Mercurial > hg > truffle
annotate src/cpu/x86/vm/stubGenerator_x86_32.cpp @ 7385:6ad818b8892e
fixed warnings
author | Doug Simon <doug.simon@oracle.com> |
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date | Tue, 15 Jan 2013 21:11:45 +0100 |
parents | 291ffc492eb6 |
children | 989155e2d07a |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1999, 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" |
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26 #include "asm/macroAssembler.hpp" |
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27 #include "asm/macroAssembler.inline.hpp" |
1972 | 28 #include "interpreter/interpreter.hpp" |
29 #include "nativeInst_x86.hpp" | |
30 #include "oops/instanceOop.hpp" | |
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31 #include "oops/method.hpp" |
1972 | 32 #include "oops/objArrayKlass.hpp" |
33 #include "oops/oop.inline.hpp" | |
34 #include "prims/methodHandles.hpp" | |
35 #include "runtime/frame.inline.hpp" | |
36 #include "runtime/handles.inline.hpp" | |
37 #include "runtime/sharedRuntime.hpp" | |
38 #include "runtime/stubCodeGenerator.hpp" | |
39 #include "runtime/stubRoutines.hpp" | |
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40 #include "runtime/thread.inline.hpp" |
1972 | 41 #include "utilities/top.hpp" |
42 #ifdef COMPILER2 | |
43 #include "opto/runtime.hpp" | |
44 #endif | |
0 | 45 |
46 // Declaration and definition of StubGenerator (no .hpp file). | |
47 // For a more detailed description of the stub routine structure | |
48 // see the comment in stubRoutines.hpp | |
49 | |
50 #define __ _masm-> | |
304 | 51 #define a__ ((Assembler*)_masm)-> |
0 | 52 |
53 #ifdef PRODUCT | |
54 #define BLOCK_COMMENT(str) /* nothing */ | |
55 #else | |
56 #define BLOCK_COMMENT(str) __ block_comment(str) | |
57 #endif | |
58 | |
59 #define BIND(label) bind(label); BLOCK_COMMENT(#label ":") | |
60 | |
61 const int MXCSR_MASK = 0xFFC0; // Mask out any pending exceptions | |
62 const int FPU_CNTRL_WRD_MASK = 0xFFFF; | |
63 | |
64 // ------------------------------------------------------------------------------------------------------------------------- | |
65 // Stub Code definitions | |
66 | |
67 static address handle_unsafe_access() { | |
68 JavaThread* thread = JavaThread::current(); | |
69 address pc = thread->saved_exception_pc(); | |
70 // pc is the instruction which we must emulate | |
71 // doing a no-op is fine: return garbage from the load | |
72 // therefore, compute npc | |
73 address npc = Assembler::locate_next_instruction(pc); | |
74 | |
75 // request an async exception | |
76 thread->set_pending_unsafe_access_error(); | |
77 | |
78 // return address of next instruction to execute | |
79 return npc; | |
80 } | |
81 | |
82 class StubGenerator: public StubCodeGenerator { | |
83 private: | |
84 | |
85 #ifdef PRODUCT | |
86 #define inc_counter_np(counter) (0) | |
87 #else | |
88 void inc_counter_np_(int& counter) { | |
304 | 89 __ incrementl(ExternalAddress((address)&counter)); |
0 | 90 } |
91 #define inc_counter_np(counter) \ | |
92 BLOCK_COMMENT("inc_counter " #counter); \ | |
93 inc_counter_np_(counter); | |
94 #endif //PRODUCT | |
95 | |
96 void inc_copy_counter_np(BasicType t) { | |
97 #ifndef PRODUCT | |
98 switch (t) { | |
99 case T_BYTE: inc_counter_np(SharedRuntime::_jbyte_array_copy_ctr); return; | |
100 case T_SHORT: inc_counter_np(SharedRuntime::_jshort_array_copy_ctr); return; | |
101 case T_INT: inc_counter_np(SharedRuntime::_jint_array_copy_ctr); return; | |
102 case T_LONG: inc_counter_np(SharedRuntime::_jlong_array_copy_ctr); return; | |
103 case T_OBJECT: inc_counter_np(SharedRuntime::_oop_array_copy_ctr); return; | |
104 } | |
105 ShouldNotReachHere(); | |
106 #endif //PRODUCT | |
107 } | |
108 | |
109 //------------------------------------------------------------------------------------------------------------------------ | |
110 // Call stubs are used to call Java from C | |
111 // | |
112 // [ return_from_Java ] <--- rsp | |
113 // [ argument word n ] | |
114 // ... | |
115 // -N [ argument word 1 ] | |
116 // -7 [ Possible padding for stack alignment ] | |
117 // -6 [ Possible padding for stack alignment ] | |
118 // -5 [ Possible padding for stack alignment ] | |
119 // -4 [ mxcsr save ] <--- rsp_after_call | |
120 // -3 [ saved rbx, ] | |
121 // -2 [ saved rsi ] | |
122 // -1 [ saved rdi ] | |
123 // 0 [ saved rbp, ] <--- rbp, | |
124 // 1 [ return address ] | |
125 // 2 [ ptr. to call wrapper ] | |
126 // 3 [ result ] | |
127 // 4 [ result_type ] | |
128 // 5 [ method ] | |
129 // 6 [ entry_point ] | |
130 // 7 [ parameters ] | |
131 // 8 [ parameter_size ] | |
132 // 9 [ thread ] | |
133 | |
134 | |
135 address generate_call_stub(address& return_address) { | |
136 StubCodeMark mark(this, "StubRoutines", "call_stub"); | |
137 address start = __ pc(); | |
138 | |
139 // stub code parameters / addresses | |
140 assert(frame::entry_frame_call_wrapper_offset == 2, "adjust this code"); | |
141 bool sse_save = false; | |
142 const Address rsp_after_call(rbp, -4 * wordSize); // same as in generate_catch_exception()! | |
143 const int locals_count_in_bytes (4*wordSize); | |
144 const Address mxcsr_save (rbp, -4 * wordSize); | |
145 const Address saved_rbx (rbp, -3 * wordSize); | |
146 const Address saved_rsi (rbp, -2 * wordSize); | |
147 const Address saved_rdi (rbp, -1 * wordSize); | |
148 const Address result (rbp, 3 * wordSize); | |
149 const Address result_type (rbp, 4 * wordSize); | |
150 const Address method (rbp, 5 * wordSize); | |
151 const Address entry_point (rbp, 6 * wordSize); | |
152 const Address parameters (rbp, 7 * wordSize); | |
153 const Address parameter_size(rbp, 8 * wordSize); | |
154 const Address thread (rbp, 9 * wordSize); // same as in generate_catch_exception()! | |
155 sse_save = UseSSE > 0; | |
156 | |
157 // stub code | |
158 __ enter(); | |
304 | 159 __ movptr(rcx, parameter_size); // parameter counter |
1506 | 160 __ shlptr(rcx, Interpreter::logStackElementSize); // convert parameter count to bytes |
304 | 161 __ addptr(rcx, locals_count_in_bytes); // reserve space for register saves |
162 __ subptr(rsp, rcx); | |
163 __ andptr(rsp, -(StackAlignmentInBytes)); // Align stack | |
0 | 164 |
165 // save rdi, rsi, & rbx, according to C calling conventions | |
304 | 166 __ movptr(saved_rdi, rdi); |
167 __ movptr(saved_rsi, rsi); | |
168 __ movptr(saved_rbx, rbx); | |
0 | 169 // save and initialize %mxcsr |
170 if (sse_save) { | |
171 Label skip_ldmx; | |
172 __ stmxcsr(mxcsr_save); | |
173 __ movl(rax, mxcsr_save); | |
174 __ andl(rax, MXCSR_MASK); // Only check control and mask bits | |
175 ExternalAddress mxcsr_std(StubRoutines::addr_mxcsr_std()); | |
176 __ cmp32(rax, mxcsr_std); | |
177 __ jcc(Assembler::equal, skip_ldmx); | |
178 __ ldmxcsr(mxcsr_std); | |
179 __ bind(skip_ldmx); | |
180 } | |
181 | |
182 // make sure the control word is correct. | |
183 __ fldcw(ExternalAddress(StubRoutines::addr_fpu_cntrl_wrd_std())); | |
184 | |
185 #ifdef ASSERT | |
186 // make sure we have no pending exceptions | |
187 { Label L; | |
304 | 188 __ movptr(rcx, thread); |
189 __ cmpptr(Address(rcx, Thread::pending_exception_offset()), (int32_t)NULL_WORD); | |
0 | 190 __ jcc(Assembler::equal, L); |
191 __ stop("StubRoutines::call_stub: entered with pending exception"); | |
192 __ bind(L); | |
193 } | |
194 #endif | |
195 | |
196 // pass parameters if any | |
197 BLOCK_COMMENT("pass parameters if any"); | |
198 Label parameters_done; | |
199 __ movl(rcx, parameter_size); // parameter counter | |
200 __ testl(rcx, rcx); | |
201 __ jcc(Assembler::zero, parameters_done); | |
202 | |
203 // parameter passing loop | |
204 | |
205 Label loop; | |
206 // Copy Java parameters in reverse order (receiver last) | |
207 // Note that the argument order is inverted in the process | |
208 // source is rdx[rcx: N-1..0] | |
209 // dest is rsp[rbx: 0..N-1] | |
210 | |
304 | 211 __ movptr(rdx, parameters); // parameter pointer |
212 __ xorptr(rbx, rbx); | |
0 | 213 |
214 __ BIND(loop); | |
215 | |
216 // get parameter | |
304 | 217 __ movptr(rax, Address(rdx, rcx, Interpreter::stackElementScale(), -wordSize)); |
218 __ movptr(Address(rsp, rbx, Interpreter::stackElementScale(), | |
0 | 219 Interpreter::expr_offset_in_bytes(0)), rax); // store parameter |
220 __ increment(rbx); | |
221 __ decrement(rcx); | |
222 __ jcc(Assembler::notZero, loop); | |
223 | |
224 // call Java function | |
225 __ BIND(parameters_done); | |
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226 __ movptr(rbx, method); // get Method* |
304 | 227 __ movptr(rax, entry_point); // get entry_point |
228 __ mov(rsi, rsp); // set sender sp | |
0 | 229 BLOCK_COMMENT("call Java function"); |
230 __ call(rax); | |
231 | |
232 BLOCK_COMMENT("call_stub_return_address:"); | |
233 return_address = __ pc(); | |
234 | |
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235 #ifdef COMPILER2 |
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236 { |
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237 Label L_skip; |
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238 if (UseSSE >= 2) { |
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239 __ verify_FPU(0, "call_stub_return"); |
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240 } else { |
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241 for (int i = 1; i < 8; i++) { |
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242 __ ffree(i); |
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243 } |
0 | 244 |
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245 // UseSSE <= 1 so double result should be left on TOS |
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246 __ movl(rsi, result_type); |
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247 __ cmpl(rsi, T_DOUBLE); |
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248 __ jcc(Assembler::equal, L_skip); |
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249 if (UseSSE == 0) { |
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250 // UseSSE == 0 so float result should be left on TOS |
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251 __ cmpl(rsi, T_FLOAT); |
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252 __ jcc(Assembler::equal, L_skip); |
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253 } |
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254 __ ffree(0); |
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255 } |
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256 __ BIND(L_skip); |
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257 } |
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258 #endif // COMPILER2 |
0 | 259 |
260 // store result depending on type | |
261 // (everything that is not T_LONG, T_FLOAT or T_DOUBLE is treated as T_INT) | |
304 | 262 __ movptr(rdi, result); |
0 | 263 Label is_long, is_float, is_double, exit; |
264 __ movl(rsi, result_type); | |
265 __ cmpl(rsi, T_LONG); | |
266 __ jcc(Assembler::equal, is_long); | |
267 __ cmpl(rsi, T_FLOAT); | |
268 __ jcc(Assembler::equal, is_float); | |
269 __ cmpl(rsi, T_DOUBLE); | |
270 __ jcc(Assembler::equal, is_double); | |
271 | |
272 // handle T_INT case | |
273 __ movl(Address(rdi, 0), rax); | |
274 __ BIND(exit); | |
275 | |
276 // check that FPU stack is empty | |
277 __ verify_FPU(0, "generate_call_stub"); | |
278 | |
279 // pop parameters | |
304 | 280 __ lea(rsp, rsp_after_call); |
0 | 281 |
282 // restore %mxcsr | |
283 if (sse_save) { | |
284 __ ldmxcsr(mxcsr_save); | |
285 } | |
286 | |
287 // restore rdi, rsi and rbx, | |
304 | 288 __ movptr(rbx, saved_rbx); |
289 __ movptr(rsi, saved_rsi); | |
290 __ movptr(rdi, saved_rdi); | |
291 __ addptr(rsp, 4*wordSize); | |
0 | 292 |
293 // return | |
304 | 294 __ pop(rbp); |
0 | 295 __ ret(0); |
296 | |
297 // handle return types different from T_INT | |
298 __ BIND(is_long); | |
299 __ movl(Address(rdi, 0 * wordSize), rax); | |
300 __ movl(Address(rdi, 1 * wordSize), rdx); | |
301 __ jmp(exit); | |
302 | |
303 __ BIND(is_float); | |
304 // interpreter uses xmm0 for return values | |
305 if (UseSSE >= 1) { | |
306 __ movflt(Address(rdi, 0), xmm0); | |
307 } else { | |
308 __ fstp_s(Address(rdi, 0)); | |
309 } | |
310 __ jmp(exit); | |
311 | |
312 __ BIND(is_double); | |
313 // interpreter uses xmm0 for return values | |
314 if (UseSSE >= 2) { | |
315 __ movdbl(Address(rdi, 0), xmm0); | |
316 } else { | |
317 __ fstp_d(Address(rdi, 0)); | |
318 } | |
319 __ jmp(exit); | |
320 | |
321 return start; | |
322 } | |
323 | |
324 | |
325 //------------------------------------------------------------------------------------------------------------------------ | |
326 // Return point for a Java call if there's an exception thrown in Java code. | |
327 // The exception is caught and transformed into a pending exception stored in | |
328 // JavaThread that can be tested from within the VM. | |
329 // | |
330 // Note: Usually the parameters are removed by the callee. In case of an exception | |
331 // crossing an activation frame boundary, that is not the case if the callee | |
332 // is compiled code => need to setup the rsp. | |
333 // | |
334 // rax,: exception oop | |
335 | |
336 address generate_catch_exception() { | |
337 StubCodeMark mark(this, "StubRoutines", "catch_exception"); | |
338 const Address rsp_after_call(rbp, -4 * wordSize); // same as in generate_call_stub()! | |
339 const Address thread (rbp, 9 * wordSize); // same as in generate_call_stub()! | |
340 address start = __ pc(); | |
341 | |
342 // get thread directly | |
304 | 343 __ movptr(rcx, thread); |
0 | 344 #ifdef ASSERT |
345 // verify that threads correspond | |
346 { Label L; | |
347 __ get_thread(rbx); | |
304 | 348 __ cmpptr(rbx, rcx); |
0 | 349 __ jcc(Assembler::equal, L); |
350 __ stop("StubRoutines::catch_exception: threads must correspond"); | |
351 __ bind(L); | |
352 } | |
353 #endif | |
354 // set pending exception | |
355 __ verify_oop(rax); | |
304 | 356 __ movptr(Address(rcx, Thread::pending_exception_offset()), rax ); |
0 | 357 __ lea(Address(rcx, Thread::exception_file_offset ()), |
358 ExternalAddress((address)__FILE__)); | |
359 __ movl(Address(rcx, Thread::exception_line_offset ()), __LINE__ ); | |
360 // complete return to VM | |
361 assert(StubRoutines::_call_stub_return_address != NULL, "_call_stub_return_address must have been generated before"); | |
362 __ jump(RuntimeAddress(StubRoutines::_call_stub_return_address)); | |
363 | |
364 return start; | |
365 } | |
366 | |
367 | |
368 //------------------------------------------------------------------------------------------------------------------------ | |
369 // Continuation point for runtime calls returning with a pending exception. | |
370 // The pending exception check happened in the runtime or native call stub. | |
371 // The pending exception in Thread is converted into a Java-level exception. | |
372 // | |
373 // Contract with Java-level exception handlers: | |
1295 | 374 // rax: exception |
0 | 375 // rdx: throwing pc |
376 // | |
377 // NOTE: At entry of this stub, exception-pc must be on stack !! | |
378 | |
379 address generate_forward_exception() { | |
380 StubCodeMark mark(this, "StubRoutines", "forward exception"); | |
381 address start = __ pc(); | |
1295 | 382 const Register thread = rcx; |
383 | |
384 // other registers used in this stub | |
385 const Register exception_oop = rax; | |
386 const Register handler_addr = rbx; | |
387 const Register exception_pc = rdx; | |
0 | 388 |
389 // Upon entry, the sp points to the return address returning into Java | |
390 // (interpreted or compiled) code; i.e., the return address becomes the | |
391 // throwing pc. | |
392 // | |
393 // Arguments pushed before the runtime call are still on the stack but | |
394 // the exception handler will reset the stack pointer -> ignore them. | |
395 // A potential result in registers can be ignored as well. | |
396 | |
397 #ifdef ASSERT | |
398 // make sure this code is only executed if there is a pending exception | |
399 { Label L; | |
1295 | 400 __ get_thread(thread); |
401 __ cmpptr(Address(thread, Thread::pending_exception_offset()), (int32_t)NULL_WORD); | |
0 | 402 __ jcc(Assembler::notEqual, L); |
403 __ stop("StubRoutines::forward exception: no pending exception (1)"); | |
404 __ bind(L); | |
405 } | |
406 #endif | |
407 | |
408 // compute exception handler into rbx, | |
1295 | 409 __ get_thread(thread); |
410 __ movptr(exception_pc, Address(rsp, 0)); | |
0 | 411 BLOCK_COMMENT("call exception_handler_for_return_address"); |
1295 | 412 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::exception_handler_for_return_address), thread, exception_pc); |
413 __ mov(handler_addr, rax); | |
0 | 414 |
1295 | 415 // setup rax & rdx, remove return address & clear pending exception |
416 __ get_thread(thread); | |
417 __ pop(exception_pc); | |
418 __ movptr(exception_oop, Address(thread, Thread::pending_exception_offset())); | |
419 __ movptr(Address(thread, Thread::pending_exception_offset()), NULL_WORD); | |
0 | 420 |
421 #ifdef ASSERT | |
422 // make sure exception is set | |
423 { Label L; | |
1295 | 424 __ testptr(exception_oop, exception_oop); |
0 | 425 __ jcc(Assembler::notEqual, L); |
426 __ stop("StubRoutines::forward exception: no pending exception (2)"); | |
427 __ bind(L); | |
428 } | |
429 #endif | |
430 | |
1295 | 431 // Verify that there is really a valid exception in RAX. |
432 __ verify_oop(exception_oop); | |
433 | |
0 | 434 // continue at exception handler (return address removed) |
1295 | 435 // rax: exception |
436 // rbx: exception handler | |
0 | 437 // rdx: throwing pc |
1295 | 438 __ jmp(handler_addr); |
0 | 439 |
440 return start; | |
441 } | |
442 | |
443 | |
444 //---------------------------------------------------------------------------------------------------- | |
445 // Support for jint Atomic::xchg(jint exchange_value, volatile jint* dest) | |
446 // | |
447 // xchg exists as far back as 8086, lock needed for MP only | |
448 // Stack layout immediately after call: | |
449 // | |
450 // 0 [ret addr ] <--- rsp | |
451 // 1 [ ex ] | |
452 // 2 [ dest ] | |
453 // | |
454 // Result: *dest <- ex, return (old *dest) | |
455 // | |
456 // Note: win32 does not currently use this code | |
457 | |
458 address generate_atomic_xchg() { | |
459 StubCodeMark mark(this, "StubRoutines", "atomic_xchg"); | |
460 address start = __ pc(); | |
461 | |
304 | 462 __ push(rdx); |
0 | 463 Address exchange(rsp, 2 * wordSize); |
464 Address dest_addr(rsp, 3 * wordSize); | |
465 __ movl(rax, exchange); | |
304 | 466 __ movptr(rdx, dest_addr); |
467 __ xchgl(rax, Address(rdx, 0)); | |
468 __ pop(rdx); | |
0 | 469 __ ret(0); |
470 | |
471 return start; | |
472 } | |
473 | |
474 //---------------------------------------------------------------------------------------------------- | |
475 // Support for void verify_mxcsr() | |
476 // | |
477 // This routine is used with -Xcheck:jni to verify that native | |
478 // JNI code does not return to Java code without restoring the | |
479 // MXCSR register to our expected state. | |
480 | |
481 | |
482 address generate_verify_mxcsr() { | |
483 StubCodeMark mark(this, "StubRoutines", "verify_mxcsr"); | |
484 address start = __ pc(); | |
485 | |
486 const Address mxcsr_save(rsp, 0); | |
487 | |
488 if (CheckJNICalls && UseSSE > 0 ) { | |
489 Label ok_ret; | |
490 ExternalAddress mxcsr_std(StubRoutines::addr_mxcsr_std()); | |
304 | 491 __ push(rax); |
492 __ subptr(rsp, wordSize); // allocate a temp location | |
0 | 493 __ stmxcsr(mxcsr_save); |
494 __ movl(rax, mxcsr_save); | |
495 __ andl(rax, MXCSR_MASK); | |
496 __ cmp32(rax, mxcsr_std); | |
497 __ jcc(Assembler::equal, ok_ret); | |
498 | |
499 __ warn("MXCSR changed by native JNI code."); | |
500 | |
501 __ ldmxcsr(mxcsr_std); | |
502 | |
503 __ bind(ok_ret); | |
304 | 504 __ addptr(rsp, wordSize); |
505 __ pop(rax); | |
0 | 506 } |
507 | |
508 __ ret(0); | |
509 | |
510 return start; | |
511 } | |
512 | |
513 | |
514 //--------------------------------------------------------------------------- | |
515 // Support for void verify_fpu_cntrl_wrd() | |
516 // | |
517 // This routine is used with -Xcheck:jni to verify that native | |
518 // JNI code does not return to Java code without restoring the | |
519 // FP control word to our expected state. | |
520 | |
521 address generate_verify_fpu_cntrl_wrd() { | |
522 StubCodeMark mark(this, "StubRoutines", "verify_spcw"); | |
523 address start = __ pc(); | |
524 | |
525 const Address fpu_cntrl_wrd_save(rsp, 0); | |
526 | |
527 if (CheckJNICalls) { | |
528 Label ok_ret; | |
304 | 529 __ push(rax); |
530 __ subptr(rsp, wordSize); // allocate a temp location | |
0 | 531 __ fnstcw(fpu_cntrl_wrd_save); |
532 __ movl(rax, fpu_cntrl_wrd_save); | |
533 __ andl(rax, FPU_CNTRL_WRD_MASK); | |
534 ExternalAddress fpu_std(StubRoutines::addr_fpu_cntrl_wrd_std()); | |
535 __ cmp32(rax, fpu_std); | |
536 __ jcc(Assembler::equal, ok_ret); | |
537 | |
538 __ warn("Floating point control word changed by native JNI code."); | |
539 | |
540 __ fldcw(fpu_std); | |
541 | |
542 __ bind(ok_ret); | |
304 | 543 __ addptr(rsp, wordSize); |
544 __ pop(rax); | |
0 | 545 } |
546 | |
547 __ ret(0); | |
548 | |
549 return start; | |
550 } | |
551 | |
552 //--------------------------------------------------------------------------- | |
553 // Wrapper for slow-case handling of double-to-integer conversion | |
554 // d2i or f2i fast case failed either because it is nan or because | |
555 // of under/overflow. | |
556 // Input: FPU TOS: float value | |
557 // Output: rax, (rdx): integer (long) result | |
558 | |
559 address generate_d2i_wrapper(BasicType t, address fcn) { | |
560 StubCodeMark mark(this, "StubRoutines", "d2i_wrapper"); | |
561 address start = __ pc(); | |
562 | |
563 // Capture info about frame layout | |
564 enum layout { FPUState_off = 0, | |
565 rbp_off = FPUStateSizeInWords, | |
566 rdi_off, | |
567 rsi_off, | |
568 rcx_off, | |
569 rbx_off, | |
570 saved_argument_off, | |
571 saved_argument_off2, // 2nd half of double | |
572 framesize | |
573 }; | |
574 | |
575 assert(FPUStateSizeInWords == 27, "update stack layout"); | |
576 | |
577 // Save outgoing argument to stack across push_FPU_state() | |
304 | 578 __ subptr(rsp, wordSize * 2); |
0 | 579 __ fstp_d(Address(rsp, 0)); |
580 | |
581 // Save CPU & FPU state | |
304 | 582 __ push(rbx); |
583 __ push(rcx); | |
584 __ push(rsi); | |
585 __ push(rdi); | |
586 __ push(rbp); | |
0 | 587 __ push_FPU_state(); |
588 | |
589 // push_FPU_state() resets the FP top of stack | |
590 // Load original double into FP top of stack | |
591 __ fld_d(Address(rsp, saved_argument_off * wordSize)); | |
592 // Store double into stack as outgoing argument | |
304 | 593 __ subptr(rsp, wordSize*2); |
0 | 594 __ fst_d(Address(rsp, 0)); |
595 | |
596 // Prepare FPU for doing math in C-land | |
597 __ empty_FPU_stack(); | |
598 // Call the C code to massage the double. Result in EAX | |
599 if (t == T_INT) | |
600 { BLOCK_COMMENT("SharedRuntime::d2i"); } | |
601 else if (t == T_LONG) | |
602 { BLOCK_COMMENT("SharedRuntime::d2l"); } | |
603 __ call_VM_leaf( fcn, 2 ); | |
604 | |
605 // Restore CPU & FPU state | |
606 __ pop_FPU_state(); | |
304 | 607 __ pop(rbp); |
608 __ pop(rdi); | |
609 __ pop(rsi); | |
610 __ pop(rcx); | |
611 __ pop(rbx); | |
612 __ addptr(rsp, wordSize * 2); | |
0 | 613 |
614 __ ret(0); | |
615 | |
616 return start; | |
617 } | |
618 | |
619 | |
620 //--------------------------------------------------------------------------- | |
621 // The following routine generates a subroutine to throw an asynchronous | |
622 // UnknownError when an unsafe access gets a fault that could not be | |
623 // reasonably prevented by the programmer. (Example: SIGBUS/OBJERR.) | |
624 address generate_handler_for_unsafe_access() { | |
625 StubCodeMark mark(this, "StubRoutines", "handler_for_unsafe_access"); | |
626 address start = __ pc(); | |
627 | |
304 | 628 __ push(0); // hole for return address-to-be |
629 __ pusha(); // push registers | |
0 | 630 Address next_pc(rsp, RegisterImpl::number_of_registers * BytesPerWord); |
631 BLOCK_COMMENT("call handle_unsafe_access"); | |
632 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, handle_unsafe_access))); | |
304 | 633 __ movptr(next_pc, rax); // stuff next address |
634 __ popa(); | |
0 | 635 __ ret(0); // jump to next address |
636 | |
637 return start; | |
638 } | |
639 | |
640 | |
641 //---------------------------------------------------------------------------------------------------- | |
642 // Non-destructive plausibility checks for oops | |
643 | |
644 address generate_verify_oop() { | |
645 StubCodeMark mark(this, "StubRoutines", "verify_oop"); | |
646 address start = __ pc(); | |
647 | |
648 // Incoming arguments on stack after saving rax,: | |
649 // | |
650 // [tos ]: saved rdx | |
651 // [tos + 1]: saved EFLAGS | |
652 // [tos + 2]: return address | |
653 // [tos + 3]: char* error message | |
654 // [tos + 4]: oop object to verify | |
655 // [tos + 5]: saved rax, - saved by caller and bashed | |
656 | |
657 Label exit, error; | |
304 | 658 __ pushf(); |
659 __ incrementl(ExternalAddress((address) StubRoutines::verify_oop_count_addr())); | |
660 __ push(rdx); // save rdx | |
0 | 661 // make sure object is 'reasonable' |
304 | 662 __ movptr(rax, Address(rsp, 4 * wordSize)); // get object |
663 __ testptr(rax, rax); | |
0 | 664 __ jcc(Assembler::zero, exit); // if obj is NULL it is ok |
665 | |
666 // Check if the oop is in the right area of memory | |
667 const int oop_mask = Universe::verify_oop_mask(); | |
668 const int oop_bits = Universe::verify_oop_bits(); | |
304 | 669 __ mov(rdx, rax); |
670 __ andptr(rdx, oop_mask); | |
671 __ cmpptr(rdx, oop_bits); | |
0 | 672 __ jcc(Assembler::notZero, error); |
673 | |
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674 // make sure klass is 'reasonable', which is not zero. |
304 | 675 __ movptr(rax, Address(rax, oopDesc::klass_offset_in_bytes())); // get klass |
676 __ testptr(rax, rax); | |
0 | 677 __ jcc(Assembler::zero, error); // if klass is NULL it is broken |
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678 // TODO: Future assert that klass is lower 4g memory for UseCompressedKlassPointers |
0 | 679 |
680 // return if everything seems ok | |
681 __ bind(exit); | |
304 | 682 __ movptr(rax, Address(rsp, 5 * wordSize)); // get saved rax, back |
683 __ pop(rdx); // restore rdx | |
684 __ popf(); // restore EFLAGS | |
0 | 685 __ ret(3 * wordSize); // pop arguments |
686 | |
687 // handle errors | |
688 __ bind(error); | |
304 | 689 __ movptr(rax, Address(rsp, 5 * wordSize)); // get saved rax, back |
690 __ pop(rdx); // get saved rdx back | |
691 __ popf(); // get saved EFLAGS off stack -- will be ignored | |
692 __ pusha(); // push registers (eip = return address & msg are already pushed) | |
0 | 693 BLOCK_COMMENT("call MacroAssembler::debug"); |
304 | 694 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, MacroAssembler::debug32))); |
695 __ popa(); | |
0 | 696 __ ret(3 * wordSize); // pop arguments |
697 return start; | |
698 } | |
699 | |
700 // | |
701 // Generate pre-barrier for array stores | |
702 // | |
703 // Input: | |
704 // start - starting address | |
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705 // count - element count |
2324 | 706 void gen_write_ref_array_pre_barrier(Register start, Register count, bool uninitialized_target) { |
0 | 707 assert_different_registers(start, count); |
708 BarrierSet* bs = Universe::heap()->barrier_set(); | |
709 switch (bs->kind()) { | |
710 case BarrierSet::G1SATBCT: | |
711 case BarrierSet::G1SATBCTLogging: | |
2324 | 712 // With G1, don't generate the call if we statically know that the target in uninitialized |
713 if (!uninitialized_target) { | |
714 __ pusha(); // push registers | |
715 __ call_VM_leaf(CAST_FROM_FN_PTR(address, BarrierSet::static_write_ref_array_pre), | |
716 start, count); | |
717 __ popa(); | |
718 } | |
0 | 719 break; |
720 case BarrierSet::CardTableModRef: | |
721 case BarrierSet::CardTableExtension: | |
722 case BarrierSet::ModRef: | |
723 break; | |
724 default : | |
725 ShouldNotReachHere(); | |
726 | |
727 } | |
728 } | |
729 | |
730 | |
731 // | |
732 // Generate a post-barrier for an array store | |
733 // | |
734 // start - starting address | |
735 // count - element count | |
736 // | |
737 // The two input registers are overwritten. | |
738 // | |
739 void gen_write_ref_array_post_barrier(Register start, Register count) { | |
740 BarrierSet* bs = Universe::heap()->barrier_set(); | |
741 assert_different_registers(start, count); | |
742 switch (bs->kind()) { | |
743 case BarrierSet::G1SATBCT: | |
744 case BarrierSet::G1SATBCTLogging: | |
745 { | |
304 | 746 __ pusha(); // push registers |
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747 __ call_VM_leaf(CAST_FROM_FN_PTR(address, BarrierSet::static_write_ref_array_post), |
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748 start, count); |
304 | 749 __ popa(); |
0 | 750 } |
751 break; | |
752 | |
753 case BarrierSet::CardTableModRef: | |
754 case BarrierSet::CardTableExtension: | |
755 { | |
756 CardTableModRefBS* ct = (CardTableModRefBS*)bs; | |
757 assert(sizeof(*ct->byte_map_base) == sizeof(jbyte), "adjust this code"); | |
758 | |
759 Label L_loop; | |
760 const Register end = count; // elements count; end == start+count-1 | |
761 assert_different_registers(start, end); | |
762 | |
304 | 763 __ lea(end, Address(start, count, Address::times_ptr, -wordSize)); |
764 __ shrptr(start, CardTableModRefBS::card_shift); | |
765 __ shrptr(end, CardTableModRefBS::card_shift); | |
766 __ subptr(end, start); // end --> count | |
0 | 767 __ BIND(L_loop); |
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768 intptr_t disp = (intptr_t) ct->byte_map_base; |
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769 Address cardtable(start, count, Address::times_1, disp); |
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770 __ movb(cardtable, 0); |
0 | 771 __ decrement(count); |
772 __ jcc(Assembler::greaterEqual, L_loop); | |
773 } | |
774 break; | |
775 case BarrierSet::ModRef: | |
776 break; | |
777 default : | |
778 ShouldNotReachHere(); | |
779 | |
780 } | |
781 } | |
782 | |
405 | 783 |
784 // Copy 64 bytes chunks | |
785 // | |
786 // Inputs: | |
787 // from - source array address | |
788 // to_from - destination array address - from | |
789 // qword_count - 8-bytes element count, negative | |
790 // | |
791 void xmm_copy_forward(Register from, Register to_from, Register qword_count) { | |
792 assert( UseSSE >= 2, "supported cpu only" ); | |
793 Label L_copy_64_bytes_loop, L_copy_64_bytes, L_copy_8_bytes, L_exit; | |
794 // Copy 64-byte chunks | |
795 __ jmpb(L_copy_64_bytes); | |
1365 | 796 __ align(OptoLoopAlignment); |
405 | 797 __ BIND(L_copy_64_bytes_loop); |
798 | |
799 if(UseUnalignedLoadStores) { | |
800 __ movdqu(xmm0, Address(from, 0)); | |
801 __ movdqu(Address(from, to_from, Address::times_1, 0), xmm0); | |
802 __ movdqu(xmm1, Address(from, 16)); | |
803 __ movdqu(Address(from, to_from, Address::times_1, 16), xmm1); | |
804 __ movdqu(xmm2, Address(from, 32)); | |
805 __ movdqu(Address(from, to_from, Address::times_1, 32), xmm2); | |
806 __ movdqu(xmm3, Address(from, 48)); | |
807 __ movdqu(Address(from, to_from, Address::times_1, 48), xmm3); | |
808 | |
809 } else { | |
810 __ movq(xmm0, Address(from, 0)); | |
811 __ movq(Address(from, to_from, Address::times_1, 0), xmm0); | |
812 __ movq(xmm1, Address(from, 8)); | |
813 __ movq(Address(from, to_from, Address::times_1, 8), xmm1); | |
814 __ movq(xmm2, Address(from, 16)); | |
815 __ movq(Address(from, to_from, Address::times_1, 16), xmm2); | |
816 __ movq(xmm3, Address(from, 24)); | |
817 __ movq(Address(from, to_from, Address::times_1, 24), xmm3); | |
818 __ movq(xmm4, Address(from, 32)); | |
819 __ movq(Address(from, to_from, Address::times_1, 32), xmm4); | |
820 __ movq(xmm5, Address(from, 40)); | |
821 __ movq(Address(from, to_from, Address::times_1, 40), xmm5); | |
822 __ movq(xmm6, Address(from, 48)); | |
823 __ movq(Address(from, to_from, Address::times_1, 48), xmm6); | |
824 __ movq(xmm7, Address(from, 56)); | |
825 __ movq(Address(from, to_from, Address::times_1, 56), xmm7); | |
826 } | |
827 | |
828 __ addl(from, 64); | |
829 __ BIND(L_copy_64_bytes); | |
830 __ subl(qword_count, 8); | |
831 __ jcc(Assembler::greaterEqual, L_copy_64_bytes_loop); | |
832 __ addl(qword_count, 8); | |
833 __ jccb(Assembler::zero, L_exit); | |
834 // | |
835 // length is too short, just copy qwords | |
836 // | |
837 __ BIND(L_copy_8_bytes); | |
838 __ movq(xmm0, Address(from, 0)); | |
839 __ movq(Address(from, to_from, Address::times_1), xmm0); | |
840 __ addl(from, 8); | |
841 __ decrement(qword_count); | |
842 __ jcc(Assembler::greater, L_copy_8_bytes); | |
843 __ BIND(L_exit); | |
844 } | |
845 | |
0 | 846 // Copy 64 bytes chunks |
847 // | |
848 // Inputs: | |
849 // from - source array address | |
850 // to_from - destination array address - from | |
851 // qword_count - 8-bytes element count, negative | |
852 // | |
853 void mmx_copy_forward(Register from, Register to_from, Register qword_count) { | |
405 | 854 assert( VM_Version::supports_mmx(), "supported cpu only" ); |
0 | 855 Label L_copy_64_bytes_loop, L_copy_64_bytes, L_copy_8_bytes, L_exit; |
856 // Copy 64-byte chunks | |
857 __ jmpb(L_copy_64_bytes); | |
1365 | 858 __ align(OptoLoopAlignment); |
0 | 859 __ BIND(L_copy_64_bytes_loop); |
860 __ movq(mmx0, Address(from, 0)); | |
861 __ movq(mmx1, Address(from, 8)); | |
862 __ movq(mmx2, Address(from, 16)); | |
863 __ movq(Address(from, to_from, Address::times_1, 0), mmx0); | |
864 __ movq(mmx3, Address(from, 24)); | |
865 __ movq(Address(from, to_from, Address::times_1, 8), mmx1); | |
866 __ movq(mmx4, Address(from, 32)); | |
867 __ movq(Address(from, to_from, Address::times_1, 16), mmx2); | |
868 __ movq(mmx5, Address(from, 40)); | |
869 __ movq(Address(from, to_from, Address::times_1, 24), mmx3); | |
870 __ movq(mmx6, Address(from, 48)); | |
871 __ movq(Address(from, to_from, Address::times_1, 32), mmx4); | |
872 __ movq(mmx7, Address(from, 56)); | |
873 __ movq(Address(from, to_from, Address::times_1, 40), mmx5); | |
874 __ movq(Address(from, to_from, Address::times_1, 48), mmx6); | |
875 __ movq(Address(from, to_from, Address::times_1, 56), mmx7); | |
304 | 876 __ addptr(from, 64); |
0 | 877 __ BIND(L_copy_64_bytes); |
878 __ subl(qword_count, 8); | |
879 __ jcc(Assembler::greaterEqual, L_copy_64_bytes_loop); | |
880 __ addl(qword_count, 8); | |
881 __ jccb(Assembler::zero, L_exit); | |
882 // | |
883 // length is too short, just copy qwords | |
884 // | |
885 __ BIND(L_copy_8_bytes); | |
886 __ movq(mmx0, Address(from, 0)); | |
887 __ movq(Address(from, to_from, Address::times_1), mmx0); | |
304 | 888 __ addptr(from, 8); |
0 | 889 __ decrement(qword_count); |
890 __ jcc(Assembler::greater, L_copy_8_bytes); | |
891 __ BIND(L_exit); | |
892 __ emms(); | |
893 } | |
894 | |
895 address generate_disjoint_copy(BasicType t, bool aligned, | |
896 Address::ScaleFactor sf, | |
2324 | 897 address* entry, const char *name, |
898 bool dest_uninitialized = false) { | |
0 | 899 __ align(CodeEntryAlignment); |
900 StubCodeMark mark(this, "StubRoutines", name); | |
901 address start = __ pc(); | |
902 | |
903 Label L_0_count, L_exit, L_skip_align1, L_skip_align2, L_copy_byte; | |
904 Label L_copy_2_bytes, L_copy_4_bytes, L_copy_64_bytes; | |
905 | |
304 | 906 int shift = Address::times_ptr - sf; |
0 | 907 |
908 const Register from = rsi; // source array address | |
909 const Register to = rdi; // destination array address | |
910 const Register count = rcx; // elements count | |
911 const Register to_from = to; // (to - from) | |
912 const Register saved_to = rdx; // saved destination array address | |
913 | |
914 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 915 __ push(rsi); |
916 __ push(rdi); | |
917 __ movptr(from , Address(rsp, 12+ 4)); | |
918 __ movptr(to , Address(rsp, 12+ 8)); | |
0 | 919 __ movl(count, Address(rsp, 12+ 12)); |
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920 |
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921 if (entry != NULL) { |
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922 *entry = __ pc(); // Entry point from conjoint arraycopy stub. |
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923 BLOCK_COMMENT("Entry:"); |
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924 } |
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925 |
0 | 926 if (t == T_OBJECT) { |
927 __ testl(count, count); | |
928 __ jcc(Assembler::zero, L_0_count); | |
2324 | 929 gen_write_ref_array_pre_barrier(to, count, dest_uninitialized); |
304 | 930 __ mov(saved_to, to); // save 'to' |
0 | 931 } |
932 | |
304 | 933 __ subptr(to, from); // to --> to_from |
0 | 934 __ cmpl(count, 2<<shift); // Short arrays (< 8 bytes) copy by element |
935 __ jcc(Assembler::below, L_copy_4_bytes); // use unsigned cmp | |
405 | 936 if (!UseUnalignedLoadStores && !aligned && (t == T_BYTE || t == T_SHORT)) { |
0 | 937 // align source address at 4 bytes address boundary |
938 if (t == T_BYTE) { | |
939 // One byte misalignment happens only for byte arrays | |
940 __ testl(from, 1); | |
941 __ jccb(Assembler::zero, L_skip_align1); | |
942 __ movb(rax, Address(from, 0)); | |
943 __ movb(Address(from, to_from, Address::times_1, 0), rax); | |
944 __ increment(from); | |
945 __ decrement(count); | |
946 __ BIND(L_skip_align1); | |
947 } | |
948 // Two bytes misalignment happens only for byte and short (char) arrays | |
949 __ testl(from, 2); | |
950 __ jccb(Assembler::zero, L_skip_align2); | |
951 __ movw(rax, Address(from, 0)); | |
952 __ movw(Address(from, to_from, Address::times_1, 0), rax); | |
304 | 953 __ addptr(from, 2); |
0 | 954 __ subl(count, 1<<(shift-1)); |
955 __ BIND(L_skip_align2); | |
956 } | |
957 if (!VM_Version::supports_mmx()) { | |
304 | 958 __ mov(rax, count); // save 'count' |
959 __ shrl(count, shift); // bytes count | |
960 __ addptr(to_from, from);// restore 'to' | |
961 __ rep_mov(); | |
962 __ subptr(to_from, from);// restore 'to_from' | |
963 __ mov(count, rax); // restore 'count' | |
0 | 964 __ jmpb(L_copy_2_bytes); // all dwords were copied |
965 } else { | |
405 | 966 if (!UseUnalignedLoadStores) { |
967 // align to 8 bytes, we know we are 4 byte aligned to start | |
968 __ testptr(from, 4); | |
969 __ jccb(Assembler::zero, L_copy_64_bytes); | |
970 __ movl(rax, Address(from, 0)); | |
971 __ movl(Address(from, to_from, Address::times_1, 0), rax); | |
972 __ addptr(from, 4); | |
973 __ subl(count, 1<<shift); | |
974 } | |
0 | 975 __ BIND(L_copy_64_bytes); |
304 | 976 __ mov(rax, count); |
0 | 977 __ shrl(rax, shift+1); // 8 bytes chunk count |
978 // | |
979 // Copy 8-byte chunks through MMX registers, 8 per iteration of the loop | |
980 // | |
405 | 981 if (UseXMMForArrayCopy) { |
982 xmm_copy_forward(from, to_from, rax); | |
983 } else { | |
984 mmx_copy_forward(from, to_from, rax); | |
985 } | |
0 | 986 } |
987 // copy tailing dword | |
988 __ BIND(L_copy_4_bytes); | |
989 __ testl(count, 1<<shift); | |
990 __ jccb(Assembler::zero, L_copy_2_bytes); | |
991 __ movl(rax, Address(from, 0)); | |
992 __ movl(Address(from, to_from, Address::times_1, 0), rax); | |
993 if (t == T_BYTE || t == T_SHORT) { | |
304 | 994 __ addptr(from, 4); |
0 | 995 __ BIND(L_copy_2_bytes); |
996 // copy tailing word | |
997 __ testl(count, 1<<(shift-1)); | |
998 __ jccb(Assembler::zero, L_copy_byte); | |
999 __ movw(rax, Address(from, 0)); | |
1000 __ movw(Address(from, to_from, Address::times_1, 0), rax); | |
1001 if (t == T_BYTE) { | |
304 | 1002 __ addptr(from, 2); |
0 | 1003 __ BIND(L_copy_byte); |
1004 // copy tailing byte | |
1005 __ testl(count, 1); | |
1006 __ jccb(Assembler::zero, L_exit); | |
1007 __ movb(rax, Address(from, 0)); | |
1008 __ movb(Address(from, to_from, Address::times_1, 0), rax); | |
1009 __ BIND(L_exit); | |
1010 } else { | |
1011 __ BIND(L_copy_byte); | |
1012 } | |
1013 } else { | |
1014 __ BIND(L_copy_2_bytes); | |
1015 } | |
1016 | |
1017 if (t == T_OBJECT) { | |
1018 __ movl(count, Address(rsp, 12+12)); // reread 'count' | |
304 | 1019 __ mov(to, saved_to); // restore 'to' |
0 | 1020 gen_write_ref_array_post_barrier(to, count); |
1021 __ BIND(L_0_count); | |
1022 } | |
1023 inc_copy_counter_np(t); | |
304 | 1024 __ pop(rdi); |
1025 __ pop(rsi); | |
0 | 1026 __ leave(); // required for proper stackwalking of RuntimeStub frame |
304 | 1027 __ xorptr(rax, rax); // return 0 |
0 | 1028 __ ret(0); |
1029 return start; | |
1030 } | |
1031 | |
1032 | |
1763 | 1033 address generate_fill(BasicType t, bool aligned, const char *name) { |
1034 __ align(CodeEntryAlignment); | |
1035 StubCodeMark mark(this, "StubRoutines", name); | |
1036 address start = __ pc(); | |
1037 | |
1038 BLOCK_COMMENT("Entry:"); | |
1039 | |
1040 const Register to = rdi; // source array address | |
1041 const Register value = rdx; // value | |
1042 const Register count = rsi; // elements count | |
1043 | |
1044 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
1045 __ push(rsi); | |
1046 __ push(rdi); | |
1047 __ movptr(to , Address(rsp, 12+ 4)); | |
1048 __ movl(value, Address(rsp, 12+ 8)); | |
1049 __ movl(count, Address(rsp, 12+ 12)); | |
1050 | |
1051 __ generate_fill(t, aligned, to, value, count, rax, xmm0); | |
1052 | |
1053 __ pop(rdi); | |
1054 __ pop(rsi); | |
1055 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
1056 __ ret(0); | |
1057 return start; | |
1058 } | |
1059 | |
0 | 1060 address generate_conjoint_copy(BasicType t, bool aligned, |
1061 Address::ScaleFactor sf, | |
1062 address nooverlap_target, | |
2324 | 1063 address* entry, const char *name, |
1064 bool dest_uninitialized = false) { | |
0 | 1065 __ align(CodeEntryAlignment); |
1066 StubCodeMark mark(this, "StubRoutines", name); | |
1067 address start = __ pc(); | |
1068 | |
1069 Label L_0_count, L_exit, L_skip_align1, L_skip_align2, L_copy_byte; | |
1070 Label L_copy_2_bytes, L_copy_4_bytes, L_copy_8_bytes, L_copy_8_bytes_loop; | |
1071 | |
304 | 1072 int shift = Address::times_ptr - sf; |
0 | 1073 |
1074 const Register src = rax; // source array address | |
1075 const Register dst = rdx; // destination array address | |
1076 const Register from = rsi; // source array address | |
1077 const Register to = rdi; // destination array address | |
1078 const Register count = rcx; // elements count | |
1079 const Register end = rax; // array end address | |
1080 | |
1081 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1082 __ push(rsi); |
1083 __ push(rdi); | |
1084 __ movptr(src , Address(rsp, 12+ 4)); // from | |
1085 __ movptr(dst , Address(rsp, 12+ 8)); // to | |
1086 __ movl2ptr(count, Address(rsp, 12+12)); // count | |
0 | 1087 |
1088 if (entry != NULL) { | |
1089 *entry = __ pc(); // Entry point from generic arraycopy stub. | |
1090 BLOCK_COMMENT("Entry:"); | |
1091 } | |
1092 | |
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1093 // nooverlap_target expects arguments in rsi and rdi. |
304 | 1094 __ mov(from, src); |
1095 __ mov(to , dst); | |
0 | 1096 |
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1097 // arrays overlap test: dispatch to disjoint stub if necessary. |
0 | 1098 RuntimeAddress nooverlap(nooverlap_target); |
304 | 1099 __ cmpptr(dst, src); |
1100 __ lea(end, Address(src, count, sf, 0)); // src + count * elem_size | |
0 | 1101 __ jump_cc(Assembler::belowEqual, nooverlap); |
304 | 1102 __ cmpptr(dst, end); |
0 | 1103 __ jump_cc(Assembler::aboveEqual, nooverlap); |
1104 | |
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1105 if (t == T_OBJECT) { |
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1106 __ testl(count, count); |
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1107 __ jcc(Assembler::zero, L_0_count); |
2324 | 1108 gen_write_ref_array_pre_barrier(dst, count, dest_uninitialized); |
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1109 } |
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1110 |
0 | 1111 // copy from high to low |
1112 __ cmpl(count, 2<<shift); // Short arrays (< 8 bytes) copy by element | |
1113 __ jcc(Assembler::below, L_copy_4_bytes); // use unsigned cmp | |
1114 if (t == T_BYTE || t == T_SHORT) { | |
1115 // Align the end of destination array at 4 bytes address boundary | |
304 | 1116 __ lea(end, Address(dst, count, sf, 0)); |
0 | 1117 if (t == T_BYTE) { |
1118 // One byte misalignment happens only for byte arrays | |
1119 __ testl(end, 1); | |
1120 __ jccb(Assembler::zero, L_skip_align1); | |
1121 __ decrement(count); | |
1122 __ movb(rdx, Address(from, count, sf, 0)); | |
1123 __ movb(Address(to, count, sf, 0), rdx); | |
1124 __ BIND(L_skip_align1); | |
1125 } | |
1126 // Two bytes misalignment happens only for byte and short (char) arrays | |
1127 __ testl(end, 2); | |
1128 __ jccb(Assembler::zero, L_skip_align2); | |
304 | 1129 __ subptr(count, 1<<(shift-1)); |
0 | 1130 __ movw(rdx, Address(from, count, sf, 0)); |
1131 __ movw(Address(to, count, sf, 0), rdx); | |
1132 __ BIND(L_skip_align2); | |
1133 __ cmpl(count, 2<<shift); // Short arrays (< 8 bytes) copy by element | |
1134 __ jcc(Assembler::below, L_copy_4_bytes); | |
1135 } | |
1136 | |
1137 if (!VM_Version::supports_mmx()) { | |
1138 __ std(); | |
304 | 1139 __ mov(rax, count); // Save 'count' |
1140 __ mov(rdx, to); // Save 'to' | |
1141 __ lea(rsi, Address(from, count, sf, -4)); | |
1142 __ lea(rdi, Address(to , count, sf, -4)); | |
1143 __ shrptr(count, shift); // bytes count | |
1144 __ rep_mov(); | |
0 | 1145 __ cld(); |
304 | 1146 __ mov(count, rax); // restore 'count' |
0 | 1147 __ andl(count, (1<<shift)-1); // mask the number of rest elements |
304 | 1148 __ movptr(from, Address(rsp, 12+4)); // reread 'from' |
1149 __ mov(to, rdx); // restore 'to' | |
0 | 1150 __ jmpb(L_copy_2_bytes); // all dword were copied |
1151 } else { | |
1152 // Align to 8 bytes the end of array. It is aligned to 4 bytes already. | |
304 | 1153 __ testptr(end, 4); |
0 | 1154 __ jccb(Assembler::zero, L_copy_8_bytes); |
1155 __ subl(count, 1<<shift); | |
1156 __ movl(rdx, Address(from, count, sf, 0)); | |
1157 __ movl(Address(to, count, sf, 0), rdx); | |
1158 __ jmpb(L_copy_8_bytes); | |
1159 | |
1365 | 1160 __ align(OptoLoopAlignment); |
0 | 1161 // Move 8 bytes |
1162 __ BIND(L_copy_8_bytes_loop); | |
405 | 1163 if (UseXMMForArrayCopy) { |
1164 __ movq(xmm0, Address(from, count, sf, 0)); | |
1165 __ movq(Address(to, count, sf, 0), xmm0); | |
1166 } else { | |
1167 __ movq(mmx0, Address(from, count, sf, 0)); | |
1168 __ movq(Address(to, count, sf, 0), mmx0); | |
1169 } | |
0 | 1170 __ BIND(L_copy_8_bytes); |
1171 __ subl(count, 2<<shift); | |
1172 __ jcc(Assembler::greaterEqual, L_copy_8_bytes_loop); | |
1173 __ addl(count, 2<<shift); | |
405 | 1174 if (!UseXMMForArrayCopy) { |
1175 __ emms(); | |
1176 } | |
0 | 1177 } |
1178 __ BIND(L_copy_4_bytes); | |
1179 // copy prefix qword | |
1180 __ testl(count, 1<<shift); | |
1181 __ jccb(Assembler::zero, L_copy_2_bytes); | |
1182 __ movl(rdx, Address(from, count, sf, -4)); | |
1183 __ movl(Address(to, count, sf, -4), rdx); | |
1184 | |
1185 if (t == T_BYTE || t == T_SHORT) { | |
1186 __ subl(count, (1<<shift)); | |
1187 __ BIND(L_copy_2_bytes); | |
1188 // copy prefix dword | |
1189 __ testl(count, 1<<(shift-1)); | |
1190 __ jccb(Assembler::zero, L_copy_byte); | |
1191 __ movw(rdx, Address(from, count, sf, -2)); | |
1192 __ movw(Address(to, count, sf, -2), rdx); | |
1193 if (t == T_BYTE) { | |
1194 __ subl(count, 1<<(shift-1)); | |
1195 __ BIND(L_copy_byte); | |
1196 // copy prefix byte | |
1197 __ testl(count, 1); | |
1198 __ jccb(Assembler::zero, L_exit); | |
1199 __ movb(rdx, Address(from, 0)); | |
1200 __ movb(Address(to, 0), rdx); | |
1201 __ BIND(L_exit); | |
1202 } else { | |
1203 __ BIND(L_copy_byte); | |
1204 } | |
1205 } else { | |
1206 __ BIND(L_copy_2_bytes); | |
1207 } | |
1208 if (t == T_OBJECT) { | |
304 | 1209 __ movl2ptr(count, Address(rsp, 12+12)); // reread count |
0 | 1210 gen_write_ref_array_post_barrier(to, count); |
1211 __ BIND(L_0_count); | |
1212 } | |
1213 inc_copy_counter_np(t); | |
304 | 1214 __ pop(rdi); |
1215 __ pop(rsi); | |
0 | 1216 __ leave(); // required for proper stackwalking of RuntimeStub frame |
304 | 1217 __ xorptr(rax, rax); // return 0 |
0 | 1218 __ ret(0); |
1219 return start; | |
1220 } | |
1221 | |
1222 | |
1223 address generate_disjoint_long_copy(address* entry, const char *name) { | |
1224 __ align(CodeEntryAlignment); | |
1225 StubCodeMark mark(this, "StubRoutines", name); | |
1226 address start = __ pc(); | |
1227 | |
1228 Label L_copy_8_bytes, L_copy_8_bytes_loop; | |
1229 const Register from = rax; // source array address | |
1230 const Register to = rdx; // destination array address | |
1231 const Register count = rcx; // elements count | |
1232 const Register to_from = rdx; // (to - from) | |
1233 | |
1234 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1235 __ movptr(from , Address(rsp, 8+0)); // from |
1236 __ movptr(to , Address(rsp, 8+4)); // to | |
1237 __ movl2ptr(count, Address(rsp, 8+8)); // count | |
0 | 1238 |
1239 *entry = __ pc(); // Entry point from conjoint arraycopy stub. | |
1240 BLOCK_COMMENT("Entry:"); | |
1241 | |
304 | 1242 __ subptr(to, from); // to --> to_from |
0 | 1243 if (VM_Version::supports_mmx()) { |
405 | 1244 if (UseXMMForArrayCopy) { |
1245 xmm_copy_forward(from, to_from, count); | |
1246 } else { | |
1247 mmx_copy_forward(from, to_from, count); | |
1248 } | |
0 | 1249 } else { |
1250 __ jmpb(L_copy_8_bytes); | |
1365 | 1251 __ align(OptoLoopAlignment); |
0 | 1252 __ BIND(L_copy_8_bytes_loop); |
1253 __ fild_d(Address(from, 0)); | |
1254 __ fistp_d(Address(from, to_from, Address::times_1)); | |
304 | 1255 __ addptr(from, 8); |
0 | 1256 __ BIND(L_copy_8_bytes); |
1257 __ decrement(count); | |
1258 __ jcc(Assembler::greaterEqual, L_copy_8_bytes_loop); | |
1259 } | |
1260 inc_copy_counter_np(T_LONG); | |
1261 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1262 __ xorptr(rax, rax); // return 0 |
0 | 1263 __ ret(0); |
1264 return start; | |
1265 } | |
1266 | |
1267 address generate_conjoint_long_copy(address nooverlap_target, | |
1268 address* entry, const char *name) { | |
1269 __ align(CodeEntryAlignment); | |
1270 StubCodeMark mark(this, "StubRoutines", name); | |
1271 address start = __ pc(); | |
1272 | |
1273 Label L_copy_8_bytes, L_copy_8_bytes_loop; | |
1274 const Register from = rax; // source array address | |
1275 const Register to = rdx; // destination array address | |
1276 const Register count = rcx; // elements count | |
1277 const Register end_from = rax; // source array end address | |
1278 | |
1279 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1280 __ movptr(from , Address(rsp, 8+0)); // from |
1281 __ movptr(to , Address(rsp, 8+4)); // to | |
1282 __ movl2ptr(count, Address(rsp, 8+8)); // count | |
0 | 1283 |
1284 *entry = __ pc(); // Entry point from generic arraycopy stub. | |
1285 BLOCK_COMMENT("Entry:"); | |
1286 | |
1287 // arrays overlap test | |
304 | 1288 __ cmpptr(to, from); |
0 | 1289 RuntimeAddress nooverlap(nooverlap_target); |
1290 __ jump_cc(Assembler::belowEqual, nooverlap); | |
304 | 1291 __ lea(end_from, Address(from, count, Address::times_8, 0)); |
1292 __ cmpptr(to, end_from); | |
1293 __ movptr(from, Address(rsp, 8)); // from | |
0 | 1294 __ jump_cc(Assembler::aboveEqual, nooverlap); |
1295 | |
1296 __ jmpb(L_copy_8_bytes); | |
1297 | |
1365 | 1298 __ align(OptoLoopAlignment); |
0 | 1299 __ BIND(L_copy_8_bytes_loop); |
1300 if (VM_Version::supports_mmx()) { | |
405 | 1301 if (UseXMMForArrayCopy) { |
1302 __ movq(xmm0, Address(from, count, Address::times_8)); | |
1303 __ movq(Address(to, count, Address::times_8), xmm0); | |
1304 } else { | |
1305 __ movq(mmx0, Address(from, count, Address::times_8)); | |
1306 __ movq(Address(to, count, Address::times_8), mmx0); | |
1307 } | |
0 | 1308 } else { |
1309 __ fild_d(Address(from, count, Address::times_8)); | |
1310 __ fistp_d(Address(to, count, Address::times_8)); | |
1311 } | |
1312 __ BIND(L_copy_8_bytes); | |
1313 __ decrement(count); | |
1314 __ jcc(Assembler::greaterEqual, L_copy_8_bytes_loop); | |
1315 | |
405 | 1316 if (VM_Version::supports_mmx() && !UseXMMForArrayCopy) { |
0 | 1317 __ emms(); |
1318 } | |
1319 inc_copy_counter_np(T_LONG); | |
1320 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1321 __ xorptr(rax, rax); // return 0 |
0 | 1322 __ ret(0); |
1323 return start; | |
1324 } | |
1325 | |
1326 | |
1327 // Helper for generating a dynamic type check. | |
1328 // The sub_klass must be one of {rbx, rdx, rsi}. | |
1329 // The temp is killed. | |
1330 void generate_type_check(Register sub_klass, | |
1331 Address& super_check_offset_addr, | |
1332 Address& super_klass_addr, | |
1333 Register temp, | |
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1334 Label* L_success, Label* L_failure) { |
0 | 1335 BLOCK_COMMENT("type_check:"); |
1336 | |
1337 Label L_fallthrough; | |
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1338 #define LOCAL_JCC(assembler_con, label_ptr) \ |
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1339 if (label_ptr != NULL) __ jcc(assembler_con, *(label_ptr)); \ |
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1340 else __ jcc(assembler_con, L_fallthrough) /*omit semi*/ |
0 | 1341 |
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1342 // The following is a strange variation of the fast path which requires |
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1343 // one less register, because needed values are on the argument stack. |
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1344 // __ check_klass_subtype_fast_path(sub_klass, *super_klass*, temp, |
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1345 // L_success, L_failure, NULL); |
0 | 1346 assert_different_registers(sub_klass, temp); |
1347 | |
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1348 int sc_offset = in_bytes(Klass::secondary_super_cache_offset()); |
0 | 1349 |
1350 // if the pointers are equal, we are done (e.g., String[] elements) | |
304 | 1351 __ cmpptr(sub_klass, super_klass_addr); |
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1352 LOCAL_JCC(Assembler::equal, L_success); |
0 | 1353 |
1354 // check the supertype display: | |
304 | 1355 __ movl2ptr(temp, super_check_offset_addr); |
0 | 1356 Address super_check_addr(sub_klass, temp, Address::times_1, 0); |
304 | 1357 __ movptr(temp, super_check_addr); // load displayed supertype |
1358 __ cmpptr(temp, super_klass_addr); // test the super type | |
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1359 LOCAL_JCC(Assembler::equal, L_success); |
0 | 1360 |
1361 // if it was a primary super, we can just fail immediately | |
1362 __ cmpl(super_check_offset_addr, sc_offset); | |
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1363 LOCAL_JCC(Assembler::notEqual, L_failure); |
0 | 1364 |
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1365 // The repne_scan instruction uses fixed registers, which will get spilled. |
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1366 // We happen to know this works best when super_klass is in rax. |
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1367 Register super_klass = temp; |
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1368 __ movptr(super_klass, super_klass_addr); |
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1369 __ check_klass_subtype_slow_path(sub_klass, super_klass, noreg, noreg, |
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1370 L_success, L_failure); |
0 | 1371 |
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1372 __ bind(L_fallthrough); |
0 | 1373 |
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1374 if (L_success == NULL) { BLOCK_COMMENT("L_success:"); } |
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1375 if (L_failure == NULL) { BLOCK_COMMENT("L_failure:"); } |
0 | 1376 |
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1377 #undef LOCAL_JCC |
0 | 1378 } |
1379 | |
1380 // | |
1381 // Generate checkcasting array copy stub | |
1382 // | |
1383 // Input: | |
1384 // 4(rsp) - source array address | |
1385 // 8(rsp) - destination array address | |
1386 // 12(rsp) - element count, can be zero | |
1387 // 16(rsp) - size_t ckoff (super_check_offset) | |
1388 // 20(rsp) - oop ckval (super_klass) | |
1389 // | |
1390 // Output: | |
1391 // rax, == 0 - success | |
1392 // rax, == -1^K - failure, where K is partial transfer count | |
1393 // | |
2324 | 1394 address generate_checkcast_copy(const char *name, address* entry, bool dest_uninitialized = false) { |
0 | 1395 __ align(CodeEntryAlignment); |
1396 StubCodeMark mark(this, "StubRoutines", name); | |
1397 address start = __ pc(); | |
1398 | |
1399 Label L_load_element, L_store_element, L_do_card_marks, L_done; | |
1400 | |
1401 // register use: | |
1402 // rax, rdx, rcx -- loop control (end_from, end_to, count) | |
1403 // rdi, rsi -- element access (oop, klass) | |
1404 // rbx, -- temp | |
1405 const Register from = rax; // source array address | |
1406 const Register to = rdx; // destination array address | |
1407 const Register length = rcx; // elements count | |
1408 const Register elem = rdi; // each oop copied | |
1409 const Register elem_klass = rsi; // each elem._klass (sub_klass) | |
1410 const Register temp = rbx; // lone remaining temp | |
1411 | |
1412 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
1413 | |
304 | 1414 __ push(rsi); |
1415 __ push(rdi); | |
1416 __ push(rbx); | |
0 | 1417 |
1418 Address from_arg(rsp, 16+ 4); // from | |
1419 Address to_arg(rsp, 16+ 8); // to | |
1420 Address length_arg(rsp, 16+12); // elements count | |
1421 Address ckoff_arg(rsp, 16+16); // super_check_offset | |
1422 Address ckval_arg(rsp, 16+20); // super_klass | |
1423 | |
1424 // Load up: | |
304 | 1425 __ movptr(from, from_arg); |
1426 __ movptr(to, to_arg); | |
1427 __ movl2ptr(length, length_arg); | |
0 | 1428 |
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1429 if (entry != NULL) { |
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1430 *entry = __ pc(); // Entry point from generic arraycopy stub. |
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1431 BLOCK_COMMENT("Entry:"); |
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1432 } |
0 | 1433 |
1434 //--------------------------------------------------------------- | |
1435 // Assembler stub will be used for this call to arraycopy | |
1436 // if the two arrays are subtypes of Object[] but the | |
1437 // destination array type is not equal to or a supertype | |
1438 // of the source type. Each element must be separately | |
1439 // checked. | |
1440 | |
1441 // Loop-invariant addresses. They are exclusive end pointers. | |
304 | 1442 Address end_from_addr(from, length, Address::times_ptr, 0); |
1443 Address end_to_addr(to, length, Address::times_ptr, 0); | |
0 | 1444 |
1445 Register end_from = from; // re-use | |
1446 Register end_to = to; // re-use | |
1447 Register count = length; // re-use | |
1448 | |
1449 // Loop-variant addresses. They assume post-incremented count < 0. | |
304 | 1450 Address from_element_addr(end_from, count, Address::times_ptr, 0); |
1451 Address to_element_addr(end_to, count, Address::times_ptr, 0); | |
0 | 1452 Address elem_klass_addr(elem, oopDesc::klass_offset_in_bytes()); |
1453 | |
1454 // Copy from low to high addresses, indexed from the end of each array. | |
2324 | 1455 gen_write_ref_array_pre_barrier(to, count, dest_uninitialized); |
304 | 1456 __ lea(end_from, end_from_addr); |
1457 __ lea(end_to, end_to_addr); | |
0 | 1458 assert(length == count, ""); // else fix next line: |
304 | 1459 __ negptr(count); // negate and test the length |
0 | 1460 __ jccb(Assembler::notZero, L_load_element); |
1461 | |
1462 // Empty array: Nothing to do. | |
304 | 1463 __ xorptr(rax, rax); // return 0 on (trivial) success |
0 | 1464 __ jmp(L_done); |
1465 | |
1466 // ======== begin loop ======== | |
1467 // (Loop is rotated; its entry is L_load_element.) | |
1468 // Loop control: | |
1469 // for (count = -count; count != 0; count++) | |
1470 // Base pointers src, dst are biased by 8*count,to last element. | |
1365 | 1471 __ align(OptoLoopAlignment); |
0 | 1472 |
1473 __ BIND(L_store_element); | |
304 | 1474 __ movptr(to_element_addr, elem); // store the oop |
0 | 1475 __ increment(count); // increment the count toward zero |
1476 __ jccb(Assembler::zero, L_do_card_marks); | |
1477 | |
1478 // ======== loop entry is here ======== | |
1479 __ BIND(L_load_element); | |
304 | 1480 __ movptr(elem, from_element_addr); // load the oop |
1481 __ testptr(elem, elem); | |
0 | 1482 __ jccb(Assembler::zero, L_store_element); |
1483 | |
1484 // (Could do a trick here: Remember last successful non-null | |
1485 // element stored and make a quick oop equality check on it.) | |
1486 | |
304 | 1487 __ movptr(elem_klass, elem_klass_addr); // query the object klass |
0 | 1488 generate_type_check(elem_klass, ckoff_arg, ckval_arg, temp, |
1489 &L_store_element, NULL); | |
1490 // (On fall-through, we have failed the element type check.) | |
1491 // ======== end loop ======== | |
1492 | |
1493 // It was a real error; we must depend on the caller to finish the job. | |
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1494 // Register "count" = -1 * number of *remaining* oops, length_arg = *total* oops. |
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1495 // Emit GC store barriers for the oops we have copied (length_arg + count), |
0 | 1496 // and report their number to the caller. |
1497 __ addl(count, length_arg); // transfers = (length - remaining) | |
304 | 1498 __ movl2ptr(rax, count); // save the value |
1499 __ notptr(rax); // report (-1^K) to caller | |
1500 __ movptr(to, to_arg); // reload | |
0 | 1501 assert_different_registers(to, count, rax); |
1502 gen_write_ref_array_post_barrier(to, count); | |
1503 __ jmpb(L_done); | |
1504 | |
1505 // Come here on success only. | |
1506 __ BIND(L_do_card_marks); | |
304 | 1507 __ movl2ptr(count, length_arg); |
1508 __ movptr(to, to_arg); // reload | |
0 | 1509 gen_write_ref_array_post_barrier(to, count); |
304 | 1510 __ xorptr(rax, rax); // return 0 on success |
0 | 1511 |
1512 // Common exit point (success or failure). | |
1513 __ BIND(L_done); | |
304 | 1514 __ pop(rbx); |
1515 __ pop(rdi); | |
1516 __ pop(rsi); | |
0 | 1517 inc_counter_np(SharedRuntime::_checkcast_array_copy_ctr); |
1518 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
1519 __ ret(0); | |
1520 | |
1521 return start; | |
1522 } | |
1523 | |
1524 // | |
1525 // Generate 'unsafe' array copy stub | |
1526 // Though just as safe as the other stubs, it takes an unscaled | |
1527 // size_t argument instead of an element count. | |
1528 // | |
1529 // Input: | |
1530 // 4(rsp) - source array address | |
1531 // 8(rsp) - destination array address | |
1532 // 12(rsp) - byte count, can be zero | |
1533 // | |
1534 // Output: | |
1535 // rax, == 0 - success | |
1536 // rax, == -1 - need to call System.arraycopy | |
1537 // | |
1538 // Examines the alignment of the operands and dispatches | |
1539 // to a long, int, short, or byte copy loop. | |
1540 // | |
1541 address generate_unsafe_copy(const char *name, | |
1542 address byte_copy_entry, | |
1543 address short_copy_entry, | |
1544 address int_copy_entry, | |
1545 address long_copy_entry) { | |
1546 | |
1547 Label L_long_aligned, L_int_aligned, L_short_aligned; | |
1548 | |
1549 __ align(CodeEntryAlignment); | |
1550 StubCodeMark mark(this, "StubRoutines", name); | |
1551 address start = __ pc(); | |
1552 | |
1553 const Register from = rax; // source array address | |
1554 const Register to = rdx; // destination array address | |
1555 const Register count = rcx; // elements count | |
1556 | |
1557 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1558 __ push(rsi); |
1559 __ push(rdi); | |
0 | 1560 Address from_arg(rsp, 12+ 4); // from |
1561 Address to_arg(rsp, 12+ 8); // to | |
1562 Address count_arg(rsp, 12+12); // byte count | |
1563 | |
1564 // Load up: | |
304 | 1565 __ movptr(from , from_arg); |
1566 __ movptr(to , to_arg); | |
1567 __ movl2ptr(count, count_arg); | |
0 | 1568 |
1569 // bump this on entry, not on exit: | |
1570 inc_counter_np(SharedRuntime::_unsafe_array_copy_ctr); | |
1571 | |
1572 const Register bits = rsi; | |
304 | 1573 __ mov(bits, from); |
1574 __ orptr(bits, to); | |
1575 __ orptr(bits, count); | |
0 | 1576 |
1577 __ testl(bits, BytesPerLong-1); | |
1578 __ jccb(Assembler::zero, L_long_aligned); | |
1579 | |
1580 __ testl(bits, BytesPerInt-1); | |
1581 __ jccb(Assembler::zero, L_int_aligned); | |
1582 | |
1583 __ testl(bits, BytesPerShort-1); | |
1584 __ jump_cc(Assembler::notZero, RuntimeAddress(byte_copy_entry)); | |
1585 | |
1586 __ BIND(L_short_aligned); | |
304 | 1587 __ shrptr(count, LogBytesPerShort); // size => short_count |
0 | 1588 __ movl(count_arg, count); // update 'count' |
1589 __ jump(RuntimeAddress(short_copy_entry)); | |
1590 | |
1591 __ BIND(L_int_aligned); | |
304 | 1592 __ shrptr(count, LogBytesPerInt); // size => int_count |
0 | 1593 __ movl(count_arg, count); // update 'count' |
1594 __ jump(RuntimeAddress(int_copy_entry)); | |
1595 | |
1596 __ BIND(L_long_aligned); | |
304 | 1597 __ shrptr(count, LogBytesPerLong); // size => qword_count |
0 | 1598 __ movl(count_arg, count); // update 'count' |
304 | 1599 __ pop(rdi); // Do pops here since jlong_arraycopy stub does not do it. |
1600 __ pop(rsi); | |
0 | 1601 __ jump(RuntimeAddress(long_copy_entry)); |
1602 | |
1603 return start; | |
1604 } | |
1605 | |
1606 | |
1607 // Perform range checks on the proposed arraycopy. | |
1608 // Smashes src_pos and dst_pos. (Uses them up for temps.) | |
1609 void arraycopy_range_checks(Register src, | |
1610 Register src_pos, | |
1611 Register dst, | |
1612 Register dst_pos, | |
1613 Address& length, | |
1614 Label& L_failed) { | |
1615 BLOCK_COMMENT("arraycopy_range_checks:"); | |
1616 const Register src_end = src_pos; // source array end position | |
1617 const Register dst_end = dst_pos; // destination array end position | |
1618 __ addl(src_end, length); // src_pos + length | |
1619 __ addl(dst_end, length); // dst_pos + length | |
1620 | |
1621 // if (src_pos + length > arrayOop(src)->length() ) FAIL; | |
1622 __ cmpl(src_end, Address(src, arrayOopDesc::length_offset_in_bytes())); | |
1623 __ jcc(Assembler::above, L_failed); | |
1624 | |
1625 // if (dst_pos + length > arrayOop(dst)->length() ) FAIL; | |
1626 __ cmpl(dst_end, Address(dst, arrayOopDesc::length_offset_in_bytes())); | |
1627 __ jcc(Assembler::above, L_failed); | |
1628 | |
1629 BLOCK_COMMENT("arraycopy_range_checks done"); | |
1630 } | |
1631 | |
1632 | |
1633 // | |
1634 // Generate generic array copy stubs | |
1635 // | |
1636 // Input: | |
1637 // 4(rsp) - src oop | |
1638 // 8(rsp) - src_pos | |
1639 // 12(rsp) - dst oop | |
1640 // 16(rsp) - dst_pos | |
1641 // 20(rsp) - element count | |
1642 // | |
1643 // Output: | |
1644 // rax, == 0 - success | |
1645 // rax, == -1^K - failure, where K is partial transfer count | |
1646 // | |
1647 address generate_generic_copy(const char *name, | |
1648 address entry_jbyte_arraycopy, | |
1649 address entry_jshort_arraycopy, | |
1650 address entry_jint_arraycopy, | |
1651 address entry_oop_arraycopy, | |
1652 address entry_jlong_arraycopy, | |
1653 address entry_checkcast_arraycopy) { | |
1654 Label L_failed, L_failed_0, L_objArray; | |
1655 | |
1656 { int modulus = CodeEntryAlignment; | |
1657 int target = modulus - 5; // 5 = sizeof jmp(L_failed) | |
1658 int advance = target - (__ offset() % modulus); | |
1659 if (advance < 0) advance += modulus; | |
1660 if (advance > 0) __ nop(advance); | |
1661 } | |
1662 StubCodeMark mark(this, "StubRoutines", name); | |
1663 | |
1664 // Short-hop target to L_failed. Makes for denser prologue code. | |
1665 __ BIND(L_failed_0); | |
1666 __ jmp(L_failed); | |
1667 assert(__ offset() % CodeEntryAlignment == 0, "no further alignment needed"); | |
1668 | |
1669 __ align(CodeEntryAlignment); | |
1670 address start = __ pc(); | |
1671 | |
1672 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
304 | 1673 __ push(rsi); |
1674 __ push(rdi); | |
0 | 1675 |
1676 // bump this on entry, not on exit: | |
1677 inc_counter_np(SharedRuntime::_generic_array_copy_ctr); | |
1678 | |
1679 // Input values | |
1680 Address SRC (rsp, 12+ 4); | |
1681 Address SRC_POS (rsp, 12+ 8); | |
1682 Address DST (rsp, 12+12); | |
1683 Address DST_POS (rsp, 12+16); | |
1684 Address LENGTH (rsp, 12+20); | |
1685 | |
1686 //----------------------------------------------------------------------- | |
1687 // Assembler stub will be used for this call to arraycopy | |
1688 // if the following conditions are met: | |
1689 // | |
1690 // (1) src and dst must not be null. | |
1691 // (2) src_pos must not be negative. | |
1692 // (3) dst_pos must not be negative. | |
1693 // (4) length must not be negative. | |
1694 // (5) src klass and dst klass should be the same and not NULL. | |
1695 // (6) src and dst should be arrays. | |
1696 // (7) src_pos + length must not exceed length of src. | |
1697 // (8) dst_pos + length must not exceed length of dst. | |
1698 // | |
1699 | |
1700 const Register src = rax; // source array oop | |
1701 const Register src_pos = rsi; | |
1702 const Register dst = rdx; // destination array oop | |
1703 const Register dst_pos = rdi; | |
1704 const Register length = rcx; // transfer count | |
1705 | |
1706 // if (src == NULL) return -1; | |
304 | 1707 __ movptr(src, SRC); // src oop |
1708 __ testptr(src, src); | |
0 | 1709 __ jccb(Assembler::zero, L_failed_0); |
1710 | |
1711 // if (src_pos < 0) return -1; | |
304 | 1712 __ movl2ptr(src_pos, SRC_POS); // src_pos |
0 | 1713 __ testl(src_pos, src_pos); |
1714 __ jccb(Assembler::negative, L_failed_0); | |
1715 | |
1716 // if (dst == NULL) return -1; | |
304 | 1717 __ movptr(dst, DST); // dst oop |
1718 __ testptr(dst, dst); | |
0 | 1719 __ jccb(Assembler::zero, L_failed_0); |
1720 | |
1721 // if (dst_pos < 0) return -1; | |
304 | 1722 __ movl2ptr(dst_pos, DST_POS); // dst_pos |
0 | 1723 __ testl(dst_pos, dst_pos); |
1724 __ jccb(Assembler::negative, L_failed_0); | |
1725 | |
1726 // if (length < 0) return -1; | |
304 | 1727 __ movl2ptr(length, LENGTH); // length |
0 | 1728 __ testl(length, length); |
1729 __ jccb(Assembler::negative, L_failed_0); | |
1730 | |
1731 // if (src->klass() == NULL) return -1; | |
1732 Address src_klass_addr(src, oopDesc::klass_offset_in_bytes()); | |
1733 Address dst_klass_addr(dst, oopDesc::klass_offset_in_bytes()); | |
1734 const Register rcx_src_klass = rcx; // array klass | |
304 | 1735 __ movptr(rcx_src_klass, Address(src, oopDesc::klass_offset_in_bytes())); |
0 | 1736 |
1737 #ifdef ASSERT | |
1738 // assert(src->klass() != NULL); | |
1739 BLOCK_COMMENT("assert klasses not null"); | |
1740 { Label L1, L2; | |
304 | 1741 __ testptr(rcx_src_klass, rcx_src_klass); |
0 | 1742 __ jccb(Assembler::notZero, L2); // it is broken if klass is NULL |
1743 __ bind(L1); | |
1744 __ stop("broken null klass"); | |
1745 __ bind(L2); | |
304 | 1746 __ cmpptr(dst_klass_addr, (int32_t)NULL_WORD); |
0 | 1747 __ jccb(Assembler::equal, L1); // this would be broken also |
1748 BLOCK_COMMENT("assert done"); | |
1749 } | |
1750 #endif //ASSERT | |
1751 | |
1752 // Load layout helper (32-bits) | |
1753 // | |
1754 // |array_tag| | header_size | element_type | |log2_element_size| | |
1755 // 32 30 24 16 8 2 0 | |
1756 // | |
1757 // array_tag: typeArray = 0x3, objArray = 0x2, non-array = 0x0 | |
1758 // | |
1759 | |
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1760 int lh_offset = in_bytes(Klass::layout_helper_offset()); |
0 | 1761 Address src_klass_lh_addr(rcx_src_klass, lh_offset); |
1762 | |
1763 // Handle objArrays completely differently... | |
1764 jint objArray_lh = Klass::array_layout_helper(T_OBJECT); | |
1765 __ cmpl(src_klass_lh_addr, objArray_lh); | |
1766 __ jcc(Assembler::equal, L_objArray); | |
1767 | |
1768 // if (src->klass() != dst->klass()) return -1; | |
304 | 1769 __ cmpptr(rcx_src_klass, dst_klass_addr); |
0 | 1770 __ jccb(Assembler::notEqual, L_failed_0); |
1771 | |
1772 const Register rcx_lh = rcx; // layout helper | |
1773 assert(rcx_lh == rcx_src_klass, "known alias"); | |
1774 __ movl(rcx_lh, src_klass_lh_addr); | |
1775 | |
1776 // if (!src->is_Array()) return -1; | |
1777 __ cmpl(rcx_lh, Klass::_lh_neutral_value); | |
1778 __ jcc(Assembler::greaterEqual, L_failed_0); // signed cmp | |
1779 | |
1780 // At this point, it is known to be a typeArray (array_tag 0x3). | |
1781 #ifdef ASSERT | |
1782 { Label L; | |
1783 __ cmpl(rcx_lh, (Klass::_lh_array_tag_type_value << Klass::_lh_array_tag_shift)); | |
1784 __ jcc(Assembler::greaterEqual, L); // signed cmp | |
1785 __ stop("must be a primitive array"); | |
1786 __ bind(L); | |
1787 } | |
1788 #endif | |
1789 | |
1790 assert_different_registers(src, src_pos, dst, dst_pos, rcx_lh); | |
1791 arraycopy_range_checks(src, src_pos, dst, dst_pos, LENGTH, L_failed); | |
1792 | |
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1793 // TypeArrayKlass |
0 | 1794 // |
1795 // src_addr = (src + array_header_in_bytes()) + (src_pos << log2elemsize); | |
1796 // dst_addr = (dst + array_header_in_bytes()) + (dst_pos << log2elemsize); | |
1797 // | |
1798 const Register rsi_offset = rsi; // array offset | |
1799 const Register src_array = src; // src array offset | |
1800 const Register dst_array = dst; // dst array offset | |
1801 const Register rdi_elsize = rdi; // log2 element size | |
1802 | |
304 | 1803 __ mov(rsi_offset, rcx_lh); |
1804 __ shrptr(rsi_offset, Klass::_lh_header_size_shift); | |
1805 __ andptr(rsi_offset, Klass::_lh_header_size_mask); // array_offset | |
1806 __ addptr(src_array, rsi_offset); // src array offset | |
1807 __ addptr(dst_array, rsi_offset); // dst array offset | |
1808 __ andptr(rcx_lh, Klass::_lh_log2_element_size_mask); // log2 elsize | |
0 | 1809 |
1810 // next registers should be set before the jump to corresponding stub | |
1811 const Register from = src; // source array address | |
1812 const Register to = dst; // destination array address | |
1813 const Register count = rcx; // elements count | |
1814 // some of them should be duplicated on stack | |
1815 #define FROM Address(rsp, 12+ 4) | |
1816 #define TO Address(rsp, 12+ 8) // Not used now | |
1817 #define COUNT Address(rsp, 12+12) // Only for oop arraycopy | |
1818 | |
1819 BLOCK_COMMENT("scale indexes to element size"); | |
304 | 1820 __ movl2ptr(rsi, SRC_POS); // src_pos |
1821 __ shlptr(rsi); // src_pos << rcx (log2 elsize) | |
0 | 1822 assert(src_array == from, ""); |
304 | 1823 __ addptr(from, rsi); // from = src_array + SRC_POS << log2 elsize |
1824 __ movl2ptr(rdi, DST_POS); // dst_pos | |
1825 __ shlptr(rdi); // dst_pos << rcx (log2 elsize) | |
0 | 1826 assert(dst_array == to, ""); |
304 | 1827 __ addptr(to, rdi); // to = dst_array + DST_POS << log2 elsize |
1828 __ movptr(FROM, from); // src_addr | |
1829 __ mov(rdi_elsize, rcx_lh); // log2 elsize | |
1830 __ movl2ptr(count, LENGTH); // elements count | |
0 | 1831 |
1832 BLOCK_COMMENT("choose copy loop based on element size"); | |
1833 __ cmpl(rdi_elsize, 0); | |
1834 | |
1835 __ jump_cc(Assembler::equal, RuntimeAddress(entry_jbyte_arraycopy)); | |
1836 __ cmpl(rdi_elsize, LogBytesPerShort); | |
1837 __ jump_cc(Assembler::equal, RuntimeAddress(entry_jshort_arraycopy)); | |
1838 __ cmpl(rdi_elsize, LogBytesPerInt); | |
1839 __ jump_cc(Assembler::equal, RuntimeAddress(entry_jint_arraycopy)); | |
1840 #ifdef ASSERT | |
1841 __ cmpl(rdi_elsize, LogBytesPerLong); | |
1842 __ jccb(Assembler::notEqual, L_failed); | |
1843 #endif | |
304 | 1844 __ pop(rdi); // Do pops here since jlong_arraycopy stub does not do it. |
1845 __ pop(rsi); | |
0 | 1846 __ jump(RuntimeAddress(entry_jlong_arraycopy)); |
1847 | |
1848 __ BIND(L_failed); | |
304 | 1849 __ xorptr(rax, rax); |
1850 __ notptr(rax); // return -1 | |
1851 __ pop(rdi); | |
1852 __ pop(rsi); | |
0 | 1853 __ leave(); // required for proper stackwalking of RuntimeStub frame |
1854 __ ret(0); | |
1855 | |
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1856 // ObjArrayKlass |
0 | 1857 __ BIND(L_objArray); |
1858 // live at this point: rcx_src_klass, src[_pos], dst[_pos] | |
1859 | |
1860 Label L_plain_copy, L_checkcast_copy; | |
1861 // test array classes for subtyping | |
304 | 1862 __ cmpptr(rcx_src_klass, dst_klass_addr); // usual case is exact equality |
0 | 1863 __ jccb(Assembler::notEqual, L_checkcast_copy); |
1864 | |
1865 // Identically typed arrays can be copied without element-wise checks. | |
1866 assert_different_registers(src, src_pos, dst, dst_pos, rcx_src_klass); | |
1867 arraycopy_range_checks(src, src_pos, dst, dst_pos, LENGTH, L_failed); | |
1868 | |
1869 __ BIND(L_plain_copy); | |
304 | 1870 __ movl2ptr(count, LENGTH); // elements count |
1871 __ movl2ptr(src_pos, SRC_POS); // reload src_pos | |
1872 __ lea(from, Address(src, src_pos, Address::times_ptr, | |
1873 arrayOopDesc::base_offset_in_bytes(T_OBJECT))); // src_addr | |
1874 __ movl2ptr(dst_pos, DST_POS); // reload dst_pos | |
1875 __ lea(to, Address(dst, dst_pos, Address::times_ptr, | |
1876 arrayOopDesc::base_offset_in_bytes(T_OBJECT))); // dst_addr | |
1877 __ movptr(FROM, from); // src_addr | |
1878 __ movptr(TO, to); // dst_addr | |
0 | 1879 __ movl(COUNT, count); // count |
1880 __ jump(RuntimeAddress(entry_oop_arraycopy)); | |
1881 | |
1882 __ BIND(L_checkcast_copy); | |
1883 // live at this point: rcx_src_klass, dst[_pos], src[_pos] | |
1884 { | |
1885 // Handy offsets: | |
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1886 int ek_offset = in_bytes(ObjArrayKlass::element_klass_offset()); |
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1887 int sco_offset = in_bytes(Klass::super_check_offset_offset()); |
0 | 1888 |
1889 Register rsi_dst_klass = rsi; | |
1890 Register rdi_temp = rdi; | |
1891 assert(rsi_dst_klass == src_pos, "expected alias w/ src_pos"); | |
1892 assert(rdi_temp == dst_pos, "expected alias w/ dst_pos"); | |
1893 Address dst_klass_lh_addr(rsi_dst_klass, lh_offset); | |
1894 | |
1895 // Before looking at dst.length, make sure dst is also an objArray. | |
304 | 1896 __ movptr(rsi_dst_klass, dst_klass_addr); |
0 | 1897 __ cmpl(dst_klass_lh_addr, objArray_lh); |
1898 __ jccb(Assembler::notEqual, L_failed); | |
1899 | |
1900 // It is safe to examine both src.length and dst.length. | |
304 | 1901 __ movl2ptr(src_pos, SRC_POS); // reload rsi |
0 | 1902 arraycopy_range_checks(src, src_pos, dst, dst_pos, LENGTH, L_failed); |
1903 // (Now src_pos and dst_pos are killed, but not src and dst.) | |
1904 | |
1905 // We'll need this temp (don't forget to pop it after the type check). | |
304 | 1906 __ push(rbx); |
0 | 1907 Register rbx_src_klass = rbx; |
1908 | |
304 | 1909 __ mov(rbx_src_klass, rcx_src_klass); // spill away from rcx |
1910 __ movptr(rsi_dst_klass, dst_klass_addr); | |
0 | 1911 Address super_check_offset_addr(rsi_dst_klass, sco_offset); |
1912 Label L_fail_array_check; | |
1913 generate_type_check(rbx_src_klass, | |
1914 super_check_offset_addr, dst_klass_addr, | |
1915 rdi_temp, NULL, &L_fail_array_check); | |
1916 // (On fall-through, we have passed the array type check.) | |
304 | 1917 __ pop(rbx); |
0 | 1918 __ jmp(L_plain_copy); |
1919 | |
1920 __ BIND(L_fail_array_check); | |
1921 // Reshuffle arguments so we can call checkcast_arraycopy: | |
1922 | |
1923 // match initial saves for checkcast_arraycopy | |
304 | 1924 // push(rsi); // already done; see above |
1925 // push(rdi); // already done; see above | |
1926 // push(rbx); // already done; see above | |
0 | 1927 |
1928 // Marshal outgoing arguments now, freeing registers. | |
1929 Address from_arg(rsp, 16+ 4); // from | |
1930 Address to_arg(rsp, 16+ 8); // to | |
1931 Address length_arg(rsp, 16+12); // elements count | |
1932 Address ckoff_arg(rsp, 16+16); // super_check_offset | |
1933 Address ckval_arg(rsp, 16+20); // super_klass | |
1934 | |
1935 Address SRC_POS_arg(rsp, 16+ 8); | |
1936 Address DST_POS_arg(rsp, 16+16); | |
1937 Address LENGTH_arg(rsp, 16+20); | |
1938 // push rbx, changed the incoming offsets (why not just use rbp,??) | |
1939 // assert(SRC_POS_arg.disp() == SRC_POS.disp() + 4, ""); | |
1940 | |
304 | 1941 __ movptr(rbx, Address(rsi_dst_klass, ek_offset)); |
1942 __ movl2ptr(length, LENGTH_arg); // reload elements count | |
1943 __ movl2ptr(src_pos, SRC_POS_arg); // reload src_pos | |
1944 __ movl2ptr(dst_pos, DST_POS_arg); // reload dst_pos | |
0 | 1945 |
304 | 1946 __ movptr(ckval_arg, rbx); // destination element type |
0 | 1947 __ movl(rbx, Address(rbx, sco_offset)); |
1948 __ movl(ckoff_arg, rbx); // corresponding class check offset | |
1949 | |
1950 __ movl(length_arg, length); // outgoing length argument | |
1951 | |
304 | 1952 __ lea(from, Address(src, src_pos, Address::times_ptr, |
0 | 1953 arrayOopDesc::base_offset_in_bytes(T_OBJECT))); |
304 | 1954 __ movptr(from_arg, from); |
0 | 1955 |
304 | 1956 __ lea(to, Address(dst, dst_pos, Address::times_ptr, |
0 | 1957 arrayOopDesc::base_offset_in_bytes(T_OBJECT))); |
304 | 1958 __ movptr(to_arg, to); |
0 | 1959 __ jump(RuntimeAddress(entry_checkcast_arraycopy)); |
1960 } | |
1961 | |
1962 return start; | |
1963 } | |
1964 | |
1965 void generate_arraycopy_stubs() { | |
1966 address entry; | |
1967 address entry_jbyte_arraycopy; | |
1968 address entry_jshort_arraycopy; | |
1969 address entry_jint_arraycopy; | |
1970 address entry_oop_arraycopy; | |
1971 address entry_jlong_arraycopy; | |
1972 address entry_checkcast_arraycopy; | |
1973 | |
1974 StubRoutines::_arrayof_jbyte_disjoint_arraycopy = | |
1975 generate_disjoint_copy(T_BYTE, true, Address::times_1, &entry, | |
1976 "arrayof_jbyte_disjoint_arraycopy"); | |
1977 StubRoutines::_arrayof_jbyte_arraycopy = | |
1978 generate_conjoint_copy(T_BYTE, true, Address::times_1, entry, | |
1979 NULL, "arrayof_jbyte_arraycopy"); | |
1980 StubRoutines::_jbyte_disjoint_arraycopy = | |
1981 generate_disjoint_copy(T_BYTE, false, Address::times_1, &entry, | |
1982 "jbyte_disjoint_arraycopy"); | |
1983 StubRoutines::_jbyte_arraycopy = | |
1984 generate_conjoint_copy(T_BYTE, false, Address::times_1, entry, | |
1985 &entry_jbyte_arraycopy, "jbyte_arraycopy"); | |
1986 | |
1987 StubRoutines::_arrayof_jshort_disjoint_arraycopy = | |
1988 generate_disjoint_copy(T_SHORT, true, Address::times_2, &entry, | |
1989 "arrayof_jshort_disjoint_arraycopy"); | |
1990 StubRoutines::_arrayof_jshort_arraycopy = | |
1991 generate_conjoint_copy(T_SHORT, true, Address::times_2, entry, | |
1992 NULL, "arrayof_jshort_arraycopy"); | |
1993 StubRoutines::_jshort_disjoint_arraycopy = | |
1994 generate_disjoint_copy(T_SHORT, false, Address::times_2, &entry, | |
1995 "jshort_disjoint_arraycopy"); | |
1996 StubRoutines::_jshort_arraycopy = | |
1997 generate_conjoint_copy(T_SHORT, false, Address::times_2, entry, | |
1998 &entry_jshort_arraycopy, "jshort_arraycopy"); | |
1999 | |
2000 // Next arrays are always aligned on 4 bytes at least. | |
2001 StubRoutines::_jint_disjoint_arraycopy = | |
2002 generate_disjoint_copy(T_INT, true, Address::times_4, &entry, | |
2003 "jint_disjoint_arraycopy"); | |
2004 StubRoutines::_jint_arraycopy = | |
2005 generate_conjoint_copy(T_INT, true, Address::times_4, entry, | |
2006 &entry_jint_arraycopy, "jint_arraycopy"); | |
2007 | |
2008 StubRoutines::_oop_disjoint_arraycopy = | |
304 | 2009 generate_disjoint_copy(T_OBJECT, true, Address::times_ptr, &entry, |
0 | 2010 "oop_disjoint_arraycopy"); |
2011 StubRoutines::_oop_arraycopy = | |
304 | 2012 generate_conjoint_copy(T_OBJECT, true, Address::times_ptr, entry, |
0 | 2013 &entry_oop_arraycopy, "oop_arraycopy"); |
2014 | |
2324 | 2015 StubRoutines::_oop_disjoint_arraycopy_uninit = |
2016 generate_disjoint_copy(T_OBJECT, true, Address::times_ptr, &entry, | |
2017 "oop_disjoint_arraycopy_uninit", | |
2018 /*dest_uninitialized*/true); | |
2019 StubRoutines::_oop_arraycopy_uninit = | |
2020 generate_conjoint_copy(T_OBJECT, true, Address::times_ptr, entry, | |
2021 NULL, "oop_arraycopy_uninit", | |
2022 /*dest_uninitialized*/true); | |
2023 | |
0 | 2024 StubRoutines::_jlong_disjoint_arraycopy = |
2025 generate_disjoint_long_copy(&entry, "jlong_disjoint_arraycopy"); | |
2026 StubRoutines::_jlong_arraycopy = | |
2027 generate_conjoint_long_copy(entry, &entry_jlong_arraycopy, | |
2028 "jlong_arraycopy"); | |
2029 | |
1763 | 2030 StubRoutines::_jbyte_fill = generate_fill(T_BYTE, false, "jbyte_fill"); |
2031 StubRoutines::_jshort_fill = generate_fill(T_SHORT, false, "jshort_fill"); | |
2032 StubRoutines::_jint_fill = generate_fill(T_INT, false, "jint_fill"); | |
2033 StubRoutines::_arrayof_jbyte_fill = generate_fill(T_BYTE, true, "arrayof_jbyte_fill"); | |
2034 StubRoutines::_arrayof_jshort_fill = generate_fill(T_SHORT, true, "arrayof_jshort_fill"); | |
2035 StubRoutines::_arrayof_jint_fill = generate_fill(T_INT, true, "arrayof_jint_fill"); | |
2036 | |
2324 | 2037 StubRoutines::_arrayof_jint_disjoint_arraycopy = StubRoutines::_jint_disjoint_arraycopy; |
2038 StubRoutines::_arrayof_oop_disjoint_arraycopy = StubRoutines::_oop_disjoint_arraycopy; | |
2039 StubRoutines::_arrayof_oop_disjoint_arraycopy_uninit = StubRoutines::_oop_disjoint_arraycopy_uninit; | |
2040 StubRoutines::_arrayof_jlong_disjoint_arraycopy = StubRoutines::_jlong_disjoint_arraycopy; | |
0 | 2041 |
2324 | 2042 StubRoutines::_arrayof_jint_arraycopy = StubRoutines::_jint_arraycopy; |
2043 StubRoutines::_arrayof_oop_arraycopy = StubRoutines::_oop_arraycopy; | |
2044 StubRoutines::_arrayof_oop_arraycopy_uninit = StubRoutines::_oop_arraycopy_uninit; | |
2045 StubRoutines::_arrayof_jlong_arraycopy = StubRoutines::_jlong_arraycopy; | |
0 | 2046 |
2047 StubRoutines::_checkcast_arraycopy = | |
2324 | 2048 generate_checkcast_copy("checkcast_arraycopy", &entry_checkcast_arraycopy); |
2049 StubRoutines::_checkcast_arraycopy_uninit = | |
2050 generate_checkcast_copy("checkcast_arraycopy_uninit", NULL, /*dest_uninitialized*/true); | |
0 | 2051 |
2052 StubRoutines::_unsafe_arraycopy = | |
2053 generate_unsafe_copy("unsafe_arraycopy", | |
2054 entry_jbyte_arraycopy, | |
2055 entry_jshort_arraycopy, | |
2056 entry_jint_arraycopy, | |
2057 entry_jlong_arraycopy); | |
2058 | |
2059 StubRoutines::_generic_arraycopy = | |
2060 generate_generic_copy("generic_arraycopy", | |
2061 entry_jbyte_arraycopy, | |
2062 entry_jshort_arraycopy, | |
2063 entry_jint_arraycopy, | |
2064 entry_oop_arraycopy, | |
2065 entry_jlong_arraycopy, | |
2066 entry_checkcast_arraycopy); | |
2067 } | |
2068 | |
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2069 void generate_math_stubs() { |
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2070 { |
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2071 StubCodeMark mark(this, "StubRoutines", "log"); |
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2072 StubRoutines::_intrinsic_log = (double (*)(double)) __ pc(); |
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2073 |
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2074 __ fld_d(Address(rsp, 4)); |
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2075 __ flog(); |
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2076 __ ret(0); |
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2077 } |
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2078 { |
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2079 StubCodeMark mark(this, "StubRoutines", "log10"); |
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2080 StubRoutines::_intrinsic_log10 = (double (*)(double)) __ pc(); |
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2081 |
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2082 __ fld_d(Address(rsp, 4)); |
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2083 __ flog10(); |
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2084 __ ret(0); |
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2085 } |
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2086 { |
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2087 StubCodeMark mark(this, "StubRoutines", "sin"); |
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2088 StubRoutines::_intrinsic_sin = (double (*)(double)) __ pc(); |
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2089 |
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2090 __ fld_d(Address(rsp, 4)); |
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2091 __ trigfunc('s'); |
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2092 __ ret(0); |
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2093 } |
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2094 { |
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2095 StubCodeMark mark(this, "StubRoutines", "cos"); |
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2096 StubRoutines::_intrinsic_cos = (double (*)(double)) __ pc(); |
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2097 |
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2098 __ fld_d(Address(rsp, 4)); |
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2099 __ trigfunc('c'); |
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2100 __ ret(0); |
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2101 } |
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2102 { |
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2103 StubCodeMark mark(this, "StubRoutines", "tan"); |
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2104 StubRoutines::_intrinsic_tan = (double (*)(double)) __ pc(); |
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2105 |
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2106 __ fld_d(Address(rsp, 4)); |
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2107 __ trigfunc('t'); |
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2108 __ ret(0); |
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2109 } |
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2110 { |
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2111 StubCodeMark mark(this, "StubRoutines", "exp"); |
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2112 StubRoutines::_intrinsic_exp = (double (*)(double)) __ pc(); |
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2113 |
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2114 __ fld_d(Address(rsp, 4)); |
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2115 __ exp_with_fallback(0); |
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2116 __ ret(0); |
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2117 } |
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2118 { |
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2119 StubCodeMark mark(this, "StubRoutines", "pow"); |
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2120 StubRoutines::_intrinsic_pow = (double (*)(double,double)) __ pc(); |
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2121 |
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diff
changeset
|
2122 __ fld_d(Address(rsp, 12)); |
6759698e3140
7133857: exp() and pow() should use the x87 ISA on x86
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4771
diff
changeset
|
2123 __ fld_d(Address(rsp, 4)); |
6759698e3140
7133857: exp() and pow() should use the x87 ISA on x86
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parents:
4771
diff
changeset
|
2124 __ pow_with_fallback(0); |
6759698e3140
7133857: exp() and pow() should use the x87 ISA on x86
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parents:
4771
diff
changeset
|
2125 __ ret(0); |
6759698e3140
7133857: exp() and pow() should use the x87 ISA on x86
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4771
diff
changeset
|
2126 } |
1174
ddb7834449d0
6849984: Value methods for platform dependent math functions constant fold incorrectly
never
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845
diff
changeset
|
2127 } |
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diff
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|
2128 |
6894 | 2129 // AES intrinsic stubs |
2130 enum {AESBlockSize = 16}; | |
2131 | |
2132 address generate_key_shuffle_mask() { | |
2133 __ align(16); | |
2134 StubCodeMark mark(this, "StubRoutines", "key_shuffle_mask"); | |
2135 address start = __ pc(); | |
2136 __ emit_data(0x00010203, relocInfo::none, 0 ); | |
2137 __ emit_data(0x04050607, relocInfo::none, 0 ); | |
2138 __ emit_data(0x08090a0b, relocInfo::none, 0 ); | |
2139 __ emit_data(0x0c0d0e0f, relocInfo::none, 0 ); | |
2140 return start; | |
2141 } | |
2142 | |
2143 // Utility routine for loading a 128-bit key word in little endian format | |
2144 // can optionally specify that the shuffle mask is already in an xmmregister | |
2145 void load_key(XMMRegister xmmdst, Register key, int offset, XMMRegister xmm_shuf_mask=NULL) { | |
2146 __ movdqu(xmmdst, Address(key, offset)); | |
2147 if (xmm_shuf_mask != NULL) { | |
2148 __ pshufb(xmmdst, xmm_shuf_mask); | |
2149 } else { | |
2150 __ pshufb(xmmdst, ExternalAddress(StubRoutines::x86::key_shuffle_mask_addr())); | |
2151 } | |
2152 } | |
2153 | |
2154 // aesenc using specified key+offset | |
2155 // can optionally specify that the shuffle mask is already in an xmmregister | |
2156 void aes_enc_key(XMMRegister xmmdst, XMMRegister xmmtmp, Register key, int offset, XMMRegister xmm_shuf_mask=NULL) { | |
2157 load_key(xmmtmp, key, offset, xmm_shuf_mask); | |
2158 __ aesenc(xmmdst, xmmtmp); | |
2159 } | |
2160 | |
2161 // aesdec using specified key+offset | |
2162 // can optionally specify that the shuffle mask is already in an xmmregister | |
2163 void aes_dec_key(XMMRegister xmmdst, XMMRegister xmmtmp, Register key, int offset, XMMRegister xmm_shuf_mask=NULL) { | |
2164 load_key(xmmtmp, key, offset, xmm_shuf_mask); | |
2165 __ aesdec(xmmdst, xmmtmp); | |
2166 } | |
2167 | |
2168 | |
2169 // Arguments: | |
2170 // | |
2171 // Inputs: | |
2172 // c_rarg0 - source byte array address | |
2173 // c_rarg1 - destination byte array address | |
2174 // c_rarg2 - K (key) in little endian int array | |
2175 // | |
2176 address generate_aescrypt_encryptBlock() { | |
2177 assert(UseAES && (UseAVX > 0), "need AES instructions and misaligned SSE support"); | |
2178 __ align(CodeEntryAlignment); | |
2179 StubCodeMark mark(this, "StubRoutines", "aescrypt_encryptBlock"); | |
2180 Label L_doLast; | |
2181 address start = __ pc(); | |
2182 | |
2183 const Register from = rsi; // source array address | |
2184 const Register to = rdx; // destination array address | |
2185 const Register key = rcx; // key array address | |
2186 const Register keylen = rax; | |
2187 const Address from_param(rbp, 8+0); | |
2188 const Address to_param (rbp, 8+4); | |
2189 const Address key_param (rbp, 8+8); | |
2190 | |
2191 const XMMRegister xmm_result = xmm0; | |
2192 const XMMRegister xmm_temp = xmm1; | |
2193 const XMMRegister xmm_key_shuf_mask = xmm2; | |
2194 | |
2195 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
2196 __ push(rsi); | |
2197 __ movptr(from , from_param); | |
2198 __ movptr(to , to_param); | |
2199 __ movptr(key , key_param); | |
2200 | |
2201 __ movl(keylen, Address(key, arrayOopDesc::length_offset_in_bytes() - arrayOopDesc::base_offset_in_bytes(T_INT))); | |
2202 // keylen = # of 32-bit words, convert to 128-bit words | |
2203 __ shrl(keylen, 2); | |
2204 __ subl(keylen, 11); // every key has at least 11 128-bit words, some have more | |
2205 | |
2206 __ movdqu(xmm_key_shuf_mask, ExternalAddress(StubRoutines::x86::key_shuffle_mask_addr())); | |
2207 __ movdqu(xmm_result, Address(from, 0)); // get 16 bytes of input | |
2208 | |
2209 // For encryption, the java expanded key ordering is just what we need | |
2210 | |
2211 load_key(xmm_temp, key, 0x00, xmm_key_shuf_mask); | |
2212 __ pxor(xmm_result, xmm_temp); | |
2213 for (int offset = 0x10; offset <= 0x90; offset += 0x10) { | |
2214 aes_enc_key(xmm_result, xmm_temp, key, offset, xmm_key_shuf_mask); | |
2215 } | |
2216 load_key (xmm_temp, key, 0xa0, xmm_key_shuf_mask); | |
2217 __ cmpl(keylen, 0); | |
2218 __ jcc(Assembler::equal, L_doLast); | |
2219 __ aesenc(xmm_result, xmm_temp); // only in 192 and 256 bit keys | |
2220 aes_enc_key(xmm_result, xmm_temp, key, 0xb0, xmm_key_shuf_mask); | |
2221 load_key(xmm_temp, key, 0xc0, xmm_key_shuf_mask); | |
2222 __ subl(keylen, 2); | |
2223 __ jcc(Assembler::equal, L_doLast); | |
2224 __ aesenc(xmm_result, xmm_temp); // only in 256 bit keys | |
2225 aes_enc_key(xmm_result, xmm_temp, key, 0xd0, xmm_key_shuf_mask); | |
2226 load_key(xmm_temp, key, 0xe0, xmm_key_shuf_mask); | |
2227 | |
2228 __ BIND(L_doLast); | |
2229 __ aesenclast(xmm_result, xmm_temp); | |
2230 __ movdqu(Address(to, 0), xmm_result); // store the result | |
2231 __ xorptr(rax, rax); // return 0 | |
2232 __ pop(rsi); | |
2233 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
2234 __ ret(0); | |
2235 | |
2236 return start; | |
2237 } | |
2238 | |
2239 | |
2240 // Arguments: | |
2241 // | |
2242 // Inputs: | |
2243 // c_rarg0 - source byte array address | |
2244 // c_rarg1 - destination byte array address | |
2245 // c_rarg2 - K (key) in little endian int array | |
2246 // | |
2247 address generate_aescrypt_decryptBlock() { | |
2248 assert(UseAES && (UseAVX > 0), "need AES instructions and misaligned SSE support"); | |
2249 __ align(CodeEntryAlignment); | |
2250 StubCodeMark mark(this, "StubRoutines", "aescrypt_decryptBlock"); | |
2251 Label L_doLast; | |
2252 address start = __ pc(); | |
2253 | |
2254 const Register from = rsi; // source array address | |
2255 const Register to = rdx; // destination array address | |
2256 const Register key = rcx; // key array address | |
2257 const Register keylen = rax; | |
2258 const Address from_param(rbp, 8+0); | |
2259 const Address to_param (rbp, 8+4); | |
2260 const Address key_param (rbp, 8+8); | |
2261 | |
2262 const XMMRegister xmm_result = xmm0; | |
2263 const XMMRegister xmm_temp = xmm1; | |
2264 const XMMRegister xmm_key_shuf_mask = xmm2; | |
2265 | |
2266 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
2267 __ push(rsi); | |
2268 __ movptr(from , from_param); | |
2269 __ movptr(to , to_param); | |
2270 __ movptr(key , key_param); | |
2271 | |
2272 __ movl(keylen, Address(key, arrayOopDesc::length_offset_in_bytes() - arrayOopDesc::base_offset_in_bytes(T_INT))); | |
2273 // keylen = # of 32-bit words, convert to 128-bit words | |
2274 __ shrl(keylen, 2); | |
2275 __ subl(keylen, 11); // every key has at least 11 128-bit words, some have more | |
2276 | |
2277 __ movdqu(xmm_key_shuf_mask, ExternalAddress(StubRoutines::x86::key_shuffle_mask_addr())); | |
2278 __ movdqu(xmm_result, Address(from, 0)); | |
2279 | |
2280 // for decryption java expanded key ordering is rotated one position from what we want | |
2281 // so we start from 0x10 here and hit 0x00 last | |
2282 // we don't know if the key is aligned, hence not using load-execute form | |
2283 load_key(xmm_temp, key, 0x10, xmm_key_shuf_mask); | |
2284 __ pxor (xmm_result, xmm_temp); | |
2285 for (int offset = 0x20; offset <= 0xa0; offset += 0x10) { | |
2286 aes_dec_key(xmm_result, xmm_temp, key, offset, xmm_key_shuf_mask); | |
2287 } | |
2288 __ cmpl(keylen, 0); | |
2289 __ jcc(Assembler::equal, L_doLast); | |
2290 // only in 192 and 256 bit keys | |
2291 aes_dec_key(xmm_result, xmm_temp, key, 0xb0, xmm_key_shuf_mask); | |
2292 aes_dec_key(xmm_result, xmm_temp, key, 0xc0, xmm_key_shuf_mask); | |
2293 __ subl(keylen, 2); | |
2294 __ jcc(Assembler::equal, L_doLast); | |
2295 // only in 256 bit keys | |
2296 aes_dec_key(xmm_result, xmm_temp, key, 0xd0, xmm_key_shuf_mask); | |
2297 aes_dec_key(xmm_result, xmm_temp, key, 0xe0, xmm_key_shuf_mask); | |
2298 | |
2299 __ BIND(L_doLast); | |
2300 // for decryption the aesdeclast operation is always on key+0x00 | |
2301 load_key(xmm_temp, key, 0x00, xmm_key_shuf_mask); | |
2302 __ aesdeclast(xmm_result, xmm_temp); | |
2303 | |
2304 __ movdqu(Address(to, 0), xmm_result); // store the result | |
2305 | |
2306 __ xorptr(rax, rax); // return 0 | |
2307 __ pop(rsi); | |
2308 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
2309 __ ret(0); | |
2310 | |
2311 return start; | |
2312 } | |
2313 | |
2314 void handleSOERegisters(bool saving) { | |
2315 const int saveFrameSizeInBytes = 4 * wordSize; | |
2316 const Address saved_rbx (rbp, -3 * wordSize); | |
2317 const Address saved_rsi (rbp, -2 * wordSize); | |
2318 const Address saved_rdi (rbp, -1 * wordSize); | |
2319 | |
2320 if (saving) { | |
2321 __ subptr(rsp, saveFrameSizeInBytes); | |
2322 __ movptr(saved_rsi, rsi); | |
2323 __ movptr(saved_rdi, rdi); | |
2324 __ movptr(saved_rbx, rbx); | |
2325 } else { | |
2326 // restoring | |
2327 __ movptr(rsi, saved_rsi); | |
2328 __ movptr(rdi, saved_rdi); | |
2329 __ movptr(rbx, saved_rbx); | |
2330 } | |
2331 } | |
2332 | |
2333 // Arguments: | |
2334 // | |
2335 // Inputs: | |
2336 // c_rarg0 - source byte array address | |
2337 // c_rarg1 - destination byte array address | |
2338 // c_rarg2 - K (key) in little endian int array | |
2339 // c_rarg3 - r vector byte array address | |
2340 // c_rarg4 - input length | |
2341 // | |
2342 address generate_cipherBlockChaining_encryptAESCrypt() { | |
2343 assert(UseAES && (UseAVX > 0), "need AES instructions and misaligned SSE support"); | |
2344 __ align(CodeEntryAlignment); | |
2345 StubCodeMark mark(this, "StubRoutines", "cipherBlockChaining_encryptAESCrypt"); | |
2346 address start = __ pc(); | |
2347 | |
2348 Label L_exit, L_key_192_256, L_key_256, L_loopTop_128, L_loopTop_192, L_loopTop_256; | |
2349 const Register from = rsi; // source array address | |
2350 const Register to = rdx; // destination array address | |
2351 const Register key = rcx; // key array address | |
2352 const Register rvec = rdi; // r byte array initialized from initvector array address | |
2353 // and left with the results of the last encryption block | |
2354 const Register len_reg = rbx; // src len (must be multiple of blocksize 16) | |
2355 const Register pos = rax; | |
2356 | |
2357 // xmm register assignments for the loops below | |
2358 const XMMRegister xmm_result = xmm0; | |
2359 const XMMRegister xmm_temp = xmm1; | |
2360 // first 6 keys preloaded into xmm2-xmm7 | |
2361 const int XMM_REG_NUM_KEY_FIRST = 2; | |
2362 const int XMM_REG_NUM_KEY_LAST = 7; | |
2363 const XMMRegister xmm_key0 = as_XMMRegister(XMM_REG_NUM_KEY_FIRST); | |
2364 | |
2365 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
2366 handleSOERegisters(true /*saving*/); | |
2367 | |
2368 // load registers from incoming parameters | |
2369 const Address from_param(rbp, 8+0); | |
2370 const Address to_param (rbp, 8+4); | |
2371 const Address key_param (rbp, 8+8); | |
2372 const Address rvec_param (rbp, 8+12); | |
2373 const Address len_param (rbp, 8+16); | |
2374 __ movptr(from , from_param); | |
2375 __ movptr(to , to_param); | |
2376 __ movptr(key , key_param); | |
2377 __ movptr(rvec , rvec_param); | |
2378 __ movptr(len_reg , len_param); | |
2379 | |
2380 const XMMRegister xmm_key_shuf_mask = xmm_temp; // used temporarily to swap key bytes up front | |
2381 __ movdqu(xmm_key_shuf_mask, ExternalAddress(StubRoutines::x86::key_shuffle_mask_addr())); | |
2382 // load up xmm regs 2 thru 7 with keys 0-5 | |
2383 for (int rnum = XMM_REG_NUM_KEY_FIRST, offset = 0x00; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2384 load_key(as_XMMRegister(rnum), key, offset, xmm_key_shuf_mask); | |
2385 offset += 0x10; | |
2386 } | |
2387 | |
2388 __ movdqu(xmm_result, Address(rvec, 0x00)); // initialize xmm_result with r vec | |
2389 | |
2390 // now split to different paths depending on the keylen (len in ints of AESCrypt.KLE array (52=192, or 60=256)) | |
2391 __ movl(rax, Address(key, arrayOopDesc::length_offset_in_bytes() - arrayOopDesc::base_offset_in_bytes(T_INT))); | |
2392 __ cmpl(rax, 44); | |
2393 __ jcc(Assembler::notEqual, L_key_192_256); | |
2394 | |
2395 // 128 bit code follows here | |
2396 __ movptr(pos, 0); | |
2397 __ align(OptoLoopAlignment); | |
2398 __ BIND(L_loopTop_128); | |
2399 __ movdqu(xmm_temp, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of input | |
2400 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2401 | |
2402 __ pxor (xmm_result, xmm_key0); // do the aes rounds | |
2403 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2404 __ aesenc(xmm_result, as_XMMRegister(rnum)); | |
2405 } | |
2406 for (int key_offset = 0x60; key_offset <= 0x90; key_offset += 0x10) { | |
2407 aes_enc_key(xmm_result, xmm_temp, key, key_offset); | |
2408 } | |
2409 load_key(xmm_temp, key, 0xa0); | |
2410 __ aesenclast(xmm_result, xmm_temp); | |
2411 | |
2412 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2413 // no need to store r to memory until we exit | |
2414 __ addptr(pos, AESBlockSize); | |
2415 __ subptr(len_reg, AESBlockSize); | |
2416 __ jcc(Assembler::notEqual, L_loopTop_128); | |
2417 | |
2418 __ BIND(L_exit); | |
2419 __ movdqu(Address(rvec, 0), xmm_result); // final value of r stored in rvec of CipherBlockChaining object | |
2420 | |
2421 handleSOERegisters(false /*restoring*/); | |
2422 __ movl(rax, 0); // return 0 (why?) | |
2423 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
2424 __ ret(0); | |
2425 | |
2426 __ BIND(L_key_192_256); | |
2427 // here rax = len in ints of AESCrypt.KLE array (52=192, or 60=256) | |
2428 __ cmpl(rax, 52); | |
2429 __ jcc(Assembler::notEqual, L_key_256); | |
2430 | |
2431 // 192-bit code follows here (could be changed to use more xmm registers) | |
2432 __ movptr(pos, 0); | |
2433 __ align(OptoLoopAlignment); | |
2434 __ BIND(L_loopTop_192); | |
2435 __ movdqu(xmm_temp, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of input | |
2436 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2437 | |
2438 __ pxor (xmm_result, xmm_key0); // do the aes rounds | |
2439 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2440 __ aesenc(xmm_result, as_XMMRegister(rnum)); | |
2441 } | |
2442 for (int key_offset = 0x60; key_offset <= 0xb0; key_offset += 0x10) { | |
2443 aes_enc_key(xmm_result, xmm_temp, key, key_offset); | |
2444 } | |
2445 load_key(xmm_temp, key, 0xc0); | |
2446 __ aesenclast(xmm_result, xmm_temp); | |
2447 | |
2448 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2449 // no need to store r to memory until we exit | |
2450 __ addptr(pos, AESBlockSize); | |
2451 __ subptr(len_reg, AESBlockSize); | |
2452 __ jcc(Assembler::notEqual, L_loopTop_192); | |
2453 __ jmp(L_exit); | |
2454 | |
2455 __ BIND(L_key_256); | |
2456 // 256-bit code follows here (could be changed to use more xmm registers) | |
2457 __ movptr(pos, 0); | |
2458 __ align(OptoLoopAlignment); | |
2459 __ BIND(L_loopTop_256); | |
2460 __ movdqu(xmm_temp, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of input | |
2461 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2462 | |
2463 __ pxor (xmm_result, xmm_key0); // do the aes rounds | |
2464 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2465 __ aesenc(xmm_result, as_XMMRegister(rnum)); | |
2466 } | |
2467 for (int key_offset = 0x60; key_offset <= 0xd0; key_offset += 0x10) { | |
2468 aes_enc_key(xmm_result, xmm_temp, key, key_offset); | |
2469 } | |
2470 load_key(xmm_temp, key, 0xe0); | |
2471 __ aesenclast(xmm_result, xmm_temp); | |
2472 | |
2473 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2474 // no need to store r to memory until we exit | |
2475 __ addptr(pos, AESBlockSize); | |
2476 __ subptr(len_reg, AESBlockSize); | |
2477 __ jcc(Assembler::notEqual, L_loopTop_256); | |
2478 __ jmp(L_exit); | |
2479 | |
2480 return start; | |
2481 } | |
2482 | |
2483 | |
2484 // CBC AES Decryption. | |
2485 // In 32-bit stub, because of lack of registers we do not try to parallelize 4 blocks at a time. | |
2486 // | |
2487 // Arguments: | |
2488 // | |
2489 // Inputs: | |
2490 // c_rarg0 - source byte array address | |
2491 // c_rarg1 - destination byte array address | |
2492 // c_rarg2 - K (key) in little endian int array | |
2493 // c_rarg3 - r vector byte array address | |
2494 // c_rarg4 - input length | |
2495 // | |
2496 | |
2497 address generate_cipherBlockChaining_decryptAESCrypt() { | |
2498 assert(UseAES && (UseAVX > 0), "need AES instructions and misaligned SSE support"); | |
2499 __ align(CodeEntryAlignment); | |
2500 StubCodeMark mark(this, "StubRoutines", "cipherBlockChaining_decryptAESCrypt"); | |
2501 address start = __ pc(); | |
2502 | |
2503 Label L_exit, L_key_192_256, L_key_256; | |
2504 Label L_singleBlock_loopTop_128; | |
2505 Label L_singleBlock_loopTop_192, L_singleBlock_loopTop_256; | |
2506 const Register from = rsi; // source array address | |
2507 const Register to = rdx; // destination array address | |
2508 const Register key = rcx; // key array address | |
2509 const Register rvec = rdi; // r byte array initialized from initvector array address | |
2510 // and left with the results of the last encryption block | |
2511 const Register len_reg = rbx; // src len (must be multiple of blocksize 16) | |
2512 const Register pos = rax; | |
2513 | |
2514 // xmm register assignments for the loops below | |
2515 const XMMRegister xmm_result = xmm0; | |
2516 const XMMRegister xmm_temp = xmm1; | |
2517 // first 6 keys preloaded into xmm2-xmm7 | |
2518 const int XMM_REG_NUM_KEY_FIRST = 2; | |
2519 const int XMM_REG_NUM_KEY_LAST = 7; | |
2520 const int FIRST_NON_REG_KEY_offset = 0x70; | |
2521 const XMMRegister xmm_key_first = as_XMMRegister(XMM_REG_NUM_KEY_FIRST); | |
2522 | |
2523 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
2524 handleSOERegisters(true /*saving*/); | |
2525 | |
2526 // load registers from incoming parameters | |
2527 const Address from_param(rbp, 8+0); | |
2528 const Address to_param (rbp, 8+4); | |
2529 const Address key_param (rbp, 8+8); | |
2530 const Address rvec_param (rbp, 8+12); | |
2531 const Address len_param (rbp, 8+16); | |
2532 __ movptr(from , from_param); | |
2533 __ movptr(to , to_param); | |
2534 __ movptr(key , key_param); | |
2535 __ movptr(rvec , rvec_param); | |
2536 __ movptr(len_reg , len_param); | |
2537 | |
2538 // the java expanded key ordering is rotated one position from what we want | |
2539 // so we start from 0x10 here and hit 0x00 last | |
2540 const XMMRegister xmm_key_shuf_mask = xmm1; // used temporarily to swap key bytes up front | |
2541 __ movdqu(xmm_key_shuf_mask, ExternalAddress(StubRoutines::x86::key_shuffle_mask_addr())); | |
2542 // load up xmm regs 2 thru 6 with first 5 keys | |
2543 for (int rnum = XMM_REG_NUM_KEY_FIRST, offset = 0x10; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2544 load_key(as_XMMRegister(rnum), key, offset, xmm_key_shuf_mask); | |
2545 offset += 0x10; | |
2546 } | |
2547 | |
2548 // inside here, use the rvec register to point to previous block cipher | |
2549 // with which we xor at the end of each newly decrypted block | |
2550 const Register prev_block_cipher_ptr = rvec; | |
2551 | |
2552 // now split to different paths depending on the keylen (len in ints of AESCrypt.KLE array (52=192, or 60=256)) | |
2553 __ movl(rax, Address(key, arrayOopDesc::length_offset_in_bytes() - arrayOopDesc::base_offset_in_bytes(T_INT))); | |
2554 __ cmpl(rax, 44); | |
2555 __ jcc(Assembler::notEqual, L_key_192_256); | |
2556 | |
2557 | |
2558 // 128-bit code follows here, parallelized | |
2559 __ movptr(pos, 0); | |
2560 __ align(OptoLoopAlignment); | |
2561 __ BIND(L_singleBlock_loopTop_128); | |
2562 __ cmpptr(len_reg, 0); // any blocks left?? | |
2563 __ jcc(Assembler::equal, L_exit); | |
2564 __ movdqu(xmm_result, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of cipher input | |
2565 __ pxor (xmm_result, xmm_key_first); // do the aes dec rounds | |
2566 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2567 __ aesdec(xmm_result, as_XMMRegister(rnum)); | |
2568 } | |
2569 for (int key_offset = FIRST_NON_REG_KEY_offset; key_offset <= 0xa0; key_offset += 0x10) { // 128-bit runs up to key offset a0 | |
2570 aes_dec_key(xmm_result, xmm_temp, key, key_offset); | |
2571 } | |
2572 load_key(xmm_temp, key, 0x00); // final key is stored in java expanded array at offset 0 | |
2573 __ aesdeclast(xmm_result, xmm_temp); | |
2574 __ movdqu(xmm_temp, Address(prev_block_cipher_ptr, 0x00)); | |
2575 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2576 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2577 // no need to store r to memory until we exit | |
2578 __ lea(prev_block_cipher_ptr, Address(from, pos, Address::times_1, 0)); // set up new ptr | |
2579 __ addptr(pos, AESBlockSize); | |
2580 __ subptr(len_reg, AESBlockSize); | |
2581 __ jmp(L_singleBlock_loopTop_128); | |
2582 | |
2583 | |
2584 __ BIND(L_exit); | |
2585 __ movdqu(xmm_temp, Address(prev_block_cipher_ptr, 0x00)); | |
2586 __ movptr(rvec , rvec_param); // restore this since used in loop | |
2587 __ movdqu(Address(rvec, 0), xmm_temp); // final value of r stored in rvec of CipherBlockChaining object | |
2588 handleSOERegisters(false /*restoring*/); | |
2589 __ movl(rax, 0); // return 0 (why?) | |
2590 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
2591 __ ret(0); | |
2592 | |
2593 | |
2594 __ BIND(L_key_192_256); | |
2595 // here rax = len in ints of AESCrypt.KLE array (52=192, or 60=256) | |
2596 __ cmpl(rax, 52); | |
2597 __ jcc(Assembler::notEqual, L_key_256); | |
2598 | |
2599 // 192-bit code follows here (could be optimized to use parallelism) | |
2600 __ movptr(pos, 0); | |
2601 __ align(OptoLoopAlignment); | |
2602 __ BIND(L_singleBlock_loopTop_192); | |
2603 __ movdqu(xmm_result, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of cipher input | |
2604 __ pxor (xmm_result, xmm_key_first); // do the aes dec rounds | |
2605 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2606 __ aesdec(xmm_result, as_XMMRegister(rnum)); | |
2607 } | |
2608 for (int key_offset = FIRST_NON_REG_KEY_offset; key_offset <= 0xc0; key_offset += 0x10) { // 192-bit runs up to key offset c0 | |
2609 aes_dec_key(xmm_result, xmm_temp, key, key_offset); | |
2610 } | |
2611 load_key(xmm_temp, key, 0x00); // final key is stored in java expanded array at offset 0 | |
2612 __ aesdeclast(xmm_result, xmm_temp); | |
2613 __ movdqu(xmm_temp, Address(prev_block_cipher_ptr, 0x00)); | |
2614 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2615 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2616 // no need to store r to memory until we exit | |
2617 __ lea(prev_block_cipher_ptr, Address(from, pos, Address::times_1, 0)); // set up new ptr | |
2618 __ addptr(pos, AESBlockSize); | |
2619 __ subptr(len_reg, AESBlockSize); | |
2620 __ jcc(Assembler::notEqual,L_singleBlock_loopTop_192); | |
2621 __ jmp(L_exit); | |
2622 | |
2623 __ BIND(L_key_256); | |
2624 // 256-bit code follows here (could be optimized to use parallelism) | |
2625 __ movptr(pos, 0); | |
2626 __ align(OptoLoopAlignment); | |
2627 __ BIND(L_singleBlock_loopTop_256); | |
2628 __ movdqu(xmm_result, Address(from, pos, Address::times_1, 0)); // get next 16 bytes of cipher input | |
2629 __ pxor (xmm_result, xmm_key_first); // do the aes dec rounds | |
2630 for (int rnum = XMM_REG_NUM_KEY_FIRST + 1; rnum <= XMM_REG_NUM_KEY_LAST; rnum++) { | |
2631 __ aesdec(xmm_result, as_XMMRegister(rnum)); | |
2632 } | |
2633 for (int key_offset = FIRST_NON_REG_KEY_offset; key_offset <= 0xe0; key_offset += 0x10) { // 256-bit runs up to key offset e0 | |
2634 aes_dec_key(xmm_result, xmm_temp, key, key_offset); | |
2635 } | |
2636 load_key(xmm_temp, key, 0x00); // final key is stored in java expanded array at offset 0 | |
2637 __ aesdeclast(xmm_result, xmm_temp); | |
2638 __ movdqu(xmm_temp, Address(prev_block_cipher_ptr, 0x00)); | |
2639 __ pxor (xmm_result, xmm_temp); // xor with the current r vector | |
2640 __ movdqu(Address(to, pos, Address::times_1, 0), xmm_result); // store into the next 16 bytes of output | |
2641 // no need to store r to memory until we exit | |
2642 __ lea(prev_block_cipher_ptr, Address(from, pos, Address::times_1, 0)); // set up new ptr | |
2643 __ addptr(pos, AESBlockSize); | |
2644 __ subptr(len_reg, AESBlockSize); | |
2645 __ jcc(Assembler::notEqual,L_singleBlock_loopTop_256); | |
2646 __ jmp(L_exit); | |
2647 | |
2648 return start; | |
2649 } | |
2650 | |
2651 | |
0 | 2652 public: |
2653 // Information about frame layout at time of blocking runtime call. | |
2654 // Note that we only have to preserve callee-saved registers since | |
2655 // the compilers are responsible for supplying a continuation point | |
2656 // if they expect all registers to be preserved. | |
2657 enum layout { | |
2658 thread_off, // last_java_sp | |
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2659 arg1_off, |
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2660 arg2_off, |
0 | 2661 rbp_off, // callee saved register |
2662 ret_pc, | |
2663 framesize | |
2664 }; | |
2665 | |
2666 private: | |
2667 | |
2668 #undef __ | |
2669 #define __ masm-> | |
2670 | |
2671 //------------------------------------------------------------------------------------------------------------------------ | |
2672 // Continuation point for throwing of implicit exceptions that are not handled in | |
2673 // the current activation. Fabricates an exception oop and initiates normal | |
2674 // exception dispatching in this frame. | |
2675 // | |
2676 // Previously the compiler (c2) allowed for callee save registers on Java calls. | |
2677 // This is no longer true after adapter frames were removed but could possibly | |
2678 // be brought back in the future if the interpreter code was reworked and it | |
2679 // was deemed worthwhile. The comment below was left to describe what must | |
2680 // happen here if callee saves were resurrected. As it stands now this stub | |
2681 // could actually be a vanilla BufferBlob and have now oopMap at all. | |
2682 // Since it doesn't make much difference we've chosen to leave it the | |
2683 // way it was in the callee save days and keep the comment. | |
2684 | |
2685 // If we need to preserve callee-saved values we need a callee-saved oop map and | |
2686 // therefore have to make these stubs into RuntimeStubs rather than BufferBlobs. | |
2687 // If the compiler needs all registers to be preserved between the fault | |
2688 // point and the exception handler then it must assume responsibility for that in | |
2689 // AbstractCompiler::continuation_for_implicit_null_exception or | |
2690 // continuation_for_implicit_division_by_zero_exception. All other implicit | |
2691 // exceptions (e.g., NullPointerException or AbstractMethodError on entry) are | |
2692 // either at call sites or otherwise assume that stack unwinding will be initiated, | |
2693 // so caller saved registers were assumed volatile in the compiler. | |
2694 address generate_throw_exception(const char* name, address runtime_entry, | |
3937 | 2695 Register arg1 = noreg, Register arg2 = noreg) { |
0 | 2696 |
2697 int insts_size = 256; | |
2698 int locs_size = 32; | |
2699 | |
2700 CodeBuffer code(name, insts_size, locs_size); | |
2701 OopMapSet* oop_maps = new OopMapSet(); | |
2702 MacroAssembler* masm = new MacroAssembler(&code); | |
2703 | |
2704 address start = __ pc(); | |
2705 | |
2706 // This is an inlined and slightly modified version of call_VM | |
2707 // which has the ability to fetch the return PC out of | |
2708 // thread-local storage and also sets up last_Java_sp slightly | |
2709 // differently than the real call_VM | |
2710 Register java_thread = rbx; | |
2711 __ get_thread(java_thread); | |
2712 | |
2713 __ enter(); // required for proper stackwalking of RuntimeStub frame | |
2714 | |
2715 // pc and rbp, already pushed | |
304 | 2716 __ subptr(rsp, (framesize-2) * wordSize); // prolog |
0 | 2717 |
2718 // Frame is now completed as far as size and linkage. | |
2719 | |
2720 int frame_complete = __ pc() - start; | |
2721 | |
2722 // push java thread (becomes first argument of C function) | |
304 | 2723 __ movptr(Address(rsp, thread_off * wordSize), java_thread); |
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2724 if (arg1 != noreg) { |
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2725 __ movptr(Address(rsp, arg1_off * wordSize), arg1); |
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2726 } |
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2727 if (arg2 != noreg) { |
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2728 assert(arg1 != noreg, "missing reg arg"); |
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2729 __ movptr(Address(rsp, arg2_off * wordSize), arg2); |
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2730 } |
0 | 2731 |
2732 // Set up last_Java_sp and last_Java_fp | |
2733 __ set_last_Java_frame(java_thread, rsp, rbp, NULL); | |
2734 | |
2735 // Call runtime | |
2736 BLOCK_COMMENT("call runtime_entry"); | |
2737 __ call(RuntimeAddress(runtime_entry)); | |
2738 // Generate oop map | |
2739 OopMap* map = new OopMap(framesize, 0); | |
2740 oop_maps->add_gc_map(__ pc() - start, map); | |
2741 | |
2742 // restore the thread (cannot use the pushed argument since arguments | |
2743 // may be overwritten by C code generated by an optimizing compiler); | |
2744 // however can use the register value directly if it is callee saved. | |
2745 __ get_thread(java_thread); | |
2746 | |
2747 __ reset_last_Java_frame(java_thread, true, false); | |
2748 | |
2749 __ leave(); // required for proper stackwalking of RuntimeStub frame | |
2750 | |
2751 // check for pending exceptions | |
2752 #ifdef ASSERT | |
2753 Label L; | |
304 | 2754 __ cmpptr(Address(java_thread, Thread::pending_exception_offset()), (int32_t)NULL_WORD); |
0 | 2755 __ jcc(Assembler::notEqual, L); |
2756 __ should_not_reach_here(); | |
2757 __ bind(L); | |
2758 #endif /* ASSERT */ | |
2759 __ jump(RuntimeAddress(StubRoutines::forward_exception_entry())); | |
2760 | |
2761 | |
2762 RuntimeStub* stub = RuntimeStub::new_runtime_stub(name, &code, frame_complete, framesize, oop_maps, false); | |
2763 return stub->entry_point(); | |
2764 } | |
2765 | |
2766 | |
2767 void create_control_words() { | |
2768 // Round to nearest, 53-bit mode, exceptions masked | |
2769 StubRoutines::_fpu_cntrl_wrd_std = 0x027F; | |
2770 // Round to zero, 53-bit mode, exception mased | |
2771 StubRoutines::_fpu_cntrl_wrd_trunc = 0x0D7F; | |
2772 // Round to nearest, 24-bit mode, exceptions masked | |
2773 StubRoutines::_fpu_cntrl_wrd_24 = 0x007F; | |
2774 // Round to nearest, 64-bit mode, exceptions masked | |
2775 StubRoutines::_fpu_cntrl_wrd_64 = 0x037F; | |
2776 // Round to nearest, 64-bit mode, exceptions masked | |
2777 StubRoutines::_mxcsr_std = 0x1F80; | |
2778 // Note: the following two constants are 80-bit values | |
2779 // layout is critical for correct loading by FPU. | |
2780 // Bias for strict fp multiply/divide | |
2781 StubRoutines::_fpu_subnormal_bias1[0]= 0x00000000; // 2^(-15360) == 0x03ff 8000 0000 0000 0000 | |
2782 StubRoutines::_fpu_subnormal_bias1[1]= 0x80000000; | |
2783 StubRoutines::_fpu_subnormal_bias1[2]= 0x03ff; | |
2784 // Un-Bias for strict fp multiply/divide | |
2785 StubRoutines::_fpu_subnormal_bias2[0]= 0x00000000; // 2^(+15360) == 0x7bff 8000 0000 0000 0000 | |
2786 StubRoutines::_fpu_subnormal_bias2[1]= 0x80000000; | |
2787 StubRoutines::_fpu_subnormal_bias2[2]= 0x7bff; | |
2788 } | |
2789 | |
2790 //--------------------------------------------------------------------------- | |
2791 // Initialization | |
2792 | |
2793 void generate_initial() { | |
2794 // Generates all stubs and initializes the entry points | |
2795 | |
2796 //------------------------------------------------------------------------------------------------------------------------ | |
2797 // entry points that exist in all platforms | |
2798 // Note: This is code that could be shared among different platforms - however the benefit seems to be smaller than | |
2799 // the disadvantage of having a much more complicated generator structure. See also comment in stubRoutines.hpp. | |
2800 StubRoutines::_forward_exception_entry = generate_forward_exception(); | |
2801 | |
2802 StubRoutines::_call_stub_entry = | |
2803 generate_call_stub(StubRoutines::_call_stub_return_address); | |
2804 // is referenced by megamorphic call | |
2805 StubRoutines::_catch_exception_entry = generate_catch_exception(); | |
2806 | |
2807 // These are currently used by Solaris/Intel | |
2808 StubRoutines::_atomic_xchg_entry = generate_atomic_xchg(); | |
2809 | |
2810 StubRoutines::_handler_for_unsafe_access_entry = | |
2811 generate_handler_for_unsafe_access(); | |
2812 | |
2813 // platform dependent | |
2814 create_control_words(); | |
2815 | |
304 | 2816 StubRoutines::x86::_verify_mxcsr_entry = generate_verify_mxcsr(); |
2817 StubRoutines::x86::_verify_fpu_cntrl_wrd_entry = generate_verify_fpu_cntrl_wrd(); | |
0 | 2818 StubRoutines::_d2i_wrapper = generate_d2i_wrapper(T_INT, |
2819 CAST_FROM_FN_PTR(address, SharedRuntime::d2i)); | |
2820 StubRoutines::_d2l_wrapper = generate_d2i_wrapper(T_LONG, | |
2821 CAST_FROM_FN_PTR(address, SharedRuntime::d2l)); | |
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2822 |
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2823 // Build this early so it's available for the interpreter |
4743 | 2824 StubRoutines::_throw_StackOverflowError_entry = generate_throw_exception("StackOverflowError throw_exception", CAST_FROM_FN_PTR(address, SharedRuntime::throw_StackOverflowError)); |
0 | 2825 } |
2826 | |
2827 | |
2828 void generate_all() { | |
2829 // Generates all stubs and initializes the entry points | |
2830 | |
2831 // These entry points require SharedInfo::stack0 to be set up in non-core builds | |
2832 // and need to be relocatable, so they each fabricate a RuntimeStub internally. | |
3937 | 2833 StubRoutines::_throw_AbstractMethodError_entry = generate_throw_exception("AbstractMethodError throw_exception", CAST_FROM_FN_PTR(address, SharedRuntime::throw_AbstractMethodError)); |
2834 StubRoutines::_throw_IncompatibleClassChangeError_entry= generate_throw_exception("IncompatibleClassChangeError throw_exception", CAST_FROM_FN_PTR(address, SharedRuntime::throw_IncompatibleClassChangeError)); | |
2835 StubRoutines::_throw_NullPointerException_at_call_entry= generate_throw_exception("NullPointerException at call throw_exception", CAST_FROM_FN_PTR(address, SharedRuntime::throw_NullPointerException_at_call)); | |
0 | 2836 |
2837 //------------------------------------------------------------------------------------------------------------------------ | |
2838 // entry points that are platform specific | |
2839 | |
2840 // support for verify_oop (must happen after universe_init) | |
2841 StubRoutines::_verify_oop_subroutine_entry = generate_verify_oop(); | |
2842 | |
2843 // arraycopy stubs used by compilers | |
2844 generate_arraycopy_stubs(); | |
710 | 2845 |
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2846 generate_math_stubs(); |
6894 | 2847 |
2848 // don't bother generating these AES intrinsic stubs unless global flag is set | |
2849 if (UseAESIntrinsics) { | |
2850 StubRoutines::x86::_key_shuffle_mask_addr = generate_key_shuffle_mask(); // might be needed by the others | |
2851 | |
2852 StubRoutines::_aescrypt_encryptBlock = generate_aescrypt_encryptBlock(); | |
2853 StubRoutines::_aescrypt_decryptBlock = generate_aescrypt_decryptBlock(); | |
2854 StubRoutines::_cipherBlockChaining_encryptAESCrypt = generate_cipherBlockChaining_encryptAESCrypt(); | |
2855 StubRoutines::_cipherBlockChaining_decryptAESCrypt = generate_cipherBlockChaining_decryptAESCrypt(); | |
2856 } | |
0 | 2857 } |
2858 | |
2859 | |
2860 public: | |
2861 StubGenerator(CodeBuffer* code, bool all) : StubCodeGenerator(code) { | |
2862 if (all) { | |
2863 generate_all(); | |
2864 } else { | |
2865 generate_initial(); | |
2866 } | |
2867 } | |
2868 }; // end class declaration | |
2869 | |
2870 | |
2871 void StubGenerator_generate(CodeBuffer* code, bool all) { | |
2872 StubGenerator g(code, all); | |
2873 } |