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tailscale/cmd/containerboot/settings.go

261 lines
10 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
//go:build linux
package main
import (
"context"
"errors"
"fmt"
"log"
"net/netip"
"os"
"path"
"strconv"
"tailscale.com/ipn/conffile"
"tailscale.com/kube/kubeclient"
)
// settings is all the configuration for containerboot.
type settings struct {
AuthKey string
Hostname string
Routes *string
// ProxyTargetIP is the destination IP to which all incoming
// Tailscale traffic should be proxied. If empty, no proxying
// is done. This is typically a locally reachable IP.
ProxyTargetIP string
// ProxyTargetDNSName is a DNS name to whose backing IP addresses all
// incoming Tailscale traffic should be proxied.
ProxyTargetDNSName string
// TailnetTargetIP is the destination IP to which all incoming
// non-Tailscale traffic should be proxied. This is typically a
// Tailscale IP.
TailnetTargetIP string
// TailnetTargetFQDN is an MagicDNS name to which all incoming
// non-Tailscale traffic should be proxied. This must be a full Tailnet
// node FQDN.
TailnetTargetFQDN string
ServeConfigPath string
DaemonExtraArgs string
ExtraArgs string
InKubernetes bool
UserspaceMode bool
StateDir string
AcceptDNS *bool
KubeSecret string
SOCKSProxyAddr string
HTTPProxyAddr string
Socket string
AuthOnce bool
Root string
KubernetesCanPatch bool
TailscaledConfigFilePath string
EnableForwardingOptimizations bool
// If set to true and, if this containerboot instance is a Kubernetes
// ingress proxy, set up rules to forward incoming cluster traffic to be
// forwarded to the ingress target in cluster.
AllowProxyingClusterTrafficViaIngress bool
// PodIP is the IP of the Pod if running in Kubernetes. This is used
// when setting up rules to proxy cluster traffic to cluster ingress
// target.
PodIP string
HealthCheckAddrPort string
cmd/containerboot,kube,util/linuxfw: configure kube egress proxies to route to 1+ tailnet targets (#13531) * cmd/containerboot,kube,util/linuxfw: configure kube egress proxies to route to 1+ tailnet targets This commit is first part of the work to allow running multiple replicas of the Kubernetes operator egress proxies per tailnet service + to allow exposing multiple tailnet services via each proxy replica. This expands the existing iptables/nftables-based proxy configuration mechanism. A proxy can now be configured to route to one or more tailnet targets via a (mounted) config file that, for each tailnet target, specifies: - the target's tailnet IP or FQDN - mappings of container ports to which cluster workloads will send traffic to tailnet target ports where the traffic should be forwarded. Example configfile contents: { "some-svc": {"tailnetTarget":{"fqdn":"foo.tailnetxyz.ts.net","ports"{"tcp:4006:80":{"protocol":"tcp","matchPort":4006,"targetPort":80},"tcp:4007:443":{"protocol":"tcp","matchPort":4007,"targetPort":443}}}} } A proxy that is configured with this config file will configure firewall rules to route cluster traffic to the tailnet targets. It will then watch the config file for updates as well as monitor relevant netmap updates and reconfigure firewall as needed. This adds a bunch of new iptables/nftables functionality to make it easier to dynamically update the firewall rules without needing to restart the proxy Pod as well as to make it easier to debug/understand the rules: - for iptables, each portmapping is a DNAT rule with a comment pointing at the 'service',i.e: -A PREROUTING ! -i tailscale0 -p tcp -m tcp --dport 4006 -m comment --comment "some-svc:tcp:4006 -> tcp:80" -j DNAT --to-destination 100.64.1.18:80 Additionally there is a SNAT rule for each tailnet target, to mask the source address. - for nftables, a separate prerouting chain is created for each tailnet target and all the portmapping rules are placed in that chain. This makes it easier to look up rules and delete services when no longer needed. (nftables allows hooking a custom chain to a prerouting hook, so no extra work is needed to ensure that the rules in the service chains are evaluated). The next steps will be to get the Kubernetes Operator to generate the configfile and ensure it is mounted to the relevant proxy nodes. Updates tailscale/tailscale#13406 Signed-off-by: Irbe Krumina <irbe@tailscale.com>
1 month ago
EgressSvcsCfgPath string
}
func (s *settings) validate() error {
if s.TailscaledConfigFilePath != "" {
dir, file := path.Split(s.TailscaledConfigFilePath)
if _, err := os.Stat(dir); err != nil {
return fmt.Errorf("error validating whether directory with tailscaled config file %s exists: %w", dir, err)
}
if _, err := os.Stat(s.TailscaledConfigFilePath); err != nil {
return fmt.Errorf("error validating whether tailscaled config directory %q contains tailscaled config for current capability version %q: %w. If this is a Tailscale Kubernetes operator proxy, please ensure that the version of the operator is not older than the version of the proxy", dir, file, err)
}
if _, err := conffile.Load(s.TailscaledConfigFilePath); err != nil {
return fmt.Errorf("error validating tailscaled configfile contents: %w", err)
}
}
if s.ProxyTargetIP != "" && s.UserspaceMode {
return errors.New("TS_DEST_IP is not supported with TS_USERSPACE")
}
if s.ProxyTargetDNSName != "" && s.UserspaceMode {
return errors.New("TS_EXPERIMENTAL_DEST_DNS_NAME is not supported with TS_USERSPACE")
}
if s.ProxyTargetDNSName != "" && s.ProxyTargetIP != "" {
return errors.New("TS_EXPERIMENTAL_DEST_DNS_NAME and TS_DEST_IP cannot both be set")
}
if s.TailnetTargetIP != "" && s.UserspaceMode {
return errors.New("TS_TAILNET_TARGET_IP is not supported with TS_USERSPACE")
}
if s.TailnetTargetFQDN != "" && s.UserspaceMode {
return errors.New("TS_TAILNET_TARGET_FQDN is not supported with TS_USERSPACE")
}
if s.TailnetTargetFQDN != "" && s.TailnetTargetIP != "" {
return errors.New("Both TS_TAILNET_TARGET_IP and TS_TAILNET_FQDN cannot be set")
}
if s.TailscaledConfigFilePath != "" && (s.AcceptDNS != nil || s.AuthKey != "" || s.Routes != nil || s.ExtraArgs != "" || s.Hostname != "") {
return errors.New("TS_EXPERIMENTAL_VERSIONED_CONFIG_DIR cannot be set in combination with TS_HOSTNAME, TS_EXTRA_ARGS, TS_AUTHKEY, TS_ROUTES, TS_ACCEPT_DNS.")
}
if s.AllowProxyingClusterTrafficViaIngress && s.UserspaceMode {
return errors.New("EXPERIMENTAL_ALLOW_PROXYING_CLUSTER_TRAFFIC_VIA_INGRESS is not supported in userspace mode")
}
if s.AllowProxyingClusterTrafficViaIngress && s.ServeConfigPath == "" {
return errors.New("EXPERIMENTAL_ALLOW_PROXYING_CLUSTER_TRAFFIC_VIA_INGRESS is set but this is not a cluster ingress proxy")
}
if s.AllowProxyingClusterTrafficViaIngress && s.PodIP == "" {
return errors.New("EXPERIMENTAL_ALLOW_PROXYING_CLUSTER_TRAFFIC_VIA_INGRESS is set but POD_IP is not set")
}
if s.EnableForwardingOptimizations && s.UserspaceMode {
return errors.New("TS_EXPERIMENTAL_ENABLE_FORWARDING_OPTIMIZATIONS is not supported in userspace mode")
}
if s.HealthCheckAddrPort != "" {
if _, err := netip.ParseAddrPort(s.HealthCheckAddrPort); err != nil {
return fmt.Errorf("error parsing TS_HEALTH_CHECK_ADDR_PORT value %q: %w", s.HealthCheckAddrPort, err)
}
}
return nil
}
// setupKube is responsible for doing any necessary configuration and checks to
// ensure that tailscale state storage and authentication mechanism will work on
// Kubernetes.
func (cfg *settings) setupKube(ctx context.Context) error {
if cfg.KubeSecret == "" {
return nil
}
canPatch, canCreate, err := kc.CheckSecretPermissions(ctx, cfg.KubeSecret)
if err != nil {
return fmt.Errorf("Some Kubernetes permissions are missing, please check your RBAC configuration: %v", err)
}
cfg.KubernetesCanPatch = canPatch
s, err := kc.GetSecret(ctx, cfg.KubeSecret)
if err != nil && kubeclient.IsNotFoundErr(err) && !canCreate {
return fmt.Errorf("Tailscale state Secret %s does not exist and we don't have permissions to create it. "+
"If you intend to store tailscale state elsewhere than a Kubernetes Secret, "+
"you can explicitly set TS_KUBE_SECRET env var to an empty string. "+
"Else ensure that RBAC is set up that allows the service account associated with this installation to create Secrets.", cfg.KubeSecret)
} else if err != nil && !kubeclient.IsNotFoundErr(err) {
return fmt.Errorf("Getting Tailscale state Secret %s: %v", cfg.KubeSecret, err)
}
if cfg.AuthKey == "" && !isOneStepConfig(cfg) {
if s == nil {
log.Print("TS_AUTHKEY not provided and kube secret does not exist, login will be interactive if needed.")
return nil
}
keyBytes, _ := s.Data["authkey"]
key := string(keyBytes)
if key != "" {
// This behavior of pulling authkeys from kube secrets was added
// at the same time as the patch permission, so we can enforce
// that we must be able to patch out the authkey after
// authenticating if you want to use this feature. This avoids
// us having to deal with the case where we might leave behind
// an unnecessary reusable authkey in a secret, like a rake in
// the grass.
if !cfg.KubernetesCanPatch {
return errors.New("authkey found in TS_KUBE_SECRET, but the pod doesn't have patch permissions on the secret to manage the authkey.")
}
cfg.AuthKey = key
} else {
log.Print("No authkey found in kube secret and TS_AUTHKEY not provided, login will be interactive if needed.")
}
}
return nil
}
// isTwoStepConfigAuthOnce returns true if the Tailscale node should be configured
// in two steps and login should only happen once.
// Step 1: run 'tailscaled'
// Step 2):
// A) if this is the first time starting this node run 'tailscale up --authkey <authkey> <config opts>'
// B) if this is not the first time starting this node run 'tailscale set <config opts>'.
func isTwoStepConfigAuthOnce(cfg *settings) bool {
return cfg.AuthOnce && cfg.TailscaledConfigFilePath == ""
}
// isTwoStepConfigAlwaysAuth returns true if the Tailscale node should be configured
// in two steps and we should log in every time it starts.
// Step 1: run 'tailscaled'
// Step 2): run 'tailscale up --authkey <authkey> <config opts>'
func isTwoStepConfigAlwaysAuth(cfg *settings) bool {
return !cfg.AuthOnce && cfg.TailscaledConfigFilePath == ""
}
// isOneStepConfig returns true if the Tailscale node should always be ran and
// configured in a single step by running 'tailscaled <config opts>'
func isOneStepConfig(cfg *settings) bool {
return cfg.TailscaledConfigFilePath != ""
}
// isL3Proxy returns true if the Tailscale node needs to be configured to act
// as an L3 proxy, proxying to an endpoint provided via one of the config env
// vars.
func isL3Proxy(cfg *settings) bool {
cmd/containerboot,kube,util/linuxfw: configure kube egress proxies to route to 1+ tailnet targets (#13531) * cmd/containerboot,kube,util/linuxfw: configure kube egress proxies to route to 1+ tailnet targets This commit is first part of the work to allow running multiple replicas of the Kubernetes operator egress proxies per tailnet service + to allow exposing multiple tailnet services via each proxy replica. This expands the existing iptables/nftables-based proxy configuration mechanism. A proxy can now be configured to route to one or more tailnet targets via a (mounted) config file that, for each tailnet target, specifies: - the target's tailnet IP or FQDN - mappings of container ports to which cluster workloads will send traffic to tailnet target ports where the traffic should be forwarded. Example configfile contents: { "some-svc": {"tailnetTarget":{"fqdn":"foo.tailnetxyz.ts.net","ports"{"tcp:4006:80":{"protocol":"tcp","matchPort":4006,"targetPort":80},"tcp:4007:443":{"protocol":"tcp","matchPort":4007,"targetPort":443}}}} } A proxy that is configured with this config file will configure firewall rules to route cluster traffic to the tailnet targets. It will then watch the config file for updates as well as monitor relevant netmap updates and reconfigure firewall as needed. This adds a bunch of new iptables/nftables functionality to make it easier to dynamically update the firewall rules without needing to restart the proxy Pod as well as to make it easier to debug/understand the rules: - for iptables, each portmapping is a DNAT rule with a comment pointing at the 'service',i.e: -A PREROUTING ! -i tailscale0 -p tcp -m tcp --dport 4006 -m comment --comment "some-svc:tcp:4006 -> tcp:80" -j DNAT --to-destination 100.64.1.18:80 Additionally there is a SNAT rule for each tailnet target, to mask the source address. - for nftables, a separate prerouting chain is created for each tailnet target and all the portmapping rules are placed in that chain. This makes it easier to look up rules and delete services when no longer needed. (nftables allows hooking a custom chain to a prerouting hook, so no extra work is needed to ensure that the rules in the service chains are evaluated). The next steps will be to get the Kubernetes Operator to generate the configfile and ensure it is mounted to the relevant proxy nodes. Updates tailscale/tailscale#13406 Signed-off-by: Irbe Krumina <irbe@tailscale.com>
1 month ago
return cfg.ProxyTargetIP != "" || cfg.ProxyTargetDNSName != "" || cfg.TailnetTargetIP != "" || cfg.TailnetTargetFQDN != "" || cfg.AllowProxyingClusterTrafficViaIngress || cfg.EgressSvcsCfgPath != ""
}
// hasKubeStateStore returns true if the state must be stored in a Kubernetes
// Secret.
func hasKubeStateStore(cfg *settings) bool {
return cfg.InKubernetes && cfg.KubernetesCanPatch && cfg.KubeSecret != ""
}
// defaultEnv returns the value of the given envvar name, or defVal if
// unset.
func defaultEnv(name, defVal string) string {
if v, ok := os.LookupEnv(name); ok {
return v
}
return defVal
}
// defaultEnvStringPointer returns a pointer to the given envvar value if set, else
// returns nil. This is useful in cases where we need to distinguish between a
// variable being set to empty string vs unset.
func defaultEnvStringPointer(name string) *string {
if v, ok := os.LookupEnv(name); ok {
return &v
}
return nil
}
// defaultEnvBoolPointer returns a pointer to the given envvar value if set, else
// returns nil. This is useful in cases where we need to distinguish between a
// variable being explicitly set to false vs unset.
func defaultEnvBoolPointer(name string) *bool {
v := os.Getenv(name)
ret, err := strconv.ParseBool(v)
if err != nil {
return nil
}
return &ret
}
func defaultEnvs(names []string, defVal string) string {
for _, name := range names {
if v, ok := os.LookupEnv(name); ok {
return v
}
}
return defVal
}
// defaultBool returns the boolean value of the given envvar name, or
// defVal if unset or not a bool.
func defaultBool(name string, defVal bool) bool {
v := os.Getenv(name)
ret, err := strconv.ParseBool(v)
if err != nil {
return defVal
}
return ret
}