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ergo/vendor/github.com/toorop/go-dkim/dkimHeader.go

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package dkim
import (
"bytes"
"fmt"
"net/mail"
"net/textproto"
"strconv"
"strings"
"time"
)
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type DKIMHeader struct {
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// Version This tag defines the version of DKIM
// specification that applies to the signature record.
// tag v
Version string
// The algorithm used to generate the signature..
// Verifiers MUST support "rsa-sha1" and "rsa-sha256";
// Signers SHOULD sign using "rsa-sha256".
// tag a
Algorithm string
// The signature data (base64).
// Whitespace is ignored in this value and MUST be
// ignored when reassembling the original signature.
// In particular, the signing process can safely insert
// FWS in this value in arbitrary places to conform to line-length
// limits.
// tag b
SignatureData string
// The hash of the canonicalized body part of the message as
// limited by the "l=" tag (base64; REQUIRED).
// Whitespace is ignored in this value and MUST be ignored when reassembling the original
// signature. In particular, the signing process can safely insert
// FWS in this value in arbitrary places to conform to line-length
// limits.
// tag bh
BodyHash string
// Message canonicalization (plain-text; OPTIONAL, default is
//"simple/simple"). This tag informs the Verifier of the type of
// canonicalization used to prepare the message for signing. It
// consists of two names separated by a "slash" (%d47) character,
// corresponding to the header and body canonicalization algorithms,
// respectively. These algorithms are described in Section 3.4. If
// only one algorithm is named, that algorithm is used for the header
// and "simple" is used for the body. For example, "c=relaxed" is
// treated the same as "c=relaxed/simple".
// tag c
MessageCanonicalization string
// The SDID claiming responsibility for an introduction of a message
// into the mail stream (plain-text; REQUIRED). Hence, the SDID
// value is used to form the query for the public key. The SDID MUST
// correspond to a valid DNS name under which the DKIM key record is
// published. The conventions and semantics used by a Signer to
// create and use a specific SDID are outside the scope of this
// specification, as is any use of those conventions and semantics.
// When presented with a signature that does not meet these
// requirements, Verifiers MUST consider the signature invalid.
// Internationalized domain names MUST be encoded as A-labels, as
// described in Section 2.3 of [RFC5890].
// tag d
Domain string
// Signed header fields (plain-text, but see description; REQUIRED).
// A colon-separated list of header field names that identify the
// header fields presented to the signing algorithm. The field MUST
// contain the complete list of header fields in the order presented
// to the signing algorithm. The field MAY contain names of header
// fields that do not exist when signed; nonexistent header fields do
// not contribute to the signature computation (that is, they are
// treated as the null input, including the header field name, the
// separating colon, the header field value, and any CRLF
// terminator). The field MAY contain multiple instances of a header
// field name, meaning multiple occurrences of the corresponding
// header field are included in the header hash. The field MUST NOT
// include the DKIM-Signature header field that is being created or
// verified but may include others. Folding whitespace (FWS) MAY be
// included on either side of the colon separator. Header field
// names MUST be compared against actual header field names in a
// case-insensitive manner. This list MUST NOT be empty. See
// Section 5.4 for a discussion of choosing header fields to sign and
// Section 5.4.2 for requirements when signing multiple instances of
// a single field.
// tag h
Headers []string
// The Agent or User Identifier (AUID) on behalf of which the SDID is
// taking responsibility (dkim-quoted-printable; OPTIONAL, default is
// an empty local-part followed by an "@" followed by the domain from
// the "d=" tag).
// The syntax is a standard email address where the local-part MAY be
// omitted. The domain part of the address MUST be the same as, or a
// subdomain of, the value of the "d=" tag.
// Internationalized domain names MUST be encoded as A-labels, as
// described in Section 2.3 of [RFC5890].
// tag i
Auid string
// Body length count (plain-text unsigned decimal integer; OPTIONAL,
// default is entire body). This tag informs the Verifier of the
// number of octets in the body of the email after canonicalization
// included in the cryptographic hash, starting from 0 immediately
// following the CRLF preceding the body. This value MUST NOT be
// larger than the actual number of octets in the canonicalized
// message body. See further discussion in Section 8.2.
// tag l
BodyLength uint
// A colon-separated list of query methods used to retrieve the
// public key (plain-text; OPTIONAL, default is "dns/txt"). Each
// query method is of the form "type[/options]", where the syntax and
// semantics of the options depend on the type and specified options.
// If there are multiple query mechanisms listed, the choice of query
// mechanism MUST NOT change the interpretation of the signature.
// Implementations MUST use the recognized query mechanisms in the
// order presented. Unrecognized query mechanisms MUST be ignored.
// Currently, the only valid value is "dns/txt", which defines the
// DNS TXT resource record (RR) lookup algorithm described elsewhere
// in this document. The only option defined for the "dns" query
// type is "txt", which MUST be included. Verifiers and Signers MUST
// support "dns/txt".
// tag q
QueryMethods []string
// The selector subdividing the namespace for the "d=" (domain) tag
// (plain-text; REQUIRED).
// Internationalized selector names MUST be encoded as A-labels, as
// described in Section 2.3 of [RFC5890].
// tag s
Selector string
// Signature Timestamp (plain-text unsigned decimal integer;
// RECOMMENDED, default is an unknown creation time). The time that
// this signature was created. The format is the number of seconds
// since 00:00:00 on January 1, 1970 in the UTC time zone. The value
// is expressed as an unsigned integer in decimal ASCII. This value
// is not constrained to fit into a 31- or 32-bit integer.
// Implementations SHOULD be prepared to handle values up to at least
// 10^12 (until approximately AD 200,000; this fits into 40 bits).
// To avoid denial-of-service attacks, implementations MAY consider
// any value longer than 12 digits to be infinite. Leap seconds are
// not counted. Implementations MAY ignore signatures that have a
// timestamp in the future.
// tag t
SignatureTimestamp time.Time
// Signature Expiration (plain-text unsigned decimal integer;
// RECOMMENDED, default is no expiration). The format is the same as
// in the "t=" tag, represented as an absolute date, not as a time
// delta from the signing timestamp. The value is expressed as an
// unsigned integer in decimal ASCII, with the same constraints on
// the value in the "t=" tag. Signatures MAY be considered invalid
// if the verification time at the Verifier is past the expiration
// date. The verification time should be the time that the message
// was first received at the administrative domain of the Verifier if
// that time is reliably available; otherwise, the current time
// should be used. The value of the "x=" tag MUST be greater than
// the value of the "t=" tag if both are present.
//tag x
SignatureExpiration time.Time
// Copied header fields (dkim-quoted-printable, but see description;
// OPTIONAL, default is null). A vertical-bar-separated list of
// selected header fields present when the message was signed,
// including both the field name and value. It is not required to
// include all header fields present at the time of signing. This
// field need not contain the same header fields listed in the "h="
// tag. The header field text itself must encode the vertical bar
// ("|", %x7C) character (i.e., vertical bars in the "z=" text are
// meta-characters, and any actual vertical bar characters in a
// copied header field must be encoded). Note that all whitespace
// must be encoded, including whitespace between the colon and the
// header field value. After encoding, FWS MAY be added at arbitrary
// locations in order to avoid excessively long lines; such
// whitespace is NOT part of the value of the header field and MUST
// be removed before decoding.
// The header fields referenced by the "h=" tag refer to the fields
// in the [RFC5322] header of the message, not to any copied fields
// in the "z=" tag. Copied header field values are for diagnostic
// use.
// tag z
CopiedHeaderFields []string
// HeaderMailFromDomain store the raw email address of the header Mail From
// used for verifying in case of multiple DKIM header (we will prioritise
// header with d = mail from domain)
//HeaderMailFromDomain string
// RawForsign represents the raw part (without canonicalization) of the header
// used for computint sig in verify process
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rawForSign string
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}
// NewDkimHeaderBySigOptions return a new DkimHeader initioalized with sigOptions value
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func newDkimHeaderBySigOptions(options SigOptions) *DKIMHeader {
h := new(DKIMHeader)
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h.Version = "1"
h.Algorithm = options.Algo
h.MessageCanonicalization = options.Canonicalization
h.Domain = options.Domain
h.Headers = options.Headers
h.Auid = options.Auid
h.BodyLength = options.BodyLength
h.QueryMethods = options.QueryMethods
h.Selector = options.Selector
if options.AddSignatureTimestamp {
h.SignatureTimestamp = time.Now()
}
if options.SignatureExpireIn > 0 {
h.SignatureExpiration = time.Now().Add(time.Duration(options.SignatureExpireIn) * time.Second)
}
h.CopiedHeaderFields = options.CopiedHeaderFields
return h
}
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// GetHeader return a new DKIMHeader by parsing an email
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// Note: according to RFC 6376 an email can have multiple DKIM Header
// in this case we return the last inserted or the last with d== mail from
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func GetHeader(email *[]byte) (*DKIMHeader, error) {
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m, err := mail.ReadMessage(bytes.NewReader(*email))
if err != nil {
return nil, err
}
// DKIM header ?
if len(m.Header[textproto.CanonicalMIMEHeaderKey("DKIM-Signature")]) == 0 {
return nil, ErrDkimHeaderNotFound
}
// Get mail from domain
mailFromDomain := ""
mailfrom, err := mail.ParseAddress(m.Header.Get(textproto.CanonicalMIMEHeaderKey("From")))
if err != nil {
if err.Error() != "mail: no address" {
return nil, err
}
} else {
t := strings.SplitAfter(mailfrom.Address, "@")
if len(t) > 1 {
mailFromDomain = strings.ToLower(t[1])
}
}
// get raw dkim header
// we can't use m.header because header key will be converted with textproto.CanonicalMIMEHeaderKey
// ie if key in header is not DKIM-Signature but Dkim-Signature or DKIM-signature ot... other
// combination of case, verify will fail.
rawHeaders, _, err := getHeadersBody(email)
if err != nil {
return nil, ErrBadMailFormat
}
rawHeadersList, err := getHeadersList(&rawHeaders)
if err != nil {
return nil, err
}
dkHeaders := []string{}
for h := rawHeadersList.Front(); h != nil; h = h.Next() {
if strings.HasPrefix(strings.ToLower(h.Value.(string)), "dkim-signature") {
dkHeaders = append(dkHeaders, h.Value.(string))
}
}
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var keep *DKIMHeader
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var keepErr error
//for _, dk := range m.Header[textproto.CanonicalMIMEHeaderKey("DKIM-Signature")] {
for _, h := range dkHeaders {
parsed, err := parseDkHeader(h)
// if malformed dkim header try next
if err != nil {
keepErr = err
continue
}
// Keep first dkim headers
if keep == nil {
keep = parsed
}
// if d flag == domain keep this header and return
if mailFromDomain == parsed.Domain {
return parsed, nil
}
}
if keep == nil {
return nil, keepErr
}
return keep, nil
}
// parseDkHeader parse raw dkim header
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func parseDkHeader(header string) (dkh *DKIMHeader, err error) {
dkh = new(DKIMHeader)
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keyVal := strings.SplitN(header, ":", 2)
t := strings.LastIndex(header, "b=")
if t == -1 {
return nil, ErrDkimHeaderBTagNotFound
}
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dkh.rawForSign = header[0 : t+2]
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p := strings.IndexByte(header[t:], ';')
if p != -1 {
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dkh.rawForSign = dkh.rawForSign + header[t+p:]
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}
// Mandatory
mandatoryFlags := make(map[string]bool, 7) //(b'v', b'a', b'b', b'bh', b'd', b'h', b's')
mandatoryFlags["v"] = false
mandatoryFlags["a"] = false
mandatoryFlags["b"] = false
mandatoryFlags["bh"] = false
mandatoryFlags["d"] = false
mandatoryFlags["h"] = false
mandatoryFlags["s"] = false
// default values
dkh.MessageCanonicalization = "simple/simple"
dkh.QueryMethods = []string{"dns/txt"}
// unfold && clean
val := removeFWS(keyVal[1])
val = strings.Replace(val, " ", "", -1)
fs := strings.Split(val, ";")
for _, f := range fs {
if f == "" {
continue
}
flagData := strings.SplitN(f, "=", 2)
// https://github.com/toorop/go-dkim/issues/2
// if flag is not in the form key=value (eg doesn't have "=")
if len(flagData) != 2 {
return nil, ErrDkimHeaderBadFormat
}
flag := strings.ToLower(strings.TrimSpace(flagData[0]))
data := strings.TrimSpace(flagData[1])
switch flag {
case "v":
if data != "1" {
return nil, ErrDkimVersionNotsupported
}
dkh.Version = data
mandatoryFlags["v"] = true
case "a":
dkh.Algorithm = strings.ToLower(data)
if dkh.Algorithm != "rsa-sha1" && dkh.Algorithm != "rsa-sha256" {
return nil, ErrSignBadAlgo
}
mandatoryFlags["a"] = true
case "b":
//dkh.SignatureData = removeFWS(data)
// remove all space
dkh.SignatureData = strings.Replace(removeFWS(data), " ", "", -1)
if len(dkh.SignatureData) != 0 {
mandatoryFlags["b"] = true
}
case "bh":
dkh.BodyHash = removeFWS(data)
if len(dkh.BodyHash) != 0 {
mandatoryFlags["bh"] = true
}
case "d":
dkh.Domain = strings.ToLower(data)
if len(dkh.Domain) != 0 {
mandatoryFlags["d"] = true
}
case "h":
data = strings.ToLower(data)
dkh.Headers = strings.Split(data, ":")
if len(dkh.Headers) != 0 {
mandatoryFlags["h"] = true
}
fromFound := false
for _, h := range dkh.Headers {
if h == "from" {
fromFound = true
}
}
if !fromFound {
return nil, ErrDkimHeaderNoFromInHTag
}
case "s":
dkh.Selector = strings.ToLower(data)
if len(dkh.Selector) != 0 {
mandatoryFlags["s"] = true
}
case "c":
dkh.MessageCanonicalization, err = validateCanonicalization(strings.ToLower(data))
if err != nil {
return nil, err
}
case "i":
if data != "" {
if !strings.HasSuffix(data, dkh.Domain) {
return nil, ErrDkimHeaderDomainMismatch
}
dkh.Auid = data
}
case "l":
ui, err := strconv.ParseUint(data, 10, 32)
if err != nil {
return nil, err
}
dkh.BodyLength = uint(ui)
case "q":
dkh.QueryMethods = strings.Split(data, ":")
if len(dkh.QueryMethods) == 0 || strings.ToLower(dkh.QueryMethods[0]) != "dns/txt" {
return nil, errQueryMethodNotsupported
}
case "t":
ts, err := strconv.ParseInt(data, 10, 64)
if err != nil {
return nil, err
}
dkh.SignatureTimestamp = time.Unix(ts, 0)
case "x":
ts, err := strconv.ParseInt(data, 10, 64)
if err != nil {
return nil, err
}
dkh.SignatureExpiration = time.Unix(ts, 0)
case "z":
dkh.CopiedHeaderFields = strings.Split(data, "|")
}
}
// All mandatory flags are in ?
for _, p := range mandatoryFlags {
if !p {
return nil, ErrDkimHeaderMissingRequiredTag
}
}
// default for i/Auid
if dkh.Auid == "" {
dkh.Auid = "@" + dkh.Domain
}
// defaut for query method
if len(dkh.QueryMethods) == 0 {
dkh.QueryMethods = []string{"dns/text"}
}
return dkh, nil
}
// GetHeaderBase return base header for signers
// Todo: some refactoring needed...
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func (d *DKIMHeader) getHeaderBaseForSigning(bodyHash string) string {
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h := "DKIM-Signature: v=" + d.Version + "; a=" + d.Algorithm + "; q=" + strings.Join(d.QueryMethods, ":") + "; c=" + d.MessageCanonicalization + ";" + CRLF + TAB
subh := "s=" + d.Selector + ";"
if len(subh)+len(d.Domain)+4 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " d=" + d.Domain + ";"
// Auid
if len(d.Auid) != 0 {
if len(subh)+len(d.Auid)+4 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " i=" + d.Auid + ";"
}
/*h := "DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/simple; d=tmail.io; i=@tmail.io;" + FWS
subh := "q=dns/txt; s=test;"*/
// signature timestamp
if !d.SignatureTimestamp.IsZero() {
ts := d.SignatureTimestamp.Unix()
if len(subh)+14 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " t=" + fmt.Sprintf("%d", ts) + ";"
}
if len(subh)+len(d.Domain)+4 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
// Expiration
if !d.SignatureExpiration.IsZero() {
ts := d.SignatureExpiration.Unix()
if len(subh)+14 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " x=" + fmt.Sprintf("%d", ts) + ";"
}
// body length
if d.BodyLength != 0 {
bodyLengthStr := fmt.Sprintf("%d", d.BodyLength)
if len(subh)+len(bodyLengthStr)+4 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " l=" + bodyLengthStr + ";"
}
// Headers
if len(subh)+len(d.Headers)+4 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += " h="
for _, header := range d.Headers {
if len(subh)+len(header)+1 > MaxHeaderLineLength {
h += subh + FWS
subh = ""
}
subh += header + ":"
}
subh = subh[:len(subh)-1] + ";"
// BodyHash
if len(subh)+5+len(bodyHash) > MaxHeaderLineLength {
h += subh + FWS
subh = ""
} else {
subh += " "
}
subh += "bh="
l := len(subh)
for _, c := range bodyHash {
subh += string(c)
l++
if l >= MaxHeaderLineLength {
h += subh + FWS
subh = ""
l = 0
}
}
h += subh + ";" + FWS + "b="
return h
}