# Copyright (C) all contributors # License: AGPL-3.0+ # # Each instance of this represents an IMAP client connected to # public-inbox-imapd. Much of this was taken from NNTP, but # further refined while experimenting on future ideas to handle # slow storage. # # data notes: # # * NNTP article numbers are UIDs, mm->created_at is UIDVALIDITY # # * public-inboxes are sliced into mailboxes of 50K messages # to not overload MUAs: $NEWSGROUP_NAME.$SLICE_INDEX # Slices are similar in concept to v2 "epochs". Epochs # are for the limitations of git clients, while slices are # for the limitations of IMAP clients. # # * We also take advantage of slices being only 50K to store # "UID offset" to message sequence number (MSN) mapping # as a 50K uint16_t array (via pack("S*", ...)). "UID offset" # is the offset from {uid_base} which determines the start of # the mailbox slice. # # fields: # imapd: PublicInbox::IMAPD ref # ibx: PublicInbox::Inbox ref # long_cb: long_response private data # uid_base: base UID for mailbox slice (0-based) # -login_tag: IMAP TAG for LOGIN # -idle_tag: IMAP response tag for IDLE # uo2m: UID-to-MSN mapping package PublicInbox::IMAP; use strict; use parent qw(PublicInbox::DS); use PublicInbox::Eml; use PublicInbox::EmlContentFoo qw(parse_content_disposition); use PublicInbox::DS qw(now); use PublicInbox::GitAsyncCat; use Text::ParseWords qw(parse_line); use Errno qw(EAGAIN); use PublicInbox::IMAPsearchqp; my $Address; for my $mod (qw(Email::Address::XS Mail::Address)) { eval "require $mod" or next; $Address = $mod and last; } die "neither Email::Address::XS nor Mail::Address loaded: $@" if !$Address; sub LINE_MAX () { 8000 } # RFC 2683 3.2.1.5 # Changing UID_SLICE will cause grief for clients which cache. # This also needs to be <64K: we pack it into a uint16_t # for long_response UID (offset) => MSN mappings sub UID_SLICE () { 50_000 } # these values area also used for sorting sub NEED_SMSG () { 1 } sub NEED_BLOB () { NEED_SMSG|2 } sub CRLF_BREF () { 4 } sub EML_HDR () { 8 } sub CRLF_HDR () { 16 } sub EML_BDY () { 32 } sub CRLF_BDY () { 64 } my $OP_EML_NEW = [ EML_HDR - 1, \&op_eml_new ]; my $OP_CRLF_BREF = [ CRLF_BREF, \&op_crlf_bref ]; my $OP_CRLF_HDR = [ CRLF_HDR, \&op_crlf_hdr ]; my $OP_CRLF_BDY = [ CRLF_BDY, \&op_crlf_bdy ]; my %FETCH_NEED = ( 'BODY[HEADER]' => [ NEED_BLOB|EML_HDR|CRLF_HDR, \&emit_rfc822_header ], 'BODY[TEXT]' => [ NEED_BLOB|EML_BDY|CRLF_BDY, \&emit_rfc822_text ], 'BODY[]' => [ NEED_BLOB|CRLF_BREF, \&emit_rfc822 ], 'RFC822.HEADER' => [ NEED_BLOB|EML_HDR|CRLF_HDR, \&emit_rfc822_header ], 'RFC822.TEXT' => [ NEED_BLOB|EML_BDY|CRLF_BDY, \&emit_rfc822_text ], 'RFC822.SIZE' => [ NEED_SMSG, \&emit_rfc822_size ], RFC822 => [ NEED_BLOB|CRLF_BREF, \&emit_rfc822 ], BODY => [ NEED_BLOB|EML_HDR|EML_BDY, \&emit_body ], BODYSTRUCTURE => [ NEED_BLOB|EML_HDR|EML_BDY, \&emit_bodystructure ], ENVELOPE => [ NEED_BLOB|EML_HDR, \&emit_envelope ], FLAGS => [ 0, \&emit_flags ], INTERNALDATE => [ NEED_SMSG, \&emit_internaldate ], ); my %FETCH_ATT = map { $_ => [ $_ ] } keys %FETCH_NEED; # aliases (RFC 3501 section 6.4.5) $FETCH_ATT{FAST} = [ qw(FLAGS INTERNALDATE RFC822.SIZE) ]; $FETCH_ATT{ALL} = [ @{$FETCH_ATT{FAST}}, 'ENVELOPE' ]; $FETCH_ATT{FULL} = [ @{$FETCH_ATT{ALL}}, 'BODY' ]; for my $att (keys %FETCH_ATT) { my %h = map { $_ => $FETCH_NEED{$_} } @{$FETCH_ATT{$att}}; $FETCH_ATT{$att} = \%h; } undef %FETCH_NEED; my $valid_range = '[0-9]+|[0-9]+:[0-9]+|[0-9]+:\*'; $valid_range = qr/\A(?:$valid_range)(?:,(?:$valid_range))*\z/; sub do_greet { my ($self) = @_; my $capa = capa($self); $self->write(\"* OK [$capa] public-inbox-imapd ready\r\n"); } sub new { my (undef, $sock, $imapd) = @_; (bless { imapd => $imapd }, 'PublicInbox::IMAP_preauth')->greet($sock) } sub logged_in { 1 } sub capa ($) { my ($self) = @_; # dovecot advertises IDLE pre-login; perhaps because some clients # depend on it, so we'll do the same my $capa = 'CAPABILITY IMAP4rev1 IDLE'; if ($self->logged_in) { $capa .= ' COMPRESS=DEFLATE'; } else { if (!($self->{sock} // $self)->can('accept_SSL') && $self->{imapd}->{ssl_ctx_opt}) { $capa .= ' STARTTLS'; } $capa .= ' AUTH=ANONYMOUS'; } } sub login_success ($$) { my ($self, $tag) = @_; bless $self, 'PublicInbox::IMAP'; my $capa = capa($self); "$tag OK [$capa] Logged in\r\n"; } sub auth_challenge_ok ($) { my ($self) = @_; my $tag = delete($self->{-login_tag}) or return; $self->{anon} = 1; login_success($self, $tag); } sub cmd_login ($$$$) { my ($self, $tag) = @_; # ignore ($user, $password) = ($_[2], $_[3]) login_success($self, $tag); } sub cmd_close ($$) { my ($self, $tag) = @_; delete @$self{qw(uid_base uo2m)}; delete $self->{ibx} ? "$tag OK Close done\r\n" : "$tag BAD No mailbox\r\n"; } sub cmd_logout ($$) { my ($self, $tag) = @_; delete $self->{-idle_tag}; $self->write(\"* BYE logging out\r\n$tag OK Logout done\r\n"); $self->shutdn; # PublicInbox::DS::shutdn undef; } sub cmd_authenticate ($$$) { my ($self, $tag) = @_; # $method = $_[2], should be "ANONYMOUS" $self->{-login_tag} = $tag; "+\r\n"; # challenge } sub cmd_capability ($$) { my ($self, $tag) = @_; '* '.capa($self)."\r\n$tag OK Capability done\r\n"; } # uo2m: UID Offset to MSN, this is an arrayref by default, # but uo2m_hibernate can compact and deduplicate it sub uo2m_ary_new ($;$) { my ($self, $exists) = @_; my $ub = $self->{uid_base}; my $uids = $self->{ibx}->over(1)->uid_range($ub + 1, $ub + UID_SLICE); # convert UIDs to offsets from {base} my @tmp; # [$UID_OFFSET] => $MSN my $msn = 0; ++$ub; $tmp[$_ - $ub] = ++$msn for @$uids; $$exists = $msn if $exists; \@tmp; } # changes UID-offset-to-MSN mapping into a deduplicated scalar: # uint16_t uo2m[UID_SLICE]. # May be swapped out for idle clients if THP is disabled. sub uo2m_hibernate ($) { my ($self) = @_; ref(my $uo2m = $self->{uo2m}) or return; my %dedupe = ( uo2m_pack($uo2m) => undef ); $self->{uo2m} = (keys(%dedupe))[0]; undef; } sub uo2m_last_uid ($) { my ($self) = @_; defined(my $uo2m = $self->{uo2m}) or die 'BUG: uo2m_last_uid w/o {uo2m}'; (ref($uo2m) ? @$uo2m : (length($uo2m) >> 1)) + $self->{uid_base}; } sub uo2m_pack ($) { # $_[0] is an arrayref of MSNs, it may have undef gaps if there # are gaps in the corresponding UIDs: [ msn1, msn2, undef, msn3 ] no warnings 'uninitialized'; pack('S*', @{$_[0]}); } # extend {uo2m} to account for new messages which arrived since # {uo2m} was created. sub uo2m_extend ($$;$) { my ($self, $new_uid_max) = @_; defined(my $uo2m = $self->{uo2m}) or return($self->{uo2m} = uo2m_ary_new($self)); my $beg = uo2m_last_uid($self); # last UID we've learned return $uo2m if $beg >= $new_uid_max; # fast path # need to extend the current range: my $base = $self->{uid_base}; ++$beg; my $uids = $self->{ibx}->over(1)->uid_range($beg, $base + UID_SLICE); return $uo2m if !scalar(@$uids); my @tmp; # [$UID_OFFSET] => $MSN my $write_method = $_[2] // 'msg_more'; if (ref($uo2m)) { my $msn = $uo2m->[-1]; $tmp[$_ - $beg] = ++$msn for @$uids; $self->$write_method("* $msn EXISTS\r\n"); push @$uo2m, @tmp; $uo2m; } else { my $msn = unpack('S', substr($uo2m, -2, 2)); $tmp[$_ - $beg] = ++$msn for @$uids; $self->$write_method("* $msn EXISTS\r\n"); $uo2m .= uo2m_pack(\@tmp); my %dedupe = ($uo2m => undef); $self->{uo2m} = (keys %dedupe)[0]; } } sub cmd_noop ($$) { my ($self, $tag) = @_; defined($self->{uid_base}) and uo2m_extend($self, $self->{uid_base} + UID_SLICE); \"$tag OK Noop done\r\n"; } # the flexible version which works on scalars and array refs. # Must call uo2m_extend before this sub uid2msn ($$) { my ($self, $uid) = @_; my $uo2m = $self->{uo2m}; my $off = $uid - $self->{uid_base} - 1; ref($uo2m) ? $uo2m->[$off] : unpack('S', substr($uo2m, $off << 1, 2)); } # returns an arrayref of UIDs, so MSNs can be translated to UIDs via: # $msn2uid->[$MSN-1] => $UID. The result of this is always ephemeral # and does not live beyond the event loop. sub msn2uid ($) { my ($self) = @_; my $base = $self->{uid_base}; my $uo2m = uo2m_extend($self, $base + UID_SLICE); $uo2m = [ unpack('S*', $uo2m) ] if !ref($uo2m); my $uo = 0; my @msn2uid; for my $msn (@$uo2m) { ++$uo; $msn2uid[$msn - 1] = $uo + $base if $msn; } \@msn2uid; } # converts a set of message sequence numbers in requests to UIDs: sub msn_to_uid_range ($$) { my $msn2uid = $_[0]; $_[1] =~ s!([0-9]+)!$msn2uid->[$1 - 1] // ($msn2uid->[-1] // 0 + 1)!sge; } # called by PublicInbox::InboxIdle sub on_inbox_unlock { my ($self, $ibx) = @_; my $uid_end = $self->{uid_base} + UID_SLICE; uo2m_extend($self, $uid_end, 'write'); my $new = uo2m_last_uid($self); if ($new == $uid_end) { # max exceeded $uid_end # continue idling w/o inotify my $sock = $self->{sock} or return; $ibx->unsubscribe_unlock(fileno($sock)); } } # called every minute or so by PublicInbox::DS::later my $IDLERS; # fileno($obj->{sock}) => PublicInbox::IMAP sub idle_tick_all { my $old = $IDLERS; $IDLERS = undef; for my $i (values %$old) { next if ($i->{wbuf} || !exists($i->{-idle_tag})); $IDLERS->{fileno($i->{sock})} = $i; $i->write(\"* OK Still here\r\n"); } $IDLERS and PublicInbox::DS::add_uniq_timer('idle', 60, \&idle_tick_all); } sub cmd_idle ($$) { my ($self, $tag) = @_; # IDLE seems allowed by dovecot w/o a mailbox selected *shrug* my $ibx = $self->{ibx} or return "$tag BAD no mailbox selected\r\n"; my $uid_end = $self->{uid_base} + UID_SLICE; uo2m_extend($self, $uid_end); my $sock = $self->{sock} or return; my $fd = fileno($sock); $self->{-idle_tag} = $tag; # only do inotify on most recent slice if ($ibx->over(1)->max < $uid_end) { $ibx->subscribe_unlock($fd, $self); $self->{imapd}->idler_start; } PublicInbox::DS::add_uniq_timer('idle', 60, \&idle_tick_all); $IDLERS->{$fd} = $self; \"+ idling\r\n" } sub stop_idle ($$) { my ($self, $ibx) = @_; my $sock = $self->{sock} or return; my $fd = fileno($sock); delete $IDLERS->{$fd}; $ibx->unsubscribe_unlock($fd); } sub idle_done ($$) { my ($self, $tag) = @_; # $tag is "DONE" (case-insensitive) defined(my $idle_tag = delete $self->{-idle_tag}) or return "$tag BAD not idle\r\n"; my $ibx = $self->{ibx} or do { warn "BUG: idle_tag set w/o inbox"; return "$tag BAD internal bug\r\n"; }; stop_idle($self, $ibx); "$idle_tag OK Idle done\r\n"; } sub ensure_slices_exist ($$) { my ($imapd, $ibx) = @_; my $mb_top = $ibx->{newsgroup} // return; my $mailboxes = $imapd->{mailboxes}; my $list = $imapd->{mailboxlist}; # may be undef, just autoviv + noop for (my $i = int($ibx->art_max/UID_SLICE); $i >= 0; --$i) { my $sub_mailbox = "$mb_top.$i"; last if exists $mailboxes->{$sub_mailbox}; $mailboxes->{$sub_mailbox} = $ibx; $sub_mailbox =~ s/\Ainbox\./INBOX./i; # more familiar to users push @$list, qq[* LIST (\\HasNoChildren) "." $sub_mailbox\r\n] } } sub inbox_lookup ($$;$) { my ($self, $mailbox, $examine) = @_; my ($ibx, $exists, $uidmax, $uid_base) = (undef, 0, 0, 0); $mailbox = lc $mailbox; $ibx = $self->{imapd}->{mailboxes}->{$mailbox} or return; my $over = $ibx->over(1); if ($over != $ibx) { # not a dummy $mailbox =~ /\.([0-9]+)\z/ or die "BUG: unexpected dummy mailbox: $mailbox\n"; $uid_base = $1 * UID_SLICE; $uidmax = $ibx->mm->num_highwater // 0; if ($examine) { $self->{uid_base} = $uid_base; $self->{ibx} = $ibx; $self->{uo2m} = uo2m_ary_new($self, \$exists); } else { my $uid_end = $uid_base + UID_SLICE; $exists = $over->imap_exists($uid_base, $uid_end); } delete $ibx->{-art_max}; ensure_slices_exist($self->{imapd}, $ibx); } else { if ($examine) { $self->{uid_base} = $uid_base; $self->{ibx} = $ibx; delete $self->{uo2m}; } # if "INBOX.foo.bar" is selected and "INBOX.foo.bar.0", # check for new UID ranges (e.g. "INBOX.foo.bar.1") if (my $ibx = $self->{imapd}->{mailboxes}->{"$mailbox.0"}) { delete $ibx->{-art_max}; ensure_slices_exist($self->{imapd}, $ibx); } } ($ibx, $exists, $uidmax + 1, $uid_base); } sub cmd_examine ($$$) { my ($self, $tag, $mailbox) = @_; # XXX: do we need this? RFC 5162/7162 my $ret = $self->{ibx} ? "* OK [CLOSED] previous closed\r\n" : ''; my ($ibx, $exists, $uidnext, $base) = inbox_lookup($self, $mailbox, 1); return "$tag NO Mailbox doesn't exist: $mailbox\r\n" if !$ibx; $ret .= <{uidvalidity}]\r $tag OK [READ-ONLY] EXAMINE/SELECT done\r EOF } sub _esc ($) { my ($v) = @_; if (!defined($v)) { 'NIL'; } elsif ($v =~ /[{"\r\n%*\\\[]/) { # literal string '{' . length($v) . "}\r\n" . $v; } else { # quoted string qq{"$v"} } } sub addr_envelope ($$;$) { my ($eml, $x, $y) = @_; my $v = $eml->header_raw($x) // ($y ? $eml->header_raw($y) : undef) // return 'NIL'; my @x = $Address->parse($v) or return 'NIL'; '(' . join('', map { '(' . join(' ', _esc($_->name), 'NIL', _esc($_->user), _esc($_->host) ) . ')' } @x) . ')'; } sub eml_envelope ($) { my ($eml) = @_; '(' . join(' ', _esc($eml->header_raw('Date')), _esc($eml->header_raw('Subject')), addr_envelope($eml, 'From'), addr_envelope($eml, 'Sender', 'From'), addr_envelope($eml, 'Reply-To', 'From'), addr_envelope($eml, 'To'), addr_envelope($eml, 'Cc'), addr_envelope($eml, 'Bcc'), _esc($eml->header_raw('In-Reply-To')), _esc($eml->header_raw('Message-ID')), ) . ')'; } sub _esc_hash ($) { my ($hash) = @_; if ($hash && scalar keys %$hash) { $hash = [ %$hash ]; # flatten hash into 1-dimensional array '(' . join(' ', map { _esc($_) } @$hash) . ')'; } else { 'NIL'; } } sub body_disposition ($) { my ($eml) = @_; my $cd = $eml->header_raw('Content-Disposition') or return 'NIL'; $cd = parse_content_disposition($cd); my $buf = '('._esc($cd->{type}); $buf .= ' ' . _esc_hash($cd->{attributes}); $buf .= ')'; } sub body_leaf ($$;$) { my ($eml, $structure, $hold) = @_; my $buf = ''; $eml->{is_submsg} and # parent was a message/(rfc822|news|global) $buf .= eml_envelope($eml). ' '; my $ct = $eml->ct; $buf .= '('._esc($ct->{type}).' '; $buf .= _esc($ct->{subtype}); $buf .= ' ' . _esc_hash($ct->{attributes}); $buf .= ' ' . _esc($eml->header_raw('Content-ID')); $buf .= ' ' . _esc($eml->header_raw('Content-Description')); my $cte = $eml->header_raw('Content-Transfer-Encoding') // '7bit'; $buf .= ' ' . _esc($cte); $buf .= ' ' . $eml->{imap_body_len}; $buf .= ' '.($eml->body_raw =~ tr/\n/\n/) if lc($ct->{type}) eq 'text'; # for message/(rfc822|global|news), $hold[0] should have envelope $buf .= ' ' . (@$hold ? join('', @$hold) : 'NIL') if $hold; if ($structure) { $buf .= ' '._esc($eml->header_raw('Content-MD5')); $buf .= ' '. body_disposition($eml); $buf .= ' '._esc($eml->header_raw('Content-Language')); $buf .= ' '._esc($eml->header_raw('Content-Location')); } $buf .= ')'; } sub body_parent ($$$) { my ($eml, $structure, $hold) = @_; my $ct = $eml->ct; my $type = lc($ct->{type}); if ($type eq 'multipart') { my $buf = '('; $buf .= @$hold ? join('', @$hold) : 'NIL'; $buf .= ' '._esc($ct->{subtype}); if ($structure) { $buf .= ' '._esc_hash($ct->{attributes}); $buf .= ' '.body_disposition($eml); $buf .= ' '._esc($eml->header_raw('Content-Language')); $buf .= ' '._esc($eml->header_raw('Content-Location')); } $buf .= ')'; @$hold = ($buf); } else { # message/(rfc822|global|news) @$hold = (body_leaf($eml, $structure, $hold)); } } # this is gross, but we need to process the parent part AFTER # the child parts are done sub bodystructure_prep { my ($p, $q) = @_; my ($eml, $depth) = @$p; # ignore idx # set length here, as $eml->{bdy} gets deleted for message/rfc822 $eml->{imap_body_len} = length($eml->body_raw); push @$q, $eml, $depth; } # for FETCH BODY and FETCH BODYSTRUCTURE sub fetch_body ($;$) { my ($eml, $structure) = @_; my @q; $eml->each_part(\&bodystructure_prep, \@q, 0, 1); my $cur_depth = 0; my @hold; do { my ($part, $depth) = splice(@q, -2); my $is_mp_parent = $depth == ($cur_depth - 1); $cur_depth = $depth; if ($is_mp_parent) { body_parent($part, $structure, \@hold); } else { unshift @hold, body_leaf($part, $structure); } } while (@q); join('', @hold); } sub fetch_run_ops { my ($self, $smsg, $bref, $ops, $partial) = @_; my $uid = $smsg->{num}; $self->msg_more('* '.uid2msn($self, $uid)." FETCH (UID $uid"); my ($eml, $k); for (my $i = 0; $i < @$ops;) { $k = $ops->[$i++]; $ops->[$i++]->($self, $k, $smsg, $bref, $eml); } partial_emit($self, $partial, $eml) if $partial; $self->msg_more(")\r\n"); } sub requeue { # overrides PublicInbox::DS::requeue my ($self) = @_; if ($self->{anon}) { # AUTH=ANONYMOUS gets high priority $self->SUPER::requeue; } else { # low priority push(@{$self->{imapd}->{-authed_q}}, $self) == 1 and PublicInbox::DS::requeue($self->{imapd}); } } sub fetch_blob_cb { # called by git->cat_async via ibx_async_cat my ($bref, $oid, $type, $size, $fetch_arg) = @_; my ($self, undef, $msgs, $range_info, $ops, $partial) = @$fetch_arg; my $ibx = $self->{ibx} or return $self->close; # client disconnected my $smsg = shift @$msgs or die 'BUG: no smsg'; if (!defined($oid)) { # it's possible to have TOCTOU if an admin runs # public-inbox-(edit|purge), just move onto the next message warn "E: $smsg->{blob} missing in $ibx->{inboxdir}\n"; return $self->requeue_once; } else { $smsg->{blob} eq $oid or die "BUG: $smsg->{blob} != $oid"; } my $pre; ($self->{anon} && !$self->{wbuf} && $msgs->[0]) and $pre = ibx_async_prefetch($ibx, $msgs->[0]->{blob}, \&fetch_blob_cb, $fetch_arg); fetch_run_ops($self, $smsg, $bref, $ops, $partial); $pre ? $self->dflush : $self->requeue_once; } sub emit_rfc822 { my ($self, $k, undef, $bref) = @_; $self->msg_more(" $k {" . length($$bref)."}\r\n"); $self->msg_more($$bref); } # Mail::IMAPClient::message_string cares about this by default, # (->Ignoresizeerrors attribute). Admins are encouraged to # --reindex for IMAP support, anyways. sub emit_rfc822_size { my ($self, $k, $smsg) = @_; $self->msg_more(' RFC822.SIZE ' . $smsg->{bytes}); } sub emit_internaldate { my ($self, undef, $smsg) = @_; $self->msg_more(' INTERNALDATE "'.$smsg->internaldate.'"'); } sub emit_flags { $_[0]->msg_more(' FLAGS ()') } sub emit_envelope { my ($self, undef, undef, undef, $eml) = @_; $self->msg_more(' ENVELOPE '.eml_envelope($eml)); } sub emit_rfc822_header { my ($self, $k, undef, undef, $eml) = @_; $self->msg_more(" $k {".length(${$eml->{hdr}})."}\r\n"); $self->msg_more(${$eml->{hdr}}); } # n.b. this is sorted to be after any emit_eml_new ops sub emit_rfc822_text { my ($self, $k, undef, $bref) = @_; $self->msg_more(" $k {".length($$bref)."}\r\n"); $self->msg_more($$bref); } sub emit_bodystructure { my ($self, undef, undef, undef, $eml) = @_; $self->msg_more(' BODYSTRUCTURE '.fetch_body($eml, 1)); } sub emit_body { my ($self, undef, undef, undef, $eml) = @_; $self->msg_more(' BODY '.fetch_body($eml)); } # set $eml once ($_[4] == $eml, $_[3] == $bref) sub op_eml_new { $_[4] = PublicInbox::Eml->new($_[3]) } # s/From / fixes old bug from import (pre-a0c07cba0e5d8b6a) sub to_crlf_full { ${$_[0]} =~ s/(?{hdr}) } sub op_crlf_bdy { ${$_[4]->{bdy}} =~ s/(?{bdy} } sub uid_clamp ($$$) { my ($self, $beg, $end) = @_; my $uid_min = $self->{uid_base} + 1; my $uid_end = $uid_min + UID_SLICE - 1; $$beg = $uid_min if $$beg < $uid_min; $$end = $uid_end if $$end > $uid_end; } sub range_step ($$) { my ($self, $range_csv) = @_; my ($beg, $end, $range); if ($$range_csv =~ s/\A([^,]+),//) { $range = $1; } else { $range = $$range_csv; $$range_csv = undef; } my $uid_base = $self->{uid_base}; my $uid_end = $uid_base + UID_SLICE; if ($range =~ /\A([0-9]+):([0-9]+)\z/) { ($beg, $end) = ($1 + 0, $2 + 0); uid_clamp($self, \$beg, \$end); } elsif ($range =~ /\A([0-9]+):\*\z/) { $beg = $1 + 0; $end = $self->{ibx}->over(1)->max; $end = $uid_end if $end > $uid_end; $beg = $end if $beg > $end; uid_clamp($self, \$beg, \$end); } elsif ($range =~ /\A[0-9]+\z/) { $beg = $end = $range + 0; # just let the caller do an out-of-range query if a single # UID is out-of-range ++$beg if ($beg <= $uid_base || $end > $uid_end); } else { return 'BAD fetch range'; } [ $beg, $end, $$range_csv ]; } sub refill_range ($$$) { my ($self, $msgs, $range_info) = @_; my ($beg, $end, $range_csv) = @$range_info; if (scalar(@$msgs = @{$self->{ibx}->over(1)->query_xover($beg, $end)})){ $range_info->[0] = $msgs->[-1]->{num} + 1; return; } return 'OK Fetch done' if !$range_csv; my $next_range = range_step($self, \$range_csv); return $next_range if !ref($next_range); # error @$range_info = @$next_range; undef; # keep looping } sub fetch_blob { # long_response my ($self, $tag, $msgs, $range_info, $ops, $partial) = @_; while (!@$msgs) { # rare if (my $end = refill_range($self, $msgs, $range_info)) { $self->write(\"$tag $end\r\n"); return; } } uo2m_extend($self, $msgs->[-1]->{num}); ibx_async_cat($self->{ibx}, $msgs->[0]->{blob}, \&fetch_blob_cb, \@_); } sub fetch_smsg { # long_response my ($self, $tag, $msgs, $range_info, $ops) = @_; while (!@$msgs) { # rare if (my $end = refill_range($self, $msgs, $range_info)) { $self->write(\"$tag $end\r\n"); return; } } uo2m_extend($self, $msgs->[-1]->{num}); fetch_run_ops($self, $_, undef, $ops) for @$msgs; @$msgs = (); 1; # more } sub refill_uids ($$$;$) { my ($self, $uids, $range_info, $sql) = @_; my ($beg, $end, $range_csv) = @$range_info; my $over = $self->{ibx}->over(1); while (1) { if (scalar(@$uids = @{$over->uid_range($beg, $end, $sql)})) { $range_info->[0] = $uids->[-1] + 1; # update $beg return; } elsif (!$range_csv) { return 0; } else { my $next_range = range_step($self, \$range_csv); return $next_range if !ref($next_range); # error ($beg, $end, $range_csv) = @$range_info = @$next_range; # continue looping } } } sub fetch_uid { # long_response my ($self, $tag, $uids, $range_info, $ops) = @_; if (defined(my $err = refill_uids($self, $uids, $range_info))) { $err ||= 'OK Fetch done'; $self->write("$tag $err\r\n"); return; } my $adj = $self->{uid_base} + 1; my $uo2m = uo2m_extend($self, $uids->[-1]); $uo2m = [ unpack('S*', $uo2m) ] if !ref($uo2m); my ($i, $k); for (@$uids) { $self->msg_more("* $uo2m->[$_ - $adj] FETCH (UID $_"); for ($i = 0; $i < @$ops;) { $k = $ops->[$i++]; $ops->[$i++]->($self, $k); } $self->msg_more(")\r\n"); } @$uids = (); 1; # more } sub cmd_status ($$$;@) { my ($self, $tag, $mailbox, @items) = @_; return "$tag BAD no items\r\n" if !scalar(@items); ($items[0] !~ s/\A\(//s || $items[-1] !~ s/\)\z//s) and return "$tag BAD invalid args\r\n"; my ($ibx, $exists, $uidnext) = inbox_lookup($self, $mailbox); return "$tag NO Mailbox doesn't exist: $mailbox\r\n" if !$ibx; my @it; for my $it (@items) { $it = uc($it); push @it, $it; if ($it =~ /\A(?:MESSAGES|UNSEEN|RECENT)\z/) { push @it, $exists; } elsif ($it eq 'UIDNEXT') { push @it, $uidnext; } elsif ($it eq 'UIDVALIDITY') { push @it, $ibx->{uidvalidity}; } else { return "$tag BAD invalid item\r\n"; } } return "$tag BAD no items\r\n" if !@it; "* STATUS $mailbox (".join(' ', @it).")\r\n" . "$tag OK Status done\r\n"; } my %patmap = ('*' => '.*', '%' => '[^\.]*'); sub cmd_list ($$$$) { my ($self, $tag, $refname, $wildcard) = @_; my $l = $self->{imapd}->{mailboxlist}; if ($refname eq '' && $wildcard eq '') { # request for hierarchy delimiter $l = [ qq[* LIST (\\Noselect) "." ""\r\n] ]; } elsif ($refname ne '' || $wildcard ne '*') { $wildcard =~ s!([^a-z0-9_])!$patmap{$1} // "\Q$1"!egi; $l = [ grep(/ \Q$refname\E$wildcard\r\n\z/is, @$l) ]; } \(join('', @$l, "$tag OK List done\r\n")); } sub cmd_lsub ($$$$) { my (undef, $tag) = @_; # same args as cmd_list "$tag OK Lsub done\r\n"; } sub eml_index_offs_i { # PublicInbox::Eml::each_part callback my ($p, $all) = @_; my ($eml, undef, $idx) = @$p; if ($idx && lc($eml->ct->{type}) eq 'multipart') { $eml->{imap_bdy} = $eml->{bdy} // \''; } $all->{$idx} = $eml; # $idx => Eml } # prepares an index for BODY[$SECTION_IDX] fetches sub eml_body_idx ($$) { my ($eml, $section_idx) = @_; my $idx = $eml->{imap_all_parts} // do { my $all = {}; $eml->each_part(\&eml_index_offs_i, $all, 0, 1); # top-level of multipart, BODY[0] not allowed (nz-number) delete $all->{0}; $eml->{imap_all_parts} = $all; }; $idx->{$section_idx}; } # BODY[($SECTION_IDX)?(.$SECTION_NAME)?]<$offset.$bytes> sub partial_body { my ($eml, $section_idx, $section_name) = @_; if (defined $section_idx) { $eml = eml_body_idx($eml, $section_idx) or return; } if (defined $section_name) { if ($section_name eq 'MIME') { # RFC 3501 6.4.5 states: # The MIME part specifier MUST be prefixed # by one or more numeric part specifiers return unless defined $section_idx; return $eml->header_obj->as_string . "\r\n"; } my $bdy = $eml->{bdy} // $eml->{imap_bdy} // \''; $eml = PublicInbox::Eml->new($$bdy); if ($section_name eq 'TEXT') { return $eml->body_raw; } elsif ($section_name eq 'HEADER') { return $eml->header_obj->as_string . "\r\n"; } else { die "BUG: bad section_name=$section_name"; } } ${$eml->{bdy} // $eml->{imap_bdy} // \''}; } # similar to what's in PublicInbox::Eml::re_memo, but doesn't memoize # to avoid OOM with malicious users sub hdrs_regexp ($) { my ($hdrs) = @_; my $names = join('|', map { "\Q$_" } split(/[ \t]+/, $hdrs)); qr/^(?:$names):[ \t]*[^\n]*\r?\n # 1st line # continuation lines: (?:[^:\n]*?[ \t]+[^\n]*\r?\n)* /ismx; } # BODY[($SECTION_IDX.)?HEADER.FIELDS.NOT ($HDRS)]<$offset.$bytes> sub partial_hdr_not { my ($eml, $section_idx, $hdrs_re) = @_; if (defined $section_idx) { $eml = eml_body_idx($eml, $section_idx) or return; } my $str = $eml->header_obj->as_string; $str =~ s/$hdrs_re//g; $str =~ s/(? sub partial_hdr_get { my ($eml, $section_idx, $hdrs_re) = @_; if (defined $section_idx) { $eml = eml_body_idx($eml, $section_idx) or return; } my $str = $eml->header_obj->as_string; $str = join('', ($str =~ m/($hdrs_re)/g)); $str =~ s/(?= 0) { my $next = shift @$want or return; $att .= ' ' . uc($next); } if ($att =~ /\ABODY\[([0-9]+(?:\.[0-9]+)*)? # 1 - section_idx (?:\.(HEADER|MIME|TEXT))? # 2 - section_name \](?:<([0-9]+)(?:\.([0-9]+))?>)?\z/sx) { # 3, 4 $partial->{$att} = [ \&partial_body, $1, $2, $3, $4 ]; $$need |= CRLF_BREF|EML_HDR|EML_BDY; } elsif ($att =~ /\ABODY\[(?:([0-9]+(?:\.[0-9]+)*)\.)? # 1 - section_idx (?:HEADER\.FIELDS(\.NOT)?)\x20 # 2 \(([A-Z0-9\-\x20]+)\) # 3 - hdrs \](?:<([0-9]+)(?:\.([0-9]+))?>)?\z/sx) { # 4 5 my $tmp = $partial->{$att} = [ $2 ? \&partial_hdr_not : \&partial_hdr_get, $1, undef, $4, $5 ]; $tmp->[2] = hdrs_regexp($3); # don't emit CRLF_HDR instruction, here, partial_hdr_* # will do CRLF conversion with only the extracted result # and not waste time converting lines we don't care about. $$need |= EML_HDR; } else { undef; } } sub partial_emit ($$$) { my ($self, $partial, $eml) = @_; for (@$partial) { my ($k, $cb, @args) = @$_; my ($offset, $len) = splice(@args, -2); # $cb is partial_body|partial_hdr_get|partial_hdr_not my $str = $cb->($eml, @args) // ''; if (defined $offset) { if (defined $len) { $str = substr($str, $offset, $len); $k =~ s/\.$len>\z/>/ or warn "BUG: unable to remove `.$len>' from `$k'"; } else { $str = substr($str, $offset); $len = length($str); } } else { $len = length($str); } $self->msg_more(" $k {$len}\r\n"); $self->msg_more($str); } } sub fetch_compile ($) { my ($want) = @_; if ($want->[0] =~ s/\A\(//s) { $want->[-1] =~ s/\)\z//s or return 'BAD no rparen'; } my (%partial, %seen, @op); my $need = 0; while (defined(my $att = shift @$want)) { $att = uc($att); next if $att eq 'UID'; # always returned $att =~ s/\ABODY\.PEEK\[/BODY\[/; # we're read-only my $x = $FETCH_ATT{$att}; if ($x) { while (my ($k, $fl_cb) = each %$x) { next if $seen{$k}++; $need |= $fl_cb->[0]; push @op, [ @$fl_cb, $k ]; } } elsif (!partial_prepare(\$need, \%partial, $want, $att)) { return "BAD param: $att"; } } my @r; # stabilize partial order for consistency and ease-of-debugging: if (scalar keys %partial) { $need |= NEED_BLOB; @{$r[2]} = map { [ $_, @{$partial{$_}} ] } sort keys %partial; } push @op, $OP_EML_NEW if ($need & (EML_HDR|EML_BDY)); # do we need CRLF conversion? if ($need & CRLF_BREF) { push @op, $OP_CRLF_BREF; } elsif (my $crlf = ($need & (CRLF_HDR|CRLF_BDY))) { if ($crlf == (CRLF_HDR|CRLF_BDY)) { push @op, $OP_CRLF_BREF; } elsif ($need & CRLF_HDR) { push @op, $OP_CRLF_HDR; } else { push @op, $OP_CRLF_BDY; } } $r[0] = $need & NEED_BLOB ? \&fetch_blob : ($need & NEED_SMSG ? \&fetch_smsg : \&fetch_uid); # r[1] = [ $key1, $cb1, $key2, $cb2, ... ] use sort 'stable'; # makes output more consistent @{$r[1]} = map { ($_->[2], $_->[1]) } sort { $a->[0] <=> $b->[0] } @op; @r; } sub cmd_uid_fetch ($$$$;@) { my ($self, $tag, $range_csv, @want) = @_; my $ibx = $self->{ibx} or return "$tag BAD No mailbox selected\r\n"; my ($cb, $ops, $partial) = fetch_compile(\@want); return "$tag $cb\r\n" unless $ops; # cb is one of fetch_blob, fetch_smsg, fetch_uid $range_csv = 'bad' if $range_csv !~ $valid_range; my $range_info = range_step($self, \$range_csv); return "$tag $range_info\r\n" if !ref($range_info); uo2m_hibernate($self) if $cb == \&fetch_blob; # slow, save RAM $self->long_response($cb, $tag, [], $range_info, $ops, $partial); } sub cmd_fetch ($$$$;@) { my ($self, $tag, $range_csv, @want) = @_; my $ibx = $self->{ibx} or return "$tag BAD No mailbox selected\r\n"; my ($cb, $ops, $partial) = fetch_compile(\@want); return "$tag $cb\r\n" unless $ops; # cb is one of fetch_blob, fetch_smsg, fetch_uid $range_csv = 'bad' if $range_csv !~ $valid_range; msn_to_uid_range(msn2uid($self), $range_csv); my $range_info = range_step($self, \$range_csv); return "$tag $range_info\r\n" if !ref($range_info); uo2m_hibernate($self) if $cb == \&fetch_blob; # slow, save RAM $self->long_response($cb, $tag, [], $range_info, $ops, $partial); } sub msn_convert ($$) { my ($self, $uids) = @_; my $adj = $self->{uid_base} + 1; my $uo2m = uo2m_extend($self, $uids->[-1]); $uo2m = [ unpack('S*', $uo2m) ] if !ref($uo2m); $_ = $uo2m->[$_ - $adj] for @$uids; } sub search_uid_range { # long_response my ($self, $tag, $sql, $range_info, $want_msn) = @_; my $uids = []; if (defined(my $err = refill_uids($self, $uids, $range_info, $sql))) { $err ||= 'OK Search done'; $self->write("\r\n$tag $err\r\n"); return; } msn_convert($self, $uids) if $want_msn; $self->msg_more(join(' ', '', @$uids)); 1; # more } sub parse_imap_query ($$) { my ($self, $query) = @_; my $q = PublicInbox::IMAPsearchqp::parse($self, $query); if (ref($q)) { my $max = $self->{ibx}->over(1)->max; my $beg = 1; uid_clamp($self, \$beg, \$max); $q->{range_info} = [ $beg, $max ]; } $q; } sub search_common { my ($self, $tag, $query, $want_msn) = @_; my $ibx = $self->{ibx} or return "$tag BAD No mailbox selected\r\n"; my $q = parse_imap_query($self, $query); return "$tag $q\r\n" if !ref($q); my ($sql, $range_info) = delete @$q{qw(sql range_info)}; if (!scalar(keys %$q)) { # overview.sqlite3 $self->msg_more('* SEARCH'); $self->long_response(\&search_uid_range, $tag, $sql, $range_info, $want_msn); } elsif ($q = $q->{xap}) { my $srch = $self->{ibx}->isrch or return "$tag BAD search not available for mailbox\r\n"; my $opt = { relevance => -1, limit => UID_SLICE, uid_range => $range_info }; my $mset = $srch->mset($q, $opt); my $uids = $srch->mset_to_artnums($mset, $opt); msn_convert($self, $uids) if scalar(@$uids) && $want_msn; "* SEARCH @$uids\r\n$tag OK Search done\r\n"; } else { "$tag BAD Error\r\n"; } } sub cmd_uid_search ($$$) { my ($self, $tag, $query) = @_; search_common($self, $tag, $query); } sub cmd_search ($$$;) { my ($self, $tag, $query) = @_; search_common($self, $tag, $query, 1); } # returns 1 if we can continue, 0 if not due to buffered writes or disconnect sub process_line ($$) { my ($self, $l) = @_; # TODO: IMAP allows literals for big requests to upload messages # (which we don't support) but maybe some big search queries use it. # RFC 3501 9 (2) doesn't permit TAB or multiple SP my ($tag, $req, @args) = parse_line('[ \t]+', 0, $l); pop(@args) if (@args && !defined($args[-1])); if (@args && uc($req) eq 'UID') { $req .= "_".(shift @args); } my $res = eval { if (defined(my $idle_tag = $self->{-idle_tag})) { (uc($tag // '') eq 'DONE' && !defined($req)) ? idle_done($self, $tag) : "$idle_tag BAD expected DONE\r\n"; } elsif (my $cmd = $self->can('cmd_'.lc($req // ''))) { if ($cmd == \&cmd_uid_search || $cmd == \&cmd_search) { # preserve user-supplied quotes for search (undef, @args) = split(/ search /i, $l, 2); } $cmd->($self, $tag, @args); } else { # this is weird auth_challenge_ok($self) // ($tag // '*') . ' BAD Error in IMAP command '. ($req // '(???)'). ": Unknown command\r\n"; } }; my $err = $@; if ($err && $self->{sock}) { $l =~ s/\r?\n//s; warn("error from: $l ($err)\n"); $tag //= '*'; $res = \"$tag BAD program fault - command not performed\r\n"; } defined($res) ? $self->write($res) : 0; } sub out ($$;@) { my ($self, $fmt, @args) = @_; printf { $self->{imapd}->{out} } $fmt."\n", @args; } # callback used by PublicInbox::DS for any (e)poll (in/out/hup/err) sub event_step { my ($self) = @_; local $SIG{__WARN__} = $self->{imapd}->{warn_cb}; return unless $self->flush_write && $self->{sock} && !$self->{long_cb}; # only read more requests if we've drained the write buffer, # otherwise we can be buffering infinitely w/o backpressure my $rbuf = $self->{rbuf} // \(my $x = ''); my $line = index($$rbuf, "\n"); while ($line < 0) { if (length($$rbuf) >= LINE_MAX) { $self->write(\"\* BAD request too long\r\n"); return $self->close; } $self->do_read($rbuf, LINE_MAX, length($$rbuf)) or return uo2m_hibernate($self); $line = index($$rbuf, "\n"); } $line = substr($$rbuf, 0, $line + 1, ''); $line =~ s/\r?\n\z//s; return $self->close if $line =~ /[[:cntrl:]]/s; my $t0 = now(); my $fd = fileno($self->{sock}); my $r = eval { process_line($self, $line) }; my $pending = $self->{wbuf} ? ' pending' : ''; out($self, "[$fd] %s - %0.6f$pending - $r", $line, now() - $t0); return $self->close if $r < 0; $self->rbuf_idle($rbuf); # maybe there's more pipelined data, or we'll have # to register it for socket-readiness notifications $self->requeue unless $pending; } # RFC 4978 sub cmd_compress ($$$) { my ($self, $tag, $alg) = @_; return "$tag BAD DEFLATE only\r\n" if uc($alg) ne "DEFLATE"; return "$tag BAD COMPRESS active\r\n" if $self->compressed; # CRIME made TLS compression obsolete # return "$tag NO [COMPRESSIONACTIVE]\r\n" if $self->tls_compressed; PublicInbox::IMAPdeflate->enable($self) or return \"$tag BAD failed to activate compression\r\n"; PublicInbox::DS::write($self, \"$tag OK DEFLATE active\r\n"); $self->requeue; undef } sub cmd_starttls ($$) { my ($self, $tag) = @_; (($self->{sock} // return)->can('stop_SSL') || $self->compressed) and return "$tag BAD TLS or compression already enabled\r\n"; $self->{imapd}->{ssl_ctx_opt} or return "$tag BAD can not initiate TLS negotiation\r\n"; $self->write(\"$tag OK begin TLS negotiation now\r\n"); PublicInbox::TLS::start($self->{sock}, $self->{imapd}); $self->requeue if PublicInbox::DS::accept_tls_step($self); undef; } sub busy { # for graceful shutdown in PublicInbox::Daemon: my ($self) = @_; if (defined($self->{-idle_tag})) { $self->write(\"* BYE server shutting down\r\n"); return; # not busy anymore } defined($self->{rbuf}) || defined($self->{wbuf}) || !$self->write(\"* BYE server shutting down\r\n"); } sub close { my ($self) = @_; if (my $ibx = delete $self->{ibx}) { stop_idle($self, $ibx); } $self->SUPER::close; # PublicInbox::DS::close } # we're read-only, so SELECT and EXAMINE do the same thing no warnings 'once'; *cmd_select = \&cmd_examine; package PublicInbox::IMAP_preauth; our @ISA = qw(PublicInbox::IMAP); sub logged_in { 0 } package PublicInbox::IMAPdeflate; use PublicInbox::DSdeflate; our @ISA = qw(PublicInbox::DSdeflate PublicInbox::IMAP); 1;