!! WARNING !! DEPRECATED REPOSITORY. USE NEW REPOSIORY https://github.com/lnls-dig/halcs
Software for controlling the AFC BPM boards
Make sure you have the following libraries installed, either by download the binaries or executing the instructions below:
- libsodium-1.0.8 (https://github.com/jedisct1/libsodium/tree/1.0.8)
- zeromq-4.2.0 (https://github.com/lnls-dig/libzmq/tree/v4.2.0-pre)
- czmq-3.0.2 (https://github.com/zeromq/czmq/tree/v3.0.2)
- mlm-1.0 (https://github.com/lnls-dig/malamute/tree/v1.0)
-
uuid (distribution available):
sudo apt-get install uuid
git clone --branch=1.0.8 https://github.com/jedisct1/libsodium.git && \
git clone --branch=v4.2.0-pre https://github.com/lnls-dig/libzmq.git && \
git clone --branch=v3.0.2 https://github.com/zeromq/czmq.git && \
git clone --branch=v1.0 https://github.com/lnls-dig/malamute.git &&
for project in libsodium libzmq czmq malamute; do
cd $project
./autogen.sh
./configure && make check
sudo make install
sudo ldconfig
cd ..
done
git clone --recursive https://github.com/lerwys/bpm-sw.git
Install linux header files
sudo apt-get install linux-headers-generic
Install the GIT package
sudo apt-get install binutils gcc
Change folder to the pcie driver location
cd kernel
Compile the PCIe driver and its tests
make
Install the PCIe drivers and libraries
sudo make install
Load the Driver module
sudo insmod /lib/modules/$(uname -r)/extra/PciDriver.ko
After this the kernel should have found the FPGA board and initialized it. Run the following command and check its output
dmesg | tail
You should see something like the excerpt below:
[267002.495109] pciDriver - pcidriver_init :
Major 250 allocated to nodename 'fpga'
[267002.495130] pciDriver - pcidriver_probe :
Found ML605 board at 0000:01:00.0
[267002.495224] pciDriver - pcidriver_probe :
Device /dev/fpga0 added
[267002.495434] pciDriver - pcidriver_probe_irq :
Registered Interrupt Handler at pin 1, line 11, IRQ 16
[267002.495450] pciDriver - pcidriver_init :
Module loaded
After the installation of the PCIe driver (see above) it is possible to run a self test to check if everything is setup properly. For this run the following:
Change to the "compiled tests folder"
cd tests/pcie/bin
Run the test entitled "testPciDriverMod"
sudo ./testPciDriverMod
You should get an output like the following, if everythig is ok:
Testing OPEN DEVICE... PASSED!
Testing PCIDRIVER_IOC_MMAP_MODE... PASSED!
Testing PCIDRIVER_IOC_MMAP_AREA... PASSED!
Testing PCIDRIVER_IOC_PCI_INFO... PASSED!
Testing PCI CONFIG...
Reading PCI config area in byte mode ... PASSED!
Reading PCI config area in word mode ... PASSED!
Reading PCI config area in double-word mode ... PASSED!
Testing PCI mmap...
Reading PCI info... PASSED!
Setting mmap mode... PASSED!
Setting mmap area... PASSED!
MMAP'ing BAR0... PASSED!
Setting mmap area... PASSED!
MMAP'ing BAR2... PASSED!
Setting mmap area... PASSED!
MMAP'ing BAR4... PASSED!
Testing PCIDRIVER_IOC_KMEM_ALLOC...
alloc size 1024 : PASSED!
alloc size 2048 : PASSED!
alloc size 4096 : PASSED!
alloc size 8192 : PASSED!
alloc size 16384 : PASSED!
alloc size 32768 : PASSED!
alloc size 65536 : PASSED!
alloc size 131072 : PASSED!
alloc size 262144 : PASSED!
alloc size 524288 : PASSED!
alloc size 1048576 : PASSED!
alloc size 2097152 : PASSED!
alloc size 4194304 : PASSED!
alloc size 8388608 : FAILED (maybe size is just too big)!
Testing PCIDRIVER_IOC_KMEM_SYNC...
Setting KMEM SYNC to write mode... PASSED!
Setting KMEM SYNC to read mode... PASSED!
Setting KMEM SYNC to read/write mode... PASSED!
Testing PCIDRIVER_IOC_KMEM_FREE... PASSED!
Testing Kernel Buffer mmap...
Setting MMAP mode to KMEM... PASSED!
Allocing size 1024 : PASSED!
MMAPing size 1024 : PASSED!
Allocing size 2048 : PASSED!
MMAPing size 2048 : PASSED!
Allocing size 4096 : PASSED!
MMAPing size 4096 : PASSED!
Allocing size 8192 : PASSED!
MMAPing size 8192 : PASSED!
Allocing size 16384 : PASSED!
MMAPing size 16384 : PASSED!
Allocing size 32768 : PASSED!
MMAPing size 32768 : PASSED!
Allocing size 65536 : PASSED!
MMAPing size 65536 : PASSED!
Allocing size 131072 : PASSED!
MMAPing size 131072 : PASSED!
Allocing size 262144 : PASSED!
MMAPing size 262144 : PASSED!
Allocing size 524288 : PASSED!
MMAPing size 524288 : PASSED!
Allocing size 1048576 : PASSED!
MMAPing size 1048576 : PASSED!
Allocing size 2097152 : PASSED!
MMAPing size 2097152 : PASSED!
Allocing size 4194304 : PASSED!
MMAPing size 4194304 : PASSED!
Allocing size 8388608 : FAILED (maybe size is just too big)!
Freeing Kernel buffers...
Buffer index 0... PASSED!
Buffer index 1... PASSED!
Buffer index 2... PASSED!
Buffer index 3... PASSED!
Buffer index 4... PASSED!
Buffer index 5... PASSED!
Buffer index 6... PASSED!
Buffer index 7... PASSED!
Buffer index 8... PASSED!
Buffer index 9... PASSED!
Buffer index 10... PASSED!
Buffer index 11... PASSED!
Buffer index 12... PASSED!
Testing PCIDRIVER_IOC_UMEM_SGMAP ... PASSED!
Testing PCIDRIVER_IOC_UMEM_SGGET ... PASSED!
Testing PCIDRIVER_IOC_UMEM_SYNC ...
Setting UMEM SYNC to write mode... PASSED!
Setting UMEM SYNC to read mode... PASSED!
Setting UMEM SYNC to read/write mode... PASSED!
Testing PCIDRIVER_IOC_UMEM_SGUNMAP ... PASSED!
-------------------------------------
| All tests PASSED! |
-------------------------------------
Notice that some tests that try to evaluate the limits of a current Linux Kernel may fail in some cases. In the example above, two tests , due to an attempt to allocate a large buffer in kernel space.
This is not actually an error or a failure, it is just trying to allocate more memory than the kernel has available.
Compile everything with debug info. The superuser access is necessary because it checks (and installs if needed) the PCIe kernel driver.
If the PCIe driver is already installed, you could run it without superuser.
./compile.sh <board type = [ml605|afcv3]>
Change to the Client API folder
cd src/libs/libbpmclient
Compile the library, with debug info
make ERRHAND_DBG=y ERRHAND_MIN_LEVEL=DBG_MIN_TRACE \
ERRHAND_SUBSYS_ON=’”(DBG_DEV_MNGR | DBG_DEV_IO | DBG_SM_IO | \
DBG_LIB_CLIENT | DBG_SM_PR | DBG_SM_CH | DBG_LL_IO | DBG_HAL_UTILS)”’
Install the library
sudo make install
Change to the examples folder
cd examples
Compile the examples
make
Run an example application, for instance, the leds example
./leds -v -b <broker_endpoint> -board <board_number> -bpm <bpm_number>
Typically, one should choose the IPC transport method for its faster than TCP. For instance:
./leds -v -b ipc:///tmp/bpm -board <board_number> -bpm <bpm_number>
If one would like to use TCP, it should call, for instance:
./leds -v -b tcp://127.0.0.1:8888 -board <board_number> -bpm <bpm_number>
Leds should be blinking in the FMC ADC board