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view src/core/ngx_buf.h @ 7286:d27aa9060c95

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Stream: udp streams. Previously, only one client packet could be processed in a udp stream session even though multiple response packets were supported. Now multiple packets coming from the same client address and port are delivered to the same stream session. If it's required to maintain a single stream of data, nginx should be configured in a way that all packets from a client are delivered to the same worker. On Linux and DragonFly BSD the "reuseport" parameter should be specified for this. Other systems do not currently provide appropriate mechanisms. For these systems a single stream of udp packets is only guaranteed in single-worker configurations. The proxy_response directive now specifies how many packets are expected in response to a single client packet.
author Roman Arutyunyan <arut@nginx.com>
date Mon, 04 Jun 2018 19:50:00 +0300
parents 0c572ed91b36
children 2f9214713666
line wrap: on
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/*
 * Copyright (C) Igor Sysoev
 * Copyright (C) Nginx, Inc.
 */


#ifndef _NGX_BUF_H_INCLUDED_
#define _NGX_BUF_H_INCLUDED_


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


typedef void *            ngx_buf_tag_t;

typedef struct ngx_buf_s  ngx_buf_t;

struct ngx_buf_s {
    u_char          *pos;
    u_char          *last;
    off_t            file_pos;
    off_t            file_last;

    u_char          *start;         /* start of buffer */
    u_char          *end;           /* end of buffer */
    ngx_buf_tag_t    tag;
    ngx_file_t      *file;
    ngx_buf_t       *shadow;


    /* the buf's content could be changed */
    unsigned         temporary:1;

    /*
     * the buf's content is in a memory cache or in a read only memory
     * and must not be changed
     */
    unsigned         memory:1;

    /* the buf's content is mmap()ed and must not be changed */
    unsigned         mmap:1;

    unsigned         recycled:1;
    unsigned         in_file:1;
    unsigned         flush:1;
    unsigned         sync:1;
    unsigned         last_buf:1;
    unsigned         last_in_chain:1;

    unsigned         last_shadow:1;
    unsigned         temp_file:1;

    /* STUB */ int   num;
};


struct ngx_chain_s {
    ngx_buf_t    *buf;
    ngx_chain_t  *next;
};


typedef struct {
    ngx_int_t    num;
    size_t       size;
} ngx_bufs_t;


typedef struct ngx_output_chain_ctx_s  ngx_output_chain_ctx_t;

typedef ngx_int_t (*ngx_output_chain_filter_pt)(void *ctx, ngx_chain_t *in);

typedef void (*ngx_output_chain_aio_pt)(ngx_output_chain_ctx_t *ctx,
    ngx_file_t *file);

struct ngx_output_chain_ctx_s {
    ngx_buf_t                   *buf;
    ngx_chain_t                 *in;
    ngx_chain_t                 *free;
    ngx_chain_t                 *busy;

    unsigned                     sendfile:1;
    unsigned                     directio:1;
    unsigned                     unaligned:1;
    unsigned                     need_in_memory:1;
    unsigned                     need_in_temp:1;
    unsigned                     aio:1;

#if (NGX_HAVE_FILE_AIO || NGX_COMPAT)
    ngx_output_chain_aio_pt      aio_handler;
#if (NGX_HAVE_AIO_SENDFILE || NGX_COMPAT)
    ssize_t                    (*aio_preload)(ngx_buf_t *file);
#endif
#endif

#if (NGX_THREADS || NGX_COMPAT)
    ngx_int_t                  (*thread_handler)(ngx_thread_task_t *task,
                                                 ngx_file_t *file);
    ngx_thread_task_t           *thread_task;
#endif

    off_t                        alignment;

    ngx_pool_t                  *pool;
    ngx_int_t                    allocated;
    ngx_bufs_t                   bufs;
    ngx_buf_tag_t                tag;

    ngx_output_chain_filter_pt   output_filter;
    void                        *filter_ctx;
};


typedef struct {
    ngx_chain_t                 *out;
    ngx_chain_t                **last;
    ngx_connection_t            *connection;
    ngx_pool_t                  *pool;
    off_t                        limit;
} ngx_chain_writer_ctx_t;


#define NGX_CHAIN_ERROR     (ngx_chain_t *) NGX_ERROR


#define ngx_buf_in_memory(b)        (b->temporary || b->memory || b->mmap)
#define ngx_buf_in_memory_only(b)   (ngx_buf_in_memory(b) && !b->in_file)

#define ngx_buf_special(b)                                                   \
    ((b->flush || b->last_buf || b->sync)                                    \
     && !ngx_buf_in_memory(b) && !b->in_file)

#define ngx_buf_sync_only(b)                                                 \
    (b->sync                                                                 \
     && !ngx_buf_in_memory(b) && !b->in_file && !b->flush && !b->last_buf)

#define ngx_buf_size(b)                                                      \
    (ngx_buf_in_memory(b) ? (off_t) (b->last - b->pos):                      \
                            (b->file_last - b->file_pos))

ngx_buf_t *ngx_create_temp_buf(ngx_pool_t *pool, size_t size);
ngx_chain_t *ngx_create_chain_of_bufs(ngx_pool_t *pool, ngx_bufs_t *bufs);


#define ngx_alloc_buf(pool)  ngx_palloc(pool, sizeof(ngx_buf_t))
#define ngx_calloc_buf(pool) ngx_pcalloc(pool, sizeof(ngx_buf_t))

ngx_chain_t *ngx_alloc_chain_link(ngx_pool_t *pool);
#define ngx_free_chain(pool, cl)                                             \
    cl->next = pool->chain;                                                  \
    pool->chain = cl



ngx_int_t ngx_output_chain(ngx_output_chain_ctx_t *ctx, ngx_chain_t *in);
ngx_int_t ngx_chain_writer(void *ctx, ngx_chain_t *in);

ngx_int_t ngx_chain_add_copy(ngx_pool_t *pool, ngx_chain_t **chain,
    ngx_chain_t *in);
ngx_chain_t *ngx_chain_get_free_buf(ngx_pool_t *p, ngx_chain_t **free);
void ngx_chain_update_chains(ngx_pool_t *p, ngx_chain_t **free,
    ngx_chain_t **busy, ngx_chain_t **out, ngx_buf_tag_t tag);

off_t ngx_chain_coalesce_file(ngx_chain_t **in, off_t limit);

ngx_chain_t *ngx_chain_update_sent(ngx_chain_t *in, off_t sent);

#endif /* _NGX_BUF_H_INCLUDED_ */