mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-12-27 00:55:17 +00:00
215 lines
5.2 KiB
Go
215 lines
5.2 KiB
Go
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package rcmgr
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import (
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"encoding/binary"
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"net"
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"net/netip"
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"testing"
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"github.com/stretchr/testify/require"
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)
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func TestItLimits(t *testing.T) {
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t.Run("IPv4", func(t *testing.T) {
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ip, err := netip.ParseAddr("1.2.3.4")
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require.NoError(t, err)
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cl := newConnLimiter()
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cl.connLimitPerSubnetV4[0].ConnCount = 1
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require.True(t, cl.addConn(ip))
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// should fail the second time
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require.False(t, cl.addConn(ip))
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otherIP, err := netip.ParseAddr("1.2.3.5")
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require.NoError(t, err)
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require.True(t, cl.addConn(otherIP))
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})
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t.Run("IPv6", func(t *testing.T) {
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ip, err := netip.ParseAddr("1:2:3:4::1")
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require.NoError(t, err)
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cl := newConnLimiter()
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original := cl.connLimitPerSubnetV6[0].ConnCount
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cl.connLimitPerSubnetV6[0].ConnCount = 1
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defer func() {
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cl.connLimitPerSubnetV6[0].ConnCount = original
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}()
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require.True(t, cl.addConn(ip))
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// should fail the second time
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require.False(t, cl.addConn(ip))
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otherIPSameSubnet := netip.MustParseAddr("1:2:3:4::2")
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require.False(t, cl.addConn(otherIPSameSubnet))
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otherIP := netip.MustParseAddr("2:2:3:4::2")
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require.True(t, cl.addConn(otherIP))
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})
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t.Run("IPv6 with multiple limits", func(t *testing.T) {
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cl := newConnLimiter()
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for i := 0; i < defaultMaxConcurrentConns; i++ {
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ip := net.ParseIP("ff:2:3:4::1")
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binary.BigEndian.PutUint16(ip[14:], uint16(i))
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ipAddr := netip.MustParseAddr(ip.String())
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require.True(t, cl.addConn(ipAddr))
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}
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// Next one should fail
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ip := net.ParseIP("ff:2:3:4::1")
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binary.BigEndian.PutUint16(ip[14:], uint16(defaultMaxConcurrentConns+1))
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require.False(t, cl.addConn(netip.MustParseAddr(ip.String())))
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// But on a different root subnet should work
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otherIP := netip.MustParseAddr("ffef:2:3::1")
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require.True(t, cl.addConn(otherIP))
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// But too many on the next subnet limit will fail too
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for i := 0; i < defaultMaxConcurrentConns*8; i++ {
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ip := net.ParseIP("ffef:2:3:4::1")
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binary.BigEndian.PutUint16(ip[5:7], uint16(i))
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ipAddr := netip.MustParseAddr(ip.String())
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require.True(t, cl.addConn(ipAddr))
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}
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ip = net.ParseIP("ffef:2:3:4::1")
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binary.BigEndian.PutUint16(ip[5:7], uint16(defaultMaxConcurrentConns*8+1))
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ipAddr := netip.MustParseAddr(ip.String())
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require.False(t, cl.addConn(ipAddr))
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})
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t.Run("IPv4 with localhost", func(t *testing.T) {
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cl := &connLimiter{
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networkPrefixLimitV4: DefaultNetworkPrefixLimitV4,
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connLimitPerSubnetV4: []ConnLimitPerSubnet{
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{PrefixLength: 0, ConnCount: 1}, // 1 connection for the whole IPv4 space
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},
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}
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ip := netip.MustParseAddr("1.2.3.4")
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require.True(t, cl.addConn(ip))
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ip = netip.MustParseAddr("4.3.2.1")
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// should fail the second time, we only allow 1 connection for the whole IPv4 space
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require.False(t, cl.addConn(ip))
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ip = netip.MustParseAddr("127.0.0.1")
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// Succeeds because we defined an explicit limit for the loopback subnet
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require.True(t, cl.addConn(ip))
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})
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}
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func genIP(data *[]byte) (netip.Addr, bool) {
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if len(*data) < 1 {
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return netip.Addr{}, false
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}
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genIP6 := (*data)[0]&0x01 == 1
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bytesRequired := 4
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if genIP6 {
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bytesRequired = 16
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}
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if len((*data)[1:]) < bytesRequired {
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return netip.Addr{}, false
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}
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*data = (*data)[1:]
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ip, ok := netip.AddrFromSlice((*data)[:bytesRequired])
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*data = (*data)[bytesRequired:]
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return ip, ok
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}
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func FuzzConnLimiter(f *testing.F) {
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// The goal is to try to enter a state where the count is incorrectly 0
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f.Fuzz(func(t *testing.T, data []byte) {
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ips := make([]netip.Addr, 0, len(data)/5)
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for {
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ip, ok := genIP(&data)
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if !ok {
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break
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}
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ips = append(ips, ip)
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}
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cl := newConnLimiter()
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addedConns := make([]netip.Addr, 0, len(ips))
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for _, ip := range ips {
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if cl.addConn(ip) {
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addedConns = append(addedConns, ip)
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}
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}
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addedCount := 0
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for _, ip := range cl.ip4connsPerLimit {
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for _, count := range ip {
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addedCount += count
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}
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}
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for _, ip := range cl.ip6connsPerLimit {
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for _, count := range ip {
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addedCount += count
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}
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}
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for _, count := range cl.connsPerNetworkPrefixV4 {
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addedCount += count
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}
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for _, count := range cl.connsPerNetworkPrefixV6 {
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addedCount += count
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}
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if addedCount == 0 && len(addedConns) > 0 {
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t.Fatalf("added count: %d", addedCount)
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}
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for _, ip := range addedConns {
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cl.rmConn(ip)
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}
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leftoverCount := 0
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for _, ip := range cl.ip4connsPerLimit {
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for _, count := range ip {
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leftoverCount += count
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}
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}
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for _, ip := range cl.ip6connsPerLimit {
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for _, count := range ip {
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leftoverCount += count
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}
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}
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for _, count := range cl.connsPerNetworkPrefixV4 {
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addedCount += count
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}
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for _, count := range cl.connsPerNetworkPrefixV6 {
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addedCount += count
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}
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if leftoverCount != 0 {
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t.Fatalf("leftover count: %d", leftoverCount)
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}
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})
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}
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func TestSortedNetworkPrefixLimits(t *testing.T) {
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npLimits := []NetworkPrefixLimit{
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{
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Network: netip.MustParsePrefix("1.2.0.0/16"),
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},
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{
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Network: netip.MustParsePrefix("1.2.3.0/28"),
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},
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{
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Network: netip.MustParsePrefix("1.2.3.4/32"),
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},
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}
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npLimits = sortNetworkPrefixes(npLimits)
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sorted := []NetworkPrefixLimit{
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{
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Network: netip.MustParsePrefix("1.2.3.4/32"),
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},
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{
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Network: netip.MustParsePrefix("1.2.3.0/28"),
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},
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{
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Network: netip.MustParsePrefix("1.2.0.0/16"),
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},
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}
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require.EqualValues(t, sorted, npLimits)
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}
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