oscam-2.26.01-11942-802-with-Advanced-fake-dcw-detection/Distribution/doc/txt/oscam.server.txt

oscam.server(5) 				       File Formats Manual					  oscam.server(5)



NAME
       oscam.server - reader configuration file for OSCam

SYNOPSIS
       The server configuration file for OSCam contains reader parameters.  sections in oscam.server are recurring (more than one
       reader possible).  At least one [reader] section is required.

DESCRIPTIONS
   The [reader] section
       label = name
	  name for reader, required

       enable = 0|1
	  0 = deactivate reader, default:1

       description = text
	  description of reader, default:none

       protocol = reader protocol
	  reader protocol, required:

	   camd35|cs357x
	   cccam
	   cs378x
	   constcw
	   gbox
	   ghttp
	   internal
	   mouse
	   mp35
	   newcamd|newcamd525
	   newcamd524
	   pcsc
	   radegast
	   scam
	   sc8in1
	   serial
	   smargo
	   smartreader

       device = [<readertype>;]serial:serialnum|bus:device|
		<device|device:slot>|
		<ip|hostname>,<port>[,<lport>]|
		<ip|hostname>,<gboxpport>|
		<ip|hostname>,<scamport>|
		pcsc|
		<0|1>>|
		constantcw
	  define local or remote reader

	   readertype:	set reader type

			  SR:	    Smartreader+ (default)
			  Infinity: Infinity USB
			  TripleP1: Smargo Triple Reader port 1
			  TripleP2: Smargo Triple Reader port 2
			  TripleP3: Smargo Triple Reader port 3

	   bus:device:	bus name and device name of the Smartreader+ or
			Infinity USB (get the names with lsusb 'Bus'
			and 'Device')

	   serialnum:	serial number of reader of the Smartreader+ or
			Infinity USB

	   device:	device name

	   device:slot: device name and slot number sc8in1 [1-8]
			(only one SC8in1 reader supported)

	   ip|hostname: IP address or host name

	   port:	TCP/IP port

	   lport:	remapping to local TCP/IP port

	   gboxpport:	UDP port for remote gbox peer

	   PCSC:	number of PCSC reader, starting with 0

	   0|1: 	for Coolstream HD-1 STB only: select reader 0 or
			reader 1

	   constantcw:	constant CW file name

	  constant CW file format:

	  · standard format

	     CAID:Provider ID:Service ID:PMT ID:ECM PID::key (16 Bytes seperated by spaces)

	     example: 1234:123456:1234:2345:3456::00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F

	  · extended OScam format

	     CAID:Provider ID:Service ID:PMT ID:ECM PID:Video PID:key (16 Bytes seperated by spaces)

	     example: 1234:123456:1234:2345:3456:7890:00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F

       detect = [!]CD|[!]DSR|[!]CTS|[!]RING|[!]NONE|[!]gpio[1-7]
	  status detect of card, NONE = no detection, ! = inverse, default:CD

       cardmhz = mhz
	  set standard SC frequency in units of 10 kHz, for Irdeto SC set to 600 mhz, for Dreambox DM800 /  DM8000  set  to  2700
	  mhz,	for  Dreambox  DM7025  set  to	8300 mhz, for older PowerPC Dreambox STBs set to 3150 mhz, refer to OVERCLOCKING,
	  default:357

       mhz = frequency
	  set reader frequency in units of 10 kHz, if mhz > cardmhz you are in overclocking mode. For Smargo readers and Dreambox
	  internal readers frequency will be set by ATR if autospeed is set to 1, default:357

       autospeed = 0|1
	  1  = sets mhz according to ATR. Currently only used for smartreader, Smargo and Dreambox internal protocol, other read‐
	  ers will be adapted to use this parameter as well. If You wan't to overclock you're card set it to 0, default:1

       deprecated = 0|1
	  First the SC will be initialized in normal mode. If it fails, the SC will be automatically reverted to deprecated mode,
	  so that the SC speed will not be changed and the communication will remain on normal ATR speed of 9600 baud.

	  1 = use deprecated SC mode only, default:0

       mode = mode
	  set card init mode for AzBox internal reader, default:none

       smargopatch = 0|1
	  1 = enable workaround for Smartreader+ reader until native mode works, default:0

       sc8in1_dtrrts_patch = 0|1
	  1 = enable fix for SC8in1/MCR DTR/RTS kernel bug, default:0

       use_gpio = 0|1
	  1 = use GPIO to init the reader. This needs to be set on WRT54G router, default:0

	ins2e06 = payload
	  add check control for pin payload (4 hex bytes) for NDS Videoguard 2 SCs, valid for physical readers only, default:none

       ins7e = payload
	  add 26 hex-bytes payload for NDS Videoguard 2 SCs, valid for physical readers only, default:none

       ins7e11 = TA1 byte
	  set TA1 byte for NDS Videoguard 2 SCs, valid for physical readers only, default:none

       fix07 = 0|1
	  1=enable 0x07 fix for NDS Videoguard 2 SCs, valid for physical readers only, default:1

       force_irdeto = 0|1
	  1 = force Irdeto SC mode even if RSA key is set for Irdeto tunnled Nagravion SC, default:0

       nagra_read = 0|1|2
	  read Nagravison records (on NCMED SCs only):

	   0 = disabled (default)
	   1 = read all records with expired rights
	   2 = read records with valid rights only

       rsakey = RSA key
	  RSA key for Nagravision/Tiger SCs, CAM key data for Irdeto SCs, Conax SCs, default:none

       deskey = DES key
	  DES key for Viaccess SCs post-processing, default:none

       boxkey = box key
	  box key for Nagravision SCs / CAM key for Irdeto SCs

       pincode = pincode
	  pincode for Conax, Cryptoworks and Viaccess SCs, default:none

       fix9993 = 0|1
	  1 = enable fix for 9993 error with CAID 0919 Videoguard SCs, default:0

       readtiers = 0|1|2
	  method to get tiers of NDS Videoguard SCs:

	   0 = disabled (default)
	   1 = ins70 method
	   2 = ins76 method

       boxid = NDS box ID
	  NDS receiver box id

       ndsversion = 0|1|12|2
	  set NDS Videoguard version

	    0 = autodetection (default)
	    1 = NDS Videoguard 1
	   12 = NDS Videoguard 1+
	    2 = NDS Videoguard 2

       aeskeys	=  CAID #0@provid:AES key #0 CAID #0[,AES key #1 CAID #0],...[;CAID #1@provid:AES key #0 CAID #1[,AES key #1 CAID
       #1],...]...
	  multiple 16 bytes AES keys for Viaccess SCs (the used postprocessing AES key is specified through the D2  nano  of  the
	  ECM)

	  special AES keys:

	   00 = do not return any CW, no AES key specified
	   FF = return CW received from the S, no AES key specified

	  example:

	   aeskeys														=
	  0500@012345:000102030405060708090a0b0c0d0e0f;0500@543210:000102030405060708090a0b0c0d0e0f,0,0f0e0d0c0b0a090807060504030201

       key = DES key
	  key for newcamd remote reader encryption

       user = name
	  user for remote reader

       password = password
	  password for remote reader

       services = [!]services[,[!]<services>]...
	  reader [de]assignment to service group, default=none

       caid = <CAID>[&<mask>][:<target CAID>][,<CAID>[&<mask>][:target <CAID>]]...
	  define and mapping of CAIDs for reader, default:all CAIDs with mask FFFF

	  example: caid = 0100
		   caid = 0200&ffee:0300
		   caid = 0400&ff00:0500,0600
		   caid = 0702,0722
		   caid = 0702&ffdf (shortcut for the example above)

       ident = <CAID>:<provid>[,provid]...[;<CAID>:<provid>[,provid]...]...
	  set CAID and SC specific ident for reader

	  example: ident = 0100:123456,234567;0200:345678,456789

       class = [!]class[,[!]class]...
	  set SC specific class in hex for reader

	  example: class = 01,02,!1b,!2b

       chid = CAID:ChID
	  set SC specific ChIDs for reader, default:none

	  example: chid = 0100:12

       group = 1..64[,1..64]...
	  reader assingment to groups, default:none, required

       audisabled = 0|1
	  1 = exclude reader from auto AU, default:0

       auprovid = provider ID
	  set provider ID to use the right reader for auto AU

	  example: auprovid = 123456

       disableserverfilter = 0|1
	  1 = ignore caid and provid settings of reader due faulty clients, default:0

       inactivitytimeout = seconds
	  inactivity  timeout  for  all  TCP  based  remote readers, -1 = reconnect on network failure for newcamd, even in idle,
	  default:0

       reconnecttimeout = seconds
	  reconnect if missing answers from a remote reader, default:30

       reconnectdelay = milli-seconds
	  set maximum TCP connection block delay, default:60000

       connectoninit = 0|1
	  1 = allow newcamd connections to be established on startup although there isn't a request yet, default:0

       keepalive = 0|1
	  1 = allow cs378x TCP socket to be always connected, default:0. Always on if cacheex reader type.

       fallback = 0|1
	  1 = define reader as fallback, standard and fallback reader must have the same group, default:0

       fallback_percaid = <CAID>[:<ident>[,ident]]...[;<CAID>[:<ident>[,ident]]...]....
	  use reader as fallback for defined CAIDs only, two-digit wildcard CAIDs are possible, fallback_percaid overrules  fall‐
	  back, default:none

	   example: fallback_percaid = 1234:234567;89;10:345678

       emmcache = usecache,rewrite,logging
	  set EMM cache of local reader:

	   usecache = 0|1||2

		      0 = EMM caching disabeld (default)
		      1 = enable EMM caching and save EMMs to file after
			  stopping OSCam
		      2 = enable EMM caching, don't save EMMs to file
			  after stopping OSCam

	   rewrite  = determines how often one and the same EMM is
		      written, default:0

	   logging  = EMM logging mask:

		       0 = EMM logging disabled (default)
		       1 = logging EMM errors
		       2 = logging written EMMs
		       4 = logging skipped EMMs
		       8 = logging blocked EMMs
		      16 = logging disabled AU

	   example: emmcache = 1,3,2

       cacheex = 0|1|2|3
	  set cache exchange mode

	   0: disable cache exchange mode (default)
	   1: enable cache exchange pull mode
	   2: enable cache exchange push mode for camd 3.5x / 3.57x and CCcam
	      protocol
	   3: enable reverse cache exchange push mode for camd 3.5x / 3.57x
	      and CCcam protocol

	  Identical cache exchange modes must be set on local OSCam server and remote OSCam user asccount.

	  Please consider memory consumption.

       cacheex_maxhop = hops
	  define maximum hops for cache exchange, default=10

       csp_ecm_filter = [caid][&mask][@provid][$servid],n
	  cache exchange incoming ECM filter setting (mode 2 only) for Cardservproxy, default:none

       cacheex_drop_csp = 0|1
	  1 = drop incoming Cardservproxy cache (mode 2 only), detection is zero ecmd5, default:0

       cacheex_allow_request = 0|1
	  1 = allow incoming ECM request (mode 2), default:1

       cacheex_allow_filter = 0|1
	  1 = allow cache exchange filter (for cache exchange mode 2 only), default:1

       cacheex_block_fakecws = 0|1
	  1 = enable fake DCWs blocking (for cache exchange mode 2 only), get fake DCWs form oscam.fakecws, default:0

       ecmwhitelist = [CAID[@provid]:]length[,length]...[;[CAID[@provid]:]length[,length]...]...
	  set valid ECM length per CAID and provid in hex, default:none,provid=000000

	  example: ecmwhitelist = 10,20,0a,0b
		   ecmwhitelist = 0100:10,20;0200@123456:0a,4b

	  In normal operation mode this parameter is not required.

       ecmheaderwhitelist = [CAID[@provid]:]header[,header]...[;[CAID[@provid]:]header[,header]...]...
	  set vaild ECM header per CAID and provid in hex, default:none,provid=000000

       ratelimitecm = count
	  number of different SIDs in ECMs allowed for an interval, default:0

       ecmnotfoundlimit = count
	  number of ECMs with "not found" answer until the reader will be restarted, 0 = no limit, default:0

       resetcycle = count
	  number of ECMs until SC reset is performed, 0 = disabled, valid for physical readers only, default:0

       ratelimitseconds = seconds
	  interval for rate limit, default:0

       ecmunique = 0|1
	  1 = enable check for matching ECM hash in ratelimit slot , default:0

       srvidholdseconds  = seconds
	  time to keep service ID in ratelimit slot, during this time checkeding for ecmunique is disbaled, default:0

       cooldown = delay,duration
	   define cooldown:

	   delay:    delay in seconds for which the reader is allowed to do
		     more ECM requests than defined by ecmratelimit,
		     default: none

	   duration: duration in seconds the reader needs to cooldown,
		     default:none

	  ratelimitecm and ratelimitseconds are required

       maxparallel = count
	  maximum number of parallel active services allowed for this reader,
	  0 = unlimited (default). Useful for limiting load on readers with
	  slot restrictions. When the limit is reached, the reader is
	  temporarily skipped and other readers are tried. A service slot
	  expires when no ECM is received within the measured ECM interval
	  plus the paralleltimeout buffer.

	   example: maxparallel = 2

       paralleltimeout = milliseconds
	  timeout buffer in milliseconds added to the measured ECM interval
	  to determine when a service slot expires, default: 1000

	   example: paralleltimeout = 1500

       parallelfactor = factor
	  multiplier for pending slots used during zapping. Pending
	  slots allow temporary capacity overrun while switching channels.
	  Formula: pending_slots = round(maxparallel * parallelfactor)
	  Supports decimal values (e.g. 1.5 or 2.0), default: 1.5

	  When zapping, new services go to pending slots if active slots
	  are full. Pending are promoted to active when slots free up,
	  or dropped when active services prove they're still running.

	  Set to 0 to disable pending slots (strict limit, may cause
	  black screen when zapping with single reader).

	   example: parallelfactor = 1.5  (with maxparallel=2: 3 pending slots)

       blocknano = nano[,nano]...|all
	  list of EMM-nanos to block (in hex w/o 0x) or all EMM-nanos, valid for physical readers only, default:none

	   example: blocknano = 45,93,7a,ff
		    blocknano = all

       blockemm-u = 0|1
	  1 = block unique EMMs, default:0

       blockemm-s = 0|1
	  1 = block shared EMMs, default:0

       blockemm-g = 0|1
	  1 = block global EMMs, default:0

       blockemm-unknown = 0|1
	  1 = block unknown types of EMMs, default:0

       blockemm-bylen = [length range,length range]...
	  block all types of EMMs by length, default:none

	   example: blockemm-bylen = 1-10,11-

       read_old_classes = 0|1 (Viaccess SCs only)
	  0 = read only active entitlements 1 = read all entitlements (default)

       saveemm-u = 0|1
	  1 = save unique EMMs to log file, default:0

       saveemm-s = 0|1
	  1 = save shared EMMs to log file, default:0

       saveemm-g = 0|1
	  1= save global EMMs to log file, default:0

       saveemm-unknown = 0|1
	  1 = save unknown types of EMMs to log file, default:0

       savenano = nano[,nano]....|all (obsolete)
	  list of EMM-nanos to save (in hex w/o 0x) or all EMM-nanos, only valid for physical readers, default:none

	   example: savenano = 45,93,7a,ff
		    savenano = all

       readnano = [path]filename
	  write  file (usually a copy of a file saved by savenano) to your smartcard, if no path is specified, the specified file
	  is searched for in the configuration directory, only valid for physical readers, default:none

	   example: readnano = write.emm
		    readnano = /var/oscam/write.emm

       dropbadcws = 0|1
	  1 = reject bad CWs, send "not found" instead of bad CWs, default:0

       disablecrccws = 0|1
	  1 = disable CRC for CW, default: 0

	  In normal operation mode this parameter is not required. Parameter is incompatible with DVB standard.

       ident = <CAID1>[:<ident1>[,<ident2>]...][;<CAID2>[:<ident3>[,<ident4>]...]]...
	  use this reader as local in loadbalancer's reader selection, default:none

       lb_whitelist_services = <services>,<services>...
	  reader assignement to service group for channels which may never be  blocked	by  the  loadbalancer  to  the	reader	,
	  default=none

       lb_weight = weight
	  the higher the value the higher the probability for reader selection in load balacing mode, default:100

	   It's an divider for the average responstime.

       lb_force_fallback = 0|1
	  1 = set the reader always as fallaback for load balacing without considering the reader's statistics, default:0

       cccversion = <main version>.<version>.<sub version>
	  set CCcam version, default:none

	  example: cccversion = 1.2.34

       cccmaxhops = hops
	  set CCcam maximum SC distance hops, default:10

	   -1 = disabled
	    0 = remote local SCs only
	    1 = remote local SCs and + 1 hop
	    2 = remote local SCs and + 2 hops
	   and so on

	  After reading this SC hop will be incremented by one.

       ccchop = hop
	  set hop for non CCCam readers, default:0

       cccreshare = hop
	  set reader's CCcam reshare hop, default:0

	   -1 = reshare value off cccam in global config
	    0 = resharing for direct peer only
	    x = resharing for direct peer and share level x

       ccckeepalive = 0|1
	  1 = send keepalive messages to keep connection to remote CCCam server up, default:0

       cccreconnect = timeout
	  reconnect again after ECM request timeout in milli-seconds, default:4000

       cccmindown = number
	  filters all readers with hops smaller than number, default:0

       gbox_reshare = level
	  gbox reshare level of local cards, default:0

       gbox_max_distance = distance
	  maximum distance to receive gbox peer cards, default:2

       gbox_max_ecm_send = number
	  maximum of gbox peers ECMs will be send to, default:3

       use_ssl = 0|1
	  1 = use SSL for ghttp protocol, default:0

OVERCLOCKING
       ·  Dreambox and other internal readers

	  For  Dreambox  and  other internal readers the highest possible clockrate will be auto detected. The mhz parameter lets
	  you override the values chosen by OSCam, if it differs from 357 and 358, but usually you will not  set  any  value  for
	  mhz.

	  For  certain	Dreamboxes  (especially  PPC clones) the default mhz parameter leads to slow ECM times and/or "not found"
	  ECMs. By setting mhz to values like 200, 300, 400, ... 1600 you can find a value that works for your receiver and  your
	  card. The higher the mhz value, the slower the ECM time (strange enough).

	  If  you choose the value too low, your card is not recognized (no ATR or "card not supported"). If you choose the value
	  too high, you get slow ECM times. Our experience is that either no mhz line, or a line mhz = 1000 works best.

       ·  Phoenix / Smartmouse reader

	  Overclocking does not work with Windows and Mac OS X.  Set mhz equivalent to the frequency of the  reader.   OSCam  can
	  not set the frequency of the reader.

       ·  Smargo Smartreader+

	  Use  protocol  =  smargo for the FDDI kernel drivers (no libusb needed) or (not recommended) use protocol = smartreader
	  for OSCam's driver implementation based on libusb.

	  Set the reader frequency with the native Smargo Smartreader+ tool (srp_tools).  If not setting mhz and  cardmhz,  OSCam
	  tries  to  set the baudrate automatically, according to the maximum speed indicated by ATR. Overclocking is possible.

       OSCam  tries  to set the baudrate automatically.  A standard serial port has limited baudrate settings, so SC overclocking
       might not work.	When using a serial reader the best way for overclocking is connecting it to a FTDI based USB  to  serial
       port adapter.

       If  overclocking  does not work, verify the effective baudrate in the logfile.  If it deviates too much from the requested
       baudrate, the SC will not be recognized (no ATR) and the value for mhz should be adjusted again.  The higher the baudrate,
       the more accurate the effective baudrate can be.

CACHE EXCHANGE
       ·  pull mode (on request: cache exchange from remote to local OSCam)

	  ECM  requests  will be forwarded to the remote cache exchange partner. If the CW could not be found in the cache of the
	  remote exchange partner, a not found will be answered. If the CW could not be found in the cache of the remote exchange
	  partner but a pending ECM request is open, the request will be re-initiated after the wait time defined in cacheexwait‐
	  time.

       ·  push mode (continuous: cache exchange from remote to local OSCam)

	  CWs from the remote cache exchange partner will be forwarded to the local cache. Forwarding only works while	the  camd
	  camd 3.5x / 3.57x or CCcam protocol connection between the local and remote OSCam has been established.

       ·  reverse push mode (continuous: cache exchange from local to remote OSCam)

	  CWs  from  the local cache will be forwarded to the remote cache exchange partner. Forwarding only works while the camd
	  camd 3.5x / 3.57x or CCcam protocol connection between the remote and local OSCam has been established.

EXAMPLES
       ·  serial mouse compatible reader

	   [reader]
	   label    = myserialmousereader
	   detect   = cd
	   protocol = mouse
	   device   = /dev/ttyS1
	   group    = 1
	   caid     = 0100
	   services = myservice,!thisservice

       ·  USB mouse compatible reader

	   [reader]
	   label    = myusbmousereader
	   detect   = cd
	   protocol = mouse
	   device   = /dev/ttyUSB0
	   aeskey   = 0102030405060708090a0b0c0d0e0f10
	   group    = 2
	   caid     = 0200

       ·  camd 3.78x reader

	   [reader]
	   label    = mycamd378xreader
	   protocol = cs378x
	   device   = 192.168.0.1,1234
	   user     = user1
	   password = password1
	   group    = 3

       ·  newcamd reader

	   [reader]
	   label    = mynewcamdreader
	   protocol = newcamd
	   key	    = 0102030405060708091011121314
	   device   = 192.168.0.2,2345
	   user     = user2
	   password = password2
	   group    = 4

       ·  CCcam reader

	   [reader]
	   label      = mycccamreader
	   protocol   = cccam
	   device     = 192.168.0.3,3456
	   user       = user3
	   password   = password3
	   group      = 5
	   caid       = 0300,0400,0500
	   cccversion = 1.2.3

       ·  PCSC reader

	   [reader]
	   label    = mypcscreader
	   protocol = pcsc
	   device   = 0
	   aeskey   = 0102030405060708090a0b0c0d0e0f10
	   group    = 6
	   caid     = 0600

       ·  Smargo Smartreader+

	   [reader]
	   label    = mysmartreader
	   protocol = smartreader
	   device   = 001:002
	   aeskey   = 0102030405060708090a0b0c0d0e0f10
	   group    = 7
	   caid     = 0700

       ·  internal reader

	   [reader]
	   label    = myinternalreader
	   protocol = internal
	   device   = /dev/sci0
	   group    = 8
	   caid     = 0800

       ·  sc8in1 reader

	   [reader]
	   label    = mysc8in1reader
	   protocol = sc8in1
	   device   = /dev/ttyUSB0:1
	   group    = 9
	   caid     = 0900

       ·  constant CW

	   [reader]
	   label    = myconstantcw
	   protocol = constcw
	   device   = /var/keys/constant.cw
	   group    = 10

       ·  gbox reader

	   [reader]
	   label    = mygboxreader
	   protocol = gbox
	   device   = 192.168.0.4,45678,56789
	   user     = user4
	   password = password4
	   group    = 11
	   caid     = 1100

SEE ALSO
       list_smargo(1), oscam(1), oscam.ac(5), oscam.cacheex(5), oscam.cert(5), oscam.conf(5), oscam.dvbapi(5), oscam.fakecws(5),
       oscam.guess(5), oscam.ird(5), oscam.provid(5), oscam.ratelimit(5), oscam.services(5), oscam.srvid(5), oscam.srvid2(5),
       oscam.tiers(5), oscam.user(5), oscam.whitelist(5)



														  oscam.server(5)