1 /*
2  * Copyright (C) 2014 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 #ifndef NATIVE_BRIDGE_H_
18 #define NATIVE_BRIDGE_H_
19 
20 #include "jni.h"
21 #include <signal.h>
22 #include <stdint.h>
23 #include <sys/types.h>
24 
25 namespace android {
26 
27 struct NativeBridgeRuntimeCallbacks;
28 struct NativeBridgeRuntimeValues;
29 
30 // Function pointer type for sigaction. This is mostly the signature of a signal handler, except
31 // for the return type. The runtime needs to know whether the signal was handled or should be given
32 // to the chain.
33 typedef bool (*NativeBridgeSignalHandlerFn)(int, siginfo_t*, void*);
34 
35 
36 // Open the native bridge, if any. Should be called by Runtime::Init(). A null library filename
37 // signals that we do not want to load a native bridge.
38 bool LoadNativeBridge(const char* native_bridge_library_filename,
39                       const NativeBridgeRuntimeCallbacks* runtime_callbacks);
40 
41 // Quick check whether a native bridge will be needed. This is based off of the instruction set
42 // of the process.
43 bool NeedsNativeBridge(const char* instruction_set);
44 
45 // Do the early initialization part of the native bridge, if necessary. This should be done under
46 // high privileges.
47 bool PreInitializeNativeBridge(const char* app_data_dir, const char* instruction_set);
48 
49 // Initialize the native bridge, if any. Should be called by Runtime::DidForkFromZygote. The JNIEnv*
50 // will be used to modify the app environment for the bridge.
51 bool InitializeNativeBridge(JNIEnv* env, const char* instruction_set);
52 
53 // Unload the native bridge, if any. Should be called by Runtime::DidForkFromZygote.
54 void UnloadNativeBridge();
55 
56 // Check whether a native bridge is available (opened or initialized). Requires a prior call to
57 // LoadNativeBridge.
58 bool NativeBridgeAvailable();
59 
60 // Check whether a native bridge is available (initialized). Requires a prior call to
61 // LoadNativeBridge & InitializeNativeBridge.
62 bool NativeBridgeInitialized();
63 
64 // Load a shared library that is supported by the native bridge.
65 //
66 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
67 // Use NativeBridgeLoadLibraryExt() instead in namespace scenario.
68 void* NativeBridgeLoadLibrary(const char* libpath, int flag);
69 
70 // Get a native bridge trampoline for specified native method.
71 void* NativeBridgeGetTrampoline(void* handle, const char* name, const char* shorty, uint32_t len);
72 
73 // True if native library paths are valid and is for an ABI that is supported by native bridge.
74 // The *libpath* must point to a library.
75 //
76 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
77 // Use NativeBridgeIsPathSupported() instead in namespace scenario.
78 bool NativeBridgeIsSupported(const char* libpath);
79 
80 // Returns the version number of the native bridge. This information is available after a
81 // successful LoadNativeBridge() and before closing it, that is, as long as NativeBridgeAvailable()
82 // returns true. Returns 0 otherwise.
83 uint32_t NativeBridgeGetVersion();
84 
85 // Returns a signal handler that the bridge would like to be managed. Only valid for a native
86 // bridge supporting the version 2 interface. Will return null if the bridge does not support
87 // version 2, or if it doesn't have a signal handler it wants to be known.
88 NativeBridgeSignalHandlerFn NativeBridgeGetSignalHandler(int signal);
89 
90 // Returns whether we have seen a native bridge error. This could happen because the library
91 // was not found, rejected, could not be initialized and so on.
92 //
93 // This functionality is mainly for testing.
94 bool NativeBridgeError();
95 
96 // Returns whether a given string is acceptable as a native bridge library filename.
97 //
98 // This functionality is exposed mainly for testing.
99 bool NativeBridgeNameAcceptable(const char* native_bridge_library_filename);
100 
101 // Decrements the reference count on the dynamic library handler. If the reference count drops
102 // to zero then the dynamic library is unloaded.
103 int NativeBridgeUnloadLibrary(void* handle);
104 
105 // Get last error message of native bridge when fail to load library or search symbol.
106 // This is reflection of dlerror() for native bridge.
107 const char* NativeBridgeGetError();
108 
109 struct native_bridge_namespace_t;
110 
111 // True if native library paths are valid and is for an ABI that is supported by native bridge.
112 // Different from NativeBridgeIsSupported(), the *path* here must be a directory containing
113 // libraries of an ABI.
114 //
115 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
116 // Use NativeBridgeIsSupported() instead in non-namespace scenario.
117 bool NativeBridgeIsPathSupported(const char* path);
118 
119 // Initializes anonymous namespace.
120 // NativeBridge's peer of android_init_anonymous_namespace() of dynamic linker.
121 //
122 // The anonymous namespace is used in the case when a NativeBridge implementation
123 // cannot identify the caller of dlopen/dlsym which happens for the code not loaded
124 // by dynamic linker; for example calls from the mono-compiled code.
125 //
126 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
127 // Should not use in non-namespace scenario.
128 bool NativeBridgeInitAnonymousNamespace(const char* public_ns_sonames,
129                                         const char* anon_ns_library_path);
130 
131 // Create new namespace in which native libraries will be loaded.
132 // NativeBridge's peer of android_create_namespace() of dynamic linker.
133 //
134 // The libraries in the namespace are searched by folowing order:
135 // 1. ld_library_path (Think of this as namespace-local LD_LIBRARY_PATH)
136 // 2. In directories specified by DT_RUNPATH of the "needed by" binary.
137 // 3. deault_library_path (This of this as namespace-local default library path)
138 //
139 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
140 // Should not use in non-namespace scenario.
141 native_bridge_namespace_t* NativeBridgeCreateNamespace(const char* name,
142                                                        const char* ld_library_path,
143                                                        const char* default_library_path,
144                                                        uint64_t type,
145                                                        const char* permitted_when_isolated_path,
146                                                        native_bridge_namespace_t* parent_ns);
147 
148 // Creates a link which shares some libraries from one namespace to another.
149 // NativeBridge's peer of android_link_namespaces() of dynamic linker.
150 //
151 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
152 // Should not use in non-namespace scenario.
153 bool NativeBridgeLinkNamespaces(native_bridge_namespace_t* from, native_bridge_namespace_t* to,
154                                 const char* shared_libs_sonames);
155 
156 // Load a shared library with namespace key that is supported by the native bridge.
157 // NativeBridge's peer of android_dlopen_ext() of dynamic linker, only supports namespace
158 // extension.
159 //
160 // Starting with v3, NativeBridge has two scenarios: with/without namespace.
161 // Use NativeBridgeLoadLibrary() instead in non-namespace scenario.
162 void* NativeBridgeLoadLibraryExt(const char* libpath, int flag, native_bridge_namespace_t* ns);
163 
164 // Returns vendor namespace if it is enabled for the device and null otherwise
165 native_bridge_namespace_t* NativeBridgeGetVendorNamespace();
166 
167 // Native bridge interfaces to runtime.
168 struct NativeBridgeCallbacks {
169   // Version number of the interface.
170   uint32_t version;
171 
172   // Initialize native bridge. Native bridge's internal implementation must ensure MT safety and
173   // that the native bridge is initialized only once. Thus it is OK to call this interface for an
174   // already initialized native bridge.
175   //
176   // Parameters:
177   //   runtime_cbs [IN] the pointer to NativeBridgeRuntimeCallbacks.
178   // Returns:
179   //   true if initialization was successful.
180   bool (*initialize)(const NativeBridgeRuntimeCallbacks* runtime_cbs, const char* private_dir,
181                      const char* instruction_set);
182 
183   // Load a shared library that is supported by the native bridge.
184   //
185   // Parameters:
186   //   libpath [IN] path to the shared library
187   //   flag [IN] the stardard RTLD_XXX defined in bionic dlfcn.h
188   // Returns:
189   //   The opaque handle of the shared library if sucessful, otherwise NULL
190   //
191   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
192   // Use loadLibraryExt instead in namespace scenario.
193   void* (*loadLibrary)(const char* libpath, int flag);
194 
195   // Get a native bridge trampoline for specified native method. The trampoline has same
196   // sigature as the native method.
197   //
198   // Parameters:
199   //   handle [IN] the handle returned from loadLibrary
200   //   shorty [IN] short descriptor of native method
201   //   len [IN] length of shorty
202   // Returns:
203   //   address of trampoline if successful, otherwise NULL
204   void* (*getTrampoline)(void* handle, const char* name, const char* shorty, uint32_t len);
205 
206   // Check whether native library is valid and is for an ABI that is supported by native bridge.
207   //
208   // Parameters:
209   //   libpath [IN] path to the shared library
210   // Returns:
211   //   TRUE if library is supported by native bridge, FALSE otherwise
212   //
213   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
214   // Use isPathSupported instead in namespace scenario.
215   bool (*isSupported)(const char* libpath);
216 
217   // Provide environment values required by the app running with native bridge according to the
218   // instruction set.
219   //
220   // Parameters:
221   //   instruction_set [IN] the instruction set of the app
222   // Returns:
223   //   NULL if not supported by native bridge.
224   //   Otherwise, return all environment values to be set after fork.
225   const struct NativeBridgeRuntimeValues* (*getAppEnv)(const char* instruction_set);
226 
227   // Added callbacks in version 2.
228 
229   // Check whether the bridge is compatible with the given version. A bridge may decide not to be
230   // forwards- or backwards-compatible, and libnativebridge will then stop using it.
231   //
232   // Parameters:
233   //   bridge_version [IN] the version of libnativebridge.
234   // Returns:
235   //   true if the native bridge supports the given version of libnativebridge.
236   bool (*isCompatibleWith)(uint32_t bridge_version);
237 
238   // A callback to retrieve a native bridge's signal handler for the specified signal. The runtime
239   // will ensure that the signal handler is being called after the runtime's own handler, but before
240   // all chained handlers. The native bridge should not try to install the handler by itself, as
241   // that will potentially lead to cycles.
242   //
243   // Parameters:
244   //   signal [IN] the signal for which the handler is asked for. Currently, only SIGSEGV is
245   //                 supported by the runtime.
246   // Returns:
247   //   NULL if the native bridge doesn't use a handler or doesn't want it to be managed by the
248   //   runtime.
249   //   Otherwise, a pointer to the signal handler.
250   NativeBridgeSignalHandlerFn (*getSignalHandler)(int signal);
251 
252   // Added callbacks in version 3.
253 
254   // Decrements the reference count on the dynamic library handler. If the reference count drops
255   // to zero then the dynamic library is unloaded.
256   //
257   // Parameters:
258   //   handle [IN] the handler of a dynamic library.
259   //
260   // Returns:
261   //   0 on success, and nonzero on error.
262   int (*unloadLibrary)(void* handle);
263 
264   // Dump the last failure message of native bridge when fail to load library or search symbol.
265   //
266   // Parameters:
267   //
268   // Returns:
269   //   A string describing the most recent error that occurred when load library
270   //   or lookup symbol via native bridge.
271   const char* (*getError)();
272 
273   // Check whether library paths are supported by native bridge.
274   //
275   // Parameters:
276   //   library_path [IN] search paths for native libraries (directories separated by ':')
277   // Returns:
278   //   TRUE if libraries within search paths are supported by native bridge, FALSE otherwise
279   //
280   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
281   // Use isSupported instead in non-namespace scenario.
282   bool (*isPathSupported)(const char* library_path);
283 
284   // Initializes anonymous namespace at native bridge side.
285   // NativeBridge's peer of android_init_anonymous_namespace() of dynamic linker.
286   //
287   // The anonymous namespace is used in the case when a NativeBridge implementation
288   // cannot identify the caller of dlopen/dlsym which happens for the code not loaded
289   // by dynamic linker; for example calls from the mono-compiled code.
290   //
291   // Parameters:
292   //   public_ns_sonames [IN] the name of "public" libraries.
293   //   anon_ns_library_path [IN] the library search path of (anonymous) namespace.
294   // Returns:
295   //   true if the pass is ok.
296   //   Otherwise, false.
297   //
298   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
299   // Should not use in non-namespace scenario.
300   bool (*initAnonymousNamespace)(const char* public_ns_sonames, const char* anon_ns_library_path);
301 
302   // Create new namespace in which native libraries will be loaded.
303   // NativeBridge's peer of android_create_namespace() of dynamic linker.
304   //
305   // Parameters:
306   //   name [IN] the name of the namespace.
307   //   ld_library_path [IN] the first set of library search paths of the namespace.
308   //   default_library_path [IN] the second set of library search path of the namespace.
309   //   type [IN] the attribute of the namespace.
310   //   permitted_when_isolated_path [IN] the permitted path for isolated namespace(if it is).
311   //   parent_ns [IN] the pointer of the parent namespace to be inherited from.
312   // Returns:
313   //   native_bridge_namespace_t* for created namespace or nullptr in the case of error.
314   //
315   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
316   // Should not use in non-namespace scenario.
317   native_bridge_namespace_t* (*createNamespace)(const char* name,
318                                                 const char* ld_library_path,
319                                                 const char* default_library_path,
320                                                 uint64_t type,
321                                                 const char* permitted_when_isolated_path,
322                                                 native_bridge_namespace_t* parent_ns);
323 
324   // Creates a link which shares some libraries from one namespace to another.
325   // NativeBridge's peer of android_link_namespaces() of dynamic linker.
326   //
327   // Parameters:
328   //   from [IN] the namespace where libraries are accessed.
329   //   to [IN] the namespace where libraries are loaded.
330   //   shared_libs_sonames [IN] the libraries to be shared.
331   //
332   // Returns:
333   //   Whether successed or not.
334   //
335   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
336   // Should not use in non-namespace scenario.
337   bool (*linkNamespaces)(native_bridge_namespace_t* from, native_bridge_namespace_t* to,
338                          const char* shared_libs_sonames);
339 
340   // Load a shared library within a namespace.
341   // NativeBridge's peer of android_dlopen_ext() of dynamic linker, only supports namespace
342   // extension.
343   //
344   // Parameters:
345   //   libpath [IN] path to the shared library
346   //   flag [IN] the stardard RTLD_XXX defined in bionic dlfcn.h
347   //   ns [IN] the pointer of the namespace in which the library should be loaded.
348   // Returns:
349   //   The opaque handle of the shared library if sucessful, otherwise NULL
350   //
351   // Starting with v3, NativeBridge has two scenarios: with/without namespace.
352   // Use loadLibrary instead in non-namespace scenario.
353   void* (*loadLibraryExt)(const char* libpath, int flag, native_bridge_namespace_t* ns);
354 
355   // Get native bridge version of vendor namespace.
356   // The vendor namespace is the namespace used to load vendor public libraries.
357   // With O release this namespace can be different from the default namespace.
358   // For the devices without enable vendor namespaces this function should return null
359   //
360   // Returns:
361   //   vendor namespace or null if it was not set up for the device
362   native_bridge_namespace_t* (*getVendorNamespace)();
363 };
364 
365 // Runtime interfaces to native bridge.
366 struct NativeBridgeRuntimeCallbacks {
367   // Get shorty of a Java method. The shorty is supposed to be persistent in memory.
368   //
369   // Parameters:
370   //   env [IN] pointer to JNIenv.
371   //   mid [IN] Java methodID.
372   // Returns:
373   //   short descriptor for method.
374   const char* (*getMethodShorty)(JNIEnv* env, jmethodID mid);
375 
376   // Get number of native methods for specified class.
377   //
378   // Parameters:
379   //   env [IN] pointer to JNIenv.
380   //   clazz [IN] Java class object.
381   // Returns:
382   //   number of native methods.
383   uint32_t (*getNativeMethodCount)(JNIEnv* env, jclass clazz);
384 
385   // Get at most 'method_count' native methods for specified class 'clazz'. Results are outputed
386   // via 'methods' [OUT]. The signature pointer in JNINativeMethod is reused as the method shorty.
387   //
388   // Parameters:
389   //   env [IN] pointer to JNIenv.
390   //   clazz [IN] Java class object.
391   //   methods [OUT] array of method with the name, shorty, and fnPtr.
392   //   method_count [IN] max number of elements in methods.
393   // Returns:
394   //   number of method it actually wrote to methods.
395   uint32_t (*getNativeMethods)(JNIEnv* env, jclass clazz, JNINativeMethod* methods,
396                                uint32_t method_count);
397 };
398 
399 };  // namespace android
400 
401 #endif  // NATIVE_BRIDGE_H_
402