openssl/test/recipes/02-test_errstr.t
Dr. David von Oheimb e7313323cc 02-test_errstr.t: print errorcodes in hex (rather than decimal) format
Reviewed-by: Richard Levitte <levitte@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/17056)
2021-11-22 14:38:18 +01:00

164 lines
5.8 KiB
Perl

#! /usr/bin/env perl
# Copyright 2018-2021 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
use strict;
no strict 'refs'; # To be able to use strings as function refs
use OpenSSL::Test;
use OpenSSL::Test::Utils;
use Errno qw(:POSIX);
use POSIX qw(:limits_h strerror);
use Data::Dumper;
setup('test_errstr');
# In a cross compiled situation, there are chances that our
# application is linked against different C libraries than
# perl, and may thereby get different error messages for the
# same error.
# The safest is not to test under such circumstances.
plan skip_all => 'This is unsupported for cross compiled configurations'
if config('CROSS_COMPILE');
# The same can be said when compiling OpenSSL with mingw configuration
# on Windows when built with msys perl. Similar problems are also observed
# in MSVC builds, depending on the perl implementation used.
plan skip_all => 'This is unsupported on MSYS/MinGW or MSWin32'
if $^O eq 'msys' or $^O eq 'MSWin32';
plan skip_all => 'OpenSSL is configured "no-autoerrinit" or "no-err"'
if disabled('autoerrinit') || disabled('err');
# OpenSSL constants found in <openssl/err.h>
use constant ERR_SYSTEM_FLAG => INT_MAX + 1;
use constant ERR_LIB_OFFSET => 23; # Offset of the "library" errcode section
# OpenSSL "library" numbers
use constant ERR_LIB_NONE => 1;
# We use Errno::EXPORT_OK as a list of known errno values on the current
# system. libcrypto's ERR should either use the same string as perl, or if
# it was outside the range that ERR looks at, ERR gives the reason string
# "reason(nnn)", where nnn is the errno number.
plan tests => scalar @Errno::EXPORT_OK
+1 # Checking that error 128 gives 'reason(128)'
+1 # Checking that error 0 gives the library name
+1; # Check trailing whitespace is removed.
# Test::More:ok() has a sub prototype, which means we need to use the '&ok'
# syntax to force it to accept a list as a series of arguments.
foreach my $errname (@Errno::EXPORT_OK) {
# The error names are perl constants, which are implemented as functions
# returning the numeric value of that name.
my $errcode = "Errno::$errname"->();
SKIP: {
# On most systems, there is no E macro for errcode zero in <errno.h>,
# which means that it seldom comes up here. However, reports indicate
# that some platforms do have an E macro for errcode zero.
# With perl, errcode zero is a bit special. Perl consistently gives
# the empty string for that one, while the C strerror() may give back
# something else. The easiest way to deal with that possible mismatch
# is to skip this errcode.
skip "perl error strings and ssystem error strings for errcode 0 differ", 1
if $errcode == 0;
# On some systems (for example Hurd), there are negative error codes.
# These are currently unsupported in OpenSSL error reports.
skip "negative error codes are not supported in OpenSSL", 1
if $errcode < 0;
&ok(match_syserr_reason($errcode));
}
}
# OpenSSL library 1 is the "unknown" library
&ok(match_opensslerr_reason(ERR_LIB_NONE << ERR_LIB_OFFSET | 256,
"reason(256)"));
# Reason code 0 of any library gives the library name as reason
&ok(match_opensslerr_reason(ERR_LIB_NONE << ERR_LIB_OFFSET | 0,
"unknown library"));
&ok(match_any("Trailing whitespace \n\t", "?", ( "Trailing whitespace" )));
exit 0;
# For an error string "error:xxxxxxxx:lib:func:reason", this returns
# the following array:
#
# ( "xxxxxxxx", "lib", "func", "reason" )
sub split_error {
# Limit to 5 items, in case the reason contains a colon
my @erritems = split /:/, $_[0], 5;
# Remove the first item, which is always "error"
shift @erritems;
return @erritems;
}
# Compares the first argument as string to each of the arguments 3 and on,
# and returns an array of two elements:
# 0: True if the first argument matched any of the others, otherwise false
# 1: A string describing the test
# The returned array can be used as the arguments to Test::More::ok()
sub match_any {
my $first = shift;
my $desc = shift;
my @strings = @_;
# ignore trailing whitespace
$first =~ s/\s+$//;
if (scalar @strings > 1) {
$desc = "match '$first' ($desc) with one of ( '"
. join("', '", @strings) . "' )";
} else {
$desc = "match '$first' ($desc) with '$strings[0]'";
}
return ( scalar(
grep { ref $_ eq 'Regexp' ? $first =~ $_ : $first eq $_ }
@strings
) > 0,
$desc );
}
sub match_opensslerr_reason {
my $errcode = shift;
my @strings = @_;
my $errcode_hex = sprintf "%x", $errcode;
my $reason =
( run(app([ qw(openssl errstr), $errcode_hex ]), capture => 1) )[0];
$reason =~ s|\R$||;
$reason = ( split_error($reason) )[3];
return match_any($reason, $errcode_hex, @strings);
}
sub match_syserr_reason {
my $errcode = shift;
my @strings = ();
# The POSIX reason string
push @strings, eval {
# Set $! to the error number...
local $! = $errcode;
# ... and $! will give you the error string back
$!
};
# Occasionally, we get an error code that is simply not translatable
# to POSIX semantics on VMS, and we get an error string saying so.
push @strings, qr/^non-translatable vms error code:/ if $^O eq 'VMS';
# The OpenSSL fallback string
push @strings, "reason($errcode)";
return match_opensslerr_reason(ERR_SYSTEM_FLAG | $errcode, @strings);
}