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https://github.com/inspec/inspec
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10f0393683
This fixes some style issues and fixes a duplicated test method name. Signed-off-by: Jerry Aldrich <jerryaldrichiii@gmail.com>
503 lines
20 KiB
Ruby
503 lines
20 KiB
Ruby
require 'helper'
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# MESGSB = MockEc2SecurityGroupSingleBackend
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# Abbreviation not used outside this file
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#=============================================================================#
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# Constructor Tests
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#=============================================================================#
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class AwsSGSConstructor < Minitest::Test
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def setup
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AwsSecurityGroup::BackendFactory.select(AwsMESGSB::Empty)
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end
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def test_constructor_no_args_raises
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assert_raises(ArgumentError) { AwsSecurityGroup.new }
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end
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def test_constructor_accept_scalar_param
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AwsSecurityGroup.new('sg-12345678')
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end
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def test_constructor_expected_well_formed_args
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{
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id: 'sg-1234abcd',
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group_id: 'sg-1234abcd',
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vpc_id: 'vpc-1234abcd',
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group_name: 'some-group',
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}.each do |param, value|
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AwsSecurityGroup.new(param => value)
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end
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end
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def test_constructor_reject_malformed_args
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{
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id: 'sg-xyz-123',
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group_id: '1234abcd',
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vpc_id: 'vpc_1234abcd',
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}.each do |param, value|
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assert_raises(ArgumentError) { AwsSecurityGroup.new(param => value) }
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end
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end
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def test_constructor_reject_unknown_resource_params
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assert_raises(ArgumentError) { AwsSecurityGroup.new(beep: 'boop') }
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end
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end
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#=============================================================================#
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# Properties
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#=============================================================================#
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class AwsSGSProperties < Minitest::Test
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def setup
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AwsSecurityGroup::BackendFactory.select(AwsMESGSB::Basic)
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end
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def test_property_group_id
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assert_equal('sg-12345678', AwsSecurityGroup.new('sg-12345678').group_id)
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assert_nil(AwsSecurityGroup.new(group_name: 'my-group').group_id)
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end
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def test_property_group_name
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assert_equal('beta', AwsSecurityGroup.new('sg-12345678').group_name)
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assert_nil(AwsSecurityGroup.new('sg-87654321').group_name)
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end
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def test_property_vpc_id
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assert_equal('vpc-aaaabbbb', AwsSecurityGroup.new('sg-aaaabbbb').vpc_id)
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assert_nil(AwsSecurityGroup.new('sg-87654321').vpc_id)
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end
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def test_property_description
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assert_equal('Awesome Group', AwsSecurityGroup.new('sg-12345678').description)
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assert_nil(AwsSecurityGroup.new('sg-87654321').description)
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end
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def test_property_inbound_rules
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assert_empty(AwsSecurityGroup.new('sg-87654321').inbound_rules)
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rules = AwsSecurityGroup.new('sg-12345678').inbound_rules
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assert_kind_of(Array, rules)
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assert_kind_of(Hash, rules[0])
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end
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def test_property_outbound_rules
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assert_empty(AwsSecurityGroup.new('sg-87654321').outbound_rules)
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rules = AwsSecurityGroup.new('sg-12345678').outbound_rules
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assert_kind_of(Array, rules)
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assert_kind_of(Hash, rules[0])
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end
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def test_property_inbound_rules_count
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assert_equal(0, AwsSecurityGroup.new('sg-aaaabbbb').inbound_rules_count)
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count = AwsSecurityGroup.new('sg-12345678').inbound_rules_count
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assert_equal(7, count)
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assert_kind_of(Numeric, count)
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end
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def test_property_outbound_rules_count
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assert_equal(0, AwsSecurityGroup.new('sg-aaaabbbb').outbound_rules_count)
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count = AwsSecurityGroup.new('sg-12345678').outbound_rules_count
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assert_equal(2, count)
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assert_kind_of(Numeric, count)
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end
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end
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#=============================================================================#
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# Matchers
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#=============================================================================#
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class AwsSGSMatchers < Minitest::Test
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def setup
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AwsSecurityGroup::BackendFactory.select(AwsMESGSB::Basic)
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end
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def test_matcher_allow_criteria_validation
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sg = AwsSecurityGroup.new('sg-aaaabbbb')
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rules = sg.inbound_rules
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assert_raises(ArgumentError, "allow should reject unrecognized criteria") { sg.allow_in?(shoe_size: 9) }
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[
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:from_port,
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:ipv4_range,
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:port,
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:position,
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:protocol,
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:to_port,
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:security_group,
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].each do |criterion|
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# No errors here
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sg.allow_in?(criterion => 'dummy')
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end
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end
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def test_matcher_allow_inbound_empty
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sg = AwsSecurityGroup.new('sg-aaaabbbb')
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rules = sg.inbound_rules
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assert_equal(0, rules.count)
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refute(sg.allow_in?()) # Should we test this - "open" criteria?
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end
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def test_matcher_allow_inbound_complex
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sg = AwsSecurityGroup.new('sg-12345678')
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assert_equal(3, sg.inbound_rules.count, "count the number of rules for 3-rule group")
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# Position pinning
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assert(sg.allow_in?(ipv4_range: "10.1.4.0/24", position: 2), "use numeric position")
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assert(sg.allow_in?(ipv4_range: "10.1.4.0/24", position: "2"), "use string position")
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assert(sg.allow_in?(ipv4_range: "10.2.0.0/16", position: :last), "use :last position")
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assert(sg.allow_in?(port: 22, position: :first), "use :first position")
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# Port
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assert(sg.allow_in?(port: 22), "match on a numeric port")
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assert(sg.allow_in?(port: "22"), "match on a string port")
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assert(sg.allow_in?(to_port: "22", from_port: "22"), "match on to/from port")
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assert(sg.allow_in?(port: 9002, position: 3), "range matching on port with allow_in")
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refute(sg.allow_in_only?(port: 9002, position: 3), "no range matching on port with allow_in_only")
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assert(sg.allow_in_only?(from_port: 9001, to_port: 9003, position: 3), "exact range matching on port with allow_in_only")
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# Protocol
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assert(sg.allow_in?(protocol: 'tcp'), "match on tcp protocol, unpinned")
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assert(sg.allow_in?(protocol: 'tcp', position: 1), "match on tcp protocol")
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assert(sg.allow_in?(protocol: 'any', position: 2), "match on our 'any' alias protocol")
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assert(sg.allow_in?(protocol: '-1', position: 2), "match on AWS spec '-1 for any' protocol")
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# IPv4 range testing
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assert(sg.allow_in?(ipv4_range: ["10.1.4.0/24"]), "match on 1 ipv4 range as array")
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assert(sg.allow_in?(ipv4_range: ["10.1.4.33/32"]), "match on 1 ipv4 range subnet membership")
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assert(sg.allow_in?(ipv4_range: ["10.1.4.33/32", "10.1.4.82/32"]), "match on 2 addrs ipv4 range subnet membership")
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assert(sg.allow_in?(ipv4_range: ["10.1.4.0/25", "10.1.4.128/25"]), "match on 2 subnets ipv4 range subnet membership")
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assert(sg.allow_in_only?(ipv4_range: "10.1.4.0/24", position: 2), "exact match on 1 ipv4 range with _only")
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refute(sg.allow_in_only?(ipv4_range: "10.1.4.33/32", position: 2), "no range membership ipv4 range with _only")
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assert(sg.allow_in?(ipv4_range: "10.1.2.0/24"), "match on a list ipv4 range when providing only one value (first)")
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assert(sg.allow_in?(ipv4_range: "10.1.3.0/24"), "match on a list ipv4 range when providing only one value (last)")
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assert(sg.allow_in?(ipv4_range: ["10.1.2.33/32", "10.1.3.33/32"]), "match on a list of single IPs against a list of subnets")
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assert(sg.allow_in?(ipv4_range: ["10.1.2.0/24", "10.1.3.0/24"]))
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refute(sg.allow_in?(ipv4_range: ["10.1.22.0/24", "10.1.33.0/24"]))
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assert(sg.allow_in?(ipv4_range: ["10.1.3.0/24", "10.1.2.0/24"])) # Order is ignored
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assert(sg.allow_in_only?(ipv4_range: ["10.1.2.0/24", "10.1.3.0/24"], position: 1))
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refute(sg.allow_in_only?(ipv4_range: ["10.1.2.0/24"], position: 1))
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refute(sg.allow_in_only?(ipv4_range: ["10.1.3.0/24"], position: 1))
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# IPv6 range testing
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assert(sg.allow_in?(ipv6_range: ["2001:db8::/122"]), "match on 1 ipv6 range as array")
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assert(sg.allow_in?(ipv6_range: ["2001:db8::20/128"]), "match on 1 ipv6 range subnet membership")
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assert(sg.allow_in?(ipv6_range: ["2001:db8::20/128", "2001:db8::3f/128"]), "match on 2 addrs ipv6 range subnet membership")
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assert(sg.allow_in?(ipv6_range: ["2001:db8::/128", "1968:db8::/124"]), "match on 2 subnets ipv6 range subnet membership")
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assert(sg.allow_in_only?(ipv6_range: "2018:db8::/122", position: 2), "exact match on 1 ipv6 range with _only")
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refute(sg.allow_in_only?(ipv6_range: "2001:db8::20/128", position: 2), "no range membership ipv6 range with _only")
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# Test _only with a 3-rule group, but omitting position
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refute(sg.allow_in_only?(port: 22), "_only will fail a multi-rule SG even if it has matching criteria")
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refute(sg.allow_in_only?(), "_only will fail a multi-rule SG even if it has match-any criteria")
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# Test _only with a single rule group (ie, omitting position)
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sg = AwsSecurityGroup.new('sg-22223333')
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assert_equal(1, sg.inbound_rules.count, "count the number of rules for 1-rule group")
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assert_equal(1, sg.inbound_rules_count, "Count the number of rule variants for 1-rule group")
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assert(sg.allow_in_only?(ipv4_range: "0.0.0.0/0"), "Match IP range using _only on 1-rule group")
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assert(sg.allow_in_only?(protocol: 'any'), "Match protocol using _only on 1-rule group")
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refute(sg.allow_in_only?(port: 22), "no match port using _only on 1-rule group")
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# Test _only with a single rule group for IPv6
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sg = AwsSecurityGroup.new('sg-33334444')
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assert_equal(1, sg.inbound_rules.count, "count the number of rules for 1-rule ipv6 group")
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assert_equal(1, sg.inbound_rules_count, "Count the number of rule variants for 1-rule ipv6 group")
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assert(sg.allow_in_only?(ipv6_range: "::/0"), "Match IP range using _only on 1-rule ipv6 group")
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assert(sg.allow_in_only?(protocol: 'any'), "Match protocol using _only on 1-rule ipv6 group")
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refute(sg.allow_in_only?(port: 22), "no match port using _only on 1-rule ipv6 group")
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# security-group
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sg = AwsSecurityGroup.new('sg-55556666')
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assert(sg.allow_in?(security_group: "sg-33334441"), "match on group-id")
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assert(sg.allow_in?(security_group: "sg-33334441", port: 22), "match on group-id, numeric port")
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assert(sg.allow_in?(security_group: "sg-33334441", port: "22"), "match on group-id, string port")
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assert(sg.allow_in?(security_group: "sg-33334441", to_port: "22", from_port: "22"), "match on group-id, to/from port")
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assert(sg.allow_in?(port: 9002, position: 3), "range matching on port with allow_in")
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refute(sg.allow_in_only?(port: 9002, position: 3), "no range matching on port with allow_in_only")
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refute(sg.allow_in_only?(security_group: "sg-33334441",), "no matching on group with allow_in_only when multiple group rules")
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assert(sg.allow_in_only?(from_port: 9001, to_port: 9003, position: 3), "exact range matching on port with allow_in_only")
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# Test _only with a single rule group for security-group
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sg = AwsSecurityGroup.new('sg-33334441')
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assert_equal(1, sg.inbound_rules.count, "count the number of rules for 1-rule security-group")
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assert_equal(1, sg.inbound_rules_count, "Count the number of rule variants for 1-rule security-group")
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assert(sg.allow_in_only?(security_group: "sg-33334444"), "Match security-group using _only on 1-rule security-group")
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assert(sg.allow_in_only?(protocol: 'any',security_group: "sg-33334444"), "Match protocol using _only on 1-rule security-group")
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refute(sg.allow_in_only?(port: 22, security_group: "sg-33334444"), "no match port using _only on 1-rule security-group")
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# Test _only with a single rule group for security-group with position pinning
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sg = AwsSecurityGroup.new('sg-33334442')
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assert(sg.allow_in_only?(security_group: "sg-33334444", position: 2), "Match security-group using _only with numerical position")
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assert(sg.allow_in_only?(protocol: 'any',security_group: "sg-33334444", position: 2), "Match protocol using _only on 1-rule security-group with numerical position")
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refute(sg.allow_in_only?(port: 22, security_group: "sg-33334444", position: 2), "no match port using _only on 1-rule security-group with numerical position")
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assert(sg.allow_in_only?(security_group: "sg-33334444", position: "2"), "Match security-group using _only with string position")
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assert(sg.allow_in_only?(security_group: "sg-33334444", position: :last), "Match security-group using _only with last position")
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end
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end
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#=============================================================================#
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# Test Fixtures
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#=============================================================================#
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module AwsMESGSB
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class Empty < AwsBackendBase
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def describe_security_groups(_query)
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OpenStruct.new({
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security_groups: [],
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})
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end
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end
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class Basic < AwsBackendBase
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def describe_security_groups(query)
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fixtures = [
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OpenStruct.new({
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description: 'Some Group',
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group_id: 'sg-aaaabbbb',
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group_name: 'alpha',
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vpc_id: 'vpc-aaaabbbb',
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ip_permissions: [],
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ip_permissions_egress: [],
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}),
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OpenStruct.new({
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description: 'Awesome Group',
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group_id: 'sg-12345678',
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group_name: 'beta',
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vpc_id: 'vpc-12345678',
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ip_permissions: [
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OpenStruct.new({
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from_port: 22,
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to_port: 22,
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ip_protocol: 'tcp',
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ip_ranges: [
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# Apparently AWS returns these as plain hashes,
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# nested in two levels of Structs.
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{cidr_ip:"10.1.2.0/24"},
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{cidr_ip:"10.1.3.0/24"},
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],
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ipv_6_ranges: [
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{cidr_ipv_6:"2001:db8::/122"},
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{cidr_ipv_6:"1968:db8::/124"},
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],
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}),
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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ip_ranges: [
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{cidr_ip:"10.1.4.0/24"},
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],
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ipv_6_ranges: [
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{cidr_ipv_6:"2018:db8::/122"}
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]
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}),
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OpenStruct.new({
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from_port: 9001,
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to_port: 9003,
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ip_protocol: "udp",
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ip_ranges: [
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{cidr_ip:"10.2.0.0/16"},
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]
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}),
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],
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ip_permissions_egress: [
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OpenStruct.new({
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from_port: 123,
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to_port: 123,
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ip_protocol: "udp",
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ip_ranges: [
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{cidr_ip:"128.138.140.44/32"},
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],
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ipv_6_ranges: [
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{cidr_ipv_6:"2001:db8::/122"}
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]
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}),
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],
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}),
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OpenStruct.new({
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description: 'Open Group',
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group_id: 'sg-22223333',
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group_name: 'gamma',
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vpc_id: 'vpc-12345678',
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ip_permissions: [
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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ip_ranges: [
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{cidr_ip:"0.0.0.0/0"},
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]
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}),
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],
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ip_permissions_egress: [],
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}),
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OpenStruct.new({
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description: 'Open Group',
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group_id: 'sg-33334444',
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group_name: 'delta',
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vpc_id: 'vpc-12345678',
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ip_permissions: [
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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ipv_6_ranges: [
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{cidr_ipv_6:"::/0"},
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]
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}),
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],
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ip_permissions_egress: [],
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}),
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OpenStruct.new({
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description: 'Open for group one group rule second position',
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group_id: 'sg-33334442',
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group_name: 'etha',
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vpc_id: 'vpc-12345678',
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ip_permissions: [
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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ipv_6_ranges: [
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{cidr_ipv_6:"::/0"},
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]
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}),
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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user_id_group_pairs: [
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OpenStruct.new({
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description: 'Open for group one rule second position',
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group_id: 'sg-33334444',
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group_name: 'delta',
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peering_status: "",
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user_id: "123456789012",
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vpc_id: "",
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vpc_peering_connection_id: ""
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}),
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]
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}),
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],
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ip_permissions_egress: [],
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}),
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OpenStruct.new({
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description: 'Open for group one rule',
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group_id: 'sg-33334441',
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group_name: 'zeta',
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vpc_id: 'vpc-12345678',
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ip_permissions: [
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OpenStruct.new({
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from_port: nil,
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to_port: nil,
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ip_protocol: "-1",
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user_id_group_pairs: [
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OpenStruct.new({
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description: 'Open for group one rule',
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group_id: 'sg-33334444',
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group_name: 'delta',
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peering_status: "",
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user_id: '123456789012',
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vpc_id: "",
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vpc_peering_connection_id: ""
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}),
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]
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}),
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],
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ip_permissions_egress: [],
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}),
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OpenStruct.new({
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description: 'Open for group',
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group_id: 'sg-55556666',
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group_name: 'epsilon',
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|
vpc_id: 'vpc-12345678',
|
|
ip_permissions: [
|
|
OpenStruct.new({
|
|
from_port: 80,
|
|
to_port: 443,
|
|
ip_protocol: "-1",
|
|
ip_ranges: [
|
|
{cidr_ip:"0.0.0.0/0"},
|
|
]
|
|
}),
|
|
OpenStruct.new({
|
|
from_port: 22,
|
|
to_port: 22,
|
|
ip_protocol: "-1",
|
|
user_id_group_pairs: [
|
|
OpenStruct.new({
|
|
description: 'Open for group rule 2',
|
|
group_id: 'sg-33334441',
|
|
group_name: 'zeta',
|
|
peering_status: "",
|
|
user_id: '123456789012',
|
|
vpc_id: "",
|
|
vpc_peering_connection_id: ""
|
|
}),
|
|
]
|
|
}),
|
|
OpenStruct.new({
|
|
from_port: 9001,
|
|
to_port: 9003,
|
|
ip_protocol: "-1",
|
|
user_id_group_pairs: [
|
|
OpenStruct.new({
|
|
description: 'Open for group rule 3',
|
|
group_id: 'sg-33334441',
|
|
group_name: 'zeta',
|
|
peering_status: "",
|
|
user_id: '123456789012',
|
|
vpc_id: "",
|
|
vpc_peering_connection_id: ""
|
|
}),
|
|
]
|
|
}),
|
|
OpenStruct.new({
|
|
from_port: nil,
|
|
to_port: nil,
|
|
ip_protocol: "-1",
|
|
user_id_group_pairs: [
|
|
OpenStruct.new({
|
|
description: 'allow all from multiple sg',
|
|
group_id: 'sg-33334441',
|
|
group_name: 'zeta',
|
|
peering_status: "",
|
|
user_id: '123456789012',
|
|
vpc_id: "",
|
|
vpc_peering_connection_id: ""
|
|
}),
|
|
OpenStruct.new({
|
|
description: 'allow all from multiple sg[2]',
|
|
group_id: 'sg-33334442',
|
|
group_name: 'etha',
|
|
peering_status: "",
|
|
user_id: '123456789012',
|
|
vpc_id: "",
|
|
vpc_peering_connection_id: ""
|
|
}),
|
|
OpenStruct.new({
|
|
description: 'allow all from multiple sg[3]',
|
|
group_id: 'sg-11112222',
|
|
group_name: 'theta',
|
|
peering_status: "",
|
|
user_id: '123456789012',
|
|
vpc_id: "",
|
|
vpc_peering_connection_id: ""
|
|
}),
|
|
]
|
|
}),
|
|
],
|
|
ip_permissions_egress: [],
|
|
}), ]
|
|
|
|
selected = fixtures.select do |sg|
|
|
query[:filters].all? do |filter|
|
|
filter[:values].include?(sg[filter[:name].tr('-','_')])
|
|
end
|
|
end
|
|
|
|
OpenStruct.new({ security_groups: selected })
|
|
end
|
|
end
|
|
|
|
end
|