package main import ( "context" "encoding/pem" "fmt" "io/ioutil" "os" "os/exec" "os/user" "strconv" "strings" "syscall" "time" "unicode/utf8" "github.com/sirupsen/logrus" ) // Max supported CA chain length const MAX_CA_CHAIN_LENGTH = 8 type ( // Structure that describes the existing file for a certificate. tExistingFileInfo struct { owner uint32 group uint32 mode os.FileMode } // Certificate building, including the configuration, LDAP connection, // and the array of chunks that's being built. tCertificateBuilder struct { // The certificate file's current configuration Config *tCertificateFileConfig // The LDAP connection to read data from conn *tLdapConn // The logger to use logger *logrus.Entry // The list of DNs that are involved in generating this certificate. If the // command has a non-'*' selector, the list will be checked for a value // matching the selector befor anything else is done. dnList []string // The various chunks of data that will be written to the resulting PEM file. // Each chunk corresponds to a PEM block. data [][]byte // The output text text []byte // Information about the current file, if it exists. existing *tExistingFileInfo // Was the certificate file replaced? changed bool } ) // Initialize a certificate file building using a LDAP connection and // certificate file configuration. func NewCertificateBuilder(conn *tLdapConn, config *tCertificateFileConfig) *tCertificateBuilder { return &tCertificateBuilder{ Config: config, conn: conn, logger: log.WithField("file", config.Path), data: make([][]byte, 0), } } // Build the certificate file's data, returning any error that occurs while // reading the source data. func (b *tCertificateBuilder) Build() error { b.logger.Debug("Checking for updates") err := b.appendPemFiles(b.Config.PrependFiles) if err != nil { return err } err = b.appendCertificate() if err != nil { return err } err = b.appendCaCertificates() if err != nil { return err } err = b.appendPemFiles(b.Config.AppendFiles) if err != nil { return err } if b.Config.Reverse { b.reverseChunks() } b.generateText() return nil } // Check whether a selector matches one of the current certificate file's DNs. func (b *tCertificateBuilder) SelectorMatches(selector string) bool { if selector == "*" { return true } sel := strings.ToLower(selector) for _, v := range b.dnList { if strings.ToLower(v) == sel { return true } } b.logger.WithField("selector", selector).Debug("Selector does not match.") return false } // Check whether the data should be written to disk. This also caches the // file's owner, group and mode. If the update is being forced it will return // `true` even if nothing changed. // // Note: file information will be read even when updates are forced, because // it is used later to set file privileges. func (b *tCertificateBuilder) MustWrite(force bool) bool { info, err := os.Lstat(b.Config.Path) if err != nil { return true } sys_stat := info.Sys().(*syscall.Stat_t) eif := &tExistingFileInfo{} eif.mode = info.Mode() eif.owner = sys_stat.Uid eif.group = sys_stat.Gid b.existing = eif if force || sys_stat.Size != int64(len(b.text)) { return true } existing, err := ioutil.ReadFile(b.Config.Path) if err != nil { return true } for i, ch := range b.text { if ch != existing[i] { return true } } return false } // Write the file's data func (b *tCertificateBuilder) WriteFile() error { log.WithField("file", b.Config.Path).Info("Writing certificate data to file") err := ioutil.WriteFile(b.Config.Path, b.text, b.Config.Mode) if err == nil { b.changed = true } return err } // Update the file's owner and group func (b *tCertificateBuilder) UpdatePrivileges() error { update_mode := !b.changed && b.existing.mode != b.Config.Mode if update_mode { err := os.Chmod(b.Config.Path, b.Config.Mode) if err != nil { return err } } log := b.logger set_uid, set_gid := -1, -1 if b.Config.Owner != "" { usr, err := user.Lookup(b.Config.Owner) if err != nil { return err } uid, err := strconv.Atoi(usr.Uid) if b.changed || b.existing == nil || b.existing.owner != uint32(uid) { set_uid = uid log = log.WithField("uid", set_uid) } } if b.Config.Group != "" { group, err := user.LookupGroup(b.Config.Group) if err != nil { return err } gid, err := strconv.Atoi(group.Gid) if b.changed || b.existing == nil || b.existing.group != uint32(gid) { set_gid = gid log = log.WithField("gid", set_gid) } } if set_gid != -1 || set_uid != -1 { log.Info("Updating file owner/group") err := os.Chown(b.Config.Path, set_uid, set_gid) if err == nil { b.changed = true } return err } else { b.changed = b.changed || update_mode log.Debug("No update to privileges") return nil } } // Did this certificate change in any way? func (b *tCertificateBuilder) Changed() bool { return b.changed } // Run the commands from the pre_commands section of the configuration. // This is only called if the certificate file has been modified in // any way. Execution will stop at the first failure. func (b *tCertificateBuilder) RunPreCommands() error { for i := range b.Config.AfterUpdate.PreCommands { err := b.RunCommand(i) if err != nil { return fmt.Errorf( "Failed while executing command '%s': %w", b.Config.AfterUpdate.PreCommands[i], err, ) } } return nil } // Run a command through the `sh` shell. func (b *tCertificateBuilder) RunCommand(pos int) error { ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second) defer cancel() log := b.logger.WithField("command", b.Config.AfterUpdate.PreCommands[pos]) log.Debug("Executing command") cmd := exec.CommandContext(ctx, "sh", "-c", b.Config.AfterUpdate.PreCommands[pos]) output, err := cmd.CombinedOutput() if len(output) != 0 { if utf8.Valid(output) { log = log.WithField("output", string(output)) } else { log = log.WithField("output", string(output)) } } if err == nil { log.Info("Command executed") } else { log.WithField("error", err).Error("Command failed") } return err } // Append PEM files from a list. func (b *tCertificateBuilder) appendPemFiles(files []string) error { for _, path := range files { var err error b.logger.WithField("source", path).Debug("Adding PEM file") err = b.appendPem(path) if err != nil { return err } } return nil } // Append a PEM file to the current list of data chunks func (b *tCertificateBuilder) appendPem(input string) error { data, err := ioutil.ReadFile(input) if err != nil { return fmt.Errorf("Could not load '%s': %w", input, err) } rest := data hadBlock := false for { var block *pem.Block block, rest = pem.Decode(rest) if block == nil { break } hadBlock = true b.data = append(b.data, pem.EncodeToMemory(block)) } if hadBlock { return nil } else { return fmt.Errorf("No PEM blocks found in '%s'", input) } } // Append the main, end-entity certificate from the LDAP func (b *tCertificateBuilder) appendCertificate() error { if b.Config.Certificate != "" { dn := b.conn.BaseDN() if dn != "" { dn = "," + dn } dn = b.Config.Certificate + dn b.dnList = append(b.dnList, strings.ToLower(dn)) b.logger.WithField("dn", dn).Debug("Adding EE certificate from LDAP") data, err := b.conn.GetEndEntityCertificate(dn) if err != nil { return err } b.data = append(b.data, data) } return nil } // Append all CA certificates, reading the list from the LDAP or from the // configuration. func (b *tCertificateBuilder) appendCaCertificates() error { if len(b.Config.CACertificates) != 0 { return b.appendListedCaCerts() } else if b.Config.CAChainOf != "" { return b.appendChainedCaCerts() } else { return nil } } // Append CA certificates based on a list of DNs func (b *tCertificateBuilder) appendListedCaCerts() error { bdn := b.conn.BaseDN() if bdn != "" { bdn = "," + bdn } for _, dn := range b.Config.CACertificates { full_dn := dn + bdn b.dnList = append(b.dnList, strings.ToLower(full_dn)) b.logger.WithField("dn", full_dn).Debug("Adding CA certificate from LDAP") data, _, err := b.conn.GetCaCertificate(full_dn) if err != nil { return err } if data == nil { return fmt.Errorf("No CA certificate at DN '%s'", full_dn) } b.data = append(b.data, data) } return nil } // Append CA certificates by following a chain starting at some DN func (b *tCertificateBuilder) appendChainedCaCerts() error { nFound := 0 dn := b.Config.CAChainOf if b.conn.BaseDN() != "" { dn = dn + "," + b.conn.BaseDN() } for { b.dnList = append(b.dnList, strings.ToLower(dn)) data, nextDn, err := b.conn.GetCaCertificate(dn) if err != nil { return err } if nFound != 0 { if data == nil { return fmt.Errorf("No CA certificate at DN '%s'", dn) } b.logger.WithField("dn", dn).Debug("Adding CA certificate from LDAP chain") b.data = append(b.data, data) } if nextDn == "" { return nil } dn = nextDn nFound += 1 if nFound == MAX_CA_CHAIN_LENGTH { return fmt.Errorf("DN '%s': CA chain length exceeded", dn) } } } // Reverse the chunks in the list func (b *tCertificateBuilder) reverseChunks() { b.logger.Debug("Reversing PEM list") l := len(b.data) / 2 for i := 0; i < l/2; i++ { j := l - i - 1 b.data[i], b.data[j] = b.data[j], b.data[i] } } // Generate the final text of the file func (b *tCertificateBuilder) generateText() { size := int64(0) for i := range b.data { size += int64(len(b.data[i])) if i != 0 && b.data[i-1][len(b.data[i-1])-1] != '\n' { size++ } } b.text = make([]byte, size) pos := 0 for i := range b.data { copied := copy(b.text[pos:], b.data[i]) pos += copied if i != 0 && b.data[i-1][len(b.data[i-1])-1] != '\n' { b.text[pos] = '\n' pos++ } } b.logger.WithField("size", size).Debug("Data generated") }