// Copyright 2007 - 2021, Alan Antonuk and the rabbitmq-c contributors. // SPDX-License-Identifier: mit #include #include #include #include "common.h" #include "process.h" #define MAX_LISTEN_KEYS 1024 #define LISTEN_KEYS_DELIMITER "," /* Convert a amqp_bytes_t to an escaped string form for printing. We use the same escaping conventions as rabbitmqctl. */ static char *stringify_bytes(amqp_bytes_t bytes) { /* We will need up to 4 chars per byte, plus the terminating 0 */ char *res = malloc(bytes.len * 4 + 1); uint8_t *data = bytes.bytes; char *p = res; size_t i; for (i = 0; i < bytes.len; i++) { if (data[i] >= 32 && data[i] != 127) { *p++ = data[i]; } else { *p++ = '\\'; *p++ = '0' + (data[i] >> 6); *p++ = '0' + (data[i] >> 3 & 0x7); *p++ = '0' + (data[i] & 0x7); } } *p = 0; return res; } static amqp_bytes_t setup_queue(amqp_connection_state_t conn, char *queue, char *exchange, char *routing_key, int declare, int exclusive) { amqp_bytes_t queue_bytes = cstring_bytes(queue); char *routing_key_rest; char *routing_key_token; char *routing_tmp; int routing_key_count = 0; /* if an exchange name wasn't provided, check that we don't have options that * require it. */ if (!exchange && routing_key) { fprintf(stderr, "--routing-key option requires an exchange name to be provided " "with --exchange\n"); exit(1); } if (!queue || exchange || declare || exclusive) { /* Declare the queue as auto-delete. */ amqp_queue_declare_ok_t *res = amqp_queue_declare( conn, 1, queue_bytes, 0, 0, exclusive, 1, amqp_empty_table); if (!res) { die_rpc(amqp_get_rpc_reply(conn), "queue.declare"); } if (!queue) { /* the server should have provided a queue name */ char *sq; queue_bytes = amqp_bytes_malloc_dup(res->queue); sq = stringify_bytes(queue_bytes); fprintf(stderr, "Server provided queue name: %s\n", sq); free(sq); } /* Bind to an exchange if requested */ if (exchange) { amqp_bytes_t eb = amqp_cstring_bytes(exchange); routing_tmp = strdup(routing_key); if (NULL == routing_tmp) { fprintf(stderr, "could not allocate memory to parse routing key\n"); exit(1); } for (routing_key_token = strtok_r(routing_tmp, LISTEN_KEYS_DELIMITER, &routing_key_rest); NULL != routing_key_token && routing_key_count < MAX_LISTEN_KEYS - 1; routing_key_token = strtok_r(NULL, LISTEN_KEYS_DELIMITER, &routing_key_rest)) { if (!amqp_queue_bind(conn, 1, queue_bytes, eb, cstring_bytes(routing_key_token), amqp_empty_table)) { die_rpc(amqp_get_rpc_reply(conn), "queue.bind"); } } free(routing_tmp); } } return queue_bytes; } #define AMQP_CONSUME_MAX_PREFETCH_COUNT 65535 static void do_consume(amqp_connection_state_t conn, amqp_bytes_t queue, int no_ack, int count, int prefetch_count, const char *const *argv) { int i; /* If there is a limit, set the qos to match */ if (count > 0 && count <= AMQP_CONSUME_MAX_PREFETCH_COUNT && !amqp_basic_qos(conn, 1, 0, count, 0)) { die_rpc(amqp_get_rpc_reply(conn), "basic.qos"); } /* if there is a maximum number of messages to be received at a time, set the * qos to match */ if (prefetch_count > 0 && prefetch_count <= AMQP_CONSUME_MAX_PREFETCH_COUNT) { /* the maximum number of messages to be received at a time must be less * than the global maximum number of messages. */ if (!(count > 0 && count <= AMQP_CONSUME_MAX_PREFETCH_COUNT && prefetch_count >= count)) { if (!amqp_basic_qos(conn, 1, 0, prefetch_count, 0)) { die_rpc(amqp_get_rpc_reply(conn), "basic.qos"); } } } if (!amqp_basic_consume(conn, 1, queue, amqp_empty_bytes, 0, no_ack, 0, amqp_empty_table)) { die_rpc(amqp_get_rpc_reply(conn), "basic.consume"); } for (i = 0; count < 0 || i < count; i++) { amqp_frame_t frame; struct pipeline pl; uint64_t delivery_tag; amqp_basic_deliver_t *deliver; int res = amqp_simple_wait_frame(conn, &frame); die_amqp_error(res, "waiting for header frame"); if (frame.frame_type != AMQP_FRAME_METHOD || frame.payload.method.id != AMQP_BASIC_DELIVER_METHOD) { continue; } deliver = (amqp_basic_deliver_t *)frame.payload.method.decoded; delivery_tag = deliver->delivery_tag; pipeline(argv, &pl); copy_body(conn, pl.infd); if (finish_pipeline(&pl) && !no_ack) die_amqp_error(amqp_basic_ack(conn, 1, delivery_tag, 0), "basic.ack"); amqp_maybe_release_buffers(conn); } } int main(int argc, const char **argv) { poptContext opts; amqp_connection_state_t conn; const char *const *cmd_argv; static char *queue = NULL; static char *exchange = NULL; static char *routing_key = NULL; static int declare = 0; static int exclusive = 0; static int no_ack = 0; static int count = -1; static int prefetch_count = -1; amqp_bytes_t queue_bytes; struct poptOption options[] = { INCLUDE_OPTIONS(connect_options), {"queue", 'q', POPT_ARG_STRING, &queue, 0, "the queue to consume from", "queue"}, {"exchange", 'e', POPT_ARG_STRING, &exchange, 0, "bind the queue to this exchange", "exchange"}, {"routing-key", 'r', POPT_ARG_STRING, &routing_key, 0, "the routing key to bind with", "routing key"}, {"declare", 'd', POPT_ARG_NONE, &declare, 0, "declare an exclusive queue (deprecated, use --exclusive instead)", NULL}, {"exclusive", 'x', POPT_ARG_NONE, &exclusive, 0, "declare the queue as exclusive", NULL}, {"no-ack", 'A', POPT_ARG_NONE, &no_ack, 0, "consume in no-ack mode", NULL}, {"count", 'c', POPT_ARG_INT, &count, 0, "stop consuming after this many messages are consumed", "limit"}, {"prefetch-count", 'p', POPT_ARG_INT, &prefetch_count, 0, "receive only this many message at a time from the server", "limit"}, POPT_AUTOHELP{NULL, '\0', 0, NULL, 0, NULL, NULL}}; opts = process_options(argc, argv, options, "[OPTIONS]... "); cmd_argv = poptGetArgs(opts); if (!cmd_argv || !cmd_argv[0]) { fprintf(stderr, "consuming command not specified\n"); poptPrintUsage(opts, stderr, 0); goto error; } conn = make_connection(); queue_bytes = setup_queue(conn, queue, exchange, routing_key, declare, exclusive); do_consume(conn, queue_bytes, no_ack, count, prefetch_count, cmd_argv); close_connection(conn); return 0; error: poptFreeContext(opts); return 1; }