/* * ***** BEGIN LICENSE BLOCK ***** * Version: MIT * * Portions created by VMware are Copyright (c) 2007-2012 VMware, Inc. * All Rights Reserved. * * Portions created by Tony Garnock-Jones are Copyright (c) 2009-2010 * VMware, Inc. and Tony Garnock-Jones. All Rights Reserved. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * ***** END LICENSE BLOCK ***** */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "amqp_private.h" #include #include #include #include #include #define INITIAL_FRAME_POOL_PAGE_SIZE 65536 #define INITIAL_DECODING_POOL_PAGE_SIZE 131072 #define INITIAL_INBOUND_SOCK_BUFFER_SIZE 131072 #define ENFORCE_STATE(statevec, statenum) \ { \ amqp_connection_state_t _check_state = (statevec); \ size_t _wanted_state = (statenum); \ if (_check_state->state != _wanted_state) \ amqp_abort("Programming error: invalid AMQP connection state: expected %d, got %d", \ _wanted_state, \ _check_state->state); \ } amqp_connection_state_t amqp_new_connection(void) { int res; amqp_connection_state_t state = (amqp_connection_state_t) calloc(1, sizeof(struct amqp_connection_state_t_)); if (state == NULL) return NULL; init_amqp_pool(&state->frame_pool, INITIAL_FRAME_POOL_PAGE_SIZE); init_amqp_pool(&state->decoding_pool, INITIAL_DECODING_POOL_PAGE_SIZE); res = amqp_tune_connection(state, 0, INITIAL_FRAME_POOL_PAGE_SIZE, 0); if (-ERROR_NO_MEMORY == res) return NULL; else if (0 != res) goto out_nomem; state->inbound_buffer.bytes = amqp_pool_alloc(&state->frame_pool, state->inbound_buffer.len); if (state->inbound_buffer.bytes == NULL) goto out_nomem; state->state = CONNECTION_STATE_INITIAL; /* the server protocol version response is 8 bytes, which conveniently is also the minimum frame size */ state->target_size = 8; state->sockfd = -1; state->sock_inbound_buffer.len = INITIAL_INBOUND_SOCK_BUFFER_SIZE; state->sock_inbound_buffer.bytes = malloc(INITIAL_INBOUND_SOCK_BUFFER_SIZE); if (state->sock_inbound_buffer.bytes == NULL) goto out_nomem; return state; out_nomem: free(state->sock_inbound_buffer.bytes); empty_amqp_pool(&state->frame_pool); empty_amqp_pool(&state->decoding_pool); free(state); return NULL; } int amqp_get_sockfd(amqp_connection_state_t state) { return state->sockfd; } void amqp_set_sockfd(amqp_connection_state_t state, int sockfd) { state->sockfd = sockfd; } int amqp_tune_connection(amqp_connection_state_t state, int channel_max, int frame_max, int heartbeat) { void *newbuf; ENFORCE_STATE(state, CONNECTION_STATE_IDLE); state->channel_max = channel_max; state->frame_max = frame_max; state->heartbeat = heartbeat; empty_amqp_pool(&state->frame_pool); init_amqp_pool(&state->frame_pool, frame_max); state->inbound_buffer.len = frame_max; state->outbound_buffer.len = frame_max; newbuf = realloc(state->outbound_buffer.bytes, frame_max); if (newbuf == NULL) { amqp_destroy_connection(state); return -ERROR_NO_MEMORY; } state->outbound_buffer.bytes = newbuf; return 0; } int amqp_get_channel_max(amqp_connection_state_t state) { return state->channel_max; } int amqp_destroy_connection(amqp_connection_state_t state) { int s = state->sockfd; empty_amqp_pool(&state->frame_pool); empty_amqp_pool(&state->decoding_pool); free(state->outbound_buffer.bytes); free(state->sock_inbound_buffer.bytes); free(state); if (s >= 0 && amqp_socket_close(s) < 0) return -amqp_socket_error(); else return 0; } static void return_to_idle(amqp_connection_state_t state) { state->inbound_buffer.bytes = NULL; state->inbound_offset = 0; state->target_size = HEADER_SIZE; state->state = CONNECTION_STATE_IDLE; } static size_t consume_data(amqp_connection_state_t state, amqp_bytes_t *received_data) { /* how much data is available and will fit? */ size_t bytes_consumed = state->target_size - state->inbound_offset; if (received_data->len < bytes_consumed) bytes_consumed = received_data->len; memcpy(amqp_offset(state->inbound_buffer.bytes, state->inbound_offset), received_data->bytes, bytes_consumed); state->inbound_offset += bytes_consumed; received_data->bytes = amqp_offset(received_data->bytes, bytes_consumed); received_data->len -= bytes_consumed; return bytes_consumed; } int amqp_handle_input(amqp_connection_state_t state, amqp_bytes_t received_data, amqp_frame_t *decoded_frame) { size_t bytes_consumed; void *raw_frame; /* Returning frame_type of zero indicates either insufficient input, or a complete, ignored frame was read. */ decoded_frame->frame_type = 0; if (received_data.len == 0) return 0; if (state->state == CONNECTION_STATE_IDLE) { state->inbound_buffer.bytes = amqp_pool_alloc(&state->frame_pool, state->inbound_buffer.len); if (state->inbound_buffer.bytes == NULL) /* state->inbound_buffer.len is always nonzero, because it corresponds to frame_max, which is not permitted to be less than AMQP_FRAME_MIN_SIZE (currently 4096 bytes). */ return -ERROR_NO_MEMORY; state->state = CONNECTION_STATE_HEADER; } bytes_consumed = consume_data(state, &received_data); /* do we have target_size data yet? if not, return with the expectation that more will arrive */ if (state->inbound_offset < state->target_size) return bytes_consumed; raw_frame = state->inbound_buffer.bytes; switch (state->state) { case CONNECTION_STATE_INITIAL: /* check for a protocol header from the server */ if (memcmp(raw_frame, "AMQP", 4) == 0) { decoded_frame->frame_type = AMQP_PSEUDOFRAME_PROTOCOL_HEADER; decoded_frame->channel = 0; decoded_frame->payload.protocol_header.transport_high = amqp_d8(raw_frame, 4); decoded_frame->payload.protocol_header.transport_low = amqp_d8(raw_frame, 5); decoded_frame->payload.protocol_header.protocol_version_major = amqp_d8(raw_frame, 6); decoded_frame->payload.protocol_header.protocol_version_minor = amqp_d8(raw_frame, 7); return_to_idle(state); return bytes_consumed; } /* it's not a protocol header; fall through to process it as a regular frame header */ case CONNECTION_STATE_HEADER: /* frame length is 3 bytes in */ state->target_size = amqp_d32(raw_frame, 3) + HEADER_SIZE + FOOTER_SIZE; state->state = CONNECTION_STATE_BODY; bytes_consumed += consume_data(state, &received_data); /* do we have target_size data yet? if not, return with the expectation that more will arrive */ if (state->inbound_offset < state->target_size) return bytes_consumed; /* fall through to process body */ case CONNECTION_STATE_BODY: { amqp_bytes_t encoded; int res; /* Check frame end marker (footer) */ if (amqp_d8(raw_frame, state->target_size - 1) != AMQP_FRAME_END) return -ERROR_BAD_AMQP_DATA; decoded_frame->frame_type = amqp_d8(raw_frame, 0); decoded_frame->channel = amqp_d16(raw_frame, 1); switch (decoded_frame->frame_type) { case AMQP_FRAME_METHOD: decoded_frame->payload.method.id = amqp_d32(raw_frame, HEADER_SIZE); encoded.bytes = amqp_offset(raw_frame, HEADER_SIZE + 4); encoded.len = state->target_size - HEADER_SIZE - 4 - FOOTER_SIZE; res = amqp_decode_method(decoded_frame->payload.method.id, &state->decoding_pool, encoded, &decoded_frame->payload.method.decoded); if (res < 0) return res; break; case AMQP_FRAME_HEADER: decoded_frame->payload.properties.class_id = amqp_d16(raw_frame, HEADER_SIZE); /* unused 2-byte weight field goes here */ decoded_frame->payload.properties.body_size = amqp_d64(raw_frame, HEADER_SIZE + 4); encoded.bytes = amqp_offset(raw_frame, HEADER_SIZE + 12); encoded.len = state->target_size - HEADER_SIZE - 12 - FOOTER_SIZE; decoded_frame->payload.properties.raw = encoded; res = amqp_decode_properties(decoded_frame->payload.properties.class_id, &state->decoding_pool, encoded, &decoded_frame->payload.properties.decoded); if (res < 0) return res; break; case AMQP_FRAME_BODY: decoded_frame->payload.body_fragment.len = state->target_size - HEADER_SIZE - FOOTER_SIZE; decoded_frame->payload.body_fragment.bytes = amqp_offset(raw_frame, HEADER_SIZE); break; case AMQP_FRAME_HEARTBEAT: break; default: /* Ignore the frame */ decoded_frame->frame_type = 0; break; } return_to_idle(state); return bytes_consumed; } default: amqp_abort("Internal error: invalid amqp_connection_state_t->state %d", state->state); return bytes_consumed; } } amqp_boolean_t amqp_release_buffers_ok(amqp_connection_state_t state) { return (state->state == CONNECTION_STATE_IDLE) && (state->first_queued_frame == NULL); } void amqp_release_buffers(amqp_connection_state_t state) { ENFORCE_STATE(state, CONNECTION_STATE_IDLE); if (state->first_queued_frame) amqp_abort("Programming error: attempt to amqp_release_buffers while waiting events enqueued"); recycle_amqp_pool(&state->frame_pool); recycle_amqp_pool(&state->decoding_pool); } void amqp_maybe_release_buffers(amqp_connection_state_t state) { if (amqp_release_buffers_ok(state)) { amqp_release_buffers(state); } } int amqp_send_frame(amqp_connection_state_t state, const amqp_frame_t *frame) { void *out_frame = state->outbound_buffer.bytes; int res; amqp_e8(out_frame, 0, frame->frame_type); amqp_e16(out_frame, 1, frame->channel); if (frame->frame_type == AMQP_FRAME_BODY) { /* For a body frame, rather than copying data around, we use writev to compose the frame */ struct iovec iov[3]; uint8_t frame_end_byte = AMQP_FRAME_END; const amqp_bytes_t *body = &frame->payload.body_fragment; amqp_e32(out_frame, 3, body->len); iov[0].iov_base = out_frame; iov[0].iov_len = HEADER_SIZE; iov[1].iov_base = body->bytes; iov[1].iov_len = body->len; iov[2].iov_base = &frame_end_byte; iov[2].iov_len = FOOTER_SIZE; res = amqp_socket_writev(state->sockfd, iov, 3); } else { size_t out_frame_len; amqp_bytes_t encoded; switch (frame->frame_type) { case AMQP_FRAME_METHOD: amqp_e32(out_frame, HEADER_SIZE, frame->payload.method.id); encoded.bytes = amqp_offset(out_frame, HEADER_SIZE + 4); encoded.len = state->outbound_buffer.len - HEADER_SIZE - 4 - FOOTER_SIZE; res = amqp_encode_method(frame->payload.method.id, frame->payload.method.decoded, encoded); if (res < 0) return res; out_frame_len = res + 4; break; case AMQP_FRAME_HEADER: amqp_e16(out_frame, HEADER_SIZE, frame->payload.properties.class_id); amqp_e16(out_frame, HEADER_SIZE+2, 0); /* "weight" */ amqp_e64(out_frame, HEADER_SIZE+4, frame->payload.properties.body_size); encoded.bytes = amqp_offset(out_frame, HEADER_SIZE + 12); encoded.len = state->outbound_buffer.len - HEADER_SIZE - 12 - FOOTER_SIZE; res = amqp_encode_properties(frame->payload.properties.class_id, frame->payload.properties.decoded, encoded); if (res < 0) return res; out_frame_len = res + 12; break; case AMQP_FRAME_HEARTBEAT: out_frame_len = 0; break; default: abort(); } amqp_e32(out_frame, 3, out_frame_len); amqp_e8(out_frame, out_frame_len + HEADER_SIZE, AMQP_FRAME_END); res = send(state->sockfd, out_frame, out_frame_len + HEADER_SIZE + FOOTER_SIZE, 0); } if (res < 0) return -amqp_socket_error(); else return 0; }