Command line tool to Read/Write to PCIe BARx memory space
The option -f allow to provide a commands file to pci_debug. The commands file will be executed before give you the hand on the PCI> prompt (if -q option is not). first line => Must be the BAR concerned by the command file. Must be compliant with the -b option Other lines => Commands
Example in a file put:
bar2
c32 0 A5
c32 14 196E
c32 8 AAB565
The -q option allows to quit pci_debug after the execution of the command file. This option allows you to chain several command files in a bash script for example.
Example:
#!/bin/sh
#bar 1 configure usart
echo "bar1" > /tmp/cmd
echo "c32 0 40" >> /tmp/cmd
echo "c32 4 196E" >> /tmp/cmd
echo "c32 8 196E" >> /tmp/cmd
echo "c32 18 8004" >> /tmp/cmd
pci_debug -s 01:00.0 -b 1 -f /tmp/cmd -q -v 1
#bar 0 read conf irq
echo "bar0" > /tmp/cmd
echo "d32 40 1" >> /tmp/cmd
echo "d32 50 1" >> /tmp/cmd
echo "d32 60 1" >> /tmp/cmd
pci_debug -s 01:00.0 -b 0 -f /tmp/cmd -q -v 0
#bar 1 start to send words
echo "bar1" > /tmp/cmd
echo "c32 14 AA" >> /tmp/cmd
echo "c32 14 BB" >> /tmp/cmd
echo "c32 14 CC" >> /tmp/cmd
echo "c32 14 DD" >> /tmp/cmd
pci_debug -s 01:00.0 -b 1 -f /tmp/cmd -q -v 1
#bar 1 start to read words (not very optim but it's for debug)
echo "bar1" > /tmp/cmd
echo "d32 14 1" >> /tmp/cmd
for i in {1. .4}
do
pci_debug -s 01:00.0 -b 1 -f /tmp/cmd -q -v 0
done
#take the hand on bar 1
pci_debug -s 01:00.0 -b 1
output:
Accessing BAR1
Send: c32 0 40
Send: c32 4 196E
Send: c32 8 196E
Send: c32 18 8004
Accessing BAR0
00000040: 00000001
00000050: 0000FFFF
00000060: 00000004
Accessing BAR1
Send: c32 14 AA
Send: c32 14 BB
Send: c32 14 CC
Send: c32 14 DD
00000014: 000000CC
PCI debug
---------
- accessing BAR1
- region size is 1048576-bytes
- offset into region is 0-bytes
? Help
d[width] addr len Display memory starting from addr
[width]
8 - 8-bit access
16 - 16-bit access
32 - 32-bit access (default)
c[width] addr val Change memory at addr to val
e Print the endian access mode
e[mode] Change the endian access mode
[mode]
b - big-endian (default)
l - little-endian
f[width] addr val len inc Fill memory
addr - start address
val - start value
len - length (in bytes)
inc - increment (defaults to 1)
q Quit
Notes:
1. addr, len, and val are interpreted as hex values
addresses are always byte based
PCI>
This tool is derived from D. W. Hawkins ([email protected]). The original sources can be found on altera forum.