/* * Copyright (c) 2018 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ /** @file mqtt_decoder.c * * @brief Decoder functions needed for decoding packets received from the * broker. */ #include LOG_MODULE_REGISTER(net_mqtt_dec, CONFIG_MQTT_LOG_LEVEL); #include "mqtt_internal.h" #include "mqtt_os.h" /** * @brief Unpacks unsigned 8 bit value from the buffer from the offset * requested. * * @param[inout] buf A pointer to the buf_ctx structure containing current * buffer position. * @param[out] val Memory where the value is to be unpacked. * * @retval 0 if the procedure is successful. * @retval -EINVAL if the buffer would be exceeded during the read */ static int unpack_uint8(struct buf_ctx *buf, uint8_t *val) { NET_DBG(">> cur:%p, end:%p", buf->cur, buf->end); if ((buf->end - buf->cur) < sizeof(uint8_t)) { return -EINVAL; } *val = *(buf->cur++); NET_DBG("<< val:%02x", *val); return 0; } /** * @brief Unpacks unsigned 16 bit value from the buffer from the offset * requested. * * @param[inout] buf A pointer to the buf_ctx structure containing current * buffer position. * @param[out] val Memory where the value is to be unpacked. * * @retval 0 if the procedure is successful. * @retval -EINVAL if the buffer would be exceeded during the read */ static int unpack_uint16(struct buf_ctx *buf, uint16_t *val) { NET_DBG(">> cur:%p, end:%p", buf->cur, buf->end); if ((buf->end - buf->cur) < sizeof(uint16_t)) { return -EINVAL; } *val = *(buf->cur++) << 8; /* MSB */ *val |= *(buf->cur++); /* LSB */ NET_DBG("<< val:%04x", *val); return 0; } /** * @brief Unpacks utf8 string from the buffer from the offset requested. * * @param[inout] buf A pointer to the buf_ctx structure containing current * buffer position. * @param[out] str Pointer to a string that will hold the string location * in the buffer. * * @retval 0 if the procedure is successful. * @retval -EINVAL if the buffer would be exceeded during the read */ static int unpack_utf8_str(struct buf_ctx *buf, struct mqtt_utf8 *str) { uint16_t utf8_strlen; int err_code; NET_DBG(">> cur:%p, end:%p", buf->cur, buf->end); err_code = unpack_uint16(buf, &utf8_strlen); if (err_code != 0) { return err_code; } if ((buf->end - buf->cur) < utf8_strlen) { return -EINVAL; } str->size = utf8_strlen; /* Zero length UTF8 strings permitted. */ if (utf8_strlen) { /* Point to right location in buffer. */ str->utf8 = buf->cur; buf->cur += utf8_strlen; } else { str->utf8 = NULL; } NET_DBG("<< str_size:%08x", (uint32_t)GET_UT8STR_BUFFER_SIZE(str)); return 0; } /** * @brief Unpacks binary string from the buffer from the offset requested. * * @param[in] length Binary string length. * @param[inout] buf A pointer to the buf_ctx structure containing current * buffer position. * @param[out] str Pointer to a binary string that will hold the binary string * location in the buffer. * * @retval 0 if the procedure is successful. * @retval -EINVAL if the buffer would be exceeded during the read */ static int unpack_data(uint32_t length, struct buf_ctx *buf, struct mqtt_binstr *str) { NET_DBG(">> cur:%p, end:%p", buf->cur, buf->end); if ((buf->end - buf->cur) < length) { return -EINVAL; } str->len = length; /* Zero length binary strings are permitted. */ if (length > 0) { str->data = buf->cur; buf->cur += length; } else { str->data = NULL; } NET_DBG("<< bin len:%08x", GET_BINSTR_BUFFER_SIZE(str)); return 0; } /**@brief Decode MQTT Packet Length in the MQTT fixed header. * * @param[inout] buf A pointer to the buf_ctx structure containing current * buffer position. * @param[out] length Length of variable header and payload in the * MQTT message. * * @retval 0 if the procedure is successful. * @retval -EINVAL if the length decoding would use more that 4 bytes. * @retval -EAGAIN if the buffer would be exceeded during the read. */ static int packet_length_decode(struct buf_ctx *buf, uint32_t *length) { uint8_t shift = 0U; uint8_t bytes = 0U; *length = 0U; do { if (bytes >= MQTT_MAX_LENGTH_BYTES) { return -EINVAL; } if (buf->cur >= buf->end) { return -EAGAIN; } *length += ((uint32_t)*(buf->cur) & MQTT_LENGTH_VALUE_MASK) << shift; shift += MQTT_LENGTH_SHIFT; bytes++; } while ((*(buf->cur++) & MQTT_LENGTH_CONTINUATION_BIT) != 0U); if (*length > MQTT_MAX_PAYLOAD_SIZE) { return -EINVAL; } NET_DBG("length:0x%08x", *length); return 0; } int fixed_header_decode(struct buf_ctx *buf, uint8_t *type_and_flags, uint32_t *length) { int err_code; err_code = unpack_uint8(buf, type_and_flags); if (err_code != 0) { return err_code; } return packet_length_decode(buf, length); } int connect_ack_decode(const struct mqtt_client *client, struct buf_ctx *buf, struct mqtt_connack_param *param) { int err_code; uint8_t flags, ret_code; err_code = unpack_uint8(buf, &flags); if (err_code != 0) { return err_code; } err_code = unpack_uint8(buf, &ret_code); if (err_code != 0) { return err_code; } if (client->protocol_version == MQTT_VERSION_3_1_1) { param->session_present_flag = flags & MQTT_CONNACK_FLAG_SESSION_PRESENT; NET_DBG("[CID %p]: session_present_flag: %d", client, param->session_present_flag); } param->return_code = (enum mqtt_conn_return_code)ret_code; return 0; } int publish_decode(uint8_t flags, uint32_t var_length, struct buf_ctx *buf, struct mqtt_publish_param *param) { int err_code; uint32_t var_header_length; param->dup_flag = flags & MQTT_HEADER_DUP_MASK; param->retain_flag = flags & MQTT_HEADER_RETAIN_MASK; param->message.topic.qos = ((flags & MQTT_HEADER_QOS_MASK) >> 1); err_code = unpack_utf8_str(buf, ¶m->message.topic.topic); if (err_code != 0) { return err_code; } var_header_length = param->message.topic.topic.size + sizeof(uint16_t); if (param->message.topic.qos > MQTT_QOS_0_AT_MOST_ONCE) { err_code = unpack_uint16(buf, ¶m->message_id); if (err_code != 0) { return err_code; } var_header_length += sizeof(uint16_t); } if (var_length < var_header_length) { NET_ERR("Corrupted PUBLISH message, header length (%u) larger " "than total length (%u)", var_header_length, var_length); return -EINVAL; } param->message.payload.data = NULL; param->message.payload.len = var_length - var_header_length; return 0; } int publish_ack_decode(struct buf_ctx *buf, struct mqtt_puback_param *param) { return unpack_uint16(buf, ¶m->message_id); } int publish_receive_decode(struct buf_ctx *buf, struct mqtt_pubrec_param *param) { return unpack_uint16(buf, ¶m->message_id); } int publish_release_decode(struct buf_ctx *buf, struct mqtt_pubrel_param *param) { return unpack_uint16(buf, ¶m->message_id); } int publish_complete_decode(struct buf_ctx *buf, struct mqtt_pubcomp_param *param) { return unpack_uint16(buf, ¶m->message_id); } int subscribe_ack_decode(struct buf_ctx *buf, struct mqtt_suback_param *param) { int err_code; err_code = unpack_uint16(buf, ¶m->message_id); if (err_code != 0) { return err_code; } return unpack_data(buf->end - buf->cur, buf, ¶m->return_codes); } int unsubscribe_ack_decode(struct buf_ctx *buf, struct mqtt_unsuback_param *param) { return unpack_uint16(buf, ¶m->message_id); }