8019972: PPC64 (part 9): platform files for interpreter only VM.
Summary: With this change the HotSpot core build works on Linux/PPC64. The VM succesfully executes simple test programs.
Reviewed-by: kvn
/*
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* Copyright 2012, 2013 SAP AG. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* This code is free software; you can redistribute it and/or modify it
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*
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "asm/macroAssembler.inline.hpp"
#include "memory/resourceArea.hpp"
#include "nativeInst_ppc.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/handles.hpp"
#include "runtime/sharedRuntime.hpp"
#include "runtime/stubRoutines.hpp"
#include "utilities/ostream.hpp"
#ifdef COMPILER1
#include "c1/c1_Runtime1.hpp"
#endif
// We use an illtrap for marking a method as not_entrant or zombie iff !UseSIGTRAP
// Work around a C++ compiler bug which changes 'this'
bool NativeInstruction::is_sigill_zombie_not_entrant_at(address addr) {
assert(!UseSIGTRAP, "precondition");
if (*(int*)addr != 0 /*illtrap*/) return false;
CodeBlob* cb = CodeCache::find_blob_unsafe(addr);
if (cb == NULL || !cb->is_nmethod()) return false;
nmethod *nm = (nmethod *)cb;
// This method is not_entrant or zombie iff the illtrap instruction is
// located at the verified entry point.
return nm->verified_entry_point() == addr;
}
#ifdef ASSERT
void NativeInstruction::verify() {
// Make sure code pattern is actually an instruction address.
address addr = addr_at(0);
if (addr == 0 || ((intptr_t)addr & 3) != 0) {
fatal("not an instruction address");
}
}
#endif // ASSERT
// Extract call destination from a NativeCall. The call might use a trampoline stub.
address NativeCall::destination() const {
address addr = (address)this;
address destination = Assembler::bxx_destination(addr);
// Do we use a trampoline stub for this call?
CodeBlob* cb = CodeCache::find_blob_unsafe(addr); // Else we get assertion if nmethod is zombie.
assert(cb && cb->is_nmethod(), "sanity");
nmethod *nm = (nmethod *)cb;
if (nm->stub_contains(destination) && is_NativeCallTrampolineStub_at(destination)) {
// Yes we do, so get the destination from the trampoline stub.
const address trampoline_stub_addr = destination;
destination = NativeCallTrampolineStub_at(trampoline_stub_addr)->destination();
}
return destination;
}
// Similar to replace_mt_safe, but just changes the destination. The
// important thing is that free-running threads are able to execute this
// call instruction at all times. Thus, the displacement field must be
// instruction-word-aligned.
//
// Used in the runtime linkage of calls; see class CompiledIC.
//
// Add parameter assert_lock to switch off assertion
// during code generation, where no patching lock is needed.
void NativeCall::set_destination_mt_safe(address dest, bool assert_lock) {
assert(!assert_lock ||
(Patching_lock->is_locked() || SafepointSynchronize::is_at_safepoint()),
"concurrent code patching");
ResourceMark rm;
int code_size = 1 * BytesPerInstWord;
address addr_call = addr_at(0);
assert(MacroAssembler::is_bl(*(int*)addr_call), "unexpected code at call-site");
CodeBuffer cb(addr_call, code_size + 1);
MacroAssembler* a = new MacroAssembler(&cb);
// Patch the call.
if (ReoptimizeCallSequences &&
a->is_within_range_of_b(dest, addr_call)) {
a->bl(dest);
} else {
address trampoline_stub_addr = get_trampoline();
// We did not find a trampoline stub because the current codeblob
// does not provide this information. The branch will be patched
// later during a final fixup, when all necessary information is
// available.
if (trampoline_stub_addr == 0)
return;
// Patch the constant in the call's trampoline stub.
NativeCallTrampolineStub_at(trampoline_stub_addr)->set_destination(dest);
a->bl(trampoline_stub_addr);
}
ICache::invalidate_range(addr_call, code_size);
}
address NativeCall::get_trampoline() {
address call_addr = addr_at(0);
CodeBlob *code = CodeCache::find_blob(call_addr);
assert(code != NULL, "Could not find the containing code blob");
// There are no relocations available when the code gets relocated
// because of CodeBuffer expansion.
if (code->relocation_size() == 0)
return NULL;
address bl_destination = Assembler::bxx_destination(call_addr);
if (code->content_contains(bl_destination) &&
is_NativeCallTrampolineStub_at(bl_destination))
return bl_destination;
// If the codeBlob is not a nmethod, this is because we get here from the
// CodeBlob constructor, which is called within the nmethod constructor.
return trampoline_stub_Relocation::get_trampoline_for(call_addr, (nmethod*)code);
}
#ifdef ASSERT
void NativeCall::verify() {
address addr = addr_at(0);
if (!NativeCall::is_call_at(addr)) {
tty->print_cr("not a NativeCall at " PTR_FORMAT, addr);
// TODO: PPC port: Disassembler::decode(addr - 20, addr + 20, tty);
fatal(err_msg("not a NativeCall at " PTR_FORMAT, addr));
}
}
#endif // ASSERT
#ifdef ASSERT
void NativeFarCall::verify() {
address addr = addr_at(0);
NativeInstruction::verify();
if (!NativeFarCall::is_far_call_at(addr)) {
tty->print_cr("not a NativeFarCall at " PTR_FORMAT, addr);
// TODO: PPC port: Disassembler::decode(addr, 20, 20, tty);
fatal(err_msg("not a NativeFarCall at " PTR_FORMAT, addr));
}
}
#endif // ASSERT
address NativeMovConstReg::next_instruction_address() const {
#ifdef ASSERT
CodeBlob* nm = CodeCache::find_blob(instruction_address());
assert(!MacroAssembler::is_set_narrow_oop(addr_at(0), nm->content_begin()), "Should not patch narrow oop here");
#endif
if (MacroAssembler::is_load_const_from_method_toc_at(addr_at(0))) {
return addr_at(load_const_from_method_toc_instruction_size);
} else {
return addr_at(load_const_instruction_size);
}
}
intptr_t NativeMovConstReg::data() const {
address addr = addr_at(0);
CodeBlob* cb = CodeCache::find_blob_unsafe(addr);
if (MacroAssembler::is_load_const_at(addr)) {
return MacroAssembler::get_const(addr);
} else if (MacroAssembler::is_set_narrow_oop(addr, cb->content_begin())) {
narrowOop no = (narrowOop)MacroAssembler::get_narrow_oop(addr, cb->content_begin());
return (intptr_t)oopDesc::decode_heap_oop(no);
} else {
assert(MacroAssembler::is_load_const_from_method_toc_at(addr), "must be load_const_from_pool");
address ctable = cb->content_begin();
int offset = MacroAssembler::get_offset_of_load_const_from_method_toc_at(addr);
return *(intptr_t *)(ctable + offset);
}
}
address NativeMovConstReg::set_data_plain(intptr_t data, CodeBlob *cb) {
address addr = instruction_address();
address next_address = NULL;
if (!cb) cb = CodeCache::find_blob(addr);
if (cb != NULL && MacroAssembler::is_load_const_from_method_toc_at(addr)) {
// A load from the method's TOC (ctable).
assert(cb->is_nmethod(), "must be nmethod");
const address ctable = cb->content_begin();
const int toc_offset = MacroAssembler::get_offset_of_load_const_from_method_toc_at(addr);
*(intptr_t *)(ctable + toc_offset) = data;
next_address = addr + BytesPerInstWord;
} else if (cb != NULL &&
MacroAssembler::is_calculate_address_from_global_toc_at(addr, cb->content_begin())) {
// A calculation relative to the global TOC.
const int invalidated_range =
MacroAssembler::patch_calculate_address_from_global_toc_at(addr, cb->content_begin(),
(address)data);
const address start = invalidated_range < 0 ? addr + invalidated_range : addr;
// FIXME:
const int range = invalidated_range < 0 ? 4 - invalidated_range : 8;
ICache::invalidate_range(start, range);
next_address = addr + 1 * BytesPerInstWord;
} else if (MacroAssembler::is_load_const_at(addr)) {
// A normal 5 instruction load_const code sequence.
// This is not mt safe, ok in methods like CodeBuffer::copy_code().
MacroAssembler::patch_const(addr, (long)data);
ICache::invalidate_range(addr, load_const_instruction_size);
next_address = addr + 5 * BytesPerInstWord;
} else if (MacroAssembler::is_bl(* (int*) addr)) {
// A single branch-and-link instruction.
ResourceMark rm;
const int code_size = 1 * BytesPerInstWord;
CodeBuffer cb(addr, code_size + 1);
MacroAssembler* a = new MacroAssembler(&cb);
a->bl((address) data);
ICache::invalidate_range(addr, code_size);
next_address = addr + code_size;
} else {
ShouldNotReachHere();
}
return next_address;
}
void NativeMovConstReg::set_data(intptr_t data) {
// Store the value into the instruction stream.
CodeBlob *cb = CodeCache::find_blob(instruction_address());
address next_address = set_data_plain(data, cb);
// Also store the value into an oop_Relocation cell, if any.
if (cb && cb->is_nmethod()) {
RelocIterator iter((nmethod *) cb, instruction_address(), next_address);
oop* oop_addr = NULL;
Metadata** metadata_addr = NULL;
while (iter.next()) {
if (iter.type() == relocInfo::oop_type) {
oop_Relocation *r = iter.oop_reloc();
if (oop_addr == NULL) {
oop_addr = r->oop_addr();
*oop_addr = (oop)data;
} else {
assert(oop_addr == r->oop_addr(), "must be only one set-oop here") ;
}
}
if (iter.type() == relocInfo::metadata_type) {
metadata_Relocation *r = iter.metadata_reloc();
if (metadata_addr == NULL) {
metadata_addr = r->metadata_addr();
*metadata_addr = (Metadata*)data;
} else {
assert(metadata_addr == r->metadata_addr(), "must be only one set-metadata here");
}
}
}
}
}
void NativeMovConstReg::set_narrow_oop(narrowOop data, CodeBlob *code /* = NULL */) {
address addr = addr_at(0);
CodeBlob* cb = (code) ? code : CodeCache::find_blob(instruction_address());
const int invalidated_range =
MacroAssembler::patch_set_narrow_oop(addr, cb->content_begin(), (long)data);
const address start = invalidated_range < 0 ? addr + invalidated_range : addr;
// FIXME:
const int range = invalidated_range < 0 ? 4 - invalidated_range : 8;
ICache::invalidate_range(start, range);
}
// Do not use an assertion here. Let clients decide whether they only
// want this when assertions are enabled.
#ifdef ASSERT
void NativeMovConstReg::verify() {
address addr = addr_at(0);
CodeBlob* cb = CodeCache::find_blob_unsafe(addr); // find_nmethod() asserts if nmethod is zombie.
if (! MacroAssembler::is_load_const_at(addr) &&
! MacroAssembler::is_load_const_from_method_toc_at(addr) &&
! (cb != NULL && MacroAssembler::is_calculate_address_from_global_toc_at(addr, cb->content_begin())) &&
! (cb != NULL && MacroAssembler::is_set_narrow_oop(addr, cb->content_begin())) &&
! MacroAssembler::is_bl(*((int*) addr))) {
tty->print_cr("not a NativeMovConstReg at " PTR_FORMAT, addr);
// TODO: PPC port Disassembler::decode(addr, 20, 20, tty);
fatal(err_msg("not a NativeMovConstReg at " PTR_FORMAT, addr));
}
}
#endif // ASSERT
void NativeJump::patch_verified_entry(address entry, address verified_entry, address dest) {
ResourceMark rm;
int code_size = 1 * BytesPerInstWord;
CodeBuffer cb(verified_entry, code_size + 1);
MacroAssembler* a = new MacroAssembler(&cb);
#ifdef COMPILER2
assert(dest == SharedRuntime::get_handle_wrong_method_stub(), "expected fixed destination of patch");
#endif
// Patch this nmethod atomically. Always use illtrap/trap in debug build.
if (DEBUG_ONLY(false &&) a->is_within_range_of_b(dest, a->pc())) {
a->b(dest);
} else {
// The signal handler will continue at dest=OptoRuntime::handle_wrong_method_stub().
if (TrapBasedNotEntrantChecks) {
// We use a special trap for marking a method as not_entrant or zombie.
a->trap_zombie_not_entrant();
} else {
// We use an illtrap for marking a method as not_entrant or zombie.
a->illtrap();
}
}
ICache::invalidate_range(verified_entry, code_size);
}
#ifdef ASSERT
void NativeJump::verify() {
address addr = addr_at(0);
NativeInstruction::verify();
if (!NativeJump::is_jump_at(addr)) {
tty->print_cr("not a NativeJump at " PTR_FORMAT, addr);
// TODO: PPC port: Disassembler::decode(addr, 20, 20, tty);
fatal(err_msg("not a NativeJump at " PTR_FORMAT, addr));
}
}
#endif // ASSERT
//-------------------------------------------------------------------
// Call trampoline stubs.
//
// Layout and instructions of a call trampoline stub:
// 0: load the TOC (part 1)
// 4: load the TOC (part 2)
// 8: load the call target from the constant pool (part 1)
// [12: load the call target from the constant pool (part 2, optional)]
// ..: branch via CTR
//
address NativeCallTrampolineStub::encoded_destination_addr() const {
address instruction_addr = addr_at(2 * BytesPerInstWord);
assert(MacroAssembler::is_ld_largeoffset(instruction_addr),
"must be a ld with large offset (from the constant pool)");
return instruction_addr;
}
address NativeCallTrampolineStub::destination() const {
CodeBlob* cb = CodeCache::find_blob(addr_at(0));
address ctable = cb->content_begin();
return *(address*)(ctable + destination_toc_offset());
}
int NativeCallTrampolineStub::destination_toc_offset() const {
return MacroAssembler::get_ld_largeoffset_offset(encoded_destination_addr());
}
void NativeCallTrampolineStub::set_destination(address new_destination) {
CodeBlob* cb = CodeCache::find_blob(addr_at(0));
address ctable = cb->content_begin();
*(address*)(ctable + destination_toc_offset()) = new_destination;
}