package Anvil::Tools::Convert; # # This module contains methods used to convert data between types # use strict; use warnings; use Scalar::Util qw(weaken isweak); use Math::BigInt; our $VERSION = "3.0.0"; my $THIS_FILE = "Convert.pm"; ### Methods; # add_commas # bytes_to_human_readable # celsius_to_fahrenheit # cidr # fahrenheit_to_celsius # fence_ipmilan_to_ipmitool # format_mmddyy_to_yymmdd # host_name_to_ip # human_readable_to_bytes # round # time =pod =encoding utf8 =head1 NAME Anvil::Tools::Convert Provides all methods related to converting data. =head1 SYNOPSIS use Anvil::Tools; # Get a common object handle on all Anvil::Tools modules. my $anvil = Anvil::Tools->new(); # Access to methods using '$anvil->Convert->X'. # # Example using 'cidr()'; my $subnet_mask = $anvil->Convert->codr({cidr => "24"}); =head1 METHODS Methods in this module; =cut sub new { my $class = shift; my $self = {}; bless $self, $class; return ($self); } # Get a handle on the Anvil::Tools object. I know that technically that is a sibling module, but it makes more # sense in this case to think of it as a parent. sub parent { my $self = shift; my $parent = shift; $self->{HANDLE}{TOOLS} = $parent if $parent; # Defend against memory leads. See Scalar::Util'. if (not isweak($self->{HANDLE}{TOOLS})) { weaken($self->{HANDLE}{TOOLS}); } return ($self->{HANDLE}{TOOLS}); } ############################################################################################################# # Public methods # ############################################################################################################# =head2 add_commas This takes an integer and inserts commas to make it more readable by people. If the input string isn't a string of digits, it is simply returned as-is. my $string = $anvil->Convert->add_commas({number => 123456789}); # string = 123,456,789 Parameters; =head3 number (required) This is the number to add commas to. =cut sub add_commas { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->add_commas()" }}); # Now see if the user passed the values in a hash reference or directly. my $number = defined $parameter->{number} ? $parameter->{number} : ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { number => $number }}); # Remove any existing commands or leading '+' signs. $number =~ s/,//g; $number =~ s/^\+//g; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { number => $number }}); # Split on the left-most period. my ($whole, $decimal) = split/\./, $number, 2; $whole = "" if not defined $whole; $decimal = "" if not defined $decimal; # Now die if either number has a non-digit character in it. if (($whole =~ /\D/) or ($decimal =~ /\D/)) { $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { number => $number }}); return ($number); } local($_) = defined $whole ? $whole : ""; 1 while s/^(-?\d+)(\d{3})/$1,$2/; $whole = $_; # Put it together $number = $decimal ? $whole.".".$decimal : $whole; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { number => $number }}); return ($number); } =head2 bytes_to_human_readable This takes a number of bytes and converts it to a a human-readable format. Optionally, you can request the human readable size be returned using specific units. If anything goes wrong, C<< !!error!! >> is returned. * Base2 Notation; B B C Yobiabyte (YiB) 2^80 1,208,925,819,614,629,174,706,176 Zebiabyte (ZiB) 2^70 1,180,591,620,717,411,303,424 Exbibyte (EiB) 2^60 1,152,921,504,606,846,976 Pebibyte (PiB) 2^50 1,125,899,906,842,624 Tebibyte (TiB) 2^40 1,099,511,627,776 Gibibyte (GiB) 2^30 1,073,741,824 Mebibyte (MiB) 2^20 1,048,576 Kibibyte (KiB) 2^10 1,024 Byte (B) 2^1 1 * Base10 Notation; B B C Yottabyte (YB) 10^24 1,000,000,000,000,000,000,000,000 Zettabyte (ZB) 10^21 1,000,000,000,000,000,000,000 Exabyte (EB) 10^18 1,000,000,000,000,000,000 Petabyte (PB) 10^15 1,000,000,000,000,000 Terabyte (TB) 10^12 1,000,000,000,000 Gigabyte (GB) 10^9 1,000,000,000 Megabyte (MB) 10^6 1,000,000 Kilobyte (KB) 10^3 1,000 Byte (B) 1 1 Parameters; =head3 base2 (optional) This can be set to C<< 1 >> to return the units in base2 notation, or set to C<< 0 >> to return in base10 notation. The default is controlled by c<< sys::use_base2 >>, which is set to C<< 1 >> by default. The suffix will use C<< XiB >> when base2 notation is used and C<< XB >> will be returned for base10. =head3 bytes (required) This is the number of bytes that will be converted. This can be a signed integer. =head3 unit (optional) This is a letter that allows the caller to request the returned value be in a given unit, rather than the closest unit for the given value. =cut sub bytes_to_human_readable { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->bytes_to_human_readable()" }}); # Now see if the user passed the values in a hash reference or directly. my $bytes = defined $parameter->{'bytes'} ? $parameter->{'bytes'} : 0; my $unit = defined $parameter->{unit} ? uc($parameter->{unit}) : ""; my $base2 = defined $parameter->{base2} ? $parameter->{base2} : $anvil->data->{sys}{use_base2}; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { base2 => $base2, 'bytes' => $bytes, unit => $unit, }}); # Expand exponential numbers. if ($bytes =~ /(\d+)e\+(\d+)/) { my $base = $1; my $exp = $2; $bytes = $base; for (1..$exp) { $bytes .= "0"; } } # Setup my variables. my $suffix = ""; my $human_readable_size = $bytes; # Store and strip the sign my $sign = ""; if ($human_readable_size =~ /^-/) { $sign = "-"; $human_readable_size =~ s/^-//; } $human_readable_size =~ s/,//g; $human_readable_size =~ s/^\+//g; # Die if either the 'time' or 'float' has a non-digit character in it. if ($human_readable_size =~ /\D/) { # See if this is already human readable. my $bytes = $anvil->Convert->human_readable_to_bytes({ debug => $debug, size => $human_readable_size, }); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'bytes' => $bytes }}); if ($bytes =~ /^\d+$/) { # This is fine, convert to our standard size and return. my $new_human_readable_size = $anvil->Convert->bytes_to_human_readable({ debug => 2, 'bytes' => $bytes, }); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { new_human_readable_size => $new_human_readable_size }}); return($new_human_readable_size); } $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0116", variables => { method => "Convert->bytes_to_human_readable()", parameter => "bytes", value => $human_readable_size, }}); return ("!!error!!"); } ### TODO: We process the bytes here, but maybe we shouldn't so that when this goes into an alert, it ### can be translated later. # Do the math. if ($base2) { # Has the user requested a certain unit to use? if ($unit) { # Yup if ($unit =~ /Y/i) { # Yebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 80))); $suffix = $anvil->Words->string({key => "suffix_0030"}); } elsif ($unit =~ /Z/i) { # Zebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 70))); $suffix = $anvil->Words->string({key => "suffix_0029"}); } elsif ($unit =~ /E/i) { # Exbibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 60))); $suffix = $anvil->Words->string({key => "suffix_0028"}); } elsif ($unit =~ /P/i) { # Pebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 50))); $suffix = $anvil->Words->string({key => "suffix_0027"}); } elsif ($unit =~ /T/i) { # Tebibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 40))); $suffix = $anvil->Words->string({key => "suffix_0026"}); } elsif ($unit =~ /G/i) { # Gibibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 30))); $suffix = $anvil->Words->string({key => "suffix_0025"}); } elsif ($unit =~ /M/i) { # Mebibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 20))); $suffix = $anvil->Words->string({key => "suffix_0024"}); } elsif ($unit =~ /K/i) { # Kibibyte $human_readable_size = sprintf("%.1f", ($human_readable_size /= (2 ** 10))); $suffix = $anvil->Words->string({key => "suffix_0023"}); } else { $suffix = $anvil->Words->string({key => "suffix_0014"}); } } else { # Nope, use the most efficient. if ($human_readable_size >= (2 ** 80)) { # Yebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 80))); $suffix = $anvil->Words->string({key => "suffix_0030"}); } elsif ($human_readable_size >= (2 ** 70)) { # Zebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 70))); $suffix = $anvil->Words->string({key => "suffix_0029"}); } elsif ($human_readable_size >= (2 ** 60)) { # Exbibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 60))); $suffix = $anvil->Words->string({key => "suffix_0028"}); } elsif ($human_readable_size >= (2 ** 50)) { # Pebibyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (2 ** 50))); $suffix = $anvil->Words->string({key => "suffix_0027"}); } elsif ($human_readable_size >= (2 ** 40)) { # Tebibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 40))); $suffix = $anvil->Words->string({key => "suffix_0026"}); } elsif ($human_readable_size >= (2 ** 30)) { # Gibibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 30))); $suffix = $anvil->Words->string({key => "suffix_0025"}); } elsif ($human_readable_size >= (2 ** 20)) { # Mebibyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (2 ** 20))); $suffix = $anvil->Words->string({key => "suffix_0024"}); } elsif ($human_readable_size >= (2 ** 10)) { # Kibibyte $human_readable_size = sprintf("%.1f", ($human_readable_size /= (2 ** 10))); $suffix = $anvil->Words->string({key => "suffix_0023"}); } else { $suffix = $anvil->Words->string({key => "suffix_0014"}); } } } else { # Has the user requested a certain unit to use? if ($unit) { # Yup if ($unit =~ /Y/i) { # Yottabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 24))); $suffix = $anvil->Words->string({key => "suffix_0022"}); } elsif ($unit =~ /Z/i) { # Zettabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 21))); $suffix = $anvil->Words->string({key => "suffix_0021"}); } elsif ($unit =~ /E/i) { # Exabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 18))); $suffix = $anvil->Words->string({key => "suffix_0020"}); } elsif ($unit =~ /P/i) { # Petabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 15))); $suffix = $anvil->Words->string({key => "suffix_0019"}); } elsif ($unit =~ /T/i) { # Terabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 12))); $suffix = $anvil->Words->string({key => "suffix_0018"}); } elsif ($unit =~ /G/i) { # Gigabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 9))); $suffix = $anvil->Words->string({key => "suffix_0017"}); } elsif ($unit =~ /M/i) { # Megabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 6))); $suffix = $anvil->Words->string({key => "suffix_0016"}); } elsif ($unit =~ /K/i) { # Kilobyte $human_readable_size = sprintf("%.1f", ($human_readable_size /= (10 ** 3))); $suffix = $anvil->Words->string({key => "suffix_0015"}); } else { $suffix = $anvil->Words->string({key => "suffix_0014"}); } } else { # Nope, use the most efficient. if ($human_readable_size >= (10 ** 24)) { # Yottabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 24))); $suffix = $anvil->Words->string({key => "suffix_0022"}); } elsif ($human_readable_size >= (10 ** 21)) { # Zettabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 21))); $suffix = $anvil->Words->string({key => "suffix_0021"}); } elsif ($human_readable_size >= (10 ** 18)) { # Exabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 18))); $suffix = $anvil->Words->string({key => "suffix_0020"}); } elsif ($human_readable_size >= (10 ** 15)) { # Petabyte $human_readable_size = sprintf("%.3f", ($human_readable_size /= (10 ** 15))); $suffix = $anvil->Words->string({key => "suffix_0019"}); } elsif ($human_readable_size >= (10 ** 12)) { # Terabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 12))); $suffix = $anvil->Words->string({key => "suffix_0018"}); } elsif ($human_readable_size >= (10 ** 9)) { # Gigabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 9))); $suffix = $anvil->Words->string({key => "suffix_0017"}); } elsif ($human_readable_size >= (10 ** 6)) { # Megabyte $human_readable_size = sprintf("%.2f", ($human_readable_size /= (10 ** 6))); $suffix = $anvil->Words->string({key => "suffix_0016"}); } elsif ($human_readable_size >= (10 ** 3)) { # Kilobyte $human_readable_size = sprintf("%.1f", ($human_readable_size /= (10 ** 3))); $suffix = $anvil->Words->string({key => "suffix_0015"}); } else { # Bytes $suffix = $anvil->Words->string({key => "suffix_0014"}); } } } # If needed, insert commas $human_readable_size = $anvil->Convert->add_commas({number => $human_readable_size}); # Restore the sign. if ($sign) { $human_readable_size = $sign.$human_readable_size; } $human_readable_size .= " ".$suffix; return($human_readable_size); } =head3 celsius_to_fahrenheit This takes value and converts it from celsius to fahrenheit. If there is a problem, C<< !!error!! >> is returned. Parameters; =head3 temperature (required) This is the temperature to convert from fahrenheit to celsius. =cut sub celsius_to_fahrenheit { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->celsius_to_fahrenheit()" }}); # Now see if the user passed the values in a hash reference or directly. my $temperature = defined $parameter->{temperature} ? $parameter->{temperature} : ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); if (not $temperature) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0020", variables => { method => "Convert->celsius_to_fahrenheit()", parameter => "temperature" }}); return("!!error!!"); } if ($temperature !~ /^\d/) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "error_0165", variables => { temperature => $temperature }}); return("!!error!!"); } # Split off the value from the suffix, if any. if ($temperature =~ /^(\d+\.\d+).*/) { $temperature = $1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); } elsif ($temperature =~ /^(\d+)(.*)/) { $temperature = $1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); } # Convert the temperature. my $new_temperature = (($temperature * 1.8) + 32); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { new_temperature => $new_temperature }}); return($new_temperature); } =head2 cidr This takes an IPv4 CIDR notation and returns the dotted-decimal subnet mask, or the reverse. # Convert a CIDR notation to a subnet mask. my $subnet_mask = $anvil->Convert->cidr({cidr => "24"}); In the other direction; # Convert a subnet mask to a CIDR notation. my $cidr = $anvil->Convert->cidr({subnet_mask => "255.255.255.0"}); If the input data is invalid, an empty string will be returned. =head2 Parameters; There are two parameters, each of which is optional, but one of them is required. =head3 cidr (optional) This is a CIDR notation (between 0 and 24) to convert to a dotted-decimal address. =head3 subnet_mask (optional) This is a dotted-decimal subnet mask to convert to a CIDR notation. =cut sub cidr { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->cidr()" }}); my $cidr = defined $parameter->{cidr} ? $parameter->{cidr} : ""; my $subnet_mask = defined $parameter->{subnet_mask} ? $parameter->{subnet_mask} : ""; my $output = ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { cidr => $cidr, subnet_mask => $subnet_mask, }}); if ($cidr =~ /^\d{1,2}$/) { # Convert a cidr to a subnet mask if ($cidr eq "0") { $output = "0.0.0.0"; } elsif ($cidr eq "1") { $output = "128.0.0.0"; } elsif ($cidr eq "2") { $output = "192.0.0.0"; } elsif ($cidr eq "3") { $output = "224.0.0.0"; } elsif ($cidr eq "4") { $output = "240.0.0.0"; } elsif ($cidr eq "5") { $output = "248.0.0.0"; } elsif ($cidr eq "6") { $output = "252.0.0.0"; } elsif ($cidr eq "7") { $output = "254.0.0.0"; } elsif ($cidr eq "8") { $output = "255.0.0.0"; } elsif ($cidr eq "9") { $output = "255.128.0.0"; } elsif ($cidr eq "10") { $output = "255.192.0.0"; } elsif ($cidr eq "11") { $output = "255.224.0.0"; } elsif ($cidr eq "12") { $output = "255.240.0.0"; } elsif ($cidr eq "13") { $output = "255.248.0.0"; } elsif ($cidr eq "14") { $output = "255.252.0.0"; } elsif ($cidr eq "15") { $output = "255.254.0.0"; } elsif ($cidr eq "16") { $output = "255.255.0.0"; } elsif ($cidr eq "17") { $output = "255.255.128.0"; } elsif ($cidr eq "18") { $output = "255.255.192.0"; } elsif ($cidr eq "19") { $output = "255.255.224.0"; } elsif ($cidr eq "20") { $output = "255.255.240.0"; } elsif ($cidr eq "21") { $output = "255.255.248.0"; } elsif ($cidr eq "22") { $output = "255.255.252.0"; } elsif ($cidr eq "23") { $output = "255.255.254.0"; } elsif ($cidr eq "24") { $output = "255.255.255.0"; } elsif ($cidr eq "25") { $output = "255.255.255.128"; } elsif ($cidr eq "26") { $output = "255.255.255.192"; } elsif ($cidr eq "27") { $output = "255.255.255.224"; } elsif ($cidr eq "28") { $output = "255.255.255.240"; } elsif ($cidr eq "29") { $output = "255.255.255.248"; } elsif ($cidr eq "30") { $output = "255.255.255.252"; } elsif ($cidr eq "31") { $output = "255.255.255.254"; } elsif ($cidr eq "32") { $output = "255.255.255.255"; } } elsif ($anvil->Validate->ipv4({ip => $subnet_mask})) { if ($subnet_mask eq "0.0.0.0" ) { $output = "0"; } elsif ($subnet_mask eq "128.0.0.0" ) { $output = "1"; } elsif ($subnet_mask eq "192.0.0.0" ) { $output = "2"; } elsif ($subnet_mask eq "224.0.0.0" ) { $output = "3"; } elsif ($subnet_mask eq "240.0.0.0" ) { $output = "4"; } elsif ($subnet_mask eq "248.0.0.0" ) { $output = "5"; } elsif ($subnet_mask eq "252.0.0.0" ) { $output = "6"; } elsif ($subnet_mask eq "254.0.0.0" ) { $output = "7"; } elsif ($subnet_mask eq "255.0.0.0" ) { $output = "8"; } elsif ($subnet_mask eq "255.128.0.0" ) { $output = "9"; } elsif ($subnet_mask eq "255.192.0.0" ) { $output = "10"; } elsif ($subnet_mask eq "255.224.0.0" ) { $output = "11"; } elsif ($subnet_mask eq "255.240.0.0" ) { $output = "12"; } elsif ($subnet_mask eq "255.248.0.0" ) { $output = "13"; } elsif ($subnet_mask eq "255.252.0.0" ) { $output = "14"; } elsif ($subnet_mask eq "255.254.0.0" ) { $output = "15"; } elsif ($subnet_mask eq "255.255.0.0" ) { $output = "16"; } elsif ($subnet_mask eq "255.255.128.0" ) { $output = "17"; } elsif ($subnet_mask eq "255.255.192.0" ) { $output = "18"; } elsif ($subnet_mask eq "255.255.224.0" ) { $output = "19"; } elsif ($subnet_mask eq "255.255.240.0" ) { $output = "20"; } elsif ($subnet_mask eq "255.255.248.0" ) { $output = "21"; } elsif ($subnet_mask eq "255.255.252.0" ) { $output = "22"; } elsif ($subnet_mask eq "255.255.254.0" ) { $output = "23"; } elsif ($subnet_mask eq "255.255.255.0" ) { $output = "24"; } elsif ($subnet_mask eq "255.255.255.128" ) { $output = "25"; } elsif ($subnet_mask eq "255.255.255.192" ) { $output = "26"; } elsif ($subnet_mask eq "255.255.255.224" ) { $output = "27"; } elsif ($subnet_mask eq "255.255.255.240" ) { $output = "28"; } elsif ($subnet_mask eq "255.255.255.248" ) { $output = "29"; } elsif ($subnet_mask eq "255.255.255.252" ) { $output = "30"; } elsif ($subnet_mask eq "255.255.255.254" ) { $output = "31"; } elsif ($subnet_mask eq "255.255.255.255" ) { $output = "32"; } } $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { output => $output }}); return($output); } =head3 fahrenheit_to_celsius This takes value and converts it from fahrenheit to celsius. If there is a problem, C<< !!error!! >> is returned. Parameters; =head3 temperature (required) This is the temperature to convert from celsius to fahrenheit. =cut sub fahrenheit_to_celsius { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->fahrenheit_to_celsius()" }}); # Now see if the user passed the values in a hash reference or directly. my $temperature = defined $parameter->{temperature} ? $parameter->{temperature} : ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); if (not $temperature) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0020", variables => { method => "Convert->fahrenheit_to_celsius()", parameter => "temperature" }}); return("!!error!!"); } if ($temperature !~ /^\d/) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "error_0165", variables => { temperature => $temperature }}); return("!!error!!"); } # Split off the value from the suffix, if any. if ($temperature =~ /^(\d+\.\d+).*/) { $temperature = $1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); } elsif ($temperature =~ /^(\d+)(.*)/) { $temperature = $1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { temperature => $temperature }}); } # Convert the temperature. my $new_temperature = (($temperature - 32) / 1.8); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { new_temperature => $new_temperature }}); return($new_temperature); } =head2 fence_ipmilan_to_ipmitool This takes a C<< fence_ipmilan >> command and converts it into an C<< ipmitool >> command. The C<< action >> is ignored, as this method is meant to be called when one machine wants to check the health of another machine. On error, C<< !!error!! >> is returned. Otherwise, a shell call and the user password will be returned as two values. Parameters; =head3 fence_ipmilan_command (required) This is the C<< fence_ipmilan >> command to be translated. =cut sub fence_ipmilan_to_ipmitool { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->fence_ipmilan_to_ipmitool()" }}); my $fence_ipmilan_command = defined $parameter->{fence_ipmilan_command} ? $parameter->{fence_ipmilan_command} : ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { fence_ipmilan_command => $fence_ipmilan_command, }}); if (not $fence_ipmilan_command) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0020", variables => { method => "Convert->fence_ipmilan_to_ipmitool()", parameter => "fence_ipmilan_to_ipmitool" }}); return("!!error!!", "!!error!!"); } elsif ($fence_ipmilan_command !~ /fence_ipmilan /) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "error_0168", variables => { command => $fence_ipmilan_command }}); return("!!error!!", "!!error!!"); } my $ipmitool_command = $anvil->data->{path}{exe}{ipmitool}; my $ipmi_password = ""; if (($fence_ipmilan_command =~ /-A (.*?) /) or ($fence_ipmilan_command =~ /-auth (.*?) /)) { # IPMI Lan Auth type (md5, password, or none) $ipmitool_command .= " -A ".$1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-a (.*?) /) or ($fence_ipmilan_command =~ /-ip (.*?) /)) { # IPMI Lan IP to talk to $ipmitool_command .= " -H ".$1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-P /) or ($fence_ipmilan_command =~ /-lanplus /)) { # Use Lanplus to improve security of connection $ipmitool_command .= " -I lanplus"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-l (.*?) /) or ($fence_ipmilan_command =~ /-username (.*?) /)) { # Username/Login (if required) to control power on IPMI device $ipmitool_command .= " -U ".$1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-C (.*?) /) or ($fence_ipmilan_command =~ /-cipher (.*?) /)) { # Ciphersuite to use (same as ipmitool -C parameter) $ipmitool_command .= " -C ".$1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-L (.*?) /) or ($fence_ipmilan_command =~ /-privlvl (.*?) /)) { # Privilege level on IPMI device $ipmitool_command .= " -L ".$1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command }}); } if (($fence_ipmilan_command =~ /-p (.*?) -/) or ($fence_ipmilan_command =~ /-password (.*?) -/) or ($fence_ipmilan_command =~ /-password '(.*?)'/) or ($fence_ipmilan_command =~ /-password (.*)$/)) { # Password (if required) to control power on IPMI device $ipmi_password = $1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, secure => 1, level => $debug, list => { ">> ipmi_password" => $ipmi_password }}); $ipmi_password =~ s/^'(.*?)'$/$1/; $ipmi_password =~ s/\\'/'/g; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, secure => 1, level => $debug, list => { "<< ipmi_password" => $ipmi_password }}); } $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ipmitool_command => $ipmitool_command, ipmi_password => $anvil->Log->is_secure($ipmi_password), }}); return($ipmitool_command, $ipmi_password); } =head2 format_mmddyy_to_yymmdd This converts a C<< mm/dd/yy >> or C<< mm/dd/yyyy >> string into the more sensible yy/mm/dd or yyyy/mm/dd string. Returns C<< !!error!! >> if something goes wrong. Parameters; =head3 date (required) This is the C<< mm/dd/yy >> or C<< mm/dd/yyyy >> format to be converted. =cut sub format_mmddyy_to_yymmdd { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->format_mmddyy_to_yymmdd()" }}); my $date = defined $parameter->{date} ? $parameter->{date} : ""; my $output = ""; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { date => $date, }}); # Sometimes we're passed '--' or '#!no_value!#' which is not strictly an error, so we'll return it back. if (($date eq "--") or ($date eq "#!no_value!#")) { return($date); } if (not $date) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0020", variables => { method => "Convert->format_mmddyy_to_yymmdd()", parameter => "host_name" }}); return("!!error!!"); } # Split off the value from the suffix, if any. if ($date =~ /^(\d\d)\/(\d\d)\/(\d\d\d\d)/) { $date = "$3/$1/$2"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { date => $date }}); } elsif ($date =~ /^(\d\d)\/(\d\d)\/(\d\d)/) { $date = "$3/$1/$2"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { date => $date }}); } else { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "error_0164", variables => { date => $date }}); return("!!error!!"); } return($date); } =head2 host_name_to_ip This method takes a host name and tries to convert it to an IP address. If it fails, it will return C<< 0 >>. Parameters; =head3 host_name This is the host name (or domain name) to try and convert to an IP address. =cut sub host_name_to_ip { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->host_name_to_ip()" }}); my $host_name = defined $parameter->{host_name} ? $parameter->{host_name} : ""; my $ip = 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { host_name => $host_name }}); if (not $host_name) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0020", variables => { method => "Convert->host_name_to_ip()", parameter => "host_name" }}); return($ip); } ### TODO: Check local cached information later. # Try to resolve it using 'gethostip'. my $shell_call = $anvil->data->{path}{exe}{gethostip}." -d ".$host_name; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { shell_call => $shell_call }}); my ($output, $return_code) = $anvil->System->call({shell_call => $shell_call}); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { output => $output, return_code => $return_code, }}); foreach my $line (split/\n/, $output) { $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { line => $line }}); if ($anvil->Validate->ipv4({ip => $line})) { $ip = $line; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { ip => $ip }}); } } return($ip); } =head2 human_readable_to_bytes This takes a "human readable" size with an ISO suffix and converts it back to a base byte size as accurately as possible. It looks for the C<< i >> in the suffix to determine if the size is base2 or base10. This can be overridden with the optional C<< base2 >> or C<< base10 >> parameters. If there is a problem, C<< !!error!! >> is returned. Parameters; =head3 base2 (optional) This tells the method to interpret the human-readable suffix as base2 notation, even if it is in the format C<< XB >> instead of C<< XiB >>. =head3 base10 (optional) This tells the method to interpret the human-readable suffix as base10 notation, even if it is in the format C<< XiB >> instead of C<< XB >>. =head3 size (required) This is the size being converted. It can be a signed integer or real number (with a decimal). If this parameter includes the size suffix, you can skip setting the c<< type >> parameter and this method will break it off automatically. =head3 type (optional) This is the unit type that represents the C<< size >> value. This does not need to be used if the C<< size >> parameter already has the suffix. This value is examined for C<< XiB >> or C<< XB >> notation to determine if the size should be interpreted as a base2 or base10 value when neither C<< base2 >> or C<< base10 >> parameters are set. =cut sub human_readable_to_bytes { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->human_readable_to_bytes()" }}); my $base2 = defined $parameter->{base2} ? $parameter->{base2} : 0; my $base10 = defined $parameter->{base10} ? $parameter->{base10} : 0; my $size = defined $parameter->{size} ? $parameter->{size} : 0; my $type = defined $parameter->{type} ? $parameter->{type} : 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { base2 => $base2, base10 => $base10, size => $size, type => $type, }}); # If we were passed nothing, return nothing. if ($size eq "") { return(""); } # Start cleaning up the variables. $size =~ s/\(.*?\)//; # Sometimes, the bytes with the human readible size in brackets is passed. my $value = $size; $size =~ s/ //g; $type =~ s/ //g; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { size => $size, value => $value }}); # Store and strip the sign, if passed my $sign = ""; if ($size =~ /^-/) { $sign = "-"; $size =~ s/^-//; } elsif ($size =~ /^\+/) { $sign = "+"; $size =~ s/^\+//; } # Strip any commas $size =~ s/,//g; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { size => $size, sign => $sign }}); # If I don't have a passed type, see if there is a letter or letters after the size to hack off. if ((not $type) && ($size =~ /[a-zA-Z]$/)) { # There was ($size, $type) = ($size =~ /^(.*\d)(\D+)/); } # Make the type lower close for simplicity. $type = lc($type); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { size => $size, type => $type }}); # Make sure that 'size' is now an integer or float. if ($size !~ /\d+[\.\d+]?/) { # Something illegal was passed. $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0117", variables => { size => $size, sign => $sign, type => $type, }}); return("!!error!!"); } # If 'type' is still blank, set it to 'b'. $type = "b" if not $type; # If the type is already bytes, make sure the size is an integer and return. if ($type eq "b") { # Something illegal was passed. if ($size =~ /\D/) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0118", variables => { size => $size, sign => $sign, type => $type, }}); return("!!error!!"); } return ($sign.$size); } # If the "type" is "Xib" or if '$base2' is set, make sure we're running in Base2 notation. Conversly, # if the type is "Xb" or if '$base10' is set, make sure that we're running in Base10 notation. In # either case, shorten the 'type' to just the first letter to make the next sanity check simpler. $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { base2 => $base2, base10 => $base10, }}); if ((not $base2) && (not $base10)) { $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { type => $type }}); if ($type =~ /^(\w)ib$/) { # Make sure we're running in Base2. $type = $1; $base2 = 1; $base10 = 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { type => $type, base2 => $base2, base10 => $base10, }}); } elsif ($type =~ /^(\w)b$/) { # Make sure we're running in Base2. $type = $1; $base2 = 0; $base10 = 1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { type => $type, base2 => $base2, base10 => $base10, }}); } elsif ($type =~ /^b/) { $type = "b"; $base2 = 1; $base10 = 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { type => $type, base2 => $base2, base10 => $base10, }}); } } # Clear up the last characters now. $type =~ s/^(\w).*/$1/; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { type => $type }}); # Check if we have a valid type. if (($type ne "p") && ($type ne "e") && ($type ne "z") && ($type ne "y") && ($type ne "t") && ($type ne "g") && ($type ne "m") && ($type ne "k") && ($type ne "b")) { # Poop $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0119", variables => { value => $value, size => $size, type => $type, }}); return("!!error!!"); } # Now the magic... lame magic, true, but still. my $bytes = 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { base2 => $base2, base10 => $base10 }}); if ($base10) { if ($type eq "y") { $bytes = Math::BigInt->new('10')->bpow('24')->bmul($size); } # Yottabyte elsif ($type eq "z") { $bytes = Math::BigInt->new('10')->bpow('21')->bmul($size); } # Zettabyte elsif ($type eq "e") { $bytes = Math::BigInt->new('10')->bpow('18')->bmul($size); } # Exabyte elsif ($type eq "p") { $bytes = Math::BigInt->new('10')->bpow('15')->bmul($size); } # Petabyte elsif ($type eq "t") { $bytes = ($size * (10 ** 12)) } # Terabyte elsif ($type eq "g") { $bytes = ($size * (10 ** 9)) } # Gigabyte elsif ($type eq "m") { $bytes = ($size * (10 ** 6)) } # Megabyte elsif ($type eq "k") { $bytes = ($size * (10 ** 3)) } # Kilobyte elsif ($type eq "b") { $bytes = $size; } # bytes $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'bytes' => $bytes }}); } else { if ($type eq "y") { $bytes = Math::BigInt->new('2')->bpow('80')->bmul($size); } # Yobibyte elsif ($type eq "z") { $bytes = Math::BigInt->new('2')->bpow('70')->bmul($size); } # Zibibyte elsif ($type eq "e") { $bytes = Math::BigInt->new('2')->bpow('60')->bmul($size); } # Exbibyte elsif ($type eq "p") { $bytes = Math::BigInt->new('2')->bpow('50')->bmul($size); } # Pebibyte elsif ($type eq "t") { $bytes = ($size * (2 ** 40)) } # Tebibyte elsif ($type eq "g") { $bytes = ($size * (2 ** 30)) } # Gibibyte elsif ($type eq "m") { $bytes = ($size * (2 ** 20)) } # Mebibyte elsif ($type eq "k") { $bytes = ($size * (2 ** 10)) } # Kibibyte elsif ($type eq "b") { $bytes = $size; } # bytes $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'bytes' => $bytes }}); } # Last, round off the byte size if it is a float. if ($bytes =~ /\./) { $bytes = $anvil->Convert->round({ number => $bytes, places => 0 }); } if ($sign) { $bytes = $sign.$bytes; } $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'bytes' => $bytes }}); return ($bytes); } =head2 round This takes a number and rounds it to a given number of places after the decimal (defaulting to an even integer). This does financial-type rounding. If C<< -- >> is passed in, the same is returned. Any other problems will cause C<< !!error!! >> to be returned. Parameters; =head3 number (required) This is the number being rounded. =head3 places (optional) This is an integer representing how many places to round the number to. The default is C<< 0 >>, rounding the number to the closest integer. =cut sub round { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->round()" }}); # Setup my numbers. my $number = $parameter->{number} ? $parameter->{number} : 0; my $places = $parameter->{places} ? $parameter->{places} : 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { number => $number, places => $places, }}); # Return if the user passed a double-dash. return('--') if $number eq "--"; # Take out exponent notation $number =~ s/e-\d+$//; # Make a copy of the passed number that I can manipulate. my $rounded_number = $number; # Take out any commas. $rounded_number =~ s/,//g; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); # If there is a decimal place in the number, do the smart math. Otherwise, just pad the number with # the requested number of zeros after the decimal place. if ( $rounded_number =~ /\./ ) { # Split up the number. my ($real, $decimal) = split/\./, $rounded_number, 2; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { real => $real, decimal => $decimal, }}); # If there is anything other than one ',' and digits, error. if (($real =~ /\D/) or ($decimal =~ /\D/)) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0120", variables => { number => $number }}); return ("!!error!!"); } # If the number is already equal to the requested number of places after the decimal, just # return. If it is less, pad the needed number of zeros. Otherwise, start rounding. if ( length($decimal) == $places ) { # Equal, return. $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); return($rounded_number); } elsif ( length($decimal) < $places ) { # Less, pad. $rounded_number = sprintf("%.${places}f", $rounded_number); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); } else { # Greater than; I need to round the number. Start by getting the number of places I # need to round. my $round_diff = length($decimal) - $places; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { round_diff => $round_diff }}); # This keeps track of whether the next (left) digit needs to be incremented. my $increase = 0; # Now loop the number of times needed to round to the requested number of places. for (0..$round_diff) { # Reset 'increase'. $increase = 0; # Make sure I am dealing with a digit. if ($decimal =~ /(\d)$/) { my $last_digit = $1; $decimal =~ s/$last_digit$//; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { last_digit => $last_digit, decimal => $decimal, }}); if ($last_digit > 4) { $increase = 1; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { increase => $increase }}); if ($decimal eq "") { $real++; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { real => $real }}); } else { $decimal++; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { decimal => $decimal }}); } } } } if ($places == 0 ) { $rounded_number = $real; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); } else { $rounded_number = $real.".".$decimal; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); } } } else { # This is a whole number so just pad 0s as needed. $rounded_number = sprintf("%.${places}f", $rounded_number); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { rounded_number => $rounded_number }}); } # Return the number. return ($rounded_number); } =head2 time This takes a number of seconds and converts it into a human readable string. Returns C<< #!error!# >> is an error is encountered. Parameters; =head3 time (required) This is the time, in seconds, to convert. =head3 long (optional, default 0) If set to C<< 1 >>, the long suffixes will be used instead of the default C<< w/d/h/m/s >> format. B<< Note >>: The suffixes are translatable in both short (default) and long formats. See the C<< suffix_0002 >> through C<< suffix_0011 >> string keys. =head3 translate (optional, default '0') When set to C<< 1 >>, the string returned will be translated into plain language. When set to C<< 0 >> (the default), the string returned will not have translated words, but instead return the C<< #!string!x!# >> codes for insertion into templates, email bodies or other uses where translation will be done later. =cut sub time { my $self = shift; my $parameter = shift; my $anvil = $self->parent; my $debug = defined $parameter->{debug} ? $parameter->{debug} : 3; $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => $debug, key => "log_0125", variables => { method => "Convert->time()" }}); my $time = defined $parameter->{'time'} ? $parameter->{'time'} : 0; my $long = defined $parameter->{long} ? $parameter->{long} : 0; my $translate = defined $parameter->{translate} ? $parameter->{translate} : 0; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'time' => $time, long => $long, translate => $translate, }}); # If the 'time' is '--' or '-1', return silently. if (($time eq "--") or ($time eq "-1")) { return($time); } # Remote commas and verify we're left with a number. $time =~ s/,//g; if ($time =~ /^\d+\.\d+$/) { # Round the time $time = $anvil->Convert->round({number => $time}); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 'time' => $time }}); } if ($time =~ /\D/) { $anvil->Log->entry({source => $THIS_FILE, line => __LINE__, level => 0, priority => "err", key => "log_0294", variables => { 'time' => $time }}); return($time); } # The suffix used for each unit of time will depend on the requested suffix type. my $suffix_seconds = $long ? " #!string!suffix_0007!#" : " #!string!suffix_0002!#"; my $suffix_minutes = $long ? " #!string!suffix_0008!#" : " #!string!suffix_0003!#"; my $suffix_hours = $long ? " #!string!suffix_0009!#" : " #!string!suffix_0004!#"; my $suffix_days = $long ? " #!string!suffix_0010!#" : " #!string!suffix_0005!#"; my $suffix_weeks = $long ? " #!string!suffix_0011!#" : " #!string!suffix_0006!#"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { suffix_seconds => $suffix_seconds, suffix_minutes => $suffix_minutes, suffix_hours => $suffix_hours, suffix_days => $suffix_days, suffix_weeks => $suffix_weeks, }}); my $say_time = ""; my $seconds = $time % 60; my $minutes = ($time - $seconds) / 60; my $remaining_minutes = $minutes % 60; my $hours = ($minutes - $remaining_minutes) / 60; my $remaining_hours = $hours % 24; my $days = ($hours - $remaining_hours) / 24; my $remaining_days = $days % 7; my $weeks = ($days - $remaining_days) / 7; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { 's1:weeks' => $weeks, 's2:remaining_days' => $remaining_days, 's3:days' => $days, 's4:remaining_hours' => $remaining_hours, 's5:hours' => $hours, 's6:remaining_minutes' => $remaining_minutes, 's7:minutes' => $minutes, 's8:seconds' => $seconds, }}); ### TODO: Left off here. if ($seconds < 1) { $say_time = "0".$suffix_seconds; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } else { $say_time = sprintf("%01d", $seconds).$suffix_seconds; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } if ($remaining_minutes > 0) { $say_time =~ s/ sec.$/$suffix_seconds/; $say_time = sprintf("%01d", $remaining_minutes).$suffix_minutes." $say_time"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } elsif (($hours > 0) or ($days > 0) or ($weeks > 0)) { $say_time = "0".$suffix_minutes." ".$say_time; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } if ($remaining_hours > 0) { $say_time = sprintf("%01d", $remaining_hours)."$suffix_hours $say_time"; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } elsif (($days > 0) or ($weeks > 0)) { $say_time = "0".$suffix_hours." ".$say_time; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } if ($days > 0) { $say_time = sprintf("%01d", $remaining_days).$suffix_days." ".$say_time; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } elsif ($weeks > 0) { $say_time = "0".$suffix_days." ".$say_time; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } if ($weeks > 0) { $weeks = $anvil->Convert->add_commas({number => $weeks}); $say_time = $weeks.$suffix_weeks." ".$say_time; $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { weeks => $weeks, say_time => $say_time, }}); } # Return an already-translated string, if asked. $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { translate => $translate }}); if ($translate) { $say_time = $anvil->Words->string({debug => $debug, string => $say_time}); $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); } $anvil->Log->variables({source => $THIS_FILE, line => __LINE__, level => $debug, list => { say_time => $say_time }}); return($say_time); } # =head3 # # Private Functions; # # =cut ############################################################################################################# # Private functions # #############################################################################################################