static as_status as_scan_parse_record_async(as_event_command* cmd, uint8_t** pp, as_msg* msg, as_error* err) { as_record rec; as_record_inita(&rec, msg->n_ops); rec.gen = msg->generation; rec.ttl = cf_server_void_time_to_ttl(msg->record_ttl); *pp = as_command_parse_key(*pp, msg->n_fields, &rec.key); as_status status = as_command_parse_bins(pp, err, &rec, msg->n_ops, cmd->flags2 & AS_ASYNC_FLAGS2_DESERIALIZE); if (status != AEROSPIKE_OK) { as_record_destroy(&rec); return status; } as_event_executor* executor = cmd->udata; // udata is overloaded to contain executor. bool rv = ((as_async_scan_executor*)executor)->listener(0, &rec, executor->udata, executor->event_loop); as_record_destroy(&rec); if (! rv) { executor->notify = false; return as_error_set_message(err, AEROSPIKE_ERR_CLIENT_ABORT, ""); } return AEROSPIKE_OK; }
static as_status as_scan_parse_record(uint8_t** pp, as_msg* msg, as_scan_task* task, as_error* err) { as_record rec; as_record_inita(&rec, msg->n_ops); rec.gen = msg->generation; rec.ttl = cf_server_void_time_to_ttl(msg->record_ttl); *pp = as_command_parse_key(*pp, msg->n_fields, &rec.key); as_status status = as_command_parse_bins(pp, err, &rec, msg->n_ops, task->scan->deserialize_list_map); if (status != AEROSPIKE_OK) { as_record_destroy(&rec); return status; } bool rv = true; if (task->callback) { rv = task->callback((as_val*)&rec, task->udata); } as_record_destroy(&rec); return rv ? AEROSPIKE_OK : AEROSPIKE_ERR_CLIENT_ABORT; }
bool as_event_command_parse_result(as_event_command* cmd) { as_msg* msg = (as_msg*)cmd->buf; as_msg_swap_header_from_be(msg); uint8_t* p = cmd->buf + sizeof(as_msg); as_status status = msg->result_code; switch (status) { case AEROSPIKE_OK: { as_record rec; if (msg->n_ops < 1000) { as_record_inita(&rec, msg->n_ops); } else { as_record_init(&rec, msg->n_ops); } rec.gen = msg->generation; rec.ttl = cf_server_void_time_to_ttl(msg->record_ttl); p = as_command_ignore_fields(p, msg->n_fields); as_command_parse_bins(&rec, p, msg->n_ops, cmd->deserialize); as_event_response_complete(cmd); ((as_async_record_command*)cmd)->listener(0, &rec, cmd->udata, cmd->event_loop); as_event_command_release(cmd); as_record_destroy(&rec); break; } case AEROSPIKE_ERR_UDF: { as_error err; as_command_parse_udf_failure(p, &err, msg, status); as_event_response_error(cmd, &err); break; } default: { as_error err; as_error_set_message(&err, status, as_error_string(status)); as_event_response_error(cmd, &err); break; } } return true; }
as_status as_command_parse_result(as_error* err, int fd, uint64_t deadline_ms, void* user_data) { // Read header as_proto_msg msg; as_status status = as_socket_read_deadline(err, fd, (uint8_t*)&msg, sizeof(as_proto_msg), deadline_ms); if (status) { return status; } as_proto_swap_from_be(&msg.proto); as_msg_swap_header_from_be(&msg.m); size_t size = msg.proto.sz - msg.m.header_sz; uint8_t* buf = 0; if (size > 0) { // Read remaining message bytes. buf = as_command_init(size); status = as_socket_read_deadline(err, fd, buf, size, deadline_ms); if (status) { as_command_free(buf, size); return status; } } // Parse result code and record. status = msg.m.result_code; as_command_parse_result_data* data = user_data; switch (status) { case AEROSPIKE_OK: { if (data->record) { as_record* rec = *data->record; if (rec) { if (msg.m.n_ops > rec->bins.capacity) { if (rec->bins._free) { free(rec->bins.entries); } rec->bins.capacity = msg.m.n_ops; rec->bins.size = 0; rec->bins.entries = malloc(sizeof(as_bin) * msg.m.n_ops); rec->bins._free = true; } } else { rec = as_record_new(msg.m.n_ops); *data->record = rec; } rec->gen = msg.m.generation; rec->ttl = cf_server_void_time_to_ttl(msg.m.record_ttl); uint8_t* p = as_command_ignore_fields(buf, msg.m.n_fields); as_command_parse_bins(rec, p, msg.m.n_ops, data->deserialize); } break; } case AEROSPIKE_ERR_UDF: { status = as_command_parse_udf_failure(buf, err, &msg.m, status); break; } default: as_error_set_message(err, status, as_error_string(status)); break; } as_command_free(buf, size); return status; }