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|
; This is an advanced configuration example for ODR-DabMux,
; that documents more options that the simple example.mux
; More information about the usage of the tools is available
; in the guide, which can be found on the
; www.opendigitalradio.org website.
;
; The format is called INFO format, and defined by boost property_tree:
; http://www.boost.org/doc/libs/1_41_0/doc/html/boost_propertytree/parsers.html#boost_propertytree.parsers.info_parser
; It consists of six mandatory sections, whose relative order in this
; file are of no importance.
; The general section defines global multiplex parameters.
general {
; the DAB Transmission mode (values 1-4 accepted)
dabmode 1
; the number of ETI frames to generate (set to 0 to get an unlimited number)
nbframes 10
; boolean fileds can accept either false or true as values:
; Enable logging to syslog
syslog false
; Write the SCCA field useful for the Factum ETI analyser
writescca false
; Enable timestamp definition necessary for SFN
; This also enables time encoding using the MNSC and in EDI.
tist false
; On startup, the timestamp is initialised to system time. If you want
; to add an offset, uncomment the following line and give a number
; in seconds.
; tist_offset 0
; The management server is a simple TCP server that can present
; statistics data (buffers, overruns, underruns, etc)
; which can then be graphed a tool like Munin
; The doc/stats_dabmux_multi.py tool is a suitable
; plugin for that. The data fields are documented in doc/STATS.md
; If the port is zero, or the line commented, the server
; is not started.
managementport 12720
}
remotecontrol {
; enable the telnet remote control server on the given port
; This server allows you to read and define parameters that
; some features export. It is only accessible from localhost.
; Set the port to 0 to disable the server
telnetport 12721
; the remote control server makes use of the unique identifiers
; for the subchannels, services and components. Make sure you
; chose them so that you can identify them.
}
; Some ensemble parameters
ensemble {
; Example for Switzerland, with country id=4 and ECC=E1
id 0x4fff ; you can also use decimal if you want
ecc 0xe1 ; Extended Country Code
local-time-offset auto ; autmatically calculate from system local time
; or
;local-time-offset 1 ; in hours, supports half-hour offsets
international-table 1 ; See TS 101 756 clause 5.7
; 1 corresponds to the PTy used in RDS
; 2 corresponds to program types used in north america
; Enable FIG0/7, which specifies that the ensemble is compliant to EN 300 401 version 2.
; For more options see doc/advanced.mux
reconfig-counter hash
; all labels are maximum 16 characters in length
label "OpenDigitalRadio"
; The short label is built from the label by erasing letters, and cannot
; be longer than 8 characters. If omitted, it will be truncated from the
; label
shortlabel "ODR"
; Announcement settings for FIG0/19.
announcements {
test_announcement {
cluster 1
flags {
Traffic true
}
subchannel sub-fu
}
}
}
; Definition of DAB services
services {
; Each service has it's own unique identifier, that is
; used throughout the configuration file and for the RC.
srv-fu {
id 0x4daa
label "Funk"
shortlabel "Fu"
; Programme Type, according to the chosen international-table above.
pty 0
; chose between static and dynamic PTy
; static means the PTy represents to overall genre of the programme.
; dynamic means the PTy follows the various items within a programme.
; Use the RC interface to modify at runtime.
; See EN 300 401 Clause 8.1.5
pty-sd static
language 0
; also supports id
; List of announcement switching flags signalled in FIG 0/18
; This lists all possible announcements. If one is left out, it is disabled.
announcements {
Alarm false
Traffic true
Travel false
Warning false
News false
Weather false
Event false
Special false
ProgrammeInfo false
Sports false
Finance false
; a comma separated list of clusters in which the service belongs to
; cluster id 255 is not specified here and is ignored (for FIG 0/18)
clusters "1,2"
}
}
srv-ri {
; If your ensemble contains a service from another country,
; specify its ECC here. Example is for Italy, country id=5, ECC=E0
id 0x5dab
ecc 0xe0
label "rick"
}
srv-lu {
id 0x4dac
label "Lu"
; pty, language, shortlabel and id can be omitted, and will take default values
}
}
; The subchannels are defined in the corresponding section.
; supported types are : audio, data, enhancedpacket,
; dabplus, packet
;
; Type 'packet' expects to receive data in the format described
; in EN 300 401 Clause 5.3.2.
;
; 'enhancedpacket' mode will calculate FEC for MSC packet mode
; as described in EN 300 401 Clause 5.3.5.
;
; 'data' will read from the source and write it unmodified into
; the MSC.
subchannels {
sub-fu {
type audio
bitrate 128
id 10
; type audio subchannels automatically use
; UEP, unless the bitrate is 8, 16, 24, 40 or 144kbit/s
; (EN 300 401 Clause 6.2.1)
; this can be overridden with the option protection-profile
protection-profile EEP_A
; supported options: UEP (use only for type audio!)
; EEP_A (for all bitrates)
; EEP_B (bitrates multiple of 32kbit/s)
; Set the protection level, possible values depend
; on the protection profile:
; UEP profile: 1 to 5; EEP profiles: 1 to 4
protection 4
; example file input
inputproto file
inputuri "funk.mp2"
nonblock false
}
sub-lu {
type dabplus
bitrate 96
id 3
protection 3
; EXPERIMENTAL!
; Receive STI-D(LI) carried in STI(PI, X) inside RTP using UDP.
; This is intended to be compatible with AVT audio encoders.
; EXPERIMENTAL!
inputproto sti
inputuri "rtp://127.0.0.1:32010"
}
sub-ri {
type dabplus
bitrate 96
id 1
protection 1
; example file input
;inputuri "rick.dabp"
; example zmq input:
; Accepts connections to port 9000 from any interface.
inputproto zmq
inputuri "tcp://*:9000"
; ZMQ specific options, mandatory:
; Maximum size of input buffer, in AAC frames (24ms)
; when this buffer size is reached, some frames will be
; discarded to get the size again below this value.
; As the present implementation discards entire AAC superframes,
; (5 frames = 120ms) the effect will clearly be audible.
zmq-buffer 40
; At startup or after an underrun, the buffer is filled to this
; amount of AAC frames before streaming starts.
zmq-prebuffering 20
; In an ideal scenario, where the input rate exactly corresponds
; to the rate at which the frames are consumed by dabmux, you
; see the buffer level staying around the zmq-prebuffering value.
; Network latency jitter can make it temporarily go lower or higher.
; Encoder clock drift will make the buffer either slowly fill or
; empty, which will create intermittent glitches.
; the ZMQ inputs support encryption using the CURVE method.
; The multiplexer must have a public and a private key, which
; can be shared among several zmq inputs.
;
; each encoder also has a public and private key, and the
; encoder *public* key has to be known to the multiplexer.
; Using this system, the multiplexer can be sure that
; only the encoder possessing the right secret key can
; connect here. This inhibits third parties to hijack the
; input.
; by default, it is disabled, set encryption to 1 to enable
encryption true
; the multiplexer key pair. Keep these secret.
secret-key "keys/mux.sec"
public-key "keys/mux.pub"
; The public key from the encoder. Only the encoder you want
; to accept must know the corresponding secret key.
encoder-key "keys/encoder1.pub"
; key pairs can be generated using the zmqinput-keygen tool.
}
; 'prbs' will generate a pseudorandom bit sequence according to
; ETS 300 799 Clause G.2.1. This is useful for testing purposes and
; measurement of bit error rate.
sub-prbs {
type data
bitrate 16
id 5
protection 3
; Use the default PRBS polynomial.
inputproto prbs
inputuri "prbs://"
; To use another polynomial, set it in the url as hexadecimal
; The default polynomial is G(x) = x^20 + x^17 + 1, represented as
; (1 << 20) + (1 << 17) + (1 << 0) = 0x120001
;inputuri "prbs://:0x120001
}
}
; For now, each component links one service to one subchannel
components {
; the component unique identifiers are used for the RC.
comp-fu {
; specifies audio -or- packet type, defaults to zero when not given
; audio: foreground=0, background=1, multi-channel=2
; data: unspecified=0, TMC=1, EWS=2, ITTS=3, paging=4, TDC=5, IP=59, MOT=60, proprietary=61
type 0
; According to specification, you should not define component labels if
; the service is only used in one component. The service label is sufficient
; in that case.
;label "funk"
;shortlabel "fu"
service srv-fu
subchannel sub-fu
; FIG 0/13 user application was previously configured using the figtype setting, which
; allowed only a single user application.
; Using the 'user-applications' section, several can be defined per component.
; Do not use both figtype and user-applications.
; If both slideshow (TS 101 499) and SPI (TS 102 818) are carried in PAD, the following
; needs to be set for FIG 0/13 to be transmitted correctly.
; The same section is also applicable to packet services.
user-applications {
; Add uaType 0x2 with X-PAD App Type = 12 and empty user application data
userapp "slideshow"
; Add uaType 0x7 with X-PAD App Type = 16 and user application data = "Basic profile"
userapp "spi"
; Broadcast website, add uaType 0x3 and user application data
; 0x01 "basic integrated receiver profile" and
; 0xFF "unrestricted profile"
; Only for packet-mode, not X-PAD.
userapp "website"
}
; Deprecated figtype setting:
figtype 0x2
; defines the User Application Type according to TS 101 756 Table 16:
; 0x2 : MOT Slideshow
; 0x3 : MOT Broadcast Web Site
; 0x4 : TPEG
; 0x5 : DGPS
; 0x6 : TMC
; 0x7 : EPG
; 0x8 : DAB Java
; 0x44a : Journaline
; If not defined, the FIG 0/13 is not transmitted for this component
; for packet components, set the packet address (mandatory)
;address
; Whether to use data groups
;datagroup false
; (defaults to false)
; You should normally set 'datagroup true'
; if your packet mode subchannel is transferring an MOT application such
; as SPI/EPG or Slideshow.
; If you specify the user-application "spi", FIG0/13 will set the user application data to "basic profile"
}
; If a service is used in more than one component, the primary component has to
; be placed above the secondary component(s) to ensure that the SCIdS field of FIG0/8
; is zero for the primary service component. (New in EN 300 401 V2.1.1)
comp-lu {
service srv-lu
subchannel sub-lu
user-applications {
userapp "slideshow"
}
}
comp-ri {
service srv-ri
subchannel sub-ri
user-applications {
userapp "slideshow"
}
}
}
outputs {
; The unique-id can be used by the remote control or the statistics server
; to identify the output
; Important! For real-time operation, you need to have exactly one
; output that applies back-pressure to ODR-DabMux, otherwise it will run
; at the highest possible rate on your system!
;
; For an output to a pipe, the data consumer at the other end of the pipe
; will dictate the multiplexing rate to ODR-DabMux.
;
; If you use the zmq or EDI outputs, you must also enable a simul:// output!
;supported output types for file and fifo outputs are
; raw, framed and streamed
;
; Please see doc/dab_output_formats.txt
;stdout "fifo:///dev/stdout?type=raw"
; Throttle output to real-time (one ETI frame every 24ms)
throttle "simul://"
edi {
; If TIST is enabled, requires leap-second information (see example.mux)
destinations {
; The names you give to the destinations have no meaning,
; but have to be unique. You can give them meaningful names to help
; you identify the outputs.
example_unicast {
; example for unicast EDI over UDP
; for unicast EDI, do not set source
protocol udp
sourceport 13000
destination "192.168.23.23"
port 12000
; For compatibility: if port is not specified in the destination itself,
; it is taken from the parent 'destinations' block.
}
example_multicast {
; example for multicast EDI, the source IP is required
; so that the data is sent on the correct ethernet interface
protocol udp
source "192.168.0.50"
sourceport 13000
destination "232.20.10.1"
port 12000
; The multicast TTL has to be adapted according to your network
ttl 1
}
example_tcp {
; example for EDI TCP server. TCP is reliable, so it is counterproductive to
; use FEC. Using PFT also brings no benefit.
protocol tcp
listenport 13000
; For every connected endpoint, a queue is created. If the queue overflows, we
; assume the endpoint has a problem, and we close the connection. This sets
; the max queue size in number of frames. With PFT disabled, one frame is generated
; every 24ms. With PFT enabled, it depends on fragmentation and FEC settings.
;
; default value: 500 frames, without PFT: 12s worth of EDI data
;max_frames_queued 500
}
}
; The settings below apply to all destinations
; Enable the PFT subsystem. If false, AFPackets are sent.
; PFT is not necessary when using TCP.
enable_pft false
; How many lost fragments can be recovered by Reed-Solomon.
; Requires enable_pft true.
;
; If set to 0, the PFT subsystem will only do Fragmentation and
; Transport, but no Reed Solomon.
; See ETSI TS 102 821, Clause 7 "PFT Layer", Figure 10. ODR-DabMux
; supports "Fragmentation and Transportation" and "Reed-Solomon and
; Transportation".
fec 2
; Spread and interleave fragments from several EDI frames so as to reduce the
; probability of errors when several UDP packets are lost in bursts.
; This comes at the cost of larger overall latency between multiplexing
; and modulation.
;
; Configure the packet spreader/interleaver through a percentage:
; 0% send all fragments at once,
; 100% spread over 24ms,
; >100% spread and interleave. Default 95%
packet_spread 95
; Length of a RS chunk, can be overridden
;default=207
;chunk_len 207
; Save the packets sent over Ethernet to the file ./edi.debug
dump false
; show more debugging info
verbose false
; (optional) set the kind of alignment to use in TAG Packets
; 0: no padding
; 8: pad to eight bytes (default)
; above 8: insert *dmy TAG Item to pad to given size in bytes
;tagpacket_alignment 8
}
; Other outputs:
; ZeroMQ output example, new configuration format. Several
; zeromq blocks can be added here.
; This output does not back-pressure the multiplexer.
;zeromq {
; Listen on all interfaces, on port 9100
;endpoint "tcp://*:9100"
; Transmit backward compatible metadata containing
; EDI time and UTC offset when TIST is enabled.
;
; If TIST is enabled, requires leap-second information (see example.mux)
;
; WARNING! requires ODR-DabMux to be compiled with
; cURL support, and this will enable leap second download
; as for the EDI output!
;allowmetadata true
;}
; Legacy format for ZeroMQ output example. See example.mux
; for newer format.
;zmq "zmq+tcp://*:9100"
; Output ETI-over-TCP. This is like piping a RAW ETI NI data stream
; into a TCP socket, except that the output can handle simultaneous
; connections. Not suitable for SFN use because timestamps are incomplete.
; 0.0.0.0 means "listen on all interfaces"
; This output does not back-pressure the multiplexer.
;tcp "tcp://0.0.0.0:9200"
; UDP send to host:port, simple example for unicast
;net_udp "udp://host:port"
; example with source and TTL specification for multicast
;net_udp "udp://237.10.0.230:7000?src=10.0.1.125&ttl=1"
; RAW for farsync ETI card
;farsync "raw://sync0"
; the output also supports two parameters:
; clocking=master and clocking=slave
;
; and extsyncclock which enables external clock sync. Its value is the
; external clock frequency in Hz.
; Example:
;farsync "raw://sync0?clocking=master&extsyncclock=10000000"
}
|