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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-13 12:18:05 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-13 12:18:05 +0000 |
commit | b46aad6df449445a9fc4aa7b32bd40005438e3f7 (patch) | |
tree | 751aa858ca01f35de800164516b298887382919d /src/mqtt.c | |
parent | Initial commit. (diff) | |
download | haproxy-b46aad6df449445a9fc4aa7b32bd40005438e3f7.tar.xz haproxy-b46aad6df449445a9fc4aa7b32bd40005438e3f7.zip |
Adding upstream version 2.9.5.upstream/2.9.5
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/mqtt.c')
-rw-r--r-- | src/mqtt.c | 1281 |
1 files changed, 1281 insertions, 0 deletions
diff --git a/src/mqtt.c b/src/mqtt.c new file mode 100644 index 0000000..5688296 --- /dev/null +++ b/src/mqtt.c @@ -0,0 +1,1281 @@ +/* + * MQTT Protocol + * + * Copyright 2020 Baptiste Assmann <bedis9@gmail.com> + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version + * 2 of the License, or (at your option) any later version. + * + */ + +#include <haproxy/chunk.h> +#include <haproxy/mqtt.h> + +uint8_t mqtt_cpt_flags[MQTT_CPT_ENTRIES] = { + [MQTT_CPT_INVALID] = 0x00, + [MQTT_CPT_CONNECT] = 0x00, + [MQTT_CPT_CONNACK] = 0x00, + + /* MQTT_CPT_PUBLISH flags can have different values (DUP, QoS, RETAIN), must be + * check more carefully + */ + [MQTT_CPT_PUBLISH] = 0x0F, + + [MQTT_CPT_PUBACK] = 0x00, + [MQTT_CPT_PUBREC] = 0x00, + [MQTT_CPT_PUBREL] = 0x02, + [MQTT_CPT_PUBCOMP] = 0x00, + [MQTT_CPT_SUBSCRIBE] = 0x02, + [MQTT_CPT_SUBACK] = 0x00, + [MQTT_CPT_UNSUBSCRIBE] = 0x02, + [MQTT_CPT_UNSUBACK] = 0x00, + [MQTT_CPT_PINGREQ] = 0x00, + [MQTT_CPT_PINGRESP] = 0x00, + [MQTT_CPT_DISCONNECT] = 0x00, + [MQTT_CPT_AUTH] = 0x00, +}; + +const struct ist mqtt_fields_string[MQTT_FN_ENTRIES] = { + [MQTT_FN_INVALID] = IST(""), + + /* it's MQTT 3.1, 3.1.1 and 5.0, those fields have no unique id, so we use strings */ + [MQTT_FN_FLAGS] = IST("flags"), + [MQTT_FN_REASON_CODE] = IST("reason_code"), /* MQTT 3.1 and 3.1.1: return_code */ + [MQTT_FN_PROTOCOL_NAME] = IST("protocol_name"), + [MQTT_FN_PROTOCOL_VERSION] = IST("protocol_version"), /* MQTT 3.1.1: protocol_level */ + [MQTT_FN_CLIENT_IDENTIFIER] = IST("client_identifier"), + [MQTT_FN_WILL_TOPIC] = IST("will_topic"), + [MQTT_FN_WILL_PAYLOAD] = IST("will_payload"), /* MQTT 3.1 and 3.1.1: will_message */ + [MQTT_FN_USERNAME] = IST("username"), + [MQTT_FN_PASSWORD] = IST("password"), + [MQTT_FN_KEEPALIVE] = IST("keepalive"), + /* from here, it's MQTT 5.0 only */ + [MQTT_FN_PAYLOAD_FORMAT_INDICATOR] = IST("1"), + [MQTT_FN_MESSAGE_EXPIRY_INTERVAL] = IST("2"), + [MQTT_FN_CONTENT_TYPE] = IST("3"), + [MQTT_FN_RESPONSE_TOPIC] = IST("8"), + [MQTT_FN_CORRELATION_DATA] = IST("9"), + [MQTT_FN_SUBSCRIPTION_IDENTIFIER] = IST("11"), + [MQTT_FN_SESSION_EXPIRY_INTERVAL] = IST("17"), + [MQTT_FN_ASSIGNED_CLIENT_IDENTIFIER] = IST("18"), + [MQTT_FN_SERVER_KEEPALIVE] = IST("19"), + [MQTT_FN_AUTHENTICATION_METHOD] = IST("21"), + [MQTT_FN_AUTHENTICATION_DATA] = IST("22"), + [MQTT_FN_REQUEST_PROBLEM_INFORMATION] = IST("23"), + [MQTT_FN_DELAY_INTERVAL] = IST("24"), + [MQTT_FN_REQUEST_RESPONSE_INFORMATION] = IST("25"), + [MQTT_FN_RESPONSE_INFORMATION] = IST("26"), + [MQTT_FN_SERVER_REFERENCE] = IST("28"), + [MQTT_FN_REASON_STRING] = IST("31"), + [MQTT_FN_RECEIVE_MAXIMUM] = IST("33"), + [MQTT_FN_TOPIC_ALIAS_MAXIMUM] = IST("34"), + [MQTT_FN_TOPIC_ALIAS] = IST("35"), + [MQTT_FN_MAXIMUM_QOS] = IST("36"), + [MQTT_FN_RETAIN_AVAILABLE] = IST("37"), + [MQTT_FN_USER_PROPERTY] = IST("38"), + [MQTT_FN_MAXIMUM_PACKET_SIZE] = IST("39"), + [MQTT_FN_WILDCARD_SUBSCRIPTION_AVAILABLE] = IST("40"), + [MQTT_FN_SUBSCRIPTION_IDENTIFIERS_AVAILABLE] = IST("41"), + [MQTT_FN_SHARED_SUBSCRIPTION_AVAILABLE] = IST("42"), +}; + +/* list of supported capturable field names for each MQTT control packet type */ +const uint64_t mqtt_fields_per_packet[MQTT_CPT_ENTRIES] = { + [MQTT_CPT_INVALID] = 0, + + [MQTT_CPT_CONNECT] = MQTT_FN_BIT_PROTOCOL_NAME | MQTT_FN_BIT_PROTOCOL_VERSION | + MQTT_FN_BIT_FLAGS | MQTT_FN_BIT_KEEPALIVE | + MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL | MQTT_FN_BIT_RECEIVE_MAXIMUM | + MQTT_FN_BIT_MAXIMUM_PACKET_SIZE | MQTT_FN_BIT_TOPIC_ALIAS_MAXIMUM | + MQTT_FN_BIT_REQUEST_RESPONSE_INFORMATION | MQTT_FN_BIT_REQUEST_PROBLEM_INFORMATION | + MQTT_FN_BIT_USER_PROPERTY | MQTT_FN_BIT_AUTHENTICATION_METHOD | + MQTT_FN_BIT_AUTHENTICATION_DATA | MQTT_FN_BIT_CLIENT_IDENTIFIER | + MQTT_FN_BIT_DELAY_INTERVAL | MQTT_FN_BIT_PAYLOAD_FORMAT_INDICATOR | + MQTT_FN_BIT_MESSAGE_EXPIRY_INTERVAL | MQTT_FN_BIT_CONTENT_TYPE | + MQTT_FN_BIT_RESPONSE_TOPIC | MQTT_FN_BIT_CORRELATION_DATA | + MQTT_FN_BIT_USER_PROPERTY | MQTT_FN_BIT_WILL_TOPIC | + MQTT_FN_BIT_WILL_PAYLOAD | MQTT_FN_BIT_USERNAME | + MQTT_FN_BIT_PASSWORD, + + [MQTT_CPT_CONNACK] = MQTT_FN_BIT_FLAGS | MQTT_FN_BIT_PROTOCOL_VERSION | + MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL | + MQTT_FN_BIT_RECEIVE_MAXIMUM | MQTT_FN_BIT_MAXIMUM_QOS | + MQTT_FN_BIT_RETAIN_AVAILABLE | MQTT_FN_BIT_MAXIMUM_PACKET_SIZE | + MQTT_FN_BIT_ASSIGNED_CLIENT_IDENTIFIER | MQTT_FN_BIT_TOPIC_ALIAS_MAXIMUM | + MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_WILDCARD_SUBSCRIPTION_AVAILABLE | + MQTT_FN_BIT_SUBSCRIPTION_IDENTIFIERS_AVAILABLE| MQTT_FN_BIT_SHARED_SUBSCRIPTION_AVAILABLE | + MQTT_FN_BIT_SERVER_KEEPALIVE | MQTT_FN_BIT_RESPONSE_INFORMATION | + MQTT_FN_BIT_SERVER_REFERENCE | MQTT_FN_BIT_USER_PROPERTY | + MQTT_FN_BIT_AUTHENTICATION_METHOD | MQTT_FN_BIT_AUTHENTICATION_DATA, + + [MQTT_CPT_PUBLISH] = MQTT_FN_BIT_PAYLOAD_FORMAT_INDICATOR | MQTT_FN_BIT_MESSAGE_EXPIRY_INTERVAL | + MQTT_FN_BIT_CONTENT_TYPE | MQTT_FN_BIT_RESPONSE_TOPIC | + MQTT_FN_BIT_CORRELATION_DATA | MQTT_FN_BIT_SUBSCRIPTION_IDENTIFIER | + MQTT_FN_BIT_TOPIC_ALIAS | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_PUBACK] = MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_PUBREC] = MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_PUBREL] = MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_PUBCOMP] = MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_SUBSCRIBE] = MQTT_FN_BIT_SUBSCRIPTION_IDENTIFIER | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_SUBACK] = MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_UNSUBSCRIBE] = MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_UNSUBACK] = MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_PINGREQ] = 0, + + [MQTT_CPT_PINGRESP] = 0, + + [MQTT_CPT_DISCONNECT] = MQTT_FN_BIT_REASON_CODE | MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL | + MQTT_FN_BIT_SERVER_REFERENCE | MQTT_FN_BIT_REASON_STRING | + MQTT_FN_BIT_USER_PROPERTY, + + [MQTT_CPT_AUTH] = MQTT_FN_BIT_AUTHENTICATION_METHOD | MQTT_FN_BIT_AUTHENTICATION_DATA | + MQTT_FN_BIT_REASON_STRING | MQTT_FN_BIT_USER_PROPERTY, +}; + +/* Checks the first byte of a message to read the fixed header and extract the + * packet type and flags. <parser> is supposed to point to the fix header byte. + * + * Fix header looks like: + * +-------+-----------+-----------+-----------+---------+----------+----------+---------+------------+ + * | bit | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 | + * +-------+-----------+-----------+-----------+---------+----------+----------+---------+------------+ + * | field | MQTT Control Packet Type | Flags specific to each Control Packet type | + * +-------+---------------------------------------------+--------------------------------------------+ + * + * On success, <ptk> is updated with the packet type and flags and the new parser + * state is returned. On error, IST_NULL is returned. + */ +static inline struct ist mqtt_read_fixed_hdr(struct ist parser, struct mqtt_pkt *pkt) +{ + uint8_t type = (uint8_t)*istptr(parser); + uint8_t ptype = (type & 0xF0) >> 4; + uint8_t flags = type & 0x0F; + + if (ptype == MQTT_CPT_INVALID || ptype >= MQTT_CPT_ENTRIES || flags != mqtt_cpt_flags[ptype]) + return IST_NULL; + + pkt->fixed_hdr.type = ptype; + pkt->fixed_hdr.flags = flags; + return istnext(parser); +} + +/* Reads a one byte integer. more information here : + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901007 + * + * <parser> is supposed to point to the first byte of the integer. On success + * the integer is stored in <*i>, if provided, and the new parser state is returned. On + * error, IST_NULL is returned. +*/ +static inline struct ist mqtt_read_1byte_int(struct ist parser, uint8_t *i) +{ + if (istlen(parser) < 1) + return IST_NULL; + if (i) + *i = (uint8_t)*istptr(parser); + parser = istnext(parser); + return parser; +} + +/* Reads a two byte integer. more information here : + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901008 + * + * <parser> is supposed to point to the first byte of the integer. On success + * the integer is stored in <*i>, if provided, and the new parser state is returned. On + * error, IST_NULL is returned. +*/ +static inline struct ist mqtt_read_2byte_int(struct ist parser, uint16_t *i) +{ + if (istlen(parser) < 2) + return IST_NULL; + if (i) { + *i = (uint8_t)*istptr(parser) << 8; + *i += (uint8_t)*(istptr(parser) + 1); + } + parser = istadv(parser, 2); + return parser; +} + +/* Reads a four byte integer. more information here : + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901009 + * + * <parser> is supposed to point to the first byte of the integer. On success + * the integer is stored in <*i>, if provided, and the new parser state is returned. On + * error, IST_NULL is returned. +*/ +static inline struct ist mqtt_read_4byte_int(struct ist parser, uint32_t *i) +{ + if (istlen(parser) < 4) + return IST_NULL; + if (i) { + *i = (uint8_t)*istptr(parser) << 24; + *i += (uint8_t)*(istptr(parser) + 1) << 16; + *i += (uint8_t)*(istptr(parser) + 2) << 8; + *i += (uint8_t)*(istptr(parser) + 3); + } + parser = istadv(parser, 4); + return parser; +} + +/* Reads a variable byte integer. more information here : + * https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718023 + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901011 + * + * It is encoded using a variable length encoding scheme which uses a single + * byte for values up to 127. Larger values are handled as follows. The least + * significant seven bits of each byte encode the data, and the most significant + * bit is used to indicate that there are following bytes in the representation. + * Thus each byte encodes 128 values and a "continuation bit". + * + * The maximum number of bytes in the Remaining Length field is four + * (MQTT_REMAINING_LENGHT_MAX_SIZE). + * + * <parser> is supposed to point to the first byte of the integer. On success + * the integer is stored in <*i> and the new parser state is returned. On + * error, IST_NULL is returned. + */ +static inline struct ist mqtt_read_varint(struct ist parser, uint32_t *i) +{ + int off, m; + + off = m = 0; + if (i) + *i = 0; + for (off = 0; off < MQTT_REMAINING_LENGHT_MAX_SIZE && istlen(parser); off++) { + uint8_t byte = (uint8_t)*istptr(parser); + + if (i) { + *i += (byte & 127) << m; + m += 7; /* preparing <m> for next byte */ + } + parser = istnext(parser); + + /* we read the latest byte for the remaining length field */ + if (byte <= 127) + break; + } + + if (off == MQTT_REMAINING_LENGHT_MAX_SIZE) + return IST_NULL; + return parser; +} + +/* Reads a MQTT string. more information here : + * http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718016 + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901010 + * + * In MQTT, strings are prefixed by their size, encoded over 2 bytes: + * byte 1: length MSB + * byte 2: length LSB + * byte 3: string + * ... + * + * string size is MSB * 256 + LSB + * + * <parser> is supposed to point to the first byte of the string. On success the + * string is stored in <*str>, if provided, and the new parser state is + * returned. On error, IST_NULL is returned. + */ +static inline struct ist mqtt_read_string(struct ist parser, struct ist *str) +{ + uint16_t len = 0; + + /* read and compute the string length */ + if (istlen(parser) < 2) + goto error; + + parser = mqtt_read_2byte_int(parser, &len); + if (!isttest(parser) || istlen(parser) < len) + goto error; + + if (str) { + str->ptr = istptr(parser); + str->len = len; + } + + return istadv(parser, len); + + error: + return IST_NULL; +} + +/* Helper function to convert a unsigned integer to a string. The result is + * written in <buf>. On success, the written size is returned, otherwise, on + * error, 0 is returned. + */ +static inline size_t mqtt_uint2str(struct buffer *buf, uint32_t i) +{ + char *end; + + end = ultoa_o(i, buf->area, buf->size); + if (!end) + return 0; + buf->data = end - buf->area; + return buf->data; +} + +/* Extracts the value of a <fieldname_id> of type <type> from a given MQTT + * message <msg>. IST_NULL is returned if an error occurred while parsing or if + * the field could not be found. If more data are required, the message with a + * length set to 0 is returned. If the field is found, the response is returned + * as a struct ist. + */ +struct ist mqtt_field_value(struct ist msg, int type, int fieldname_id) +{ + struct buffer *trash = get_trash_chunk(); + struct mqtt_pkt mpkt; + struct ist res; + + switch (mqtt_validate_message(msg, &mpkt)) { + case MQTT_VALID_MESSAGE: + if (mpkt.fixed_hdr.type != type) + goto not_found_or_invalid; + break; + case MQTT_NEED_MORE_DATA: + goto need_more; + case MQTT_INVALID_MESSAGE: + goto not_found_or_invalid; + } + + switch (type) { + case MQTT_CPT_CONNECT: + switch (fieldname_id) { + case MQTT_FN_FLAGS: + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.flags)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_PROTOCOL_NAME: + if (!istlen(mpkt.data.connect.var_hdr.protocol_name)) + goto not_found_or_invalid; + res = mpkt.data.connect.var_hdr.protocol_name; + goto end; + + case MQTT_FN_PROTOCOL_VERSION: + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.protocol_version)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_CLIENT_IDENTIFIER: + if (!istlen(mpkt.data.connect.payload.client_identifier)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.client_identifier; + goto end; + + case MQTT_FN_WILL_TOPIC: + if (!istlen(mpkt.data.connect.payload.will_topic)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.will_topic; + goto end; + + case MQTT_FN_WILL_PAYLOAD: + if (!istlen(mpkt.data.connect.payload.will_payload)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.will_payload; + goto end; + + case MQTT_FN_USERNAME: + if (!istlen(mpkt.data.connect.payload.username)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.username; + goto end; + + case MQTT_FN_PASSWORD: + if (!istlen(mpkt.data.connect.payload.password)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.password; + goto end; + + case MQTT_FN_KEEPALIVE: + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.keepalive)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_PAYLOAD_FORMAT_INDICATOR: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.payload.will_props.payload_format_indicator)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_MESSAGE_EXPIRY_INTERVAL: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.payload.will_props.message_expiry_interval)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_CONTENT_TYPE: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connect.payload.will_props.content_type)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.will_props.content_type; + goto end; + + case MQTT_FN_RESPONSE_TOPIC: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connect.payload.will_props.response_topic)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.will_props.response_topic; + goto end; + + case MQTT_FN_CORRELATION_DATA: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connect.payload.will_props.correlation_data)) + goto not_found_or_invalid; + res = mpkt.data.connect.payload.will_props.correlation_data; + goto end; + + case MQTT_FN_SESSION_EXPIRY_INTERVAL: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.session_expiry_interval)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_AUTHENTICATION_METHOD: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connect.var_hdr.props.authentication_method)) + goto not_found_or_invalid; + res = mpkt.data.connect.var_hdr.props.authentication_method; + goto end; + + case MQTT_FN_AUTHENTICATION_DATA: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connect.var_hdr.props.authentication_data)) + goto not_found_or_invalid; + res = mpkt.data.connect.var_hdr.props.authentication_data; + goto end; + + case MQTT_FN_REQUEST_PROBLEM_INFORMATION: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.request_problem_information)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_DELAY_INTERVAL: + if ((mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) || + !(mpkt.data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.payload.will_props.delay_interval)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_REQUEST_RESPONSE_INFORMATION: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.request_response_information)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_RECEIVE_MAXIMUM: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.receive_maximum)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_TOPIC_ALIAS_MAXIMUM: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.topic_alias_maximum)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_MAXIMUM_PACKET_SIZE: + if (mpkt.data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connect.var_hdr.props.maximum_packet_size)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + default: + goto not_found_or_invalid; + } + break; + + case MQTT_CPT_CONNACK: + switch (fieldname_id) { + case MQTT_FN_FLAGS: + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.flags)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_REASON_CODE: + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.reason_code)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_PROTOCOL_VERSION: + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.protocol_version)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_SESSION_EXPIRY_INTERVAL: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.session_expiry_interval)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_ASSIGNED_CLIENT_IDENTIFIER: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.assigned_client_identifier)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.assigned_client_identifier; + goto end; + + case MQTT_FN_SERVER_KEEPALIVE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.server_keepalive)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_AUTHENTICATION_METHOD: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.authentication_method)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.authentication_method; + goto end; + + case MQTT_FN_AUTHENTICATION_DATA: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.authentication_data)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.authentication_data; + goto end; + + case MQTT_FN_RESPONSE_INFORMATION: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.response_information)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.response_information; + goto end; + + case MQTT_FN_SERVER_REFERENCE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.server_reference)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.server_reference; + goto end; + + case MQTT_FN_REASON_STRING: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!istlen(mpkt.data.connack.var_hdr.props.reason_string)) + goto not_found_or_invalid; + res = mpkt.data.connack.var_hdr.props.reason_string; + goto end; + + case MQTT_FN_RECEIVE_MAXIMUM: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.receive_maximum)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_TOPIC_ALIAS_MAXIMUM: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.topic_alias_maximum)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_MAXIMUM_QOS: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.maximum_qos)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_RETAIN_AVAILABLE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.retain_available)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_MAXIMUM_PACKET_SIZE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.maximum_packet_size)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_WILDCARD_SUBSCRIPTION_AVAILABLE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.wildcard_subscription_available)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_SUBSCRIPTION_IDENTIFIERS_AVAILABLE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.subscription_identifiers_available)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + case MQTT_FN_SHARED_SUBSCRIPTION_AVAILABLE: + if (mpkt.data.connack.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto not_found_or_invalid; + if (!mqtt_uint2str(trash, mpkt.data.connack.var_hdr.props.shared_subsription_available)) + goto not_found_or_invalid; + res = ist2(trash->area, trash->data); + goto end; + + default: + goto not_found_or_invalid; + } + break; + + default: + goto not_found_or_invalid; + } + + end: + return res; + + need_more: + return ist2(istptr(msg), 0); + + not_found_or_invalid: + return IST_NULL; +} + +/* Parses a CONNECT packet : + * https://public.dhe.ibm.com/software/dw/webservices/ws-mqtt/mqtt-v3r1.html#connect + * https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718028 + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901033 + * + * <parser> should point right after the MQTT fixed header. The remaining length + * was already checked, thus missing data is an error. On success, the result of + * the parsing is stored in <mpkt>. + * + * Returns: + * MQTT_INVALID_MESSAGE if the CONNECT message is invalid + * MQTT_VALID_MESSAGE if the CONNECT message looks valid + */ +static int mqtt_parse_connect(struct ist parser, struct mqtt_pkt *mpkt) +{ + /* The parser length is stored to be sure exactly consumed the announced + * remaining length. */ + size_t orig_len = istlen(parser); + int ret = MQTT_INVALID_MESSAGE; + + /* + * parsing variable header + */ + /* read protocol_name */ + parser = mqtt_read_string(parser, &mpkt->data.connect.var_hdr.protocol_name); + if (!isttest(parser) || !(isteqi(mpkt->data.connect.var_hdr.protocol_name, ist("MQTT")) || isteqi(mpkt->data.connect.var_hdr.protocol_name, ist("MQIsdp")))) + goto end; + + /* read protocol_version */ + parser = mqtt_read_1byte_int(parser, &mpkt->data.connect.var_hdr.protocol_version); + if (!isttest(parser)) + goto end; + if (mpkt->data.connect.var_hdr.protocol_version != MQTT_VERSION_3_1 && + mpkt->data.connect.var_hdr.protocol_version != MQTT_VERSION_3_1_1 && + mpkt->data.connect.var_hdr.protocol_version != MQTT_VERSION_5_0) + goto end; + + /* read flags */ + /* bit 1 is 'reserved' and must be set to 0 in CONNECT message flags */ + parser = mqtt_read_1byte_int(parser, &mpkt->data.connect.var_hdr.flags); + if (!isttest(parser) || (mpkt->data.connect.var_hdr.flags & MQTT_CONNECT_FL_RESERVED)) + goto end; + + /* if WILL flag must be set to have WILL_QOS flag or WILL_RETAIN set */ + if ((mpkt->data.connect.var_hdr.flags & (MQTT_CONNECT_FL_WILL|MQTT_CONNECT_FL_WILL_QOS|MQTT_CONNECT_FL_WILL_RETAIN)) == MQTT_CONNECT_FL_WILL_QOS) + goto end; + + /* read keepalive */ + parser = mqtt_read_2byte_int(parser, &mpkt->data.connect.var_hdr.keepalive); + if (!isttest(parser)) + goto end; + + /* read properties, only available in MQTT_VERSION_5_0 */ + if (mpkt->data.connect.var_hdr.protocol_version == MQTT_VERSION_5_0) { + struct ist props; + unsigned int user_prop_idx = 0; + uint64_t fields = 0; + uint32_t plen = 0; + + parser = mqtt_read_varint(parser, &plen); + if (!isttest(parser) || istlen(parser) < plen) + goto end; + props = ist2(istptr(parser), plen); + parser = istadv(parser, props.len); + + while (istlen(props) > 0) { + switch (*istptr(props)) { + case MQTT_PROP_SESSION_EXPIRY_INTERVAL: + if (fields & MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.session_expiry_interval); + fields |= MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL; + break; + + case MQTT_PROP_RECEIVE_MAXIMUM: + if (fields & MQTT_FN_BIT_RECEIVE_MAXIMUM) + goto end; + props = mqtt_read_2byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.receive_maximum); + /* cannot be 0 */ + if (!mpkt->data.connect.var_hdr.props.receive_maximum) + goto end; + fields |= MQTT_FN_BIT_RECEIVE_MAXIMUM; + break; + + case MQTT_PROP_MAXIMUM_PACKET_SIZE: + if (fields & MQTT_FN_BIT_MAXIMUM_PACKET_SIZE) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.maximum_packet_size); + /* cannot be 0 */ + if (!mpkt->data.connect.var_hdr.props.maximum_packet_size) + goto end; + fields |= MQTT_FN_BIT_MAXIMUM_PACKET_SIZE; + break; + + case MQTT_PROP_TOPIC_ALIAS_MAXIMUM: + if (fields & MQTT_FN_BIT_TOPIC_ALIAS) + goto end; + props = mqtt_read_2byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.topic_alias_maximum); + fields |= MQTT_FN_BIT_TOPIC_ALIAS; + break; + + case MQTT_PROP_REQUEST_RESPONSE_INFORMATION: + if (fields & MQTT_FN_BIT_REQUEST_RESPONSE_INFORMATION) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.request_response_information); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connect.var_hdr.props.request_response_information > 1) + goto end; + fields |= MQTT_FN_BIT_REQUEST_RESPONSE_INFORMATION; + break; + + case MQTT_PROP_REQUEST_PROBLEM_INFORMATION: + if (fields & MQTT_FN_BIT_REQUEST_PROBLEM_INFORMATION) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connect.var_hdr.props.request_problem_information); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connect.var_hdr.props.request_problem_information > 1) + goto end; + fields |= MQTT_FN_BIT_REQUEST_PROBLEM_INFORMATION; + break; + + case MQTT_PROP_USER_PROPERTIES: + /* if we reached MQTT_PROP_USER_PROPERTY_ENTRIES already, then + * we start writing over the first property */ + if (user_prop_idx >= MQTT_PROP_USER_PROPERTY_ENTRIES) + user_prop_idx = 0; + + /* read user property name and value */ + props = mqtt_read_string(istnext(props), &mpkt->data.connect.var_hdr.props.user_props[user_prop_idx].name); + if (!isttest(props)) + goto end; + props = mqtt_read_string(props, &mpkt->data.connect.var_hdr.props.user_props[user_prop_idx].value); + ++user_prop_idx; + break; + + case MQTT_PROP_AUTHENTICATION_METHOD: + if (fields & MQTT_FN_BIT_AUTHENTICATION_METHOD) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connect.var_hdr.props.authentication_method); + fields |= MQTT_FN_BIT_AUTHENTICATION_METHOD; + break; + + case MQTT_PROP_AUTHENTICATION_DATA: + if (fields & MQTT_FN_BIT_AUTHENTICATION_DATA) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connect.var_hdr.props.authentication_data); + fields |= MQTT_FN_BIT_AUTHENTICATION_DATA; + break; + + default: + goto end; + } + + if (!isttest(props)) + goto end; + } + } + + /* cannot have auth data without auth method */ + if (!istlen(mpkt->data.connect.var_hdr.props.authentication_method) && + istlen(mpkt->data.connect.var_hdr.props.authentication_data)) + goto end; + + /* parsing payload + * + * Content of payload is related to flags parsed above and the field order is pre-defined: + * Client Identifier, Will Topic, Will Message, User Name, Password + */ + /* read client identifier */ + parser = mqtt_read_string(parser, &mpkt->data.connect.payload.client_identifier); + if (!isttest(parser)) + goto end; + + /* read Will Properties, for MQTT v5 only + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901060 + */ + if ((mpkt->data.connect.var_hdr.protocol_version == MQTT_VERSION_5_0) && + (mpkt->data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL)) { + struct ist props; + unsigned int user_prop_idx = 0; + uint64_t fields = 0; + uint32_t plen = 0; + + parser = mqtt_read_varint(parser, &plen); + if (!isttest(parser) || istlen(parser) < plen) + goto end; + props = ist2(istptr(parser), plen); + parser = istadv(parser, props.len); + + while (istlen(props) > 0) { + switch (*istptr(props)) { + case MQTT_PROP_WILL_DELAY_INTERVAL: + if (fields & MQTT_FN_BIT_DELAY_INTERVAL) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connect.payload.will_props.delay_interval); + fields |= MQTT_FN_BIT_DELAY_INTERVAL; + break; + + case MQTT_PROP_PAYLOAD_FORMAT_INDICATOR: + if (fields & MQTT_FN_BIT_PAYLOAD_FORMAT_INDICATOR) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connect.payload.will_props.payload_format_indicator); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connect.payload.will_props.payload_format_indicator > 1) + goto end; + fields |= MQTT_FN_BIT_PAYLOAD_FORMAT_INDICATOR; + break; + + case MQTT_PROP_MESSAGE_EXPIRY_INTERVAL: + if (fields & MQTT_FN_BIT_MESSAGE_EXPIRY_INTERVAL) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connect.payload.will_props.message_expiry_interval); + fields |= MQTT_FN_BIT_MESSAGE_EXPIRY_INTERVAL; + break; + + case MQTT_PROP_CONTENT_TYPE: + if (fields & MQTT_FN_BIT_CONTENT_TYPE) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connect.payload.will_props.content_type); + fields |= MQTT_FN_BIT_CONTENT_TYPE; + break; + + case MQTT_PROP_RESPONSE_TOPIC: + if (fields & MQTT_FN_BIT_RESPONSE_TOPIC) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connect.payload.will_props.response_topic); + fields |= MQTT_FN_BIT_RESPONSE_TOPIC; + break; + + case MQTT_PROP_CORRELATION_DATA: + if (fields & MQTT_FN_BIT_CORRELATION_DATA) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connect.payload.will_props.correlation_data); + fields |= MQTT_FN_BIT_CORRELATION_DATA; + break; + + case MQTT_PROP_USER_PROPERTIES: + /* if we reached MQTT_PROP_USER_PROPERTY_ENTRIES already, then + * we start writing over the first property */ + if (user_prop_idx >= MQTT_PROP_USER_PROPERTY_ENTRIES) + user_prop_idx = 0; + + /* read user property name and value */ + props = mqtt_read_string(istnext(props), &mpkt->data.connect.payload.will_props.user_props[user_prop_idx].name); + if (!isttest(props)) + goto end; + props = mqtt_read_string(props, &mpkt->data.connect.payload.will_props.user_props[user_prop_idx].value); + ++user_prop_idx; + break; + + default: + goto end; + } + + if (!isttest(props)) + goto end; + } + } + + /* read Will Topic and Will Message (MQTT 3.1.1) or Payload (MQTT 5.0) */ + if (mpkt->data.connect.var_hdr.flags & MQTT_CONNECT_FL_WILL) { + parser = mqtt_read_string(parser, &mpkt->data.connect.payload.will_topic); + if (!isttest(parser)) + goto end; + parser = mqtt_read_string(parser, &mpkt->data.connect.payload.will_payload); + if (!isttest(parser)) + goto end; + } + + /* read User Name */ + if (mpkt->data.connect.var_hdr.flags & MQTT_CONNECT_FL_USERNAME) { + parser = mqtt_read_string(parser, &mpkt->data.connect.payload.username); + if (!isttest(parser)) + goto end; + } + + /* read Password */ + if (mpkt->data.connect.var_hdr.flags & MQTT_CONNECT_FL_PASSWORD) { + parser = mqtt_read_string(parser, &mpkt->data.connect.payload.password); + if (!isttest(parser)) + goto end; + } + + if ((orig_len - istlen(parser)) == mpkt->fixed_hdr.remaining_length) + ret = MQTT_VALID_MESSAGE; + + end: + return ret; +} + +/* Parses a CONNACK packet : + * https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718033 + * https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901074 + * + * <parser> should point right after the MQTT fixed header. The remaining length + * was already checked, thus missing data is an error. On success, the result of + * the parsing is stored in <mpkt>. + * + * Returns: + * MQTT_INVALID_MESSAGE if the CONNECT message is invalid + * MQTT_VALID_MESSAGE if the CONNECT message looks valid + */ +static int mqtt_parse_connack(struct ist parser, struct mqtt_pkt *mpkt) +{ + /* The parser length is stored to be sure exactly consumed the announced + * remaining length. */ + size_t orig_len = istlen(parser); + int ret = MQTT_INVALID_MESSAGE; + + if (istlen(parser) < 2) + goto end; + else if (istlen(parser) == 2) + mpkt->data.connack.var_hdr.protocol_version = MQTT_VERSION_3_1_1; + else + mpkt->data.connack.var_hdr.protocol_version = MQTT_VERSION_5_0; + + /* + * parsing variable header + */ + /* read flags */ + /* bits 7 to 1 on flags are reserved and must be 0 */ + parser = mqtt_read_1byte_int(parser, &mpkt->data.connack.var_hdr.flags); + if (!isttest(parser) || (mpkt->data.connack.var_hdr.flags & 0xFE)) + goto end; + + /* read reason_code */ + parser = mqtt_read_1byte_int(parser, &mpkt->data.connack.var_hdr.reason_code); + if (!isttest(parser)) + goto end; + + /* we can leave here for MQTT 3.1.1 */ + if (mpkt->data.connack.var_hdr.protocol_version == MQTT_VERSION_3_1_1) { + if ((orig_len - istlen(parser)) == mpkt->fixed_hdr.remaining_length) + ret = MQTT_VALID_MESSAGE; + goto end; + } + + /* read properties, only available in MQTT_VERSION_5_0 */ + if (mpkt->data.connack.var_hdr.protocol_version == MQTT_VERSION_5_0) { + struct ist props; + unsigned int user_prop_idx = 0; + uint64_t fields = 0; + uint32_t plen = 0; + + parser = mqtt_read_varint(parser, &plen); + if (!isttest(parser) || istlen(parser) < plen) + goto end; + props = ist2(istptr(parser), plen); + parser = istadv(parser, props.len); + + while (istlen(props) > 0) { + switch (*istptr(props)) { + case MQTT_PROP_SESSION_EXPIRY_INTERVAL: + if (fields & MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.session_expiry_interval); + fields |= MQTT_FN_BIT_SESSION_EXPIRY_INTERVAL; + break; + + case MQTT_PROP_RECEIVE_MAXIMUM: + if (fields & MQTT_FN_BIT_RECEIVE_MAXIMUM) + goto end; + props = mqtt_read_2byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.receive_maximum); + /* cannot be 0 */ + if (!mpkt->data.connack.var_hdr.props.receive_maximum) + goto end; + fields |= MQTT_FN_BIT_RECEIVE_MAXIMUM; + break; + + case MQTT_PROP_MAXIMUM_QOS: + if (fields & MQTT_FN_BIT_MAXIMUM_QOS) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.maximum_qos); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connack.var_hdr.props.maximum_qos > 1) + goto end; + fields |= MQTT_FN_BIT_MAXIMUM_QOS; + break; + + case MQTT_PROP_RETAIN_AVAILABLE: + if (fields & MQTT_FN_BIT_RETAIN_AVAILABLE) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.retain_available); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connack.var_hdr.props.retain_available > 1) + goto end; + fields |= MQTT_FN_BIT_RETAIN_AVAILABLE; + break; + + case MQTT_PROP_MAXIMUM_PACKET_SIZE: + if (fields & MQTT_FN_BIT_MAXIMUM_PACKET_SIZE) + goto end; + props = mqtt_read_4byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.maximum_packet_size); + /* cannot be 0 */ + if (!mpkt->data.connack.var_hdr.props.maximum_packet_size) + goto end; + fields |= MQTT_FN_BIT_MAXIMUM_PACKET_SIZE; + break; + + case MQTT_PROP_ASSIGNED_CLIENT_IDENTIFIER: + if (fields & MQTT_FN_BIT_ASSIGNED_CLIENT_IDENTIFIER) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.assigned_client_identifier); + if (!istlen(mpkt->data.connack.var_hdr.props.assigned_client_identifier)) + goto end; + fields |= MQTT_FN_BIT_ASSIGNED_CLIENT_IDENTIFIER; + break; + + case MQTT_PROP_TOPIC_ALIAS_MAXIMUM: + if (fields & MQTT_FN_BIT_TOPIC_ALIAS_MAXIMUM) + goto end; + props = mqtt_read_2byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.topic_alias_maximum); + fields |= MQTT_FN_BIT_TOPIC_ALIAS_MAXIMUM; + break; + + case MQTT_PROP_REASON_STRING: + if (fields & MQTT_FN_BIT_REASON_STRING) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.reason_string); + fields |= MQTT_FN_BIT_REASON_STRING; + break; + + case MQTT_PROP_WILDCARD_SUBSCRIPTION_AVAILABLE: + if (fields & MQTT_FN_BIT_WILDCARD_SUBSCRIPTION_AVAILABLE) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.wildcard_subscription_available); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connack.var_hdr.props.wildcard_subscription_available > 1) + goto end; + fields |= MQTT_FN_BIT_WILDCARD_SUBSCRIPTION_AVAILABLE; + break; + + case MQTT_PROP_SUBSCRIPTION_IDENTIFIERS_AVAILABLE: + if (fields & MQTT_FN_BIT_SUBSCRIPTION_IDENTIFIER) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.subscription_identifiers_available); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connack.var_hdr.props.subscription_identifiers_available > 1) + goto end; + fields |= MQTT_FN_BIT_SUBSCRIPTION_IDENTIFIER; + break; + + case MQTT_PROP_SHARED_SUBSRIPTION_AVAILABLE: + if (fields & MQTT_FN_BIT_SHARED_SUBSCRIPTION_AVAILABLE) + goto end; + props = mqtt_read_1byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.shared_subsription_available); + /* can have only 2 values: 0 or 1 */ + if (mpkt->data.connack.var_hdr.props.shared_subsription_available > 1) + goto end; + fields |= MQTT_FN_BIT_SHARED_SUBSCRIPTION_AVAILABLE; + break; + + case MQTT_PROP_SERVER_KEEPALIVE: + if (fields & MQTT_FN_BIT_SERVER_KEEPALIVE) + goto end; + props = mqtt_read_2byte_int(istnext(props), &mpkt->data.connack.var_hdr.props.server_keepalive); + fields |= MQTT_FN_BIT_SERVER_KEEPALIVE; + break; + + case MQTT_PROP_RESPONSE_INFORMATION: + if (fields & MQTT_FN_BIT_RESPONSE_INFORMATION) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.response_information); + fields |= MQTT_FN_BIT_RESPONSE_INFORMATION; + break; + + case MQTT_PROP_SERVER_REFERENCE: + if (fields & MQTT_FN_BIT_SERVER_REFERENCE) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.server_reference); + fields |= MQTT_FN_BIT_SERVER_REFERENCE; + break; + + case MQTT_PROP_USER_PROPERTIES: + /* if we reached MQTT_PROP_USER_PROPERTY_ENTRIES already, then + * we start writing over the first property */ + if (user_prop_idx >= MQTT_PROP_USER_PROPERTY_ENTRIES) + user_prop_idx = 0; + + /* read user property name and value */ + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.user_props[user_prop_idx].name); + if (!isttest(props)) + goto end; + props = mqtt_read_string(props, &mpkt->data.connack.var_hdr.props.user_props[user_prop_idx].value); + ++user_prop_idx; + break; + + case MQTT_PROP_AUTHENTICATION_METHOD: + if (fields & MQTT_FN_BIT_AUTHENTICATION_METHOD) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.authentication_method); + fields |= MQTT_FN_BIT_AUTHENTICATION_METHOD; + break; + + case MQTT_PROP_AUTHENTICATION_DATA: + if (fields & MQTT_FN_BIT_AUTHENTICATION_DATA) + goto end; + props = mqtt_read_string(istnext(props), &mpkt->data.connack.var_hdr.props.authentication_data); + fields |= MQTT_FN_BIT_AUTHENTICATION_DATA; + break; + + default: + return 0; + } + + if (!isttest(props)) + goto end; + } + } + + if ((orig_len - istlen(parser)) == mpkt->fixed_hdr.remaining_length) + ret = MQTT_VALID_MESSAGE; + end: + return ret; +} + + +/* Parses and validates a MQTT packet + * https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718028 + * + * For now, due to HAProxy limitation, only validation of CONNECT and CONNACK packets + * are supported. + * + * - check FIXED_HDR + * - check remaining length + * - check variable headers and payload + * + * if <mpkt> is not NULL, then this structure will be filled up as well. An + * unsupported packet type is considered as invalid. It is not a problem for now + * because only the first packet on each side can be parsed (CONNECT for the + * client and CONNACK for the server). + * + * Returns: + * MQTT_INVALID_MESSAGE if the message is invalid + * MQTT_NEED_MORE_DATA if we need more data to fully validate the message + * MQTT_VALID_MESSAGE if the message looks valid + */ +int mqtt_validate_message(const struct ist msg, struct mqtt_pkt *mpkt) +{ + struct ist parser; + struct mqtt_pkt tmp_mpkt; + int ret = MQTT_INVALID_MESSAGE; + + if (!mpkt) + mpkt = &tmp_mpkt; + memset(mpkt, 0, sizeof(*mpkt)); + + parser = msg; + if (istlen(msg) < MQTT_MIN_PKT_SIZE) { + ret = MQTT_NEED_MORE_DATA; + goto end; + } + + /* parse the MQTT fixed header */ + parser = mqtt_read_fixed_hdr(parser, mpkt); + if (!isttest(parser)) { + ret = MQTT_INVALID_MESSAGE; + goto end; + } + + /* Now parsing "remaining length" field */ + parser = mqtt_read_varint(parser, &mpkt->fixed_hdr.remaining_length); + if (!isttest(parser)) { + ret = MQTT_INVALID_MESSAGE; + goto end; + } + + if (istlen(parser) < mpkt->fixed_hdr.remaining_length) + return MQTT_NEED_MORE_DATA; + + /* Now parsing the variable header and payload, which is based on the packet type */ + switch (mpkt->fixed_hdr.type) { + case MQTT_CPT_CONNECT: + ret = mqtt_parse_connect(parser, mpkt); + break; + case MQTT_CPT_CONNACK: + ret = mqtt_parse_connack(parser, mpkt); + break; + default: + break; + } + + end: + return ret; +} |