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Return to Open DMR Terminal Protocol.
Open DMR Terminal Protocol is a new interface of BrandMeister DMR Server. This link provides light access for IP-based terminals. It's designed to cover many specific requirements such as:
This is incomplete version of specification!
The protocol is based on out Rewind Protocol and very close to our [Simple Application Protocol].
See https://github.com/BrandMeister/DigestPlay/tree/ODMRTP as a example how to connect and send audio.
Rewind is our under-layer protocol required for communication with BrandMeister DMR Server. It is based on UDP. Byte-order is LE.
Note: protocol uses two sequence counters. One for routine messages and another one for real-time data (from REWIND_TYPE_DMR_DATA_BASE to REWIND_TYPE_DMR_AUDIO_FRAME). For real-time data you also should set flag REWIND_FLAG_REAL_TIME_1.
Protocol definition header is now available here
Keep-alive messages should be sent by client every 5 seconds. struct RewindVersionData should follow after Rewind header.
Server respond to this message with the same type but without content (just header).
Simple message to close connection, has no parameters and confirmations.
There is no special login message, new connection should be established by REWIND_TYPE_KEEP_ALIVE. REWIND_TYPE_CHALLENGE will be send by BrandMeister Server when it detects new connection. The parameter of this message is salt value (please check example bellow).
The client sends this message upon receiving message REWIND_TYPE_CHALLENGE. The response parameter is the value of calculating an SHA-256 hash function on the salt value (from the challenge message) concatenated with the user's Brandmeister password, resulting in a 32-byte hash value. Note that the Remote ID value sent in the RewindVersionData structure is the DMR ID associated with this password. That DMR ID must not include the two-digit suffix commonly used for hotspots.
The server responds to a successful authentication with an empty message of type REWIND_TYPE_KEEP_ALIVE. Unsuccessful authentications receive no response.
Some kind of debugging extension. This message will be send by BrandMeister Server. Parameter of message is UTF-8 encoded text (please check example bellow).
Use this message to drop incoming call from the server. Message has no content.
To simplify the process of administration and reduce amount of administrative work an application could make subscription to DMR data by itself immediately after authentication procedure. struct RewindSubscriptionData should follow after Rewind header.
On success BrandMeister Server will respond with REWIND_TYPE_SUBSCRIPTION without content.
You can make several subscriptions for connection. Subscription procedure is optional, all routing stuff can be done by LUA on the server side.
This message cancels subscriptions created by REWIND_TYPE_SUBSCRIPTION.
This message has two options:
On success BrandMeister Server will respond with REWIND_TYPE_CANCELLING without content.
This message switches connection mode to stand-by mode if connection is already configured to support FCM push messages. After this message will send all following messages via push channel unless terminal send REWIND_TYPE_KEEP_ALIVE and authenticate. Message has no contents. BM answers with REWIND_TYPE_TERMINAL_IDLE with no contents as well.
This message should be sent by application when it wants to register FCM push channel.
Message should pass the data in following format:
[length of URL, WORD LE][URL of TokenService, ASCII][zerro, BYTE][length of token, WORD LE][device token, ASCII][zerro, BYTE]
Please read details about TakenService at Open DMR Terminal Protocol/Push Service
On success BrandMeister Server will respond with REWIND_TYPE_TERMINAL_ATTACH without content.
This message should be sent by application when it wants to de-register FCM push channel. Message has no contents. BM answers with REWIND_TYPE_TERMINAL_DETACH with no contents as well.
This message will be sent by server (mostly via push) when BrandMeister Core restarts. Application should reconnect to the server and re-subscribe all required subscriptions. Message has no contents.
This is a base number for a group of messages. as follows:
This is DMR Voice Header (Group Voice Channel User (Grp_V_Ch_Usr) LC PDU, which encodes the destination talkgroup and the originating station DMR ID. See ETSI TS 102 361-1 §7.1.0 for the general layout, and ETS TS 102 361-2 §7.1.1 Table 7.1 for a description of the data fields. The basic layout of the 12-byte header is as follows:
The transmission terminator. No content is required or sent. (Note that this constant is not defined in the header file below, but is present in the data stream.)
Both messages may be sent several times (2-3 times with the same sequence number) to ensure successful delivery. (Note, this repetition has been observed in real-world ODTP data streams for the Voice Terminator but not the Voice Header.)
This message should contain triple AMBE frames of mode 33. Each of 9 bytes, 27 bytes total.
This message contains value of LC (10 bytes), which can be transferred via embedded signalling during voice call. Suitable to transfer Talker Alias and in-call GPS.
Message responds to message delivery (please check struct RewindTextMessageData).
Message indicates the status of message delivery (please check struct RewindTextMessageStatus). Should be used only in case of private message!
This message should be sent by terminal to server and should indicate current terminal position (please check struct RewindLocationReport).
This message should be sent by server to terminal to initiate one short or periodical reports (please check struct RewindLocationRequest).
#ifndef REWIND_H #define REWIND_H #include <stdint.h> #include <netinet/in.h> #ifdef __cplusplus extern "C" { #endif #pragma pack(push, 1) #define REWIND_KEEP_ALIVE_INTERVAL 5 #define REWIND_SIGN_LENGTH 8 #define REWIND_PROTOCOL_SIGN "REWIND01" #define REWIND_CLASS_REWIND_CONTROL 0x0000 #define REWIND_CLASS_SYSTEM_CONSOLE 0x0100 #define REWIND_CLASS_SERVER_NOTICE 0x0200 #define REWIND_CLASS_DEVICE_DATA 0x0800 #define REWIND_CLASS_APPLICATION 0x0900 #define REWIND_CLASS_TERMINAL 0x0a00 #define REWIND_CLASS_KAIROS_DATA (REWIND_CLASS_DEVICE_DATA + 0x00) #define REWIND_CLASS_HYTERA_DATA (REWIND_CLASS_DEVICE_DATA + 0x10) #define REWIND_TYPE_KEEP_ALIVE (REWIND_CLASS_REWIND_CONTROL + 0) #define REWIND_TYPE_CLOSE (REWIND_CLASS_REWIND_CONTROL + 1) #define REWIND_TYPE_CHALLENGE (REWIND_CLASS_REWIND_CONTROL + 2) #define REWIND_TYPE_AUTHENTICATION (REWIND_CLASS_REWIND_CONTROL + 3) #define REWIND_TYPE_REDIRECTION (REWIND_CLASS_REWIND_CONTROL + 8) #define REWIND_TYPE_REPORT (REWIND_CLASS_SYSTEM_CONSOLE + 0) #define REWIND_TYPE_BUSY_NOTICE (REWIND_CLASS_SERVER_NOTICE + 0) #define REWIND_TYPE_ADDRESS_NOTICE (REWIND_CLASS_SERVER_NOTICE + 1) #define REWIND_TYPE_BINDING_NOTICE (REWIND_CLASS_SERVER_NOTICE + 2) #define REWIND_TYPE_EXTERNAL_SERVER (REWIND_CLASS_KAIROS_DATA + 0) #define REWIND_TYPE_REMOTE_CONTROL (REWIND_CLASS_KAIROS_DATA + 1) #define REWIND_TYPE_SNMP_TRAP (REWIND_CLASS_KAIROS_DATA + 2) #define REWIND_TYPE_PEER_DATA (REWIND_CLASS_HYTERA_DATA + 0) #define REWIND_TYPE_RDAC_DATA (REWIND_CLASS_HYTERA_DATA + 1) #define REWIND_TYPE_MEDIA_DATA (REWIND_CLASS_HYTERA_DATA + 2) #define REWIND_TYPE_CONFIGURATION (REWIND_CLASS_APPLICATION + 0x00) #define REWIND_TYPE_SUBSCRIPTION (REWIND_CLASS_APPLICATION + 0x01) #define REWIND_TYPE_CANCELLING (REWIND_CLASS_APPLICATION + 0x02) #define REWIND_TYPE_SESSION_POLL (REWIND_CLASS_APPLICATION + 0x03) #define REWIND_TYPE_DMR_DATA_BASE (REWIND_CLASS_APPLICATION + 0x10) #define REWIND_TYPE_DMR_AUDIO_FRAME (REWIND_CLASS_APPLICATION + 0x20) #define REWIND_TYPE_DMR_EMBEDDED_DATA (REWIND_CLASS_APPLICATION + 0x27) #define REWIND_TYPE_SUPER_HEADER (REWIND_CLASS_APPLICATION + 0x28) #define REWIND_TYPE_FAILURE_CODE (REWIND_CLASS_APPLICATION + 0x29) #define REWIND_TYPE_TERMINAL_IDLE (REWIND_CLASS_TERMINAL + 0x00) #define REWIND_TYPE_TERMINAL_ATTACH (REWIND_CLASS_TERMINAL + 0x02) #define REWIND_TYPE_TERMINAL_DETACH (REWIND_CLASS_TERMINAL + 0x03) #define REWIND_TYPE_TERMINAL_WAKEUP (REWIND_CLASS_TERMINAL + 0x04) #define REWIND_TYPE_MESSAGE_TEXT (REWIND_CLASS_TERMINAL + 0x10) #define REWIND_TYPE_MESSAGE_STATUS (REWIND_CLASS_TERMINAL + 0x11) #define REWIND_TYPE_LOCATION_REPORT (REWIND_CLASS_TERMINAL + 0x20) #define REWIND_TYPE_LOCATION_REQUEST (REWIND_CLASS_TERMINAL + 0x21) #define REWIND_FLAG_NONE 0 #define REWIND_FLAG_REAL_TIME_1 (1 << 0) #define REWIND_FLAG_REAL_TIME_2 (1 << 1) #define REWIND_FLAG_BUFFERING (1 << 2) #define REWIND_FLAG_DEFAULT_SET REWIND_FLAG_NONE #define REWIND_ROLE_REPEATER_AGENT 0x10 #define REWIND_ROLE_APPLICATION 0x20 #define REWIND_SERVICE_CRONOS_AGENT (REWIND_ROLE_REPEATER_AGENT + 0) #define REWIND_SERVICE_TELLUS_AGENT (REWIND_ROLE_REPEATER_AGENT + 1) #define REWIND_SERVICE_SIMPLE_APPLICATION (REWIND_ROLE_APPLICATION + 0) #define REWIND_SERVICE_OPEN_TERMINAL (REWIND_ROLE_APPLICATION + 1) #define REWIND_OPTION_SUPER_HEADER (1 << 0) #define REWIND_OPTION_LINEAR_FRAME (1 << 1) #define REWIND_CALL_LENGTH 10 // Keep-Alive struct RewindVersionData { uint32_t number; // Remote ID uint8_t service; // REWIND_SERVICE_* char description[0]; // Software name and version }; // Redirection union RewindAddress { struct in_addr v4; struct in6_addr v6; }; struct RewindRedirectionData { uint16_t family; // Address family: AF_INET, AF_INET6 or AF_UNSPEC uint16_t port; // UDP port union RewindAddress address; // }; // Generic Data Structures struct RewindAddressData { struct in_addr address; uint16_t port; }; struct RewindBindingData { uint16_t ports[0]; }; // Simple Application Protocol struct RewindConfigurationData { uint32_t options; // REWIND_OPTION_* }; struct RewindSubscriptionData { uint32_t type; // SESSION_TYPE_* uint32_t number; // Destination ID }; struct RewindSessionPollData { uint32_t type; // TREE_SESSION_* uint32_t flag; // SESSION_FLAG_* uint32_t number; // ID uint32_t state; // }; struct RewindSuperHeader { uint32_t type; // SESSION_TYPE_* uint32_t sourceID; // Source ID or 0 uint32_t destinationID; // Destination ID or 0 char sourceCall[REWIND_CALL_LENGTH]; // Source Call or zeros char destinationCall[REWIND_CALL_LENGTH]; // Destination Call or zeros }; // Open DMR Terminal struct RewindTextMessageData { uint32_t reserved; // Reserved for future use, should be 0 uint32_t sourceID; // Source ID uint32_t destinationID; // Destination ID uint16_t option; // CHEAD_GROUP_DESTINATION = 128, private message = 0 uint16_t length; // Length of message in bytes uint16_t data[0]; // Message text, UTF-16LE }; struct RewindTextMessageStatus { uint32_t reserved; // Reserved for future use, should be 0 uint32_t sourceID; // Source ID uint32_t destinationID; // Destination ID uint8_t status; // STATUS_TYPE_*, corresponds to status field of DMR response header of data call }; struct RewindLocationRequest { uint32_t reserved; // Reserved for future use, should be 0 uint32_t type; // LOCATION_REQUEST_SHOT = 0, LOCATION_REQUEST_TIMED_START = 1, LOCATION_REQUEST_TIMED_STOP = 2 uint32_t interval; // Interval of timed report in seconds }; struct RewindLocationReport { uint32_t reserved; // Reserved for future use, should be 0 uint32_t format; // LOCATION_FORMAT_NMEA = 0 uint16_t length; // Length of message in bytes char data[0]; // NMEA position data }; // Rewind Transport Layer struct RewindData { char sign[REWIND_SIGN_LENGTH]; uint16_t type; // REWIND_TYPE_* uint16_t flags; // REWIND_FLAG_* uint32_t number; // Packet sequence number uint16_t length; // Length of following data uint8_t data[0]; // }; #pragma pack(pop) #ifdef __cplusplus } #endif #endif