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# SPDX-License-Identifier: GPL-2.0-or-later package Amavis::Expand; use strict; use re 'taint'; BEGIN { require Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $VERSION); $VERSION = '2.412'; @ISA = qw(Exporter); @EXPORT_OK = qw(&expand &tokenize); } use subs @EXPORT_OK; use Amavis::Util qw(ll do_log); # Given a string reference and a hashref of predefined (builtin) macros, # expand() performs a macro expansion and returns a ref to a resulting string. # # This is a simple, yet fully fledged macro processor with proper lexical # analysis, call stack, quoting levels, user supplied and builtin macros, # three builtin flow-control macros: selector, regexp selector and iterator, # a macro-defining macro and a macro '#' that eats input to the next newline. # Also recognized are the usual \c and \nnn forms for specifying special # characters, where c can be any of: r, n, f, b, e, a, t. # Details are described in file README.customize, practical examples of use # are in the supplied notification messages; # Author: Mark Martinec <Mark.Martinec@ijs.si>, 2002, 2006 use vars qw(%builtins_cached %lexmap %esc); use vars qw($lx_lb $lx_lbS $lx_lbT $lx_lbA $lx_lbC $lx_lbE $lx_lbQQ $lx_rbQQ $lx_rb $lx_sep $lx_h $lx_ph); BEGIN { no warnings 'qw'; # avoid "Possible attempt to put comments in qw()" my(@lx_str) = qw( [ [? [~ [@ [: [= [" "] ] | # %# %0 %1 %2 %3 %4 %5 %6 %7 %8 %9); # lexical elem. # %lexmap maps string to reference in order to protect lexels $lexmap{$_} = \$_ for @lx_str; # maps lexel strings to references ($lx_lb, $lx_lbS, $lx_lbT, $lx_lbA, $lx_lbC, $lx_lbE, $lx_lbQQ, $lx_rbQQ, $lx_rb, $lx_sep, $lx_h, $lx_ph) = map($lexmap{$_}, @lx_str); %esc = (n => \"\n", r => "\r", f => "\f", b => "\b", e => "\e", a => "\a", t => "\t"); # NOTE that \n is specific, it is represented by a ref to a newline and not # by a newline itself; this makes it possible for a macro '#' to skip input # to a true newline from source, making it possible to comment-out entire # lines even if they contain "\n" tokens 1; } # make an object out of the supplied list of tokens sub newmacro { my $class = shift; bless [@_], $class } # turn a ref to a list of tokens into a single plain string sub tokens_list_to_str($) { join('', map(ref($_) ? $$_ : $_, @{$_[0]})) } sub tokenize($;$) { my($str_ref,$tokens_ref) = @_; local($1); $tokens_ref = [] if !defined $tokens_ref; # parse lexically, replacing lexical element strings with references, # unquoting backslash-quoted characters and %%, and dropping \NL and \_ @$tokens_ref = map { exists $lexmap{$_} ? $lexmap{$_} # replace with ref : $_ eq "\\\n" || $_ eq "\\_" ? '' # drop \NEWLINE and \_ : $_ eq '%%' ? '%' # %% -> % : /^(%\#?.)\z/s ? \"$1" # unknown builtins : /^\\([0-7]{1,3})\z/ ? chr(oct($1)) # \nnn : /^\\(.)\z/s ? (exists($esc{$1}) ? $esc{$1} : $1) # \r, \n, \f, ... : /^(_ [A-Z]+ (?: \( [^)]* \) )? _)\z/xs ? \"$1" # SpamAssassin-compatible : $_ } $$str_ref =~ /\G \# | \[ [?~\@:="]? | "\] | \] | \| | % \#? . | \\ [^0-7] | \\ [0-7]{1,3} | _ [A-Z]+ (?: \( [^)]* \) )? _ | [^\[\]\\|%\n#"_]+ | [^\n]+? | \n /xgs; $tokens_ref; } sub evalmacro($$;@) { my($macro_type,$builtins_href,@args) = @_; my @result; local($1,$2); if ($macro_type == $lx_lbS) { # selector built-in macro my $sel = tokens_list_to_str(shift(@args)); if ($sel eq '') { $sel = 0 } # quick elsif ($sel =~ /^\s*\z/) { $sel = 0 } elsif ($sel =~ /^\s*(\d+)\s*\z/) { $sel = 0+$1 } # decimal to numeric else { $sel = 1 } # provide an empty second alternative if we only have one specified if (@args < 2) {} # keep $sel beyond $#args elsif ($sel > $#args) { $sel = $#args } # use last alternative @result = @{$args[$sel]} if $sel >= 0 && $sel <= $#args; } elsif ($macro_type == $lx_lbT) { # regexp built-in macro # args: string, regexp1, then1, regexp2, then2, ... regexpN, thenN[, else] my $str = tokens_list_to_str(shift(@args)); # collect the first argument my($match,@repl); while (@args >= 2) { # at least a regexp and a 'then' argument still there @repl = (); my $regexp = tokens_list_to_str(shift(@args)); # collect a regexp arg if ($regexp eq '') { # braindamaged Perl: empty string implies the last successfully # matched regular expression; we must avoid this $match = 1; } else { eval { # guard against invalid regular expression local($1,$2,$3,$4,$5,$6,$7,$8,$9); $match = $str=~/$regexp/ ? 1 : 0; @repl = ($1,$2,$3,$4,$5,$6,$7,$8,$9) if $match; 1; } or do { my $eval_stat = $@ ne '' ? $@ : "errno=$!"; chomp $eval_stat; die $eval_stat if $eval_stat =~ /^timed out\b/; # resignal timeout do_log(2,"invalid macro regexp arg: %s", $eval_stat); $match = 0; @repl = (); }; } if ($match) { last } else { shift(@args) } # skip 'then' arg if no match } if (@args > 0) { unshift(@repl,$str); # prepend the whole string as a %0 # formal arg lexels %0, %1, ... %9 are replaced by captured substrings @result = map(!ref || $$_!~/^%([0-9])\z/ ? $_ : $repl[$1], @{$args[0]}); } } elsif ($macro_type == $lx_lb) { # iterator macro my($cvar_r,$sep_r,$body_r); my $cvar; # give meaning to arguments if (@args >= 3) { ($cvar_r,$body_r,$sep_r) = @args } else { ($body_r,$sep_r) = @args; $cvar_r = $body_r } # find the iterator name for (@$cvar_r) { if (ref && $$_ =~ /^%(.)\z/s) { $cvar = $1; last } } my $name = $cvar; # macro name is usually the same as the iterator name if (@args >= 3 && !defined($name)) { # instead of iterator like %x, the first arg may be a long macro name, # in which case the iterator name becomes a hard-wired 'x' $name = tokens_list_to_str($cvar_r); $name =~ s/^[ \t\n]+//; $name =~ s/[ \t\n]+\z//; # trim whitespace if ($name eq '') { $name = undef } else { $cvar = 'x' } } if (exists($builtins_href->{$name})) { my $s = $builtins_href->{$name}; if (UNIVERSAL::isa($s,'Amavis::Expand')) { # dynamically defined macro my(@margs) = ($name); # no arguments beyond %0 my(@res) = map(!ref || $$_ !~ /^%([0-9])\z/ ? $_ : ref($margs[$1]) ? @{$margs[$1]} : (), @$s); $s = tokens_list_to_str(\@res); } elsif (ref($s) eq 'CODE') { if (exists($builtins_cached{$name})) { $s = $builtins_cached{$name}; } else { while (ref($s) eq 'CODE') { $s = &$s($name) } $builtins_cached{$name} = $s; } } my $ind = 0; for my $val (ref($s) ? @$s : $s) { # do substitutions in the body push(@result, @$sep_r) if ++$ind > 1 && ref($sep_r); push(@result, map(ref && $$_ eq "%$cvar" ? $val : $_, @$body_r)); } } } elsif ($macro_type == $lx_lbE) { # define a new macro my $name = tokens_list_to_str(shift(@args)); # first arg is a macro name $name =~ s/^[ \t\n]+//; $name =~ s/[ \t\n]+\z//; # trim whitespace on name delete $builtins_cached{$name}; $builtins_href->{$name} = Amavis::Expand->newmacro(@{$args[0]}); } elsif ($macro_type == $lx_lbA || $macro_type == $lx_lbC || # macro call $$macro_type =~ /^%(\#)?(.)\z/s) { my $name; my $cardinality_only = 0; if ($macro_type == $lx_lbA || $macro_type == $lx_lbC) { $name = tokens_list_to_str($args[0]); # arg %0 is a macro name $name =~ s/^[ \t\n]+//; $name =~ s/[ \t\n]+\z//; # trim whitespace } else { # simple macro call %x or %#x $name = $2; $cardinality_only = 1 if defined $1; } my $s = $builtins_href->{$name}; if (!ref($s)) { # macro expands to a plain string if (!$cardinality_only) { @result = $s } else { @result = $s !~ /^\s*\z/ ? 1 : 0 }; # %#x => nonwhite=1, other 0 } elsif (UNIVERSAL::isa($s,'Amavis::Expand')) { # dynamically defined macro $args[0] = $name; # replace name with a stringified and trimmed form # expanding a dynamically-defined macro produces a list of tokens; # formal argument lexels %0, %1, ... %9 are replaced by actual arguments @result = map(!ref || $$_ !~ /^%([0-9])\z/ ? $_ : ref($args[$1]) ? @{$args[$1]} : (), @$s); if ($cardinality_only) { # macro call form %#x @result = tokens_list_to_str(\@result) !~ /^\s*\z/ ? 1 : 0; } } else { # subroutine or array ref if (ref($s) eq 'CODE') { if (exists($builtins_cached{$name}) && @args <= 1) { $s = $builtins_cached{$name}; } elsif (@args <= 1) { while (ref($s) eq 'CODE') { $s = &$s($name) } # callback $builtins_cached{$name} = $s; } else { shift(@args); # discard original form of a macro name while (ref($s) eq 'CODE') # subroutine callback { $s = &$s($name, map(tokens_list_to_str($_), @args)) } } } if ($cardinality_only) { # macro call form %#x # for array: number of elements; for scalar: nonwhite=1, other 0 @result = ref($s) ? scalar(@$s) : $s !~ /^\s*\z/ ? 1 : 0; } else { # macro call %x evaluates to the value of macro x @result = ref($s) ? join(', ',@$s) : $s; } } } \@result; } sub expand($$) { my($str_ref,$builtins_href) = @_; # $str_ref ... a ref to a source string to be macro expanded; # $builtins_href ... a hashref, mapping builtin macro names # to macro values: strings or array refs my(@tokens); if (ref($str_ref) eq 'ARRAY') { @tokens = @$str_ref } else { tokenize($str_ref,\@tokens) } my $call_level = 0; my $quote_level = 0; my(@arg); # stack of arguments lists to nested calls, [0] is top of stack my(@macro_type); # call stack of macro types (leading lexels) of nested calls my(@implied_q); # call stack: is implied quoting currently active? # 0 (not active) or 1 (active); element [0] stack top my(@open_quote); # quoting stack: opening quote lexel for each quoting level %builtins_cached = (); my $whereto; local($1,$2); # preallocate some storage my $output_str = ''; vec($output_str,2048,8) = 0; $output_str = ''; while (@tokens) { my $t = shift(@tokens); # do_log(5, "TOKEN: %s", ref($t) ? "<$$t>" : "'$t'"); if (!ref($t)) { # a plain string, no need to check for quoting levels if (defined $whereto) { push(@$whereto,$t) } else { $output_str .= $t } } elsif ($quote_level > 0 && substr($$t,0,1) eq '[') { # go even deeper into quoting $quote_level += ($t == $lx_lbQQ) ? 2 : 1; unshift(@open_quote,$t); if (defined $whereto) { push(@$whereto,$t) } else { $output_str .= $$t } } elsif ($t == $lx_lbQQ) { # just entering a [" ... "] quoting context $quote_level += 2; unshift(@open_quote,$t); # drop a [" , thus stripping one level of quotes } elsif (substr($$t,0,1) eq '[') { # $lx_lb $lx_lbS lx_lbT $lx_lbA $lx_lbC $lx_lbE $call_level++; # open a macro call, start collecting arguments unshift(@arg, [[]]); unshift(@macro_type, $t); unshift(@implied_q, 0); $whereto = $arg[0][0]; if ($t == $lx_lb) { # iterator macro implicitly quotes all arguments $quote_level++; unshift(@open_quote,$t); $implied_q[0] = 1; } } elsif ($quote_level <= 1 && $call_level>0 && $t == $lx_sep) { # next arg unshift(@{$arg[0]}, []); $whereto = $arg[0][0]; if ($macro_type[0]==$lx_lbS && @{$arg[0]} == 2) { # selector macro implicitly quotes arguments beyond first argument $quote_level++; unshift(@open_quote,$macro_type[0]); $implied_q[0] = 1; } } elsif ($quote_level > 1 && ($t == $lx_rb || $t == $lx_rbQQ)) { $quote_level -= ($open_quote[0] == $lx_lbQQ) ? 2 : 1; shift(@open_quote); # pop the quoting stack if ($t == $lx_rb || $quote_level > 0) { # pass-on if still quoted if (defined $whereto) { push(@$whereto,$t) } else { $output_str .= $$t} } } elsif ($call_level > 0 && ($t == $lx_rb || $t == $lx_rbQQ)) { # evaluate $call_level--; my $m_type = $macro_type[0]; if ($t == $lx_rbQQ) { # fudge for compatibility: treat "] as two chars if (defined $whereto) { push(@$whereto,'"') } else { $output_str.='"' } } if ($implied_q[0] && $quote_level > 0) { $quote_level -= ($open_quote[0] == $lx_lbQQ) ? 2 : 1; shift(@open_quote); # pop the quoting stack } my $result_ref = evalmacro($m_type, $builtins_href, reverse @{$arg[0]}); shift(@macro_type); shift(@arg); shift(@implied_q); # pop the call stack $whereto = $call_level > 0 ? $arg[0][0] : undef; if ($m_type == $lx_lbC) { # neutral macro call, result implicitly quoted if (defined $whereto) { push(@$whereto, @$result_ref) } else { $output_str .= tokens_list_to_str($result_ref) } } else { # active macro call, push result back to input for reprocessing unshift(@tokens, @$result_ref); } } elsif ($quote_level > 0 ) { # still protect %x and # macro calls if (defined $whereto) { push(@$whereto,$t) } else { $output_str .= $$t } } elsif ($t == $lx_h) { # discard tokens up to and including a newline while (@tokens) { last if shift(@tokens) eq "\n" } } elsif ($$t =~ /^%\#?.\z/s) { # neutral simple macro call %x or %#x my $result_ref = evalmacro($t, $builtins_href); if (defined $whereto) { push(@$whereto,@$result_ref) } # else { $output_str .= tokens_list_to_str($result_ref) } else { $output_str .= join('', map(ref($_) ? $$_ : $_, @$result_ref)) } } elsif ($$t =~ /^_ ([A-Z]+) (?: \( ( [^)]* ) \) )? _\z/xs) { # neutral simple SA-like macro call, $1 is name, $2 is a single! argument my $result_ref = evalmacro($lx_lbC, $builtins_href, [$1], !defined($2) ? () : [$2] ); if (defined $whereto) { push(@$whereto, @$result_ref) } else { $output_str .= tokens_list_to_str($result_ref) } } else { # misplaced top-level lexical element if (defined $whereto) { push(@$whereto,$t) } else { $output_str .= $$t } } } %builtins_cached = (); # clear memory \$output_str; } 1;