/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */ /* * Copyright (c) <2008>, Sun Microsystems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY SUN MICROSYSTEMS, INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL SUN MICROSYSTEMS, INC. BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Summary: Constants used by to implement the binary protocol. * * Copy: See Copyright for the status of this software. * * Author: Trond Norbye */ #ifndef PROTOCOL_BINARY_H #define PROTOCOL_BINARY_H #include "vbucket.h" /** * \addtogroup Protocol * @{ */ /** * This file contains definitions of the constants and packet formats * defined in the binary specification. Please note that you _MUST_ remember * to convert each multibyte field to / from network byte order to / from * host order. */ #ifdef __cplusplus extern "C" { #endif /** * Definition of the legal "magic" values used in a packet. * See section 3.1 Magic byte */ typedef enum { PROTOCOL_BINARY_REQ = 0x80, PROTOCOL_BINARY_RES = 0x81 } protocol_binary_magic; /** * Definition of the valid response status numbers. * See section 3.2 Response Status */ typedef enum { PROTOCOL_BINARY_RESPONSE_SUCCESS = 0x00, PROTOCOL_BINARY_RESPONSE_KEY_ENOENT = 0x01, PROTOCOL_BINARY_RESPONSE_KEY_EEXISTS = 0x02, PROTOCOL_BINARY_RESPONSE_E2BIG = 0x03, PROTOCOL_BINARY_RESPONSE_EINVAL = 0x04, PROTOCOL_BINARY_RESPONSE_NOT_STORED = 0x05, PROTOCOL_BINARY_RESPONSE_DELTA_BADVAL = 0x06, PROTOCOL_BINARY_RESPONSE_NOT_MY_VBUCKET = 0x07, PROTOCOL_BINARY_RESPONSE_AUTH_ERROR = 0x20, PROTOCOL_BINARY_RESPONSE_AUTH_CONTINUE = 0x21, PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND = 0x81, PROTOCOL_BINARY_RESPONSE_ENOMEM = 0x82, PROTOCOL_BINARY_RESPONSE_NOT_SUPPORTED = 0x83, PROTOCOL_BINARY_RESPONSE_EINTERNAL = 0x84, PROTOCOL_BINARY_RESPONSE_EBUSY = 0x85, PROTOCOL_BINARY_RESPONSE_ETMPFAIL = 0x86 } protocol_binary_response_status; /** * Defintion of the different command opcodes. * See section 3.3 Command Opcodes */ typedef enum { PROTOCOL_BINARY_CMD_GET = 0x00, PROTOCOL_BINARY_CMD_SET = 0x01, PROTOCOL_BINARY_CMD_ADD = 0x02, PROTOCOL_BINARY_CMD_REPLACE = 0x03, PROTOCOL_BINARY_CMD_DELETE = 0x04, PROTOCOL_BINARY_CMD_INCREMENT = 0x05, PROTOCOL_BINARY_CMD_DECREMENT = 0x06, PROTOCOL_BINARY_CMD_QUIT = 0x07, PROTOCOL_BINARY_CMD_FLUSH = 0x08, PROTOCOL_BINARY_CMD_GETQ = 0x09, PROTOCOL_BINARY_CMD_NOOP = 0x0a, PROTOCOL_BINARY_CMD_VERSION = 0x0b, PROTOCOL_BINARY_CMD_GETK = 0x0c, PROTOCOL_BINARY_CMD_GETKQ = 0x0d, PROTOCOL_BINARY_CMD_APPEND = 0x0e, PROTOCOL_BINARY_CMD_PREPEND = 0x0f, PROTOCOL_BINARY_CMD_STAT = 0x10, PROTOCOL_BINARY_CMD_SETQ = 0x11, PROTOCOL_BINARY_CMD_ADDQ = 0x12, PROTOCOL_BINARY_CMD_REPLACEQ = 0x13, PROTOCOL_BINARY_CMD_DELETEQ = 0x14, PROTOCOL_BINARY_CMD_INCREMENTQ = 0x15, PROTOCOL_BINARY_CMD_DECREMENTQ = 0x16, PROTOCOL_BINARY_CMD_QUITQ = 0x17, PROTOCOL_BINARY_CMD_FLUSHQ = 0x18, PROTOCOL_BINARY_CMD_APPENDQ = 0x19, PROTOCOL_BINARY_CMD_PREPENDQ = 0x1a, PROTOCOL_BINARY_CMD_VERBOSITY = 0x1b, PROTOCOL_BINARY_CMD_TOUCH = 0x1c, PROTOCOL_BINARY_CMD_GAT = 0x1d, PROTOCOL_BINARY_CMD_GATQ = 0x1e, PROTOCOL_BINARY_CMD_SASL_LIST_MECHS = 0x20, PROTOCOL_BINARY_CMD_SASL_AUTH = 0x21, PROTOCOL_BINARY_CMD_SASL_STEP = 0x22, /* These commands are used for range operations and exist within * this header for use in other projects. Range operations are * not expected to be implemented in the memcached server itself. */ PROTOCOL_BINARY_CMD_RGET = 0x30, PROTOCOL_BINARY_CMD_RSET = 0x31, PROTOCOL_BINARY_CMD_RSETQ = 0x32, PROTOCOL_BINARY_CMD_RAPPEND = 0x33, PROTOCOL_BINARY_CMD_RAPPENDQ = 0x34, PROTOCOL_BINARY_CMD_RPREPEND = 0x35, PROTOCOL_BINARY_CMD_RPREPENDQ = 0x36, PROTOCOL_BINARY_CMD_RDELETE = 0x37, PROTOCOL_BINARY_CMD_RDELETEQ = 0x38, PROTOCOL_BINARY_CMD_RINCR = 0x39, PROTOCOL_BINARY_CMD_RINCRQ = 0x3a, PROTOCOL_BINARY_CMD_RDECR = 0x3b, PROTOCOL_BINARY_CMD_RDECRQ = 0x3c, /* End Range operations */ /* VBucket commands */ PROTOCOL_BINARY_CMD_SET_VBUCKET = 0x3d, PROTOCOL_BINARY_CMD_GET_VBUCKET = 0x3e, PROTOCOL_BINARY_CMD_DEL_VBUCKET = 0x3f, /* End VBucket commands */ /* TAP commands */ PROTOCOL_BINARY_CMD_TAP_CONNECT = 0x40, PROTOCOL_BINARY_CMD_TAP_MUTATION = 0x41, PROTOCOL_BINARY_CMD_TAP_DELETE = 0x42, PROTOCOL_BINARY_CMD_TAP_FLUSH = 0x43, PROTOCOL_BINARY_CMD_TAP_OPAQUE = 0x44, PROTOCOL_BINARY_CMD_TAP_VBUCKET_SET = 0x45, PROTOCOL_BINARY_CMD_TAP_CHECKPOINT_START = 0x46, PROTOCOL_BINARY_CMD_TAP_CHECKPOINT_END = 0x47, /* End TAP */ PROTOCOL_BINARY_CMD_LAST_RESERVED = 0xef, /* Scrub the data */ PROTOCOL_BINARY_CMD_SCRUB = 0xf0 } protocol_binary_command; /** * Definition of the data types in the packet * See section 3.4 Data Types */ typedef enum { PROTOCOL_BINARY_RAW_BYTES = 0x00 } protocol_binary_datatypes; /** * Definition of the header structure for a request packet. * See section 2 */ typedef union { struct { uint8_t magic; uint8_t opcode; uint16_t keylen; uint8_t extlen; uint8_t datatype; uint16_t vbucket; uint32_t bodylen; uint32_t opaque; uint64_t cas; } request; uint8_t bytes[24]; } protocol_binary_request_header; /** * Definition of the header structure for a response packet. * See section 2 */ typedef union { struct { uint8_t magic; uint8_t opcode; uint16_t keylen; uint8_t extlen; uint8_t datatype; uint16_t status; uint32_t bodylen; uint32_t opaque; uint64_t cas; } response; uint8_t bytes[24]; } protocol_binary_response_header; /** * Definition of a request-packet containing no extras */ union protocol_binary_request_no_extras { struct { protocol_binary_request_header header; } message; uint8_t bytes[sizeof(protocol_binary_request_header)]; }; typedef union protocol_binary_request_no_extras protocol_binary_request_no_extras; /** * Definition of a response-packet containing no extras */ typedef union { struct { protocol_binary_response_header header; } message; uint8_t bytes[sizeof(protocol_binary_response_header)]; } protocol_binary_response_no_extras; /** * Definition of the packet used by the get, getq, getk and getkq command. * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_get; typedef protocol_binary_request_no_extras protocol_binary_request_getq; typedef protocol_binary_request_no_extras protocol_binary_request_getk; typedef protocol_binary_request_no_extras protocol_binary_request_getkq; /** * Definition of the packet returned from a successful get, getq, getk and * getkq. * See section 4 */ typedef union { struct { protocol_binary_response_header header; struct { uint32_t flags; } body; } message; uint8_t bytes[sizeof(protocol_binary_response_header) + 4]; } protocol_binary_response_get; typedef protocol_binary_response_get protocol_binary_response_getq; typedef protocol_binary_response_get protocol_binary_response_getk; typedef protocol_binary_response_get protocol_binary_response_getkq; /** * Definition of the packet used by the delete command * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_delete; /** * Definition of the packet returned by the delete command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_delete; /** * Definition of the packet used by the flush command * See section 4 * Please note that the expiration field is optional, so remember to see * check the header.bodysize to see if it is present. */ typedef union { struct { protocol_binary_request_header header; struct { uint32_t expiration; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_flush; /** * Definition of the packet returned by the flush command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_flush; /** * Definition of the packet used by set, add and replace * See section 4 */ typedef union { struct { protocol_binary_request_header header; struct { uint32_t flags; uint32_t expiration; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 8]; } protocol_binary_request_set; typedef protocol_binary_request_set protocol_binary_request_add; typedef protocol_binary_request_set protocol_binary_request_replace; /** * Definition of the packet returned by set, add and replace * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_set; typedef protocol_binary_response_no_extras protocol_binary_response_add; typedef protocol_binary_response_no_extras protocol_binary_response_replace; /** * Definition of the noop packet * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_noop; /** * Definition of the packet returned by the noop command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_noop; /** * Definition of the structure used by the increment and decrement * command. * See section 4 */ typedef union { struct { protocol_binary_request_header header; struct { uint64_t delta; uint64_t initial; uint32_t expiration; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 20]; } protocol_binary_request_incr; typedef protocol_binary_request_incr protocol_binary_request_decr; /** * Definition of the response from an incr or decr command * command. * See section 4 */ typedef union { struct { protocol_binary_response_header header; struct { uint64_t value; } body; } message; uint8_t bytes[sizeof(protocol_binary_response_header) + 8]; } protocol_binary_response_incr; typedef protocol_binary_response_incr protocol_binary_response_decr; /** * Definition of the quit * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_quit; /** * Definition of the packet returned by the quit command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_quit; /** * Definition of the packet used by append and prepend command * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_append; typedef protocol_binary_request_no_extras protocol_binary_request_prepend; /** * Definition of the packet returned from a successful append or prepend * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_append; typedef protocol_binary_response_no_extras protocol_binary_response_prepend; /** * Definition of the packet used by the version command * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_version; /** * Definition of the packet returned from a successful version command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_version; /** * Definition of the packet used by the stats command. * See section 4 */ typedef protocol_binary_request_no_extras protocol_binary_request_stats; /** * Definition of the packet returned from a successful stats command * See section 4 */ typedef protocol_binary_response_no_extras protocol_binary_response_stats; /** * Definition of the packet used by the verbosity command */ typedef union { struct { protocol_binary_request_header header; struct { uint32_t level; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_verbosity; /** * Definition of the packet returned from the verbosity command */ typedef protocol_binary_response_no_extras protocol_binary_response_verbosity; /** * Definition of the packet used by the touch command. */ typedef union { struct { protocol_binary_request_header header; struct { uint32_t expiration; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_touch; /** * Definition of the packet returned from the touch command */ typedef protocol_binary_response_no_extras protocol_binary_response_touch; /** * Definition of the packet used by the GAT(Q) command. */ typedef union { struct { protocol_binary_request_header header; struct { uint32_t expiration; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_gat; typedef protocol_binary_request_gat protocol_binary_request_gatq; /** * Definition of the packet returned from the GAT(Q) */ typedef protocol_binary_response_get protocol_binary_response_gat; typedef protocol_binary_response_get protocol_binary_response_gatq; /** * Definition of a request for a range operation. * See http://code.google.com/p/memcached/wiki/RangeOps * * These types are used for range operations and exist within * this header for use in other projects. Range operations are * not expected to be implemented in the memcached server itself. */ typedef union { struct { protocol_binary_response_header header; struct { uint16_t size; uint8_t reserved; uint8_t flags; uint32_t max_results; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_rangeop; typedef protocol_binary_request_rangeop protocol_binary_request_rget; typedef protocol_binary_request_rangeop protocol_binary_request_rset; typedef protocol_binary_request_rangeop protocol_binary_request_rsetq; typedef protocol_binary_request_rangeop protocol_binary_request_rappend; typedef protocol_binary_request_rangeop protocol_binary_request_rappendq; typedef protocol_binary_request_rangeop protocol_binary_request_rprepend; typedef protocol_binary_request_rangeop protocol_binary_request_rprependq; typedef protocol_binary_request_rangeop protocol_binary_request_rdelete; typedef protocol_binary_request_rangeop protocol_binary_request_rdeleteq; typedef protocol_binary_request_rangeop protocol_binary_request_rincr; typedef protocol_binary_request_rangeop protocol_binary_request_rincrq; typedef protocol_binary_request_rangeop protocol_binary_request_rdecr; typedef protocol_binary_request_rangeop protocol_binary_request_rdecrq; /** * Definition of tap commands * See To be written * */ typedef union { struct { protocol_binary_request_header header; struct { /** * flags is a bitmask used to set properties for the * the connection. Please In order to be forward compatible * you should set all undefined bits to 0. * * If the bit require extra userdata, it will be stored * in the user-data field of the body (passed to the engine * as enginespeciffic). That means that when you parse the * flags and the engine-specific data, you have to work your * way from bit 0 and upwards to find the correct offset for * the data. * */ uint32_t flags; /** * Backfill age * * By using this flag you can limit the amount of data being * transmitted. If you don't specify a backfill age, the * server will transmit everything it contains. * * The first 8 bytes in the engine specific data contains * the oldest entry (from epoc) you're interested in. * Specifying a time in the future (for the server you are * connecting to), will cause it to start streaming current * changes. */ #define TAP_CONNECT_FLAG_BACKFILL 0x01 /** * Dump will cause the server to send the data stored on the * server, but disconnect when the keys stored in the server * are transmitted. */ #define TAP_CONNECT_FLAG_DUMP 0x02 /** * The body contains a list of 16 bits words in network byte * order specifying the vbucket ids to monitor. The first 16 * bit word contains the number of buckets. The number of 0 * means "all buckets" */ #define TAP_CONNECT_FLAG_LIST_VBUCKETS 0x04 /** * The responsibility of the vbuckets is to be transferred * over to the caller when all items are transferred. */ #define TAP_CONNECT_FLAG_TAKEOVER_VBUCKETS 0x08 /** * The tap consumer supports ack'ing of tap messages */ #define TAP_CONNECT_SUPPORT_ACK 0x10 /** * The tap consumer would prefer to just get the keys * back. If the engine supports this it will set * the TAP_FLAG_NO_VALUE flag in each of the * tap packets returned. */ #define TAP_CONNECT_REQUEST_KEYS_ONLY 0x20 /** * The body contains a list of (vbucket_id, last_checkpoint_id) * pairs. This provides the checkpoint support in TAP streams. * The last checkpoint id represents the last checkpoint that * was successfully persisted. */ #define TAP_CONNECT_CHECKPOINT 0x40 /** * The tap consumer is a registered tap client, which means that * the tap server will maintain its checkpoint cursor permanently. */ #define TAP_CONNECT_REGISTERED_CLIENT 0x80 } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 4]; } protocol_binary_request_tap_connect; typedef union { struct { protocol_binary_request_header header; struct { struct { uint16_t enginespecific_length; /* * The flag section support the following flags */ /** * Request that the consumer send a response packet * for this packet. The opaque field must be preserved * in the response. */ #define TAP_FLAG_ACK 0x01 /** * The value for the key is not included in the packet */ #define TAP_FLAG_NO_VALUE 0x02 uint16_t flags; uint8_t ttl; uint8_t res1; uint8_t res2; uint8_t res3; } tap; struct { uint32_t flags; uint32_t expiration; } item; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 16]; } protocol_binary_request_tap_mutation; typedef union { struct { protocol_binary_request_header header; struct { struct { uint16_t enginespecific_length; /** * See the definition of the flags for * protocol_binary_request_tap_mutation for a description * of the available flags. */ uint16_t flags; uint8_t ttl; uint8_t res1; uint8_t res2; uint8_t res3; } tap; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + 8]; } protocol_binary_request_tap_no_extras; typedef protocol_binary_request_tap_no_extras protocol_binary_request_tap_delete; typedef protocol_binary_request_tap_no_extras protocol_binary_request_tap_flush; typedef protocol_binary_request_tap_no_extras protocol_binary_request_tap_opaque; typedef protocol_binary_request_tap_no_extras protocol_binary_request_tap_vbucket_set; /** * Definition of the packet used by the scrub. */ typedef protocol_binary_request_no_extras protocol_binary_request_scrub; /** * Definition of the packet returned from scrub. */ typedef protocol_binary_response_no_extras protocol_binary_response_scrub; /** * Definition of the packet used by set vbucket */ typedef union { struct { protocol_binary_request_header header; struct { vbucket_state_t state; } body; } message; uint8_t bytes[sizeof(protocol_binary_request_header) + sizeof(vbucket_state_t)]; } protocol_binary_request_set_vbucket; /** * Definition of the packet returned from set vbucket */ typedef protocol_binary_response_no_extras protocol_binary_response_set_vbucket; /** * Definition of the packet used by del vbucket */ typedef protocol_binary_request_no_extras protocol_binary_request_del_vbucket; /** * Definition of the packet returned from del vbucket */ typedef protocol_binary_response_no_extras protocol_binary_response_del_vbucket; /** * Definition of the packet used by get vbucket */ typedef protocol_binary_request_no_extras protocol_binary_request_get_vbucket; /** * Definition of the packet returned from get vbucket */ typedef union { struct { protocol_binary_response_header header; struct { vbucket_state_t state; } body; } message; uint8_t bytes[sizeof(protocol_binary_response_header) + sizeof(vbucket_state_t)]; } protocol_binary_response_get_vbucket; /** * @} */ #ifdef __cplusplus } #endif #endif /* PROTOCOL_BINARY_H */