diff options
author | Maciek Konstantynowicz <mkonstan@cisco.com> | 2020-10-05 14:06:18 +0100 |
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committer | Tibor Frank <tifrank@cisco.com> | 2020-10-14 09:52:45 +0000 |
commit | ef9bab0a1b87871a8365e766a19971f0ec0b7ed8 (patch) | |
tree | 06b52d2bbbc841762f032429af19b6396e6c7018 | |
parent | f8f509571e8cc3fc8596f39ddd5118b4f2d85374 (diff) |
report: updates to methodology section including nat44, acl, ipsec
Change-Id: I13464728d903cba14feedd3cfb78226d50f3d4a1
Signed-off-by: Maciek Konstantynowicz <mkonstan@cisco.com>
-rw-r--r-- | docs/report/introduction/methodology.rst | 5 | ||||
-rw-r--r-- | docs/report/introduction/methodology_acls.rst (renamed from docs/report/introduction/methodology_vpp_features.rst) | 16 | ||||
-rw-r--r-- | docs/report/introduction/methodology_data_plane_throughput/methodology_data_plane_throughput.rst | 2 | ||||
-rw-r--r-- | docs/report/introduction/methodology_ipsec.rst | 52 | ||||
-rw-r--r-- | docs/report/introduction/methodology_ipsec_on_intel_qat.rst | 14 | ||||
-rw-r--r-- | docs/report/introduction/methodology_nat44.rst | 166 |
6 files changed, 225 insertions, 30 deletions
diff --git a/docs/report/introduction/methodology.rst b/docs/report/introduction/methodology.rst index 61752a4560..f62d415a7e 100644 --- a/docs/report/introduction/methodology.rst +++ b/docs/report/introduction/methodology.rst @@ -9,7 +9,9 @@ Test Methodology methodology_terminology methodology_vpp_forwarding_modes methodology_tunnel_encapsulations - methodology_vpp_features + methodology_ipsec + methodology_nat44 + methodology_acls methodology_data_plane_throughput/index methodology_packet_latency methodology_multi_core_speedup @@ -20,5 +22,4 @@ Test Methodology methodology_lxc_drc_container_memif methodology_nfv_service_density methodology_vpp_device_functional - methodology_ipsec_on_intel_qat methodology_trex_traffic_generator diff --git a/docs/report/introduction/methodology_vpp_features.rst b/docs/report/introduction/methodology_acls.rst index a19caa4428..512532fead 100644 --- a/docs/report/introduction/methodology_vpp_features.rst +++ b/docs/report/introduction/methodology_acls.rst @@ -1,5 +1,5 @@ -VPP Features ------------- +Access Control Lists +-------------------- VPP is tested in a number of data plane feature configurations across different forwarding modes. Following sections list features tested. @@ -66,15 +66,3 @@ entries and number of flows: - {F} - number of UDP flows with different tuple (dst-ip4, dst-mac), {F} = [100, 10k, 100k] - All {E}x{F} combinations are tested per ACL type, total of 9. - -NAT44 -~~~~~ - -NAT44 is tested in baseline and scale configurations with IPv4 routing: - -- *ip4base-nat44*: baseline test with single NAT entry (addr, port), - single UDP flow. -- *ip4base-udpsrcscale{U}-nat44*: baseline test with {U} NAT entries - (addr, {U}ports), {U}=15. -- *ip4scale{R}-udpsrcscale{U}-nat44*: scale tests with {R}*{U} NAT - entries ({R}addr, {U}ports), {R}=[100, 1k, 2k, 4k], {U}=15. diff --git a/docs/report/introduction/methodology_data_plane_throughput/methodology_data_plane_throughput.rst b/docs/report/introduction/methodology_data_plane_throughput/methodology_data_plane_throughput.rst index 3df54b3963..6389353a65 100644 --- a/docs/report/introduction/methodology_data_plane_throughput/methodology_data_plane_throughput.rst +++ b/docs/report/introduction/methodology_data_plane_throughput/methodology_data_plane_throughput.rst @@ -1,3 +1,5 @@ +.. _data_plane_throughput: + Data Plane Throughput Tests --------------------------- diff --git a/docs/report/introduction/methodology_ipsec.rst b/docs/report/introduction/methodology_ipsec.rst new file mode 100644 index 0000000000..ee0572ffc5 --- /dev/null +++ b/docs/report/introduction/methodology_ipsec.rst @@ -0,0 +1,52 @@ +Internet Protocol Security (IPsec) +---------------------------------- + +VPP IPsec performance tests are executed for the following crypto +plugins: + +- `crypto_native`, used for software based crypto leveraging CPU + platform optimizations e.g. Intel's AES-NI instruction set. +- `crypto_ipsecmb`, used for hardware based crypto with Intel QAT PCIe + cards. + +IPsec with VPP Native SW Crypto +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +Currently |csit-release| implements following IPsec test cases relying +on VPP native crypto (`crypto_native` plugin): + ++-------------------+------------------+----------------+------------------+ +| VPP Crypto Engine | ESP Encryption | ESP Integrity | Scale Tested | ++===================+===================+===============+==================+ +| crypto_native | AES[128|256]-GCM | GCM | 1 to 60k tunnels | ++-------------------+------------------+----------------+------------------+ +| crypto_native | AES128-CBC | SHA[256|512] | 1 to 60k tunnels | ++-------------------+------------------+----------------+------------------+ + +VPP IPsec with SW crypto are executed in both tunnel and policy modes, +with tests running on 3-node testbeds: 3n-hsw and 3n-skx. + +IPsec with Intel QAT HW +^^^^^^^^^^^^^^^^^^^^^^^ + +Currently |csit-release| implements following IPsec test cases relying +on ipsecmb library (`crypto_ipsecmb` plugin) and Intel QAT 8950 (50G HW +crypto card): + +dpdk_cryptodev + ++-------------------+---------------------+------------------+----------------+------------------+ +| VPP Crypto Engine | VPP Crypto Workers | ESP Encryption | ESP Integrity | Scale Tested | ++===================+=====================+==================+================+==================+ +| crypto_ipsecmb | sync/all workers | AES[128|256]-GCM | GCM | 1, 1k tunnels | ++-------------------+---------------------+------------------+----------------+------------------+ +| crypto_ipsecmb | sync/all workers | AES[128]-CBC | SHA[256|512] | 1, 1k tunnels | ++-------------------+---------------------+------------------+----------------+------------------+ +| crypto_ipsecmb | async/crypto worker | AES[128|256]-GCM | GCM | 1, 4, 1k tunnels | ++-------------------+---------------------+------------------+----------------+------------------+ +| crypto_ipsecmb | async/crypto worker | AES[128]-CBC | SHA[256|512] | 1, 4, 1k tunnels | ++-------------------+---------------------+------------------+----------------+------------------+ + +VPP IPsec with HW crypto are executed in both tunnel and policy modes, +with tests running on 3-node Haswell testbeds (3n-hsw), as these are the +only testbeds equipped with Intel QAT cards. diff --git a/docs/report/introduction/methodology_ipsec_on_intel_qat.rst b/docs/report/introduction/methodology_ipsec_on_intel_qat.rst deleted file mode 100644 index 54fb1b0ef2..0000000000 --- a/docs/report/introduction/methodology_ipsec_on_intel_qat.rst +++ /dev/null @@ -1,14 +0,0 @@ -IPSec on Intel QAT ------------------- - -VPP IPSec performance tests are using DPDK cryptodev device driver in -combination with HW cryptodev devices - Intel QAT 8950 50G - present in -LF FD.io physical testbeds. DPDK cryptodev can be used for all IPSec -data plane functions supported by VPP. - -Currently |csit-release| implements following IPSec test cases: - -- AES-GCM, CBC-SHA1 ciphers, in combination with IPv4 routed-forwarding - with Intel xl710 NIC. -- CBC-SHA1 ciphers, in combination with LISP-GPE overlay tunneling for - IPv4-over-IPv4 with Intel xl710 NIC. diff --git a/docs/report/introduction/methodology_nat44.rst b/docs/report/introduction/methodology_nat44.rst new file mode 100644 index 0000000000..5dc558f029 --- /dev/null +++ b/docs/report/introduction/methodology_nat44.rst @@ -0,0 +1,166 @@ +Network Address Translation IPv4 to IPv4 +---------------------------------------- + +NAT44 Prefix Bindings +^^^^^^^^^^^^^^^^^^^^^ + +NAT44 prefix bindings should be representative to target applications, +where a number of private IPv4 addresses from the range defined by +:rfc:`1918` is mapped to a smaller set of public IPv4 addresses from the +public range. + +Following quantities are used to describe inside to outside IP address +and port bindings scenarios: + +- inside-addresses, ports-per-inside-address, number of inside source + addresses (representing inside hosts) and number of TCP/UDP source + ports per inside source address. +- outside-addresses, number of outside (public) source addresses + allocated to NAT44. The maximal number of ports-per-outside-address + usable for NAT is 64 512 (in non-reserved port range 1024-65535, + :rfc:`4787`). +- sharing-ratio, equal to inside-addresses / outside-addresses. + +CSIT NAT44 tests are designed to take into account the maximum number of +ports (sessions) required per inside host (inside-address) and at the +same time to maximize the use of outside-address range by using all +available outside ports. With this in mind, the following scheme of +NAT44 sharing ratios has been devised for use in CSIT: + ++--------------------------+---------------+ +| ports-per-inside-address | sharing-ratio | ++==========================+===============+ +| 63 | 1024 | ++--------------------------+---------------+ +| 126 | 512 | ++--------------------------+---------------+ +| 252 | 256 | ++--------------------------+---------------+ +| 504 | 128 | ++--------------------------+---------------+ + +Initial CSIT NAT44 tests, including associated TG/TRex traffic profiles, +are based on ports-per-inside-address set to 63 and the sharing ratio of +1024. This approach is currently used for all NAT44 tests including +NAT44det (NAT44 deterministic used for Carrier Grade NAT applications) +and NAT44ed. + +.. + .. TODO:: + + Note that in the latter case, due to overloading of (ouside-address, + outside-port) tuple for different endpoint destinations the actual + sharing ratio is likely to different, as it will depend on the + destination addresses used by NAT'ed flows. + +Private address ranges to be used in tests: + +- 192.168.0.0 - 192.168.255.255 (192.168/16 prefix) + + - Total of 2^16 (65 536) of usable IPv4 addresses. + - Used in tests for up to 65 536 inside addresses (inside hosts). + +- 172.16.0.0 - 172.31.255.255 (172.16/12 prefix) + + - Total of 2^20 (1 048 576) of usable IPv4 addresses. + - Used in tests for up to 1 048 576 inside addresses (inside hosts). + +NAT44 Session Scale +~~~~~~~~~~~~~~~~~~~ + +NAT44 session scale tested is govern by the following logic: + +- Number of inside addresses/hosts H[i] = (H[i-1] x 2^2) with H(0)=1 024, i = 1,2,3, ... + + - H[i] = 1 024, 4 096, 16 384, 65 536, 262 144, 1 048 576, ... + +- Number of sessions S[i](ports-per-host) = H[i] * ports-per-inside-address + + - ports-per-host = 63 + ++---+---------+------------+ +| i | hosts | sessions | ++===+=========+============+ +| 0 | 1 024 | 64 512 | ++---+---------+------------+ +| 1 | 4 096 | 258 048 | ++---+---------+------------+ +| 2 | 16 384 | 1 032 192 | ++---+---------+------------+ +| 3 | 65 536 | 4 128 768 | ++---+---------+------------+ +| 4 | 262 144 | 16 515 072 | ++---+---------+------------+ + +NAT44 Deterministic +^^^^^^^^^^^^^^^^^^^ + +NAT44det throughput tests are using TRex STL (Stateless) API and traffic +profiles, similar to all other stateless packet forwarding tests like +ip4, ip6 and l2, sending UDP packets in both directions +inside-to-outside and outside-to-inside. See +:ref:`data_plane_throughput` for more detail. + +NAT44det translation entries are created during the ramp-up phase +preceding the throughput test, followed by verification that all entries +are present, before proceeding to the throughput test. This ensures +session setup does not impact the forwarding performance test. + +Associated CSIT test cases use the following naming scheme to indicate +NAT44det scenario tested: + +- ethip4udp-nat44det-h{H}-p{P}-s{S}-[mrr|ndrpdr|soak] + + - {H}, number of inside hosts, H = 1024, 4096, 16384, 65536, 262144. + - {P}, number of ports per inside host, P = 63. + - {S}, number of sessions, S = 64512, 258048, 1032192, 4128768, + 16515072. + - [mrr|ndrpdr|soak], MRR, NDRPDR or SOAK test. + +NAT44 Endpoint-Dependent +^^^^^^^^^^^^^^^^^^^^^^^^ + +NAT44ed is benchmarked using following methodologies: + +- Uni-directional throughput using *stateless* traffic profile. +- Connections-per-second using *stateful* traffic profile. +- Bi-directional throughput using *stateful* traffic profile. + +Uni-directional NAT44ed throughput tests are using TRex STL (Stateless) +APIs and traffic profiles, but with packets sent only in +inside-to-outside direction. Due to indeterministic bindings of outside +to inside (src_addr,src_port) that are created dynamically at flow start +bidirectional testing is not possible with stateless traffic profiles. +See :ref:`data_plane_throughput` for more detail. + +Similarly to NAT44det, NAT44ed uni-directional throughput tests include +a ramp-up phase to establish and verify the presence of required NAT44ed +binding entries. NAT44ed CPS (connections-per-second) and throughput / +PPS stateful tests do not have a ramp-up phase. + +Stateful NAT44ed tests are using TRex ASTF (Advanced Stateful) APIs and +traffic profiles, with packets sent in both directions. Tests are run +with both UDP and TCP/IP sessions. + +Associated CSIT test cases use the following naming scheme to indicate +NAT44DET case tested: + +- Stateless: ethip4udp-nat44ed-h{H}-p{P}-s{S}-udir-[mrr|ndrpdr|soak] + + - {H}, number of inside hosts, H = 1024, 4096, 16384, 65536, 262144. + - {P}, number of ports per inside host, P = 63. + - {S}, number of sessions, S = 64512, 258048, 1032192, 4128768, + 16515072. + - udir-[mrr|ndrpdr|soak], unidirectional stateless tests MRR, NDRPDR + or SOAK. + +- Stateful: ethip4[udp|tcp]-nat44ed-h{H}-p{P}-s{S}-[cps|pps]-[mrr|ndrpdr] + + - [udp|tcp], UDP or TCP/IP sessions + - {H}, number of inside hosts, H = 1024, 4096, 16384, 65536, 262144. + - {P}, number of ports per inside host, P = 63. + - {S}, number of sessions, S = 64512, 258048, 1032192, 4128768, + 16515072. + - [cps|pps], connections-per-second session establishment rate or + packets-per-second throughput rate. + - [mrr|ndrpdr], bidirectional stateful tests MRR, NDRPDR. |