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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 /*
18  * Native method resolution.
19  *
20  * Currently the "Dalvik native" methods are only used for internal methods.
21  * Someday we may want to export the interface as a faster but riskier
22  * alternative to JNI.
23  */
24 #include "Dalvik.h"
25 
26 #include <stdlib.h>
27 #include <dlfcn.h>
28 
29 static void freeSharedLibEntry(void* ptr);
30 static void* lookupSharedLibMethod(const Method* method);
31 
32 
33 /*
34  * Initialize the native code loader.
35  */
dvmNativeStartup()36 bool dvmNativeStartup()
37 {
38     gDvm.nativeLibs = dvmHashTableCreate(4, freeSharedLibEntry);
39     if (gDvm.nativeLibs == NULL)
40         return false;
41 
42     return true;
43 }
44 
45 /*
46  * Free up our tables.
47  */
dvmNativeShutdown()48 void dvmNativeShutdown()
49 {
50     dvmHashTableFree(gDvm.nativeLibs);
51     gDvm.nativeLibs = NULL;
52 }
53 
54 
55 /*
56  * Resolve a native method and invoke it.
57  *
58  * This is executed as if it were a native bridge or function.  If the
59  * resolution succeeds, method->insns is replaced, and we don't go through
60  * here again unless the method is unregistered.
61  *
62  * Initializes method's class if necessary.
63  *
64  * An exception is thrown on resolution failure.
65  *
66  * (This should not be taking "const Method*", because it modifies the
67  * structure, but the declaration needs to match the DalvikBridgeFunc
68  * type definition.)
69  */
dvmResolveNativeMethod(const u4 * args,JValue * pResult,const Method * method,Thread * self)70 void dvmResolveNativeMethod(const u4* args, JValue* pResult,
71     const Method* method, Thread* self)
72 {
73     ClassObject* clazz = method->clazz;
74 
75     /*
76      * If this is a static method, it could be called before the class
77      * has been initialized.
78      */
79     if (dvmIsStaticMethod(method)) {
80         if (!dvmIsClassInitialized(clazz) && !dvmInitClass(clazz)) {
81             assert(dvmCheckException(dvmThreadSelf()));
82             return;
83         }
84     } else {
85         assert(dvmIsClassInitialized(clazz) ||
86                dvmIsClassInitializing(clazz));
87     }
88 
89     /* start with our internal-native methods */
90     DalvikNativeFunc infunc = dvmLookupInternalNativeMethod(method);
91     if (infunc != NULL) {
92         /* resolution always gets the same answer, so no race here */
93         IF_LOGVV() {
94             char* desc = dexProtoCopyMethodDescriptor(&method->prototype);
95             LOGVV("+++ resolved native %s.%s %s, invoking",
96                 clazz->descriptor, method->name, desc);
97             free(desc);
98         }
99         if (dvmIsSynchronizedMethod(method)) {
100             LOGE("ERROR: internal-native can't be declared 'synchronized'");
101             LOGE("Failing on %s.%s", method->clazz->descriptor, method->name);
102             dvmAbort();     // harsh, but this is VM-internal problem
103         }
104         DalvikBridgeFunc dfunc = (DalvikBridgeFunc) infunc;
105         dvmSetNativeFunc((Method*) method, dfunc, NULL);
106         dfunc(args, pResult, method, self);
107         return;
108     }
109 
110     /* now scan any DLLs we have loaded for JNI signatures */
111     void* func = lookupSharedLibMethod(method);
112     if (func != NULL) {
113         /* found it, point it at the JNI bridge and then call it */
114         dvmUseJNIBridge((Method*) method, func);
115         (*method->nativeFunc)(args, pResult, method, self);
116         return;
117     }
118 
119     IF_LOGW() {
120         char* desc = dexProtoCopyMethodDescriptor(&method->prototype);
121         LOGW("No implementation found for native %s.%s %s",
122             clazz->descriptor, method->name, desc);
123         free(desc);
124     }
125 
126     dvmThrowUnsatisfiedLinkError(method->name);
127 }
128 
129 
130 /*
131  * ===========================================================================
132  *      Native shared library support
133  * ===========================================================================
134  */
135 
136 // TODO? if a ClassLoader is unloaded, we need to unload all DLLs that
137 // are associated with it.  (Or not -- can't determine if native code
138 // is still using parts of it.)
139 
140 enum OnLoadState {
141     kOnLoadPending = 0,     /* initial state, must be zero */
142     kOnLoadFailed,
143     kOnLoadOkay,
144 };
145 
146 /*
147  * We add one of these to the hash table for every library we load.  The
148  * hash is on the "pathName" field.
149  */
150 struct SharedLib {
151     char*       pathName;           /* absolute path to library */
152     void*       handle;             /* from dlopen */
153     Object*     classLoader;        /* ClassLoader we are associated with */
154 
155     pthread_mutex_t onLoadLock;     /* guards remaining items */
156     pthread_cond_t  onLoadCond;     /* wait for JNI_OnLoad in other thread */
157     u4              onLoadThreadId; /* recursive invocation guard */
158     OnLoadState     onLoadResult;   /* result of earlier JNI_OnLoad */
159 };
160 
161 /*
162  * (This is a dvmHashTableLookup callback.)
163  *
164  * Find an entry that matches the string.
165  */
hashcmpNameStr(const void * ventry,const void * vname)166 static int hashcmpNameStr(const void* ventry, const void* vname)
167 {
168     const SharedLib* pLib = (const SharedLib*) ventry;
169     const char* name = (const char*) vname;
170 
171     return strcmp(pLib->pathName, name);
172 }
173 
174 /*
175  * (This is a dvmHashTableLookup callback.)
176  *
177  * Find an entry that matches the new entry.
178  *
179  * We don't compare the class loader here, because you're not allowed to
180  * have the same shared library associated with more than one CL.
181  */
hashcmpSharedLib(const void * ventry,const void * vnewEntry)182 static int hashcmpSharedLib(const void* ventry, const void* vnewEntry)
183 {
184     const SharedLib* pLib = (const SharedLib*) ventry;
185     const SharedLib* pNewLib = (const SharedLib*) vnewEntry;
186 
187     LOGD("--- comparing %p '%s' %p '%s'",
188         pLib, pLib->pathName, pNewLib, pNewLib->pathName);
189     return strcmp(pLib->pathName, pNewLib->pathName);
190 }
191 
192 /*
193  * Check to see if an entry with the same pathname already exists.
194  */
findSharedLibEntry(const char * pathName)195 static SharedLib* findSharedLibEntry(const char* pathName)
196 {
197     u4 hash = dvmComputeUtf8Hash(pathName);
198     void* ent;
199 
200     ent = dvmHashTableLookup(gDvm.nativeLibs, hash, (void*)pathName,
201                 hashcmpNameStr, false);
202     return (SharedLib*)ent;
203 }
204 
205 /*
206  * Add the new entry to the table.
207  *
208  * Returns the table entry, which will not be the same as "pLib" if the
209  * entry already exists.
210  */
addSharedLibEntry(SharedLib * pLib)211 static SharedLib* addSharedLibEntry(SharedLib* pLib)
212 {
213     u4 hash = dvmComputeUtf8Hash(pLib->pathName);
214 
215     /*
216      * Do the lookup with the "add" flag set.  If we add it, we will get
217      * our own pointer back.  If somebody beat us to the punch, we'll get
218      * their pointer back instead.
219      */
220     return (SharedLib*)dvmHashTableLookup(gDvm.nativeLibs, hash, pLib,
221                 hashcmpSharedLib, true);
222 }
223 
224 /*
225  * Free up an entry.  (This is a dvmHashTableFree callback.)
226  */
freeSharedLibEntry(void * ptr)227 static void freeSharedLibEntry(void* ptr)
228 {
229     SharedLib* pLib = (SharedLib*) ptr;
230 
231     /*
232      * Calling dlclose() here is somewhat dangerous, because it's possible
233      * that a thread outside the VM is still accessing the code we loaded.
234      */
235     if (false)
236         dlclose(pLib->handle);
237     free(pLib->pathName);
238     free(pLib);
239 }
240 
241 /*
242  * Convert library name to system-dependent form, e.g. "jpeg" becomes
243  * "libjpeg.so".
244  *
245  * (Should we have this take buffer+len and avoid the alloc?  It gets
246  * called very rarely.)
247  */
dvmCreateSystemLibraryName(char * libName)248 char* dvmCreateSystemLibraryName(char* libName)
249 {
250     char buf[256];
251     int len;
252 
253     len = snprintf(buf, sizeof(buf), OS_SHARED_LIB_FORMAT_STR, libName);
254     if (len >= (int) sizeof(buf))
255         return NULL;
256     else
257         return strdup(buf);
258 }
259 
260 /*
261  * Check the result of an earlier call to JNI_OnLoad on this library.  If
262  * the call has not yet finished in another thread, wait for it.
263  */
checkOnLoadResult(SharedLib * pEntry)264 static bool checkOnLoadResult(SharedLib* pEntry)
265 {
266     Thread* self = dvmThreadSelf();
267     if (pEntry->onLoadThreadId == self->threadId) {
268         /*
269          * Check this so we don't end up waiting for ourselves.  We need
270          * to return "true" so the caller can continue.
271          */
272         LOGI("threadid=%d: recursive native library load attempt (%s)",
273             self->threadId, pEntry->pathName);
274         return true;
275     }
276 
277     LOGV("+++ retrieving %s OnLoad status", pEntry->pathName);
278     bool result;
279 
280     dvmLockMutex(&pEntry->onLoadLock);
281     while (pEntry->onLoadResult == kOnLoadPending) {
282         LOGD("threadid=%d: waiting for %s OnLoad status",
283             self->threadId, pEntry->pathName);
284         ThreadStatus oldStatus = dvmChangeStatus(self, THREAD_VMWAIT);
285         pthread_cond_wait(&pEntry->onLoadCond, &pEntry->onLoadLock);
286         dvmChangeStatus(self, oldStatus);
287     }
288     if (pEntry->onLoadResult == kOnLoadOkay) {
289         LOGV("+++ earlier OnLoad(%s) okay", pEntry->pathName);
290         result = true;
291     } else {
292         LOGV("+++ earlier OnLoad(%s) failed", pEntry->pathName);
293         result = false;
294     }
295     dvmUnlockMutex(&pEntry->onLoadLock);
296     return result;
297 }
298 
299 typedef int (*OnLoadFunc)(JavaVM*, void*);
300 
301 /*
302  * Load native code from the specified absolute pathname.  Per the spec,
303  * if we've already loaded a library with the specified pathname, we
304  * return without doing anything.
305  *
306  * TODO? for better results we should absolutify the pathname.  For fully
307  * correct results we should stat to get the inode and compare that.  The
308  * existing implementation is fine so long as everybody is using
309  * System.loadLibrary.
310  *
311  * The library will be associated with the specified class loader.  The JNI
312  * spec says we can't load the same library into more than one class loader.
313  *
314  * Returns "true" on success. On failure, sets *detail to a
315  * human-readable description of the error or NULL if no detail is
316  * available; ownership of the string is transferred to the caller.
317  */
dvmLoadNativeCode(const char * pathName,Object * classLoader,char ** detail)318 bool dvmLoadNativeCode(const char* pathName, Object* classLoader,
319         char** detail)
320 {
321     SharedLib* pEntry;
322     void* handle;
323     bool verbose;
324 
325     /* reduce noise by not chattering about system libraries */
326     verbose = !!strncmp(pathName, "/system", sizeof("/system")-1);
327     verbose = verbose && !!strncmp(pathName, "/vendor", sizeof("/vendor")-1);
328 
329     if (verbose)
330         LOGD("Trying to load lib %s %p", pathName, classLoader);
331 
332     *detail = NULL;
333 
334     /*
335      * See if we've already loaded it.  If we have, and the class loader
336      * matches, return successfully without doing anything.
337      */
338     pEntry = findSharedLibEntry(pathName);
339     if (pEntry != NULL) {
340         if (pEntry->classLoader != classLoader) {
341             LOGW("Shared lib '%s' already opened by CL %p; can't open in %p",
342                 pathName, pEntry->classLoader, classLoader);
343             return false;
344         }
345         if (verbose) {
346             LOGD("Shared lib '%s' already loaded in same CL %p",
347                 pathName, classLoader);
348         }
349         if (!checkOnLoadResult(pEntry))
350             return false;
351         return true;
352     }
353 
354     /*
355      * Open the shared library.  Because we're using a full path, the system
356      * doesn't have to search through LD_LIBRARY_PATH.  (It may do so to
357      * resolve this library's dependencies though.)
358      *
359      * Failures here are expected when java.library.path has several entries
360      * and we have to hunt for the lib.
361      *
362      * The current version of the dynamic linker prints detailed information
363      * about dlopen() failures.  Some things to check if the message is
364      * cryptic:
365      *   - make sure the library exists on the device
366      *   - verify that the right path is being opened (the debug log message
367      *     above can help with that)
368      *   - check to see if the library is valid (e.g. not zero bytes long)
369      *   - check config/prelink-linux-arm.map to ensure that the library
370      *     is listed and is not being overrun by the previous entry (if
371      *     loading suddenly stops working on a prelinked library, this is
372      *     a good one to check)
373      *   - write a trivial app that calls sleep() then dlopen(), attach
374      *     to it with "strace -p <pid>" while it sleeps, and watch for
375      *     attempts to open nonexistent dependent shared libs
376      *
377      * This can execute slowly for a large library on a busy system, so we
378      * want to switch from RUNNING to VMWAIT while it executes.  This allows
379      * the GC to ignore us.
380      */
381     Thread* self = dvmThreadSelf();
382     ThreadStatus oldStatus = dvmChangeStatus(self, THREAD_VMWAIT);
383     handle = dlopen(pathName, RTLD_LAZY);
384     dvmChangeStatus(self, oldStatus);
385 
386     if (handle == NULL) {
387         *detail = strdup(dlerror());
388         return false;
389     }
390 
391     /* create a new entry */
392     SharedLib* pNewEntry;
393     pNewEntry = (SharedLib*) calloc(1, sizeof(SharedLib));
394     pNewEntry->pathName = strdup(pathName);
395     pNewEntry->handle = handle;
396     pNewEntry->classLoader = classLoader;
397     dvmInitMutex(&pNewEntry->onLoadLock);
398     pthread_cond_init(&pNewEntry->onLoadCond, NULL);
399     pNewEntry->onLoadThreadId = self->threadId;
400 
401     /* try to add it to the list */
402     SharedLib* pActualEntry = addSharedLibEntry(pNewEntry);
403 
404     if (pNewEntry != pActualEntry) {
405         LOGI("WOW: we lost a race to add a shared lib (%s CL=%p)",
406             pathName, classLoader);
407         freeSharedLibEntry(pNewEntry);
408         return checkOnLoadResult(pActualEntry);
409     } else {
410         if (verbose)
411             LOGD("Added shared lib %s %p", pathName, classLoader);
412 
413         bool result = true;
414         void* vonLoad;
415         int version;
416 
417         vonLoad = dlsym(handle, "JNI_OnLoad");
418         if (vonLoad == NULL) {
419             LOGD("No JNI_OnLoad found in %s %p, skipping init",
420                 pathName, classLoader);
421         } else {
422             /*
423              * Call JNI_OnLoad.  We have to override the current class
424              * loader, which will always be "null" since the stuff at the
425              * top of the stack is around Runtime.loadLibrary().  (See
426              * the comments in the JNI FindClass function.)
427              */
428             OnLoadFunc func = (OnLoadFunc)vonLoad;
429             Object* prevOverride = self->classLoaderOverride;
430 
431             self->classLoaderOverride = classLoader;
432             oldStatus = dvmChangeStatus(self, THREAD_NATIVE);
433             if (gDvm.verboseJni) {
434                 LOGI("[Calling JNI_OnLoad for \"%s\"]", pathName);
435             }
436             version = (*func)(gDvmJni.jniVm, NULL);
437             dvmChangeStatus(self, oldStatus);
438             self->classLoaderOverride = prevOverride;
439 
440             if (version != JNI_VERSION_1_2 && version != JNI_VERSION_1_4 &&
441                 version != JNI_VERSION_1_6)
442             {
443                 LOGW("JNI_OnLoad returned bad version (%d) in %s %p",
444                     version, pathName, classLoader);
445                 /*
446                  * It's unwise to call dlclose() here, but we can mark it
447                  * as bad and ensure that future load attempts will fail.
448                  *
449                  * We don't know how far JNI_OnLoad got, so there could
450                  * be some partially-initialized stuff accessible through
451                  * newly-registered native method calls.  We could try to
452                  * unregister them, but that doesn't seem worthwhile.
453                  */
454                 result = false;
455             } else {
456                 if (gDvm.verboseJni) {
457                     LOGI("[Returned from JNI_OnLoad for \"%s\"]", pathName);
458                 }
459             }
460         }
461 
462         if (result)
463             pNewEntry->onLoadResult = kOnLoadOkay;
464         else
465             pNewEntry->onLoadResult = kOnLoadFailed;
466 
467         pNewEntry->onLoadThreadId = 0;
468 
469         /*
470          * Broadcast a wakeup to anybody sleeping on the condition variable.
471          */
472         dvmLockMutex(&pNewEntry->onLoadLock);
473         pthread_cond_broadcast(&pNewEntry->onLoadCond);
474         dvmUnlockMutex(&pNewEntry->onLoadLock);
475         return result;
476     }
477 }
478 
479 
480 /*
481  * Un-register JNI native methods.
482  *
483  * There are two relevant fields in struct Method, "nativeFunc" and
484  * "insns".  The former holds a function pointer to a "bridge" function
485  * (or, for internal native, the actual implementation).  The latter holds
486  * a pointer to the actual JNI method.
487  *
488  * The obvious approach is to reset both fields to their initial state
489  * (nativeFunc points at dvmResolveNativeMethod, insns holds NULL), but
490  * that creates some unpleasant race conditions.  In particular, if another
491  * thread is executing inside the call bridge for the method in question,
492  * and we reset insns to NULL, the VM will crash.  (See the comments above
493  * dvmSetNativeFunc() for additional commentary.)
494  *
495  * We can't rely on being able to update two 32-bit fields in one atomic
496  * operation (e.g. no 64-bit atomic ops on ARMv5TE), so we want to change
497  * only one field.  It turns out we can simply reset nativeFunc to its
498  * initial state, leaving insns alone, because dvmResolveNativeMethod
499  * ignores "insns" entirely.
500  *
501  * When the method is re-registered, both fields will be updated, but
502  * dvmSetNativeFunc guarantees that "insns" is updated first.  This means
503  * we shouldn't be in a situation where we have a "live" call bridge and
504  * a stale implementation pointer.
505  */
unregisterJNINativeMethods(Method * methods,size_t count)506 static void unregisterJNINativeMethods(Method* methods, size_t count)
507 {
508     while (count != 0) {
509         count--;
510 
511         Method* meth = &methods[count];
512         if (!dvmIsNativeMethod(meth))
513             continue;
514         if (dvmIsAbstractMethod(meth))      /* avoid abstract method stubs */
515             continue;
516 
517         /*
518          * Strictly speaking this ought to test the function pointer against
519          * the various JNI bridge functions to ensure that we only undo
520          * methods that were registered through JNI.  In practice, any
521          * native method with a non-NULL "insns" is a registered JNI method.
522          *
523          * If we inadvertently unregister an internal-native, it'll get
524          * re-resolved on the next call; unregistering an unregistered
525          * JNI method is a no-op.  So we don't really need to test for
526          * anything.
527          */
528 
529         LOGD("Unregistering JNI method %s.%s:%s",
530             meth->clazz->descriptor, meth->name, meth->shorty);
531         dvmSetNativeFunc(meth, dvmResolveNativeMethod, NULL);
532     }
533 }
534 
535 /*
536  * Un-register all JNI native methods from a class.
537  */
dvmUnregisterJNINativeMethods(ClassObject * clazz)538 void dvmUnregisterJNINativeMethods(ClassObject* clazz)
539 {
540     unregisterJNINativeMethods(clazz->directMethods, clazz->directMethodCount);
541     unregisterJNINativeMethods(clazz->virtualMethods, clazz->virtualMethodCount);
542 }
543 
544 
545 /*
546  * ===========================================================================
547  *      Signature-based method lookup
548  * ===========================================================================
549  */
550 
551 /*
552  * Create the pre-mangled form of the class+method string.
553  *
554  * Returns a newly-allocated string, and sets "*pLen" to the length.
555  */
createJniNameString(const char * classDescriptor,const char * methodName,int * pLen)556 static char* createJniNameString(const char* classDescriptor,
557     const char* methodName, int* pLen)
558 {
559     char* result;
560     size_t descriptorLength = strlen(classDescriptor);
561 
562     *pLen = 4 + descriptorLength + strlen(methodName);
563 
564     result = (char*)malloc(*pLen +1);
565     if (result == NULL)
566         return NULL;
567 
568     /*
569      * Add one to classDescriptor to skip the "L", and then replace
570      * the final ";" with a "/" after the sprintf() call.
571      */
572     sprintf(result, "Java/%s%s", classDescriptor + 1, methodName);
573     result[5 + (descriptorLength - 2)] = '/';
574 
575     return result;
576 }
577 
578 /*
579  * Returns a newly-allocated, mangled copy of "str".
580  *
581  * "str" is a "modified UTF-8" string.  We convert it to UTF-16 first to
582  * make life simpler.
583  */
mangleString(const char * str,int len)584 static char* mangleString(const char* str, int len)
585 {
586     //LOGI("mangling '%s' %d", str, len);
587 
588     assert(str[len] == '\0');
589 
590     size_t charLen = dvmUtf8Len(str);
591     u2* utf16 = (u2*) malloc(sizeof(u2) * charLen);
592     if (utf16 == NULL)
593         return NULL;
594 
595     dvmConvertUtf8ToUtf16(utf16, str);
596 
597     /*
598      * Compute the length of the mangled string.
599      */
600     size_t mangleLen = 0;
601     for (size_t i = 0; i < charLen; i++) {
602         u2 ch = utf16[i];
603 
604         if (ch == '$' || ch > 127) {
605             mangleLen += 6;
606         } else {
607             switch (ch) {
608             case '_':
609             case ';':
610             case '[':
611                 mangleLen += 2;
612                 break;
613             default:
614                 mangleLen++;
615                 break;
616             }
617         }
618     }
619 
620     char* mangle = (char*) malloc(mangleLen +1);
621     if (mangle == NULL) {
622         free(utf16);
623         return NULL;
624     }
625 
626     char* cp = mangle;
627     for (size_t i = 0; i < charLen; i++) {
628         u2 ch = utf16[i];
629 
630         if (ch == '$' || ch > 127) {
631             sprintf(cp, "_0%04x", ch);
632             cp += 6;
633         } else {
634             switch (ch) {
635             case '_':
636                 *cp++ = '_';
637                 *cp++ = '1';
638                 break;
639             case ';':
640                 *cp++ = '_';
641                 *cp++ = '2';
642                 break;
643             case '[':
644                 *cp++ = '_';
645                 *cp++ = '3';
646                 break;
647             case '/':
648                 *cp++ = '_';
649                 break;
650             default:
651                 *cp++ = (char) ch;
652                 break;
653             }
654         }
655     }
656 
657     *cp = '\0';
658 
659     free(utf16);
660     return mangle;
661 }
662 
663 /*
664  * Create the mangled form of the parameter types.
665  */
createMangledSignature(const DexProto * proto)666 static char* createMangledSignature(const DexProto* proto)
667 {
668     DexStringCache sigCache;
669     const char* interim;
670     char* result;
671 
672     dexStringCacheInit(&sigCache);
673     interim = dexProtoGetParameterDescriptors(proto, &sigCache);
674     result = mangleString(interim, strlen(interim));
675     dexStringCacheRelease(&sigCache);
676 
677     return result;
678 }
679 
680 /*
681  * (This is a dvmHashForeach callback.)
682  *
683  * Search for a matching method in this shared library.
684  *
685  * TODO: we may want to skip libraries for which JNI_OnLoad failed.
686  */
findMethodInLib(void * vlib,void * vmethod)687 static int findMethodInLib(void* vlib, void* vmethod)
688 {
689     const SharedLib* pLib = (const SharedLib*) vlib;
690     const Method* meth = (const Method*) vmethod;
691     char* preMangleCM = NULL;
692     char* mangleCM = NULL;
693     char* mangleSig = NULL;
694     char* mangleCMSig = NULL;
695     void* func = NULL;
696     int len;
697 
698     if (meth->clazz->classLoader != pLib->classLoader) {
699         LOGV("+++ not scanning '%s' for '%s' (wrong CL)",
700             pLib->pathName, meth->name);
701         return 0;
702     } else
703         LOGV("+++ scanning '%s' for '%s'", pLib->pathName, meth->name);
704 
705     /*
706      * First, we try it without the signature.
707      */
708     preMangleCM =
709         createJniNameString(meth->clazz->descriptor, meth->name, &len);
710     if (preMangleCM == NULL)
711         goto bail;
712 
713     mangleCM = mangleString(preMangleCM, len);
714     if (mangleCM == NULL)
715         goto bail;
716 
717     LOGV("+++ calling dlsym(%s)", mangleCM);
718     func = dlsym(pLib->handle, mangleCM);
719     if (func == NULL) {
720         mangleSig =
721             createMangledSignature(&meth->prototype);
722         if (mangleSig == NULL)
723             goto bail;
724 
725         mangleCMSig = (char*) malloc(strlen(mangleCM) + strlen(mangleSig) +3);
726         if (mangleCMSig == NULL)
727             goto bail;
728 
729         sprintf(mangleCMSig, "%s__%s", mangleCM, mangleSig);
730 
731         LOGV("+++ calling dlsym(%s)", mangleCMSig);
732         func = dlsym(pLib->handle, mangleCMSig);
733         if (func != NULL) {
734             LOGV("Found '%s' with dlsym", mangleCMSig);
735         }
736     } else {
737         LOGV("Found '%s' with dlsym", mangleCM);
738     }
739 
740 bail:
741     free(preMangleCM);
742     free(mangleCM);
743     free(mangleSig);
744     free(mangleCMSig);
745     return (int) func;
746 }
747 
748 /*
749  * See if the requested method lives in any of the currently-loaded
750  * shared libraries.  We do this by checking each of them for the expected
751  * method signature.
752  */
lookupSharedLibMethod(const Method * method)753 static void* lookupSharedLibMethod(const Method* method)
754 {
755     if (gDvm.nativeLibs == NULL) {
756         LOGE("Unexpected init state: nativeLibs not ready");
757         dvmAbort();
758     }
759     return (void*) dvmHashForeach(gDvm.nativeLibs, findMethodInLib,
760         (void*) method);
761 }
762