author | trims |
Thu, 12 Mar 2009 18:16:36 -0700 | |
changeset 2154 | 72a9b7284ccf |
parent 1076 | a4f1c0615381 |
child 5547 | f4b087cbb361 |
permissions | -rw-r--r-- |
1 | 1 |
/* |
670 | 2 |
* Copyright 1997-2008 Sun Microsystems, Inc. All Rights Reserved. |
1 | 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, |
|
20 |
* CA 95054 USA or visit www.sun.com if you need additional information or |
|
21 |
* have any questions. |
|
22 |
* |
|
23 |
*/ |
|
24 |
||
25 |
// We have interfaces for the following instructions: |
|
26 |
// - NativeInstruction |
|
27 |
// - - NativeCall |
|
28 |
// - - NativeMovConstReg |
|
29 |
// - - NativeMovConstRegPatching |
|
30 |
// - - NativeMovRegMem |
|
31 |
// - - NativeMovRegMemPatching |
|
32 |
// - - NativeJump |
|
33 |
// - - NativeIllegalOpCode |
|
34 |
// - - NativeGeneralJump |
|
35 |
// - - NativeReturn |
|
36 |
// - - NativeReturnX (return with argument) |
|
37 |
// - - NativePushConst |
|
38 |
// - - NativeTstRegMem |
|
39 |
||
40 |
// The base class for different kinds of native instruction abstractions. |
|
41 |
// Provides the primitive operations to manipulate code relative to this. |
|
42 |
||
43 |
class NativeInstruction VALUE_OBJ_CLASS_SPEC { |
|
44 |
friend class Relocation; |
|
45 |
||
46 |
public: |
|
47 |
enum Intel_specific_constants { |
|
48 |
nop_instruction_code = 0x90, |
|
49 |
nop_instruction_size = 1 |
|
50 |
}; |
|
51 |
||
52 |
bool is_nop() { return ubyte_at(0) == nop_instruction_code; } |
|
363
99d43e8a76ad
6537506: Provide a mechanism for specifying Java-level USDT-like dtrace probes
kamg
parents:
1
diff
changeset
|
53 |
bool is_dtrace_trap(); |
1 | 54 |
inline bool is_call(); |
55 |
inline bool is_illegal(); |
|
56 |
inline bool is_return(); |
|
57 |
inline bool is_jump(); |
|
58 |
inline bool is_cond_jump(); |
|
59 |
inline bool is_safepoint_poll(); |
|
60 |
inline bool is_mov_literal64(); |
|
61 |
||
62 |
protected: |
|
63 |
address addr_at(int offset) const { return address(this) + offset; } |
|
64 |
||
65 |
s_char sbyte_at(int offset) const { return *(s_char*) addr_at(offset); } |
|
66 |
u_char ubyte_at(int offset) const { return *(u_char*) addr_at(offset); } |
|
67 |
||
68 |
jint int_at(int offset) const { return *(jint*) addr_at(offset); } |
|
69 |
||
70 |
intptr_t ptr_at(int offset) const { return *(intptr_t*) addr_at(offset); } |
|
71 |
||
72 |
oop oop_at (int offset) const { return *(oop*) addr_at(offset); } |
|
73 |
||
74 |
||
75 |
void set_char_at(int offset, char c) { *addr_at(offset) = (u_char)c; wrote(offset); } |
|
76 |
void set_int_at(int offset, jint i) { *(jint*)addr_at(offset) = i; wrote(offset); } |
|
77 |
void set_ptr_at (int offset, intptr_t ptr) { *(intptr_t*) addr_at(offset) = ptr; wrote(offset); } |
|
78 |
void set_oop_at (int offset, oop o) { *(oop*) addr_at(offset) = o; wrote(offset); } |
|
79 |
||
80 |
// This doesn't really do anything on Intel, but it is the place where |
|
81 |
// cache invalidation belongs, generically: |
|
82 |
void wrote(int offset); |
|
83 |
||
84 |
public: |
|
85 |
||
86 |
// unit test stuff |
|
87 |
static void test() {} // override for testing |
|
88 |
||
89 |
inline friend NativeInstruction* nativeInstruction_at(address address); |
|
90 |
}; |
|
91 |
||
92 |
inline NativeInstruction* nativeInstruction_at(address address) { |
|
93 |
NativeInstruction* inst = (NativeInstruction*)address; |
|
94 |
#ifdef ASSERT |
|
95 |
//inst->verify(); |
|
96 |
#endif |
|
97 |
return inst; |
|
98 |
} |
|
99 |
||
100 |
inline NativeCall* nativeCall_at(address address); |
|
101 |
// The NativeCall is an abstraction for accessing/manipulating native call imm32/rel32off |
|
102 |
// instructions (used to manipulate inline caches, primitive & dll calls, etc.). |
|
103 |
||
104 |
class NativeCall: public NativeInstruction { |
|
105 |
public: |
|
106 |
enum Intel_specific_constants { |
|
107 |
instruction_code = 0xE8, |
|
108 |
instruction_size = 5, |
|
109 |
instruction_offset = 0, |
|
110 |
displacement_offset = 1, |
|
111 |
return_address_offset = 5 |
|
112 |
}; |
|
113 |
||
114 |
enum { cache_line_size = BytesPerWord }; // conservative estimate! |
|
115 |
||
116 |
address instruction_address() const { return addr_at(instruction_offset); } |
|
117 |
address next_instruction_address() const { return addr_at(return_address_offset); } |
|
118 |
int displacement() const { return (jint) int_at(displacement_offset); } |
|
119 |
address displacement_address() const { return addr_at(displacement_offset); } |
|
120 |
address return_address() const { return addr_at(return_address_offset); } |
|
121 |
address destination() const; |
|
122 |
void set_destination(address dest) { |
|
123 |
#ifdef AMD64 |
|
124 |
assert((labs((intptr_t) dest - (intptr_t) return_address()) & |
|
125 |
0xFFFFFFFF00000000) == 0, |
|
126 |
"must be 32bit offset"); |
|
127 |
#endif // AMD64 |
|
128 |
set_int_at(displacement_offset, dest - return_address()); |
|
129 |
} |
|
130 |
void set_destination_mt_safe(address dest); |
|
131 |
||
132 |
void verify_alignment() { assert((intptr_t)addr_at(displacement_offset) % BytesPerInt == 0, "must be aligned"); } |
|
133 |
void verify(); |
|
134 |
void print(); |
|
135 |
||
136 |
// Creation |
|
137 |
inline friend NativeCall* nativeCall_at(address address); |
|
138 |
inline friend NativeCall* nativeCall_before(address return_address); |
|
139 |
||
140 |
static bool is_call_at(address instr) { |
|
141 |
return ((*instr) & 0xFF) == NativeCall::instruction_code; |
|
142 |
} |
|
143 |
||
144 |
static bool is_call_before(address return_address) { |
|
145 |
return is_call_at(return_address - NativeCall::return_address_offset); |
|
146 |
} |
|
147 |
||
148 |
static bool is_call_to(address instr, address target) { |
|
149 |
return nativeInstruction_at(instr)->is_call() && |
|
150 |
nativeCall_at(instr)->destination() == target; |
|
151 |
} |
|
152 |
||
153 |
// MT-safe patching of a call instruction. |
|
154 |
static void insert(address code_pos, address entry); |
|
155 |
||
156 |
static void replace_mt_safe(address instr_addr, address code_buffer); |
|
157 |
}; |
|
158 |
||
159 |
inline NativeCall* nativeCall_at(address address) { |
|
160 |
NativeCall* call = (NativeCall*)(address - NativeCall::instruction_offset); |
|
161 |
#ifdef ASSERT |
|
162 |
call->verify(); |
|
163 |
#endif |
|
164 |
return call; |
|
165 |
} |
|
166 |
||
167 |
inline NativeCall* nativeCall_before(address return_address) { |
|
168 |
NativeCall* call = (NativeCall*)(return_address - NativeCall::return_address_offset); |
|
169 |
#ifdef ASSERT |
|
170 |
call->verify(); |
|
171 |
#endif |
|
172 |
return call; |
|
173 |
} |
|
174 |
||
175 |
// An interface for accessing/manipulating native mov reg, imm32 instructions. |
|
176 |
// (used to manipulate inlined 32bit data dll calls, etc.) |
|
177 |
class NativeMovConstReg: public NativeInstruction { |
|
178 |
#ifdef AMD64 |
|
179 |
static const bool has_rex = true; |
|
180 |
static const int rex_size = 1; |
|
181 |
#else |
|
182 |
static const bool has_rex = false; |
|
183 |
static const int rex_size = 0; |
|
184 |
#endif // AMD64 |
|
185 |
public: |
|
186 |
enum Intel_specific_constants { |
|
187 |
instruction_code = 0xB8, |
|
188 |
instruction_size = 1 + rex_size + wordSize, |
|
189 |
instruction_offset = 0, |
|
190 |
data_offset = 1 + rex_size, |
|
191 |
next_instruction_offset = instruction_size, |
|
192 |
register_mask = 0x07 |
|
193 |
}; |
|
194 |
||
195 |
address instruction_address() const { return addr_at(instruction_offset); } |
|
196 |
address next_instruction_address() const { return addr_at(next_instruction_offset); } |
|
197 |
intptr_t data() const { return ptr_at(data_offset); } |
|
198 |
void set_data(intptr_t x) { set_ptr_at(data_offset, x); } |
|
199 |
||
200 |
void verify(); |
|
201 |
void print(); |
|
202 |
||
203 |
// unit test stuff |
|
204 |
static void test() {} |
|
205 |
||
206 |
// Creation |
|
207 |
inline friend NativeMovConstReg* nativeMovConstReg_at(address address); |
|
208 |
inline friend NativeMovConstReg* nativeMovConstReg_before(address address); |
|
209 |
}; |
|
210 |
||
211 |
inline NativeMovConstReg* nativeMovConstReg_at(address address) { |
|
212 |
NativeMovConstReg* test = (NativeMovConstReg*)(address - NativeMovConstReg::instruction_offset); |
|
213 |
#ifdef ASSERT |
|
214 |
test->verify(); |
|
215 |
#endif |
|
216 |
return test; |
|
217 |
} |
|
218 |
||
219 |
inline NativeMovConstReg* nativeMovConstReg_before(address address) { |
|
220 |
NativeMovConstReg* test = (NativeMovConstReg*)(address - NativeMovConstReg::instruction_size - NativeMovConstReg::instruction_offset); |
|
221 |
#ifdef ASSERT |
|
222 |
test->verify(); |
|
223 |
#endif |
|
224 |
return test; |
|
225 |
} |
|
226 |
||
227 |
class NativeMovConstRegPatching: public NativeMovConstReg { |
|
228 |
private: |
|
229 |
friend NativeMovConstRegPatching* nativeMovConstRegPatching_at(address address) { |
|
230 |
NativeMovConstRegPatching* test = (NativeMovConstRegPatching*)(address - instruction_offset); |
|
231 |
#ifdef ASSERT |
|
232 |
test->verify(); |
|
233 |
#endif |
|
234 |
return test; |
|
235 |
} |
|
236 |
}; |
|
237 |
||
238 |
// An interface for accessing/manipulating native moves of the form: |
|
1066 | 239 |
// mov[b/w/l/q] [reg + offset], reg (instruction_code_reg2mem) |
240 |
// mov[b/w/l/q] reg, [reg+offset] (instruction_code_mem2reg |
|
241 |
// mov[s/z]x[w/b/q] [reg + offset], reg |
|
1 | 242 |
// fld_s [reg+offset] |
243 |
// fld_d [reg+offset] |
|
244 |
// fstp_s [reg + offset] |
|
245 |
// fstp_d [reg + offset] |
|
1066 | 246 |
// mov_literal64 scratch,<pointer> ; mov[b/w/l/q] 0(scratch),reg | mov[b/w/l/q] reg,0(scratch) |
1 | 247 |
// |
248 |
// Warning: These routines must be able to handle any instruction sequences |
|
249 |
// that are generated as a result of the load/store byte,word,long |
|
250 |
// macros. For example: The load_unsigned_byte instruction generates |
|
251 |
// an xor reg,reg inst prior to generating the movb instruction. This |
|
252 |
// class must skip the xor instruction. |
|
253 |
||
254 |
class NativeMovRegMem: public NativeInstruction { |
|
255 |
public: |
|
256 |
enum Intel_specific_constants { |
|
1066 | 257 |
instruction_prefix_wide_lo = Assembler::REX, |
258 |
instruction_prefix_wide_hi = Assembler::REX_WRXB, |
|
1 | 259 |
instruction_code_xor = 0x33, |
260 |
instruction_extended_prefix = 0x0F, |
|
1066 | 261 |
instruction_code_mem2reg_movslq = 0x63, |
1 | 262 |
instruction_code_mem2reg_movzxb = 0xB6, |
263 |
instruction_code_mem2reg_movsxb = 0xBE, |
|
264 |
instruction_code_mem2reg_movzxw = 0xB7, |
|
265 |
instruction_code_mem2reg_movsxw = 0xBF, |
|
266 |
instruction_operandsize_prefix = 0x66, |
|
1066 | 267 |
instruction_code_reg2mem = 0x89, |
268 |
instruction_code_mem2reg = 0x8b, |
|
1 | 269 |
instruction_code_reg2memb = 0x88, |
270 |
instruction_code_mem2regb = 0x8a, |
|
271 |
instruction_code_float_s = 0xd9, |
|
272 |
instruction_code_float_d = 0xdd, |
|
273 |
instruction_code_long_volatile = 0xdf, |
|
274 |
instruction_code_xmm_ss_prefix = 0xf3, |
|
275 |
instruction_code_xmm_sd_prefix = 0xf2, |
|
276 |
instruction_code_xmm_code = 0x0f, |
|
277 |
instruction_code_xmm_load = 0x10, |
|
278 |
instruction_code_xmm_store = 0x11, |
|
279 |
instruction_code_xmm_lpd = 0x12, |
|
280 |
||
281 |
instruction_size = 4, |
|
282 |
instruction_offset = 0, |
|
283 |
data_offset = 2, |
|
284 |
next_instruction_offset = 4 |
|
285 |
}; |
|
286 |
||
1066 | 287 |
// helper |
288 |
int instruction_start() const; |
|
289 |
||
290 |
address instruction_address() const; |
|
1 | 291 |
|
1066 | 292 |
address next_instruction_address() const; |
1 | 293 |
|
1066 | 294 |
int offset() const; |
295 |
||
296 |
void set_offset(int x); |
|
1 | 297 |
|
298 |
void add_offset_in_bytes(int add_offset) { set_offset ( ( offset() + add_offset ) ); } |
|
299 |
||
300 |
void verify(); |
|
301 |
void print (); |
|
302 |
||
303 |
// unit test stuff |
|
304 |
static void test() {} |
|
305 |
||
306 |
private: |
|
307 |
inline friend NativeMovRegMem* nativeMovRegMem_at (address address); |
|
308 |
}; |
|
309 |
||
310 |
inline NativeMovRegMem* nativeMovRegMem_at (address address) { |
|
311 |
NativeMovRegMem* test = (NativeMovRegMem*)(address - NativeMovRegMem::instruction_offset); |
|
312 |
#ifdef ASSERT |
|
313 |
test->verify(); |
|
314 |
#endif |
|
315 |
return test; |
|
316 |
} |
|
317 |
||
318 |
class NativeMovRegMemPatching: public NativeMovRegMem { |
|
319 |
private: |
|
320 |
friend NativeMovRegMemPatching* nativeMovRegMemPatching_at (address address) { |
|
321 |
NativeMovRegMemPatching* test = (NativeMovRegMemPatching*)(address - instruction_offset); |
|
322 |
#ifdef ASSERT |
|
323 |
test->verify(); |
|
324 |
#endif |
|
325 |
return test; |
|
326 |
} |
|
327 |
}; |
|
328 |
||
329 |
||
330 |
||
331 |
// An interface for accessing/manipulating native leal instruction of form: |
|
332 |
// leal reg, [reg + offset] |
|
333 |
||
334 |
class NativeLoadAddress: public NativeMovRegMem { |
|
1066 | 335 |
#ifdef AMD64 |
336 |
static const bool has_rex = true; |
|
337 |
static const int rex_size = 1; |
|
338 |
#else |
|
339 |
static const bool has_rex = false; |
|
340 |
static const int rex_size = 0; |
|
341 |
#endif // AMD64 |
|
1 | 342 |
public: |
343 |
enum Intel_specific_constants { |
|
1066 | 344 |
instruction_prefix_wide = Assembler::REX_W, |
345 |
instruction_prefix_wide_extended = Assembler::REX_WB, |
|
346 |
lea_instruction_code = 0x8D, |
|
347 |
mov64_instruction_code = 0xB8 |
|
1 | 348 |
}; |
349 |
||
350 |
void verify(); |
|
351 |
void print (); |
|
352 |
||
353 |
// unit test stuff |
|
354 |
static void test() {} |
|
355 |
||
356 |
private: |
|
357 |
friend NativeLoadAddress* nativeLoadAddress_at (address address) { |
|
358 |
NativeLoadAddress* test = (NativeLoadAddress*)(address - instruction_offset); |
|
359 |
#ifdef ASSERT |
|
360 |
test->verify(); |
|
361 |
#endif |
|
362 |
return test; |
|
363 |
} |
|
364 |
}; |
|
365 |
||
366 |
// jump rel32off |
|
367 |
||
368 |
class NativeJump: public NativeInstruction { |
|
369 |
public: |
|
370 |
enum Intel_specific_constants { |
|
371 |
instruction_code = 0xe9, |
|
372 |
instruction_size = 5, |
|
373 |
instruction_offset = 0, |
|
374 |
data_offset = 1, |
|
375 |
next_instruction_offset = 5 |
|
376 |
}; |
|
377 |
||
378 |
address instruction_address() const { return addr_at(instruction_offset); } |
|
379 |
address next_instruction_address() const { return addr_at(next_instruction_offset); } |
|
380 |
address jump_destination() const { |
|
381 |
address dest = (int_at(data_offset)+next_instruction_address()); |
|
1066 | 382 |
// 32bit used to encode unresolved jmp as jmp -1 |
383 |
// 64bit can't produce this so it used jump to self. |
|
384 |
// Now 32bit and 64bit use jump to self as the unresolved address |
|
385 |
// which the inline cache code (and relocs) know about |
|
386 |
||
1 | 387 |
// return -1 if jump to self |
388 |
dest = (dest == (address) this) ? (address) -1 : dest; |
|
389 |
return dest; |
|
390 |
} |
|
391 |
||
392 |
void set_jump_destination(address dest) { |
|
393 |
intptr_t val = dest - next_instruction_address(); |
|
1076
a4f1c0615381
6744422: incorrect handling of -1 in set_jump_destination
never
parents:
1066
diff
changeset
|
394 |
if (dest == (address) -1) { |
a4f1c0615381
6744422: incorrect handling of -1 in set_jump_destination
never
parents:
1066
diff
changeset
|
395 |
val = -5; // jump to self |
a4f1c0615381
6744422: incorrect handling of -1 in set_jump_destination
never
parents:
1066
diff
changeset
|
396 |
} |
1 | 397 |
#ifdef AMD64 |
1066 | 398 |
assert((labs(val) & 0xFFFFFFFF00000000) == 0 || dest == (address)-1, "must be 32bit offset or -1"); |
1 | 399 |
#endif // AMD64 |
400 |
set_int_at(data_offset, (jint)val); |
|
401 |
} |
|
402 |
||
403 |
// Creation |
|
404 |
inline friend NativeJump* nativeJump_at(address address); |
|
405 |
||
406 |
void verify(); |
|
407 |
||
408 |
// Unit testing stuff |
|
409 |
static void test() {} |
|
410 |
||
411 |
// Insertion of native jump instruction |
|
412 |
static void insert(address code_pos, address entry); |
|
413 |
// MT-safe insertion of native jump at verified method entry |
|
414 |
static void check_verified_entry_alignment(address entry, address verified_entry); |
|
415 |
static void patch_verified_entry(address entry, address verified_entry, address dest); |
|
416 |
}; |
|
417 |
||
418 |
inline NativeJump* nativeJump_at(address address) { |
|
419 |
NativeJump* jump = (NativeJump*)(address - NativeJump::instruction_offset); |
|
420 |
#ifdef ASSERT |
|
421 |
jump->verify(); |
|
422 |
#endif |
|
423 |
return jump; |
|
424 |
} |
|
425 |
||
426 |
// Handles all kinds of jump on Intel. Long/far, conditional/unconditional |
|
427 |
class NativeGeneralJump: public NativeInstruction { |
|
428 |
public: |
|
429 |
enum Intel_specific_constants { |
|
430 |
// Constants does not apply, since the lengths and offsets depends on the actual jump |
|
431 |
// used |
|
432 |
// Instruction codes: |
|
433 |
// Unconditional jumps: 0xE9 (rel32off), 0xEB (rel8off) |
|
434 |
// Conditional jumps: 0x0F8x (rel32off), 0x7x (rel8off) |
|
435 |
unconditional_long_jump = 0xe9, |
|
436 |
unconditional_short_jump = 0xeb, |
|
437 |
instruction_size = 5 |
|
438 |
}; |
|
439 |
||
440 |
address instruction_address() const { return addr_at(0); } |
|
441 |
address jump_destination() const; |
|
442 |
||
443 |
// Creation |
|
444 |
inline friend NativeGeneralJump* nativeGeneralJump_at(address address); |
|
445 |
||
446 |
// Insertion of native general jump instruction |
|
447 |
static void insert_unconditional(address code_pos, address entry); |
|
448 |
static void replace_mt_safe(address instr_addr, address code_buffer); |
|
449 |
||
450 |
void verify(); |
|
451 |
}; |
|
452 |
||
453 |
inline NativeGeneralJump* nativeGeneralJump_at(address address) { |
|
454 |
NativeGeneralJump* jump = (NativeGeneralJump*)(address); |
|
455 |
debug_only(jump->verify();) |
|
456 |
return jump; |
|
457 |
} |
|
458 |
||
459 |
class NativePopReg : public NativeInstruction { |
|
460 |
public: |
|
461 |
enum Intel_specific_constants { |
|
462 |
instruction_code = 0x58, |
|
463 |
instruction_size = 1, |
|
464 |
instruction_offset = 0, |
|
465 |
data_offset = 1, |
|
466 |
next_instruction_offset = 1 |
|
467 |
}; |
|
468 |
||
469 |
// Insert a pop instruction |
|
470 |
static void insert(address code_pos, Register reg); |
|
471 |
}; |
|
472 |
||
473 |
||
474 |
class NativeIllegalInstruction: public NativeInstruction { |
|
475 |
public: |
|
476 |
enum Intel_specific_constants { |
|
477 |
instruction_code = 0x0B0F, // Real byte order is: 0x0F, 0x0B |
|
478 |
instruction_size = 2, |
|
479 |
instruction_offset = 0, |
|
480 |
next_instruction_offset = 2 |
|
481 |
}; |
|
482 |
||
483 |
// Insert illegal opcode as specific address |
|
484 |
static void insert(address code_pos); |
|
485 |
}; |
|
486 |
||
487 |
// return instruction that does not pop values of the stack |
|
488 |
class NativeReturn: public NativeInstruction { |
|
489 |
public: |
|
490 |
enum Intel_specific_constants { |
|
491 |
instruction_code = 0xC3, |
|
492 |
instruction_size = 1, |
|
493 |
instruction_offset = 0, |
|
494 |
next_instruction_offset = 1 |
|
495 |
}; |
|
496 |
}; |
|
497 |
||
498 |
// return instruction that does pop values of the stack |
|
499 |
class NativeReturnX: public NativeInstruction { |
|
500 |
public: |
|
501 |
enum Intel_specific_constants { |
|
502 |
instruction_code = 0xC2, |
|
503 |
instruction_size = 2, |
|
504 |
instruction_offset = 0, |
|
505 |
next_instruction_offset = 2 |
|
506 |
}; |
|
507 |
}; |
|
508 |
||
509 |
// Simple test vs memory |
|
510 |
class NativeTstRegMem: public NativeInstruction { |
|
511 |
public: |
|
512 |
enum Intel_specific_constants { |
|
513 |
instruction_code_memXregl = 0x85 |
|
514 |
}; |
|
515 |
}; |
|
516 |
||
517 |
inline bool NativeInstruction::is_illegal() { return (short)int_at(0) == (short)NativeIllegalInstruction::instruction_code; } |
|
518 |
inline bool NativeInstruction::is_call() { return ubyte_at(0) == NativeCall::instruction_code; } |
|
519 |
inline bool NativeInstruction::is_return() { return ubyte_at(0) == NativeReturn::instruction_code || |
|
520 |
ubyte_at(0) == NativeReturnX::instruction_code; } |
|
521 |
inline bool NativeInstruction::is_jump() { return ubyte_at(0) == NativeJump::instruction_code || |
|
522 |
ubyte_at(0) == 0xEB; /* short jump */ } |
|
523 |
inline bool NativeInstruction::is_cond_jump() { return (int_at(0) & 0xF0FF) == 0x800F /* long jump */ || |
|
524 |
(ubyte_at(0) & 0xF0) == 0x70; /* short jump */ } |
|
525 |
inline bool NativeInstruction::is_safepoint_poll() { |
|
526 |
#ifdef AMD64 |
|
1066 | 527 |
if ( ubyte_at(0) == NativeTstRegMem::instruction_code_memXregl && |
528 |
ubyte_at(1) == 0x05 ) { // 00 rax 101 |
|
529 |
address fault = addr_at(6) + int_at(2); |
|
530 |
return os::is_poll_address(fault); |
|
531 |
} else { |
|
532 |
return false; |
|
533 |
} |
|
1 | 534 |
#else |
1066 | 535 |
return ( ubyte_at(0) == NativeMovRegMem::instruction_code_mem2reg || |
1 | 536 |
ubyte_at(0) == NativeTstRegMem::instruction_code_memXregl ) && |
537 |
(ubyte_at(1)&0xC7) == 0x05 && /* Mod R/M == disp32 */ |
|
538 |
(os::is_poll_address((address)int_at(2))); |
|
539 |
#endif // AMD64 |
|
540 |
} |
|
541 |
||
542 |
inline bool NativeInstruction::is_mov_literal64() { |
|
543 |
#ifdef AMD64 |
|
544 |
return ((ubyte_at(0) == Assembler::REX_W || ubyte_at(0) == Assembler::REX_WB) && |
|
545 |
(ubyte_at(1) & (0xff ^ NativeMovConstReg::register_mask)) == 0xB8); |
|
546 |
#else |
|
547 |
return false; |
|
548 |
#endif // AMD64 |
|
549 |
} |