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I have a method in JNI C/C++ which takes jstring and returns back jstring some thing like as below,

  NATIVE_CALL(jstring, method)(JNIEnv * env, jobject obj, jstring filename)
  {

// Get jstring into C string format.
  const char* cs = env->GetStringUTFChars (filename, NULL);
  char *file_path = new char [strlen (cs) + 1]; // +1 for null terminator
  sprintf (file_path, "%s", cs);
  env->ReleaseStringUTFChars (filename, cs);


  reason_code = INTERNAL_FAILURE;
  char* info = start_module(file_path);  


  jstring jinfo ;


  if(info==NULL)
  {
      jinfo = env->NewStringUTF(NULL);
  }
  else
  {
      jinfo = env->NewStringUTF(info);

  }


  delete info;

  info = NULL;
  return jinfo;
  }

The code works perfectly with prior android 4.0 versions like 2.2,2.3 and so on. With ICS 4.0 check JNI is on by default and because of it the app crashes throwing the following error

 08-25 22:16:35.480: W/dalvikvm(24027): **JNI WARNING: input is not valid Modified UTF-8: illegal  continuation byte 0x40**
08-25 22:16:35.480: W/dalvikvm(24027):              
08-25 22:16:35.480: W/dalvikvm(24027): ==========
08-25 22:16:35.480: W/dalvikvm(24027): /tmp/create
08-25 22:16:35.480: W/dalvikvm(24027): ==========
08-25 22:16:35.480: W/dalvikvm(24027): databytes,indoorgames,drop
08-25 22:16:35.480: W/dalvikvm(24027): ==========���c_ag����ϋ@�ډ@�����@'
 08-25 22:16:35.480: W/dalvikvm(24027):              in Lincom/inter       /ndk/comNDK;.rootNDK:(Ljava/lang/String;)Ljava/lang/String; **(NewStringUTF)**
08-25 22:16:35.480: I/dalvikvm(24027): "main" prio=5 tid=1 NATIVE
08-25 22:16:35.480: I/dalvikvm(24027):   | group="main" sCount=0 dsCount=0 obj=0x40a4b460   self=0x1be1850
08-25 22:16:35.480: I/dalvikvm(24027):   | sysTid=24027 nice=0 sched=0/0 cgrp=default handle=1074255080
08-25 22:16:35.490: I/dalvikvm(24027):   | schedstat=( 49658000 26700000 48 ) utm=1 stm=3 core=1
08-25 22:16:35.490: I/dalvikvm(24027):   at comrootNDK(Native Method)

I am clueless as to where i am wrong. If you see above NewStringUTF is adding some garbage value to the c Char* bytes .

  1. Any idea about why this is happening
  2. Any alternative solution to achieve the above is welcome

I really appreciate if one of you can help me in . Thanks in advance

regds me

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5 Answers 5

up vote 4 down vote accepted

I resolved this issue by returning byte array instead of String. On the Java side i am now converting the Byte array to Strings .Works fine! Stay away from using NewStringUTF() for Android 4.0 and above as there is already a bug reported on Google Android NDK.

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5  
Link to bug report? –  Zammbi Jul 3 '13 at 2:22
    
    
    
@rana Please provide code- how you convert byte[] to String on java side. I always get trouble with encoding. –  dooplaye Jul 1 at 15:29
    
If you don't want to change your jni code everywhere, you can do new String(byte_array, "utf-8") from jni (get String constructor in jni, and invoke it from jni). –  Helin Wang Oct 24 at 18:44

I had this problem when I change the file Application.mk From this line: APP_STL := stlport_static To: APP_STL := gnustl_static

Once I changed it back again it fixed the issue.

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Strings that you pass to NewStringUTF() need to be valid Modified UTF-8. It looks like the string returned by your start_Inauthroot() function is in some other encoding, or is just returning an invalid string. You need to convert the string to UTF-8 before passing it to JNI functions. Or you could use one of the charset-aware String constructors to build the String object instead.

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Am sorry to bother you again .. but how to do that .. do you have any suggestions for my following code , jclass strClass = env->FindClass("java/lang/String"); jmethodID ctorID = env->GetMethodID(strClass, "<init>", "([BLjava/lang/String;)V"); <<<< i might be wrong here jstring encoding = env->NewStringUTF("UTF-8"); jbyteArray bytes = env->NewByteArray(strlen(rInfo)); env->SetByteArrayRegion(bytes, 0, strlen(rInfo), (jbyte*)rootInformation); grootInfo = (jstring)env->NewObject(strClass, ctrId, bytes,"UTF-8"); –  rana Aug 26 '12 at 22:38
    
Yes, that looks right, except you need to pass your "encoding" jstring var to NewObject(), not the raw string "UTF-8". Of course, you need to pass the actual encoding of your string, not just "UTF-8". –  kelnos Aug 26 '12 at 22:57
    
But its throwing an error at this line, env->GetMethodID(strClass, "<init>", "([BLjava/lang/String;)V"); Any idea what should be the reason ? –  rana Aug 27 '12 at 3:32
    
What error? That code works fine for me. –  kelnos Aug 29 '12 at 2:16
    
throwing an error at this line, env->GetMethodID(strClass, "<init>", "([BLjava/lang/String;)V"); Note that in 4.0 and higher, answer of FindClass() is a local reference. –  Alex Cohn Sep 2 '12 at 10:55

This works for me in c++

extern "C" JNIEXPORT
jstring Java_com_example_ndktest_MainActivity_TalkToJNI(JNIEnv* env, jobject javaThis, jstring strFromJava)
{
    jboolean isCopy;
    const char* szHTML = env->GetStringUTFChars(strFromJava, &isCopy);

    std::string strMine;
    strMine = szHTML;
    strMine += " --- Hello from the JNI!!";

    env->ReleaseStringUTFChars(strFromJava, szHTML);
    return env->NewStringUTF(strMine.c_str());
}
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The cause of this problem is directly related to a known UTF-8 bug in the NDK/JNI GetStringUTFChars() function (and probably related functions like NewStringUTF). These NDK functions do not convert supplementary Unicode characters (i.e., Unicode characters with a value of U+10000 and above) correctly. This leads to incorrect UTF-8 and subsequent crashes.

I encountered the crash when handling user input text that contained emoticon characters (see the corresponding Unicode chart). Emoticon characters lie in the Supplementary Unicode character range.

Analysis of the Problem

  1. The Java client passes a string containing a supplementary Unicode character to JNI/NDK.
  2. JNI uses the NDK function GetStringUTFChars() to extract the contents of the Java string.
  3. GetStringUTFChars() returns the string data as UTF-8.

There is a known NDK bug whereby GetStringUTFChars() incorrectly converts supplementary Unicode characters, producing an incorrect and invalid UTF-8 sequence.

In my case, the resulting string was a JSON buffer. When the buffer was passed to the JSON parser, the parser promptly failed because one of the UTF-8 characters of the extracted UTF-8 had an invalid UTF-8 prefix byte.

Possible Workaround

The solution I've used can be summarized as follows:

  1. The goal is to prevent GetStringUTFChars() from performing the incorrect UTF-8 encoding of the supplementary Unicode character.
  2. This is done by the Java client encoding the request string as Base64.
  3. The Base64-encoded request is passed to JNI.
  4. JNI calls GetStringUTFChars(), which extracts the Base64-encoded string without performing any UTF-8 encoding.
  5. The JNI code then decodes the Base-64 data, producing the original UTF-16 (wide char) request string, including the supplementary Unicode character.

In this way we circumvent the problem of extracting supplementary Unicode characters from the Java string. Instead, we convert the data to Base-64 ASCII before calling GetStringUTFChars(), extract the Base-64 ASCII characters using GetStringUTFChars(), and convert the Base-64 data back to wide characters.

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