Mercurial > hg > nginx
view src/http/ngx_http_spdy.h @ 5528:d5de6c25b759
SPDY: use frame->next pointer to chain free frames.
There is no need in separate "free" pointer and like it is for ngx_chain_t
the "next" pointer can be used. But after this change successfully handled
frame should not be accessed, so the frame handling cycle was improved to
store pointer to the next frame before processing.
Also worth noting that initializing "free" pointer to NULL in the original
code was surplus.
| author | Valentin Bartenev <vbart@nginx.com> |
|---|---|
| date | Wed, 22 Jan 2014 04:58:19 +0400 |
| parents | 206c56e23a96 |
| children | e4adaa47af65 |
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/* * Copyright (C) Nginx, Inc. * Copyright (C) Valentin V. Bartenev */ #ifndef _NGX_HTTP_SPDY_H_INCLUDED_ #define _NGX_HTTP_SPDY_H_INCLUDED_ #include <ngx_config.h> #include <ngx_core.h> #include <ngx_http.h> #include <zlib.h> #define NGX_SPDY_VERSION 2 #ifdef TLSEXT_TYPE_next_proto_neg #define NGX_SPDY_NPN_ADVERTISE "\x06spdy/2" #define NGX_SPDY_NPN_NEGOTIATED "spdy/2" #endif #define NGX_SPDY_STATE_BUFFER_SIZE 16 #define NGX_SPDY_CTL_BIT 1 #define NGX_SPDY_SYN_STREAM 1 #define NGX_SPDY_SYN_REPLY 2 #define NGX_SPDY_RST_STREAM 3 #define NGX_SPDY_SETTINGS 4 #define NGX_SPDY_NOOP 5 #define NGX_SPDY_PING 6 #define NGX_SPDY_GOAWAY 7 #define NGX_SPDY_HEADERS 8 #define NGX_SPDY_FRAME_HEADER_SIZE 8 #define NGX_SPDY_SID_SIZE 4 #define NGX_SPDY_SYN_STREAM_SIZE 10 #define NGX_SPDY_SYN_REPLY_SIZE 6 #define NGX_SPDY_RST_STREAM_SIZE 8 #define NGX_SPDY_PING_SIZE 4 #define NGX_SPDY_GOAWAY_SIZE 4 #define NGX_SPDY_NV_NUM_SIZE 2 #define NGX_SPDY_NV_NLEN_SIZE 2 #define NGX_SPDY_NV_VLEN_SIZE 2 #define NGX_SPDY_SETTINGS_NUM_SIZE 4 #define NGX_SPDY_SETTINGS_IDF_SIZE 4 #define NGX_SPDY_SETTINGS_VAL_SIZE 4 #define NGX_SPDY_SETTINGS_PAIR_SIZE \ (NGX_SPDY_SETTINGS_IDF_SIZE + NGX_SPDY_SETTINGS_VAL_SIZE) #define NGX_SPDY_HIGHEST_PRIORITY 0 #define NGX_SPDY_LOWEST_PRIORITY 3 #define NGX_SPDY_FLAG_FIN 0x01 #define NGX_SPDY_FLAG_UNIDIRECTIONAL 0x02 #define NGX_SPDY_FLAG_CLEAR_SETTINGS 0x01 #define NGX_SPDY_MAX_FRAME_SIZE ((1 << 24) - 1) #define NGX_SPDY_DATA_DISCARD 1 #define NGX_SPDY_DATA_ERROR 2 #define NGX_SPDY_DATA_INTERNAL_ERROR 3 typedef struct ngx_http_spdy_connection_s ngx_http_spdy_connection_t; typedef struct ngx_http_spdy_out_frame_s ngx_http_spdy_out_frame_t; typedef u_char *(*ngx_http_spdy_handler_pt) (ngx_http_spdy_connection_t *sc, u_char *pos, u_char *end); struct ngx_http_spdy_connection_s { ngx_connection_t *connection; ngx_http_connection_t *http_connection; ngx_uint_t processing; u_char buffer[NGX_SPDY_STATE_BUFFER_SIZE]; size_t buffer_used; ngx_http_spdy_handler_pt handler; z_stream zstream_in; z_stream zstream_out; ngx_pool_t *pool; ngx_http_spdy_out_frame_t *free_ctl_frames; ngx_connection_t *free_fake_connections; ngx_http_spdy_stream_t **streams_index; ngx_http_spdy_out_frame_t *last_out; ngx_http_spdy_stream_t *last_stream; ngx_http_spdy_stream_t *stream; ngx_uint_t entries; size_t length; u_char flags; ngx_uint_t last_sid; unsigned blocked:1; unsigned incomplete:1; }; struct ngx_http_spdy_stream_s { ngx_uint_t id; ngx_http_request_t *request; ngx_http_spdy_connection_t *connection; ngx_http_spdy_stream_t *index; ngx_http_spdy_stream_t *next; ngx_uint_t header_buffers; ngx_uint_t queued; ngx_http_spdy_out_frame_t *free_frames; ngx_chain_t *free_data_headers; ngx_chain_t *free_bufs; unsigned priority:2; unsigned handled:1; unsigned blocked:1; unsigned in_closed:1; unsigned out_closed:1; unsigned skip_data:2; }; struct ngx_http_spdy_out_frame_s { ngx_http_spdy_out_frame_t *next; ngx_chain_t *first; ngx_chain_t *last; ngx_int_t (*handler)(ngx_http_spdy_connection_t *sc, ngx_http_spdy_out_frame_t *frame); ngx_http_spdy_stream_t *stream; size_t size; ngx_uint_t priority; unsigned blocked:1; unsigned fin:1; }; static ngx_inline void ngx_http_spdy_queue_frame(ngx_http_spdy_connection_t *sc, ngx_http_spdy_out_frame_t *frame) { ngx_http_spdy_out_frame_t **out; for (out = &sc->last_out; *out; out = &(*out)->next) { if (frame->priority >= (*out)->priority) { break; } } frame->next = *out; *out = frame; } static ngx_inline void ngx_http_spdy_queue_blocked_frame(ngx_http_spdy_connection_t *sc, ngx_http_spdy_out_frame_t *frame) { ngx_http_spdy_out_frame_t **out; for (out = &sc->last_out; *out; out = &(*out)->next) { if ((*out)->blocked) { break; } } frame->next = *out; *out = frame; } void ngx_http_spdy_init(ngx_event_t *rev); void ngx_http_spdy_request_headers_init(void); ngx_int_t ngx_http_spdy_read_request_body(ngx_http_request_t *r, ngx_http_client_body_handler_pt post_handler); void ngx_http_spdy_close_stream(ngx_http_spdy_stream_t *stream, ngx_int_t rc); ngx_int_t ngx_http_spdy_send_output_queue(ngx_http_spdy_connection_t *sc); #define ngx_spdy_frame_aligned_write_uint16(p, s) \ (*(uint16_t *) (p) = htons((uint16_t) (s)), (p) + sizeof(uint16_t)) #define ngx_spdy_frame_aligned_write_uint32(p, s) \ (*(uint32_t *) (p) = htonl((uint32_t) (s)), (p) + sizeof(uint32_t)) #if (NGX_HAVE_NONALIGNED) #define ngx_spdy_frame_write_uint16 ngx_spdy_frame_aligned_write_uint16 #define ngx_spdy_frame_write_uint32 ngx_spdy_frame_aligned_write_uint32 #else #define ngx_spdy_frame_write_uint16(p, s) \ ((p)[0] = (u_char) (s) >> 8, (p)[1] = (u_char) (s), (p) + sizeof(uint16_t)) #define ngx_spdy_frame_write_uint32(p, s) \ ((p)[0] = (u_char) (s) >> 24, \ (p)[1] = (u_char) (s) >> 16, \ (p)[2] = (u_char) (s) >> 8, \ (p)[3] = (u_char) (s), (p) + sizeof(uint32_t)) #endif #define ngx_spdy_ctl_frame_head(t) \ ((uint32_t) NGX_SPDY_CTL_BIT << 31 | NGX_SPDY_VERSION << 16 | (t)) #define ngx_spdy_frame_write_head(p, t) \ ngx_spdy_frame_aligned_write_uint32(p, ngx_spdy_ctl_frame_head(t)) #define ngx_spdy_frame_write_flags_and_len(p, f, l) \ ngx_spdy_frame_aligned_write_uint32(p, (f) << 24 | (l)) #define ngx_spdy_frame_write_sid ngx_spdy_frame_aligned_write_uint32 #endif /* _NGX_HTTP_SPDY_H_INCLUDED_ */