go-mail/sime.go

159 lines
4.4 KiB
Go

package mail
import (
"bytes"
"crypto/rsa"
"crypto/tls"
"crypto/x509"
"encoding/pem"
"errors"
"fmt"
"go.mozilla.org/pkcs7"
"strings"
)
var (
// ErrInvalidKeyPair should be used if key pair is invalid
ErrInvalidKeyPair = errors.New("invalid key pair")
// ErrCouldNotInitialize should be used if the signed data could not initialize
ErrCouldNotInitialize = errors.New("could not initialize signed data")
// ErrCouldNotAddSigner should be used if the signer could not be added
ErrCouldNotAddSigner = errors.New("could not add signer message")
// ErrCouldNotFinishSigning should be used if the signing could not be finished
ErrCouldNotFinishSigning = errors.New("could not finish signing")
// ErrCouldNoEncodeToPEM should be used if the signature could not be encoded to PEM
ErrCouldNoEncodeToPEM = errors.New("could not encode to PEM")
)
// SMime is used to sign messages with S/MIME
type SMime struct {
privateKey *rsa.PrivateKey
certificate *x509.Certificate
parentCertificates []*x509.Certificate
}
// NewSMime construct a new instance of SMime with a provided *tls.Certificate
func newSMime(keyPair *tls.Certificate) (*SMime, error) {
if keyPair == nil {
return nil, ErrInvalidKeyPair
}
parentCertificates := make([]*x509.Certificate, 0)
for _, cert := range keyPair.Certificate[1:] {
c, err := x509.ParseCertificate(cert)
if err != nil {
return nil, err
}
parentCertificates = append(parentCertificates, c)
}
return &SMime{
privateKey: keyPair.PrivateKey.(*rsa.PrivateKey),
certificate: keyPair.Leaf,
parentCertificates: parentCertificates,
}, nil
}
// sign with the S/MIME method the message of the actual *Part
func (sm *SMime) sign(signaturePart *Part, message string) error {
lines := parseLines([]byte(message))
toBeSigned := lines.bytesFromLines([]byte("\r\n"))
tmp, err := pkcs7.NewSignedData(toBeSigned)
tmp.SetDigestAlgorithm(pkcs7.OIDDigestAlgorithmSHA256)
if err != nil {
return ErrCouldNotInitialize
}
if err = tmp.AddSignerChain(sm.certificate, sm.privateKey, sm.parentCertificates, pkcs7.SignerInfoConfig{}); err != nil {
return ErrCouldNotAddSigner
}
signatureDER, err := tmp.Finish()
if err != nil {
return ErrCouldNotFinishSigning
}
pemMsg, err := encodeToPEM(signatureDER)
if err != nil {
return ErrCouldNoEncodeToPEM
}
signaturePart.SetContent(*pemMsg)
return nil
}
// createMessage prepares the message that will be used for the sign method later
func (sm *SMime) createMessage(encoding Encoding, contentType ContentType, charset Charset, body []byte) string {
return fmt.Sprintf("Content-Transfer-Encoding: %v\r\nContent-Type: %v; charset=%v\r\n\r\n%v", encoding, contentType, charset, string(body))
}
// encodeToPEM uses the method pem.Encode from the standard library but cuts the typical PEM preamble
func encodeToPEM(msg []byte) (*string, error) {
block := &pem.Block{Bytes: msg}
var arrayBuffer bytes.Buffer
if err := pem.Encode(&arrayBuffer, block); err != nil {
return nil, err
}
r := arrayBuffer.String()
r = strings.ReplaceAll(r, "-----BEGIN -----\n", "")
r = strings.ReplaceAll(r, "-----END -----\n", "")
return &r, nil
}
// line is the representation of one line of the message that will be used for signing purposes
type line struct {
line []byte
endOfLine []byte
}
// lines is the representation of a message that will be used for signing purposes
type lines []line
// bytesFromLines creates the line representation with the given endOfLine char
func (ls lines) bytesFromLines(sep []byte) []byte {
var raw []byte
for i := range ls {
raw = append(raw, ls[i].line...)
if len(ls[i].endOfLine) != 0 && sep != nil {
raw = append(raw, sep...)
} else {
raw = append(raw, ls[i].endOfLine...)
}
}
return raw
}
// parseLines constructs the lines representation of a given message
func parseLines(raw []byte) lines {
oneLine := line{raw, nil}
lines := lines{oneLine}
lines = lines.splitLine([]byte("\r\n"))
lines = lines.splitLine([]byte("\r"))
lines = lines.splitLine([]byte("\n"))
return lines
}
// splitLine uses the given endOfLine to split the given line
func (ls lines) splitLine(sep []byte) lines {
nl := lines{}
for _, l := range ls {
split := bytes.Split(l.line, sep)
if len(split) > 1 {
for i := 0; i < len(split)-1; i++ {
nl = append(nl, line{split[i], sep})
}
nl = append(nl, line{split[len(split)-1], l.endOfLine})
} else {
nl = append(nl, l)
}
}
return nl
}