mirror of
https://github.com/netbirdio/netbird.git
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337 lines
12 KiB
Go
337 lines
12 KiB
Go
//go:build !android
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package routemanager
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import (
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"context"
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"testing"
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"github.com/google/nftables"
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"github.com/google/nftables/expr"
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"github.com/stretchr/testify/assert"
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"github.com/stretchr/testify/require"
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)
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func TestNftablesManager_RestoreOrCreateContainers(t *testing.T) {
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ctx, cancel := context.WithCancel(context.TODO())
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manager := &nftablesManager{
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ctx: ctx,
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stop: cancel,
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conn: &nftables.Conn{},
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chains: make(map[string]map[string]*nftables.Chain),
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rules: make(map[string]*nftables.Rule),
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}
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nftablesTestingClient := &nftables.Conn{}
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defer manager.CleanRoutingRules()
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err := manager.RestoreOrCreateContainers()
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require.NoError(t, err, "shouldn't return error")
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require.Len(t, manager.chains, 2, "should have created chains for ipv4 and ipv6")
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require.Len(t, manager.chains[ipv4], 2, "should have created chains for ipv4")
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require.Len(t, manager.chains[ipv4], 2, "should have created chains for ipv6")
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require.Len(t, manager.rules, 2, "should have created rules for ipv4 and ipv6")
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pair := routerPair{
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ID: "abc",
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source: "100.100.100.1/32",
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destination: "100.100.100.0/24",
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masquerade: true,
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}
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sourceExp := generateCIDRMatcherExpressions("source", pair.source)
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destExp := generateCIDRMatcherExpressions("destination", pair.destination)
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forward4Exp := append(sourceExp, append(destExp, exprCounterAccept...)...)
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forward4RuleKey := genKey(forwardingFormat, pair.ID)
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inserted4Forwarding := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: manager.tableIPv4,
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Chain: manager.chains[ipv4][nftablesRoutingForwardingChain],
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Exprs: forward4Exp,
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UserData: []byte(forward4RuleKey),
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})
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nat4Exp := append(sourceExp, append(destExp, &expr.Counter{}, &expr.Masq{})...)
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nat4RuleKey := genKey(natFormat, pair.ID)
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inserted4Nat := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: manager.tableIPv4,
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Chain: manager.chains[ipv4][nftablesRoutingNatChain],
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Exprs: nat4Exp,
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UserData: []byte(nat4RuleKey),
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})
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err = nftablesTestingClient.Flush()
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require.NoError(t, err, "shouldn't return error")
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pair = routerPair{
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ID: "xyz",
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source: "fc00::1/128",
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destination: "fc11::/64",
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masquerade: true,
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}
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sourceExp = generateCIDRMatcherExpressions("source", pair.source)
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destExp = generateCIDRMatcherExpressions("destination", pair.destination)
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forward6Exp := append(sourceExp, append(destExp, exprCounterAccept...)...)
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forward6RuleKey := genKey(forwardingFormat, pair.ID)
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inserted6Forwarding := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: manager.tableIPv6,
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Chain: manager.chains[ipv6][nftablesRoutingForwardingChain],
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Exprs: forward6Exp,
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UserData: []byte(forward6RuleKey),
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})
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nat6Exp := append(sourceExp, append(destExp, &expr.Counter{}, &expr.Masq{})...)
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nat6RuleKey := genKey(natFormat, pair.ID)
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inserted6Nat := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: manager.tableIPv6,
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Chain: manager.chains[ipv6][nftablesRoutingNatChain],
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Exprs: nat6Exp,
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UserData: []byte(nat6RuleKey),
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})
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err = nftablesTestingClient.Flush()
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require.NoError(t, err, "shouldn't return error")
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manager.tableIPv4 = nil
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manager.tableIPv6 = nil
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err = manager.RestoreOrCreateContainers()
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require.NoError(t, err, "shouldn't return error")
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require.Len(t, manager.chains, 2, "should have created chains for ipv4 and ipv6")
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require.Len(t, manager.chains[ipv4], 2, "should have created chains for ipv4")
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require.Len(t, manager.chains[ipv4], 2, "should have created chains for ipv6")
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require.Len(t, manager.rules, 6, "should have restored all rules for ipv4 and ipv6")
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foundRule, found := manager.rules[forward4RuleKey]
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require.True(t, found, "forwarding rule should exist in the map")
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assert.Equal(t, inserted4Forwarding.Exprs, foundRule.Exprs, "stored forwarding rule expressions should match")
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foundRule, found = manager.rules[nat4RuleKey]
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require.True(t, found, "nat rule should exist in the map")
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// match len of output as nftables client doesn't return expressions with masquerade expression
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assert.ElementsMatch(t, inserted4Nat.Exprs[:len(foundRule.Exprs)], foundRule.Exprs, "stored nat rule expressions should match")
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foundRule, found = manager.rules[forward6RuleKey]
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require.True(t, found, "forwarding rule should exist in the map")
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assert.Equal(t, inserted6Forwarding.Exprs, foundRule.Exprs, "stored forward rule should match")
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foundRule, found = manager.rules[nat6RuleKey]
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require.True(t, found, "nat rule should exist in the map")
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// match len of output as nftables client doesn't return expressions with masquerade expression
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assert.ElementsMatch(t, inserted6Nat.Exprs[:len(foundRule.Exprs)], foundRule.Exprs, "stored nat rule should match")
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}
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func TestNftablesManager_InsertRoutingRules(t *testing.T) {
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for _, testCase := range insertRuleTestCases {
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t.Run(testCase.name, func(t *testing.T) {
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ctx, cancel := context.WithCancel(context.TODO())
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manager := &nftablesManager{
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ctx: ctx,
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stop: cancel,
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conn: &nftables.Conn{},
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chains: make(map[string]map[string]*nftables.Chain),
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rules: make(map[string]*nftables.Rule),
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}
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nftablesTestingClient := &nftables.Conn{}
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defer manager.CleanRoutingRules()
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err := manager.RestoreOrCreateContainers()
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require.NoError(t, err, "shouldn't return error")
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err = manager.InsertRoutingRules(testCase.inputPair)
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require.NoError(t, err, "forwarding pair should be inserted")
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sourceExp := generateCIDRMatcherExpressions("source", testCase.inputPair.source)
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destExp := generateCIDRMatcherExpressions("destination", testCase.inputPair.destination)
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testingExpression := append(sourceExp, destExp...)
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fwdRuleKey := genKey(forwardingFormat, testCase.inputPair.ID)
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found := 0
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for _, registeredChains := range manager.chains {
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for _, chain := range registeredChains {
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rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
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require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
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for _, rule := range rules {
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if len(rule.UserData) > 0 && string(rule.UserData) == fwdRuleKey {
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require.ElementsMatchf(t, rule.Exprs[:len(testingExpression)], testingExpression, "forwarding rule elements should match")
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found = 1
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}
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}
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}
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}
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require.Equal(t, 1, found, "should find at least 1 rule to test")
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if testCase.inputPair.masquerade {
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natRuleKey := genKey(natFormat, testCase.inputPair.ID)
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found := 0
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for _, registeredChains := range manager.chains {
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for _, chain := range registeredChains {
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rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
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require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
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for _, rule := range rules {
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if len(rule.UserData) > 0 && string(rule.UserData) == natRuleKey {
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require.ElementsMatchf(t, rule.Exprs[:len(testingExpression)], testingExpression, "nat rule elements should match")
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found = 1
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}
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}
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}
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}
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require.Equal(t, 1, found, "should find at least 1 rule to test")
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}
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sourceExp = generateCIDRMatcherExpressions("source", getInPair(testCase.inputPair).source)
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destExp = generateCIDRMatcherExpressions("destination", getInPair(testCase.inputPair).destination)
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testingExpression = append(sourceExp, destExp...)
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inFwdRuleKey := genKey(inForwardingFormat, testCase.inputPair.ID)
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found = 0
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for _, registeredChains := range manager.chains {
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for _, chain := range registeredChains {
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rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
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require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
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for _, rule := range rules {
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if len(rule.UserData) > 0 && string(rule.UserData) == inFwdRuleKey {
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require.ElementsMatchf(t, rule.Exprs[:len(testingExpression)], testingExpression, "income forwarding rule elements should match")
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found = 1
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}
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}
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}
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}
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require.Equal(t, 1, found, "should find at least 1 rule to test")
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if testCase.inputPair.masquerade {
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inNatRuleKey := genKey(inNatFormat, testCase.inputPair.ID)
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found := 0
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for _, registeredChains := range manager.chains {
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for _, chain := range registeredChains {
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rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
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require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
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for _, rule := range rules {
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if len(rule.UserData) > 0 && string(rule.UserData) == inNatRuleKey {
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require.ElementsMatchf(t, rule.Exprs[:len(testingExpression)], testingExpression, "income nat rule elements should match")
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found = 1
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}
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}
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}
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}
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require.Equal(t, 1, found, "should find at least 1 rule to test")
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}
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})
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}
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}
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func TestNftablesManager_RemoveRoutingRules(t *testing.T) {
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for _, testCase := range removeRuleTestCases {
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t.Run(testCase.name, func(t *testing.T) {
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ctx, cancel := context.WithCancel(context.TODO())
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manager := &nftablesManager{
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ctx: ctx,
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stop: cancel,
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conn: &nftables.Conn{},
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chains: make(map[string]map[string]*nftables.Chain),
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rules: make(map[string]*nftables.Rule),
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}
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nftablesTestingClient := &nftables.Conn{}
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defer manager.CleanRoutingRules()
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err := manager.RestoreOrCreateContainers()
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require.NoError(t, err, "shouldn't return error")
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table := manager.tableIPv4
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if testCase.ipVersion == ipv6 {
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table = manager.tableIPv6
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}
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sourceExp := generateCIDRMatcherExpressions("source", testCase.inputPair.source)
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destExp := generateCIDRMatcherExpressions("destination", testCase.inputPair.destination)
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forwardExp := append(sourceExp, append(destExp, exprCounterAccept...)...)
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forwardRuleKey := genKey(forwardingFormat, testCase.inputPair.ID)
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insertedForwarding := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: table,
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Chain: manager.chains[testCase.ipVersion][nftablesRoutingForwardingChain],
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Exprs: forwardExp,
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UserData: []byte(forwardRuleKey),
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})
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natExp := append(sourceExp, append(destExp, &expr.Counter{}, &expr.Masq{})...)
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natRuleKey := genKey(natFormat, testCase.inputPair.ID)
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insertedNat := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: table,
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Chain: manager.chains[testCase.ipVersion][nftablesRoutingNatChain],
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Exprs: natExp,
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UserData: []byte(natRuleKey),
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})
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sourceExp = generateCIDRMatcherExpressions("source", getInPair(testCase.inputPair).source)
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destExp = generateCIDRMatcherExpressions("destination", getInPair(testCase.inputPair).destination)
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forwardExp = append(sourceExp, append(destExp, exprCounterAccept...)...)
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inForwardRuleKey := genKey(inForwardingFormat, testCase.inputPair.ID)
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insertedInForwarding := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: table,
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Chain: manager.chains[testCase.ipVersion][nftablesRoutingForwardingChain],
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Exprs: forwardExp,
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UserData: []byte(inForwardRuleKey),
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})
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natExp = append(sourceExp, append(destExp, &expr.Counter{}, &expr.Masq{})...)
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inNatRuleKey := genKey(inNatFormat, testCase.inputPair.ID)
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insertedInNat := nftablesTestingClient.InsertRule(&nftables.Rule{
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Table: table,
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Chain: manager.chains[testCase.ipVersion][nftablesRoutingNatChain],
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Exprs: natExp,
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UserData: []byte(inNatRuleKey),
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})
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err = nftablesTestingClient.Flush()
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require.NoError(t, err, "shouldn't return error")
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manager.tableIPv4 = nil
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manager.tableIPv6 = nil
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err = manager.RestoreOrCreateContainers()
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require.NoError(t, err, "shouldn't return error")
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err = manager.RemoveRoutingRules(testCase.inputPair)
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require.NoError(t, err, "shouldn't return error")
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for _, registeredChains := range manager.chains {
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for _, chain := range registeredChains {
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rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
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require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
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for _, rule := range rules {
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if len(rule.UserData) > 0 {
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require.NotEqual(t, insertedForwarding.UserData, rule.UserData, "forwarding rule should not exist")
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require.NotEqual(t, insertedNat.UserData, rule.UserData, "nat rule should not exist")
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require.NotEqual(t, insertedInForwarding.UserData, rule.UserData, "income forwarding rule should not exist")
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require.NotEqual(t, insertedInNat.UserData, rule.UserData, "income nat rule should not exist")
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}
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}
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}
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}
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})
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}
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}
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