Difference between revisions of "Logic Sniffer"

Revision as of 17:33, 24 November 2010

Description

I'm talking about this beast

Installation

My udev rules

I added a /dev/OpenLogicSniffer symlink by following this page:

#File /etc/udev/rules.d/77-ols.rules
#Rules for Openbench Logix Snifferslogic. Creates a nice link to the ols
ATTRS{idVendor}=="04d8" ATTRS{idProduct}=="fc92" MODE="0666" SYMLINK+="OpenLogicSniffer"

If you've problems with modem-manager trying to access the device (as seen in /var/log/syslog), you can add the following rule:

ATTRS{idVendor}=="04d8" ATTRS{idProduct}=="fc92" ENV{ID_MM_DEVICE_IGNORE}="1"

Firmware upgrade

Software

I tried this fork: http://www.lxtreme.nl/ols/ which is the official client for this board
and changed a bit the run.sh script to handle it through symlink :

if [ -h $0 ]; then
    DIR=$(dirname "$(readlink $0)")
    cd "$DIR"
    BASEDIR=.
else
    BASEDIR=$(dirname -- "${0}")
fi

Make sure that the Device is set to "OpenBench Logic Sniffer".
Click the capture button and type in your OLS port path in the "Analyzer port" field (i.e. /dev/OpenLogicSniffer if you installed it as I did). Leave the other settings at their default value for now and click "Capture".

Usage

See 101 and 102 tutos

Number scheme inside/outside in SUMP client refers to number scheme printed on PCB
- Default: inside: pin0 is at opposite of RESET button, on buffered probe header (up to 5V)
External clock source in SUMP: through the CKI header (see the 4 holes in the middle of the PCB)
Limits:
- 5V on buffered probe header / 3.3V on unbuffered wing header
- 200MHz with 2 groups, no noise filter
- 1 group: 24K / 2 groups: 12K / 4 groups: 6K
- RLE (compression): 4 groups only (v2.12) / all (v2.11).
Trigger before/after ration: samples before/after the trigger
RLE
- Problem of never ending if no changes occur
- Better to ground the unused probes of one group to not loose space recording noise

Test on Smartcard <> Terminal communication

Trying to sniff a T=0 communication:

channel 0: CLK (actually at the sampling rate given below we're largely undersampling the clock which is about 1MHz)
channel 1: RST
channel 2: I/O

All signals are low before card is inserted
I/O is high when idle
We sample @ 200kHz and trig on the RST signal

3/97
complex
Stage1
- Immediately, //
- Mask vv.
- Value v.. (RST down, IO up idle)
Stage2
- On level1, //
- Mask vv.
- Value vv. (RST up, IO up idle)
- Action: start capture

We have nicely all the ATR in one window
Trying Tools / UART analyzer

Set Rx on channel 2
8E1, invert

=> all got wrong :-(
It seems it cannot understand idle high

I also tried serial trigger but I don't understand how it considers baudrate and of course it doesn't work

@@ Line 42: / Line 42: @@
 ** Problem of never ending if no changes occur
 ** Better to ground the unused probes of one group to not loose space recording noise
+===Test on Smartcard <> Terminal communication===
+Trying to sniff a T=0 communication:
+* channel 0: CLK (actually at the sampling rate given below we're largely undersampling the clock which is about 1MHz)
+* channel 1: RST
+* channel 2: I/O
+All signals are low before card is inserted
+<br>I/O is high when idle
+<br>We sample @ 200kHz and trig on the RST signal
+* 3/97
+* complex
+* Stage1
+** Immediately, //
+** Mask vv.
+** Value v.. (RST down, IO up idle)
+* Stage2
+** On level1, //
+** Mask vv.
+** Value vv. (RST up, IO up idle)
+** Action: start capture
+We have nicely all the ATR in one window
+<br>Trying Tools / UART analyzer
+* Set Rx on channel 2
+* 8E1, invert
+=> all got wrong :-(
+<br>It seems it cannot understand idle high
+I also tried serial trigger but I don't understand how it considers baudrate and of course it doesn't work