perl: Uncaught exception: malformed UTF-8 character in JSON string

Related to this question and this answer (to another question) I am still unable to process UTF-8 with JSON.

I have tried to make sure all the required voodoo is invoked based on recommendations from the very best experts, and as far as I can see the string is as valid, marked and labelled as UTF-8 as possible. But still perl dies with either

Uncaught exception: malformed UTF-8 character in JSON string

or

Uncaught exception: Wide character in subroutine entry

What am I doing wrong here?

(hlovdal) localhost:/work/2011/perl_unicode>cat json_malformed_utf8.pl 
#!/usr/bin/perl -w -CSAD

### BEGIN ###
# Apparently the very best perl unicode boiler template code that exist,
# https://stackoverflow.com/questions/6162484/why-does-modern-perl-avoid-utf-8-by-default/6163129#6163129
# Slightly modified.

use v5.12; # minimal for unicode string feature
#use v5.14; # optimal for unicode string feature

use utf8;                                                 # Declare that this source unit is encoded as UTF‑8. Although
                                                          # once upon a time this pragma did other things, it now serves
                                                          # this one singular purpose alone and no other.
use strict;
use autodie;

use warnings;                                             # Enable warnings, since the previous declaration only enables
use warnings    qw< FATAL  utf8     >;                    # strictures and features, not warnings. I also suggest
                                                          # promoting Unicode warnings into exceptions, so use both
                                                          # these lines, not just one of them. 

use open        qw( :encoding(UTF-8) :std );              # Declare that anything that opens a filehandles within this
                                                          # lexical scope but not elsewhere is to assume that that
                                                          # stream is encoded in UTF‑8 unless you tell it otherwise.
                                                          # That way you do not affect other module’s or other program’s code.

use charnames   qw< :full >;                              # Enable named characters via \N{CHARNAME}.
use feature     qw< unicode_strings >;

use Carp                qw< carp croak confess cluck >;
use Encode              qw< encode decode >;
use Unicode::Normalize  qw< NFD NFC >;

END { close STDOUT }

if (grep /\P{ASCII}/ => @ARGV) { 
   @ARGV = map { decode("UTF-8", $_) } @ARGV;
}

$| = 1;

binmode(DATA, ":encoding(UTF-8)");                        # If you have a DATA handle, you must explicitly set its encoding.

# give a full stack dump on any untrapped exceptions
local $SIG{__DIE__} = sub {
    confess "Uncaught exception: @_" unless $^S;
};

# now promote run-time warnings into stackdumped exceptions
#   *unless* we're in an try block, in which 
#   case just generate a clucking stackdump instead
local $SIG{__WARN__} = sub {
    if ($^S) { cluck   "Trapped warning: @_" } 
    else     { confess "Deadly warning: @_"  }
};

### END ###


use JSON;
use Encode;

use Getopt::Long;
use Encode;

my $use_nfd = 0;
my $use_water = 0;
GetOptions("nfd" => \$use_nfd, "water" => \$use_water );

print "JSON->backend->is_pp = ", JSON->backend->is_pp, ", JSON->backend->is_xs = ", JSON->backend->is_xs, "\n";

sub check {
 开发者_如何学运维       my $text = shift;
        return "is_utf8(): " . (Encode::is_utf8($text) ? "1" : "0") . ", is_utf8(1): " . (Encode::is_utf8($text, 1) ? "1" : "0"). ". ";
}

my $json_text = "{ \"my_test\" : \"hei på deg\" }\n";
if ($use_water) {
        $json_text = "{ \"water\" : \"水\" }\n";
}
if ($use_nfd) {
        $json_text = NFD($json_text);
}

print check($json_text), "\$json_text = $json_text";

# test from perluniintro(1)
if (eval { decode_utf8($json_text, Encode::FB_CROAK); 1 }) {
        print "string is valid utf8\n";
} else {
        print "string is not valid utf8\n";
}

my $hash_ref1 = JSON->new->utf8->decode($json_text);
my $hash_ref2 = decode_json( $json_text );

__END__

Running this gives

(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl 
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "my_test" : "hei på deg" }
string is valid utf8
Uncaught exception: malformed UTF-8 character in JSON string, at character offset 20 (before "\x{5824}eg" }\n") at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('malformed UTF-8 character in JSON string, at character offset...') called at ./json_malformed_utf8.pl line 96
(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl | ./uniquote 
Uncaught exception: malformed UTF-8 character in JSON string, at character offset 20 (before "\x{5824}eg" }\n") at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('malformed UTF-8 character in JSON string, at character offset...') called at ./json_malformed_utf8.pl line 96
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "my_test" : "hei p\N{U+E5} deg" }
string is valid utf8
(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl -nfd | ./uniquote 
Uncaught exception: Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.\x{a}') called at ./json_malformed_utf8.pl line 96
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "my_test" : "hei pa\N{U+30A} deg" }
string is valid utf8
(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl -water 
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "water" : "水" }
string is valid utf8
Uncaught exception: Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.\x{a}') called at ./json_malformed_utf8.pl line 96
(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl -water | ./uniquote 
Uncaught exception: Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.\x{a}') called at ./json_malformed_utf8.pl line 96
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "water" : "\N{U+6C34}" }
string is valid utf8
(hlovdal) localhost:/work/2011/perl_unicode>./json_malformed_utf8.pl -water --nfd | ./uniquote 
Uncaught exception: Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.
 at ./json_malformed_utf8.pl line 46
        main::__ANON__('Wide character in subroutine entry at ./json_malformed_utf8.pl line 96.\x{a}') called at ./json_malformed_utf8.pl line 96
JSON->backend->is_pp = 0, JSON->backend->is_xs = 1
is_utf8(): 1, is_utf8(1): 1. $json_text = { "water" : "\N{U+6C34}" }
string is valid utf8
(hlovdal) localhost:/work/2011/perl_unicode>rpm -q perl perl-JSON perl-JSON-XS
perl-5.12.4-159.fc15.x86_64
perl-JSON-2.51-1.fc15.noarch
perl-JSON-XS-2.30-2.fc15.x86_64
(hlovdal) localhost:/work/2011/perl_unicode>

uniquote is from http://training.perl.com/scripts/uniquote

Update:

Thanks to brian for highlighting the solution. Updating the source to use json_text for all normal strings and json_bytes for what is going to be passed to JSON like the following now works like expected:

my $json_bytes = encode('UTF-8', $json_text);
my $hash_ref1 = JSON->new->utf8->decode($json_bytes);

I must say that I think the documentation for the JSON module is extremely unclear and partially misleading.

The phrase "text" (at least to me) implies a string of characters. So when reading $perl_scalar = decode_json $json_text I have an expectation of json_text being a UTF-8 encoded string of characters. Thoroughly re-reading the documentation, knowing what to look for, I now see it says: "decode_json ... expects an UTF-8 (binary) string and tries to parse that as an UTF-8 encoded JSON text", however that still is not clear in my opinion.

From my background using a language having some additional non-ASCII characters, I remember back in the days where you had to guess the code page being used, email used to just cripple text by stripping of the 8th bit, etc. And "binary" in the context of strings meant a string containing characters outside the 7-bit ASCII domain. But what is "binary" really? Isn't all strings binary at the core level?

The documentation also says "simple and fast interfaces (expect/generate UTF-8)" and "correct unicode handling", first point under "Features", both without mentioning anywhere near that it does not want a string but instead a byte sequence. I will request the author to at least make this clearer.

I expand on my answer in Know the difference between character strings and UTF-8 strings.

From reading the JSON docs, I think those functions don't want a character string, but that's what you're trying to give it. Instead, they want a "UTF-8 binary string". That seems odd to me, but I'm guessing that it's mostly to take input directly from an HTTP message instead of something that you type directly in your program. This works because I make a byte string that's the UTF-8 encoded version of your string:

use v5.14;

use utf8;                                                 
use warnings;                                             
use feature     qw< unicode_strings >;

use Data::Dumper;
use Devel::Peek;
use JSON;

my $filename = 'hei.txt';
my $char_string = qq( { "my_test" : "hei på deg" } );
open my $fh, '>:encoding(UTF-8)', $filename;
print $fh $char_string;
close $fh;


{
say '=' x 70;
my $byte_string = qq( { "my_test" : "hei p\303\245 deg" } );
print "Byte string peek:------\n"; Dump( $byte_string );
decode( $byte_string );
}


{
say '=' x 70;
my $raw_string = do { 
    open my $fh, '<:raw', $filename;
    local $/; <$fh>;
    };
print "raw string peek:------\n"; Dump( $raw_string );

decode( $raw_string );
}

{
say '=' x 70;
my $char_string = do { 
    open my $fh, '<:encoding(UTF-8)', $filename;
    local $/; <$fh>;
    };
print "char string peek:------\n"; Dump( $char_string );

decode( $char_string );
}

sub decode {
    my $string = shift;

    my $hash_ref2 = eval { decode_json( $string ) };
    say "Error in sub form: $@" if $@;
    print Dumper( $hash_ref2 );

    my $hash_ref1 = eval { JSON->new->utf8->decode( $string ) };
    say "Error in method form: $@" if $@;
    print Dumper( $hash_ref1 );
    }

The output shows that the character string doesn't work, but the byte string versions do:

======================================================================
Byte string peek:------
SV = PV(0x100801190) at 0x10089d690
  REFCNT = 1
  FLAGS = (PADMY,POK,pPOK)
  PV = 0x100209890 " { \"my_test\" : \"hei p\303\245 deg\" } "\0
  CUR = 31
  LEN = 32
$VAR1 = {
          'my_test' => "hei p\x{e5} deg"
        };
$VAR1 = {
          'my_test' => "hei p\x{e5} deg"
        };
======================================================================
raw string peek:------
SV = PV(0x100839240) at 0x10089d780
  REFCNT = 1
  FLAGS = (PADMY,POK,pPOK)
  PV = 0x100212260 " { \"my_test\" : \"hei p\303\245 deg\" } "\0
  CUR = 31
  LEN = 32
$VAR1 = {
          'my_test' => "hei p\x{e5} deg"
        };
$VAR1 = {
          'my_test' => "hei p\x{e5} deg"
        };
======================================================================
char string peek:------
SV = PV(0x10088f3b0) at 0x10089d840
  REFCNT = 1
  FLAGS = (PADMY,POK,pPOK,UTF8)
  PV = 0x1002017b0 " { \"my_test\" : \"hei p\303\245 deg\" } "\0 [UTF8 " { "my_test" : "hei p\x{e5} deg" } "]
  CUR = 31
  LEN = 32
Error in sub form: malformed UTF-8 character in JSON string, at character offset 21 (before "\x{5824}eg" } ") at utf-8.pl line 51.

$VAR1 = undef;
Error in method form: malformed UTF-8 character in JSON string, at character offset 21 (before "\x{5824}eg" } ") at utf-8.pl line 55.

$VAR1 = undef;

So, if you take your character string, which you typed directly into your program, and convert it to a UTF-8 encoded byte string, it works:

use v5.14;

use utf8;                                                 
use warnings;                                             
use feature     qw< unicode_strings >;

use Data::Dumper;
use Encode qw(encode_utf8);
use JSON;

my $char_string = qq( { "my_test" : "hei på deg" } );

my $string = encode_utf8( $char_string );

decode( $string );

sub decode {
    my $string = shift;

    my $hash_ref2 = eval { decode_json( $string ) };
    say "Error in sub form: $@" if $@;
    print Dumper( $hash_ref2 );

    my $hash_ref1 = eval { JSON->new->utf8->decode( $string ) };
    say "Error in method form: $@" if $@;
    print Dumper( $hash_ref1 );
    }

I think JSON should be smart enough to deal with this so you don't have to think at this level, but that's the way it is (so far).

The docs say

$perl_hash_or_arrayref  = decode_json $utf8_encoded_json_text;

yet you do everything in your power to decode the input before passing it to decode_json.

use strict;
use warnings;
use utf8;

use Data::Dumper qw( Dumper );
use Encode       qw( encode );
use JSON         qw( );

for my $json_text (
   qq{{ "my_test" : "hei på deg" }\n},
   qq{{ "water" : "水" }\n},
) {
   my $json_utf8 = encode('UTF-8', $json_text);  # Counteract "use utf8;"
   my $data = JSON->new->utf8->decode($json_utf8);

   local $Data::Dumper::Useqq  = 1;
   local $Data::Dumper::Terse  = 1;
   local $Data::Dumper::Indent = 0;
   print(Dumper($data), "\n");
}

Output:

{"my_test" => "hei p\x{e5} deg"}
{"water" => "\x{6c34}"}

PS — It would be easier to help you if you didn't have two pages of code to demonstrate a simple problem.

If there is a malformed UTF-8 character in your data, you can remove it in the following way (imagine that data are contained in data.txt):

iconv -f utf-8 -t utf-8 -c < data.txt > clean-data.txt

The -c option of iconv will silently remove all malformed characters.

I believe that I have happened by chance across an answer!

• pretty symbols come in the websocket and work fine
• JSON::XS::decode_json dies "Wide character"
• no way out
• (write_file of that json darn goes bonkers too, I had to write my own spurt function)

There's a lot of DIY required. Here are my IO commands:

sub spurt {
my $self = shift;
my $file = shift;
my $stuff = shift;
say "Hostinfo: spurting $file (".length($stuff).")";
  open my $f, '>', $file || die "O no $!";
binmode $f, ':utf8';
print $f $stuff."\n";
#                                    slurp instead does:
#                                    my $m = join "", <$f>;
close $f;
}

Then to JSON decode stuff that comes in the websocket:

    start_timer();
    $hostinfo->spurt('/tmp/elvis', $msg);
    my $convert = q{perl -e 'use YAML::Syck; use JSON::XS; use File::Slurp;}
    .q{print " - reading json from /tmp/elvis\n";}
    .q{my $j = read_file("/tmp/elvis");}
    .q{print "! json already yaml !~?\n$j\n" if $j =~ /^---/s;}
    .q{print " - convert json -> yaml\n";}
    .q{my $d = decode_json($j);}
    .q{print " - write yaml to /tmp/elvis\n";}
    .q{DumpFile("/tmp/elvis", $d);}
    .q{print " - done\n";}
    .q{'};
    `$convert`;

    eval {
    $j = LoadFile('/tmp/elvis');

    while (my ($k, $v) = each %$j) {
        if (ref \$v eq "SCALAR") {
            $j->{$k} = Encode::decode_utf8($v);
        }
    }
    };
    say "Decode in ".show_delta();

Which has just thrown me for a loop - I might need smelling salts!

But the only way I got the path totally cleared for strange symbols travelling disk - perl - websocket/json - JS/HTML/codemirror/whatever and back. The symbols must be written to disk with spurt, with the :utf8 level or mode. I guess Mojo or something I'm using together is breaking that as it all works fine in a perl one liner, and I know I can fix it all, I'm just so goshdarn busy.

There's probably something simple somewhere but I doubt it. Life just overwhelms me sometimes, I declare!

One less madness than this one results in broken characters on disk but working characters in perl and on the other end of the websocket.