// Package resolvconf provides utility code to query and update DNS configuration in /etc/resolv.conf. // Originally from github.com/docker/libnetwork/resolvconf. package resolvconf import ( "bytes" "io/ioutil" "regexp" "strings" "sync" "github.com/containers/podman/v4/pkg/resolvconf/dns" "github.com/containers/storage/pkg/ioutils" "github.com/sirupsen/logrus" ) const ( // DefaultResolvConf points to the default file used for dns configuration on a linux machine DefaultResolvConf = "/etc/resolv.conf" ) var ( // Note: the default IPv4 & IPv6 resolvers are set to Google's Public DNS defaultIPv4Dns = []string{"nameserver 8.8.8.8", "nameserver 8.8.4.4"} defaultIPv6Dns = []string{"nameserver 2001:4860:4860::8888", "nameserver 2001:4860:4860::8844"} ipv4NumBlock = `(25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)` ipv4Address = `(` + ipv4NumBlock + `\.){3}` + ipv4NumBlock // This is not an IPv6 address verifier as it will accept a super-set of IPv6, and also // will *not match* IPv4-Embedded IPv6 Addresses (RFC6052), but that and other variants // -- e.g. other link-local types -- either won't work in containers or are unnecessary. // For readability and sufficiency for Docker purposes this seemed more reasonable than a // 1000+ character regexp with exact and complete IPv6 validation ipv6Address = `([0-9A-Fa-f]{0,4}:){2,7}([0-9A-Fa-f]{0,4})(%\w+)?` localhostNSRegexp = regexp.MustCompile(`(?m)^nameserver\s+` + dns.IPLocalhost + `\s*\n*`) nsIPv6Regexp = regexp.MustCompile(`(?m)^nameserver\s+` + ipv6Address + `\s*\n*`) nsRegexp = regexp.MustCompile(`^\s*nameserver\s*((` + ipv4Address + `)|(` + ipv6Address + `))\s*$`) searchRegexp = regexp.MustCompile(`^\s*search\s*(([^\s]+\s*)*)$`) optionsRegexp = regexp.MustCompile(`^\s*options\s*(([^\s]+\s*)*)$`) ) var lastModified struct { sync.Mutex sha256 string contents []byte } // File contains the resolv.conf content and its hash type File struct { Content []byte Hash string } // Get returns the contents of /etc/resolv.conf and its hash func Get() (*File, error) { return GetSpecific(DefaultResolvConf) } // GetSpecific returns the contents of the user specified resolv.conf file and its hash func GetSpecific(path string) (*File, error) { resolv, err := ioutil.ReadFile(path) if err != nil { return nil, err } hash, err := ioutils.HashData(bytes.NewReader(resolv)) if err != nil { return nil, err } return &File{Content: resolv, Hash: hash}, nil } // GetIfChanged retrieves the host /etc/resolv.conf file, checks against the last hash // and, if modified since last check, returns the bytes and new hash. // This feature is used by the resolv.conf updater for containers func GetIfChanged() (*File, error) { lastModified.Lock() defer lastModified.Unlock() resolv, err := ioutil.ReadFile("/etc/resolv.conf") if err != nil { return nil, err } newHash, err := ioutils.HashData(bytes.NewReader(resolv)) if err != nil { return nil, err } if lastModified.sha256 != newHash { lastModified.sha256 = newHash lastModified.contents = resolv return &File{Content: resolv, Hash: newHash}, nil } // nothing changed, so return no data return nil, nil } // GetLastModified retrieves the last used contents and hash of the host resolv.conf. // Used by containers updating on restart func GetLastModified() *File { lastModified.Lock() defer lastModified.Unlock() return &File{Content: lastModified.contents, Hash: lastModified.sha256} } // FilterResolvDNS cleans up the config in resolvConf. It has two main jobs: // 1. If a netns is enabled, it looks for localhost (127.*|::1) entries in the provided // resolv.conf, removing local nameserver entries, and, if the resulting // cleaned config has no defined nameservers left, adds default DNS entries // 2. Given the caller provides the enable/disable state of IPv6, the filter // code will remove all IPv6 nameservers if it is not enabled for containers // func FilterResolvDNS(resolvConf []byte, ipv6Enabled bool, netnsEnabled bool) (*File, error) { // If we're using the host netns, we have nothing to do besides hash the file. if !netnsEnabled { hash, err := ioutils.HashData(bytes.NewReader(resolvConf)) if err != nil { return nil, err } return &File{Content: resolvConf, Hash: hash}, nil } cleanedResolvConf := localhostNSRegexp.ReplaceAll(resolvConf, []byte{}) // if IPv6 is not enabled, also clean out any IPv6 address nameserver if !ipv6Enabled { cleanedResolvConf = nsIPv6Regexp.ReplaceAll(cleanedResolvConf, []byte{}) } // if the resulting resolvConf has no more nameservers defined, add appropriate // default DNS servers for IPv4 and (optionally) IPv6 if len(GetNameservers(cleanedResolvConf)) == 0 { logrus.Infof("No non-localhost DNS nameservers are left in resolv.conf. Using default external servers: %v", defaultIPv4Dns) dns := defaultIPv4Dns if ipv6Enabled { logrus.Infof("IPv6 enabled; Adding default IPv6 external servers: %v", defaultIPv6Dns) dns = append(dns, defaultIPv6Dns...) } cleanedResolvConf = append(cleanedResolvConf, []byte("\n"+strings.Join(dns, "\n"))...) } hash, err := ioutils.HashData(bytes.NewReader(cleanedResolvConf)) if err != nil { return nil, err } return &File{Content: cleanedResolvConf, Hash: hash}, nil } // getLines parses input into lines and strips away comments. func getLines(input []byte, commentMarker []byte) [][]byte { lines := bytes.Split(input, []byte("\n")) var output [][]byte for _, currentLine := range lines { var commentIndex = bytes.Index(currentLine, commentMarker) if commentIndex == -1 { output = append(output, currentLine) } else { output = append(output, currentLine[:commentIndex]) } } return output } // GetNameservers returns nameservers (if any) listed in /etc/resolv.conf func GetNameservers(resolvConf []byte) []string { nameservers := []string{} for _, line := range getLines(resolvConf, []byte("#")) { ns := nsRegexp.FindSubmatch(line) if len(ns) > 0 { nameservers = append(nameservers, string(ns[1])) } } return nameservers } // GetNameserversAsCIDR returns nameservers (if any) listed in // /etc/resolv.conf as CIDR blocks (e.g., "1.2.3.4/32") // This function's output is intended for net.ParseCIDR func GetNameserversAsCIDR(resolvConf []byte) []string { nameservers := []string{} for _, nameserver := range GetNameservers(resolvConf) { var address string // If IPv6, strip zone if present if strings.Contains(nameserver, ":") { address = strings.Split(nameserver, "%")[0] + "/128" } else { address = nameserver + "/32" } nameservers = append(nameservers, address) } return nameservers } // GetSearchDomains returns search domains (if any) listed in /etc/resolv.conf // If more than one search line is encountered, only the contents of the last // one is returned. func GetSearchDomains(resolvConf []byte) []string { domains := []string{} for _, line := range getLines(resolvConf, []byte("#")) { match := searchRegexp.FindSubmatch(line) if match == nil { continue } domains = strings.Fields(string(match[1])) } return domains } // GetOptions returns options (if any) listed in /etc/resolv.conf // If more than one options line is encountered, only the contents of the last // one is returned. func GetOptions(resolvConf []byte) []string { options := []string{} for _, line := range getLines(resolvConf, []byte("#")) { match := optionsRegexp.FindSubmatch(line) if match == nil { continue } options = strings.Fields(string(match[1])) } return options } // Build writes a configuration file to path containing a "nameserver" entry // for every element in dns, a "search" entry for every element in // dnsSearch, and an "options" entry for every element in dnsOptions. func Build(path string, dns, dnsSearch, dnsOptions []string) (*File, error) { content := bytes.NewBuffer(nil) if len(dnsSearch) > 0 { if searchString := strings.Join(dnsSearch, " "); strings.Trim(searchString, " ") != "." { if _, err := content.WriteString("search " + searchString + "\n"); err != nil { return nil, err } } } for _, dns := range dns { if _, err := content.WriteString("nameserver " + dns + "\n"); err != nil { return nil, err } } if len(dnsOptions) > 0 { if optsString := strings.Join(dnsOptions, " "); strings.Trim(optsString, " ") != "" { if _, err := content.WriteString("options " + optsString + "\n"); err != nil { return nil, err } } } hash, err := ioutils.HashData(bytes.NewReader(content.Bytes())) if err != nil { return nil, err } return &File{Content: content.Bytes(), Hash: hash}, ioutil.WriteFile(path, content.Bytes(), 0644) }