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rcmgr: Add conn_limiter to limit number of conns per ip cidr #2788
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Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -0,0 +1,141 @@ | ||
package rcmgr | ||
|
||
import ( | ||
"net/netip" | ||
"sync" | ||
) | ||
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type ConnLimitPerCIDR struct { | ||
// How many leading 1 bits in the mask | ||
BitMask int | ||
ConnCount int | ||
} | ||
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||
// 8 for now so that it matches the number of concurrent dials we may do | ||
// in swarm_dial.go. With future smart dialing work we should bring this | ||
// down | ||
var defaultMaxConcurrentConns = 8 | ||
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var defaultIP4Limit = ConnLimitPerCIDR{ | ||
ConnCount: defaultMaxConcurrentConns, | ||
BitMask: 32, | ||
} | ||
var defaultIP6Limits = []ConnLimitPerCIDR{ | ||
{ | ||
ConnCount: defaultMaxConcurrentConns, | ||
BitMask: 56, | ||
}, | ||
{ | ||
ConnCount: 8 * defaultMaxConcurrentConns, | ||
BitMask: 48, | ||
}, | ||
} | ||
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func WithLimitPeersPerCIDR(ipv4 []ConnLimitPerCIDR, ipv6 []ConnLimitPerCIDR) Option { | ||
return func(rm *resourceManager) error { | ||
if ipv4 != nil { | ||
rm.connLimiter.connLimitPerCIDRIP4 = ipv4 | ||
} | ||
if ipv6 != nil { | ||
rm.connLimiter.connLimitPerCIDRIP6 = ipv6 | ||
} | ||
return nil | ||
} | ||
} | ||
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type connLimiter struct { | ||
mu sync.Mutex | ||
connLimitPerCIDRIP4 []ConnLimitPerCIDR | ||
connLimitPerCIDRIP6 []ConnLimitPerCIDR | ||
ip4connsPerLimit []map[string]int | ||
ip6connsPerLimit []map[string]int | ||
} | ||
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func newConnLimiter() *connLimiter { | ||
return &connLimiter{ | ||
connLimitPerCIDRIP4: []ConnLimitPerCIDR{defaultIP4Limit}, | ||
connLimitPerCIDRIP6: defaultIP6Limits, | ||
} | ||
} | ||
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// addConn adds a connection for the given IP address. It returns true if the connection is allowed. | ||
func (cl *connLimiter) addConn(ip netip.Addr) bool { | ||
cl.mu.Lock() | ||
defer cl.mu.Unlock() | ||
limits := cl.connLimitPerCIDRIP4 | ||
countsPerLimit := cl.ip4connsPerLimit | ||
isIP6 := ip.Is6() | ||
if isIP6 { | ||
limits = cl.connLimitPerCIDRIP6 | ||
countsPerLimit = cl.ip6connsPerLimit | ||
} | ||
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if len(countsPerLimit) == 0 && len(limits) > 0 { | ||
countsPerLimit = make([]map[string]int, len(limits)) | ||
if isIP6 { | ||
cl.ip6connsPerLimit = countsPerLimit | ||
} else { | ||
cl.ip4connsPerLimit = countsPerLimit | ||
} | ||
} | ||
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for i, limit := range limits { | ||
prefix, err := ip.Prefix(limit.BitMask) | ||
if err != nil { | ||
return false | ||
} | ||
masked := prefix.String() | ||
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counts, ok := countsPerLimit[i][masked] | ||
if !ok { | ||
if countsPerLimit[i] == nil { | ||
countsPerLimit[i] = make(map[string]int) | ||
} | ||
countsPerLimit[i][masked] = 0 | ||
} | ||
if counts+1 > limit.ConnCount { | ||
return false | ||
} | ||
} | ||
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// All limit checks passed, now we update the counts | ||
for i, limit := range limits { | ||
prefix, _ := ip.Prefix(limit.BitMask) | ||
masked := prefix.String() | ||
countsPerLimit[i][masked]++ | ||
} | ||
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return true | ||
} | ||
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func (cl *connLimiter) rmConn(ip netip.Addr) { | ||
cl.mu.Lock() | ||
defer cl.mu.Unlock() | ||
limits := cl.connLimitPerCIDRIP4 | ||
countsPerLimit := cl.ip4connsPerLimit | ||
isIP6 := ip.Is6() | ||
if isIP6 { | ||
limits = cl.connLimitPerCIDRIP6 | ||
countsPerLimit = cl.ip6connsPerLimit | ||
} | ||
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for i, limit := range limits { | ||
prefix, err := ip.Prefix(limit.BitMask) | ||
if err != nil { | ||
// Unexpected since we should have seen this IP before in addConn | ||
log.Errorf("unexpected error getting prefix: %v", err) | ||
continue | ||
} | ||
masked := prefix.String() | ||
counts, ok := countsPerLimit[i][masked] | ||
if !ok || counts == 0 { | ||
// Unexpected, but don't panic | ||
log.Errorf("unexpected conn count for %s ok=%v count=%v", masked, ok, counts) | ||
continue | ||
} | ||
countsPerLimit[i][masked]-- | ||
if countsPerLimit[i][masked] == 0 { | ||
delete(countsPerLimit[i], masked) | ||
} | ||
} | ||
} |
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Original file line number | Diff line number | Diff line change |
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@@ -0,0 +1,158 @@ | ||
package rcmgr | ||
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import ( | ||
"encoding/binary" | ||
"fmt" | ||
"net" | ||
"net/netip" | ||
"testing" | ||
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"github.com/stretchr/testify/require" | ||
) | ||
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func TestItLimits(t *testing.T) { | ||
t.Run("IPv4", func(t *testing.T) { | ||
ip, err := netip.ParseAddr("1.2.3.4") | ||
require.NoError(t, err) | ||
cl := newConnLimiter() | ||
cl.connLimitPerCIDRIP4[0].ConnCount = 1 | ||
require.True(t, cl.addConn(ip)) | ||
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// should fail the second time | ||
require.False(t, cl.addConn(ip)) | ||
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otherIP, err := netip.ParseAddr("1.2.3.5") | ||
require.NoError(t, err) | ||
require.True(t, cl.addConn(otherIP)) | ||
}) | ||
t.Run("IPv6", func(t *testing.T) { | ||
ip, err := netip.ParseAddr("1:2:3:4::1") | ||
require.NoError(t, err) | ||
cl := newConnLimiter() | ||
original := cl.connLimitPerCIDRIP6[0].ConnCount | ||
cl.connLimitPerCIDRIP6[0].ConnCount = 1 | ||
defer func() { | ||
cl.connLimitPerCIDRIP6[0].ConnCount = original | ||
}() | ||
require.True(t, cl.addConn(ip)) | ||
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// should fail the second time | ||
require.False(t, cl.addConn(ip)) | ||
otherIPSameSubnet := netip.MustParseAddr("1:2:3:4::2") | ||
require.False(t, cl.addConn(otherIPSameSubnet)) | ||
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otherIP := netip.MustParseAddr("2:2:3:4::2") | ||
require.True(t, cl.addConn(otherIP)) | ||
}) | ||
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t.Run("IPv6 with multiple limits", func(t *testing.T) { | ||
cl := newConnLimiter() | ||
for i := 0; i < defaultMaxConcurrentConns; i++ { | ||
ip := net.ParseIP("ff:2:3:4::1") | ||
binary.BigEndian.PutUint16(ip[14:], uint16(i)) | ||
ipAddr := netip.MustParseAddr(ip.String()) | ||
require.True(t, cl.addConn(ipAddr)) | ||
} | ||
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// Next one should fail | ||
ip := net.ParseIP("ff:2:3:4::1") | ||
binary.BigEndian.PutUint16(ip[14:], uint16(defaultMaxConcurrentConns+1)) | ||
require.False(t, cl.addConn(netip.MustParseAddr(ip.String()))) | ||
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// But on a different root subnet should work | ||
otherIP := netip.MustParseAddr("ffef:2:3::1") | ||
require.True(t, cl.addConn(otherIP)) | ||
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// But too many on the next subnet limit will fail too | ||
for i := 0; i < defaultMaxConcurrentConns*8; i++ { | ||
ip := net.ParseIP("ffef:2:3:4::1") | ||
binary.BigEndian.PutUint16(ip[5:7], uint16(i)) | ||
fmt.Println(ip.String()) | ||
ipAddr := netip.MustParseAddr(ip.String()) | ||
require.True(t, cl.addConn(ipAddr)) | ||
} | ||
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ip = net.ParseIP("ffef:2:3:4::1") | ||
binary.BigEndian.PutUint16(ip[5:7], uint16(defaultMaxConcurrentConns*8+1)) | ||
ipAddr := netip.MustParseAddr(ip.String()) | ||
require.False(t, cl.addConn(ipAddr)) | ||
}) | ||
} | ||
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func genIP(data *[]byte) (netip.Addr, bool) { | ||
if len(*data) < 1 { | ||
return netip.Addr{}, false | ||
} | ||
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genIP6 := (*data)[0]&0x01 == 1 | ||
bytesRequired := 4 | ||
if genIP6 { | ||
bytesRequired = 16 | ||
} | ||
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if len((*data)[1:]) < bytesRequired { | ||
return netip.Addr{}, false | ||
} | ||
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*data = (*data)[1:] | ||
ip, ok := netip.AddrFromSlice((*data)[:bytesRequired]) | ||
*data = (*data)[bytesRequired:] | ||
return ip, ok | ||
} | ||
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func FuzzConnLimiter(f *testing.F) { | ||
// The goal is to try to enter a state where the count is incorrectly 0 | ||
f.Fuzz(func(t *testing.T, data []byte) { | ||
ips := make([]netip.Addr, 0, len(data)/5) | ||
for { | ||
ip, ok := genIP(&data) | ||
if !ok { | ||
break | ||
} | ||
ips = append(ips, ip) | ||
} | ||
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cl := newConnLimiter() | ||
addedConns := make([]netip.Addr, 0, len(ips)) | ||
for _, ip := range ips { | ||
if cl.addConn(ip) { | ||
addedConns = append(addedConns, ip) | ||
} | ||
} | ||
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addedCount := 0 | ||
for _, ip := range cl.ip4connsPerLimit { | ||
for _, count := range ip { | ||
addedCount += count | ||
} | ||
} | ||
for _, ip := range cl.ip6connsPerLimit { | ||
for _, count := range ip { | ||
addedCount += count | ||
} | ||
} | ||
if addedCount == 0 && len(addedConns) > 0 { | ||
t.Fatalf("added count: %d", addedCount) | ||
} | ||
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for _, ip := range addedConns { | ||
cl.rmConn(ip) | ||
} | ||
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leftoverCount := 0 | ||
for _, ip := range cl.ip4connsPerLimit { | ||
for _, count := range ip { | ||
leftoverCount += count | ||
} | ||
} | ||
for _, ip := range cl.ip6connsPerLimit { | ||
for _, count := range ip { | ||
leftoverCount += count | ||
} | ||
} | ||
if leftoverCount != 0 { | ||
t.Fatalf("leftover count: %d", leftoverCount) | ||
} | ||
}) | ||
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} |
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Why is this a slice? How are these maps ever garbage collected?
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It’s a slice because the limits are a slice. Each map corresponds to each limit.
You’re right about the gc of course, I need to delete after removing all conns from a subnet.