Mercurial > hg > truffle
annotate src/cpu/x86/vm/sharedRuntime_x86_64.cpp @ 344:6aae2f9d0294
Merge
author | ysr |
---|---|
date | Thu, 12 Jun 2008 13:50:55 -0700 |
parents | 437d03ea40b1 |
children | d1605aabd0a1 |
rev | line source |
---|---|
0 | 1 /* |
2 * Copyright 2003-2007 Sun Microsystems, Inc. All Rights Reserved. | |
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. | |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, | |
20 * CA 95054 USA or visit www.sun.com if you need additional information or | |
21 * have any questions. | |
22 * | |
23 */ | |
24 | |
25 #include "incls/_precompiled.incl" | |
26 #include "incls/_sharedRuntime_x86_64.cpp.incl" | |
27 | |
28 DeoptimizationBlob *SharedRuntime::_deopt_blob; | |
29 #ifdef COMPILER2 | |
30 UncommonTrapBlob *SharedRuntime::_uncommon_trap_blob; | |
31 ExceptionBlob *OptoRuntime::_exception_blob; | |
32 #endif // COMPILER2 | |
33 | |
34 SafepointBlob *SharedRuntime::_polling_page_safepoint_handler_blob; | |
35 SafepointBlob *SharedRuntime::_polling_page_return_handler_blob; | |
36 RuntimeStub* SharedRuntime::_wrong_method_blob; | |
37 RuntimeStub* SharedRuntime::_ic_miss_blob; | |
38 RuntimeStub* SharedRuntime::_resolve_opt_virtual_call_blob; | |
39 RuntimeStub* SharedRuntime::_resolve_virtual_call_blob; | |
40 RuntimeStub* SharedRuntime::_resolve_static_call_blob; | |
41 | |
42 #define __ masm-> | |
43 | |
44 class SimpleRuntimeFrame { | |
45 | |
46 public: | |
47 | |
48 // Most of the runtime stubs have this simple frame layout. | |
49 // This class exists to make the layout shared in one place. | |
50 // Offsets are for compiler stack slots, which are jints. | |
51 enum layout { | |
52 // The frame sender code expects that rbp will be in the "natural" place and | |
53 // will override any oopMap setting for it. We must therefore force the layout | |
54 // so that it agrees with the frame sender code. | |
55 rbp_off = frame::arg_reg_save_area_bytes/BytesPerInt, | |
56 rbp_off2, | |
57 return_off, return_off2, | |
58 framesize | |
59 }; | |
60 }; | |
61 | |
62 class RegisterSaver { | |
63 // Capture info about frame layout. Layout offsets are in jint | |
64 // units because compiler frame slots are jints. | |
65 #define DEF_XMM_OFFS(regnum) xmm ## regnum ## _off = xmm_off + (regnum)*16/BytesPerInt, xmm ## regnum ## H_off | |
66 enum layout { | |
67 fpu_state_off = frame::arg_reg_save_area_bytes/BytesPerInt, // fxsave save area | |
68 xmm_off = fpu_state_off + 160/BytesPerInt, // offset in fxsave save area | |
69 DEF_XMM_OFFS(0), | |
70 DEF_XMM_OFFS(1), | |
71 DEF_XMM_OFFS(2), | |
72 DEF_XMM_OFFS(3), | |
73 DEF_XMM_OFFS(4), | |
74 DEF_XMM_OFFS(5), | |
75 DEF_XMM_OFFS(6), | |
76 DEF_XMM_OFFS(7), | |
77 DEF_XMM_OFFS(8), | |
78 DEF_XMM_OFFS(9), | |
79 DEF_XMM_OFFS(10), | |
80 DEF_XMM_OFFS(11), | |
81 DEF_XMM_OFFS(12), | |
82 DEF_XMM_OFFS(13), | |
83 DEF_XMM_OFFS(14), | |
84 DEF_XMM_OFFS(15), | |
85 fpu_state_end = fpu_state_off + ((FPUStateSizeInWords-1)*wordSize / BytesPerInt), | |
86 fpu_stateH_end, | |
87 r15_off, r15H_off, | |
88 r14_off, r14H_off, | |
89 r13_off, r13H_off, | |
90 r12_off, r12H_off, | |
91 r11_off, r11H_off, | |
92 r10_off, r10H_off, | |
93 r9_off, r9H_off, | |
94 r8_off, r8H_off, | |
95 rdi_off, rdiH_off, | |
96 rsi_off, rsiH_off, | |
97 ignore_off, ignoreH_off, // extra copy of rbp | |
98 rsp_off, rspH_off, | |
99 rbx_off, rbxH_off, | |
100 rdx_off, rdxH_off, | |
101 rcx_off, rcxH_off, | |
102 rax_off, raxH_off, | |
103 // 16-byte stack alignment fill word: see MacroAssembler::push/pop_IU_state | |
104 align_off, alignH_off, | |
105 flags_off, flagsH_off, | |
106 // The frame sender code expects that rbp will be in the "natural" place and | |
107 // will override any oopMap setting for it. We must therefore force the layout | |
108 // so that it agrees with the frame sender code. | |
109 rbp_off, rbpH_off, // copy of rbp we will restore | |
110 return_off, returnH_off, // slot for return address | |
111 reg_save_size // size in compiler stack slots | |
112 }; | |
113 | |
114 public: | |
115 static OopMap* save_live_registers(MacroAssembler* masm, int additional_frame_words, int* total_frame_words); | |
116 static void restore_live_registers(MacroAssembler* masm); | |
117 | |
118 // Offsets into the register save area | |
119 // Used by deoptimization when it is managing result register | |
120 // values on its own | |
121 | |
122 static int rax_offset_in_bytes(void) { return BytesPerInt * rax_off; } | |
123 static int rbx_offset_in_bytes(void) { return BytesPerInt * rbx_off; } | |
124 static int xmm0_offset_in_bytes(void) { return BytesPerInt * xmm0_off; } | |
125 static int return_offset_in_bytes(void) { return BytesPerInt * return_off; } | |
126 | |
127 // During deoptimization only the result registers need to be restored, | |
128 // all the other values have already been extracted. | |
129 static void restore_result_registers(MacroAssembler* masm); | |
130 }; | |
131 | |
132 OopMap* RegisterSaver::save_live_registers(MacroAssembler* masm, int additional_frame_words, int* total_frame_words) { | |
133 | |
134 // Always make the frame size 16-byte aligned | |
135 int frame_size_in_bytes = round_to(additional_frame_words*wordSize + | |
136 reg_save_size*BytesPerInt, 16); | |
137 // OopMap frame size is in compiler stack slots (jint's) not bytes or words | |
138 int frame_size_in_slots = frame_size_in_bytes / BytesPerInt; | |
139 // The caller will allocate additional_frame_words | |
140 int additional_frame_slots = additional_frame_words*wordSize / BytesPerInt; | |
141 // CodeBlob frame size is in words. | |
142 int frame_size_in_words = frame_size_in_bytes / wordSize; | |
143 *total_frame_words = frame_size_in_words; | |
144 | |
145 // Save registers, fpu state, and flags. | |
146 // We assume caller has already pushed the return address onto the | |
147 // stack, so rsp is 8-byte aligned here. | |
148 // We push rpb twice in this sequence because we want the real rbp | |
149 // to be under the return like a normal enter. | |
150 | |
151 __ enter(); // rsp becomes 16-byte aligned here | |
152 __ push_CPU_state(); // Push a multiple of 16 bytes | |
153 if (frame::arg_reg_save_area_bytes != 0) { | |
154 // Allocate argument register save area | |
155 __ subq(rsp, frame::arg_reg_save_area_bytes); | |
156 } | |
157 | |
158 // Set an oopmap for the call site. This oopmap will map all | |
159 // oop-registers and debug-info registers as callee-saved. This | |
160 // will allow deoptimization at this safepoint to find all possible | |
161 // debug-info recordings, as well as let GC find all oops. | |
162 | |
163 OopMapSet *oop_maps = new OopMapSet(); | |
164 OopMap* map = new OopMap(frame_size_in_slots, 0); | |
165 map->set_callee_saved(VMRegImpl::stack2reg( rax_off + additional_frame_slots), rax->as_VMReg()); | |
166 map->set_callee_saved(VMRegImpl::stack2reg( rcx_off + additional_frame_slots), rcx->as_VMReg()); | |
167 map->set_callee_saved(VMRegImpl::stack2reg( rdx_off + additional_frame_slots), rdx->as_VMReg()); | |
168 map->set_callee_saved(VMRegImpl::stack2reg( rbx_off + additional_frame_slots), rbx->as_VMReg()); | |
169 // rbp location is known implicitly by the frame sender code, needs no oopmap | |
170 // and the location where rbp was saved by is ignored | |
171 map->set_callee_saved(VMRegImpl::stack2reg( rsi_off + additional_frame_slots), rsi->as_VMReg()); | |
172 map->set_callee_saved(VMRegImpl::stack2reg( rdi_off + additional_frame_slots), rdi->as_VMReg()); | |
173 map->set_callee_saved(VMRegImpl::stack2reg( r8_off + additional_frame_slots), r8->as_VMReg()); | |
174 map->set_callee_saved(VMRegImpl::stack2reg( r9_off + additional_frame_slots), r9->as_VMReg()); | |
175 map->set_callee_saved(VMRegImpl::stack2reg( r10_off + additional_frame_slots), r10->as_VMReg()); | |
176 map->set_callee_saved(VMRegImpl::stack2reg( r11_off + additional_frame_slots), r11->as_VMReg()); | |
177 map->set_callee_saved(VMRegImpl::stack2reg( r12_off + additional_frame_slots), r12->as_VMReg()); | |
178 map->set_callee_saved(VMRegImpl::stack2reg( r13_off + additional_frame_slots), r13->as_VMReg()); | |
179 map->set_callee_saved(VMRegImpl::stack2reg( r14_off + additional_frame_slots), r14->as_VMReg()); | |
180 map->set_callee_saved(VMRegImpl::stack2reg( r15_off + additional_frame_slots), r15->as_VMReg()); | |
181 map->set_callee_saved(VMRegImpl::stack2reg(xmm0_off + additional_frame_slots), xmm0->as_VMReg()); | |
182 map->set_callee_saved(VMRegImpl::stack2reg(xmm1_off + additional_frame_slots), xmm1->as_VMReg()); | |
183 map->set_callee_saved(VMRegImpl::stack2reg(xmm2_off + additional_frame_slots), xmm2->as_VMReg()); | |
184 map->set_callee_saved(VMRegImpl::stack2reg(xmm3_off + additional_frame_slots), xmm3->as_VMReg()); | |
185 map->set_callee_saved(VMRegImpl::stack2reg(xmm4_off + additional_frame_slots), xmm4->as_VMReg()); | |
186 map->set_callee_saved(VMRegImpl::stack2reg(xmm5_off + additional_frame_slots), xmm5->as_VMReg()); | |
187 map->set_callee_saved(VMRegImpl::stack2reg(xmm6_off + additional_frame_slots), xmm6->as_VMReg()); | |
188 map->set_callee_saved(VMRegImpl::stack2reg(xmm7_off + additional_frame_slots), xmm7->as_VMReg()); | |
189 map->set_callee_saved(VMRegImpl::stack2reg(xmm8_off + additional_frame_slots), xmm8->as_VMReg()); | |
190 map->set_callee_saved(VMRegImpl::stack2reg(xmm9_off + additional_frame_slots), xmm9->as_VMReg()); | |
191 map->set_callee_saved(VMRegImpl::stack2reg(xmm10_off + additional_frame_slots), xmm10->as_VMReg()); | |
192 map->set_callee_saved(VMRegImpl::stack2reg(xmm11_off + additional_frame_slots), xmm11->as_VMReg()); | |
193 map->set_callee_saved(VMRegImpl::stack2reg(xmm12_off + additional_frame_slots), xmm12->as_VMReg()); | |
194 map->set_callee_saved(VMRegImpl::stack2reg(xmm13_off + additional_frame_slots), xmm13->as_VMReg()); | |
195 map->set_callee_saved(VMRegImpl::stack2reg(xmm14_off + additional_frame_slots), xmm14->as_VMReg()); | |
196 map->set_callee_saved(VMRegImpl::stack2reg(xmm15_off + additional_frame_slots), xmm15->as_VMReg()); | |
197 | |
198 // %%% These should all be a waste but we'll keep things as they were for now | |
199 if (true) { | |
200 map->set_callee_saved(VMRegImpl::stack2reg( raxH_off + additional_frame_slots), | |
201 rax->as_VMReg()->next()); | |
202 map->set_callee_saved(VMRegImpl::stack2reg( rcxH_off + additional_frame_slots), | |
203 rcx->as_VMReg()->next()); | |
204 map->set_callee_saved(VMRegImpl::stack2reg( rdxH_off + additional_frame_slots), | |
205 rdx->as_VMReg()->next()); | |
206 map->set_callee_saved(VMRegImpl::stack2reg( rbxH_off + additional_frame_slots), | |
207 rbx->as_VMReg()->next()); | |
208 // rbp location is known implicitly by the frame sender code, needs no oopmap | |
209 map->set_callee_saved(VMRegImpl::stack2reg( rsiH_off + additional_frame_slots), | |
210 rsi->as_VMReg()->next()); | |
211 map->set_callee_saved(VMRegImpl::stack2reg( rdiH_off + additional_frame_slots), | |
212 rdi->as_VMReg()->next()); | |
213 map->set_callee_saved(VMRegImpl::stack2reg( r8H_off + additional_frame_slots), | |
214 r8->as_VMReg()->next()); | |
215 map->set_callee_saved(VMRegImpl::stack2reg( r9H_off + additional_frame_slots), | |
216 r9->as_VMReg()->next()); | |
217 map->set_callee_saved(VMRegImpl::stack2reg( r10H_off + additional_frame_slots), | |
218 r10->as_VMReg()->next()); | |
219 map->set_callee_saved(VMRegImpl::stack2reg( r11H_off + additional_frame_slots), | |
220 r11->as_VMReg()->next()); | |
221 map->set_callee_saved(VMRegImpl::stack2reg( r12H_off + additional_frame_slots), | |
222 r12->as_VMReg()->next()); | |
223 map->set_callee_saved(VMRegImpl::stack2reg( r13H_off + additional_frame_slots), | |
224 r13->as_VMReg()->next()); | |
225 map->set_callee_saved(VMRegImpl::stack2reg( r14H_off + additional_frame_slots), | |
226 r14->as_VMReg()->next()); | |
227 map->set_callee_saved(VMRegImpl::stack2reg( r15H_off + additional_frame_slots), | |
228 r15->as_VMReg()->next()); | |
229 map->set_callee_saved(VMRegImpl::stack2reg(xmm0H_off + additional_frame_slots), | |
230 xmm0->as_VMReg()->next()); | |
231 map->set_callee_saved(VMRegImpl::stack2reg(xmm1H_off + additional_frame_slots), | |
232 xmm1->as_VMReg()->next()); | |
233 map->set_callee_saved(VMRegImpl::stack2reg(xmm2H_off + additional_frame_slots), | |
234 xmm2->as_VMReg()->next()); | |
235 map->set_callee_saved(VMRegImpl::stack2reg(xmm3H_off + additional_frame_slots), | |
236 xmm3->as_VMReg()->next()); | |
237 map->set_callee_saved(VMRegImpl::stack2reg(xmm4H_off + additional_frame_slots), | |
238 xmm4->as_VMReg()->next()); | |
239 map->set_callee_saved(VMRegImpl::stack2reg(xmm5H_off + additional_frame_slots), | |
240 xmm5->as_VMReg()->next()); | |
241 map->set_callee_saved(VMRegImpl::stack2reg(xmm6H_off + additional_frame_slots), | |
242 xmm6->as_VMReg()->next()); | |
243 map->set_callee_saved(VMRegImpl::stack2reg(xmm7H_off + additional_frame_slots), | |
244 xmm7->as_VMReg()->next()); | |
245 map->set_callee_saved(VMRegImpl::stack2reg(xmm8H_off + additional_frame_slots), | |
246 xmm8->as_VMReg()->next()); | |
247 map->set_callee_saved(VMRegImpl::stack2reg(xmm9H_off + additional_frame_slots), | |
248 xmm9->as_VMReg()->next()); | |
249 map->set_callee_saved(VMRegImpl::stack2reg(xmm10H_off + additional_frame_slots), | |
250 xmm10->as_VMReg()->next()); | |
251 map->set_callee_saved(VMRegImpl::stack2reg(xmm11H_off + additional_frame_slots), | |
252 xmm11->as_VMReg()->next()); | |
253 map->set_callee_saved(VMRegImpl::stack2reg(xmm12H_off + additional_frame_slots), | |
254 xmm12->as_VMReg()->next()); | |
255 map->set_callee_saved(VMRegImpl::stack2reg(xmm13H_off + additional_frame_slots), | |
256 xmm13->as_VMReg()->next()); | |
257 map->set_callee_saved(VMRegImpl::stack2reg(xmm14H_off + additional_frame_slots), | |
258 xmm14->as_VMReg()->next()); | |
259 map->set_callee_saved(VMRegImpl::stack2reg(xmm15H_off + additional_frame_slots), | |
260 xmm15->as_VMReg()->next()); | |
261 } | |
262 | |
263 return map; | |
264 } | |
265 | |
266 void RegisterSaver::restore_live_registers(MacroAssembler* masm) { | |
267 if (frame::arg_reg_save_area_bytes != 0) { | |
268 // Pop arg register save area | |
269 __ addq(rsp, frame::arg_reg_save_area_bytes); | |
270 } | |
271 // Recover CPU state | |
272 __ pop_CPU_state(); | |
273 // Get the rbp described implicitly by the calling convention (no oopMap) | |
274 __ popq(rbp); | |
275 } | |
276 | |
277 void RegisterSaver::restore_result_registers(MacroAssembler* masm) { | |
278 | |
279 // Just restore result register. Only used by deoptimization. By | |
280 // now any callee save register that needs to be restored to a c2 | |
281 // caller of the deoptee has been extracted into the vframeArray | |
282 // and will be stuffed into the c2i adapter we create for later | |
283 // restoration so only result registers need to be restored here. | |
284 | |
285 // Restore fp result register | |
286 __ movdbl(xmm0, Address(rsp, xmm0_offset_in_bytes())); | |
287 // Restore integer result register | |
288 __ movq(rax, Address(rsp, rax_offset_in_bytes())); | |
289 // Pop all of the register save are off the stack except the return address | |
290 __ addq(rsp, return_offset_in_bytes()); | |
291 } | |
292 | |
293 // The java_calling_convention describes stack locations as ideal slots on | |
294 // a frame with no abi restrictions. Since we must observe abi restrictions | |
295 // (like the placement of the register window) the slots must be biased by | |
296 // the following value. | |
297 static int reg2offset_in(VMReg r) { | |
298 // Account for saved rbp and return address | |
299 // This should really be in_preserve_stack_slots | |
300 return (r->reg2stack() + 4) * VMRegImpl::stack_slot_size; | |
301 } | |
302 | |
303 static int reg2offset_out(VMReg r) { | |
304 return (r->reg2stack() + SharedRuntime::out_preserve_stack_slots()) * VMRegImpl::stack_slot_size; | |
305 } | |
306 | |
307 // --------------------------------------------------------------------------- | |
308 // Read the array of BasicTypes from a signature, and compute where the | |
309 // arguments should go. Values in the VMRegPair regs array refer to 4-byte | |
310 // quantities. Values less than VMRegImpl::stack0 are registers, those above | |
311 // refer to 4-byte stack slots. All stack slots are based off of the stack pointer | |
312 // as framesizes are fixed. | |
313 // VMRegImpl::stack0 refers to the first slot 0(sp). | |
314 // and VMRegImpl::stack0+1 refers to the memory word 4-byes higher. Register | |
315 // up to RegisterImpl::number_of_registers) are the 64-bit | |
316 // integer registers. | |
317 | |
318 // Note: the INPUTS in sig_bt are in units of Java argument words, which are | |
319 // either 32-bit or 64-bit depending on the build. The OUTPUTS are in 32-bit | |
320 // units regardless of build. Of course for i486 there is no 64 bit build | |
321 | |
322 // The Java calling convention is a "shifted" version of the C ABI. | |
323 // By skipping the first C ABI register we can call non-static jni methods | |
324 // with small numbers of arguments without having to shuffle the arguments | |
325 // at all. Since we control the java ABI we ought to at least get some | |
326 // advantage out of it. | |
327 | |
328 int SharedRuntime::java_calling_convention(const BasicType *sig_bt, | |
329 VMRegPair *regs, | |
330 int total_args_passed, | |
331 int is_outgoing) { | |
332 | |
333 // Create the mapping between argument positions and | |
334 // registers. | |
335 static const Register INT_ArgReg[Argument::n_int_register_parameters_j] = { | |
336 j_rarg0, j_rarg1, j_rarg2, j_rarg3, j_rarg4, j_rarg5 | |
337 }; | |
338 static const XMMRegister FP_ArgReg[Argument::n_float_register_parameters_j] = { | |
339 j_farg0, j_farg1, j_farg2, j_farg3, | |
340 j_farg4, j_farg5, j_farg6, j_farg7 | |
341 }; | |
342 | |
343 | |
344 uint int_args = 0; | |
345 uint fp_args = 0; | |
346 uint stk_args = 0; // inc by 2 each time | |
347 | |
348 for (int i = 0; i < total_args_passed; i++) { | |
349 switch (sig_bt[i]) { | |
350 case T_BOOLEAN: | |
351 case T_CHAR: | |
352 case T_BYTE: | |
353 case T_SHORT: | |
354 case T_INT: | |
355 if (int_args < Argument::n_int_register_parameters_j) { | |
356 regs[i].set1(INT_ArgReg[int_args++]->as_VMReg()); | |
357 } else { | |
358 regs[i].set1(VMRegImpl::stack2reg(stk_args)); | |
359 stk_args += 2; | |
360 } | |
361 break; | |
362 case T_VOID: | |
363 // halves of T_LONG or T_DOUBLE | |
364 assert(i != 0 && (sig_bt[i - 1] == T_LONG || sig_bt[i - 1] == T_DOUBLE), "expecting half"); | |
365 regs[i].set_bad(); | |
366 break; | |
367 case T_LONG: | |
368 assert(sig_bt[i + 1] == T_VOID, "expecting half"); | |
369 // fall through | |
370 case T_OBJECT: | |
371 case T_ARRAY: | |
372 case T_ADDRESS: | |
373 if (int_args < Argument::n_int_register_parameters_j) { | |
374 regs[i].set2(INT_ArgReg[int_args++]->as_VMReg()); | |
375 } else { | |
376 regs[i].set2(VMRegImpl::stack2reg(stk_args)); | |
377 stk_args += 2; | |
378 } | |
379 break; | |
380 case T_FLOAT: | |
381 if (fp_args < Argument::n_float_register_parameters_j) { | |
382 regs[i].set1(FP_ArgReg[fp_args++]->as_VMReg()); | |
383 } else { | |
384 regs[i].set1(VMRegImpl::stack2reg(stk_args)); | |
385 stk_args += 2; | |
386 } | |
387 break; | |
388 case T_DOUBLE: | |
389 assert(sig_bt[i + 1] == T_VOID, "expecting half"); | |
390 if (fp_args < Argument::n_float_register_parameters_j) { | |
391 regs[i].set2(FP_ArgReg[fp_args++]->as_VMReg()); | |
392 } else { | |
393 regs[i].set2(VMRegImpl::stack2reg(stk_args)); | |
394 stk_args += 2; | |
395 } | |
396 break; | |
397 default: | |
398 ShouldNotReachHere(); | |
399 break; | |
400 } | |
401 } | |
402 | |
403 return round_to(stk_args, 2); | |
404 } | |
405 | |
406 // Patch the callers callsite with entry to compiled code if it exists. | |
407 static void patch_callers_callsite(MacroAssembler *masm) { | |
408 Label L; | |
409 __ verify_oop(rbx); | |
410 __ cmpq(Address(rbx, in_bytes(methodOopDesc::code_offset())), (int)NULL_WORD); | |
411 __ jcc(Assembler::equal, L); | |
412 | |
413 // Save the current stack pointer | |
414 __ movq(r13, rsp); | |
415 // Schedule the branch target address early. | |
416 // Call into the VM to patch the caller, then jump to compiled callee | |
417 // rax isn't live so capture return address while we easily can | |
418 __ movq(rax, Address(rsp, 0)); | |
419 | |
420 // align stack so push_CPU_state doesn't fault | |
421 __ andq(rsp, -(StackAlignmentInBytes)); | |
422 __ push_CPU_state(); | |
423 | |
424 | |
425 __ verify_oop(rbx); | |
426 // VM needs caller's callsite | |
427 // VM needs target method | |
428 // This needs to be a long call since we will relocate this adapter to | |
429 // the codeBuffer and it may not reach | |
430 | |
431 // Allocate argument register save area | |
432 if (frame::arg_reg_save_area_bytes != 0) { | |
433 __ subq(rsp, frame::arg_reg_save_area_bytes); | |
434 } | |
435 __ movq(c_rarg0, rbx); | |
436 __ movq(c_rarg1, rax); | |
437 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, SharedRuntime::fixup_callers_callsite))); | |
438 | |
439 // De-allocate argument register save area | |
440 if (frame::arg_reg_save_area_bytes != 0) { | |
441 __ addq(rsp, frame::arg_reg_save_area_bytes); | |
442 } | |
443 | |
444 __ pop_CPU_state(); | |
445 // restore sp | |
446 __ movq(rsp, r13); | |
447 __ bind(L); | |
448 } | |
449 | |
450 // Helper function to put tags in interpreter stack. | |
451 static void tag_stack(MacroAssembler *masm, const BasicType sig, int st_off) { | |
452 if (TaggedStackInterpreter) { | |
453 int tag_offset = st_off + Interpreter::expr_tag_offset_in_bytes(0); | |
454 if (sig == T_OBJECT || sig == T_ARRAY) { | |
455 __ mov64(Address(rsp, tag_offset), frame::TagReference); | |
456 } else if (sig == T_LONG || sig == T_DOUBLE) { | |
457 int next_tag_offset = st_off + Interpreter::expr_tag_offset_in_bytes(1); | |
458 __ mov64(Address(rsp, next_tag_offset), frame::TagValue); | |
459 __ mov64(Address(rsp, tag_offset), frame::TagValue); | |
460 } else { | |
461 __ mov64(Address(rsp, tag_offset), frame::TagValue); | |
462 } | |
463 } | |
464 } | |
465 | |
466 | |
467 static void gen_c2i_adapter(MacroAssembler *masm, | |
468 int total_args_passed, | |
469 int comp_args_on_stack, | |
470 const BasicType *sig_bt, | |
471 const VMRegPair *regs, | |
472 Label& skip_fixup) { | |
473 // Before we get into the guts of the C2I adapter, see if we should be here | |
474 // at all. We've come from compiled code and are attempting to jump to the | |
475 // interpreter, which means the caller made a static call to get here | |
476 // (vcalls always get a compiled target if there is one). Check for a | |
477 // compiled target. If there is one, we need to patch the caller's call. | |
478 patch_callers_callsite(masm); | |
479 | |
480 __ bind(skip_fixup); | |
481 | |
482 // Since all args are passed on the stack, total_args_passed * | |
483 // Interpreter::stackElementSize is the space we need. Plus 1 because | |
484 // we also account for the return address location since | |
485 // we store it first rather than hold it in rax across all the shuffling | |
486 | |
487 int extraspace = (total_args_passed * Interpreter::stackElementSize()) + wordSize; | |
488 | |
489 // stack is aligned, keep it that way | |
490 extraspace = round_to(extraspace, 2*wordSize); | |
491 | |
492 // Get return address | |
493 __ popq(rax); | |
494 | |
495 // set senderSP value | |
496 __ movq(r13, rsp); | |
497 | |
498 __ subq(rsp, extraspace); | |
499 | |
500 // Store the return address in the expected location | |
501 __ movq(Address(rsp, 0), rax); | |
502 | |
503 // Now write the args into the outgoing interpreter space | |
504 for (int i = 0; i < total_args_passed; i++) { | |
505 if (sig_bt[i] == T_VOID) { | |
506 assert(i > 0 && (sig_bt[i-1] == T_LONG || sig_bt[i-1] == T_DOUBLE), "missing half"); | |
507 continue; | |
508 } | |
509 | |
510 // offset to start parameters | |
511 int st_off = (total_args_passed - i) * Interpreter::stackElementSize() + | |
512 Interpreter::value_offset_in_bytes(); | |
513 int next_off = st_off - Interpreter::stackElementSize(); | |
514 | |
515 // Say 4 args: | |
516 // i st_off | |
517 // 0 32 T_LONG | |
518 // 1 24 T_VOID | |
519 // 2 16 T_OBJECT | |
520 // 3 8 T_BOOL | |
521 // - 0 return address | |
522 // | |
523 // However to make thing extra confusing. Because we can fit a long/double in | |
524 // a single slot on a 64 bt vm and it would be silly to break them up, the interpreter | |
525 // leaves one slot empty and only stores to a single slot. In this case the | |
526 // slot that is occupied is the T_VOID slot. See I said it was confusing. | |
527 | |
528 VMReg r_1 = regs[i].first(); | |
529 VMReg r_2 = regs[i].second(); | |
530 if (!r_1->is_valid()) { | |
531 assert(!r_2->is_valid(), ""); | |
532 continue; | |
533 } | |
534 if (r_1->is_stack()) { | |
535 // memory to memory use rax | |
536 int ld_off = r_1->reg2stack() * VMRegImpl::stack_slot_size + extraspace; | |
537 if (!r_2->is_valid()) { | |
538 // sign extend?? | |
539 __ movl(rax, Address(rsp, ld_off)); | |
540 __ movq(Address(rsp, st_off), rax); | |
541 tag_stack(masm, sig_bt[i], st_off); | |
542 | |
543 } else { | |
544 | |
545 __ movq(rax, Address(rsp, ld_off)); | |
546 | |
547 // Two VMREgs|OptoRegs can be T_OBJECT, T_ADDRESS, T_DOUBLE, T_LONG | |
548 // T_DOUBLE and T_LONG use two slots in the interpreter | |
549 if ( sig_bt[i] == T_LONG || sig_bt[i] == T_DOUBLE) { | |
550 // ld_off == LSW, ld_off+wordSize == MSW | |
551 // st_off == MSW, next_off == LSW | |
552 __ movq(Address(rsp, next_off), rax); | |
553 #ifdef ASSERT | |
554 // Overwrite the unused slot with known junk | |
555 __ mov64(rax, CONST64(0xdeadffffdeadaaaa)); | |
556 __ movq(Address(rsp, st_off), rax); | |
557 #endif /* ASSERT */ | |
558 tag_stack(masm, sig_bt[i], next_off); | |
559 } else { | |
560 __ movq(Address(rsp, st_off), rax); | |
561 tag_stack(masm, sig_bt[i], st_off); | |
562 } | |
563 } | |
564 } else if (r_1->is_Register()) { | |
565 Register r = r_1->as_Register(); | |
566 if (!r_2->is_valid()) { | |
567 // must be only an int (or less ) so move only 32bits to slot | |
568 // why not sign extend?? | |
569 __ movl(Address(rsp, st_off), r); | |
570 tag_stack(masm, sig_bt[i], st_off); | |
571 } else { | |
572 // Two VMREgs|OptoRegs can be T_OBJECT, T_ADDRESS, T_DOUBLE, T_LONG | |
573 // T_DOUBLE and T_LONG use two slots in the interpreter | |
574 if ( sig_bt[i] == T_LONG || sig_bt[i] == T_DOUBLE) { | |
575 // long/double in gpr | |
576 #ifdef ASSERT | |
577 // Overwrite the unused slot with known junk | |
578 __ mov64(rax, CONST64(0xdeadffffdeadaaab)); | |
579 __ movq(Address(rsp, st_off), rax); | |
580 #endif /* ASSERT */ | |
581 __ movq(Address(rsp, next_off), r); | |
582 tag_stack(masm, sig_bt[i], next_off); | |
583 } else { | |
584 __ movq(Address(rsp, st_off), r); | |
585 tag_stack(masm, sig_bt[i], st_off); | |
586 } | |
587 } | |
588 } else { | |
589 assert(r_1->is_XMMRegister(), ""); | |
590 if (!r_2->is_valid()) { | |
591 // only a float use just part of the slot | |
592 __ movflt(Address(rsp, st_off), r_1->as_XMMRegister()); | |
593 tag_stack(masm, sig_bt[i], st_off); | |
594 } else { | |
595 #ifdef ASSERT | |
596 // Overwrite the unused slot with known junk | |
597 __ mov64(rax, CONST64(0xdeadffffdeadaaac)); | |
598 __ movq(Address(rsp, st_off), rax); | |
599 #endif /* ASSERT */ | |
600 __ movdbl(Address(rsp, next_off), r_1->as_XMMRegister()); | |
601 tag_stack(masm, sig_bt[i], next_off); | |
602 } | |
603 } | |
604 } | |
605 | |
606 // Schedule the branch target address early. | |
607 __ movq(rcx, Address(rbx, in_bytes(methodOopDesc::interpreter_entry_offset()))); | |
608 __ jmp(rcx); | |
609 } | |
610 | |
611 static void gen_i2c_adapter(MacroAssembler *masm, | |
612 int total_args_passed, | |
613 int comp_args_on_stack, | |
614 const BasicType *sig_bt, | |
615 const VMRegPair *regs) { | |
616 | |
617 // | |
618 // We will only enter here from an interpreted frame and never from after | |
619 // passing thru a c2i. Azul allowed this but we do not. If we lose the | |
620 // race and use a c2i we will remain interpreted for the race loser(s). | |
621 // This removes all sorts of headaches on the x86 side and also eliminates | |
622 // the possibility of having c2i -> i2c -> c2i -> ... endless transitions. | |
623 | |
624 | |
625 // Note: r13 contains the senderSP on entry. We must preserve it since | |
626 // we may do a i2c -> c2i transition if we lose a race where compiled | |
627 // code goes non-entrant while we get args ready. | |
628 // In addition we use r13 to locate all the interpreter args as | |
629 // we must align the stack to 16 bytes on an i2c entry else we | |
630 // lose alignment we expect in all compiled code and register | |
631 // save code can segv when fxsave instructions find improperly | |
632 // aligned stack pointer. | |
633 | |
634 __ movq(rax, Address(rsp, 0)); | |
635 | |
636 // Cut-out for having no stack args. Since up to 2 int/oop args are passed | |
637 // in registers, we will occasionally have no stack args. | |
638 int comp_words_on_stack = 0; | |
639 if (comp_args_on_stack) { | |
640 // Sig words on the stack are greater-than VMRegImpl::stack0. Those in | |
641 // registers are below. By subtracting stack0, we either get a negative | |
642 // number (all values in registers) or the maximum stack slot accessed. | |
643 | |
644 // Convert 4-byte c2 stack slots to words. | |
645 comp_words_on_stack = round_to(comp_args_on_stack*VMRegImpl::stack_slot_size, wordSize)>>LogBytesPerWord; | |
646 // Round up to miminum stack alignment, in wordSize | |
647 comp_words_on_stack = round_to(comp_words_on_stack, 2); | |
648 __ subq(rsp, comp_words_on_stack * wordSize); | |
649 } | |
650 | |
651 | |
652 // Ensure compiled code always sees stack at proper alignment | |
653 __ andq(rsp, -16); | |
654 | |
655 // push the return address and misalign the stack that youngest frame always sees | |
656 // as far as the placement of the call instruction | |
657 __ pushq(rax); | |
658 | |
659 // Will jump to the compiled code just as if compiled code was doing it. | |
660 // Pre-load the register-jump target early, to schedule it better. | |
661 __ movq(r11, Address(rbx, in_bytes(methodOopDesc::from_compiled_offset()))); | |
662 | |
663 // Now generate the shuffle code. Pick up all register args and move the | |
664 // rest through the floating point stack top. | |
665 for (int i = 0; i < total_args_passed; i++) { | |
666 if (sig_bt[i] == T_VOID) { | |
667 // Longs and doubles are passed in native word order, but misaligned | |
668 // in the 32-bit build. | |
669 assert(i > 0 && (sig_bt[i-1] == T_LONG || sig_bt[i-1] == T_DOUBLE), "missing half"); | |
670 continue; | |
671 } | |
672 | |
673 // Pick up 0, 1 or 2 words from SP+offset. | |
674 | |
675 assert(!regs[i].second()->is_valid() || regs[i].first()->next() == regs[i].second(), | |
676 "scrambled load targets?"); | |
677 // Load in argument order going down. | |
678 // int ld_off = (total_args_passed + comp_words_on_stack -i)*wordSize; | |
679 // base ld_off on r13 (sender_sp) as the stack alignment makes offsets from rsp | |
680 // unpredictable | |
681 int ld_off = ((total_args_passed - 1) - i)*Interpreter::stackElementSize(); | |
682 | |
683 // Point to interpreter value (vs. tag) | |
684 int next_off = ld_off - Interpreter::stackElementSize(); | |
685 // | |
686 // | |
687 // | |
688 VMReg r_1 = regs[i].first(); | |
689 VMReg r_2 = regs[i].second(); | |
690 if (!r_1->is_valid()) { | |
691 assert(!r_2->is_valid(), ""); | |
692 continue; | |
693 } | |
694 if (r_1->is_stack()) { | |
695 // Convert stack slot to an SP offset (+ wordSize to account for return address ) | |
696 int st_off = regs[i].first()->reg2stack()*VMRegImpl::stack_slot_size + wordSize; | |
697 if (!r_2->is_valid()) { | |
698 // sign extend??? | |
699 __ movl(rax, Address(r13, ld_off)); | |
700 __ movq(Address(rsp, st_off), rax); | |
701 } else { | |
702 // | |
703 // We are using two optoregs. This can be either T_OBJECT, T_ADDRESS, T_LONG, or T_DOUBLE | |
704 // the interpreter allocates two slots but only uses one for thr T_LONG or T_DOUBLE case | |
705 // So we must adjust where to pick up the data to match the interpreter. | |
706 // | |
707 // Interpreter local[n] == MSW, local[n+1] == LSW however locals | |
708 // are accessed as negative so LSW is at LOW address | |
709 | |
710 // ld_off is MSW so get LSW | |
711 const int offset = (sig_bt[i]==T_LONG||sig_bt[i]==T_DOUBLE)? | |
712 next_off : ld_off; | |
713 __ movq(rax, Address(r13, offset)); | |
714 // st_off is LSW (i.e. reg.first()) | |
715 __ movq(Address(rsp, st_off), rax); | |
716 } | |
717 } else if (r_1->is_Register()) { // Register argument | |
718 Register r = r_1->as_Register(); | |
719 assert(r != rax, "must be different"); | |
720 if (r_2->is_valid()) { | |
721 // | |
722 // We are using two VMRegs. This can be either T_OBJECT, T_ADDRESS, T_LONG, or T_DOUBLE | |
723 // the interpreter allocates two slots but only uses one for thr T_LONG or T_DOUBLE case | |
724 // So we must adjust where to pick up the data to match the interpreter. | |
725 | |
726 const int offset = (sig_bt[i]==T_LONG||sig_bt[i]==T_DOUBLE)? | |
727 next_off : ld_off; | |
728 | |
729 // this can be a misaligned move | |
730 __ movq(r, Address(r13, offset)); | |
731 } else { | |
732 // sign extend and use a full word? | |
733 __ movl(r, Address(r13, ld_off)); | |
734 } | |
735 } else { | |
736 if (!r_2->is_valid()) { | |
737 __ movflt(r_1->as_XMMRegister(), Address(r13, ld_off)); | |
738 } else { | |
739 __ movdbl(r_1->as_XMMRegister(), Address(r13, next_off)); | |
740 } | |
741 } | |
742 } | |
743 | |
744 // 6243940 We might end up in handle_wrong_method if | |
745 // the callee is deoptimized as we race thru here. If that | |
746 // happens we don't want to take a safepoint because the | |
747 // caller frame will look interpreted and arguments are now | |
748 // "compiled" so it is much better to make this transition | |
749 // invisible to the stack walking code. Unfortunately if | |
750 // we try and find the callee by normal means a safepoint | |
751 // is possible. So we stash the desired callee in the thread | |
752 // and the vm will find there should this case occur. | |
753 | |
754 __ movq(Address(r15_thread, JavaThread::callee_target_offset()), rbx); | |
755 | |
756 // put methodOop where a c2i would expect should we end up there | |
757 // only needed becaus eof c2 resolve stubs return methodOop as a result in | |
758 // rax | |
759 __ movq(rax, rbx); | |
760 __ jmp(r11); | |
761 } | |
762 | |
763 // --------------------------------------------------------------- | |
764 AdapterHandlerEntry* SharedRuntime::generate_i2c2i_adapters(MacroAssembler *masm, | |
765 int total_args_passed, | |
766 int comp_args_on_stack, | |
767 const BasicType *sig_bt, | |
768 const VMRegPair *regs) { | |
769 address i2c_entry = __ pc(); | |
770 | |
771 gen_i2c_adapter(masm, total_args_passed, comp_args_on_stack, sig_bt, regs); | |
772 | |
773 // ------------------------------------------------------------------------- | |
774 // Generate a C2I adapter. On entry we know rbx holds the methodOop during calls | |
775 // to the interpreter. The args start out packed in the compiled layout. They | |
776 // need to be unpacked into the interpreter layout. This will almost always | |
777 // require some stack space. We grow the current (compiled) stack, then repack | |
778 // the args. We finally end in a jump to the generic interpreter entry point. | |
779 // On exit from the interpreter, the interpreter will restore our SP (lest the | |
780 // compiled code, which relys solely on SP and not RBP, get sick). | |
781 | |
782 address c2i_unverified_entry = __ pc(); | |
783 Label skip_fixup; | |
784 Label ok; | |
785 | |
786 Register holder = rax; | |
787 Register receiver = j_rarg0; | |
788 Register temp = rbx; | |
789 | |
790 { | |
791 __ verify_oop(holder); | |
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792 __ load_klass(temp, receiver); |
0 | 793 __ verify_oop(temp); |
794 | |
795 __ cmpq(temp, Address(holder, compiledICHolderOopDesc::holder_klass_offset())); | |
796 __ movq(rbx, Address(holder, compiledICHolderOopDesc::holder_method_offset())); | |
797 __ jcc(Assembler::equal, ok); | |
798 __ jump(RuntimeAddress(SharedRuntime::get_ic_miss_stub())); | |
799 | |
800 __ bind(ok); | |
801 // Method might have been compiled since the call site was patched to | |
802 // interpreted if that is the case treat it as a miss so we can get | |
803 // the call site corrected. | |
804 __ cmpq(Address(rbx, in_bytes(methodOopDesc::code_offset())), (int)NULL_WORD); | |
805 __ jcc(Assembler::equal, skip_fixup); | |
806 __ jump(RuntimeAddress(SharedRuntime::get_ic_miss_stub())); | |
807 } | |
808 | |
809 address c2i_entry = __ pc(); | |
810 | |
811 gen_c2i_adapter(masm, total_args_passed, comp_args_on_stack, sig_bt, regs, skip_fixup); | |
812 | |
813 __ flush(); | |
814 return new AdapterHandlerEntry(i2c_entry, c2i_entry, c2i_unverified_entry); | |
815 } | |
816 | |
817 int SharedRuntime::c_calling_convention(const BasicType *sig_bt, | |
818 VMRegPair *regs, | |
819 int total_args_passed) { | |
820 // We return the amount of VMRegImpl stack slots we need to reserve for all | |
821 // the arguments NOT counting out_preserve_stack_slots. | |
822 | |
823 // NOTE: These arrays will have to change when c1 is ported | |
824 #ifdef _WIN64 | |
825 static const Register INT_ArgReg[Argument::n_int_register_parameters_c] = { | |
826 c_rarg0, c_rarg1, c_rarg2, c_rarg3 | |
827 }; | |
828 static const XMMRegister FP_ArgReg[Argument::n_float_register_parameters_c] = { | |
829 c_farg0, c_farg1, c_farg2, c_farg3 | |
830 }; | |
831 #else | |
832 static const Register INT_ArgReg[Argument::n_int_register_parameters_c] = { | |
833 c_rarg0, c_rarg1, c_rarg2, c_rarg3, c_rarg4, c_rarg5 | |
834 }; | |
835 static const XMMRegister FP_ArgReg[Argument::n_float_register_parameters_c] = { | |
836 c_farg0, c_farg1, c_farg2, c_farg3, | |
837 c_farg4, c_farg5, c_farg6, c_farg7 | |
838 }; | |
839 #endif // _WIN64 | |
840 | |
841 | |
842 uint int_args = 0; | |
843 uint fp_args = 0; | |
844 uint stk_args = 0; // inc by 2 each time | |
845 | |
846 for (int i = 0; i < total_args_passed; i++) { | |
847 switch (sig_bt[i]) { | |
848 case T_BOOLEAN: | |
849 case T_CHAR: | |
850 case T_BYTE: | |
851 case T_SHORT: | |
852 case T_INT: | |
853 if (int_args < Argument::n_int_register_parameters_c) { | |
854 regs[i].set1(INT_ArgReg[int_args++]->as_VMReg()); | |
855 #ifdef _WIN64 | |
856 fp_args++; | |
857 // Allocate slots for callee to stuff register args the stack. | |
858 stk_args += 2; | |
859 #endif | |
860 } else { | |
861 regs[i].set1(VMRegImpl::stack2reg(stk_args)); | |
862 stk_args += 2; | |
863 } | |
864 break; | |
865 case T_LONG: | |
866 assert(sig_bt[i + 1] == T_VOID, "expecting half"); | |
867 // fall through | |
868 case T_OBJECT: | |
869 case T_ARRAY: | |
870 case T_ADDRESS: | |
871 if (int_args < Argument::n_int_register_parameters_c) { | |
872 regs[i].set2(INT_ArgReg[int_args++]->as_VMReg()); | |
873 #ifdef _WIN64 | |
874 fp_args++; | |
875 stk_args += 2; | |
876 #endif | |
877 } else { | |
878 regs[i].set2(VMRegImpl::stack2reg(stk_args)); | |
879 stk_args += 2; | |
880 } | |
881 break; | |
882 case T_FLOAT: | |
883 if (fp_args < Argument::n_float_register_parameters_c) { | |
884 regs[i].set1(FP_ArgReg[fp_args++]->as_VMReg()); | |
885 #ifdef _WIN64 | |
886 int_args++; | |
887 // Allocate slots for callee to stuff register args the stack. | |
888 stk_args += 2; | |
889 #endif | |
890 } else { | |
891 regs[i].set1(VMRegImpl::stack2reg(stk_args)); | |
892 stk_args += 2; | |
893 } | |
894 break; | |
895 case T_DOUBLE: | |
896 assert(sig_bt[i + 1] == T_VOID, "expecting half"); | |
897 if (fp_args < Argument::n_float_register_parameters_c) { | |
898 regs[i].set2(FP_ArgReg[fp_args++]->as_VMReg()); | |
899 #ifdef _WIN64 | |
900 int_args++; | |
901 // Allocate slots for callee to stuff register args the stack. | |
902 stk_args += 2; | |
903 #endif | |
904 } else { | |
905 regs[i].set2(VMRegImpl::stack2reg(stk_args)); | |
906 stk_args += 2; | |
907 } | |
908 break; | |
909 case T_VOID: // Halves of longs and doubles | |
910 assert(i != 0 && (sig_bt[i - 1] == T_LONG || sig_bt[i - 1] == T_DOUBLE), "expecting half"); | |
911 regs[i].set_bad(); | |
912 break; | |
913 default: | |
914 ShouldNotReachHere(); | |
915 break; | |
916 } | |
917 } | |
918 #ifdef _WIN64 | |
919 // windows abi requires that we always allocate enough stack space | |
920 // for 4 64bit registers to be stored down. | |
921 if (stk_args < 8) { | |
922 stk_args = 8; | |
923 } | |
924 #endif // _WIN64 | |
925 | |
926 return stk_args; | |
927 } | |
928 | |
929 // On 64 bit we will store integer like items to the stack as | |
930 // 64 bits items (sparc abi) even though java would only store | |
931 // 32bits for a parameter. On 32bit it will simply be 32 bits | |
932 // So this routine will do 32->32 on 32bit and 32->64 on 64bit | |
933 static void move32_64(MacroAssembler* masm, VMRegPair src, VMRegPair dst) { | |
934 if (src.first()->is_stack()) { | |
935 if (dst.first()->is_stack()) { | |
936 // stack to stack | |
937 __ movslq(rax, Address(rbp, reg2offset_in(src.first()))); | |
938 __ movq(Address(rsp, reg2offset_out(dst.first())), rax); | |
939 } else { | |
940 // stack to reg | |
941 __ movslq(dst.first()->as_Register(), Address(rbp, reg2offset_in(src.first()))); | |
942 } | |
943 } else if (dst.first()->is_stack()) { | |
944 // reg to stack | |
945 // Do we really have to sign extend??? | |
946 // __ movslq(src.first()->as_Register(), src.first()->as_Register()); | |
947 __ movq(Address(rsp, reg2offset_out(dst.first())), src.first()->as_Register()); | |
948 } else { | |
949 // Do we really have to sign extend??? | |
950 // __ movslq(dst.first()->as_Register(), src.first()->as_Register()); | |
951 if (dst.first() != src.first()) { | |
952 __ movq(dst.first()->as_Register(), src.first()->as_Register()); | |
953 } | |
954 } | |
955 } | |
956 | |
957 | |
958 // An oop arg. Must pass a handle not the oop itself | |
959 static void object_move(MacroAssembler* masm, | |
960 OopMap* map, | |
961 int oop_handle_offset, | |
962 int framesize_in_slots, | |
963 VMRegPair src, | |
964 VMRegPair dst, | |
965 bool is_receiver, | |
966 int* receiver_offset) { | |
967 | |
968 // must pass a handle. First figure out the location we use as a handle | |
969 | |
970 Register rHandle = dst.first()->is_stack() ? rax : dst.first()->as_Register(); | |
971 | |
972 // See if oop is NULL if it is we need no handle | |
973 | |
974 if (src.first()->is_stack()) { | |
975 | |
976 // Oop is already on the stack as an argument | |
977 int offset_in_older_frame = src.first()->reg2stack() + SharedRuntime::out_preserve_stack_slots(); | |
978 map->set_oop(VMRegImpl::stack2reg(offset_in_older_frame + framesize_in_slots)); | |
979 if (is_receiver) { | |
980 *receiver_offset = (offset_in_older_frame + framesize_in_slots) * VMRegImpl::stack_slot_size; | |
981 } | |
982 | |
983 __ cmpq(Address(rbp, reg2offset_in(src.first())), (int)NULL_WORD); | |
984 __ leaq(rHandle, Address(rbp, reg2offset_in(src.first()))); | |
985 // conditionally move a NULL | |
986 __ cmovq(Assembler::equal, rHandle, Address(rbp, reg2offset_in(src.first()))); | |
987 } else { | |
988 | |
989 // Oop is in an a register we must store it to the space we reserve | |
990 // on the stack for oop_handles and pass a handle if oop is non-NULL | |
991 | |
992 const Register rOop = src.first()->as_Register(); | |
993 int oop_slot; | |
994 if (rOop == j_rarg0) | |
995 oop_slot = 0; | |
996 else if (rOop == j_rarg1) | |
997 oop_slot = 1; | |
998 else if (rOop == j_rarg2) | |
999 oop_slot = 2; | |
1000 else if (rOop == j_rarg3) | |
1001 oop_slot = 3; | |
1002 else if (rOop == j_rarg4) | |
1003 oop_slot = 4; | |
1004 else { | |
1005 assert(rOop == j_rarg5, "wrong register"); | |
1006 oop_slot = 5; | |
1007 } | |
1008 | |
1009 oop_slot = oop_slot * VMRegImpl::slots_per_word + oop_handle_offset; | |
1010 int offset = oop_slot*VMRegImpl::stack_slot_size; | |
1011 | |
1012 map->set_oop(VMRegImpl::stack2reg(oop_slot)); | |
1013 // Store oop in handle area, may be NULL | |
1014 __ movq(Address(rsp, offset), rOop); | |
1015 if (is_receiver) { | |
1016 *receiver_offset = offset; | |
1017 } | |
1018 | |
1019 __ cmpq(rOop, (int)NULL); | |
1020 __ leaq(rHandle, Address(rsp, offset)); | |
1021 // conditionally move a NULL from the handle area where it was just stored | |
1022 __ cmovq(Assembler::equal, rHandle, Address(rsp, offset)); | |
1023 } | |
1024 | |
1025 // If arg is on the stack then place it otherwise it is already in correct reg. | |
1026 if (dst.first()->is_stack()) { | |
1027 __ movq(Address(rsp, reg2offset_out(dst.first())), rHandle); | |
1028 } | |
1029 } | |
1030 | |
1031 // A float arg may have to do float reg int reg conversion | |
1032 static void float_move(MacroAssembler* masm, VMRegPair src, VMRegPair dst) { | |
1033 assert(!src.second()->is_valid() && !dst.second()->is_valid(), "bad float_move"); | |
1034 | |
1035 // The calling conventions assures us that each VMregpair is either | |
1036 // all really one physical register or adjacent stack slots. | |
1037 // This greatly simplifies the cases here compared to sparc. | |
1038 | |
1039 if (src.first()->is_stack()) { | |
1040 if (dst.first()->is_stack()) { | |
1041 __ movl(rax, Address(rbp, reg2offset_in(src.first()))); | |
1042 __ movq(Address(rsp, reg2offset_out(dst.first())), rax); | |
1043 } else { | |
1044 // stack to reg | |
1045 assert(dst.first()->is_XMMRegister(), "only expect xmm registers as parameters"); | |
1046 __ movflt(dst.first()->as_XMMRegister(), Address(rbp, reg2offset_in(src.first()))); | |
1047 } | |
1048 } else if (dst.first()->is_stack()) { | |
1049 // reg to stack | |
1050 assert(src.first()->is_XMMRegister(), "only expect xmm registers as parameters"); | |
1051 __ movflt(Address(rsp, reg2offset_out(dst.first())), src.first()->as_XMMRegister()); | |
1052 } else { | |
1053 // reg to reg | |
1054 // In theory these overlap but the ordering is such that this is likely a nop | |
1055 if ( src.first() != dst.first()) { | |
1056 __ movdbl(dst.first()->as_XMMRegister(), src.first()->as_XMMRegister()); | |
1057 } | |
1058 } | |
1059 } | |
1060 | |
1061 // A long move | |
1062 static void long_move(MacroAssembler* masm, VMRegPair src, VMRegPair dst) { | |
1063 | |
1064 // The calling conventions assures us that each VMregpair is either | |
1065 // all really one physical register or adjacent stack slots. | |
1066 // This greatly simplifies the cases here compared to sparc. | |
1067 | |
1068 if (src.is_single_phys_reg() ) { | |
1069 if (dst.is_single_phys_reg()) { | |
1070 if (dst.first() != src.first()) { | |
1071 __ movq(dst.first()->as_Register(), src.first()->as_Register()); | |
1072 } | |
1073 } else { | |
1074 assert(dst.is_single_reg(), "not a stack pair"); | |
1075 __ movq(Address(rsp, reg2offset_out(dst.first())), src.first()->as_Register()); | |
1076 } | |
1077 } else if (dst.is_single_phys_reg()) { | |
1078 assert(src.is_single_reg(), "not a stack pair"); | |
1079 __ movq(dst.first()->as_Register(), Address(rbp, reg2offset_out(src.first()))); | |
1080 } else { | |
1081 assert(src.is_single_reg() && dst.is_single_reg(), "not stack pairs"); | |
1082 __ movq(rax, Address(rbp, reg2offset_in(src.first()))); | |
1083 __ movq(Address(rsp, reg2offset_out(dst.first())), rax); | |
1084 } | |
1085 } | |
1086 | |
1087 // A double move | |
1088 static void double_move(MacroAssembler* masm, VMRegPair src, VMRegPair dst) { | |
1089 | |
1090 // The calling conventions assures us that each VMregpair is either | |
1091 // all really one physical register or adjacent stack slots. | |
1092 // This greatly simplifies the cases here compared to sparc. | |
1093 | |
1094 if (src.is_single_phys_reg() ) { | |
1095 if (dst.is_single_phys_reg()) { | |
1096 // In theory these overlap but the ordering is such that this is likely a nop | |
1097 if ( src.first() != dst.first()) { | |
1098 __ movdbl(dst.first()->as_XMMRegister(), src.first()->as_XMMRegister()); | |
1099 } | |
1100 } else { | |
1101 assert(dst.is_single_reg(), "not a stack pair"); | |
1102 __ movdbl(Address(rsp, reg2offset_out(dst.first())), src.first()->as_XMMRegister()); | |
1103 } | |
1104 } else if (dst.is_single_phys_reg()) { | |
1105 assert(src.is_single_reg(), "not a stack pair"); | |
1106 __ movdbl(dst.first()->as_XMMRegister(), Address(rbp, reg2offset_out(src.first()))); | |
1107 } else { | |
1108 assert(src.is_single_reg() && dst.is_single_reg(), "not stack pairs"); | |
1109 __ movq(rax, Address(rbp, reg2offset_in(src.first()))); | |
1110 __ movq(Address(rsp, reg2offset_out(dst.first())), rax); | |
1111 } | |
1112 } | |
1113 | |
1114 | |
1115 void SharedRuntime::save_native_result(MacroAssembler *masm, BasicType ret_type, int frame_slots) { | |
1116 // We always ignore the frame_slots arg and just use the space just below frame pointer | |
1117 // which by this time is free to use | |
1118 switch (ret_type) { | |
1119 case T_FLOAT: | |
1120 __ movflt(Address(rbp, -wordSize), xmm0); | |
1121 break; | |
1122 case T_DOUBLE: | |
1123 __ movdbl(Address(rbp, -wordSize), xmm0); | |
1124 break; | |
1125 case T_VOID: break; | |
1126 default: { | |
1127 __ movq(Address(rbp, -wordSize), rax); | |
1128 } | |
1129 } | |
1130 } | |
1131 | |
1132 void SharedRuntime::restore_native_result(MacroAssembler *masm, BasicType ret_type, int frame_slots) { | |
1133 // We always ignore the frame_slots arg and just use the space just below frame pointer | |
1134 // which by this time is free to use | |
1135 switch (ret_type) { | |
1136 case T_FLOAT: | |
1137 __ movflt(xmm0, Address(rbp, -wordSize)); | |
1138 break; | |
1139 case T_DOUBLE: | |
1140 __ movdbl(xmm0, Address(rbp, -wordSize)); | |
1141 break; | |
1142 case T_VOID: break; | |
1143 default: { | |
1144 __ movq(rax, Address(rbp, -wordSize)); | |
1145 } | |
1146 } | |
1147 } | |
1148 | |
1149 static void save_args(MacroAssembler *masm, int arg_count, int first_arg, VMRegPair *args) { | |
1150 for ( int i = first_arg ; i < arg_count ; i++ ) { | |
1151 if (args[i].first()->is_Register()) { | |
1152 __ pushq(args[i].first()->as_Register()); | |
1153 } else if (args[i].first()->is_XMMRegister()) { | |
1154 __ subq(rsp, 2*wordSize); | |
1155 __ movdbl(Address(rsp, 0), args[i].first()->as_XMMRegister()); | |
1156 } | |
1157 } | |
1158 } | |
1159 | |
1160 static void restore_args(MacroAssembler *masm, int arg_count, int first_arg, VMRegPair *args) { | |
1161 for ( int i = arg_count - 1 ; i >= first_arg ; i-- ) { | |
1162 if (args[i].first()->is_Register()) { | |
1163 __ popq(args[i].first()->as_Register()); | |
1164 } else if (args[i].first()->is_XMMRegister()) { | |
1165 __ movdbl(args[i].first()->as_XMMRegister(), Address(rsp, 0)); | |
1166 __ addq(rsp, 2*wordSize); | |
1167 } | |
1168 } | |
1169 } | |
1170 | |
1171 // --------------------------------------------------------------------------- | |
1172 // Generate a native wrapper for a given method. The method takes arguments | |
1173 // in the Java compiled code convention, marshals them to the native | |
1174 // convention (handlizes oops, etc), transitions to native, makes the call, | |
1175 // returns to java state (possibly blocking), unhandlizes any result and | |
1176 // returns. | |
1177 nmethod *SharedRuntime::generate_native_wrapper(MacroAssembler *masm, | |
1178 methodHandle method, | |
1179 int total_in_args, | |
1180 int comp_args_on_stack, | |
1181 BasicType *in_sig_bt, | |
1182 VMRegPair *in_regs, | |
1183 BasicType ret_type) { | |
1184 // Native nmethod wrappers never take possesion of the oop arguments. | |
1185 // So the caller will gc the arguments. The only thing we need an | |
1186 // oopMap for is if the call is static | |
1187 // | |
1188 // An OopMap for lock (and class if static) | |
1189 OopMapSet *oop_maps = new OopMapSet(); | |
1190 intptr_t start = (intptr_t)__ pc(); | |
1191 | |
1192 // We have received a description of where all the java arg are located | |
1193 // on entry to the wrapper. We need to convert these args to where | |
1194 // the jni function will expect them. To figure out where they go | |
1195 // we convert the java signature to a C signature by inserting | |
1196 // the hidden arguments as arg[0] and possibly arg[1] (static method) | |
1197 | |
1198 int total_c_args = total_in_args + 1; | |
1199 if (method->is_static()) { | |
1200 total_c_args++; | |
1201 } | |
1202 | |
1203 BasicType* out_sig_bt = NEW_RESOURCE_ARRAY(BasicType, total_c_args); | |
1204 VMRegPair* out_regs = NEW_RESOURCE_ARRAY(VMRegPair, total_c_args); | |
1205 | |
1206 int argc = 0; | |
1207 out_sig_bt[argc++] = T_ADDRESS; | |
1208 if (method->is_static()) { | |
1209 out_sig_bt[argc++] = T_OBJECT; | |
1210 } | |
1211 | |
1212 for (int i = 0; i < total_in_args ; i++ ) { | |
1213 out_sig_bt[argc++] = in_sig_bt[i]; | |
1214 } | |
1215 | |
1216 // Now figure out where the args must be stored and how much stack space | |
1217 // they require. | |
1218 // | |
1219 int out_arg_slots; | |
1220 out_arg_slots = c_calling_convention(out_sig_bt, out_regs, total_c_args); | |
1221 | |
1222 // Compute framesize for the wrapper. We need to handlize all oops in | |
1223 // incoming registers | |
1224 | |
1225 // Calculate the total number of stack slots we will need. | |
1226 | |
1227 // First count the abi requirement plus all of the outgoing args | |
1228 int stack_slots = SharedRuntime::out_preserve_stack_slots() + out_arg_slots; | |
1229 | |
1230 // Now the space for the inbound oop handle area | |
1231 | |
1232 int oop_handle_offset = stack_slots; | |
1233 stack_slots += 6*VMRegImpl::slots_per_word; | |
1234 | |
1235 // Now any space we need for handlizing a klass if static method | |
1236 | |
1237 int oop_temp_slot_offset = 0; | |
1238 int klass_slot_offset = 0; | |
1239 int klass_offset = -1; | |
1240 int lock_slot_offset = 0; | |
1241 bool is_static = false; | |
1242 | |
1243 if (method->is_static()) { | |
1244 klass_slot_offset = stack_slots; | |
1245 stack_slots += VMRegImpl::slots_per_word; | |
1246 klass_offset = klass_slot_offset * VMRegImpl::stack_slot_size; | |
1247 is_static = true; | |
1248 } | |
1249 | |
1250 // Plus a lock if needed | |
1251 | |
1252 if (method->is_synchronized()) { | |
1253 lock_slot_offset = stack_slots; | |
1254 stack_slots += VMRegImpl::slots_per_word; | |
1255 } | |
1256 | |
1257 // Now a place (+2) to save return values or temp during shuffling | |
1258 // + 4 for return address (which we own) and saved rbp | |
1259 stack_slots += 6; | |
1260 | |
1261 // Ok The space we have allocated will look like: | |
1262 // | |
1263 // | |
1264 // FP-> | | | |
1265 // |---------------------| | |
1266 // | 2 slots for moves | | |
1267 // |---------------------| | |
1268 // | lock box (if sync) | | |
1269 // |---------------------| <- lock_slot_offset | |
1270 // | klass (if static) | | |
1271 // |---------------------| <- klass_slot_offset | |
1272 // | oopHandle area | | |
1273 // |---------------------| <- oop_handle_offset (6 java arg registers) | |
1274 // | outbound memory | | |
1275 // | based arguments | | |
1276 // | | | |
1277 // |---------------------| | |
1278 // | | | |
1279 // SP-> | out_preserved_slots | | |
1280 // | |
1281 // | |
1282 | |
1283 | |
1284 // Now compute actual number of stack words we need rounding to make | |
1285 // stack properly aligned. | |
1286 stack_slots = round_to(stack_slots, 4 * VMRegImpl::slots_per_word); | |
1287 | |
1288 int stack_size = stack_slots * VMRegImpl::stack_slot_size; | |
1289 | |
1290 | |
1291 // First thing make an ic check to see if we should even be here | |
1292 | |
1293 // We are free to use all registers as temps without saving them and | |
1294 // restoring them except rbp. rbp is the only callee save register | |
1295 // as far as the interpreter and the compiler(s) are concerned. | |
1296 | |
1297 | |
1298 const Register ic_reg = rax; | |
1299 const Register receiver = j_rarg0; | |
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1300 const Register tmp = rdx; |
0 | 1301 |
1302 Label ok; | |
1303 Label exception_pending; | |
1304 | |
1305 __ verify_oop(receiver); | |
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1306 __ pushq(tmp); // spill (any other registers free here???) |
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1307 __ load_klass(tmp, receiver); |
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1308 __ cmpq(ic_reg, tmp); |
0 | 1309 __ jcc(Assembler::equal, ok); |
1310 | |
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1311 __ popq(tmp); |
0 | 1312 __ jump(RuntimeAddress(SharedRuntime::get_ic_miss_stub())); |
1313 | |
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1314 __ bind(ok); |
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1315 __ popq(tmp); |
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1316 |
0 | 1317 // Verified entry point must be aligned |
1318 __ align(8); | |
1319 | |
1320 int vep_offset = ((intptr_t)__ pc()) - start; | |
1321 | |
1322 // The instruction at the verified entry point must be 5 bytes or longer | |
1323 // because it can be patched on the fly by make_non_entrant. The stack bang | |
1324 // instruction fits that requirement. | |
1325 | |
1326 // Generate stack overflow check | |
1327 | |
1328 if (UseStackBanging) { | |
1329 __ bang_stack_with_offset(StackShadowPages*os::vm_page_size()); | |
1330 } else { | |
1331 // need a 5 byte instruction to allow MT safe patching to non-entrant | |
1332 __ fat_nop(); | |
1333 } | |
1334 | |
1335 // Generate a new frame for the wrapper. | |
1336 __ enter(); | |
1337 // -2 because return address is already present and so is saved rbp | |
1338 __ subq(rsp, stack_size - 2*wordSize); | |
1339 | |
1340 // Frame is now completed as far as size and linkage. | |
1341 | |
1342 int frame_complete = ((intptr_t)__ pc()) - start; | |
1343 | |
1344 #ifdef ASSERT | |
1345 { | |
1346 Label L; | |
1347 __ movq(rax, rsp); | |
1348 __ andq(rax, -16); // must be 16 byte boundry (see amd64 ABI) | |
1349 __ cmpq(rax, rsp); | |
1350 __ jcc(Assembler::equal, L); | |
1351 __ stop("improperly aligned stack"); | |
1352 __ bind(L); | |
1353 } | |
1354 #endif /* ASSERT */ | |
1355 | |
1356 | |
1357 // We use r14 as the oop handle for the receiver/klass | |
1358 // It is callee save so it survives the call to native | |
1359 | |
1360 const Register oop_handle_reg = r14; | |
1361 | |
1362 | |
1363 | |
1364 // | |
1365 // We immediately shuffle the arguments so that any vm call we have to | |
1366 // make from here on out (sync slow path, jvmti, etc.) we will have | |
1367 // captured the oops from our caller and have a valid oopMap for | |
1368 // them. | |
1369 | |
1370 // ----------------- | |
1371 // The Grand Shuffle | |
1372 | |
1373 // The Java calling convention is either equal (linux) or denser (win64) than the | |
1374 // c calling convention. However the because of the jni_env argument the c calling | |
1375 // convention always has at least one more (and two for static) arguments than Java. | |
1376 // Therefore if we move the args from java -> c backwards then we will never have | |
1377 // a register->register conflict and we don't have to build a dependency graph | |
1378 // and figure out how to break any cycles. | |
1379 // | |
1380 | |
1381 // Record esp-based slot for receiver on stack for non-static methods | |
1382 int receiver_offset = -1; | |
1383 | |
1384 // This is a trick. We double the stack slots so we can claim | |
1385 // the oops in the caller's frame. Since we are sure to have | |
1386 // more args than the caller doubling is enough to make | |
1387 // sure we can capture all the incoming oop args from the | |
1388 // caller. | |
1389 // | |
1390 OopMap* map = new OopMap(stack_slots * 2, 0 /* arg_slots*/); | |
1391 | |
1392 // Mark location of rbp (someday) | |
1393 // map->set_callee_saved(VMRegImpl::stack2reg( stack_slots - 2), stack_slots * 2, 0, vmreg(rbp)); | |
1394 | |
1395 // Use eax, ebx as temporaries during any memory-memory moves we have to do | |
1396 // All inbound args are referenced based on rbp and all outbound args via rsp. | |
1397 | |
1398 | |
1399 #ifdef ASSERT | |
1400 bool reg_destroyed[RegisterImpl::number_of_registers]; | |
1401 bool freg_destroyed[XMMRegisterImpl::number_of_registers]; | |
1402 for ( int r = 0 ; r < RegisterImpl::number_of_registers ; r++ ) { | |
1403 reg_destroyed[r] = false; | |
1404 } | |
1405 for ( int f = 0 ; f < XMMRegisterImpl::number_of_registers ; f++ ) { | |
1406 freg_destroyed[f] = false; | |
1407 } | |
1408 | |
1409 #endif /* ASSERT */ | |
1410 | |
1411 | |
1412 int c_arg = total_c_args - 1; | |
1413 for ( int i = total_in_args - 1; i >= 0 ; i--, c_arg-- ) { | |
1414 #ifdef ASSERT | |
1415 if (in_regs[i].first()->is_Register()) { | |
1416 assert(!reg_destroyed[in_regs[i].first()->as_Register()->encoding()], "destroyed reg!"); | |
1417 } else if (in_regs[i].first()->is_XMMRegister()) { | |
1418 assert(!freg_destroyed[in_regs[i].first()->as_XMMRegister()->encoding()], "destroyed reg!"); | |
1419 } | |
1420 if (out_regs[c_arg].first()->is_Register()) { | |
1421 reg_destroyed[out_regs[c_arg].first()->as_Register()->encoding()] = true; | |
1422 } else if (out_regs[c_arg].first()->is_XMMRegister()) { | |
1423 freg_destroyed[out_regs[c_arg].first()->as_XMMRegister()->encoding()] = true; | |
1424 } | |
1425 #endif /* ASSERT */ | |
1426 switch (in_sig_bt[i]) { | |
1427 case T_ARRAY: | |
1428 case T_OBJECT: | |
1429 object_move(masm, map, oop_handle_offset, stack_slots, in_regs[i], out_regs[c_arg], | |
1430 ((i == 0) && (!is_static)), | |
1431 &receiver_offset); | |
1432 break; | |
1433 case T_VOID: | |
1434 break; | |
1435 | |
1436 case T_FLOAT: | |
1437 float_move(masm, in_regs[i], out_regs[c_arg]); | |
1438 break; | |
1439 | |
1440 case T_DOUBLE: | |
1441 assert( i + 1 < total_in_args && | |
1442 in_sig_bt[i + 1] == T_VOID && | |
1443 out_sig_bt[c_arg+1] == T_VOID, "bad arg list"); | |
1444 double_move(masm, in_regs[i], out_regs[c_arg]); | |
1445 break; | |
1446 | |
1447 case T_LONG : | |
1448 long_move(masm, in_regs[i], out_regs[c_arg]); | |
1449 break; | |
1450 | |
1451 case T_ADDRESS: assert(false, "found T_ADDRESS in java args"); | |
1452 | |
1453 default: | |
1454 move32_64(masm, in_regs[i], out_regs[c_arg]); | |
1455 } | |
1456 } | |
1457 | |
1458 // point c_arg at the first arg that is already loaded in case we | |
1459 // need to spill before we call out | |
1460 c_arg++; | |
1461 | |
1462 // Pre-load a static method's oop into r14. Used both by locking code and | |
1463 // the normal JNI call code. | |
1464 if (method->is_static()) { | |
1465 | |
1466 // load oop into a register | |
1467 __ movoop(oop_handle_reg, JNIHandles::make_local(Klass::cast(method->method_holder())->java_mirror())); | |
1468 | |
1469 // Now handlize the static class mirror it's known not-null. | |
1470 __ movq(Address(rsp, klass_offset), oop_handle_reg); | |
1471 map->set_oop(VMRegImpl::stack2reg(klass_slot_offset)); | |
1472 | |
1473 // Now get the handle | |
1474 __ leaq(oop_handle_reg, Address(rsp, klass_offset)); | |
1475 // store the klass handle as second argument | |
1476 __ movq(c_rarg1, oop_handle_reg); | |
1477 // and protect the arg if we must spill | |
1478 c_arg--; | |
1479 } | |
1480 | |
1481 // Change state to native (we save the return address in the thread, since it might not | |
1482 // be pushed on the stack when we do a a stack traversal). It is enough that the pc() | |
1483 // points into the right code segment. It does not have to be the correct return pc. | |
1484 // We use the same pc/oopMap repeatedly when we call out | |
1485 | |
1486 intptr_t the_pc = (intptr_t) __ pc(); | |
1487 oop_maps->add_gc_map(the_pc - start, map); | |
1488 | |
1489 __ set_last_Java_frame(rsp, noreg, (address)the_pc); | |
1490 | |
1491 | |
1492 // We have all of the arguments setup at this point. We must not touch any register | |
1493 // argument registers at this point (what if we save/restore them there are no oop? | |
1494 | |
1495 { | |
1496 SkipIfEqual skip(masm, &DTraceMethodProbes, false); | |
1497 // protect the args we've loaded | |
1498 save_args(masm, total_c_args, c_arg, out_regs); | |
1499 __ movoop(c_rarg1, JNIHandles::make_local(method())); | |
1500 __ call_VM_leaf( | |
1501 CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_entry), | |
1502 r15_thread, c_rarg1); | |
1503 restore_args(masm, total_c_args, c_arg, out_regs); | |
1504 } | |
1505 | |
1506 // Lock a synchronized method | |
1507 | |
1508 // Register definitions used by locking and unlocking | |
1509 | |
1510 const Register swap_reg = rax; // Must use rax for cmpxchg instruction | |
1511 const Register obj_reg = rbx; // Will contain the oop | |
1512 const Register lock_reg = r13; // Address of compiler lock object (BasicLock) | |
1513 const Register old_hdr = r13; // value of old header at unlock time | |
1514 | |
1515 Label slow_path_lock; | |
1516 Label lock_done; | |
1517 | |
1518 if (method->is_synchronized()) { | |
1519 | |
1520 | |
1521 const int mark_word_offset = BasicLock::displaced_header_offset_in_bytes(); | |
1522 | |
1523 // Get the handle (the 2nd argument) | |
1524 __ movq(oop_handle_reg, c_rarg1); | |
1525 | |
1526 // Get address of the box | |
1527 | |
1528 __ leaq(lock_reg, Address(rsp, lock_slot_offset * VMRegImpl::stack_slot_size)); | |
1529 | |
1530 // Load the oop from the handle | |
1531 __ movq(obj_reg, Address(oop_handle_reg, 0)); | |
1532 | |
1533 if (UseBiasedLocking) { | |
1534 __ biased_locking_enter(lock_reg, obj_reg, swap_reg, rscratch1, false, lock_done, &slow_path_lock); | |
1535 } | |
1536 | |
1537 // Load immediate 1 into swap_reg %rax | |
1538 __ movl(swap_reg, 1); | |
1539 | |
1540 // Load (object->mark() | 1) into swap_reg %rax | |
1541 __ orq(swap_reg, Address(obj_reg, 0)); | |
1542 | |
1543 // Save (object->mark() | 1) into BasicLock's displaced header | |
1544 __ movq(Address(lock_reg, mark_word_offset), swap_reg); | |
1545 | |
1546 if (os::is_MP()) { | |
1547 __ lock(); | |
1548 } | |
1549 | |
1550 // src -> dest iff dest == rax else rax <- dest | |
1551 __ cmpxchgq(lock_reg, Address(obj_reg, 0)); | |
1552 __ jcc(Assembler::equal, lock_done); | |
1553 | |
1554 // Hmm should this move to the slow path code area??? | |
1555 | |
1556 // Test if the oopMark is an obvious stack pointer, i.e., | |
1557 // 1) (mark & 3) == 0, and | |
1558 // 2) rsp <= mark < mark + os::pagesize() | |
1559 // These 3 tests can be done by evaluating the following | |
1560 // expression: ((mark - rsp) & (3 - os::vm_page_size())), | |
1561 // assuming both stack pointer and pagesize have their | |
1562 // least significant 2 bits clear. | |
1563 // NOTE: the oopMark is in swap_reg %rax as the result of cmpxchg | |
1564 | |
1565 __ subq(swap_reg, rsp); | |
1566 __ andq(swap_reg, 3 - os::vm_page_size()); | |
1567 | |
1568 // Save the test result, for recursive case, the result is zero | |
1569 __ movq(Address(lock_reg, mark_word_offset), swap_reg); | |
1570 __ jcc(Assembler::notEqual, slow_path_lock); | |
1571 | |
1572 // Slow path will re-enter here | |
1573 | |
1574 __ bind(lock_done); | |
1575 } | |
1576 | |
1577 | |
1578 // Finally just about ready to make the JNI call | |
1579 | |
1580 | |
1581 // get JNIEnv* which is first argument to native | |
1582 | |
1583 __ leaq(c_rarg0, Address(r15_thread, in_bytes(JavaThread::jni_environment_offset()))); | |
1584 | |
1585 // Now set thread in native | |
1586 __ mov64(Address(r15_thread, JavaThread::thread_state_offset()), _thread_in_native); | |
1587 | |
1588 __ call(RuntimeAddress(method->native_function())); | |
1589 | |
1590 // Either restore the MXCSR register after returning from the JNI Call | |
1591 // or verify that it wasn't changed. | |
1592 if (RestoreMXCSROnJNICalls) { | |
1593 __ ldmxcsr(ExternalAddress(StubRoutines::amd64::mxcsr_std())); | |
1594 | |
1595 } | |
1596 else if (CheckJNICalls ) { | |
1597 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, StubRoutines::amd64::verify_mxcsr_entry()))); | |
1598 } | |
1599 | |
1600 | |
1601 // Unpack native results. | |
1602 switch (ret_type) { | |
1603 case T_BOOLEAN: __ c2bool(rax); break; | |
1604 case T_CHAR : __ movzwl(rax, rax); break; | |
1605 case T_BYTE : __ sign_extend_byte (rax); break; | |
1606 case T_SHORT : __ sign_extend_short(rax); break; | |
1607 case T_INT : /* nothing to do */ break; | |
1608 case T_DOUBLE : | |
1609 case T_FLOAT : | |
1610 // Result is in xmm0 we'll save as needed | |
1611 break; | |
1612 case T_ARRAY: // Really a handle | |
1613 case T_OBJECT: // Really a handle | |
1614 break; // can't de-handlize until after safepoint check | |
1615 case T_VOID: break; | |
1616 case T_LONG: break; | |
1617 default : ShouldNotReachHere(); | |
1618 } | |
1619 | |
1620 // Switch thread to "native transition" state before reading the synchronization state. | |
1621 // This additional state is necessary because reading and testing the synchronization | |
1622 // state is not atomic w.r.t. GC, as this scenario demonstrates: | |
1623 // Java thread A, in _thread_in_native state, loads _not_synchronized and is preempted. | |
1624 // VM thread changes sync state to synchronizing and suspends threads for GC. | |
1625 // Thread A is resumed to finish this native method, but doesn't block here since it | |
1626 // didn't see any synchronization is progress, and escapes. | |
1627 __ mov64(Address(r15_thread, JavaThread::thread_state_offset()), _thread_in_native_trans); | |
1628 | |
1629 if(os::is_MP()) { | |
1630 if (UseMembar) { | |
1631 // Force this write out before the read below | |
1632 __ membar(Assembler::Membar_mask_bits( | |
1633 Assembler::LoadLoad | Assembler::LoadStore | | |
1634 Assembler::StoreLoad | Assembler::StoreStore)); | |
1635 } else { | |
1636 // Write serialization page so VM thread can do a pseudo remote membar. | |
1637 // We use the current thread pointer to calculate a thread specific | |
1638 // offset to write to within the page. This minimizes bus traffic | |
1639 // due to cache line collision. | |
1640 __ serialize_memory(r15_thread, rcx); | |
1641 } | |
1642 } | |
1643 | |
1644 | |
1645 // check for safepoint operation in progress and/or pending suspend requests | |
1646 { | |
1647 Label Continue; | |
1648 | |
1649 __ cmp32(ExternalAddress((address)SafepointSynchronize::address_of_state()), | |
1650 SafepointSynchronize::_not_synchronized); | |
1651 | |
1652 Label L; | |
1653 __ jcc(Assembler::notEqual, L); | |
1654 __ cmpl(Address(r15_thread, JavaThread::suspend_flags_offset()), 0); | |
1655 __ jcc(Assembler::equal, Continue); | |
1656 __ bind(L); | |
1657 | |
1658 // Don't use call_VM as it will see a possible pending exception and forward it | |
1659 // and never return here preventing us from clearing _last_native_pc down below. | |
1660 // Also can't use call_VM_leaf either as it will check to see if rsi & rdi are | |
1661 // preserved and correspond to the bcp/locals pointers. So we do a runtime call | |
1662 // by hand. | |
1663 // | |
1664 save_native_result(masm, ret_type, stack_slots); | |
1665 __ movq(c_rarg0, r15_thread); | |
1666 __ movq(r12, rsp); // remember sp | |
1667 __ subq(rsp, frame::arg_reg_save_area_bytes); // windows | |
1668 __ andq(rsp, -16); // align stack as required by ABI | |
1669 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, JavaThread::check_special_condition_for_native_trans))); | |
1670 __ movq(rsp, r12); // restore sp | |
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1671 __ reinit_heapbase(); |
0 | 1672 // Restore any method result value |
1673 restore_native_result(masm, ret_type, stack_slots); | |
1674 __ bind(Continue); | |
1675 } | |
1676 | |
1677 // change thread state | |
1678 __ movl(Address(r15_thread, JavaThread::thread_state_offset()), _thread_in_Java); | |
1679 | |
1680 Label reguard; | |
1681 Label reguard_done; | |
1682 __ cmpl(Address(r15_thread, JavaThread::stack_guard_state_offset()), JavaThread::stack_guard_yellow_disabled); | |
1683 __ jcc(Assembler::equal, reguard); | |
1684 __ bind(reguard_done); | |
1685 | |
1686 // native result if any is live | |
1687 | |
1688 // Unlock | |
1689 Label unlock_done; | |
1690 Label slow_path_unlock; | |
1691 if (method->is_synchronized()) { | |
1692 | |
1693 // Get locked oop from the handle we passed to jni | |
1694 __ movq(obj_reg, Address(oop_handle_reg, 0)); | |
1695 | |
1696 Label done; | |
1697 | |
1698 if (UseBiasedLocking) { | |
1699 __ biased_locking_exit(obj_reg, old_hdr, done); | |
1700 } | |
1701 | |
1702 // Simple recursive lock? | |
1703 | |
1704 __ cmpq(Address(rsp, lock_slot_offset * VMRegImpl::stack_slot_size), (int)NULL_WORD); | |
1705 __ jcc(Assembler::equal, done); | |
1706 | |
1707 // Must save rax if if it is live now because cmpxchg must use it | |
1708 if (ret_type != T_FLOAT && ret_type != T_DOUBLE && ret_type != T_VOID) { | |
1709 save_native_result(masm, ret_type, stack_slots); | |
1710 } | |
1711 | |
1712 | |
1713 // get address of the stack lock | |
1714 __ leaq(rax, Address(rsp, lock_slot_offset * VMRegImpl::stack_slot_size)); | |
1715 // get old displaced header | |
1716 __ movq(old_hdr, Address(rax, 0)); | |
1717 | |
1718 // Atomic swap old header if oop still contains the stack lock | |
1719 if (os::is_MP()) { | |
1720 __ lock(); | |
1721 } | |
1722 __ cmpxchgq(old_hdr, Address(obj_reg, 0)); | |
1723 __ jcc(Assembler::notEqual, slow_path_unlock); | |
1724 | |
1725 // slow path re-enters here | |
1726 __ bind(unlock_done); | |
1727 if (ret_type != T_FLOAT && ret_type != T_DOUBLE && ret_type != T_VOID) { | |
1728 restore_native_result(masm, ret_type, stack_slots); | |
1729 } | |
1730 | |
1731 __ bind(done); | |
1732 | |
1733 } | |
1734 { | |
1735 SkipIfEqual skip(masm, &DTraceMethodProbes, false); | |
1736 save_native_result(masm, ret_type, stack_slots); | |
1737 __ movoop(c_rarg1, JNIHandles::make_local(method())); | |
1738 __ call_VM_leaf( | |
1739 CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_method_exit), | |
1740 r15_thread, c_rarg1); | |
1741 restore_native_result(masm, ret_type, stack_slots); | |
1742 } | |
1743 | |
1744 __ reset_last_Java_frame(false, true); | |
1745 | |
1746 // Unpack oop result | |
1747 if (ret_type == T_OBJECT || ret_type == T_ARRAY) { | |
1748 Label L; | |
1749 __ testq(rax, rax); | |
1750 __ jcc(Assembler::zero, L); | |
1751 __ movq(rax, Address(rax, 0)); | |
1752 __ bind(L); | |
1753 __ verify_oop(rax); | |
1754 } | |
1755 | |
1756 // reset handle block | |
1757 __ movq(rcx, Address(r15_thread, JavaThread::active_handles_offset())); | |
1758 __ movptr(Address(rcx, JNIHandleBlock::top_offset_in_bytes()), (int)NULL_WORD); | |
1759 | |
1760 // pop our frame | |
1761 | |
1762 __ leave(); | |
1763 | |
1764 // Any exception pending? | |
1765 __ cmpq(Address(r15_thread, in_bytes(Thread::pending_exception_offset())), (int)NULL_WORD); | |
1766 __ jcc(Assembler::notEqual, exception_pending); | |
1767 | |
1768 // Return | |
1769 | |
1770 __ ret(0); | |
1771 | |
1772 // Unexpected paths are out of line and go here | |
1773 | |
1774 // forward the exception | |
1775 __ bind(exception_pending); | |
1776 | |
1777 // and forward the exception | |
1778 __ jump(RuntimeAddress(StubRoutines::forward_exception_entry())); | |
1779 | |
1780 | |
1781 // Slow path locking & unlocking | |
1782 if (method->is_synchronized()) { | |
1783 | |
1784 // BEGIN Slow path lock | |
1785 __ bind(slow_path_lock); | |
1786 | |
1787 // has last_Java_frame setup. No exceptions so do vanilla call not call_VM | |
1788 // args are (oop obj, BasicLock* lock, JavaThread* thread) | |
1789 | |
1790 // protect the args we've loaded | |
1791 save_args(masm, total_c_args, c_arg, out_regs); | |
1792 | |
1793 __ movq(c_rarg0, obj_reg); | |
1794 __ movq(c_rarg1, lock_reg); | |
1795 __ movq(c_rarg2, r15_thread); | |
1796 | |
1797 // Not a leaf but we have last_Java_frame setup as we want | |
1798 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::complete_monitor_locking_C), 3); | |
1799 restore_args(masm, total_c_args, c_arg, out_regs); | |
1800 | |
1801 #ifdef ASSERT | |
1802 { Label L; | |
1803 __ cmpq(Address(r15_thread, in_bytes(Thread::pending_exception_offset())), (int)NULL_WORD); | |
1804 __ jcc(Assembler::equal, L); | |
1805 __ stop("no pending exception allowed on exit from monitorenter"); | |
1806 __ bind(L); | |
1807 } | |
1808 #endif | |
1809 __ jmp(lock_done); | |
1810 | |
1811 // END Slow path lock | |
1812 | |
1813 // BEGIN Slow path unlock | |
1814 __ bind(slow_path_unlock); | |
1815 | |
1816 // If we haven't already saved the native result we must save it now as xmm registers | |
1817 // are still exposed. | |
1818 | |
1819 if (ret_type == T_FLOAT || ret_type == T_DOUBLE ) { | |
1820 save_native_result(masm, ret_type, stack_slots); | |
1821 } | |
1822 | |
1823 __ leaq(c_rarg1, Address(rsp, lock_slot_offset * VMRegImpl::stack_slot_size)); | |
1824 | |
1825 __ movq(c_rarg0, obj_reg); | |
1826 __ movq(r12, rsp); // remember sp | |
1827 __ subq(rsp, frame::arg_reg_save_area_bytes); // windows | |
1828 __ andq(rsp, -16); // align stack as required by ABI | |
1829 | |
1830 // Save pending exception around call to VM (which contains an EXCEPTION_MARK) | |
1831 // NOTE that obj_reg == rbx currently | |
1832 __ movq(rbx, Address(r15_thread, in_bytes(Thread::pending_exception_offset()))); | |
1833 __ movptr(Address(r15_thread, in_bytes(Thread::pending_exception_offset())), (int)NULL_WORD); | |
1834 | |
1835 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, SharedRuntime::complete_monitor_unlocking_C))); | |
1836 __ movq(rsp, r12); // restore sp | |
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1837 __ reinit_heapbase(); |
0 | 1838 #ifdef ASSERT |
1839 { | |
1840 Label L; | |
1841 __ cmpq(Address(r15_thread, in_bytes(Thread::pending_exception_offset())), (int)NULL_WORD); | |
1842 __ jcc(Assembler::equal, L); | |
1843 __ stop("no pending exception allowed on exit complete_monitor_unlocking_C"); | |
1844 __ bind(L); | |
1845 } | |
1846 #endif /* ASSERT */ | |
1847 | |
1848 __ movq(Address(r15_thread, in_bytes(Thread::pending_exception_offset())), rbx); | |
1849 | |
1850 if (ret_type == T_FLOAT || ret_type == T_DOUBLE ) { | |
1851 restore_native_result(masm, ret_type, stack_slots); | |
1852 } | |
1853 __ jmp(unlock_done); | |
1854 | |
1855 // END Slow path unlock | |
1856 | |
1857 } // synchronized | |
1858 | |
1859 // SLOW PATH Reguard the stack if needed | |
1860 | |
1861 __ bind(reguard); | |
1862 save_native_result(masm, ret_type, stack_slots); | |
1863 __ movq(r12, rsp); // remember sp | |
1864 __ subq(rsp, frame::arg_reg_save_area_bytes); // windows | |
1865 __ andq(rsp, -16); // align stack as required by ABI | |
1866 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, SharedRuntime::reguard_yellow_pages))); | |
1867 __ movq(rsp, r12); // restore sp | |
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1868 __ reinit_heapbase(); |
0 | 1869 restore_native_result(masm, ret_type, stack_slots); |
1870 // and continue | |
1871 __ jmp(reguard_done); | |
1872 | |
1873 | |
1874 | |
1875 __ flush(); | |
1876 | |
1877 nmethod *nm = nmethod::new_native_nmethod(method, | |
1878 masm->code(), | |
1879 vep_offset, | |
1880 frame_complete, | |
1881 stack_slots / VMRegImpl::slots_per_word, | |
1882 (is_static ? in_ByteSize(klass_offset) : in_ByteSize(receiver_offset)), | |
1883 in_ByteSize(lock_slot_offset*VMRegImpl::stack_slot_size), | |
1884 oop_maps); | |
1885 return nm; | |
1886 | |
1887 } | |
1888 | |
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1889 #ifdef HAVE_DTRACE_H |
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1890 // --------------------------------------------------------------------------- |
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1891 // Generate a dtrace nmethod for a given signature. The method takes arguments |
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1892 // in the Java compiled code convention, marshals them to the native |
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1893 // abi and then leaves nops at the position you would expect to call a native |
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1894 // function. When the probe is enabled the nops are replaced with a trap |
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1895 // instruction that dtrace inserts and the trace will cause a notification |
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1896 // to dtrace. |
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1897 // |
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1898 // The probes are only able to take primitive types and java/lang/String as |
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1899 // arguments. No other java types are allowed. Strings are converted to utf8 |
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1900 // strings so that from dtrace point of view java strings are converted to C |
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1901 // strings. There is an arbitrary fixed limit on the total space that a method |
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1902 // can use for converting the strings. (256 chars per string in the signature). |
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1903 // So any java string larger then this is truncated. |
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1904 |
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1905 static int fp_offset[ConcreteRegisterImpl::number_of_registers] = { 0 }; |
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1906 static bool offsets_initialized = false; |
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1907 |
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1908 |
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1909 nmethod *SharedRuntime::generate_dtrace_nmethod(MacroAssembler *masm, |
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1910 methodHandle method) { |
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1911 |
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1912 |
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1913 // generate_dtrace_nmethod is guarded by a mutex so we are sure to |
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1914 // be single threaded in this method. |
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1915 assert(AdapterHandlerLibrary_lock->owned_by_self(), "must be"); |
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1916 |
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1917 if (!offsets_initialized) { |
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1918 fp_offset[c_rarg0->as_VMReg()->value()] = -1 * wordSize; |
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1919 fp_offset[c_rarg1->as_VMReg()->value()] = -2 * wordSize; |
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1920 fp_offset[c_rarg2->as_VMReg()->value()] = -3 * wordSize; |
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1921 fp_offset[c_rarg3->as_VMReg()->value()] = -4 * wordSize; |
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1922 fp_offset[c_rarg4->as_VMReg()->value()] = -5 * wordSize; |
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1923 fp_offset[c_rarg5->as_VMReg()->value()] = -6 * wordSize; |
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1924 |
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1925 fp_offset[c_farg0->as_VMReg()->value()] = -7 * wordSize; |
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1926 fp_offset[c_farg1->as_VMReg()->value()] = -8 * wordSize; |
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1927 fp_offset[c_farg2->as_VMReg()->value()] = -9 * wordSize; |
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1928 fp_offset[c_farg3->as_VMReg()->value()] = -10 * wordSize; |
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1929 fp_offset[c_farg4->as_VMReg()->value()] = -11 * wordSize; |
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1930 fp_offset[c_farg5->as_VMReg()->value()] = -12 * wordSize; |
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1931 fp_offset[c_farg6->as_VMReg()->value()] = -13 * wordSize; |
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1932 fp_offset[c_farg7->as_VMReg()->value()] = -14 * wordSize; |
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1933 |
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1934 offsets_initialized = true; |
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1935 } |
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1936 // Fill in the signature array, for the calling-convention call. |
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1937 int total_args_passed = method->size_of_parameters(); |
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1938 |
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1939 BasicType* in_sig_bt = NEW_RESOURCE_ARRAY(BasicType, total_args_passed); |
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1940 VMRegPair *in_regs = NEW_RESOURCE_ARRAY(VMRegPair, total_args_passed); |
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1941 |
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1942 // The signature we are going to use for the trap that dtrace will see |
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1943 // java/lang/String is converted. We drop "this" and any other object |
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1944 // is converted to NULL. (A one-slot java/lang/Long object reference |
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1945 // is converted to a two-slot long, which is why we double the allocation). |
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1946 BasicType* out_sig_bt = NEW_RESOURCE_ARRAY(BasicType, total_args_passed * 2); |
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1947 VMRegPair* out_regs = NEW_RESOURCE_ARRAY(VMRegPair, total_args_passed * 2); |
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1948 |
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1949 int i=0; |
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1950 int total_strings = 0; |
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1951 int first_arg_to_pass = 0; |
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1952 int total_c_args = 0; |
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1953 |
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1954 // Skip the receiver as dtrace doesn't want to see it |
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1955 if( !method->is_static() ) { |
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1956 in_sig_bt[i++] = T_OBJECT; |
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1957 first_arg_to_pass = 1; |
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1958 } |
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1959 |
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1960 // We need to convert the java args to where a native (non-jni) function |
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1961 // would expect them. To figure out where they go we convert the java |
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1962 // signature to a C signature. |
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1963 |
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1964 SignatureStream ss(method->signature()); |
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1965 for ( ; !ss.at_return_type(); ss.next()) { |
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1966 BasicType bt = ss.type(); |
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1967 in_sig_bt[i++] = bt; // Collect remaining bits of signature |
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1968 out_sig_bt[total_c_args++] = bt; |
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1969 if( bt == T_OBJECT) { |
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1970 symbolOop s = ss.as_symbol_or_null(); |
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1971 if (s == vmSymbols::java_lang_String()) { |
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1972 total_strings++; |
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1973 out_sig_bt[total_c_args-1] = T_ADDRESS; |
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1974 } else if (s == vmSymbols::java_lang_Boolean() || |
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1975 s == vmSymbols::java_lang_Character() || |
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1976 s == vmSymbols::java_lang_Byte() || |
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1977 s == vmSymbols::java_lang_Short() || |
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1978 s == vmSymbols::java_lang_Integer() || |
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1979 s == vmSymbols::java_lang_Float()) { |
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1980 out_sig_bt[total_c_args-1] = T_INT; |
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1981 } else if (s == vmSymbols::java_lang_Long() || |
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1982 s == vmSymbols::java_lang_Double()) { |
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1983 out_sig_bt[total_c_args-1] = T_LONG; |
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1984 out_sig_bt[total_c_args++] = T_VOID; |
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1985 } |
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1986 } else if ( bt == T_LONG || bt == T_DOUBLE ) { |
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1987 in_sig_bt[i++] = T_VOID; // Longs & doubles take 2 Java slots |
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1988 // We convert double to long |
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1989 out_sig_bt[total_c_args-1] = T_LONG; |
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1990 out_sig_bt[total_c_args++] = T_VOID; |
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1991 } else if ( bt == T_FLOAT) { |
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1992 // We convert float to int |
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1993 out_sig_bt[total_c_args-1] = T_INT; |
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1994 } |
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1995 } |
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1996 |
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1997 assert(i==total_args_passed, "validly parsed signature"); |
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1998 |
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1999 // Now get the compiled-Java layout as input arguments |
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2000 int comp_args_on_stack; |
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2001 comp_args_on_stack = SharedRuntime::java_calling_convention( |
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2002 in_sig_bt, in_regs, total_args_passed, false); |
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2003 |
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2004 // Now figure out where the args must be stored and how much stack space |
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2005 // they require (neglecting out_preserve_stack_slots but space for storing |
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2006 // the 1st six register arguments). It's weird see int_stk_helper. |
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2007 |
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2008 int out_arg_slots; |
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2009 out_arg_slots = c_calling_convention(out_sig_bt, out_regs, total_c_args); |
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2010 |
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2011 // Calculate the total number of stack slots we will need. |
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2012 |
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2013 // First count the abi requirement plus all of the outgoing args |
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2014 int stack_slots = SharedRuntime::out_preserve_stack_slots() + out_arg_slots; |
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2015 |
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2016 // Now space for the string(s) we must convert |
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2017 int* string_locs = NEW_RESOURCE_ARRAY(int, total_strings + 1); |
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2018 for (i = 0; i < total_strings ; i++) { |
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2019 string_locs[i] = stack_slots; |
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2020 stack_slots += max_dtrace_string_size / VMRegImpl::stack_slot_size; |
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2021 } |
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2022 |
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2023 // Plus the temps we might need to juggle register args |
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2024 // regs take two slots each |
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2025 stack_slots += (Argument::n_int_register_parameters_c + |
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2026 Argument::n_float_register_parameters_c) * 2; |
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2027 |
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2028 |
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2029 // + 4 for return address (which we own) and saved rbp, |
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2030 |
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2031 stack_slots += 4; |
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2032 |
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2033 // Ok The space we have allocated will look like: |
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2034 // |
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2035 // |
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2036 // FP-> | | |
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2037 // |---------------------| |
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2038 // | string[n] | |
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2039 // |---------------------| <- string_locs[n] |
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2040 // | string[n-1] | |
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2041 // |---------------------| <- string_locs[n-1] |
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2042 // | ... | |
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2043 // | ... | |
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2044 // |---------------------| <- string_locs[1] |
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2045 // | string[0] | |
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2046 // |---------------------| <- string_locs[0] |
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2047 // | outbound memory | |
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2048 // | based arguments | |
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2049 // | | |
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2050 // |---------------------| |
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2051 // | | |
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2052 // SP-> | out_preserved_slots | |
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2053 // |
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2054 // |
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2055 |
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2056 // Now compute actual number of stack words we need rounding to make |
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2057 // stack properly aligned. |
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2058 stack_slots = round_to(stack_slots, 4 * VMRegImpl::slots_per_word); |
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2059 |
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2060 int stack_size = stack_slots * VMRegImpl::stack_slot_size; |
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2061 |
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2062 intptr_t start = (intptr_t)__ pc(); |
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2063 |
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2064 // First thing make an ic check to see if we should even be here |
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2065 |
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2066 // We are free to use all registers as temps without saving them and |
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2067 // restoring them except rbp. rbp, is the only callee save register |
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2068 // as far as the interpreter and the compiler(s) are concerned. |
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2069 |
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2070 const Register ic_reg = rax; |
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2071 const Register receiver = rcx; |
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2072 Label hit; |
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2073 Label exception_pending; |
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2074 |
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2075 |
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2076 __ verify_oop(receiver); |
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2077 __ cmpl(ic_reg, Address(receiver, oopDesc::klass_offset_in_bytes())); |
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2078 __ jcc(Assembler::equal, hit); |
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2079 |
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2080 __ jump(RuntimeAddress(SharedRuntime::get_ic_miss_stub())); |
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2081 |
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2082 // verified entry must be aligned for code patching. |
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2083 // and the first 5 bytes must be in the same cache line |
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2084 // if we align at 8 then we will be sure 5 bytes are in the same line |
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2085 __ align(8); |
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2086 |
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2087 __ bind(hit); |
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2088 |
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2089 int vep_offset = ((intptr_t)__ pc()) - start; |
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2090 |
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2091 |
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2092 // The instruction at the verified entry point must be 5 bytes or longer |
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2093 // because it can be patched on the fly by make_non_entrant. The stack bang |
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2094 // instruction fits that requirement. |
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2095 |
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2096 // Generate stack overflow check |
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2097 |
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2098 if (UseStackBanging) { |
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2099 if (stack_size <= StackShadowPages*os::vm_page_size()) { |
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2100 __ bang_stack_with_offset(StackShadowPages*os::vm_page_size()); |
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2101 } else { |
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2102 __ movl(rax, stack_size); |
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2103 __ bang_stack_size(rax, rbx); |
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2104 } |
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2105 } else { |
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2106 // need a 5 byte instruction to allow MT safe patching to non-entrant |
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2107 __ fat_nop(); |
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2108 } |
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2109 |
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2110 assert(((uintptr_t)__ pc() - start - vep_offset) >= 5, |
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2111 "valid size for make_non_entrant"); |
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2112 |
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2113 // Generate a new frame for the wrapper. |
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2114 __ enter(); |
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2115 |
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2116 // -4 because return address is already present and so is saved rbp, |
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2117 if (stack_size - 2*wordSize != 0) { |
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2118 __ subq(rsp, stack_size - 2*wordSize); |
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2119 } |
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2120 |
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2121 // Frame is now completed as far a size and linkage. |
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2122 |
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2123 int frame_complete = ((intptr_t)__ pc()) - start; |
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2124 |
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2125 int c_arg, j_arg; |
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2126 |
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2127 // State of input register args |
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2128 |
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2129 bool live[ConcreteRegisterImpl::number_of_registers]; |
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2130 |
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2131 live[j_rarg0->as_VMReg()->value()] = false; |
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2132 live[j_rarg1->as_VMReg()->value()] = false; |
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2133 live[j_rarg2->as_VMReg()->value()] = false; |
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2134 live[j_rarg3->as_VMReg()->value()] = false; |
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2135 live[j_rarg4->as_VMReg()->value()] = false; |
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2136 live[j_rarg5->as_VMReg()->value()] = false; |
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2137 |
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2138 live[j_farg0->as_VMReg()->value()] = false; |
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2139 live[j_farg1->as_VMReg()->value()] = false; |
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2140 live[j_farg2->as_VMReg()->value()] = false; |
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2141 live[j_farg3->as_VMReg()->value()] = false; |
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2142 live[j_farg4->as_VMReg()->value()] = false; |
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2143 live[j_farg5->as_VMReg()->value()] = false; |
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2144 live[j_farg6->as_VMReg()->value()] = false; |
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2145 live[j_farg7->as_VMReg()->value()] = false; |
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2146 |
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2147 |
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2148 bool rax_is_zero = false; |
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2149 |
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2150 // All args (except strings) destined for the stack are moved first |
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2151 for (j_arg = first_arg_to_pass, c_arg = 0 ; |
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2152 j_arg < total_args_passed ; j_arg++, c_arg++ ) { |
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2153 VMRegPair src = in_regs[j_arg]; |
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2154 VMRegPair dst = out_regs[c_arg]; |
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2155 |
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2156 // Get the real reg value or a dummy (rsp) |
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2157 |
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2158 int src_reg = src.first()->is_reg() ? |
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2159 src.first()->value() : |
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2160 rsp->as_VMReg()->value(); |
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2161 |
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2162 bool useless = in_sig_bt[j_arg] == T_ARRAY || |
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2163 (in_sig_bt[j_arg] == T_OBJECT && |
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2164 out_sig_bt[c_arg] != T_INT && |
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2165 out_sig_bt[c_arg] != T_ADDRESS && |
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2166 out_sig_bt[c_arg] != T_LONG); |
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2167 |
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2168 live[src_reg] = !useless; |
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2169 |
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2170 if (dst.first()->is_stack()) { |
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2171 |
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2172 // Even though a string arg in a register is still live after this loop |
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2173 // after the string conversion loop (next) it will be dead so we take |
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2174 // advantage of that now for simpler code to manage live. |
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2175 |
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2176 live[src_reg] = false; |
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2177 switch (in_sig_bt[j_arg]) { |
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2178 |
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2179 case T_ARRAY: |
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2180 case T_OBJECT: |
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2181 { |
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2182 Address stack_dst(rsp, reg2offset_out(dst.first())); |
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2183 |
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2184 if (out_sig_bt[c_arg] == T_INT || out_sig_bt[c_arg] == T_LONG) { |
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2185 // need to unbox a one-word value |
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2186 Register in_reg = rax; |
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2187 if ( src.first()->is_reg() ) { |
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2188 in_reg = src.first()->as_Register(); |
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2189 } else { |
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2190 __ movq(rax, Address(rbp, reg2offset_in(src.first()))); |
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2191 rax_is_zero = false; |
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2192 } |
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|
2193 Label skipUnbox; |
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2194 __ movptr(Address(rsp, reg2offset_out(dst.first())), |
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2195 (int32_t)NULL_WORD); |
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2196 __ testq(in_reg, in_reg); |
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2197 __ jcc(Assembler::zero, skipUnbox); |
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2198 |
165
437d03ea40b1
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2199 BasicType bt = out_sig_bt[c_arg]; |
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2200 int box_offset = java_lang_boxing_object::value_offset_in_bytes(bt); |
116
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2201 Address src1(in_reg, box_offset); |
165
437d03ea40b1
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2202 if ( bt == T_LONG ) { |
116
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2203 __ movq(in_reg, src1); |
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2204 __ movq(stack_dst, in_reg); |
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2205 assert(out_sig_bt[c_arg+1] == T_VOID, "must be"); |
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2206 ++c_arg; // skip over T_VOID to keep the loop indices in sync |
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2207 } else { |
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2208 __ movl(in_reg, src1); |
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2209 __ movl(stack_dst, in_reg); |
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2210 } |
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|
2211 |
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2212 __ bind(skipUnbox); |
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2213 } else if (out_sig_bt[c_arg] != T_ADDRESS) { |
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2214 // Convert the arg to NULL |
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2215 if (!rax_is_zero) { |
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2216 __ xorq(rax, rax); |
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2217 rax_is_zero = true; |
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2218 } |
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2219 __ movq(stack_dst, rax); |
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2220 } |
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|
2221 } |
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2222 break; |
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|
2223 |
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2224 case T_VOID: |
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2225 break; |
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|
2226 |
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2227 case T_FLOAT: |
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2228 // This does the right thing since we know it is destined for the |
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2229 // stack |
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2230 float_move(masm, src, dst); |
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2231 break; |
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|
2232 |
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2233 case T_DOUBLE: |
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2234 // This does the right thing since we know it is destined for the |
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2235 // stack |
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2236 double_move(masm, src, dst); |
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2237 break; |
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2238 |
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2239 case T_LONG : |
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2240 long_move(masm, src, dst); |
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2241 break; |
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2242 |
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2243 case T_ADDRESS: assert(false, "found T_ADDRESS in java args"); |
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2244 |
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2245 default: |
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2246 move32_64(masm, src, dst); |
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2247 } |
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2248 } |
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|
2249 |
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2250 } |
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|
2251 |
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2252 // If we have any strings we must store any register based arg to the stack |
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2253 // This includes any still live xmm registers too. |
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2254 |
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2255 int sid = 0; |
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|
2256 |
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2257 if (total_strings > 0 ) { |
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2258 for (j_arg = first_arg_to_pass, c_arg = 0 ; |
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2259 j_arg < total_args_passed ; j_arg++, c_arg++ ) { |
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2260 VMRegPair src = in_regs[j_arg]; |
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2261 VMRegPair dst = out_regs[c_arg]; |
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2262 |
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2263 if (src.first()->is_reg()) { |
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2264 Address src_tmp(rbp, fp_offset[src.first()->value()]); |
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2265 |
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2266 // string oops were left untouched by the previous loop even if the |
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2267 // eventual (converted) arg is destined for the stack so park them |
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2268 // away now (except for first) |
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2269 |
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2270 if (out_sig_bt[c_arg] == T_ADDRESS) { |
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2271 Address utf8_addr = Address( |
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2272 rsp, string_locs[sid++] * VMRegImpl::stack_slot_size); |
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2273 if (sid != 1) { |
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2274 // The first string arg won't be killed until after the utf8 |
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2275 // conversion |
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2276 __ movq(utf8_addr, src.first()->as_Register()); |
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2277 } |
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2278 } else if (dst.first()->is_reg()) { |
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2279 if (in_sig_bt[j_arg] == T_FLOAT || in_sig_bt[j_arg] == T_DOUBLE) { |
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2280 |
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2281 // Convert the xmm register to an int and store it in the reserved |
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2282 // location for the eventual c register arg |
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2283 XMMRegister f = src.first()->as_XMMRegister(); |
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2284 if (in_sig_bt[j_arg] == T_FLOAT) { |
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2285 __ movflt(src_tmp, f); |
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2286 } else { |
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2287 __ movdbl(src_tmp, f); |
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2288 } |
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2289 } else { |
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2290 // If the arg is an oop type we don't support don't bother to store |
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2291 // it remember string was handled above. |
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2292 bool useless = in_sig_bt[j_arg] == T_ARRAY || |
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2293 (in_sig_bt[j_arg] == T_OBJECT && |
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2294 out_sig_bt[c_arg] != T_INT && |
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2295 out_sig_bt[c_arg] != T_LONG); |
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2296 |
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2297 if (!useless) { |
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2298 __ movq(src_tmp, src.first()->as_Register()); |
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2299 } |
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2300 } |
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2301 } |
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2302 } |
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2303 if (in_sig_bt[j_arg] == T_OBJECT && out_sig_bt[c_arg] == T_LONG) { |
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2304 assert(out_sig_bt[c_arg+1] == T_VOID, "must be"); |
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2305 ++c_arg; // skip over T_VOID to keep the loop indices in sync |
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2306 } |
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2307 } |
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2308 |
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2309 // Now that the volatile registers are safe, convert all the strings |
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2310 sid = 0; |
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2311 |
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2312 for (j_arg = first_arg_to_pass, c_arg = 0 ; |
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2313 j_arg < total_args_passed ; j_arg++, c_arg++ ) { |
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2314 if (out_sig_bt[c_arg] == T_ADDRESS) { |
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2315 // It's a string |
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2316 Address utf8_addr = Address( |
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2317 rsp, string_locs[sid++] * VMRegImpl::stack_slot_size); |
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2318 // The first string we find might still be in the original java arg |
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2319 // register |
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2320 |
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2321 VMReg src = in_regs[j_arg].first(); |
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2322 |
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2323 // We will need to eventually save the final argument to the trap |
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2324 // in the von-volatile location dedicated to src. This is the offset |
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2325 // from fp we will use. |
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2326 int src_off = src->is_reg() ? |
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2327 fp_offset[src->value()] : reg2offset_in(src); |
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2328 |
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2329 // This is where the argument will eventually reside |
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2330 VMRegPair dst = out_regs[c_arg]; |
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2331 |
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2332 if (src->is_reg()) { |
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2333 if (sid == 1) { |
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2334 __ movq(c_rarg0, src->as_Register()); |
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2335 } else { |
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2336 __ movq(c_rarg0, utf8_addr); |
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2337 } |
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2338 } else { |
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2339 // arg is still in the original location |
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2340 __ movq(c_rarg0, Address(rbp, reg2offset_in(src))); |
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2341 } |
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2342 Label done, convert; |
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2343 |
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2344 // see if the oop is NULL |
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2345 __ testq(c_rarg0, c_rarg0); |
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2346 __ jcc(Assembler::notEqual, convert); |
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2347 |
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2348 if (dst.first()->is_reg()) { |
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2349 // Save the ptr to utf string in the origina src loc or the tmp |
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2350 // dedicated to it |
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2351 __ movq(Address(rbp, src_off), c_rarg0); |
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2352 } else { |
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2353 __ movq(Address(rsp, reg2offset_out(dst.first())), c_rarg0); |
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2354 } |
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2355 __ jmp(done); |
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2356 |
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2357 __ bind(convert); |
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2358 |
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2359 __ lea(c_rarg1, utf8_addr); |
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2360 if (dst.first()->is_reg()) { |
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2361 __ movq(Address(rbp, src_off), c_rarg1); |
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2362 } else { |
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2363 __ movq(Address(rsp, reg2offset_out(dst.first())), c_rarg1); |
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2364 } |
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2365 // And do the conversion |
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2366 __ call(RuntimeAddress( |
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2367 CAST_FROM_FN_PTR(address, SharedRuntime::get_utf))); |
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2368 |
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2369 __ bind(done); |
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2370 } |
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2371 if (in_sig_bt[j_arg] == T_OBJECT && out_sig_bt[c_arg] == T_LONG) { |
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2372 assert(out_sig_bt[c_arg+1] == T_VOID, "must be"); |
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2373 ++c_arg; // skip over T_VOID to keep the loop indices in sync |
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2374 } |
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2375 } |
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2376 // The get_utf call killed all the c_arg registers |
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2377 live[c_rarg0->as_VMReg()->value()] = false; |
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2378 live[c_rarg1->as_VMReg()->value()] = false; |
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2379 live[c_rarg2->as_VMReg()->value()] = false; |
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2380 live[c_rarg3->as_VMReg()->value()] = false; |
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2381 live[c_rarg4->as_VMReg()->value()] = false; |
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2382 live[c_rarg5->as_VMReg()->value()] = false; |
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2383 |
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2384 live[c_farg0->as_VMReg()->value()] = false; |
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2385 live[c_farg1->as_VMReg()->value()] = false; |
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2386 live[c_farg2->as_VMReg()->value()] = false; |
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2387 live[c_farg3->as_VMReg()->value()] = false; |
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2388 live[c_farg4->as_VMReg()->value()] = false; |
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2389 live[c_farg5->as_VMReg()->value()] = false; |
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2390 live[c_farg6->as_VMReg()->value()] = false; |
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2391 live[c_farg7->as_VMReg()->value()] = false; |
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2392 } |
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2393 |
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2394 // Now we can finally move the register args to their desired locations |
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2395 |
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2396 rax_is_zero = false; |
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2397 |
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2398 for (j_arg = first_arg_to_pass, c_arg = 0 ; |
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2399 j_arg < total_args_passed ; j_arg++, c_arg++ ) { |
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2400 |
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2401 VMRegPair src = in_regs[j_arg]; |
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2402 VMRegPair dst = out_regs[c_arg]; |
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2403 |
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2404 // Only need to look for args destined for the interger registers (since we |
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2405 // convert float/double args to look like int/long outbound) |
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2406 if (dst.first()->is_reg()) { |
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2407 Register r = dst.first()->as_Register(); |
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2408 |
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2409 // Check if the java arg is unsupported and thereofre useless |
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2410 bool useless = in_sig_bt[j_arg] == T_ARRAY || |
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2411 (in_sig_bt[j_arg] == T_OBJECT && |
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2412 out_sig_bt[c_arg] != T_INT && |
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2413 out_sig_bt[c_arg] != T_ADDRESS && |
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2414 out_sig_bt[c_arg] != T_LONG); |
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2415 |
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2416 |
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2417 // If we're going to kill an existing arg save it first |
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2418 if (live[dst.first()->value()]) { |
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2419 // you can't kill yourself |
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2420 if (src.first() != dst.first()) { |
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2421 __ movq(Address(rbp, fp_offset[dst.first()->value()]), r); |
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2422 } |
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2423 } |
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2424 if (src.first()->is_reg()) { |
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2425 if (live[src.first()->value()] ) { |
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2426 if (in_sig_bt[j_arg] == T_FLOAT) { |
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2427 __ movdl(r, src.first()->as_XMMRegister()); |
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2428 } else if (in_sig_bt[j_arg] == T_DOUBLE) { |
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2429 __ movdq(r, src.first()->as_XMMRegister()); |
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2430 } else if (r != src.first()->as_Register()) { |
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2431 if (!useless) { |
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2432 __ movq(r, src.first()->as_Register()); |
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2433 } |
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2434 } |
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2435 } else { |
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2436 // If the arg is an oop type we don't support don't bother to store |
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2437 // it |
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2438 if (!useless) { |
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2439 if (in_sig_bt[j_arg] == T_DOUBLE || |
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2440 in_sig_bt[j_arg] == T_LONG || |
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2441 in_sig_bt[j_arg] == T_OBJECT ) { |
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2442 __ movq(r, Address(rbp, fp_offset[src.first()->value()])); |
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2443 } else { |
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2444 __ movl(r, Address(rbp, fp_offset[src.first()->value()])); |
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2445 } |
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|
2446 } |
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|
2447 } |
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2448 live[src.first()->value()] = false; |
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2449 } else if (!useless) { |
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2450 // full sized move even for int should be ok |
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2451 __ movq(r, Address(rbp, reg2offset_in(src.first()))); |
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2452 } |
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|
2453 |
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2454 // At this point r has the original java arg in the final location |
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2455 // (assuming it wasn't useless). If the java arg was an oop |
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2456 // we have a bit more to do |
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|
2457 |
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2458 if (in_sig_bt[j_arg] == T_ARRAY || in_sig_bt[j_arg] == T_OBJECT ) { |
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2459 if (out_sig_bt[c_arg] == T_INT || out_sig_bt[c_arg] == T_LONG) { |
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2460 // need to unbox a one-word value |
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2461 Label skip; |
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2462 __ testq(r, r); |
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2463 __ jcc(Assembler::equal, skip); |
165
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2464 BasicType bt = out_sig_bt[c_arg]; |
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2465 int box_offset = java_lang_boxing_object::value_offset_in_bytes(bt); |
116
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2466 Address src1(r, box_offset); |
165
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2467 if ( bt == T_LONG ) { |
116
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2468 __ movq(r, src1); |
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|
2469 } else { |
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2470 __ movl(r, src1); |
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|
2471 } |
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|
2472 __ bind(skip); |
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|
2473 |
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2474 } else if (out_sig_bt[c_arg] != T_ADDRESS) { |
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2475 // Convert the arg to NULL |
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2476 __ xorq(r, r); |
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|
2477 } |
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|
2478 } |
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|
2479 |
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2480 // dst can longer be holding an input value |
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2481 live[dst.first()->value()] = false; |
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2482 } |
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2483 if (in_sig_bt[j_arg] == T_OBJECT && out_sig_bt[c_arg] == T_LONG) { |
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2484 assert(out_sig_bt[c_arg+1] == T_VOID, "must be"); |
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2485 ++c_arg; // skip over T_VOID to keep the loop indices in sync |
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2486 } |
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|
2487 } |
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|
2488 |
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|
2489 |
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2490 // Ok now we are done. Need to place the nop that dtrace wants in order to |
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2491 // patch in the trap |
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|
2492 int patch_offset = ((intptr_t)__ pc()) - start; |
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2493 |
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2494 __ nop(); |
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2495 |
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2496 |
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2497 // Return |
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2498 |
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2499 __ leave(); |
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2500 __ ret(0); |
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2501 |
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2502 __ flush(); |
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2503 |
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2504 nmethod *nm = nmethod::new_dtrace_nmethod( |
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2505 method, masm->code(), vep_offset, patch_offset, frame_complete, |
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2506 stack_slots / VMRegImpl::slots_per_word); |
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2507 return nm; |
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2508 |
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2509 } |
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2510 |
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2511 #endif // HAVE_DTRACE_H |
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2512 |
0 | 2513 // this function returns the adjust size (in number of words) to a c2i adapter |
2514 // activation for use during deoptimization | |
2515 int Deoptimization::last_frame_adjust(int callee_parameters, int callee_locals ) { | |
2516 return (callee_locals - callee_parameters) * Interpreter::stackElementWords(); | |
2517 } | |
2518 | |
2519 | |
2520 uint SharedRuntime::out_preserve_stack_slots() { | |
2521 return 0; | |
2522 } | |
2523 | |
2524 | |
2525 //------------------------------generate_deopt_blob---------------------------- | |
2526 void SharedRuntime::generate_deopt_blob() { | |
2527 // Allocate space for the code | |
2528 ResourceMark rm; | |
2529 // Setup code generation tools | |
2530 CodeBuffer buffer("deopt_blob", 2048, 1024); | |
2531 MacroAssembler* masm = new MacroAssembler(&buffer); | |
2532 int frame_size_in_words; | |
2533 OopMap* map = NULL; | |
2534 OopMapSet *oop_maps = new OopMapSet(); | |
2535 | |
2536 // ------------- | |
2537 // This code enters when returning to a de-optimized nmethod. A return | |
2538 // address has been pushed on the the stack, and return values are in | |
2539 // registers. | |
2540 // If we are doing a normal deopt then we were called from the patched | |
2541 // nmethod from the point we returned to the nmethod. So the return | |
2542 // address on the stack is wrong by NativeCall::instruction_size | |
2543 // We will adjust the value so it looks like we have the original return | |
2544 // address on the stack (like when we eagerly deoptimized). | |
2545 // In the case of an exception pending when deoptimizing, we enter | |
2546 // with a return address on the stack that points after the call we patched | |
2547 // into the exception handler. We have the following register state from, | |
2548 // e.g., the forward exception stub (see stubGenerator_x86_64.cpp). | |
2549 // rax: exception oop | |
2550 // rbx: exception handler | |
2551 // rdx: throwing pc | |
2552 // So in this case we simply jam rdx into the useless return address and | |
2553 // the stack looks just like we want. | |
2554 // | |
2555 // At this point we need to de-opt. We save the argument return | |
2556 // registers. We call the first C routine, fetch_unroll_info(). This | |
2557 // routine captures the return values and returns a structure which | |
2558 // describes the current frame size and the sizes of all replacement frames. | |
2559 // The current frame is compiled code and may contain many inlined | |
2560 // functions, each with their own JVM state. We pop the current frame, then | |
2561 // push all the new frames. Then we call the C routine unpack_frames() to | |
2562 // populate these frames. Finally unpack_frames() returns us the new target | |
2563 // address. Notice that callee-save registers are BLOWN here; they have | |
2564 // already been captured in the vframeArray at the time the return PC was | |
2565 // patched. | |
2566 address start = __ pc(); | |
2567 Label cont; | |
2568 | |
2569 // Prolog for non exception case! | |
2570 | |
2571 // Save everything in sight. | |
2572 map = RegisterSaver::save_live_registers(masm, 0, &frame_size_in_words); | |
2573 | |
2574 // Normal deoptimization. Save exec mode for unpack_frames. | |
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2575 __ movl(r14, Deoptimization::Unpack_deopt); // callee-saved |
0 | 2576 __ jmp(cont); |
2577 int exception_offset = __ pc() - start; | |
2578 | |
2579 // Prolog for exception case | |
2580 | |
2581 // Push throwing pc as return address | |
2582 __ pushq(rdx); | |
2583 | |
2584 // Save everything in sight. | |
2585 map = RegisterSaver::save_live_registers(masm, 0, &frame_size_in_words); | |
2586 | |
2587 // Deopt during an exception. Save exec mode for unpack_frames. | |
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2588 __ movl(r14, Deoptimization::Unpack_exception); // callee-saved |
0 | 2589 |
2590 __ bind(cont); | |
2591 | |
2592 // Call C code. Need thread and this frame, but NOT official VM entry | |
2593 // crud. We cannot block on this call, no GC can happen. | |
2594 // | |
2595 // UnrollBlock* fetch_unroll_info(JavaThread* thread) | |
2596 | |
2597 // fetch_unroll_info needs to call last_java_frame(). | |
2598 | |
2599 __ set_last_Java_frame(noreg, noreg, NULL); | |
2600 #ifdef ASSERT | |
2601 { Label L; | |
2602 __ cmpq(Address(r15_thread, | |
2603 JavaThread::last_Java_fp_offset()), | |
2604 0); | |
2605 __ jcc(Assembler::equal, L); | |
2606 __ stop("SharedRuntime::generate_deopt_blob: last_Java_fp not cleared"); | |
2607 __ bind(L); | |
2608 } | |
2609 #endif // ASSERT | |
2610 __ movq(c_rarg0, r15_thread); | |
2611 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, Deoptimization::fetch_unroll_info))); | |
2612 | |
2613 // Need to have an oopmap that tells fetch_unroll_info where to | |
2614 // find any register it might need. | |
2615 oop_maps->add_gc_map(__ pc() - start, map); | |
2616 | |
2617 __ reset_last_Java_frame(false, false); | |
2618 | |
2619 // Load UnrollBlock* into rdi | |
2620 __ movq(rdi, rax); | |
2621 | |
2622 // Only register save data is on the stack. | |
2623 // Now restore the result registers. Everything else is either dead | |
2624 // or captured in the vframeArray. | |
2625 RegisterSaver::restore_result_registers(masm); | |
2626 | |
2627 // All of the register save area has been popped of the stack. Only the | |
2628 // return address remains. | |
2629 | |
2630 // Pop all the frames we must move/replace. | |
2631 // | |
2632 // Frame picture (youngest to oldest) | |
2633 // 1: self-frame (no frame link) | |
2634 // 2: deopting frame (no frame link) | |
2635 // 3: caller of deopting frame (could be compiled/interpreted). | |
2636 // | |
2637 // Note: by leaving the return address of self-frame on the stack | |
2638 // and using the size of frame 2 to adjust the stack | |
2639 // when we are done the return to frame 3 will still be on the stack. | |
2640 | |
2641 // Pop deoptimized frame | |
2642 __ movl(rcx, Address(rdi, Deoptimization::UnrollBlock::size_of_deoptimized_frame_offset_in_bytes())); | |
2643 __ addq(rsp, rcx); | |
2644 | |
2645 // rsp should be pointing at the return address to the caller (3) | |
2646 | |
2647 // Stack bang to make sure there's enough room for these interpreter frames. | |
2648 if (UseStackBanging) { | |
2649 __ movl(rbx, Address(rdi, Deoptimization::UnrollBlock::total_frame_sizes_offset_in_bytes())); | |
2650 __ bang_stack_size(rbx, rcx); | |
2651 } | |
2652 | |
2653 // Load address of array of frame pcs into rcx | |
2654 __ movq(rcx, Address(rdi, Deoptimization::UnrollBlock::frame_pcs_offset_in_bytes())); | |
2655 | |
2656 // Trash the old pc | |
2657 __ addq(rsp, wordSize); | |
2658 | |
2659 // Load address of array of frame sizes into rsi | |
2660 __ movq(rsi, Address(rdi, Deoptimization::UnrollBlock::frame_sizes_offset_in_bytes())); | |
2661 | |
2662 // Load counter into rdx | |
2663 __ movl(rdx, Address(rdi, Deoptimization::UnrollBlock::number_of_frames_offset_in_bytes())); | |
2664 | |
2665 // Pick up the initial fp we should save | |
2666 __ movq(rbp, Address(rdi, Deoptimization::UnrollBlock::initial_fp_offset_in_bytes())); | |
2667 | |
2668 // Now adjust the caller's stack to make up for the extra locals | |
2669 // but record the original sp so that we can save it in the skeletal interpreter | |
2670 // frame and the stack walking of interpreter_sender will get the unextended sp | |
2671 // value and not the "real" sp value. | |
2672 | |
2673 const Register sender_sp = r8; | |
2674 | |
2675 __ movq(sender_sp, rsp); | |
2676 __ movl(rbx, Address(rdi, | |
2677 Deoptimization::UnrollBlock:: | |
2678 caller_adjustment_offset_in_bytes())); | |
2679 __ subq(rsp, rbx); | |
2680 | |
2681 // Push interpreter frames in a loop | |
2682 Label loop; | |
2683 __ bind(loop); | |
2684 __ movq(rbx, Address(rsi, 0)); // Load frame size | |
2685 __ subq(rbx, 2*wordSize); // We'll push pc and ebp by hand | |
2686 __ pushq(Address(rcx, 0)); // Save return address | |
2687 __ enter(); // Save old & set new ebp | |
2688 __ subq(rsp, rbx); // Prolog | |
2689 __ movq(Address(rbp, frame::interpreter_frame_sender_sp_offset * wordSize), | |
2690 sender_sp); // Make it walkable | |
2691 // This value is corrected by layout_activation_impl | |
2692 __ movptr(Address(rbp, frame::interpreter_frame_last_sp_offset * wordSize), (int)NULL_WORD ); | |
2693 __ movq(sender_sp, rsp); // Pass sender_sp to next frame | |
2694 __ addq(rsi, wordSize); // Bump array pointer (sizes) | |
2695 __ addq(rcx, wordSize); // Bump array pointer (pcs) | |
2696 __ decrementl(rdx); // Decrement counter | |
2697 __ jcc(Assembler::notZero, loop); | |
2698 __ pushq(Address(rcx, 0)); // Save final return address | |
2699 | |
2700 // Re-push self-frame | |
2701 __ enter(); // Save old & set new ebp | |
2702 | |
2703 // Allocate a full sized register save area. | |
2704 // Return address and rbp are in place, so we allocate two less words. | |
2705 __ subq(rsp, (frame_size_in_words - 2) * wordSize); | |
2706 | |
2707 // Restore frame locals after moving the frame | |
2708 __ movdbl(Address(rsp, RegisterSaver::xmm0_offset_in_bytes()), xmm0); | |
2709 __ movq(Address(rsp, RegisterSaver::rax_offset_in_bytes()), rax); | |
2710 | |
2711 // Call C code. Need thread but NOT official VM entry | |
2712 // crud. We cannot block on this call, no GC can happen. Call should | |
2713 // restore return values to their stack-slots with the new SP. | |
2714 // | |
2715 // void Deoptimization::unpack_frames(JavaThread* thread, int exec_mode) | |
2716 | |
2717 // Use rbp because the frames look interpreted now | |
2718 __ set_last_Java_frame(noreg, rbp, NULL); | |
2719 | |
2720 __ movq(c_rarg0, r15_thread); | |
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2721 __ movl(c_rarg1, r14); // second arg: exec_mode |
0 | 2722 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, Deoptimization::unpack_frames))); |
2723 | |
2724 // Set an oopmap for the call site | |
2725 oop_maps->add_gc_map(__ pc() - start, | |
2726 new OopMap( frame_size_in_words, 0 )); | |
2727 | |
2728 __ reset_last_Java_frame(true, false); | |
2729 | |
2730 // Collect return values | |
2731 __ movdbl(xmm0, Address(rsp, RegisterSaver::xmm0_offset_in_bytes())); | |
2732 __ movq(rax, Address(rsp, RegisterSaver::rax_offset_in_bytes())); | |
2733 | |
2734 // Pop self-frame. | |
2735 __ leave(); // Epilog | |
2736 | |
2737 // Jump to interpreter | |
2738 __ ret(0); | |
2739 | |
2740 // Make sure all code is generated | |
2741 masm->flush(); | |
2742 | |
2743 _deopt_blob = DeoptimizationBlob::create(&buffer, oop_maps, 0, exception_offset, 0, frame_size_in_words); | |
2744 } | |
2745 | |
2746 #ifdef COMPILER2 | |
2747 //------------------------------generate_uncommon_trap_blob-------------------- | |
2748 void SharedRuntime::generate_uncommon_trap_blob() { | |
2749 // Allocate space for the code | |
2750 ResourceMark rm; | |
2751 // Setup code generation tools | |
2752 CodeBuffer buffer("uncommon_trap_blob", 2048, 1024); | |
2753 MacroAssembler* masm = new MacroAssembler(&buffer); | |
2754 | |
2755 assert(SimpleRuntimeFrame::framesize % 4 == 0, "sp not 16-byte aligned"); | |
2756 | |
2757 address start = __ pc(); | |
2758 | |
2759 // Push self-frame. We get here with a return address on the | |
2760 // stack, so rsp is 8-byte aligned until we allocate our frame. | |
2761 __ subq(rsp, SimpleRuntimeFrame::return_off << LogBytesPerInt); // Epilog! | |
2762 | |
2763 // No callee saved registers. rbp is assumed implicitly saved | |
2764 __ movq(Address(rsp, SimpleRuntimeFrame::rbp_off << LogBytesPerInt), rbp); | |
2765 | |
2766 // compiler left unloaded_class_index in j_rarg0 move to where the | |
2767 // runtime expects it. | |
2768 __ movl(c_rarg1, j_rarg0); | |
2769 | |
2770 __ set_last_Java_frame(noreg, noreg, NULL); | |
2771 | |
2772 // Call C code. Need thread but NOT official VM entry | |
2773 // crud. We cannot block on this call, no GC can happen. Call should | |
2774 // capture callee-saved registers as well as return values. | |
2775 // Thread is in rdi already. | |
2776 // | |
2777 // UnrollBlock* uncommon_trap(JavaThread* thread, jint unloaded_class_index); | |
2778 | |
2779 __ movq(c_rarg0, r15_thread); | |
2780 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, Deoptimization::uncommon_trap))); | |
2781 | |
2782 // Set an oopmap for the call site | |
2783 OopMapSet* oop_maps = new OopMapSet(); | |
2784 OopMap* map = new OopMap(SimpleRuntimeFrame::framesize, 0); | |
2785 | |
2786 // location of rbp is known implicitly by the frame sender code | |
2787 | |
2788 oop_maps->add_gc_map(__ pc() - start, map); | |
2789 | |
2790 __ reset_last_Java_frame(false, false); | |
2791 | |
2792 // Load UnrollBlock* into rdi | |
2793 __ movq(rdi, rax); | |
2794 | |
2795 // Pop all the frames we must move/replace. | |
2796 // | |
2797 // Frame picture (youngest to oldest) | |
2798 // 1: self-frame (no frame link) | |
2799 // 2: deopting frame (no frame link) | |
2800 // 3: caller of deopting frame (could be compiled/interpreted). | |
2801 | |
2802 // Pop self-frame. We have no frame, and must rely only on rax and rsp. | |
2803 __ addq(rsp, (SimpleRuntimeFrame::framesize - 2) << LogBytesPerInt); // Epilog! | |
2804 | |
2805 // Pop deoptimized frame (int) | |
2806 __ movl(rcx, Address(rdi, | |
2807 Deoptimization::UnrollBlock:: | |
2808 size_of_deoptimized_frame_offset_in_bytes())); | |
2809 __ addq(rsp, rcx); | |
2810 | |
2811 // rsp should be pointing at the return address to the caller (3) | |
2812 | |
2813 // Stack bang to make sure there's enough room for these interpreter frames. | |
2814 if (UseStackBanging) { | |
2815 __ movl(rbx, Address(rdi ,Deoptimization::UnrollBlock::total_frame_sizes_offset_in_bytes())); | |
2816 __ bang_stack_size(rbx, rcx); | |
2817 } | |
2818 | |
2819 // Load address of array of frame pcs into rcx (address*) | |
2820 __ movq(rcx, | |
2821 Address(rdi, | |
2822 Deoptimization::UnrollBlock::frame_pcs_offset_in_bytes())); | |
2823 | |
2824 // Trash the return pc | |
2825 __ addq(rsp, wordSize); | |
2826 | |
2827 // Load address of array of frame sizes into rsi (intptr_t*) | |
2828 __ movq(rsi, Address(rdi, | |
2829 Deoptimization::UnrollBlock:: | |
2830 frame_sizes_offset_in_bytes())); | |
2831 | |
2832 // Counter | |
2833 __ movl(rdx, Address(rdi, | |
2834 Deoptimization::UnrollBlock:: | |
2835 number_of_frames_offset_in_bytes())); // (int) | |
2836 | |
2837 // Pick up the initial fp we should save | |
2838 __ movq(rbp, | |
2839 Address(rdi, | |
2840 Deoptimization::UnrollBlock::initial_fp_offset_in_bytes())); | |
2841 | |
2842 // Now adjust the caller's stack to make up for the extra locals but | |
2843 // record the original sp so that we can save it in the skeletal | |
2844 // interpreter frame and the stack walking of interpreter_sender | |
2845 // will get the unextended sp value and not the "real" sp value. | |
2846 | |
2847 const Register sender_sp = r8; | |
2848 | |
2849 __ movq(sender_sp, rsp); | |
2850 __ movl(rbx, Address(rdi, | |
2851 Deoptimization::UnrollBlock:: | |
2852 caller_adjustment_offset_in_bytes())); // (int) | |
2853 __ subq(rsp, rbx); | |
2854 | |
2855 // Push interpreter frames in a loop | |
2856 Label loop; | |
2857 __ bind(loop); | |
2858 __ movq(rbx, Address(rsi, 0)); // Load frame size | |
2859 __ subq(rbx, 2 * wordSize); // We'll push pc and rbp by hand | |
2860 __ pushq(Address(rcx, 0)); // Save return address | |
2861 __ enter(); // Save old & set new rbp | |
2862 __ subq(rsp, rbx); // Prolog | |
2863 __ movq(Address(rbp, frame::interpreter_frame_sender_sp_offset * wordSize), | |
2864 sender_sp); // Make it walkable | |
2865 // This value is corrected by layout_activation_impl | |
2866 __ movptr(Address(rbp, frame::interpreter_frame_last_sp_offset * wordSize), (int)NULL_WORD ); | |
2867 __ movq(sender_sp, rsp); // Pass sender_sp to next frame | |
2868 __ addq(rsi, wordSize); // Bump array pointer (sizes) | |
2869 __ addq(rcx, wordSize); // Bump array pointer (pcs) | |
2870 __ decrementl(rdx); // Decrement counter | |
2871 __ jcc(Assembler::notZero, loop); | |
2872 __ pushq(Address(rcx, 0)); // Save final return address | |
2873 | |
2874 // Re-push self-frame | |
2875 __ enter(); // Save old & set new rbp | |
2876 __ subq(rsp, (SimpleRuntimeFrame::framesize - 4) << LogBytesPerInt); | |
2877 // Prolog | |
2878 | |
2879 // Use rbp because the frames look interpreted now | |
2880 __ set_last_Java_frame(noreg, rbp, NULL); | |
2881 | |
2882 // Call C code. Need thread but NOT official VM entry | |
2883 // crud. We cannot block on this call, no GC can happen. Call should | |
2884 // restore return values to their stack-slots with the new SP. | |
2885 // Thread is in rdi already. | |
2886 // | |
2887 // BasicType unpack_frames(JavaThread* thread, int exec_mode); | |
2888 | |
2889 __ movq(c_rarg0, r15_thread); | |
2890 __ movl(c_rarg1, Deoptimization::Unpack_uncommon_trap); | |
2891 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, Deoptimization::unpack_frames))); | |
2892 | |
2893 // Set an oopmap for the call site | |
2894 oop_maps->add_gc_map(__ pc() - start, new OopMap(SimpleRuntimeFrame::framesize, 0)); | |
2895 | |
2896 __ reset_last_Java_frame(true, false); | |
2897 | |
2898 // Pop self-frame. | |
2899 __ leave(); // Epilog | |
2900 | |
2901 // Jump to interpreter | |
2902 __ ret(0); | |
2903 | |
2904 // Make sure all code is generated | |
2905 masm->flush(); | |
2906 | |
2907 _uncommon_trap_blob = UncommonTrapBlob::create(&buffer, oop_maps, | |
2908 SimpleRuntimeFrame::framesize >> 1); | |
2909 } | |
2910 #endif // COMPILER2 | |
2911 | |
2912 | |
2913 //------------------------------generate_handler_blob------ | |
2914 // | |
2915 // Generate a special Compile2Runtime blob that saves all registers, | |
2916 // and setup oopmap. | |
2917 // | |
2918 static SafepointBlob* generate_handler_blob(address call_ptr, bool cause_return) { | |
2919 assert(StubRoutines::forward_exception_entry() != NULL, | |
2920 "must be generated before"); | |
2921 | |
2922 ResourceMark rm; | |
2923 OopMapSet *oop_maps = new OopMapSet(); | |
2924 OopMap* map; | |
2925 | |
2926 // Allocate space for the code. Setup code generation tools. | |
2927 CodeBuffer buffer("handler_blob", 2048, 1024); | |
2928 MacroAssembler* masm = new MacroAssembler(&buffer); | |
2929 | |
2930 address start = __ pc(); | |
2931 address call_pc = NULL; | |
2932 int frame_size_in_words; | |
2933 | |
2934 // Make room for return address (or push it again) | |
2935 if (!cause_return) { | |
2936 __ pushq(rbx); | |
2937 } | |
2938 | |
2939 // Save registers, fpu state, and flags | |
2940 map = RegisterSaver::save_live_registers(masm, 0, &frame_size_in_words); | |
2941 | |
2942 // The following is basically a call_VM. However, we need the precise | |
2943 // address of the call in order to generate an oopmap. Hence, we do all the | |
2944 // work outselves. | |
2945 | |
2946 __ set_last_Java_frame(noreg, noreg, NULL); | |
2947 | |
2948 // The return address must always be correct so that frame constructor never | |
2949 // sees an invalid pc. | |
2950 | |
2951 if (!cause_return) { | |
2952 // overwrite the dummy value we pushed on entry | |
2953 __ movq(c_rarg0, Address(r15_thread, JavaThread::saved_exception_pc_offset())); | |
2954 __ movq(Address(rbp, wordSize), c_rarg0); | |
2955 } | |
2956 | |
2957 // Do the call | |
2958 __ movq(c_rarg0, r15_thread); | |
2959 __ call(RuntimeAddress(call_ptr)); | |
2960 | |
2961 // Set an oopmap for the call site. This oopmap will map all | |
2962 // oop-registers and debug-info registers as callee-saved. This | |
2963 // will allow deoptimization at this safepoint to find all possible | |
2964 // debug-info recordings, as well as let GC find all oops. | |
2965 | |
2966 oop_maps->add_gc_map( __ pc() - start, map); | |
2967 | |
2968 Label noException; | |
2969 | |
2970 __ reset_last_Java_frame(false, false); | |
2971 | |
2972 __ cmpq(Address(r15_thread, Thread::pending_exception_offset()), (int)NULL_WORD); | |
2973 __ jcc(Assembler::equal, noException); | |
2974 | |
2975 // Exception pending | |
2976 | |
2977 RegisterSaver::restore_live_registers(masm); | |
2978 | |
2979 __ jump(RuntimeAddress(StubRoutines::forward_exception_entry())); | |
2980 | |
2981 // No exception case | |
2982 __ bind(noException); | |
2983 | |
2984 // Normal exit, restore registers and exit. | |
2985 RegisterSaver::restore_live_registers(masm); | |
2986 | |
2987 __ ret(0); | |
2988 | |
2989 // Make sure all code is generated | |
2990 masm->flush(); | |
2991 | |
2992 // Fill-out other meta info | |
2993 return SafepointBlob::create(&buffer, oop_maps, frame_size_in_words); | |
2994 } | |
2995 | |
2996 // | |
2997 // generate_resolve_blob - call resolution (static/virtual/opt-virtual/ic-miss | |
2998 // | |
2999 // Generate a stub that calls into vm to find out the proper destination | |
3000 // of a java call. All the argument registers are live at this point | |
3001 // but since this is generic code we don't know what they are and the caller | |
3002 // must do any gc of the args. | |
3003 // | |
3004 static RuntimeStub* generate_resolve_blob(address destination, const char* name) { | |
3005 assert (StubRoutines::forward_exception_entry() != NULL, "must be generated before"); | |
3006 | |
3007 // allocate space for the code | |
3008 ResourceMark rm; | |
3009 | |
3010 CodeBuffer buffer(name, 1000, 512); | |
3011 MacroAssembler* masm = new MacroAssembler(&buffer); | |
3012 | |
3013 int frame_size_in_words; | |
3014 | |
3015 OopMapSet *oop_maps = new OopMapSet(); | |
3016 OopMap* map = NULL; | |
3017 | |
3018 int start = __ offset(); | |
3019 | |
3020 map = RegisterSaver::save_live_registers(masm, 0, &frame_size_in_words); | |
3021 | |
3022 int frame_complete = __ offset(); | |
3023 | |
3024 __ set_last_Java_frame(noreg, noreg, NULL); | |
3025 | |
3026 __ movq(c_rarg0, r15_thread); | |
3027 | |
3028 __ call(RuntimeAddress(destination)); | |
3029 | |
3030 | |
3031 // Set an oopmap for the call site. | |
3032 // We need this not only for callee-saved registers, but also for volatile | |
3033 // registers that the compiler might be keeping live across a safepoint. | |
3034 | |
3035 oop_maps->add_gc_map( __ offset() - start, map); | |
3036 | |
3037 // rax contains the address we are going to jump to assuming no exception got installed | |
3038 | |
3039 // clear last_Java_sp | |
3040 __ reset_last_Java_frame(false, false); | |
3041 // check for pending exceptions | |
3042 Label pending; | |
3043 __ cmpq(Address(r15_thread, Thread::pending_exception_offset()), (int)NULL_WORD); | |
3044 __ jcc(Assembler::notEqual, pending); | |
3045 | |
3046 // get the returned methodOop | |
3047 __ movq(rbx, Address(r15_thread, JavaThread::vm_result_offset())); | |
3048 __ movq(Address(rsp, RegisterSaver::rbx_offset_in_bytes()), rbx); | |
3049 | |
3050 __ movq(Address(rsp, RegisterSaver::rax_offset_in_bytes()), rax); | |
3051 | |
3052 RegisterSaver::restore_live_registers(masm); | |
3053 | |
3054 // We are back the the original state on entry and ready to go. | |
3055 | |
3056 __ jmp(rax); | |
3057 | |
3058 // Pending exception after the safepoint | |
3059 | |
3060 __ bind(pending); | |
3061 | |
3062 RegisterSaver::restore_live_registers(masm); | |
3063 | |
3064 // exception pending => remove activation and forward to exception handler | |
3065 | |
3066 __ movptr(Address(r15_thread, JavaThread::vm_result_offset()), (int)NULL_WORD); | |
3067 | |
3068 __ movq(rax, Address(r15_thread, Thread::pending_exception_offset())); | |
3069 __ jump(RuntimeAddress(StubRoutines::forward_exception_entry())); | |
3070 | |
3071 // ------------- | |
3072 // make sure all code is generated | |
3073 masm->flush(); | |
3074 | |
3075 // return the blob | |
3076 // frame_size_words or bytes?? | |
3077 return RuntimeStub::new_runtime_stub(name, &buffer, frame_complete, frame_size_in_words, oop_maps, true); | |
3078 } | |
3079 | |
3080 | |
3081 void SharedRuntime::generate_stubs() { | |
3082 | |
3083 _wrong_method_blob = generate_resolve_blob(CAST_FROM_FN_PTR(address, SharedRuntime::handle_wrong_method), | |
3084 "wrong_method_stub"); | |
3085 _ic_miss_blob = generate_resolve_blob(CAST_FROM_FN_PTR(address, SharedRuntime::handle_wrong_method_ic_miss), | |
3086 "ic_miss_stub"); | |
3087 _resolve_opt_virtual_call_blob = generate_resolve_blob(CAST_FROM_FN_PTR(address, SharedRuntime::resolve_opt_virtual_call_C), | |
3088 "resolve_opt_virtual_call"); | |
3089 | |
3090 _resolve_virtual_call_blob = generate_resolve_blob(CAST_FROM_FN_PTR(address, SharedRuntime::resolve_virtual_call_C), | |
3091 "resolve_virtual_call"); | |
3092 | |
3093 _resolve_static_call_blob = generate_resolve_blob(CAST_FROM_FN_PTR(address, SharedRuntime::resolve_static_call_C), | |
3094 "resolve_static_call"); | |
3095 _polling_page_safepoint_handler_blob = | |
3096 generate_handler_blob(CAST_FROM_FN_PTR(address, | |
3097 SafepointSynchronize::handle_polling_page_exception), false); | |
3098 | |
3099 _polling_page_return_handler_blob = | |
3100 generate_handler_blob(CAST_FROM_FN_PTR(address, | |
3101 SafepointSynchronize::handle_polling_page_exception), true); | |
3102 | |
3103 generate_deopt_blob(); | |
3104 | |
3105 #ifdef COMPILER2 | |
3106 generate_uncommon_trap_blob(); | |
3107 #endif // COMPILER2 | |
3108 } | |
3109 | |
3110 | |
3111 #ifdef COMPILER2 | |
3112 // This is here instead of runtime_x86_64.cpp because it uses SimpleRuntimeFrame | |
3113 // | |
3114 //------------------------------generate_exception_blob--------------------------- | |
3115 // creates exception blob at the end | |
3116 // Using exception blob, this code is jumped from a compiled method. | |
3117 // (see emit_exception_handler in x86_64.ad file) | |
3118 // | |
3119 // Given an exception pc at a call we call into the runtime for the | |
3120 // handler in this method. This handler might merely restore state | |
3121 // (i.e. callee save registers) unwind the frame and jump to the | |
3122 // exception handler for the nmethod if there is no Java level handler | |
3123 // for the nmethod. | |
3124 // | |
3125 // This code is entered with a jmp. | |
3126 // | |
3127 // Arguments: | |
3128 // rax: exception oop | |
3129 // rdx: exception pc | |
3130 // | |
3131 // Results: | |
3132 // rax: exception oop | |
3133 // rdx: exception pc in caller or ??? | |
3134 // destination: exception handler of caller | |
3135 // | |
3136 // Note: the exception pc MUST be at a call (precise debug information) | |
3137 // Registers rax, rdx, rcx, rsi, rdi, r8-r11 are not callee saved. | |
3138 // | |
3139 | |
3140 void OptoRuntime::generate_exception_blob() { | |
3141 assert(!OptoRuntime::is_callee_saved_register(RDX_num), ""); | |
3142 assert(!OptoRuntime::is_callee_saved_register(RAX_num), ""); | |
3143 assert(!OptoRuntime::is_callee_saved_register(RCX_num), ""); | |
3144 | |
3145 assert(SimpleRuntimeFrame::framesize % 4 == 0, "sp not 16-byte aligned"); | |
3146 | |
3147 // Allocate space for the code | |
3148 ResourceMark rm; | |
3149 // Setup code generation tools | |
3150 CodeBuffer buffer("exception_blob", 2048, 1024); | |
3151 MacroAssembler* masm = new MacroAssembler(&buffer); | |
3152 | |
3153 | |
3154 address start = __ pc(); | |
3155 | |
3156 // Exception pc is 'return address' for stack walker | |
3157 __ pushq(rdx); | |
3158 __ subq(rsp, SimpleRuntimeFrame::return_off << LogBytesPerInt); // Prolog | |
3159 | |
3160 // Save callee-saved registers. See x86_64.ad. | |
3161 | |
3162 // rbp is an implicitly saved callee saved register (i.e. the calling | |
3163 // convention will save restore it in prolog/epilog) Other than that | |
3164 // there are no callee save registers now that adapter frames are gone. | |
3165 | |
3166 __ movq(Address(rsp, SimpleRuntimeFrame::rbp_off << LogBytesPerInt), rbp); | |
3167 | |
3168 // Store exception in Thread object. We cannot pass any arguments to the | |
3169 // handle_exception call, since we do not want to make any assumption | |
3170 // about the size of the frame where the exception happened in. | |
3171 // c_rarg0 is either rdi (Linux) or rcx (Windows). | |
3172 __ movq(Address(r15_thread, JavaThread::exception_oop_offset()),rax); | |
3173 __ movq(Address(r15_thread, JavaThread::exception_pc_offset()), rdx); | |
3174 | |
3175 // This call does all the hard work. It checks if an exception handler | |
3176 // exists in the method. | |
3177 // If so, it returns the handler address. | |
3178 // If not, it prepares for stack-unwinding, restoring the callee-save | |
3179 // registers of the frame being removed. | |
3180 // | |
3181 // address OptoRuntime::handle_exception_C(JavaThread* thread) | |
3182 | |
3183 __ set_last_Java_frame(noreg, noreg, NULL); | |
3184 __ movq(c_rarg0, r15_thread); | |
3185 __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, OptoRuntime::handle_exception_C))); | |
3186 | |
3187 // Set an oopmap for the call site. This oopmap will only be used if we | |
3188 // are unwinding the stack. Hence, all locations will be dead. | |
3189 // Callee-saved registers will be the same as the frame above (i.e., | |
3190 // handle_exception_stub), since they were restored when we got the | |
3191 // exception. | |
3192 | |
3193 OopMapSet* oop_maps = new OopMapSet(); | |
3194 | |
3195 oop_maps->add_gc_map( __ pc()-start, new OopMap(SimpleRuntimeFrame::framesize, 0)); | |
3196 | |
3197 __ reset_last_Java_frame(false, false); | |
3198 | |
3199 // Restore callee-saved registers | |
3200 | |
3201 // rbp is an implicitly saved callee saved register (i.e. the calling | |
3202 // convention will save restore it in prolog/epilog) Other than that | |
3203 // there are no callee save registers no that adapter frames are gone. | |
3204 | |
3205 __ movq(rbp, Address(rsp, SimpleRuntimeFrame::rbp_off << LogBytesPerInt)); | |
3206 | |
3207 __ addq(rsp, SimpleRuntimeFrame::return_off << LogBytesPerInt); // Epilog | |
3208 __ popq(rdx); // No need for exception pc anymore | |
3209 | |
3210 // rax: exception handler | |
3211 | |
3212 // We have a handler in rax (could be deopt blob). | |
3213 __ movq(r8, rax); | |
3214 | |
3215 // Get the exception oop | |
3216 __ movq(rax, Address(r15_thread, JavaThread::exception_oop_offset())); | |
3217 // Get the exception pc in case we are deoptimized | |
3218 __ movq(rdx, Address(r15_thread, JavaThread::exception_pc_offset())); | |
3219 #ifdef ASSERT | |
3220 __ movptr(Address(r15_thread, JavaThread::exception_handler_pc_offset()), (int)NULL_WORD); | |
3221 __ movptr(Address(r15_thread, JavaThread::exception_pc_offset()), (int)NULL_WORD); | |
3222 #endif | |
3223 // Clear the exception oop so GC no longer processes it as a root. | |
3224 __ movptr(Address(r15_thread, JavaThread::exception_oop_offset()), (int)NULL_WORD); | |
3225 | |
3226 // rax: exception oop | |
3227 // r8: exception handler | |
3228 // rdx: exception pc | |
3229 // Jump to handler | |
3230 | |
3231 __ jmp(r8); | |
3232 | |
3233 // Make sure all code is generated | |
3234 masm->flush(); | |
3235 | |
3236 // Set exception blob | |
3237 _exception_blob = ExceptionBlob::create(&buffer, oop_maps, SimpleRuntimeFrame::framesize >> 1); | |
3238 } | |
3239 #endif // COMPILER2 |