Getting Started: Difference between revisions
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(Created page with "= Getting Started - First Steps With SerialICE = Connect the target to your computer. Figure out the serial port that you can use to talk to it. Relative to the qemu directory...") |
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(One intermediate revision by one other user not shown) | |||
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= | = First Steps With SerialICE = | ||
Connect the target to your computer. Figure out the serial port that you can use to talk to it. | Connect the target to your computer. Figure out the serial port that you can use to talk to it. | ||
Relative to the qemu directory in the SerialICE tree, call | Relative to the qemu directory in the SerialICE tree, call | ||
$ cd SerialICE/simba | |||
$ ln -sf ../../qemu-0.15.x/i386-softmmu/qemu | |||
$ ./qemu -M serialice -serialice /dev/ttyUSB0 -singlestep -bios /your/bios/image > logfile.txt | |||
This assumes that /dev/ttyUSB0 is your serial port. Replace as appropriate. | |||
You'll get a logfile.txt something like this: | |||
<nowiki> | |||
SerialICE: Open connection to target hardware... | |||
SerialICE: Waiting for handshake with target... target alive! | |||
SerialICE: Version.....: SerialICE v1.5 (Feb 19 2013) | |||
SerialICE: Mainboard...: Commell LV-672 | |||
SerialICE: LUA init... | |||
SerialICE: LUA init... | |||
SerialICE: Starting LUA script | |||
SerialICE: LUA script initialized. | |||
Registering physical memory at 0xffdf8000 (0x00008000 bytes) | |||
VNC server running on `127.0.0.1:5900' | |||
0000.0001 R.Q. [ffff000:fff0] MEM: readb fffffff0 => e9 | |||
0000.0002 R.Q. [ffff000:fff0] MEM: readw fffffff1 => f00d | |||
0003.0004 RH.. [ffff000:f006] IO: outb 0080 <= 01 | |||
0003.0005 R.Q. [ffff000:f018] MEM: readl fffff04e => 00000000 | |||
0003.0006 R.Q. [ffff000:f01c] MEM: readw fffff01d => f044 | |||
0003.0007 R.Q. [ffff000:f021] MEM: readl fffff046 => fffff054 | |||
0003.0008 R.Q. [ffff000:f029] MEM: readl fffff02b => 7ffaffd1 | |||
0003.0009 R.Q. [ffff000:f02f] MEM: readl fffff031 => 60000001 | |||
0003.000a R.Q. [ffff000:f038] MEM: readb fffff038 => 66 | |||
0003.000b R.Q. [ffff000:f03b] MEM: readl fffff03d => fffff07b | |||
0003.000c R.Q. [ffff000:f03b] MEM: readw fffff041 => 0008 | |||
0003.000d RH.. [0000:fffff07f] IO: outb 0080 <= 10 | |||
0003.000e R.Q. [0000:fffff081] MEM: readw fffff083 => 0010 | |||
0003.000f R.Q. [0000:fffff096] MEM: readl fffff097 => 00000200 | |||
0003.0010 R.Q. [0000:fffff0a4] MEM: readl fffff0a5 => 0000001b | |||
0011.0012 RH.U [0000:fffff0a9] CPU MSR: [0000001b] => 00000000.fee00900 | |||
0011.0013 R.Q. [0000:fffff0b4] MEM: readl fffff0b5 => 8000f8dc | |||
0011.0014 R.Q. [0000:fffff0b9] MEM: readw fffff0bb => 0cf8 | |||
0016.0017 RH.. [0000:fffff0bd] IO: outl 0cf8 <= 8000f8dc | |||
0016.0018 RH.. [0000:fffff0c2] IO: inb 0cfc => 00 | |||
0016.0019 R.Q. [0000:fffff0d0] MEM: readl fffff0d1 => 8000f8dc | |||
0016.001a R.Q. [0000:fffff0d5] MEM: readw fffff0d7 => 0cf8 | |||
001b.001c RH.. [0000:fffff0d9] IO: outl 0cf8 <= 8000f8dc | |||
001b.001d RH.. [0000:fffff0e2] IO: outb 0cfc <= 08 | |||
001b.001e R.Q. [0000:fffff0e8] MEM: readl fffff0e9 => fffff0ef | |||
001b.001f R.Q. [0000:fffff105] MEM: readl fffff106 => fffffffc | |||
001b.0020 R.Q. [0000:fffff10a] MEM: readl ffffefe8 => 00000800 | |||
001b.0021 R.Q. [0000:fffff11d] MEM: readl fffff11e => 00000000 | |||
001b.0022 R.Q. [0000:fffff130] MEM: readl fff80000 => 4352414c | |||
001b.0023 R.Q. [0000:fffff132] MEM: readl fffff1b2 => 4352414c | |||
001b.0024 R.Q. [0000:fffff13d] MEM: readl fffff13f => fffff1b6 | |||
001b.0025 R.Q. [0000:fffff13d] MEM: readl fffff1b6 => 45564948 | |||
001b.0026 R.Q. [0000:fff8006c] MEM: readl fff80056 => fff80054 | |||
001b.0027 R.Q. [0000:fff80074] MEM: readl fff80075 => fff8007b | |||
001b.0028 R.Q. [0000:fff80074] MEM: readw fff80079 => 0008 | |||
0029.002a RH.. [0000:fff8007f] IO: outb 0080 <= 10 | |||
0029.002b R.Q. [0000:fff80081] MEM: readw fff80083 => 0010 | |||
0029.002c RH.. [0000:fff800b1] IO: outb 0080 <= 20 | |||
002d.002e RH.U [0000:fff800b8] CPU MSR: [0000001b] => 00000000.fee00900 | |||
002d.002f R.Q. [0000:fff800ba] MEM: readl fff800bb => 00000100 | |||
002d.0030 R.Q. [0000:fff800bf] MEM: readl fff800c1 => 00000158 | |||
002d.0031 R.Q. [0000:fff800c5] MEM: readl fff800c6 => fff803fb | |||
002d.0032 R.Q. [0000:fff800ca] MEM: readl fff800cb => 0000001b | |||
002d.0033 R.Q. [0000:fff800d3] MEM: readw fff803fb => 0250 | |||
</nowiki> | |||
This | This is referred to as the raw logfile from qemu session. It usually shows more detail than you care to look at, so you will want to further process this through a replay script. | ||
$ cat logfile.txt | lua replay.lua | |||
You | The interesting part of the log is below, where loads from flash memory are hidden and PCI configuration access is translated. You can control the verbosity of the replayer with the parameters in user_env.lua file. | ||
<nowiki> | |||
0003.0004 .H.. [ffff000:f006] POST: *** 01 *** | |||
0003.000d .H.. [0000:fffff07f] POST: *** 10 *** | |||
0011.0012 RH.U [0000:fffff0a9] CPU MSR: [0000001b] => 00000000.fee00900 | |||
0016.0018 .H.. [0000:fffff0c2] PCI: 0:1f.0 [0dc] => 00 | |||
001b.001d .H.. [0000:fffff0e2] PCI: 0:1f.0 [0dc] <= 08 | |||
0029.002a .H.. [0000:fff8007f] POST: *** 10 *** | |||
0029.002c .H.. [0000:fff800b1] POST: *** 20 *** | |||
002d.002e RH.U [0000:fff800b8] CPU MSR: [0000001b] => 00000000.fee00900 | |||
</nowiki> | |||
CPU: | |||
Latest revision as of 11:25, 9 March 2013
First Steps With SerialICE
Connect the target to your computer. Figure out the serial port that you can use to talk to it. Relative to the qemu directory in the SerialICE tree, call
$ cd SerialICE/simba $ ln -sf ../../qemu-0.15.x/i386-softmmu/qemu $ ./qemu -M serialice -serialice /dev/ttyUSB0 -singlestep -bios /your/bios/image > logfile.txt
This assumes that /dev/ttyUSB0 is your serial port. Replace as appropriate. You'll get a logfile.txt something like this:
SerialICE: Open connection to target hardware... SerialICE: Waiting for handshake with target... target alive! SerialICE: Version.....: SerialICE v1.5 (Feb 19 2013) SerialICE: Mainboard...: Commell LV-672 SerialICE: LUA init... SerialICE: LUA init... SerialICE: Starting LUA script SerialICE: LUA script initialized. Registering physical memory at 0xffdf8000 (0x00008000 bytes) VNC server running on `127.0.0.1:5900' 0000.0001 R.Q. [ffff000:fff0] MEM: readb fffffff0 => e9 0000.0002 R.Q. [ffff000:fff0] MEM: readw fffffff1 => f00d 0003.0004 RH.. [ffff000:f006] IO: outb 0080 <= 01 0003.0005 R.Q. [ffff000:f018] MEM: readl fffff04e => 00000000 0003.0006 R.Q. [ffff000:f01c] MEM: readw fffff01d => f044 0003.0007 R.Q. [ffff000:f021] MEM: readl fffff046 => fffff054 0003.0008 R.Q. [ffff000:f029] MEM: readl fffff02b => 7ffaffd1 0003.0009 R.Q. [ffff000:f02f] MEM: readl fffff031 => 60000001 0003.000a R.Q. [ffff000:f038] MEM: readb fffff038 => 66 0003.000b R.Q. [ffff000:f03b] MEM: readl fffff03d => fffff07b 0003.000c R.Q. [ffff000:f03b] MEM: readw fffff041 => 0008 0003.000d RH.. [0000:fffff07f] IO: outb 0080 <= 10 0003.000e R.Q. [0000:fffff081] MEM: readw fffff083 => 0010 0003.000f R.Q. [0000:fffff096] MEM: readl fffff097 => 00000200 0003.0010 R.Q. [0000:fffff0a4] MEM: readl fffff0a5 => 0000001b 0011.0012 RH.U [0000:fffff0a9] CPU MSR: [0000001b] => 00000000.fee00900 0011.0013 R.Q. [0000:fffff0b4] MEM: readl fffff0b5 => 8000f8dc 0011.0014 R.Q. [0000:fffff0b9] MEM: readw fffff0bb => 0cf8 0016.0017 RH.. [0000:fffff0bd] IO: outl 0cf8 <= 8000f8dc 0016.0018 RH.. [0000:fffff0c2] IO: inb 0cfc => 00 0016.0019 R.Q. [0000:fffff0d0] MEM: readl fffff0d1 => 8000f8dc 0016.001a R.Q. [0000:fffff0d5] MEM: readw fffff0d7 => 0cf8 001b.001c RH.. [0000:fffff0d9] IO: outl 0cf8 <= 8000f8dc 001b.001d RH.. [0000:fffff0e2] IO: outb 0cfc <= 08 001b.001e R.Q. [0000:fffff0e8] MEM: readl fffff0e9 => fffff0ef 001b.001f R.Q. [0000:fffff105] MEM: readl fffff106 => fffffffc 001b.0020 R.Q. [0000:fffff10a] MEM: readl ffffefe8 => 00000800 001b.0021 R.Q. [0000:fffff11d] MEM: readl fffff11e => 00000000 001b.0022 R.Q. [0000:fffff130] MEM: readl fff80000 => 4352414c 001b.0023 R.Q. [0000:fffff132] MEM: readl fffff1b2 => 4352414c 001b.0024 R.Q. [0000:fffff13d] MEM: readl fffff13f => fffff1b6 001b.0025 R.Q. [0000:fffff13d] MEM: readl fffff1b6 => 45564948 001b.0026 R.Q. [0000:fff8006c] MEM: readl fff80056 => fff80054 001b.0027 R.Q. [0000:fff80074] MEM: readl fff80075 => fff8007b 001b.0028 R.Q. [0000:fff80074] MEM: readw fff80079 => 0008 0029.002a RH.. [0000:fff8007f] IO: outb 0080 <= 10 0029.002b R.Q. [0000:fff80081] MEM: readw fff80083 => 0010 0029.002c RH.. [0000:fff800b1] IO: outb 0080 <= 20 002d.002e RH.U [0000:fff800b8] CPU MSR: [0000001b] => 00000000.fee00900 002d.002f R.Q. [0000:fff800ba] MEM: readl fff800bb => 00000100 002d.0030 R.Q. [0000:fff800bf] MEM: readl fff800c1 => 00000158 002d.0031 R.Q. [0000:fff800c5] MEM: readl fff800c6 => fff803fb 002d.0032 R.Q. [0000:fff800ca] MEM: readl fff800cb => 0000001b 002d.0033 R.Q. [0000:fff800d3] MEM: readw fff803fb => 0250
This is referred to as the raw logfile from qemu session. It usually shows more detail than you care to look at, so you will want to further process this through a replay script.
$ cat logfile.txt | lua replay.lua
The interesting part of the log is below, where loads from flash memory are hidden and PCI configuration access is translated. You can control the verbosity of the replayer with the parameters in user_env.lua file.
0003.0004 .H.. [ffff000:f006] POST: *** 01 *** 0003.000d .H.. [0000:fffff07f] POST: *** 10 *** 0011.0012 RH.U [0000:fffff0a9] CPU MSR: [0000001b] => 00000000.fee00900 0016.0018 .H.. [0000:fffff0c2] PCI: 0:1f.0 [0dc] => 00 001b.001d .H.. [0000:fffff0e2] PCI: 0:1f.0 [0dc] <= 08 0029.002a .H.. [0000:fff8007f] POST: *** 10 *** 0029.002c .H.. [0000:fff800b1] POST: *** 20 *** 002d.002e RH.U [0000:fff800b8] CPU MSR: [0000001b] => 00000000.fee00900