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docsis-cable-load-monitor

what is it

required hardware

  • basically any linux machine with Linux DVB API (Version 3, Version 5.x) and DVB-C support is suitable
  • to ease things further following components are recommended
    • Raspberry Pi (e.g. Pi 3 Model B, earlier B models may also work)
    • TV stick: Sundtek MediaTV Pro III (DVB-C/T/T2, FM-Radio, AnalogTV)

software installation

  • first install Raspbian on your RPi: Download Raspbian for Raspberry Pi

  • after this the following additional packages are required

      sudo apt install wget gawk lynx dvbsnoop dvbtune dvb-tools rrdtool feh
    
  • Sundtek MediaTV Pro driver installation

      wget http://www.sundtek.de/media/sundtek_installer_181220.135032.sh
      sudo sh sundtek_installer_181220.135032.sh -service -nolirc -noautostart
    
  • finally install the load monitoring tool

      wget https://raw.githubusercontent.com/sp4rkie/docsis-cable-load-monitor/master/CableLoadMonitor.awklib
      wget https://raw.githubusercontent.com/sp4rkie/docsis-cable-load-monitor/master/CableLoadMonitor
      chmod 755 CableLoadMonitor
    

how to use it

  • to execute the program with some reasonable defaults simply type

      sh CableLoadMonitor
    

this first will try to automatically retrieve the downstream channel frequencies in use. Currently this will work only for an Technicolor TC4400 DOCSIS modem. If this is not available you must provide the frequency list manually by means of the '-f' option (see below). The program then will start to meter the cable load. The raw results are shown on the console.

  • alphanumeric support

An example console output for 16 downstream channel frequencies could look like this

    evaluating given downstream channel frequencies
    downstream channel frequencies now in use: [ 16 ]
    546/QAM256 530/QAM256 538/QAM256 554/QAM256 562/QAM256 570/QAM256 578/QAM256
    586/QAM256 594/QAM256 602/QAM256 610/QAM256 618/QAM256 626/QAM256 634/QAM256
    642/QAM256 650/QAM256
    graph display mode: accumulated
    graph destination dir: /root/bin/
    recording RRA step size: 10 seconds
    recording RRA history size: 7 day(s) 0 hour(s) 0 minute(s) 0 second(s) 
    use multiple tuners: in parallel (if applicable)
    dvb bit errors reported: ignored
    dvb failure recovery method: retry
    generating graph for:   1h recording length, size 1500x200 pixels
    generating graph for:   6h recording length, size 1500x200 pixels
    generating graph for:   1d recording length, size 1500x200 pixels
    generating graph for:   7d recording length, size 1500x200 pixels
    tuner(s) found: 2, using thereof: 2

    [...]
    14:42:20:   4967 11105  3123  7030  2538   264  1519   746     2   109     3    82   110     7   873   124  32602
    14:42:45:   5293  3108  2228  2422   649   183   207   298   130    66   274    24     8   141     3   135  15169
    14:43:09:   2779  2298  4882  4094   454   752  2262  1015    16     4    60    55   112    89   166     6  19044
    14:43:35:   2862  6100  2568  2956   253   799  2270  1414   102    32     4   171   902   140   150   119  20842
    14:43:58:   2680  3958  3629  3889  4096   684   224   916    54    60    63    57   137   138   224    52  20861
    14:44:20:   2281  2613  2711  3060   298   871   248   552    62    87    48   176   118   201    48   194  13568
    14:44:43:   2530  4366  2848  2538  1128  1718   324   271    61    64    52    69    69    68    68    78  16252
    14:45:06:   2458  2594  2568  5957   789   982   197  2593   517   169   167   830    48    68   295    41  20273
    14:45:27:   2349  2675  3058  2359   249  1141  3113   162     5     2   178     0     2     3     3     3  15302
    14:45:56:   3357  4917  4457  4228    66   953   367  1460    15    95   110   233   114    56    69    79  20576
    14:46:18:   3530  2727  4061  3941   446   804   852  1671    50   173    98    59    85    71    87    59  18714
    14:46:40:   3697  7030  4993  3417  1838  2124   440   892    90   234    55   160   627   222    57    82  25958
    14:47:02:   2482  2409  2544  3597  2773   866   384   983    55   132    93    74    10     3    17    27  16449
    14:47:24:   2503  2521  2663  5200  5919  1891  5693   672    28    68    57    23   120    58    66   185  27667
    14:47:46:   2416  4156  2259  2253   620   290   405   214    65    24     5    12    19     4     2     2  12746
    14:48:12:   2680  4928  5111  2422   593   448   461  1216     3     3   122   253     4   487   802    64  19597
    14:48:35:   2455  2373  2484  3077   408   445   909   542    63    69    58    56    53    53    60    52  13157
    14:48:58:   3858  2282  2664  2921   411    90   588  2519    68    54    54    42    60    66    53    53  15783
    14:49:20:   2419  2828  2595  3067  1637   271  1059   142    63    57    65    54    83    22   107    13  14482
    14:49:44:   2282  2358  2406  2382    89  2540  2781   505     0  4994  7925  7950  7713  7687  7428  7809  66849
    14:49:59:  11598 10881  9275 11430  9417  7712  8418  8041  7687  8460  8122  7447  7783  8053  7748  7520 139592
    14:50:10:   9621  9088  9753 10042  9245 10599  9860 10204  7593  7339  7844  7710  7863  7612  7854  7783 140010
    14:50:20:  10503  9495 10401  8847  8788  9903  8244  9548  7952  7539  7809  8272  7614  7920  7882  7780 138497
    14:50:31:  10011 11830 14935  8683 16282  7963  7848  7836  7983  8021  7758  7650  7465  7428  7706  7996 147395
    14:50:42:  11242  9518 10743  9981  7722  7783  7729  8040  7614  8021  7952  8214  7710  7952  7920  7520 135661
    14:50:52:  10787  9571  9548  9635  8638  8659  9487  9217  7813  8575  8098  8122  8396  8330  8360  8503 141739
    14:51:03:  11959  9275  9471  9046  8262  8530  7840  7829  7882  7829  7687  7520  7825  7911  7614  7882 134362
    14:51:13:  14395  9138  8770 10152  7783  8058  8053  7901  7520  7924  7882  7593  7339  7984  7593  7958 136043
    14:51:24:   9649 10057  8924  9716  7648  7670  7630  8961  8047  7339  8122  7710  7882  7576  7952  8041 132924
    14:51:34:   9471 11706  8904  9209  8743  9681  7934  1338    93    97    82    55    66    52    67    54  67552
    14:51:53:   3123  2403  2325  3765   871   850   627   760    54    67    63    56    60    95    54    53  15226
    14:52:15:   3696  6388  2454  2375   941  2936   373   354   124    97   457    54    53    52   123    56  20533
    14:52:36:   2311  2549  3390  5807   179   340   310  1382    89   105    56    57    76    82    45    76  16854
    14:52:57:   2839  3380  2295  2582  2139   391   649  1854    54    48     8    58     2     4     5    15  16323
    14:53:22:   3165  3885  3239  2505   806  4014  2204  3472     8   211    37    13     2     2     4    25  23592
    14:53:45:   4004  4415  2405  2711  1264   327   357   175    50    11    16    40   113   105     0    20  16013
    14:54:10:   2334  3164  2311  3349    73   411   944   121    40   106    22     2     7    25    40    34  12983
    14:54:35:   2958  3077  4057  5971  2851  2872  3399  2798     3    15     2    20    28    21     6    28  28106
    14:54:55:   4354  3942  4407  4327  1752  1934  2264  3001     8    21    75    44    15    16    32     9  26201
    14:55:18:   3234  2314  3719  3656   411  1461  1222   941   699  1163  1331  1410  1391  1212  1391   675  26230
    14:55:36:   7724  2853  2482  2490    76   373   983   511     9     0     3    12    33     6    57    23  17635
    14:56:01:   3421  2908  2267  2259   100   573   828  1873    89    16    14    14     9     9     7     6  14393
    14:56:26:   7939  2262  2315  2416   121    90  1098   463   102    32    75    77    25     5     9     4  17033
    [...]

The lines start with the time of measurement followed by 16 values representing the cable load (in kbit/s) for each down channel. The last value is the overall sum. Ideally we would take a snapshot of all 16 values at the same time. Since we can receive only one frequency at a given time we collect the values sequentially. For 16 channels this typically takes about 25s what seems to be acceptable.

UPDATE as of Dec 6, 2019:

We now also support multi tuner configurations. Allowing all tuners found in the system to be used in parallel per default. This substantially speeds up the overall time needed for one scan cycle to complete.

Apart from that we have seen broken hardware is out there wreaking havoc after some thousands of scan cycles. Probably because ordinary DVB-C design is not meant be be used for continued frequency changes. That's why there now also exists an option to force multiple tuners being used in a sequential manner. In the hope this may distribute the load sufficiently among all tuners to work without deficiencies.

  • graphic support

The program also generates some graphics by means of the 'rrdtool' package. You can visualize this issuing

    feh -d --reload 10 CableLoadMonitor.png

The alphanumeric example from above looks like this:

alt text

The metered values start moderately at about 20Mbit/s. At 14:50 a download with 120Mbit/s initiates spanning a period of about 2 minutes. The values peak in 140Mbit/s reflecting the sum of 20Mbit/s + 120Mbit/s.

Example showing a graph with newer theme (24h recording):

alt text

Typical view of graphs spanning 1 hour, 6 hours, 1 day, 7 days:

alt text

alt text

alt text

alt text

  • command line options

      Usage: CableLoadMonitor
        -h                    - print this help and exit
        -f [0-9]+(/[0-9]+)?(:[0-9]+(/[0-9]+)?)*
                              - specify downstream (DS) channel frequencies (in MHz)
        -f                    - force scan of TC4400 for DS channel frequencies
        -c [0-9]+             - create a RRD base with given RRA steps (in secs)
        -r [0-9]+             - recording history size (in secs)
        -t /[0-9a-zA-Z/_-]+   - set destination directory for graph(s)
        -w [0-9]+             - width of generated graph(s)
        -h [0-9]+             - height of generated graph(s)
        -g [0-9]+ [0-9]+      - generate a snapshot with start at and length (in secs)
        -d [01]               - display mode (0 == standard, 1 == accumulated)
        -n [0-9]+             - wait for this many DVB-C tuners minimum to come up
        -m [0-9]+             - use this many DVB-C tuners maximum
        -i                    - ignore errors reported by dvbtune
        -sequential           - force sequential tuning in multi DVB-C tuner mode
        -failreboot           - trigger a reboot on dvbsnoop failure
        -fixbrokenHW          - try to workaround some broken DVB-C tuner hardware
        -v                    - increase logging verbosity
      
      Defaults:
        -c 10           # 10 secs
        -r 604800       # 1 week
        -t $PWD         # write to current working directory
        -w 1400         # graph width
        -h 1000         # graph height
        -d 0            # display mode standard
        -n 1            # wait for 1 DVB-C tuner minimum to come up
        -m 256          # virtually don't limit the amount of DVB-C tuners used
      
      Example 1 (continuously record new data):
      CableLoadMonitor -d 1 -r 3600 -f 626:634/64:642 -i -n 3
       - use display mode 1 (accumulated)
       - keep 3600 secs of data
       - scan 626 MHz, 634 MHz and 642 MHz downstream channel frequencies
       - use QAM64 modulation profile for 634 MHz and QAM256 (the default) otherwise
       - ignore bit errors reported by DVB-C driver
       - wait for at least 3 DVB-C tuners to come up after start (useful after reboot)
       - generate graphs of size 1400x1000 (default)
       - use all DVB-C tuners found in parallel (default)
      
      Example 2 (zoom into and display a single snapshot of existing data):
      CableLoadMonitor -g 27500 1800 -w 1500 -h 800 -t /tmp
       - extract a snapshot of 1800 secs length starting 27500 secs in the past
       - generate graph of size 1500x800
       - write graph to /tmp
    

files

  • some files are created in the directory where the tool resides. You may change the directory by means of the '-t' option (see above).

  • graphs

    the program continuously generates graphs depending on the chosen recording length

      CableLoadMonitor_1h.png
      CableLoadMonitor_6h.png
      CableLoadMonitor_1d.png
      CableLoadMonitor_7d.png
    

    you can easily change this behavior with a small modification. Please be aware that this could void your warranty:-) For further information please have a look at the configuration hints in the tool.

  • round robin data base

    when initially called with new parameters a round robin data base file

      CableLoadMonitor.rrd
    

    is created to hold all the measurement values. For further information please have a look at About RRDtool

  • configuration

    when initially called with new parameters a configuration file

      CableLoadMonitor.cfg
    

    is created to permanently save meta data like frequencies, modulation profiles et al. This helps to identify the units of saved values in the round robin data base. If parameters are changed incompatibly to the current data base a backup of CableLoadMonitor.cfg and CableLoadMonitor.rdd is created automatically before the new parameters come into effect. So you may revive previous setups after stopping the tool. As long as you copy back older versions of both CableLoadMonitor.cfg and CableLoadMonitor.rdd consistently.

  • diagnosis

    the program logs all activity to the file

      CableLoadMonitor.log
    

    this will be the first place to look at if something went wrong.

systemd integration

  • execute all the following as user root

  • for the templates provided to work the above installation must go to /root/bin/ directory

  • install these additional files on your machine

      wget https://raw.githubusercontent.com/sp4rkie/docsis-cable-load-monitor/master/cableloadmonitor -O /root/bin/cableloadmonitor
      wget https://raw.githubusercontent.com/sp4rkie/docsis-cable-load-monitor/master/cableloadmonitord.service -O /etc/systemd/system/cableloadmonitord.service
      chmod 755 /root/bin/cableloadmonitor
    
  • adapt options used in cableloadmonitor to your requirements

  • enable and start service

      systemctl daemon-reload
      systemctl enable cableloadmonitord
      systemctl start cableloadmonitord
    

other tools

  • a screen scraper tool is provided to allow simple monitoring of your TC4400 DOCSIS Cable Modem per cronjob

  • download

      wget https://raw.githubusercontent.com/sp4rkie/docsis-cable-load-monitor/master/scan_tc4400
      chmod 755 scan_tc4400
    
  • repeated execution of this tool logs modem status changes between the calls on stdout (tailored to be used as cron job)

  • you may wish to edit some defaults to adapt your specific needs (e.g. exclude correctable errors from being logged)

reference

Auslastung des eigenen Segments ansehen

Auslastung des eigenen Segments ansehen (reloaded)

Installation unter Linux (allgemein)