src/hpack-tbl.c - haproxy - Gitiles

 /*
  * HPACK header table management (RFC7541)
  *
  * Copyright (C) 2014-2017 Willy Tarreau <willy@haproxy.org>
  * Copyright (C) 2017 HAProxy Technologies
  *
  * Permission is hereby granted, free of charge, to any person obtaining
  * a copy of this software and associated documentation files (the
  * "Software"), to deal in the Software without restriction, including
  * without limitation the rights to use, copy, modify, merge, publish,
  * distribute, sublicense, and/or sell copies of the Software, and to
  * permit persons to whom the Software is furnished to do so, subject to
  * the following conditions:
  *
  * The above copyright notice and this permission notice shall be
  * included in all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
  * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
  * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
  * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
  * OTHER DEALINGS IN THE SOFTWARE.
  */

 #include <inttypes.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include <import/ist.h>
 #include <haproxy/hpack-huff.h>
 #include <haproxy/hpack-tbl.h>

 /* static header table as in RFC7541 Appendix A. [0] unused. */
 const struct http_hdr hpack_sht[HPACK_SHT_SIZE] = {
 	[ 1] = { .n = IST(":authority"),                   .v = IST("")              },
 	[ 2] = { .n = IST(":method"),                      .v = IST("GET")           },
 	[ 3] = { .n = IST(":method"),                      .v = IST("POST")          },
 	[ 4] = { .n = IST(":path"),                        .v = IST("/")             },
 	[ 5] = { .n = IST(":path"),                        .v = IST("/index.html")   },
 	[ 6] = { .n = IST(":scheme"),                      .v = IST("http")          },
 	[ 7] = { .n = IST(":scheme"),                      .v = IST("https")         },
 	[ 8] = { .n = IST(":status"),                      .v = IST("200")           },
 	[ 9] = { .n = IST(":status"),                      .v = IST("204")           },
 	[10] = { .n = IST(":status"),                      .v = IST("206")           },
 	[11] = { .n = IST(":status"),                      .v = IST("304")           },
 	[12] = { .n = IST(":status"),                      .v = IST("400")           },
 	[13] = { .n = IST(":status"),                      .v = IST("404")           },
 	[14] = { .n = IST(":status"),                      .v = IST("500")           },
 	[15] = { .n = IST("accept-charset"),               .v = IST("")              },
 	[16] = { .n = IST("accept-encoding"),              .v = IST("gzip, deflate") },
 	[17] = { .n = IST("accept-language"),              .v = IST("")              },
 	[18] = { .n = IST("accept-ranges"),                .v = IST("")              },
 	[19] = { .n = IST("accept"),                       .v = IST("")              },
 	[20] = { .n = IST("access-control-allow-origin"),  .v = IST("")              },
 	[21] = { .n = IST("age"),                          .v = IST("")              },
 	[22] = { .n = IST("allow"),                        .v = IST("")              },
 	[23] = { .n = IST("authorization"),                .v = IST("")              },
 	[24] = { .n = IST("cache-control"),                .v = IST("")              },
 	[25] = { .n = IST("content-disposition"),          .v = IST("")              },
 	[26] = { .n = IST("content-encoding"),             .v = IST("")              },
 	[27] = { .n = IST("content-language"),             .v = IST("")              },
 	[28] = { .n = IST("content-length"),               .v = IST("")              },
 	[29] = { .n = IST("content-location"),             .v = IST("")              },
 	[30] = { .n = IST("content-range"),                .v = IST("")              },
 	[31] = { .n = IST("content-type") ,                .v = IST("")              },
 	[32] = { .n = IST("cookie"),                       .v = IST("")              },
 	[33] = { .n = IST("date"),                         .v = IST("")              },
 	[34] = { .n = IST("etag"),                         .v = IST("")              },
 	[35] = { .n = IST("expect"),                       .v = IST("")              },
 	[36] = { .n = IST("expires"),                      .v = IST("")              },
 	[37] = { .n = IST("from"),                         .v = IST("")              },
 	[38] = { .n = IST("host"),                         .v = IST("")              },
 	[39] = { .n = IST("if-match"),                     .v = IST("")              },
 	[40] = { .n = IST("if-modified-since"),            .v = IST("")              },
 	[41] = { .n = IST("if-none-match"),                .v = IST("")              },
 	[42] = { .n = IST("if-range"),                     .v = IST("")              },
 	[43] = { .n = IST("if-unmodified-since"),          .v = IST("")              },
 	[44] = { .n = IST("last-modified"),                .v = IST("")              },
 	[45] = { .n = IST("link"),                         .v = IST("")              },
 	[46] = { .n = IST("location"),                     .v = IST("")              },
 	[47] = { .n = IST("max-forwards"),                 .v = IST("")              },
 	[48] = { .n = IST("proxy-authenticate"),           .v = IST("")              },
 	[49] = { .n = IST("proxy-authorization"),          .v = IST("")              },
 	[50] = { .n = IST("range"),                        .v = IST("")              },
 	[51] = { .n = IST("referer"),                      .v = IST("")              },
 	[52] = { .n = IST("refresh"),                      .v = IST("")              },
 	[53] = { .n = IST("retry-after"),                  .v = IST("")              },
 	[54] = { .n = IST("server"),                       .v = IST("")              },
 	[55] = { .n = IST("set-cookie"),                   .v = IST("")              },
 	[56] = { .n = IST("strict-transport-security"),    .v = IST("")              },
 	[57] = { .n = IST("transfer-encoding"),            .v = IST("")              },
 	[58] = { .n = IST("user-agent"),                   .v = IST("")              },
 	[59] = { .n = IST("vary"),                         .v = IST("")              },
 	[60] = { .n = IST("via"),                          .v = IST("")              },
 	[61] = { .n = IST("www-authenticate"),             .v = IST("")              },
 };

 struct pool_head *pool_head_hpack_tbl __read_mostly = NULL;

 #ifdef DEBUG_HPACK
 /* dump the whole dynamic header table */
 void hpack_dht_dump(FILE *out, const struct hpack_dht *dht)
 {
 	unsigned int i;
 	unsigned int slot;
 	char name[4096], value[4096];

 	for (i = HPACK_SHT_SIZE; i < HPACK_SHT_SIZE + dht->used; i++) {
 		slot = (hpack_get_dte(dht, i - HPACK_SHT_SIZE + 1) - dht->dte);
 		fprintf(out, "idx=%d slot=%u name=<%s> value=<%s> addr=%u-%u\n",
 			i, slot,
 			istpad(name, hpack_idx_to_name(dht, i)).ptr,
 			istpad(value, hpack_idx_to_value(dht, i)).ptr,
 			dht->dte[slot].addr, dht->dte[slot].addr+dht->dte[slot].nlen+dht->dte[slot].vlen-1);
 	}
 }

 /* check for the whole dynamic header table consistency, abort on failures */
 void hpack_dht_check_consistency(const struct hpack_dht *dht)
 {
 	unsigned slot = hpack_dht_get_tail(dht);
 	unsigned used2 = dht->used;
 	unsigned total = 0;

 	if (!dht->used)
 		return;

 	if (dht->front >= dht->wrap)
 		abort();

 	if (dht->used > dht->wrap)
 		abort();

 	if (dht->head >= dht->wrap)
 		abort();

 	while (used2--) {
 		total += dht->dte[slot].nlen + dht->dte[slot].vlen;
 		slot++;
 		if (slot >= dht->wrap)
 			slot = 0;
 	}

 	if (total != dht->total) {
 		fprintf(stderr, "%d: total=%u dht=%u\n", __LINE__, total, dht->total);
 		abort();
 	}
 }
 #endif // DEBUG_HPACK

 /* rebuild a new dynamic header table from <dht> with an unwrapped index and
  * contents at the end. The new table is returned, the caller must not use the
  * previous one anymore. NULL may be returned if no table could be allocated.
  */
 static struct hpack_dht *hpack_dht_defrag(struct hpack_dht *dht)
 {
 	struct hpack_dht *alt_dht;
 	uint16_t old, new;
 	uint32_t addr;

 	/* Note: for small tables we could use alloca() instead but
 	 * portability especially for large tables can be problematic.
 	 */
 	alt_dht = hpack_dht_alloc();
 	if (!alt_dht)
 		return NULL;

 	alt_dht->total = dht->total;
 	alt_dht->used = dht->used;
 	alt_dht->wrap = dht->used;

 	new = 0;
 	addr = alt_dht->size;

 	if (dht->used) {
 		/* start from the tail */
 		old = hpack_dht_get_tail(dht);
 		do {
 			alt_dht->dte[new].nlen = dht->dte[old].nlen;
 			alt_dht->dte[new].vlen = dht->dte[old].vlen;
 			addr -= dht->dte[old].nlen + dht->dte[old].vlen;
 			alt_dht->dte[new].addr = addr;

 			memcpy((void *)alt_dht + alt_dht->dte[new].addr,
 			       (void *)dht + dht->dte[old].addr,
 			       dht->dte[old].nlen + dht->dte[old].vlen);

 			old++;
 			if (old >= dht->wrap)
 				old = 0;
 			new++;
 		} while (new < dht->used);
 	}

 	alt_dht->front = alt_dht->head = new - 1;

 	memcpy(dht, alt_dht, dht->size);
 	hpack_dht_free(alt_dht);

 	return dht;
 }

 /* Purges table dht until a header field of <needed> bytes fits according to
  * the protocol (adding 32 bytes overhead). Returns non-zero on success, zero
  * on failure (ie: table empty but still not sufficient). It must only be
  * called when the table is not large enough to suit the new entry and there
  * are some entries left. In case of doubt, use dht_make_room() instead.
  */
 int __hpack_dht_make_room(struct hpack_dht *dht, unsigned int needed)
 {
 	unsigned int used = dht->used;
 	unsigned int wrap = dht->wrap;
 	unsigned int tail;

 	do {
 		tail = ((dht->head + 1U < used) ? wrap : 0) + dht->head + 1U - used;
 		dht->total -= dht->dte[tail].nlen + dht->dte[tail].vlen;
 		if (tail == dht->front)
 			dht->front = dht->head;
 		used--;
 	} while (used && used * 32 + dht->total + needed + 32 > dht->size);

 	dht->used = used;

 	/* realign if empty */
 	if (!used)
 		dht->front = dht->head = 0;

 	/* pack the table if it doesn't wrap anymore */
 	if (dht->head + 1U >= used)
 		dht->wrap = dht->head + 1;

 	/* no need to check for 'used' here as if it doesn't fit, used==0 */
 	return needed + 32 <= dht->size;
 }

 /* tries to insert a new header <name>:<value> in front of the current head. A
  * negative value is returned on error.
  */
 int hpack_dht_insert(struct hpack_dht *dht, struct ist name, struct ist value)
 {
 	unsigned int used;
 	unsigned int head;
 	unsigned int prev;
 	unsigned int wrap;
 	unsigned int tail;
 	uint32_t headroom, tailroom;

 	if (!hpack_dht_make_room(dht, name.len + value.len))
 		return 0;

 	/* Now there is enough room in the table, that's guaranteed by the
 	 * protocol, but not necessarily where we need it.
 	 */

 	used = dht->used;
 	if (!used) {
 		/* easy, the table was empty */
 		dht->front = dht->head = 0;
 		dht->wrap  = dht->used = 1;
 		dht->total = 0;
 		head = 0;
 		dht->dte[head].addr = dht->size - (name.len + value.len);
 		goto copy;
 	}

 	/* compute the new head, used and wrap position */
 	prev = head = dht->head;
 	wrap = dht->wrap;
 	tail = hpack_dht_get_tail(dht);

 	used++;
 	head++;

 	if (head >= wrap) {
 		/* head is leading the entries, we either need to push the
 		 * table further or to loop back to released entries. We could
 		 * force to loop back when at least half of the allocatable
 		 * entries are free but in practice it never happens.
 		 */
 		if ((sizeof(*dht) + (wrap + 1) * sizeof(dht->dte[0]) <= dht->dte[dht->front].addr))
 			wrap++;
 		else if (head >= used) /* there's a hole at the beginning */
 			head = 0;
 		else {
 			/* no more room, head hits tail and the index cannot be
 			 * extended, we have to realign the whole table.
 			 */
 			if (!hpack_dht_defrag(dht))
 				return -1;

 			wrap = dht->wrap + 1;
 			head = dht->head + 1;
 			prev = head - 1;
 			tail = 0;
 		}
 	}
 	else if (used >= wrap) {
 		/* we've hit the tail, we need to reorganize the index so that
 		 * the head is at the end (but not necessarily move the data).
 		 */
 		if (!hpack_dht_defrag(dht))
 			return -1;

 		wrap = dht->wrap + 1;
 		head = dht->head + 1;
 		prev = head - 1;
 		tail = 0;
 	}

 	/* Now we have updated head, used and wrap, we know that there is some
 	 * available room at least from the protocol's perspective. This space
 	 * is split in two areas :
 	 *
 	 *   1: if the previous head was the front cell, the space between the
 	 *      end of the index table and the front cell's address.
 	 *   2: if the previous head was the front cell, the space between the
 	 *      end of the tail and the end of the table ; or if the previous
 	 *      head was not the front cell, the space between the end of the
 	 *      tail and the head's address.
 	 */
 	if (prev == dht->front) {
 		/* the area was contiguous */
 		headroom = dht->dte[dht->front].addr - (sizeof(*dht) + wrap * sizeof(dht->dte[0]));
 		tailroom = dht->size - dht->dte[tail].addr - dht->dte[tail].nlen - dht->dte[tail].vlen;
 	}
 	else {
 		/* it's already wrapped so we can't store anything in the headroom */
 		headroom = 0;
 		tailroom = dht->dte[prev].addr - dht->dte[tail].addr - dht->dte[tail].nlen - dht->dte[tail].vlen;
 	}

 	/* We can decide to stop filling the headroom as soon as there's enough
 	 * room left in the tail to suit the protocol, but tests show that in
 	 * practice it almost never happens in other situations so the extra
 	 * test is useless and we simply fill the headroom as long as it's
 	 * available and we don't wrap.
 	 */
 	if (prev == dht->front && headroom >= name.len + value.len) {
 		/* install upfront and update ->front */
 		dht->dte[head].addr = dht->dte[dht->front].addr - (name.len + value.len);
 		dht->front = head;
 	}
 	else if (tailroom >= name.len + value.len) {
 		dht->dte[head].addr = dht->dte[tail].addr + dht->dte[tail].nlen + dht->dte[tail].vlen + tailroom - (name.len + value.len);
 	}
 	else {
 		/* need to defragment the table before inserting upfront */
 		dht = hpack_dht_defrag(dht);
 		wrap = dht->wrap + 1;
 		head = dht->head + 1;
 		dht->dte[head].addr = dht->dte[dht->front].addr - (name.len + value.len);
 		dht->front = head;
 	}

 	dht->wrap = wrap;
 	dht->head = head;
 	dht->used = used;

  copy:
 	dht->total         += name.len + value.len;
 	dht->dte[head].nlen = name.len;
 	dht->dte[head].vlen = value.len;

 	memcpy((void *)dht + dht->dte[head].addr, name.ptr, name.len);
 	memcpy((void *)dht + dht->dte[head].addr + name.len, value.ptr, value.len);
 	return 0;
 }
	/*
	* HPACK header table management (RFC7541)
	*
	* Copyright (C) 2014-2017 Willy Tarreau <willy@haproxy.org>
	* Copyright (C) 2017 HAProxy Technologies
	*
	* Permission is hereby granted, free of charge, to any person obtaining
	* a copy of this software and associated documentation files (the
	* "Software"), to deal in the Software without restriction, including
	* without limitation the rights to use, copy, modify, merge, publish,
	* distribute, sublicense, and/or sell copies of the Software, and to
	* permit persons to whom the Software is furnished to do so, subject to
	* the following conditions:
	*
	* The above copyright notice and this permission notice shall be
	* included in all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
	* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
	* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
	* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
	* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
	* OTHER DEALINGS IN THE SOFTWARE.
	*/

	#include <inttypes.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include <import/ist.h>
	#include <haproxy/hpack-huff.h>
	#include <haproxy/hpack-tbl.h>

	/* static header table as in RFC7541 Appendix A. [0] unused. */
	const struct http_hdr hpack_sht[HPACK_SHT_SIZE] = {
	[ 1] = { .n = IST(":authority"), .v = IST("") },
	[ 2] = { .n = IST(":method"), .v = IST("GET") },
	[ 3] = { .n = IST(":method"), .v = IST("POST") },
	[ 4] = { .n = IST(":path"), .v = IST("/") },
	[ 5] = { .n = IST(":path"), .v = IST("/index.html") },
	[ 6] = { .n = IST(":scheme"), .v = IST("http") },
	[ 7] = { .n = IST(":scheme"), .v = IST("https") },
	[ 8] = { .n = IST(":status"), .v = IST("200") },
	[ 9] = { .n = IST(":status"), .v = IST("204") },
	[10] = { .n = IST(":status"), .v = IST("206") },
	[11] = { .n = IST(":status"), .v = IST("304") },
	[12] = { .n = IST(":status"), .v = IST("400") },
	[13] = { .n = IST(":status"), .v = IST("404") },
	[14] = { .n = IST(":status"), .v = IST("500") },
	[15] = { .n = IST("accept-charset"), .v = IST("") },
	[16] = { .n = IST("accept-encoding"), .v = IST("gzip, deflate") },
	[17] = { .n = IST("accept-language"), .v = IST("") },
	[18] = { .n = IST("accept-ranges"), .v = IST("") },
	[19] = { .n = IST("accept"), .v = IST("") },
	[20] = { .n = IST("access-control-allow-origin"), .v = IST("") },
	[21] = { .n = IST("age"), .v = IST("") },
	[22] = { .n = IST("allow"), .v = IST("") },
	[23] = { .n = IST("authorization"), .v = IST("") },
	[24] = { .n = IST("cache-control"), .v = IST("") },
	[25] = { .n = IST("content-disposition"), .v = IST("") },
	[26] = { .n = IST("content-encoding"), .v = IST("") },
	[27] = { .n = IST("content-language"), .v = IST("") },
	[28] = { .n = IST("content-length"), .v = IST("") },
	[29] = { .n = IST("content-location"), .v = IST("") },
	[30] = { .n = IST("content-range"), .v = IST("") },
	[31] = { .n = IST("content-type") , .v = IST("") },
	[32] = { .n = IST("cookie"), .v = IST("") },
	[33] = { .n = IST("date"), .v = IST("") },
	[34] = { .n = IST("etag"), .v = IST("") },
	[35] = { .n = IST("expect"), .v = IST("") },
	[36] = { .n = IST("expires"), .v = IST("") },
	[37] = { .n = IST("from"), .v = IST("") },
	[38] = { .n = IST("host"), .v = IST("") },
	[39] = { .n = IST("if-match"), .v = IST("") },
	[40] = { .n = IST("if-modified-since"), .v = IST("") },
	[41] = { .n = IST("if-none-match"), .v = IST("") },
	[42] = { .n = IST("if-range"), .v = IST("") },
	[43] = { .n = IST("if-unmodified-since"), .v = IST("") },
	[44] = { .n = IST("last-modified"), .v = IST("") },
	[45] = { .n = IST("link"), .v = IST("") },
	[46] = { .n = IST("location"), .v = IST("") },
	[47] = { .n = IST("max-forwards"), .v = IST("") },
	[48] = { .n = IST("proxy-authenticate"), .v = IST("") },
	[49] = { .n = IST("proxy-authorization"), .v = IST("") },
	[50] = { .n = IST("range"), .v = IST("") },
	[51] = { .n = IST("referer"), .v = IST("") },
	[52] = { .n = IST("refresh"), .v = IST("") },
	[53] = { .n = IST("retry-after"), .v = IST("") },
	[54] = { .n = IST("server"), .v = IST("") },
	[55] = { .n = IST("set-cookie"), .v = IST("") },
	[56] = { .n = IST("strict-transport-security"), .v = IST("") },
	[57] = { .n = IST("transfer-encoding"), .v = IST("") },
	[58] = { .n = IST("user-agent"), .v = IST("") },
	[59] = { .n = IST("vary"), .v = IST("") },
	[60] = { .n = IST("via"), .v = IST("") },
	[61] = { .n = IST("www-authenticate"), .v = IST("") },
	};

	struct pool_head *pool_head_hpack_tbl __read_mostly = NULL;

	#ifdef DEBUG_HPACK
	/* dump the whole dynamic header table */
	void hpack_dht_dump(FILE out, const struct hpack_dht dht)
	{
	unsigned int i;
	unsigned int slot;
	char name[4096], value[4096];

	for (i = HPACK_SHT_SIZE; i < HPACK_SHT_SIZE + dht->used; i++) {
	slot = (hpack_get_dte(dht, i - HPACK_SHT_SIZE + 1) - dht->dte);
	fprintf(out, "idx=%d slot=%u name=<%s> value=<%s> addr=%u-%u\n",
	i, slot,
	istpad(name, hpack_idx_to_name(dht, i)).ptr,
	istpad(value, hpack_idx_to_value(dht, i)).ptr,
	dht->dte[slot].addr, dht->dte[slot].addr+dht->dte[slot].nlen+dht->dte[slot].vlen-1);
	}
	}

	/* check for the whole dynamic header table consistency, abort on failures */
	void hpack_dht_check_consistency(const struct hpack_dht *dht)
	{
	unsigned slot = hpack_dht_get_tail(dht);
	unsigned used2 = dht->used;
	unsigned total = 0;

	if (!dht->used)
	return;

	if (dht->front >= dht->wrap)
	abort();

	if (dht->used > dht->wrap)
	abort();

	if (dht->head >= dht->wrap)
	abort();

	while (used2--) {
	total += dht->dte[slot].nlen + dht->dte[slot].vlen;
	slot++;
	if (slot >= dht->wrap)
	slot = 0;
	}

	if (total != dht->total) {
	fprintf(stderr, "%d: total=%u dht=%u\n", __LINE__, total, dht->total);
	abort();
	}
	}
	#endif // DEBUG_HPACK

	/* rebuild a new dynamic header table from <dht> with an unwrapped index and
	* contents at the end. The new table is returned, the caller must not use the
	* previous one anymore. NULL may be returned if no table could be allocated.
	*/
	static struct hpack_dht hpack_dht_defrag(struct hpack_dht dht)
	{
	struct hpack_dht *alt_dht;
	uint16_t old, new;
	uint32_t addr;

	/* Note: for small tables we could use alloca() instead but
	* portability especially for large tables can be problematic.
	*/
	alt_dht = hpack_dht_alloc();
	if (!alt_dht)
	return NULL;

	alt_dht->total = dht->total;
	alt_dht->used = dht->used;
	alt_dht->wrap = dht->used;

	new = 0;
	addr = alt_dht->size;

	if (dht->used) {
	/* start from the tail */
	old = hpack_dht_get_tail(dht);
	do {
	alt_dht->dte[new].nlen = dht->dte[old].nlen;
	alt_dht->dte[new].vlen = dht->dte[old].vlen;
	addr -= dht->dte[old].nlen + dht->dte[old].vlen;
	alt_dht->dte[new].addr = addr;

	memcpy((void *)alt_dht + alt_dht->dte[new].addr,
	(void *)dht + dht->dte[old].addr,
	dht->dte[old].nlen + dht->dte[old].vlen);

	old++;
	if (old >= dht->wrap)
	old = 0;
	new++;
	} while (new < dht->used);
	}

	alt_dht->front = alt_dht->head = new - 1;

	memcpy(dht, alt_dht, dht->size);
	hpack_dht_free(alt_dht);

	return dht;
	}

	/* Purges table dht until a header field of <needed> bytes fits according to
	* the protocol (adding 32 bytes overhead). Returns non-zero on success, zero
	* on failure (ie: table empty but still not sufficient). It must only be
	* called when the table is not large enough to suit the new entry and there
	* are some entries left. In case of doubt, use dht_make_room() instead.
	*/
	int __hpack_dht_make_room(struct hpack_dht *dht, unsigned int needed)
	{
	unsigned int used = dht->used;
	unsigned int wrap = dht->wrap;
	unsigned int tail;

	do {
	tail = ((dht->head + 1U < used) ? wrap : 0) + dht->head + 1U - used;
	dht->total -= dht->dte[tail].nlen + dht->dte[tail].vlen;
	if (tail == dht->front)
	dht->front = dht->head;
	used--;
	} while (used && used * 32 + dht->total + needed + 32 > dht->size);

	dht->used = used;

	/* realign if empty */
	if (!used)
	dht->front = dht->head = 0;

	/* pack the table if it doesn't wrap anymore */
	if (dht->head + 1U >= used)
	dht->wrap = dht->head + 1;

	/* no need to check for 'used' here as if it doesn't fit, used==0 */
	return needed + 32 <= dht->size;
	}

	/* tries to insert a new header <name>:<value> in front of the current head. A
	* negative value is returned on error.
	*/
	int hpack_dht_insert(struct hpack_dht *dht, struct ist name, struct ist value)
	{
	unsigned int used;
	unsigned int head;
	unsigned int prev;
	unsigned int wrap;
	unsigned int tail;
	uint32_t headroom, tailroom;

	if (!hpack_dht_make_room(dht, name.len + value.len))
	return 0;

	/* Now there is enough room in the table, that's guaranteed by the
	* protocol, but not necessarily where we need it.
	*/

	used = dht->used;
	if (!used) {
	/* easy, the table was empty */
	dht->front = dht->head = 0;
	dht->wrap = dht->used = 1;
	dht->total = 0;
	head = 0;
	dht->dte[head].addr = dht->size - (name.len + value.len);
	goto copy;
	}

	/* compute the new head, used and wrap position */
	prev = head = dht->head;
	wrap = dht->wrap;
	tail = hpack_dht_get_tail(dht);

	used++;
	head++;

	if (head >= wrap) {
	/* head is leading the entries, we either need to push the
	* table further or to loop back to released entries. We could
	* force to loop back when at least half of the allocatable
	* entries are free but in practice it never happens.
	*/
	if ((sizeof(dht) + (wrap + 1) sizeof(dht->dte[0]) <= dht->dte[dht->front].addr))
	wrap++;
	else if (head >= used) /* there's a hole at the beginning */
	head = 0;
	else {
	/* no more room, head hits tail and the index cannot be
	* extended, we have to realign the whole table.
	*/
	if (!hpack_dht_defrag(dht))
	return -1;

	wrap = dht->wrap + 1;
	head = dht->head + 1;
	prev = head - 1;
	tail = 0;
	}
	}
	else if (used >= wrap) {
	/* we've hit the tail, we need to reorganize the index so that
	* the head is at the end (but not necessarily move the data).
	*/
	if (!hpack_dht_defrag(dht))
	return -1;

	wrap = dht->wrap + 1;
	head = dht->head + 1;
	prev = head - 1;
	tail = 0;
	}

	/* Now we have updated head, used and wrap, we know that there is some
	* available room at least from the protocol's perspective. This space
	* is split in two areas :
	*
	* 1: if the previous head was the front cell, the space between the
	* end of the index table and the front cell's address.
	* 2: if the previous head was the front cell, the space between the
	* end of the tail and the end of the table ; or if the previous
	* head was not the front cell, the space between the end of the
	* tail and the head's address.
	*/
	if (prev == dht->front) {
	/* the area was contiguous */
	headroom = dht->dte[dht->front].addr - (sizeof(dht) + wrap sizeof(dht->dte[0]));
	tailroom = dht->size - dht->dte[tail].addr - dht->dte[tail].nlen - dht->dte[tail].vlen;
	}
	else {
	/* it's already wrapped so we can't store anything in the headroom */
	headroom = 0;
	tailroom = dht->dte[prev].addr - dht->dte[tail].addr - dht->dte[tail].nlen - dht->dte[tail].vlen;
	}

	/* We can decide to stop filling the headroom as soon as there's enough
	* room left in the tail to suit the protocol, but tests show that in
	* practice it almost never happens in other situations so the extra
	* test is useless and we simply fill the headroom as long as it's
	* available and we don't wrap.
	*/
	if (prev == dht->front && headroom >= name.len + value.len) {
	/* install upfront and update ->front */
	dht->dte[head].addr = dht->dte[dht->front].addr - (name.len + value.len);
	dht->front = head;
	}
	else if (tailroom >= name.len + value.len) {
	dht->dte[head].addr = dht->dte[tail].addr + dht->dte[tail].nlen + dht->dte[tail].vlen + tailroom - (name.len + value.len);
	}
	else {
	/* need to defragment the table before inserting upfront */
	dht = hpack_dht_defrag(dht);
	wrap = dht->wrap + 1;
	head = dht->head + 1;
	dht->dte[head].addr = dht->dte[dht->front].addr - (name.len + value.len);
	dht->front = head;
	}

	dht->wrap = wrap;
	dht->head = head;
	dht->used = used;

	copy:
	dht->total += name.len + value.len;
	dht->dte[head].nlen = name.len;
	dht->dte[head].vlen = value.len;

	memcpy((void *)dht + dht->dte[head].addr, name.ptr, name.len);
	memcpy((void *)dht + dht->dte[head].addr + name.len, value.ptr, value.len);
	return 0;
	}