The W line decides how your local card shall be used and shared on the network, and goes
in cwshare.cfg like this:
W: { 0A 0B 0C } P001 P002 P003 ...
A= Slot number (1 to 8 )
B= How your card shall be used locally (on your own box)
-0= Dont use card
-1= Use card for all Pid's
-2= Use card only for following Pid's
-3= Don't use card for following Pid's
C= How the card shall be shared on the network
-0= Dont share card
-1= Share all Pid's on card
-2= Share only following Pid's on card
-3= Don't share following Pid's on card
P is the Pid's
Example 1: I want my card in slot 1 to be used for all Pid's locally, and to be shared
on the network with all Pid's ( 1FFF means all Pid's):
W: { 01 01 01 } 1FFF
Example 2: I want my card in slot 1 to be used locally for all Pid's on card, and DONT want
it to be shared on the network at all:
W: { 01 01 00 } 1FFF
Example 3: I want my card in slot 1 to be used locally with the following Pids only, and to
be shared on the network too with the following Pid's only:
W: { 01 02 02 } Pid1 Pid2 Pid3 ...
rk, and goes in cwshare.cfg like this:
W: { 0A 0B 0C } P001 P002 P003 ...
Another thing in the cwshare.cfg is the use of the ports.
There is absolutely no need to use a different port locally and remotely.
Both can be the same!
We all want as little ports open as possible, donīt we?
Well you can have lotīs of D lines all using the same Port(s).
GBOX Share/Reshare how is it done.
In the share/reshare concept there are two files we must fill
with the correct parameters
These files are: CWSHARE.CFG and GBOX.CFG
Depending on what gbox type is installed(windows,dream,Linux)
these files are either in the root directory or in VAR/KEYS.
CWSHARE.CFG
M:
M: { ipadress(alias) { password }
Ipadress(alias) can be LAN(10.x.x.x or 192.x.x.x) or WAN( 82.212.50.24 or myip.alias.com)
LAN is used for internal resharing. As an internal ipadress is used it wil only travel over the
local area network.
WAN is for internet sharing, ipadress can be the real adress like 82.x.x.x or a more meaningfull alias.
All internet traffic is encrypted by GBOX so it doesnīt really matter however numbers
are easier decrypted. The use of aliasses is recommended for WAN sharing.
D:
D: {something.dynalias.com { 4525 4526 { FFFF0065 { A5 A5 }}}}
What does this all mean?
1....{something.dynalias.com same as in M line
2................................................{ 4525 4526 myport friendsport
3................................................. ....................{ FFFF0065 password to be used at both ends
4................................................. ..........................................{ A5 A5 }}}} mylevel friendslevel
1 is explained in the M section
2 myport is the transmitting port friendsport is the listening port
2.a as these are Tx and Rx the D line at friends should be { 4526 4525 TX talks to Rx
3 password is in hexadecimal so A...F and 0...9 length must be 8
3.a never tried it but I believe it also has to be 4 characters and 4 digits
3.b uppercase lowercase distinction? Canīt tell maybe on a Linux system yes and Windows no
4 mylevel is the share level for LOCAL cards. A local card is a card which is in the ...Dreambox internal card reader slot(sc is the name used in gbox for the internal card rdr)
...friendslevel is the level for VIRTUAL cards. A virtual card is a card shared to you by a peer
4.a Levels are also in hexadecimal and specify the depth of sharing
.....A is used(in the NDS card owners D line to tell GBOX to change the ECM/EMM rate
.....0->9 are used where 0 means your local card is used only to decrypt and canīt be reshared
.....1 means your local card is shared to your friend but he canīt reshare
.....2 means your local card is shared to your friend and he can reshare it to his friends
.....3 same as 2 but the friend friends can reshare to their friends but they canīt reshare
.....4 same as 3 but well think you can figure this out now
.....9 would mean you share your local card to the whole world. DONīT do that!
5 friendslevel same as mylevel but for virtual cards
General remarks:
a level1 at mylevel will be received as an INTERNAL gbox level 0 at the friendslevel
INTERNAL meaning within the programm itself(re-sharing mechanism).
I:
I: { 06 } sets the maximum share depth you want to receive.
..............when set to 2 you will only receive ECM/EMM from peers at distance 2
..............in/decrease this number to get at the optimum number of cards
..............maximum number of cards is 1024 after that I will be set to 3 by the gbox programm
N:
N: { 01 01 00 3F 1500 3000 }
This is a very important parameter. Settings of it is done at byte position
N: { 01 is the first byte
Can be set to 00 every EMM is handled once only whether it opens the channel or not
......................01 EMM is repeated
N: { xx 01 is the second byte
Restart pid on overflow well so be it. Documentation does not say whether it can be set to 00
N: { xx xx 00 third byte
If the firmware of the receiver is capable of recognizing freezes it will reset the ENX and
you donīt have to switch up down a channel to resolve the freeze
N: { xx xx xx 3F fourth byte
This is used to configure what is written in attack.txt./online.log/share.stat
00 write nothing
01 password is wrong will be written in attack.tx
02 ID unknown will be written in attack.tx
04 IP is wrong will be written in attack.tx
08 Port is wrong will be written in attack.tx
20 create online.log come online/offline msgīs
1F all but the come online/oflline msgīs
3F all is written in to the log files
N: { xx xx xx xx 1500 fifth byte
It sets the repeat time for sending ECMīs in milli seconds to the internet.
N: { xx xx xx xx ***x 3000 } sixth byte
Sets the resynchronisation time in milli seconds when internet decoding fails
X:
X: { 10 }
Sets how many cards wil receive a ECM request from you.
This option also influences the number of cards online to you cq channels which decode
W: is used for multicam a card reader device which can contain upto 8 cards
S: is the same as W but W uses pid information S uses sid information
G: is used to exclude cards example is old Irdeto or old Seca1 card
Y:
Y: { AD A7 }
Is used to exclude level 0 cards which canīt be reshared by a server but do count in the
number of cards which is limited to 1024.
AD A7 is the card id to be excluded.
Makes no sense to include these lines in a receiver only set up as a level 0 still decodes the
channels serviced on that card.
This concludes the cwshare.cfg part.
Only those parameters which matter to our setup have been detailed.
Now lets take a look at the gbox.cfg
First let me say something about the F parameter
F is short for MODIFY now the F makes sense to me important things are bold
# gbox config file
# Trace/Debug
# xx yz ; xx=00 no konsole output
# xx yz ; xx=01 konsole output
# xx yz ; y=0 debug output (don't use)
# xx yz ; y=1 no debug output
# xx yz ; z=0 ouput to konsole
# xx yz ; z=1 output to /var/tmp/debug.txt
# xx yz ; z=2 Output to UDP (to capture with gboxt)
Z: { 01 10 } 192.168.1.29 8024
Useful to find what is wrong
# Task type
# 00 ** normal mode gbox mode (no season, use Multicam instead)
# 01 ** Season Emulation in a Irdeto allcam chid 0602 nonZ
# 10 ** Season Emulation in a Irdeto allcam chid 1702 nonZ
# 11 ** Season Emulation in a Irdeto allcam chid 1702 Z
# 12 ** Season Emulation in a Irdeto allcam chid 1722 Z
# 13 ** Season Emulation in a Irdeto allcam chid 1762 Z
# ** *1 Com port to use for season emulatiom (1 or 2)
# ** 0* Use CTS fチr RST detection
# ** 1* Use DCD fチr RST detection
# ** ** 9600 = Baudrate to be used (working only on dbox2)
W: { 00 00 } 9600
# gbox working mode
# 00 pure Emu
# 01 pure SoftCam (when card inside), Emu (when no card inside)
# 02 pure Net Client
# 03 Mixed mode !!!!! always use this !!!!!
G: { 03 }
# Display ECM messages on Konsole
# 00 don't show any ECM's
# 01 show only valid ECM's
# 02 show valid and bad ECM's with complete data display
C: { 00 }
# Display EMM messages on Konsole
# *0 don't show any EMM's
# *1 show only valid EMM's
# *2 show valid and bad EMM's with complete data display
# 1* Log any tier change on PW-Nagra-17xx cards into /var/keys/pwupdate.log
M: { 00 }
# AutoUpdate
# 00 is ignored (default)
# 01 enable AU
# 02 Auto AU !!!!! always use this !!!!!
A: { 02 }
Make sure your card gets its updates
# Key update
# 01 update only new keys, default setting
# 02 update all keys (used for valid PMK checking)
U: { 01 }
# Hash pids
# 00 hash all pids, DO NOT USE THIS OPTION, IT IS ONLY FOR TESTING STUFF
# 01 hash only pids with implemented algos and available keys !!!!! always use this !!!!!
H: { 01 }
# Key files folder
# 00 keyfiles in /var/keys
# 01 keyfiles in /var/tmp
T: { 01 }
# On Screen Display for the Multysystemcam on com1/com2
# 00 No OSD (default)
# 01 display Smartcard messages in Neutrino
# 02 display Smartcard messages in Neutrino new nhttpd format
# 03 display Smartcard messages in Enigma
# mypass (use user=root and pass=mypass for nhttpd)
O: { 01 } 192.168.1.51
# Logger and NET-mode UDP port Init
# 00 do not init UDP port
# 01 Init UDP port for IP, port, UDP
L: { 00 } 192.168.1.29 8017
# demux, multicam/comport configuration
# *x ** ; x = device nummber to be used (0= default)
# D* ** ; force use of /proc/bus/gtx for cw write operations
(in the dbox2 the gbox writes directly the CW's, 00 is the
recommended mode ! No drivers are required) use D* ** ONLY if
you have Problems. 0* ** should be prefered !!!
# F* ** ; write CW's in both devices (used for PVR in STB04*** devices)
# ** y* ; y=0001b (0x1*) use slot1 as Multicam (only on STB04***)
# ** y* ; y=0010b (0x2*) use slot2 as Multicam (only on STB04***)
# ** y* ; y=0011b (0x3*) use slot1 and slot2 as Multicams (only on STB04***)
# ** *z ; z=0001b (0x*1) use com1 as Multicam
# ** *z ; z=0010b (0x*2) use com2 as Multicam
# ** *z ; z=0011b (0x*3) use com1 and com2 as Multicams
# ** yz ; yz=00110011b (0x33) use slot1+slot2+com1+com2 as Multicams
# ** *z ; z=0100b (0x*4) invert CTS detection on com1
# ** *z ; z=1000b (0x* invert CTS detection on com2
# example: yz = 0x0A = 00001010 (use com2 with inverted CTS detection line)
V: { 00 02 }
V: { 00 36 } 00 use slot1/2 as multicams this enables the internal card reader of the Dream
# ================================================== ===========================
# extra options to override default seting in case you expirience Problems,
# normaly these setings are not required.
#
# cpu, api, cw write method
#
# 00 auto
# 01 80X86
# 02 MPC823
# 03 IBM STB04***
# 00 auto
# 01 ibm
# 02 api2
# 03 api3
# 00 cw write style = use internal routine (only dbox2)
# 01 cw write style = CA_SET_DESCR type1 (dbox2, vdr)
# 02 cw write style = CA_SET_DESCR type2
# 03 cw write style = CA_SET_DESCR type3
# 04 cw write style = 16 byte /proc/bus/gtx
# 05 cw write style = 4096 byte /proc/bus/gtx, cw offset=0x04D0
# xx write cw in 1st device with index=xx
# yy write cw in 2nd device with index=yy
# 01 means with .index=0 (default)
# 02 means with .index=1
# 03 means with .index=0 and .index=1
# .. any bitwise combination ...
# FF means with all 8 indexes (0-7)
#J: { 01 00 00 01 01 }
# Files, folders, devices
# folder/device comment
#
#F: { 01 } /var/tmp/pmt.tmp // pmt file
#F: { 02 } /var/tmp/emm.info // key update log file
#F: { 03 } /var/tmp/ecm.info // ecm info file
#F: { 04 } /var/tmp/atack.txt // atack info file
#F: { 11 } /var/keys // folder for config files
#F: { 12 } /var/tmp // folder for temporary file
#F: { 13 } /var/tmp // folder for keyfiles
#F: { 21 } /dev/dvb/adapter0/ca0 // ca device
#F: { 22 } /dev/dvb/adapter0/dvr0 // dvr device
#F: { 23 } /dev/dvb/adapter0/demux0 // demux device
#F: { 31 } /dev/dvb/adapter0/ca1 // second ca device to write cw's (recording)
#F: { 41 } /dev/sci0 // STB04*** slot1
#F: { 42 } /dev/sci1 // STB04*** slot1
#F: { 43 } /dev/tts/0 // rs232 com1
#F: { 44 } /dev/tts/1 // rs232 com2
# For overclocking freaks, Clocking internal STB04*** slots with:
# 1=7.80MHz 2=6.30MHz 3=5.25MHz 4=4.50MHz 5=3.94MHz 6=3.50MHz 7=3.15MHz
# Irdeto works fine on 7.8MHz, all other fine on 6.30MHz or 5.25MHz
# The Dream has not a clean clock signal, some cards that are sensitive will
# refuse to work even on 3.5MHz, thats why 3.15MHz is the default value there.
# On other STB04*** recievers the same cards work with 6.30MHz
#
#F: { 51 } 02 // irdeto
#F: { 52 } 03 // seca
#F: { 53 } 03 // viaccess
#F: { 54 } 03 // nagra
#F: { 55 } 03 // crypto
#F: { 57 } 03 // conax
#F: { 58 } 03 // nds
in cwshare.cfg like this:
W: { 0A 0B 0C } P001 P002 P003 ...
A= Slot number (1 to 8 )
B= How your card shall be used locally (on your own box)
-0= Dont use card
-1= Use card for all Pid's
-2= Use card only for following Pid's
-3= Don't use card for following Pid's
C= How the card shall be shared on the network
-0= Dont share card
-1= Share all Pid's on card
-2= Share only following Pid's on card
-3= Don't share following Pid's on card
P is the Pid's
Example 1: I want my card in slot 1 to be used for all Pid's locally, and to be shared
on the network with all Pid's ( 1FFF means all Pid's):
W: { 01 01 01 } 1FFF
Example 2: I want my card in slot 1 to be used locally for all Pid's on card, and DONT want
it to be shared on the network at all:
W: { 01 01 00 } 1FFF
Example 3: I want my card in slot 1 to be used locally with the following Pids only, and to
be shared on the network too with the following Pid's only:
W: { 01 02 02 } Pid1 Pid2 Pid3 ...
rk, and goes in cwshare.cfg like this:
W: { 0A 0B 0C } P001 P002 P003 ...
Another thing in the cwshare.cfg is the use of the ports.
There is absolutely no need to use a different port locally and remotely.
Both can be the same!
We all want as little ports open as possible, donīt we?
Well you can have lotīs of D lines all using the same Port(s).
GBOX Share/Reshare how is it done.
In the share/reshare concept there are two files we must fill
with the correct parameters
These files are: CWSHARE.CFG and GBOX.CFG
Depending on what gbox type is installed(windows,dream,Linux)
these files are either in the root directory or in VAR/KEYS.
CWSHARE.CFG
M:
M: { ipadress(alias) { password }
Ipadress(alias) can be LAN(10.x.x.x or 192.x.x.x) or WAN( 82.212.50.24 or myip.alias.com)
LAN is used for internal resharing. As an internal ipadress is used it wil only travel over the
local area network.
WAN is for internet sharing, ipadress can be the real adress like 82.x.x.x or a more meaningfull alias.
All internet traffic is encrypted by GBOX so it doesnīt really matter however numbers
are easier decrypted. The use of aliasses is recommended for WAN sharing.
D:
D: {something.dynalias.com { 4525 4526 { FFFF0065 { A5 A5 }}}}
What does this all mean?
1....{something.dynalias.com same as in M line
2................................................{ 4525 4526 myport friendsport
3................................................. ....................{ FFFF0065 password to be used at both ends
4................................................. ..........................................{ A5 A5 }}}} mylevel friendslevel
1 is explained in the M section
2 myport is the transmitting port friendsport is the listening port
2.a as these are Tx and Rx the D line at friends should be { 4526 4525 TX talks to Rx
3 password is in hexadecimal so A...F and 0...9 length must be 8
3.a never tried it but I believe it also has to be 4 characters and 4 digits
3.b uppercase lowercase distinction? Canīt tell maybe on a Linux system yes and Windows no
4 mylevel is the share level for LOCAL cards. A local card is a card which is in the ...Dreambox internal card reader slot(sc is the name used in gbox for the internal card rdr)
...friendslevel is the level for VIRTUAL cards. A virtual card is a card shared to you by a peer
4.a Levels are also in hexadecimal and specify the depth of sharing
.....A is used(in the NDS card owners D line to tell GBOX to change the ECM/EMM rate
.....0->9 are used where 0 means your local card is used only to decrypt and canīt be reshared
.....1 means your local card is shared to your friend but he canīt reshare
.....2 means your local card is shared to your friend and he can reshare it to his friends
.....3 same as 2 but the friend friends can reshare to their friends but they canīt reshare
.....4 same as 3 but well think you can figure this out now
.....9 would mean you share your local card to the whole world. DONīT do that!
5 friendslevel same as mylevel but for virtual cards
General remarks:
a level1 at mylevel will be received as an INTERNAL gbox level 0 at the friendslevel
INTERNAL meaning within the programm itself(re-sharing mechanism).
I:
I: { 06 } sets the maximum share depth you want to receive.
..............when set to 2 you will only receive ECM/EMM from peers at distance 2
..............in/decrease this number to get at the optimum number of cards
..............maximum number of cards is 1024 after that I will be set to 3 by the gbox programm
N:
N: { 01 01 00 3F 1500 3000 }
This is a very important parameter. Settings of it is done at byte position
N: { 01 is the first byte
Can be set to 00 every EMM is handled once only whether it opens the channel or not
......................01 EMM is repeated
N: { xx 01 is the second byte
Restart pid on overflow well so be it. Documentation does not say whether it can be set to 00
N: { xx xx 00 third byte
If the firmware of the receiver is capable of recognizing freezes it will reset the ENX and
you donīt have to switch up down a channel to resolve the freeze
N: { xx xx xx 3F fourth byte
This is used to configure what is written in attack.txt./online.log/share.stat
00 write nothing
01 password is wrong will be written in attack.tx
02 ID unknown will be written in attack.tx
04 IP is wrong will be written in attack.tx
08 Port is wrong will be written in attack.tx
20 create online.log come online/offline msgīs
1F all but the come online/oflline msgīs
3F all is written in to the log files
N: { xx xx xx xx 1500 fifth byte
It sets the repeat time for sending ECMīs in milli seconds to the internet.
N: { xx xx xx xx ***x 3000 } sixth byte
Sets the resynchronisation time in milli seconds when internet decoding fails
X:
X: { 10 }
Sets how many cards wil receive a ECM request from you.
This option also influences the number of cards online to you cq channels which decode
W: is used for multicam a card reader device which can contain upto 8 cards
S: is the same as W but W uses pid information S uses sid information
G: is used to exclude cards example is old Irdeto or old Seca1 card
Y:
Y: { AD A7 }
Is used to exclude level 0 cards which canīt be reshared by a server but do count in the
number of cards which is limited to 1024.
AD A7 is the card id to be excluded.
Makes no sense to include these lines in a receiver only set up as a level 0 still decodes the
channels serviced on that card.
This concludes the cwshare.cfg part.
Only those parameters which matter to our setup have been detailed.
Now lets take a look at the gbox.cfg
First let me say something about the F parameter
F is short for MODIFY now the F makes sense to me important things are bold
# gbox config file
# Trace/Debug
# xx yz ; xx=00 no konsole output
# xx yz ; xx=01 konsole output
# xx yz ; y=0 debug output (don't use)
# xx yz ; y=1 no debug output
# xx yz ; z=0 ouput to konsole
# xx yz ; z=1 output to /var/tmp/debug.txt
# xx yz ; z=2 Output to UDP (to capture with gboxt)
Z: { 01 10 } 192.168.1.29 8024
Useful to find what is wrong
# Task type
# 00 ** normal mode gbox mode (no season, use Multicam instead)
# 01 ** Season Emulation in a Irdeto allcam chid 0602 nonZ
# 10 ** Season Emulation in a Irdeto allcam chid 1702 nonZ
# 11 ** Season Emulation in a Irdeto allcam chid 1702 Z
# 12 ** Season Emulation in a Irdeto allcam chid 1722 Z
# 13 ** Season Emulation in a Irdeto allcam chid 1762 Z
# ** *1 Com port to use for season emulatiom (1 or 2)
# ** 0* Use CTS fチr RST detection
# ** 1* Use DCD fチr RST detection
# ** ** 9600 = Baudrate to be used (working only on dbox2)
W: { 00 00 } 9600
# gbox working mode
# 00 pure Emu
# 01 pure SoftCam (when card inside), Emu (when no card inside)
# 02 pure Net Client
# 03 Mixed mode !!!!! always use this !!!!!
G: { 03 }
# Display ECM messages on Konsole
# 00 don't show any ECM's
# 01 show only valid ECM's
# 02 show valid and bad ECM's with complete data display
C: { 00 }
# Display EMM messages on Konsole
# *0 don't show any EMM's
# *1 show only valid EMM's
# *2 show valid and bad EMM's with complete data display
# 1* Log any tier change on PW-Nagra-17xx cards into /var/keys/pwupdate.log
M: { 00 }
# AutoUpdate
# 00 is ignored (default)
# 01 enable AU
# 02 Auto AU !!!!! always use this !!!!!
A: { 02 }
Make sure your card gets its updates
# Key update
# 01 update only new keys, default setting
# 02 update all keys (used for valid PMK checking)
U: { 01 }
# Hash pids
# 00 hash all pids, DO NOT USE THIS OPTION, IT IS ONLY FOR TESTING STUFF
# 01 hash only pids with implemented algos and available keys !!!!! always use this !!!!!
H: { 01 }
# Key files folder
# 00 keyfiles in /var/keys
# 01 keyfiles in /var/tmp
T: { 01 }
# On Screen Display for the Multysystemcam on com1/com2
# 00 No OSD (default)
# 01 display Smartcard messages in Neutrino
# 02 display Smartcard messages in Neutrino new nhttpd format
# 03 display Smartcard messages in Enigma
# mypass (use user=root and pass=mypass for nhttpd)
O: { 01 } 192.168.1.51
# Logger and NET-mode UDP port Init
# 00 do not init UDP port
# 01 Init UDP port for IP, port, UDP
L: { 00 } 192.168.1.29 8017
# demux, multicam/comport configuration
# *x ** ; x = device nummber to be used (0= default)
# D* ** ; force use of /proc/bus/gtx for cw write operations
(in the dbox2 the gbox writes directly the CW's, 00 is the
recommended mode ! No drivers are required) use D* ** ONLY if
you have Problems. 0* ** should be prefered !!!
# F* ** ; write CW's in both devices (used for PVR in STB04*** devices)
# ** y* ; y=0001b (0x1*) use slot1 as Multicam (only on STB04***)
# ** y* ; y=0010b (0x2*) use slot2 as Multicam (only on STB04***)
# ** y* ; y=0011b (0x3*) use slot1 and slot2 as Multicams (only on STB04***)
# ** *z ; z=0001b (0x*1) use com1 as Multicam
# ** *z ; z=0010b (0x*2) use com2 as Multicam
# ** *z ; z=0011b (0x*3) use com1 and com2 as Multicams
# ** yz ; yz=00110011b (0x33) use slot1+slot2+com1+com2 as Multicams
# ** *z ; z=0100b (0x*4) invert CTS detection on com1
# ** *z ; z=1000b (0x* invert CTS detection on com2
# example: yz = 0x0A = 00001010 (use com2 with inverted CTS detection line)
V: { 00 02 }
V: { 00 36 } 00 use slot1/2 as multicams this enables the internal card reader of the Dream
# ================================================== ===========================
# extra options to override default seting in case you expirience Problems,
# normaly these setings are not required.
#
# cpu, api, cw write method
#
# 00 auto
# 01 80X86
# 02 MPC823
# 03 IBM STB04***
# 00 auto
# 01 ibm
# 02 api2
# 03 api3
# 00 cw write style = use internal routine (only dbox2)
# 01 cw write style = CA_SET_DESCR type1 (dbox2, vdr)
# 02 cw write style = CA_SET_DESCR type2
# 03 cw write style = CA_SET_DESCR type3
# 04 cw write style = 16 byte /proc/bus/gtx
# 05 cw write style = 4096 byte /proc/bus/gtx, cw offset=0x04D0
# xx write cw in 1st device with index=xx
# yy write cw in 2nd device with index=yy
# 01 means with .index=0 (default)
# 02 means with .index=1
# 03 means with .index=0 and .index=1
# .. any bitwise combination ...
# FF means with all 8 indexes (0-7)
#J: { 01 00 00 01 01 }
# Files, folders, devices
# folder/device comment
#
#F: { 01 } /var/tmp/pmt.tmp // pmt file
#F: { 02 } /var/tmp/emm.info // key update log file
#F: { 03 } /var/tmp/ecm.info // ecm info file
#F: { 04 } /var/tmp/atack.txt // atack info file
#F: { 11 } /var/keys // folder for config files
#F: { 12 } /var/tmp // folder for temporary file
#F: { 13 } /var/tmp // folder for keyfiles
#F: { 21 } /dev/dvb/adapter0/ca0 // ca device
#F: { 22 } /dev/dvb/adapter0/dvr0 // dvr device
#F: { 23 } /dev/dvb/adapter0/demux0 // demux device
#F: { 31 } /dev/dvb/adapter0/ca1 // second ca device to write cw's (recording)
#F: { 41 } /dev/sci0 // STB04*** slot1
#F: { 42 } /dev/sci1 // STB04*** slot1
#F: { 43 } /dev/tts/0 // rs232 com1
#F: { 44 } /dev/tts/1 // rs232 com2
# For overclocking freaks, Clocking internal STB04*** slots with:
# 1=7.80MHz 2=6.30MHz 3=5.25MHz 4=4.50MHz 5=3.94MHz 6=3.50MHz 7=3.15MHz
# Irdeto works fine on 7.8MHz, all other fine on 6.30MHz or 5.25MHz
# The Dream has not a clean clock signal, some cards that are sensitive will
# refuse to work even on 3.5MHz, thats why 3.15MHz is the default value there.
# On other STB04*** recievers the same cards work with 6.30MHz
#
#F: { 51 } 02 // irdeto
#F: { 52 } 03 // seca
#F: { 53 } 03 // viaccess
#F: { 54 } 03 // nagra
#F: { 55 } 03 // crypto
#F: { 57 } 03 // conax
#F: { 58 } 03 // nds
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