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view src/core/ngx_hash.h @ 6536:f7849bfb6d21

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Improved EPOLLRDHUP handling. When it's known that the kernel supports EPOLLRDHUP, there is no need in additional recv() call to get EOF or error when the flag is absent in the event generated by the kernel. A special runtime test is done at startup to detect if EPOLLRDHUP is actually supported by the kernel because epoll_ctl() silently ignores unknown flags. With this knowledge it's now possible to drop the "ready" flag for partial read. Previously, the "ready" flag was kept until the recv() returned EOF or error. In particular, this change allows the lingering close heuristics (which relies on the "ready" flag state) to actually work on Linux, and not wait for more data in most cases. The "available" flag is now used in the read event with the semantics similar to the corresponding counter in kqueue.
author Valentin Bartenev <vbart@nginx.com>
date Fri, 13 May 2016 17:19:23 +0300
parents d620f497c50f
children f8f6b9fee66a
line wrap: on
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/*
 * Copyright (C) Igor Sysoev
 * Copyright (C) Nginx, Inc.
 */


#ifndef _NGX_HASH_H_INCLUDED_
#define _NGX_HASH_H_INCLUDED_


#include <ngx_config.h>
#include <ngx_core.h>


typedef struct {
    void             *value;
    u_short           len;
    u_char            name[1];
} ngx_hash_elt_t;


typedef struct {
    ngx_hash_elt_t  **buckets;
    ngx_uint_t        size;
} ngx_hash_t;


typedef struct {
    ngx_hash_t        hash;
    void             *value;
} ngx_hash_wildcard_t;


typedef struct {
    ngx_str_t         key;
    ngx_uint_t        key_hash;
    void             *value;
} ngx_hash_key_t;


typedef ngx_uint_t (*ngx_hash_key_pt) (u_char *data, size_t len);


typedef struct {
    ngx_hash_t            hash;
    ngx_hash_wildcard_t  *wc_head;
    ngx_hash_wildcard_t  *wc_tail;
} ngx_hash_combined_t;


typedef struct {
    ngx_hash_t       *hash;
    ngx_hash_key_pt   key;

    ngx_uint_t        max_size;
    ngx_uint_t        bucket_size;

    char             *name;
    ngx_pool_t       *pool;
    ngx_pool_t       *temp_pool;
} ngx_hash_init_t;


#define NGX_HASH_SMALL            1
#define NGX_HASH_LARGE            2

#define NGX_HASH_LARGE_ASIZE      16384
#define NGX_HASH_LARGE_HSIZE      10007

#define NGX_HASH_WILDCARD_KEY     1
#define NGX_HASH_READONLY_KEY     2


typedef struct {
    ngx_uint_t        hsize;

    ngx_pool_t       *pool;
    ngx_pool_t       *temp_pool;

    ngx_array_t       keys;
    ngx_array_t      *keys_hash;

    ngx_array_t       dns_wc_head;
    ngx_array_t      *dns_wc_head_hash;

    ngx_array_t       dns_wc_tail;
    ngx_array_t      *dns_wc_tail_hash;
} ngx_hash_keys_arrays_t;


typedef struct {
    ngx_uint_t        hash;
    ngx_str_t         key;
    ngx_str_t         value;
    u_char           *lowcase_key;
} ngx_table_elt_t;


void *ngx_hash_find(ngx_hash_t *hash, ngx_uint_t key, u_char *name, size_t len);
void *ngx_hash_find_wc_head(ngx_hash_wildcard_t *hwc, u_char *name, size_t len);
void *ngx_hash_find_wc_tail(ngx_hash_wildcard_t *hwc, u_char *name, size_t len);
void *ngx_hash_find_combined(ngx_hash_combined_t *hash, ngx_uint_t key,
    u_char *name, size_t len);

ngx_int_t ngx_hash_init(ngx_hash_init_t *hinit, ngx_hash_key_t *names,
    ngx_uint_t nelts);
ngx_int_t ngx_hash_wildcard_init(ngx_hash_init_t *hinit, ngx_hash_key_t *names,
    ngx_uint_t nelts);

#define ngx_hash(key, c)   ((ngx_uint_t) key * 31 + c)
ngx_uint_t ngx_hash_key(u_char *data, size_t len);
ngx_uint_t ngx_hash_key_lc(u_char *data, size_t len);
ngx_uint_t ngx_hash_strlow(u_char *dst, u_char *src, size_t n);


ngx_int_t ngx_hash_keys_array_init(ngx_hash_keys_arrays_t *ha, ngx_uint_t type);
ngx_int_t ngx_hash_add_key(ngx_hash_keys_arrays_t *ha, ngx_str_t *key,
    void *value, ngx_uint_t flags);


#endif /* _NGX_HASH_H_INCLUDED_ */