Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

EDIT3: It spawns in a new thread each time it is needed, "input" is a copy of a char* which is freed inside it. Assume cURL functions are thread safe.

EDIT4: Assume any non-visible functions are thread safe.

static void *Com_GoogleTranslate(void* input) {

 CURL *easy_handle;
 char *pos1, *pos2, url[1024], final[1024], inlang[8], outlang[8], *encoded;
 const int const_strlen = strlen("\"translatedText\":\"");
 struct GoogleMem chunk;

 pthread_mutex_lock( &GoogleMessage_mutex );
  // 'auto' is really empty in google API:
  if (!strcmp(clu.translateIn->string, "auto"))  
   strcpy(inlang, "");
  else            
   strcpy(inlang, clu.translateIn->string);

  if (!strcmp(clu.translateOut->string, "auto")) 
   strcpy(outlang, "");
  else            
   strcpy(outlang, clu.translateOut->string);
 pthread_mutex_unlock( &GoogleMessage_mutex );

 // Build the URL
 url[0] = '\0';
 strcat(url, "http://ajax.googleapis.com/ajax/services/language/translate?v=1.0&q=");

 // Encode input into URL formatting
 encoded = url_encode((char*)input);
 if (!encoded) return 0;

 strcat(url, encoded);
 strcat(url, "&langpair=");
 strcat(url, inlang);
 strcat(url, "|");
 strcat(url, outlang);

 chunk.memory = malloc(1);  // realloc grows it at Com_GoogleTranslateMem()
 if (!chunk.memory) return 0;
 chunk.size = 0;    // no data yet

 // cURL initialization for this sub-session:
 easy_handle = qcurl_easy_init(); 

 // ioq3-urt: was needed on https:// (v2 API) attempts when using GnuTLS
 //qcurl_easy_setopt(curl_handle, CURLOPT_SSLVERSION, 3); 

 // set URL:
 qcurl_easy_setopt(easy_handle, CURLOPT_URL, url);

 // ioq3-urt: required for multithreading according to cURL doc.
 qcurl_easy_setopt(easy_handle, CURLOPT_NOSIGNAL, 1);

 // ioq3-urt: skip peer verification; required for google translate when SSL was used
 //qcurl_easy_setopt(curl_handle, CURLOPT_SSL_VERIFYPEER, 0L);

 // send all data to this function
 qcurl_easy_setopt(easy_handle, CURLOPT_WRITEFUNCTION, Com_GoogleTranslateMem);

 // we pass our 'chunk' struct to the callback function:
 qcurl_easy_setopt(easy_handle, CURLOPT_WRITEDATA, (void *)&chunk);

 // some servers don't like requests that are made without a user-agent field, so we provide one:
 qcurl_easy_setopt(easy_handle, CURLOPT_USERAGENT, "libcurl-agent/1.0");

 // ioq3-urt: Required by Google Translate terms:
 qcurl_easy_setopt(easy_handle, CURLOPT_REFERER, "ioq3-urt");

 // fetch it
 qcurl_easy_perform(easy_handle);

 // cleanup curl stuff
 qcurl_easy_cleanup(easy_handle);

 /*
  Now chunk.memory points to a memory block that is chunk.size
  bytes big and contains the remote file.

  Nothing has yet deallocated that data, hence free() is used at the end.
 */

 if (!chunk.size) {
  pthread_mutex_lock( &GoogleMessage_mutex );
   sprintf(GoogleMessage.message, "Translation: no data received from Google\n");
   GoogleMessage.new_message = qtrue;
  pthread_mutex_unlock( &GoogleMessage_mutex );
  // Free up memory (same with the end)
  if(chunk.memory) free(chunk.memory);
  free(encoded); 
  free(input);
  return 0;
 }

 if ( ( pos1 = strstr(chunk.memory, "\"translatedText\":\"") ) ) {  // Make sure we use a valid file:

  pos2 = strstr(pos1 + const_strlen, "\""); // position translated text ends

  // Build the translated text:
  final[0] = '\0';
  strncat(final, pos1 + const_strlen, strlen(pos1) - ( strlen(pos2) + const_strlen ) );

  // Final printing of the translated text:
  pthread_mutex_lock( &GoogleMessage_mutex );
   sprintf(GoogleMessage.message, "^2Translated^7: ^3%s\n", final);
   GoogleMessage.new_message = qtrue;
  pthread_mutex_unlock( &GoogleMessage_mutex );    
  #ifdef BUILD_FREETYPE
   TTF_Find_Slot(final, clu.TTF_MessageMaxTime->integer); 
  #endif

 } else {
  pthread_mutex_lock( &GoogleMessage_mutex );
   sprintf(GoogleMessage.message, "Translation: no valid translation file received from Google\n");
   GoogleMessage.new_message = qtrue;
  pthread_mutex_unlock( &GoogleMessage_mutex );  
 }

 // Free allocated memory
 if(chunk.memory) free(chunk.memory);
 free(encoded);
 free(input);
 return 0;
}

I'm getting unstable behavior on certain system only and while I suspect its questionable hardware (Intel OpenGL?), I'd like to find out if I miss something.

EDIT: Assume cURL is thread safe in itself.

EDIT2: "input" is a new copy that is freed into this thread.

share|improve this question
    
What's the connection to Intel and OpenGL? –  Marcelo Cantos Dec 6 '10 at 10:15
    
It runs in a game (which runs in an SDL OpenGL context). The function does not call directly or indirectly any OpenGL functions (which is inherently unsafe almost anywhere), however, Intel in OpenGL has such a horrible, horrible, horrible reputation to OpenGL programmers that I can't help but suspect it even in this. –  Lela Dax Dec 6 '10 at 10:43
add comment

2 Answers

up vote 1 down vote accepted

It looks thread safe to me as long as all the functions it calls outside of the mutex protected sections are themselves thread safe.

There is, however, a question over the thread safety of malloc. See this question.

share|improve this answer
    
Well I'm only compiling on gcc so.. –  Lela Dax Dec 6 '10 at 13:20
    
Interesting about malloc.. makes multithreading that much scarrier... Those OpenMP etc. APIs are convenient after all.. (for doing most of that stuff automatically) –  Lela Dax Dec 7 '10 at 20:42
add comment

This is not a thread-safety issue, but there is one thing that stands out as a potential problem. The following line of code has no check for a successful search:

pos2 = strstr(pos1 + const_strlen, "\""); // position translated text ends

If the chunk.memory value did not contain another double quote following the "translatedText":" value, then it would be null and the subsequent strlen() on that value inside the strncat would likely cause an access violation.

At a minimum, it might not hurt to add an assert there to verify that it is indeed always succeeding. But I don't know what the other functions are doing. If they guarantee the double quote is in the string, then this is a non-issue.

Also, from a "I don't know anything about the data involved" issue is the blind assumptions about string lengths all fitting in the 1024 buffers. From a defensive coding standpoint, additional checks on those calls might not hurt.

Otherwise, though, I agree (+1) with JeremyP that it looks thread safe based on the given code.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.