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@ -153,7 +153,7 @@ static void fullscrape_make( int taskid, ot_tasktype mode ) {
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free(iovector.iov_base);
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return mutex_bucket_unlock( bucket, 0 );
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}
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/* Allocate a fresh output buffer at the end of our buffers list */
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/* Allocate a fresh output buffer */
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r = iovector.iov_base = malloc( OT_SCRAPE_CHUNK_SIZE );
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if( !r )
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return mutex_bucket_unlock( bucket, 0 );
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@ -174,7 +174,7 @@ static void fullscrape_make( int taskid, ot_tasktype mode ) {
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if( ( mode & TASK_TASK_MASK ) == TASK_FULLSCRAPE )
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r += sprintf( r, "ee" );
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/* Release unused memory in current output buffer */
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/* Send rest of data */
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iovector.iov_len = r - (char *)iovector.iov_base;
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if( mutex_workqueue_pushchunked(taskid, &iovector) )
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free(iovector.iov_base);
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@ -182,21 +182,20 @@ static void fullscrape_make( int taskid, ot_tasktype mode ) {
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#ifdef WANT_COMPRESSION_GZIP
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static void fullscrape_make_gzip( int *iovec_entries, struct iovec **iovector, ot_tasktype mode ) {
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static void fullscrape_make_gzip( int taskid, ot_tasktype mode) {
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int bucket;
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char *r;
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struct iovec iovector = { NULL, 0 };
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int zres;
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z_stream strm;
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fprintf(stderr, "GZIP path\n");
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/* Setup return vector... */
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*iovec_entries = 0;
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*iovector = NULL;
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r = iovec_increase( iovec_entries, iovector, OT_SCRAPE_CHUNK_SIZE );
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if( !r )
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iovector.iov_base = malloc( OT_SCRAPE_CHUNK_SIZE );
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if( !iovector.iov_base )
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return;
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byte_zero( &strm, sizeof(strm) );
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strm.next_out = (uint8_t*)r;
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strm.next_out = (uint8_t*)iovector.iov_base;
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strm.avail_out = OT_SCRAPE_CHUNK_SIZE;
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if( deflateInit2(&strm,7,Z_DEFLATED,31,9,Z_DEFAULT_STRATEGY) != Z_OK )
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fprintf( stderr, "not ok.\n" );
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@ -226,15 +225,20 @@ static void fullscrape_make_gzip( int *iovec_entries, struct iovec **iovector, o
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/* Check if there still is enough buffer left */
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while( !strm.avail_out ) {
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/* Allocate a fresh output buffer at the end of our buffers list */
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r = iovec_increase( iovec_entries, iovector, OT_SCRAPE_CHUNK_SIZE );
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if( !r ) {
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fprintf( stderr, "Problem with iovec_fix_increase_or_free\n" );
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iovec_free( iovec_entries, iovector );
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iovector.iov_len = (char *)strm.next_out - (char *)iovector.iov_base;
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if (mutex_workqueue_pushchunked(taskid, &iovector) ) {
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free(iovector.iov_base);
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return mutex_bucket_unlock( bucket, 0 );
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}
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/* Allocate a fresh output buffer */
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iovector.iov_base = malloc( OT_SCRAPE_CHUNK_SIZE );
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if( !iovector.iov_base ) {
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fprintf( stderr, "Out of memory trying to claim ouput buffer\n" );
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deflateEnd(&strm);
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return mutex_bucket_unlock( bucket, 0 );
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}
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strm.next_out = (uint8_t*)r;
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strm.next_out = (uint8_t*)iovector.iov_base;
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strm.avail_out = OT_SCRAPE_CHUNK_SIZE;
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zres = deflate( &strm, Z_NO_FLUSH );
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if( ( zres < Z_OK ) && ( zres != Z_BUF_ERROR ) )
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@ -264,21 +268,28 @@ static void fullscrape_make_gzip( int *iovec_entries, struct iovec **iovector, o
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deflatePending( &strm, &pending, &bits);
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pending += ( bits ? 1 : 0 );
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/* Allocate a fresh output buffer at the end of our buffers list */
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r = iovec_fix_increase_or_free( iovec_entries, iovector, strm.next_out, pending );
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if( !r ) {
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iovector.iov_len = (char *)strm.next_out - (char *)iovector.iov_base;
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if (mutex_workqueue_pushchunked(taskid, &iovector) ) {
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free(iovector.iov_base);
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return mutex_bucket_unlock( bucket, 0 );
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}
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/* Allocate a fresh output buffer */
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iovector.iov_base = malloc( pending );
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iovector.iov_len = pending;
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if( !iovector.iov_base ) {
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fprintf( stderr, "Problem with iovec_fix_increase_or_free\n" );
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deflateEnd(&strm);
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return mutex_bucket_unlock( bucket, 0 );
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}
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strm.next_out = (uint8_t*)r;
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strm.next_out = iovector.iov_base;
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strm.avail_out = pending;
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if( deflate( &strm, Z_FINISH ) < Z_OK )
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fprintf( stderr, "deflate() failed while in fullscrape_make()'s endgame.\n" );
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}
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/* Release unused memory in current output buffer */
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iovec_fixlast( iovec_entries, iovector, strm.next_out );
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if( mutex_workqueue_pushchunked(taskid, &iovector) )
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free(iovector.iov_base);
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}
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deflateEnd(&strm);
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}
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