= before, "Must be");
inc_committed_words(after - before);
return result;
}
Metachunk* VirtualSpaceList::get_new_chunk(size_t word_size,
size_t grow_chunks_by_words,
size_t medium_chunk_bunch) {
@ -1186,7 +1214,7 @@ Metachunk* VirtualSpaceList::get_new_chunk(size_t word_size,
size_t aligned_expand_vs_by_words = align_size_up(expand_vs_by_words,
page_size_words);
bool vs_expanded =
current_virtual_space()->expand_by(aligned_expand_vs_by_words, false);
expand_by(current_virtual_space(), aligned_expand_vs_by_words);
if (!vs_expanded) {
// Should the capacity of the metaspaces be expanded for
// this allocation? If it's the virtual space for classes and is
@ -1197,7 +1225,14 @@ Metachunk* VirtualSpaceList::get_new_chunk(size_t word_size,
MAX2((size_t)VirtualSpaceSize, aligned_expand_vs_by_words);
if (grow_vs(grow_vs_words)) {
// Got it. It's on the list now. Get a chunk from it.
next = current_virtual_space()->get_chunk_vs_with_expand(grow_chunks_by_words);
assert(current_virtual_space()->expanded_words() == 0,
"New virtuals space nodes should not have expanded");
size_t grow_chunks_by_words_aligned = align_size_up(grow_chunks_by_words,
page_size_words);
// We probably want to expand by aligned_expand_vs_by_words here.
expand_by(current_virtual_space(), grow_chunks_by_words_aligned);
next = current_virtual_space()->get_chunk_vs(grow_chunks_by_words);
}
} else {
// Allocation will fail and induce a GC
@ -1307,7 +1342,7 @@ bool MetaspaceGC::should_expand(VirtualSpaceList* vsl, size_t word_size) {
// reserved space, because this is a larger space prereserved for compressed
// class pointers.
if (!FLAG_IS_DEFAULT(MaxMetaspaceSize)) {
size_t real_allocated = Metaspace::space_list()->virtual_space_total() +
size_t real_allocated = Metaspace::space_list()->reserved_words() +
MetaspaceAux::allocated_capacity_bytes(Metaspace::ClassType);
if (real_allocated >= MaxMetaspaceSize) {
return false;
@ -1508,7 +1543,7 @@ void Metadebug::deallocate_chunk_a_lot(SpaceManager* sm,
sm->sum_count_in_chunks_in_use());
dummy_chunk->print_on(gclog_or_tty);
gclog_or_tty->print_cr(" Free chunks total %d count %d",
vsl->chunk_manager()->free_chunks_total(),
vsl->chunk_manager()->free_chunks_total_words(),
vsl->chunk_manager()->free_chunks_count());
}
}
@ -1565,12 +1600,12 @@ bool Metadebug::test_metadata_failure() {
// ChunkManager methods
size_t ChunkManager::free_chunks_total() {
size_t ChunkManager::free_chunks_total_words() {
return _free_chunks_total;
}
size_t ChunkManager::free_chunks_total_in_bytes() {
return free_chunks_total() * BytesPerWord;
size_t ChunkManager::free_chunks_total_bytes() {
return free_chunks_total_words() * BytesPerWord;
}
size_t ChunkManager::free_chunks_count() {
@ -1698,9 +1733,9 @@ void ChunkManager::chunk_freelist_deallocate(Metachunk* chunk) {
assert_lock_strong(SpaceManager::expand_lock());
slow_locked_verify();
if (TraceMetadataChunkAllocation) {
tty->print_cr("ChunkManager::chunk_freelist_deallocate: chunk "
PTR_FORMAT " size " SIZE_FORMAT,
chunk, chunk->word_size());
gclog_or_tty->print_cr("ChunkManager::chunk_freelist_deallocate: chunk "
PTR_FORMAT " size " SIZE_FORMAT,
chunk, chunk->word_size());
}
free_chunks_put(chunk);
}
@ -1729,9 +1764,9 @@ Metachunk* ChunkManager::free_chunks_get(size_t word_size) {
dec_free_chunks_total(chunk->capacity_word_size());
if (TraceMetadataChunkAllocation && Verbose) {
tty->print_cr("ChunkManager::free_chunks_get: free_list "
PTR_FORMAT " head " PTR_FORMAT " size " SIZE_FORMAT,
free_list, chunk, chunk->word_size());
gclog_or_tty->print_cr("ChunkManager::free_chunks_get: free_list "
PTR_FORMAT " head " PTR_FORMAT " size " SIZE_FORMAT,
free_list, chunk, chunk->word_size());
}
} else {
chunk = humongous_dictionary()->get_chunk(
@ -1741,10 +1776,10 @@ Metachunk* ChunkManager::free_chunks_get(size_t word_size) {
if (chunk != NULL) {
if (TraceMetadataHumongousAllocation) {
size_t waste = chunk->word_size() - word_size;
tty->print_cr("Free list allocate humongous chunk size " SIZE_FORMAT
" for requested size " SIZE_FORMAT
" waste " SIZE_FORMAT,
chunk->word_size(), word_size, waste);
gclog_or_tty->print_cr("Free list allocate humongous chunk size "
SIZE_FORMAT " for requested size " SIZE_FORMAT
" waste " SIZE_FORMAT,
chunk->word_size(), word_size, waste);
}
// Chunk is being removed from the chunks free list.
dec_free_chunks_total(chunk->capacity_word_size());
@ -1786,10 +1821,10 @@ Metachunk* ChunkManager::chunk_freelist_allocate(size_t word_size) {
} else {
list_count = humongous_dictionary()->total_count();
}
tty->print("ChunkManager::chunk_freelist_allocate: " PTR_FORMAT " chunk "
PTR_FORMAT " size " SIZE_FORMAT " count " SIZE_FORMAT " ",
this, chunk, chunk->word_size(), list_count);
locked_print_free_chunks(tty);
gclog_or_tty->print("ChunkManager::chunk_freelist_allocate: " PTR_FORMAT " chunk "
PTR_FORMAT " size " SIZE_FORMAT " count " SIZE_FORMAT " ",
this, chunk, chunk->word_size(), list_count);
locked_print_free_chunks(gclog_or_tty);
}
return chunk;
@ -2278,6 +2313,7 @@ void SpaceManager::add_chunk(Metachunk* new_chunk, bool make_current) {
ChunkIndex index = ChunkManager::list_index(new_chunk->word_size());
if (index != HumongousIndex) {
retire_current_chunk();
set_current_chunk(new_chunk);
new_chunk->set_next(chunks_in_use(index));
set_chunks_in_use(index, new_chunk);
@ -2308,7 +2344,17 @@ void SpaceManager::add_chunk(Metachunk* new_chunk, bool make_current) {
sum_count_in_chunks_in_use());
new_chunk->print_on(gclog_or_tty);
if (vs_list() != NULL) {
vs_list()->chunk_manager()->locked_print_free_chunks(tty);
vs_list()->chunk_manager()->locked_print_free_chunks(gclog_or_tty);
}
}
}
void SpaceManager::retire_current_chunk() {
if (current_chunk() != NULL) {
size_t remaining_words = current_chunk()->free_word_size();
if (remaining_words >= TreeChunk<Metablock, FreeList>::min_size()) {
block_freelists()->return_block(current_chunk()->allocate(remaining_words), remaining_words);
inc_used_metrics(remaining_words);
}
}
}
@ -2320,10 +2366,10 @@ Metachunk* SpaceManager::get_new_chunk(size_t word_size,
grow_chunks_by_words,
medium_chunk_bunch());
if (TraceMetadataHumongousAllocation &&
if (TraceMetadataHumongousAllocation && next != NULL &&
SpaceManager::is_humongous(next->word_size())) {
gclog_or_tty->print_cr(" new humongous chunk word size " PTR_FORMAT,
next->word_size());
gclog_or_tty->print_cr(" new humongous chunk word size "
PTR_FORMAT, next->word_size());
}
return next;
@ -2441,9 +2487,6 @@ void SpaceManager::dump(outputStream* const out) const {
curr = curr->next()) {
out->print("%d) ", i++);
curr->print_on(out);
if (TraceMetadataChunkAllocation && Verbose) {
block_freelists()->print_on(out);
}
curr_total += curr->word_size();
used += curr->used_word_size();
capacity += curr->capacity_word_size();
@ -2451,6 +2494,10 @@ void SpaceManager::dump(outputStream* const out) const {
}
}
if (TraceMetadataChunkAllocation && Verbose) {
block_freelists()->print_on(out);
}
size_t free = current_chunk() == NULL ? 0 : current_chunk()->free_word_size();
// Free space isn't wasted.
waste -= free;
@ -2538,13 +2585,13 @@ size_t MetaspaceAux::used_bytes_slow(Metaspace::MetadataType mdtype) {
return used * BytesPerWord;
}
size_t MetaspaceAux::free_in_bytes(Metaspace::MetadataType mdtype) {
size_t MetaspaceAux::free_bytes_slow(Metaspace::MetadataType mdtype) {
size_t free = 0;
ClassLoaderDataGraphMetaspaceIterator iter;
while (iter.repeat()) {
Metaspace* msp = iter.get_next();
if (msp != NULL) {
free += msp->free_words(mdtype);
free += msp->free_words_slow(mdtype);
}
}
return free * BytesPerWord;
@ -2567,34 +2614,56 @@ size_t MetaspaceAux::capacity_bytes_slow(Metaspace::MetadataType mdtype) {
return capacity * BytesPerWord;
}
size_t MetaspaceAux::reserved_in_bytes(Metaspace::MetadataType mdtype) {
VirtualSpaceList* list = Metaspace::get_space_list(mdtype);
return list == NULL ? 0 : list->virtual_space_total();
size_t MetaspaceAux::capacity_bytes_slow() {
#ifdef PRODUCT
// Use allocated_capacity_bytes() in PRODUCT instead of this function.
guarantee(false, "Should not call capacity_bytes_slow() in the PRODUCT");
#endif
size_t class_capacity = capacity_bytes_slow(Metaspace::ClassType);
size_t non_class_capacity = capacity_bytes_slow(Metaspace::NonClassType);
assert(allocated_capacity_bytes() == class_capacity + non_class_capacity,
err_msg("bad accounting: allocated_capacity_bytes() " SIZE_FORMAT
" class_capacity + non_class_capacity " SIZE_FORMAT
" class_capacity " SIZE_FORMAT " non_class_capacity " SIZE_FORMAT,
allocated_capacity_bytes(), class_capacity + non_class_capacity,
class_capacity, non_class_capacity));
return class_capacity + non_class_capacity;
}
size_t MetaspaceAux::min_chunk_size() { return Metaspace::first_chunk_word_size(); }
size_t MetaspaceAux::reserved_bytes(Metaspace::MetadataType mdtype) {
VirtualSpaceList* list = Metaspace::get_space_list(mdtype);
return list == NULL ? 0 : list->reserved_bytes();
}
size_t MetaspaceAux::free_chunks_total(Metaspace::MetadataType mdtype) {
size_t MetaspaceAux::committed_bytes(Metaspace::MetadataType mdtype) {
VirtualSpaceList* list = Metaspace::get_space_list(mdtype);
return list == NULL ? 0 : list->committed_bytes();
}
size_t MetaspaceAux::min_chunk_size_words() { return Metaspace::first_chunk_word_size(); }
size_t MetaspaceAux::free_chunks_total_words(Metaspace::MetadataType mdtype) {
VirtualSpaceList* list = Metaspace::get_space_list(mdtype);
if (list == NULL) {
return 0;
}
ChunkManager* chunk = list->chunk_manager();
chunk->slow_verify();
return chunk->free_chunks_total();
return chunk->free_chunks_total_words();
}
size_t MetaspaceAux::free_chunks_total_in_bytes(Metaspace::MetadataType mdtype) {
return free_chunks_total(mdtype) * BytesPerWord;
size_t MetaspaceAux::free_chunks_total_bytes(Metaspace::MetadataType mdtype) {
return free_chunks_total_words(mdtype) * BytesPerWord;
}
size_t MetaspaceAux::free_chunks_total() {
return free_chunks_total(Metaspace::ClassType) +
free_chunks_total(Metaspace::NonClassType);
size_t MetaspaceAux::free_chunks_total_words() {
return free_chunks_total_words(Metaspace::ClassType) +
free_chunks_total_words(Metaspace::NonClassType);
}
size_t MetaspaceAux::free_chunks_total_in_bytes() {
return free_chunks_total() * BytesPerWord;
size_t MetaspaceAux::free_chunks_total_bytes() {
return free_chunks_total_words() * BytesPerWord;
}
void MetaspaceAux::print_metaspace_change(size_t prev_metadata_used) {
@ -2605,14 +2674,14 @@ void MetaspaceAux::print_metaspace_change(size_t prev_metadata_used) {
"(" SIZE_FORMAT ")",
prev_metadata_used,
allocated_used_bytes(),
reserved_in_bytes());
reserved_bytes());
} else {
gclog_or_tty->print(" " SIZE_FORMAT "K"
"->" SIZE_FORMAT "K"
"(" SIZE_FORMAT "K)",
prev_metadata_used / K,
allocated_used_bytes() / K,
reserved_in_bytes()/ K);
prev_metadata_used/K,
allocated_used_bytes()/K,
reserved_bytes()/K);
}
gclog_or_tty->print("]");
@ -2625,14 +2694,14 @@ void MetaspaceAux::print_on(outputStream* out) {
out->print_cr(" Metaspace total "
SIZE_FORMAT "K, used " SIZE_FORMAT "K,"
" reserved " SIZE_FORMAT "K",
allocated_capacity_bytes()/K, allocated_used_bytes()/K, reserved_in_bytes()/K);
allocated_capacity_bytes()/K, allocated_used_bytes()/K, reserved_bytes()/K);
out->print_cr(" data space "
SIZE_FORMAT "K, used " SIZE_FORMAT "K,"
" reserved " SIZE_FORMAT "K",
allocated_capacity_bytes(nct)/K,
allocated_used_bytes(nct)/K,
reserved_in_bytes(nct)/K);
reserved_bytes(nct)/K);
if (Metaspace::using_class_space()) {
Metaspace::MetadataType ct = Metaspace::ClassType;
out->print_cr(" class space "
@ -2640,17 +2709,17 @@ void MetaspaceAux::print_on(outputStream* out) {
" reserved " SIZE_FORMAT "K",
allocated_capacity_bytes(ct)/K,
allocated_used_bytes(ct)/K,
reserved_in_bytes(ct)/K);
reserved_bytes(ct)/K);
}
}
// Print information for class space and data space separately.
// This is almost the same as above.
void MetaspaceAux::print_on(outputStream* out, Metaspace::MetadataType mdtype) {
size_t free_chunks_capacity_bytes = free_chunks_total_in_bytes(mdtype);
size_t free_chunks_capacity_bytes = free_chunks_total_bytes(mdtype);
size_t capacity_bytes = capacity_bytes_slow(mdtype);
size_t used_bytes = used_bytes_slow(mdtype);
size_t free_bytes = free_in_bytes(mdtype);
size_t free_bytes = free_bytes_slow(mdtype);
size_t used_and_free = used_bytes + free_bytes +
free_chunks_capacity_bytes;
out->print_cr(" Chunk accounting: used in chunks " SIZE_FORMAT
@ -2836,7 +2905,7 @@ void Metaspace::set_narrow_klass_base_and_shift(address metaspace_base, address
// to work with compressed klass pointers.
bool Metaspace::can_use_cds_with_metaspace_addr(char* metaspace_base, address cds_base) {
assert(cds_base != 0 && UseSharedSpaces, "Only use with CDS");
assert(UseCompressedKlassPointers, "Only use with CompressedKlassPtrs");
assert(UseCompressedClassPointers, "Only use with CompressedKlassPtrs");
address lower_base = MIN2((address)metaspace_base, cds_base);
address higher_address = MAX2((address)(cds_base + FileMapInfo::shared_spaces_size()),
(address)(metaspace_base + class_metaspace_size()));
@ -2846,7 +2915,7 @@ bool Metaspace::can_use_cds_with_metaspace_addr(char* metaspace_base, address cd
// Try to allocate the metaspace at the requested addr.
void Metaspace::allocate_metaspace_compressed_klass_ptrs(char* requested_addr, address cds_base) {
assert(using_class_space(), "called improperly");
assert(UseCompressedKlassPointers, "Only use with CompressedKlassPtrs");
assert(UseCompressedClassPointers, "Only use with CompressedKlassPtrs");
assert(class_metaspace_size() < KlassEncodingMetaspaceMax,
"Metaspace size is too big");
@ -2869,9 +2938,9 @@ void Metaspace::allocate_metaspace_compressed_klass_ptrs(char* requested_addr, a
// If no successful allocation then try to allocate the space anywhere. If
// that fails then OOM doom. At this point we cannot try allocating the
// metaspace as if UseCompressedKlassPointers is off because too much
// initialization has happened that depends on UseCompressedKlassPointers.
// So, UseCompressedKlassPointers cannot be turned off at this point.
// metaspace as if UseCompressedClassPointers is off because too much
// initialization has happened that depends on UseCompressedClassPointers.
// So, UseCompressedClassPointers cannot be turned off at this point.
if (!metaspace_rs.is_reserved()) {
metaspace_rs = ReservedSpace(class_metaspace_size(),
os::vm_allocation_granularity(), false);
@ -2904,12 +2973,12 @@ void Metaspace::allocate_metaspace_compressed_klass_ptrs(char* requested_addr, a
}
}
// For UseCompressedKlassPointers the class space is reserved above the top of
// For UseCompressedClassPointers the class space is reserved above the top of
// the Java heap. The argument passed in is at the base of the compressed space.
void Metaspace::initialize_class_space(ReservedSpace rs) {
// The reserved space size may be bigger because of alignment, esp with UseLargePages
assert(rs.size() >= ClassMetaspaceSize,
err_msg(SIZE_FORMAT " != " UINTX_FORMAT, rs.size(), ClassMetaspaceSize));
assert(rs.size() >= CompressedClassSpaceSize,
err_msg(SIZE_FORMAT " != " UINTX_FORMAT, rs.size(), CompressedClassSpaceSize));
assert(using_class_space(), "Must be using class space");
_class_space_list = new VirtualSpaceList(rs);
}
@ -2921,7 +2990,7 @@ void Metaspace::global_initialize() {
int max_alignment = os::vm_page_size();
size_t cds_total = 0;
set_class_metaspace_size(align_size_up(ClassMetaspaceSize,
set_class_metaspace_size(align_size_up(CompressedClassSpaceSize,
os::vm_allocation_granularity()));
MetaspaceShared::set_max_alignment(max_alignment);
@ -2941,8 +3010,8 @@ void Metaspace::global_initialize() {
#ifdef _LP64
// Set the compressed klass pointer base so that decoding of these pointers works
// properly when creating the shared archive.
assert(UseCompressedOops && UseCompressedKlassPointers,
"UseCompressedOops and UseCompressedKlassPointers must be set");
assert(UseCompressedOops && UseCompressedClassPointers,
"UseCompressedOops and UseCompressedClassPointers must be set");
Universe::set_narrow_klass_base((address)_space_list->current_virtual_space()->bottom());
if (TraceMetavirtualspaceAllocation && Verbose) {
gclog_or_tty->print_cr("Setting_narrow_klass_base to Address: " PTR_FORMAT,
@ -2979,7 +3048,7 @@ void Metaspace::global_initialize() {
}
#ifdef _LP64
// If UseCompressedKlassPointers is set then allocate the metaspace area
// If UseCompressedClassPointers is set then allocate the metaspace area
// above the heap and above the CDS area (if it exists).
if (using_class_space()) {
if (UseSharedSpaces) {
@ -2997,7 +3066,7 @@ void Metaspace::global_initialize() {
// on the medium chunk list. The next chunk will be small and progress
// from there. This size calculated by -version.
_first_class_chunk_word_size = MIN2((size_t)MediumChunk*6,
(ClassMetaspaceSize/BytesPerWord)*2);
(CompressedClassSpaceSize/BytesPerWord)*2);
_first_class_chunk_word_size = align_word_size_up(_first_class_chunk_word_size);
// Arbitrarily set the initial virtual space to a multiple
// of the boot class loader size.
@ -3064,7 +3133,7 @@ size_t Metaspace::align_word_size_up(size_t word_size) {
MetaWord* Metaspace::allocate(size_t word_size, MetadataType mdtype) {
// DumpSharedSpaces doesn't use class metadata area (yet)
// Also, don't use class_vsm() unless UseCompressedKlassPointers is true.
// Also, don't use class_vsm() unless UseCompressedClassPointers is true.
if (mdtype == ClassType && using_class_space()) {
return class_vsm()->allocate(word_size);
} else {
@ -3103,7 +3172,7 @@ size_t Metaspace::used_words_slow(MetadataType mdtype) const {
}
}
size_t Metaspace::free_words(MetadataType mdtype) const {
size_t Metaspace::free_words_slow(MetadataType mdtype) const {
if (mdtype == ClassType) {
return using_class_space() ? class_vsm()->sum_free_in_chunks_in_use() : 0;
} else {
@ -3213,7 +3282,7 @@ Metablock* Metaspace::allocate(ClassLoaderData* loader_data, size_t word_size,
MetaspaceAux::dump(gclog_or_tty);
}
// -XX:+HeapDumpOnOutOfMemoryError and -XX:OnOutOfMemoryError support
const char* space_string = (mdtype == ClassType) ? "Class Metadata space" :
const char* space_string = (mdtype == ClassType) ? "Compressed class space" :
"Metadata space";
report_java_out_of_memory(space_string);
@ -3311,3 +3380,59 @@ void Metaspace::dump(outputStream* const out) const {
class_vsm()->dump(out);
}
}
/////////////// Unit tests ///////////////
#ifndef PRODUCT
class MetaspaceAuxTest : AllStatic {
public:
static void test_reserved() {
size_t reserved = MetaspaceAux::reserved_bytes();
assert(reserved > 0, "assert");
size_t committed = MetaspaceAux::committed_bytes();
assert(committed <= reserved, "assert");
size_t reserved_metadata = MetaspaceAux::reserved_bytes(Metaspace::NonClassType);
assert(reserved_metadata > 0, "assert");
assert(reserved_metadata <= reserved, "assert");
if (UseCompressedClassPointers) {
size_t reserved_class = MetaspaceAux::reserved_bytes(Metaspace::ClassType);
assert(reserved_class > 0, "assert");
assert(reserved_class < reserved, "assert");
}
}
static void test_committed() {
size_t committed = MetaspaceAux::committed_bytes();
assert(committed > 0, "assert");
size_t reserved = MetaspaceAux::reserved_bytes();
assert(committed <= reserved, "assert");
size_t committed_metadata = MetaspaceAux::committed_bytes(Metaspace::NonClassType);
assert(committed_metadata > 0, "assert");
assert(committed_metadata <= committed, "assert");
if (UseCompressedClassPointers) {
size_t committed_class = MetaspaceAux::committed_bytes(Metaspace::ClassType);
assert(committed_class > 0, "assert");
assert(committed_class < committed, "assert");
}
}
static void test() {
test_reserved();
test_committed();
}
};
void MetaspaceAux_test() {
MetaspaceAuxTest::test();
}
#endif

67
hotspot/src/share/vm/memory/metaspace.hpp
View File

@ -182,9 +182,8 @@ class Metaspace : public CHeapObj<mtClass> {
char* bottom() const;
size_t used_words_slow(MetadataType mdtype) const;
size_t free_words(MetadataType mdtype) const;
size_t free_words_slow(MetadataType mdtype) const;
size_t capacity_words_slow(MetadataType mdtype) const;
size_t waste_words(MetadataType mdtype) const;
size_t used_bytes_slow(MetadataType mdtype) const;
size_t capacity_bytes_slow(MetadataType mdtype) const;
@ -213,27 +212,22 @@ class Metaspace : public CHeapObj<mtClass> {
void iterate(AllocRecordClosure *closure);
// Return TRUE only if UseCompressedKlassPointers is True and DumpSharedSpaces is False.
// Return TRUE only if UseCompressedClassPointers is True and DumpSharedSpaces is False.
static bool using_class_space() {
return NOT_LP64(false) LP64_ONLY(UseCompressedKlassPointers && !DumpSharedSpaces);
return NOT_LP64(false) LP64_ONLY(UseCompressedClassPointers && !DumpSharedSpaces);
}
};
class MetaspaceAux : AllStatic {
static size_t free_chunks_total(Metaspace::MetadataType mdtype);
public:
// Statistics for class space and data space in metaspace.
static size_t free_chunks_total_words(Metaspace::MetadataType mdtype);
// These methods iterate over the classloader data graph
// for the given Metaspace type. These are slow.
static size_t used_bytes_slow(Metaspace::MetadataType mdtype);
static size_t free_in_bytes(Metaspace::MetadataType mdtype);
static size_t free_bytes_slow(Metaspace::MetadataType mdtype);
static size_t capacity_bytes_slow(Metaspace::MetadataType mdtype);
// Iterates over the virtual space list.
static size_t reserved_in_bytes(Metaspace::MetadataType mdtype);
static size_t capacity_bytes_slow();
// Running sum of space in all Metachunks that has been
// allocated to a Metaspace. This is used instead of
@ -263,17 +257,16 @@ class MetaspaceAux : AllStatic {
}
// Used by MetaspaceCounters
static size_t free_chunks_total();
static size_t free_chunks_total_in_bytes();
static size_t free_chunks_total_in_bytes(Metaspace::MetadataType mdtype);
static size_t free_chunks_total_words();
static size_t free_chunks_total_bytes();
static size_t free_chunks_total_bytes(Metaspace::MetadataType mdtype);
static size_t allocated_capacity_words(Metaspace::MetadataType mdtype) {
return _allocated_capacity_words[mdtype];
}
static size_t allocated_capacity_words() {
return _allocated_capacity_words[Metaspace::NonClassType] +
(Metaspace::using_class_space() ?
_allocated_capacity_words[Metaspace::ClassType] : 0);
return allocated_capacity_words(Metaspace::NonClassType) +
allocated_capacity_words(Metaspace::ClassType);
}
static size_t allocated_capacity_bytes(Metaspace::MetadataType mdtype) {
return allocated_capacity_words(mdtype) * BytesPerWord;
@ -286,9 +279,8 @@ class MetaspaceAux : AllStatic {
return _allocated_used_words[mdtype];
}
static size_t allocated_used_words() {
return _allocated_used_words[Metaspace::NonClassType] +
(Metaspace::using_class_space() ?
_allocated_used_words[Metaspace::ClassType] : 0);
return allocated_used_words(Metaspace::NonClassType) +
allocated_used_words(Metaspace::ClassType);
}
static size_t allocated_used_bytes(Metaspace::MetadataType mdtype) {
return allocated_used_words(mdtype) * BytesPerWord;
@ -300,31 +292,22 @@ class MetaspaceAux : AllStatic {
static size_t free_bytes();
static size_t free_bytes(Metaspace::MetadataType mdtype);
// Total capacity in all Metaspaces
static size_t capacity_bytes_slow() {
#ifdef PRODUCT
// Use allocated_capacity_bytes() in PRODUCT instead of this function.
guarantee(false, "Should not call capacity_bytes_slow() in the PRODUCT");
#endif
size_t class_capacity = capacity_bytes_slow(Metaspace::ClassType);
size_t non_class_capacity = capacity_bytes_slow(Metaspace::NonClassType);
assert(allocated_capacity_bytes() == class_capacity + non_class_capacity,
err_msg("bad accounting: allocated_capacity_bytes() " SIZE_FORMAT
" class_capacity + non_class_capacity " SIZE_FORMAT
" class_capacity " SIZE_FORMAT " non_class_capacity " SIZE_FORMAT,
allocated_capacity_bytes(), class_capacity + non_class_capacity,
class_capacity, non_class_capacity));
return class_capacity + non_class_capacity;
static size_t reserved_bytes(Metaspace::MetadataType mdtype);
static size_t reserved_bytes() {
return reserved_bytes(Metaspace::ClassType) +
reserved_bytes(Metaspace::NonClassType);
}
// Total space reserved in all Metaspaces
static size_t reserved_in_bytes() {
return reserved_in_bytes(Metaspace::ClassType) +
reserved_in_bytes(Metaspace::NonClassType);
static size_t committed_bytes(Metaspace::MetadataType mdtype);
static size_t committed_bytes() {
return committed_bytes(Metaspace::ClassType) +
committed_bytes(Metaspace::NonClassType);
}
static size_t min_chunk_size();
static size_t min_chunk_size_words();
static size_t min_chunk_size_bytes() {
return min_chunk_size_words() * BytesPerWord;
}
// Print change in used metadata.
static void print_metaspace_change(size_t prev_metadata_used);

66
hotspot/src/share/vm/memory/metaspaceCounters.cpp
View File

@ -65,26 +65,25 @@ class MetaspacePerfCounters: public CHeapObj<mtInternal> {
MetaspacePerfCounters* MetaspaceCounters::_perf_counters = NULL;
size_t MetaspaceCounters::calculate_capacity() {
// The total capacity is the sum of
// 1) capacity of Metachunks in use by all Metaspaces
// 2) unused space at the end of each Metachunk
// 3) space in the freelist
size_t total_capacity = MetaspaceAux::allocated_capacity_bytes()
+ MetaspaceAux::free_bytes() + MetaspaceAux::free_chunks_total_in_bytes();
return total_capacity;
size_t MetaspaceCounters::used() {
return MetaspaceAux::allocated_used_bytes();
}
size_t MetaspaceCounters::capacity() {
return MetaspaceAux::committed_bytes();
}
size_t MetaspaceCounters::max_capacity() {
return MetaspaceAux::reserved_bytes();
}
void MetaspaceCounters::initialize_performance_counters() {
if (UsePerfData) {
assert(_perf_counters == NULL, "Should only be initialized once");
size_t min_capacity = MetaspaceAux::min_chunk_size();
size_t capacity = calculate_capacity();
size_t max_capacity = MetaspaceAux::reserved_in_bytes();
size_t used = MetaspaceAux::allocated_used_bytes();
_perf_counters = new MetaspacePerfCounters("metaspace", min_capacity, capacity, max_capacity, used);
size_t min_capacity = 0;
_perf_counters = new MetaspacePerfCounters("metaspace", min_capacity,
capacity(), max_capacity(), used());
}
}
@ -92,31 +91,29 @@ void MetaspaceCounters::update_performance_counters() {
if (UsePerfData) {
assert(_perf_counters != NULL, "Should be initialized");
size_t capacity = calculate_capacity();
size_t max_capacity = MetaspaceAux::reserved_in_bytes();
size_t used = MetaspaceAux::allocated_used_bytes();
_perf_counters->update(capacity, max_capacity, used);
_perf_counters->update(capacity(), max_capacity(), used());
}
}
MetaspacePerfCounters* CompressedClassSpaceCounters::_perf_counters = NULL;
size_t CompressedClassSpaceCounters::calculate_capacity() {
return MetaspaceAux::allocated_capacity_bytes(_class_type) +
MetaspaceAux::free_bytes(_class_type) +
MetaspaceAux::free_chunks_total_in_bytes(_class_type);
size_t CompressedClassSpaceCounters::used() {
return MetaspaceAux::allocated_used_bytes(Metaspace::ClassType);
}
size_t CompressedClassSpaceCounters::capacity() {
return MetaspaceAux::committed_bytes(Metaspace::ClassType);
}
size_t CompressedClassSpaceCounters::max_capacity() {
return MetaspaceAux::reserved_bytes(Metaspace::ClassType);
}
void CompressedClassSpaceCounters::update_performance_counters() {
if (UsePerfData && UseCompressedKlassPointers) {
if (UsePerfData && UseCompressedClassPointers) {
assert(_perf_counters != NULL, "Should be initialized");
size_t capacity = calculate_capacity();
size_t max_capacity = MetaspaceAux::reserved_in_bytes(_class_type);
size_t used = MetaspaceAux::allocated_used_bytes(_class_type);
_perf_counters->update(capacity, max_capacity, used);
_perf_counters->update(capacity(), max_capacity(), used());
}
}
@ -125,13 +122,10 @@ void CompressedClassSpaceCounters::initialize_performance_counters() {
assert(_perf_counters == NULL, "Should only be initialized once");
const char* ns = "compressedclassspace";
if (UseCompressedKlassPointers) {
size_t min_capacity = MetaspaceAux::min_chunk_size();
size_t capacity = calculate_capacity();
size_t max_capacity = MetaspaceAux::reserved_in_bytes(_class_type);
size_t used = MetaspaceAux::allocated_used_bytes(_class_type);
_perf_counters = new MetaspacePerfCounters(ns, min_capacity, capacity, max_capacity, used);
if (UseCompressedClassPointers) {
size_t min_capacity = 0;
_perf_counters = new MetaspacePerfCounters(ns, min_capacity, capacity(),
max_capacity(), used());
} else {
_perf_counters = new MetaspacePerfCounters(ns, 0, 0, 0, 0);
}

11
hotspot/src/share/vm/memory/metaspaceCounters.hpp
View File

@ -25,13 +25,15 @@
#ifndef SHARE_VM_MEMORY_METASPACECOUNTERS_HPP
#define SHARE_VM_MEMORY_METASPACECOUNTERS_HPP
#include "memory/metaspace.hpp"
#include "memory/allocation.hpp"
class MetaspacePerfCounters;
class MetaspaceCounters: public AllStatic {
static MetaspacePerfCounters* _perf_counters;
static size_t calculate_capacity();
static size_t used();
static size_t capacity();
static size_t max_capacity();
public:
static void initialize_performance_counters();
@ -40,8 +42,9 @@ class MetaspaceCounters: public AllStatic {
class CompressedClassSpaceCounters: public AllStatic {
static MetaspacePerfCounters* _perf_counters;
static size_t calculate_capacity();
static const Metaspace::MetadataType _class_type = Metaspace::ClassType;
static size_t used();
static size_t capacity();
static size_t max_capacity();
public:
static void initialize_performance_counters();

15
hotspot/src/share/vm/memory/universe.cpp
View File

@ -602,7 +602,7 @@ oop Universe::gen_out_of_memory_error(oop default_err) {
}
}
static intptr_t non_oop_bits = 0;
intptr_t Universe::_non_oop_bits = 0;
void* Universe::non_oop_word() {
// Neither the high bits nor the low bits of this value is allowed
@ -616,11 +616,11 @@ void* Universe::non_oop_word() {
// Using the OS-supplied non-memory-address word (usually 0 or -1)
// will take care of the high bits, however many there are.
if (non_oop_bits == 0) {
non_oop_bits = (intptr_t)os::non_memory_address_word() | 1;
if (_non_oop_bits == 0) {
_non_oop_bits = (intptr_t)os::non_memory_address_word() | 1;
}
return (void*)non_oop_bits;
return (void*)_non_oop_bits;
}
jint universe_init() {
@ -872,13 +872,16 @@ jint Universe::initialize_heap() {
// Reserve the Java heap, which is now the same for all GCs.
ReservedSpace Universe::reserve_heap(size_t heap_size, size_t alignment) {
assert(alignment <= Arguments::conservative_max_heap_alignment(),
err_msg("actual alignment "SIZE_FORMAT" must be within maximum heap alignment "SIZE_FORMAT,
alignment, Arguments::conservative_max_heap_alignment()));
size_t total_reserved = align_size_up(heap_size, alignment);
assert(!UseCompressedOops || (total_reserved <= (OopEncodingHeapMax - os::vm_page_size())),
"heap size is too big for compressed oops");
bool use_large_pages = UseLargePages && is_size_aligned(alignment, os::large_page_size());
assert(!UseLargePages
|| UseParallelOldGC
|| UseParallelGC
|| use_large_pages, "Wrong alignment to use large pages");
char* addr = Universe::preferred_heap_base(total_reserved, alignment, Universe::UnscaledNarrowOop);
@ -1028,7 +1031,7 @@ bool universe_post_init() {
msg = java_lang_String::create_from_str("Metadata space", CHECK_false);
java_lang_Throwable::set_message(Universe::_out_of_memory_error_metaspace, msg());
msg = java_lang_String::create_from_str("Class Metadata space", CHECK_false);
msg = java_lang_String::create_from_str("Compressed class space", CHECK_false);
java_lang_Throwable::set_message(Universe::_out_of_memory_error_class_metaspace, msg());
msg = java_lang_String::create_from_str("Requested array size exceeds VM limit", CHECK_false);

8
hotspot/src/share/vm/memory/universe.hpp
View File

@ -179,9 +179,11 @@ class Universe: AllStatic {
// The particular choice of collected heap.
static CollectedHeap* _collectedHeap;
static intptr_t _non_oop_bits;
// For UseCompressedOops.
static struct NarrowPtrStruct _narrow_oop;
// For UseCompressedKlassPointers.
// For UseCompressedClassPointers.
static struct NarrowPtrStruct _narrow_klass;
static address _narrow_ptrs_base;
@ -229,7 +231,7 @@ class Universe: AllStatic {
_narrow_oop._base = base;
}
static void set_narrow_klass_base(address base) {
assert(UseCompressedKlassPointers, "no compressed klass ptrs?");
assert(UseCompressedClassPointers, "no compressed klass ptrs?");
_narrow_klass._base = base;
}
static void set_narrow_oop_use_implicit_null_checks(bool use) {
@ -353,7 +355,7 @@ class Universe: AllStatic {
static int narrow_oop_shift() { return _narrow_oop._shift; }
static bool narrow_oop_use_implicit_null_checks() { return _narrow_oop._use_implicit_null_checks; }
// For UseCompressedKlassPointers
// For UseCompressedClassPointers
static address narrow_klass_base() { return _narrow_klass._base; }
static bool is_narrow_klass_base(void* addr) { return (narrow_klass_base() == (address)addr); }
static int narrow_klass_shift() { return _narrow_klass._shift; }

2
hotspot/src/share/vm/oops/arrayOop.hpp
View File

@ -65,7 +65,7 @@ class arrayOopDesc : public oopDesc {
// declared nonstatic fields in arrayOopDesc if not compressed, otherwise
// it occupies the second half of the _klass field in oopDesc.
static int length_offset_in_bytes() {
return UseCompressedKlassPointers ? klass_gap_offset_in_bytes() :
return UseCompressedClassPointers ? klass_gap_offset_in_bytes() :
sizeof(arrayOopDesc);
}

26
hotspot/src/share/vm/oops/constantPool.cpp
View File

@ -396,32 +396,6 @@ Klass* ConstantPool::klass_ref_at_if_loaded(constantPoolHandle this_oop, int whi
}
// This is an interface for the compiler that allows accessing non-resolved entries
// in the constant pool - but still performs the validations tests. Must be used
// in a pre-parse of the compiler - to determine what it can do and not do.
// Note: We cannot update the ConstantPool from the vm_thread.
Klass* ConstantPool::klass_ref_at_if_loaded_check(constantPoolHandle this_oop, int index, TRAPS) {
int which = this_oop->klass_ref_index_at(index);
CPSlot entry = this_oop->slot_at(which);
if (entry.is_resolved()) {
assert(entry.get_klass()->is_klass(), "must be");
return entry.get_klass();
} else {
assert(entry.is_unresolved(), "must be either symbol or klass");
Symbol* name = entry.get_symbol();
oop loader = this_oop->pool_holder()->class_loader();
oop protection_domain = this_oop->pool_holder()->protection_domain();
Handle h_loader(THREAD, loader);
Handle h_prot (THREAD, protection_domain);
KlassHandle k(THREAD, SystemDictionary::find(name, h_loader, h_prot, THREAD));
// Do access check for klasses
if( k.not_null() ) verify_constant_pool_resolve(this_oop, k, CHECK_NULL);
return k();
}
}
Method* ConstantPool::method_at_if_loaded(constantPoolHandle cpool,
int which) {
if (cpool->cache() == NULL) return NULL; // nothing to load yet

2
hotspot/src/share/vm/oops/constantPool.hpp
View File

@ -730,8 +730,6 @@ class ConstantPool : public Metadata {
static oop method_type_at_if_loaded (constantPoolHandle this_oop, int which);
static Klass* klass_at_if_loaded (constantPoolHandle this_oop, int which);
static Klass* klass_ref_at_if_loaded (constantPoolHandle this_oop, int which);
// Same as above - but does LinkResolving.
static Klass* klass_ref_at_if_loaded_check(constantPoolHandle this_oop, int which, TRAPS);
// Routines currently used for annotations (only called by jvm.cpp) but which might be used in the
// future by other Java code. These take constant pool indices rather than

28
hotspot/src/share/vm/oops/cpCache.cpp
View File

@ -140,9 +140,10 @@ void ConstantPoolCacheEntry::set_parameter_size(int value) {
err_msg("size must not change: parameter_size=%d, value=%d", parameter_size(), value));
}
void ConstantPoolCacheEntry::set_method(Bytecodes::Code invoke_code,
methodHandle method,
int vtable_index) {
void ConstantPoolCacheEntry::set_direct_or_vtable_call(Bytecodes::Code invoke_code,
methodHandle method,
int vtable_index) {
bool is_vtable_call = (vtable_index >= 0); // FIXME: split this method on this boolean
assert(method->interpreter_entry() != NULL, "should have been set at this point");
assert(!method->is_obsolete(), "attempt to write obsolete method to cpCache");
@ -160,7 +161,8 @@ void ConstantPoolCacheEntry::set_method(Bytecodes::Code invoke_code,
// ...and fall through as if we were handling invokevirtual:
case Bytecodes::_invokevirtual:
{
if (method->can_be_statically_bound()) {
if (!is_vtable_call) {
assert(method->can_be_statically_bound(), "");
// set_f2_as_vfinal_method checks if is_vfinal flag is true.
set_method_flags(as_TosState(method->result_type()),
( 1 << is_vfinal_shift) |
@ -169,6 +171,7 @@ void ConstantPoolCacheEntry::set_method(Bytecodes::Code invoke_code,
method()->size_of_parameters());
set_f2_as_vfinal_method(method());
} else {
assert(!method->can_be_statically_bound(), "");
assert(vtable_index >= 0, "valid index");
assert(!method->is_final_method(), "sanity");
set_method_flags(as_TosState(method->result_type()),
@ -182,6 +185,7 @@ void ConstantPoolCacheEntry::set_method(Bytecodes::Code invoke_code,
case Bytecodes::_invokespecial:
case Bytecodes::_invokestatic:
assert(!is_vtable_call, "");
// Note: Read and preserve the value of the is_vfinal flag on any
// invokevirtual bytecode shared with this constant pool cache entry.
// It is cheap and safe to consult is_vfinal() at all times.
@ -232,8 +236,22 @@ void ConstantPoolCacheEntry::set_method(Bytecodes::Code invoke_code,
NOT_PRODUCT(verify(tty));
}
void ConstantPoolCacheEntry::set_direct_call(Bytecodes::Code invoke_code, methodHandle method) {
int index = Method::nonvirtual_vtable_index;
// index < 0; FIXME: inline and customize set_direct_or_vtable_call
set_direct_or_vtable_call(invoke_code, method, index);
}
void ConstantPoolCacheEntry::set_interface_call(methodHandle method, int index) {
void ConstantPoolCacheEntry::set_vtable_call(Bytecodes::Code invoke_code, methodHandle method, int index) {
// either the method is a miranda or its holder should accept the given index
assert(method->method_holder()->is_interface() || method->method_holder()->verify_vtable_index(index), "");
// index >= 0; FIXME: inline and customize set_direct_or_vtable_call
set_direct_or_vtable_call(invoke_code, method, index);
}
void ConstantPoolCacheEntry::set_itable_call(Bytecodes::Code invoke_code, methodHandle method, int index) {
assert(method->method_holder()->verify_itable_index(index), "");
assert(invoke_code == Bytecodes::_invokeinterface, "");
InstanceKlass* interf = method->method_holder();
assert(interf->is_interface(), "must be an interface");
assert(!method->is_final_method(), "interfaces do not have final methods; cannot link to one here");

22
hotspot/src/share/vm/oops/cpCache.hpp
View File

@ -219,15 +219,29 @@ class ConstantPoolCacheEntry VALUE_OBJ_CLASS_SPEC {
Klass* root_klass // needed by the GC to dirty the klass
);
void set_method( // sets entry to resolved method entry
private:
void set_direct_or_vtable_call(
Bytecodes::Code invoke_code, // the bytecode used for invoking the method
methodHandle method, // the method/prototype if any (NULL, otherwise)
int vtable_index // the vtable index if any, else negative
);
void set_interface_call(
methodHandle method, // Resolved method
int index // Method index into interface
public:
void set_direct_call( // sets entry to exact concrete method entry
Bytecodes::Code invoke_code, // the bytecode used for invoking the method
methodHandle method // the method to call
);
void set_vtable_call( // sets entry to vtable index
Bytecodes::Code invoke_code, // the bytecode used for invoking the method
methodHandle method, // resolved method which declares the vtable index
int vtable_index // the vtable index
);
void set_itable_call(
Bytecodes::Code invoke_code, // the bytecode used; must be invokeinterface
methodHandle method, // the resolved interface method
int itable_index // index into itable for the method
);
void set_method_handle(

13
hotspot/src/share/vm/oops/fieldStreams.hpp
View File

@ -1,5 +1,5 @@
/*
* Copyright (c) 2011, 2012, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2011, 2013, 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
@ -27,6 +27,7 @@
#include "oops/instanceKlass.hpp"
#include "oops/fieldInfo.hpp"
#include "runtime/fieldDescriptor.hpp"
// The is the base class for iteration over the fields array
// describing the declared fields in the class. Several subclasses
@ -43,8 +44,10 @@ class FieldStreamBase : public StackObj {
int _index;
int _limit;
int _generic_signature_slot;
fieldDescriptor _fd_buf;
FieldInfo* field() const { return FieldInfo::from_field_array(_fields, _index); }
InstanceKlass* field_holder() const { return _constants->pool_holder(); }
int init_generic_signature_start_slot() {
int length = _fields->length();
@ -102,6 +105,7 @@ class FieldStreamBase : public StackObj {
_index = 0;
_limit = klass->java_fields_count();
init_generic_signature_start_slot();
assert(klass == field_holder(), "");
}
FieldStreamBase(instanceKlassHandle klass) {
_fields = klass->fields();
@ -109,6 +113,7 @@ class FieldStreamBase : public StackObj {
_index = 0;
_limit = klass->java_fields_count();
init_generic_signature_start_slot();
assert(klass == field_holder(), "");
}
// accessors
@ -180,6 +185,12 @@ class FieldStreamBase : public StackObj {
return field()->contended_group();
}
// bridge to a heavier API:
fieldDescriptor& field_descriptor() const {
fieldDescriptor& field = const_cast<fieldDescriptor&>(_fd_buf);
field.reinitialize(field_holder(), _index);
return field;
}
};
// Iterate over only the internal fields

119
hotspot/src/share/vm/oops/instanceKlass.cpp
View File

@ -286,7 +286,6 @@ InstanceKlass::InstanceKlass(int vtable_len,
init_previous_versions();
set_generic_signature_index(0);
release_set_methods_jmethod_ids(NULL);
release_set_methods_cached_itable_indices(NULL);
set_annotations(NULL);
set_jvmti_cached_class_field_map(NULL);
set_initial_method_idnum(0);
@ -1149,7 +1148,7 @@ bool InstanceKlass::find_local_field(Symbol* name, Symbol* sig, fieldDescriptor*
Symbol* f_name = fs.name();
Symbol* f_sig = fs.signature();
if (f_name == name && f_sig == sig) {
fd->initialize(const_cast<InstanceKlass*>(this), fs.index());
fd->reinitialize(const_cast<InstanceKlass*>(this), fs.index());
return true;
}
}
@ -1218,7 +1217,7 @@ Klass* InstanceKlass::find_field(Symbol* name, Symbol* sig, bool is_static, fiel
bool InstanceKlass::find_local_field_from_offset(int offset, bool is_static, fieldDescriptor* fd) const {
for (JavaFieldStream fs(this); !fs.done(); fs.next()) {
if (fs.offset() == offset) {
fd->initialize(const_cast<InstanceKlass*>(this), fs.index());
fd->reinitialize(const_cast<InstanceKlass*>(this), fs.index());
if (fd->is_static() == is_static) return true;
}
}
@ -1251,8 +1250,7 @@ void InstanceKlass::methods_do(void f(Method* method)) {
void InstanceKlass::do_local_static_fields(FieldClosure* cl) {
for (JavaFieldStream fs(this); !fs.done(); fs.next()) {
if (fs.access_flags().is_static()) {
fieldDescriptor fd;
fd.initialize(this, fs.index());
fieldDescriptor& fd = fs.field_descriptor();
cl->do_field(&fd);
}
}
@ -1268,8 +1266,7 @@ void InstanceKlass::do_local_static_fields(void f(fieldDescriptor*, TRAPS), TRAP
void InstanceKlass::do_local_static_fields_impl(instanceKlassHandle this_oop, void f(fieldDescriptor* fd, TRAPS), TRAPS) {
for (JavaFieldStream fs(this_oop()); !fs.done(); fs.next()) {
if (fs.access_flags().is_static()) {
fieldDescriptor fd;
fd.initialize(this_oop(), fs.index());
fieldDescriptor& fd = fs.field_descriptor();
f(&fd, CHECK);
}
}
@ -1291,7 +1288,7 @@ void InstanceKlass::do_nonstatic_fields(FieldClosure* cl) {
int* fields_sorted = NEW_C_HEAP_ARRAY(int, 2*(length+1), mtClass);
int j = 0;
for (int i = 0; i < length; i += 1) {
fd.initialize(this, i);
fd.reinitialize(this, i);
if (!fd.is_static()) {
fields_sorted[j + 0] = fd.offset();
fields_sorted[j + 1] = i;
@ -1303,7 +1300,7 @@ void InstanceKlass::do_nonstatic_fields(FieldClosure* cl) {
// _sort_Fn is defined in growableArray.hpp.
qsort(fields_sorted, length/2, 2*sizeof(int), (_sort_Fn)compare_fields_by_offset);
for (int i = 0; i < length; i += 2) {
fd.initialize(this, fields_sorted[i + 1]);
fd.reinitialize(this, fields_sorted[i + 1]);
assert(!fd.is_static() && fd.offset() == fields_sorted[i], "only nonstatic fields");
cl->do_field(&fd);
}
@ -1686,87 +1683,6 @@ jmethodID InstanceKlass::jmethod_id_or_null(Method* method) {
}
// Cache an itable index
void InstanceKlass::set_cached_itable_index(size_t idnum, int index) {
int* indices = methods_cached_itable_indices_acquire();
int* to_dealloc_indices = NULL;
// We use a double-check locking idiom here because this cache is
// performance sensitive. In the normal system, this cache only
// transitions from NULL to non-NULL which is safe because we use
// release_set_methods_cached_itable_indices() to advertise the
// new cache. A partially constructed cache should never be seen
// by a racing thread. Cache reads and writes proceed without a
// lock, but creation of the cache itself requires no leaks so a
// lock is generally acquired in that case.
//
// If the RedefineClasses() API has been used, then this cache can
// grow and we'll have transitions from non-NULL to bigger non-NULL.
// Cache creation requires no leaks and we require safety between all
// cache accesses and freeing of the old cache so a lock is generally
// acquired when the RedefineClasses() API has been used.
if (indices == NULL || idnum_can_increment()) {
// we need a cache or the cache can grow
MutexLocker ml(JNICachedItableIndex_lock);
// reacquire the cache to see if another thread already did the work
indices = methods_cached_itable_indices_acquire();
size_t length = 0;
// cache size is stored in element[0], other elements offset by one
if (indices == NULL || (length = (size_t)indices[0]) <= idnum) {
size_t size = MAX2(idnum+1, (size_t)idnum_allocated_count());
int* new_indices = NEW_C_HEAP_ARRAY(int, size+1, mtClass);
new_indices[0] = (int)size;
// copy any existing entries
size_t i;
for (i = 0; i < length; i++) {
new_indices[i+1] = indices[i+1];
}
// Set all the rest to -1
for (i = length; i < size; i++) {
new_indices[i+1] = -1;
}
if (indices != NULL) {
// We have an old cache to delete so save it for after we
// drop the lock.
to_dealloc_indices = indices;
}
release_set_methods_cached_itable_indices(indices = new_indices);
}
if (idnum_can_increment()) {
// this cache can grow so we have to write to it safely
indices[idnum+1] = index;
}
} else {
CHECK_UNHANDLED_OOPS_ONLY(Thread::current()->clear_unhandled_oops());
}
if (!idnum_can_increment()) {
// The cache cannot grow and this JNI itable index value does not
// have to be unique like a jmethodID. If there is a race to set it,
// it doesn't matter.
indices[idnum+1] = index;
}
if (to_dealloc_indices != NULL) {
// we allocated a new cache so free the old one
FreeHeap(to_dealloc_indices);
}
}
// Retrieve a cached itable index
int InstanceKlass::cached_itable_index(size_t idnum) {
int* indices = methods_cached_itable_indices_acquire();
if (indices != NULL && ((size_t)indices[0]) > idnum) {
// indices exist and are long enough, retrieve possible cached
return indices[idnum+1];
}
return -1;
}
//
// Walk the list of dependent nmethods searching for nmethods which
// are dependent on the changes that were passed in and mark them for
@ -2326,12 +2242,6 @@ void InstanceKlass::release_C_heap_structures() {
}
}
int* indices = methods_cached_itable_indices_acquire();
if (indices != (int*)NULL) {
release_set_methods_cached_itable_indices(NULL);
FreeHeap(indices);
}
// release dependencies
nmethodBucket* b = _dependencies;
_dependencies = NULL;
@ -2782,6 +2692,18 @@ static const char* state_names[] = {
"allocated", "loaded", "linked", "being_initialized", "fully_initialized", "initialization_error"
};
static void print_vtable(intptr_t* start, int len, outputStream* st) {
for (int i = 0; i < len; i++) {
intptr_t e = start[i];
st->print("%d : " INTPTR_FORMAT, i, e);
if (e != 0 && ((Metadata*)e)->is_metaspace_object()) {
st->print(" ");
((Metadata*)e)->print_value_on(st);
}
st->cr();
}
}
void InstanceKlass::print_on(outputStream* st) const {
assert(is_klass(), "must be klass");
Klass::print_on(st);
@ -2816,7 +2738,7 @@ void InstanceKlass::print_on(outputStream* st) const {
st->print(BULLET"arrays: "); array_klasses()->print_value_on_maybe_null(st); st->cr();
st->print(BULLET"methods: "); methods()->print_value_on(st); st->cr();
if (Verbose) {
if (Verbose || WizardMode) {
Array<Method*>* method_array = methods();
for(int i = 0; i < method_array->length(); i++) {
st->print("%d : ", i); method_array->at(i)->print_value(); st->cr();
@ -2874,7 +2796,9 @@ void InstanceKlass::print_on(outputStream* st) const {
st->print(BULLET"inner classes: "); inner_classes()->print_value_on(st); st->cr();
st->print(BULLET"java mirror: "); java_mirror()->print_value_on(st); st->cr();
st->print(BULLET"vtable length %d (start addr: " INTPTR_FORMAT ")", vtable_length(), start_of_vtable()); st->cr();
if (vtable_length() > 0 && (Verbose || WizardMode)) print_vtable(start_of_vtable(), vtable_length(), st);
st->print(BULLET"itable length %d (start addr: " INTPTR_FORMAT ")", itable_length(), start_of_itable()); st->cr();
if (itable_length() > 0 && (Verbose || WizardMode)) print_vtable(start_of_itable(), itable_length(), st);
st->print_cr(BULLET"---- static fields (%d words):", static_field_size());
FieldPrinter print_static_field(st);
((InstanceKlass*)this)->do_local_static_fields(&print_static_field);
@ -2896,6 +2820,7 @@ void InstanceKlass::print_on(outputStream* st) const {
void InstanceKlass::print_value_on(outputStream* st) const {
assert(is_klass(), "must be klass");
if (Verbose || WizardMode) access_flags().print_on(st);
name()->print_value_on(st);
}

10
hotspot/src/share/vm/oops/instanceKlass.hpp
View File

@ -245,7 +245,6 @@ class InstanceKlass: public Klass {
MemberNameTable* _member_names; // Member names
JNIid* _jni_ids; // First JNI identifier for static fields in this class
jmethodID* _methods_jmethod_ids; // jmethodIDs corresponding to method_idnum, or NULL if none
int* _methods_cached_itable_indices; // itable_index cache for JNI invoke corresponding to methods idnum, or NULL
nmethodBucket* _dependencies; // list of dependent nmethods
nmethod* _osr_nmethods_head; // Head of list of on-stack replacement nmethods for this class
BreakpointInfo* _breakpoints; // bpt lists, managed by Method*
@ -690,10 +689,6 @@ class InstanceKlass: public Klass {
size_t *length_p, jmethodID* id_p);
jmethodID jmethod_id_or_null(Method* method);
// cached itable index support
void set_cached_itable_index(size_t idnum, int index);
int cached_itable_index(size_t idnum);
// annotations support
Annotations* annotations() const { return _annotations; }
void set_annotations(Annotations* anno) { _annotations = anno; }
@ -994,11 +989,6 @@ private:
void release_set_methods_jmethod_ids(jmethodID* jmeths)
{ OrderAccess::release_store_ptr(&_methods_jmethod_ids, jmeths); }
int* methods_cached_itable_indices_acquire() const
{ return (int*)OrderAccess::load_ptr_acquire(&_methods_cached_itable_indices); }
void release_set_methods_cached_itable_indices(int* indices)
{ OrderAccess::release_store_ptr(&_methods_cached_itable_indices, indices); }
// Lock during initialization
public:
// Lock for (1) initialization; (2) access to the ConstantPool of this class.

4
hotspot/src/share/vm/oops/instanceOop.hpp
View File

@ -37,9 +37,9 @@ class instanceOopDesc : public oopDesc {
// If compressed, the offset of the fields of the instance may not be aligned.
static int base_offset_in_bytes() {
// offset computation code breaks if UseCompressedKlassPointers
// offset computation code breaks if UseCompressedClassPointers
// only is true
return (UseCompressedOops && UseCompressedKlassPointers) ?
return (UseCompressedOops && UseCompressedClassPointers) ?
klass_gap_offset_in_bytes() :
sizeof(instanceOopDesc);
}

16
hotspot/src/share/vm/oops/klass.cpp
View File

@ -674,13 +674,23 @@ void Klass::oop_verify_on(oop obj, outputStream* st) {
#ifndef PRODUCT
void Klass::verify_vtable_index(int i) {
bool Klass::verify_vtable_index(int i) {
if (oop_is_instance()) {
assert(i>=0 && i<((InstanceKlass*)this)->vtable_length()/vtableEntry::size(), "index out of bounds");
int limit = ((InstanceKlass*)this)->vtable_length()/vtableEntry::size();
assert(i >= 0 && i < limit, err_msg("index %d out of bounds %d", i, limit));
} else {
assert(oop_is_array(), "Must be");
assert(i>=0 && i<((ArrayKlass*)this)->vtable_length()/vtableEntry::size(), "index out of bounds");
int limit = ((ArrayKlass*)this)->vtable_length()/vtableEntry::size();
assert(i >= 0 && i < limit, err_msg("index %d out of bounds %d", i, limit));
}
return true;
}
bool Klass::verify_itable_index(int i) {
assert(oop_is_instance(), "");
int method_count = klassItable::method_count_for_interface(this);
assert(i >= 0 && i < method_count, "index out of bounds");
return true;
}
#endif

3
hotspot/src/share/vm/oops/klass.hpp
View File

@ -699,7 +699,8 @@ class Klass : public Metadata {
void verify(bool check_dictionary = true) { verify_on(tty, check_dictionary); }
#ifndef PRODUCT
void verify_vtable_index(int index);
bool verify_vtable_index(int index);
bool verify_itable_index(int index);
#endif
virtual void oop_verify_on(oop obj, outputStream* st);

239
hotspot/src/share/vm/oops/klassVtable.cpp
View File

@ -47,11 +47,12 @@ inline InstanceKlass* klassVtable::ik() const {
// this function computes the vtable size (including the size needed for miranda
// methods) and the number of miranda methods in this class
// methods) and the number of miranda methods in this class.
// Note on Miranda methods: Let's say there is a class C that implements
// interface I. Let's say there is a method m in I that neither C nor any
// of its super classes implement (i.e there is no method of any access, with
// the same name and signature as m), then m is a Miranda method which is
// interface I, and none of C's superclasses implements I.
// Let's say there is an abstract method m in I that neither C
// nor any of its super classes implement (i.e there is no method of any access,
// with the same name and signature as m), then m is a Miranda method which is
// entered as a public abstract method in C's vtable. From then on it should
// treated as any other public method in C for method over-ride purposes.
void klassVtable::compute_vtable_size_and_num_mirandas(
@ -111,10 +112,13 @@ void klassVtable::compute_vtable_size_and_num_mirandas(
}
int klassVtable::index_of(Method* m, int len) const {
assert(m->vtable_index() >= 0, "do not ask this of non-vtable methods");
assert(m->has_vtable_index(), "do not ask this of non-vtable methods");
return m->vtable_index();
}
// Copy super class's vtable to the first part (prefix) of this class's vtable,
// and return the number of entries copied. Expects that 'super' is the Java
// super class (arrays can have "array" super classes that must be skipped).
int klassVtable::initialize_from_super(KlassHandle super) {
if (super.is_null()) {
return 0;
@ -139,14 +143,14 @@ int klassVtable::initialize_from_super(KlassHandle super) {
}
}
// Revised lookup semantics introduced 1.3 (Kestral beta)
//
// Revised lookup semantics introduced 1.3 (Kestrel beta)
void klassVtable::initialize_vtable(bool checkconstraints, TRAPS) {
// Note: Arrays can have intermediate array supers. Use java_super to skip them.
KlassHandle super (THREAD, klass()->java_super());
int nofNewEntries = 0;
if (PrintVtables && !klass()->oop_is_array()) {
ResourceMark rm(THREAD);
tty->print_cr("Initializing: %s", _klass->name()->as_C_string());
@ -174,8 +178,10 @@ void klassVtable::initialize_vtable(bool checkconstraints, TRAPS) {
int len = methods->length();
int initialized = super_vtable_len;
// update_inherited_vtable can stop for gc - ensure using handles
// Check each of this class's methods against super;
// if override, replace in copy of super vtable, otherwise append to end
for (int i = 0; i < len; i++) {
// update_inherited_vtable can stop for gc - ensure using handles
HandleMark hm(THREAD);
assert(methods->at(i)->is_method(), "must be a Method*");
methodHandle mh(THREAD, methods->at(i));
@ -189,11 +195,11 @@ void klassVtable::initialize_vtable(bool checkconstraints, TRAPS) {
}
}
// add miranda methods; it will also update the value of initialized
fill_in_mirandas(&initialized);
// add miranda methods to end of vtable.
initialized = fill_in_mirandas(initialized);
// In class hierarchies where the accessibility is not increasing (i.e., going from private ->
// package_private -> publicprotected), the vtable might actually be smaller than our initial
// package_private -> public/protected), the vtable might actually be smaller than our initial
// calculation.
assert(initialized <= _length, "vtable initialization failed");
for(;initialized < _length; initialized++) {
@ -248,14 +254,8 @@ InstanceKlass* klassVtable::find_transitive_override(InstanceKlass* initialsuper
return superk;
}
// Methods that are "effectively" final don't need vtable entries.
bool method_is_effectively_final(
AccessFlags klass_flags, methodHandle target) {
return target->is_final() || klass_flags.is_final() && !target->is_overpass();
}
// Update child's copy of super vtable for overrides
// OR return true if a new vtable entry is required
// OR return true if a new vtable entry is required.
// Only called for InstanceKlass's, i.e. not for arrays
// If that changed, could not use _klass as handle for klass
bool klassVtable::update_inherited_vtable(InstanceKlass* klass, methodHandle target_method, int super_vtable_len,
@ -263,6 +263,7 @@ bool klassVtable::update_inherited_vtable(InstanceKlass* klass, methodHandle tar
ResourceMark rm;
bool allocate_new = true;
assert(klass->oop_is_instance(), "must be InstanceKlass");
assert(klass == target_method()->method_holder(), "caller resp.");
// Initialize the method's vtable index to "nonvirtual".
// If we allocate a vtable entry, we will update it to a non-negative number.
@ -273,11 +274,17 @@ bool klassVtable::update_inherited_vtable(InstanceKlass* klass, methodHandle tar
return false;
}
if (method_is_effectively_final(klass->access_flags(), target_method)) {
if (target_method->is_final_method(klass->access_flags())) {
// a final method never needs a new entry; final methods can be statically
// resolved and they have to be present in the vtable only if they override
// a super's method, in which case they re-use its entry
allocate_new = false;
} else if (klass->is_interface()) {
allocate_new = false; // see note below in needs_new_vtable_entry
// An interface never allocates new vtable slots, only inherits old ones.
// This method will either be assigned its own itable index later,
// or be assigned an inherited vtable index in the loop below.
target_method()->set_vtable_index(Method::pending_itable_index);
}
// we need a new entry if there is no superclass
@ -411,8 +418,14 @@ bool klassVtable::needs_new_vtable_entry(methodHandle target_method,
Symbol* classname,
AccessFlags class_flags,
TRAPS) {
if (class_flags.is_interface()) {
// Interfaces do not use vtables, so there is no point to assigning
// a vtable index to any of their methods. If we refrain from doing this,
// we can use Method::_vtable_index to hold the itable index
return false;
}
if (method_is_effectively_final(class_flags, target_method) ||
if (target_method->is_final_method(class_flags) ||
// a final method never needs a new entry; final methods can be statically
// resolved and they have to be present in the vtable only if they override
// a super's method, in which case they re-use its entry
@ -500,7 +513,8 @@ int klassVtable::index_of_miranda(Symbol* name, Symbol* signature) {
return Method::invalid_vtable_index;
}
// check if an entry is miranda
// check if an entry at an index is miranda
// requires that method m at entry be declared ("held") by an interface.
bool klassVtable::is_miranda_entry_at(int i) {
Method* m = method_at(i);
Klass* method_holder = m->method_holder();
@ -516,7 +530,9 @@ bool klassVtable::is_miranda_entry_at(int i) {
return false;
}
// check if a method is a miranda method, given a class's methods table and it's super
// check if a method is a miranda method, given a class's methods table and its super
// "miranda" means not static, not defined by this class, and not defined
// in super unless it is private and therefore inaccessible to this class.
// the caller must make sure that the method belongs to an interface implemented by the class
bool klassVtable::is_miranda(Method* m, Array<Method*>* class_methods, Klass* super) {
if (m->is_static()) {
@ -541,6 +557,14 @@ bool klassVtable::is_miranda(Method* m, Array<Method*>* class_methods, Klass* su
return false;
}
// Scans current_interface_methods for miranda methods that do not
// already appear in new_mirandas and are also not defined-and-non-private
// in super (superclass). These mirandas are added to all_mirandas if it is
// not null; in addition, those that are not duplicates of miranda methods
// inherited by super from its interfaces are added to new_mirandas.
// Thus, new_mirandas will be the set of mirandas that this class introduces,
// all_mirandas will be the set of all mirandas applicable to this class
// including all defined in superclasses.
void klassVtable::add_new_mirandas_to_lists(
GrowableArray<Method*>* new_mirandas, GrowableArray<Method*>* all_mirandas,
Array<Method*>* current_interface_methods, Array<Method*>* class_methods,
@ -599,17 +623,22 @@ void klassVtable::get_mirandas(GrowableArray<Method*>* new_mirandas,
}
}
// fill in mirandas
void klassVtable::fill_in_mirandas(int* initialized) {
// Discover miranda methods ("miranda" = "interface abstract, no binding"),
// and append them into the vtable starting at index initialized,
// return the new value of initialized.
int klassVtable::fill_in_mirandas(int initialized) {
GrowableArray<Method*> mirandas(20);
get_mirandas(&mirandas, NULL, ik()->super(), ik()->methods(),
ik()->local_interfaces());
for (int i = 0; i < mirandas.length(); i++) {
put_method_at(mirandas.at(i), *initialized);
++(*initialized);
put_method_at(mirandas.at(i), initialized);
++initialized;
}
return initialized;
}
// Copy this class's vtable to the vtable beginning at start.
// Used to copy superclass vtable to prefix of subclass's vtable.
void klassVtable::copy_vtable_to(vtableEntry* start) {
Copy::disjoint_words((HeapWord*)table(), (HeapWord*)start, _length * vtableEntry::size());
}
@ -723,6 +752,12 @@ static int initialize_count = 0;
// Initialization
void klassItable::initialize_itable(bool checkconstraints, TRAPS) {
if (_klass->is_interface()) {
// This needs to go after vtable indexes are assigned but
// before implementors need to know the number of itable indexes.
assign_itable_indexes_for_interface(_klass());
}
// Cannot be setup doing bootstrapping, interfaces don't have
// itables, and klass with only ones entry have empty itables
if (Universe::is_bootstrapping() ||
@ -754,45 +789,89 @@ void klassItable::initialize_itable(bool checkconstraints, TRAPS) {
}
inline bool interface_method_needs_itable_index(Method* m) {
if (m->is_static()) return false; // e.g., Stream.empty
if (m->is_initializer()) return false; // <init> or <clinit>
// If an interface redeclares a method from java.lang.Object,
// it should already have a vtable index, don't touch it.
// e.g., CharSequence.toString (from initialize_vtable)
// if (m->has_vtable_index()) return false; // NO!
return true;
}
int klassItable::assign_itable_indexes_for_interface(Klass* klass) {
// an interface does not have an itable, but its methods need to be numbered
if (TraceItables) tty->print_cr("%3d: Initializing itable for interface %s", ++initialize_count,
klass->name()->as_C_string());
Array<Method*>* methods = InstanceKlass::cast(klass)->methods();
int nof_methods = methods->length();
int ime_num = 0;
for (int i = 0; i < nof_methods; i++) {
Method* m = methods->at(i);
if (interface_method_needs_itable_index(m)) {
assert(!m->is_final_method(), "no final interface methods");
// If m is already assigned a vtable index, do not disturb it.
if (!m->has_vtable_index()) {
assert(m->vtable_index() == Method::pending_itable_index, "set by initialize_vtable");
m->set_itable_index(ime_num);
// Progress to next itable entry
ime_num++;
}
}
}
assert(ime_num == method_count_for_interface(klass), "proper sizing");
return ime_num;
}
int klassItable::method_count_for_interface(Klass* interf) {
assert(interf->oop_is_instance(), "must be");
assert(interf->is_interface(), "must be");
Array<Method*>* methods = InstanceKlass::cast(interf)->methods();
int nof_methods = methods->length();
while (nof_methods > 0) {
Method* m = methods->at(nof_methods-1);
if (m->has_itable_index()) {
int length = m->itable_index() + 1;
#ifdef ASSERT
while (nof_methods = 0) {
m = methods->at(--nof_methods);
assert(!m->has_itable_index() || m->itable_index() < length, "");
}
#endif //ASSERT
return length; // return the rightmost itable index, plus one
}
nof_methods -= 1;
}
// no methods have itable indexes
return 0;
}
void klassItable::initialize_itable_for_interface(int method_table_offset, KlassHandle interf_h, bool checkconstraints, TRAPS) {
Array<Method*>* methods = InstanceKlass::cast(interf_h())->methods();
int nof_methods = methods->length();
HandleMark hm;
KlassHandle klass = _klass;
assert(nof_methods > 0, "at least one method must exist for interface to be in vtable");
Handle interface_loader (THREAD, InstanceKlass::cast(interf_h())->class_loader());
int ime_num = 0;
// Skip first Method* if it is a class initializer
int i = methods->at(0)->is_static_initializer() ? 1 : 0;
// m, method_name, method_signature, klass reset each loop so they
// don't need preserving across check_signature_loaders call
// methods needs a handle in case of gc from check_signature_loaders
for(; i < nof_methods; i++) {
int ime_count = method_count_for_interface(interf_h());
for (int i = 0; i < nof_methods; i++) {
Method* m = methods->at(i);
Symbol* method_name = m->name();
Symbol* method_signature = m->signature();
// This is same code as in Linkresolver::lookup_instance_method_in_klasses
Method* target = klass->uncached_lookup_method(method_name, method_signature);
while (target != NULL && target->is_static()) {
// continue with recursive lookup through the superclass
Klass* super = target->method_holder()->super();
target = (super == NULL) ? (Method*)NULL : super->uncached_lookup_method(method_name, method_signature);
methodHandle target;
if (m->has_itable_index()) {
LinkResolver::lookup_instance_method_in_klasses(target, _klass, m->name(), m->signature(), CHECK);
}
if (target == NULL || !target->is_public() || target->is_abstract()) {
// Entry do not resolve. Leave it empty
} else {
// Entry did resolve, check loader constraints before initializing
// if checkconstraints requested
methodHandle target_h (THREAD, target); // preserve across gc
if (checkconstraints) {
Handle method_holder_loader (THREAD, target->method_holder()->class_loader());
if (method_holder_loader() != interface_loader()) {
ResourceMark rm(THREAD);
Symbol* failed_type_symbol =
SystemDictionary::check_signature_loaders(method_signature,
SystemDictionary::check_signature_loaders(m->signature(),
method_holder_loader,
interface_loader,
true, CHECK);
@ -803,9 +882,9 @@ void klassItable::initialize_itable_for_interface(int method_table_offset, Klass
"and the class loader (instance of %s) for interface "
"%s have different Class objects for the type %s "
"used in the signature";
char* sig = target_h()->name_and_sig_as_C_string();
char* sig = target()->name_and_sig_as_C_string();
const char* loader1 = SystemDictionary::loader_name(method_holder_loader());
char* current = klass->name()->as_C_string();
char* current = _klass->name()->as_C_string();
const char* loader2 = SystemDictionary::loader_name(interface_loader());
char* iface = InstanceKlass::cast(interf_h())->name()->as_C_string();
char* failed_type_name = failed_type_symbol->as_C_string();
@ -821,10 +900,10 @@ void klassItable::initialize_itable_for_interface(int method_table_offset, Klass
}
// ime may have moved during GC so recalculate address
itableOffsetEntry::method_entry(_klass(), method_table_offset)[ime_num].initialize(target_h());
int ime_num = m->itable_index();
assert(ime_num < ime_count, "oob");
itableOffsetEntry::method_entry(_klass(), method_table_offset)[ime_num].initialize(target());
}
// Progress to next entry
ime_num++;
}
}
@ -913,20 +992,22 @@ class InterfaceVisiterClosure : public StackObj {
virtual void doit(Klass* intf, int method_count) = 0;
};
// Visit all interfaces with at-least one method (excluding <clinit>)
// Visit all interfaces with at least one itable method
void visit_all_interfaces(Array<Klass*>* transitive_intf, InterfaceVisiterClosure *blk) {
// Handle array argument
for(int i = 0; i < transitive_intf->length(); i++) {
Klass* intf = transitive_intf->at(i);
assert(intf->is_interface(), "sanity check");
// Find no. of methods excluding a <clinit>
int method_count = InstanceKlass::cast(intf)->methods()->length();
if (method_count > 0) {
Method* m = InstanceKlass::cast(intf)->methods()->at(0);
assert(m != NULL && m->is_method(), "sanity check");
if (m->name() == vmSymbols::object_initializer_name()) {
method_count--;
// Find no. of itable methods
int method_count = 0;
// method_count = klassItable::method_count_for_interface(intf);
Array<Method*>* methods = InstanceKlass::cast(intf)->methods();
if (methods->length() > 0) {
for (int i = methods->length(); --i >= 0; ) {
if (interface_method_needs_itable_index(methods->at(i))) {
method_count++;
}
}
}
@ -1024,40 +1105,26 @@ void klassItable::setup_itable_offset_table(instanceKlassHandle klass) {
}
// m must be a method in an interface
int klassItable::compute_itable_index(Method* m) {
InstanceKlass* intf = m->method_holder();
assert(intf->is_interface(), "sanity check");
Array<Method*>* methods = intf->methods();
int index = 0;
while(methods->at(index) != m) {
index++;
assert(index < methods->length(), "should find index for resolve_invoke");
}
// Adjust for <clinit>, which is left out of table if first method
if (methods->length() > 0 && methods->at(0)->is_static_initializer()) {
index--;
}
return index;
}
// inverse to compute_itable_index
// inverse to itable_index
Method* klassItable::method_for_itable_index(Klass* intf, int itable_index) {
assert(InstanceKlass::cast(intf)->is_interface(), "sanity check");
assert(intf->verify_itable_index(itable_index), "");
Array<Method*>* methods = InstanceKlass::cast(intf)->methods();
int index = itable_index;
// Adjust for <clinit>, which is left out of table if first method
if (methods->length() > 0 && methods->at(0)->is_static_initializer()) {
index++;
}
if (itable_index < 0 || index >= methods->length())
if (itable_index < 0 || itable_index >= method_count_for_interface(intf))
return NULL; // help caller defend against bad indexes
int index = itable_index;
Method* m = methods->at(index);
assert(compute_itable_index(m) == itable_index, "correct inverse");
int index2 = -1;
while (!m->has_itable_index() ||
(index2 = m->itable_index()) != itable_index) {
assert(index2 < itable_index, "monotonic");
if (++index == methods->length())
return NULL;
m = methods->at(index);
}
assert(m->itable_index() == itable_index, "correct inverse");
return m;
}

8
hotspot/src/share/vm/oops/klassVtable.hpp
View File

@ -124,7 +124,7 @@ class klassVtable : public ResourceObj {
// support for miranda methods
bool is_miranda_entry_at(int i);
void fill_in_mirandas(int* initialized);
int fill_in_mirandas(int initialized);
static bool is_miranda(Method* m, Array<Method*>* class_methods, Klass* super);
static void add_new_mirandas_to_lists(
GrowableArray<Method*>* new_mirandas,
@ -150,6 +150,8 @@ class klassVtable : public ResourceObj {
// from_compiled_code_entry_point -> nmethod entry point
// from_interpreter_entry_point -> i2cadapter
class vtableEntry VALUE_OBJ_CLASS_SPEC {
friend class VMStructs;
public:
// size in words
static int size() {
@ -288,12 +290,12 @@ class klassItable : public ResourceObj {
#endif // INCLUDE_JVMTI
// Setup of itable
static int assign_itable_indexes_for_interface(Klass* klass);
static int method_count_for_interface(Klass* klass);
static int compute_itable_size(Array<Klass*>* transitive_interfaces);
static void setup_itable_offset_table(instanceKlassHandle klass);
// Resolving of method to index
static int compute_itable_index(Method* m);
// ...and back again:
static Method* method_for_itable_index(Klass* klass, int itable_index);
// Debugging/Statistics

34
hotspot/src/share/vm/oops/method.cpp
View File

@ -509,24 +509,31 @@ bool Method::compute_has_loops_flag() {
return _access_flags.has_loops();
}
bool Method::is_final_method(AccessFlags class_access_flags) const {
// or "does_not_require_vtable_entry"
// overpass can occur, is not final (reuses vtable entry)
// private methods get vtable entries for backward class compatibility.
if (is_overpass()) return false;
return is_final() || class_access_flags.is_final();
}
bool Method::is_final_method() const {
// %%% Should return true for private methods also,
// since there is no way to override them.
return is_final() || method_holder()->is_final();
return is_final_method(method_holder()->access_flags());
}
bool Method::is_strict_method() const {
return is_strict();
}
bool Method::can_be_statically_bound() const {
if (is_final_method()) return true;
bool Method::can_be_statically_bound(AccessFlags class_access_flags) const {
if (is_final_method(class_access_flags)) return true;
#ifdef ASSERT
bool is_nonv = (vtable_index() == nonvirtual_vtable_index);
if (class_access_flags.is_interface()) assert(is_nonv == is_static(), err_msg("is_nonv=%s", is_nonv));
#endif
assert(valid_vtable_index() || valid_itable_index(), "method must be linked before we ask this question");
return vtable_index() == nonvirtual_vtable_index;
}
bool Method::can_be_statically_bound() const {
return can_be_statically_bound(method_holder()->access_flags());
}
bool Method::is_accessor() const {
if (code_size() != 5) return false;
@ -967,7 +974,7 @@ bool Method::is_overridden_in(Klass* k) const {
assert(ik->is_subclass_of(method_holder()), "should be subklass");
assert(ik->vtable() != NULL, "vtable should exist");
if (vtable_index() == nonvirtual_vtable_index) {
if (!has_vtable_index()) {
return false;
} else {
Method* vt_m = ik->method_at_vtable(vtable_index());
@ -1959,7 +1966,7 @@ void Method::print_on(outputStream* st) const {
void Method::print_value_on(outputStream* st) const {
assert(is_method(), "must be method");
st->print_cr(internal_name());
st->print(internal_name());
print_address_on(st);
st->print(" ");
name()->print_value_on(st);
@ -1967,6 +1974,7 @@ void Method::print_value_on(outputStream* st) const {
signature()->print_value_on(st);
st->print(" in ");
method_holder()->print_value_on(st);
if (WizardMode) st->print("#%d", _vtable_index);
if (WizardMode) st->print("[%d,%d]", size_of_parameters(), max_locals());
if (WizardMode && code() != NULL) st->print(" ((nmethod*)%p)", code());
}

19
hotspot/src/share/vm/oops/method.hpp
View File

@ -448,16 +448,22 @@ class Method : public Metadata {
enum VtableIndexFlag {
// Valid vtable indexes are non-negative (>= 0).
// These few negative values are used as sentinels.
highest_unused_vtable_index_value = -5,
itable_index_max = -10, // first itable index, growing downward
pending_itable_index = -9, // itable index will be assigned
invalid_vtable_index = -4, // distinct from any valid vtable index
garbage_vtable_index = -3, // not yet linked; no vtable layout yet
nonvirtual_vtable_index = -2 // there is no need for vtable dispatch
// 6330203 Note: Do not use -1, which was overloaded with many meanings.
};
DEBUG_ONLY(bool valid_vtable_index() const { return _vtable_index >= nonvirtual_vtable_index; })
int vtable_index() const { assert(valid_vtable_index(), "");
return _vtable_index; }
bool has_vtable_index() const { return _vtable_index >= 0; }
int vtable_index() const { return _vtable_index; }
void set_vtable_index(int index) { _vtable_index = index; }
DEBUG_ONLY(bool valid_itable_index() const { return _vtable_index <= pending_itable_index; })
bool has_itable_index() const { return _vtable_index <= itable_index_max; }
int itable_index() const { assert(valid_itable_index(), "");
return itable_index_max - _vtable_index; }
void set_itable_index(int index) { _vtable_index = itable_index_max - index; assert(valid_itable_index(), ""); }
// interpreter entry
address interpreter_entry() const { return _i2i_entry; }
@ -560,10 +566,11 @@ class Method : public Metadata {
// checks method and its method holder
bool is_final_method() const;
bool is_strict_method() const;
bool is_final_method(AccessFlags class_access_flags) const;
// true if method needs no dynamic dispatch (final and/or no vtable entry)
bool can_be_statically_bound() const;
bool can_be_statically_bound(AccessFlags class_access_flags) const;
// returns true if the method has any backward branches.
bool has_loops() {
@ -740,10 +747,6 @@ class Method : public Metadata {
// so handles are not used to avoid deadlock.
jmethodID find_jmethod_id_or_null() { return method_holder()->jmethod_id_or_null(this); }
// JNI static invoke cached itable index accessors
int cached_itable_index() { return method_holder()->cached_itable_index(method_idnum()); }
void set_cached_itable_index(int index) { method_holder()->set_cached_itable_index(method_idnum(), index); }
// Support for inlining of intrinsic methods
vmIntrinsics::ID intrinsic_id() const { return (vmIntrinsics::ID) _intrinsic_id; }
void set_intrinsic_id(vmIntrinsics::ID id) { _intrinsic_id = (u1) id; }

2
hotspot/src/share/vm/oops/methodData.hpp
View File

@ -72,6 +72,8 @@ class ProfileData;
//
// Overlay for generic profiling data.
class DataLayout VALUE_OBJ_CLASS_SPEC {
friend class VMStructs;
private:
// Every data layout begins with a header. This header
// contains a tag, which is used to indicate the size/layout

18
hotspot/src/share/vm/oops/oop.inline.hpp
View File

@ -69,7 +69,7 @@ inline markOop oopDesc::cas_set_mark(markOop new_mark, markOop old_mark) {
}
inline Klass* oopDesc::klass() const {
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
return Klass::decode_klass_not_null(_metadata._compressed_klass);
} else {
return _metadata._klass;
@ -78,7 +78,7 @@ inline Klass* oopDesc::klass() const {
inline Klass* oopDesc::klass_or_null() const volatile {
// can be NULL in CMS
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
return Klass::decode_klass(_metadata._compressed_klass);
} else {
return _metadata._klass;
@ -86,19 +86,19 @@ inline Klass* oopDesc::klass_or_null() const volatile {
}
inline int oopDesc::klass_gap_offset_in_bytes() {
assert(UseCompressedKlassPointers, "only applicable to compressed klass pointers");
assert(UseCompressedClassPointers, "only applicable to compressed klass pointers");
return oopDesc::klass_offset_in_bytes() + sizeof(narrowKlass);
}
inline Klass** oopDesc::klass_addr() {
// Only used internally and with CMS and will not work with
// UseCompressedOops
assert(!UseCompressedKlassPointers, "only supported with uncompressed klass pointers");
assert(!UseCompressedClassPointers, "only supported with uncompressed klass pointers");
return (Klass**) &_metadata._klass;
}
inline narrowKlass* oopDesc::compressed_klass_addr() {
assert(UseCompressedKlassPointers, "only called by compressed klass pointers");
assert(UseCompressedClassPointers, "only called by compressed klass pointers");
return &_metadata._compressed_klass;
}
@ -106,7 +106,7 @@ inline void oopDesc::set_klass(Klass* k) {
// since klasses are promoted no store check is needed
assert(Universe::is_bootstrapping() || k != NULL, "must be a real Klass*");
assert(Universe::is_bootstrapping() || k->is_klass(), "not a Klass*");
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
*compressed_klass_addr() = Klass::encode_klass_not_null(k);
} else {
*klass_addr() = k;
@ -118,7 +118,7 @@ inline int oopDesc::klass_gap() const {
}
inline void oopDesc::set_klass_gap(int v) {
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
*(int*)(((intptr_t)this) + klass_gap_offset_in_bytes()) = v;
}
}
@ -126,7 +126,7 @@ inline void oopDesc::set_klass_gap(int v) {
inline void oopDesc::set_klass_to_list_ptr(oop k) {
// This is only to be used during GC, for from-space objects, so no
// barrier is needed.
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
_metadata._compressed_klass = (narrowKlass)encode_heap_oop(k); // may be null (parnew overflow handling)
} else {
_metadata._klass = (Klass*)(address)k;
@ -135,7 +135,7 @@ inline void oopDesc::set_klass_to_list_ptr(oop k) {
inline oop oopDesc::list_ptr_from_klass() {
// This is only to be used during GC, for from-space objects.
if (UseCompressedKlassPointers) {
if (UseCompressedClassPointers) {
return decode_heap_oop((narrowOop)_metadata._compressed_klass);
} else {
// Special case for GC

2
hotspot/src/share/vm/oops/symbol.hpp
View File

@ -45,7 +45,7 @@
// in the SymbolTable bucket (the _literal field in HashtableEntry)
// that points to the Symbol. All other stores of a Symbol*
// to a field of a persistent variable (e.g., the _name filed in
// FieldAccessInfo or _ptr in a CPSlot) is reference counted.
// fieldDescriptor or _ptr in a CPSlot) is reference counted.
//
// 1) The lookup of a "name" in the SymbolTable either creates a Symbol F for
// "name" and returns a pointer to F or finds a pre-existing Symbol F for

2
hotspot/src/share/vm/opto/cfgnode.cpp
View File

@ -1932,7 +1932,7 @@ Node *PhiNode::Ideal(PhaseGVN *phase, bool can_reshape) {
#ifdef _LP64
// Push DecodeN/DecodeNKlass down through phi.
// The rest of phi graph will transform by split EncodeP node though phis up.
if ((UseCompressedOops || UseCompressedKlassPointers) && can_reshape && progress == NULL) {
if ((UseCompressedOops || UseCompressedClassPointers) && can_reshape && progress == NULL) {
bool may_push = true;
bool has_decodeN = false;
bool is_decodeN = false;

42
hotspot/src/share/vm/opto/chaitin.cpp
View File

@ -122,40 +122,23 @@ double LRG::score() const {
return score;
}
LRG_List::LRG_List( uint max ) : _cnt(max), _max(max), _lidxs(NEW_RESOURCE_ARRAY(uint,max)) {
memset( _lidxs, 0, sizeof(uint)*max );
}
void LRG_List::extend( uint nidx, uint lidx ) {
_nesting.check();
if( nidx >= _max ) {
uint size = 16;
while( size <= nidx ) size <<=1;
_lidxs = REALLOC_RESOURCE_ARRAY( uint, _lidxs, _max, size );
_max = size;
}
while( _cnt <= nidx )
_lidxs[_cnt++] = 0;
_lidxs[nidx] = lidx;
}
#define NUMBUCKS 3
// Straight out of Tarjan's union-find algorithm
uint LiveRangeMap::find_compress(uint lrg) {
uint cur = lrg;
uint next = _uf_map[cur];
uint next = _uf_map.at(cur);
while (next != cur) { // Scan chain of equivalences
assert( next < cur, "always union smaller");
cur = next; // until find a fixed-point
next = _uf_map[cur];
next = _uf_map.at(cur);
}
// Core of union-find algorithm: update chain of
// equivalences to be equal to the root.
while (lrg != next) {
uint tmp = _uf_map[lrg];
_uf_map.map(lrg, next);
uint tmp = _uf_map.at(lrg);
_uf_map.at_put(lrg, next);
lrg = tmp;
}
return lrg;
@ -165,10 +148,10 @@ uint LiveRangeMap::find_compress(uint lrg) {
void LiveRangeMap::reset_uf_map(uint max_lrg_id) {
_max_lrg_id= max_lrg_id;
// Force the Union-Find mapping to be at least this large
_uf_map.extend(_max_lrg_id, 0);
_uf_map.at_put_grow(_max_lrg_id, 0);
// Initialize it to be the ID mapping.
for (uint i = 0; i < _max_lrg_id; ++i) {
_uf_map.map(i, i);
_uf_map.at_put(i, i);
}
}
@ -176,12 +159,12 @@ void LiveRangeMap::reset_uf_map(uint max_lrg_id) {
// the Union-Find mapping after this call.
void LiveRangeMap::compress_uf_map_for_nodes() {
// For all Nodes, compress mapping
uint unique = _names.Size();
uint unique = _names.length();
for (uint i = 0; i < unique; ++i) {
uint lrg = _names[i];
uint lrg = _names.at(i);
uint compressed_lrg = find(lrg);
if (lrg != compressed_lrg) {
_names.map(i, compressed_lrg);
_names.at_put(i, compressed_lrg);
}
}
}
@ -198,11 +181,11 @@ uint LiveRangeMap::find_const(uint lrg) const {
return lrg;
}
uint next = _uf_map[lrg];
uint next = _uf_map.at(lrg);
while (next != lrg) { // Scan chain of equivalences
assert(next < lrg, "always union smaller");
lrg = next; // until find a fixed-point
next = _uf_map[lrg];
next = _uf_map.at(lrg);
}
return next;
}
@ -215,7 +198,7 @@ PhaseChaitin::PhaseChaitin(uint unique, PhaseCFG &cfg, Matcher &matcher)
NULL
#endif
)
, _lrg_map(unique)
, _lrg_map(Thread::current()->resource_area(), unique)
, _live(0)
, _spilled_once(Thread::current()->resource_area())
, _spilled_twice(Thread::current()->resource_area())
@ -692,6 +675,7 @@ void PhaseChaitin::de_ssa() {
_lrg_map.map(n->_idx, rm.is_NotEmpty() ? lr_counter++ : 0);
}
}
// Reset the Union-Find mapping to be identity
_lrg_map.reset_uf_map(lr_counter);
}

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