Wed, 03 Jul 2013 11:50:29 -0700
Merge
1 /*
2 * Copyright (c) 2002, 2012, Oracle and/or its affiliates. All rights reserved.
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 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
25 #ifndef SHARE_VM_INTERPRETER_BYTECODEINTERPRETER_HPP
26 #define SHARE_VM_INTERPRETER_BYTECODEINTERPRETER_HPP
28 #include "memory/allocation.hpp"
29 #include "oops/methodData.hpp"
30 #include "oops/method.hpp"
31 #include "runtime/basicLock.hpp"
32 #include "runtime/frame.hpp"
33 #include "runtime/globals.hpp"
34 #include "utilities/globalDefinitions.hpp"
35 #ifdef TARGET_ARCH_x86
36 # include "bytes_x86.hpp"
37 #endif
38 #ifdef TARGET_ARCH_sparc
39 # include "bytes_sparc.hpp"
40 #endif
41 #ifdef TARGET_ARCH_zero
42 # include "bytes_zero.hpp"
43 #endif
44 #ifdef TARGET_ARCH_arm
45 # include "bytes_arm.hpp"
46 #endif
47 #ifdef TARGET_ARCH_ppc
48 # include "bytes_ppc.hpp"
49 #endif
51 #ifdef CC_INTERP
53 // JavaStack Implementation
54 #define MORE_STACK(count) \
55 (topOfStack -= ((count) * Interpreter::stackElementWords))
57 // CVM definitions find hotspot equivalents...
59 union VMJavaVal64 {
60 jlong l;
61 jdouble d;
62 uint32_t v[2];
63 };
66 typedef class BytecodeInterpreter* interpreterState;
68 struct call_message {
69 class Method* _callee; /* method to call during call_method request */
70 address _callee_entry_point; /* address to jump to for call_method request */
71 int _bcp_advance; /* size of the invoke bytecode operation */
72 };
74 struct osr_message {
75 address _osr_buf; /* the osr buffer */
76 address _osr_entry; /* the entry to the osr method */
77 };
79 struct osr_result {
80 nmethod* nm; /* osr nmethod */
81 address return_addr; /* osr blob return address */
82 };
84 // Result returned to frame manager
85 union frame_manager_message {
86 call_message _to_call; /* describes callee */
87 Bytecodes::Code _return_kind; /* i_return, a_return, ... */
88 osr_message _osr; /* describes the osr */
89 osr_result _osr_result; /* result of OSR request */
90 };
92 class BytecodeInterpreter : StackObj {
93 friend class SharedRuntime;
94 friend class AbstractInterpreterGenerator;
95 friend class CppInterpreterGenerator;
96 friend class InterpreterGenerator;
97 friend class InterpreterMacroAssembler;
98 friend class frame;
99 friend class VMStructs;
101 public:
102 enum messages {
103 no_request = 0, // unused
104 initialize, // Perform one time interpreter initializations (assumes all switches set)
105 // status message to C++ interpreter
106 method_entry, // initial method entry to interpreter
107 method_resume, // frame manager response to return_from_method request (assuming a frame to resume)
108 deopt_resume, // returning from a native call into a deopted frame
109 deopt_resume2, // deopt resume as a result of a PopFrame
110 got_monitors, // frame manager response to more_monitors request
111 rethrow_exception, // unwinding and throwing exception
112 // requests to frame manager from C++ interpreter
113 call_method, // request for new frame from interpreter, manager responds with method_entry
114 return_from_method, // request from interpreter to unwind, manager responds with method_continue
115 more_monitors, // need a new monitor
116 throwing_exception, // unwind stack and rethrow
117 popping_frame, // unwind call and retry call
118 do_osr // request this invocation be OSR's
119 };
121 private:
122 JavaThread* _thread; // the vm's java thread pointer
123 address _bcp; // instruction pointer
124 intptr_t* _locals; // local variable pointer
125 ConstantPoolCache* _constants; // constant pool cache
126 Method* _method; // method being executed
127 DataLayout* _mdx; // compiler profiling data for current bytecode
128 intptr_t* _stack; // expression stack
129 messages _msg; // frame manager <-> interpreter message
130 frame_manager_message _result; // result to frame manager
131 interpreterState _prev_link; // previous interpreter state
132 oop _oop_temp; // mirror for interpreted native, null otherwise
133 intptr_t* _stack_base; // base of expression stack
134 intptr_t* _stack_limit; // limit of expression stack
135 BasicObjectLock* _monitor_base; // base of monitors on the native stack
138 public:
139 // Constructor is only used by the initialization step. All other instances are created
140 // by the frame manager.
141 BytecodeInterpreter(messages msg);
143 //
144 // Deoptimization support
145 //
146 static void layout_interpreterState(interpreterState to_fill,
147 frame* caller,
148 frame* interpreter_frame,
149 Method* method,
150 intptr_t* locals,
151 intptr_t* stack,
152 intptr_t* stack_base,
153 intptr_t* monitor_base,
154 intptr_t* frame_bottom,
155 bool top_frame);
157 /*
158 * Generic 32-bit wide "Java slot" definition. This type occurs
159 * in operand stacks, Java locals, object fields, constant pools.
160 */
161 union VMJavaVal32 {
162 jint i;
163 jfloat f;
164 class oopDesc* r;
165 uint32_t raw;
166 };
168 /*
169 * Generic 64-bit Java value definition
170 */
171 union VMJavaVal64 {
172 jlong l;
173 jdouble d;
174 uint32_t v[2];
175 };
177 /*
178 * Generic 32-bit wide "Java slot" definition. This type occurs
179 * in Java locals, object fields, constant pools, and
180 * operand stacks (as a CVMStackVal32).
181 */
182 typedef union VMSlotVal32 {
183 VMJavaVal32 j; /* For "Java" values */
184 address a; /* a return created by jsr or jsr_w */
185 } VMSlotVal32;
188 /*
189 * Generic 32-bit wide stack slot definition.
190 */
191 union VMStackVal32 {
192 VMJavaVal32 j; /* For "Java" values */
193 VMSlotVal32 s; /* any value from a "slot" or locals[] */
194 };
196 inline JavaThread* thread() { return _thread; }
198 inline address bcp() { return _bcp; }
199 inline void set_bcp(address new_bcp) { _bcp = new_bcp; }
201 inline intptr_t* locals() { return _locals; }
203 inline ConstantPoolCache* constants() { return _constants; }
204 inline Method* method() { return _method; }
205 inline DataLayout* mdx() { return _mdx; }
206 inline void set_mdx(DataLayout *new_mdx) { _mdx = new_mdx; }
208 inline messages msg() { return _msg; }
209 inline void set_msg(messages new_msg) { _msg = new_msg; }
211 inline Method* callee() { return _result._to_call._callee; }
212 inline void set_callee(Method* new_callee) { _result._to_call._callee = new_callee; }
213 inline void set_callee_entry_point(address entry) { _result._to_call._callee_entry_point = entry; }
214 inline void set_osr_buf(address buf) { _result._osr._osr_buf = buf; }
215 inline void set_osr_entry(address entry) { _result._osr._osr_entry = entry; }
216 inline int bcp_advance() { return _result._to_call._bcp_advance; }
217 inline void set_bcp_advance(int count) { _result._to_call._bcp_advance = count; }
219 inline void set_return_kind(Bytecodes::Code kind) { _result._return_kind = kind; }
221 inline interpreterState prev() { return _prev_link; }
223 inline intptr_t* stack() { return _stack; }
224 inline void set_stack(intptr_t* new_stack) { _stack = new_stack; }
227 inline intptr_t* stack_base() { return _stack_base; }
228 inline intptr_t* stack_limit() { return _stack_limit; }
230 inline BasicObjectLock* monitor_base() { return _monitor_base; }
232 /*
233 * 64-bit Arithmetic:
234 *
235 * The functions below follow the semantics of the
236 * ladd, land, ldiv, lmul, lor, lxor, and lrem bytecodes,
237 * respectively.
238 */
240 static jlong VMlongAdd(jlong op1, jlong op2);
241 static jlong VMlongAnd(jlong op1, jlong op2);
242 static jlong VMlongDiv(jlong op1, jlong op2);
243 static jlong VMlongMul(jlong op1, jlong op2);
244 static jlong VMlongOr (jlong op1, jlong op2);
245 static jlong VMlongSub(jlong op1, jlong op2);
246 static jlong VMlongXor(jlong op1, jlong op2);
247 static jlong VMlongRem(jlong op1, jlong op2);
249 /*
250 * Shift:
251 *
252 * The functions below follow the semantics of the
253 * lushr, lshl, and lshr bytecodes, respectively.
254 */
256 static jlong VMlongUshr(jlong op1, jint op2);
257 static jlong VMlongShl (jlong op1, jint op2);
258 static jlong VMlongShr (jlong op1, jint op2);
260 /*
261 * Unary:
262 *
263 * Return the negation of "op" (-op), according to
264 * the semantics of the lneg bytecode.
265 */
267 static jlong VMlongNeg(jlong op);
269 /*
270 * Return the complement of "op" (~op)
271 */
273 static jlong VMlongNot(jlong op);
276 /*
277 * Comparisons to 0:
278 */
280 static int32_t VMlongLtz(jlong op); /* op <= 0 */
281 static int32_t VMlongGez(jlong op); /* op >= 0 */
282 static int32_t VMlongEqz(jlong op); /* op == 0 */
284 /*
285 * Between operands:
286 */
288 static int32_t VMlongEq(jlong op1, jlong op2); /* op1 == op2 */
289 static int32_t VMlongNe(jlong op1, jlong op2); /* op1 != op2 */
290 static int32_t VMlongGe(jlong op1, jlong op2); /* op1 >= op2 */
291 static int32_t VMlongLe(jlong op1, jlong op2); /* op1 <= op2 */
292 static int32_t VMlongLt(jlong op1, jlong op2); /* op1 < op2 */
293 static int32_t VMlongGt(jlong op1, jlong op2); /* op1 > op2 */
295 /*
296 * Comparisons (returning an jint value: 0, 1, or -1)
297 *
298 * Between operands:
299 *
300 * Compare "op1" and "op2" according to the semantics of the
301 * "lcmp" bytecode.
302 */
304 static int32_t VMlongCompare(jlong op1, jlong op2);
306 /*
307 * Convert int to long, according to "i2l" bytecode semantics
308 */
309 static jlong VMint2Long(jint val);
311 /*
312 * Convert long to int, according to "l2i" bytecode semantics
313 */
314 static jint VMlong2Int(jlong val);
316 /*
317 * Convert long to float, according to "l2f" bytecode semantics
318 */
319 static jfloat VMlong2Float(jlong val);
321 /*
322 * Convert long to double, according to "l2d" bytecode semantics
323 */
324 static jdouble VMlong2Double(jlong val);
326 /*
327 * Java floating-point float value manipulation.
328 *
329 * The result argument is, once again, an lvalue.
330 *
331 * Arithmetic:
332 *
333 * The functions below follow the semantics of the
334 * fadd, fsub, fmul, fdiv, and frem bytecodes,
335 * respectively.
336 */
338 static jfloat VMfloatAdd(jfloat op1, jfloat op2);
339 static jfloat VMfloatSub(jfloat op1, jfloat op2);
340 static jfloat VMfloatMul(jfloat op1, jfloat op2);
341 static jfloat VMfloatDiv(jfloat op1, jfloat op2);
342 static jfloat VMfloatRem(jfloat op1, jfloat op2);
344 /*
345 * Unary:
346 *
347 * Return the negation of "op" (-op), according to
348 * the semantics of the fneg bytecode.
349 */
351 static jfloat VMfloatNeg(jfloat op);
353 /*
354 * Comparisons (returning an int value: 0, 1, or -1)
355 *
356 * Between operands:
357 *
358 * Compare "op1" and "op2" according to the semantics of the
359 * "fcmpl" (direction is -1) or "fcmpg" (direction is 1) bytecodes.
360 */
362 static int32_t VMfloatCompare(jfloat op1, jfloat op2,
363 int32_t direction);
364 /*
365 * Conversion:
366 */
368 /*
369 * Convert float to double, according to "f2d" bytecode semantics
370 */
372 static jdouble VMfloat2Double(jfloat op);
374 /*
375 ******************************************
376 * Java double floating-point manipulation.
377 ******************************************
378 *
379 * The result argument is, once again, an lvalue.
380 *
381 * Conversions:
382 */
384 /*
385 * Convert double to int, according to "d2i" bytecode semantics
386 */
388 static jint VMdouble2Int(jdouble val);
390 /*
391 * Convert double to float, according to "d2f" bytecode semantics
392 */
394 static jfloat VMdouble2Float(jdouble val);
396 /*
397 * Convert int to double, according to "i2d" bytecode semantics
398 */
400 static jdouble VMint2Double(jint val);
402 /*
403 * Arithmetic:
404 *
405 * The functions below follow the semantics of the
406 * dadd, dsub, ddiv, dmul, and drem bytecodes, respectively.
407 */
409 static jdouble VMdoubleAdd(jdouble op1, jdouble op2);
410 static jdouble VMdoubleSub(jdouble op1, jdouble op2);
411 static jdouble VMdoubleDiv(jdouble op1, jdouble op2);
412 static jdouble VMdoubleMul(jdouble op1, jdouble op2);
413 static jdouble VMdoubleRem(jdouble op1, jdouble op2);
415 /*
416 * Unary:
417 *
418 * Return the negation of "op" (-op), according to
419 * the semantics of the dneg bytecode.
420 */
422 static jdouble VMdoubleNeg(jdouble op);
424 /*
425 * Comparisons (returning an int32_t value: 0, 1, or -1)
426 *
427 * Between operands:
428 *
429 * Compare "op1" and "op2" according to the semantics of the
430 * "dcmpl" (direction is -1) or "dcmpg" (direction is 1) bytecodes.
431 */
433 static int32_t VMdoubleCompare(jdouble op1, jdouble op2, int32_t direction);
435 /*
436 * Copy two typeless 32-bit words from one location to another.
437 * This is semantically equivalent to:
438 *
439 * to[0] = from[0];
440 * to[1] = from[1];
441 *
442 * but this interface is provided for those platforms that could
443 * optimize this into a single 64-bit transfer.
444 */
446 static void VMmemCopy64(uint32_t to[2], const uint32_t from[2]);
449 // Arithmetic operations
451 /*
452 * Java arithmetic methods.
453 * The functions below follow the semantics of the
454 * iadd, isub, imul, idiv, irem, iand, ior, ixor,
455 * and ineg bytecodes, respectively.
456 */
458 static jint VMintAdd(jint op1, jint op2);
459 static jint VMintSub(jint op1, jint op2);
460 static jint VMintMul(jint op1, jint op2);
461 static jint VMintDiv(jint op1, jint op2);
462 static jint VMintRem(jint op1, jint op2);
463 static jint VMintAnd(jint op1, jint op2);
464 static jint VMintOr (jint op1, jint op2);
465 static jint VMintXor(jint op1, jint op2);
467 /*
468 * Shift Operation:
469 * The functions below follow the semantics of the
470 * iushr, ishl, and ishr bytecodes, respectively.
471 */
473 static juint VMintUshr(jint op, jint num);
474 static jint VMintShl (jint op, jint num);
475 static jint VMintShr (jint op, jint num);
477 /*
478 * Unary Operation:
479 *
480 * Return the negation of "op" (-op), according to
481 * the semantics of the ineg bytecode.
482 */
484 static jint VMintNeg(jint op);
486 /*
487 * Int Conversions:
488 */
490 /*
491 * Convert int to float, according to "i2f" bytecode semantics
492 */
494 static jfloat VMint2Float(jint val);
496 /*
497 * Convert int to byte, according to "i2b" bytecode semantics
498 */
500 static jbyte VMint2Byte(jint val);
502 /*
503 * Convert int to char, according to "i2c" bytecode semantics
504 */
506 static jchar VMint2Char(jint val);
508 /*
509 * Convert int to short, according to "i2s" bytecode semantics
510 */
512 static jshort VMint2Short(jint val);
514 /*=========================================================================
515 * Bytecode interpreter operations
516 *=======================================================================*/
518 static void dup(intptr_t *tos);
519 static void dup2(intptr_t *tos);
520 static void dup_x1(intptr_t *tos); /* insert top word two down */
521 static void dup_x2(intptr_t *tos); /* insert top word three down */
522 static void dup2_x1(intptr_t *tos); /* insert top 2 slots three down */
523 static void dup2_x2(intptr_t *tos); /* insert top 2 slots four down */
524 static void swap(intptr_t *tos); /* swap top two elements */
526 // umm don't like this method modifies its object
528 // The Interpreter used when
529 static void run(interpreterState istate);
530 // The interpreter used if JVMTI needs interpreter events
531 static void runWithChecks(interpreterState istate);
532 static void End_Of_Interpreter(void);
534 // Inline static functions for Java Stack and Local manipulation
536 static address stack_slot(intptr_t *tos, int offset);
537 static jint stack_int(intptr_t *tos, int offset);
538 static jfloat stack_float(intptr_t *tos, int offset);
539 static oop stack_object(intptr_t *tos, int offset);
540 static jdouble stack_double(intptr_t *tos, int offset);
541 static jlong stack_long(intptr_t *tos, int offset);
543 // only used for value types
544 static void set_stack_slot(intptr_t *tos, address value, int offset);
545 static void set_stack_int(intptr_t *tos, int value, int offset);
546 static void set_stack_float(intptr_t *tos, jfloat value, int offset);
547 static void set_stack_object(intptr_t *tos, oop value, int offset);
549 // needs to be platform dep for the 32 bit platforms.
550 static void set_stack_double(intptr_t *tos, jdouble value, int offset);
551 static void set_stack_long(intptr_t *tos, jlong value, int offset);
553 static void set_stack_double_from_addr(intptr_t *tos, address addr, int offset);
554 static void set_stack_long_from_addr(intptr_t *tos, address addr, int offset);
556 // Locals
558 static address locals_slot(intptr_t* locals, int offset);
559 static jint locals_int(intptr_t* locals, int offset);
560 static jfloat locals_float(intptr_t* locals, int offset);
561 static oop locals_object(intptr_t* locals, int offset);
562 static jdouble locals_double(intptr_t* locals, int offset);
563 static jlong locals_long(intptr_t* locals, int offset);
565 static address locals_long_at(intptr_t* locals, int offset);
566 static address locals_double_at(intptr_t* locals, int offset);
568 static void set_locals_slot(intptr_t *locals, address value, int offset);
569 static void set_locals_int(intptr_t *locals, jint value, int offset);
570 static void set_locals_float(intptr_t *locals, jfloat value, int offset);
571 static void set_locals_object(intptr_t *locals, oop value, int offset);
572 static void set_locals_double(intptr_t *locals, jdouble value, int offset);
573 static void set_locals_long(intptr_t *locals, jlong value, int offset);
574 static void set_locals_double_from_addr(intptr_t *locals,
575 address addr, int offset);
576 static void set_locals_long_from_addr(intptr_t *locals,
577 address addr, int offset);
579 static void astore(intptr_t* topOfStack, int stack_offset,
580 intptr_t* locals, int locals_offset);
582 // Support for dup and swap
583 static void copy_stack_slot(intptr_t *tos, int from_offset, int to_offset);
585 #ifndef PRODUCT
586 static const char* C_msg(BytecodeInterpreter::messages msg);
587 void print();
588 #endif // PRODUCT
590 // Platform fields/methods
591 #ifdef TARGET_ARCH_x86
592 # include "bytecodeInterpreter_x86.hpp"
593 #endif
594 #ifdef TARGET_ARCH_sparc
595 # include "bytecodeInterpreter_sparc.hpp"
596 #endif
597 #ifdef TARGET_ARCH_zero
598 # include "bytecodeInterpreter_zero.hpp"
599 #endif
600 #ifdef TARGET_ARCH_arm
601 # include "bytecodeInterpreter_arm.hpp"
602 #endif
603 #ifdef TARGET_ARCH_ppc
604 # include "bytecodeInterpreter_ppc.hpp"
605 #endif
608 }; // BytecodeInterpreter
610 #endif // CC_INTERP
612 #endif // SHARE_VM_INTERPRETER_BYTECODEINTERPRETER_HPP