Exemplo n.º 1
0
void Hdfs::mkdirs(string path)
{
  if (hdfsCreateDirectory(_getFs(), path.data()) == -1)
  {
    throw ios_base::failure("Error creating directory");
  }
}
Exemplo n.º 2
0
bool MaprFileSystem::MakeDirectory(const std::string& uri){
  std::string path = GetUriPathOrDie(uri);
  std::string host = "default";
  hdfsFS fs = hdfsConnect(host.c_str(), 0); // use default config file settings
  CHECK(fs);
  bool success = (hdfsCreateDirectory(fs, path.c_str()) == 0);
  CHECK_EQ(hdfsDisconnect(fs), 0);
  return success;
}
Exemplo n.º 3
0
/**
 * call-seq:
 *    hdfs.mkdir(path) -> success
 *
 * Creates a directory at the supplied path.  If successful, returns True;
 * raises a DFSException if this fails.
 */
VALUE HDFS_File_System_mkdir(VALUE self, VALUE path) {
  FSData* data = get_FSData(self);
  if (hdfsCreateDirectory(data->fs, StringValuePtr(path)) < 0) {
    rb_raise(e_dfs_exception, "Could not create directory at path %s: %s",
        StringValuePtr(path), get_error(errno));
    return Qnil;
  }
  return Qtrue;
}
Exemplo n.º 4
0
int hdfs_file_mkdir(struct back_storage *storage, const char *dir_path){
	//HLOG_DEBUG("hdfs -- enter func %s", __func__);
	char full_path[256];
	build_hdfs_path(full_path, storage->dir, storage->fs_name, dir_path);
	//HLOG_DEBUG("hdfs mkdir:%s",full_path);
	if (0 == hdfsExists((hdfsFS)storage->fs_handler, full_path)) {
		return -1;
	}
	if (0 != hdfsCreateDirectory((hdfsFS)storage->fs_handler, full_path)) {
		//HLOG_DEBUG("hdfsCreateDirectory error");
		return -1;
	}
	//HLOG_DEBUG("hdfs -- leave func %s", __func__);
	return 0;
}
Exemplo n.º 5
0
int HdfsFileSystem::mkdir(const char *pathname)
{
	// todo: may need to do hdfsChmod to set mode, but for now assume not necessary
	int ret = hdfsCreateDirectory(m_fs,pathname);

	if( ret != 0 )
	{
        std::ostringstream oss;
		oss << "hdfsCreateDirectory failed for: " << pathname << ", errno: " << errno << "," << strerror(errno) << endl;
        IDBLogger::syslog(oss.str(), logging::LOG_TYPE_ERROR);
	}

	if( IDBLogger::isEnabled() )
		IDBLogger::logFSop( HDFS, "mkdir", pathname, this, ret);

	return ret;
}
Exemplo n.º 6
0
int dfs_mkdir(const char *path, mode_t mode)
{
  TRACE1("mkdir", path)

  // retrieve dfs specific data
  dfs_context *dfs = (dfs_context*)fuse_get_context()->private_data;

  // check params and the context var
  assert(path);
  assert(dfs);
  assert('/' == *path);

  if (is_protected(path)) {
    syslog(LOG_ERR,"ERROR: hdfs trying to create the directory: %s", path);
    return -EACCES;
  }

  if (dfs->read_only) {
    syslog(LOG_ERR,"ERROR: hdfs is configured as read-only, cannot create the directory %s\n",path);
    return -EACCES;
  }
  
  hdfsFS userFS;
  // if not connected, try to connect and fail out if we can't.
  if ((userFS = doConnectAsUser(dfs->nn_hostname,dfs->nn_port))== NULL) {
    syslog(LOG_ERR, "ERROR: could not connect to dfs %s:%d\n", __FILE__, __LINE__);
    return -EIO;
  }

  // In theory the create and chmod should be atomic.

  if (hdfsCreateDirectory(userFS, path)) {
    syslog(LOG_ERR,"ERROR: hdfs trying to create directory %s",path);
    return -EIO;
  }

#if PERMS
  if (hdfsChmod(userFS, path, (short)mode)) {
    syslog(LOG_ERR,"ERROR: hdfs trying to chmod %s to %d",path, (int)mode);
    return -EIO;
  }
#endif
  return 0;

}
Exemplo n.º 7
0
  void dir_cpi_impl::sync_make_dir (saga::impl::void_t & ret, 
                                    saga::url            url, 
                                    int                  flags)
  {
     instance_data idata (this);
    
     // verify current working directory is local
     saga::url dir_url(idata->location_);
    
     boost::filesystem::path src_location (idata->location_.get_path(), boost::filesystem::native);
     // complete paths
     boost::filesystem::path src_path (url.get_path(), boost::filesystem::native);
    
     if ( ! src_path.has_root_path () )
         src_location /= src_path;
     else
         src_location = src_path;

     if(hdfsCreateDirectory(fs_, src_location.string().c_str()) != 0)
     {
        SAGA_ADAPTOR_THROW("Could not create directory", saga::NoSuccess);
     }
  }
Exemplo n.º 8
0
int main(int argc, char **argv) {

    hdfsFS fs = hdfsConnect("default", 0);
    if(!fs) {
        fprintf(stderr, "Oops! Failed to connect to hdfs!\n");
        exit(-1);
    } 
 
    hdfsFS lfs = hdfsConnect(NULL, 0);
    if(!lfs) {
        fprintf(stderr, "Oops! Failed to connect to 'local' hdfs!\n");
        exit(-1);
    } 
 
        const char* writePath = "/tmp/testfile.txt";
    {
        //Write tests
        
        
        hdfsFile writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", writePath);
            exit(-1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", writePath);

        char* buffer = "Hello, World!";
        tSize num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer)+1);
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

        tOffset currentPos = -1;
        if ((currentPos = hdfsTell(fs, writeFile)) == -1) {
            fprintf(stderr, 
                    "Failed to get current file position correctly! Got %ld!\n",
                    currentPos);
            exit(-1);
        }
        fprintf(stderr, "Current position: %ld\n", currentPos);

        if (hdfsFlush(fs, writeFile)) {
            fprintf(stderr, "Failed to 'flush' %s\n", writePath); 
            exit(-1);
        }
        fprintf(stderr, "Flushed %s successfully!\n", writePath); 

        hdfsCloseFile(fs, writeFile);
    }

    {
        //Read tests
        
        const char* readPath = "/tmp/testfile.txt";
        int exists = hdfsExists(fs, readPath);

        if (exists) {
          fprintf(stderr, "Failed to validate existence of %s\n", readPath);
          exit(-1);
        }

        hdfsFile readFile = hdfsOpenFile(fs, readPath, O_RDONLY, 0, 0, 0);
        if (!readFile) {
            fprintf(stderr, "Failed to open %s for reading!\n", readPath);
            exit(-1);
        }

        fprintf(stderr, "hdfsAvailable: %d\n", hdfsAvailable(fs, readFile));

        tOffset seekPos = 1;
        if(hdfsSeek(fs, readFile, seekPos)) {
            fprintf(stderr, "Failed to seek %s for reading!\n", readPath);
            exit(-1);
        }

        tOffset currentPos = -1;
        if((currentPos = hdfsTell(fs, readFile)) != seekPos) {
            fprintf(stderr, 
                    "Failed to get current file position correctly! Got %ld!\n", 
                    currentPos);
            exit(-1);
        }
        fprintf(stderr, "Current position: %ld\n", currentPos);

        static char buffer[32];
        tSize num_read_bytes = hdfsRead(fs, readFile, (void*)buffer, 
                sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n", 
                num_read_bytes, buffer);

        num_read_bytes = hdfsPread(fs, readFile, 0, (void*)buffer, 
                sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n", 
                num_read_bytes, buffer);

        hdfsCloseFile(fs, readFile);
    }

    int totalResult = 0;
    int result = 0;
    {
        //Generic file-system operations

        const char* srcPath = "/tmp/testfile.txt";
        const char* dstPath = "/tmp/testfile2.txt";

        fprintf(stderr, "hdfsCopy(remote-local): %s\n", ((result = hdfsCopy(fs, srcPath, lfs, srcPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsMove(local-local): %s\n", ((result = hdfsMove(lfs, srcPath, lfs, dstPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsMove(remote-local): %s\n", ((result = hdfsMove(fs, srcPath, lfs, srcPath)) ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsRename: %s\n", ((result = hdfsRename(fs, dstPath, srcPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) ? "Failed!" : "Success!"));
        totalResult += result;

        const char* slashTmp = "/tmp";
        const char* newDirectory = "/tmp/newdir";
        fprintf(stderr, "hdfsCreateDirectory: %s\n", ((result = hdfsCreateDirectory(fs, newDirectory)) ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsSetReplication: %s\n", ((result = hdfsSetReplication(fs, srcPath, 2)) ? "Failed!" : "Success!"));
        totalResult += result;

        char buffer[256];
        const char *resp;
        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ? buffer : "Failed!"));
        totalResult += (resp ? 0 : 1);
        fprintf(stderr, "hdfsSetWorkingDirectory: %s\n", ((result = hdfsSetWorkingDirectory(fs, slashTmp)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ? buffer : "Failed!"));
        totalResult += (resp ? 0 : 1);

        fprintf(stderr, "hdfsGetDefaultBlockSize: %ld\n", hdfsGetDefaultBlockSize(fs));
        fprintf(stderr, "hdfsGetCapacity: %ld\n", hdfsGetCapacity(fs));
        fprintf(stderr, "hdfsGetUsed: %ld\n", hdfsGetUsed(fs));

        hdfsFileInfo *fileInfo = NULL;
        if((fileInfo = hdfsGetPathInfo(fs, slashTmp)) != NULL) {
            fprintf(stderr, "hdfsGetPathInfo - SUCCESS!\n");
            fprintf(stderr, "Name: %s, ", fileInfo->mName);
            fprintf(stderr, "Type: %c, ", (char)(fileInfo->mKind));
            fprintf(stderr, "Replication: %d, ", fileInfo->mReplication);
            fprintf(stderr, "BlockSize: %ld, ", fileInfo->mBlockSize);
            fprintf(stderr, "Size: %ld, ", fileInfo->mSize);
            fprintf(stderr, "LastMod: %s", ctime(&fileInfo->mLastMod)); 
            fprintf(stderr, "Owner: %s, ", fileInfo->mOwner);
            fprintf(stderr, "Group: %s, ", fileInfo->mGroup);
            char permissions[10];
            permission_disp(fileInfo->mPermissions, permissions);
            fprintf(stderr, "Permissions: %d (%s)\n", fileInfo->mPermissions, permissions);
            hdfsFreeFileInfo(fileInfo, 1);
        } else {
            totalResult++;
            fprintf(stderr, "waah! hdfsGetPathInfo for %s - FAILED!\n", slashTmp);
        }

        hdfsFileInfo *fileList = 0;
        int numEntries = 0;
        if((fileList = hdfsListDirectory(fs, slashTmp, &numEntries)) != NULL) {
            int i = 0;
            for(i=0; i < numEntries; ++i) {
                fprintf(stderr, "Name: %s, ", fileList[i].mName);
                fprintf(stderr, "Type: %c, ", (char)fileList[i].mKind);
                fprintf(stderr, "Replication: %d, ", fileList[i].mReplication);
                fprintf(stderr, "BlockSize: %ld, ", fileList[i].mBlockSize);
                fprintf(stderr, "Size: %ld, ", fileList[i].mSize);
                fprintf(stderr, "LastMod: %s", ctime(&fileList[i].mLastMod));
                fprintf(stderr, "Owner: %s, ", fileList[i].mOwner);
                fprintf(stderr, "Group: %s, ", fileList[i].mGroup);
                char permissions[10];
                permission_disp(fileList[i].mPermissions, permissions);
                fprintf(stderr, "Permissions: %d (%s)\n", fileList[i].mPermissions, permissions);
            }
            hdfsFreeFileInfo(fileList, numEntries);
        } else {
            if (errno) {
                totalResult++;
                fprintf(stderr, "waah! hdfsListDirectory - FAILED!\n");
            } else {
                fprintf(stderr, "Empty directory!\n");
            }
        }

        char*** hosts = hdfsGetHosts(fs, srcPath, 0, 1);
        if(hosts) {
            fprintf(stderr, "hdfsGetHosts - SUCCESS! ... \n");
            int i=0; 
            while(hosts[i]) {
                int j = 0;
                while(hosts[i][j]) {
                    fprintf(stderr, 
                            "\thosts[%d][%d] - %s\n", i, j, hosts[i][j]);
                    ++j;
                }
                ++i;
            }
        } else {
            totalResult++;
            fprintf(stderr, "waah! hdfsGetHosts - FAILED!\n");
        }
       
        char *newOwner = "root";
        // setting tmp dir to 777 so later when connectAsUser nobody, we can write to it
        short newPerm = 0666;

        // chown write
        fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, NULL, "users")) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, newOwner, NULL)) ? "Failed!" : "Success!"));
        totalResult += result;
        // chmod write
        fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, writePath, newPerm)) ? "Failed!" : "Success!"));
        totalResult += result;



        sleep(2);
        tTime newMtime = time(NULL);
        tTime newAtime = time(NULL);

        // utime write
        fprintf(stderr, "hdfsUtime: %s\n", ((result = hdfsUtime(fs, writePath, newMtime, newAtime)) ? "Failed!" : "Success!"));

        totalResult += result;

        // chown/chmod/utime read
        hdfsFileInfo *finfo = hdfsGetPathInfo(fs, writePath);

        fprintf(stderr, "hdfsChown read: %s\n", ((result = (strcmp(finfo->mOwner, newOwner) != 0)) ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsChmod read: %s\n", ((result = (finfo->mPermissions != newPerm)) ? "Failed!" : "Success!"));
        totalResult += result;

        // will later use /tmp/ as a different user so enable it
        fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, "/tmp/", 0777)) ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr,"newMTime=%ld\n",newMtime);
        fprintf(stderr,"curMTime=%ld\n",finfo->mLastMod);


        fprintf(stderr, "hdfsUtime read (mtime): %s\n", ((result = (finfo->mLastMod != newMtime)) ? "Failed!" : "Success!"));
        totalResult += result;

        // No easy way to turn on access times from hdfs_test right now
        //        fprintf(stderr, "hdfsUtime read (atime): %s\n", ((result = (finfo->mLastAccess != newAtime)) ? "Failed!" : "Success!"));
        //        totalResult += result;

        hdfsFreeFileInfo(finfo, 1);

        // Clean up
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, newDirectory)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, srcPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, srcPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, dstPath)) ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsExists: %s\n", ((result = hdfsExists(fs, newDirectory)) ? "Success!" : "Failed!"));
        totalResult += (result ? 0 : 1);
    }


    totalResult += (hdfsDisconnect(fs) != 0);

    {
      //
      // Now test as connecting as a specific user
      // This is only meant to test that we connected as that user, not to test
      // the actual fs user capabilities. Thus just create a file and read
      // the owner is correct.

      const char *tuser = "******";
      const char* writePath = "/tmp/usertestfile.txt";
      const char **groups =  (const char**)malloc(sizeof(char*)* 2);
      groups[0] = "users";
      groups[1] = "nobody";

      fs = hdfsConnectAsUser("default", 0, tuser, groups, 2);
      if(!fs) {
        fprintf(stderr, "Oops! Failed to connect to hdfs as user %s!\n",tuser);
        exit(-1);
      } 

        hdfsFile writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", writePath);
            exit(-1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", writePath);

        char* buffer = "Hello, World!";
        tSize num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer)+1);
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

        if (hdfsFlush(fs, writeFile)) {
            fprintf(stderr, "Failed to 'flush' %s\n", writePath); 
            exit(-1);
        }
        fprintf(stderr, "Flushed %s successfully!\n", writePath); 

        hdfsCloseFile(fs, writeFile);

        hdfsFileInfo *finfo = hdfsGetPathInfo(fs, writePath);
        fprintf(stderr, "hdfs new file user is correct: %s\n", ((result = (strcmp(finfo->mOwner, tuser) != 0)) ? "Failed!" : "Success!"));
        totalResult += result;
    }
    
    totalResult += (hdfsDisconnect(fs) != 0);

    if (totalResult != 0) {
        return -1;
    } else {
        return 0;
    }
}
Exemplo n.º 9
0
static int doTestHdfsOperations(struct tlhThreadInfo *ti, hdfsFS fs,
                                const struct tlhPaths *paths)
{
    char tmp[4096];
    hdfsFile file;
    int ret, expected, numEntries;
    hdfsFileInfo *fileInfo;
    struct hdfsReadStatistics *readStats = NULL;

    if (hdfsExists(fs, paths->prefix) == 0) {
        EXPECT_ZERO(hdfsDelete(fs, paths->prefix, 1));
    }
    EXPECT_ZERO(hdfsCreateDirectory(fs, paths->prefix));

    EXPECT_ZERO(doTestGetDefaultBlockSize(fs, paths->prefix));

    /* There should be no entry in the directory. */
    errno = EACCES; // see if errno is set to 0 on success
    EXPECT_NULL_WITH_ERRNO(hdfsListDirectory(fs, paths->prefix, &numEntries), 0);
    if (numEntries != 0) {
        fprintf(stderr, "hdfsListDirectory set numEntries to "
                "%d on empty directory.", numEntries);
    }

    /* There should not be any file to open for reading. */
    EXPECT_NULL(hdfsOpenFile(fs, paths->file1, O_RDONLY, 0, 0, 0));

    /* hdfsOpenFile should not accept mode = 3 */
    EXPECT_NULL(hdfsOpenFile(fs, paths->file1, 3, 0, 0, 0));

    file = hdfsOpenFile(fs, paths->file1, O_WRONLY, 0, 0, 0);
    EXPECT_NONNULL(file);

    /* TODO: implement writeFully and use it here */
    expected = (int)strlen(paths->prefix);
    ret = hdfsWrite(fs, file, paths->prefix, expected);
    if (ret < 0) {
        ret = errno;
        fprintf(stderr, "hdfsWrite failed and set errno %d\n", ret);
        return ret;
    }
    if (ret != expected) {
        fprintf(stderr, "hdfsWrite was supposed to write %d bytes, but "
                "it wrote %d\n", ret, expected);
        return EIO;
    }
    EXPECT_ZERO(hdfsFlush(fs, file));
    EXPECT_ZERO(hdfsHSync(fs, file));
    EXPECT_ZERO(hdfsCloseFile(fs, file));

    /* There should be 1 entry in the directory. */
    EXPECT_NONNULL(hdfsListDirectory(fs, paths->prefix, &numEntries));
    if (numEntries != 1) {
        fprintf(stderr, "hdfsListDirectory set numEntries to "
                "%d on directory containing 1 file.", numEntries);
    }

    /* Let's re-open the file for reading */
    file = hdfsOpenFile(fs, paths->file1, O_RDONLY, 0, 0, 0);
    EXPECT_NONNULL(file);

    EXPECT_ZERO(hdfsFileGetReadStatistics(file, &readStats));
    errno = 0;
    EXPECT_UINT64_EQ(UINT64_C(0), readStats->totalBytesRead);
    EXPECT_UINT64_EQ(UINT64_C(0), readStats->totalLocalBytesRead);
    EXPECT_UINT64_EQ(UINT64_C(0), readStats->totalShortCircuitBytesRead);
    hdfsFileFreeReadStatistics(readStats);
    /* TODO: implement readFully and use it here */
    ret = hdfsRead(fs, file, tmp, sizeof(tmp));
    if (ret < 0) {
        ret = errno;
        fprintf(stderr, "hdfsRead failed and set errno %d\n", ret);
        return ret;
    }
    if (ret != expected) {
        fprintf(stderr, "hdfsRead was supposed to read %d bytes, but "
                "it read %d\n", ret, expected);
        return EIO;
    }
    EXPECT_ZERO(hdfsFileGetReadStatistics(file, &readStats));
    errno = 0;
    EXPECT_UINT64_EQ((uint64_t)expected, readStats->totalBytesRead);
    hdfsFileFreeReadStatistics(readStats);
    EXPECT_ZERO(hdfsFileClearReadStatistics(file));
    EXPECT_ZERO(hdfsFileGetReadStatistics(file, &readStats));
    EXPECT_UINT64_EQ((uint64_t)0, readStats->totalBytesRead);
    hdfsFileFreeReadStatistics(readStats);
    EXPECT_ZERO(memcmp(paths->prefix, tmp, expected));
    EXPECT_ZERO(hdfsCloseFile(fs, file));

    // TODO: Non-recursive delete should fail?
    //EXPECT_NONZERO(hdfsDelete(fs, prefix, 0));
    EXPECT_ZERO(hdfsCopy(fs, paths->file1, fs, paths->file2));

    EXPECT_ZERO(hdfsChown(fs, paths->file2, NULL, NULL));
    EXPECT_ZERO(hdfsChown(fs, paths->file2, NULL, "doop"));
    fileInfo = hdfsGetPathInfo(fs, paths->file2);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("doop", fileInfo->mGroup));
    EXPECT_ZERO(hdfsFileIsEncrypted(fileInfo));
    hdfsFreeFileInfo(fileInfo, 1);

    EXPECT_ZERO(hdfsChown(fs, paths->file2, "ha", "doop2"));
    fileInfo = hdfsGetPathInfo(fs, paths->file2);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("ha", fileInfo->mOwner));
    EXPECT_ZERO(strcmp("doop2", fileInfo->mGroup));
    hdfsFreeFileInfo(fileInfo, 1);

    EXPECT_ZERO(hdfsChown(fs, paths->file2, "ha2", NULL));
    fileInfo = hdfsGetPathInfo(fs, paths->file2);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("ha2", fileInfo->mOwner));
    EXPECT_ZERO(strcmp("doop2", fileInfo->mGroup));
    hdfsFreeFileInfo(fileInfo, 1);

    snprintf(tmp, sizeof(tmp), "%s/nonexistent-file-name", paths->prefix);
    EXPECT_NEGATIVE_ONE_WITH_ERRNO(hdfsChown(fs, tmp, "ha3", NULL), ENOENT);
    return 0;
}
Exemplo n.º 10
0
static int doTestHdfsOperations(struct tlhThreadInfo *ti, hdfsFS fs)
{
    char prefix[256], tmp[256];
    hdfsFile file;
    int ret, expected;
    hdfsFileInfo *fileInfo;
    
    snprintf(prefix, sizeof(prefix), "/tlhData%04d", ti->threadIdx);
    
    if (hdfsExists(fs, prefix) == 0) {
        EXPECT_ZERO(hdfsDelete(fs, prefix, 1));
    }
    EXPECT_ZERO(hdfsCreateDirectory(fs, prefix));
    snprintf(tmp, sizeof(tmp), "%s/file", prefix);
    
    EXPECT_NONNULL(hdfsOpenFile(fs, tmp, O_RDONLY, 0, 0, 0));
    
    file = hdfsOpenFile(fs, tmp, O_WRONLY, 0, 0, 0);
    EXPECT_NONNULL(file);
    
    /* TODO: implement writeFully and use it here */
    expected = (int)strlen(prefix);
    ret = hdfsWrite(fs, file, prefix, expected);
    if (ret < 0) {
        ret = errno;
        fprintf(stderr, "hdfsWrite failed and set errno %d\n", ret);
        return ret;
    }
    if (ret != expected) {
        fprintf(stderr, "hdfsWrite was supposed to write %d bytes, but "
                "it wrote %d\n", ret, expected);
        return EIO;
    }
    EXPECT_ZERO(hdfsFlush(fs, file));
    EXPECT_ZERO(hdfsCloseFile(fs, file));
    
    /* Let's re-open the file for reading */
    file = hdfsOpenFile(fs, tmp, O_RDONLY, 0, 0, 0);
    EXPECT_NONNULL(file);
    
    /* TODO: implement readFully and use it here */
    ret = hdfsRead(fs, file, tmp, sizeof(tmp));
    if (ret < 0) {
        ret = errno;
        fprintf(stderr, "hdfsRead failed and set errno %d\n", ret);
        return ret;
    }
    if (ret != expected) {
        fprintf(stderr, "hdfsRead was supposed to read %d bytes, but "
                "it read %d\n", ret, expected);
        return EIO;
    }
    EXPECT_ZERO(memcmp(prefix, tmp, expected));
    EXPECT_ZERO(hdfsCloseFile(fs, file));
        
    snprintf(tmp, sizeof(tmp), "%s/file", prefix);
    EXPECT_NONZERO(hdfsChown(fs, tmp, NULL, NULL));
    EXPECT_ZERO(hdfsChown(fs, tmp, NULL, "doop"));
    fileInfo = hdfsGetPathInfo(fs, tmp);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("doop", fileInfo->mGroup));
    hdfsFreeFileInfo(fileInfo, 1);
    
    EXPECT_ZERO(hdfsChown(fs, tmp, "ha", "doop2"));
    fileInfo = hdfsGetPathInfo(fs, tmp);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("ha", fileInfo->mOwner));
    EXPECT_ZERO(strcmp("doop2", fileInfo->mGroup));
    hdfsFreeFileInfo(fileInfo, 1);
    
    EXPECT_ZERO(hdfsChown(fs, tmp, "ha2", NULL));
    fileInfo = hdfsGetPathInfo(fs, tmp);
    EXPECT_NONNULL(fileInfo);
    EXPECT_ZERO(strcmp("ha2", fileInfo->mOwner));
    EXPECT_ZERO(strcmp("doop2", fileInfo->mGroup));
    hdfsFreeFileInfo(fileInfo, 1);
    
    EXPECT_ZERO(hdfsDelete(fs, prefix, 1));
    return 0;
}
Exemplo n.º 11
0
int main(int argc, char **argv) {
    const char *writePath = "/tmp/testfile.txt";
    const char *fileContents = "Hello, World!";
    const char *readPath = "/tmp/testfile.txt";
    const char *srcPath = "/tmp/testfile.txt";
    const char *dstPath = "/tmp/testfile2.txt";
    const char *slashTmp = "/tmp";
    const char *newDirectory = "/tmp/newdir";
    const char *newOwner = "root";
    const char *tuser = "******";
    const char *appendPath = "/tmp/appends";
    const char *userPath = "/tmp/usertestfile.txt";

    char buffer[32], buffer2[256], rdbuffer[32];
    tSize num_written_bytes, num_read_bytes;
    hdfsFS fs, lfs;
    hdfsFile writeFile, readFile, localFile, appendFile, userFile;
    tOffset currentPos, seekPos;
    int exists, totalResult, result, numEntries, i, j;
    const char *resp;
    hdfsFileInfo *fileInfo, *fileList, *finfo;
    char *buffer3;
    char permissions[10];
    char ***hosts;
    short newPerm = 0666;
    tTime newMtime, newAtime;

    fs = hdfsConnectNewInstance("default", 0);
    if(!fs) {
        fprintf(stderr, "Oops! Failed to connect to hdfs!\n");
        exit(-1);
    } 
 
    lfs = hdfsConnectNewInstance(NULL, 0);
    if(!lfs) {
        fprintf(stderr, "Oops! Failed to connect to 'local' hdfs!\n");
        exit(-1);
    } 

    {
        //Write tests
        
        writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", writePath);
            exit(-1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", writePath);
        num_written_bytes =
          hdfsWrite(fs, writeFile, (void*)fileContents,
            (tSize)(strlen(fileContents)+1));
        if (num_written_bytes != strlen(fileContents) + 1) {
          fprintf(stderr, "Failed to write correct number of bytes - expected %d, got %d\n",
                  (int)(strlen(fileContents) + 1), (int)num_written_bytes);
            exit(-1);
        }
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

        currentPos = -1;
        if ((currentPos = hdfsTell(fs, writeFile)) == -1) {
            fprintf(stderr, 
                    "Failed to get current file position correctly! Got %" PRId64 "!\n",
                    currentPos);
            exit(-1);
        }
        fprintf(stderr, "Current position: %" PRId64 "\n", currentPos);

        if (hdfsFlush(fs, writeFile)) {
            fprintf(stderr, "Failed to 'flush' %s\n", writePath); 
            exit(-1);
        }
        fprintf(stderr, "Flushed %s successfully!\n", writePath); 

        if (hdfsHFlush(fs, writeFile)) {
            fprintf(stderr, "Failed to 'hflush' %s\n", writePath);
            exit(-1);
        }
        fprintf(stderr, "HFlushed %s successfully!\n", writePath);

        hdfsCloseFile(fs, writeFile);
    }

    {
        //Read tests
        
        exists = hdfsExists(fs, readPath);

        if (exists) {
          fprintf(stderr, "Failed to validate existence of %s\n", readPath);
          exit(-1);
        }

        readFile = hdfsOpenFile(fs, readPath, O_RDONLY, 0, 0, 0);
        if (!readFile) {
            fprintf(stderr, "Failed to open %s for reading!\n", readPath);
            exit(-1);
        }

        if (!hdfsFileIsOpenForRead(readFile)) {
            fprintf(stderr, "hdfsFileIsOpenForRead: we just opened a file "
                    "with O_RDONLY, and it did not show up as 'open for "
                    "read'\n");
            exit(-1);
        }

        fprintf(stderr, "hdfsAvailable: %d\n", hdfsAvailable(fs, readFile));

        seekPos = 1;
        if(hdfsSeek(fs, readFile, seekPos)) {
            fprintf(stderr, "Failed to seek %s for reading!\n", readPath);
            exit(-1);
        }

        currentPos = -1;
        if((currentPos = hdfsTell(fs, readFile)) != seekPos) {
            fprintf(stderr, 
                    "Failed to get current file position correctly! Got %" PRId64 "!\n",
                    currentPos);
            exit(-1);
        }
        fprintf(stderr, "Current position: %" PRId64 "\n", currentPos);

        if (!hdfsFileUsesDirectRead(readFile)) {
          fprintf(stderr, "Direct read support incorrectly not detected "
                  "for HDFS filesystem\n");
          exit(-1);
        }

        fprintf(stderr, "Direct read support detected for HDFS\n");

        // Test the direct read path
        if(hdfsSeek(fs, readFile, 0)) {
            fprintf(stderr, "Failed to seek %s for reading!\n", readPath);
            exit(-1);
        }
        memset(buffer, 0, sizeof(buffer));
        num_read_bytes = hdfsRead(fs, readFile, (void*)buffer,
                sizeof(buffer));
        if (strncmp(fileContents, buffer, strlen(fileContents)) != 0) {
            fprintf(stderr, "Failed to read (direct). Expected %s but got %s (%d bytes)\n",
                    fileContents, buffer, num_read_bytes);
            exit(-1);
        }
        fprintf(stderr, "Read (direct) following %d bytes:\n%s\n",
                num_read_bytes, buffer);
        if (hdfsSeek(fs, readFile, 0L)) {
            fprintf(stderr, "Failed to seek to file start!\n");
            exit(-1);
        }

        // Disable the direct read path so that we really go through the slow
        // read path
        hdfsFileDisableDirectRead(readFile);

        num_read_bytes = hdfsRead(fs, readFile, (void*)buffer, 
                sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n", 
                num_read_bytes, buffer);

        memset(buffer, 0, strlen(fileContents + 1));

        num_read_bytes = hdfsPread(fs, readFile, 0, (void*)buffer, 
                sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n", 
                num_read_bytes, buffer);

        hdfsCloseFile(fs, readFile);

        // Test correct behaviour for unsupported filesystems
        localFile = hdfsOpenFile(lfs, writePath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!localFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", writePath);
            exit(-1);
        }

        num_written_bytes = hdfsWrite(lfs, localFile, (void*)fileContents,
                                      (tSize)(strlen(fileContents) + 1));

        hdfsCloseFile(lfs, localFile);
        localFile = hdfsOpenFile(lfs, writePath, O_RDONLY, 0, 0, 0);

        if (hdfsFileUsesDirectRead(localFile)) {
          fprintf(stderr, "Direct read support incorrectly detected for local "
                  "filesystem\n");
          exit(-1);
        }

        hdfsCloseFile(lfs, localFile);
    }

    totalResult = 0;
    result = 0;
    {
        //Generic file-system operations

        fprintf(stderr, "hdfsCopy(remote-local): %s\n", ((result = hdfsCopy(fs, srcPath, lfs, srcPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsMove(local-local): %s\n", ((result = hdfsMove(lfs, srcPath, lfs, dstPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsMove(remote-local): %s\n", ((result = hdfsMove(fs, srcPath, lfs, srcPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsRename: %s\n", ((result = hdfsRename(fs, dstPath, srcPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsCreateDirectory: %s\n", ((result = hdfsCreateDirectory(fs, newDirectory)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsSetReplication: %s\n", ((result = hdfsSetReplication(fs, srcPath, 2)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer2, sizeof(buffer2))) != 0 ? buffer2 : "Failed!"));
        totalResult += (resp ? 0 : 1);
        fprintf(stderr, "hdfsSetWorkingDirectory: %s\n", ((result = hdfsSetWorkingDirectory(fs, slashTmp)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer2, sizeof(buffer2))) != 0 ? buffer2 : "Failed!"));
        totalResult += (resp ? 0 : 1);

        fprintf(stderr, "hdfsGetDefaultBlockSize: %" PRId64 "\n", hdfsGetDefaultBlockSize(fs));
        fprintf(stderr, "hdfsGetCapacity: %" PRId64 "\n", hdfsGetCapacity(fs));
        fprintf(stderr, "hdfsGetUsed: %" PRId64 "\n", hdfsGetUsed(fs));

        fileInfo = NULL;
        if((fileInfo = hdfsGetPathInfo(fs, slashTmp)) != NULL) {
            fprintf(stderr, "hdfsGetPathInfo - SUCCESS!\n");
            fprintf(stderr, "Name: %s, ", fileInfo->mName);
            fprintf(stderr, "Type: %c, ", (char)(fileInfo->mKind));
            fprintf(stderr, "Replication: %d, ", fileInfo->mReplication);
            fprintf(stderr, "BlockSize: %" PRId64 ", ", fileInfo->mBlockSize);
            fprintf(stderr, "Size: %" PRId64 ", ", fileInfo->mSize);
            fprintf(stderr, "LastMod: %s", ctime(&fileInfo->mLastMod)); 
            fprintf(stderr, "Owner: %s, ", fileInfo->mOwner);
            fprintf(stderr, "Group: %s, ", fileInfo->mGroup);
            permission_disp(fileInfo->mPermissions, permissions);
            fprintf(stderr, "Permissions: %d (%s)\n", fileInfo->mPermissions, permissions);
            hdfsFreeFileInfo(fileInfo, 1);
        } else {
            totalResult++;
            fprintf(stderr, "waah! hdfsGetPathInfo for %s - FAILED!\n", slashTmp);
        }

        fileList = 0;
        fileList = hdfsListDirectory(fs, newDirectory, &numEntries);
        if (!(fileList == NULL && numEntries == 0 && !errno)) {
            fprintf(stderr, "waah! hdfsListDirectory for empty %s - FAILED!\n", newDirectory);
            totalResult++;
        } else {
            fprintf(stderr, "hdfsListDirectory for empty %s - SUCCESS!\n", newDirectory);
        }

        fileList = 0;
        if((fileList = hdfsListDirectory(fs, slashTmp, &numEntries)) != NULL) {
            for(i=0; i < numEntries; ++i) {
                fprintf(stderr, "Name: %s, ", fileList[i].mName);
                fprintf(stderr, "Type: %c, ", (char)fileList[i].mKind);
                fprintf(stderr, "Replication: %d, ", fileList[i].mReplication);
                fprintf(stderr, "BlockSize: %" PRId64 ", ", fileList[i].mBlockSize);
                fprintf(stderr, "Size: %" PRId64 ", ", fileList[i].mSize);
                fprintf(stderr, "LastMod: %s", ctime(&fileList[i].mLastMod));
                fprintf(stderr, "Owner: %s, ", fileList[i].mOwner);
                fprintf(stderr, "Group: %s, ", fileList[i].mGroup);
                permission_disp(fileList[i].mPermissions, permissions);
                fprintf(stderr, "Permissions: %d (%s)\n", fileList[i].mPermissions, permissions);
            }
            hdfsFreeFileInfo(fileList, numEntries);
        } else {
            if (errno) {
                totalResult++;
                fprintf(stderr, "waah! hdfsListDirectory - FAILED!\n");
            } else {
                fprintf(stderr, "Empty directory!\n");
            }
        }

        hosts = hdfsGetHosts(fs, srcPath, 0, 1);
        if(hosts) {
            fprintf(stderr, "hdfsGetHosts - SUCCESS! ... \n");
            i=0; 
            while(hosts[i]) {
                j = 0;
                while(hosts[i][j]) {
                    fprintf(stderr, 
                            "\thosts[%d][%d] - %s\n", i, j, hosts[i][j]);
                    ++j;
                }
                ++i;
            }
        } else {
            totalResult++;
            fprintf(stderr, "waah! hdfsGetHosts - FAILED!\n");
        }
       
        // setting tmp dir to 777 so later when connectAsUser nobody, we can write to it

        // chown write
        fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, NULL, "users")) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, newOwner, NULL)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        // chmod write
        fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, writePath, newPerm)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;



        sleep(2);
        newMtime = time(NULL);
        newAtime = time(NULL);

        // utime write
        fprintf(stderr, "hdfsUtime: %s\n", ((result = hdfsUtime(fs, writePath, newMtime, newAtime)) != 0 ? "Failed!" : "Success!"));

        totalResult += result;

        // chown/chmod/utime read
        finfo = hdfsGetPathInfo(fs, writePath);

        fprintf(stderr, "hdfsChown read: %s\n", ((result = (strcmp(finfo->mOwner, newOwner))) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr, "hdfsChmod read: %s\n", ((result = (finfo->mPermissions != newPerm)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        // will later use /tmp/ as a different user so enable it
        fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, "/tmp/", 0777)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        fprintf(stderr,"newMTime=%ld\n",newMtime);
        fprintf(stderr,"curMTime=%ld\n",finfo->mLastMod);


        fprintf(stderr, "hdfsUtime read (mtime): %s\n", ((result = (finfo->mLastMod != newMtime)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;

        // No easy way to turn on access times from hdfs_test right now
        //        fprintf(stderr, "hdfsUtime read (atime): %s\n", ((result = (finfo->mLastAccess != newAtime)) != 0 ? "Failed!" : "Success!"));
        //        totalResult += result;

        hdfsFreeFileInfo(finfo, 1);

        // Clean up
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, newDirectory, 1)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, srcPath, 1)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, srcPath, 1)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, dstPath, 1)) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsExists: %s\n", ((result = hdfsExists(fs, newDirectory)) != 0 ? "Success!" : "Failed!"));
        totalResult += (result ? 0 : 1);
    }

    {
      // TEST APPENDS

      // CREATE
      appendFile = hdfsOpenFile(fs, appendPath, O_WRONLY, 0, 0, 0);
      if(!appendFile) {
        fprintf(stderr, "Failed to open %s for writing!\n", appendPath);
        exit(-1);
      }
      fprintf(stderr, "Opened %s for writing successfully...\n", appendPath);

      buffer3 = "Hello,";
      num_written_bytes = hdfsWrite(fs, appendFile, (void*)buffer3,
        (tSize)strlen(buffer3));
      fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

      if (hdfsFlush(fs, appendFile)) {
        fprintf(stderr, "Failed to 'flush' %s\n", appendPath); 
        exit(-1);
        }
      fprintf(stderr, "Flushed %s successfully!\n", appendPath); 

      hdfsCloseFile(fs, appendFile);

      // RE-OPEN
      appendFile = hdfsOpenFile(fs, appendPath, O_WRONLY|O_APPEND, 0, 0, 0);
      if(!appendFile) {
        fprintf(stderr, "Failed to open %s for writing!\n", appendPath);
        exit(-1);
      }
      fprintf(stderr, "Opened %s for writing successfully...\n", appendPath);

      buffer3 = " World";
      num_written_bytes = hdfsWrite(fs, appendFile, (void*)buffer3,
        (tSize)(strlen(buffer3) + 1));
      fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

      if (hdfsFlush(fs, appendFile)) {
        fprintf(stderr, "Failed to 'flush' %s\n", appendPath); 
        exit(-1);
      }
      fprintf(stderr, "Flushed %s successfully!\n", appendPath); 

      hdfsCloseFile(fs, appendFile);

      // CHECK size
      finfo = hdfsGetPathInfo(fs, appendPath);
      fprintf(stderr, "fileinfo->mSize: == total %s\n", ((result = (finfo->mSize == (tOffset)(strlen("Hello, World") + 1))) == 1 ? "Success!" : "Failed!"));
      totalResult += (result ? 0 : 1);

      // READ and check data
      readFile = hdfsOpenFile(fs, appendPath, O_RDONLY, 0, 0, 0);
      if (!readFile) {
        fprintf(stderr, "Failed to open %s for reading!\n", appendPath);
        exit(-1);
      }

      num_read_bytes = hdfsRead(fs, readFile, (void*)rdbuffer, sizeof(rdbuffer));
      fprintf(stderr, "Read following %d bytes:\n%s\n", 
              num_read_bytes, rdbuffer);

      fprintf(stderr, "read == Hello, World %s\n", ((result = (strcmp(rdbuffer, "Hello, World"))) == 0 ? "Success!" : "Failed!"));

      hdfsCloseFile(fs, readFile);

      // DONE test appends
    }
      
      
    totalResult += (hdfsDisconnect(fs) != 0);

    {
      //
      // Now test as connecting as a specific user
      // This is only meant to test that we connected as that user, not to test
      // the actual fs user capabilities. Thus just create a file and read
      // the owner is correct.

      fs = hdfsConnectAsUserNewInstance("default", 0, tuser);
      if(!fs) {
        fprintf(stderr, "Oops! Failed to connect to hdfs as user %s!\n",tuser);
        exit(-1);
      } 

        userFile = hdfsOpenFile(fs, userPath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!userFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", userPath);
            exit(-1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", userPath);

        num_written_bytes = hdfsWrite(fs, userFile, (void*)fileContents,
          (tSize)(strlen(fileContents)+1));
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);

        if (hdfsFlush(fs, userFile)) {
            fprintf(stderr, "Failed to 'flush' %s\n", userPath); 
            exit(-1);
        }
        fprintf(stderr, "Flushed %s successfully!\n", userPath); 

        hdfsCloseFile(fs, userFile);

        finfo = hdfsGetPathInfo(fs, userPath);
        fprintf(stderr, "hdfs new file user is correct: %s\n", ((result = (strcmp(finfo->mOwner, tuser))) != 0 ? "Failed!" : "Success!"));
        totalResult += result;
    }
    
    totalResult += (hdfsDisconnect(fs) != 0);

    if (totalResult != 0) {
        return -1;
    } else {
        return 0;
    }
}
Exemplo n.º 12
0
int main(int argc, char **argv)
{
    char buffer[32];
    tSize num_written_bytes;
    const char* slashTmp = "/tmp";
    int nnPort;
    char *rwTemplate, *rwTemplate2, *newDirTemplate,
    *appendTemplate, *userTemplate, *rwPath = NULL;
    const char* fileContents = "Hello, World!";
    const char* nnHost = NULL;
    
    if (argc != 2) {
        fprintf(stderr, "usage: test_libwebhdfs_ops <username>\n");
        exit(1);
    }
    
    struct NativeMiniDfsConf conf = {
        .doFormat = 1, .webhdfsEnabled = 1, .namenodeHttpPort = 50070,
    };
    cluster = nmdCreate(&conf);
    if (!cluster) {
        fprintf(stderr, "Failed to create the NativeMiniDfsCluster.\n");
        exit(1);
    }
    if (nmdWaitClusterUp(cluster)) {
        fprintf(stderr, "Error when waiting for cluster to be ready.\n");
        exit(1);
    }
    if (nmdGetNameNodeHttpAddress(cluster, &nnPort, &nnHost)) {
        fprintf(stderr, "Error when retrieving namenode host address.\n");
        exit(1);
    }
    
    hdfsFS fs = hdfsConnectAsUserNewInstance(nnHost, nnPort, argv[1]);
    if(!fs) {
        fprintf(stderr, "Oops! Failed to connect to hdfs!\n");
        exit(-1);
    }
    
    {
        // Write tests
        rwTemplate = strdup("/tmp/helloWorldXXXXXX");
        if (!rwTemplate) {
            fprintf(stderr, "Failed to create rwTemplate!\n");
            exit(1);
        }
        rwPath = mktemp(rwTemplate);
        // hdfsOpenFile
        hdfsFile writeFile = hdfsOpenFile(fs, rwPath,
                                          O_WRONLY|O_CREAT, 0, 0, 0);

        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", rwPath);
            exit(1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", rwPath);
        // hdfsWrite
        num_written_bytes = hdfsWrite(fs, writeFile, (void*)fileContents,
                                      (int) strlen(fileContents) + 1);
        if (num_written_bytes != strlen(fileContents) + 1) {
            fprintf(stderr, "Failed to write correct number of bytes - "
                    "expected %d, got %d\n",
                    (int)(strlen(fileContents) + 1), (int) num_written_bytes);
            exit(1);
        }
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);
        
        // hdfsTell
        tOffset currentPos = -1;
        if ((currentPos = hdfsTell(fs, writeFile)) == -1) {
            fprintf(stderr,
                    "Failed to get current file position correctly. Got %"
                    PRId64 "!\n", currentPos);
            exit(1);
        }
        fprintf(stderr, "Current position: %" PRId64 "\n", currentPos);
        
        hdfsCloseFile(fs, writeFile);
        // Done test write
    }
    
    sleep(1);
    
    {
        //Read tests
        int available = 0, exists = 0;
        
        // hdfsExists
        exists = hdfsExists(fs, rwPath);
        if (exists) {
            fprintf(stderr, "Failed to validate existence of %s\n", rwPath);
            exists = hdfsExists(fs, rwPath);
            if (exists) {
                fprintf(stderr,
                        "Still failed to validate existence of %s\n", rwPath);
                exit(1);
            }
        }
        
        hdfsFile readFile = hdfsOpenFile(fs, rwPath, O_RDONLY, 0, 0, 0);
        if (!readFile) {
            fprintf(stderr, "Failed to open %s for reading!\n", rwPath);
            exit(1);
        }
        if (!hdfsFileIsOpenForRead(readFile)) {
            fprintf(stderr, "hdfsFileIsOpenForRead: we just opened a file "
                    "with O_RDONLY, and it did not show up as 'open for "
                    "read'\n");
            exit(1);
        }
        
        available = hdfsAvailable(fs, readFile);
        fprintf(stderr, "hdfsAvailable: %d\n", available);
        
        // hdfsSeek, hdfsTell
        tOffset seekPos = 1;
        if(hdfsSeek(fs, readFile, seekPos)) {
            fprintf(stderr, "Failed to seek %s for reading!\n", rwPath);
            exit(1);
        }
        
        tOffset currentPos = -1;
        if((currentPos = hdfsTell(fs, readFile)) != seekPos) {
            fprintf(stderr,
                    "Failed to get current file position correctly! Got %"
                    PRId64 "!\n", currentPos);

            exit(1);
        }
        fprintf(stderr, "Current position: %" PRId64 "\n", currentPos);
        
        if(hdfsSeek(fs, readFile, 0)) {
            fprintf(stderr, "Failed to seek %s for reading!\n", rwPath);
            exit(1);
        }
        
        // hdfsRead
        memset(buffer, 0, sizeof(buffer));
        tSize num_read_bytes = hdfsRead(fs, readFile, buffer, sizeof(buffer));
        if (strncmp(fileContents, buffer, strlen(fileContents)) != 0) {
            fprintf(stderr, "Failed to read (direct). "
                    "Expected %s but got %s (%d bytes)\n",
                    fileContents, buffer, num_read_bytes);
            exit(1);
        }
        fprintf(stderr, "Read following %d bytes:\n%s\n",
                num_read_bytes, buffer);
        
        if (hdfsSeek(fs, readFile, 0L)) {
            fprintf(stderr, "Failed to seek to file start!\n");
            exit(1);
        }
        
        // hdfsPread
        memset(buffer, 0, strlen(fileContents + 1));
        num_read_bytes = hdfsPread(fs, readFile, 0, buffer, sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n",
                num_read_bytes, buffer);
        
        hdfsCloseFile(fs, readFile);
        // Done test read
    }
    
    int totalResult = 0;
    int result = 0;
    {
        //Generic file-system operations
        char *srcPath = rwPath;
        char buffer[256];
        const char *resp;
        rwTemplate2 = strdup("/tmp/helloWorld2XXXXXX");
        if (!rwTemplate2) {
            fprintf(stderr, "Failed to create rwTemplate2!\n");
            exit(1);
        }
        char *dstPath = mktemp(rwTemplate2);
        newDirTemplate = strdup("/tmp/newdirXXXXXX");
        if (!newDirTemplate) {
            fprintf(stderr, "Failed to create newDirTemplate!\n");
            exit(1);
        }
        char *newDirectory = mktemp(newDirTemplate);
        
        // hdfsRename
        fprintf(stderr, "hdfsRename: %s\n",
                ((result = hdfsRename(fs, rwPath, dstPath)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsRename back: %s\n",
                ((result = hdfsRename(fs, dstPath, srcPath)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        // hdfsCreateDirectory
        fprintf(stderr, "hdfsCreateDirectory: %s\n",
                ((result = hdfsCreateDirectory(fs, newDirectory)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        // hdfsSetReplication
        fprintf(stderr, "hdfsSetReplication: %s\n",
                ((result = hdfsSetReplication(fs, srcPath, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;

        // hdfsGetWorkingDirectory, hdfsSetWorkingDirectory
        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n",
                ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ?
                 buffer : "Failed!"));
        totalResult += (resp ? 0 : 1);

        const char* path[] = {"/foo", "/foo/bar", "foobar", "//foo/bar//foobar",
                              "foo//bar", "foo/bar///", "/", "////"};
        int i;
        for (i = 0; i < 8; i++) {
            fprintf(stderr, "hdfsSetWorkingDirectory: %s, %s\n",
                    ((result = hdfsSetWorkingDirectory(fs, path[i])) ?
                     "Failed!" : "Success!"),
                    hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer)));
            totalResult += result;
        }

        fprintf(stderr, "hdfsSetWorkingDirectory: %s\n",
                ((result = hdfsSetWorkingDirectory(fs, slashTmp)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsGetWorkingDirectory: %s\n",
                ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ?
                 buffer : "Failed!"));
        totalResult += (resp ? 0 : 1);

        // hdfsGetPathInfo
        hdfsFileInfo *fileInfo = NULL;
        if((fileInfo = hdfsGetPathInfo(fs, slashTmp)) != NULL) {
            fprintf(stderr, "hdfsGetPathInfo - SUCCESS!\n");
            fprintf(stderr, "Name: %s, ", fileInfo->mName);
            fprintf(stderr, "Type: %c, ", (char)(fileInfo->mKind));
            fprintf(stderr, "Replication: %d, ", fileInfo->mReplication);
            fprintf(stderr, "BlockSize: %"PRId64", ", fileInfo->mBlockSize);
            fprintf(stderr, "Size: %"PRId64", ", fileInfo->mSize);
            fprintf(stderr, "LastMod: %s", ctime(&fileInfo->mLastMod));
            fprintf(stderr, "Owner: %s, ", fileInfo->mOwner);
            fprintf(stderr, "Group: %s, ", fileInfo->mGroup);
            char permissions[10];
            permission_disp(fileInfo->mPermissions, permissions);
            fprintf(stderr, "Permissions: %d (%s)\n",
                    fileInfo->mPermissions, permissions);
            hdfsFreeFileInfo(fileInfo, 1);
        } else {
            totalResult++;
            fprintf(stderr, "hdfsGetPathInfo for %s - FAILED!\n", slashTmp);
        }
        
        // hdfsListDirectory
        hdfsFileInfo *fileList = 0;
        int numEntries = 0;
        if((fileList = hdfsListDirectory(fs, slashTmp, &numEntries)) != NULL) {
            int i = 0;
            for(i=0; i < numEntries; ++i) {
                fprintf(stderr, "Name: %s, ", fileList[i].mName);
                fprintf(stderr, "Type: %c, ", (char)fileList[i].mKind);
                fprintf(stderr, "Replication: %d, ", fileList[i].mReplication);
                fprintf(stderr, "BlockSize: %"PRId64", ", fileList[i].mBlockSize);
                fprintf(stderr, "Size: %"PRId64", ", fileList[i].mSize);
                fprintf(stderr, "LastMod: %s", ctime(&fileList[i].mLastMod));
                fprintf(stderr, "Owner: %s, ", fileList[i].mOwner);
                fprintf(stderr, "Group: %s, ", fileList[i].mGroup);
                char permissions[10];
                permission_disp(fileList[i].mPermissions, permissions);
                fprintf(stderr, "Permissions: %d (%s)\n",
                        fileList[i].mPermissions, permissions);
            }
            hdfsFreeFileInfo(fileList, numEntries);
        } else {
            if (errno) {
                totalResult++;
                fprintf(stderr, "waah! hdfsListDirectory - FAILED!\n");
            } else {
                fprintf(stderr, "Empty directory!\n");
            }
        }
        
        char *newOwner = "root";
        // Setting tmp dir to 777 so later when connectAsUser nobody,
        // we can write to it
        short newPerm = 0666;
        
        // hdfsChown
        fprintf(stderr, "hdfsChown: %s\n",
                ((result = hdfsChown(fs, rwPath, NULL, "users")) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsChown: %s\n",
                ((result = hdfsChown(fs, rwPath, newOwner, NULL)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        // hdfsChmod
        fprintf(stderr, "hdfsChmod: %s\n",
                ((result = hdfsChmod(fs, rwPath, newPerm)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        sleep(2);
        tTime newMtime = time(NULL);
        tTime newAtime = time(NULL);
        
        // utime write
        fprintf(stderr, "hdfsUtime: %s\n",
                ((result = hdfsUtime(fs, rwPath, newMtime, newAtime)) ?
                 "Failed!" : "Success!"));        
        totalResult += result;
        
        // chown/chmod/utime read
        hdfsFileInfo *finfo = hdfsGetPathInfo(fs, rwPath);
        
        fprintf(stderr, "hdfsChown read: %s\n",
                ((result = (strcmp(finfo->mOwner, newOwner) != 0)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        fprintf(stderr, "hdfsChmod read: %s\n",
                ((result = (finfo->mPermissions != newPerm)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        // will later use /tmp/ as a different user so enable it
        fprintf(stderr, "hdfsChmod: %s\n",
                ((result = hdfsChmod(fs, slashTmp, 0777)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        fprintf(stderr,"newMTime=%ld\n",newMtime);
        fprintf(stderr,"curMTime=%ld\n",finfo->mLastMod);
        
        
        fprintf(stderr, "hdfsUtime read (mtime): %s\n",
                ((result = (finfo->mLastMod != newMtime / 1000)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        // Clean up
        hdfsFreeFileInfo(finfo, 1);
        fprintf(stderr, "hdfsDelete: %s\n",
                ((result = hdfsDelete(fs, newDirectory, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsDelete: %s\n",
                ((result = hdfsDelete(fs, srcPath, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        fprintf(stderr, "hdfsExists: %s\n",
                ((result = hdfsExists(fs, newDirectory)) ?
                 "Success!" : "Failed!"));
        totalResult += (result ? 0 : 1);
        // Done test generic operations
    }
    
    {
        // Test Appends
        appendTemplate = strdup("/tmp/appendsXXXXXX");
        if (!appendTemplate) {
            fprintf(stderr, "Failed to create appendTemplate!\n");
            exit(1);
        }
        char *appendPath = mktemp(appendTemplate);
        const char* helloBuffer = "Hello,";
        hdfsFile writeFile = NULL;
        
        // Create
        writeFile = hdfsOpenFile(fs, appendPath, O_WRONLY, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", appendPath);
            exit(1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n", appendPath);
        
        num_written_bytes = hdfsWrite(fs, writeFile, helloBuffer,
                                      (int) strlen(helloBuffer));
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);
        hdfsCloseFile(fs, writeFile);
        
        fprintf(stderr, "hdfsSetReplication: %s\n",
                ((result = hdfsSetReplication(fs, appendPath, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        
        // Re-Open for Append
        writeFile = hdfsOpenFile(fs, appendPath, O_WRONLY | O_APPEND, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", appendPath);
            exit(1);
        }
        fprintf(stderr, "Opened %s for appending successfully...\n",
                appendPath);
        
        helloBuffer = " World";
        num_written_bytes = hdfsWrite(fs, writeFile, helloBuffer,
                                      (int)strlen(helloBuffer) + 1);
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);
        
        hdfsCloseFile(fs, writeFile);

        // Check size
        hdfsFileInfo *finfo = hdfsGetPathInfo(fs, appendPath);
        fprintf(stderr, "fileinfo->mSize: == total %s\n",
                ((result = (finfo->mSize == strlen("Hello, World") + 1)) ?
                 "Success!" : "Failed!"));
        totalResult += (result ? 0 : 1);
        
        // Read and check data
        hdfsFile readFile = hdfsOpenFile(fs, appendPath, O_RDONLY, 0, 0, 0);
        if (!readFile) {
            fprintf(stderr, "Failed to open %s for reading!\n", appendPath);
            exit(1);
        }
        
        tSize num_read_bytes = hdfsRead(fs, readFile, buffer, sizeof(buffer));
        fprintf(stderr, "Read following %d bytes:\n%s\n",
                num_read_bytes, buffer);
        fprintf(stderr, "read == Hello, World %s\n",
                (result = (strcmp(buffer, "Hello, World") == 0)) ?
                "Success!" : "Failed!");
        hdfsCloseFile(fs, readFile);
        
        // Cleanup
        fprintf(stderr, "hdfsDelete: %s\n",
                ((result = hdfsDelete(fs, appendPath, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        // Done test appends
    }
    
    totalResult += (hdfsDisconnect(fs) != 0);
    
    {
        //
        // Now test as connecting as a specific user
        // This only meant to test that we connected as that user, not to test
        // the actual fs user capabilities. Thus just create a file and read
        // the owner is correct.
        const char *tuser = "******";
        userTemplate = strdup("/tmp/usertestXXXXXX");
        if (!userTemplate) {
            fprintf(stderr, "Failed to create userTemplate!\n");
            exit(1);
        }
        char* userWritePath = mktemp(userTemplate);
        hdfsFile writeFile = NULL;
        
        fs = hdfsConnectAsUserNewInstance("default", 50070, tuser);
        if(!fs) {
            fprintf(stderr,
                    "Oops! Failed to connect to hdfs as user %s!\n",tuser);
            exit(1);
        }
        
        writeFile = hdfsOpenFile(fs, userWritePath, O_WRONLY|O_CREAT, 0, 0, 0);
        if(!writeFile) {
            fprintf(stderr, "Failed to open %s for writing!\n", userWritePath);
            exit(1);
        }
        fprintf(stderr, "Opened %s for writing successfully...\n",
                userWritePath);
        
        num_written_bytes = hdfsWrite(fs, writeFile, fileContents,
                                      (int)strlen(fileContents) + 1);
        fprintf(stderr, "Wrote %d bytes\n", num_written_bytes);
        hdfsCloseFile(fs, writeFile);
        
        hdfsFileInfo *finfo = hdfsGetPathInfo(fs, userWritePath);
        if (finfo) {
            fprintf(stderr, "hdfs new file user is correct: %s\n",
                    ((result = (strcmp(finfo->mOwner, tuser) != 0)) ?
                     "Failed!" : "Success!"));
        } else {
            fprintf(stderr,
                    "hdfsFileInfo returned by hdfsGetPathInfo is NULL\n");
            result = -1;
        }
        totalResult += result;
        
        // Cleanup
        fprintf(stderr, "hdfsDelete: %s\n",
                ((result = hdfsDelete(fs, userWritePath, 1)) ?
                 "Failed!" : "Success!"));
        totalResult += result;
        // Done test specific user
    }

    totalResult += (hdfsDisconnect(fs) != 0);
    
    // Shutdown the native minidfscluster
    nmdShutdown(cluster);
    nmdFree(cluster);
    
    fprintf(stderr, "totalResult == %d\n", totalResult);
    if (totalResult != 0) {
        return -1;
    } else {
        return 0;
    }
}
Exemplo n.º 13
0
int move_to_trash(const char *item, hdfsFS userFS) {

  // retrieve dfs specific data
  dfs_context *dfs = (dfs_context*)fuse_get_context()->private_data;

  // check params and the context var
  assert(item);
  assert(dfs);
  assert('/' == *item);
  assert(rindex(item,'/') >= 0);


  char fname[4096]; // or last element of the directory path
  char parent_dir[4096]; // the directory the fname resides in

  if (strlen(item) > sizeof(fname) - strlen(TrashDir)) {
    ERROR("Buffer too small to accomodate path of len %d", (int)strlen(item));
    return -EIO;
  }

  // separate the file name and the parent directory of the item to be deleted
  {
    int length_of_parent_dir = rindex(item, '/') - item ;
    int length_of_fname = strlen(item) - length_of_parent_dir - 1; // the '/'

    // note - the below strncpys should be safe from overflow because of the check on item's string length above.
    strncpy(parent_dir, item, length_of_parent_dir);
    parent_dir[length_of_parent_dir ] = 0;
    strncpy(fname, item + length_of_parent_dir + 1, strlen(item));
    fname[length_of_fname + 1] = 0;
  }

  // create the target trash directory
  char trash_dir[4096];
  if (snprintf(trash_dir, sizeof(trash_dir), "%s%s", TrashDir, parent_dir) 
      >= sizeof trash_dir) {
    ERROR("Move to trash error target not big enough for %s", item);
    return -EIO;
  }

  // create the target trash directory in trash (if needed)
  if ( hdfsExists(userFS, trash_dir)) {
    // make the directory to put it in in the Trash - NOTE
    // hdfsCreateDirectory also creates parents, so Current will be created if it does not exist.
    if (hdfsCreateDirectory(userFS, trash_dir)) {
      return -EIO;
    }
  }

  //
  // if the target path in Trash already exists, then append with
  // a number. Start from 1.
  //
  char target[4096];
  int j ;
  if ( snprintf(target, sizeof target,"%s/%s",trash_dir, fname) >= sizeof target) {
    ERROR("Move to trash error target not big enough for %s", item);
    return -EIO;
  }

  // NOTE: this loop differs from the java version by capping the #of tries
  for (j = 1; ! hdfsExists(userFS, target) && j < TRASH_RENAME_TRIES ; j++) {
    if (snprintf(target, sizeof target,"%s/%s.%d",trash_dir, fname, j) >= sizeof target) {
      ERROR("Move to trash error target not big enough for %s", item);
      return -EIO;
    }
  }
  if (hdfsRename(userFS, item, target)) {
    ERROR("Trying to rename %s to %s", item, target);
    return -EIO;
  }
  return 0;
}