256 lines
9.9 KiB
C
256 lines
9.9 KiB
C
/*
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* HPACK header table management (RFC7541) - type definitions and prototypes
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*
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* Copyright (C) 2014-2017 Willy Tarreau <willy@haproxy.org>
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* Copyright (C) 2017 HAProxy Technologies
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
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* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
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* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*/
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#ifndef _COMMON_HPACK_TBL_H
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#define _COMMON_HPACK_TBL_H
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#include <inttypes.h>
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#include <stdlib.h>
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#include <common/config.h>
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#include <common/http-hdr.h>
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#include <common/ist.h>
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/* Dynamic Headers Table, usable for tables up to 4GB long and values of 64kB-1.
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* The model can be improved by using offsets relative to the table entry's end
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* or to the end of the area, or by moving the descriptors at the end of the
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* table and the data at the beginning. This entry is 8 bytes long, which is 1/4
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* of the bookkeeping planned by the HPACK spec. Thus it saves 24 bytes per
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* header field, meaning that even with a single header, 24 extra bytes can be
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* stored (ie one such descriptor). At 29.2 average bytes per header field as
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* found in the hpack test case, that's slightly more than 1.5kB of space saved
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* from a 4kB block, resulting in contiguous space almost always being
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* available.
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*
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* Principle: the table is stored in a contiguous array containing both the
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* descriptors and the contents. Descriptors are stored at the beginning of the
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* array while contents are stored starting from the end. Most of the time there
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* is enough room left in the table to insert a new header field, thanks to the
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* savings on the descriptor size. Thus by inserting headers from the end it's
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* possible to maximize the delay before a collision of DTEs and data. In order
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* to always insert from the right, we need to keep a reference to the latest
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* inserted element and look before it. The last inserted cell's address defines
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* the lowest known address still in use, unless the area wraps in which case
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* the available space lies between the end of the tail and the beginning of the
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* head.
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*
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* In order to detect collisions between data blocks and DTEs, we also maintain
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* an index to the lowest element facing the DTE table, called "front". This one
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* is updated each time an element is inserted before it. Once the buffer wraps,
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* this element doesn't have to be updated anymore until it is released, in
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* which case the buffer doesn't wrap anymore and the front element becomes the
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* head again.
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*
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* Various heuristics are possible concerning the opportunity to wrap the
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* entries to limit the risk of collisions with the DTE, but experimentation
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* shows that thanks to the important savings made on the descriptors, the
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* likeliness of finding a large amount of free space at the end of the area is
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* much higher than the risk of colliding, so in the end the most naive
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* algorithms work pretty fine. Typical ratios of 1 collision per 2000 requests
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* have been observed.
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*
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* The defragmentation should be rare ; a study on live data shows on average
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* 29.2 bytes used per header field. This plus the 32 bytes overhead fix an
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* average of 66.9 header fields per 4kB table. This brings a 1606 bytes saving
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* using the current storage description, ensuring that oldest headers are
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* linearly removed by the sender before fragmentation occurs. This means that
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* for all smaller header fields there will not be any requirement to defragment
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* the area and most of the time it will even be possible to copy the old values
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* directly within the buffer after creating a new entry. On average within the
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* available space there will be enough room to store 1606/(29.2+8)=43 extra
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* header fields without switching to another place.
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*
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* The table header fits in the table itself, it only takes 16 bytes, so in the
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* worst case (1 single header) it's possible to store 4096 - 16 - 8 = 4072
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* data bytes, which is larger than the 4064 the protocol requires (4096 - 32).
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*/
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/* One dynamic table entry descriptor */
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struct hpack_dte {
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uint32_t addr; /* storage address, relative to the dte address */
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uint16_t nlen; /* header name length */
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uint16_t vlen; /* header value length */
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};
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/* Note: the table's head plus a struct hpack_dte must be smaller than or equal to 32
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* bytes so that a single large header can always fit. Here that's 16 bytes for
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* the header, plus 8 bytes per slot.
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* Note that when <used> == 0, front, head, and wrap are undefined.
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*/
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struct hpack_dht {
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uint32_t size; /* allocated table size in bytes */
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uint32_t total; /* sum of nlen + vlen in bytes */
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uint16_t front; /* slot number of the first node after the idx table */
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uint16_t wrap; /* number of allocated slots, wraps here */
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uint16_t head; /* last inserted slot number */
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uint16_t used; /* number of slots in use */
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struct hpack_dte dte[0]; /* dynamic table entries */
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};
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/* supported hpack encoding/decoding errors */
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enum {
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HPACK_ERR_NONE = 0, /* no error */
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HPACK_ERR_ALLOC_FAIL, /* memory allocation error */
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HPACK_ERR_UNKNOWN_OPCODE, /* invalid first byte */
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HPACK_ERR_TRUNCATED, /* truncated stream */
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HPACK_ERR_HUFFMAN, /* huffman decoding error */
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HPACK_ERR_INVALID_PHDR, /* invalid pseudo header field name */
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HPACK_ERR_MISPLACED_PHDR, /* pseudo header field after a regular header field */
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HPACK_ERR_DUPLICATE_PHDR, /* duplicate pseudo header field */
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HPACK_ERR_DHT_INSERT_FAIL, /* failed to insert into DHT */
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HPACK_ERR_TOO_LARGE, /* decoded request/response is too large */
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HPACK_ERR_MISSING_METHOD, /* :method is missing */
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HPACK_ERR_MISSING_SCHEME, /* :scheme is missing */
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HPACK_ERR_MISSING_PATH, /* :path is missing */
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HPACK_ERR_MISSING_AUTHORITY, /* :authority is missing with CONNECT */
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HPACK_ERR_SCHEME_NOT_ALLOWED, /* :scheme not allowed with CONNECT */
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HPACK_ERR_PATH_NOT_ALLOWED, /* :path not allowed with CONNECT */
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HPACK_ERR_INVALID_ARGUMENT, /* an invalid argument was passed */
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};
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/* static header table as in RFC7541 Appendix A. [0] unused. */
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#define HPACK_SHT_SIZE 62
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extern const struct http_hdr hpack_sht[HPACK_SHT_SIZE];
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extern int __hpack_dht_make_room(struct hpack_dht *dht, unsigned int needed);
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extern int hpack_dht_insert(struct hpack_dht *dht, struct ist name, struct ist value);
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/* return a pointer to the entry designated by index <idx> (starting at 1) or
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* NULL if this index is not there.
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*/
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static inline const struct hpack_dte *hpack_get_dte(const struct hpack_dht *dht, uint16_t idx)
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{
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idx--;
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if (idx >= dht->used)
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return NULL;
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if (idx <= dht->head)
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idx = dht->head - idx;
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else
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idx = dht->head - idx + dht->wrap;
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return &dht->dte[idx];
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}
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/* returns non-zero if <idx> is valid for table <dht> */
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static inline int hpack_valid_idx(const struct hpack_dht *dht, uint32_t idx)
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{
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return idx < dht->used + HPACK_SHT_SIZE;
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}
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/* return a pointer to the header name for entry <dte>. */
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static inline struct ist hpack_get_name(const struct hpack_dht *dht, const struct hpack_dte *dte)
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{
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struct ist ret = {
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.ptr = (void *)dht + dte->addr,
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.len = dte->nlen,
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};
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return ret;
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}
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/* return a pointer to the header value for entry <dte>. */
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static inline struct ist hpack_get_value(const struct hpack_dht *dht, const struct hpack_dte *dte)
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{
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struct ist ret = {
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.ptr = (void *)dht + dte->addr + dte->nlen,
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.len = dte->vlen,
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};
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return ret;
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}
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/* takes an idx, returns the associated name */
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static inline struct ist hpack_idx_to_name(const struct hpack_dht *dht, uint32_t idx)
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{
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const struct hpack_dte *dte;
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if (idx < HPACK_SHT_SIZE)
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return hpack_sht[idx].n;
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dte = hpack_get_dte(dht, idx - HPACK_SHT_SIZE + 1);
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if (!dte)
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return ist("### ERR ###"); // error
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return hpack_get_name(dht, dte);
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}
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/* takes an idx, returns the associated value */
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static inline struct ist hpack_idx_to_value(const struct hpack_dht *dht, uint32_t idx)
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{
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const struct hpack_dte *dte;
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if (idx < HPACK_SHT_SIZE)
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return hpack_sht[idx].v;
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dte = hpack_get_dte(dht, idx - HPACK_SHT_SIZE + 1);
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if (!dte)
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return ist("### ERR ###"); // error
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return hpack_get_value(dht, dte);
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}
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/* Purges table dht until a header field of <needed> bytes fits according to
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* the protocol (adding 32 bytes overhead). Returns non-zero on success, zero
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* on failure (ie: table empty but still not sufficient).
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*/
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static inline int hpack_dht_make_room(struct hpack_dht *dht, unsigned int needed)
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{
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if (dht->used * 32 + dht->total + needed + 32 <= dht->size)
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return 1;
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else if (!dht->used)
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return 0;
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return __hpack_dht_make_room(dht, needed);
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}
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/* allocate a dynamic headers table of <size> bytes and return it initialized */
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static inline void hpack_dht_init(struct hpack_dht *dht, uint32_t size)
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{
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dht->size = size;
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dht->total = 0;
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dht->used = 0;
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}
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/* allocate a dynamic headers table of <size> bytes and return it initialized */
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static inline struct hpack_dht *hpack_dht_alloc(uint32_t size)
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{
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struct hpack_dht *dht;
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dht = malloc(size);
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if (!dht)
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return dht;
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hpack_dht_init(dht, size);
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return dht;
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}
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/* free a dynamic headers table */
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static inline void hpack_dht_free(struct hpack_dht *dht)
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{
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free(dht);
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}
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#endif /* _COMMON_HPACK_TBL_H */
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