Mercurial > hg > truffle
annotate src/share/vm/runtime/deoptimization.cpp @ 2211:0cd39a385a72
Merge.
author | Thomas Wuerthinger <thomas.wuerthinger@gmail.com> |
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date | Mon, 21 Feb 2011 19:17:33 +0100 |
parents | d25d4ca69222 b92c45f2bc75 |
children | 0654ee04b214 |
rev | line source |
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0 | 1 /* |
2142 | 2 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "classfile/systemDictionary.hpp" | |
27 #include "code/debugInfoRec.hpp" | |
28 #include "code/nmethod.hpp" | |
29 #include "code/pcDesc.hpp" | |
30 #include "code/scopeDesc.hpp" | |
31 #include "interpreter/bytecode.hpp" | |
32 #include "interpreter/interpreter.hpp" | |
33 #include "interpreter/oopMapCache.hpp" | |
34 #include "memory/allocation.inline.hpp" | |
35 #include "memory/oopFactory.hpp" | |
36 #include "memory/resourceArea.hpp" | |
37 #include "oops/methodOop.hpp" | |
38 #include "oops/oop.inline.hpp" | |
39 #include "prims/jvmtiThreadState.hpp" | |
40 #include "runtime/biasedLocking.hpp" | |
41 #include "runtime/compilationPolicy.hpp" | |
42 #include "runtime/deoptimization.hpp" | |
43 #include "runtime/interfaceSupport.hpp" | |
44 #include "runtime/sharedRuntime.hpp" | |
45 #include "runtime/signature.hpp" | |
46 #include "runtime/stubRoutines.hpp" | |
47 #include "runtime/thread.hpp" | |
48 #include "runtime/vframe.hpp" | |
49 #include "runtime/vframeArray.hpp" | |
50 #include "runtime/vframe_hp.hpp" | |
51 #include "utilities/events.hpp" | |
52 #include "utilities/xmlstream.hpp" | |
53 #ifdef TARGET_ARCH_x86 | |
54 # include "vmreg_x86.inline.hpp" | |
55 #endif | |
56 #ifdef TARGET_ARCH_sparc | |
57 # include "vmreg_sparc.inline.hpp" | |
58 #endif | |
59 #ifdef TARGET_ARCH_zero | |
60 # include "vmreg_zero.inline.hpp" | |
61 #endif | |
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62 #ifdef TARGET_ARCH_arm |
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63 # include "vmreg_arm.inline.hpp" |
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64 #endif |
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65 #ifdef TARGET_ARCH_ppc |
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66 # include "vmreg_ppc.inline.hpp" |
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67 #endif |
1972 | 68 #ifdef COMPILER2 |
69 #ifdef TARGET_ARCH_MODEL_x86_32 | |
70 # include "adfiles/ad_x86_32.hpp" | |
71 #endif | |
72 #ifdef TARGET_ARCH_MODEL_x86_64 | |
73 # include "adfiles/ad_x86_64.hpp" | |
74 #endif | |
75 #ifdef TARGET_ARCH_MODEL_sparc | |
76 # include "adfiles/ad_sparc.hpp" | |
77 #endif | |
78 #ifdef TARGET_ARCH_MODEL_zero | |
79 # include "adfiles/ad_zero.hpp" | |
80 #endif | |
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81 #ifdef TARGET_ARCH_MODEL_arm |
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82 # include "adfiles/ad_arm.hpp" |
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83 #endif |
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84 #ifdef TARGET_ARCH_MODEL_ppc |
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85 # include "adfiles/ad_ppc.hpp" |
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86 #endif |
1972 | 87 #endif |
0 | 88 |
89 bool DeoptimizationMarker::_is_active = false; | |
90 | |
91 Deoptimization::UnrollBlock::UnrollBlock(int size_of_deoptimized_frame, | |
92 int caller_adjustment, | |
93 int number_of_frames, | |
94 intptr_t* frame_sizes, | |
95 address* frame_pcs, | |
96 BasicType return_type) { | |
97 _size_of_deoptimized_frame = size_of_deoptimized_frame; | |
98 _caller_adjustment = caller_adjustment; | |
99 _number_of_frames = number_of_frames; | |
100 _frame_sizes = frame_sizes; | |
101 _frame_pcs = frame_pcs; | |
102 _register_block = NEW_C_HEAP_ARRAY(intptr_t, RegisterMap::reg_count * 2); | |
103 _return_type = return_type; | |
104 // PD (x86 only) | |
105 _counter_temp = 0; | |
106 _initial_fp = 0; | |
107 _unpack_kind = 0; | |
108 _sender_sp_temp = 0; | |
109 | |
110 _total_frame_sizes = size_of_frames(); | |
111 } | |
112 | |
113 | |
114 Deoptimization::UnrollBlock::~UnrollBlock() { | |
115 FREE_C_HEAP_ARRAY(intptr_t, _frame_sizes); | |
116 FREE_C_HEAP_ARRAY(intptr_t, _frame_pcs); | |
117 FREE_C_HEAP_ARRAY(intptr_t, _register_block); | |
118 } | |
119 | |
120 | |
121 intptr_t* Deoptimization::UnrollBlock::value_addr_at(int register_number) const { | |
122 assert(register_number < RegisterMap::reg_count, "checking register number"); | |
123 return &_register_block[register_number * 2]; | |
124 } | |
125 | |
126 | |
127 | |
128 int Deoptimization::UnrollBlock::size_of_frames() const { | |
129 // Acount first for the adjustment of the initial frame | |
130 int result = _caller_adjustment; | |
131 for (int index = 0; index < number_of_frames(); index++) { | |
132 result += frame_sizes()[index]; | |
133 } | |
134 return result; | |
135 } | |
136 | |
137 | |
138 void Deoptimization::UnrollBlock::print() { | |
139 ttyLocker ttyl; | |
140 tty->print_cr("UnrollBlock"); | |
141 tty->print_cr(" size_of_deoptimized_frame = %d", _size_of_deoptimized_frame); | |
142 tty->print( " frame_sizes: "); | |
143 for (int index = 0; index < number_of_frames(); index++) { | |
144 tty->print("%d ", frame_sizes()[index]); | |
145 } | |
146 tty->cr(); | |
147 } | |
148 | |
149 | |
150 // In order to make fetch_unroll_info work properly with escape | |
151 // analysis, The method was changed from JRT_LEAF to JRT_BLOCK_ENTRY and | |
152 // ResetNoHandleMark and HandleMark were removed from it. The actual reallocation | |
153 // of previously eliminated objects occurs in realloc_objects, which is | |
154 // called from the method fetch_unroll_info_helper below. | |
155 JRT_BLOCK_ENTRY(Deoptimization::UnrollBlock*, Deoptimization::fetch_unroll_info(JavaThread* thread)) | |
156 // It is actually ok to allocate handles in a leaf method. It causes no safepoints, | |
157 // but makes the entry a little slower. There is however a little dance we have to | |
158 // do in debug mode to get around the NoHandleMark code in the JRT_LEAF macro | |
159 | |
160 // fetch_unroll_info() is called at the beginning of the deoptimization | |
161 // handler. Note this fact before we start generating temporary frames | |
162 // that can confuse an asynchronous stack walker. This counter is | |
163 // decremented at the end of unpack_frames(). | |
164 thread->inc_in_deopt_handler(); | |
165 | |
166 return fetch_unroll_info_helper(thread); | |
167 JRT_END | |
168 | |
169 | |
170 // This is factored, since it is both called from a JRT_LEAF (deoptimization) and a JRT_ENTRY (uncommon_trap) | |
171 Deoptimization::UnrollBlock* Deoptimization::fetch_unroll_info_helper(JavaThread* thread) { | |
172 | |
173 // Note: there is a safepoint safety issue here. No matter whether we enter | |
174 // via vanilla deopt or uncommon trap we MUST NOT stop at a safepoint once | |
175 // the vframeArray is created. | |
176 // | |
177 | |
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178 if (TraceDeoptimization) { |
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179 tty->print_cr("fetching unroll info"); |
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180 } |
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181 |
0 | 182 // Allocate our special deoptimization ResourceMark |
183 DeoptResourceMark* dmark = new DeoptResourceMark(thread); | |
184 assert(thread->deopt_mark() == NULL, "Pending deopt!"); | |
185 thread->set_deopt_mark(dmark); | |
186 | |
187 frame stub_frame = thread->last_frame(); // Makes stack walkable as side effect | |
188 RegisterMap map(thread, true); | |
189 RegisterMap dummy_map(thread, false); | |
190 // Now get the deoptee with a valid map | |
191 frame deoptee = stub_frame.sender(&map); | |
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192 // Set the deoptee nmethod |
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193 assert(thread->deopt_nmethod() == NULL, "Pending deopt!"); |
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194 thread->set_deopt_nmethod(deoptee.cb()->as_nmethod_or_null()); |
0 | 195 |
196 // Create a growable array of VFrames where each VFrame represents an inlined | |
197 // Java frame. This storage is allocated with the usual system arena. | |
198 assert(deoptee.is_compiled_frame(), "Wrong frame type"); | |
199 GrowableArray<compiledVFrame*>* chunk = new GrowableArray<compiledVFrame*>(10); | |
200 vframe* vf = vframe::new_vframe(&deoptee, &map, thread); | |
201 while (!vf->is_top()) { | |
202 assert(vf->is_compiled_frame(), "Wrong frame type"); | |
203 chunk->push(compiledVFrame::cast(vf)); | |
204 vf = vf->sender(); | |
205 } | |
206 assert(vf->is_compiled_frame(), "Wrong frame type"); | |
207 chunk->push(compiledVFrame::cast(vf)); | |
208 | |
209 #ifdef COMPILER2 | |
210 // Reallocate the non-escaping objects and restore their fields. Then | |
211 // relock objects if synchronization on them was eliminated. | |
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212 if (DoEscapeAnalysis) { |
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213 if (EliminateAllocations) { |
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214 assert (chunk->at(0)->scope() != NULL,"expect only compiled java frames"); |
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215 GrowableArray<ScopeValue*>* objects = chunk->at(0)->scope()->objects(); |
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216 |
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217 // The flag return_oop() indicates call sites which return oop |
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218 // in compiled code. Such sites include java method calls, |
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219 // runtime calls (for example, used to allocate new objects/arrays |
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220 // on slow code path) and any other calls generated in compiled code. |
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221 // It is not guaranteed that we can get such information here only |
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222 // by analyzing bytecode in deoptimized frames. This is why this flag |
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223 // is set during method compilation (see Compile::Process_OopMap_Node()). |
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224 bool save_oop_result = chunk->at(0)->scope()->return_oop(); |
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225 Handle return_value; |
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226 if (save_oop_result) { |
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227 // Reallocation may trigger GC. If deoptimization happened on return from |
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228 // call which returns oop we need to save it since it is not in oopmap. |
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229 oop result = deoptee.saved_oop_result(&map); |
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230 assert(result == NULL || result->is_oop(), "must be oop"); |
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231 return_value = Handle(thread, result); |
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232 assert(Universe::heap()->is_in_or_null(result), "must be heap pointer"); |
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233 if (TraceDeoptimization) { |
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234 tty->print_cr("SAVED OOP RESULT " INTPTR_FORMAT " in thread " INTPTR_FORMAT, result, thread); |
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235 } |
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236 } |
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237 bool reallocated = false; |
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238 if (objects != NULL) { |
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239 JRT_BLOCK |
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240 reallocated = realloc_objects(thread, &deoptee, objects, THREAD); |
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241 JRT_END |
0 | 242 } |
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243 if (reallocated) { |
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244 reassign_fields(&deoptee, &map, objects); |
0 | 245 #ifndef PRODUCT |
246 if (TraceDeoptimization) { | |
247 ttyLocker ttyl; | |
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248 tty->print_cr("REALLOC OBJECTS in thread " INTPTR_FORMAT, thread); |
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249 print_objects(objects); |
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250 } |
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251 #endif |
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252 } |
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253 if (save_oop_result) { |
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254 // Restore result. |
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255 deoptee.set_saved_oop_result(&map, return_value()); |
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256 } |
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257 } |
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258 if (EliminateLocks) { |
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259 #ifndef PRODUCT |
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260 bool first = true; |
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261 #endif |
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262 for (int i = 0; i < chunk->length(); i++) { |
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263 compiledVFrame* cvf = chunk->at(i); |
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264 assert (cvf->scope() != NULL,"expect only compiled java frames"); |
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265 GrowableArray<MonitorInfo*>* monitors = cvf->monitors(); |
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266 if (monitors->is_nonempty()) { |
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267 relock_objects(monitors, thread); |
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268 #ifndef PRODUCT |
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269 if (TraceDeoptimization) { |
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270 ttyLocker ttyl; |
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271 for (int j = 0; j < monitors->length(); j++) { |
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272 MonitorInfo* mi = monitors->at(j); |
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273 if (mi->eliminated()) { |
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274 if (first) { |
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275 first = false; |
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276 tty->print_cr("RELOCK OBJECTS in thread " INTPTR_FORMAT, thread); |
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277 } |
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278 tty->print_cr(" object <" INTPTR_FORMAT "> locked", mi->owner()); |
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279 } |
0 | 280 } |
281 } | |
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282 #endif |
0 | 283 } |
284 } | |
285 } | |
286 } | |
287 #endif // COMPILER2 | |
288 // Ensure that no safepoint is taken after pointers have been stored | |
289 // in fields of rematerialized objects. If a safepoint occurs from here on | |
290 // out the java state residing in the vframeArray will be missed. | |
291 No_Safepoint_Verifier no_safepoint; | |
292 | |
293 vframeArray* array = create_vframeArray(thread, deoptee, &map, chunk); | |
294 | |
295 assert(thread->vframe_array_head() == NULL, "Pending deopt!");; | |
296 thread->set_vframe_array_head(array); | |
297 | |
298 // Now that the vframeArray has been created if we have any deferred local writes | |
299 // added by jvmti then we can free up that structure as the data is now in the | |
300 // vframeArray | |
301 | |
302 if (thread->deferred_locals() != NULL) { | |
303 GrowableArray<jvmtiDeferredLocalVariableSet*>* list = thread->deferred_locals(); | |
304 int i = 0; | |
305 do { | |
306 // Because of inlining we could have multiple vframes for a single frame | |
307 // and several of the vframes could have deferred writes. Find them all. | |
308 if (list->at(i)->id() == array->original().id()) { | |
309 jvmtiDeferredLocalVariableSet* dlv = list->at(i); | |
310 list->remove_at(i); | |
311 // individual jvmtiDeferredLocalVariableSet are CHeapObj's | |
312 delete dlv; | |
313 } else { | |
314 i++; | |
315 } | |
316 } while ( i < list->length() ); | |
317 if (list->length() == 0) { | |
318 thread->set_deferred_locals(NULL); | |
319 // free the list and elements back to C heap. | |
320 delete list; | |
321 } | |
322 | |
323 } | |
324 | |
1692 | 325 #ifndef SHARK |
0 | 326 // Compute the caller frame based on the sender sp of stub_frame and stored frame sizes info. |
327 CodeBlob* cb = stub_frame.cb(); | |
328 // Verify we have the right vframeArray | |
329 assert(cb->frame_size() >= 0, "Unexpected frame size"); | |
330 intptr_t* unpack_sp = stub_frame.sp() + cb->frame_size(); | |
331 | |
1204 | 332 // If the deopt call site is a MethodHandle invoke call site we have |
333 // to adjust the unpack_sp. | |
334 nmethod* deoptee_nm = deoptee.cb()->as_nmethod_or_null(); | |
335 if (deoptee_nm != NULL && deoptee_nm->is_method_handle_return(deoptee.pc())) | |
336 unpack_sp = deoptee.unextended_sp(); | |
337 | |
0 | 338 #ifdef ASSERT |
339 assert(cb->is_deoptimization_stub() || cb->is_uncommon_trap_stub(), "just checking"); | |
340 Events::log("fetch unroll sp " INTPTR_FORMAT, unpack_sp); | |
341 #endif | |
1692 | 342 #else |
343 intptr_t* unpack_sp = stub_frame.sender(&dummy_map).unextended_sp(); | |
344 #endif // !SHARK | |
345 | |
0 | 346 // This is a guarantee instead of an assert because if vframe doesn't match |
347 // we will unpack the wrong deoptimized frame and wind up in strange places | |
348 // where it will be very difficult to figure out what went wrong. Better | |
349 // to die an early death here than some very obscure death later when the | |
350 // trail is cold. | |
351 // Note: on ia64 this guarantee can be fooled by frames with no memory stack | |
352 // in that it will fail to detect a problem when there is one. This needs | |
353 // more work in tiger timeframe. | |
354 guarantee(array->unextended_sp() == unpack_sp, "vframe_array_head must contain the vframeArray to unpack"); | |
355 | |
356 int number_of_frames = array->frames(); | |
357 | |
358 // Compute the vframes' sizes. Note that frame_sizes[] entries are ordered from outermost to innermost | |
359 // virtual activation, which is the reverse of the elements in the vframes array. | |
360 intptr_t* frame_sizes = NEW_C_HEAP_ARRAY(intptr_t, number_of_frames); | |
361 // +1 because we always have an interpreter return address for the final slot. | |
362 address* frame_pcs = NEW_C_HEAP_ARRAY(address, number_of_frames + 1); | |
363 int callee_parameters = 0; | |
364 int callee_locals = 0; | |
365 int popframe_extra_args = 0; | |
366 // Create an interpreter return address for the stub to use as its return | |
367 // address so the skeletal frames are perfectly walkable | |
368 frame_pcs[number_of_frames] = Interpreter::deopt_entry(vtos, 0); | |
369 | |
370 // PopFrame requires that the preserved incoming arguments from the recently-popped topmost | |
371 // activation be put back on the expression stack of the caller for reexecution | |
372 if (JvmtiExport::can_pop_frame() && thread->popframe_forcing_deopt_reexecution()) { | |
373 popframe_extra_args = in_words(thread->popframe_preserved_args_size_in_words()); | |
374 } | |
375 | |
376 // | |
377 // frame_sizes/frame_pcs[0] oldest frame (int or c2i) | |
378 // frame_sizes/frame_pcs[1] next oldest frame (int) | |
379 // frame_sizes/frame_pcs[n] youngest frame (int) | |
380 // | |
381 // Now a pc in frame_pcs is actually the return address to the frame's caller (a frame | |
382 // owns the space for the return address to it's caller). Confusing ain't it. | |
383 // | |
384 // The vframe array can address vframes with indices running from | |
385 // 0.._frames-1. Index 0 is the youngest frame and _frame - 1 is the oldest (root) frame. | |
386 // When we create the skeletal frames we need the oldest frame to be in the zero slot | |
387 // in the frame_sizes/frame_pcs so the assembly code can do a trivial walk. | |
388 // so things look a little strange in this loop. | |
389 // | |
390 for (int index = 0; index < array->frames(); index++ ) { | |
391 // frame[number_of_frames - 1 ] = on_stack_size(youngest) | |
392 // frame[number_of_frames - 2 ] = on_stack_size(sender(youngest)) | |
393 // frame[number_of_frames - 3 ] = on_stack_size(sender(sender(youngest))) | |
394 frame_sizes[number_of_frames - 1 - index] = BytesPerWord * array->element(index)->on_stack_size(callee_parameters, | |
395 callee_locals, | |
396 index == 0, | |
397 popframe_extra_args); | |
398 // This pc doesn't have to be perfect just good enough to identify the frame | |
399 // as interpreted so the skeleton frame will be walkable | |
400 // The correct pc will be set when the skeleton frame is completely filled out | |
401 // The final pc we store in the loop is wrong and will be overwritten below | |
402 frame_pcs[number_of_frames - 1 - index ] = Interpreter::deopt_entry(vtos, 0) - frame::pc_return_offset; | |
403 | |
404 callee_parameters = array->element(index)->method()->size_of_parameters(); | |
405 callee_locals = array->element(index)->method()->max_locals(); | |
406 popframe_extra_args = 0; | |
407 } | |
408 | |
409 // Compute whether the root vframe returns a float or double value. | |
410 BasicType return_type; | |
411 { | |
412 HandleMark hm; | |
413 methodHandle method(thread, array->element(0)->method()); | |
2142 | 414 Bytecode_invoke invoke = Bytecode_invoke_check(method, array->element(0)->bci()); |
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415 return_type = invoke.is_valid() ? invoke.result_type() : T_ILLEGAL; |
0 | 416 } |
417 | |
418 // Compute information for handling adapters and adjusting the frame size of the caller. | |
419 int caller_adjustment = 0; | |
420 | |
421 // Find the current pc for sender of the deoptee. Since the sender may have been deoptimized | |
422 // itself since the deoptee vframeArray was created we must get a fresh value of the pc rather | |
423 // than simply use array->sender.pc(). This requires us to walk the current set of frames | |
424 // | |
425 frame deopt_sender = stub_frame.sender(&dummy_map); // First is the deoptee frame | |
426 deopt_sender = deopt_sender.sender(&dummy_map); // Now deoptee caller | |
427 | |
428 // Compute the amount the oldest interpreter frame will have to adjust | |
429 // its caller's stack by. If the caller is a compiled frame then | |
430 // we pretend that the callee has no parameters so that the | |
431 // extension counts for the full amount of locals and not just | |
432 // locals-parms. This is because without a c2i adapter the parm | |
433 // area as created by the compiled frame will not be usable by | |
434 // the interpreter. (Depending on the calling convention there | |
435 // may not even be enough space). | |
436 | |
437 // QQQ I'd rather see this pushed down into last_frame_adjust | |
438 // and have it take the sender (aka caller). | |
439 | |
440 if (deopt_sender.is_compiled_frame()) { | |
441 caller_adjustment = last_frame_adjust(0, callee_locals); | |
442 } else if (callee_locals > callee_parameters) { | |
443 // The caller frame may need extending to accommodate | |
444 // non-parameter locals of the first unpacked interpreted frame. | |
445 // Compute that adjustment. | |
446 caller_adjustment = last_frame_adjust(callee_parameters, callee_locals); | |
447 } | |
448 | |
449 | |
450 // If the sender is deoptimized the we must retrieve the address of the handler | |
451 // since the frame will "magically" show the original pc before the deopt | |
452 // and we'd undo the deopt. | |
453 | |
454 frame_pcs[0] = deopt_sender.raw_pc(); | |
455 | |
1692 | 456 #ifndef SHARK |
0 | 457 assert(CodeCache::find_blob_unsafe(frame_pcs[0]) != NULL, "bad pc"); |
1692 | 458 #endif // SHARK |
0 | 459 |
460 UnrollBlock* info = new UnrollBlock(array->frame_size() * BytesPerWord, | |
461 caller_adjustment * BytesPerWord, | |
462 number_of_frames, | |
463 frame_sizes, | |
464 frame_pcs, | |
465 return_type); | |
466 #if defined(IA32) || defined(AMD64) | |
467 // We need a way to pass fp to the unpacking code so the skeletal frames | |
468 // come out correct. This is only needed for x86 because of c2 using ebp | |
469 // as an allocatable register. So this update is useless (and harmless) | |
470 // on the other platforms. It would be nice to do this in a different | |
471 // way but even the old style deoptimization had a problem with deriving | |
472 // this value. NEEDS_CLEANUP | |
473 // Note: now that c1 is using c2's deopt blob we must do this on all | |
474 // x86 based platforms | |
475 intptr_t** fp_addr = (intptr_t**) (((address)info) + info->initial_fp_offset_in_bytes()); | |
476 *fp_addr = array->sender().fp(); // was adapter_caller | |
477 #endif /* IA32 || AMD64 */ | |
478 | |
479 if (array->frames() > 1) { | |
480 if (VerifyStack && TraceDeoptimization) { | |
481 tty->print_cr("Deoptimizing method containing inlining"); | |
482 } | |
483 } | |
484 | |
485 array->set_unroll_block(info); | |
486 return info; | |
487 } | |
488 | |
489 // Called to cleanup deoptimization data structures in normal case | |
490 // after unpacking to stack and when stack overflow error occurs | |
491 void Deoptimization::cleanup_deopt_info(JavaThread *thread, | |
492 vframeArray *array) { | |
493 | |
494 // Get array if coming from exception | |
495 if (array == NULL) { | |
496 array = thread->vframe_array_head(); | |
497 } | |
498 thread->set_vframe_array_head(NULL); | |
499 | |
500 // Free the previous UnrollBlock | |
501 vframeArray* old_array = thread->vframe_array_last(); | |
502 thread->set_vframe_array_last(array); | |
503 | |
504 if (old_array != NULL) { | |
505 UnrollBlock* old_info = old_array->unroll_block(); | |
506 old_array->set_unroll_block(NULL); | |
507 delete old_info; | |
508 delete old_array; | |
509 } | |
510 | |
511 // Deallocate any resource creating in this routine and any ResourceObjs allocated | |
512 // inside the vframeArray (StackValueCollections) | |
513 | |
514 delete thread->deopt_mark(); | |
515 thread->set_deopt_mark(NULL); | |
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516 thread->set_deopt_nmethod(NULL); |
0 | 517 |
518 | |
519 if (JvmtiExport::can_pop_frame()) { | |
520 #ifndef CC_INTERP | |
521 // Regardless of whether we entered this routine with the pending | |
522 // popframe condition bit set, we should always clear it now | |
523 thread->clear_popframe_condition(); | |
524 #else | |
525 // C++ interpeter will clear has_pending_popframe when it enters | |
526 // with method_resume. For deopt_resume2 we clear it now. | |
527 if (thread->popframe_forcing_deopt_reexecution()) | |
528 thread->clear_popframe_condition(); | |
529 #endif /* CC_INTERP */ | |
530 } | |
531 | |
532 // unpack_frames() is called at the end of the deoptimization handler | |
533 // and (in C2) at the end of the uncommon trap handler. Note this fact | |
534 // so that an asynchronous stack walker can work again. This counter is | |
535 // incremented at the beginning of fetch_unroll_info() and (in C2) at | |
536 // the beginning of uncommon_trap(). | |
537 thread->dec_in_deopt_handler(); | |
538 } | |
539 | |
540 | |
541 // Return BasicType of value being returned | |
542 JRT_LEAF(BasicType, Deoptimization::unpack_frames(JavaThread* thread, int exec_mode)) | |
543 | |
544 // We are already active int he special DeoptResourceMark any ResourceObj's we | |
545 // allocate will be freed at the end of the routine. | |
546 | |
547 // It is actually ok to allocate handles in a leaf method. It causes no safepoints, | |
548 // but makes the entry a little slower. There is however a little dance we have to | |
549 // do in debug mode to get around the NoHandleMark code in the JRT_LEAF macro | |
550 ResetNoHandleMark rnhm; // No-op in release/product versions | |
551 HandleMark hm; | |
552 | |
553 frame stub_frame = thread->last_frame(); | |
554 | |
555 // Since the frame to unpack is the top frame of this thread, the vframe_array_head | |
556 // must point to the vframeArray for the unpack frame. | |
557 vframeArray* array = thread->vframe_array_head(); | |
558 | |
559 #ifndef PRODUCT | |
560 if (TraceDeoptimization) { | |
561 tty->print_cr("DEOPT UNPACKING thread " INTPTR_FORMAT " vframeArray " INTPTR_FORMAT " mode %d", thread, array, exec_mode); | |
562 } | |
563 #endif | |
564 | |
565 UnrollBlock* info = array->unroll_block(); | |
566 | |
567 // Unpack the interpreter frames and any adapter frame (c2 only) we might create. | |
568 array->unpack_to_stack(stub_frame, exec_mode); | |
569 | |
570 BasicType bt = info->return_type(); | |
571 | |
572 // If we have an exception pending, claim that the return type is an oop | |
573 // so the deopt_blob does not overwrite the exception_oop. | |
574 | |
575 if (exec_mode == Unpack_exception) | |
576 bt = T_OBJECT; | |
577 | |
578 // Cleanup thread deopt data | |
579 cleanup_deopt_info(thread, array); | |
580 | |
581 #ifndef PRODUCT | |
582 if (VerifyStack) { | |
583 ResourceMark res_mark; | |
584 | |
585 // Verify that the just-unpacked frames match the interpreter's | |
586 // notions of expression stack and locals | |
587 vframeArray* cur_array = thread->vframe_array_last(); | |
588 RegisterMap rm(thread, false); | |
589 rm.set_include_argument_oops(false); | |
590 bool is_top_frame = true; | |
591 int callee_size_of_parameters = 0; | |
592 int callee_max_locals = 0; | |
593 for (int i = 0; i < cur_array->frames(); i++) { | |
594 vframeArrayElement* el = cur_array->element(i); | |
595 frame* iframe = el->iframe(); | |
596 guarantee(iframe->is_interpreted_frame(), "Wrong frame type"); | |
597 | |
598 // Get the oop map for this bci | |
599 InterpreterOopMap mask; | |
600 int cur_invoke_parameter_size = 0; | |
601 bool try_next_mask = false; | |
602 int next_mask_expression_stack_size = -1; | |
603 int top_frame_expression_stack_adjustment = 0; | |
604 methodHandle mh(thread, iframe->interpreter_frame_method()); | |
605 OopMapCache::compute_one_oop_map(mh, iframe->interpreter_frame_bci(), &mask); | |
606 BytecodeStream str(mh); | |
607 str.set_start(iframe->interpreter_frame_bci()); | |
608 int max_bci = mh->code_size(); | |
609 // Get to the next bytecode if possible | |
610 assert(str.bci() < max_bci, "bci in interpreter frame out of bounds"); | |
611 // Check to see if we can grab the number of outgoing arguments | |
612 // at an uncommon trap for an invoke (where the compiler | |
613 // generates debug info before the invoke has executed) | |
614 Bytecodes::Code cur_code = str.next(); | |
615 if (cur_code == Bytecodes::_invokevirtual || | |
616 cur_code == Bytecodes::_invokespecial || | |
617 cur_code == Bytecodes::_invokestatic || | |
618 cur_code == Bytecodes::_invokeinterface) { | |
2142 | 619 Bytecode_invoke invoke(mh, iframe->interpreter_frame_bci()); |
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620 Symbol* signature = invoke.signature(); |
0 | 621 ArgumentSizeComputer asc(signature); |
622 cur_invoke_parameter_size = asc.size(); | |
623 if (cur_code != Bytecodes::_invokestatic) { | |
624 // Add in receiver | |
625 ++cur_invoke_parameter_size; | |
626 } | |
627 } | |
628 if (str.bci() < max_bci) { | |
629 Bytecodes::Code bc = str.next(); | |
630 if (bc >= 0) { | |
631 // The interpreter oop map generator reports results before | |
632 // the current bytecode has executed except in the case of | |
633 // calls. It seems to be hard to tell whether the compiler | |
634 // has emitted debug information matching the "state before" | |
635 // a given bytecode or the state after, so we try both | |
636 switch (cur_code) { | |
637 case Bytecodes::_invokevirtual: | |
638 case Bytecodes::_invokespecial: | |
639 case Bytecodes::_invokestatic: | |
640 case Bytecodes::_invokeinterface: | |
641 case Bytecodes::_athrow: | |
642 break; | |
643 default: { | |
644 InterpreterOopMap next_mask; | |
645 OopMapCache::compute_one_oop_map(mh, str.bci(), &next_mask); | |
646 next_mask_expression_stack_size = next_mask.expression_stack_size(); | |
647 // Need to subtract off the size of the result type of | |
648 // the bytecode because this is not described in the | |
649 // debug info but returned to the interpreter in the TOS | |
650 // caching register | |
651 BasicType bytecode_result_type = Bytecodes::result_type(cur_code); | |
652 if (bytecode_result_type != T_ILLEGAL) { | |
653 top_frame_expression_stack_adjustment = type2size[bytecode_result_type]; | |
654 } | |
655 assert(top_frame_expression_stack_adjustment >= 0, ""); | |
656 try_next_mask = true; | |
657 break; | |
658 } | |
659 } | |
660 } | |
661 } | |
662 | |
663 // Verify stack depth and oops in frame | |
664 // This assertion may be dependent on the platform we're running on and may need modification (tested on x86 and sparc) | |
665 if (!( | |
666 /* SPARC */ | |
667 (iframe->interpreter_frame_expression_stack_size() == mask.expression_stack_size() + callee_size_of_parameters) || | |
668 /* x86 */ | |
669 (iframe->interpreter_frame_expression_stack_size() == mask.expression_stack_size() + callee_max_locals) || | |
670 (try_next_mask && | |
671 (iframe->interpreter_frame_expression_stack_size() == (next_mask_expression_stack_size - | |
672 top_frame_expression_stack_adjustment))) || | |
673 (is_top_frame && (exec_mode == Unpack_exception) && iframe->interpreter_frame_expression_stack_size() == 0) || | |
674 (is_top_frame && (exec_mode == Unpack_uncommon_trap || exec_mode == Unpack_reexecute) && | |
675 (iframe->interpreter_frame_expression_stack_size() == mask.expression_stack_size() + cur_invoke_parameter_size)) | |
676 )) { | |
677 ttyLocker ttyl; | |
678 | |
679 // Print out some information that will help us debug the problem | |
680 tty->print_cr("Wrong number of expression stack elements during deoptimization"); | |
681 tty->print_cr(" Error occurred while verifying frame %d (0..%d, 0 is topmost)", i, cur_array->frames() - 1); | |
682 tty->print_cr(" Fabricated interpreter frame had %d expression stack elements", | |
683 iframe->interpreter_frame_expression_stack_size()); | |
684 tty->print_cr(" Interpreter oop map had %d expression stack elements", mask.expression_stack_size()); | |
685 tty->print_cr(" try_next_mask = %d", try_next_mask); | |
686 tty->print_cr(" next_mask_expression_stack_size = %d", next_mask_expression_stack_size); | |
687 tty->print_cr(" callee_size_of_parameters = %d", callee_size_of_parameters); | |
688 tty->print_cr(" callee_max_locals = %d", callee_max_locals); | |
689 tty->print_cr(" top_frame_expression_stack_adjustment = %d", top_frame_expression_stack_adjustment); | |
690 tty->print_cr(" exec_mode = %d", exec_mode); | |
691 tty->print_cr(" cur_invoke_parameter_size = %d", cur_invoke_parameter_size); | |
692 tty->print_cr(" Thread = " INTPTR_FORMAT ", thread ID = " UINTX_FORMAT, thread, thread->osthread()->thread_id()); | |
693 tty->print_cr(" Interpreted frames:"); | |
694 for (int k = 0; k < cur_array->frames(); k++) { | |
695 vframeArrayElement* el = cur_array->element(k); | |
696 tty->print_cr(" %s (bci %d)", el->method()->name_and_sig_as_C_string(), el->bci()); | |
697 } | |
698 cur_array->print_on_2(tty); | |
699 guarantee(false, "wrong number of expression stack elements during deopt"); | |
700 } | |
701 VerifyOopClosure verify; | |
702 iframe->oops_interpreted_do(&verify, &rm, false); | |
703 callee_size_of_parameters = mh->size_of_parameters(); | |
704 callee_max_locals = mh->max_locals(); | |
705 is_top_frame = false; | |
706 } | |
707 } | |
708 #endif /* !PRODUCT */ | |
709 | |
710 | |
711 return bt; | |
712 JRT_END | |
713 | |
714 | |
715 int Deoptimization::deoptimize_dependents() { | |
716 Threads::deoptimized_wrt_marked_nmethods(); | |
717 return 0; | |
718 } | |
719 | |
720 | |
721 #ifdef COMPILER2 | |
722 bool Deoptimization::realloc_objects(JavaThread* thread, frame* fr, GrowableArray<ScopeValue*>* objects, TRAPS) { | |
723 Handle pending_exception(thread->pending_exception()); | |
724 const char* exception_file = thread->exception_file(); | |
725 int exception_line = thread->exception_line(); | |
726 thread->clear_pending_exception(); | |
727 | |
728 for (int i = 0; i < objects->length(); i++) { | |
729 assert(objects->at(i)->is_object(), "invalid debug information"); | |
730 ObjectValue* sv = (ObjectValue*) objects->at(i); | |
731 | |
732 KlassHandle k(((ConstantOopReadValue*) sv->klass())->value()()); | |
733 oop obj = NULL; | |
734 | |
735 if (k->oop_is_instance()) { | |
736 instanceKlass* ik = instanceKlass::cast(k()); | |
737 obj = ik->allocate_instance(CHECK_(false)); | |
738 } else if (k->oop_is_typeArray()) { | |
739 typeArrayKlass* ak = typeArrayKlass::cast(k()); | |
740 assert(sv->field_size() % type2size[ak->element_type()] == 0, "non-integral array length"); | |
741 int len = sv->field_size() / type2size[ak->element_type()]; | |
742 obj = ak->allocate(len, CHECK_(false)); | |
743 } else if (k->oop_is_objArray()) { | |
744 objArrayKlass* ak = objArrayKlass::cast(k()); | |
745 obj = ak->allocate(sv->field_size(), CHECK_(false)); | |
746 } | |
747 | |
748 assert(obj != NULL, "allocation failed"); | |
749 assert(sv->value().is_null(), "redundant reallocation"); | |
750 sv->set_value(obj); | |
751 } | |
752 | |
753 if (pending_exception.not_null()) { | |
754 thread->set_pending_exception(pending_exception(), exception_file, exception_line); | |
755 } | |
756 | |
757 return true; | |
758 } | |
759 | |
760 // This assumes that the fields are stored in ObjectValue in the same order | |
761 // they are yielded by do_nonstatic_fields. | |
762 class FieldReassigner: public FieldClosure { | |
763 frame* _fr; | |
764 RegisterMap* _reg_map; | |
765 ObjectValue* _sv; | |
766 instanceKlass* _ik; | |
767 oop _obj; | |
768 | |
769 int _i; | |
770 public: | |
771 FieldReassigner(frame* fr, RegisterMap* reg_map, ObjectValue* sv, oop obj) : | |
772 _fr(fr), _reg_map(reg_map), _sv(sv), _obj(obj), _i(0) {} | |
773 | |
774 int i() const { return _i; } | |
775 | |
776 | |
777 void do_field(fieldDescriptor* fd) { | |
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778 intptr_t val; |
0 | 779 StackValue* value = |
780 StackValue::create_stack_value(_fr, _reg_map, _sv->field_at(i())); | |
781 int offset = fd->offset(); | |
782 switch (fd->field_type()) { | |
783 case T_OBJECT: case T_ARRAY: | |
784 assert(value->type() == T_OBJECT, "Agreement."); | |
785 _obj->obj_field_put(offset, value->get_obj()()); | |
786 break; | |
787 | |
788 case T_LONG: case T_DOUBLE: { | |
789 assert(value->type() == T_INT, "Agreement."); | |
790 StackValue* low = | |
791 StackValue::create_stack_value(_fr, _reg_map, _sv->field_at(++_i)); | |
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792 #ifdef _LP64 |
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793 jlong res = (jlong)low->get_int(); |
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794 #else |
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795 #ifdef SPARC |
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796 // For SPARC we have to swap high and low words. |
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797 jlong res = jlong_from((jint)low->get_int(), (jint)value->get_int()); |
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798 #else |
0 | 799 jlong res = jlong_from((jint)value->get_int(), (jint)low->get_int()); |
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800 #endif //SPARC |
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801 #endif |
0 | 802 _obj->long_field_put(offset, res); |
803 break; | |
804 } | |
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805 // Have to cast to INT (32 bits) pointer to avoid little/big-endian problem. |
0 | 806 case T_INT: case T_FLOAT: // 4 bytes. |
807 assert(value->type() == T_INT, "Agreement."); | |
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808 val = value->get_int(); |
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809 _obj->int_field_put(offset, (jint)*((jint*)&val)); |
0 | 810 break; |
811 | |
812 case T_SHORT: case T_CHAR: // 2 bytes | |
813 assert(value->type() == T_INT, "Agreement."); | |
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814 val = value->get_int(); |
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815 _obj->short_field_put(offset, (jshort)*((jint*)&val)); |
0 | 816 break; |
817 | |
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818 case T_BOOLEAN: case T_BYTE: // 1 byte |
0 | 819 assert(value->type() == T_INT, "Agreement."); |
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820 val = value->get_int(); |
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821 _obj->bool_field_put(offset, (jboolean)*((jint*)&val)); |
0 | 822 break; |
823 | |
824 default: | |
825 ShouldNotReachHere(); | |
826 } | |
827 _i++; | |
828 } | |
829 }; | |
830 | |
831 // restore elements of an eliminated type array | |
832 void Deoptimization::reassign_type_array_elements(frame* fr, RegisterMap* reg_map, ObjectValue* sv, typeArrayOop obj, BasicType type) { | |
833 int index = 0; | |
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834 intptr_t val; |
0 | 835 |
836 for (int i = 0; i < sv->field_size(); i++) { | |
837 StackValue* value = StackValue::create_stack_value(fr, reg_map, sv->field_at(i)); | |
838 switch(type) { | |
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839 case T_LONG: case T_DOUBLE: { |
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840 assert(value->type() == T_INT, "Agreement."); |
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841 StackValue* low = |
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842 StackValue::create_stack_value(fr, reg_map, sv->field_at(++i)); |
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843 #ifdef _LP64 |
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844 jlong res = (jlong)low->get_int(); |
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845 #else |
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846 #ifdef SPARC |
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847 // For SPARC we have to swap high and low words. |
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848 jlong res = jlong_from((jint)low->get_int(), (jint)value->get_int()); |
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849 #else |
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850 jlong res = jlong_from((jint)value->get_int(), (jint)low->get_int()); |
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851 #endif //SPARC |
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852 #endif |
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853 obj->long_at_put(index, res); |
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854 break; |
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855 } |
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856 |
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857 // Have to cast to INT (32 bits) pointer to avoid little/big-endian problem. |
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858 case T_INT: case T_FLOAT: // 4 bytes. |
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859 assert(value->type() == T_INT, "Agreement."); |
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860 val = value->get_int(); |
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861 obj->int_at_put(index, (jint)*((jint*)&val)); |
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862 break; |
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863 |
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864 case T_SHORT: case T_CHAR: // 2 bytes |
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865 assert(value->type() == T_INT, "Agreement."); |
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866 val = value->get_int(); |
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867 obj->short_at_put(index, (jshort)*((jint*)&val)); |
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868 break; |
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869 |
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870 case T_BOOLEAN: case T_BYTE: // 1 byte |
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871 assert(value->type() == T_INT, "Agreement."); |
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872 val = value->get_int(); |
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873 obj->bool_at_put(index, (jboolean)*((jint*)&val)); |
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874 break; |
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875 |
0 | 876 default: |
877 ShouldNotReachHere(); | |
878 } | |
879 index++; | |
880 } | |
881 } | |
882 | |
883 | |
884 // restore fields of an eliminated object array | |
885 void Deoptimization::reassign_object_array_elements(frame* fr, RegisterMap* reg_map, ObjectValue* sv, objArrayOop obj) { | |
886 for (int i = 0; i < sv->field_size(); i++) { | |
887 StackValue* value = StackValue::create_stack_value(fr, reg_map, sv->field_at(i)); | |
888 assert(value->type() == T_OBJECT, "object element expected"); | |
889 obj->obj_at_put(i, value->get_obj()()); | |
890 } | |
891 } | |
892 | |
893 | |
894 // restore fields of all eliminated objects and arrays | |
895 void Deoptimization::reassign_fields(frame* fr, RegisterMap* reg_map, GrowableArray<ScopeValue*>* objects) { | |
896 for (int i = 0; i < objects->length(); i++) { | |
897 ObjectValue* sv = (ObjectValue*) objects->at(i); | |
898 KlassHandle k(((ConstantOopReadValue*) sv->klass())->value()()); | |
899 Handle obj = sv->value(); | |
900 assert(obj.not_null(), "reallocation was missed"); | |
901 | |
902 if (k->oop_is_instance()) { | |
903 instanceKlass* ik = instanceKlass::cast(k()); | |
904 FieldReassigner reassign(fr, reg_map, sv, obj()); | |
905 ik->do_nonstatic_fields(&reassign); | |
906 } else if (k->oop_is_typeArray()) { | |
907 typeArrayKlass* ak = typeArrayKlass::cast(k()); | |
908 reassign_type_array_elements(fr, reg_map, sv, (typeArrayOop) obj(), ak->element_type()); | |
909 } else if (k->oop_is_objArray()) { | |
910 reassign_object_array_elements(fr, reg_map, sv, (objArrayOop) obj()); | |
911 } | |
912 } | |
913 } | |
914 | |
915 | |
916 // relock objects for which synchronization was eliminated | |
83
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917 void Deoptimization::relock_objects(GrowableArray<MonitorInfo*>* monitors, JavaThread* thread) { |
0 | 918 for (int i = 0; i < monitors->length(); i++) { |
83
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919 MonitorInfo* mon_info = monitors->at(i); |
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920 if (mon_info->eliminated()) { |
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921 assert(mon_info->owner() != NULL, "reallocation was missed"); |
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922 Handle obj = Handle(mon_info->owner()); |
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923 markOop mark = obj->mark(); |
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924 if (UseBiasedLocking && mark->has_bias_pattern()) { |
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925 // New allocated objects may have the mark set to anonymously biased. |
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926 // Also the deoptimized method may called methods with synchronization |
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927 // where the thread-local object is bias locked to the current thread. |
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928 assert(mark->is_biased_anonymously() || |
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929 mark->biased_locker() == thread, "should be locked to current thread"); |
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930 // Reset mark word to unbiased prototype. |
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931 markOop unbiased_prototype = markOopDesc::prototype()->set_age(mark->age()); |
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932 obj->set_mark(unbiased_prototype); |
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933 } |
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934 BasicLock* lock = mon_info->lock(); |
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935 ObjectSynchronizer::slow_enter(obj, lock, thread); |
0 | 936 } |
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937 assert(mon_info->owner()->is_locked(), "object must be locked now"); |
0 | 938 } |
939 } | |
940 | |
941 | |
942 #ifndef PRODUCT | |
943 // print information about reallocated objects | |
944 void Deoptimization::print_objects(GrowableArray<ScopeValue*>* objects) { | |
945 fieldDescriptor fd; | |
946 | |
947 for (int i = 0; i < objects->length(); i++) { | |
948 ObjectValue* sv = (ObjectValue*) objects->at(i); | |
949 KlassHandle k(((ConstantOopReadValue*) sv->klass())->value()()); | |
950 Handle obj = sv->value(); | |
951 | |
952 tty->print(" object <" INTPTR_FORMAT "> of type ", sv->value()()); | |
953 k->as_klassOop()->print_value(); | |
954 tty->print(" allocated (%d bytes)", obj->size() * HeapWordSize); | |
955 tty->cr(); | |
956 | |
957 if (Verbose) { | |
958 k->oop_print_on(obj(), tty); | |
959 } | |
960 } | |
961 } | |
962 #endif | |
963 #endif // COMPILER2 | |
964 | |
965 vframeArray* Deoptimization::create_vframeArray(JavaThread* thread, frame fr, RegisterMap *reg_map, GrowableArray<compiledVFrame*>* chunk) { | |
966 | |
967 #ifndef PRODUCT | |
968 if (TraceDeoptimization) { | |
969 ttyLocker ttyl; | |
970 tty->print("DEOPT PACKING thread " INTPTR_FORMAT " ", thread); | |
971 fr.print_on(tty); | |
972 tty->print_cr(" Virtual frames (innermost first):"); | |
973 for (int index = 0; index < chunk->length(); index++) { | |
974 compiledVFrame* vf = chunk->at(index); | |
975 tty->print(" %2d - ", index); | |
976 vf->print_value(); | |
977 int bci = chunk->at(index)->raw_bci(); | |
978 const char* code_name; | |
979 if (bci == SynchronizationEntryBCI) { | |
980 code_name = "sync entry"; | |
981 } else { | |
2142 | 982 Bytecodes::Code code = vf->method()->code_at(bci); |
0 | 983 code_name = Bytecodes::name(code); |
984 } | |
985 tty->print(" - %s", code_name); | |
986 tty->print_cr(" @ bci %d ", bci); | |
987 if (Verbose) { | |
988 vf->print(); | |
989 tty->cr(); | |
990 } | |
991 } | |
992 } | |
993 #endif | |
994 | |
995 // Register map for next frame (used for stack crawl). We capture | |
996 // the state of the deopt'ing frame's caller. Thus if we need to | |
997 // stuff a C2I adapter we can properly fill in the callee-save | |
998 // register locations. | |
999 frame caller = fr.sender(reg_map); | |
1000 int frame_size = caller.sp() - fr.sp(); | |
1001 | |
1002 frame sender = caller; | |
1003 | |
1004 // Since the Java thread being deoptimized will eventually adjust it's own stack, | |
1005 // the vframeArray containing the unpacking information is allocated in the C heap. | |
1006 // For Compiler1, the caller of the deoptimized frame is saved for use by unpack_frames(). | |
1007 vframeArray* array = vframeArray::allocate(thread, frame_size, chunk, reg_map, sender, caller, fr); | |
1008 | |
1009 // Compare the vframeArray to the collected vframes | |
1010 assert(array->structural_compare(thread, chunk), "just checking"); | |
1011 Events::log("# vframes = %d", (intptr_t)chunk->length()); | |
1012 | |
1013 #ifndef PRODUCT | |
1014 if (TraceDeoptimization) { | |
1015 ttyLocker ttyl; | |
1016 tty->print_cr(" Created vframeArray " INTPTR_FORMAT, array); | |
1017 } | |
1018 #endif // PRODUCT | |
1019 | |
1020 return array; | |
1021 } | |
1022 | |
1023 | |
1024 static void collect_monitors(compiledVFrame* cvf, GrowableArray<Handle>* objects_to_revoke) { | |
1025 GrowableArray<MonitorInfo*>* monitors = cvf->monitors(); | |
1026 for (int i = 0; i < monitors->length(); i++) { | |
1027 MonitorInfo* mon_info = monitors->at(i); | |
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1028 if (!mon_info->eliminated() && mon_info->owner() != NULL) { |
0 | 1029 objects_to_revoke->append(Handle(mon_info->owner())); |
1030 } | |
1031 } | |
1032 } | |
1033 | |
1034 | |
1035 void Deoptimization::revoke_biases_of_monitors(JavaThread* thread, frame fr, RegisterMap* map) { | |
1036 if (!UseBiasedLocking) { | |
1037 return; | |
1038 } | |
1039 | |
1040 GrowableArray<Handle>* objects_to_revoke = new GrowableArray<Handle>(); | |
1041 | |
1042 // Unfortunately we don't have a RegisterMap available in most of | |
1043 // the places we want to call this routine so we need to walk the | |
1044 // stack again to update the register map. | |
1045 if (map == NULL || !map->update_map()) { | |
1046 StackFrameStream sfs(thread, true); | |
1047 bool found = false; | |
1048 while (!found && !sfs.is_done()) { | |
1049 frame* cur = sfs.current(); | |
1050 sfs.next(); | |
1051 found = cur->id() == fr.id(); | |
1052 } | |
1053 assert(found, "frame to be deoptimized not found on target thread's stack"); | |
1054 map = sfs.register_map(); | |
1055 } | |
1056 | |
1057 vframe* vf = vframe::new_vframe(&fr, map, thread); | |
1058 compiledVFrame* cvf = compiledVFrame::cast(vf); | |
1059 // Revoke monitors' biases in all scopes | |
1060 while (!cvf->is_top()) { | |
1061 collect_monitors(cvf, objects_to_revoke); | |
1062 cvf = compiledVFrame::cast(cvf->sender()); | |
1063 } | |
1064 collect_monitors(cvf, objects_to_revoke); | |
1065 | |
1066 if (SafepointSynchronize::is_at_safepoint()) { | |
1067 BiasedLocking::revoke_at_safepoint(objects_to_revoke); | |
1068 } else { | |
1069 BiasedLocking::revoke(objects_to_revoke); | |
1070 } | |
1071 } | |
1072 | |
1073 | |
1074 void Deoptimization::revoke_biases_of_monitors(CodeBlob* cb) { | |
1075 if (!UseBiasedLocking) { | |
1076 return; | |
1077 } | |
1078 | |
1079 assert(SafepointSynchronize::is_at_safepoint(), "must only be called from safepoint"); | |
1080 GrowableArray<Handle>* objects_to_revoke = new GrowableArray<Handle>(); | |
1081 for (JavaThread* jt = Threads::first(); jt != NULL ; jt = jt->next()) { | |
1082 if (jt->has_last_Java_frame()) { | |
1083 StackFrameStream sfs(jt, true); | |
1084 while (!sfs.is_done()) { | |
1085 frame* cur = sfs.current(); | |
1086 if (cb->contains(cur->pc())) { | |
1087 vframe* vf = vframe::new_vframe(cur, sfs.register_map(), jt); | |
1088 compiledVFrame* cvf = compiledVFrame::cast(vf); | |
1089 // Revoke monitors' biases in all scopes | |
1090 while (!cvf->is_top()) { | |
1091 collect_monitors(cvf, objects_to_revoke); | |
1092 cvf = compiledVFrame::cast(cvf->sender()); | |
1093 } | |
1094 collect_monitors(cvf, objects_to_revoke); | |
1095 } | |
1096 sfs.next(); | |
1097 } | |
1098 } | |
1099 } | |
1100 BiasedLocking::revoke_at_safepoint(objects_to_revoke); | |
1101 } | |
1102 | |
1103 | |
1104 void Deoptimization::deoptimize_single_frame(JavaThread* thread, frame fr) { | |
1105 assert(fr.can_be_deoptimized(), "checking frame type"); | |
1106 | |
1107 gather_statistics(Reason_constraint, Action_none, Bytecodes::_illegal); | |
1108 | |
1109 EventMark m("Deoptimization (pc=" INTPTR_FORMAT ", sp=" INTPTR_FORMAT ")", fr.pc(), fr.id()); | |
1110 | |
1111 // Patch the nmethod so that when execution returns to it we will | |
1112 // deopt the execution state and return to the interpreter. | |
1113 fr.deoptimize(thread); | |
1114 } | |
1115 | |
1116 void Deoptimization::deoptimize(JavaThread* thread, frame fr, RegisterMap *map) { | |
1117 // Deoptimize only if the frame comes from compile code. | |
1118 // Do not deoptimize the frame which is already patched | |
1119 // during the execution of the loops below. | |
1120 if (!fr.is_compiled_frame() || fr.is_deoptimized_frame()) { | |
1121 return; | |
1122 } | |
1123 ResourceMark rm; | |
1124 DeoptimizationMarker dm; | |
1125 if (UseBiasedLocking) { | |
1126 revoke_biases_of_monitors(thread, fr, map); | |
1127 } | |
1128 deoptimize_single_frame(thread, fr); | |
1129 | |
1130 } | |
1131 | |
1132 | |
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1133 void Deoptimization::deoptimize_frame_internal(JavaThread* thread, intptr_t* id) { |
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1134 assert(thread == Thread::current() || SafepointSynchronize::is_at_safepoint(), |
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1135 "can only deoptimize other thread at a safepoint"); |
0 | 1136 // Compute frame and register map based on thread and sp. |
1137 RegisterMap reg_map(thread, UseBiasedLocking); | |
1138 frame fr = thread->last_frame(); | |
1139 while (fr.id() != id) { | |
1140 fr = fr.sender(®_map); | |
1141 } | |
1142 deoptimize(thread, fr, ®_map); | |
1143 } | |
1144 | |
1145 | |
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1146 void Deoptimization::deoptimize_frame(JavaThread* thread, intptr_t* id) { |
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1147 if (thread == Thread::current()) { |
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1148 Deoptimization::deoptimize_frame_internal(thread, id); |
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1149 } else { |
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1150 VM_DeoptimizeFrame deopt(thread, id); |
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1151 VMThread::execute(&deopt); |
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1152 } |
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1153 } |
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1154 |
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1155 |
0 | 1156 // JVMTI PopFrame support |
1157 JRT_LEAF(void, Deoptimization::popframe_preserve_args(JavaThread* thread, int bytes_to_save, void* start_address)) | |
1158 { | |
1159 thread->popframe_preserve_args(in_ByteSize(bytes_to_save), start_address); | |
1160 } | |
1161 JRT_END | |
1162 | |
1163 | |
1164 void Deoptimization::load_class_by_index(constantPoolHandle constant_pool, int index, TRAPS) { | |
1165 // in case of an unresolved klass entry, load the class. | |
1166 if (constant_pool->tag_at(index).is_unresolved_klass()) { | |
1167 klassOop tk = constant_pool->klass_at(index, CHECK); | |
1168 return; | |
1169 } | |
1170 | |
1171 if (!constant_pool->tag_at(index).is_symbol()) return; | |
1172 | |
1173 Handle class_loader (THREAD, instanceKlass::cast(constant_pool->pool_holder())->class_loader()); | |
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1174 Symbol* symbol = constant_pool->symbol_at(index); |
0 | 1175 |
1176 // class name? | |
1177 if (symbol->byte_at(0) != '(') { | |
1178 Handle protection_domain (THREAD, Klass::cast(constant_pool->pool_holder())->protection_domain()); | |
1179 SystemDictionary::resolve_or_null(symbol, class_loader, protection_domain, CHECK); | |
1180 return; | |
1181 } | |
1182 | |
1183 // then it must be a signature! | |
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1184 ResourceMark rm(THREAD); |
0 | 1185 for (SignatureStream ss(symbol); !ss.is_done(); ss.next()) { |
1186 if (ss.is_object()) { | |
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1187 Symbol* class_name = ss.as_symbol(CHECK); |
0 | 1188 Handle protection_domain (THREAD, Klass::cast(constant_pool->pool_holder())->protection_domain()); |
1189 SystemDictionary::resolve_or_null(class_name, class_loader, protection_domain, CHECK); | |
1190 } | |
1191 } | |
1192 } | |
1193 | |
1194 | |
1195 void Deoptimization::load_class_by_index(constantPoolHandle constant_pool, int index) { | |
1196 EXCEPTION_MARK; | |
1197 load_class_by_index(constant_pool, index, THREAD); | |
1198 if (HAS_PENDING_EXCEPTION) { | |
1199 // Exception happened during classloading. We ignore the exception here, since it | |
1200 // is going to be rethrown since the current activation is going to be deoptimzied and | |
1201 // the interpreter will re-execute the bytecode. | |
1202 CLEAR_PENDING_EXCEPTION; | |
1203 } | |
1204 } | |
1205 | |
1206 JRT_ENTRY(void, Deoptimization::uncommon_trap_inner(JavaThread* thread, jint trap_request)) { | |
1207 HandleMark hm; | |
1208 | |
1209 // uncommon_trap() is called at the beginning of the uncommon trap | |
1210 // handler. Note this fact before we start generating temporary frames | |
1211 // that can confuse an asynchronous stack walker. This counter is | |
1212 // decremented at the end of unpack_frames(). | |
1213 thread->inc_in_deopt_handler(); | |
1214 | |
1215 // We need to update the map if we have biased locking. | |
1216 RegisterMap reg_map(thread, UseBiasedLocking); | |
1217 frame stub_frame = thread->last_frame(); | |
1218 frame fr = stub_frame.sender(®_map); | |
1219 // Make sure the calling nmethod is not getting deoptimized and removed | |
1220 // before we are done with it. | |
1221 nmethodLocker nl(fr.pc()); | |
1222 | |
1223 { | |
1224 ResourceMark rm; | |
1225 | |
1226 // Revoke biases of any monitors in the frame to ensure we can migrate them | |
1227 revoke_biases_of_monitors(thread, fr, ®_map); | |
1228 | |
1229 DeoptReason reason = trap_request_reason(trap_request); | |
1230 DeoptAction action = trap_request_action(trap_request); | |
1231 jint unloaded_class_index = trap_request_index(trap_request); // CP idx or -1 | |
1232 | |
1233 Events::log("Uncommon trap occurred @" INTPTR_FORMAT " unloaded_class_index = %d", fr.pc(), (int) trap_request); | |
1234 vframe* vf = vframe::new_vframe(&fr, ®_map, thread); | |
1235 compiledVFrame* cvf = compiledVFrame::cast(vf); | |
1236 | |
1237 nmethod* nm = cvf->code(); | |
1238 | |
1239 ScopeDesc* trap_scope = cvf->scope(); | |
1240 methodHandle trap_method = trap_scope->method(); | |
1241 int trap_bci = trap_scope->bci(); | |
2142 | 1242 Bytecodes::Code trap_bc = trap_method->java_code_at(trap_bci); |
0 | 1243 |
1244 // Record this event in the histogram. | |
1245 gather_statistics(reason, action, trap_bc); | |
1246 | |
1247 // Ensure that we can record deopt. history: | |
1248 bool create_if_missing = ProfileTraps; | |
1249 | |
1250 methodDataHandle trap_mdo | |
1251 (THREAD, get_method_data(thread, trap_method, create_if_missing)); | |
1252 | |
1253 // Print a bunch of diagnostics, if requested. | |
1254 if (TraceDeoptimization || LogCompilation) { | |
1255 ResourceMark rm; | |
1256 ttyLocker ttyl; | |
1257 char buf[100]; | |
1258 if (xtty != NULL) { | |
1259 xtty->begin_head("uncommon_trap thread='" UINTX_FORMAT"' %s", | |
1260 os::current_thread_id(), | |
1261 format_trap_request(buf, sizeof(buf), trap_request)); | |
1262 nm->log_identity(xtty); | |
1263 } | |
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1264 Symbol* class_name = NULL; |
0 | 1265 bool unresolved = false; |
1266 if (unloaded_class_index >= 0) { | |
1267 constantPoolHandle constants (THREAD, trap_method->constants()); | |
1268 if (constants->tag_at(unloaded_class_index).is_unresolved_klass()) { | |
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1269 class_name = constants->klass_name_at(unloaded_class_index); |
0 | 1270 unresolved = true; |
1271 if (xtty != NULL) | |
1272 xtty->print(" unresolved='1'"); | |
1273 } else if (constants->tag_at(unloaded_class_index).is_symbol()) { | |
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1274 class_name = constants->symbol_at(unloaded_class_index); |
0 | 1275 } |
1276 if (xtty != NULL) | |
1277 xtty->name(class_name); | |
1278 } | |
1279 if (xtty != NULL && trap_mdo.not_null()) { | |
1280 // Dump the relevant MDO state. | |
1281 // This is the deopt count for the current reason, any previous | |
1282 // reasons or recompiles seen at this point. | |
1283 int dcnt = trap_mdo->trap_count(reason); | |
1284 if (dcnt != 0) | |
1285 xtty->print(" count='%d'", dcnt); | |
1286 ProfileData* pdata = trap_mdo->bci_to_data(trap_bci); | |
1287 int dos = (pdata == NULL)? 0: pdata->trap_state(); | |
1288 if (dos != 0) { | |
1289 xtty->print(" state='%s'", format_trap_state(buf, sizeof(buf), dos)); | |
1290 if (trap_state_is_recompiled(dos)) { | |
1291 int recnt2 = trap_mdo->overflow_recompile_count(); | |
1292 if (recnt2 != 0) | |
1293 xtty->print(" recompiles2='%d'", recnt2); | |
1294 } | |
1295 } | |
1296 } | |
1297 if (xtty != NULL) { | |
1298 xtty->stamp(); | |
1299 xtty->end_head(); | |
1300 } | |
1301 if (TraceDeoptimization) { // make noise on the tty | |
1302 tty->print("Uncommon trap occurred in"); | |
1303 nm->method()->print_short_name(tty); | |
1304 tty->print(" (@" INTPTR_FORMAT ") thread=%d reason=%s action=%s unloaded_class_index=%d", | |
1305 fr.pc(), | |
1306 (int) os::current_thread_id(), | |
1307 trap_reason_name(reason), | |
1308 trap_action_name(action), | |
1309 unloaded_class_index); | |
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1310 if (class_name != NULL) { |
0 | 1311 tty->print(unresolved ? " unresolved class: " : " symbol: "); |
1312 class_name->print_symbol_on(tty); | |
1313 } | |
1314 tty->cr(); | |
1315 } | |
1316 if (xtty != NULL) { | |
1317 // Log the precise location of the trap. | |
1318 for (ScopeDesc* sd = trap_scope; ; sd = sd->sender()) { | |
1319 xtty->begin_elem("jvms bci='%d'", sd->bci()); | |
1320 xtty->method(sd->method()); | |
1321 xtty->end_elem(); | |
1322 if (sd->is_top()) break; | |
1323 } | |
1324 xtty->tail("uncommon_trap"); | |
1325 } | |
1326 } | |
1327 // (End diagnostic printout.) | |
1328 | |
1329 // Load class if necessary | |
1330 if (unloaded_class_index >= 0) { | |
1331 constantPoolHandle constants(THREAD, trap_method->constants()); | |
1332 load_class_by_index(constants, unloaded_class_index); | |
1333 } | |
1334 | |
1335 // Flush the nmethod if necessary and desirable. | |
1336 // | |
1337 // We need to avoid situations where we are re-flushing the nmethod | |
1338 // because of a hot deoptimization site. Repeated flushes at the same | |
1339 // point need to be detected by the compiler and avoided. If the compiler | |
1340 // cannot avoid them (or has a bug and "refuses" to avoid them), this | |
1341 // module must take measures to avoid an infinite cycle of recompilation | |
1342 // and deoptimization. There are several such measures: | |
1343 // | |
1344 // 1. If a recompilation is ordered a second time at some site X | |
1345 // and for the same reason R, the action is adjusted to 'reinterpret', | |
1346 // to give the interpreter time to exercise the method more thoroughly. | |
1347 // If this happens, the method's overflow_recompile_count is incremented. | |
1348 // | |
1349 // 2. If the compiler fails to reduce the deoptimization rate, then | |
1350 // the method's overflow_recompile_count will begin to exceed the set | |
1351 // limit PerBytecodeRecompilationCutoff. If this happens, the action | |
1352 // is adjusted to 'make_not_compilable', and the method is abandoned | |
1353 // to the interpreter. This is a performance hit for hot methods, | |
1354 // but is better than a disastrous infinite cycle of recompilations. | |
1355 // (Actually, only the method containing the site X is abandoned.) | |
1356 // | |
1357 // 3. In parallel with the previous measures, if the total number of | |
1358 // recompilations of a method exceeds the much larger set limit | |
1359 // PerMethodRecompilationCutoff, the method is abandoned. | |
1360 // This should only happen if the method is very large and has | |
1361 // many "lukewarm" deoptimizations. The code which enforces this | |
1362 // limit is elsewhere (class nmethod, class methodOopDesc). | |
1363 // | |
1364 // Note that the per-BCI 'is_recompiled' bit gives the compiler one chance | |
1365 // to recompile at each bytecode independently of the per-BCI cutoff. | |
1366 // | |
1367 // The decision to update code is up to the compiler, and is encoded | |
1368 // in the Action_xxx code. If the compiler requests Action_none | |
1369 // no trap state is changed, no compiled code is changed, and the | |
1370 // computation suffers along in the interpreter. | |
1371 // | |
1372 // The other action codes specify various tactics for decompilation | |
1373 // and recompilation. Action_maybe_recompile is the loosest, and | |
1374 // allows the compiled code to stay around until enough traps are seen, | |
1375 // and until the compiler gets around to recompiling the trapping method. | |
1376 // | |
1377 // The other actions cause immediate removal of the present code. | |
1378 | |
1379 bool update_trap_state = true; | |
1380 bool make_not_entrant = false; | |
1381 bool make_not_compilable = false; | |
1783 | 1382 bool reprofile = false; |
0 | 1383 switch (action) { |
1384 case Action_none: | |
1385 // Keep the old code. | |
1386 update_trap_state = false; | |
1387 break; | |
1388 case Action_maybe_recompile: | |
1389 // Do not need to invalidate the present code, but we can | |
1390 // initiate another | |
1391 // Start compiler without (necessarily) invalidating the nmethod. | |
1392 // The system will tolerate the old code, but new code should be | |
1393 // generated when possible. | |
1394 break; | |
1395 case Action_reinterpret: | |
1396 // Go back into the interpreter for a while, and then consider | |
1397 // recompiling form scratch. | |
1398 make_not_entrant = true; | |
1399 // Reset invocation counter for outer most method. | |
1400 // This will allow the interpreter to exercise the bytecodes | |
1401 // for a while before recompiling. | |
1402 // By contrast, Action_make_not_entrant is immediate. | |
1403 // | |
1404 // Note that the compiler will track null_check, null_assert, | |
1405 // range_check, and class_check events and log them as if they | |
1406 // had been traps taken from compiled code. This will update | |
1407 // the MDO trap history so that the next compilation will | |
1408 // properly detect hot trap sites. | |
1783 | 1409 reprofile = true; |
0 | 1410 break; |
1411 case Action_make_not_entrant: | |
1412 // Request immediate recompilation, and get rid of the old code. | |
1413 // Make them not entrant, so next time they are called they get | |
1414 // recompiled. Unloaded classes are loaded now so recompile before next | |
1415 // time they are called. Same for uninitialized. The interpreter will | |
1416 // link the missing class, if any. | |
1417 make_not_entrant = true; | |
1418 break; | |
1419 case Action_make_not_compilable: | |
1420 // Give up on compiling this method at all. | |
1421 make_not_entrant = true; | |
1422 make_not_compilable = true; | |
1423 break; | |
1424 default: | |
1425 ShouldNotReachHere(); | |
1426 } | |
1427 | |
1428 // Setting +ProfileTraps fixes the following, on all platforms: | |
1429 // 4852688: ProfileInterpreter is off by default for ia64. The result is | |
1430 // infinite heroic-opt-uncommon-trap/deopt/recompile cycles, since the | |
1431 // recompile relies on a methodDataOop to record heroic opt failures. | |
1432 | |
1433 // Whether the interpreter is producing MDO data or not, we also need | |
1434 // to use the MDO to detect hot deoptimization points and control | |
1435 // aggressive optimization. | |
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1436 bool inc_recompile_count = false; |
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1437 ProfileData* pdata = NULL; |
0 | 1438 if (ProfileTraps && update_trap_state && trap_mdo.not_null()) { |
1439 assert(trap_mdo() == get_method_data(thread, trap_method, false), "sanity"); | |
1440 uint this_trap_count = 0; | |
1441 bool maybe_prior_trap = false; | |
1442 bool maybe_prior_recompile = false; | |
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1443 pdata = query_update_method_data(trap_mdo, trap_bci, reason, |
0 | 1444 //outputs: |
1445 this_trap_count, | |
1446 maybe_prior_trap, | |
1447 maybe_prior_recompile); | |
1448 // Because the interpreter also counts null, div0, range, and class | |
1449 // checks, these traps from compiled code are double-counted. | |
1450 // This is harmless; it just means that the PerXTrapLimit values | |
1451 // are in effect a little smaller than they look. | |
1452 | |
1453 DeoptReason per_bc_reason = reason_recorded_per_bytecode_if_any(reason); | |
1454 if (per_bc_reason != Reason_none) { | |
1455 // Now take action based on the partially known per-BCI history. | |
1456 if (maybe_prior_trap | |
1457 && this_trap_count >= (uint)PerBytecodeTrapLimit) { | |
1458 // If there are too many traps at this BCI, force a recompile. | |
1459 // This will allow the compiler to see the limit overflow, and | |
1460 // take corrective action, if possible. The compiler generally | |
1461 // does not use the exact PerBytecodeTrapLimit value, but instead | |
1462 // changes its tactics if it sees any traps at all. This provides | |
1463 // a little hysteresis, delaying a recompile until a trap happens | |
1464 // several times. | |
1465 // | |
1466 // Actually, since there is only one bit of counter per BCI, | |
1467 // the possible per-BCI counts are {0,1,(per-method count)}. | |
1468 // This produces accurate results if in fact there is only | |
1469 // one hot trap site, but begins to get fuzzy if there are | |
1470 // many sites. For example, if there are ten sites each | |
1471 // trapping two or more times, they each get the blame for | |
1472 // all of their traps. | |
1473 make_not_entrant = true; | |
1474 } | |
1475 | |
1476 // Detect repeated recompilation at the same BCI, and enforce a limit. | |
1477 if (make_not_entrant && maybe_prior_recompile) { | |
1478 // More than one recompile at this point. | |
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1479 inc_recompile_count = maybe_prior_trap; |
0 | 1480 } |
1481 } else { | |
1482 // For reasons which are not recorded per-bytecode, we simply | |
1483 // force recompiles unconditionally. | |
1484 // (Note that PerMethodRecompilationCutoff is enforced elsewhere.) | |
1485 make_not_entrant = true; | |
1486 } | |
1487 | |
1488 // Go back to the compiler if there are too many traps in this method. | |
1489 if (this_trap_count >= (uint)PerMethodTrapLimit) { | |
1490 // If there are too many traps in this method, force a recompile. | |
1491 // This will allow the compiler to see the limit overflow, and | |
1492 // take corrective action, if possible. | |
1493 // (This condition is an unlikely backstop only, because the | |
1494 // PerBytecodeTrapLimit is more likely to take effect first, | |
1495 // if it is applicable.) | |
1496 make_not_entrant = true; | |
1497 } | |
1498 | |
1499 // Here's more hysteresis: If there has been a recompile at | |
1500 // this trap point already, run the method in the interpreter | |
1501 // for a while to exercise it more thoroughly. | |
1502 if (make_not_entrant && maybe_prior_recompile && maybe_prior_trap) { | |
1783 | 1503 reprofile = true; |
0 | 1504 } |
1505 | |
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1506 } |
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1507 |
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1508 // Take requested actions on the method: |
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1509 |
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1510 // Recompile |
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1511 if (make_not_entrant) { |
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1512 if (!nm->make_not_entrant()) { |
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1513 return; // the call did not change nmethod's state |
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1514 } |
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1515 |
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1516 if (pdata != NULL) { |
0 | 1517 // Record the recompilation event, if any. |
1518 int tstate0 = pdata->trap_state(); | |
1519 int tstate1 = trap_state_set_recompiled(tstate0, true); | |
1520 if (tstate1 != tstate0) | |
1521 pdata->set_trap_state(tstate1); | |
1522 } | |
1523 } | |
1524 | |
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1525 if (inc_recompile_count) { |
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1526 trap_mdo->inc_overflow_recompile_count(); |
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1527 if ((uint)trap_mdo->overflow_recompile_count() > |
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1528 (uint)PerBytecodeRecompilationCutoff) { |
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1529 // Give up on the method containing the bad BCI. |
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1530 if (trap_method() == nm->method()) { |
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1531 make_not_compilable = true; |
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1532 } else { |
1783 | 1533 trap_method->set_not_compilable(CompLevel_full_optimization); |
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1534 // But give grace to the enclosing nm->method(). |
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1535 } |
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1536 } |
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1537 } |
0 | 1538 |
1783 | 1539 // Reprofile |
1540 if (reprofile) { | |
1541 CompilationPolicy::policy()->reprofile(trap_scope, nm->is_osr_method()); | |
0 | 1542 } |
1543 | |
1544 // Give up compiling | |
1783 | 1545 if (make_not_compilable && !nm->method()->is_not_compilable(CompLevel_full_optimization)) { |
0 | 1546 assert(make_not_entrant, "consistent"); |
1783 | 1547 nm->method()->set_not_compilable(CompLevel_full_optimization); |
0 | 1548 } |
1549 | |
1550 } // Free marked resources | |
1551 | |
1552 } | |
1553 JRT_END | |
1554 | |
1555 methodDataOop | |
1556 Deoptimization::get_method_data(JavaThread* thread, methodHandle m, | |
1557 bool create_if_missing) { | |
1558 Thread* THREAD = thread; | |
1559 methodDataOop mdo = m()->method_data(); | |
1560 if (mdo == NULL && create_if_missing && !HAS_PENDING_EXCEPTION) { | |
1561 // Build an MDO. Ignore errors like OutOfMemory; | |
1562 // that simply means we won't have an MDO to update. | |
1563 methodOopDesc::build_interpreter_method_data(m, THREAD); | |
1564 if (HAS_PENDING_EXCEPTION) { | |
1565 assert((PENDING_EXCEPTION->is_a(SystemDictionary::OutOfMemoryError_klass())), "we expect only an OOM error here"); | |
1566 CLEAR_PENDING_EXCEPTION; | |
1567 } | |
1568 mdo = m()->method_data(); | |
1569 } | |
1570 return mdo; | |
1571 } | |
1572 | |
1573 ProfileData* | |
1574 Deoptimization::query_update_method_data(methodDataHandle trap_mdo, | |
1575 int trap_bci, | |
1576 Deoptimization::DeoptReason reason, | |
1577 //outputs: | |
1578 uint& ret_this_trap_count, | |
1579 bool& ret_maybe_prior_trap, | |
1580 bool& ret_maybe_prior_recompile) { | |
1581 uint prior_trap_count = trap_mdo->trap_count(reason); | |
1582 uint this_trap_count = trap_mdo->inc_trap_count(reason); | |
1583 | |
1584 // If the runtime cannot find a place to store trap history, | |
1585 // it is estimated based on the general condition of the method. | |
1586 // If the method has ever been recompiled, or has ever incurred | |
1587 // a trap with the present reason , then this BCI is assumed | |
1588 // (pessimistically) to be the culprit. | |
1589 bool maybe_prior_trap = (prior_trap_count != 0); | |
1590 bool maybe_prior_recompile = (trap_mdo->decompile_count() != 0); | |
1591 ProfileData* pdata = NULL; | |
1592 | |
1593 | |
1594 // For reasons which are recorded per bytecode, we check per-BCI data. | |
1595 DeoptReason per_bc_reason = reason_recorded_per_bytecode_if_any(reason); | |
1596 if (per_bc_reason != Reason_none) { | |
1597 // Find the profile data for this BCI. If there isn't one, | |
1598 // try to allocate one from the MDO's set of spares. | |
1599 // This will let us detect a repeated trap at this point. | |
1600 pdata = trap_mdo->allocate_bci_to_data(trap_bci); | |
1601 | |
1602 if (pdata != NULL) { | |
1603 // Query the trap state of this profile datum. | |
1604 int tstate0 = pdata->trap_state(); | |
1605 if (!trap_state_has_reason(tstate0, per_bc_reason)) | |
1606 maybe_prior_trap = false; | |
1607 if (!trap_state_is_recompiled(tstate0)) | |
1608 maybe_prior_recompile = false; | |
1609 | |
1610 // Update the trap state of this profile datum. | |
1611 int tstate1 = tstate0; | |
1612 // Record the reason. | |
1613 tstate1 = trap_state_add_reason(tstate1, per_bc_reason); | |
1614 // Store the updated state on the MDO, for next time. | |
1615 if (tstate1 != tstate0) | |
1616 pdata->set_trap_state(tstate1); | |
1617 } else { | |
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1618 if (LogCompilation && xtty != NULL) { |
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1619 ttyLocker ttyl; |
0 | 1620 // Missing MDP? Leave a small complaint in the log. |
1621 xtty->elem("missing_mdp bci='%d'", trap_bci); | |
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1622 } |
0 | 1623 } |
1624 } | |
1625 | |
1626 // Return results: | |
1627 ret_this_trap_count = this_trap_count; | |
1628 ret_maybe_prior_trap = maybe_prior_trap; | |
1629 ret_maybe_prior_recompile = maybe_prior_recompile; | |
1630 return pdata; | |
1631 } | |
1632 | |
1633 void | |
1634 Deoptimization::update_method_data_from_interpreter(methodDataHandle trap_mdo, int trap_bci, int reason) { | |
1635 ResourceMark rm; | |
1636 // Ignored outputs: | |
1637 uint ignore_this_trap_count; | |
1638 bool ignore_maybe_prior_trap; | |
1639 bool ignore_maybe_prior_recompile; | |
1640 query_update_method_data(trap_mdo, trap_bci, | |
1641 (DeoptReason)reason, | |
1642 ignore_this_trap_count, | |
1643 ignore_maybe_prior_trap, | |
1644 ignore_maybe_prior_recompile); | |
1645 } | |
1646 | |
1647 Deoptimization::UnrollBlock* Deoptimization::uncommon_trap(JavaThread* thread, jint trap_request) { | |
1648 | |
1649 // Still in Java no safepoints | |
1650 { | |
1651 // This enters VM and may safepoint | |
1652 uncommon_trap_inner(thread, trap_request); | |
1653 } | |
1654 return fetch_unroll_info_helper(thread); | |
1655 } | |
1656 | |
1657 // Local derived constants. | |
1658 // Further breakdown of DataLayout::trap_state, as promised by DataLayout. | |
1659 const int DS_REASON_MASK = DataLayout::trap_mask >> 1; | |
1660 const int DS_RECOMPILE_BIT = DataLayout::trap_mask - DS_REASON_MASK; | |
1661 | |
1662 //---------------------------trap_state_reason--------------------------------- | |
1663 Deoptimization::DeoptReason | |
1664 Deoptimization::trap_state_reason(int trap_state) { | |
1665 // This assert provides the link between the width of DataLayout::trap_bits | |
1666 // and the encoding of "recorded" reasons. It ensures there are enough | |
1667 // bits to store all needed reasons in the per-BCI MDO profile. | |
1668 assert(DS_REASON_MASK >= Reason_RECORDED_LIMIT, "enough bits"); | |
1669 int recompile_bit = (trap_state & DS_RECOMPILE_BIT); | |
1670 trap_state -= recompile_bit; | |
1671 if (trap_state == DS_REASON_MASK) { | |
1672 return Reason_many; | |
1673 } else { | |
1674 assert((int)Reason_none == 0, "state=0 => Reason_none"); | |
1675 return (DeoptReason)trap_state; | |
1676 } | |
1677 } | |
1678 //-------------------------trap_state_has_reason------------------------------- | |
1679 int Deoptimization::trap_state_has_reason(int trap_state, int reason) { | |
1680 assert(reason_is_recorded_per_bytecode((DeoptReason)reason), "valid reason"); | |
1681 assert(DS_REASON_MASK >= Reason_RECORDED_LIMIT, "enough bits"); | |
1682 int recompile_bit = (trap_state & DS_RECOMPILE_BIT); | |
1683 trap_state -= recompile_bit; | |
1684 if (trap_state == DS_REASON_MASK) { | |
1685 return -1; // true, unspecifically (bottom of state lattice) | |
1686 } else if (trap_state == reason) { | |
1687 return 1; // true, definitely | |
1688 } else if (trap_state == 0) { | |
1689 return 0; // false, definitely (top of state lattice) | |
1690 } else { | |
1691 return 0; // false, definitely | |
1692 } | |
1693 } | |
1694 //-------------------------trap_state_add_reason------------------------------- | |
1695 int Deoptimization::trap_state_add_reason(int trap_state, int reason) { | |
1696 assert(reason_is_recorded_per_bytecode((DeoptReason)reason) || reason == Reason_many, "valid reason"); | |
1697 int recompile_bit = (trap_state & DS_RECOMPILE_BIT); | |
1698 trap_state -= recompile_bit; | |
1699 if (trap_state == DS_REASON_MASK) { | |
1700 return trap_state + recompile_bit; // already at state lattice bottom | |
1701 } else if (trap_state == reason) { | |
1702 return trap_state + recompile_bit; // the condition is already true | |
1703 } else if (trap_state == 0) { | |
1704 return reason + recompile_bit; // no condition has yet been true | |
1705 } else { | |
1706 return DS_REASON_MASK + recompile_bit; // fall to state lattice bottom | |
1707 } | |
1708 } | |
1709 //-----------------------trap_state_is_recompiled------------------------------ | |
1710 bool Deoptimization::trap_state_is_recompiled(int trap_state) { | |
1711 return (trap_state & DS_RECOMPILE_BIT) != 0; | |
1712 } | |
1713 //-----------------------trap_state_set_recompiled----------------------------- | |
1714 int Deoptimization::trap_state_set_recompiled(int trap_state, bool z) { | |
1715 if (z) return trap_state | DS_RECOMPILE_BIT; | |
1716 else return trap_state & ~DS_RECOMPILE_BIT; | |
1717 } | |
1718 //---------------------------format_trap_state--------------------------------- | |
1719 // This is used for debugging and diagnostics, including hotspot.log output. | |
1720 const char* Deoptimization::format_trap_state(char* buf, size_t buflen, | |
1721 int trap_state) { | |
1722 DeoptReason reason = trap_state_reason(trap_state); | |
1723 bool recomp_flag = trap_state_is_recompiled(trap_state); | |
1724 // Re-encode the state from its decoded components. | |
1725 int decoded_state = 0; | |
1726 if (reason_is_recorded_per_bytecode(reason) || reason == Reason_many) | |
1727 decoded_state = trap_state_add_reason(decoded_state, reason); | |
1728 if (recomp_flag) | |
1729 decoded_state = trap_state_set_recompiled(decoded_state, recomp_flag); | |
1730 // If the state re-encodes properly, format it symbolically. | |
1731 // Because this routine is used for debugging and diagnostics, | |
1732 // be robust even if the state is a strange value. | |
1733 size_t len; | |
1734 if (decoded_state != trap_state) { | |
1735 // Random buggy state that doesn't decode?? | |
1736 len = jio_snprintf(buf, buflen, "#%d", trap_state); | |
1737 } else { | |
1738 len = jio_snprintf(buf, buflen, "%s%s", | |
1739 trap_reason_name(reason), | |
1740 recomp_flag ? " recompiled" : ""); | |
1741 } | |
1742 if (len >= buflen) | |
1743 buf[buflen-1] = '\0'; | |
1744 return buf; | |
1745 } | |
1746 | |
1747 | |
1748 //--------------------------------statics-------------------------------------- | |
1749 Deoptimization::DeoptAction Deoptimization::_unloaded_action | |
1750 = Deoptimization::Action_reinterpret; | |
1751 const char* Deoptimization::_trap_reason_name[Reason_LIMIT] = { | |
1752 // Note: Keep this in sync. with enum DeoptReason. | |
1753 "none", | |
1754 "null_check", | |
1755 "null_assert", | |
1756 "range_check", | |
1757 "class_check", | |
1758 "array_check", | |
1759 "intrinsic", | |
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1760 "bimorphic", |
0 | 1761 "unloaded", |
1762 "uninitialized", | |
1763 "unreached", | |
1764 "unhandled", | |
1765 "constraint", | |
1766 "div0_check", | |
1172 | 1767 "age", |
1768 "predicate" | |
0 | 1769 }; |
1770 const char* Deoptimization::_trap_action_name[Action_LIMIT] = { | |
1771 // Note: Keep this in sync. with enum DeoptAction. | |
1772 "none", | |
1773 "maybe_recompile", | |
1774 "reinterpret", | |
1775 "make_not_entrant", | |
1776 "make_not_compilable" | |
1777 }; | |
1778 | |
1779 const char* Deoptimization::trap_reason_name(int reason) { | |
1780 if (reason == Reason_many) return "many"; | |
1781 if ((uint)reason < Reason_LIMIT) | |
1782 return _trap_reason_name[reason]; | |
1783 static char buf[20]; | |
1784 sprintf(buf, "reason%d", reason); | |
1785 return buf; | |
1786 } | |
1787 const char* Deoptimization::trap_action_name(int action) { | |
1788 if ((uint)action < Action_LIMIT) | |
1789 return _trap_action_name[action]; | |
1790 static char buf[20]; | |
1791 sprintf(buf, "action%d", action); | |
1792 return buf; | |
1793 } | |
1794 | |
1795 // This is used for debugging and diagnostics, including hotspot.log output. | |
1796 const char* Deoptimization::format_trap_request(char* buf, size_t buflen, | |
1797 int trap_request) { | |
1798 jint unloaded_class_index = trap_request_index(trap_request); | |
1799 const char* reason = trap_reason_name(trap_request_reason(trap_request)); | |
1800 const char* action = trap_action_name(trap_request_action(trap_request)); | |
1801 size_t len; | |
1802 if (unloaded_class_index < 0) { | |
1803 len = jio_snprintf(buf, buflen, "reason='%s' action='%s'", | |
1804 reason, action); | |
1805 } else { | |
1806 len = jio_snprintf(buf, buflen, "reason='%s' action='%s' index='%d'", | |
1807 reason, action, unloaded_class_index); | |
1808 } | |
1809 if (len >= buflen) | |
1810 buf[buflen-1] = '\0'; | |
1811 return buf; | |
1812 } | |
1813 | |
1814 juint Deoptimization::_deoptimization_hist | |
1815 [Deoptimization::Reason_LIMIT] | |
1816 [1 + Deoptimization::Action_LIMIT] | |
1817 [Deoptimization::BC_CASE_LIMIT] | |
1818 = {0}; | |
1819 | |
1820 enum { | |
1821 LSB_BITS = 8, | |
1822 LSB_MASK = right_n_bits(LSB_BITS) | |
1823 }; | |
1824 | |
1825 void Deoptimization::gather_statistics(DeoptReason reason, DeoptAction action, | |
1826 Bytecodes::Code bc) { | |
1827 assert(reason >= 0 && reason < Reason_LIMIT, "oob"); | |
1828 assert(action >= 0 && action < Action_LIMIT, "oob"); | |
1829 _deoptimization_hist[Reason_none][0][0] += 1; // total | |
1830 _deoptimization_hist[reason][0][0] += 1; // per-reason total | |
1831 juint* cases = _deoptimization_hist[reason][1+action]; | |
1832 juint* bc_counter_addr = NULL; | |
1833 juint bc_counter = 0; | |
1834 // Look for an unused counter, or an exact match to this BC. | |
1835 if (bc != Bytecodes::_illegal) { | |
1836 for (int bc_case = 0; bc_case < BC_CASE_LIMIT; bc_case++) { | |
1837 juint* counter_addr = &cases[bc_case]; | |
1838 juint counter = *counter_addr; | |
1839 if ((counter == 0 && bc_counter_addr == NULL) | |
1840 || (Bytecodes::Code)(counter & LSB_MASK) == bc) { | |
1841 // this counter is either free or is already devoted to this BC | |
1842 bc_counter_addr = counter_addr; | |
1843 bc_counter = counter | bc; | |
1844 } | |
1845 } | |
1846 } | |
1847 if (bc_counter_addr == NULL) { | |
1848 // Overflow, or no given bytecode. | |
1849 bc_counter_addr = &cases[BC_CASE_LIMIT-1]; | |
1850 bc_counter = (*bc_counter_addr & ~LSB_MASK); // clear LSB | |
1851 } | |
1852 *bc_counter_addr = bc_counter + (1 << LSB_BITS); | |
1853 } | |
1854 | |
1855 jint Deoptimization::total_deoptimization_count() { | |
1856 return _deoptimization_hist[Reason_none][0][0]; | |
1857 } | |
1858 | |
1859 jint Deoptimization::deoptimization_count(DeoptReason reason) { | |
1860 assert(reason >= 0 && reason < Reason_LIMIT, "oob"); | |
1861 return _deoptimization_hist[reason][0][0]; | |
1862 } | |
1863 | |
1864 void Deoptimization::print_statistics() { | |
1865 juint total = total_deoptimization_count(); | |
1866 juint account = total; | |
1867 if (total != 0) { | |
1868 ttyLocker ttyl; | |
1869 if (xtty != NULL) xtty->head("statistics type='deoptimization'"); | |
1870 tty->print_cr("Deoptimization traps recorded:"); | |
1871 #define PRINT_STAT_LINE(name, r) \ | |
1872 tty->print_cr(" %4d (%4.1f%%) %s", (int)(r), ((r) * 100.0) / total, name); | |
1873 PRINT_STAT_LINE("total", total); | |
1874 // For each non-zero entry in the histogram, print the reason, | |
1875 // the action, and (if specifically known) the type of bytecode. | |
1876 for (int reason = 0; reason < Reason_LIMIT; reason++) { | |
1877 for (int action = 0; action < Action_LIMIT; action++) { | |
1878 juint* cases = _deoptimization_hist[reason][1+action]; | |
1879 for (int bc_case = 0; bc_case < BC_CASE_LIMIT; bc_case++) { | |
1880 juint counter = cases[bc_case]; | |
1881 if (counter != 0) { | |
1882 char name[1*K]; | |
1883 Bytecodes::Code bc = (Bytecodes::Code)(counter & LSB_MASK); | |
1884 if (bc_case == BC_CASE_LIMIT && (int)bc == 0) | |
1885 bc = Bytecodes::_illegal; | |
1886 sprintf(name, "%s/%s/%s", | |
1887 trap_reason_name(reason), | |
1888 trap_action_name(action), | |
1889 Bytecodes::is_defined(bc)? Bytecodes::name(bc): "other"); | |
1890 juint r = counter >> LSB_BITS; | |
1891 tty->print_cr(" %40s: " UINT32_FORMAT " (%.1f%%)", name, r, (r * 100.0) / total); | |
1892 account -= r; | |
1893 } | |
1894 } | |
1895 } | |
1896 } | |
1897 if (account != 0) { | |
1898 PRINT_STAT_LINE("unaccounted", account); | |
1899 } | |
1900 #undef PRINT_STAT_LINE | |
1901 if (xtty != NULL) xtty->tail("statistics"); | |
1902 } | |
1903 } |