- /*
- * Do the compression.
- */
- lz77_compress(&ectx, block, len);
- /*
- * End the block (by transmitting code 256, which is 0000000 in
- * fixed-tree mode), and transmit some empty blocks to ensure
- * we have emitted the byte containing the last piece of
- * genuine data. There are three ways we can do this:
- *
- * - Minimal flush. Output end-of-block and then open a new
- * static block. This takes 9 bits, which is guaranteed to
- * flush out the last genuine code in the closed block; but
- * allegedly zlib can't handle it.
- *
- * - Zlib partial flush. Output EOB, open and close an empty
- * static block, and _then_ open the new block. This is the
- * best zlib can handle.
- *
- * - Zlib sync flush. Output EOB, then an empty _uncompressed_
- * block (000, then sync to byte boundary, then send bytes
- * 00 00 FF FF). Then open the new block.
- *
- * For the moment, we will use Zlib partial flush.
- */
- outbits(out, 0, 7); /* close block */
- outbits(out, 2, 3+7); /* empty static block */
- outbits(out, 2, 3); /* open new block */
+ if (out->comp_disabled) {
+ if (in_block)
+ outbits(out, 0, 7); /* close static block */
+
+ while (len > 0) {
+ int blen = (len < 65535 ? len : 65535);
+
+ /*
+ * Start a Deflate (RFC1951) uncompressed block. We
+ * transmit a zero bit (BFINAL=0), followed by a zero
+ * bit and a one bit (BTYPE=00). Of course these are in
+ * the wrong order (00 0).
+ */
+ outbits(out, 0, 3);
+
+ /*
+ * Output zero bits to align to a byte boundary.
+ */
+ if (out->noutbits)
+ outbits(out, 0, 8 - out->noutbits);
+
+ /*
+ * Output the block length, and then its one's
+ * complement. They're little-endian, so all we need to
+ * do is pass them straight to outbits() with bit count
+ * 16.
+ */
+ outbits(out, blen, 16);
+ outbits(out, blen ^ 0xFFFF, 16);
+
+ /*
+ * Do the `compression': we need to pass the data to
+ * lz77_compress so that it will be taken into account
+ * for subsequent (distance,length) pairs. But
+ * lz77_compress is passed FALSE, which means it won't
+ * actually find (or even look for) any matches; so
+ * every character will be passed straight to
+ * zlib_literal which will spot out->comp_disabled and
+ * emit in the uncompressed format.
+ */
+ lz77_compress(&ectx, block, blen, FALSE);
+
+ len -= blen;
+ block += blen;
+ }
+ outbits(out, 2, 3); /* open new block */
+ } else {
+ if (!in_block) {
+ /*
+ * Start a Deflate (RFC1951) fixed-trees block. We
+ * transmit a zero bit (BFINAL=0), followed by a zero
+ * bit and a one bit (BTYPE=01). Of course these are in
+ * the wrong order (01 0).
+ */
+ outbits(out, 2, 3);
+ }
+
+ /*
+ * Do the compression.
+ */
+ lz77_compress(&ectx, block, len, TRUE);
+
+ /*
+ * End the block (by transmitting code 256, which is
+ * 0000000 in fixed-tree mode), and transmit some empty
+ * blocks to ensure we have emitted the byte containing the
+ * last piece of genuine data. There are three ways we can
+ * do this:
+ *
+ * - Minimal flush. Output end-of-block and then open a
+ * new static block. This takes 9 bits, which is
+ * guaranteed to flush out the last genuine code in the
+ * closed block; but allegedly zlib can't handle it.
+ *
+ * - Zlib partial flush. Output EOB, open and close an
+ * empty static block, and _then_ open the new block.
+ * This is the best zlib can handle.
+ *
+ * - Zlib sync flush. Output EOB, then an empty
+ * _uncompressed_ block (000, then sync to byte
+ * boundary, then send bytes 00 00 FF FF). Then open the
+ * new block.
+ *
+ * For the moment, we will use Zlib partial flush.
+ */
+ outbits(out, 0, 7); /* close block */
+ outbits(out, 2, 3+7); /* empty static block */
+ outbits(out, 2, 3); /* open new block */
+ }
+
+ out->comp_disabled = FALSE;