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trie_test.go
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package iptrie
import (
"encoding/binary"
"fmt"
"math/rand"
"net/netip"
"runtime"
"testing"
"github.com/stretchr/testify/assert"
)
func ExampleTrie() {
ipt := NewTrie()
ipt.Insert(netip.MustParsePrefix("10.0.0.0/8"), "foo")
ipt.Insert(netip.MustParsePrefix("10.1.0.0/24"), "bar")
fmt.Printf("10.2.0.1: %+v\n", ipt.Find(netip.MustParseAddr("10.2.0.1")))
fmt.Printf("10.1.0.1: %+v\n", ipt.Find(netip.MustParseAddr("10.1.0.1")))
fmt.Printf("11.0.0.1: %+v\n", ipt.Find(netip.MustParseAddr("11.0.0.1")))
// Output:
// 10.2.0.1: foo
// 10.1.0.1: bar
// 11.0.0.1: <nil>
}
func TestTrieInsert(t *testing.T) {
cases := []struct {
inserts []string
expectedNetworksInDepthOrder []string
name string
}{
{
[]string{"192.168.0.1/24"},
[]string{"192.168.0.1/24"},
"basic insert",
},
{
[]string{"1.2.3.4/32", "1.2.3.5/32"},
[]string{"1.2.3.4/32", "1.2.3.5/32"},
"single ip IPv4 network insert",
},
{
[]string{"0::1/128", "0::2/128"},
[]string{"0::1/128", "0::2/128"},
"single ip IPv6 network insert",
},
{
[]string{"192.168.0.1/16", "192.168.0.1/24"},
[]string{"192.168.0.1/16", "192.168.0.1/24"},
"in order insert",
},
{
[]string{"192.168.0.1/32", "192.168.0.1/32"},
[]string{"192.168.0.1/32"},
"duplicate network insert",
},
{
[]string{"192.168.0.1/24", "192.168.0.1/16"},
[]string{"192.168.0.1/16", "192.168.0.1/24"},
"reverse insert",
},
{
[]string{"192.168.0.1/24", "192.168.1.1/24"},
[]string{"192.168.0.1/24", "192.168.1.1/24"},
"branch insert",
},
{
[]string{"192.168.0.1/24", "192.168.1.1/24", "192.168.1.1/30"},
[]string{"192.168.0.1/24", "192.168.1.1/24", "192.168.1.1/30"},
"branch inserts",
},
}
v := any(1)
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, v)
}
walk := trie.walkDepth()
for _, network := range tc.expectedNetworksInDepthOrder {
expected := normalizePrefix(netip.MustParsePrefix(network))
actual := <-walk
assert.Equal(t, expected, actual)
}
// Ensure no unexpected elements in trie.
for network := range walk {
assert.Nil(t, network)
}
})
}
}
func ExampleTrie_String() {
inserts := []string{"192.168.0.0/24", "192.168.1.0/24", "192.168.1.0/30"}
trie := NewTrie()
for _, insert := range inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, "net="+insert)
}
fmt.Println(trie.String())
// Output:
// ::/0
// ├ ::ffff:192.168.0.0/119
// ├ ├ ::ffff:192.168.0.0/120 • net=192.168.0.0/24
// ├ ├ ::ffff:192.168.1.0/120 • net=192.168.1.0/24
// ├ ├ ├ ::ffff:192.168.1.0/126 • net=192.168.1.0/30
}
func TestTrieRemove(t *testing.T) {
cases := []struct {
inserts []string
removes []string
expectedRemoves []string
expectedNetworksInDepthOrder []string
expectedTrieString string
name string
}{
{
[]string{"192.168.0.1/24"},
[]string{"192.168.0.1/24"},
[]string{"192.168.0.1/24"},
[]string{},
"::/0",
"basic remove",
},
{
[]string{"192.168.0.1/32"},
[]string{"192.168.0.1/24"},
[]string{""},
[]string{"192.168.0.1/32"},
`::/0
├ ::ffff:192.168.0.1/128 • 192.168.0.1/32`,
"remove from trie that contains a single network",
},
{
[]string{"1.2.3.4/32", "1.2.3.5/32"},
[]string{"1.2.3.5/32"},
[]string{"1.2.3.5/32"},
[]string{"1.2.3.4/32"},
`::/0
├ ::ffff:1.2.3.4/128 • 1.2.3.4/32`,
"single ip IPv4 network remove",
},
{
[]string{"0::1/128", "0::2/128"},
[]string{"0::2/128"},
[]string{"0::2/128"},
[]string{"0::1/128"},
`::/0
├ ::1/128 • 0::1/128`,
"single ip IPv6 network remove",
},
{
[]string{"192.168.0.1/24", "192.168.0.1/25", "192.168.0.1/26"},
[]string{"192.168.0.1/25"},
[]string{"192.168.0.1/25"},
[]string{"192.168.0.1/24", "192.168.0.1/26"},
`::/0
├ ::ffff:192.168.0.0/120 • 192.168.0.1/24
├ ├ ::ffff:192.168.0.0/122 • 192.168.0.1/26`,
"remove path prefix",
},
{
[]string{"192.168.0.1/24", "192.168.0.1/25", "192.168.0.64/26", "192.168.0.1/26"},
[]string{"192.168.0.1/25"},
[]string{"192.168.0.1/25"},
[]string{"192.168.0.1/24", "192.168.0.1/26", "192.168.0.64/26"},
`::/0
├ ::ffff:192.168.0.0/120 • 192.168.0.1/24
├ ├ ::ffff:192.168.0.0/121
├ ├ ├ ::ffff:192.168.0.0/122 • 192.168.0.1/26
├ ├ ├ ::ffff:192.168.0.64/122 • 192.168.0.64/26`,
"remove path prefix with more than 1 children",
},
{
[]string{"192.168.0.1/24", "192.168.0.1/25"},
[]string{"192.168.0.1/26"},
[]string{""},
[]string{"192.168.0.1/24", "192.168.0.1/25"},
`::/0
├ ::ffff:192.168.0.0/120 • 192.168.0.1/24
├ ├ ::ffff:192.168.0.0/121 • 192.168.0.1/25`,
"remove non existent",
},
{
[]string{"10.0.0.0/8", "10.1.0.0/16"},
[]string{"10.1.0.0/16", "10.0.0.0/8"},
[]string{"10.1.0.0/16", "10.0.0.0/8"},
[]string{},
`::/0`,
"remove all",
},
}
for tci, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, insert)
}
for i, remove := range tc.removes {
network := netip.MustParsePrefix(remove)
removed := trie.Remove(network)
if str := tc.expectedRemoves[i]; str != "" {
assert.Equal(t, str, removed, "tc=%d", tci)
} else {
assert.Nil(t, removed, "tc=%d", tci)
}
}
walk := trie.walkDepth()
for _, network := range tc.expectedNetworksInDepthOrder {
expected := normalizePrefix(netip.MustParsePrefix(network))
actual := <-walk
assert.Equal(t, expected, actual, "tc=%d", tci)
}
// Ensure no unexpected elements in trie.
for network := range walk {
assert.Nil(t, network)
}
assert.Equal(t, tc.expectedTrieString, trie.String(), "tc=%d", tci)
})
}
}
func TestTrieContains(t *testing.T) {
pt := NewTrie()
assert.False(t, pt.Contains(netip.MustParseAddr("10.0.0.1")))
pt.Insert(netip.MustParsePrefix("10.0.0.0/8"), nil)
assert.True(t, pt.Contains(netip.MustParseAddr("10.0.0.1")))
assert.True(t, pt.Contains(netip.MustParseAddr("10.0.0.0")))
}
func TestTrieNilValue(t *testing.T) {
pt := NewTrie()
pt.Insert(netip.MustParsePrefix("10.0.0.0/8"), nil)
pt.Insert(netip.MustParsePrefix("10.1.0.0/16"), nil)
pt.Remove(netip.MustParsePrefix("10.1.0.0/16"))
pt.Remove(netip.MustParsePrefix("10.0.0.0/8"))
assert.False(t, pt.Contains(netip.MustParseAddr("10.0.0.1")))
t.Logf("%s", pt.String())
}
// Check that we can match an IPv6 /128 or an IPv4 /32 address in the tree.
func TestFindFull128(t *testing.T) {
cases := []struct {
inserts []string
ip netip.Addr
networks []string
name string
}{
{
[]string{"192.168.0.1/32"},
netip.MustParseAddr("192.168.0.1"),
[]string{"192.168.0.1/32"},
"basic containing network for /32 mask",
},
{
[]string{"a::1/128"},
netip.MustParseAddr("a::1"),
[]string{"a::1/128"},
"basic containing network for /128 mask",
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, insert)
}
expectedEntries := []netip.Prefix{}
for _, network := range tc.networks {
expected := normalizePrefix(netip.MustParsePrefix(network))
expectedEntries = append(expectedEntries, expected)
}
contains := trie.Find(tc.ip)
assert.NotNil(t, contains)
networks := trie.ContainingNetworks(tc.ip)
assert.Equal(t, expectedEntries, networks)
})
}
}
type expectedIPRange struct {
start netip.Addr
end netip.Addr
}
func TestTrieFind(t *testing.T) {
cases := []struct {
inserts []string
expectedIPs []expectedIPRange
name string
}{
{
[]string{"192.168.0.0/24"},
[]expectedIPRange{
{netip.MustParseAddr("192.168.0.0"), netip.MustParseAddr("192.168.1.0")},
},
"basic contains",
},
{
[]string{"192.168.0.0/24", "128.168.0.0/24"},
[]expectedIPRange{
{netip.MustParseAddr("192.168.0.0"), netip.MustParseAddr("192.168.1.0")},
{netip.MustParseAddr("128.168.0.0"), netip.MustParseAddr("128.168.1.0")},
},
"multiple ranges contains",
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
v := any(1)
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, v)
}
for _, expectedIPRange := range tc.expectedIPs {
var contains any
start := expectedIPRange.start
for ; expectedIPRange.end != start; start = start.Next() {
contains = trie.Find(start)
assert.NotNil(t, contains)
}
// Check out of bounds ips on both ends
contains = trie.Find(expectedIPRange.start.Prev())
assert.Nil(t, contains)
contains = trie.Find(expectedIPRange.end.Next())
assert.Nil(t, contains)
}
})
}
}
func TestTrieFindOverlap(t *testing.T) {
trie := NewTrie()
v1 := any(1)
trie.Insert(netip.MustParsePrefix("192.168.0.0/24"), v1)
v2 := any(2)
trie.Insert(netip.MustParsePrefix("192.168.0.0/25"), v2)
v := trie.Find(netip.MustParseAddr("192.168.0.1"))
assert.Equal(t, v2, v)
}
func TestTrieContainingNetworks(t *testing.T) {
cases := []struct {
inserts []string
ip netip.Addr
networks []string
name string
}{
{
[]string{"192.168.0.0/24"},
netip.MustParseAddr("192.168.0.1"),
[]string{"192.168.0.0/24"},
"basic containing networks",
},
{
[]string{"192.168.0.0/24", "192.168.0.0/25"},
netip.MustParseAddr("192.168.0.1"),
[]string{"192.168.0.0/24", "192.168.0.0/25"},
"inclusive networks",
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
v := any(1)
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, v)
}
expectedEntries := []netip.Prefix{}
for _, network := range tc.networks {
expected := normalizePrefix(netip.MustParsePrefix(network))
expectedEntries = append(expectedEntries, expected)
}
networks := trie.ContainingNetworks(tc.ip)
assert.Equal(t, expectedEntries, networks)
})
}
}
type coveredNetworkTest struct {
inserts []string
search string
networks []string
name string
}
var coveredNetworkTests = []coveredNetworkTest{
{
[]string{"192.168.0.0/24"},
"192.168.0.0/16",
[]string{"192.168.0.0/24"},
"basic covered networks",
},
{
[]string{"192.168.0.0/24"},
"10.1.0.0/16",
nil,
"nothing",
},
{
[]string{"192.168.0.0/24", "192.168.0.0/25"},
"192.168.0.0/16",
[]string{"192.168.0.0/24", "192.168.0.0/25"},
"multiple networks",
},
{
[]string{"192.168.0.0/24", "192.168.0.0/25", "192.168.0.1/32"},
"192.168.0.0/16",
[]string{"192.168.0.0/24", "192.168.0.0/25", "192.168.0.1/32"},
"multiple networks 2",
},
{
[]string{"192.168.1.1/32"},
"192.168.0.0/16",
[]string{"192.168.1.1/32"},
"leaf",
},
{
[]string{"0.0.0.0/0", "192.168.1.1/32"},
"192.168.0.0/16",
[]string{"192.168.1.1/32"},
"leaf with root",
},
{
[]string{
"0.0.0.0/0", "192.168.0.0/24", "192.168.1.1/32",
"10.1.0.0/16", "10.1.1.0/24",
},
"192.168.0.0/16",
[]string{"192.168.0.0/24", "192.168.1.1/32"},
"path not taken",
},
{
[]string{
"192.168.0.0/15",
},
"192.168.0.0/16",
nil,
"only masks different",
},
}
func TestTrieCoveredNetworks(t *testing.T) {
for _, tc := range coveredNetworkTests {
t.Run(tc.name, func(t *testing.T) {
trie := NewTrie()
v := any(1)
for _, insert := range tc.inserts {
network := netip.MustParsePrefix(insert)
trie.Insert(network, v)
}
var expectedEntries []netip.Prefix
for _, network := range tc.networks {
expected := normalizePrefix(netip.MustParsePrefix(network))
expectedEntries = append(expectedEntries, expected)
}
snet := netip.MustParsePrefix(tc.search)
networks := trie.CoveredNetworks(snet)
assert.Equal(t, expectedEntries, networks)
})
}
}
func TestTrieMemUsage(t *testing.T) {
if testing.Short() {
t.Skip("Skipping memory test in `-short` mode")
}
numIPs := 100000
runs := 10
// Avg heap allocation over all runs should not be more than the heap allocation of first run multiplied
// by threshold, picking 1% as sane number for detecting memory leak.
thresh := 1.01
trie := NewTrie()
var baseLineHeap, totalHeapAllocOverRuns uint64
for i := 0; i < runs; i++ {
t.Logf("Executing Run %d of %d", i+1, runs)
v := any(1)
// Insert networks.
for n := 0; n < numIPs; n++ {
trie.Insert(GenLeafIPNet(GenIPV4()), v)
}
// Remove networks.
all := netip.PrefixFrom(netip.IPv4Unspecified(), 0)
ll := trie.CoveredNetworks(all)
for i := 0; i < len(ll); i++ {
trie.Remove(ll[i])
}
t.Logf("Removed All (%d networks)", len(ll))
// Perform GC
runtime.GC()
// Get HeapAlloc stats.
heapAlloc := GetHeapAllocation()
totalHeapAllocOverRuns += heapAlloc
if i == 0 {
baseLineHeap = heapAlloc
}
}
// Assert that heap allocation from first loop is within set threshold of avg over all runs.
assert.Less(t, uint64(0), baseLineHeap)
assert.LessOrEqual(t, float64(baseLineHeap), float64(totalHeapAllocOverRuns/uint64(runs))*thresh)
}
func GenLeafIPNet(ip netip.Addr) netip.Prefix {
return netip.PrefixFrom(ip, 32)
}
var rng = rand.New(rand.NewSource(0))
// GenIPV4 generates an IPV4 address
func GenIPV4() netip.Addr {
nn := rng.Uint32()
if nn < 4294967295 {
nn++
}
var ip [4]byte
binary.BigEndian.PutUint32(ip[:], nn)
return netip.AddrFrom4(ip)
}
func GetHeapAllocation() uint64 {
var m runtime.MemStats
runtime.ReadMemStats(&m)
return m.HeapAlloc
}
func ExampleTrieLoader() {
pt := NewTrie()
ptl := NewTrieLoader(pt)
networks := []string{
"10.0.0.0/8",
"10.1.0.0/16",
"192.168.0.0/24",
"192.168.1.1/32",
}
for _, n := range networks {
ptl.Insert(netip.MustParsePrefix(n), "net="+n)
}
fmt.Printf("%s\n", pt.String())
// Output:
// ::/0
// ├ ::ffff:0.0.0.0/96
// ├ ├ ::ffff:10.0.0.0/104 • net=10.0.0.0/8
// ├ ├ ├ ::ffff:10.1.0.0/112 • net=10.1.0.0/16
// ├ ├ ::ffff:192.168.0.0/119
// ├ ├ ├ ::ffff:192.168.0.0/120 • net=192.168.0.0/24
// ├ ├ ├ ::ffff:192.168.1.1/128 • net=192.168.1.1/32
}