// "Parsing a Delivery Status Notification (DSN) for a bounce"
func ParsingADeliveryStatusNotification(t *testing.T) {
data, err := ioutil.ReadFile("fixtures/DSN-bounce.eml")
assert.NoError(t, err)
stream := gmime.NewMemStreamWithBuffer(string(data))
parser := gmime.NewParserWithStream(stream)
message := parser.ConstructMessage()
// "When the message has been constructed"
{
// "should have a hash that matches the hash of the file on disk"
{
h := sha1.New()
h.Write([]byte(message.ToString()))
assert.Equal(t, hex.EncodeToString(h.Sum(nil)), "fca9901a01ab33448c0b8c5f64f9f19404560234")
}
}
// "When the iterator on the message is run"
{
var report gmime.Multipart
var preamble gmime.Part
var status gmime.Part
var rfc822 gmime.MessagePart
var ok bool
iter := gmime.NewPartIter(message)
// "should show the message mime part is a multipart/report container"
{
report, ok = iter.Current().(gmime.Multipart)
assert.True(t, ok)
container := report
assert.NotNil(t, container)
contentType := strings.ToLower(container.ContentType().ToString())
assert.Equal(t, contentType, "multipart/report")
}
iter.Next()
// "should have a human-readable preamble for the bounced message"
{
preamble, ok = iter.Current().(gmime.Part)
assert.True(t, ok)
assert.NotNil(t, preamble)
contentType := strings.ToLower(preamble.ContentType().ToString())
assert.Equal(t, contentType, "text/plain")
header, ok := preamble.Header("Content-Description")
assert.True(t, ok)
assert.Equal(t, header, "Notification")
explanation := preamble.ToString()
assert.Contains(t, explanation, "not able to be")
assert.Contains(t, explanation, "delivered to one of its intended recipients")
assert.Contains(t, explanation, "550 5.1.1 sid=i01K1n00l0kn1Em01 Address rejected [email protected]. [code=28]")
}
iter.Next()
// "should have a machine-readable message/delivery-status for the bounced message"
{
status, ok = iter.Current().(gmime.Part)
assert.True(t, ok)
assert.NotNil(t, status)
contentType := strings.ToLower(status.ContentType().ToString())
assert.Equal(t, contentType, "message/delivery-status")
header, ok := status.Header("Action")
assert.True(t, ok)
assert.Equal(t, header, "failed")
header, ok = status.Header("Status")
assert.True(t, ok)
assert.Equal(t, header, "5.1.1")
assert.Contains(t, status.ToString(), "Arrival-Date: 2014-03-26 00-01-19")
assert.Contains(t, status.ToString(), "Diagnostic-Code: 550 5.1.1 sid=i01K1n00l0kn1Em01 Address rejected [email protected]. [code=28]")
}
iter.Next()
// "should return a non-nil RFC822 container as one of the parts"
{
rfc822, ok = iter.Current().(gmime.MessagePart)
assert.True(t, ok)
assert.NotNil(t, rfc822)
contentType := strings.ToLower(rfc822.ContentType().ToString())
assert.Equal(t, contentType, "message/rfc822")
header, ok := rfc822.Header("Content-Description")
assert.True(t, ok)
assert.Equal(t, header, "Undelivered Message")
}
// "When examining the container part of the original message"
{
original := rfc822.Message()
assert.NotNil(t, original)
part := original.MimePart()
contentType := strings.ToLower(part.ContentType().ToString())
assert.Equal(t, contentType, "multipart/alternative")
// "should have enough information to be able to record the bounce"
{
header, ok := original.Header("To")
assert.True(t, ok)
assert.Equal(t, header, "*****@*****.**")
// These headers encode things like user id, etc.
header, ok = original.Header("X-SG-EID")
assert.True(t, ok)
assert.NotNil(t, header)
header, ok = original.Header("X-SG-ID")
assert.True(t, ok)
assert.NotNil(t, header)
}
}
}
}
// "Parsing a message with an RFC822 message MIME type as a part",
func TestParsingAMessageWithAnRFC822(t *testing.T) {
data, err := ioutil.ReadFile("fixtures/message-as-part.eml")
assert.NoError(t, err)
stream := gmime.NewMemStreamWithBuffer(string(data))
parser := gmime.NewParserWithStream(stream)
message := parser.ConstructMessage()
// "When the message has been constructed"
// "should have a hash that matches the hash of the file on disk"
{
h := sha1.New()
h.Write([]byte(message.ToString()))
assert.Equal(t, hex.EncodeToString(h.Sum(nil)), "2ae3c8c00e9389a287d7ace9e7584d96fcffba01")
}
// "When the iterator on the message is run"
{
var multipart gmime.Multipart
parts := make([]gmime.Part, 0)
var rfc822 gmime.MessagePart
for iter := gmime.NewPartIter(message); iter.HasNext(); iter.Next() {
object := iter.Current()
if part, ok := object.(gmime.Multipart); ok {
multipart = part
} else if part, ok := object.(gmime.Part); ok {
parts = append(parts, part)
} else if part, ok := object.(gmime.MessagePart); ok {
rfc822 = part
}
}
// "should show the message mime part is a multipart/mixed container"
{
container := multipart
assert.NotNil(t, container)
contentType := strings.ToLower(container.ContentType().ToString())
assert.Equal(t, contentType, "multipart/mixed")
}
// "should return a non-nil RFC822 container as one of the parts"
assert.NotNil(t, rfc822)
// "should return as many items as the number of parts on disk"
assert.Equal(t, len(parts), 2)
// "When the parts of the message are examined"
{
// "should have a text part that matches the one on disk"
{
part := parts[0]
contentType := strings.ToLower(part.ContentType().ToString())
assert.Equal(t, contentType, "text/plain")
size, hash := sizeAndHashOf(part)
assert.Equal(t, size, 262)
assert.Equal(t, hash, "b5aec669cdae7ef2b62ef0b3070c8fd7")
}
// "should have an RFC822 container that matches the one on disk"
{
contentType := strings.ToLower(rfc822.ContentType().ToString())
assert.Equal(t, contentType, "message/rfc822")
}
// "should have an *embedded* text part that matches the one on disk"
{
part := parts[1]
contentType := strings.ToLower(part.ContentType().ToString())
assert.Equal(t, contentType, "text/plain")
size, hash := sizeAndHashOf(part)
assert.Equal(t, size, 1619)
assert.Equal(t, hash, "9fb795da046d6a5338a5ade3ebe3c1b1")
}
}
}
}