Mercurial > hg > graal-compiler
annotate src/cpu/sparc/vm/cppInterpreter_sparc.cpp @ 9471:5fa54bf57f8c
replaced exception_handler_nofpu assembler stub with a compiled stub (GRAAL-81)
generalized stub printf mechanism to also serve as a fatal VM exit message
author | Doug Simon <doug.simon@oracle.com> |
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date | Wed, 01 May 2013 17:46:12 +0200 |
parents | 0094485b46c7 |
children | aeaca88565e6 |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 2007, 2012, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "asm/assembler.hpp" | |
27 #include "interpreter/bytecodeHistogram.hpp" | |
28 #include "interpreter/cppInterpreter.hpp" | |
29 #include "interpreter/interpreter.hpp" | |
30 #include "interpreter/interpreterGenerator.hpp" | |
31 #include "interpreter/interpreterRuntime.hpp" | |
32 #include "oops/arrayOop.hpp" | |
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33 #include "oops/methodData.hpp" |
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34 #include "oops/method.hpp" |
1972 | 35 #include "oops/oop.inline.hpp" |
36 #include "prims/jvmtiExport.hpp" | |
37 #include "prims/jvmtiThreadState.hpp" | |
38 #include "runtime/arguments.hpp" | |
39 #include "runtime/deoptimization.hpp" | |
40 #include "runtime/frame.inline.hpp" | |
41 #include "runtime/interfaceSupport.hpp" | |
42 #include "runtime/sharedRuntime.hpp" | |
43 #include "runtime/stubRoutines.hpp" | |
44 #include "runtime/synchronizer.hpp" | |
45 #include "runtime/timer.hpp" | |
46 #include "runtime/vframeArray.hpp" | |
47 #include "utilities/debug.hpp" | |
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48 #include "utilities/macros.hpp" |
1972 | 49 #ifdef SHARK |
50 #include "shark/shark_globals.hpp" | |
51 #endif | |
0 | 52 |
53 #ifdef CC_INTERP | |
54 | |
55 // Routine exists to make tracebacks look decent in debugger | |
56 // while "shadow" interpreter frames are on stack. It is also | |
57 // used to distinguish interpreter frames. | |
58 | |
59 extern "C" void RecursiveInterpreterActivation(interpreterState istate) { | |
60 ShouldNotReachHere(); | |
61 } | |
62 | |
63 bool CppInterpreter::contains(address pc) { | |
64 return ( _code->contains(pc) || | |
65 ( pc == (CAST_FROM_FN_PTR(address, RecursiveInterpreterActivation) + frame::pc_return_offset))); | |
66 } | |
67 | |
68 #define STATE(field_name) Lstate, in_bytes(byte_offset_of(BytecodeInterpreter, field_name)) | |
69 #define __ _masm-> | |
70 | |
71 Label frame_manager_entry; | |
72 Label fast_accessor_slow_entry_path; // fast accessor methods need to be able to jmp to unsynchronized | |
73 // c++ interpreter entry point this holds that entry point label. | |
74 | |
75 static address unctrap_frame_manager_entry = NULL; | |
76 | |
77 static address interpreter_return_address = NULL; | |
78 static address deopt_frame_manager_return_atos = NULL; | |
79 static address deopt_frame_manager_return_btos = NULL; | |
80 static address deopt_frame_manager_return_itos = NULL; | |
81 static address deopt_frame_manager_return_ltos = NULL; | |
82 static address deopt_frame_manager_return_ftos = NULL; | |
83 static address deopt_frame_manager_return_dtos = NULL; | |
84 static address deopt_frame_manager_return_vtos = NULL; | |
85 | |
86 const Register prevState = G1_scratch; | |
87 | |
88 void InterpreterGenerator::save_native_result(void) { | |
89 // result potentially in O0/O1: save it across calls | |
90 __ stf(FloatRegisterImpl::D, F0, STATE(_native_fresult)); | |
91 #ifdef _LP64 | |
92 __ stx(O0, STATE(_native_lresult)); | |
93 #else | |
94 __ std(O0, STATE(_native_lresult)); | |
95 #endif | |
96 } | |
97 | |
98 void InterpreterGenerator::restore_native_result(void) { | |
99 | |
100 // Restore any method result value | |
101 __ ldf(FloatRegisterImpl::D, STATE(_native_fresult), F0); | |
102 #ifdef _LP64 | |
103 __ ldx(STATE(_native_lresult), O0); | |
104 #else | |
105 __ ldd(STATE(_native_lresult), O0); | |
106 #endif | |
107 } | |
108 | |
109 // A result handler converts/unboxes a native call result into | |
110 // a java interpreter/compiler result. The current frame is an | |
111 // interpreter frame. The activation frame unwind code must be | |
112 // consistent with that of TemplateTable::_return(...). In the | |
113 // case of native methods, the caller's SP was not modified. | |
114 address CppInterpreterGenerator::generate_result_handler_for(BasicType type) { | |
115 address entry = __ pc(); | |
116 Register Itos_i = Otos_i ->after_save(); | |
117 Register Itos_l = Otos_l ->after_save(); | |
118 Register Itos_l1 = Otos_l1->after_save(); | |
119 Register Itos_l2 = Otos_l2->after_save(); | |
120 switch (type) { | |
121 case T_BOOLEAN: __ subcc(G0, O0, G0); __ addc(G0, 0, Itos_i); break; // !0 => true; 0 => false | |
122 case T_CHAR : __ sll(O0, 16, O0); __ srl(O0, 16, Itos_i); break; // cannot use and3, 0xFFFF too big as immediate value! | |
123 case T_BYTE : __ sll(O0, 24, O0); __ sra(O0, 24, Itos_i); break; | |
124 case T_SHORT : __ sll(O0, 16, O0); __ sra(O0, 16, Itos_i); break; | |
125 case T_LONG : | |
126 #ifndef _LP64 | |
127 __ mov(O1, Itos_l2); // move other half of long | |
128 #endif // ifdef or no ifdef, fall through to the T_INT case | |
129 case T_INT : __ mov(O0, Itos_i); break; | |
130 case T_VOID : /* nothing to do */ break; | |
131 case T_FLOAT : assert(F0 == Ftos_f, "fix this code" ); break; | |
132 case T_DOUBLE : assert(F0 == Ftos_d, "fix this code" ); break; | |
133 case T_OBJECT : | |
134 __ ld_ptr(STATE(_oop_temp), Itos_i); | |
135 __ verify_oop(Itos_i); | |
136 break; | |
137 default : ShouldNotReachHere(); | |
138 } | |
139 __ ret(); // return from interpreter activation | |
140 __ delayed()->restore(I5_savedSP, G0, SP); // remove interpreter frame | |
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141 NOT_PRODUCT(__ emit_int32(0);) // marker for disassembly |
0 | 142 return entry; |
143 } | |
144 | |
145 // tosca based result to c++ interpreter stack based result. | |
146 // Result goes to address in L1_scratch | |
147 | |
148 address CppInterpreterGenerator::generate_tosca_to_stack_converter(BasicType type) { | |
149 // A result is in the native abi result register from a native method call. | |
150 // We need to return this result to the interpreter by pushing the result on the interpreter's | |
151 // stack. This is relatively simple the destination is in L1_scratch | |
152 // i.e. L1_scratch is the first free element on the stack. If we "push" a return value we must | |
153 // adjust L1_scratch | |
154 address entry = __ pc(); | |
155 switch (type) { | |
156 case T_BOOLEAN: | |
157 // !0 => true; 0 => false | |
158 __ subcc(G0, O0, G0); | |
159 __ addc(G0, 0, O0); | |
160 __ st(O0, L1_scratch, 0); | |
161 __ sub(L1_scratch, wordSize, L1_scratch); | |
162 break; | |
163 | |
164 // cannot use and3, 0xFFFF too big as immediate value! | |
165 case T_CHAR : | |
166 __ sll(O0, 16, O0); | |
167 __ srl(O0, 16, O0); | |
168 __ st(O0, L1_scratch, 0); | |
169 __ sub(L1_scratch, wordSize, L1_scratch); | |
170 break; | |
171 | |
172 case T_BYTE : | |
173 __ sll(O0, 24, O0); | |
174 __ sra(O0, 24, O0); | |
175 __ st(O0, L1_scratch, 0); | |
176 __ sub(L1_scratch, wordSize, L1_scratch); | |
177 break; | |
178 | |
179 case T_SHORT : | |
180 __ sll(O0, 16, O0); | |
181 __ sra(O0, 16, O0); | |
182 __ st(O0, L1_scratch, 0); | |
183 __ sub(L1_scratch, wordSize, L1_scratch); | |
184 break; | |
185 case T_LONG : | |
186 #ifndef _LP64 | |
123 | 187 #if defined(COMPILER2) |
0 | 188 // All return values are where we want them, except for Longs. C2 returns |
189 // longs in G1 in the 32-bit build whereas the interpreter wants them in O0/O1. | |
190 // Since the interpreter will return longs in G1 and O0/O1 in the 32bit | |
191 // build even if we are returning from interpreted we just do a little | |
192 // stupid shuffing. | |
193 // Note: I tried to make c2 return longs in O0/O1 and G1 so we wouldn't have to | |
194 // do this here. Unfortunately if we did a rethrow we'd see an machepilog node | |
195 // first which would move g1 -> O0/O1 and destroy the exception we were throwing. | |
196 __ stx(G1, L1_scratch, -wordSize); | |
197 #else | |
198 // native result is in O0, O1 | |
199 __ st(O1, L1_scratch, 0); // Low order | |
200 __ st(O0, L1_scratch, -wordSize); // High order | |
123 | 201 #endif /* COMPILER2 */ |
0 | 202 #else |
123 | 203 __ stx(O0, L1_scratch, -wordSize); |
0 | 204 #endif |
205 __ sub(L1_scratch, 2*wordSize, L1_scratch); | |
206 break; | |
207 | |
208 case T_INT : | |
209 __ st(O0, L1_scratch, 0); | |
210 __ sub(L1_scratch, wordSize, L1_scratch); | |
211 break; | |
212 | |
213 case T_VOID : /* nothing to do */ | |
214 break; | |
215 | |
216 case T_FLOAT : | |
217 __ stf(FloatRegisterImpl::S, F0, L1_scratch, 0); | |
218 __ sub(L1_scratch, wordSize, L1_scratch); | |
219 break; | |
220 | |
221 case T_DOUBLE : | |
222 // Every stack slot is aligned on 64 bit, However is this | |
223 // the correct stack slot on 64bit?? QQQ | |
224 __ stf(FloatRegisterImpl::D, F0, L1_scratch, -wordSize); | |
225 __ sub(L1_scratch, 2*wordSize, L1_scratch); | |
226 break; | |
227 case T_OBJECT : | |
228 __ verify_oop(O0); | |
229 __ st_ptr(O0, L1_scratch, 0); | |
230 __ sub(L1_scratch, wordSize, L1_scratch); | |
231 break; | |
232 default : ShouldNotReachHere(); | |
233 } | |
234 __ retl(); // return from interpreter activation | |
235 __ delayed()->nop(); // schedule this better | |
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236 NOT_PRODUCT(__ emit_int32(0);) // marker for disassembly |
0 | 237 return entry; |
238 } | |
239 | |
240 address CppInterpreterGenerator::generate_stack_to_stack_converter(BasicType type) { | |
241 // A result is in the java expression stack of the interpreted method that has just | |
242 // returned. Place this result on the java expression stack of the caller. | |
243 // | |
244 // The current interpreter activation in Lstate is for the method just returning its | |
245 // result. So we know that the result of this method is on the top of the current | |
246 // execution stack (which is pre-pushed) and will be return to the top of the caller | |
247 // stack. The top of the callers stack is the bottom of the locals of the current | |
248 // activation. | |
249 // Because of the way activation are managed by the frame manager the value of esp is | |
250 // below both the stack top of the current activation and naturally the stack top | |
251 // of the calling activation. This enable this routine to leave the return address | |
252 // to the frame manager on the stack and do a vanilla return. | |
253 // | |
254 // On entry: O0 - points to source (callee stack top) | |
255 // O1 - points to destination (caller stack top [i.e. free location]) | |
256 // destroys O2, O3 | |
257 // | |
258 | |
259 address entry = __ pc(); | |
260 switch (type) { | |
261 case T_VOID: break; | |
262 break; | |
263 case T_FLOAT : | |
264 case T_BOOLEAN: | |
265 case T_CHAR : | |
266 case T_BYTE : | |
267 case T_SHORT : | |
268 case T_INT : | |
269 // 1 word result | |
270 __ ld(O0, 0, O2); | |
271 __ st(O2, O1, 0); | |
272 __ sub(O1, wordSize, O1); | |
273 break; | |
274 case T_DOUBLE : | |
275 case T_LONG : | |
276 // return top two words on current expression stack to caller's expression stack | |
277 // The caller's expression stack is adjacent to the current frame manager's intepretState | |
278 // except we allocated one extra word for this intepretState so we won't overwrite it | |
279 // when we return a two word result. | |
280 #ifdef _LP64 | |
281 __ ld_ptr(O0, 0, O2); | |
282 __ st_ptr(O2, O1, -wordSize); | |
283 #else | |
284 __ ld(O0, 0, O2); | |
285 __ ld(O0, wordSize, O3); | |
286 __ st(O3, O1, 0); | |
287 __ st(O2, O1, -wordSize); | |
288 #endif | |
289 __ sub(O1, 2*wordSize, O1); | |
290 break; | |
291 case T_OBJECT : | |
292 __ ld_ptr(O0, 0, O2); | |
293 __ verify_oop(O2); // verify it | |
294 __ st_ptr(O2, O1, 0); | |
295 __ sub(O1, wordSize, O1); | |
296 break; | |
297 default : ShouldNotReachHere(); | |
298 } | |
299 __ retl(); | |
300 __ delayed()->nop(); // QQ schedule this better | |
301 return entry; | |
302 } | |
303 | |
304 address CppInterpreterGenerator::generate_stack_to_native_abi_converter(BasicType type) { | |
305 // A result is in the java expression stack of the interpreted method that has just | |
306 // returned. Place this result in the native abi that the caller expects. | |
307 // We are in a new frame registers we set must be in caller (i.e. callstub) frame. | |
308 // | |
309 // Similar to generate_stack_to_stack_converter above. Called at a similar time from the | |
310 // frame manager execept in this situation the caller is native code (c1/c2/call_stub) | |
311 // and so rather than return result onto caller's java expression stack we return the | |
312 // result in the expected location based on the native abi. | |
313 // On entry: O0 - source (stack top) | |
314 // On exit result in expected output register | |
315 // QQQ schedule this better | |
316 | |
317 address entry = __ pc(); | |
318 switch (type) { | |
319 case T_VOID: break; | |
320 break; | |
321 case T_FLOAT : | |
322 __ ldf(FloatRegisterImpl::S, O0, 0, F0); | |
323 break; | |
324 case T_BOOLEAN: | |
325 case T_CHAR : | |
326 case T_BYTE : | |
327 case T_SHORT : | |
328 case T_INT : | |
329 // 1 word result | |
330 __ ld(O0, 0, O0->after_save()); | |
331 break; | |
332 case T_DOUBLE : | |
333 __ ldf(FloatRegisterImpl::D, O0, 0, F0); | |
334 break; | |
335 case T_LONG : | |
336 // return top two words on current expression stack to caller's expression stack | |
337 // The caller's expression stack is adjacent to the current frame manager's interpretState | |
338 // except we allocated one extra word for this intepretState so we won't overwrite it | |
339 // when we return a two word result. | |
340 #ifdef _LP64 | |
341 __ ld_ptr(O0, 0, O0->after_save()); | |
342 #else | |
343 __ ld(O0, wordSize, O1->after_save()); | |
344 __ ld(O0, 0, O0->after_save()); | |
345 #endif | |
346 #if defined(COMPILER2) && !defined(_LP64) | |
347 // C2 expects long results in G1 we can't tell if we're returning to interpreted | |
348 // or compiled so just be safe use G1 and O0/O1 | |
349 | |
350 // Shift bits into high (msb) of G1 | |
351 __ sllx(Otos_l1->after_save(), 32, G1); | |
352 // Zero extend low bits | |
353 __ srl (Otos_l2->after_save(), 0, Otos_l2->after_save()); | |
354 __ or3 (Otos_l2->after_save(), G1, G1); | |
355 #endif /* COMPILER2 */ | |
356 break; | |
357 case T_OBJECT : | |
358 __ ld_ptr(O0, 0, O0->after_save()); | |
359 __ verify_oop(O0->after_save()); // verify it | |
360 break; | |
361 default : ShouldNotReachHere(); | |
362 } | |
363 __ retl(); | |
364 __ delayed()->nop(); | |
365 return entry; | |
366 } | |
367 | |
368 address CppInterpreter::return_entry(TosState state, int length) { | |
369 // make it look good in the debugger | |
370 return CAST_FROM_FN_PTR(address, RecursiveInterpreterActivation) + frame::pc_return_offset; | |
371 } | |
372 | |
373 address CppInterpreter::deopt_entry(TosState state, int length) { | |
374 address ret = NULL; | |
375 if (length != 0) { | |
376 switch (state) { | |
377 case atos: ret = deopt_frame_manager_return_atos; break; | |
378 case btos: ret = deopt_frame_manager_return_btos; break; | |
379 case ctos: | |
380 case stos: | |
381 case itos: ret = deopt_frame_manager_return_itos; break; | |
382 case ltos: ret = deopt_frame_manager_return_ltos; break; | |
383 case ftos: ret = deopt_frame_manager_return_ftos; break; | |
384 case dtos: ret = deopt_frame_manager_return_dtos; break; | |
385 case vtos: ret = deopt_frame_manager_return_vtos; break; | |
386 } | |
387 } else { | |
388 ret = unctrap_frame_manager_entry; // re-execute the bytecode ( e.g. uncommon trap) | |
389 } | |
390 assert(ret != NULL, "Not initialized"); | |
391 return ret; | |
392 } | |
393 | |
394 // | |
395 // Helpers for commoning out cases in the various type of method entries. | |
396 // | |
397 | |
398 // increment invocation count & check for overflow | |
399 // | |
400 // Note: checking for negative value instead of overflow | |
401 // so we have a 'sticky' overflow test | |
402 // | |
403 // Lmethod: method | |
404 // ??: invocation counter | |
405 // | |
406 void InterpreterGenerator::generate_counter_incr(Label* overflow, Label* profile_method, Label* profile_method_continue) { | |
407 // Update standard invocation counters | |
408 __ increment_invocation_counter(O0, G3_scratch); | |
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409 if (ProfileInterpreter) { // %%% Merge this into MethodData* |
0 | 410 __ ld_ptr(STATE(_method), G3_scratch); |
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411 Address interpreter_invocation_counter(G3_scratch, 0, in_bytes(Method::interpreter_invocation_counter_offset())); |
0 | 412 __ ld(interpreter_invocation_counter, G3_scratch); |
413 __ inc(G3_scratch); | |
414 __ st(G3_scratch, interpreter_invocation_counter); | |
415 } | |
416 | |
417 Address invocation_limit(G3_scratch, (address)&InvocationCounter::InterpreterInvocationLimit); | |
418 __ sethi(invocation_limit); | |
419 __ ld(invocation_limit, G3_scratch); | |
420 __ cmp(O0, G3_scratch); | |
421 __ br(Assembler::greaterEqualUnsigned, false, Assembler::pn, *overflow); | |
422 __ delayed()->nop(); | |
423 | |
424 } | |
425 | |
426 address InterpreterGenerator::generate_empty_entry(void) { | |
427 | |
428 // A method that does nothing but return... | |
429 | |
430 address entry = __ pc(); | |
431 Label slow_path; | |
432 | |
433 // do nothing for empty methods (do not even increment invocation counter) | |
434 if ( UseFastEmptyMethods) { | |
435 // If we need a safepoint check, generate full interpreter entry. | |
436 Address sync_state(G3_scratch, SafepointSynchronize::address_of_state()); | |
437 __ load_contents(sync_state, G3_scratch); | |
438 __ cmp(G3_scratch, SafepointSynchronize::_not_synchronized); | |
439 __ br(Assembler::notEqual, false, Assembler::pn, frame_manager_entry); | |
440 __ delayed()->nop(); | |
441 | |
442 // Code: _return | |
443 __ retl(); | |
444 __ delayed()->mov(O5_savedSP, SP); | |
445 return entry; | |
446 } | |
447 return NULL; | |
448 } | |
449 | |
450 // Call an accessor method (assuming it is resolved, otherwise drop into | |
451 // vanilla (slow path) entry | |
452 | |
453 // Generates code to elide accessor methods | |
454 // Uses G3_scratch and G1_scratch as scratch | |
455 address InterpreterGenerator::generate_accessor_entry(void) { | |
456 | |
457 // Code: _aload_0, _(i|a)getfield, _(i|a)return or any rewrites thereof; | |
458 // parameter size = 1 | |
459 // Note: We can only use this code if the getfield has been resolved | |
460 // and if we don't have a null-pointer exception => check for | |
461 // these conditions first and use slow path if necessary. | |
462 address entry = __ pc(); | |
463 Label slow_path; | |
464 | |
465 if ( UseFastAccessorMethods) { | |
466 // Check if we need to reach a safepoint and generate full interpreter | |
467 // frame if so. | |
468 Address sync_state(G3_scratch, SafepointSynchronize::address_of_state()); | |
469 __ load_contents(sync_state, G3_scratch); | |
470 __ cmp(G3_scratch, SafepointSynchronize::_not_synchronized); | |
471 __ br(Assembler::notEqual, false, Assembler::pn, slow_path); | |
472 __ delayed()->nop(); | |
473 | |
474 // Check if local 0 != NULL | |
475 __ ld_ptr(Gargs, G0, Otos_i ); // get local 0 | |
476 __ tst(Otos_i); // check if local 0 == NULL and go the slow path | |
477 __ brx(Assembler::zero, false, Assembler::pn, slow_path); | |
478 __ delayed()->nop(); | |
479 | |
480 | |
481 // read first instruction word and extract bytecode @ 1 and index @ 2 | |
482 // get first 4 bytes of the bytecodes (big endian!) | |
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483 __ ld_ptr(Address(G5_method, 0, in_bytes(Method::const_offset())), G1_scratch); |
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484 __ ld(Address(G1_scratch, 0, in_bytes(ConstMethod::codes_offset())), G1_scratch); |
0 | 485 |
486 // move index @ 2 far left then to the right most two bytes. | |
487 __ sll(G1_scratch, 2*BitsPerByte, G1_scratch); | |
488 __ srl(G1_scratch, 2*BitsPerByte - exact_log2(in_words( | |
489 ConstantPoolCacheEntry::size()) * BytesPerWord), G1_scratch); | |
490 | |
491 // get constant pool cache | |
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492 __ ld_ptr(G5_method, in_bytes(Method::const_offset()), G3_scratch); |
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493 __ ld_ptr(G3_scratch, in_bytes(ConstMethod::constants_offset()), G3_scratch); |
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494 __ ld_ptr(G3_scratch, ConstantPool::cache_offset_in_bytes(), G3_scratch); |
0 | 495 |
496 // get specific constant pool cache entry | |
497 __ add(G3_scratch, G1_scratch, G3_scratch); | |
498 | |
499 // Check the constant Pool cache entry to see if it has been resolved. | |
500 // If not, need the slow path. | |
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501 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); |
0 | 502 __ ld_ptr(G3_scratch, in_bytes(cp_base_offset + ConstantPoolCacheEntry::indices_offset()), G1_scratch); |
503 __ srl(G1_scratch, 2*BitsPerByte, G1_scratch); | |
504 __ and3(G1_scratch, 0xFF, G1_scratch); | |
505 __ cmp(G1_scratch, Bytecodes::_getfield); | |
506 __ br(Assembler::notEqual, false, Assembler::pn, slow_path); | |
507 __ delayed()->nop(); | |
508 | |
509 // Get the type and return field offset from the constant pool cache | |
510 __ ld_ptr(G3_scratch, in_bytes(cp_base_offset + ConstantPoolCacheEntry::flags_offset()), G1_scratch); | |
511 __ ld_ptr(G3_scratch, in_bytes(cp_base_offset + ConstantPoolCacheEntry::f2_offset()), G3_scratch); | |
512 | |
513 Label xreturn_path; | |
514 // Need to differentiate between igetfield, agetfield, bgetfield etc. | |
515 // because they are different sizes. | |
516 // Get the type from the constant pool cache | |
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517 __ srl(G1_scratch, ConstantPoolCacheEntry::tos_state_shift, G1_scratch); |
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518 // Make sure we don't need to mask G1_scratch after the above shift |
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519 ConstantPoolCacheEntry::verify_tos_state_shift(); |
0 | 520 __ cmp(G1_scratch, atos ); |
521 __ br(Assembler::equal, true, Assembler::pt, xreturn_path); | |
522 __ delayed()->ld_ptr(Otos_i, G3_scratch, Otos_i); | |
523 __ cmp(G1_scratch, itos); | |
524 __ br(Assembler::equal, true, Assembler::pt, xreturn_path); | |
525 __ delayed()->ld(Otos_i, G3_scratch, Otos_i); | |
526 __ cmp(G1_scratch, stos); | |
527 __ br(Assembler::equal, true, Assembler::pt, xreturn_path); | |
528 __ delayed()->ldsh(Otos_i, G3_scratch, Otos_i); | |
529 __ cmp(G1_scratch, ctos); | |
530 __ br(Assembler::equal, true, Assembler::pt, xreturn_path); | |
531 __ delayed()->lduh(Otos_i, G3_scratch, Otos_i); | |
532 #ifdef ASSERT | |
533 __ cmp(G1_scratch, btos); | |
534 __ br(Assembler::equal, true, Assembler::pt, xreturn_path); | |
535 __ delayed()->ldsb(Otos_i, G3_scratch, Otos_i); | |
536 __ should_not_reach_here(); | |
537 #endif | |
538 __ ldsb(Otos_i, G3_scratch, Otos_i); | |
539 __ bind(xreturn_path); | |
540 | |
541 // _ireturn/_areturn | |
542 __ retl(); // return from leaf routine | |
543 __ delayed()->mov(O5_savedSP, SP); | |
544 | |
545 // Generate regular method entry | |
546 __ bind(slow_path); | |
3839 | 547 __ ba(fast_accessor_slow_entry_path); |
0 | 548 __ delayed()->nop(); |
549 return entry; | |
550 } | |
551 return NULL; | |
552 } | |
553 | |
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554 address InterpreterGenerator::generate_Reference_get_entry(void) { |
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555 #if INCLUDE_ALL_GCS |
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556 if (UseG1GC) { |
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557 // We need to generate have a routine that generates code to: |
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558 // * load the value in the referent field |
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559 // * passes that value to the pre-barrier. |
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560 // |
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561 // In the case of G1 this will record the value of the |
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562 // referent in an SATB buffer if marking is active. |
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563 // This will cause concurrent marking to mark the referent |
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564 // field as live. |
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565 Unimplemented(); |
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566 } |
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567 #endif // INCLUDE_ALL_GCS |
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568 |
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569 // If G1 is not enabled then attempt to go through the accessor entry point |
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570 // Reference.get is an accessor |
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571 return generate_accessor_entry(); |
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572 } |
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573 |
0 | 574 // |
575 // Interpreter stub for calling a native method. (C++ interpreter) | |
576 // This sets up a somewhat different looking stack for calling the native method | |
577 // than the typical interpreter frame setup. | |
578 // | |
579 | |
580 address InterpreterGenerator::generate_native_entry(bool synchronized) { | |
581 address entry = __ pc(); | |
582 | |
583 // the following temporary registers are used during frame creation | |
584 const Register Gtmp1 = G3_scratch ; | |
585 const Register Gtmp2 = G1_scratch; | |
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586 const Register RconstMethod = Gtmp1; |
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587 const Address constMethod(G5_method, 0, in_bytes(Method::const_offset())); |
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588 const Address size_of_parameters(RconstMethod, 0, in_bytes(ConstMethod::size_of_parameters_offset())); |
0 | 589 |
590 bool inc_counter = UseCompiler || CountCompiledCalls; | |
591 | |
592 // make sure registers are different! | |
593 assert_different_registers(G2_thread, G5_method, Gargs, Gtmp1, Gtmp2); | |
594 | |
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595 const Address access_flags (G5_method, 0, in_bytes(Method::access_flags_offset())); |
0 | 596 |
597 Label Lentry; | |
598 __ bind(Lentry); | |
599 | |
600 const Register Glocals_size = G3; | |
601 assert_different_registers(Glocals_size, G4_scratch, Gframe_size); | |
602 | |
603 // make sure method is native & not abstract | |
604 // rethink these assertions - they can be simplified and shared (gri 2/25/2000) | |
605 #ifdef ASSERT | |
606 __ ld(access_flags, Gtmp1); | |
607 { | |
608 Label L; | |
609 __ btst(JVM_ACC_NATIVE, Gtmp1); | |
610 __ br(Assembler::notZero, false, Assembler::pt, L); | |
611 __ delayed()->nop(); | |
612 __ stop("tried to execute non-native method as native"); | |
613 __ bind(L); | |
614 } | |
615 { Label L; | |
616 __ btst(JVM_ACC_ABSTRACT, Gtmp1); | |
617 __ br(Assembler::zero, false, Assembler::pt, L); | |
618 __ delayed()->nop(); | |
619 __ stop("tried to execute abstract method as non-abstract"); | |
620 __ bind(L); | |
621 } | |
622 #endif // ASSERT | |
623 | |
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624 __ ld_ptr(constMethod, RconstMethod); |
0 | 625 __ lduh(size_of_parameters, Gtmp1); |
626 __ sll(Gtmp1, LogBytesPerWord, Gtmp2); // parameter size in bytes | |
627 __ add(Gargs, Gtmp2, Gargs); // points to first local + BytesPerWord | |
628 // NEW | |
629 __ add(Gargs, -wordSize, Gargs); // points to first local[0] | |
630 // generate the code to allocate the interpreter stack frame | |
631 // NEW FRAME ALLOCATED HERE | |
632 // save callers original sp | |
633 // __ mov(SP, I5_savedSP->after_restore()); | |
634 | |
635 generate_compute_interpreter_state(Lstate, G0, true); | |
636 | |
637 // At this point Lstate points to new interpreter state | |
638 // | |
639 | |
640 const Address do_not_unlock_if_synchronized(G2_thread, 0, | |
641 in_bytes(JavaThread::do_not_unlock_if_synchronized_offset())); | |
642 // Since at this point in the method invocation the exception handler | |
643 // would try to exit the monitor of synchronized methods which hasn't | |
644 // been entered yet, we set the thread local variable | |
645 // _do_not_unlock_if_synchronized to true. If any exception was thrown by | |
646 // runtime, exception handling i.e. unlock_if_synchronized_method will | |
647 // check this thread local flag. | |
648 // This flag has two effects, one is to force an unwind in the topmost | |
649 // interpreter frame and not perform an unlock while doing so. | |
650 | |
651 __ movbool(true, G3_scratch); | |
652 __ stbool(G3_scratch, do_not_unlock_if_synchronized); | |
653 | |
654 | |
655 // increment invocation counter and check for overflow | |
656 // | |
657 // Note: checking for negative value instead of overflow | |
658 // so we have a 'sticky' overflow test (may be of | |
659 // importance as soon as we have true MT/MP) | |
660 Label invocation_counter_overflow; | |
661 if (inc_counter) { | |
662 generate_counter_incr(&invocation_counter_overflow, NULL, NULL); | |
663 } | |
664 Label Lcontinue; | |
665 __ bind(Lcontinue); | |
666 | |
667 bang_stack_shadow_pages(true); | |
668 // reset the _do_not_unlock_if_synchronized flag | |
669 __ stbool(G0, do_not_unlock_if_synchronized); | |
670 | |
671 // check for synchronized methods | |
672 // Must happen AFTER invocation_counter check, so method is not locked | |
673 // if counter overflows. | |
674 | |
675 if (synchronized) { | |
676 lock_method(); | |
677 // Don't see how G2_thread is preserved here... | |
678 // __ verify_thread(); QQQ destroys L0,L1 can't use | |
679 } else { | |
680 #ifdef ASSERT | |
681 { Label ok; | |
682 __ ld_ptr(STATE(_method), G5_method); | |
683 __ ld(access_flags, O0); | |
684 __ btst(JVM_ACC_SYNCHRONIZED, O0); | |
685 __ br( Assembler::zero, false, Assembler::pt, ok); | |
686 __ delayed()->nop(); | |
687 __ stop("method needs synchronization"); | |
688 __ bind(ok); | |
689 } | |
690 #endif // ASSERT | |
691 } | |
692 | |
693 // start execution | |
694 | |
695 // __ verify_thread(); kills L1,L2 can't use at the moment | |
696 | |
697 // jvmti/jvmpi support | |
698 __ notify_method_entry(); | |
699 | |
700 // native call | |
701 | |
702 // (note that O0 is never an oop--at most it is a handle) | |
703 // It is important not to smash any handles created by this call, | |
704 // until any oop handle in O0 is dereferenced. | |
705 | |
706 // (note that the space for outgoing params is preallocated) | |
707 | |
708 // get signature handler | |
709 | |
710 Label pending_exception_present; | |
711 | |
712 { Label L; | |
713 __ ld_ptr(STATE(_method), G5_method); | |
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714 __ ld_ptr(Address(G5_method, 0, in_bytes(Method::signature_handler_offset())), G3_scratch); |
0 | 715 __ tst(G3_scratch); |
716 __ brx(Assembler::notZero, false, Assembler::pt, L); | |
717 __ delayed()->nop(); | |
718 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::prepare_native_call), G5_method, false); | |
719 __ ld_ptr(STATE(_method), G5_method); | |
720 | |
721 Address exception_addr(G2_thread, 0, in_bytes(Thread::pending_exception_offset())); | |
722 __ ld_ptr(exception_addr, G3_scratch); | |
3839 | 723 __ br_notnull_short(G3_scratch, Assembler::pn, pending_exception_present); |
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724 __ ld_ptr(Address(G5_method, 0, in_bytes(Method::signature_handler_offset())), G3_scratch); |
0 | 725 __ bind(L); |
726 } | |
727 | |
728 // Push a new frame so that the args will really be stored in | |
729 // Copy a few locals across so the new frame has the variables | |
730 // we need but these values will be dead at the jni call and | |
731 // therefore not gc volatile like the values in the current | |
732 // frame (Lstate in particular) | |
733 | |
734 // Flush the state pointer to the register save area | |
735 // Which is the only register we need for a stack walk. | |
736 __ st_ptr(Lstate, SP, (Lstate->sp_offset_in_saved_window() * wordSize) + STACK_BIAS); | |
737 | |
738 __ mov(Lstate, O1); // Need to pass the state pointer across the frame | |
739 | |
740 // Calculate current frame size | |
741 __ sub(SP, FP, O3); // Calculate negative of current frame size | |
742 __ save(SP, O3, SP); // Allocate an identical sized frame | |
743 | |
744 __ mov(I1, Lstate); // In the "natural" register. | |
745 | |
746 // Note I7 has leftover trash. Slow signature handler will fill it in | |
747 // should we get there. Normal jni call will set reasonable last_Java_pc | |
748 // below (and fix I7 so the stack trace doesn't have a meaningless frame | |
749 // in it). | |
750 | |
751 | |
752 // call signature handler | |
753 __ ld_ptr(STATE(_method), Lmethod); | |
754 __ ld_ptr(STATE(_locals), Llocals); | |
755 | |
756 __ callr(G3_scratch, 0); | |
757 __ delayed()->nop(); | |
758 __ ld_ptr(STATE(_thread), G2_thread); // restore thread (shouldn't be needed) | |
759 | |
760 { Label not_static; | |
761 | |
762 __ ld_ptr(STATE(_method), G5_method); | |
763 __ ld(access_flags, O0); | |
764 __ btst(JVM_ACC_STATIC, O0); | |
765 __ br( Assembler::zero, false, Assembler::pt, not_static); | |
766 __ delayed()-> | |
767 // get native function entry point(O0 is a good temp until the very end) | |
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768 ld_ptr(Address(G5_method, 0, in_bytes(Method::native_function_offset())), O0); |
0 | 769 // for static methods insert the mirror argument |
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770 const int mirror_offset = in_bytes(Klass::java_mirror_offset()); |
0 | 771 |
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772 __ ld_ptr(Address(G5_method, 0, in_bytes(Method:: const_offset())), O1); |
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773 __ ld_ptr(Address(O1, 0, in_bytes(ConstMethod::constants_offset())), O1); |
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774 __ ld_ptr(Address(O1, 0, ConstantPool::pool_holder_offset_in_bytes()), O1); |
0 | 775 __ ld_ptr(O1, mirror_offset, O1); |
776 // where the mirror handle body is allocated: | |
777 #ifdef ASSERT | |
778 if (!PrintSignatureHandlers) // do not dirty the output with this | |
779 { Label L; | |
780 __ tst(O1); | |
781 __ brx(Assembler::notZero, false, Assembler::pt, L); | |
782 __ delayed()->nop(); | |
783 __ stop("mirror is missing"); | |
784 __ bind(L); | |
785 } | |
786 #endif // ASSERT | |
787 __ st_ptr(O1, STATE(_oop_temp)); | |
788 __ add(STATE(_oop_temp), O1); // this is really an LEA not an add | |
789 __ bind(not_static); | |
790 } | |
791 | |
792 // At this point, arguments have been copied off of stack into | |
793 // their JNI positions, which are O1..O5 and SP[68..]. | |
794 // Oops are boxed in-place on the stack, with handles copied to arguments. | |
795 // The result handler is in Lscratch. O0 will shortly hold the JNIEnv*. | |
796 | |
797 #ifdef ASSERT | |
798 { Label L; | |
799 __ tst(O0); | |
800 __ brx(Assembler::notZero, false, Assembler::pt, L); | |
801 __ delayed()->nop(); | |
802 __ stop("native entry point is missing"); | |
803 __ bind(L); | |
804 } | |
805 #endif // ASSERT | |
806 | |
807 // | |
808 // setup the java frame anchor | |
809 // | |
810 // The scavenge function only needs to know that the PC of this frame is | |
811 // in the interpreter method entry code, it doesn't need to know the exact | |
812 // PC and hence we can use O7 which points to the return address from the | |
813 // previous call in the code stream (signature handler function) | |
814 // | |
815 // The other trick is we set last_Java_sp to FP instead of the usual SP because | |
816 // we have pushed the extra frame in order to protect the volatile register(s) | |
817 // in that frame when we return from the jni call | |
818 // | |
819 | |
820 | |
821 __ set_last_Java_frame(FP, O7); | |
822 __ mov(O7, I7); // make dummy interpreter frame look like one above, | |
823 // not meaningless information that'll confuse me. | |
824 | |
825 // flush the windows now. We don't care about the current (protection) frame | |
826 // only the outer frames | |
827 | |
828 __ flush_windows(); | |
829 | |
830 // mark windows as flushed | |
831 Address flags(G2_thread, | |
832 0, | |
833 in_bytes(JavaThread::frame_anchor_offset()) + in_bytes(JavaFrameAnchor::flags_offset())); | |
834 __ set(JavaFrameAnchor::flushed, G3_scratch); | |
835 __ st(G3_scratch, flags); | |
836 | |
837 // Transition from _thread_in_Java to _thread_in_native. We are already safepoint ready. | |
838 | |
839 Address thread_state(G2_thread, 0, in_bytes(JavaThread::thread_state_offset())); | |
840 #ifdef ASSERT | |
841 { Label L; | |
842 __ ld(thread_state, G3_scratch); | |
843 __ cmp(G3_scratch, _thread_in_Java); | |
844 __ br(Assembler::equal, false, Assembler::pt, L); | |
845 __ delayed()->nop(); | |
846 __ stop("Wrong thread state in native stub"); | |
847 __ bind(L); | |
848 } | |
849 #endif // ASSERT | |
850 __ set(_thread_in_native, G3_scratch); | |
851 __ st(G3_scratch, thread_state); | |
852 | |
853 // Call the jni method, using the delay slot to set the JNIEnv* argument. | |
854 __ callr(O0, 0); | |
855 __ delayed()-> | |
856 add(G2_thread, in_bytes(JavaThread::jni_environment_offset()), O0); | |
857 __ ld_ptr(STATE(_thread), G2_thread); // restore thread | |
858 | |
859 // must we block? | |
860 | |
861 // Block, if necessary, before resuming in _thread_in_Java state. | |
862 // In order for GC to work, don't clear the last_Java_sp until after blocking. | |
863 { Label no_block; | |
864 Address sync_state(G3_scratch, SafepointSynchronize::address_of_state()); | |
865 | |
866 // Switch thread to "native transition" state before reading the synchronization state. | |
867 // This additional state is necessary because reading and testing the synchronization | |
868 // state is not atomic w.r.t. GC, as this scenario demonstrates: | |
869 // Java thread A, in _thread_in_native state, loads _not_synchronized and is preempted. | |
870 // VM thread changes sync state to synchronizing and suspends threads for GC. | |
871 // Thread A is resumed to finish this native method, but doesn't block here since it | |
872 // didn't see any synchronization is progress, and escapes. | |
873 __ set(_thread_in_native_trans, G3_scratch); | |
874 __ st(G3_scratch, thread_state); | |
875 if(os::is_MP()) { | |
876 // Write serialization page so VM thread can do a pseudo remote membar. | |
877 // We use the current thread pointer to calculate a thread specific | |
878 // offset to write to within the page. This minimizes bus traffic | |
879 // due to cache line collision. | |
880 __ serialize_memory(G2_thread, G1_scratch, G3_scratch); | |
881 } | |
882 __ load_contents(sync_state, G3_scratch); | |
883 __ cmp(G3_scratch, SafepointSynchronize::_not_synchronized); | |
884 | |
885 | |
886 Label L; | |
887 Address suspend_state(G2_thread, 0, in_bytes(JavaThread::suspend_flags_offset())); | |
888 __ br(Assembler::notEqual, false, Assembler::pn, L); | |
889 __ delayed()-> | |
890 ld(suspend_state, G3_scratch); | |
891 __ cmp(G3_scratch, 0); | |
892 __ br(Assembler::equal, false, Assembler::pt, no_block); | |
893 __ delayed()->nop(); | |
894 __ bind(L); | |
895 | |
896 // Block. Save any potential method result value before the operation and | |
897 // use a leaf call to leave the last_Java_frame setup undisturbed. | |
898 save_native_result(); | |
899 __ call_VM_leaf(noreg, | |
900 CAST_FROM_FN_PTR(address, JavaThread::check_safepoint_and_suspend_for_native_trans), | |
901 G2_thread); | |
902 __ ld_ptr(STATE(_thread), G2_thread); // restore thread | |
903 // Restore any method result value | |
904 restore_native_result(); | |
905 __ bind(no_block); | |
906 } | |
907 | |
908 // Clear the frame anchor now | |
909 | |
910 __ reset_last_Java_frame(); | |
911 | |
912 // Move the result handler address | |
913 __ mov(Lscratch, G3_scratch); | |
914 // return possible result to the outer frame | |
915 #ifndef __LP64 | |
916 __ mov(O0, I0); | |
917 __ restore(O1, G0, O1); | |
918 #else | |
919 __ restore(O0, G0, O0); | |
920 #endif /* __LP64 */ | |
921 | |
922 // Move result handler to expected register | |
923 __ mov(G3_scratch, Lscratch); | |
924 | |
925 | |
926 // thread state is thread_in_native_trans. Any safepoint blocking has | |
927 // happened in the trampoline we are ready to switch to thread_in_Java. | |
928 | |
929 __ set(_thread_in_Java, G3_scratch); | |
930 __ st(G3_scratch, thread_state); | |
931 | |
932 // If we have an oop result store it where it will be safe for any further gc | |
933 // until we return now that we've released the handle it might be protected by | |
934 | |
935 { | |
936 Label no_oop, store_result; | |
937 | |
938 __ set((intptr_t)AbstractInterpreter::result_handler(T_OBJECT), G3_scratch); | |
939 __ cmp(G3_scratch, Lscratch); | |
940 __ brx(Assembler::notEqual, false, Assembler::pt, no_oop); | |
941 __ delayed()->nop(); | |
942 __ addcc(G0, O0, O0); | |
943 __ brx(Assembler::notZero, true, Assembler::pt, store_result); // if result is not NULL: | |
944 __ delayed()->ld_ptr(O0, 0, O0); // unbox it | |
945 __ mov(G0, O0); | |
946 | |
947 __ bind(store_result); | |
948 // Store it where gc will look for it and result handler expects it. | |
949 __ st_ptr(O0, STATE(_oop_temp)); | |
950 | |
951 __ bind(no_oop); | |
952 | |
953 } | |
954 | |
955 // reset handle block | |
956 __ ld_ptr(G2_thread, in_bytes(JavaThread::active_handles_offset()), G3_scratch); | |
957 __ st_ptr(G0, G3_scratch, JNIHandleBlock::top_offset_in_bytes()); | |
958 | |
959 | |
960 // handle exceptions (exception handling will handle unlocking!) | |
961 { Label L; | |
962 Address exception_addr (G2_thread, 0, in_bytes(Thread::pending_exception_offset())); | |
963 | |
964 __ ld_ptr(exception_addr, Gtemp); | |
965 __ tst(Gtemp); | |
966 __ brx(Assembler::equal, false, Assembler::pt, L); | |
967 __ delayed()->nop(); | |
968 __ bind(pending_exception_present); | |
969 // With c++ interpreter we just leave it pending caller will do the correct thing. However... | |
970 // Like x86 we ignore the result of the native call and leave the method locked. This | |
971 // seems wrong to leave things locked. | |
972 | |
973 __ br(Assembler::always, false, Assembler::pt, StubRoutines::forward_exception_entry(), relocInfo::runtime_call_type); | |
974 __ delayed()->restore(I5_savedSP, G0, SP); // remove interpreter frame | |
975 | |
976 __ bind(L); | |
977 } | |
978 | |
979 // jvmdi/jvmpi support (preserves thread register) | |
980 __ notify_method_exit(true, ilgl, InterpreterMacroAssembler::NotifyJVMTI); | |
981 | |
982 if (synchronized) { | |
983 // save and restore any potential method result value around the unlocking operation | |
984 save_native_result(); | |
985 | |
986 const int entry_size = frame::interpreter_frame_monitor_size() * wordSize; | |
987 // Get the initial monitor we allocated | |
988 __ sub(Lstate, entry_size, O1); // initial monitor | |
989 __ unlock_object(O1); | |
990 restore_native_result(); | |
991 } | |
992 | |
993 #if defined(COMPILER2) && !defined(_LP64) | |
994 | |
995 // C2 expects long results in G1 we can't tell if we're returning to interpreted | |
996 // or compiled so just be safe. | |
997 | |
998 __ sllx(O0, 32, G1); // Shift bits into high G1 | |
999 __ srl (O1, 0, O1); // Zero extend O1 | |
1000 __ or3 (O1, G1, G1); // OR 64 bits into G1 | |
1001 | |
1002 #endif /* COMPILER2 && !_LP64 */ | |
1003 | |
1004 #ifdef ASSERT | |
1005 { | |
1006 Label ok; | |
1007 __ cmp(I5_savedSP, FP); | |
1008 __ brx(Assembler::greaterEqualUnsigned, false, Assembler::pt, ok); | |
1009 __ delayed()->nop(); | |
1010 __ stop("bad I5_savedSP value"); | |
1011 __ should_not_reach_here(); | |
1012 __ bind(ok); | |
1013 } | |
1014 #endif | |
1015 // Calls result handler which POPS FRAME | |
1016 if (TraceJumps) { | |
1017 // Move target to register that is recordable | |
1018 __ mov(Lscratch, G3_scratch); | |
1019 __ JMP(G3_scratch, 0); | |
1020 } else { | |
1021 __ jmp(Lscratch, 0); | |
1022 } | |
1023 __ delayed()->nop(); | |
1024 | |
1025 if (inc_counter) { | |
1026 // handle invocation counter overflow | |
1027 __ bind(invocation_counter_overflow); | |
1028 generate_counter_overflow(Lcontinue); | |
1029 } | |
1030 | |
1031 | |
1032 return entry; | |
1033 } | |
1034 | |
1035 void CppInterpreterGenerator::generate_compute_interpreter_state(const Register state, | |
1036 const Register prev_state, | |
1037 bool native) { | |
1038 | |
1039 // On entry | |
1040 // G5_method - caller's method | |
1041 // Gargs - points to initial parameters (i.e. locals[0]) | |
1042 // G2_thread - valid? (C1 only??) | |
1043 // "prev_state" - contains any previous frame manager state which we must save a link | |
1044 // | |
1045 // On return | |
1046 // "state" is a pointer to the newly allocated state object. We must allocate and initialize | |
1047 // a new interpretState object and the method expression stack. | |
1048 | |
1049 assert_different_registers(state, prev_state); | |
1050 assert_different_registers(prev_state, G3_scratch); | |
1051 const Register Gtmp = G3_scratch; | |
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1052 const Address constMethod (G5_method, 0, in_bytes(Method::const_offset())); |
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1053 const Address access_flags (G5_method, 0, in_bytes(Method::access_flags_offset())); |
0 | 1054 |
1055 // slop factor is two extra slots on the expression stack so that | |
1056 // we always have room to store a result when returning from a call without parameters | |
1057 // that returns a result. | |
1058 | |
1059 const int slop_factor = 2*wordSize; | |
1060 | |
1061 const int fixed_size = ((sizeof(BytecodeInterpreter) + slop_factor) >> LogBytesPerWord) + // what is the slop factor? | |
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1062 //6815692//Method::extra_stack_words() + // extra push slots for MH adapters |
0 | 1063 frame::memory_parameter_word_sp_offset + // register save area + param window |
1064 (native ? frame::interpreter_frame_extra_outgoing_argument_words : 0); // JNI, class | |
1065 | |
1066 // XXX G5_method valid | |
1067 | |
1068 // Now compute new frame size | |
1069 | |
1070 if (native) { | |
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1071 const Register RconstMethod = Gtmp; |
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1072 const Address size_of_parameters(RconstMethod, 0, in_bytes(ConstMethod::size_of_parameters_offset())); |
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1073 __ ld_ptr(constMethod, RconstMethod); |
0 | 1074 __ lduh( size_of_parameters, Gtmp ); |
1075 __ calc_mem_param_words(Gtmp, Gtmp); // space for native call parameters passed on the stack in words | |
1076 } else { | |
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1077 // Full size expression stack |
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1078 __ ld_ptr(constMethod, Gtmp); |
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1079 __ lduh(Gtmp, in_bytes(ConstMethod::max_stack_offset()), Gtmp); |
0 | 1080 } |
1081 __ add(Gtmp, fixed_size, Gtmp); // plus the fixed portion | |
1082 | |
1083 __ neg(Gtmp); // negative space for stack/parameters in words | |
1084 __ and3(Gtmp, -WordsPerLong, Gtmp); // make multiple of 2 (SP must be 2-word aligned) | |
1085 __ sll(Gtmp, LogBytesPerWord, Gtmp); // negative space for frame in bytes | |
1086 | |
1087 // Need to do stack size check here before we fault on large frames | |
1088 | |
1089 Label stack_ok; | |
1090 | |
1091 const int max_pages = StackShadowPages > (StackRedPages+StackYellowPages) ? StackShadowPages : | |
1092 (StackRedPages+StackYellowPages); | |
1093 | |
1094 | |
1095 __ ld_ptr(G2_thread, in_bytes(Thread::stack_base_offset()), O0); | |
1096 __ ld_ptr(G2_thread, in_bytes(Thread::stack_size_offset()), O1); | |
1097 // compute stack bottom | |
1098 __ sub(O0, O1, O0); | |
1099 | |
1100 // Avoid touching the guard pages | |
1101 // Also a fudge for frame size of BytecodeInterpreter::run | |
1102 // It varies from 1k->4k depending on build type | |
1103 const int fudge = 6 * K; | |
1104 | |
1105 __ set(fudge + (max_pages * os::vm_page_size()), O1); | |
1106 | |
1107 __ add(O0, O1, O0); | |
1108 __ sub(O0, Gtmp, O0); | |
1109 __ cmp(SP, O0); | |
1110 __ brx(Assembler::greaterUnsigned, false, Assembler::pt, stack_ok); | |
1111 __ delayed()->nop(); | |
1112 | |
1113 // throw exception return address becomes throwing pc | |
1114 | |
1115 __ call_VM(Oexception, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_StackOverflowError)); | |
1116 __ stop("never reached"); | |
1117 | |
1118 __ bind(stack_ok); | |
1119 | |
1120 __ save(SP, Gtmp, SP); // setup new frame and register window | |
1121 | |
1122 // New window I7 call_stub or previous activation | |
1123 // O6 - register save area, BytecodeInterpreter just below it, args/locals just above that | |
1124 // | |
1125 __ sub(FP, sizeof(BytecodeInterpreter), state); // Point to new Interpreter state | |
1126 __ add(state, STACK_BIAS, state ); // Account for 64bit bias | |
1127 | |
1128 #define XXX_STATE(field_name) state, in_bytes(byte_offset_of(BytecodeInterpreter, field_name)) | |
1129 | |
1130 // Initialize a new Interpreter state | |
1131 // orig_sp - caller's original sp | |
1132 // G2_thread - thread | |
1133 // Gargs - &locals[0] (unbiased?) | |
1134 // G5_method - method | |
1135 // SP (biased) - accounts for full size java stack, BytecodeInterpreter object, register save area, and register parameter save window | |
1136 | |
1137 | |
1138 __ set(0xdead0004, O1); | |
1139 | |
1140 | |
1141 __ st_ptr(Gargs, XXX_STATE(_locals)); | |
1142 __ st_ptr(G0, XXX_STATE(_oop_temp)); | |
1143 | |
1144 __ st_ptr(state, XXX_STATE(_self_link)); // point to self | |
1145 __ st_ptr(prev_state->after_save(), XXX_STATE(_prev_link)); // Chain interpreter states | |
1146 __ st_ptr(G2_thread, XXX_STATE(_thread)); // Store javathread | |
1147 | |
1148 if (native) { | |
1149 __ st_ptr(G0, XXX_STATE(_bcp)); | |
1150 } else { | |
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1151 __ ld_ptr(G5_method, in_bytes(Method::const_offset()), O2); // get ConstMethod* |
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1152 __ add(O2, in_bytes(ConstMethod::codes_offset()), O2); // get bcp |
0 | 1153 __ st_ptr(O2, XXX_STATE(_bcp)); |
1154 } | |
1155 | |
1156 __ st_ptr(G0, XXX_STATE(_mdx)); | |
1157 __ st_ptr(G5_method, XXX_STATE(_method)); | |
1158 | |
1159 __ set((int) BytecodeInterpreter::method_entry, O1); | |
1160 __ st(O1, XXX_STATE(_msg)); | |
1161 | |
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1162 __ ld_ptr(constMethod, O3); |
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1163 __ ld_ptr(O3, in_bytes(ConstMethod::constants_offset()), O3); |
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1164 __ ld_ptr(O3, ConstantPool::cache_offset_in_bytes(), O2); |
0 | 1165 __ st_ptr(O2, XXX_STATE(_constants)); |
1166 | |
1167 __ st_ptr(G0, XXX_STATE(_result._to_call._callee)); | |
1168 | |
1169 // Monitor base is just start of BytecodeInterpreter object; | |
1170 __ mov(state, O2); | |
1171 __ st_ptr(O2, XXX_STATE(_monitor_base)); | |
1172 | |
1173 // Do we need a monitor for synchonized method? | |
1174 { | |
1175 __ ld(access_flags, O1); | |
1176 Label done; | |
1177 Label got_obj; | |
1178 __ btst(JVM_ACC_SYNCHRONIZED, O1); | |
1179 __ br( Assembler::zero, false, Assembler::pt, done); | |
1180 | |
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1181 const int mirror_offset = in_bytes(Klass::java_mirror_offset()); |
0 | 1182 __ delayed()->btst(JVM_ACC_STATIC, O1); |
1183 __ ld_ptr(XXX_STATE(_locals), O1); | |
1184 __ br( Assembler::zero, true, Assembler::pt, got_obj); | |
1185 __ delayed()->ld_ptr(O1, 0, O1); // get receiver for not-static case | |
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1186 __ ld_ptr(constMethod, O1); |
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1187 __ ld_ptr( O1, in_bytes(ConstMethod::constants_offset()), O1); |
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1188 __ ld_ptr( O1, ConstantPool::pool_holder_offset_in_bytes(), O1); |
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1189 // lock the mirror, not the Klass* |
0 | 1190 __ ld_ptr( O1, mirror_offset, O1); |
1191 | |
1192 __ bind(got_obj); | |
1193 | |
1194 #ifdef ASSERT | |
1195 __ tst(O1); | |
5923 | 1196 __ breakpoint_trap(Assembler::zero, Assembler::ptr_cc); |
0 | 1197 #endif // ASSERT |
1198 | |
1199 const int entry_size = frame::interpreter_frame_monitor_size() * wordSize; | |
1200 __ sub(SP, entry_size, SP); // account for initial monitor | |
1201 __ sub(O2, entry_size, O2); // initial monitor | |
1202 __ st_ptr(O1, O2, BasicObjectLock::obj_offset_in_bytes()); // and allocate it for interpreter use | |
1203 __ bind(done); | |
1204 } | |
1205 | |
1206 // Remember initial frame bottom | |
1207 | |
1208 __ st_ptr(SP, XXX_STATE(_frame_bottom)); | |
1209 | |
1210 __ st_ptr(O2, XXX_STATE(_stack_base)); | |
1211 | |
1212 __ sub(O2, wordSize, O2); // prepush | |
1213 __ st_ptr(O2, XXX_STATE(_stack)); // PREPUSH | |
1214 | |
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1215 // Full size expression stack |
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1216 __ ld_ptr(constMethod, O3); |
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1217 __ lduh(O3, in_bytes(ConstMethod::max_stack_offset()), O3); |
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1218 guarantee(!EnableInvokeDynamic, "no support yet for java.lang.invoke.MethodHandle"); //6815692 |
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1219 //6815692//if (EnableInvokeDynamic) |
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1220 //6815692// __ inc(O3, Method::extra_stack_entries()); |
0 | 1221 __ sll(O3, LogBytesPerWord, O3); |
1222 __ sub(O2, O3, O3); | |
1223 // __ sub(O3, wordSize, O3); // so prepush doesn't look out of bounds | |
1224 __ st_ptr(O3, XXX_STATE(_stack_limit)); | |
1225 | |
1226 if (!native) { | |
1227 // | |
1228 // Code to initialize locals | |
1229 // | |
1230 Register init_value = noreg; // will be G0 if we must clear locals | |
1231 // Now zero locals | |
1232 if (true /* zerolocals */ || ClearInterpreterLocals) { | |
1233 // explicitly initialize locals | |
1234 init_value = G0; | |
1235 } else { | |
1236 #ifdef ASSERT | |
1237 // initialize locals to a garbage pattern for better debugging | |
1238 init_value = O3; | |
1239 __ set( 0x0F0F0F0F, init_value ); | |
1240 #endif // ASSERT | |
1241 } | |
1242 if (init_value != noreg) { | |
1243 Label clear_loop; | |
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1244 const Register RconstMethod = O1; |
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1245 const Address size_of_parameters(RconstMethod, 0, in_bytes(ConstMethod::size_of_parameters_offset())); |
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1246 const Address size_of_locals (RconstMethod, 0, in_bytes(ConstMethod::size_of_locals_offset())); |
0 | 1247 |
1248 // NOTE: If you change the frame layout, this code will need to | |
1249 // be updated! | |
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1250 __ ld_ptr( constMethod, RconstMethod ); |
0 | 1251 __ lduh( size_of_locals, O2 ); |
1252 __ lduh( size_of_parameters, O1 ); | |
1253 __ sll( O2, LogBytesPerWord, O2); | |
1254 __ sll( O1, LogBytesPerWord, O1 ); | |
1255 __ ld_ptr(XXX_STATE(_locals), L2_scratch); | |
1256 __ sub( L2_scratch, O2, O2 ); | |
1257 __ sub( L2_scratch, O1, O1 ); | |
1258 | |
1259 __ bind( clear_loop ); | |
1260 __ inc( O2, wordSize ); | |
1261 | |
1262 __ cmp( O2, O1 ); | |
1263 __ br( Assembler::lessEqualUnsigned, true, Assembler::pt, clear_loop ); | |
1264 __ delayed()->st_ptr( init_value, O2, 0 ); | |
1265 } | |
1266 } | |
1267 } | |
1268 // Find preallocated monitor and lock method (C++ interpreter) | |
1269 // | |
1270 void InterpreterGenerator::lock_method(void) { | |
1271 // Lock the current method. | |
1272 // Destroys registers L2_scratch, L3_scratch, O0 | |
1273 // | |
1274 // Find everything relative to Lstate | |
1275 | |
1276 #ifdef ASSERT | |
1277 __ ld_ptr(STATE(_method), L2_scratch); | |
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1278 __ ld(L2_scratch, in_bytes(Method::access_flags_offset()), O0); |
0 | 1279 |
1280 { Label ok; | |
1281 __ btst(JVM_ACC_SYNCHRONIZED, O0); | |
1282 __ br( Assembler::notZero, false, Assembler::pt, ok); | |
1283 __ delayed()->nop(); | |
1284 __ stop("method doesn't need synchronization"); | |
1285 __ bind(ok); | |
1286 } | |
1287 #endif // ASSERT | |
1288 | |
1289 // monitor is already allocated at stack base | |
1290 // and the lockee is already present | |
1291 __ ld_ptr(STATE(_stack_base), L2_scratch); | |
1292 __ ld_ptr(L2_scratch, BasicObjectLock::obj_offset_in_bytes(), O0); // get object | |
1293 __ lock_object(L2_scratch, O0); | |
1294 | |
1295 } | |
1296 | |
1297 // Generate code for handling resuming a deopted method | |
1298 void CppInterpreterGenerator::generate_deopt_handling() { | |
1299 | |
1300 Label return_from_deopt_common; | |
1301 | |
1302 // deopt needs to jump to here to enter the interpreter (return a result) | |
1303 deopt_frame_manager_return_atos = __ pc(); | |
1304 | |
1305 // O0/O1 live | |
3839 | 1306 __ ba(return_from_deopt_common); |
0 | 1307 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_OBJECT), L3_scratch); // Result stub address array index |
1308 | |
1309 | |
1310 // deopt needs to jump to here to enter the interpreter (return a result) | |
1311 deopt_frame_manager_return_btos = __ pc(); | |
1312 | |
1313 // O0/O1 live | |
3839 | 1314 __ ba(return_from_deopt_common); |
0 | 1315 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_BOOLEAN), L3_scratch); // Result stub address array index |
1316 | |
1317 // deopt needs to jump to here to enter the interpreter (return a result) | |
1318 deopt_frame_manager_return_itos = __ pc(); | |
1319 | |
1320 // O0/O1 live | |
3839 | 1321 __ ba(return_from_deopt_common); |
0 | 1322 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_INT), L3_scratch); // Result stub address array index |
1323 | |
1324 // deopt needs to jump to here to enter the interpreter (return a result) | |
1325 | |
1326 deopt_frame_manager_return_ltos = __ pc(); | |
1327 #if !defined(_LP64) && defined(COMPILER2) | |
1328 // All return values are where we want them, except for Longs. C2 returns | |
1329 // longs in G1 in the 32-bit build whereas the interpreter wants them in O0/O1. | |
1330 // Since the interpreter will return longs in G1 and O0/O1 in the 32bit | |
1331 // build even if we are returning from interpreted we just do a little | |
1332 // stupid shuffing. | |
1333 // Note: I tried to make c2 return longs in O0/O1 and G1 so we wouldn't have to | |
1334 // do this here. Unfortunately if we did a rethrow we'd see an machepilog node | |
1335 // first which would move g1 -> O0/O1 and destroy the exception we were throwing. | |
1336 | |
1337 __ srl (G1, 0,O1); | |
1338 __ srlx(G1,32,O0); | |
1339 #endif /* !_LP64 && COMPILER2 */ | |
1340 // O0/O1 live | |
3839 | 1341 __ ba(return_from_deopt_common); |
0 | 1342 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_LONG), L3_scratch); // Result stub address array index |
1343 | |
1344 // deopt needs to jump to here to enter the interpreter (return a result) | |
1345 | |
1346 deopt_frame_manager_return_ftos = __ pc(); | |
1347 // O0/O1 live | |
3839 | 1348 __ ba(return_from_deopt_common); |
0 | 1349 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_FLOAT), L3_scratch); // Result stub address array index |
1350 | |
1351 // deopt needs to jump to here to enter the interpreter (return a result) | |
1352 deopt_frame_manager_return_dtos = __ pc(); | |
1353 | |
1354 // O0/O1 live | |
3839 | 1355 __ ba(return_from_deopt_common); |
0 | 1356 __ delayed()->set(AbstractInterpreter::BasicType_as_index(T_DOUBLE), L3_scratch); // Result stub address array index |
1357 | |
1358 // deopt needs to jump to here to enter the interpreter (return a result) | |
1359 deopt_frame_manager_return_vtos = __ pc(); | |
1360 | |
1361 // O0/O1 live | |
1362 __ set(AbstractInterpreter::BasicType_as_index(T_VOID), L3_scratch); | |
1363 | |
1364 // Deopt return common | |
1365 // an index is present that lets us move any possible result being | |
1366 // return to the interpreter's stack | |
1367 // | |
1368 __ bind(return_from_deopt_common); | |
1369 | |
1370 // Result if any is in native abi result (O0..O1/F0..F1). The java expression | |
1371 // stack is in the state that the calling convention left it. | |
1372 // Copy the result from native abi result and place it on java expression stack. | |
1373 | |
1374 // Current interpreter state is present in Lstate | |
1375 | |
1376 // Get current pre-pushed top of interpreter stack | |
1377 // Any result (if any) is in native abi | |
1378 // result type index is in L3_scratch | |
1379 | |
1380 __ ld_ptr(STATE(_stack), L1_scratch); // get top of java expr stack | |
1381 | |
1382 __ set((intptr_t)CppInterpreter::_tosca_to_stack, L4_scratch); | |
1383 __ sll(L3_scratch, LogBytesPerWord, L3_scratch); | |
1384 __ ld_ptr(L4_scratch, L3_scratch, Lscratch); // get typed result converter address | |
1385 __ jmpl(Lscratch, G0, O7); // and convert it | |
1386 __ delayed()->nop(); | |
1387 | |
1388 // L1_scratch points to top of stack (prepushed) | |
1389 __ st_ptr(L1_scratch, STATE(_stack)); | |
1390 } | |
1391 | |
1392 // Generate the code to handle a more_monitors message from the c++ interpreter | |
1393 void CppInterpreterGenerator::generate_more_monitors() { | |
1394 | |
1395 Label entry, loop; | |
1396 const int entry_size = frame::interpreter_frame_monitor_size() * wordSize; | |
1397 // 1. compute new pointers // esp: old expression stack top | |
1398 __ delayed()->ld_ptr(STATE(_stack_base), L4_scratch); // current expression stack bottom | |
1399 __ sub(L4_scratch, entry_size, L4_scratch); | |
1400 __ st_ptr(L4_scratch, STATE(_stack_base)); | |
1401 | |
1402 __ sub(SP, entry_size, SP); // Grow stack | |
1403 __ st_ptr(SP, STATE(_frame_bottom)); | |
1404 | |
1405 __ ld_ptr(STATE(_stack_limit), L2_scratch); | |
1406 __ sub(L2_scratch, entry_size, L2_scratch); | |
1407 __ st_ptr(L2_scratch, STATE(_stack_limit)); | |
1408 | |
1409 __ ld_ptr(STATE(_stack), L1_scratch); // Get current stack top | |
1410 __ sub(L1_scratch, entry_size, L1_scratch); | |
1411 __ st_ptr(L1_scratch, STATE(_stack)); | |
3839 | 1412 __ ba(entry); |
0 | 1413 __ delayed()->add(L1_scratch, wordSize, L1_scratch); // first real entry (undo prepush) |
1414 | |
1415 // 2. move expression stack | |
1416 | |
1417 __ bind(loop); | |
1418 __ st_ptr(L3_scratch, Address(L1_scratch, 0)); | |
1419 __ add(L1_scratch, wordSize, L1_scratch); | |
1420 __ bind(entry); | |
1421 __ cmp(L1_scratch, L4_scratch); | |
1422 __ br(Assembler::notEqual, false, Assembler::pt, loop); | |
1423 __ delayed()->ld_ptr(L1_scratch, entry_size, L3_scratch); | |
1424 | |
1425 // now zero the slot so we can find it. | |
123 | 1426 __ st_ptr(G0, L4_scratch, BasicObjectLock::obj_offset_in_bytes()); |
0 | 1427 |
1428 } | |
1429 | |
1430 // Initial entry to C++ interpreter from the call_stub. | |
1431 // This entry point is called the frame manager since it handles the generation | |
1432 // of interpreter activation frames via requests directly from the vm (via call_stub) | |
1433 // and via requests from the interpreter. The requests from the call_stub happen | |
1434 // directly thru the entry point. Requests from the interpreter happen via returning | |
1435 // from the interpreter and examining the message the interpreter has returned to | |
1436 // the frame manager. The frame manager can take the following requests: | |
1437 | |
1438 // NO_REQUEST - error, should never happen. | |
1439 // MORE_MONITORS - need a new monitor. Shuffle the expression stack on down and | |
1440 // allocate a new monitor. | |
1441 // CALL_METHOD - setup a new activation to call a new method. Very similar to what | |
1442 // happens during entry during the entry via the call stub. | |
1443 // RETURN_FROM_METHOD - remove an activation. Return to interpreter or call stub. | |
1444 // | |
1445 // Arguments: | |
1446 // | |
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1447 // ebx: Method* |
0 | 1448 // ecx: receiver - unused (retrieved from stack as needed) |
1449 // esi: previous frame manager state (NULL from the call_stub/c1/c2) | |
1450 // | |
1451 // | |
1452 // Stack layout at entry | |
1453 // | |
1454 // [ return address ] <--- esp | |
1455 // [ parameter n ] | |
1456 // ... | |
1457 // [ parameter 1 ] | |
1458 // [ expression stack ] | |
1459 // | |
1460 // | |
1461 // We are free to blow any registers we like because the call_stub which brought us here | |
1462 // initially has preserved the callee save registers already. | |
1463 // | |
1464 // | |
1465 | |
1466 static address interpreter_frame_manager = NULL; | |
1467 | |
1468 #ifdef ASSERT | |
1469 #define VALIDATE_STATE(scratch, marker) \ | |
1470 { \ | |
1471 Label skip; \ | |
1472 __ ld_ptr(STATE(_self_link), scratch); \ | |
1473 __ cmp(Lstate, scratch); \ | |
1474 __ brx(Assembler::equal, false, Assembler::pt, skip); \ | |
1475 __ delayed()->nop(); \ | |
1476 __ breakpoint_trap(); \ | |
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1477 __ emit_int32(marker); \ |
0 | 1478 __ bind(skip); \ |
1479 } | |
1480 #else | |
1481 #define VALIDATE_STATE(scratch, marker) | |
1482 #endif /* ASSERT */ | |
1483 | |
1484 void CppInterpreterGenerator::adjust_callers_stack(Register args) { | |
1485 // | |
1486 // Adjust caller's stack so that all the locals can be contiguous with | |
1487 // the parameters. | |
1488 // Worries about stack overflow make this a pain. | |
1489 // | |
1490 // Destroys args, G3_scratch, G3_scratch | |
1491 // In/Out O5_savedSP (sender's original SP) | |
1492 // | |
1493 // assert_different_registers(state, prev_state); | |
1494 const Register Gtmp = G3_scratch; | |
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1495 const RconstMethod = G3_scratch; |
0 | 1496 const Register tmp = O2; |
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1497 const Address constMethod(G5_method, 0, in_bytes(Method::const_offset())); |
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1498 const Address size_of_parameters(RconstMethod, 0, in_bytes(ConstMethod::size_of_parameters_offset())); |
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1499 const Address size_of_locals (RconstMethod, 0, in_bytes(ConstMethod::size_of_locals_offset())); |
0 | 1500 |
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1501 __ ld_ptr(constMethod, RconstMethod); |
0 | 1502 __ lduh(size_of_parameters, tmp); |
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1503 __ sll(tmp, LogBytesPerWord, Gargs); // parameter size in bytes |
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1504 __ add(args, Gargs, Gargs); // points to first local + BytesPerWord |
0 | 1505 // NEW |
1506 __ add(Gargs, -wordSize, Gargs); // points to first local[0] | |
1507 // determine extra space for non-argument locals & adjust caller's SP | |
1508 // Gtmp1: parameter size in words | |
1509 __ lduh(size_of_locals, Gtmp); | |
1510 __ compute_extra_locals_size_in_bytes(tmp, Gtmp, Gtmp); | |
1511 | |
1512 #if 1 | |
1513 // c2i adapters place the final interpreter argument in the register save area for O0/I0 | |
1514 // the call_stub will place the final interpreter argument at | |
1515 // frame::memory_parameter_word_sp_offset. This is mostly not noticable for either asm | |
1516 // or c++ interpreter. However with the c++ interpreter when we do a recursive call | |
1517 // and try to make it look good in the debugger we will store the argument to | |
1518 // RecursiveInterpreterActivation in the register argument save area. Without allocating | |
1519 // extra space for the compiler this will overwrite locals in the local array of the | |
1520 // interpreter. | |
1521 // QQQ still needed with frameless adapters??? | |
1522 | |
1523 const int c2i_adjust_words = frame::memory_parameter_word_sp_offset - frame::callee_register_argument_save_area_sp_offset; | |
1524 | |
1525 __ add(Gtmp, c2i_adjust_words*wordSize, Gtmp); | |
1526 #endif // 1 | |
1527 | |
1528 | |
1529 __ sub(SP, Gtmp, SP); // just caller's frame for the additional space we need. | |
1530 } | |
1531 | |
1532 address InterpreterGenerator::generate_normal_entry(bool synchronized) { | |
1533 | |
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1534 // G5_method: Method* |
0 | 1535 // G2_thread: thread (unused) |
1536 // Gargs: bottom of args (sender_sp) | |
1537 // O5: sender's sp | |
1538 | |
1539 // A single frame manager is plenty as we don't specialize for synchronized. We could and | |
1540 // the code is pretty much ready. Would need to change the test below and for good measure | |
1541 // modify generate_interpreter_state to only do the (pre) sync stuff stuff for synchronized | |
1542 // routines. Not clear this is worth it yet. | |
1543 | |
1544 if (interpreter_frame_manager) { | |
1545 return interpreter_frame_manager; | |
1546 } | |
1547 | |
1548 __ bind(frame_manager_entry); | |
1549 | |
1550 // the following temporary registers are used during frame creation | |
1551 const Register Gtmp1 = G3_scratch; | |
1552 // const Register Lmirror = L1; // native mirror (native calls only) | |
1553 | |
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1554 const Address constMethod (G5_method, 0, in_bytes(Method::const_offset())); |
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1555 const Address access_flags (G5_method, 0, in_bytes(Method::access_flags_offset())); |
0 | 1556 |
1557 address entry_point = __ pc(); | |
1558 __ mov(G0, prevState); // no current activation | |
1559 | |
1560 | |
1561 Label re_dispatch; | |
1562 | |
1563 __ bind(re_dispatch); | |
1564 | |
1565 // Interpreter needs to have locals completely contiguous. In order to do that | |
1566 // We must adjust the caller's stack pointer for any locals beyond just the | |
1567 // parameters | |
1568 adjust_callers_stack(Gargs); | |
1569 | |
1570 // O5_savedSP still contains sender's sp | |
1571 | |
1572 // NEW FRAME | |
1573 | |
1574 generate_compute_interpreter_state(Lstate, prevState, false); | |
1575 | |
1576 // At this point a new interpreter frame and state object are created and initialized | |
1577 // Lstate has the pointer to the new activation | |
1578 // Any stack banging or limit check should already be done. | |
1579 | |
1580 Label call_interpreter; | |
1581 | |
1582 __ bind(call_interpreter); | |
1583 | |
1584 | |
1585 #if 1 | |
1586 __ set(0xdead002, Lmirror); | |
1587 __ set(0xdead002, L2_scratch); | |
1588 __ set(0xdead003, L3_scratch); | |
1589 __ set(0xdead004, L4_scratch); | |
1590 __ set(0xdead005, Lscratch); | |
1591 __ set(0xdead006, Lscratch2); | |
1592 __ set(0xdead007, L7_scratch); | |
1593 | |
1594 __ set(0xdeaf002, O2); | |
1595 __ set(0xdeaf003, O3); | |
1596 __ set(0xdeaf004, O4); | |
1597 __ set(0xdeaf005, O5); | |
1598 #endif | |
1599 | |
1600 // Call interpreter (stack bang complete) enter here if message is | |
1601 // set and we know stack size is valid | |
1602 | |
1603 Label call_interpreter_2; | |
1604 | |
1605 __ bind(call_interpreter_2); | |
1606 | |
1607 #ifdef ASSERT | |
1608 { | |
1609 Label skip; | |
1610 __ ld_ptr(STATE(_frame_bottom), G3_scratch); | |
1611 __ cmp(G3_scratch, SP); | |
1612 __ brx(Assembler::equal, false, Assembler::pt, skip); | |
1613 __ delayed()->nop(); | |
1614 __ stop("SP not restored to frame bottom"); | |
1615 __ bind(skip); | |
1616 } | |
1617 #endif | |
1618 | |
1619 VALIDATE_STATE(G3_scratch, 4); | |
1620 __ set_last_Java_frame(SP, noreg); | |
1621 __ mov(Lstate, O0); // (arg) pointer to current state | |
1622 | |
1623 __ call(CAST_FROM_FN_PTR(address, | |
1624 JvmtiExport::can_post_interpreter_events() ? | |
1625 BytecodeInterpreter::runWithChecks | |
1626 : BytecodeInterpreter::run), | |
1627 relocInfo::runtime_call_type); | |
1628 | |
1629 __ delayed()->nop(); | |
1630 | |
1631 __ ld_ptr(STATE(_thread), G2_thread); | |
1632 __ reset_last_Java_frame(); | |
1633 | |
1634 // examine msg from interpreter to determine next action | |
1635 __ ld_ptr(STATE(_thread), G2_thread); // restore G2_thread | |
1636 | |
1637 __ ld(STATE(_msg), L1_scratch); // Get new message | |
1638 | |
1639 Label call_method; | |
1640 Label return_from_interpreted_method; | |
1641 Label throw_exception; | |
1642 Label do_OSR; | |
1643 Label bad_msg; | |
1644 Label resume_interpreter; | |
1645 | |
1646 __ cmp(L1_scratch, (int)BytecodeInterpreter::call_method); | |
1647 __ br(Assembler::equal, false, Assembler::pt, call_method); | |
1648 __ delayed()->cmp(L1_scratch, (int)BytecodeInterpreter::return_from_method); | |
1649 __ br(Assembler::equal, false, Assembler::pt, return_from_interpreted_method); | |
1650 __ delayed()->cmp(L1_scratch, (int)BytecodeInterpreter::throwing_exception); | |
1651 __ br(Assembler::equal, false, Assembler::pt, throw_exception); | |
1652 __ delayed()->cmp(L1_scratch, (int)BytecodeInterpreter::do_osr); | |
1653 __ br(Assembler::equal, false, Assembler::pt, do_OSR); | |
1654 __ delayed()->cmp(L1_scratch, (int)BytecodeInterpreter::more_monitors); | |
1655 __ br(Assembler::notEqual, false, Assembler::pt, bad_msg); | |
1656 | |
1657 // Allocate more monitor space, shuffle expression stack.... | |
1658 | |
1659 generate_more_monitors(); | |
1660 | |
1661 // new monitor slot allocated, resume the interpreter. | |
1662 | |
1663 __ set((int)BytecodeInterpreter::got_monitors, L1_scratch); | |
1664 VALIDATE_STATE(G3_scratch, 5); | |
3839 | 1665 __ ba(call_interpreter); |
0 | 1666 __ delayed()->st(L1_scratch, STATE(_msg)); |
1667 | |
1668 // uncommon trap needs to jump to here to enter the interpreter (re-execute current bytecode) | |
1669 unctrap_frame_manager_entry = __ pc(); | |
1670 | |
1671 // QQQ what message do we send | |
1672 | |
3839 | 1673 __ ba(call_interpreter); |
0 | 1674 __ delayed()->ld_ptr(STATE(_frame_bottom), SP); // restore to full stack frame |
1675 | |
1676 //============================================================================= | |
1677 // Returning from a compiled method into a deopted method. The bytecode at the | |
1678 // bcp has completed. The result of the bytecode is in the native abi (the tosca | |
1679 // for the template based interpreter). Any stack space that was used by the | |
1680 // bytecode that has completed has been removed (e.g. parameters for an invoke) | |
1681 // so all that we have to do is place any pending result on the expression stack | |
1682 // and resume execution on the next bytecode. | |
1683 | |
1684 generate_deopt_handling(); | |
1685 | |
1686 // ready to resume the interpreter | |
1687 | |
1688 __ set((int)BytecodeInterpreter::deopt_resume, L1_scratch); | |
3839 | 1689 __ ba(call_interpreter); |
0 | 1690 __ delayed()->st(L1_scratch, STATE(_msg)); |
1691 | |
1692 // Current frame has caught an exception we need to dispatch to the | |
1693 // handler. We can get here because a native interpreter frame caught | |
1694 // an exception in which case there is no handler and we must rethrow | |
1695 // If it is a vanilla interpreted frame the we simply drop into the | |
1696 // interpreter and let it do the lookup. | |
1697 | |
1698 Interpreter::_rethrow_exception_entry = __ pc(); | |
1699 | |
1700 Label return_with_exception; | |
1701 Label unwind_and_forward; | |
1702 | |
1703 // O0: exception | |
1704 // O7: throwing pc | |
1705 | |
1706 // We want exception in the thread no matter what we ultimately decide about frame type. | |
1707 | |
1708 Address exception_addr (G2_thread, 0, in_bytes(Thread::pending_exception_offset())); | |
1709 __ verify_thread(); | |
1710 __ st_ptr(O0, exception_addr); | |
1711 | |
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1712 // get the Method* |
0 | 1713 __ ld_ptr(STATE(_method), G5_method); |
1714 | |
1715 // if this current frame vanilla or native? | |
1716 | |
1717 __ ld(access_flags, Gtmp1); | |
1718 __ btst(JVM_ACC_NATIVE, Gtmp1); | |
1719 __ br(Assembler::zero, false, Assembler::pt, return_with_exception); // vanilla interpreted frame handle directly | |
1720 __ delayed()->nop(); | |
1721 | |
1722 // We drop thru to unwind a native interpreted frame with a pending exception | |
1723 // We jump here for the initial interpreter frame with exception pending | |
1724 // We unwind the current acivation and forward it to our caller. | |
1725 | |
1726 __ bind(unwind_and_forward); | |
1727 | |
1728 // Unwind frame and jump to forward exception. unwinding will place throwing pc in O7 | |
1729 // as expected by forward_exception. | |
1730 | |
1731 __ restore(FP, G0, SP); // unwind interpreter state frame | |
1732 __ br(Assembler::always, false, Assembler::pt, StubRoutines::forward_exception_entry(), relocInfo::runtime_call_type); | |
1733 __ delayed()->mov(I5_savedSP->after_restore(), SP); | |
1734 | |
1735 // Return point from a call which returns a result in the native abi | |
1736 // (c1/c2/jni-native). This result must be processed onto the java | |
1737 // expression stack. | |
1738 // | |
1739 // A pending exception may be present in which case there is no result present | |
1740 | |
1741 address return_from_native_method = __ pc(); | |
1742 | |
1743 VALIDATE_STATE(G3_scratch, 6); | |
1744 | |
1745 // Result if any is in native abi result (O0..O1/F0..F1). The java expression | |
1746 // stack is in the state that the calling convention left it. | |
1747 // Copy the result from native abi result and place it on java expression stack. | |
1748 | |
1749 // Current interpreter state is present in Lstate | |
1750 | |
1751 // Exception pending? | |
1752 | |
1753 __ ld_ptr(STATE(_frame_bottom), SP); // restore to full stack frame | |
1754 __ ld_ptr(exception_addr, Lscratch); // get any pending exception | |
1755 __ tst(Lscratch); // exception pending? | |
1756 __ brx(Assembler::notZero, false, Assembler::pt, return_with_exception); | |
1757 __ delayed()->nop(); | |
1758 | |
1759 // Process the native abi result to java expression stack | |
1760 | |
1761 __ ld_ptr(STATE(_result._to_call._callee), L4_scratch); // called method | |
1762 __ ld_ptr(STATE(_stack), L1_scratch); // get top of java expr stack | |
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1763 // get parameter size |
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1764 __ ld_ptr(L4_scratch, in_bytes(Method::const_offset()), L2_scratch); |
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1765 __ lduh(L2_scratch, in_bytes(ConstMethod::size_of_parameters_offset()), L2_scratch); |
0 | 1766 __ sll(L2_scratch, LogBytesPerWord, L2_scratch ); // parameter size in bytes |
1767 __ add(L1_scratch, L2_scratch, L1_scratch); // stack destination for result | |
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1768 __ ld(L4_scratch, in_bytes(Method::result_index_offset()), L3_scratch); // called method result type index |
0 | 1769 |
1770 // tosca is really just native abi | |
1771 __ set((intptr_t)CppInterpreter::_tosca_to_stack, L4_scratch); | |
1772 __ sll(L3_scratch, LogBytesPerWord, L3_scratch); | |
1773 __ ld_ptr(L4_scratch, L3_scratch, Lscratch); // get typed result converter address | |
1774 __ jmpl(Lscratch, G0, O7); // and convert it | |
1775 __ delayed()->nop(); | |
1776 | |
1777 // L1_scratch points to top of stack (prepushed) | |
1778 | |
3839 | 1779 __ ba(resume_interpreter); |
0 | 1780 __ delayed()->mov(L1_scratch, O1); |
1781 | |
1782 // An exception is being caught on return to a vanilla interpreter frame. | |
1783 // Empty the stack and resume interpreter | |
1784 | |
1785 __ bind(return_with_exception); | |
1786 | |
1787 __ ld_ptr(STATE(_frame_bottom), SP); // restore to full stack frame | |
1788 __ ld_ptr(STATE(_stack_base), O1); // empty java expression stack | |
3839 | 1789 __ ba(resume_interpreter); |
0 | 1790 __ delayed()->sub(O1, wordSize, O1); // account for prepush |
1791 | |
1792 // Return from interpreted method we return result appropriate to the caller (i.e. "recursive" | |
1793 // interpreter call, or native) and unwind this interpreter activation. | |
1794 // All monitors should be unlocked. | |
1795 | |
1796 __ bind(return_from_interpreted_method); | |
1797 | |
1798 VALIDATE_STATE(G3_scratch, 7); | |
1799 | |
1800 Label return_to_initial_caller; | |
1801 | |
1802 // Interpreted result is on the top of the completed activation expression stack. | |
1803 // We must return it to the top of the callers stack if caller was interpreted | |
1804 // otherwise we convert to native abi result and return to call_stub/c1/c2 | |
1805 // The caller's expression stack was truncated by the call however the current activation | |
1806 // has enough stuff on the stack that we have usable space there no matter what. The | |
1807 // other thing that makes it easy is that the top of the caller's stack is stored in STATE(_locals) | |
1808 // for the current activation | |
1809 | |
1810 __ ld_ptr(STATE(_prev_link), L1_scratch); | |
1811 __ ld_ptr(STATE(_method), L2_scratch); // get method just executed | |
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1812 __ ld(L2_scratch, in_bytes(Method::result_index_offset()), L2_scratch); |
0 | 1813 __ tst(L1_scratch); |
1814 __ brx(Assembler::zero, false, Assembler::pt, return_to_initial_caller); | |
1815 __ delayed()->sll(L2_scratch, LogBytesPerWord, L2_scratch); | |
1816 | |
1817 // Copy result to callers java stack | |
1818 | |
1819 __ set((intptr_t)CppInterpreter::_stack_to_stack, L4_scratch); | |
1820 __ ld_ptr(L4_scratch, L2_scratch, Lscratch); // get typed result converter address | |
1821 __ ld_ptr(STATE(_stack), O0); // current top (prepushed) | |
1822 __ ld_ptr(STATE(_locals), O1); // stack destination | |
1823 | |
1824 // O0 - will be source, O1 - will be destination (preserved) | |
1825 __ jmpl(Lscratch, G0, O7); // and convert it | |
1826 __ delayed()->add(O0, wordSize, O0); // get source (top of current expr stack) | |
1827 | |
1828 // O1 == &locals[0] | |
1829 | |
1830 // Result is now on caller's stack. Just unwind current activation and resume | |
1831 | |
1832 Label unwind_recursive_activation; | |
1833 | |
1834 | |
1835 __ bind(unwind_recursive_activation); | |
1836 | |
1837 // O1 == &locals[0] (really callers stacktop) for activation now returning | |
1838 // returning to interpreter method from "recursive" interpreter call | |
1839 // result converter left O1 pointing to top of the( prepushed) java stack for method we are returning | |
1840 // to. Now all we must do is unwind the state from the completed call | |
1841 | |
1842 // Must restore stack | |
1843 VALIDATE_STATE(G3_scratch, 8); | |
1844 | |
1845 // Return to interpreter method after a method call (interpreted/native/c1/c2) has completed. | |
1846 // Result if any is already on the caller's stack. All we must do now is remove the now dead | |
1847 // frame and tell interpreter to resume. | |
1848 | |
1849 | |
1850 __ mov(O1, I1); // pass back new stack top across activation | |
1851 // POP FRAME HERE ================================== | |
1852 __ restore(FP, G0, SP); // unwind interpreter state frame | |
1853 __ ld_ptr(STATE(_frame_bottom), SP); // restore to full stack frame | |
1854 | |
1855 | |
1856 // Resume the interpreter. The current frame contains the current interpreter | |
1857 // state object. | |
1858 // | |
1859 // O1 == new java stack pointer | |
1860 | |
1861 __ bind(resume_interpreter); | |
1862 VALIDATE_STATE(G3_scratch, 10); | |
1863 | |
1864 // A frame we have already used before so no need to bang stack so use call_interpreter_2 entry | |
1865 | |
1866 __ set((int)BytecodeInterpreter::method_resume, L1_scratch); | |
1867 __ st(L1_scratch, STATE(_msg)); | |
3839 | 1868 __ ba(call_interpreter_2); |
0 | 1869 __ delayed()->st_ptr(O1, STATE(_stack)); |
1870 | |
1871 | |
1872 // Fast accessor methods share this entry point. | |
1873 // This works because frame manager is in the same codelet | |
1874 // This can either be an entry via call_stub/c1/c2 or a recursive interpreter call | |
1875 // we need to do a little register fixup here once we distinguish the two of them | |
1876 if (UseFastAccessorMethods && !synchronized) { | |
1877 // Call stub_return address still in O7 | |
1878 __ bind(fast_accessor_slow_entry_path); | |
1879 __ set((intptr_t)return_from_native_method - 8, Gtmp1); | |
1880 __ cmp(Gtmp1, O7); // returning to interpreter? | |
1881 __ brx(Assembler::equal, true, Assembler::pt, re_dispatch); // yep | |
1882 __ delayed()->nop(); | |
3839 | 1883 __ ba(re_dispatch); |
1884 __ delayed()->mov(G0, prevState); // initial entry | |
0 | 1885 |
1886 } | |
1887 | |
1888 // interpreter returning to native code (call_stub/c1/c2) | |
1889 // convert result and unwind initial activation | |
1890 // L2_scratch - scaled result type index | |
1891 | |
1892 __ bind(return_to_initial_caller); | |
1893 | |
1894 __ set((intptr_t)CppInterpreter::_stack_to_native_abi, L4_scratch); | |
1895 __ ld_ptr(L4_scratch, L2_scratch, Lscratch); // get typed result converter address | |
1896 __ ld_ptr(STATE(_stack), O0); // current top (prepushed) | |
1897 __ jmpl(Lscratch, G0, O7); // and convert it | |
1898 __ delayed()->add(O0, wordSize, O0); // get source (top of current expr stack) | |
1899 | |
1900 Label unwind_initial_activation; | |
1901 __ bind(unwind_initial_activation); | |
1902 | |
1903 // RETURN TO CALL_STUB/C1/C2 code (result if any in I0..I1/(F0/..F1) | |
1904 // we can return here with an exception that wasn't handled by interpreted code | |
1905 // how does c1/c2 see it on return? | |
1906 | |
1907 // compute resulting sp before/after args popped depending upon calling convention | |
1908 // __ ld_ptr(STATE(_saved_sp), Gtmp1); | |
1909 // | |
1910 // POP FRAME HERE ================================== | |
1911 __ restore(FP, G0, SP); | |
1912 __ retl(); | |
1913 __ delayed()->mov(I5_savedSP->after_restore(), SP); | |
1914 | |
1915 // OSR request, unwind the current frame and transfer to the OSR entry | |
1916 // and enter OSR nmethod | |
1917 | |
1918 __ bind(do_OSR); | |
1919 Label remove_initial_frame; | |
1920 __ ld_ptr(STATE(_prev_link), L1_scratch); | |
1921 __ ld_ptr(STATE(_result._osr._osr_buf), G1_scratch); | |
1922 | |
1923 // We are going to pop this frame. Is there another interpreter frame underneath | |
1924 // it or is it callstub/compiled? | |
1925 | |
1926 __ tst(L1_scratch); | |
1927 __ brx(Assembler::zero, false, Assembler::pt, remove_initial_frame); | |
1928 __ delayed()->ld_ptr(STATE(_result._osr._osr_entry), G3_scratch); | |
1929 | |
1930 // Frame underneath is an interpreter frame simply unwind | |
1931 // POP FRAME HERE ================================== | |
1932 __ restore(FP, G0, SP); // unwind interpreter state frame | |
1933 __ mov(I5_savedSP->after_restore(), SP); | |
1934 | |
1935 // Since we are now calling native need to change our "return address" from the | |
1936 // dummy RecursiveInterpreterActivation to a return from native | |
1937 | |
1938 __ set((intptr_t)return_from_native_method - 8, O7); | |
1939 | |
1940 __ jmpl(G3_scratch, G0, G0); | |
1941 __ delayed()->mov(G1_scratch, O0); | |
1942 | |
1943 __ bind(remove_initial_frame); | |
1944 | |
1945 // POP FRAME HERE ================================== | |
1946 __ restore(FP, G0, SP); | |
1947 __ mov(I5_savedSP->after_restore(), SP); | |
1948 __ jmpl(G3_scratch, G0, G0); | |
1949 __ delayed()->mov(G1_scratch, O0); | |
1950 | |
1951 // Call a new method. All we do is (temporarily) trim the expression stack | |
1952 // push a return address to bring us back to here and leap to the new entry. | |
1953 // At this point we have a topmost frame that was allocated by the frame manager | |
1954 // which contains the current method interpreted state. We trim this frame | |
1955 // of excess java expression stack entries and then recurse. | |
1956 | |
1957 __ bind(call_method); | |
1958 | |
1959 // stack points to next free location and not top element on expression stack | |
1960 // method expects sp to be pointing to topmost element | |
1961 | |
1962 __ ld_ptr(STATE(_thread), G2_thread); | |
1963 __ ld_ptr(STATE(_result._to_call._callee), G5_method); | |
1964 | |
1965 | |
1966 // SP already takes in to account the 2 extra words we use for slop | |
1967 // when we call a "static long no_params()" method. So if | |
1968 // we trim back sp by the amount of unused java expression stack | |
1969 // there will be automagically the 2 extra words we need. | |
1970 // We also have to worry about keeping SP aligned. | |
1971 | |
1972 __ ld_ptr(STATE(_stack), Gargs); | |
1973 __ ld_ptr(STATE(_stack_limit), L1_scratch); | |
1974 | |
1975 // compute the unused java stack size | |
1976 __ sub(Gargs, L1_scratch, L2_scratch); // compute unused space | |
1977 | |
123 | 1978 // Round down the unused space to that stack is always 16-byte aligned |
1979 // by making the unused space a multiple of the size of two longs. | |
0 | 1980 |
123 | 1981 __ and3(L2_scratch, -2*BytesPerLong, L2_scratch); |
0 | 1982 |
1983 // Now trim the stack | |
1984 __ add(SP, L2_scratch, SP); | |
1985 | |
1986 | |
1987 // Now point to the final argument (account for prepush) | |
1988 __ add(Gargs, wordSize, Gargs); | |
1989 #ifdef ASSERT | |
1990 // Make sure we have space for the window | |
1991 __ sub(Gargs, SP, L1_scratch); | |
1992 __ cmp(L1_scratch, 16*wordSize); | |
1993 { | |
1994 Label skip; | |
1995 __ brx(Assembler::greaterEqual, false, Assembler::pt, skip); | |
1996 __ delayed()->nop(); | |
1997 __ stop("killed stack"); | |
1998 __ bind(skip); | |
1999 } | |
2000 #endif // ASSERT | |
2001 | |
2002 // Create a new frame where we can store values that make it look like the interpreter | |
2003 // really recursed. | |
2004 | |
2005 // prepare to recurse or call specialized entry | |
2006 | |
2007 // First link the registers we need | |
2008 | |
2009 // make the pc look good in debugger | |
2010 __ set(CAST_FROM_FN_PTR(intptr_t, RecursiveInterpreterActivation), O7); | |
2011 // argument too | |
2012 __ mov(Lstate, I0); | |
2013 | |
2014 // Record our sending SP | |
2015 __ mov(SP, O5_savedSP); | |
2016 | |
2017 __ ld_ptr(STATE(_result._to_call._callee_entry_point), L2_scratch); | |
2018 __ set((intptr_t) entry_point, L1_scratch); | |
2019 __ cmp(L1_scratch, L2_scratch); | |
2020 __ brx(Assembler::equal, false, Assembler::pt, re_dispatch); | |
2021 __ delayed()->mov(Lstate, prevState); // link activations | |
2022 | |
2023 // method uses specialized entry, push a return so we look like call stub setup | |
2024 // this path will handle fact that result is returned in registers and not | |
2025 // on the java stack. | |
2026 | |
2027 __ set((intptr_t)return_from_native_method - 8, O7); | |
2028 __ jmpl(L2_scratch, G0, G0); // Do specialized entry | |
2029 __ delayed()->nop(); | |
2030 | |
2031 // | |
2032 // Bad Message from interpreter | |
2033 // | |
2034 __ bind(bad_msg); | |
2035 __ stop("Bad message from interpreter"); | |
2036 | |
2037 // Interpreted method "returned" with an exception pass it on... | |
2038 // Pass result, unwind activation and continue/return to interpreter/call_stub | |
2039 // We handle result (if any) differently based on return to interpreter or call_stub | |
2040 | |
2041 __ bind(throw_exception); | |
2042 __ ld_ptr(STATE(_prev_link), L1_scratch); | |
2043 __ tst(L1_scratch); | |
2044 __ brx(Assembler::zero, false, Assembler::pt, unwind_and_forward); | |
2045 __ delayed()->nop(); | |
2046 | |
3839 | 2047 __ ld_ptr(STATE(_locals), O1); // get result of popping callee's args |
2048 __ ba(unwind_recursive_activation); | |
0 | 2049 __ delayed()->nop(); |
2050 | |
2051 interpreter_frame_manager = entry_point; | |
2052 return entry_point; | |
2053 } | |
2054 | |
2055 InterpreterGenerator::InterpreterGenerator(StubQueue* code) | |
2056 : CppInterpreterGenerator(code) { | |
2057 generate_all(); // down here so it can be "virtual" | |
2058 } | |
2059 | |
2060 | |
2061 static int size_activation_helper(int callee_extra_locals, int max_stack, int monitor_size) { | |
2062 | |
2063 // Figure out the size of an interpreter frame (in words) given that we have a fully allocated | |
2064 // expression stack, the callee will have callee_extra_locals (so we can account for | |
2065 // frame extension) and monitor_size for monitors. Basically we need to calculate | |
2066 // this exactly like generate_fixed_frame/generate_compute_interpreter_state. | |
2067 // | |
2068 // | |
2069 // The big complicating thing here is that we must ensure that the stack stays properly | |
2070 // aligned. This would be even uglier if monitor size wasn't modulo what the stack | |
2071 // needs to be aligned for). We are given that the sp (fp) is already aligned by | |
2072 // the caller so we must ensure that it is properly aligned for our callee. | |
2073 // | |
2074 // Ths c++ interpreter always makes sure that we have a enough extra space on the | |
2075 // stack at all times to deal with the "stack long no_params()" method issue. This | |
2076 // is "slop_factor" here. | |
2077 const int slop_factor = 2; | |
2078 | |
2079 const int fixed_size = sizeof(BytecodeInterpreter)/wordSize + // interpreter state object | |
2080 frame::memory_parameter_word_sp_offset; // register save area + param window | |
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2081 const int extra_stack = 0; //6815692//Method::extra_stack_entries(); |
0 | 2082 return (round_to(max_stack + |
710 | 2083 extra_stack + |
0 | 2084 slop_factor + |
2085 fixed_size + | |
2086 monitor_size + | |
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2087 (callee_extra_locals * Interpreter::stackElementWords), WordsPerLong)); |
0 | 2088 |
2089 } | |
2090 | |
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2091 int AbstractInterpreter::size_top_interpreter_activation(Method* method) { |
0 | 2092 |
2093 // See call_stub code | |
2094 int call_stub_size = round_to(7 + frame::memory_parameter_word_sp_offset, | |
2095 WordsPerLong); // 7 + register save area | |
2096 | |
2097 // Save space for one monitor to get into the interpreted method in case | |
2098 // the method is synchronized | |
2099 int monitor_size = method->is_synchronized() ? | |
2100 1*frame::interpreter_frame_monitor_size() : 0; | |
2101 return size_activation_helper(method->max_locals(), method->max_stack(), | |
2102 monitor_size) + call_stub_size; | |
2103 } | |
2104 | |
2105 void BytecodeInterpreter::layout_interpreterState(interpreterState to_fill, | |
2106 frame* caller, | |
2107 frame* current, | |
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2108 Method* method, |
0 | 2109 intptr_t* locals, |
2110 intptr_t* stack, | |
2111 intptr_t* stack_base, | |
2112 intptr_t* monitor_base, | |
2113 intptr_t* frame_bottom, | |
2114 bool is_top_frame | |
2115 ) | |
2116 { | |
2117 // What about any vtable? | |
2118 // | |
2119 to_fill->_thread = JavaThread::current(); | |
2120 // This gets filled in later but make it something recognizable for now | |
2121 to_fill->_bcp = method->code_base(); | |
2122 to_fill->_locals = locals; | |
2123 to_fill->_constants = method->constants()->cache(); | |
2124 to_fill->_method = method; | |
2125 to_fill->_mdx = NULL; | |
2126 to_fill->_stack = stack; | |
2127 if (is_top_frame && JavaThread::current()->popframe_forcing_deopt_reexecution() ) { | |
2128 to_fill->_msg = deopt_resume2; | |
2129 } else { | |
2130 to_fill->_msg = method_resume; | |
2131 } | |
2132 to_fill->_result._to_call._bcp_advance = 0; | |
2133 to_fill->_result._to_call._callee_entry_point = NULL; // doesn't matter to anyone | |
2134 to_fill->_result._to_call._callee = NULL; // doesn't matter to anyone | |
2135 to_fill->_prev_link = NULL; | |
2136 | |
2137 // Fill in the registers for the frame | |
2138 | |
2139 // Need to install _sender_sp. Actually not too hard in C++! | |
2140 // When the skeletal frames are layed out we fill in a value | |
2141 // for _sender_sp. That value is only correct for the oldest | |
2142 // skeletal frame constructed (because there is only a single | |
2143 // entry for "caller_adjustment". While the skeletal frames | |
2144 // exist that is good enough. We correct that calculation | |
2145 // here and get all the frames correct. | |
2146 | |
2147 // to_fill->_sender_sp = locals - (method->size_of_parameters() - 1); | |
2148 | |
2149 *current->register_addr(Lstate) = (intptr_t) to_fill; | |
2150 // skeletal already places a useful value here and this doesn't account | |
2151 // for alignment so don't bother. | |
2152 // *current->register_addr(I5_savedSP) = (intptr_t) locals - (method->size_of_parameters() - 1); | |
2153 | |
2154 if (caller->is_interpreted_frame()) { | |
2155 interpreterState prev = caller->get_interpreterState(); | |
2156 to_fill->_prev_link = prev; | |
2157 // Make the prev callee look proper | |
2158 prev->_result._to_call._callee = method; | |
2159 if (*prev->_bcp == Bytecodes::_invokeinterface) { | |
2160 prev->_result._to_call._bcp_advance = 5; | |
2161 } else { | |
2162 prev->_result._to_call._bcp_advance = 3; | |
2163 } | |
2164 } | |
2165 to_fill->_oop_temp = NULL; | |
2166 to_fill->_stack_base = stack_base; | |
2167 // Need +1 here because stack_base points to the word just above the first expr stack entry | |
2168 // and stack_limit is supposed to point to the word just below the last expr stack entry. | |
2169 // See generate_compute_interpreter_state. | |
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2170 int extra_stack = 0; //6815692//Method::extra_stack_entries(); |
710 | 2171 to_fill->_stack_limit = stack_base - (method->max_stack() + 1 + extra_stack); |
0 | 2172 to_fill->_monitor_base = (BasicObjectLock*) monitor_base; |
2173 | |
2174 // sparc specific | |
2175 to_fill->_frame_bottom = frame_bottom; | |
2176 to_fill->_self_link = to_fill; | |
2177 #ifdef ASSERT | |
2178 to_fill->_native_fresult = 123456.789; | |
2179 to_fill->_native_lresult = CONST64(0xdeadcafedeafcafe); | |
2180 #endif | |
2181 } | |
2182 | |
2183 void BytecodeInterpreter::pd_layout_interpreterState(interpreterState istate, address last_Java_pc, intptr_t* last_Java_fp) { | |
2184 istate->_last_Java_pc = (intptr_t*) last_Java_pc; | |
2185 } | |
2186 | |
2187 | |
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2188 int AbstractInterpreter::layout_activation(Method* method, |
0 | 2189 int tempcount, // Number of slots on java expression stack in use |
2190 int popframe_extra_args, | |
2191 int moncount, // Number of active monitors | |
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2192 int caller_actual_parameters, |
0 | 2193 int callee_param_size, |
2194 int callee_locals_size, | |
2195 frame* caller, | |
2196 frame* interpreter_frame, | |
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2197 bool is_top_frame, |
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2198 bool is_bottom_frame) { |
0 | 2199 |
2200 assert(popframe_extra_args == 0, "NEED TO FIX"); | |
2201 // NOTE this code must exactly mimic what InterpreterGenerator::generate_compute_interpreter_state() | |
2202 // does as far as allocating an interpreter frame. | |
2203 // If interpreter_frame!=NULL, set up the method, locals, and monitors. | |
2204 // The frame interpreter_frame, if not NULL, is guaranteed to be the right size, | |
2205 // as determined by a previous call to this method. | |
2206 // It is also guaranteed to be walkable even though it is in a skeletal state | |
2207 // NOTE: return size is in words not bytes | |
2208 // NOTE: tempcount is the current size of the java expression stack. For top most | |
2209 // frames we will allocate a full sized expression stack and not the curback | |
2210 // version that non-top frames have. | |
2211 | |
2212 // Calculate the amount our frame will be adjust by the callee. For top frame | |
2213 // this is zero. | |
2214 | |
2215 // NOTE: ia64 seems to do this wrong (or at least backwards) in that it | |
2216 // calculates the extra locals based on itself. Not what the callee does | |
2217 // to it. So it ignores last_frame_adjust value. Seems suspicious as far | |
2218 // as getting sender_sp correct. | |
2219 | |
2220 int extra_locals_size = callee_locals_size - callee_param_size; | |
2221 int monitor_size = (sizeof(BasicObjectLock) * moncount) / wordSize; | |
2222 int full_frame_words = size_activation_helper(extra_locals_size, method->max_stack(), monitor_size); | |
2223 int short_frame_words = size_activation_helper(extra_locals_size, method->max_stack(), monitor_size); | |
2224 int frame_words = is_top_frame ? full_frame_words : short_frame_words; | |
2225 | |
2226 | |
2227 /* | |
2228 if we actually have a frame to layout we must now fill in all the pieces. This means both | |
2229 the interpreterState and the registers. | |
2230 */ | |
2231 if (interpreter_frame != NULL) { | |
2232 | |
2233 // MUCHO HACK | |
2234 | |
2235 intptr_t* frame_bottom = interpreter_frame->sp() - (full_frame_words - frame_words); | |
123 | 2236 // 'interpreter_frame->sp()' is unbiased while 'frame_bottom' must be a biased value in 64bit mode. |
2237 assert(((intptr_t)frame_bottom & 0xf) == 0, "SP biased in layout_activation"); | |
2238 frame_bottom = (intptr_t*)((intptr_t)frame_bottom - STACK_BIAS); | |
0 | 2239 |
2240 /* Now fillin the interpreterState object */ | |
2241 | |
2242 interpreterState cur_state = (interpreterState) ((intptr_t)interpreter_frame->fp() - sizeof(BytecodeInterpreter)); | |
2243 | |
2244 | |
2245 intptr_t* locals; | |
2246 | |
2247 // Calculate the postion of locals[0]. This is painful because of | |
2248 // stack alignment (same as ia64). The problem is that we can | |
2249 // not compute the location of locals from fp(). fp() will account | |
2250 // for the extra locals but it also accounts for aligning the stack | |
2251 // and we can't determine if the locals[0] was misaligned but max_locals | |
2252 // was enough to have the | |
2253 // calculate postion of locals. fp already accounts for extra locals. | |
2254 // +2 for the static long no_params() issue. | |
2255 | |
2256 if (caller->is_interpreted_frame()) { | |
2257 // locals must agree with the caller because it will be used to set the | |
2258 // caller's tos when we return. | |
2259 interpreterState prev = caller->get_interpreterState(); | |
2260 // stack() is prepushed. | |
2261 locals = prev->stack() + method->size_of_parameters(); | |
2262 } else { | |
2263 // Lay out locals block in the caller adjacent to the register window save area. | |
2264 // | |
2265 // Compiled frames do not allocate a varargs area which is why this if | |
2266 // statement is needed. | |
2267 // | |
2268 intptr_t* fp = interpreter_frame->fp(); | |
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2269 int local_words = method->max_locals() * Interpreter::stackElementWords; |
0 | 2270 |
2271 if (caller->is_compiled_frame()) { | |
2272 locals = fp + frame::register_save_words + local_words - 1; | |
2273 } else { | |
2274 locals = fp + frame::memory_parameter_word_sp_offset + local_words - 1; | |
2275 } | |
2276 | |
2277 } | |
2278 // END MUCHO HACK | |
2279 | |
2280 intptr_t* monitor_base = (intptr_t*) cur_state; | |
2281 intptr_t* stack_base = monitor_base - monitor_size; | |
2282 /* +1 because stack is always prepushed */ | |
2283 intptr_t* stack = stack_base - (tempcount + 1); | |
2284 | |
2285 | |
2286 BytecodeInterpreter::layout_interpreterState(cur_state, | |
2287 caller, | |
2288 interpreter_frame, | |
2289 method, | |
2290 locals, | |
2291 stack, | |
2292 stack_base, | |
2293 monitor_base, | |
2294 frame_bottom, | |
2295 is_top_frame); | |
2296 | |
2297 BytecodeInterpreter::pd_layout_interpreterState(cur_state, interpreter_return_address, interpreter_frame->fp()); | |
2298 | |
2299 } | |
2300 return frame_words; | |
2301 } | |
2302 | |
2303 #endif // CC_INTERP |