Esempio n. 1
0
bool TestRunner::truncateTest( IDBDataFile::Types filetype )
{
    logMsg( INFO, "truncateTest" );

    reset();
    m_file = IDBDataFile::open(filetype, m_fname.c_str(), "a", m_open_opts);
    if( !m_file )
    {
        ostringstream errstr;
        errstr << "Unable to open " << m_fname << " for writing";
        logMsg( ERROR, errstr.str() );
        return false;
    }

    // choose a random block to truncate at
    struct drand48_data d48data;
    srand48_r(0xdeadbeef, &d48data);

    long int blk_num;
    lrand48_r( &d48data, &blk_num);
    blk_num = blk_num % m_opts.numblocks;
    // always leave at least one block
    if( blk_num == 0 )
        blk_num = 1;

    int rc = m_file->truncate(blk_num * BLK_SIZE);
    if( (filetype != IDBDataFile::HDFS) && rc)
    {
        logMsg( ERROR, "truncate failed!" );
        return false;
    }
    else if ( (filetype == IDBDataFile::HDFS) && !rc )
    {
        logMsg( ERROR, "truncate is supposed to fail for HDFS files!" );
        return false;
    }
    else if( (filetype == IDBDataFile::HDFS) )
    {
        // this is the "success" case for HDFS we didn't expect to truncate so reset blk_num
        blk_num = m_opts.numblocks;
    }

    off64_t fsize = m_file->size();
    if( fsize != (off64_t) (blk_num * BLK_SIZE))
    {
        ostringstream errstr;
        errstr << "wrong file size after truncate, " << fsize << " != " << blk_num*BLK_SIZE;
        logMsg( ERROR, errstr.str() );
        return false;
    }

    return true;
}
Esempio n. 2
0
bool TestRunner::hdfsRdwrExhaustTest()
{
	// this is going to be a self-contained test that attempts to test
	// all logic inherent in HdfsRdwr

	// choose a new filename that is specific to our thread
	ostringstream oss;
	// embed pid so that this is a new directory path
	oss << "/tmp/hdfsrdwr-" << getpid() << "-" << m_id;
	string newpath = oss.str();

	// open a file with arbitrarily small buffer
	IDBDataFile* file = IDBDataFile::open(IDBDataFile::HDFS, newpath.c_str(), "r+", 0, 8);
	assert( file );

	// check various empty file conditions
	assert( file->size() == 0 );
	assert( file->tell() == 0 );
	assert( file->seek(-1, SEEK_CUR) == -1);
	assert( file->seek(0, SEEK_SET) == 0);
	unsigned char buf[4];
	assert( file->read(buf, 4) == 0);

	// write some data
	buf[0] = 0xde; buf[1] = 0xad; buf[2] = 0xbe; buf[3] = 0xef;
	assert( file->write(buf, 4) == 4);
	assert( file->size() == 4 );
	assert( file->tell() == 4 );
	assert( file->truncate(-1) == -1 );

	// now make file empty again
	assert( file->truncate(0) == 0 );
	assert( file->size() == 0 );
	assert( file->seek(0, SEEK_SET) == 0);
	assert( file->tell() == 0 );
	assert( file->read(buf, 4) == 0);

	// write data again, this time exactly up to allocated size
	assert( file->write(buf, 4) == 4);
	assert( file->write(buf, 4) == 4);
	assert( file->size() == 8 );
	assert( file->tell() == 8 );

	// truncate back to 4
	assert( file->truncate(4) == 0 );
	assert( file->size() == 4 );
	assert( file->seek(4, SEEK_SET) == 0);
	assert( file->tell() == 4 );

	// now trigger a buffer reallocation
	assert( file->write(buf, 4) == 4);
	assert( file->write(buf, 4) == 4);
	assert( file->size() == 12 );

	// now delete and close.
	delete file;

	// check the file size through the file system
	IDBFileSystem& fs = IDBFileSystem::getFs( IDBDataFile::HDFS );
	assert( fs.size( newpath.c_str() ) == 12);

	// open again - the file is bigger than the default buffer so it triggers alternate
	// logic in the constructor
	file = IDBDataFile::open(IDBDataFile::HDFS, newpath.c_str(), "r+", 0, 8);
	assert( file );
	assert( file->size() == 12);
	unsigned char newbuf[4];
	assert( file->pread(newbuf, 4, 4) == 4);
	assert( newbuf[0] == 0xde && newbuf[1] == 0xad && newbuf[2] == 0xbe &&newbuf[3] == 0xef);
	delete file;

	fs.remove(newpath.c_str());

	return true;
}