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Add optional tc

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This commit is contained in:
Owen
2026-02-27 15:45:17 -08:00
parent c3e73d0189
commit b9261b8fea
1 changed files with 207 additions and 21 deletions
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228
main.go
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@@ -33,15 +33,16 @@ import (
) )
var ( var (
interfaceName string interfaceName string
listenAddr string listenAddr string
mtuInt int mtuInt int
lastReadings = make(map[string]PeerReading) lastReadings = make(map[string]PeerReading)
mu sync.Mutex mu sync.Mutex
wgMu sync.Mutex // Protects WireGuard operations wgMu sync.Mutex // Protects WireGuard operations
notifyURL string notifyURL string
proxyRelay *relay.UDPProxyServer proxyRelay *relay.UDPProxyServer
proxySNI *proxy.SNIProxy proxySNI *proxy.SNIProxy
doTrafficShaping bool
) )
type WgConfig struct { type WgConfig struct {
@@ -151,6 +152,7 @@ func main() {
localOverridesStr = os.Getenv("LOCAL_OVERRIDES") localOverridesStr = os.Getenv("LOCAL_OVERRIDES")
trustedUpstreamsStr = os.Getenv("TRUSTED_UPSTREAMS") trustedUpstreamsStr = os.Getenv("TRUSTED_UPSTREAMS")
proxyProtocolStr := os.Getenv("PROXY_PROTOCOL") proxyProtocolStr := os.Getenv("PROXY_PROTOCOL")
doTrafficShapingStr := os.Getenv("DO_TRAFFIC_SHAPING")
if interfaceName == "" { if interfaceName == "" {
flag.StringVar(&interfaceName, "interface", "wg0", "Name of the WireGuard interface") flag.StringVar(&interfaceName, "interface", "wg0", "Name of the WireGuard interface")
@@ -222,6 +224,13 @@ func main() {
flag.BoolVar(&proxyProtocol, "proxy-protocol", true, "Enable PROXY protocol v1 for preserving client IP") flag.BoolVar(&proxyProtocol, "proxy-protocol", true, "Enable PROXY protocol v1 for preserving client IP")
} }
if doTrafficShapingStr != "" {
doTrafficShaping = strings.ToLower(doTrafficShapingStr) == "true"
}
if doTrafficShapingStr == "" {
flag.BoolVar(&doTrafficShaping, "do-traffic-shaping", false, "Whether to set up traffic shaping rules for peers (requires tc command and root privileges)")
}
flag.Parse() flag.Parse()
logger.Init() logger.Init()
@@ -886,17 +895,23 @@ func addPeerInternal(peer Peer) error {
return fmt.Errorf("failed to parse public key: %v", err) return fmt.Errorf("failed to parse public key: %v", err)
} }
logger.Debug("Adding peer %s with AllowedIPs: %v", peer.PublicKey, peer.AllowedIPs)
// parse allowed IPs into array of net.IPNet // parse allowed IPs into array of net.IPNet
var allowedIPs []net.IPNet var allowedIPs []net.IPNet
var wgIPs []string var wgIPs []string
for _, ipStr := range peer.AllowedIPs { for _, ipStr := range peer.AllowedIPs {
logger.Debug("Parsing AllowedIP: %s", ipStr)
_, ipNet, err := net.ParseCIDR(ipStr) _, ipNet, err := net.ParseCIDR(ipStr)
if err != nil { if err != nil {
logger.Warn("Failed to parse allowed IP '%s' for peer %s: %v", ipStr, peer.PublicKey, err)
return fmt.Errorf("failed to parse allowed IP: %v", err) return fmt.Errorf("failed to parse allowed IP: %v", err)
} }
allowedIPs = append(allowedIPs, *ipNet) allowedIPs = append(allowedIPs, *ipNet)
// Extract the IP address from the CIDR for relay cleanup // Extract the IP address from the CIDR for relay cleanup
wgIPs = append(wgIPs, ipNet.IP.String()) extractedIP := ipNet.IP.String()
wgIPs = append(wgIPs, extractedIP)
logger.Debug("Extracted IP %s from AllowedIP %s", extractedIP, ipStr)
} }
peerConfig := wgtypes.PeerConfig{ peerConfig := wgtypes.PeerConfig{
@@ -912,6 +927,18 @@ func addPeerInternal(peer Peer) error {
return fmt.Errorf("failed to add peer: %v", err) return fmt.Errorf("failed to add peer: %v", err)
} }
// Setup bandwidth limiting for each peer IP
if doTrafficShaping {
logger.Debug("doTrafficShaping is true, setting up bandwidth limits for %d IPs", len(wgIPs))
for _, wgIP := range wgIPs {
if err := setupPeerBandwidthLimit(wgIP); err != nil {
logger.Warn("Failed to setup bandwidth limit for peer IP %s: %v", wgIP, err)
}
}
} else {
logger.Debug("doTrafficShaping is false, skipping bandwidth limit setup")
}
// Clear relay connections for the peer's WireGuard IPs // Clear relay connections for the peer's WireGuard IPs
if proxyRelay != nil { if proxyRelay != nil {
for _, wgIP := range wgIPs { for _, wgIP := range wgIPs {
@@ -956,19 +983,17 @@ func removePeerInternal(publicKey string) error {
return fmt.Errorf("failed to parse public key: %v", err) return fmt.Errorf("failed to parse public key: %v", err)
} }
// Get current peer info before removing to clear relay connections // Get current peer info before removing to clear relay connections and bandwidth limits
var wgIPs []string var wgIPs []string
if proxyRelay != nil { device, err := wgClient.Device(interfaceName)
device, err := wgClient.Device(interfaceName) if err == nil {
if err == nil { for _, peer := range device.Peers {
for _, peer := range device.Peers { if peer.PublicKey.String() == publicKey {
if peer.PublicKey.String() == publicKey { // Extract WireGuard IPs from this peer's allowed IPs
// Extract WireGuard IPs from this peer's allowed IPs for _, allowedIP := range peer.AllowedIPs {
for _, allowedIP := range peer.AllowedIPs { wgIPs = append(wgIPs, allowedIP.IP.String())
wgIPs = append(wgIPs, allowedIP.IP.String())
}
break
} }
break
} }
} }
} }
@@ -986,6 +1011,15 @@ func removePeerInternal(publicKey string) error {
return fmt.Errorf("failed to remove peer: %v", err) return fmt.Errorf("failed to remove peer: %v", err)
} }
// Remove bandwidth limits for each peer IP
if doTrafficShaping {
for _, wgIP := range wgIPs {
if err := removePeerBandwidthLimit(wgIP); err != nil {
logger.Warn("Failed to remove bandwidth limit for peer IP %s: %v", wgIP, err)
}
}
}
// Clear relay connections for the peer's WireGuard IPs // Clear relay connections for the peer's WireGuard IPs
if proxyRelay != nil { if proxyRelay != nil {
for _, wgIP := range wgIPs { for _, wgIP := range wgIPs {
@@ -1315,3 +1349,155 @@ func monitorMemory(limit uint64) {
time.Sleep(5 * time.Second) time.Sleep(5 * time.Second)
} }
} }
// setupPeerBandwidthLimit sets up TC (Traffic Control) to limit bandwidth for a specific peer IP
// Currently hardcoded to 20 Mbps per peer
func setupPeerBandwidthLimit(peerIP string) error {
logger.Debug("setupPeerBandwidthLimit called for peer IP: %s", peerIP)
const bandwidthLimit = "50mbit" // 50 Mbps limit per peer
// Parse the IP to get just the IP address (strip any CIDR notation if present)
ip := peerIP
if strings.Contains(peerIP, "/") {
parsedIP, _, err := net.ParseCIDR(peerIP)
if err != nil {
return fmt.Errorf("failed to parse peer IP: %v", err)
}
ip = parsedIP.String()
}
// First, ensure we have a root qdisc on the interface (HTB - Hierarchical Token Bucket)
// Check if qdisc already exists
cmd := exec.Command("tc", "qdisc", "show", "dev", interfaceName)
output, err := cmd.CombinedOutput()
if err != nil {
return fmt.Errorf("failed to check qdisc: %v, output: %s", err, string(output))
}
// If no HTB qdisc exists, create one
if !strings.Contains(string(output), "htb") {
cmd = exec.Command("tc", "qdisc", "add", "dev", interfaceName, "root", "handle", "1:", "htb", "default", "9999")
if output, err := cmd.CombinedOutput(); err != nil {
return fmt.Errorf("failed to add root qdisc: %v, output: %s", err, string(output))
}
logger.Info("Created HTB root qdisc on %s", interfaceName)
}
// Generate a unique class ID based on the IP address
// We'll use the last octet of the IP as part of the class ID
ipParts := strings.Split(ip, ".")
if len(ipParts) != 4 {
return fmt.Errorf("invalid IPv4 address: %s", ip)
}
lastOctet := ipParts[3]
classID := fmt.Sprintf("1:%s", lastOctet)
logger.Debug("Generated class ID %s for peer IP %s", classID, ip)
// Create a class for this peer with bandwidth limit
cmd = exec.Command("tc", "class", "add", "dev", interfaceName, "parent", "1:", "classid", classID,
"htb", "rate", bandwidthLimit, "ceil", bandwidthLimit)
if output, err := cmd.CombinedOutput(); err != nil {
logger.Debug("tc class add failed for %s: %v, output: %s", ip, err, string(output))
// If class already exists, try to replace it
if strings.Contains(string(output), "File exists") {
cmd = exec.Command("tc", "class", "replace", "dev", interfaceName, "parent", "1:", "classid", classID,
"htb", "rate", bandwidthLimit, "ceil", bandwidthLimit)
if output, err := cmd.CombinedOutput(); err != nil {
return fmt.Errorf("failed to replace class: %v, output: %s", err, string(output))
}
logger.Debug("Successfully replaced existing class %s for peer IP %s", classID, ip)
} else {
return fmt.Errorf("failed to add class: %v, output: %s", err, string(output))
}
} else {
logger.Debug("Successfully added new class %s for peer IP %s", classID, ip)
}
// Add a filter to match traffic from this peer IP (ingress)
cmd = exec.Command("tc", "filter", "add", "dev", interfaceName, "protocol", "ip", "parent", "1:",
"prio", "1", "u32", "match", "ip", "src", ip, "flowid", classID)
if output, err := cmd.CombinedOutput(); err != nil {
// If filter fails, log but don't fail the peer addition
logger.Warn("Failed to add ingress filter for peer IP %s: %v, output: %s", ip, err, string(output))
}
// Add a filter to match traffic to this peer IP (egress)
cmd = exec.Command("tc", "filter", "add", "dev", interfaceName, "protocol", "ip", "parent", "1:",
"prio", "1", "u32", "match", "ip", "dst", ip, "flowid", classID)
if output, err := cmd.CombinedOutput(); err != nil {
// If filter fails, log but don't fail the peer addition
logger.Warn("Failed to add egress filter for peer IP %s: %v, output: %s", ip, err, string(output))
}
logger.Info("Setup bandwidth limit of %s for peer IP %s (class %s)", bandwidthLimit, ip, classID)
return nil
}
// removePeerBandwidthLimit removes TC rules for a specific peer IP
func removePeerBandwidthLimit(peerIP string) error {
// Parse the IP to get just the IP address
ip := peerIP
if strings.Contains(peerIP, "/") {
parsedIP, _, err := net.ParseCIDR(peerIP)
if err != nil {
return fmt.Errorf("failed to parse peer IP: %v", err)
}
ip = parsedIP.String()
}
// Generate the class ID based on the IP
ipParts := strings.Split(ip, ".")
if len(ipParts) != 4 {
return fmt.Errorf("invalid IPv4 address: %s", ip)
}
lastOctet := ipParts[3]
classID := fmt.Sprintf("1:%s", lastOctet)
// Remove filters for this IP
// List all filters to find the ones for this class
cmd := exec.Command("tc", "filter", "show", "dev", interfaceName, "parent", "1:")
output, err := cmd.CombinedOutput()
if err != nil {
logger.Warn("Failed to list filters for peer IP %s: %v, output: %s", ip, err, string(output))
} else {
// Parse the output to find filter handles that match this classID
// The output format includes lines like:
// filter parent 1: protocol ip pref 1 u32 chain 0 fh 800::800 order 2048 key ht 800 bkt 0 flowid 1:4
lines := strings.Split(string(output), "\n")
for _, line := range lines {
// Look for lines containing our flowid (classID)
if strings.Contains(line, "flowid "+classID) && strings.Contains(line, "fh ") {
// Extract handle (format: fh 800::800)
parts := strings.Fields(line)
var handle string
for j, part := range parts {
if part == "fh" && j+1 < len(parts) {
handle = parts[j+1]
break
}
}
if handle != "" {
// Delete this filter using the handle
delCmd := exec.Command("tc", "filter", "del", "dev", interfaceName, "parent", "1:", "handle", handle, "prio", "1", "u32")
if delOutput, delErr := delCmd.CombinedOutput(); delErr != nil {
logger.Debug("Failed to delete filter handle %s for peer IP %s: %v, output: %s", handle, ip, delErr, string(delOutput))
} else {
logger.Debug("Deleted filter handle %s for peer IP %s", handle, ip)
}
}
}
}
}
// Remove the class
cmd = exec.Command("tc", "class", "del", "dev", interfaceName, "classid", classID)
if output, err := cmd.CombinedOutput(); err != nil {
// It's okay if the class doesn't exist
if !strings.Contains(string(output), "No such file or directory") && !strings.Contains(string(output), "Cannot find") {
logger.Warn("Failed to remove class for peer IP %s: %v, output: %s", ip, err, string(output))
}
}
logger.Info("Removed bandwidth limit for peer IP %s (class %s)", ip, classID)
return nil
}