-# Copyright (c) 2016 Cisco and/or its affiliates.
+# Copyright (c) 2019 Cisco and/or its affiliates.
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
# See the License for the specific language governing permissions and
# limitations under the License.
+"""Classify utilities library."""
+
+import binascii
+import re
+
+from ipaddress import ip_address
from robot.api import logger
-from resources.libraries.python.VatExecutor import VatExecutor, VatTerminal
+from resources.libraries.python.topology import Topology
+from resources.libraries.python.PapiExecutor import PapiSocketExecutor
class Classify(object):
"""Classify utilities."""
@staticmethod
- def vpp_creates_classify_table_l3(node, ip_version, direction):
+ def _build_mac_mask(dst_mac='', src_mac='', ether_type=''):
+ """Build MAC ACL mask data in hexstring format.
+
+ :param dst_mac: Source MAC address <0-ffffffffffff>.
+ :param src_mac: Destination MAC address <0-ffffffffffff>.
+ :param ether_type: Ethernet type <0-ffff>.
+ :type dst_mac: str
+ :type src_mac: str
+ :type ether_type: str
+ :returns MAC ACL mask in hexstring format.
+ :rtype: str
+ """
+ if ether_type:
+ end = 28
+ elif src_mac:
+ end = 24
+ else:
+ end = 12
+
+ return ('{!s:0>12}{!s:0>12}{!s:0>4}'.format(
+ dst_mac.replace(':', ''), src_mac.replace(':', ''),
+ ether_type))[0:end]
+
+ @staticmethod
+ def _build_ip_mask(proto='', src_ip='', dst_ip='', src_port='',
+ dst_port=''):
+ """Build IP ACL mask data in hexstring format.
+
+ :param proto: Protocol number <0-ff>.
+ :param src_ip: Source ip address <0-ffffffff>.
+ :param dst_ip: Destination ip address <0-ffffffff>.
+ :param src_port: Source port number <0-ffff>.
+ :param str dst_port: Destination port number <0-ffff>.
+ :type proto: str
+ :type src_ip: str
+ :type dst_ip: str
+ :type src_port: str
+ :type dst_port:src
+ :returns: IP mask in hexstring format.
+ :rtype: str
+ """
+ if dst_port:
+ end = 48
+ elif src_port:
+ end = 44
+ elif dst_ip:
+ end = 40
+ elif src_ip:
+ end = 32
+ else:
+ end = 20
+
+ return ('{!s:0>20}{!s:0>12}{!s:0>8}{!s:0>4}{!s:0>4}'.format(
+ proto, src_ip, dst_ip, src_port, dst_port))[0:end]
+
+ @staticmethod
+ def _build_ip6_mask(next_hdr='', src_ip='', dst_ip='', src_port='',
+ dst_port=''):
+ """Build IPv6 ACL mask data in hexstring format.
+
+ :param next_hdr: Next header number <0-ff>.
+ :param src_ip: Source ip address <0-ffffffff>.
+ :param dst_ip: Destination ip address <0-ffffffff>.
+ :param src_port: Source port number <0-ffff>.
+ :param dst_port: Destination port number <0-ffff>.
+ :type next_hdr: str
+ :type src_ip: str
+ :type dst_ip: str
+ :type src_port: str
+ :type dst_port: str
+ :returns: IPv6 ACL mask in hexstring format.
+ :rtype: str
+ """
+ if dst_port:
+ end = 88
+ elif src_port:
+ end = 84
+ elif dst_ip:
+ end = 80
+ elif src_ip:
+ end = 48
+ else:
+ end = 14
+
+ return ('{!s:0>14}{!s:0>34}{!s:0>32}{!s:0>4}{!s:0>4}'.format(
+ next_hdr, src_ip, dst_ip, src_port, dst_port))[0:end]
+
+ @staticmethod
+ def _build_mac_match(dst_mac='', src_mac='', ether_type=''):
+ """Build MAC ACL match data in hexstring format.
+
+ :param dst_mac: Source MAC address <x:x:x:x:x:x>.
+ :param src_mac: Destination MAC address <x:x:x:x:x:x>.
+ :param ether_type: Ethernet type <0-ffff>.
+ :type dst_mac: str
+ :type src_mac: str
+ :type ether_type: str
+ :returns: MAC ACL match data in hexstring format.
+ :rtype: str
+ """
+ if ether_type:
+ end = 28
+ elif src_mac:
+ end = 24
+ else:
+ end = 12
+
+ return ('{!s:0>12}{!s:0>12}{!s:0>4}'.format(
+ dst_mac.replace(':', ''), src_mac.replace(':', ''),
+ ether_type))[0:end]
+
+ @staticmethod
+ def _build_ip_match(proto=0, src_ip='', dst_ip='', src_port=0, dst_port=0):
+ """Build IP ACL match data in hexstring format.
+
+ :param proto: Protocol number with valid option "x".
+ :param src_ip: Source ip address with format of "x.x.x.x".
+ :param dst_ip: Destination ip address with format of "x.x.x.x".
+ :param src_port: Source port number "x".
+ :param dst_port: Destination port number "x".
+ :type proto: int
+ :type src_ip: str
+ :type dst_ip: str
+ :type src_port: int
+ :type dst_port: int
+ :returns: IP ACL match data in hexstring format.
+ :rtype: str
+ """
+ if src_ip:
+ src_ip = binascii.hexlify(ip_address(unicode(src_ip)).packed)
+ if dst_ip:
+ dst_ip = binascii.hexlify(ip_address(unicode(dst_ip)).packed)
+ if dst_port:
+ end = 48
+ elif src_port:
+ end = 44
+ elif dst_ip:
+ end = 40
+ elif src_ip:
+ end = 32
+ else:
+ end = 20
+
+ return ('{!s:0>20}{!s:0>12}{!s:0>8}{!s:0>4}{!s:0>4}'.format(
+ hex(proto)[2:], src_ip, dst_ip, hex(src_port)[2:],
+ hex(dst_port)[2:]))[0:end]
+
+ @staticmethod
+ def _build_ip6_match(next_hdr=0, src_ip='', dst_ip='', src_port=0,
+ dst_port=0):
+ """Build IPv6 ACL match data in hexstring format.
+
+ :param next_hdr: Next header number with valid option "x".
+ :param src_ip: Source ip6 address with format of "xxxx:xxxx::xxxx".
+ :param dst_ip: Destination ip6 address with format of
+ "xxxx:xxxx::xxxx".
+ :param src_port: Source port number "x".
+ :param dst_port: Destination port number "x".
+ :type next_hdr: int
+ :type src_ip: str
+ :type dst_ip: str
+ :type src_port: int
+ :type dst_port: int
+ :returns: IPv6 ACL match data in hexstring format.
+ :rtype: str
+ """
+ if src_ip:
+ src_ip = binascii.hexlify(ip_address(unicode(src_ip)).packed)
+ if dst_ip:
+ dst_ip = binascii.hexlify(ip_address(unicode(dst_ip)).packed)
+ if dst_port:
+ end = 88
+ elif src_port:
+ end = 84
+ elif dst_ip:
+ end = 80
+ elif src_ip:
+ end = 48
+ else:
+ end = 14
+
+ return ('{!s:0>14}{!s:0>34}{!s:0>32}{!s:0>4}{!s:0>4}'.format(
+ hex(next_hdr)[2:], src_ip, dst_ip, hex(src_port)[2:],
+ hex(dst_port)[2:]))[0:end]
+
+ @staticmethod
+ def _classify_add_del_table(node, is_add, mask, match_n_vectors=1,
+ table_index=0xFFFFFFFF, nbuckets=2,
+ memory_size=2097152, skip_n_vectors=0,
+ next_table_index=0xFFFFFFFF,
+ miss_next_index=0xFFFFFFFF, current_data_flag=0,
+ current_data_offset=0):
+ """Add or delete a classify table.
+
+ :param node: VPP node to create classify table.
+ :param is_add: If 1 the table is added, if 0 the table is deleted.
+ :param mask: ACL mask in hexstring format.
+ :param match_n_vectors: Number of vectors to match (Default value = 1).
+ :param table_index: Index of the classify table.
+ (Default value = 0xFFFFFFFF)
+ :param nbuckets: Number of buckets when adding a table.
+ (Default value = 2)
+ :param memory_size: Memory size when adding a table.
+ (Default value = 2097152)
+ :param skip_n_vectors: Number of skip vectors (Default value = 0).
+ :param next_table_index: Index of next table.
+ (Default value = 0xFFFFFFFF)
+ :param miss_next_index: Index of miss table.
+ (Default value = 0xFFFFFFFF)
+ :param current_data_flag: Option to use current node's packet payload
+ as the starting point from where packets are classified.
+ This option is only valid for L2/L3 input ACL for now.
+ 0: by default, classify data from the buffer's start location
+ 1: classify packets from VPP node's current data pointer.
+ :param current_data_offset: A signed value to shift the start location
+ of the packet to be classified.
+ For example, if input IP ACL node is used, L2 header's first byte
+ can be accessible by configuring current_data_offset to -14
+ if there is no vlan tag.
+ This is valid only if current_data_flag is set to 1.
+ (Default value = 0)
+ :type node: dict
+ :type is_add: int
+ :type mask: str
+ :type match_n_vectors: int
+ :type table_index: int
+ :type nbuckets: int
+ :type memory_size: int
+ :type skip_n_vectors: int
+ :type next_table_index: int
+ :type miss_next_index: int
+ :type current_data_flag: int
+ :type current_data_offset: int
+ :returns: (table_index, skip_n, match_n)
+ table_index: Classify table index.
+ skip_n: Number of skip vectors.
+ match_n: Number of match vectors.
+ :rtype: tuple(int, int, int)
+ """
+ mask_len = ((len(mask) - 1) / 16 + 1) * 16
+ mask = mask + '\0' * (mask_len - len(mask))
+
+ args = dict(
+ is_add=is_add,
+ table_index=table_index,
+ nbuckets=nbuckets,
+ memory_size=memory_size,
+ skip_n_vectors=skip_n_vectors,
+ match_n_vectors=match_n_vectors,
+ next_table_index=next_table_index,
+ miss_next_index=miss_next_index,
+ current_data_flag=current_data_flag,
+ current_data_offset=current_data_offset,
+ mask_len=mask_len,
+ mask=mask
+ )
+
+ cmd = 'classify_add_del_table'
+ err_msg = "Failed to create a classify table on host {host}".format(
+ host=node['host'])
+
+ with PapiSocketExecutor(node) as papi_exec:
+ reply = papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ return int(reply["new_table_index"]), int(reply["skip_n_vectors"]),\
+ int(reply["match_n_vectors"])
+
+ @staticmethod
+ def _classify_add_del_session(node, is_add, table_index, match,
+ opaque_index=0xFFFFFFFF,
+ hit_next_index=0xFFFFFFFF, advance=0,
+ action=0, metadata=0):
+ """Add or delete a classify session.
+
+ :param node: VPP node to create classify session.
+ :param is_add: If 1 the session is added, if 0 the session is deleted.
+ :param table_index: Index of the table to add/del the session.
+ :param match: For add, match value for session, required, needs to
+ include bytes in front with length of skip_n_vectors of target table
+ times sizeof (u32x4) (values of those bytes will be ignored).
+ :param opaque_index: For add, opaque_index of new session.
+ (Default value = 0xFFFFFFFF)
+ :param hit_next_index: For add, hit_next_index of new session.
+ (Default value = 0xFFFFFFFF)
+ :param advance: For add, advance value for session. (Default value = 0)
+ :param action: 0: No action (by default) metadata is not used.
+ 1: Classified IP packets will be looked up from the specified ipv4
+ fib table (configured by metadata as VRF id).
+ Only valid for L3 input ACL node
+ 2: Classified IP packets will be looked up from the specified ipv6
+ fib table (configured by metadata as VRF id).
+ Only valid for L3 input ACL node
+ 3: Classified packet will be steered to source routig policy of
+ given index (in metadata).
+ This is only valid for IPv6 packets redirected to a source
+ routing node.
+ :param metadata: Valid only if action != 0
+ VRF id if action is 1 or 2. SR policy index if action is 3.
+ (Default value = 0)
+ :type node: dict
+ :type is_add: int
+ :type table_index: int
+ :type match: str
+ :type opaque_index: int
+ :type hit_next_index: int
+ :type advance: int
+ :type action: int
+ :type metadata: int
+ """
+
+ match_len = ((len(match) - 1) / 16 + 1) * 16
+ match = match + '\0' * (match_len - len(match))
+ args = dict(
+ is_add=is_add,
+ table_index=table_index,
+ hit_next_index=hit_next_index,
+ opaque_index=opaque_index,
+ advance=advance,
+ action=action,
+ metadata=metadata,
+ match_len=match_len,
+ match=match
+ )
+ cmd = 'classify_add_del_session'
+ err_msg = "Failed to create a classify session on host {host}".format(
+ host=node['host'])
+
+ with PapiSocketExecutor(node) as papi_exec:
+ papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ @staticmethod
+ def _macip_acl_add(node, rules, tag=""):
+ """Add MACIP ACL.
+
+ :param node: VPP node to add MACIP ACL.
+ :param rules: List of rules for given ACL.
+ :param tag: ACL tag.
+ :type node: dict
+ :type rules: list
+ :type tag: str
+ """
+ cmd = "macip_acl_add"
+ args = dict(
+ r=rules,
+ count=len(rules),
+ tag=tag
+ )
+
+ err_msg = "Failed to create a classify session on host {host}".format(
+ host=node['host'])
+
+ with PapiSocketExecutor(node) as papi_exec:
+ papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ @staticmethod
+ def _acl_interface_set_acl_list(node, sw_if_index, acl_type, acls):
+ """Set ACL list for interface.
+
+ :param node: VPP node to set ACL list for interface.
+ :param sw_if_index: sw_if_index of the used interface.
+ :param acl_type: Type of ACL(s) - input or output.
+ :param acls: List of ACLs.
+ :type node: dict
+ :type sw_if_index: int
+ :type acl_type: str
+ :type acls: list
+ """
+ cmd = "acl_interface_set_acl_list"
+ n_input = len(acls) if acl_type == "input" else 0
+ args = dict(
+ sw_if_index=sw_if_index,
+ acls=acls,
+ n_input=n_input,
+ count=len(acls)
+ )
+
+ err_msg = "Failed to set acl list for interface {idx} on host {host}".\
+ format(idx=sw_if_index, host=node['host'])
+
+ with PapiSocketExecutor(node) as papi_exec:
+ papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ @staticmethod
+ def _acl_add_replace(node, acl_idx, rules, tag=""):
+ """ Add/replace ACLs.
+
+ :param node: VPP node to add MACIP ACL.
+ :param acl_idx: ACL index.
+ :param rules: List of rules for given ACL.
+ :param tag: ACL tag.
+ :type node: dict
+ :type acl_idx: int
+ :type rules: list
+ :type tag: str
+ """
+ cmd = "acl_add_replace"
+ args = dict(
+ tag=tag.encode("utf-8"),
+ acl_index=4294967295 if acl_idx is None else acl_idx,
+ count=len(rules),
+ r=rules
+ )
+
+ err_msg = "Failed to add/replace acls on host {host}".format(
+ host=node['host'])
+
+ with PapiSocketExecutor(node) as papi_exec:
+ papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ @staticmethod
+ def vpp_creates_classify_table_l3(node, ip_version, direction, ip_addr):
"""Create classify table for IP address filtering.
:param node: VPP node to create classify table.
:param ip_version: Version of IP protocol.
:param direction: Direction of traffic - src/dst.
+ :param ip_addr: IPv4 or Ipv6 (depending on the parameter 'ip_version')
+ address.
:type node: dict
:type ip_version: str
:type direction: str
- :return (table_index, skip_n, match_n)
- table_index: Classify table index.
- skip_n: Number of skip vectors.
- match_n: Number of match vectors.
+ :type ip_addr: str
+ :returns: (table_index, skip_n, match_n)
+ table_index: Classify table index.
+ skip_n: Number of skip vectors.
+ match_n: Number of match vectors.
:rtype: tuple(int, int, int)
- :raises RuntimeError: If VPP can't create table.
+ :raises ValueError: If the parameters 'ip_version' or 'direction' have
+ incorrect values.
"""
- output = VatExecutor.cmd_from_template(node, "classify_add_table.vat",
- ip_version=ip_version,
- direction=direction)
-
- if output[0]["retval"] == 0:
- table_index = output[0]["new_table_index"]
- skip_n = output[0]["skip_n_vectors"]
- match_n = output[0]["match_n_vectors"]
- logger.trace('Classify table with table_index {} created on node {}'
- .format(table_index, node['host']))
+ mask_f = dict(
+ ip4=Classify._build_ip_mask,
+ ip6=Classify._build_ip6_mask
+ )
+ if ip_version == "ip4" or ip_version == "ip6":
+ ip_addr = binascii.hexlify(ip_address(unicode(ip_addr)).packed)
else:
- raise RuntimeError('Unable to create classify table on node {}'
- .format(node['host']))
+ raise ValueError("IP version {ver} is not supported.".
+ format(ver=ip_version))
- return table_index, skip_n, match_n
+ if direction == "src":
+ mask = mask_f[ip_version](src_ip=ip_addr)
+ elif direction == "dst":
+ mask = mask_f[ip_version](dst_ip=ip_addr)
+ else:
+ raise ValueError("Direction {dir} is not supported.".
+ format(dir=direction))
+
+ return Classify._classify_add_del_table(
+ node,
+ is_add=1,
+ mask=binascii.unhexlify(mask),
+ match_n_vectors=(len(mask) - 1) // 32 + 1
+ )
@staticmethod
- def vpp_creates_classify_table_l2(node, direction):
+ def vpp_creates_classify_table_l2(node, direction, mac=""):
"""Create classify table for MAC address filtering.
:param node: VPP node to create classify table.
:param direction: Direction of traffic - src/dst.
+ :param mac: Source or destination (depending on the parameter
+ 'direction') MAC address.
:type node: dict
:type direction: str
- :return (table_index, skip_n, match_n)
- table_index: Classify table index.
- skip_n: Number of skip vectors.
- match_n: Number of match vectors.
+ :type mac: str
+ :returns: (table_index, skip_n, match_n)
+ table_index: Classify table index.
+ skip_n: Number of skip vectors.
+ match_n: Number of match vectors.
:rtype: tuple(int, int, int)
- :raises RuntimeError: If VPP can't create table.
+ :raises ValueError: If the parameter 'direction' has incorrect value.
"""
- output = VatExecutor.cmd_from_template(node,
- "classify_add_table_l2.vat",
- direction=direction)
-
- if output[0]["retval"] == 0:
- table_index = output[0]["new_table_index"]
- skip_n = output[0]["skip_n_vectors"]
- match_n = output[0]["match_n_vectors"]
- logger.trace('Classify table with table_index {} created on node {}'
- .format(table_index, node['host']))
+ if direction == "src":
+ mask = Classify._build_mac_mask(src_mac=mac)
+ elif direction == "dst":
+ mask = Classify._build_mac_mask(dst_mac=mac)
else:
- raise RuntimeError('Unable to create classify table on node {}'
- .format(node['host']))
+ raise ValueError("Direction {dir} is not supported.".
+ format(dir=direction))
- return table_index, skip_n, match_n
+ return Classify._classify_add_del_table(
+ node,
+ is_add=1,
+ mask=binascii.unhexlify(mask),
+ match_n_vectors=(len(mask) - 1) // 32 + 1
+ )
@staticmethod
def vpp_creates_classify_table_hex(node, hex_mask):
:param hex_mask: Classify hex mask.
:type node: dict
:type hex_mask: str
- :return (table_index, skip_n, match_n)
- table_index: Classify table index.
- skip_n: Number of skip vectors.
- match_n: Number of match vectors.
+ :returns: (table_index, skip_n, match_n)
+ table_index: Classify table index.
+ skip_n: Number of skip vectors.
+ match_n: Number of match vectors.
:rtype: tuple(int, int, int)
- :raises RuntimeError: If VPP can't create table.
"""
- output = VatExecutor.cmd_from_template(node,
- "classify_add_table_hex.vat",
- hex_mask=hex_mask)
-
- if output[0]["retval"] == 0:
- table_index = output[0]["new_table_index"]
- skip_n = output[0]["skip_n_vectors"]
- match_n = output[0]["match_n_vectors"]
- logger.trace('Classify table with table_index {} created on node {}'
- .format(table_index, node['host']))
- else:
- raise RuntimeError('Unable to create classify table on node {}'
- .format(node['host']))
-
- return table_index, skip_n, match_n
+ return Classify._classify_add_del_table(
+ node,
+ is_add=1,
+ mask=binascii.unhexlify(hex_mask),
+ match_n_vectors=(len(hex_mask) - 1) // 32 + 1
+ )
@staticmethod
- def vpp_configures_classify_session_l3(node, acl_method, table_index, skip_n,
- match_n, ip_version, direction,
- address):
+ def vpp_configures_classify_session_l3(node, acl_method, table_index,
+ ip_version, direction, address):
"""Configuration of classify session for IP address filtering.
:param node: VPP node to setup classify session.
:param acl_method: ACL method - deny/permit.
:param table_index: Classify table index.
- :param skip_n: Number of skip vectors based on mask.
- :param match_n: Number of match vectors based on mask.
:param ip_version: Version of IP protocol.
:param direction: Direction of traffic - src/dst.
:param address: IPv4 or IPv6 address.
:type node: dict
:type acl_method: str
:type table_index: int
- :type skip_n: int
- :type match_n: int
:type ip_version: str
:type direction: str
:type address: str
+ :raises ValueError: If the parameter 'direction' has incorrect value.
"""
- with VatTerminal(node) as vat:
- vat.vat_terminal_exec_cmd_from_template("classify_add_session.vat",
- acl_method=acl_method,
- table_index=table_index,
- skip_n=skip_n,
- match_n=match_n,
- ip_version=ip_version,
- direction=direction,
- address=address)
+ match_f = dict(
+ ip4=Classify._build_ip_match,
+ ip6=Classify._build_ip6_match
+ )
+ if direction == "src":
+ match = match_f[ip_version](src_ip=address)
+ elif direction == "dst":
+ match = match_f[ip_version](dst_ip=address)
+ else:
+ raise ValueError("Direction {dir} is not supported.".
+ format(dir=direction))
+ action = dict(
+ permit=0,
+ deny=1
+ )
+ Classify._classify_add_del_session(
+ node,
+ is_add=1,
+ table_index=table_index,
+ match=binascii.unhexlify(match),
+ action=action[acl_method])
@staticmethod
- def vpp_configures_classify_session_l2(node, acl_method, table_index, skip_n,
- match_n, direction, address):
+ def vpp_configures_classify_session_l2(node, acl_method, table_index,
+ direction, address):
"""Configuration of classify session for MAC address filtering.
:param node: VPP node to setup classify session.
:param acl_method: ACL method - deny/permit.
:param table_index: Classify table index.
- :param skip_n: Number of skip vectors based on mask.
- :param match_n: Number of match vectors based on mask.
:param direction: Direction of traffic - src/dst.
- :param address: IPv4 or IPv6 address.
+ :param address: MAC address.
:type node: dict
:type acl_method: str
:type table_index: int
- :type skip_n: int
- :type match_n: int
:type direction: str
:type address: str
+ :raises ValueError: If the parameter 'direction' has incorrect value.
"""
- with VatTerminal(node) as vat:
- vat.vat_terminal_exec_cmd_from_template("classify_add_session_l2.vat",
- acl_method=acl_method,
- table_index=table_index,
- skip_n=skip_n,
- match_n=match_n,
- direction=direction,
- address=address)
+ if direction == "src":
+ match = Classify._build_mac_match(src_mac=address)
+ elif direction == "dst":
+ match = Classify._build_mac_match(dst_mac=address)
+ else:
+ raise ValueError("Direction {dir} is not supported.".
+ format(dir=direction))
+ action = dict(
+ permit=0,
+ deny=1
+ )
+ Classify._classify_add_del_session(
+ node,
+ is_add=1,
+ table_index=table_index,
+ match=binascii.unhexlify(match),
+ action=action[acl_method])
@staticmethod
def vpp_configures_classify_session_hex(node, acl_method, table_index,
- skip_n, match_n, hex_value):
+ hex_value):
"""Configuration of classify session with hex value.
:param node: VPP node to setup classify session.
:param acl_method: ACL method - deny/permit.
:param table_index: Classify table index.
- :param skip_n: Number of skip vectors based on mask.
- :param match_n: Number of match vectors based on mask.
:param hex_value: Classify hex value.
:type node: dict
:type acl_method: str
:type table_index: int
- :type skip_n: int
- :type match_n: int
:type hex_value: str
"""
- with VatTerminal(node) as vat:
- vat.vat_terminal_exec_cmd_from_template(
- "classify_add_session_hex.vat",
- acl_method=acl_method,
- table_index=table_index,
- skip_n=skip_n,
- match_n=match_n,
- hex_value=hex_value)
+ action = dict(
+ permit=0,
+ deny=1
+ )
+ Classify._classify_add_del_session(
+ node,
+ is_add=1,
+ table_index=table_index,
+ match=binascii.unhexlify(hex_value),
+ action=action[acl_method])
@staticmethod
def compute_classify_hex_mask(ip_version, protocol, direction):
:type ip_version: str
:type protocol: str
:type direction: str
- :return: Classify hex mask.
- :rtype : str
+ :returns: Classify hex mask.
+ :rtype: str
:raises ValueError: If protocol is not TCP or UDP.
:raises ValueError: If direction is not source or destination or
- source + destination.
+ source + destination.
"""
- if protocol == 'TCP' or protocol == 'UDP':
+ if protocol in ('TCP', 'UDP'):
base_mask = Classify._compute_base_mask(ip_version)
if direction == 'source':
:type hex_mask: str
:type source_port: str
:type destination_port: str
- :return: Classify hex value.
+ :returns: Classify hex value.
:rtype: str
"""
source_port_hex = Classify._port_convert(source_port)
:param port: TCP/UDP port number.
:type port: str
- :return: TCP/UDP port number in 4-digit hexadecimal format.
+ :returns: TCP/UDP port number in 4-digit hexadecimal format.
:rtype: str
"""
return '{0:04x}'.format(int(port))
:param ip_version: Version of IP protocol.
:type ip_version: str
- :return: Base hex mask.
+ :returns: Base hex mask.
:rtype: str
"""
if ip_version == 'ip4':
:param table_index: Index of a specific classify table.
:type node: dict
:type table_index: int
- :return: Classify table settings.
+ :returns: Classify table settings.
:rtype: dict
"""
- with VatTerminal(node) as vat:
- data = vat.vat_terminal_exec_cmd_from_template(
- "classify_table_info.vat",
- table_id=table_index
- )
- return data[0]
+ cmd = 'classify_table_info'
+ err_msg = "Failed to get 'classify_table_info' on host {host}".format(
+ host=node['host'])
+ args = dict(
+ table_id=int(table_index)
+ )
+ with PapiSocketExecutor(node) as papi_exec:
+ reply = papi_exec.add(cmd, **args).get_reply(err_msg)
+ return reply
@staticmethod
- def get_classify_session_data(node, table_index, session_index=None):
- """Retrieve settings for all classify sessions in a table,
- or for a specific classify session.
+ def get_classify_session_data(node, table_index):
+ """Retrieve settings for all classify sessions in a table.
:param node: VPP node to retrieve classify data from.
:param table_index: Index of a classify table.
- :param session_index: Index of a specific classify session. (Optional)
:type node: dict
:type table_index: int
- :type session_index: int
- :return: List of classify session settings, or a dictionary of settings
- for a specific classify session.
+ :returns: List of classify session settings.
:rtype: list or dict
"""
- with VatTerminal(node) as vat:
- data = vat.vat_terminal_exec_cmd_from_template(
- "classify_session_dump.vat",
- table_id=table_index
- )
- if session_index is not None:
- return data[0][session_index]
+ cmd = "classify_session_dump"
+ args = dict(
+ table_id=int(table_index)
+ )
+ with PapiSocketExecutor(node) as papi_exec:
+ details = papi_exec.add(cmd, **args).get_details()
+
+ return details
+
+ @staticmethod
+ def vpp_log_plugin_acl_settings(node):
+ """Retrieve configured settings from the ACL plugin and write to robot
+ log.
+
+ :param node: VPP node.
+ :type node: dict
+ """
+ PapiSocketExecutor.dump_and_log(node, ["acl_dump", ])
+
+ @staticmethod
+ def vpp_log_plugin_acl_interface_assignment(node):
+ """Retrieve interface assignment from the ACL plugin and write to robot
+ log.
+
+ :param node: VPP node.
+ :type node: dict
+ """
+ PapiSocketExecutor.dump_and_log(node, ["acl_interface_list_dump", ])
+
+ @staticmethod
+ def set_acl_list_for_interface(node, interface, acl_type, acl_idx=None):
+ """Set the list of input or output ACLs applied to the interface. It
+ unapplies any previously applied ACLs.
+
+ :param node: VPP node to set ACL on.
+ :param interface: Interface name or sw_if_index.
+ :param acl_type: Type of ACL(s) - input or output.
+ :param acl_idx: Index(ies) of ACLs to be applied on the interface.
+ :type node: dict
+ :type interface: str or int
+ :type acl_type: str
+ :type acl_idx: list
+ """
+ if isinstance(interface, basestring):
+ sw_if_index = Topology.get_interface_sw_index(node, interface)
+ else:
+ sw_if_index = int(interface)
+
+ acls = acl_idx if isinstance(acl_idx, list) else list()
+
+ Classify._acl_interface_set_acl_list(node=node,
+ sw_if_index=sw_if_index,
+ acl_type=acl_type,
+ acls=acls)
+
+ @staticmethod
+ def add_replace_acl_multi_entries(node, acl_idx=None, rules=None, tag=""):
+ """Add a new ACL or replace the existing one. To replace an existing
+ ACL, pass the ID of this ACL.
+
+ :param node: VPP node to set ACL on.
+ :param acl_idx: ID of ACL. (Optional)
+ :param rules: Required rules. (Optional)
+ :param tag: ACL tag (Optional).
+ :type node: dict
+ :type acl_idx: int
+ :type rules: str
+ :type tag: str
+ """
+ reg_ex_src_ip = re.compile(r'(src [0-9a-fA-F.:/\d{1,2}]*)')
+ reg_ex_dst_ip = re.compile(r'(dst [0-9a-fA-F.:/\d{1,2}]*)')
+ reg_ex_sport = re.compile(r'(sport \d{1,5})')
+ reg_ex_dport = re.compile(r'(dport \d{1,5})')
+ reg_ex_proto = re.compile(r'(proto \d{1,5})')
+
+ acl_rules = list()
+ for rule in rules.split(", "):
+ acl_rule = dict()
+ acl_rule["is_permit"] = 1 if "permit" in rule else 0
+ acl_rule["is_ipv6"] = 1 if "ipv6" in rule else 0
+
+ groups = re.search(reg_ex_src_ip, rule)
+ if groups:
+ grp = groups.group(1).split(' ')[1].split('/')
+ acl_rule["src_ip_addr"] = ip_address(unicode(grp[0])).packed
+ acl_rule["src_ip_prefix_len"] = int(grp[1])
+
+ groups = re.search(reg_ex_dst_ip, rule)
+ if groups:
+ grp = groups.group(1).split(' ')[1].split('/')
+ acl_rule["dst_ip_addr"] = ip_address(unicode(grp[0])).packed
+ acl_rule["dst_ip_prefix_len"] = int(grp[1])
+
+ groups = re.search(reg_ex_sport, rule)
+ if groups:
+ port = int(groups.group(1).split(' ')[1])
+ acl_rule["srcport_or_icmptype_first"] = port
+ acl_rule["srcport_or_icmptype_last"] = port
+ else:
+ acl_rule["srcport_or_icmptype_first"] = 0
+ acl_rule["srcport_or_icmptype_last"] = 65535
+
+ groups = re.search(reg_ex_dport, rule)
+ if groups:
+ port = int(groups.group(1).split(' ')[1])
+ acl_rule["dstport_or_icmpcode_first"] = port
+ acl_rule["dstport_or_icmpcode_last"] = port
+ else:
+ acl_rule["dstport_or_icmpcode_first"] = 0
+ acl_rule["dstport_or_icmpcode_last"] = 65535
+
+ groups = re.search(reg_ex_proto, rule)
+ if groups:
+ proto = int(groups.group(1).split(' ')[1])
+ acl_rule["proto"] = proto
+ else:
+ acl_rule["proto"] = 0
+
+ acl_rules.append(acl_rule)
+
+ Classify._acl_add_replace(
+ node, acl_idx=acl_idx, rules=acl_rules, tag=tag)
+
+ @staticmethod
+ def add_macip_acl_multi_entries(node, rules=""):
+ """Add a new MACIP ACL.
+
+ :param node: VPP node to set MACIP ACL on.
+ :param rules: Required MACIP rules.
+ :type node: dict
+ :type rules: str
+ """
+ reg_ex_ip = re.compile(r'(ip [0-9a-fA-F.:/\d{1,2}]*)')
+ reg_ex_mac = re.compile(r'(mac \S\S:\S\S:\S\S:\S\S:\S\S:\S\S)')
+ reg_ex_mask = re.compile(r'(mask \S\S:\S\S:\S\S:\S\S:\S\S:\S\S)')
+
+ acl_rules = list()
+ for rule in rules.split(", "):
+ acl_rule = dict()
+ acl_rule["is_permit"] = 1 if "permit" in rule else 0
+ acl_rule["is_ipv6"] = 1 if "ipv6" in rule else 0
+
+ groups = re.search(reg_ex_mac, rule)
+ if groups:
+ mac = groups.group(1).split(' ')[1].replace(':', '')
+ acl_rule["src_mac"] = binascii.unhexlify(unicode(mac))
+
+ groups = re.search(reg_ex_mask, rule)
+ if groups:
+ mask = groups.group(1).split(' ')[1].replace(':', '')
+ acl_rule["src_mac_mask"] = binascii.unhexlify(unicode(mask))
+
+ groups = re.search(reg_ex_ip, rule)
+ if groups:
+ grp = groups.group(1).split(' ')[1].split('/')
+ acl_rule["src_ip_addr"] = ip_address(unicode(grp[0])).packed
+ acl_rule["src_ip_prefix_len"] = int(grp[1])
+
+ acl_rules.append(acl_rule)
+
+ Classify._macip_acl_add(node=node, rules=acl_rules)
+
+ @staticmethod
+ def vpp_log_macip_acl_settings(node):
+ """Retrieve configured MACIP settings from the ACL plugin and write to
+ robot log.
+
+ :param node: VPP node.
+ :type node: dict
+ """
+ PapiSocketExecutor.dump_and_log(node, ["macip_acl_dump", ])
+
+ @staticmethod
+ def add_del_macip_acl_interface(node, interface, action, acl_idx):
+ """Apply/un-apply the MACIP ACL to/from a given interface.
+
+ :param node: VPP node to set MACIP ACL on.
+ :param interface: Interface name or sw_if_index.
+ :param action: Required action - add or del.
+ :param acl_idx: ACL index to be applied on the interface.
+ :type node: dict
+ :type interface: str or int
+ :type action: str
+ :type acl_idx: str or int
+ :raises RuntimeError: If unable to set MACIP ACL for the interface.
+ """
+ if isinstance(interface, basestring):
+ sw_if_index = Topology.get_interface_sw_index(node, interface)
else:
- return data[0]
+ sw_if_index = interface
+
+ is_add = 1 if action == "add" else 0
+
+ cmd = 'macip_acl_interface_add_del'
+ err_msg = "Failed to get 'macip_acl_interface' on host {host}".format(
+ host=node['host'])
+ args = dict(
+ is_add=is_add,
+ sw_if_index=int(sw_if_index),
+ acl_index=int(acl_idx)
+ )
+ with PapiSocketExecutor(node) as papi_exec:
+ papi_exec.add(cmd, **args).get_reply(err_msg)
+
+ @staticmethod
+ def vpp_log_macip_acl_interface_assignment(node):
+ """Get interface list and associated MACIP ACLs and write to robot log.
+
+ :param node: VPP node.
+ :type node: dict
+ """
+ cmd = 'macip_acl_interface_get'
+ err_msg = "Failed to get 'macip_acl_interface' on host {host}".format(
+ host=node['host'])
+ with PapiSocketExecutor(node) as papi_exec:
+ reply = papi_exec.add(cmd).get_reply(err_msg)
+ logger.info(reply)