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#ifndef librabbitmq_amqp_h
#define librabbitmq_amqp_h
/*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.1 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and
* limitations under the License.
*
* The Original Code is librabbitmq.
*
* The Initial Developers of the Original Code are LShift Ltd, Cohesive
* Financial Technologies LLC, and Rabbit Technologies Ltd. Portions
* created before 22-Nov-2008 00:00:00 GMT by LShift Ltd, Cohesive
* Financial Technologies LLC, or Rabbit Technologies Ltd are Copyright
* (C) 2007-2008 LShift Ltd, Cohesive Financial Technologies LLC, and
* Rabbit Technologies Ltd.
*
* Portions created by LShift Ltd are Copyright (C) 2007-2009 LShift
* Ltd. Portions created by Cohesive Financial Technologies LLC are
* Copyright (C) 2007-2009 Cohesive Financial Technologies
* LLC. Portions created by Rabbit Technologies Ltd are Copyright (C)
* 2007-2009 Rabbit Technologies Ltd.
*
* Portions created by Tony Garnock-Jones are Copyright (C) 2009-2010
* LShift Ltd and Tony Garnock-Jones.
*
* All Rights Reserved.
*
* Contributor(s): ______________________________________.
*
* Alternatively, the contents of this file may be used under the terms
* of the GNU General Public License Version 2 or later (the "GPL"), in
* which case the provisions of the GPL are applicable instead of those
* above. If you wish to allow use of your version of this file only
* under the terms of the GPL, and not to allow others to use your
* version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the
* notice and other provisions required by the GPL. If you do not
* delete the provisions above, a recipient may use your version of
* this file under the terms of any one of the MPL or the GPL.
*
* ***** END LICENSE BLOCK *****
*/
#ifdef __cplusplus
extern "C" {
#endif
typedef int amqp_boolean_t;
typedef uint32_t amqp_method_number_t;
typedef uint32_t amqp_flags_t;
typedef uint16_t amqp_channel_t;
typedef struct amqp_bytes_t_ {
size_t len;
void *bytes;
} amqp_bytes_t;
#define AMQP_EMPTY_BYTES ((amqp_bytes_t) { .len = 0, .bytes = NULL })
typedef struct amqp_decimal_t_ {
int decimals;
uint32_t value;
} amqp_decimal_t;
#define AMQP_DECIMAL(d,v) ((amqp_decimal_t) { .decimals = (d), .value = (v) })
typedef struct amqp_table_t_ {
int num_entries;
struct amqp_table_entry_t_ *entries;
} amqp_table_t;
#define AMQP_EMPTY_TABLE ((amqp_table_t) { .num_entries = 0, .entries = NULL })
typedef struct amqp_array_t_ {
int num_entries;
struct amqp_field_value_t_ *entries;
} amqp_array_t;
#define AMQP_EMPTY_ARRAY ((amqp_array_t) { .num_entries = 0, .entries = NULL })
/*
0-9 0-9-1 Qpid/Rabbit Type Remarks
---------------------------------------------------------------------------
t t Boolean
b b Signed 8-bit
B Unsigned 8-bit
U s Signed 16-bit (A1)
u Unsigned 16-bit
I I I Signed 32-bit
i Unsigned 32-bit
L l Signed 64-bit (B)
l Unsigned 64-bit
f f 32-bit float
d d 64-bit float
D D D Decimal
s Short string (A2)
S S S Long string
A Nested Array
T T T Timestamp (u64)
F F F Nested Table
V V V Void
x Byte array
Remarks:
A1, A2: Notice how the types **CONFLICT** here. In Qpid and Rabbit,
's' means a signed 16-bit integer; in 0-9-1, it means a
short string.
B: Notice how the signednesses **CONFLICT** here. In Qpid and Rabbit,
'l' means a signed 64-bit integer; in 0-9-1, it means an unsigned
64-bit integer.
I'm going with the Qpid/Rabbit types, where there's a conflict, and
the 0-9-1 types otherwise. 0-8 is a subset of 0-9, which is a subset
of the other two, so this will work for both 0-8 and 0-9-1 branches of
the code.
*/
typedef struct amqp_field_value_t_ {
char kind;
union {
amqp_boolean_t boolean;
int8_t i8;
uint8_t u8;
int16_t i16;
uint16_t u16;
int32_t i32;
uint32_t u32;
int64_t i64;
uint64_t u64;
float f32;
double f64;
amqp_decimal_t decimal;
amqp_bytes_t bytes;
amqp_table_t table;
amqp_array_t array;
} value;
} amqp_field_value_t;
typedef struct amqp_table_entry_t_ {
amqp_bytes_t key;
amqp_field_value_t value;
} amqp_table_entry_t;
typedef enum {
AMQP_FIELD_KIND_BOOLEAN = 't',
AMQP_FIELD_KIND_I8 = 'b',
AMQP_FIELD_KIND_U8 = 'B',
AMQP_FIELD_KIND_I16 = 's',
AMQP_FIELD_KIND_U16 = 'u',
AMQP_FIELD_KIND_I32 = 'I',
AMQP_FIELD_KIND_U32 = 'i',
AMQP_FIELD_KIND_I64 = 'l',
AMQP_FIELD_KIND_F32 = 'f',
AMQP_FIELD_KIND_F64 = 'd',
AMQP_FIELD_KIND_DECIMAL = 'D',
AMQP_FIELD_KIND_UTF8 = 'S',
AMQP_FIELD_KIND_ARRAY = 'A',
AMQP_FIELD_KIND_TIMESTAMP = 'T',
AMQP_FIELD_KIND_TABLE = 'F',
AMQP_FIELD_KIND_VOID = 'V',
AMQP_FIELD_KIND_BYTES = 'x',
} amqp_field_value_kind_t;
#define _AMQP_TEINIT(ke,ki,v) {.key = (ke), .value = {.kind = AMQP_FIELD_KIND_##ki, .value = {v}}}
#define AMQP_TABLE_ENTRY_BOOLEAN(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), BOOLEAN, .boolean = (v))
#define AMQP_TABLE_ENTRY_I8(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), I8, .i8 = (v))
#define AMQP_TABLE_ENTRY_U8(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), U8, .u8 = (v))
#define AMQP_TABLE_ENTRY_I16(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), I16, .i16 = (v))
#define AMQP_TABLE_ENTRY_U16(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), U16, .u16 = (v))
#define AMQP_TABLE_ENTRY_I32(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), I32, .i32 = (v))
#define AMQP_TABLE_ENTRY_U32(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), U32, .u32 = (v))
#define AMQP_TABLE_ENTRY_I64(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), I64, .i64 = (v))
#define AMQP_TABLE_ENTRY_F32(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), F32, .f32 = (v))
#define AMQP_TABLE_ENTRY_F64(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), F64, .f64 = (v))
#define AMQP_TABLE_ENTRY_DECIMAL(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), DECIMAL, .decimal = (v))
#define AMQP_TABLE_ENTRY_UTF8(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), UTF8, .bytes = (v))
#define AMQP_TABLE_ENTRY_ARRAY(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), ARRAY, .array = (v))
#define AMQP_TABLE_ENTRY_TIMESTAMP(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), TIMESTAMP, .u64 = (v))
#define AMQP_TABLE_ENTRY_TABLE(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), TABLE, .table = (v))
#define AMQP_TABLE_ENTRY_VOID(k) _AMQP_TEINIT(amqp_cstring_bytes(k), VOID, .u8 = 0)
#define AMQP_TABLE_ENTRY_BYTES(k,v) _AMQP_TEINIT(amqp_cstring_bytes(k), BYTES, .bytes = (v))
#define _AMQP_FVINIT(ki,v) {.kind = AMQP_FIELD_KIND_##ki, .value = {v}}
#define AMQP_FIELD_VALUE_BOOLEAN(v) _AMQP_FVINIT(BOOLEAN, .boolean = (v))
#define AMQP_FIELD_VALUE_I8(v) _AMQP_FVINIT(I8, .i8 = (v))
#define AMQP_FIELD_VALUE_U8(v) _AMQP_FVINIT(U8, .u8 = (v))
#define AMQP_FIELD_VALUE_I16(v) _AMQP_FVINIT(I16, .i16 = (v))
#define AMQP_FIELD_VALUE_U16(v) _AMQP_FVINIT(U16, .u16 = (v))
#define AMQP_FIELD_VALUE_I32(v) _AMQP_FVINIT(I32, .i32 = (v))
#define AMQP_FIELD_VALUE_U32(v) _AMQP_FVINIT(U32, .u32 = (v))
#define AMQP_FIELD_VALUE_I64(v) _AMQP_FVINIT(I64, .i64 = (v))
#define AMQP_FIELD_VALUE_F32(v) _AMQP_FVINIT(F32, .f32 = (v))
#define AMQP_FIELD_VALUE_F64(v) _AMQP_FVINIT(F64, .f64 = (v))
#define AMQP_FIELD_VALUE_DECIMAL(v) _AMQP_FVINIT(DECIMAL, .decimal = (v))
#define AMQP_FIELD_VALUE_UTF8(v) _AMQP_FVINIT(UTF8, .bytes = (v))
#define AMQP_FIELD_VALUE_ARRAY(v) _AMQP_FVINIT(ARRAY, .array = (v))
#define AMQP_FIELD_VALUE_TIMESTAMP(v) _AMQP_FVINIT(TIMESTAMP, .u64 = (v))
#define AMQP_FIELD_VALUE_TABLE(v) _AMQP_FVINIT(TABLE, .table = (v))
#define AMQP_FIELD_VALUE_VOID(k) _AMQP_FVINIT(VOID, .u8 = 0)
#define AMQP_FIELD_VALUE_BYTES(v) _AMQP_FVINIT(BYTES, .bytes = (v))
typedef struct amqp_pool_blocklist_t_ {
int num_blocks;
void **blocklist;
} amqp_pool_blocklist_t;
typedef struct amqp_pool_t_ {
size_t pagesize;
amqp_pool_blocklist_t pages;
amqp_pool_blocklist_t large_blocks;
int next_page;
char *alloc_block;
size_t alloc_used;
} amqp_pool_t;
typedef struct amqp_method_t_ {
amqp_method_number_t id;
void *decoded;
} amqp_method_t;
typedef struct amqp_frame_t_ {
uint8_t frame_type; /* 0 means no event */
amqp_channel_t channel;
union {
amqp_method_t method;
struct {
uint16_t class_id;
uint64_t body_size;
void *decoded;
amqp_bytes_t raw;
} properties;
amqp_bytes_t body_fragment;
struct {
uint8_t transport_high;
uint8_t transport_low;
uint8_t protocol_version_major;
uint8_t protocol_version_minor;
} protocol_header;
} payload;
} amqp_frame_t;
typedef enum amqp_response_type_enum_ {
AMQP_RESPONSE_NONE = 0,
AMQP_RESPONSE_NORMAL,
AMQP_RESPONSE_LIBRARY_EXCEPTION,
AMQP_RESPONSE_SERVER_EXCEPTION
} amqp_response_type_enum;
typedef struct amqp_rpc_reply_t_ {
amqp_response_type_enum reply_type;
amqp_method_t reply;
int library_errno; /* if AMQP_RESPONSE_LIBRARY_EXCEPTION, then 0 here means socket EOF */
} amqp_rpc_reply_t;
typedef enum amqp_sasl_method_enum_ {
AMQP_SASL_METHOD_PLAIN = 0
} amqp_sasl_method_enum;
#define AMQP_PSEUDOFRAME_PROTOCOL_HEADER ((uint8_t) 'A')
#define AMQP_PSEUDOFRAME_PROTOCOL_CHANNEL ((amqp_channel_t) ((((int) 'M') << 8) | ((int) 'Q')))
typedef int (*amqp_output_fn_t)(void *context, void *buffer, size_t count);
/* Opaque struct. */
typedef struct amqp_connection_state_t_ *amqp_connection_state_t;
extern char const *amqp_version(void);
extern void init_amqp_pool(amqp_pool_t *pool, size_t pagesize);
extern void recycle_amqp_pool(amqp_pool_t *pool);
extern void empty_amqp_pool(amqp_pool_t *pool);
extern void *amqp_pool_alloc(amqp_pool_t *pool, size_t amount);
extern void amqp_pool_alloc_bytes(amqp_pool_t *pool, size_t amount, amqp_bytes_t *output);
extern amqp_bytes_t amqp_cstring_bytes(char const *cstr);
extern amqp_bytes_t amqp_bytes_malloc_dup(amqp_bytes_t src);
extern amqp_bytes_t amqp_bytes_malloc(size_t amount);
extern void amqp_bytes_free(amqp_bytes_t bytes);
#define AMQP_BYTES_FREE(b) \
({ \
if ((b).bytes != NULL) { \
free((b).bytes); \
(b).bytes = NULL; \
} \
})
extern amqp_connection_state_t amqp_new_connection(void);
extern int amqp_get_sockfd(amqp_connection_state_t state);
extern void amqp_set_sockfd(amqp_connection_state_t state,
int sockfd);
extern int amqp_tune_connection(amqp_connection_state_t state,
int channel_max,
int frame_max,
int heartbeat);
int amqp_get_channel_max(amqp_connection_state_t state);
extern void amqp_destroy_connection(amqp_connection_state_t state);
extern int amqp_handle_input(amqp_connection_state_t state,
amqp_bytes_t received_data,
amqp_frame_t *decoded_frame);
extern amqp_boolean_t amqp_release_buffers_ok(amqp_connection_state_t state);
extern void amqp_release_buffers(amqp_connection_state_t state);
extern void amqp_maybe_release_buffers(amqp_connection_state_t state);
extern int amqp_send_frame(amqp_connection_state_t state,
amqp_frame_t const *frame);
extern int amqp_send_frame_to(amqp_connection_state_t state,
amqp_frame_t const *frame,
amqp_output_fn_t fn,
void *context);
extern int amqp_table_entry_cmp(void const *entry1, void const *entry2);
extern int amqp_open_socket(char const *hostname, int portnumber);
extern int amqp_send_header(amqp_connection_state_t state);
extern int amqp_send_header_to(amqp_connection_state_t state,
amqp_output_fn_t fn,
void *context);
extern amqp_boolean_t amqp_frames_enqueued(amqp_connection_state_t state);
extern int amqp_simple_wait_frame(amqp_connection_state_t state,
amqp_frame_t *decoded_frame);
extern int amqp_simple_wait_method(amqp_connection_state_t state,
amqp_channel_t expected_channel,
amqp_method_number_t expected_method,
amqp_method_t *output);
extern int amqp_send_method(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_method_number_t id,
void *decoded);
extern amqp_rpc_reply_t amqp_simple_rpc(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_method_number_t request_id,
amqp_method_number_t *expected_reply_ids,
void *decoded_request_method);
#define AMQP_EXPAND_METHOD(classname, methodname) (AMQP_ ## classname ## _ ## methodname ## _METHOD)
#define AMQP_SIMPLE_RPC(state, channel, classname, requestname, replyname, structname, ...) \
({ \
structname _simple_rpc_request___ = (structname) { __VA_ARGS__ }; \
amqp_method_number_t _replies__[2] = { AMQP_EXPAND_METHOD(classname, replyname), 0}; \
amqp_simple_rpc(state, channel, \
AMQP_EXPAND_METHOD(classname, requestname), \
(amqp_method_number_t *)&_replies__, \
&_simple_rpc_request___); \
})
#define AMQP_MULTIPLE_RESPONSE_RPC(state, channel, classname, requestname, replynames, structname, ...) \
({ \
structname _simple_rpc_request___ = (structname) { __VA_ARGS__ }; \
amqp_simple_rpc(state, channel, \
AMQP_EXPAND_METHOD(classname, requestname), \
replynames, \
&_simple_rpc_request___); \
})
extern amqp_rpc_reply_t amqp_login(amqp_connection_state_t state,
char const *vhost,
int channel_max,
int frame_max,
int heartbeat,
amqp_sasl_method_enum sasl_method, ...);
extern struct amqp_channel_open_ok_t_ *amqp_channel_open(amqp_connection_state_t state,
amqp_channel_t channel);
struct amqp_basic_properties_t_;
extern int amqp_basic_publish(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t exchange,
amqp_bytes_t routing_key,
amqp_boolean_t mandatory,
amqp_boolean_t immediate,
struct amqp_basic_properties_t_ const *properties,
amqp_bytes_t body);
extern amqp_rpc_reply_t amqp_channel_close(amqp_connection_state_t state,
amqp_channel_t channel,
int code);
extern amqp_rpc_reply_t amqp_connection_close(amqp_connection_state_t state,
int code);
extern struct amqp_exchange_declare_ok_t_ *amqp_exchange_declare(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t exchange,
amqp_bytes_t type,
amqp_boolean_t passive,
amqp_boolean_t durable,
amqp_boolean_t auto_delete,
amqp_table_t arguments);
extern struct amqp_queue_declare_ok_t_ *amqp_queue_declare(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_boolean_t passive,
amqp_boolean_t durable,
amqp_boolean_t exclusive,
amqp_boolean_t auto_delete,
amqp_table_t arguments);
extern struct amqp_queue_bind_ok_t_ *amqp_queue_bind(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_bytes_t exchange,
amqp_bytes_t routing_key,
amqp_table_t arguments);
extern struct amqp_queue_unbind_ok_t_ *amqp_queue_unbind(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_bytes_t exchange,
amqp_bytes_t binding_key,
amqp_table_t arguments);
extern struct amqp_basic_consume_ok_t_ *amqp_basic_consume(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_bytes_t consumer_tag,
amqp_boolean_t no_local,
amqp_boolean_t no_ack,
amqp_boolean_t exclusive,
amqp_table_t filter);
extern int amqp_basic_ack(amqp_connection_state_t state,
amqp_channel_t channel,
uint64_t delivery_tag,
amqp_boolean_t multiple);
extern amqp_rpc_reply_t amqp_basic_get(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_boolean_t no_ack);
extern struct amqp_queue_purge_ok_t_ *amqp_queue_purge(amqp_connection_state_t state,
amqp_channel_t channel,
amqp_bytes_t queue,
amqp_boolean_t no_wait);
/*
* Can be used to see if there is data still in the buffer, if so
* calling amqp_simple_wait_frame will not immediately enter a
* blocking read.
*
* Possibly amqp_frames_enqueued should be used for this?
*/
extern amqp_boolean_t amqp_data_in_buffer(amqp_connection_state_t state);
/*
* For those API operations (such as amqp_basic_ack,
* amqp_queue_declare, and so on) that do not themselves return
* amqp_rpc_reply_t instances, we need some way of discovering what,
* if anything, went wrong. amqp_get_rpc_reply() returns the most
* recent amqp_rpc_reply_t instance corresponding to such an API
* operation for the given connection.
*
* Only use it for operations that do not themselves return
* amqp_rpc_reply_t; operations that do return amqp_rpc_reply_t
* generally do NOT update this per-connection-global amqp_rpc_reply_t
* instance.
*/
extern amqp_rpc_reply_t amqp_get_rpc_reply(amqp_connection_state_t state);
#ifdef __cplusplus
}
#endif
#endif
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