8. Intel(R) QuickAssist (QAT) Crypto Poll Mode Driver
The QAT PMD provides poll mode crypto driver support for Intel QuickAssist Technology DH895xxC, Intel QuickAssist Technology C62x and Intel QuickAssist Technology C3xxx hardware accelerator.
8.1. Features
The QAT PMD has support for:
Cipher algorithms:
RTE_CRYPTO_CIPHER_3DES_CBCRTE_CRYPTO_CIPHER_3DES_CTRRTE_CRYPTO_CIPHER_AES128_CBCRTE_CRYPTO_CIPHER_AES192_CBCRTE_CRYPTO_CIPHER_AES256_CBCRTE_CRYPTO_CIPHER_AES128_CTRRTE_CRYPTO_CIPHER_AES192_CTRRTE_CRYPTO_CIPHER_AES256_CTRRTE_CRYPTO_CIPHER_SNOW3G_UEA2RTE_CRYPTO_CIPHER_AES_GCMRTE_CRYPTO_CIPHER_NULLRTE_CRYPTO_CIPHER_KASUMI_F8
Hash algorithms:
RTE_CRYPTO_AUTH_SHA1_HMACRTE_CRYPTO_AUTH_SHA224_HMACRTE_CRYPTO_AUTH_SHA256_HMACRTE_CRYPTO_AUTH_SHA384_HMACRTE_CRYPTO_AUTH_SHA512_HMACRTE_CRYPTO_AUTH_AES_XCBC_MACRTE_CRYPTO_AUTH_SNOW3G_UIA2RTE_CRYPTO_AUTH_MD5_HMACRTE_CRYPTO_AUTH_NULLRTE_CRYPTO_AUTH_KASUMI_F9RTE_CRYPTO_AUTH_AES_GMAC
8.2. Limitations
- Chained mbufs are not supported.
- Cipher only is not supported except SNOW 3G UEA2, KASUMI F8 and 3DES.
- Only supports the session-oriented API implementation (session-less APIs are not supported).
- SNOW 3G (UEA2) and KASUMI (F8) supported only if cipher length, cipher offset fields are byte-aligned.
- SNOW 3G (UIA2) and KASUMI (F9) supported only if hash length, hash offset fields are byte-aligned.
- No BSD support as BSD QAT kernel driver not available.
- Maximum additional authenticated data (AAD) for GCM is 240 bytes long.
8.3. Installation
To use the DPDK QAT PMD an SRIOV-enabled QAT kernel driver is required. The VF devices exposed by this driver will be used by QAT PMD.
To enable QAT in DPDK, follow the instructions mentioned in http://doc.dpdk.org/guides/linux_gsg/build_dpdk.html
Quick instructions as follows:
make config T=x86_64-native-linuxapp-gcc
sed -i 's,\(CONFIG_RTE_LIBRTE_PMD_QAT\)=n,\1=y,' build/.config
make
If you are running on kernel 4.4 or greater, see instructions for Installation using kernel.org driver below. If you are on a kernel earlier than 4.4, see Installation using 01.org QAT driver.
For Intel QuickAssist Technology C62x and Intel QuickAssist Technology C3xxx device, kernel 4.5 or greater is needed. See instructions for Installation using kernel.org driver below.
8.4. Installation using 01.org QAT driver
NOTE: There is no driver available for Intel QuickAssist Technology C62x and Intel QuickAssist Technology C3xxx devices on 01.org.
Download the latest QuickAssist Technology Driver from 01.org Consult the Getting Started Guide at the same URL for further information.
The steps below assume you are:
- Building on a platform with one
DH895xCCdevice. - Using package
qatmux.l.2.3.0-34.tgz. - On Fedora21 kernel
3.17.4-301.fc21.x86_64.
In the BIOS ensure that SRIOV is enabled and VT-d is disabled.
Uninstall any existing QAT driver, for example by running:
./installer.sh uninstallin the directory where originally installed.- or
rmmod qat_dh895xcc; rmmod intel_qat.
Build and install the SRIOV-enabled QAT driver:
mkdir /QAT
cd /QAT
# copy qatmux.l.2.3.0-34.tgz to this location
tar zxof qatmux.l.2.3.0-34.tgz
export ICP_WITHOUT_IOMMU=1
./installer.sh install QAT1.6 host
You can use cat /proc/icp_dh895xcc_dev0/version to confirm the driver is correctly installed.
You can use lspci -d:443 to confirm the bdf of the 32 VF devices are available per DH895xCC device.
To complete the installation - follow instructions in Binding the available VFs to the DPDK UIO driver.
Note: If using a later kernel and the build fails with an error relating to strict_stroul not being available apply the following patch:
/QAT/QAT1.6/quickassist/utilities/downloader/Target_CoreLibs/uclo/include/linux/uclo_platform.h
+ #if LINUX_VERSION_CODE >= KERNEL_VERSION(3,18,5)
+ #define STR_TO_64(str, base, num, endPtr) {endPtr=NULL; if (kstrtoul((str), (base), (num))) printk("Error strtoull convert %s\n", str); }
+ #else
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,38)
#define STR_TO_64(str, base, num, endPtr) {endPtr=NULL; if (strict_strtoull((str), (base), (num))) printk("Error strtoull convert %s\n", str); }
#else
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,25)
#define STR_TO_64(str, base, num, endPtr) {endPtr=NULL; strict_strtoll((str), (base), (num));}
#else
#define STR_TO_64(str, base, num, endPtr) \
do { \
if (str[0] == '-') \
{ \
*(num) = -(simple_strtoull((str+1), &(endPtr), (base))); \
}else { \
*(num) = simple_strtoull((str), &(endPtr), (base)); \
} \
} while(0)
+ #endif
#endif
#endif
If the build fails due to missing header files you may need to do following:
sudo yum install zlib-develsudo yum install openssl-devel
If the build or install fails due to mismatching kernel sources you may need to do the following:
sudo yum install kernel-headers-`uname -r`sudo yum install kernel-src-`uname -r`sudo yum install kernel-devel-`uname -r`
8.5. Installation using kernel.org driver
For Intel QuickAssist Technology DH895xxC:
Assuming you are running on at least a 4.4 kernel, you can use the stock kernel.org QAT driver to start the QAT hardware.
The steps below assume you are:
- Running DPDK on a platform with one
DH895xCCdevice. - On a kernel at least version 4.4.
In BIOS ensure that SRIOV is enabled and either
a) disable VT-d or
b) enable VT-d and set "intel_iommu=on iommu=pt" in the grub file.
Ensure the QAT driver is loaded on your system, by executing:
lsmod | grep qat
You should see the following output:
qat_dh895xcc 5626 0
intel_qat 82336 1 qat_dh895xcc
Next, you need to expose the Virtual Functions (VFs) using the sysfs file system.
First find the bdf of the physical function (PF) of the DH895xCC device:
lspci -d : 435
You should see output similar to:
03:00.0 Co-processor: Intel Corporation Coleto Creek PCIe Endpoint
Using the sysfs, enable the VFs:
echo 32 > /sys/bus/pci/drivers/dh895xcc/0000\:03\:00.0/sriov_numvfs
If you get an error, it’s likely you’re using a QAT kernel driver earlier than kernel 4.4.
To verify that the VFs are available for use - use lspci -d:443 to confirm
the bdf of the 32 VF devices are available per DH895xCC device.
To complete the installation - follow instructions in Binding the available VFs to the DPDK UIO driver.
- Note: If the QAT kernel modules are not loaded and you see an error like
Failed to load MMP firmware qat_895xcc_mmp.binthis may be as a result of not using a distribution, but just updating the kernel directly.
Download firmware from the kernel firmware repo at: http://git.kernel.org/cgit/linux/kernel/git/firmware/linux-firmware.git/tree/
Copy qat binaries to /lib/firmware:
* cp qat_895xcc.bin /lib/firmware
* cp qat_895xcc_mmp.bin /lib/firmware
cd to your linux source root directory and start the qat kernel modules:
* insmod ./drivers/crypto/qat/qat_common/intel_qat.ko
* insmod ./drivers/crypto/qat/qat_dh895xcc/qat_dh895xcc.ko
- Note:The following warning in /var/log/messages can be ignored:
IOMMU should be enabled for SR-IOV to work correctly
For Intel QuickAssist Technology C62x: Assuming you are running on at least a 4.5 kernel, you can use the stock kernel.org QAT driver to start the QAT hardware.
The steps below assume you are:
- Running DPDK on a platform with one
C62xdevice. - On a kernel at least version 4.5.
In BIOS ensure that SRIOV is enabled and either
a) disable VT-d or
b) enable VT-d and set "intel_iommu=on iommu=pt" in the grub file.
Ensure the QAT driver is loaded on your system, by executing:
lsmod | grep qat
You should see the following output:
qat_c62x 16384 0
intel_qat 122880 1 qat_c62x
Next, you need to expose the VFs using the sysfs file system.
First find the bdf of the C62x device:
lspci -d:37c8
You should see output similar to:
1a:00.0 Co-processor: Intel Corporation Device 37c8
3d:00.0 Co-processor: Intel Corporation Device 37c8
3f:00.0 Co-processor: Intel Corporation Device 37c8
For each c62x device there are 3 PFs. Using the sysfs, for each PF, enable the 16 VFs:
echo 16 > /sys/bus/pci/drivers/c6xx/0000\:1a\:00.0/sriov_numvfs
If you get an error, it’s likely you’re using a QAT kernel driver earlier than kernel 4.5.
To verify that the VFs are available for use - use lspci -d:37c9 to confirm
the bdf of the 48 VF devices are available per C62x device.
To complete the installation - follow instructions in Binding the available VFs to the DPDK UIO driver.
For Intel QuickAssist Technology C3xxx: Assuming you are running on at least a 4.5 kernel, you can use the stock kernel.org QAT driver to start the QAT hardware.
The steps below assume you are:
- Running DPDK on a platform with one
C3xxxdevice. - On a kernel at least version 4.5.
In BIOS ensure that SRIOV is enabled and either
a) disable VT-d or
b) enable VT-d and set "intel_iommu=on iommu=pt" in the grub file.
Ensure the QAT driver is loaded on your system, by executing:
lsmod | grep qat
You should see the following output:
qat_c3xxx 16384 0
intel_qat 122880 1 qat_c3xxx
Next, you need to expose the Virtual Functions (VFs) using the sysfs file system.
First find the bdf of the physical function (PF) of the C3xxx device
lspci -d:19e2
You should see output similar to:
01:00.0 Co-processor: Intel Corporation Device 19e2
For c3xxx device there is 1 PFs. Using the sysfs, enable the 16 VFs:
echo 16 > /sys/bus/pci/drivers/c3xxx/0000\:01\:00.0/sriov_numvfs
If you get an error, it’s likely you’re using a QAT kernel driver earlier than kernel 4.5.
To verify that the VFs are available for use - use lspci -d:19e3 to confirm
the bdf of the 16 VF devices are available per C3xxx device.
To complete the installation - follow instructions in Binding the available VFs to the DPDK UIO driver.
8.6. Binding the available VFs to the DPDK UIO driver
For Intel(R) QuickAssist Technology DH895xcc device:
The unbind command below assumes bdfs of 03:01.00-03:04.07, if yours are different adjust the unbind command below:
cd $RTE_SDK
modprobe uio
insmod ./build/kmod/igb_uio.ko
for device in $(seq 1 4); do \
for fn in $(seq 0 7); do \
echo -n 0000:03:0${device}.${fn} > \
/sys/bus/pci/devices/0000\:03\:0${device}.${fn}/driver/unbind; \
done; \
done
echo "8086 0443" > /sys/bus/pci/drivers/igb_uio/new_id
You can use lspci -vvd:443 to confirm that all devices are now in use by igb_uio kernel driver.
For Intel(R) QuickAssist Technology C62x device:
The unbind command below assumes bdfs of 1a:01.00-1a:02.07, 3d:01.00-3d:02.07 and 3f:01.00-3f:02.07,
if yours are different adjust the unbind command below:
cd $RTE_SDK
modprobe uio
insmod ./build/kmod/igb_uio.ko
for device in $(seq 1 2); do \
for fn in $(seq 0 7); do \
echo -n 0000:1a:0${device}.${fn} > \
/sys/bus/pci/devices/0000\:1a\:0${device}.${fn}/driver/unbind; \
echo -n 0000:3d:0${device}.${fn} > \
/sys/bus/pci/devices/0000\:3d\:0${device}.${fn}/driver/unbind; \
echo -n 0000:3f:0${device}.${fn} > \
/sys/bus/pci/devices/0000\:3f\:0${device}.${fn}/driver/unbind; \
done; \
done
echo "8086 37c9" > /sys/bus/pci/drivers/igb_uio/new_id
You can use lspci -vvd:37c9 to confirm that all devices are now in use by igb_uio kernel driver.
For Intel(R) QuickAssist Technology C3xxx device:
The unbind command below assumes bdfs of 01:01.00-01:02.07,
if yours are different adjust the unbind command below:
cd $RTE_SDK
modprobe uio
insmod ./build/kmod/igb_uio.ko
for device in $(seq 1 2); do \
for fn in $(seq 0 7); do \
echo -n 0000:01:0${device}.${fn} > \
/sys/bus/pci/devices/0000\:01\:0${device}.${fn}/driver/unbind; \
done; \
done
echo "8086 19e3" > /sys/bus/pci/drivers/igb_uio/new_id
You can use lspci -vvd:19e3 to confirm that all devices are now in use by igb_uio kernel driver.
The other way to bind the VFs to the DPDK UIO driver is by using the dpdk-devbind.py script:
cd $RTE_SDK
./tools/dpdk-devbind.py -b igb_uio 0000:03:01.1