1 /*
2  * Copyright (C) 2008 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include "jdwp/jdwp_event.h"
18 
19 #include <stddef.h>     /* for offsetof() */
20 #include <stdlib.h>
21 #include <string.h>
22 #include <unistd.h>
23 
24 #include "android-base/stringprintf.h"
25 
26 #include "art_field-inl.h"
27 #include "art_method-inl.h"
28 #include "base/logging.h"  // For VLOG.
29 #include "debugger.h"
30 #include "jdwp/jdwp_constants.h"
31 #include "jdwp/jdwp_expand_buf.h"
32 #include "jdwp/jdwp_priv.h"
33 #include "jdwp/object_registry.h"
34 #include "scoped_thread_state_change-inl.h"
35 #include "thread-inl.h"
36 
37 #include "handle_scope-inl.h"
38 
39 /*
40 General notes:
41 
42 The event add/remove stuff usually happens from the debugger thread,
43 in response to requests from the debugger, but can also happen as the
44 result of an event in an arbitrary thread (e.g. an event with a "count"
45 mod expires).  It's important to keep the event list locked when processing
46 events.
47 
48 Event posting can happen from any thread.  The JDWP thread will not usually
49 post anything but VM start/death, but if a JDWP request causes a class
50 to be loaded, the ClassPrepare event will come from the JDWP thread.
51 
52 
53 We can have serialization issues when we post an event to the debugger.
54 For example, a thread could send an "I hit a breakpoint and am suspending
55 myself" message to the debugger.  Before it manages to suspend itself, the
56 debugger's response ("not interested, resume thread") arrives and is
57 processed.  We try to resume a thread that hasn't yet suspended.
58 
59 This means that, after posting an event to the debugger, we need to wait
60 for the event thread to suspend itself (and, potentially, all other threads)
61 before processing any additional requests from the debugger.  While doing
62 so we need to be aware that multiple threads may be hitting breakpoints
63 or other events simultaneously, so we either need to wait for all of them
64 or serialize the events with each other.
65 
66 The current mechanism works like this:
67   Event thread:
68    - If I'm going to suspend, grab the "I am posting an event" token.  Wait
69      for it if it's not currently available.
70    - Post the event to the debugger.
71    - If appropriate, suspend others and then myself.  As part of suspending
72      myself, release the "I am posting" token.
73   JDWP thread:
74    - When an event arrives, see if somebody is posting an event.  If so,
75      sleep until we can acquire the "I am posting an event" token.  Release
76      it immediately and continue processing -- the event we have already
77      received should not interfere with other events that haven't yet
78      been posted.
79 
80 Some care must be taken to avoid deadlock:
81 
82  - thread A and thread B exit near-simultaneously, and post thread-death
83    events with a "suspend all" clause
84  - thread A gets the event token, thread B sits and waits for it
85  - thread A wants to suspend all other threads, but thread B is waiting
86    for the token and can't be suspended
87 
88 So we need to mark thread B in such a way that thread A doesn't wait for it.
89 
90 If we just bracket the "grab event token" call with a change to VMWAIT
91 before sleeping, the switch back to RUNNING state when we get the token
92 will cause thread B to suspend (remember, thread A's global suspend is
93 still in force, even after it releases the token).  Suspending while
94 holding the event token is very bad, because it prevents the JDWP thread
95 from processing incoming messages.
96 
97 We need to change to VMWAIT state at the *start* of posting an event,
98 and stay there until we either finish posting the event or decide to
99 put ourselves to sleep.  That way we don't interfere with anyone else and
100 don't allow anyone else to interfere with us.
101 */
102 
103 namespace art {
104 
105 namespace JDWP {
106 
107 using android::base::StringPrintf;
108 
109 /*
110  * Stuff to compare against when deciding if a mod matches.  Only the
111  * values for mods valid for the event being evaluated will be filled in.
112  * The rest will be zeroed.
113  * Must be allocated on the stack only. This is enforced by removing the
114  * operator new.
115  */
116 struct ModBasket {
ModBasketart::JDWP::ModBasket117   explicit ModBasket(Thread* self)
118     : hs(self), pLoc(nullptr), thread(self),
119       locationClass(hs.NewHandle<mirror::Class>(nullptr)),
120       exceptionClass(hs.NewHandle<mirror::Class>(nullptr)),
121       caught(false),
122       field(nullptr),
123       thisPtr(hs.NewHandle<mirror::Object>(nullptr)) { }
124 
125   StackHandleScope<3> hs;
126   const EventLocation*            pLoc;             /* LocationOnly */
127   std::string                     className;        /* ClassMatch/ClassExclude */
128   Thread* const                   thread;           /* ThreadOnly */
129   MutableHandle<mirror::Class>    locationClass;    /* ClassOnly */
130   MutableHandle<mirror::Class>    exceptionClass;   /* ExceptionOnly */
131   bool                            caught;           /* ExceptionOnly */
132   ArtField*                       field;            /* FieldOnly */
133   MutableHandle<mirror::Object>   thisPtr;          /* InstanceOnly */
134   /* nothing for StepOnly -- handled differently */
135 
136  private:
137   DISALLOW_ALLOCATION();  // forbids allocation on the heap.
138   DISALLOW_IMPLICIT_CONSTRUCTORS(ModBasket);
139 };
140 
NeedsFullDeoptimization(JdwpEventKind eventKind)141 static bool NeedsFullDeoptimization(JdwpEventKind eventKind) {
142   if (!Dbg::RequiresDeoptimization()) {
143     // We don't need deoptimization for debugging.
144     return false;
145   }
146   switch (eventKind) {
147       case EK_METHOD_ENTRY:
148       case EK_METHOD_EXIT:
149       case EK_METHOD_EXIT_WITH_RETURN_VALUE:
150       case EK_FIELD_ACCESS:
151       case EK_FIELD_MODIFICATION:
152         return true;
153       default:
154         return false;
155     }
156 }
157 
158 // Returns the instrumentation event the DebugInstrumentationListener must
159 // listen to in order to properly report the given JDWP event to the debugger.
GetInstrumentationEventFor(JdwpEventKind eventKind)160 static uint32_t GetInstrumentationEventFor(JdwpEventKind eventKind) {
161   switch (eventKind) {
162     case EK_BREAKPOINT:
163     case EK_SINGLE_STEP:
164       return instrumentation::Instrumentation::kDexPcMoved;
165     case EK_EXCEPTION:
166     case EK_EXCEPTION_CATCH:
167       return instrumentation::Instrumentation::kExceptionThrown;
168     case EK_METHOD_ENTRY:
169       return instrumentation::Instrumentation::kMethodEntered;
170     case EK_METHOD_EXIT:
171     case EK_METHOD_EXIT_WITH_RETURN_VALUE:
172       return instrumentation::Instrumentation::kMethodExited;
173     case EK_FIELD_ACCESS:
174       return instrumentation::Instrumentation::kFieldRead;
175     case EK_FIELD_MODIFICATION:
176       return instrumentation::Instrumentation::kFieldWritten;
177     default:
178       return 0;
179   }
180 }
181 
182 /*
183  * Add an event to the list.  Ordering is not important.
184  *
185  * If something prevents the event from being registered, e.g. it's a
186  * single-step request on a thread that doesn't exist, the event will
187  * not be added to the list, and an appropriate error will be returned.
188  */
RegisterEvent(JdwpEvent * pEvent)189 JdwpError JdwpState::RegisterEvent(JdwpEvent* pEvent) {
190   CHECK(pEvent != nullptr);
191   CHECK(pEvent->prev == nullptr);
192   CHECK(pEvent->next == nullptr);
193 
194   {
195     /*
196      * If one or more "break"-type mods are used, register them with
197      * the interpreter.
198      */
199     DeoptimizationRequest req;
200     for (int i = 0; i < pEvent->modCount; i++) {
201       const JdwpEventMod* pMod = &pEvent->mods[i];
202       if (pMod->modKind == MK_LOCATION_ONLY) {
203         // Should only concern breakpoint, field access, field modification, step, and exception
204         // events.
205         // However breakpoint requires specific handling. Field access, field modification and step
206         // events need full deoptimization to be reported while exception event is reported during
207         // exception handling.
208         if (pEvent->eventKind == EK_BREAKPOINT) {
209           Dbg::WatchLocation(&pMod->locationOnly.loc, &req);
210         }
211       } else if (pMod->modKind == MK_STEP) {
212         /* should only be for EK_SINGLE_STEP; should only be one */
213         JdwpStepSize size = static_cast<JdwpStepSize>(pMod->step.size);
214         JdwpStepDepth depth = static_cast<JdwpStepDepth>(pMod->step.depth);
215         JdwpError status = Dbg::ConfigureStep(pMod->step.threadId, size, depth);
216         if (status != ERR_NONE) {
217           return status;
218         }
219       }
220     }
221     if (NeedsFullDeoptimization(pEvent->eventKind)) {
222       CHECK_EQ(req.GetKind(), DeoptimizationRequest::kNothing);
223       CHECK(req.Method() == nullptr);
224       req.SetKind(DeoptimizationRequest::kFullDeoptimization);
225     }
226     Dbg::RequestDeoptimization(req);
227   }
228   uint32_t instrumentation_event = GetInstrumentationEventFor(pEvent->eventKind);
229   if (instrumentation_event != 0) {
230     DeoptimizationRequest req;
231     req.SetKind(DeoptimizationRequest::kRegisterForEvent);
232     req.SetInstrumentationEvent(instrumentation_event);
233     Dbg::RequestDeoptimization(req);
234   }
235 
236   {
237     /*
238      * Add to list.
239      */
240     MutexLock mu(Thread::Current(), event_list_lock_);
241     if (event_list_ != nullptr) {
242       pEvent->next = event_list_;
243       event_list_->prev = pEvent;
244     }
245     event_list_ = pEvent;
246     ++event_list_size_;
247   }
248 
249   Dbg::ManageDeoptimization();
250 
251   return ERR_NONE;
252 }
253 
UnregisterLocationEventsOnClass(ObjPtr<mirror::Class> klass)254 void JdwpState::UnregisterLocationEventsOnClass(ObjPtr<mirror::Class> klass) {
255   VLOG(jdwp) << "Removing events within " << klass->PrettyClass();
256   StackHandleScope<1> hs(Thread::Current());
257   Handle<mirror::Class> h_klass(hs.NewHandle(klass));
258   std::vector<JdwpEvent*> to_remove;
259   MutexLock mu(Thread::Current(), event_list_lock_);
260   for (JdwpEvent* cur_event = event_list_; cur_event != nullptr; cur_event = cur_event->next) {
261     // Fill in the to_remove list
262     bool found_event = false;
263     for (int i = 0; i < cur_event->modCount && !found_event; i++) {
264       JdwpEventMod& mod = cur_event->mods[i];
265       switch (mod.modKind) {
266         case MK_LOCATION_ONLY: {
267           JdwpLocation& loc = mod.locationOnly.loc;
268           JdwpError error;
269           ObjPtr<mirror::Class> breakpoint_class(
270               Dbg::GetObjectRegistry()->Get<art::mirror::Class*>(loc.class_id, &error));
271           DCHECK_EQ(error, ERR_NONE);
272           if (breakpoint_class == h_klass.Get()) {
273             to_remove.push_back(cur_event);
274             found_event = true;
275           }
276           break;
277         }
278         default:
279           // TODO Investigate how we should handle non-locationOnly events.
280           break;
281       }
282     }
283   }
284 
285   for (JdwpEvent* event : to_remove) {
286     UnregisterEvent(event);
287     EventFree(event);
288   }
289 }
290 
291 /*
292  * Remove an event from the list.  This will also remove the event from
293  * any optimization tables, e.g. breakpoints.
294  *
295  * Does not free the JdwpEvent.
296  *
297  * Grab the eventLock before calling here.
298  */
UnregisterEvent(JdwpEvent * pEvent)299 void JdwpState::UnregisterEvent(JdwpEvent* pEvent) {
300   if (pEvent->prev == nullptr) {
301     /* head of the list */
302     CHECK(event_list_ == pEvent);
303 
304     event_list_ = pEvent->next;
305   } else {
306     pEvent->prev->next = pEvent->next;
307   }
308 
309   if (pEvent->next != nullptr) {
310     pEvent->next->prev = pEvent->prev;
311     pEvent->next = nullptr;
312   }
313   pEvent->prev = nullptr;
314 
315   {
316     /*
317      * Unhook us from the interpreter, if necessary.
318      */
319     DeoptimizationRequest req;
320     for (int i = 0; i < pEvent->modCount; i++) {
321       JdwpEventMod* pMod = &pEvent->mods[i];
322       if (pMod->modKind == MK_LOCATION_ONLY) {
323         // Like in RegisterEvent, we need specific handling for breakpoint only.
324         if (pEvent->eventKind == EK_BREAKPOINT) {
325           Dbg::UnwatchLocation(&pMod->locationOnly.loc, &req);
326         }
327       }
328       if (pMod->modKind == MK_STEP) {
329         /* should only be for EK_SINGLE_STEP; should only be one */
330         Dbg::UnconfigureStep(pMod->step.threadId);
331       }
332     }
333     if (NeedsFullDeoptimization(pEvent->eventKind)) {
334       CHECK_EQ(req.GetKind(), DeoptimizationRequest::kNothing);
335       CHECK(req.Method() == nullptr);
336       req.SetKind(DeoptimizationRequest::kFullUndeoptimization);
337     }
338     Dbg::RequestDeoptimization(req);
339   }
340   uint32_t instrumentation_event = GetInstrumentationEventFor(pEvent->eventKind);
341   if (instrumentation_event != 0) {
342     DeoptimizationRequest req;
343     req.SetKind(DeoptimizationRequest::kUnregisterForEvent);
344     req.SetInstrumentationEvent(instrumentation_event);
345     Dbg::RequestDeoptimization(req);
346   }
347 
348   --event_list_size_;
349   CHECK(event_list_size_ != 0 || event_list_ == nullptr);
350 }
351 
352 /*
353  * Remove the event with the given ID from the list.
354  *
355  */
UnregisterEventById(uint32_t requestId)356 void JdwpState::UnregisterEventById(uint32_t requestId) {
357   bool found = false;
358   {
359     MutexLock mu(Thread::Current(), event_list_lock_);
360 
361     for (JdwpEvent* pEvent = event_list_; pEvent != nullptr; pEvent = pEvent->next) {
362       if (pEvent->requestId == requestId) {
363         found = true;
364         UnregisterEvent(pEvent);
365         EventFree(pEvent);
366         break;      /* there can be only one with a given ID */
367       }
368     }
369   }
370 
371   if (found) {
372     Dbg::ManageDeoptimization();
373   } else {
374     // Failure to find the event isn't really an error. For instance, it looks like Eclipse will
375     // try to be extra careful and will explicitly remove one-off single-step events (using a
376     // 'count' event modifier of 1). So the event may have already been removed as part of the
377     // event notification (see JdwpState::CleanupMatchList).
378     VLOG(jdwp) << StringPrintf("No match when removing event reqId=0x%04x", requestId);
379   }
380 }
381 
382 /*
383  * Remove all entries from the event list.
384  */
UnregisterAll()385 void JdwpState::UnregisterAll() {
386   MutexLock mu(Thread::Current(), event_list_lock_);
387 
388   JdwpEvent* pEvent = event_list_;
389   while (pEvent != nullptr) {
390     JdwpEvent* pNextEvent = pEvent->next;
391 
392     UnregisterEvent(pEvent);
393     EventFree(pEvent);
394     pEvent = pNextEvent;
395   }
396 
397   event_list_ = nullptr;
398 }
399 
400 /*
401  * Allocate a JdwpEvent struct with enough space to hold the specified
402  * number of mod records.
403  */
EventAlloc(int numMods)404 JdwpEvent* EventAlloc(int numMods) {
405   JdwpEvent* newEvent;
406   int allocSize = offsetof(JdwpEvent, mods) + numMods * sizeof(newEvent->mods[0]);
407   newEvent = reinterpret_cast<JdwpEvent*>(malloc(allocSize));
408   memset(newEvent, 0, allocSize);
409   return newEvent;
410 }
411 
412 /*
413  * Free a JdwpEvent.
414  *
415  * Do not call this until the event has been removed from the list.
416  */
EventFree(JdwpEvent * pEvent)417 void EventFree(JdwpEvent* pEvent) {
418   if (pEvent == nullptr) {
419     return;
420   }
421 
422   /* make sure it was removed from the list */
423   CHECK(pEvent->prev == nullptr);
424   CHECK(pEvent->next == nullptr);
425   /* want to check state->event_list_ != pEvent */
426 
427   /*
428    * Free any hairy bits in the mods.
429    */
430   for (int i = 0; i < pEvent->modCount; i++) {
431     if (pEvent->mods[i].modKind == MK_CLASS_MATCH) {
432       free(pEvent->mods[i].classMatch.classPattern);
433       pEvent->mods[i].classMatch.classPattern = nullptr;
434     }
435     if (pEvent->mods[i].modKind == MK_CLASS_EXCLUDE) {
436       free(pEvent->mods[i].classExclude.classPattern);
437       pEvent->mods[i].classExclude.classPattern = nullptr;
438     }
439   }
440 
441   free(pEvent);
442 }
443 
444 /*
445  * Run through the list and remove any entries with an expired "count" mod
446  * from the event list.
447  */
CleanupMatchList(const std::vector<JdwpEvent * > & match_list)448 void JdwpState::CleanupMatchList(const std::vector<JdwpEvent*>& match_list) {
449   for (JdwpEvent* pEvent : match_list) {
450     for (int i = 0; i < pEvent->modCount; ++i) {
451       if (pEvent->mods[i].modKind == MK_COUNT && pEvent->mods[i].count.count == 0) {
452         VLOG(jdwp) << StringPrintf("##### Removing expired event (requestId=%#" PRIx32 ")",
453                                    pEvent->requestId);
454         UnregisterEvent(pEvent);
455         EventFree(pEvent);
456         break;
457       }
458     }
459   }
460 }
461 
462 /*
463  * Match a string against a "restricted regular expression", which is just
464  * a string that may start or end with '*' (e.g. "*.Foo" or "java.*").
465  *
466  * ("Restricted name globbing" might have been a better term.)
467  */
PatternMatch(const char * pattern,const std::string & target)468 static bool PatternMatch(const char* pattern, const std::string& target) {
469   size_t patLen = strlen(pattern);
470   if (pattern[0] == '*') {
471     patLen--;
472     if (target.size() < patLen) {
473       return false;
474     }
475     return strcmp(pattern+1, target.c_str() + (target.size()-patLen)) == 0;
476   } else if (pattern[patLen-1] == '*') {
477     return strncmp(pattern, target.c_str(), patLen-1) == 0;
478   } else {
479     return strcmp(pattern, target.c_str()) == 0;
480   }
481 }
482 
483 /*
484  * See if the event's mods match up with the contents of "basket".
485  *
486  * If we find a Count mod before rejecting an event, we decrement it.  We
487  * need to do this even if later mods cause us to ignore the event.
488  */
ModsMatch(JdwpEvent * pEvent,const ModBasket & basket)489 static bool ModsMatch(JdwpEvent* pEvent, const ModBasket& basket)
490     REQUIRES_SHARED(Locks::mutator_lock_) {
491   JdwpEventMod* pMod = pEvent->mods;
492 
493   for (int i = pEvent->modCount; i > 0; i--, pMod++) {
494     switch (pMod->modKind) {
495     case MK_COUNT:
496       CHECK_GT(pMod->count.count, 0);
497       pMod->count.count--;
498       if (pMod->count.count > 0) {
499         return false;
500       }
501       break;
502     case MK_CONDITIONAL:
503       LOG(FATAL) << "Unexpected MK_CONDITIONAL";  // should not be getting these
504       UNREACHABLE();
505     case MK_THREAD_ONLY:
506       if (!Dbg::MatchThread(pMod->threadOnly.threadId, basket.thread)) {
507         return false;
508       }
509       break;
510     case MK_CLASS_ONLY:
511       if (!Dbg::MatchType(basket.locationClass.Get(), pMod->classOnly.refTypeId)) {
512         return false;
513       }
514       break;
515     case MK_CLASS_MATCH:
516       if (!PatternMatch(pMod->classMatch.classPattern, basket.className)) {
517         return false;
518       }
519       break;
520     case MK_CLASS_EXCLUDE:
521       if (PatternMatch(pMod->classMatch.classPattern, basket.className)) {
522         return false;
523       }
524       break;
525     case MK_LOCATION_ONLY:
526       if (!Dbg::MatchLocation(pMod->locationOnly.loc, *basket.pLoc)) {
527         return false;
528       }
529       break;
530     case MK_EXCEPTION_ONLY:
531       if (pMod->exceptionOnly.refTypeId != 0 &&
532           !Dbg::MatchType(basket.exceptionClass.Get(), pMod->exceptionOnly.refTypeId)) {
533         return false;
534       }
535       if ((basket.caught && !pMod->exceptionOnly.caught) ||
536           (!basket.caught && !pMod->exceptionOnly.uncaught)) {
537         return false;
538       }
539       break;
540     case MK_FIELD_ONLY:
541       if (!Dbg::MatchField(pMod->fieldOnly.refTypeId, pMod->fieldOnly.fieldId, basket.field)) {
542         return false;
543       }
544       break;
545     case MK_STEP:
546       if (!Dbg::MatchThread(pMod->step.threadId, basket.thread)) {
547         return false;
548       }
549       break;
550     case MK_INSTANCE_ONLY:
551       if (!Dbg::MatchInstance(pMod->instanceOnly.objectId, basket.thisPtr.Get())) {
552         return false;
553       }
554       break;
555     default:
556       LOG(FATAL) << "unknown mod kind " << pMod->modKind;
557       break;
558     }
559   }
560   return true;
561 }
562 
563 /*
564  * Find all events of type "event_kind" with mods that match up with the
565  * rest of the arguments while holding the event list lock. This method
566  * is used by FindMatchingEvents below.
567  *
568  * Found events are appended to "match_list" so this may be called multiple times for grouped
569  * events.
570  *
571  * DO NOT call this multiple times for the same eventKind, as Count mods are
572  * decremented during the scan.
573  */
FindMatchingEventsLocked(JdwpEventKind event_kind,const ModBasket & basket,std::vector<JdwpEvent * > * match_list)574 void JdwpState::FindMatchingEventsLocked(JdwpEventKind event_kind, const ModBasket& basket,
575                                          std::vector<JdwpEvent*>* match_list) {
576   for (JdwpEvent* pEvent = event_list_; pEvent != nullptr; pEvent = pEvent->next) {
577     if (pEvent->eventKind == event_kind && ModsMatch(pEvent, basket)) {
578       match_list->push_back(pEvent);
579     }
580   }
581 }
582 
583 /*
584  * Find all events of type "event_kind" with mods that match up with the
585  * rest of the arguments and return true if at least one event matches,
586  * false otherwise.
587  *
588  * Found events are appended to "match_list" so this may be called multiple
589  * times for grouped events.
590  *
591  * DO NOT call this multiple times for the same eventKind, as Count mods are
592  * decremented during the scan.
593  */
FindMatchingEvents(JdwpEventKind event_kind,const ModBasket & basket,std::vector<JdwpEvent * > * match_list)594 bool JdwpState::FindMatchingEvents(JdwpEventKind event_kind, const ModBasket& basket,
595                                    std::vector<JdwpEvent*>* match_list) {
596   MutexLock mu(Thread::Current(), event_list_lock_);
597   match_list->reserve(event_list_size_);
598   FindMatchingEventsLocked(event_kind, basket, match_list);
599   return !match_list->empty();
600 }
601 
602 /*
603  * Scan through the list of matches and determine the most severe
604  * suspension policy.
605  */
ScanSuspendPolicy(const std::vector<JdwpEvent * > & match_list)606 static JdwpSuspendPolicy ScanSuspendPolicy(const std::vector<JdwpEvent*>& match_list) {
607   JdwpSuspendPolicy policy = SP_NONE;
608 
609   for (JdwpEvent* pEvent : match_list) {
610     if (pEvent->suspend_policy > policy) {
611       policy = pEvent->suspend_policy;
612     }
613   }
614 
615   return policy;
616 }
617 
618 /*
619  * Three possibilities:
620  *  SP_NONE - do nothing
621  *  SP_EVENT_THREAD - suspend ourselves
622  *  SP_ALL - suspend everybody except JDWP support thread
623  */
SuspendByPolicy(JdwpSuspendPolicy suspend_policy,JDWP::ObjectId thread_self_id)624 void JdwpState::SuspendByPolicy(JdwpSuspendPolicy suspend_policy, JDWP::ObjectId thread_self_id) {
625   VLOG(jdwp) << "SuspendByPolicy(" << suspend_policy << ")";
626   if (suspend_policy == SP_NONE) {
627     return;
628   }
629 
630   if (suspend_policy == SP_ALL) {
631     Dbg::SuspendVM();
632   } else {
633     CHECK_EQ(suspend_policy, SP_EVENT_THREAD);
634   }
635 
636   /* this is rare but possible -- see CLASS_PREPARE handling */
637   if (thread_self_id == debug_thread_id_) {
638     LOG(INFO) << "NOTE: SuspendByPolicy not suspending JDWP thread";
639     return;
640   }
641 
642   while (true) {
643     Dbg::SuspendSelf();
644 
645     /*
646      * The JDWP thread has told us (and possibly all other threads) to
647      * resume.  See if it has left anything in our DebugInvokeReq mailbox.
648      */
649     DebugInvokeReq* const pReq = Dbg::GetInvokeReq();
650     if (pReq == nullptr) {
651       break;
652     }
653 
654     // Execute method.
655     Dbg::ExecuteMethod(pReq);
656   }
657 }
658 
SendRequestAndPossiblySuspend(ExpandBuf * pReq,JdwpSuspendPolicy suspend_policy,ObjectId threadId)659 void JdwpState::SendRequestAndPossiblySuspend(ExpandBuf* pReq, JdwpSuspendPolicy suspend_policy,
660                                               ObjectId threadId) {
661   Thread* const self = Thread::Current();
662   self->AssertThreadSuspensionIsAllowable();
663   CHECK(pReq != nullptr);
664   CHECK_EQ(threadId, Dbg::GetThreadSelfId()) << "Only the current thread can suspend itself";
665   /* send request and possibly suspend ourselves */
666   ScopedThreadSuspension sts(self, kWaitingForDebuggerSend);
667   if (suspend_policy != SP_NONE) {
668     AcquireJdwpTokenForEvent(threadId);
669   }
670   EventFinish(pReq);
671   {
672     // Before suspending, we change our state to kSuspended so the debugger sees us as RUNNING.
673     ScopedThreadStateChange stsc(self, kSuspended);
674     SuspendByPolicy(suspend_policy, threadId);
675   }
676 }
677 
678 /*
679  * Determine if there is a method invocation in progress in the current
680  * thread.
681  *
682  * We look at the "invoke_needed" flag in the per-thread DebugInvokeReq
683  * state.  If set, we're in the process of invoking a method.
684  */
InvokeInProgress()685 bool JdwpState::InvokeInProgress() {
686   DebugInvokeReq* pReq = Dbg::GetInvokeReq();
687   return pReq != nullptr;
688 }
689 
AcquireJdwpTokenForCommand()690 void JdwpState::AcquireJdwpTokenForCommand() {
691   CHECK_EQ(Thread::Current(), GetDebugThread()) << "Expected debugger thread";
692   SetWaitForJdwpToken(debug_thread_id_);
693 }
694 
ReleaseJdwpTokenForCommand()695 void JdwpState::ReleaseJdwpTokenForCommand() {
696   CHECK_EQ(Thread::Current(), GetDebugThread()) << "Expected debugger thread";
697   ClearWaitForJdwpToken();
698 }
699 
AcquireJdwpTokenForEvent(ObjectId threadId)700 void JdwpState::AcquireJdwpTokenForEvent(ObjectId threadId) {
701   SetWaitForJdwpToken(threadId);
702 }
703 
ReleaseJdwpTokenForEvent()704 void JdwpState::ReleaseJdwpTokenForEvent() {
705   ClearWaitForJdwpToken();
706 }
707 
708 /*
709  * We need the JDWP thread to hold off on doing stuff while we post an
710  * event and then suspend ourselves.
711  *
712  * This could go to sleep waiting for another thread, so it's important
713  * that the thread be marked as VMWAIT before calling here.
714  */
SetWaitForJdwpToken(ObjectId threadId)715 void JdwpState::SetWaitForJdwpToken(ObjectId threadId) {
716   bool waited = false;
717   Thread* const self = Thread::Current();
718   CHECK_NE(threadId, 0u);
719   CHECK_NE(self->GetState(), kRunnable);
720   Locks::mutator_lock_->AssertNotHeld(self);
721 
722   /* this is held for very brief periods; contention is unlikely */
723   MutexLock mu(self, jdwp_token_lock_);
724 
725   if (jdwp_token_owner_thread_id_ == threadId) {
726     // Only the debugger thread may already hold the event token. For instance, it may trigger
727     // a CLASS_PREPARE event while processing a command that initializes a class.
728     CHECK_EQ(threadId, debug_thread_id_) << "Non-debugger thread is already holding event token";
729   } else {
730     /*
731      * If another thread is already doing stuff, wait for it.  This can
732      * go to sleep indefinitely.
733      */
734 
735     while (jdwp_token_owner_thread_id_ != 0) {
736       VLOG(jdwp) << StringPrintf("event in progress (%#" PRIx64 "), %#" PRIx64 " sleeping",
737                                  jdwp_token_owner_thread_id_, threadId);
738       waited = true;
739       jdwp_token_cond_.Wait(self);
740     }
741 
742     if (waited || threadId != debug_thread_id_) {
743       VLOG(jdwp) << StringPrintf("event token grabbed (%#" PRIx64 ")", threadId);
744     }
745     jdwp_token_owner_thread_id_ = threadId;
746   }
747 }
748 
749 /*
750  * Clear the threadId and signal anybody waiting.
751  */
ClearWaitForJdwpToken()752 void JdwpState::ClearWaitForJdwpToken() {
753   /*
754    * Grab the mutex.  Don't try to go in/out of VMWAIT mode, as this
755    * function is called by Dbg::SuspendSelf(), and the transition back
756    * to RUNNING would confuse it.
757    */
758   Thread* const self = Thread::Current();
759   MutexLock mu(self, jdwp_token_lock_);
760 
761   CHECK_NE(jdwp_token_owner_thread_id_, 0U);
762   VLOG(jdwp) << StringPrintf("cleared event token (%#" PRIx64 ")", jdwp_token_owner_thread_id_);
763 
764   jdwp_token_owner_thread_id_ = 0;
765   jdwp_token_cond_.Signal(self);
766 }
767 
768 /*
769  * Prep an event.  Allocates storage for the message and leaves space for
770  * the header.
771  */
eventPrep()772 static ExpandBuf* eventPrep() {
773   ExpandBuf* pReq = expandBufAlloc();
774   expandBufAddSpace(pReq, kJDWPHeaderLen);
775   return pReq;
776 }
777 
778 /*
779  * Write the header into the buffer and send the packet off to the debugger.
780  *
781  * Takes ownership of "pReq" (currently discards it).
782  */
EventFinish(ExpandBuf * pReq)783 void JdwpState::EventFinish(ExpandBuf* pReq) {
784   uint8_t* buf = expandBufGetBuffer(pReq);
785 
786   Set4BE(buf + kJDWPHeaderSizeOffset, expandBufGetLength(pReq));
787   Set4BE(buf + kJDWPHeaderIdOffset, NextRequestSerial());
788   Set1(buf + kJDWPHeaderFlagsOffset, 0);     /* flags */
789   Set1(buf + kJDWPHeaderCmdSetOffset, kJDWPEventCmdSet);
790   Set1(buf + kJDWPHeaderCmdOffset, kJDWPEventCompositeCmd);
791 
792   SendRequest(pReq);
793 
794   expandBufFree(pReq);
795 }
796 
797 
798 /*
799  * Tell the debugger that we have finished initializing.  This is always
800  * sent, even if the debugger hasn't requested it.
801  *
802  * This should be sent "before the main thread is started and before
803  * any application code has been executed".  The thread ID in the message
804  * must be for the main thread.
805  */
PostVMStart()806 void JdwpState::PostVMStart() {
807   JdwpSuspendPolicy suspend_policy = (options_->suspend) ? SP_ALL : SP_NONE;
808   ObjectId threadId = Dbg::GetThreadSelfId();
809 
810   VLOG(jdwp) << "EVENT: " << EK_VM_START;
811   VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
812 
813   ExpandBuf* pReq = eventPrep();
814   expandBufAdd1(pReq, suspend_policy);
815   expandBufAdd4BE(pReq, 1);
816   expandBufAdd1(pReq, EK_VM_START);
817   expandBufAdd4BE(pReq, 0);       /* requestId */
818   expandBufAddObjectId(pReq, threadId);
819 
820   Dbg::ManageDeoptimization();
821 
822   /* send request and possibly suspend ourselves */
823   SendRequestAndPossiblySuspend(pReq, suspend_policy, threadId);
824 }
825 
LogMatchingEventsAndThread(const std::vector<JdwpEvent * > & match_list,ObjectId thread_id)826 static void LogMatchingEventsAndThread(const std::vector<JdwpEvent*>& match_list,
827                                        ObjectId thread_id)
828     REQUIRES_SHARED(Locks::mutator_lock_) {
829   for (size_t i = 0, e = match_list.size(); i < e; ++i) {
830     JdwpEvent* pEvent = match_list[i];
831     VLOG(jdwp) << "EVENT #" << i << ": " << pEvent->eventKind
832                << StringPrintf(" (requestId=%#" PRIx32 ")", pEvent->requestId);
833   }
834   std::string thread_name;
835   JdwpError error = Dbg::GetThreadName(thread_id, &thread_name);
836   if (error != JDWP::ERR_NONE) {
837     thread_name = "<unknown>";
838   }
839   VLOG(jdwp) << StringPrintf("  thread=%#" PRIx64, thread_id) << " " << thread_name;
840 }
841 
SetJdwpLocationFromEventLocation(const JDWP::EventLocation * event_location,JDWP::JdwpLocation * jdwp_location)842 static void SetJdwpLocationFromEventLocation(const JDWP::EventLocation* event_location,
843                                              JDWP::JdwpLocation* jdwp_location)
844     REQUIRES_SHARED(Locks::mutator_lock_) {
845   DCHECK(event_location != nullptr);
846   DCHECK(jdwp_location != nullptr);
847   Dbg::SetJdwpLocation(jdwp_location, event_location->method, event_location->dex_pc);
848 }
849 
850 /*
851  * A location of interest has been reached.  This handles:
852  *   Breakpoint
853  *   SingleStep
854  *   MethodEntry
855  *   MethodExit
856  * These four types must be grouped together in a single response.  The
857  * "eventFlags" indicates the type of event(s) that have happened.
858  *
859  * Valid mods:
860  *   Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude, InstanceOnly
861  *   LocationOnly (for breakpoint/step only)
862  *   Step (for step only)
863  *
864  * Interesting test cases:
865  *  - Put a breakpoint on a native method.  Eclipse creates METHOD_ENTRY
866  *    and METHOD_EXIT events with a ClassOnly mod on the method's class.
867  *  - Use "run to line".  Eclipse creates a BREAKPOINT with Count=1.
868  *  - Single-step to a line with a breakpoint.  Should get a single
869  *    event message with both events in it.
870  */
PostLocationEvent(const EventLocation * pLoc,mirror::Object * thisPtr,int eventFlags,const JValue * returnValue)871 void JdwpState::PostLocationEvent(const EventLocation* pLoc, mirror::Object* thisPtr,
872                                   int eventFlags, const JValue* returnValue) {
873   DCHECK(pLoc != nullptr);
874   DCHECK(pLoc->method != nullptr);
875   DCHECK_EQ(pLoc->method->IsStatic(), thisPtr == nullptr);
876 
877   ModBasket basket(Thread::Current());
878   basket.pLoc = pLoc;
879   basket.locationClass.Assign(pLoc->method->GetDeclaringClass());
880   basket.thisPtr.Assign(thisPtr);
881   basket.className = Dbg::GetClassName(basket.locationClass.Get());
882 
883   /*
884    * On rare occasions we may need to execute interpreted code in the VM
885    * while handling a request from the debugger.  Don't fire breakpoints
886    * while doing so.  (I don't think we currently do this at all, so
887    * this is mostly paranoia.)
888    */
889   if (basket.thread == GetDebugThread()) {
890     VLOG(jdwp) << "Ignoring location event in JDWP thread";
891     return;
892   }
893 
894   /*
895    * The debugger variable display tab may invoke the interpreter to format
896    * complex objects.  We want to ignore breakpoints and method entry/exit
897    * traps while working on behalf of the debugger.
898    *
899    * If we don't ignore them, the VM will get hung up, because we'll
900    * suspend on a breakpoint while the debugger is still waiting for its
901    * method invocation to complete.
902    */
903   if (InvokeInProgress()) {
904     VLOG(jdwp) << "Not checking breakpoints during invoke (" << basket.className << ")";
905     return;
906   }
907 
908   std::vector<JdwpEvent*> match_list;
909   {
910     // We use the locked version because we have multiple possible match events.
911     MutexLock mu(Thread::Current(), event_list_lock_);
912     match_list.reserve(event_list_size_);
913     if ((eventFlags & Dbg::kBreakpoint) != 0) {
914       FindMatchingEventsLocked(EK_BREAKPOINT, basket, &match_list);
915     }
916     if ((eventFlags & Dbg::kSingleStep) != 0) {
917       FindMatchingEventsLocked(EK_SINGLE_STEP, basket, &match_list);
918     }
919     if ((eventFlags & Dbg::kMethodEntry) != 0) {
920       FindMatchingEventsLocked(EK_METHOD_ENTRY, basket, &match_list);
921     }
922     if ((eventFlags & Dbg::kMethodExit) != 0) {
923       FindMatchingEventsLocked(EK_METHOD_EXIT, basket, &match_list);
924       FindMatchingEventsLocked(EK_METHOD_EXIT_WITH_RETURN_VALUE, basket, &match_list);
925     }
926   }
927   if (match_list.empty()) {
928     // No matching event.
929     return;
930   }
931   JdwpSuspendPolicy suspend_policy = ScanSuspendPolicy(match_list);
932 
933   ObjectId thread_id = Dbg::GetThreadId(basket.thread);
934   JDWP::JdwpLocation jdwp_location;
935   SetJdwpLocationFromEventLocation(pLoc, &jdwp_location);
936 
937   if (VLOG_IS_ON(jdwp)) {
938     LogMatchingEventsAndThread(match_list, thread_id);
939     VLOG(jdwp) << "  location=" << jdwp_location;
940     VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
941   }
942 
943   ExpandBuf* pReq = eventPrep();
944   expandBufAdd1(pReq, suspend_policy);
945   expandBufAdd4BE(pReq, match_list.size());
946 
947   for (const JdwpEvent* pEvent : match_list) {
948     expandBufAdd1(pReq, pEvent->eventKind);
949     expandBufAdd4BE(pReq, pEvent->requestId);
950     expandBufAddObjectId(pReq, thread_id);
951     expandBufAddLocation(pReq, jdwp_location);
952     if (pEvent->eventKind == EK_METHOD_EXIT_WITH_RETURN_VALUE) {
953       Dbg::OutputMethodReturnValue(jdwp_location.method_id, returnValue, pReq);
954     }
955   }
956 
957   {
958     MutexLock mu(Thread::Current(), event_list_lock_);
959     CleanupMatchList(match_list);
960   }
961 
962   Dbg::ManageDeoptimization();
963 
964   SendRequestAndPossiblySuspend(pReq, suspend_policy, thread_id);
965 }
966 
PostFieldEvent(const EventLocation * pLoc,ArtField * field,mirror::Object * this_object,const JValue * fieldValue,bool is_modification)967 void JdwpState::PostFieldEvent(const EventLocation* pLoc, ArtField* field,
968                                mirror::Object* this_object, const JValue* fieldValue,
969                                bool is_modification) {
970   DCHECK(pLoc != nullptr);
971   DCHECK(field != nullptr);
972   DCHECK_EQ(fieldValue != nullptr, is_modification);
973   DCHECK_EQ(field->IsStatic(), this_object == nullptr);
974 
975   ModBasket basket(Thread::Current());
976   basket.pLoc = pLoc;
977   basket.locationClass.Assign(pLoc->method->GetDeclaringClass());
978   basket.thisPtr.Assign(this_object);
979   basket.className = Dbg::GetClassName(basket.locationClass.Get());
980   basket.field = field;
981 
982   if (InvokeInProgress()) {
983     VLOG(jdwp) << "Not posting field event during invoke (" << basket.className << ")";
984     return;
985   }
986 
987   std::vector<JdwpEvent*> match_list;
988   const JdwpEventKind match_kind = (is_modification) ? EK_FIELD_MODIFICATION : EK_FIELD_ACCESS;
989   if (!FindMatchingEvents(match_kind, basket, &match_list)) {
990     // No matching event.
991     return;
992   }
993 
994   JdwpSuspendPolicy suspend_policy = ScanSuspendPolicy(match_list);
995   ObjectId thread_id = Dbg::GetThreadId(basket.thread);
996   ObjectRegistry* registry = Dbg::GetObjectRegistry();
997   ObjectId instance_id = registry->Add(basket.thisPtr);
998   RefTypeId field_type_id = registry->AddRefType(field->GetDeclaringClass());
999   FieldId field_id = Dbg::ToFieldId(field);
1000   JDWP::JdwpLocation jdwp_location;
1001   SetJdwpLocationFromEventLocation(pLoc, &jdwp_location);
1002 
1003   if (VLOG_IS_ON(jdwp)) {
1004     LogMatchingEventsAndThread(match_list, thread_id);
1005     VLOG(jdwp) << "  location=" << jdwp_location;
1006     VLOG(jdwp) << StringPrintf("  this=%#" PRIx64, instance_id);
1007     VLOG(jdwp) << StringPrintf("  type=%#" PRIx64, field_type_id) << " "
1008         << Dbg::GetClassName(field_id);
1009     VLOG(jdwp) << StringPrintf("  field=%#" PRIx64, field_id) << " "
1010         << Dbg::GetFieldName(field_id);
1011     VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
1012   }
1013 
1014   ExpandBuf* pReq = eventPrep();
1015   expandBufAdd1(pReq, suspend_policy);
1016   expandBufAdd4BE(pReq, match_list.size());
1017 
1018   // Get field's reference type tag.
1019   JDWP::JdwpTypeTag type_tag = Dbg::GetTypeTag(field->GetDeclaringClass());
1020 
1021   // Get instance type tag.
1022   uint8_t tag;
1023   {
1024     ScopedObjectAccessUnchecked soa(Thread::Current());
1025     tag = Dbg::TagFromObject(soa, basket.thisPtr.Get());
1026   }
1027 
1028   for (const JdwpEvent* pEvent : match_list) {
1029     expandBufAdd1(pReq, pEvent->eventKind);
1030     expandBufAdd4BE(pReq, pEvent->requestId);
1031     expandBufAddObjectId(pReq, thread_id);
1032     expandBufAddLocation(pReq, jdwp_location);
1033     expandBufAdd1(pReq, type_tag);
1034     expandBufAddRefTypeId(pReq, field_type_id);
1035     expandBufAddFieldId(pReq, field_id);
1036     expandBufAdd1(pReq, tag);
1037     expandBufAddObjectId(pReq, instance_id);
1038     if (is_modification) {
1039       Dbg::OutputFieldValue(field_id, fieldValue, pReq);
1040     }
1041   }
1042 
1043   {
1044     MutexLock mu(Thread::Current(), event_list_lock_);
1045     CleanupMatchList(match_list);
1046   }
1047 
1048   Dbg::ManageDeoptimization();
1049 
1050   SendRequestAndPossiblySuspend(pReq, suspend_policy, thread_id);
1051 }
1052 
1053 /*
1054  * A thread is starting or stopping.
1055  *
1056  * Valid mods:
1057  *  Count, ThreadOnly
1058  */
PostThreadChange(Thread * thread,bool start)1059 void JdwpState::PostThreadChange(Thread* thread, bool start) {
1060   CHECK_EQ(thread, Thread::Current());
1061 
1062   /*
1063    * I don't think this can happen.
1064    */
1065   if (InvokeInProgress()) {
1066     LOG(WARNING) << "Not posting thread change during invoke";
1067     return;
1068   }
1069 
1070   // We need the java.lang.Thread object associated to the starting/ending
1071   // thread to get its JDWP id. Therefore we can't report event if there
1072   // is no Java peer. This happens when the runtime shuts down and re-attaches
1073   // the current thread without creating a Java peer.
1074   if (thread->GetPeer() == nullptr) {
1075     return;
1076   }
1077 
1078   ModBasket basket(thread);
1079 
1080   std::vector<JdwpEvent*> match_list;
1081   const JdwpEventKind match_kind = (start) ? EK_THREAD_START : EK_THREAD_DEATH;
1082   if (!FindMatchingEvents(match_kind, basket, &match_list)) {
1083     // No matching event.
1084     return;
1085   }
1086 
1087   JdwpSuspendPolicy suspend_policy = ScanSuspendPolicy(match_list);
1088   ObjectId thread_id = Dbg::GetThreadId(basket.thread);
1089 
1090   if (VLOG_IS_ON(jdwp)) {
1091     LogMatchingEventsAndThread(match_list, thread_id);
1092     VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
1093   }
1094 
1095   ExpandBuf* pReq = eventPrep();
1096   expandBufAdd1(pReq, suspend_policy);
1097   expandBufAdd4BE(pReq, match_list.size());
1098 
1099   for (const JdwpEvent* pEvent : match_list) {
1100     expandBufAdd1(pReq, pEvent->eventKind);
1101     expandBufAdd4BE(pReq, pEvent->requestId);
1102     expandBufAdd8BE(pReq, thread_id);
1103   }
1104 
1105   {
1106     MutexLock mu(Thread::Current(), event_list_lock_);
1107     CleanupMatchList(match_list);
1108   }
1109 
1110   Dbg::ManageDeoptimization();
1111 
1112   SendRequestAndPossiblySuspend(pReq, suspend_policy, thread_id);
1113 }
1114 
1115 /*
1116  * Send a polite "VM is dying" message to the debugger.
1117  *
1118  * Skips the usual "event token" stuff.
1119  */
PostVMDeath()1120 bool JdwpState::PostVMDeath() {
1121   VLOG(jdwp) << "EVENT: " << EK_VM_DEATH;
1122 
1123   ExpandBuf* pReq = eventPrep();
1124   expandBufAdd1(pReq, SP_NONE);
1125   expandBufAdd4BE(pReq, 1);
1126 
1127   expandBufAdd1(pReq, EK_VM_DEATH);
1128   expandBufAdd4BE(pReq, 0);
1129   EventFinish(pReq);
1130   return true;
1131 }
1132 
1133 /*
1134  * An exception has been thrown.  It may or may not have been caught.
1135  *
1136  * Valid mods:
1137  *  Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude, LocationOnly,
1138  *    ExceptionOnly, InstanceOnly
1139  *
1140  * The "exceptionId" has not been added to the GC-visible object registry,
1141  * because there's a pretty good chance that we're not going to send it
1142  * up the debugger.
1143  */
PostException(const EventLocation * pThrowLoc,mirror::Throwable * exception_object,const EventLocation * pCatchLoc,mirror::Object * thisPtr)1144 void JdwpState::PostException(const EventLocation* pThrowLoc, mirror::Throwable* exception_object,
1145                               const EventLocation* pCatchLoc, mirror::Object* thisPtr) {
1146   DCHECK(exception_object != nullptr);
1147   DCHECK(pThrowLoc != nullptr);
1148   DCHECK(pCatchLoc != nullptr);
1149   if (pThrowLoc->method != nullptr) {
1150     DCHECK_EQ(pThrowLoc->method->IsStatic(), thisPtr == nullptr);
1151   } else {
1152     VLOG(jdwp) << "Unexpected: exception event with empty throw location";
1153   }
1154 
1155   ModBasket basket(Thread::Current());
1156   basket.pLoc = pThrowLoc;
1157   if (pThrowLoc->method != nullptr) {
1158     basket.locationClass.Assign(pThrowLoc->method->GetDeclaringClass());
1159   }
1160   basket.className = Dbg::GetClassName(basket.locationClass.Get());
1161   basket.exceptionClass.Assign(exception_object->GetClass());
1162   basket.caught = (pCatchLoc->method != 0);
1163   basket.thisPtr.Assign(thisPtr);
1164 
1165   /* don't try to post an exception caused by the debugger */
1166   if (InvokeInProgress()) {
1167     VLOG(jdwp) << "Not posting exception hit during invoke (" << basket.className << ")";
1168     return;
1169   }
1170 
1171   std::vector<JdwpEvent*> match_list;
1172   if (!FindMatchingEvents(EK_EXCEPTION, basket, &match_list)) {
1173     // No matching event.
1174     return;
1175   }
1176 
1177   JdwpSuspendPolicy suspend_policy = ScanSuspendPolicy(match_list);
1178   ObjectId thread_id = Dbg::GetThreadId(basket.thread);
1179   ObjectRegistry* registry = Dbg::GetObjectRegistry();
1180   ObjectId exceptionId = registry->Add(exception_object);
1181   JDWP::JdwpLocation jdwp_throw_location;
1182   JDWP::JdwpLocation jdwp_catch_location;
1183   SetJdwpLocationFromEventLocation(pThrowLoc, &jdwp_throw_location);
1184   SetJdwpLocationFromEventLocation(pCatchLoc, &jdwp_catch_location);
1185 
1186   if (VLOG_IS_ON(jdwp)) {
1187     std::string exceptionClassName(mirror::Class::PrettyDescriptor(exception_object->GetClass()));
1188 
1189     LogMatchingEventsAndThread(match_list, thread_id);
1190     VLOG(jdwp) << "  throwLocation=" << jdwp_throw_location;
1191     if (jdwp_catch_location.class_id == 0) {
1192       VLOG(jdwp) << "  catchLocation=uncaught";
1193     } else {
1194       VLOG(jdwp) << "  catchLocation=" << jdwp_catch_location;
1195     }
1196     VLOG(jdwp) << StringPrintf("  exception=%#" PRIx64, exceptionId) << " "
1197         << exceptionClassName;
1198     VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
1199   }
1200 
1201   ExpandBuf* pReq = eventPrep();
1202   expandBufAdd1(pReq, suspend_policy);
1203   expandBufAdd4BE(pReq, match_list.size());
1204 
1205   for (const JdwpEvent* pEvent : match_list) {
1206     expandBufAdd1(pReq, pEvent->eventKind);
1207     expandBufAdd4BE(pReq, pEvent->requestId);
1208     expandBufAddObjectId(pReq, thread_id);
1209     expandBufAddLocation(pReq, jdwp_throw_location);
1210     expandBufAdd1(pReq, JT_OBJECT);
1211     expandBufAddObjectId(pReq, exceptionId);
1212     expandBufAddLocation(pReq, jdwp_catch_location);
1213   }
1214 
1215   {
1216     MutexLock mu(Thread::Current(), event_list_lock_);
1217     CleanupMatchList(match_list);
1218   }
1219 
1220   Dbg::ManageDeoptimization();
1221 
1222   SendRequestAndPossiblySuspend(pReq, suspend_policy, thread_id);
1223 }
1224 
1225 /*
1226  * Announce that a class has been loaded.
1227  *
1228  * Valid mods:
1229  *  Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude
1230  */
PostClassPrepare(mirror::Class * klass)1231 void JdwpState::PostClassPrepare(mirror::Class* klass) {
1232   DCHECK(klass != nullptr);
1233 
1234   ModBasket basket(Thread::Current());
1235   basket.locationClass.Assign(klass);
1236   basket.className = Dbg::GetClassName(basket.locationClass.Get());
1237 
1238   /* suppress class prep caused by debugger */
1239   if (InvokeInProgress()) {
1240     VLOG(jdwp) << "Not posting class prep caused by invoke (" << basket.className << ")";
1241     return;
1242   }
1243 
1244   std::vector<JdwpEvent*> match_list;
1245   if (!FindMatchingEvents(EK_CLASS_PREPARE, basket, &match_list)) {
1246     // No matching event.
1247     return;
1248   }
1249 
1250   JdwpSuspendPolicy suspend_policy = ScanSuspendPolicy(match_list);
1251   ObjectId thread_id = Dbg::GetThreadId(basket.thread);
1252   ObjectRegistry* registry = Dbg::GetObjectRegistry();
1253   RefTypeId class_id = registry->AddRefType(basket.locationClass);
1254 
1255   // OLD-TODO - we currently always send both "verified" and "prepared" since
1256   // debuggers seem to like that.  There might be some advantage to honesty,
1257   // since the class may not yet be verified.
1258   int status = JDWP::CS_VERIFIED | JDWP::CS_PREPARED;
1259   JDWP::JdwpTypeTag tag = Dbg::GetTypeTag(basket.locationClass.Get());
1260   std::string temp;
1261   std::string signature(basket.locationClass->GetDescriptor(&temp));
1262 
1263   if (VLOG_IS_ON(jdwp)) {
1264     LogMatchingEventsAndThread(match_list, thread_id);
1265     VLOG(jdwp) << StringPrintf("  type=%#" PRIx64, class_id) << " " << signature;
1266     VLOG(jdwp) << "  suspend_policy=" << suspend_policy;
1267   }
1268 
1269   ObjectId reported_thread_id = thread_id;
1270   if (reported_thread_id == debug_thread_id_) {
1271     /*
1272      * JDWP says that, for a class prep in the debugger thread, we
1273      * should set thread to null and if any threads were supposed
1274      * to be suspended then we suspend all other threads.
1275      */
1276     VLOG(jdwp) << "  NOTE: class prepare in debugger thread!";
1277     reported_thread_id = 0;
1278     if (suspend_policy == SP_EVENT_THREAD) {
1279       suspend_policy = SP_ALL;
1280     }
1281   }
1282 
1283   ExpandBuf* pReq = eventPrep();
1284   expandBufAdd1(pReq, suspend_policy);
1285   expandBufAdd4BE(pReq, match_list.size());
1286 
1287   for (const JdwpEvent* pEvent : match_list) {
1288     expandBufAdd1(pReq, pEvent->eventKind);
1289     expandBufAdd4BE(pReq, pEvent->requestId);
1290     expandBufAddObjectId(pReq, reported_thread_id);
1291     expandBufAdd1(pReq, tag);
1292     expandBufAddRefTypeId(pReq, class_id);
1293     expandBufAddUtf8String(pReq, signature);
1294     expandBufAdd4BE(pReq, status);
1295   }
1296 
1297   {
1298     MutexLock mu(Thread::Current(), event_list_lock_);
1299     CleanupMatchList(match_list);
1300   }
1301 
1302   Dbg::ManageDeoptimization();
1303 
1304   SendRequestAndPossiblySuspend(pReq, suspend_policy, thread_id);
1305 }
1306 
1307 /*
1308  * Setup the header for a chunk of DDM data.
1309  */
SetupChunkHeader(uint32_t type,size_t data_len,size_t header_size,uint8_t * out_header)1310 void JdwpState::SetupChunkHeader(uint32_t type, size_t data_len, size_t header_size,
1311                                  uint8_t* out_header) {
1312   CHECK_EQ(header_size, static_cast<size_t>(kJDWPHeaderLen + 8));
1313   /* form the header (JDWP plus DDMS) */
1314   Set4BE(out_header, header_size + data_len);
1315   Set4BE(out_header + 4, NextRequestSerial());
1316   Set1(out_header + 8, 0);     /* flags */
1317   Set1(out_header + 9, kJDWPDdmCmdSet);
1318   Set1(out_header + 10, kJDWPDdmCmd);
1319   Set4BE(out_header + 11, type);
1320   Set4BE(out_header + 15, data_len);
1321 }
1322 
1323 /*
1324  * Send up a chunk of DDM data.
1325  *
1326  * While this takes the form of a JDWP "event", it doesn't interact with
1327  * other debugger traffic, and can't suspend the VM, so we skip all of
1328  * the fun event token gymnastics.
1329  */
DdmSendChunkV(uint32_t type,const iovec * iov,int iov_count)1330 void JdwpState::DdmSendChunkV(uint32_t type, const iovec* iov, int iov_count) {
1331   uint8_t header[kJDWPHeaderLen + 8] = { 0 };
1332   size_t dataLen = 0;
1333 
1334   CHECK(iov != nullptr);
1335   CHECK_GT(iov_count, 0);
1336   CHECK_LT(iov_count, 10);
1337 
1338   /*
1339    * "Wrap" the contents of the iovec with a JDWP/DDMS header.  We do
1340    * this by creating a new copy of the vector with space for the header.
1341    */
1342   std::vector<iovec> wrapiov;
1343   wrapiov.push_back(iovec());
1344   for (int i = 0; i < iov_count; i++) {
1345     wrapiov.push_back(iov[i]);
1346     dataLen += iov[i].iov_len;
1347   }
1348 
1349   SetupChunkHeader(type, dataLen, sizeof(header), header);
1350 
1351   wrapiov[0].iov_base = header;
1352   wrapiov[0].iov_len = sizeof(header);
1353 
1354   // Try to avoid blocking GC during a send, but only safe when not using mutexes at a lower-level
1355   // than mutator for lock ordering reasons.
1356   Thread* self = Thread::Current();
1357   bool safe_to_release_mutator_lock_over_send = !Locks::mutator_lock_->IsExclusiveHeld(self);
1358   if (safe_to_release_mutator_lock_over_send) {
1359     for (size_t i = 0; i < kMutatorLock; ++i) {
1360       if (self->GetHeldMutex(static_cast<LockLevel>(i)) != nullptr) {
1361         safe_to_release_mutator_lock_over_send = false;
1362         break;
1363       }
1364     }
1365   }
1366   if (safe_to_release_mutator_lock_over_send) {
1367     // Change state to waiting to allow GC, ... while we're sending.
1368     ScopedThreadSuspension sts(self, kWaitingForDebuggerSend);
1369     SendBufferedRequest(type, wrapiov);
1370   } else {
1371     // Send and possibly block GC...
1372     SendBufferedRequest(type, wrapiov);
1373   }
1374 }
1375 
1376 }  // namespace JDWP
1377 
1378 }  // namespace art
1379