mox/smtpclient/client.go

953 lines
31 KiB
Go
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2023-01-30 16:27:06 +03:00
// Package smtpclient is an SMTP client, used by the queue for sending outgoing messages.
package smtpclient
import (
"bufio"
"context"
"crypto/tls"
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
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"encoding/base64"
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"errors"
"fmt"
"io"
"net"
"strconv"
"strings"
"time"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
"github.com/mjl-/adns"
"github.com/mjl-/mox/dane"
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
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"github.com/mjl-/mox/dns"
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"github.com/mjl-/mox/metrics"
"github.com/mjl-/mox/mlog"
"github.com/mjl-/mox/mox-"
"github.com/mjl-/mox/moxio"
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
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"github.com/mjl-/mox/sasl"
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"github.com/mjl-/mox/smtp"
)
// todo future: add function to deliver message to multiple recipients. requires more elaborate return value, indicating success per message: some recipients may succeed, others may fail, and we should still deliver. to prevent backscatter, we also sometimes don't allow multiple recipients. ../rfc/5321:1144
var (
metricCommands = promauto.NewHistogramVec(
prometheus.HistogramOpts{
Name: "mox_smtpclient_command_duration_seconds",
Help: "SMTP client command duration and result codes in seconds.",
Buckets: []float64{0.001, 0.005, 0.01, 0.05, 0.100, 0.5, 1, 5, 10, 20, 30, 60, 120},
},
[]string{
"cmd",
"code",
"secode",
},
)
)
var (
ErrSize = errors.New("message too large for remote smtp server") // SMTP server announced a maximum message size and the message to be delivered exceeds it.
Err8bitmimeUnsupported = errors.New("remote smtp server does not implement 8bitmime extension, required by message")
ErrSMTPUTF8Unsupported = errors.New("remote smtp server does not implement smtputf8 extension, required by message")
ErrStatus = errors.New("remote smtp server sent unexpected response status code") // Relatively common, e.g. when a 250 OK was expected and server sent 451 temporary error.
ErrProtocol = errors.New("smtp protocol error") // After a malformed SMTP response or inconsistent multi-line response.
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
ErrTLS = errors.New("tls error") // E.g. handshake failure, or hostname verification was required and failed.
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ErrBotched = errors.New("smtp connection is botched") // Set on a client, and returned for new operations, after an i/o error or malformed SMTP response.
ErrClosed = errors.New("client is closed")
)
// TLSMode indicates if TLS must, should or must not be used.
type TLSMode string
const (
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
// Required TLS with STARTTLS for SMTP servers, with either verified DANE TLSA
// record, or a WebPKI-verified certificate (with matching name, not expired, etc).
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
TLSStrictStartTLS TLSMode = "strictstarttls"
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
// Required TLS with STARTTLS for SMTP servers, without verifiying the certificate.
// This mode is needed to fallback after only unusable DANE records were found
// (e.g. with unknown parameters in the TLSA records).
TLSUnverifiedStartTLS TLSMode = "unverifiedstarttls"
// TLS immediately ("implicit TLS"), with either verified DANE TLSA records or a
// verified certificate: matching name, not expired, trusted by CA.
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
TLSStrictImmediate TLSMode = "strictimmediate"
2023-01-30 16:27:06 +03:00
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
// Use TLS if remote claims to support it, but do not verify the certificate
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// (not trusted by CA, different host name or expired certificate is accepted).
TLSOpportunistic TLSMode = "opportunistic"
// TLS must not be attempted, e.g. due to earlier TLS handshake error.
TLSSkip TLSMode = "skip"
)
// Client is an SMTP client that can deliver messages to a mail server.
//
// Use New to make a new client.
type Client struct {
// OrigConn is the original (TCP) connection. We'll read from/write to conn, which
// can be wrapped in a tls.Client. We close origConn instead of conn because
// closing the TLS connection would send a TLS close notification, which may block
// for 5s if the server isn't reading it (because it is also sending it).
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
origConn net.Conn
conn net.Conn
remoteHostname dns.Domain // TLS with SNI and name verification.
daneRecords []adns.TLSA // For authenticating (START)TLS connection.
moreRemoteHostnames []dns.Domain // Additional allowed names in TLS certificate.
verifiedRecord *adns.TLSA // If non-nil, then will be set to verified DANE record if any.
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r *bufio.Reader
w *bufio.Writer
tr *moxio.TraceReader // Kept for changing trace levels between cmd/auth/data.
tw *moxio.TraceWriter
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log *mlog.Log
lastlog time.Time // For adding delta timestamps between log lines.
cmds []string // Last or active command, for generating errors and metrics.
cmdStart time.Time // Start of command.
botched bool // If set, protocol is out of sync and no further commands can be sent.
needRset bool // If set, a new delivery requires an RSET command.
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
extEcodes bool // Remote server supports sending extended error codes.
extStartTLS bool // Remote server supports STARTTLS.
ext8bitmime bool
extSize bool // Remote server supports SIZE parameter.
maxSize int64 // Max size of email message.
extPipelining bool // Remote server supports command pipelining.
extSMTPUTF8 bool // Remote server supports SMTPUTF8 extension.
extAuthMechanisms []string // Supported authentication mechanisms.
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}
// Error represents a failure to deliver a message.
//
// Code, Secode, Command and Line are only set for SMTP-level errors, and are zero
// values otherwise.
type Error struct {
// Whether failure is permanent, typically because of 5xx response.
Permanent bool
// SMTP response status, e.g. 2xx for success, 4xx for transient error and 5xx for
// permanent failure.
Code int
// Short enhanced status, minus first digit and dot. Can be empty, e.g. for io
// errors or if remote does not send enhanced status codes. If remote responds with
// "550 5.7.1 ...", the Secode will be "7.1".
Secode string
// SMTP command causing failure.
Command string
// For errors due to SMTP responses, the full SMTP line excluding CRLF that caused
// the error. Typically the last line read.
Line string
// Underlying error, e.g. one of the Err variables in this package, or io errors.
Err error
}
// Unwrap returns the underlying Err.
func (e Error) Unwrap() error {
return e.Err
}
// Error returns a readable error string.
func (e Error) Error() string {
s := ""
if e.Err != nil {
s = e.Err.Error() + ", "
}
if e.Permanent {
s += "permanent"
} else {
s += "transient"
}
if e.Line != "" {
s += ": " + e.Line
}
return s
}
// New initializes an SMTP session on the given connection, returning a client that
// can be used to deliver messages.
//
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
// New optionally starts TLS (for submission), reads the server greeting,
// identifies itself with a HELO or EHLO command, initializes TLS with STARTTLS if
// remote supports it and optionally authenticates. If successful, a client is
// returned on which eventually Close must be called. Otherwise an error is
// returned and the caller is responsible for closing the connection.
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//
// Connecting to the correct host is outside the scope of the client. The queue
// managing outgoing messages decides which host to deliver to, taking multiple MX
// records with preferences, other DNS records, MTA-STS, retries and special
// cases into account.
//
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
// tlsMode indicates if TLS is required, optional or should not be used. Only for
// strict TLS modes is the certificate verified: Either with DANE, or through
// the trusted CA pool with matching remoteHostname and not expired. For DANE,
// additional host names in moreRemoteHostnames are allowed during TLS certificate
// verification. By default, SMTP does not verify TLS for interopability reasons,
// but MTA-STS or DANE can require it. If opportunistic TLS is used, and a TLS
// error is encountered, the caller may want to try again (on a new connection)
// without TLS.
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//
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
// If auth is non-empty, authentication will be done with the first algorithm
// supported by the server. If none of the algorithms are supported, an error is
// returned.
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
func New(ctx context.Context, log *mlog.Log, conn net.Conn, tlsMode TLSMode, ehloHostname, remoteHostname dns.Domain, auth []sasl.Client, daneRecords []adns.TLSA, moreRemoteHostnames []dns.Domain, verifiedRecord *adns.TLSA) (*Client, error) {
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c := &Client{
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
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origConn: conn,
remoteHostname: remoteHostname,
daneRecords: daneRecords,
moreRemoteHostnames: moreRemoteHostnames,
verifiedRecord: verifiedRecord,
lastlog: time.Now(),
cmds: []string{"(none)"},
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}
c.log = log.Fields(mlog.Field("smtpclient", "")).MoreFields(func() []mlog.Pair {
now := time.Now()
l := []mlog.Pair{
mlog.Field("delta", now.Sub(c.lastlog)),
}
c.lastlog = now
return l
})
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
if tlsMode == TLSStrictImmediate {
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
// todo: we could also verify DANE here. not applicable to SMTP delivery.
config := c.tlsConfig(tlsMode)
tlsconn := tls.Client(conn, &config)
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
if err := tlsconn.HandshakeContext(ctx); err != nil {
return nil, err
}
c.conn = tlsconn
tlsversion, ciphersuite := mox.TLSInfo(tlsconn)
c.log.Debug("tls client handshake done", mlog.Field("tls", tlsversion), mlog.Field("ciphersuite", ciphersuite), mlog.Field("servername", remoteHostname))
} else {
c.conn = conn
}
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// We don't wrap reads in a timeoutReader for fear of an optional TLS wrapper doing
// reads without the client asking for it. Such reads could result in a timeout
// error.
c.tr = moxio.NewTraceReader(c.log, "RS: ", c.conn)
c.r = bufio.NewReader(c.tr)
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// We use a single write timeout of 30 seconds.
// todo future: use different timeouts ../rfc/5321:3610
c.tw = moxio.NewTraceWriter(c.log, "LC: ", timeoutWriter{c.conn, 30 * time.Second, c.log})
c.w = bufio.NewWriter(c.tw)
2023-01-30 16:27:06 +03:00
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
if err := c.hello(ctx, tlsMode, ehloHostname, auth); err != nil {
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return nil, err
}
return c, nil
}
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
func (c *Client) tlsConfig(tlsMode TLSMode) tls.Config {
if c.daneRecords != nil {
return dane.TLSClientConfig(c.log, c.daneRecords, c.remoteHostname, c.moreRemoteHostnames, c.verifiedRecord)
}
// todo: possibly accept older TLS versions for TLSOpportunistic?
return tls.Config{
ServerName: c.remoteHostname.ASCII,
RootCAs: mox.Conf.Static.TLS.CertPool,
InsecureSkipVerify: tlsMode == TLSOpportunistic || tlsMode == TLSUnverifiedStartTLS,
MinVersion: tls.VersionTLS12, // ../rfc/8996:31 ../rfc/8997:66
}
}
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// xbotchf generates a temporary error and marks the client as botched. e.g. for
// i/o errors or invalid protocol messages.
func (c *Client) xbotchf(code int, secode string, lastLine, format string, args ...any) {
panic(c.botchf(code, secode, lastLine, format, args...))
}
// botchf generates a temporary error and marks the client as botched. e.g. for
// i/o errors or invalid protocol messages.
func (c *Client) botchf(code int, secode string, lastLine, format string, args ...any) error {
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c.botched = true
return c.errorf(false, code, secode, lastLine, format, args...)
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}
func (c *Client) errorf(permanent bool, code int, secode, lastLine, format string, args ...any) error {
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var cmd string
if len(c.cmds) > 0 {
cmd = c.cmds[0]
}
return Error{permanent, code, secode, cmd, lastLine, fmt.Errorf(format, args...)}
}
func (c *Client) xerrorf(permanent bool, code int, secode, lastLine, format string, args ...any) {
panic(c.errorf(permanent, code, secode, lastLine, format, args...))
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}
// timeoutWriter passes each Write on to conn after setting a write deadline on conn based on
// timeout.
type timeoutWriter struct {
conn net.Conn
timeout time.Duration
log *mlog.Log
}
func (w timeoutWriter) Write(buf []byte) (int, error) {
if err := w.conn.SetWriteDeadline(time.Now().Add(w.timeout)); err != nil {
w.log.Errorx("setting write deadline", err)
}
return w.conn.Write(buf)
}
var bufs = moxio.NewBufpool(8, 2*1024)
func (c *Client) readline() (string, error) {
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// todo: could have per-operation timeouts. and rfc suggests higher minimum timeouts. ../rfc/5321:3610
if err := c.conn.SetReadDeadline(time.Now().Add(30 * time.Second)); err != nil {
c.log.Errorx("setting read deadline", err)
}
line, err := bufs.Readline(c.r)
if err != nil {
return line, c.botchf(0, "", "", "%s: %w", strings.Join(c.cmds, ","), err)
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}
return line, nil
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}
func (c *Client) xtrace(level mlog.Level) func() {
c.xflush()
c.tr.SetTrace(level)
c.tw.SetTrace(level)
return func() {
c.xflush()
c.tr.SetTrace(mlog.LevelTrace)
c.tw.SetTrace(mlog.LevelTrace)
}
}
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func (c *Client) xwritelinef(format string, args ...any) {
c.xbwritelinef(format, args...)
c.xflush()
}
func (c *Client) xwriteline(line string) {
c.xbwriteline(line)
c.xflush()
}
func (c *Client) xbwritelinef(format string, args ...any) {
c.xbwriteline(fmt.Sprintf(format, args...))
}
func (c *Client) xbwriteline(line string) {
_, err := fmt.Fprintf(c.w, "%s\r\n", line)
if err != nil {
c.xbotchf(0, "", "", "write: %w", err)
}
}
func (c *Client) xflush() {
err := c.w.Flush()
if err != nil {
c.xbotchf(0, "", "", "writes: %w", err)
}
}
// read response, possibly multiline, with supporting extended codes based on configuration in client.
func (c *Client) xread() (code int, secode, lastLine string, texts []string) {
var err error
code, secode, lastLine, texts, err = c.read()
if err != nil {
panic(err)
}
return
}
func (c *Client) read() (code int, secode, lastLine string, texts []string, rerr error) {
return c.readecode(c.extEcodes)
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}
// read response, possibly multiline.
// if ecodes, extended codes are parsed.
func (c *Client) readecode(ecodes bool) (code int, secode, lastLine string, texts []string, rerr error) {
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for {
co, sec, text, line, last, err := c.read1(ecodes)
if err != nil {
rerr = err
return
}
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texts = append(texts, text)
if code != 0 && co != code {
// ../rfc/5321:2771
err := c.botchf(0, "", line, "%w: multiline response with different codes, previous %d, last %d", ErrProtocol, code, co)
return 0, "", "", nil, err
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}
code = co
if last {
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
if code != smtp.C334ContinueAuth {
cmd := ""
if len(c.cmds) > 0 {
cmd = c.cmds[0]
// We only keep the last, so we're not creating new slices all the time.
if len(c.cmds) > 1 {
c.cmds = c.cmds[1:]
}
2023-01-30 16:27:06 +03:00
}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
metricCommands.WithLabelValues(cmd, fmt.Sprintf("%d", co), sec).Observe(float64(time.Since(c.cmdStart)) / float64(time.Second))
c.log.Debug("smtpclient command result", mlog.Field("cmd", cmd), mlog.Field("code", co), mlog.Field("secode", sec), mlog.Field("duration", time.Since(c.cmdStart)))
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}
return co, sec, line, texts, nil
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}
}
}
func (c *Client) xreadecode(ecodes bool) (code int, secode, lastLine string, texts []string) {
var err error
code, secode, lastLine, texts, err = c.readecode(ecodes)
if err != nil {
panic(err)
}
return
}
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// read single response line.
// if ecodes, extended codes are parsed.
func (c *Client) read1(ecodes bool) (code int, secode, text, line string, last bool, rerr error) {
line, rerr = c.readline()
if rerr != nil {
return
}
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i := 0
for ; i < len(line) && line[i] >= '0' && line[i] <= '9'; i++ {
}
if i != 3 {
rerr = c.botchf(0, "", line, "%w: expected response code: %s", ErrProtocol, line)
return
2023-01-30 16:27:06 +03:00
}
v, err := strconv.ParseInt(line[:i], 10, 32)
if err != nil {
rerr = c.botchf(0, "", line, "%w: bad response code (%s): %s", ErrProtocol, err, line)
return
2023-01-30 16:27:06 +03:00
}
code = int(v)
major := code / 100
s := line[3:]
if strings.HasPrefix(s, "-") || strings.HasPrefix(s, " ") {
last = s[0] == ' '
s = s[1:]
} else if s == "" {
// Allow missing space. ../rfc/5321:2570 ../rfc/5321:2612
last = true
} else {
rerr = c.botchf(0, "", line, "%w: expected space or dash after response code: %s", ErrProtocol, line)
return
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}
if ecodes {
secode, s = parseEcode(major, s)
}
return code, secode, s, line, last, nil
2023-01-30 16:27:06 +03:00
}
func parseEcode(major int, s string) (secode string, remain string) {
o := 0
bad := false
take := func(need bool, a, b byte) bool {
if !bad && o < len(s) && s[o] >= a && s[o] <= b {
o++
return true
}
bad = bad || need
return false
}
digit := func(need bool) bool {
return take(need, '0', '9')
}
dot := func() bool {
return take(true, '.', '.')
}
digit(true)
dot()
xo := o
digit(true)
for digit(false) {
}
dot()
digit(true)
for digit(false) {
}
secode = s[xo:o]
take(false, ' ', ' ')
if bad || int(s[0])-int('0') != major {
return "", s
}
return secode, s[o:]
}
func (c *Client) recover(rerr *error) {
x := recover()
if x == nil {
return
}
cerr, ok := x.(Error)
if !ok {
metrics.PanicInc(metrics.Smtpclient)
2023-01-30 16:27:06 +03:00
panic(x)
}
*rerr = cerr
}
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
func (c *Client) hello(ctx context.Context, tlsMode TLSMode, ehloHostname dns.Domain, auth []sasl.Client) (rerr error) {
2023-01-30 16:27:06 +03:00
defer c.recover(&rerr)
// perform EHLO handshake, falling back to HELO if server does not appear to
// implement EHLO.
hello := func(heloOK bool) {
// Write EHLO and parse the supported extensions.
// ../rfc/5321:987
c.cmds[0] = "ehlo"
c.cmdStart = time.Now()
// Syntax: ../rfc/5321:1827
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
c.xwritelinef("EHLO %s", ehloHostname.ASCII)
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code, _, lastLine, remains := c.xreadecode(false)
switch code {
// ../rfc/5321:997
// ../rfc/5321:3098
case smtp.C500BadSyntax, smtp.C501BadParamSyntax, smtp.C502CmdNotImpl, smtp.C503BadCmdSeq, smtp.C504ParamNotImpl:
if !heloOK {
c.xerrorf(true, code, "", lastLine, "%w: remote claims ehlo is not supported", ErrProtocol)
}
// ../rfc/5321:996
c.cmds[0] = "helo"
c.cmdStart = time.Now()
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
c.xwritelinef("HELO %s", ehloHostname.ASCII)
2023-01-30 16:27:06 +03:00
code, _, lastLine, _ = c.xreadecode(false)
if code != smtp.C250Completed {
c.xerrorf(code/100 == 5, code, "", lastLine, "%w: expected 250 to HELO, got %d", ErrStatus, code)
}
return
case smtp.C250Completed:
default:
c.xerrorf(code/100 == 5, code, "", lastLine, "%w: expected 250, got %d", ErrStatus, code)
}
for _, s := range remains[1:] {
// ../rfc/5321:1869
s = strings.ToUpper(strings.TrimSpace(s))
switch s {
case "STARTTLS":
c.extStartTLS = true
case "ENHANCEDSTATUSCODES":
c.extEcodes = true
case "8BITMIME":
c.ext8bitmime = true
case "PIPELINING":
c.extPipelining = true
default:
// For SMTPUTF8 we must ignore any parameter. ../rfc/6531:207
if s == "SMTPUTF8" || strings.HasPrefix(s, "SMTPUTF8 ") {
c.extSMTPUTF8 = true
} else if strings.HasPrefix(s, "SIZE ") {
c.extSize = true
if v, err := strconv.ParseInt(s[len("SIZE "):], 10, 64); err == nil {
c.maxSize = v
}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
} else if strings.HasPrefix(s, "AUTH ") {
c.extAuthMechanisms = strings.Split(s[len("AUTH "):], " ")
2023-01-30 16:27:06 +03:00
}
}
}
}
// Read greeting.
c.cmds = []string{"(greeting)"}
c.cmdStart = time.Now()
code, _, lastLine, _ := c.xreadecode(false)
if code != smtp.C220ServiceReady {
c.xerrorf(code/100 == 5, code, "", lastLine, "%w: expected 220, got %d", ErrStatus, code)
}
// Write EHLO, falling back to HELO if server doesn't appear to support it.
hello(true)
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
// Attempt TLS if remote understands STARTTLS and we aren't doing immediate TLS or if caller requires it.
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
if c.extStartTLS && (tlsMode != TLSSkip && tlsMode != TLSStrictImmediate) || tlsMode == TLSStrictStartTLS || tlsMode == TLSUnverifiedStartTLS {
c.log.Debug("starting tls client", mlog.Field("tlsmode", tlsMode), mlog.Field("servername", c.remoteHostname))
2023-01-30 16:27:06 +03:00
c.cmds[0] = "starttls"
c.cmdStart = time.Now()
c.xwritelinef("STARTTLS")
code, secode, lastLine, _ := c.xread()
// ../rfc/3207:107
if code != smtp.C220ServiceReady {
c.xerrorf(code/100 == 5, code, secode, lastLine, "%w: STARTTLS: got %d, expected 220", ErrTLS, code)
}
// We don't want to do TLS on top of c.r because it also prints protocol traces: We
// don't want to log the TLS stream. So we'll do TLS on the underlying connection,
// but make sure any bytes already read and in the buffer are used for the TLS
// handshake.
conn := c.conn
if n := c.r.Buffered(); n > 0 {
conn = &moxio.PrefixConn{
PrefixReader: io.LimitReader(c.r, int64(n)),
Conn: conn,
}
}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
// For TLSStrictStartTLS, the Go TLS library performs the checks needed for MTA-STS.
2023-01-30 16:27:06 +03:00
// ../rfc/8461:646
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
tlsConfig := c.tlsConfig(tlsMode)
nconn := tls.Client(conn, &tlsConfig)
2023-01-30 16:27:06 +03:00
c.conn = nconn
nctx, cancel := context.WithTimeout(ctx, time.Minute)
defer cancel()
err := nconn.HandshakeContext(nctx)
if err != nil {
c.xerrorf(false, 0, "", "", "%w: STARTTLS TLS handshake: %s", ErrTLS, err)
}
cancel()
c.tr = moxio.NewTraceReader(c.log, "RS: ", c.conn)
c.tw = moxio.NewTraceWriter(c.log, "LC: ", c.conn) // No need to wrap in timeoutWriter, it would just set the timeout on the underlying connection, which is still active.
c.r = bufio.NewReader(c.tr)
c.w = bufio.NewWriter(c.tw)
2023-01-30 16:27:06 +03:00
tlsversion, ciphersuite := mox.TLSInfo(nconn)
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
2023-10-10 13:09:35 +03:00
c.log.Debug("starttls client handshake done", mlog.Field("tlsmode", tlsMode), mlog.Field("tls", tlsversion), mlog.Field("ciphersuite", ciphersuite), mlog.Field("servername", c.remoteHostname), mlog.Field("danerecord", c.verifiedRecord))
2023-01-30 16:27:06 +03:00
hello(false)
}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
if len(auth) > 0 {
return c.auth(auth)
}
return
}
// ../rfc/4954:139
func (c *Client) auth(auth []sasl.Client) (rerr error) {
defer c.recover(&rerr)
c.cmds[0] = "auth"
c.cmdStart = time.Now()
var a sasl.Client
var name string
var cleartextCreds bool
for _, x := range auth {
name, cleartextCreds = x.Info()
for _, s := range c.extAuthMechanisms {
if s == name {
a = x
break
}
}
}
if a == nil {
c.xerrorf(true, 0, "", "", "no matching authentication mechanisms, server supports %s", strings.Join(c.extAuthMechanisms, ", "))
}
abort := func() (int, string, string) {
// Abort authentication. ../rfc/4954:193
c.xwriteline("*")
// Server must respond with 501. // ../rfc/4954:195
code, secode, lastline, _ := c.xread()
if code != smtp.C501BadParamSyntax {
c.botched = true
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}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
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return code, secode, lastline
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}
new feature: when delivering messages from the queue, make it possible to use a "transport" the default transport is still just "direct delivery", where we connect to the destination domain's MX servers. other transports are: - regular smtp without authentication, this is relaying to a smarthost. - submission with authentication, e.g. to a third party email sending service. - direct delivery, but with with connections going through a socks proxy. this can be helpful if your ip is blocked, you need to get email out, and you have another IP that isn't blocked. keep in mind that for all of the above, appropriate SPF/DKIM settings have to be configured. the "dnscheck" for a domain does a check for any SOCKS IP in the SPF record. SPF for smtp/submission (ranges? includes?) and any DKIM requirements cannot really be checked. which transport is used can be configured through routes. routes can be set on an account, a domain, or globally. the routes are evaluated in that order, with the first match selecting the transport. these routes are evaluated for each delivery attempt. common selection criteria are recipient domain and sender domain, but also which delivery attempt this is. you could configured mox to attempt sending through a 3rd party from the 4th attempt onwards. routes and transports are optional. if no route matches, or an empty/zero transport is selected, normal direct delivery is done. we could already "submit" emails with 3rd party accounts with "sendmail". but we now support more SASL authentication mechanisms with SMTP (not only PLAIN, but also SCRAM-SHA-256, SCRAM-SHA-1 and CRAM-MD5), which sendmail now also supports. sendmail will use the most secure mechanism supported by the server, or the explicitly configured mechanism. for issue #36 by dmikushin. also based on earlier discussion on hackernews.
2023-06-16 19:38:28 +03:00
toserver, last, err := a.Next(nil)
if err != nil {
c.xerrorf(false, 0, "", "", "initial step in auth mechanism %s: %w", name, err)
}
if cleartextCreds {
defer c.xtrace(mlog.LevelTraceauth)()
}
if toserver == nil {
c.xwriteline("AUTH " + name)
} else if len(toserver) == 0 {
c.xwriteline("AUTH " + name + " =") // ../rfc/4954:214
} else {
c.xwriteline("AUTH " + name + " " + base64.StdEncoding.EncodeToString(toserver))
}
for {
if cleartextCreds && last {
c.xtrace(mlog.LevelTrace) // Restore.
}
code, secode, lastLine, texts := c.xreadecode(last)
if code == smtp.C235AuthSuccess {
if !last {
c.xerrorf(false, code, secode, lastLine, "server completed authentication earlier than client expected")
}
return nil
} else if code == smtp.C334ContinueAuth {
if last {
c.xerrorf(false, code, secode, lastLine, "server requested unexpected continuation of authentication")
}
if len(texts) != 1 {
abort()
c.xerrorf(false, code, secode, lastLine, "server responded with multiline contination")
}
fromserver, err := base64.StdEncoding.DecodeString(texts[0])
if err != nil {
abort()
c.xerrorf(false, code, secode, lastLine, "malformed base64 data in authentication continuation response")
}
toserver, last, err = a.Next(fromserver)
if err != nil {
// For failing SCRAM, the client stops due to message about invalid proof. The
// server still sends an authentication result (it probably should send 501
// instead).
xcode, xsecode, lastline := abort()
c.xerrorf(false, xcode, xsecode, lastline, "client aborted authentication: %w", err)
}
c.xwriteline(base64.StdEncoding.EncodeToString(toserver))
} else {
c.xerrorf(code/100 == 5, code, secode, lastLine, "unexpected response during authentication, expected 334 continue or 235 auth success")
}
}
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}
// Supports8BITMIME returns whether the SMTP server supports the 8BITMIME
// extension, needed for sending data with non-ASCII bytes.
func (c *Client) Supports8BITMIME() bool {
return c.ext8bitmime
}
// SupportsSMTPUTF8 returns whether the SMTP server supports the SMTPUTF8
// extension, needed for sending messages with UTF-8 in headers or in an (SMTP)
// address.
func (c *Client) SupportsSMTPUTF8() bool {
return c.extSMTPUTF8
}
// Deliver attempts to deliver a message to a mail server.
//
// mailFrom must be an email address, or empty in case of a DSN. rcptTo must be
// an email address.
//
// If the message contains bytes with the high bit set, req8bitmime must be true. If
// set, the remote server must support the 8BITMIME extension or delivery will
// fail.
//
// If the message is internationalized, e.g. when headers contain non-ASCII
// character, or when UTF-8 is used in a localpart, reqSMTPUTF8 must be true. If set,
// the remote server must support the SMTPUTF8 extension or delivery will fail.
//
// Deliver uses the following SMTP extensions if the remote server supports them:
// 8BITMIME, SMTPUTF8, SIZE, PIPELINING, ENHANCEDSTATUSCODES, STARTTLS.
//
// Returned errors can be of type Error, one of the Err-variables in this package
// or other underlying errors, e.g. for i/o. Use errors.Is to check.
func (c *Client) Deliver(ctx context.Context, mailFrom string, rcptTo string, msgSize int64, msg io.Reader, req8bitmime, reqSMTPUTF8 bool) (rerr error) {
defer c.recover(&rerr)
if c.origConn == nil {
return ErrClosed
} else if c.botched {
return ErrBotched
} else if c.needRset {
if err := c.Reset(); err != nil {
return err
}
}
if !c.ext8bitmime && req8bitmime {
// Temporary error, e.g. OpenBSD spamd does not announce 8bitmime support, but once
// you get through, the mail server behind it probably does. Just needs a few
// retries.
c.xerrorf(false, 0, "", "", "%w", Err8bitmimeUnsupported)
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}
if !c.extSMTPUTF8 && reqSMTPUTF8 {
// ../rfc/6531:313
c.xerrorf(false, 0, "", "", "%w", ErrSMTPUTF8Unsupported)
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}
if c.extSize && msgSize > c.maxSize {
c.xerrorf(true, 0, "", "", "%w: message is %d bytes, remote has a %d bytes maximum size", ErrSize, msgSize, c.maxSize)
}
var mailSize, bodyType string
if c.extSize {
mailSize = fmt.Sprintf(" SIZE=%d", msgSize)
}
if c.ext8bitmime {
if req8bitmime {
bodyType = " BODY=8BITMIME"
} else {
bodyType = " BODY=7BIT"
}
}
var smtputf8Arg string
if reqSMTPUTF8 {
// ../rfc/6531:213
smtputf8Arg = " SMTPUTF8"
}
// Transaction overview: ../rfc/5321:1015
// MAIL FROM: ../rfc/5321:1879
// RCPT TO: ../rfc/5321:1916
// DATA: ../rfc/5321:1992
lineMailFrom := fmt.Sprintf("MAIL FROM:<%s>%s%s%s", mailFrom, mailSize, bodyType, smtputf8Arg)
lineRcptTo := fmt.Sprintf("RCPT TO:<%s>", rcptTo)
// We are going into a transaction. We'll clear this when done.
c.needRset = true
if c.extPipelining {
c.cmds = []string{"mailfrom", "rcptto", "data"}
c.cmdStart = time.Now()
// todo future: write in a goroutine to prevent potential deadlock if remote does not consume our writes before expecting us to read. could potentially happen with greylisting and a small tcp send window?
c.xbwriteline(lineMailFrom)
c.xbwriteline(lineRcptTo)
c.xbwriteline("DATA")
c.xflush()
// We read the response to RCPT TO and DATA without panic on read error. Servers
// may be aborting the connection after a failed MAIL FROM, e.g. outlook when it
// has blocklisted your IP. We don't want the read for the response to RCPT TO to
// cause a read error as it would result in an unhelpful error message and a
// temporary instead of permanent error code.
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mfcode, mfsecode, mflastline, _ := c.xread()
rtcode, rtsecode, rtlastline, _, rterr := c.read()
datacode, datasecode, datalastline, _, dataerr := c.read()
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if mfcode != smtp.C250Completed {
c.xerrorf(mfcode/100 == 5, mfcode, mfsecode, mflastline, "%w: got %d, expected 2xx", ErrStatus, mfcode)
}
if rterr != nil {
panic(rterr)
}
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if rtcode != smtp.C250Completed {
c.xerrorf(rtcode/100 == 5, rtcode, rtsecode, rtlastline, "%w: got %d, expected 2xx", ErrStatus, rtcode)
}
if dataerr != nil {
panic(dataerr)
}
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if datacode != smtp.C354Continue {
c.xerrorf(datacode/100 == 5, datacode, datasecode, datalastline, "%w: got %d, expected 354", ErrStatus, datacode)
}
} else {
c.cmds[0] = "mailfrom"
c.cmdStart = time.Now()
c.xwriteline(lineMailFrom)
code, secode, lastline, _ := c.xread()
if code != smtp.C250Completed {
c.xerrorf(code/100 == 5, code, secode, lastline, "%w: got %d, expected 2xx", ErrStatus, code)
}
c.cmds[0] = "rcptto"
c.cmdStart = time.Now()
c.xwriteline(lineRcptTo)
code, secode, lastline, _ = c.xread()
if code != smtp.C250Completed {
c.xerrorf(code/100 == 5, code, secode, lastline, "%w: got %d, expected 2xx", ErrStatus, code)
}
c.cmds[0] = "data"
c.cmdStart = time.Now()
c.xwriteline("DATA")
code, secode, lastline, _ = c.xread()
if code != smtp.C354Continue {
c.xerrorf(code/100 == 5, code, secode, lastline, "%w: got %d, expected 354", ErrStatus, code)
}
}
// For a DATA write, the suggested timeout is 3 minutes, we use 30 seconds for all
// writes through timeoutWriter. ../rfc/5321:3651
defer c.xtrace(mlog.LevelTracedata)()
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err := smtp.DataWrite(c.w, msg)
if err != nil {
c.xbotchf(0, "", "", "writing message as smtp data: %w", err)
}
c.xflush()
c.xtrace(mlog.LevelTrace) // Restore.
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code, secode, lastline, _ := c.xread()
if code != smtp.C250Completed {
c.xerrorf(code/100 == 5, code, secode, lastline, "%w: got %d, expected 2xx", ErrStatus, code)
}
c.needRset = false
return
}
// Reset sends an SMTP RSET command to reset the message transaction state. Deliver
// automatically sends it if needed.
func (c *Client) Reset() (rerr error) {
if c.origConn == nil {
return ErrClosed
} else if c.botched {
return ErrBotched
}
defer c.recover(&rerr)
// ../rfc/5321:2079
c.cmds[0] = "rset"
c.cmdStart = time.Now()
c.xwriteline("RSET")
code, secode, lastline, _ := c.xread()
if code != smtp.C250Completed {
c.xerrorf(code/100 == 5, code, secode, lastline, "%w: got %d, expected 2xx", ErrStatus, code)
}
c.needRset = false
return
}
// Botched returns whether this connection is botched, e.g. a protocol error
// occurred and the connection is in unknown state, and cannot be used for message
// delivery.
func (c *Client) Botched() bool {
return c.botched || c.origConn == nil
}
// Close cleans up the client, closing the underlying connection.
//
// If the connection is in initialized and not botched, a QUIT command is sent and
// the response read with a short timeout before closing the underlying connection.
//
// Close returns any error encountered during QUIT and closing.
func (c *Client) Close() (rerr error) {
if c.origConn == nil {
return ErrClosed
}
defer c.recover(&rerr)
if !c.botched {
// ../rfc/5321:2205
c.cmds[0] = "quit"
c.cmdStart = time.Now()
c.xwriteline("QUIT")
if err := c.conn.SetReadDeadline(time.Now().Add(5 * time.Second)); err != nil {
c.log.Infox("setting read deadline for reading quit response", err)
} else if _, err := bufs.Readline(c.r); err != nil {
rerr = fmt.Errorf("reading response to quit command: %v", err)
c.log.Debugx("reading quit response", err)
}
}
err := c.origConn.Close()
if c.conn != c.origConn {
// This is the TLS connection. Close will attempt to write a close notification.
// But it will fail quickly because the underlying socket was closed.
c.conn.Close()
}
c.origConn = nil
c.conn = nil
if rerr != nil {
rerr = err
}
return
}
implement dnssec-awareness throughout code, and dane for incoming/outgoing mail delivery the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
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// Conn returns the connection with initialized SMTP session. Once the caller uses
// this connection it is in control, and responsible for closing the connection,
// and other functions on the client must not be called anymore.
func (c *Client) Conn() (net.Conn, error) {
if err := c.conn.SetDeadline(time.Time{}); err != nil {
return nil, fmt.Errorf("clearing io deadlines: %w", err)
}
return c.conn, nil
}