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.. BSD LICENSE
Copyright(c) 2016-2017 Intel Corporation. All rights reserved.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the
distribution.
* Neither the name of Intel Corporation nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
IPsec Security Gateway Sample Application
=========================================
The IPsec Security Gateway application is an example of a "real world"
application using DPDK cryptodev framework.
Overview
--------
The application demonstrates the implementation of a Security Gateway
(not IPsec compliant, see the Constraints section below) using DPDK based on RFC4301,
RFC4303, RFC3602 and RFC2404.
Internet Key Exchange (IKE) is not implemented, so only manual setting of
Security Policies and Security Associations is supported.
The Security Policies (SP) are implemented as ACL rules, the Security
Associations (SA) are stored in a table and the routing is implemented
using LPM.
The application classifies the ports as *Protected* and *Unprotected*.
Thus, traffic received on an Unprotected or Protected port is consider
Inbound or Outbound respectively.
The Path for IPsec Inbound traffic is:
* Read packets from the port.
* Classify packets between IPv4 and ESP.
* Perform Inbound SA lookup for ESP packets based on their SPI.
* Perform Verification/Decryption.
* Remove ESP and outer IP header
* Inbound SP check using ACL of decrypted packets and any other IPv4 packets.
* Routing.
* Write packet to port.
The Path for the IPsec Outbound traffic is:
* Read packets from the port.
* Perform Outbound SP check using ACL of all IPv4 traffic.
* Perform Outbound SA lookup for packets that need IPsec protection.
* Add ESP and outer IP header.
* Perform Encryption/Digest.
* Routing.
* Write packet to port.
Constraints
-----------
* No IPv6 options headers.
* No AH mode.
* Supported algorithms: AES-CBC, AES-CTR, AES-GCM, HMAC-SHA1 and NULL.
* Each SA must be handle by a unique lcore (*1 RX queue per port*).
* No chained mbufs.
Compiling the Application
-------------------------
To compile the application:
#. Go to the sample application directory::
export RTE_SDK=/path/to/rte_sdk
cd ${RTE_SDK}/examples/ipsec-secgw
#. Set the target (a default target is used if not specified). For example::
export RTE_TARGET=x86_64-native-linuxapp-gcc
See the *DPDK Getting Started Guide* for possible RTE_TARGET values.
#. Build the application::
make
#. [Optional] Build the application for debugging:
This option adds some extra flags, disables compiler optimizations and
is verbose::
make DEBUG=1
Running the Application
-----------------------
The application has a number of command line options::
./build/ipsec-secgw [EAL options] --
-p PORTMASK -P -u PORTMASK
--config (port,queue,lcore)[,(port,queue,lcore]
--single-sa SAIDX
-f CONFIG_FILE_PATH
Where:
* ``-p PORTMASK``: Hexadecimal bitmask of ports to configure.
* ``-P``: *optional*. Sets all ports to promiscuous mode so that packets are
accepted regardless of the packet's Ethernet MAC destination address.
Without this option, only packets with the Ethernet MAC destination address
set to the Ethernet address of the port are accepted (default is enabled).
* ``-u PORTMASK``: hexadecimal bitmask of unprotected ports
* ``--config (port,queue,lcore)[,(port,queue,lcore)]``: determines which queues
from which ports are mapped to which cores.
* ``--single-sa SAIDX``: use a single SA for outbound traffic, bypassing the SP
on both Inbound and Outbound. This option is meant for debugging/performance
purposes.
* ``-f CONFIG_FILE_PATH``: the full path of text-based file containing all
configuration items for running the application (See Configuration file
syntax section below). ``-f CONFIG_FILE_PATH`` **must** be specified.
**ONLY** the UNIX format configuration file is accepted.
The mapping of lcores to port/queues is similar to other l3fwd applications.
For example, given the following command line::
./build/ipsec-secgw -l 20,21 -n 4 --socket-mem 0,2048 \
--vdev "crypto_null" -- -p 0xf -P -u 0x3 \
--config="(0,0,20),(1,0,20),(2,0,21),(3,0,21)" \
-f /path/to/config_file \
where each options means:
* The ``-l`` option enables cores 20 and 21.
* The ``-n`` option sets memory 4 channels.
* The ``--socket-mem`` to use 2GB on socket 1.
* The ``--vdev "crypto_null"`` option creates virtual NULL cryptodev PMD.
* The ``-p`` option enables ports (detected) 0, 1, 2 and 3.
* The ``-P`` option enables promiscuous mode.
* The ``-u`` option sets ports 1 and 2 as unprotected, leaving 2 and 3 as protected.
* The ``--config`` option enables one queue per port with the following mapping:
+----------+-----------+-----------+---------------------------------------+
| **Port** | **Queue** | **lcore** | **Description** |
| | | | |
+----------+-----------+-----------+---------------------------------------+
| 0 | 0 | 20 | Map queue 0 from port 0 to lcore 20. |
| | | | |
+----------+-----------+-----------+---------------------------------------+
| 1 | 0 | 20 | Map queue 0 from port 1 to lcore 20. |
| | | | |
+----------+-----------+-----------+---------------------------------------+
| 2 | 0 | 21 | Map queue 0 from port 2 to lcore 21. |
| | | | |
+----------+-----------+-----------+---------------------------------------+
| 3 | 0 | 21 | Map queue 0 from port 3 to lcore 21. |
| | | | |
+----------+-----------+-----------+---------------------------------------+
* The ``-f /path/to/config_file`` option enables the application read and
parse the configuration file specified, and configures the application
with a given set of SP, SA and Routing entries accordingly. The syntax of
the configuration file will be explained below in more detail. Please
**note** the parser only accepts UNIX format text file. Other formats
such as DOS/MAC format will cause a parse error.
Refer to the *DPDK Getting Started Guide* for general information on running
applications and the Environment Abstraction Layer (EAL) options.
The application would do a best effort to "map" crypto devices to cores, with
hardware devices having priority. Basically, hardware devices if present would
be assigned to a core before software ones.
This means that if the application is using a single core and both hardware
and software crypto devices are detected, hardware devices will be used.
A way to achieve the case where you want to force the use of virtual crypto
devices is to whitelist the Ethernet devices needed and therefore implicitly
blacklisting all hardware crypto devices.
For example, something like the following command line:
.. code-block:: console
./build/ipsec-secgw -l 20,21 -n 4 --socket-mem 0,2048 \
-w 81:00.0 -w 81:00.1 -w 81:00.2 -w 81:00.3 \
--vdev "crypto_aesni_mb" --vdev "crypto_null" \
-- \
-p 0xf -P -u 0x3 --config="(0,0,20),(1,0,20),(2,0,21),(3,0,21)" \
-f sample.cfg
Configurations
--------------
The following sections provide the syntax of configurations to initialize
your SP, SA and Routing tables.
Configurations shall be specified in the configuration file to be passed to
the application. The file is then parsed by the application. The successful
parsing will result in the appropriate rules being applied to the tables
accordingly.
Configuration File Syntax
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
As mention in the overview, the Security Policies are ACL rules.
The application parsers the rules specified in the configuration file and
passes them to the ACL table, and replicates them per socket in use.
Following are the configuration file syntax.
General rule syntax
^^^^^^^^^^^^^^^^^^^
The parse treats one line in the configuration file as one configuration
item (unless the line concatenation symbol exists). Every configuration
item shall follow the syntax of either SP, SA, or Routing rules specified
below.
The configuration parser supports the following special symbols:
* Comment symbol **#**. Any character from this symbol to the end of
line is treated as comment and will not be parsed.
* Line concatenation symbol **\\**. This symbol shall be placed in the end
of the line to be concatenated to the line below. Multiple lines'
concatenation is supported.
SP rule syntax
^^^^^^^^^^^^^^
The SP rule syntax is shown as follows:
.. code-block:: console
sp <ip_ver> <dir> esp <action> <priority> <src_ip> <dst_ip>
<proto> <sport> <dport>
where each options means:
``<ip_ver>``
* IP protocol version
* Optional: No
* Available options:
* *ipv4*: IP protocol version 4
* *ipv6*: IP protocol version 6
``<dir>``
* The traffic direction
* Optional: No
* Available options:
* *in*: inbound traffic
* *out*: outbound traffic
``<action>``
* IPsec action
* Optional: No
* Available options:
* *protect <SA_idx>*: the specified traffic is protected by SA rule
with id SA_idx
* *bypass*: the specified traffic traffic is bypassed
* *discard*: the specified traffic is discarded
``<priority>``
* Rule priority
* Optional: Yes, default priority 0 will be used
* Syntax: *pri <id>*
``<src_ip>``
* The source IP address and mask
* Optional: Yes, default address 0.0.0.0 and mask of 0 will be used
* Syntax:
* *src X.X.X.X/Y* for IPv4
* *src XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX/Y* for IPv6
``<dst_ip>``
* The destination IP address and mask
* Optional: Yes, default address 0.0.0.0 and mask of 0 will be used
* Syntax:
* *dst X.X.X.X/Y* for IPv4
* *dst XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX/Y* for IPv6
``<proto>``
* The protocol start and end range
* Optional: yes, default range of 0 to 0 will be used
* Syntax: *proto X:Y*
``<sport>``
* The source port start and end range
* Optional: yes, default range of 0 to 0 will be used
* Syntax: *sport X:Y*
``<dport>``
* The destination port start and end range
* Optional: yes, default range of 0 to 0 will be used
* Syntax: *dport X:Y*
Example SP rules:
.. code-block:: console
sp ipv4 out esp protect 105 pri 1 dst 192.168.115.0/24 sport 0:65535 \
dport 0:65535
sp ipv6 in esp bypass pri 1 dst 0000:0000:0000:0000:5555:5555:\
0000:0000/96 sport 0:65535 dport 0:65535
SA rule syntax
^^^^^^^^^^^^^^
The successfully parsed SA rules will be stored in an array table.
The SA rule syntax is shown as follows:
.. code-block:: console
sa <dir> <spi> <cipher_algo> <cipher_key> <auth_algo> <auth_key>
<mode> <src_ip> <dst_ip>
where each options means:
``<dir>``
* The traffic direction
* Optional: No
* Available options:
* *in*: inbound traffic
* *out*: outbound traffic
``<spi>``
* The SPI number
* Optional: No
* Syntax: unsigned integer number
``<cipher_algo>``
* Cipher algorithm
* Optional: Yes, unless <aead_algo> is not used
* Available options:
* *null*: NULL algorithm
* *aes-128-cbc*: AES-CBC 128-bit algorithm
* *aes-128-ctr*: AES-CTR 128-bit algorithm
* Syntax: *cipher_algo <your algorithm>*
``<cipher_key>``
* Cipher key, NOT available when 'null' algorithm is used
* Optional: Yes, unless <aead_algo> is not used.
Must be followed by <cipher_algo> option
* Syntax: Hexadecimal bytes (0x0-0xFF) concatenate by colon symbol ':'.
The number of bytes should be as same as the specified cipher algorithm
key size.
For example: *cipher_key A1:B2:C3:D4:A1:B2:C3:D4:A1:B2:C3:D4:
A1:B2:C3:D4*
``<auth_algo>``
* Authentication algorithm
* Optional: Yes, unless <aead_algo> is not used
* Available options:
* *null*: NULL algorithm
* *sha1-hmac*: HMAC SHA1 algorithm
``<auth_key>``
* Authentication key, NOT available when 'null' or 'aes-128-gcm' algorithm
is used.
* Optional: Yes, unless <aead_algo> is not used.
Must be followed by <auth_algo> option
* Syntax: Hexadecimal bytes (0x0-0xFF) concatenate by colon symbol ':'.
The number of bytes should be as same as the specified authentication
algorithm key size.
For example: *auth_key A1:B2:C3:D4:A1:B2:C3:D4:A1:B2:C3:D4:A1:B2:C3:D4:
A1:B2:C3:D4*
``<aead_algo>``
* AEAD algorithm
* Optional: Yes, unless <cipher_algo> and <auth_algo> are not used
* Available options:
* *aes-128-gcm*: AES-GCM 128-bit algorithm
* Syntax: *cipher_algo <your algorithm>*
``<aead_key>``
* Cipher key, NOT available when 'null' algorithm is used
* Optional: Yes, unless <cipher_algo> and <auth_algo> are not used.
Must be followed by <aead_algo> option
* Syntax: Hexadecimal bytes (0x0-0xFF) concatenate by colon symbol ':'.
The number of bytes should be as same as the specified AEAD algorithm
key size.
For example: *aead_key A1:B2:C3:D4:A1:B2:C3:D4:A1:B2:C3:D4:
A1:B2:C3:D4*
``<mode>``
* The operation mode
* Optional: No
* Available options:
* *ipv4-tunnel*: Tunnel mode for IPv4 packets
* *ipv6-tunnel*: Tunnel mode for IPv6 packets
* *transport*: transport mode
* Syntax: mode XXX
``<src_ip>``
* The source IP address. This option is not available when
transport mode is used
* Optional: Yes, default address 0.0.0.0 will be used
* Syntax:
* *src X.X.X.X* for IPv4
* *src XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX* for IPv6
``<dst_ip>``
* The destination IP address. This option is not available when
transport mode is used
* Optional: Yes, default address 0.0.0.0 will be used
* Syntax:
* *dst X.X.X.X* for IPv4
* *dst XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX* for IPv6
Example SA rules:
.. code-block:: console
sa out 5 cipher_algo null auth_algo null mode ipv4-tunnel \
src 172.16.1.5 dst 172.16.2.5
sa out 25 cipher_algo aes-128-cbc \
cipher_key c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3 \
auth_algo sha1-hmac \
auth_key c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3:c3 \
mode ipv6-tunnel \
src 1111:1111:1111:1111:1111:1111:1111:5555 \
dst 2222:2222:2222:2222:2222:2222:2222:5555
sa in 105 aead_algo aes-128-gcm \
aead_key de:ad:be:ef:de:ad:be:ef:de:ad:be:ef:de:ad:be:ef:de:ad:be:ef \
mode ipv4-tunnel src 172.16.2.5 dst 172.16.1.5
Routing rule syntax
^^^^^^^^^^^^^^^^^^^
The Routing rule syntax is shown as follows:
.. code-block:: console
rt <ip_ver> <src_ip> <dst_ip> <port>
where each options means:
``<ip_ver>``
* IP protocol version
* Optional: No
* Available options:
* *ipv4*: IP protocol version 4
* *ipv6*: IP protocol version 6
``<src_ip>``
* The source IP address and mask
* Optional: Yes, default address 0.0.0.0 and mask of 0 will be used
* Syntax:
* *src X.X.X.X/Y* for IPv4
* *src XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX/Y* for IPv6
``<dst_ip>``
* The destination IP address and mask
* Optional: Yes, default address 0.0.0.0 and mask of 0 will be used
* Syntax:
* *dst X.X.X.X/Y* for IPv4
* *dst XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX:XXXX/Y* for IPv6
``<port>``
* The traffic output port id
* Optional: yes, default output port 0 will be used
* Syntax: *port X*
Example SP rules:
.. code-block:: console
rt ipv4 dst 172.16.1.5/32 port 0
rt ipv6 dst 1111:1111:1111:1111:1111:1111:1111:5555/116 port 0
|