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      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  * Send events to the debugger.
     18  */
     19 #include "jdwp/JdwpPriv.h"
     20 #include "jdwp/JdwpConstants.h"
     21 #include "jdwp/JdwpHandler.h"
     22 #include "jdwp/JdwpEvent.h"
     23 #include "jdwp/ExpandBuf.h"
     24 
     25 #include <stdlib.h>
     26 #include <string.h>
     27 #include <stddef.h>     /* for offsetof() */
     28 #include <unistd.h>
     29 
     30 /*
     31 General notes:
     32 
     33 The event add/remove stuff usually happens from the debugger thread,
     34 in response to requests from the debugger, but can also happen as the
     35 result of an event in an arbitrary thread (e.g. an event with a "count"
     36 mod expires).  It's important to keep the event list locked when processing
     37 events.
     38 
     39 Event posting can happen from any thread.  The JDWP thread will not usually
     40 post anything but VM start/death, but if a JDWP request causes a class
     41 to be loaded, the ClassPrepare event will come from the JDWP thread.
     42 
     43 
     44 We can have serialization issues when we post an event to the debugger.
     45 For example, a thread could send an "I hit a breakpoint and am suspending
     46 myself" message to the debugger.  Before it manages to suspend itself, the
     47 debugger's response ("not interested, resume thread") arrives and is
     48 processed.  We try to resume a thread that hasn't yet suspended.
     49 
     50 This means that, after posting an event to the debugger, we need to wait
     51 for the event thread to suspend itself (and, potentially, all other threads)
     52 before processing any additional requests from the debugger.  While doing
     53 so we need to be aware that multiple threads may be hitting breakpoints
     54 or other events simultaneously, so we either need to wait for all of them
     55 or serialize the events with each other.
     56 
     57 The current mechanism works like this:
     58   Event thread:
     59    - If I'm going to suspend, grab the "I am posting an event" token.  Wait
     60      for it if it's not currently available.
     61    - Post the event to the debugger.
     62    - If appropriate, suspend others and then myself.  As part of suspending
     63      myself, release the "I am posting" token.
     64   JDWP thread:
     65    - When an event arrives, see if somebody is posting an event.  If so,
     66      sleep until we can acquire the "I am posting an event" token.  Release
     67      it immediately and continue processing -- the event we have already
     68      received should not interfere with other events that haven't yet
     69      been posted.
     70 
     71 Some care must be taken to avoid deadlock:
     72 
     73  - thread A and thread B exit near-simultaneously, and post thread-death
     74    events with a "suspend all" clause
     75  - thread A gets the event token, thread B sits and waits for it
     76  - thread A wants to suspend all other threads, but thread B is waiting
     77    for the token and can't be suspended
     78 
     79 So we need to mark thread B in such a way that thread A doesn't wait for it.
     80 
     81 If we just bracket the "grab event token" call with a change to VMWAIT
     82 before sleeping, the switch back to RUNNING state when we get the token
     83 will cause thread B to suspend (remember, thread A's global suspend is
     84 still in force, even after it releases the token).  Suspending while
     85 holding the event token is very bad, because it prevents the JDWP thread
     86 from processing incoming messages.
     87 
     88 We need to change to VMWAIT state at the *start* of posting an event,
     89 and stay there until we either finish posting the event or decide to
     90 put ourselves to sleep.  That way we don't interfere with anyone else and
     91 don't allow anyone else to interfere with us.
     92 */
     93 
     94 
     95 #define kJdwpEventCommandSet    64
     96 #define kJdwpCompositeCommand   100
     97 
     98 /*
     99  * Stuff to compare against when deciding if a mod matches.  Only the
    100  * values for mods valid for the event being evaluated will be filled in.
    101  * The rest will be zeroed.
    102  */
    103 struct ModBasket {
    104     const JdwpLocation* pLoc;           /* LocationOnly */
    105     const char*         className;      /* ClassMatch/ClassExclude */
    106     ObjectId            threadId;       /* ThreadOnly */
    107     RefTypeId           classId;        /* ClassOnly */
    108     RefTypeId           excepClassId;   /* ExceptionOnly */
    109     bool                caught;         /* ExceptionOnly */
    110     FieldId             field;          /* FieldOnly */
    111     ObjectId            thisPtr;        /* InstanceOnly */
    112     /* nothing for StepOnly -- handled differently */
    113 };
    114 
    115 /*
    116  * Get the next "request" serial number.  We use this when sending
    117  * packets to the debugger.
    118  */
    119 u4 dvmJdwpNextRequestSerial(JdwpState* state)
    120 {
    121     dvmDbgLockMutex(&state->serialLock);
    122     u4 result = state->requestSerial++;
    123     dvmDbgUnlockMutex(&state->serialLock);
    124 
    125     return result;
    126 }
    127 
    128 /*
    129  * Get the next "event" serial number.  We use this in the response to
    130  * message type EventRequest.Set.
    131  */
    132 u4 dvmJdwpNextEventSerial(JdwpState* state)
    133 {
    134     dvmDbgLockMutex(&state->serialLock);
    135     u4 result = state->eventSerial++;
    136     dvmDbgUnlockMutex(&state->serialLock);
    137 
    138     return result;
    139 }
    140 
    141 /*
    142  * Lock the "event" mutex, which guards the list of registered events.
    143  */
    144 static void lockEventMutex(JdwpState* state)
    145 {
    146     //dvmDbgThreadWaiting();
    147     dvmDbgLockMutex(&state->eventLock);
    148     //dvmDbgThreadRunning();
    149 }
    150 
    151 /*
    152  * Unlock the "event" mutex.
    153  */
    154 static void unlockEventMutex(JdwpState* state)
    155 {
    156     dvmDbgUnlockMutex(&state->eventLock);
    157 }
    158 
    159 /*
    160  * Dump an event to the log file.
    161  */
    162 static void dumpEvent(const JdwpEvent* pEvent)
    163 {
    164     ALOGI("Event id=0x%4x %p (prev=%p next=%p):",
    165         pEvent->requestId, pEvent, pEvent->prev, pEvent->next);
    166     ALOGI("  kind=%s susp=%s modCount=%d",
    167         dvmJdwpEventKindStr(pEvent->eventKind),
    168         dvmJdwpSuspendPolicyStr(pEvent->suspendPolicy),
    169         pEvent->modCount);
    170 
    171     for (int i = 0; i < pEvent->modCount; i++) {
    172         const JdwpEventMod* pMod = &pEvent->mods[i];
    173         JdwpModKind kind = static_cast<JdwpModKind>(pMod->modKind);
    174         ALOGI("  %s", dvmJdwpModKindStr(kind));
    175         /* TODO - show details */
    176     }
    177 }
    178 
    179 /*
    180  * Add an event to the list.  Ordering is not important.
    181  *
    182  * If something prevents the event from being registered, e.g. it's a
    183  * single-step request on a thread that doesn't exist, the event will
    184  * not be added to the list, and an appropriate error will be returned.
    185  */
    186 JdwpError dvmJdwpRegisterEvent(JdwpState* state, JdwpEvent* pEvent)
    187 {
    188     lockEventMutex(state);
    189 
    190     assert(state != NULL);
    191     assert(pEvent != NULL);
    192     assert(pEvent->prev == NULL);
    193     assert(pEvent->next == NULL);
    194 
    195     /*
    196      * If one or more "break"-type mods are used, register them with
    197      * the interpreter.
    198      */
    199     for (int i = 0; i < pEvent->modCount; i++) {
    200         const JdwpEventMod* pMod = &pEvent->mods[i];
    201         if (pMod->modKind == MK_LOCATION_ONLY) {
    202             /* should only be for Breakpoint, Step, and Exception */
    203             dvmDbgWatchLocation(&pMod->locationOnly.loc);
    204         } else if (pMod->modKind == MK_STEP) {
    205             /* should only be for EK_SINGLE_STEP; should only be one */
    206             JdwpStepSize size = static_cast<JdwpStepSize>(pMod->step.size);
    207             JdwpStepDepth depth = static_cast<JdwpStepDepth>(pMod->step.depth);
    208             dvmDbgConfigureStep(pMod->step.threadId, size, depth);
    209         } else if (pMod->modKind == MK_FIELD_ONLY) {
    210             /* should be for EK_FIELD_ACCESS or EK_FIELD_MODIFICATION */
    211             dumpEvent(pEvent);  /* TODO - need for field watches */
    212         }
    213     }
    214 
    215     /*
    216      * Add to list.
    217      */
    218     if (state->eventList != NULL) {
    219         pEvent->next = state->eventList;
    220         state->eventList->prev = pEvent;
    221     }
    222     state->eventList = pEvent;
    223     state->numEvents++;
    224 
    225     unlockEventMutex(state);
    226 
    227     return ERR_NONE;
    228 }
    229 
    230 /*
    231  * Remove an event from the list.  This will also remove the event from
    232  * any optimization tables, e.g. breakpoints.
    233  *
    234  * Does not free the JdwpEvent.
    235  *
    236  * Grab the eventLock before calling here.
    237  */
    238 static void unregisterEvent(JdwpState* state, JdwpEvent* pEvent)
    239 {
    240     if (pEvent->prev == NULL) {
    241         /* head of the list */
    242         assert(state->eventList == pEvent);
    243 
    244         state->eventList = pEvent->next;
    245     } else {
    246         pEvent->prev->next = pEvent->next;
    247     }
    248 
    249     if (pEvent->next != NULL) {
    250         pEvent->next->prev = pEvent->prev;
    251         pEvent->next = NULL;
    252     }
    253     pEvent->prev = NULL;
    254 
    255     /*
    256      * Unhook us from the interpreter, if necessary.
    257      */
    258     for (int i = 0; i < pEvent->modCount; i++) {
    259         JdwpEventMod* pMod = &pEvent->mods[i];
    260         if (pMod->modKind == MK_LOCATION_ONLY) {
    261             /* should only be for Breakpoint, Step, and Exception */
    262             dvmDbgUnwatchLocation(&pMod->locationOnly.loc);
    263         }
    264         if (pMod->modKind == MK_STEP) {
    265             /* should only be for EK_SINGLE_STEP; should only be one */
    266             dvmDbgUnconfigureStep(pMod->step.threadId);
    267         }
    268     }
    269 
    270     state->numEvents--;
    271     assert(state->numEvents != 0 || state->eventList == NULL);
    272 }
    273 
    274 /*
    275  * Remove the event with the given ID from the list.
    276  *
    277  * Failure to find the event isn't really an error, but it is a little
    278  * weird.  (It looks like Eclipse will try to be extra careful and will
    279  * explicitly remove one-off single-step events.)
    280  */
    281 void dvmJdwpUnregisterEventById(JdwpState* state, u4 requestId)
    282 {
    283     lockEventMutex(state);
    284 
    285     JdwpEvent* pEvent = state->eventList;
    286     while (pEvent != NULL) {
    287         if (pEvent->requestId == requestId) {
    288             unregisterEvent(state, pEvent);
    289             dvmJdwpEventFree(pEvent);
    290             goto done;      /* there can be only one with a given ID */
    291         }
    292 
    293         pEvent = pEvent->next;
    294     }
    295 
    296     //ALOGD("Odd: no match when removing event reqId=0x%04x", requestId);
    297 
    298 done:
    299     unlockEventMutex(state);
    300 }
    301 
    302 /*
    303  * Remove all entries from the event list.
    304  */
    305 void dvmJdwpUnregisterAll(JdwpState* state)
    306 {
    307     lockEventMutex(state);
    308 
    309     JdwpEvent* pEvent = state->eventList;
    310     while (pEvent != NULL) {
    311         JdwpEvent* pNextEvent = pEvent->next;
    312 
    313         unregisterEvent(state, pEvent);
    314         dvmJdwpEventFree(pEvent);
    315         pEvent = pNextEvent;
    316     }
    317 
    318     state->eventList = NULL;
    319 
    320     unlockEventMutex(state);
    321 }
    322 
    323 
    324 
    325 /*
    326  * Allocate a JdwpEvent struct with enough space to hold the specified
    327  * number of mod records.
    328  */
    329 JdwpEvent* dvmJdwpEventAlloc(int numMods)
    330 {
    331     JdwpEvent* newEvent;
    332     int allocSize = offsetof(JdwpEvent, mods) +
    333                     numMods * sizeof(newEvent->mods[0]);
    334 
    335     newEvent = (JdwpEvent*)calloc(1, allocSize);
    336     return newEvent;
    337 }
    338 
    339 /*
    340  * Free a JdwpEvent.
    341  *
    342  * Do not call this until the event has been removed from the list.
    343  */
    344 void dvmJdwpEventFree(JdwpEvent* pEvent)
    345 {
    346     if (pEvent == NULL)
    347         return;
    348 
    349     /* make sure it was removed from the list */
    350     assert(pEvent->prev == NULL);
    351     assert(pEvent->next == NULL);
    352     /* want to assert state->eventList != pEvent */
    353 
    354     /*
    355      * Free any hairy bits in the mods.
    356      */
    357     for (int i = 0; i < pEvent->modCount; i++) {
    358         if (pEvent->mods[i].modKind == MK_CLASS_MATCH) {
    359             free(pEvent->mods[i].classMatch.classPattern);
    360             pEvent->mods[i].classMatch.classPattern = NULL;
    361         }
    362         if (pEvent->mods[i].modKind == MK_CLASS_EXCLUDE) {
    363             free(pEvent->mods[i].classExclude.classPattern);
    364             pEvent->mods[i].classExclude.classPattern = NULL;
    365         }
    366     }
    367 
    368     free(pEvent);
    369 }
    370 
    371 /*
    372  * Allocate storage for matching events.  To keep things simple we
    373  * use an array with enough storage for the entire list.
    374  *
    375  * The state->eventLock should be held before calling.
    376  */
    377 static JdwpEvent** allocMatchList(JdwpState* state)
    378 {
    379     return (JdwpEvent**) malloc(sizeof(JdwpEvent*) * state->numEvents);
    380 }
    381 
    382 /*
    383  * Run through the list and remove any entries with an expired "count" mod
    384  * from the event list, then free the match list.
    385  */
    386 static void cleanupMatchList(JdwpState* state, JdwpEvent** matchList,
    387     int matchCount)
    388 {
    389     JdwpEvent** ppEvent = matchList;
    390 
    391     while (matchCount--) {
    392         JdwpEvent* pEvent = *ppEvent;
    393 
    394         for (int i = 0; i < pEvent->modCount; i++) {
    395             if (pEvent->mods[i].modKind == MK_COUNT &&
    396                 pEvent->mods[i].count.count == 0)
    397             {
    398                 ALOGV("##### Removing expired event");
    399                 unregisterEvent(state, pEvent);
    400                 dvmJdwpEventFree(pEvent);
    401                 break;
    402             }
    403         }
    404 
    405         ppEvent++;
    406     }
    407 
    408     free(matchList);
    409 }
    410 
    411 /*
    412  * Match a string against a "restricted regular expression", which is just
    413  * a string that may start or end with '*' (e.g. "*.Foo" or "java.*").
    414  *
    415  * ("Restricted name globbing" might have been a better term.)
    416  */
    417 static bool patternMatch(const char* pattern, const char* target)
    418 {
    419     int patLen = strlen(pattern);
    420 
    421     if (pattern[0] == '*') {
    422         int targetLen = strlen(target);
    423         patLen--;
    424         // TODO: remove printf when we find a test case to verify this
    425         ALOGE(">>> comparing '%s' to '%s'",
    426             pattern+1, target + (targetLen-patLen));
    427 
    428         if (targetLen < patLen)
    429             return false;
    430         return strcmp(pattern+1, target + (targetLen-patLen)) == 0;
    431     } else if (pattern[patLen-1] == '*') {
    432         return strncmp(pattern, target, patLen-1) == 0;
    433     } else {
    434         return strcmp(pattern, target) == 0;
    435     }
    436 }
    437 
    438 /*
    439  * See if two locations are equal.
    440  *
    441  * It's tempting to do a bitwise compare ("struct ==" or memcmp), but if
    442  * the storage wasn't zeroed out there could be undefined values in the
    443  * padding.  Besides, the odds of "idx" being equal while the others aren't
    444  * is very small, so this is usually just a simple integer comparison.
    445  */
    446 static inline bool locationMatch(const JdwpLocation* pLoc1,
    447     const JdwpLocation* pLoc2)
    448 {
    449     return pLoc1->idx == pLoc2->idx &&
    450            pLoc1->methodId == pLoc2->methodId &&
    451            pLoc1->classId == pLoc2->classId &&
    452            pLoc1->typeTag == pLoc2->typeTag;
    453 }
    454 
    455 /*
    456  * See if the event's mods match up with the contents of "basket".
    457  *
    458  * If we find a Count mod before rejecting an event, we decrement it.  We
    459  * need to do this even if later mods cause us to ignore the event.
    460  */
    461 static bool modsMatch(JdwpState* state, JdwpEvent* pEvent, ModBasket* basket)
    462 {
    463     JdwpEventMod* pMod = pEvent->mods;
    464 
    465     for (int i = pEvent->modCount; i > 0; i--, pMod++) {
    466         switch (pMod->modKind) {
    467         case MK_COUNT:
    468             assert(pMod->count.count > 0);
    469             pMod->count.count--;
    470             break;
    471         case MK_CONDITIONAL:
    472             assert(false);  // should not be getting these
    473             break;
    474         case MK_THREAD_ONLY:
    475             if (pMod->threadOnly.threadId != basket->threadId)
    476                 return false;
    477             break;
    478         case MK_CLASS_ONLY:
    479             if (!dvmDbgMatchType(basket->classId, pMod->classOnly.refTypeId))
    480                 return false;
    481             break;
    482         case MK_CLASS_MATCH:
    483             if (!patternMatch(pMod->classMatch.classPattern,
    484                     basket->className))
    485                 return false;
    486             break;
    487         case MK_CLASS_EXCLUDE:
    488             if (patternMatch(pMod->classMatch.classPattern,
    489                     basket->className))
    490                 return false;
    491             break;
    492         case MK_LOCATION_ONLY:
    493             if (!locationMatch(&pMod->locationOnly.loc, basket->pLoc))
    494                 return false;
    495             break;
    496         case MK_EXCEPTION_ONLY:
    497             if (pMod->exceptionOnly.refTypeId != 0 &&
    498                 !dvmDbgMatchType(basket->excepClassId,
    499                                  pMod->exceptionOnly.refTypeId))
    500                 return false;
    501             if ((basket->caught && !pMod->exceptionOnly.caught) ||
    502                 (!basket->caught && !pMod->exceptionOnly.uncaught))
    503                 return false;
    504             break;
    505         case MK_FIELD_ONLY:
    506             if (!dvmDbgMatchType(basket->classId, pMod->fieldOnly.refTypeId) ||
    507                     pMod->fieldOnly.fieldId != basket->field)
    508                 return false;
    509             break;
    510         case MK_STEP:
    511             if (pMod->step.threadId != basket->threadId)
    512                 return false;
    513             break;
    514         case MK_INSTANCE_ONLY:
    515             if (pMod->instanceOnly.objectId != basket->thisPtr)
    516                 return false;
    517             break;
    518         default:
    519             ALOGE("unhandled mod kind %d", pMod->modKind);
    520             assert(false);
    521             break;
    522         }
    523     }
    524 
    525     return true;
    526 }
    527 
    528 /*
    529  * Find all events of type "eventKind" with mods that match up with the
    530  * rest of the arguments.
    531  *
    532  * Found events are appended to "matchList", and "*pMatchCount" is advanced,
    533  * so this may be called multiple times for grouped events.
    534  *
    535  * DO NOT call this multiple times for the same eventKind, as Count mods are
    536  * decremented during the scan.
    537  */
    538 static void findMatchingEvents(JdwpState* state, JdwpEventKind eventKind,
    539     ModBasket* basket, JdwpEvent** matchList, int* pMatchCount)
    540 {
    541     /* start after the existing entries */
    542     matchList += *pMatchCount;
    543 
    544     JdwpEvent* pEvent = state->eventList;
    545     while (pEvent != NULL) {
    546         if (pEvent->eventKind == eventKind && modsMatch(state, pEvent, basket))
    547         {
    548             *matchList++ = pEvent;
    549             (*pMatchCount)++;
    550         }
    551 
    552         pEvent = pEvent->next;
    553     }
    554 }
    555 
    556 /*
    557  * Scan through the list of matches and determine the most severe
    558  * suspension policy.
    559  */
    560 static JdwpSuspendPolicy scanSuspendPolicy(JdwpEvent** matchList,
    561     int matchCount)
    562 {
    563     JdwpSuspendPolicy policy = SP_NONE;
    564 
    565     while (matchCount--) {
    566         if ((*matchList)->suspendPolicy > policy)
    567             policy = (*matchList)->suspendPolicy;
    568         matchList++;
    569     }
    570 
    571     return policy;
    572 }
    573 
    574 /*
    575  * Three possibilities:
    576  *  SP_NONE - do nothing
    577  *  SP_EVENT_THREAD - suspend ourselves
    578  *  SP_ALL - suspend everybody except JDWP support thread
    579  */
    580 static void suspendByPolicy(JdwpState* state, JdwpSuspendPolicy suspendPolicy)
    581 {
    582     if (suspendPolicy == SP_NONE)
    583         return;
    584 
    585     if (suspendPolicy == SP_ALL) {
    586         dvmDbgSuspendVM(true);
    587     } else {
    588         assert(suspendPolicy == SP_EVENT_THREAD);
    589     }
    590 
    591     /* this is rare but possible -- see CLASS_PREPARE handling */
    592     if (dvmDbgGetThreadSelfId() == state->debugThreadId) {
    593         ALOGI("NOTE: suspendByPolicy not suspending JDWP thread");
    594         return;
    595     }
    596 
    597     DebugInvokeReq* pReq = dvmDbgGetInvokeReq();
    598     while (true) {
    599         pReq->ready = true;
    600         dvmDbgSuspendSelf();
    601         pReq->ready = false;
    602 
    603         /*
    604          * The JDWP thread has told us (and possibly all other threads) to
    605          * resume.  See if it has left anything in our DebugInvokeReq mailbox.
    606          */
    607         if (!pReq->invokeNeeded) {
    608             /*LOGD("suspendByPolicy: no invoke needed");*/
    609             break;
    610         }
    611 
    612         /* grab this before posting/suspending again */
    613         dvmJdwpSetWaitForEventThread(state, dvmDbgGetThreadSelfId());
    614 
    615         /* leave pReq->invokeNeeded raised so we can check reentrancy */
    616         ALOGV("invoking method...");
    617         dvmDbgExecuteMethod(pReq);
    618 
    619         pReq->err = ERR_NONE;
    620 
    621         /* clear this before signaling */
    622         pReq->invokeNeeded = false;
    623 
    624         ALOGV("invoke complete, signaling and self-suspending");
    625         dvmDbgLockMutex(&pReq->lock);
    626         dvmDbgCondSignal(&pReq->cv);
    627         dvmDbgUnlockMutex(&pReq->lock);
    628     }
    629 }
    630 
    631 /*
    632  * Determine if there is a method invocation in progress in the current
    633  * thread.
    634  *
    635  * We look at the "invokeNeeded" flag in the per-thread DebugInvokeReq
    636  * state.  If set, we're in the process of invoking a method.
    637  */
    638 static bool invokeInProgress(JdwpState* state)
    639 {
    640     DebugInvokeReq* pReq = dvmDbgGetInvokeReq();
    641     return pReq->invokeNeeded;
    642 }
    643 
    644 /*
    645  * We need the JDWP thread to hold off on doing stuff while we post an
    646  * event and then suspend ourselves.
    647  *
    648  * Call this with a threadId of zero if you just want to wait for the
    649  * current thread operation to complete.
    650  *
    651  * This could go to sleep waiting for another thread, so it's important
    652  * that the thread be marked as VMWAIT before calling here.
    653  */
    654 void dvmJdwpSetWaitForEventThread(JdwpState* state, ObjectId threadId)
    655 {
    656     bool waited = false;
    657 
    658     /* this is held for very brief periods; contention is unlikely */
    659     dvmDbgLockMutex(&state->eventThreadLock);
    660 
    661     /*
    662      * If another thread is already doing stuff, wait for it.  This can
    663      * go to sleep indefinitely.
    664      */
    665     while (state->eventThreadId != 0) {
    666         ALOGV("event in progress (0x%llx), 0x%llx sleeping",
    667             state->eventThreadId, threadId);
    668         waited = true;
    669         dvmDbgCondWait(&state->eventThreadCond, &state->eventThreadLock);
    670     }
    671 
    672     if (waited || threadId != 0)
    673         ALOGV("event token grabbed (0x%llx)", threadId);
    674     if (threadId != 0)
    675         state->eventThreadId = threadId;
    676 
    677     dvmDbgUnlockMutex(&state->eventThreadLock);
    678 }
    679 
    680 /*
    681  * Clear the threadId and signal anybody waiting.
    682  */
    683 void dvmJdwpClearWaitForEventThread(JdwpState* state)
    684 {
    685     /*
    686      * Grab the mutex.  Don't try to go in/out of VMWAIT mode, as this
    687      * function is called by dvmSuspendSelf(), and the transition back
    688      * to RUNNING would confuse it.
    689      */
    690     dvmDbgLockMutex(&state->eventThreadLock);
    691 
    692     assert(state->eventThreadId != 0);
    693     ALOGV("cleared event token (0x%llx)", state->eventThreadId);
    694 
    695     state->eventThreadId = 0;
    696 
    697     dvmDbgCondSignal(&state->eventThreadCond);
    698 
    699     dvmDbgUnlockMutex(&state->eventThreadLock);
    700 }
    701 
    702 
    703 /*
    704  * Prep an event.  Allocates storage for the message and leaves space for
    705  * the header.
    706  */
    707 static ExpandBuf* eventPrep()
    708 {
    709     ExpandBuf* pReq = expandBufAlloc();
    710     expandBufAddSpace(pReq, kJDWPHeaderLen);
    711 
    712     return pReq;
    713 }
    714 
    715 /*
    716  * Write the header into the buffer and send the packet off to the debugger.
    717  *
    718  * Takes ownership of "pReq" (currently discards it).
    719  */
    720 static void eventFinish(JdwpState* state, ExpandBuf* pReq)
    721 {
    722     u1* buf = expandBufGetBuffer(pReq);
    723 
    724     set4BE(buf, expandBufGetLength(pReq));
    725     set4BE(buf+4, dvmJdwpNextRequestSerial(state));
    726     set1(buf+8, 0);     /* flags */
    727     set1(buf+9, kJdwpEventCommandSet);
    728     set1(buf+10, kJdwpCompositeCommand);
    729 
    730     dvmJdwpSendRequest(state, pReq);
    731 
    732     expandBufFree(pReq);
    733 }
    734 
    735 
    736 /*
    737  * Tell the debugger that we have finished initializing.  This is always
    738  * sent, even if the debugger hasn't requested it.
    739  *
    740  * This should be sent "before the main thread is started and before
    741  * any application code has been executed".  The thread ID in the message
    742  * must be for the main thread.
    743  */
    744 bool dvmJdwpPostVMStart(JdwpState* state, bool suspend)
    745 {
    746     JdwpSuspendPolicy suspendPolicy;
    747     ObjectId threadId = dvmDbgGetThreadSelfId();
    748 
    749     if (suspend)
    750         suspendPolicy = SP_ALL;
    751     else
    752         suspendPolicy = SP_NONE;
    753 
    754     /* probably don't need this here */
    755     lockEventMutex(state);
    756 
    757     ExpandBuf* pReq = NULL;
    758     if (true) {
    759         ALOGV("EVENT: %s", dvmJdwpEventKindStr(EK_VM_START));
    760         ALOGV("  suspendPolicy=%s", dvmJdwpSuspendPolicyStr(suspendPolicy));
    761 
    762         pReq = eventPrep();
    763         expandBufAdd1(pReq, suspendPolicy);
    764         expandBufAdd4BE(pReq, 1);
    765 
    766         expandBufAdd1(pReq, EK_VM_START);
    767         expandBufAdd4BE(pReq, 0);       /* requestId */
    768         expandBufAdd8BE(pReq, threadId);
    769     }
    770 
    771     unlockEventMutex(state);
    772 
    773     /* send request and possibly suspend ourselves */
    774     if (pReq != NULL) {
    775         int oldStatus = dvmDbgThreadWaiting();
    776         if (suspendPolicy != SP_NONE)
    777             dvmJdwpSetWaitForEventThread(state, threadId);
    778 
    779         eventFinish(state, pReq);
    780 
    781         suspendByPolicy(state, suspendPolicy);
    782         dvmDbgThreadContinuing(oldStatus);
    783     }
    784 
    785     return true;
    786 }
    787 
    788 /*
    789  * A location of interest has been reached.  This handles:
    790  *   Breakpoint
    791  *   SingleStep
    792  *   MethodEntry
    793  *   MethodExit
    794  * These four types must be grouped together in a single response.  The
    795  * "eventFlags" indicates the type of event(s) that have happened.
    796  *
    797  * Valid mods:
    798  *   Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude, InstanceOnly
    799  *   LocationOnly (for breakpoint/step only)
    800  *   Step (for step only)
    801  *
    802  * Interesting test cases:
    803  *  - Put a breakpoint on a native method.  Eclipse creates METHOD_ENTRY
    804  *    and METHOD_EXIT events with a ClassOnly mod on the method's class.
    805  *  - Use "run to line".  Eclipse creates a BREAKPOINT with Count=1.
    806  *  - Single-step to a line with a breakpoint.  Should get a single
    807  *    event message with both events in it.
    808  */
    809 bool dvmJdwpPostLocationEvent(JdwpState* state, const JdwpLocation* pLoc,
    810     ObjectId thisPtr, int eventFlags)
    811 {
    812     JdwpSuspendPolicy suspendPolicy = SP_NONE;
    813     ModBasket basket;
    814     char* nameAlloc = NULL;
    815 
    816     memset(&basket, 0, sizeof(basket));
    817     basket.pLoc = pLoc;
    818     basket.classId = pLoc->classId;
    819     basket.thisPtr = thisPtr;
    820     basket.threadId = dvmDbgGetThreadSelfId();
    821     basket.className = nameAlloc =
    822         dvmDescriptorToName(dvmDbgGetClassDescriptor(pLoc->classId));
    823 
    824     /*
    825      * On rare occasions we may need to execute interpreted code in the VM
    826      * while handling a request from the debugger.  Don't fire breakpoints
    827      * while doing so.  (I don't think we currently do this at all, so
    828      * this is mostly paranoia.)
    829      */
    830     if (basket.threadId == state->debugThreadId) {
    831         ALOGV("Ignoring location event in JDWP thread");
    832         free(nameAlloc);
    833         return false;
    834     }
    835 
    836     /*
    837      * The debugger variable display tab may invoke the interpreter to format
    838      * complex objects.  We want to ignore breakpoints and method entry/exit
    839      * traps while working on behalf of the debugger.
    840      *
    841      * If we don't ignore them, the VM will get hung up, because we'll
    842      * suspend on a breakpoint while the debugger is still waiting for its
    843      * method invocation to complete.
    844      */
    845     if (invokeInProgress(state)) {
    846         ALOGV("Not checking breakpoints during invoke (%s)", basket.className);
    847         free(nameAlloc);
    848         return false;
    849     }
    850 
    851     /* don't allow the list to be updated while we scan it */
    852     lockEventMutex(state);
    853 
    854     JdwpEvent** matchList = allocMatchList(state);
    855     int matchCount = 0;
    856 
    857     if ((eventFlags & DBG_BREAKPOINT) != 0)
    858         findMatchingEvents(state, EK_BREAKPOINT, &basket, matchList,
    859             &matchCount);
    860     if ((eventFlags & DBG_SINGLE_STEP) != 0)
    861         findMatchingEvents(state, EK_SINGLE_STEP, &basket, matchList,
    862             &matchCount);
    863     if ((eventFlags & DBG_METHOD_ENTRY) != 0)
    864         findMatchingEvents(state, EK_METHOD_ENTRY, &basket, matchList,
    865             &matchCount);
    866     if ((eventFlags & DBG_METHOD_EXIT) != 0)
    867         findMatchingEvents(state, EK_METHOD_EXIT, &basket, matchList,
    868             &matchCount);
    869 
    870     ExpandBuf* pReq = NULL;
    871     if (matchCount != 0) {
    872         ALOGV("EVENT: %s(%d total) %s.%s thread=%llx code=%llx)",
    873             dvmJdwpEventKindStr(matchList[0]->eventKind), matchCount,
    874             basket.className,
    875             dvmDbgGetMethodName(pLoc->classId, pLoc->methodId),
    876             basket.threadId, pLoc->idx);
    877 
    878         suspendPolicy = scanSuspendPolicy(matchList, matchCount);
    879         ALOGV("  suspendPolicy=%s",
    880             dvmJdwpSuspendPolicyStr(suspendPolicy));
    881 
    882         pReq = eventPrep();
    883         expandBufAdd1(pReq, suspendPolicy);
    884         expandBufAdd4BE(pReq, matchCount);
    885 
    886         for (int i = 0; i < matchCount; i++) {
    887             expandBufAdd1(pReq, matchList[i]->eventKind);
    888             expandBufAdd4BE(pReq, matchList[i]->requestId);
    889             expandBufAdd8BE(pReq, basket.threadId);
    890             dvmJdwpAddLocation(pReq, pLoc);
    891         }
    892     }
    893 
    894     cleanupMatchList(state, matchList, matchCount);
    895     unlockEventMutex(state);
    896 
    897     /* send request and possibly suspend ourselves */
    898     if (pReq != NULL) {
    899         int oldStatus = dvmDbgThreadWaiting();
    900         if (suspendPolicy != SP_NONE)
    901             dvmJdwpSetWaitForEventThread(state, basket.threadId);
    902 
    903         eventFinish(state, pReq);
    904 
    905         suspendByPolicy(state, suspendPolicy);
    906         dvmDbgThreadContinuing(oldStatus);
    907     }
    908 
    909     free(nameAlloc);
    910     return matchCount != 0;
    911 }
    912 
    913 /*
    914  * A thread is starting or stopping.
    915  *
    916  * Valid mods:
    917  *  Count, ThreadOnly
    918  */
    919 bool dvmJdwpPostThreadChange(JdwpState* state, ObjectId threadId, bool start)
    920 {
    921     JdwpSuspendPolicy suspendPolicy = SP_NONE;
    922 
    923     assert(threadId == dvmDbgGetThreadSelfId());
    924 
    925     /*
    926      * I don't think this can happen.
    927      */
    928     if (invokeInProgress(state)) {
    929         ALOGW("Not posting thread change during invoke");
    930         return false;
    931     }
    932 
    933     ModBasket basket;
    934     memset(&basket, 0, sizeof(basket));
    935     basket.threadId = threadId;
    936 
    937     /* don't allow the list to be updated while we scan it */
    938     lockEventMutex(state);
    939 
    940     JdwpEvent** matchList = allocMatchList(state);
    941     int matchCount = 0;
    942 
    943     if (start)
    944         findMatchingEvents(state, EK_THREAD_START, &basket, matchList,
    945             &matchCount);
    946     else
    947         findMatchingEvents(state, EK_THREAD_DEATH, &basket, matchList,
    948             &matchCount);
    949 
    950     ExpandBuf* pReq = NULL;
    951     if (matchCount != 0) {
    952         ALOGV("EVENT: %s(%d total) thread=%llx)",
    953             dvmJdwpEventKindStr(matchList[0]->eventKind), matchCount,
    954             basket.threadId);
    955 
    956         suspendPolicy = scanSuspendPolicy(matchList, matchCount);
    957         ALOGV("  suspendPolicy=%s",
    958             dvmJdwpSuspendPolicyStr(suspendPolicy));
    959 
    960         pReq = eventPrep();
    961         expandBufAdd1(pReq, suspendPolicy);
    962         expandBufAdd4BE(pReq, matchCount);
    963 
    964         for (int i = 0; i < matchCount; i++) {
    965             expandBufAdd1(pReq, matchList[i]->eventKind);
    966             expandBufAdd4BE(pReq, matchList[i]->requestId);
    967             expandBufAdd8BE(pReq, basket.threadId);
    968         }
    969 
    970     }
    971 
    972     cleanupMatchList(state, matchList, matchCount);
    973     unlockEventMutex(state);
    974 
    975     /* send request and possibly suspend ourselves */
    976     if (pReq != NULL) {
    977         int oldStatus = dvmDbgThreadWaiting();
    978         if (suspendPolicy != SP_NONE)
    979             dvmJdwpSetWaitForEventThread(state, basket.threadId);
    980 
    981         eventFinish(state, pReq);
    982 
    983         suspendByPolicy(state, suspendPolicy);
    984         dvmDbgThreadContinuing(oldStatus);
    985     }
    986 
    987     return matchCount != 0;
    988 }
    989 
    990 /*
    991  * Send a polite "VM is dying" message to the debugger.
    992  *
    993  * Skips the usual "event token" stuff.
    994  */
    995 bool dvmJdwpPostVMDeath(JdwpState* state)
    996 {
    997     ALOGV("EVENT: %s", dvmJdwpEventKindStr(EK_VM_DEATH));
    998 
    999     ExpandBuf* pReq = eventPrep();
   1000     expandBufAdd1(pReq, SP_NONE);
   1001     expandBufAdd4BE(pReq, 1);
   1002 
   1003     expandBufAdd1(pReq, EK_VM_DEATH);
   1004     expandBufAdd4BE(pReq, 0);
   1005     eventFinish(state, pReq);
   1006     return true;
   1007 }
   1008 
   1009 
   1010 /*
   1011  * An exception has been thrown.  It may or may not have been caught.
   1012  *
   1013  * Valid mods:
   1014  *  Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude, LocationOnly,
   1015  *    ExceptionOnly, InstanceOnly
   1016  *
   1017  * The "exceptionId" has not been added to the GC-visible object registry,
   1018  * because there's a pretty good chance that we're not going to send it
   1019  * up the debugger.
   1020  */
   1021 bool dvmJdwpPostException(JdwpState* state, const JdwpLocation* pThrowLoc,
   1022     ObjectId exceptionId, RefTypeId exceptionClassId,
   1023     const JdwpLocation* pCatchLoc, ObjectId thisPtr)
   1024 {
   1025     JdwpSuspendPolicy suspendPolicy = SP_NONE;
   1026     ModBasket basket;
   1027     char* nameAlloc = NULL;
   1028 
   1029     memset(&basket, 0, sizeof(basket));
   1030     basket.pLoc = pThrowLoc;
   1031     basket.classId = pThrowLoc->classId;
   1032     basket.threadId = dvmDbgGetThreadSelfId();
   1033     basket.className = nameAlloc =
   1034         dvmDescriptorToName(dvmDbgGetClassDescriptor(basket.classId));
   1035     basket.excepClassId = exceptionClassId;
   1036     basket.caught = (pCatchLoc->classId != 0);
   1037     basket.thisPtr = thisPtr;
   1038 
   1039     /* don't try to post an exception caused by the debugger */
   1040     if (invokeInProgress(state)) {
   1041         ALOGV("Not posting exception hit during invoke (%s)",basket.className);
   1042         free(nameAlloc);
   1043         return false;
   1044     }
   1045 
   1046     /* don't allow the list to be updated while we scan it */
   1047     lockEventMutex(state);
   1048 
   1049     JdwpEvent** matchList = allocMatchList(state);
   1050     int matchCount = 0;
   1051 
   1052     findMatchingEvents(state, EK_EXCEPTION, &basket, matchList, &matchCount);
   1053 
   1054     ExpandBuf* pReq = NULL;
   1055     if (matchCount != 0) {
   1056         ALOGV("EVENT: %s(%d total) thread=%llx exceptId=%llx caught=%d)",
   1057             dvmJdwpEventKindStr(matchList[0]->eventKind), matchCount,
   1058             basket.threadId, exceptionId, basket.caught);
   1059         ALOGV("  throw: %d %llx %x %lld (%s.%s)", pThrowLoc->typeTag,
   1060             pThrowLoc->classId, pThrowLoc->methodId, pThrowLoc->idx,
   1061             dvmDbgGetClassDescriptor(pThrowLoc->classId),
   1062             dvmDbgGetMethodName(pThrowLoc->classId, pThrowLoc->methodId));
   1063         if (pCatchLoc->classId == 0) {
   1064             ALOGV("  catch: (not caught)");
   1065         } else {
   1066             ALOGV("  catch: %d %llx %x %lld (%s.%s)", pCatchLoc->typeTag,
   1067                 pCatchLoc->classId, pCatchLoc->methodId, pCatchLoc->idx,
   1068                 dvmDbgGetClassDescriptor(pCatchLoc->classId),
   1069                 dvmDbgGetMethodName(pCatchLoc->classId, pCatchLoc->methodId));
   1070         }
   1071 
   1072         suspendPolicy = scanSuspendPolicy(matchList, matchCount);
   1073         ALOGV("  suspendPolicy=%s",
   1074             dvmJdwpSuspendPolicyStr(suspendPolicy));
   1075 
   1076         pReq = eventPrep();
   1077         expandBufAdd1(pReq, suspendPolicy);
   1078         expandBufAdd4BE(pReq, matchCount);
   1079 
   1080         for (int i = 0; i < matchCount; i++) {
   1081             expandBufAdd1(pReq, matchList[i]->eventKind);
   1082             expandBufAdd4BE(pReq, matchList[i]->requestId);
   1083             expandBufAdd8BE(pReq, basket.threadId);
   1084 
   1085             dvmJdwpAddLocation(pReq, pThrowLoc);
   1086             expandBufAdd1(pReq, JT_OBJECT);
   1087             expandBufAdd8BE(pReq, exceptionId);
   1088             dvmJdwpAddLocation(pReq, pCatchLoc);
   1089         }
   1090 
   1091         /* don't let the GC discard it */
   1092         dvmDbgRegisterObjectId(exceptionId);
   1093     }
   1094 
   1095     cleanupMatchList(state, matchList, matchCount);
   1096     unlockEventMutex(state);
   1097 
   1098     /* send request and possibly suspend ourselves */
   1099     if (pReq != NULL) {
   1100         int oldStatus = dvmDbgThreadWaiting();
   1101         if (suspendPolicy != SP_NONE)
   1102             dvmJdwpSetWaitForEventThread(state, basket.threadId);
   1103 
   1104         eventFinish(state, pReq);
   1105 
   1106         suspendByPolicy(state, suspendPolicy);
   1107         dvmDbgThreadContinuing(oldStatus);
   1108     }
   1109 
   1110     free(nameAlloc);
   1111     return matchCount != 0;
   1112 }
   1113 
   1114 /*
   1115  * Announce that a class has been loaded.
   1116  *
   1117  * Valid mods:
   1118  *  Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude
   1119  */
   1120 bool dvmJdwpPostClassPrepare(JdwpState* state, int tag, RefTypeId refTypeId,
   1121     const char* signature, int status)
   1122 {
   1123     JdwpSuspendPolicy suspendPolicy = SP_NONE;
   1124     ModBasket basket;
   1125     char* nameAlloc = NULL;
   1126 
   1127     memset(&basket, 0, sizeof(basket));
   1128     basket.classId = refTypeId;
   1129     basket.threadId = dvmDbgGetThreadSelfId();
   1130     basket.className = nameAlloc =
   1131         dvmDescriptorToName(dvmDbgGetClassDescriptor(basket.classId));
   1132 
   1133     /* suppress class prep caused by debugger */
   1134     if (invokeInProgress(state)) {
   1135         ALOGV("Not posting class prep caused by invoke (%s)",basket.className);
   1136         free(nameAlloc);
   1137         return false;
   1138     }
   1139 
   1140     /* don't allow the list to be updated while we scan it */
   1141     lockEventMutex(state);
   1142 
   1143     JdwpEvent** matchList = allocMatchList(state);
   1144     int matchCount = 0;
   1145 
   1146     findMatchingEvents(state, EK_CLASS_PREPARE, &basket, matchList,
   1147         &matchCount);
   1148 
   1149     ExpandBuf* pReq = NULL;
   1150     if (matchCount != 0) {
   1151         ALOGV("EVENT: %s(%d total) thread=%llx)",
   1152             dvmJdwpEventKindStr(matchList[0]->eventKind), matchCount,
   1153             basket.threadId);
   1154 
   1155         suspendPolicy = scanSuspendPolicy(matchList, matchCount);
   1156         ALOGV("  suspendPolicy=%s",
   1157             dvmJdwpSuspendPolicyStr(suspendPolicy));
   1158 
   1159         if (basket.threadId == state->debugThreadId) {
   1160             /*
   1161              * JDWP says that, for a class prep in the debugger thread, we
   1162              * should set threadId to null and if any threads were supposed
   1163              * to be suspended then we suspend all other threads.
   1164              */
   1165             ALOGV("  NOTE: class prepare in debugger thread!");
   1166             basket.threadId = 0;
   1167             if (suspendPolicy == SP_EVENT_THREAD)
   1168                 suspendPolicy = SP_ALL;
   1169         }
   1170 
   1171         pReq = eventPrep();
   1172         expandBufAdd1(pReq, suspendPolicy);
   1173         expandBufAdd4BE(pReq, matchCount);
   1174 
   1175         for (int i = 0; i < matchCount; i++) {
   1176             expandBufAdd1(pReq, matchList[i]->eventKind);
   1177             expandBufAdd4BE(pReq, matchList[i]->requestId);
   1178             expandBufAdd8BE(pReq, basket.threadId);
   1179 
   1180             expandBufAdd1(pReq, tag);
   1181             expandBufAdd8BE(pReq, refTypeId);
   1182             expandBufAddUtf8String(pReq, (const u1*) signature);
   1183             expandBufAdd4BE(pReq, status);
   1184         }
   1185     }
   1186 
   1187     cleanupMatchList(state, matchList, matchCount);
   1188 
   1189     unlockEventMutex(state);
   1190 
   1191     /* send request and possibly suspend ourselves */
   1192     if (pReq != NULL) {
   1193         int oldStatus = dvmDbgThreadWaiting();
   1194         if (suspendPolicy != SP_NONE)
   1195             dvmJdwpSetWaitForEventThread(state, basket.threadId);
   1196 
   1197         eventFinish(state, pReq);
   1198 
   1199         suspendByPolicy(state, suspendPolicy);
   1200         dvmDbgThreadContinuing(oldStatus);
   1201     }
   1202 
   1203     free(nameAlloc);
   1204     return matchCount != 0;
   1205 }
   1206 
   1207 /*
   1208  * Unload a class.
   1209  *
   1210  * Valid mods:
   1211  *  Count, ClassMatch, ClassExclude
   1212  */
   1213 bool dvmJdwpPostClassUnload(JdwpState* state, RefTypeId refTypeId)
   1214 {
   1215     assert(false);      // TODO
   1216     return false;
   1217 }
   1218 
   1219 /*
   1220  * Get or set a field.
   1221  *
   1222  * Valid mods:
   1223  *  Count, ThreadOnly, ClassOnly, ClassMatch, ClassExclude, FieldOnly,
   1224  *    InstanceOnly
   1225  */
   1226 bool dvmJdwpPostFieldAccess(JdwpState* state, int STUFF, ObjectId thisPtr,
   1227     bool modified, JValue newValue)
   1228 {
   1229     assert(false);      // TODO
   1230     return false;
   1231 }
   1232 
   1233 /*
   1234  * Send up a chunk of DDM data.
   1235  *
   1236  * While this takes the form of a JDWP "event", it doesn't interact with
   1237  * other debugger traffic, and can't suspend the VM, so we skip all of
   1238  * the fun event token gymnastics.
   1239  */
   1240 void dvmJdwpDdmSendChunkV(JdwpState* state, int type, const struct iovec* iov,
   1241     int iovcnt)
   1242 {
   1243     u1 header[kJDWPHeaderLen + 8];
   1244     size_t dataLen = 0;
   1245 
   1246     assert(iov != NULL);
   1247     assert(iovcnt > 0 && iovcnt < 10);
   1248 
   1249     /*
   1250      * "Wrap" the contents of the iovec with a JDWP/DDMS header.  We do
   1251      * this by creating a new copy of the vector with space for the header.
   1252      */
   1253     struct iovec wrapiov[iovcnt+1];
   1254     for (int i = 0; i < iovcnt; i++) {
   1255         wrapiov[i+1].iov_base = iov[i].iov_base;
   1256         wrapiov[i+1].iov_len = iov[i].iov_len;
   1257         dataLen += iov[i].iov_len;
   1258     }
   1259 
   1260     /* form the header (JDWP plus DDMS) */
   1261     set4BE(header, sizeof(header) + dataLen);
   1262     set4BE(header+4, dvmJdwpNextRequestSerial(state));
   1263     set1(header+8, 0);     /* flags */
   1264     set1(header+9, kJDWPDdmCmdSet);
   1265     set1(header+10, kJDWPDdmCmd);
   1266     set4BE(header+11, type);
   1267     set4BE(header+15, dataLen);
   1268 
   1269     wrapiov[0].iov_base = header;
   1270     wrapiov[0].iov_len = sizeof(header);
   1271 
   1272     /*
   1273      * Make sure we're in VMWAIT in case the write blocks.
   1274      */
   1275     int oldStatus = dvmDbgThreadWaiting();
   1276     dvmJdwpSendBufferedRequest(state, wrapiov, iovcnt+1);
   1277     dvmDbgThreadContinuing(oldStatus);
   1278 }
   1279