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-rw-r--r--cpan/Win32API-File/Changes125
-rw-r--r--cpan/Win32API-File/ExtUtils/Myconst2perl.pm362
-rw-r--r--cpan/Win32API-File/File.pm3035
-rw-r--r--cpan/Win32API-File/File.xs647
-rw-r--r--cpan/Win32API-File/Makefile.PL144
-rw-r--r--cpan/Win32API-File/README136
-rw-r--r--cpan/Win32API-File/buffers.h423
-rw-r--r--cpan/Win32API-File/cFile.h1
-rw-r--r--cpan/Win32API-File/cFile.pc165
-rw-r--r--cpan/Win32API-File/const2perl.h193
-rw-r--r--cpan/Win32API-File/t/file.t427
-rw-r--r--cpan/Win32API-File/t/tie.t92
-rw-r--r--cpan/Win32API-File/typemap140
13 files changed, 5890 insertions, 0 deletions
diff --git a/cpan/Win32API-File/Changes b/cpan/Win32API-File/Changes
new file mode 100644
index 0000000000..9a691017a8
--- /dev/null
+++ b/cpan/Win32API-File/Changes
@@ -0,0 +1,125 @@
+Revision history for Perl extension Win32API::File.
+
+0.1101 by Alexandr Ciornii 2008-11-17
+ - require Win32.pm (not core on Cygwin 5.8.8)
+ - file.t uses Win32.pm only if necessary
+
+0.1100 by Alexandr Ciornii 2008-11-08
+ - license in Makefile.PL and README
+
+0.1001_02 by Alexandr Ciornii 2008-11-01
+ - list of changes from perl 5.10
+ - adaptation of core perl changes for CPAN
+ - ExtUtils::Myconst2perl hidden from indexing
+ - pod.t
+ - better Makefile.PL
+
+0.1001_01 (perl 5.10)
+ - tests adapted for core
+ - file.t moved from string checking to error code check
+ - file.t uses File::Spec->tmpdir()
+ - require Math::BigInt only if not in 64-bit mode
+ - remove indirect object notation in File.pm
+ - "Exterminate PL_na" by Nicholas Clark
+
+0.1001 2006-07-02 14:04
+ - Minor doc tweak, release as standalone for sychronization with
+ version in bleadperl (future 5.10)
+
+0.10 2005-09-09
+ - Added GetFileAttributes() function and corresponding constants.
+ (Patches from Kenneth Olwing from 2004-11-12).
+ - cygwin patches from Rafael Kitover and Reini Urban.
+ This includes the addition of the GetFileSize(), getFileSize()
+ setFilePointer() and GetOverlappedResult() methods and the
+ experimental new object oriented interface. All file position
+ operations use either Math::BigInt objects or 8 byte integers
+ (cygwin) for file offsets.
+
+0.0901 2005-08-30
+ - increased version number to show difference to standalone
+ CPAN release of Win32API-File-0.09.zip
+
+0.09 2005-02-18
+ - Support 5.007+
+
+0.09 [libwin32 version only]
+ - Add AUTHOR and ABSTRACT_FROM to Makefile.PL.
+ - Trivial speed improvements.
+ - Fixed F<test.pl> if Z: is a valid drive letter.
+
+0.08 2000-04-07
+ - C<GetOsFHandle> now returns false for failure.
+ - New F<buffers.h> supports C++ compilers.
+ - Read-only output-only parameters now generate an error.
+ - Added fileLastError() since C<$^E> is often quickly overwritten.
+ - Complete rewrite of how C constants are made available in Perl.
+ - Added fileConstant(), a nice way to look-up constants at run time.
+ - Added Get/SetHandleInformation and HANDLE_FLAG_* constants.
+ - Added IOCTL_DISK_GET_MEDIA_TYPES since *_STORAGE_* fails for floppy.
+ - Added several example scripts.
+
+0.07 1999-08-17
+ - Added DeleteFile().
+ - Removed prototypes from OsFHandleOpen() and GetOsFHandle() since
+ the C<*> doesn't prevent warnings about bareword file handles and
+ prevents the useful usage message if no arguments given.
+ - Fixed bug due to failed C<(/k/i,/t/i)> in list context returning
+ C<()> not C<(undef,undef)> in modern versions of Perl.
+ - Change order of C<#include>s so can build with Perl5.005 and later.
+ - Fixed C<test.pl> to ignore Perl bug where C<$^E> is truncated.
+ - Turned on C<CAPI> in C<Makefile.PL> for certain versions of Perl.
+ - Updated C<README>.
+
+0.06 1999-08-10
+ - Switch to new buffers.h and "Hungarian" notation!
+ - Added full documentation!
+ - ReadFile() no longer tries to read more bytes than asked for
+ just because the scalar buffer can hold more bytes!
+ - createFile() does better DWIM for share mode.
+ - Return SV_NO rather than C<0> for Boolean false.
+ - For boolean args, non-empty strings are C<1>, don't convert to int.
+ - Added ":MEDIA_TYPE" export class.
+ - Added C<GENERIC_ALL> and C<GENERIC_EXECUTE> to ":GENERIC_" exports.
+ - Added C<FdGetOsFHandle()> and C<GetOsFHandle()>!
+ - Added C<OsFHandleOpenFd()> and C<OsFHandleOpen()>!
+ - Support calling C<constant()> without the useless integer argument.
+ - Auto-load/export constants with C<()> prototype so can be in-lined.
+ - Added C<IsRecognizedPartition()> and C<IsContainerPartition()>.
+ - Added C<getLogicalDrives()>.
+ - Added ":FILE_" export class for specific types of access to files.
+ - Added C<SECURITY_SQOS_PRESENT> to ":SECURITY_" export class.
+ - Added ":PARTITION_" export class for partition types.
+ - Seriously bulked up the test suite.
+
+0.05 1998-08-21
+ - "-w" no longer warns that a buffer size of "=99" "isn't numeric".
+ nor if pass undef var for buffer size or output-only parameter.
+ - Added SetErrorMode() and :SEM_.
+ - createFile() sharing now defaults to "rw" to match C RTL.
+ - createFile() was ignoring "r" and "w" in access masks.
+
+0.04 1998-08-13
+ - Added GetLogicalDrives and GetLogicalDriveStrings.
+ - Added GetDriveType and GetVolumeInformation.
+ - Added DRIVE_* for GetDriveType().
+ - Added FS_* for GetVolumeInformation().
+ - Added createFile(), getLogicalDrives(), and attrLetsToBits() helpers.
+ - CreateFile() returns: INVALID_HANDLE_VALUE->false, 0->"0 but true".
+ - More standardized "Hungarian" notation and uses buffers.h.
+ - Large unsigned values no longer made negative.
+
+0.03 1998-04-25
+ - Added DDD_* constants to File.pm and moved codes mistakenly
+ exported for :DDD_ to be exported for :Misc.
+ - Split large group of constants to increase efficiency.
+ - Minor cosmetic fixes.
+
+0.02 1998-03-03
+ - Added DeviceIoControl().
+ - Added some IOCTL_STORAGE_* and IOCTL_DISK_* constants
+ - Taught test.pl to verify all exported functions and constants.
+
+0.01 1997-12-08
+ - original version; based on Win32API::Registry.
+ - release to partner
diff --git a/cpan/Win32API-File/ExtUtils/Myconst2perl.pm b/cpan/Win32API-File/ExtUtils/Myconst2perl.pm
new file mode 100644
index 0000000000..17dace772b
--- /dev/null
+++ b/cpan/Win32API-File/ExtUtils/Myconst2perl.pm
@@ -0,0 +1,362 @@
+# This should eventually become part of MakeMaker as ExtUtils::Mkconst2perl.
+# Documentation for this is very skimpy at this point. Full documentation
+# will be added to ExtUtils::Mkconst2perl when it is created.
+package # Hide from PAUSE
+ ExtUtils::Myconst2perl;
+
+use strict;
+use Config;
+
+use vars qw( @ISA @EXPORT @EXPORT_OK $VERSION );
+BEGIN {
+ require Exporter;
+ push @ISA, 'Exporter';
+ @EXPORT= qw( &Myconst2perl );
+ @EXPORT_OK= qw( &ParseAttribs );
+ $VERSION= 1.00;
+}
+
+use Carp;
+use File::Basename;
+use ExtUtils::MakeMaker qw( neatvalue );
+
+# Return the extension to use for a file of C++ source code:
+sub _cc
+{
+ # Some day, $Config{_cc} might be defined for us:
+ return $Config{_cc} if $Config{_cc};
+ return ".cxx"; # Seems to be the most widely accepted extension.
+}
+
+=item ParseAttribs
+
+Parses user-firendly options into coder-firendly specifics.
+
+=cut
+
+sub ParseAttribs
+{
+ # Usage: ParseAttribs( "Package::Name", \%opts, {opt=>\$var} );
+ my( $pkg, $hvAttr, $hvRequests )= @_;
+ my( $outfile, @perlfiles, %perlfilecodes, @cfiles, %cfilecodes );
+ my @importlist= @{$hvAttr->{IMPORT_LIST}};
+ my $perlcode= $hvAttr->{PERL_PE_CODE} ||
+ 'last if /^\s*(bootstrap|XSLoader::load)\b/';
+ my $ccode= $hvAttr->{C_PE_CODE} ||
+ 'last if m#/[/*]\s*CONSTS_DEFINED\b|^\s*MODULE\b#';
+ my $ifdef= $hvAttr->{IFDEF} || 0;
+ my $writeperl= !! $hvAttr->{WRITE_PERL};
+ my $export= !! $hvAttr->{DO_EXPORT};
+ my $importto= $hvAttr->{IMPORT_TO} || "_constants";
+ my $cplusplus= $hvAttr->{CPLUSPLUS};
+ $cplusplus= "" if ! defined $cplusplus;
+ my $object= "";
+ my $binary= "";
+ my $final= "";
+ my $norebuild= "";
+ my $subroutine= "";
+ my $base;
+ my %params= (
+ PERL_PE_CODE => \$perlcode,
+ PERL_FILE_LIST => \@perlfiles,
+ PERL_FILE_CODES => \%perlfilecodes,
+ PERL_FILES => sub { map {($_,$perlfilecodes{$_})} @perlfiles },
+ C_PE_CODE => \$ccode,
+ C_FILE_LIST => \@cfiles,
+ C_FILE_CODES => \%cfilecodes,
+ C_FILES => sub { map {($_,$cfilecodes{$_})} @cfiles },
+ DO_EXPORT => \$export,
+ IMPORT_TO => \$importto,
+ IMPORT_LIST => \@importlist,
+ SUBROUTINE => \$subroutine,
+ IFDEF => \$ifdef,
+ WRITE_PERL => \$writeperl,
+ CPLUSPLUS => \$cplusplus,
+ BASEFILENAME => \$base,
+ OUTFILE => \$outfile,
+ OBJECT => \$object,
+ BINARY => \$binary,
+ FINAL_PERL => \$final,
+ NO_REBUILD => \$norebuild,
+ );
+ { my @err= grep {! defined $params{$_}} keys %$hvAttr;
+ carp "ExtUtils::Myconst2perl::ParseAttribs: ",
+ "Unsupported option(s) (@err).\n"
+ if @err;
+ }
+ $norebuild= $hvAttr->{NO_REBUILD} if exists $hvAttr->{NO_REBUILD};
+ my $module= ( split /::/, $pkg )[-1];
+ $base= "c".$module;
+ $base= $hvAttr->{BASEFILENAME} if exists $hvAttr->{BASEFILENAME};
+ my $ext= ! $cplusplus ? ($Config{_c}||".c")
+ : $cplusplus =~ /^[.]/ ? $cplusplus : _cc();
+ if( $writeperl ) {
+ $outfile= $base . "_pc" . $ext;
+ $object= $base . "_pc" . ($Config{_o}||$Config{obj_ext});
+ $object= $hvAttr->{OBJECT} if $hvAttr->{OBJECT};
+ $binary= $base . "_pc" . ($Config{_exe}||$Config{exe_ext});
+ $binary= $hvAttr->{BINARY} if $hvAttr->{BINARY};
+ $final= $base . ".pc";
+ $final= $hvAttr->{FINAL_PERL} if $hvAttr->{FINAL_PERL};
+ $subroutine= "main";
+ } elsif( $cplusplus ) {
+ $outfile= $base . $ext;
+ $object= $base . ($Config{_o}||$Config{obj_ext});
+ $object= $hvAttr->{OBJECT} if $hvAttr->{OBJECT};
+ $subroutine= "const2perl_" . $pkg;
+ $subroutine =~ s/\W/_/g;
+ } else {
+ $outfile= $base . ".h";
+ }
+ $outfile= $hvAttr->{OUTFILE} if $hvAttr->{OUTFILE};
+ if( $hvAttr->{PERL_FILES} ) {
+ carp "ExtUtils::Myconst2perl: PERL_FILES option not allowed ",
+ "with PERL_FILE_LIST nor PERL_FILE_CODES.\n"
+ if $hvAttr->{PERL_FILE_LIST} || $hvAttr->{PERL_FILE_CODES};
+ %perlfilecodes= @{$hvAttr->{PERL_FILES}};
+ my $odd= 0;
+ @perlfiles= grep {$odd= !$odd} @{$hvAttr->{PERL_FILES}};
+ } else {
+ if( $hvAttr->{PERL_FILE_LIST} ) {
+ @perlfiles= @{$hvAttr->{PERL_FILE_LIST}};
+ } elsif( $hvAttr->{PERL_FILE_CODES} ) {
+ @perlfiles= keys %{$hvAttr->{PERL_FILE_CODES}};
+ } else {
+ @perlfiles= ( "$module.pm" );
+ }
+ %perlfilecodes= %{$hvAttr->{PERL_FILE_CODES}}
+ if $hvAttr->{PERL_FILE_CODES};
+ }
+ for my $file ( @perlfiles ) {
+ $perlfilecodes{$file}= $perlcode if ! $perlfilecodes{$file};
+ }
+ if( ! $subroutine ) {
+ ; # Don't process any C source code files.
+ } elsif( $hvAttr->{C_FILES} ) {
+ carp "ExtUtils::Myconst2perl: C_FILES option not allowed ",
+ "with C_FILE_LIST nor C_FILE_CODES.\n"
+ if $hvAttr->{C_FILE_LIST} || $hvAttr->{C_FILE_CODES};
+ %cfilecodes= @{$hvAttr->{C_FILES}};
+ my $odd= 0;
+ @cfiles= grep {$odd= !$odd} @{$hvAttr->{C_FILES}};
+ } else {
+ if( $hvAttr->{C_FILE_LIST} ) {
+ @cfiles= @{$hvAttr->{C_FILE_LIST}};
+ } elsif( $hvAttr->{C_FILE_CODES} ) {
+ @cfiles= keys %{$hvAttr->{C_FILE_CODES}};
+ } elsif( $writeperl || $cplusplus ) {
+ @cfiles= ( "$module.xs" );
+ }
+ %cfilecodes= %{$hvAttr->{C_FILE_CODES}} if $hvAttr->{C_FILE_CODES};
+ }
+ for my $file ( @cfiles ) {
+ $cfilecodes{$file}= $ccode if ! $cfilecodes{$file};
+ }
+ for my $key ( keys %$hvRequests ) {
+ if( ! $params{$key} ) {
+ carp "ExtUtils::Myconst2perl::ParseAttribs: ",
+ "Unsupported output ($key).\n";
+ } elsif( "SCALAR" eq ref( $params{$key} ) ) {
+ ${$hvRequests->{$key}}= ${$params{$key}};
+ } elsif( "ARRAY" eq ref( $params{$key} ) ) {
+ @{$hvRequests->{$key}}= @{$params{$key}};
+ } elsif( "HASH" eq ref( $params{$key} ) ) {
+ %{$hvRequests->{$key}}= %{$params{$key}};
+ } elsif( "CODE" eq ref( $params{$key} ) ) {
+ @{$hvRequests->{$key}}= &{$params{$key}};
+ } else {
+ die "Impossible value in \$params{$key}";
+ }
+ }
+}
+
+=item Myconst2perl
+
+Generates a file used to implement C constants as "constant subroutines" in
+a Perl module.
+
+Extracts a list of constants from a module's export list by C<eval>ing the
+first part of the Module's F<*.pm> file and then requesting some groups of
+symbols be exported/imported into a dummy package. Then writes C or C++
+code that can convert each C constant into a Perl "constant subroutine"
+whose name is the constant's name and whose value is the constant's value.
+
+=cut
+
+sub Myconst2perl
+{
+ my( $pkg, %spec )= @_;
+ my( $outfile, $writeperl, $ifdef, $export, $importto, @importlist,
+ @perlfile, %perlcode, @cfile, %ccode, $routine );
+ ParseAttribs( $pkg, \%spec, {
+ DO_EXPORT => \$export,
+ IMPORT_TO => \$importto,
+ IMPORT_LIST => \@importlist,
+ IFDEF => \$ifdef,
+ WRITE_PERL => \$writeperl,
+ OUTFILE => \$outfile,
+ PERL_FILE_LIST => \@perlfile,
+ PERL_FILE_CODES => \%perlcode,
+ C_FILE_LIST => \@cfile,
+ C_FILE_CODES => \%ccode,
+ SUBROUTINE => \$routine,
+ } );
+ my $module= ( split /::/, $pkg )[-1];
+
+ warn "Writing $outfile...\n";
+ open( STDOUT, ">$outfile" ) or die "Can't create $outfile: $!\n";
+
+ my $code= "";
+ my $file;
+ foreach $file ( @perlfile ) {
+ warn "Reading Perl file, $file: $perlcode{$file}\n";
+ open( MODULE, "<$file" ) or die "Can't read Perl file, $file: $!\n";
+ eval qq[
+ while( <MODULE> ) {
+ $perlcode{$file};
+ \$code .= \$_;
+ }
+ 1;
+ ] or die "$file eval: $@\n";
+ close( MODULE );
+ }
+
+ print
+ "/* $outfile - Generated by ExtUtils::Myconst2perl::Myconst2perl */\n";
+ if( $routine ) {
+ print "/* See start of $routine() for generation parameters used */\n";
+ #print "#define main _main_proto"
+ # " /* Ignore Perl's main() prototype */\n\n";
+ if( $writeperl ) {
+ # Here are more reasons why the WRITE_PERL option is discouraged.
+ if( $Config{useperlio} ) {
+ print "#define PERLIO_IS_STDIO 1\n";
+ }
+ print "#define WIN32IO_IS_STDIO 1\n"; # May cause a warning
+ print "#define NO_XSLOCKS 1\n"; # What a hack!
+ }
+ foreach $file ( @cfile ) {
+ warn "Reading C file, $file: $ccode{$file}\n";
+ open( XS, "<$file" ) or die "Can't read C file, $file: $!\n";
+ my $code= $ccode{$file};
+ $code =~ s#\\#\\\\#g;
+ $code =~ s#([^\s -~])#"\\x".sprintf "%02X",unpack "C",$1#ge;
+ $code =~ s#[*]/#*\\/#g;
+ print qq[\n/* Include $file: $code */\n];
+ print qq[\n#line 1 "$file"\n];
+ eval qq[
+ while( <XS> ) {
+ $ccode{$file};
+ print;
+ }
+ 1;
+ ] or die "$file eval: $@\n";
+ close( XS );
+ }
+ #print qq[\n#undef main\n];
+ print qq[\n#define CONST2WRITE_PERL\n];
+ print qq[\n#include "const2perl.h"\n\n];
+ if( $writeperl ) {
+ print "int\nmain( int argc, char *argv[], char *envp[] )\n";
+ } else {
+ print "void\n$routine( void )\n";
+ }
+ }
+ print "{\n";
+
+ {
+ @ExtUtils::Myconst2perl::importlist= @importlist;
+ my $var= '@ExtUtils::Myconst2perl::importlist';
+ my $port= $export ? "export" : "import";
+ my $arg2= $export ? "q[$importto]," : "";
+ local( $^W )= 0;
+ eval $code . "{\n"
+ . " { package $importto;\n"
+ . " warn qq[\u${port}ing to $importto: $var\\n];\n"
+ . " \$pkg->$port( $arg2 $var );\n"
+ . " }\n"
+ . " { no strict 'refs';\n"
+ . " $var= sort keys %{'_constants::'}; }\n"
+ . " warn 0 + $var, qq[ symbols ${port}ed.\\n];\n"
+ . "}\n1;\n"
+ or die "eval: $@\n";
+ }
+ my @syms= @ExtUtils::Myconst2perl::importlist;
+
+ my $if;
+ my $const;
+ print qq[ START_CONSTS( "$pkg" ) /* No ";" */\n];
+ {
+ my( $head, $tail )= ( "/*", "\n" );
+ if( $writeperl ) {
+ $head= ' printf( "#';
+ $tail= '\\n" );' . "\n";
+ print $head, " Generated by $outfile.", $tail;
+ }
+ print $head, " Package $pkg with options:", $tail;
+ $head= " *" if ! $writeperl;
+ my $key;
+ foreach $key ( sort keys %spec ) {
+ my $val= neatvalue($spec{$key});
+ $val =~ s/\\/\\\\/g if $writeperl;
+ print $head, " $key => ", $val, $tail;
+ }
+ print $head, " Perl files eval'd:", $tail;
+ foreach $key ( @perlfile ) {
+ my $code= $perlcode{$key};
+ $code =~ s#\\#\\\\#g;
+ $code =~ s#([^ -~])#"\\".sprintf "%03o",unpack "C",$1#ge;
+ $code =~ s#"#\\"#g if $writeperl;
+ print $head, " $key => ", $code, $tail;
+ }
+ if( $writeperl ) {
+ print $head, " C files included:", $tail;
+ foreach $key ( @cfile ) {
+ my $code= $ccode{$key};
+ $code =~ s#\\#\\\\#g;
+ $code =~ s#([^ -~])#"\\".sprintf "%03o",unpack "C",$1#ge;
+ $code =~ s#"#\\"#g;
+ print $head, " $key => ", $code, $tail;
+ }
+ } else {
+ print " */\n";
+ }
+ }
+ if( ! ref($ifdef) && $ifdef =~ /[^\s\w]/ ) {
+ my $sub= $ifdef;
+ $sub= 'sub { local($_)= @_; ' . $sub . ' }'
+ unless $sub =~ /^\s*sub\b/;
+ $ifdef= eval $sub;
+ die "$@: $sub\n" if $@;
+ if( "CODE" ne ref($ifdef) ) {
+ die "IFDEF didn't create subroutine reference: eval $sub\n";
+ }
+ }
+ foreach $const ( @syms ) {
+ $if= "CODE" eq ref($ifdef) ? $ifdef->($const) : $ifdef;
+ if( ! $if ) {
+ $if= "";
+ } elsif( "1" eq $if ) {
+ $if= "#ifdef $const\n";
+ } elsif( $if !~ /^#/ ) {
+ $if= "#ifdef $if\n";
+ } else {
+ $if= "$if\n";
+ }
+ print $if
+ . qq[ const2perl( $const );\n];
+ if( $if ) {
+ print "#else\n"
+ . qq[ noconst( $const );\n]
+ . "#endif\n";
+ }
+ }
+ if( $writeperl ) {
+ print
+ qq[ printf( "1;\\n" );\n],
+ qq[ return( 0 );\n];
+ }
+ print "}\n";
+}
+
+1;
diff --git a/cpan/Win32API-File/File.pm b/cpan/Win32API-File/File.pm
new file mode 100644
index 0000000000..a6473520ae
--- /dev/null
+++ b/cpan/Win32API-File/File.pm
@@ -0,0 +1,3035 @@
+# File.pm -- Low-level access to Win32 file/dir functions/constants.
+
+package Win32API::File;
+
+use strict;
+use integer;
+use Carp;
+use Config qw( %Config );
+use Fcntl qw( O_RDONLY O_RDWR O_WRONLY O_APPEND O_BINARY O_TEXT );
+use vars qw( $VERSION @ISA );
+use vars qw( @EXPORT @EXPORT_OK @EXPORT_FAIL %EXPORT_TAGS );
+
+$VERSION= '0.1101';
+
+use base qw( Exporter DynaLoader Tie::Handle IO::File );
+
+# Math::BigInt optimizations courtesy of Tels
+my $_64BITINT;
+BEGIN {
+ $_64BITINT = defined($Config{use64bitint}) &&
+ ($Config{use64bitint} eq 'define');
+
+ require Math::BigInt unless $_64BITINT;
+}
+
+my $THIRTY_TWO = $_64BITINT ? 32 : Math::BigInt->new(32);
+
+my $FFFFFFFF = $_64BITINT ? 0xFFFFFFFF : Math::BigInt->new(0xFFFFFFFF);
+
+@EXPORT= qw();
+%EXPORT_TAGS= (
+ Func => [qw( attrLetsToBits createFile
+ fileConstant fileLastError getLogicalDrives
+ CloseHandle CopyFile CreateFile
+ DefineDosDevice DeleteFile DeviceIoControl
+ FdGetOsFHandle GetDriveType GetFileAttributes GetFileType
+ GetHandleInformation GetLogicalDrives GetLogicalDriveStrings
+ GetOsFHandle GetVolumeInformation IsRecognizedPartition
+ IsContainerPartition MoveFile MoveFileEx
+ OsFHandleOpen OsFHandleOpenFd QueryDosDevice
+ ReadFile SetErrorMode SetFilePointer
+ SetHandleInformation WriteFile GetFileSize
+ getFileSize setFilePointer GetOverlappedResult)],
+ FuncA => [qw(
+ CopyFileA CreateFileA DefineDosDeviceA
+ DeleteFileA GetDriveTypeA GetFileAttributesA GetLogicalDriveStringsA
+ GetVolumeInformationA MoveFileA MoveFileExA
+ QueryDosDeviceA )],
+ FuncW => [qw(
+ CopyFileW CreateFileW DefineDosDeviceW
+ DeleteFileW GetDriveTypeW GetFileAttributesW GetLogicalDriveStringsW
+ GetVolumeInformationW MoveFileW MoveFileExW
+ QueryDosDeviceW )],
+ Misc => [qw(
+ CREATE_ALWAYS CREATE_NEW FILE_BEGIN
+ FILE_CURRENT FILE_END INVALID_HANDLE_VALUE
+ OPEN_ALWAYS OPEN_EXISTING TRUNCATE_EXISTING )],
+ DDD_ => [qw(
+ DDD_EXACT_MATCH_ON_REMOVE DDD_RAW_TARGET_PATH
+ DDD_REMOVE_DEFINITION )],
+ DRIVE_ => [qw(
+ DRIVE_UNKNOWN DRIVE_NO_ROOT_DIR DRIVE_REMOVABLE
+ DRIVE_FIXED DRIVE_REMOTE DRIVE_CDROM
+ DRIVE_RAMDISK )],
+ FILE_ => [qw(
+ FILE_READ_DATA FILE_LIST_DIRECTORY
+ FILE_WRITE_DATA FILE_ADD_FILE
+ FILE_APPEND_DATA FILE_ADD_SUBDIRECTORY
+ FILE_CREATE_PIPE_INSTANCE FILE_READ_EA
+ FILE_WRITE_EA FILE_EXECUTE
+ FILE_TRAVERSE FILE_DELETE_CHILD
+ FILE_READ_ATTRIBUTES FILE_WRITE_ATTRIBUTES
+ FILE_ALL_ACCESS FILE_GENERIC_READ
+ FILE_GENERIC_WRITE FILE_GENERIC_EXECUTE )],
+ FILE_ATTRIBUTE_ => [qw(
+ INVALID_FILE_ATTRIBUTES
+ FILE_ATTRIBUTE_DEVICE FILE_ATTRIBUTE_DIRECTORY
+ FILE_ATTRIBUTE_ENCRYPTED FILE_ATTRIBUTE_NOT_CONTENT_INDEXED
+ FILE_ATTRIBUTE_REPARSE_POINT FILE_ATTRIBUTE_SPARSE_FILE
+ FILE_ATTRIBUTE_ARCHIVE FILE_ATTRIBUTE_COMPRESSED
+ FILE_ATTRIBUTE_HIDDEN FILE_ATTRIBUTE_NORMAL
+ FILE_ATTRIBUTE_OFFLINE FILE_ATTRIBUTE_READONLY
+ FILE_ATTRIBUTE_SYSTEM FILE_ATTRIBUTE_TEMPORARY )],
+ FILE_FLAG_ => [qw(
+ FILE_FLAG_BACKUP_SEMANTICS FILE_FLAG_DELETE_ON_CLOSE
+ FILE_FLAG_NO_BUFFERING FILE_FLAG_OVERLAPPED
+ FILE_FLAG_POSIX_SEMANTICS FILE_FLAG_RANDOM_ACCESS
+ FILE_FLAG_SEQUENTIAL_SCAN FILE_FLAG_WRITE_THROUGH
+ FILE_FLAG_OPEN_REPARSE_POINT )],
+ FILE_SHARE_ => [qw(
+ FILE_SHARE_DELETE FILE_SHARE_READ FILE_SHARE_WRITE )],
+ FILE_TYPE_ => [qw(
+ FILE_TYPE_CHAR FILE_TYPE_DISK FILE_TYPE_PIPE
+ FILE_TYPE_UNKNOWN )],
+ FS_ => [qw(
+ FS_CASE_IS_PRESERVED FS_CASE_SENSITIVE
+ FS_UNICODE_STORED_ON_DISK FS_PERSISTENT_ACLS
+ FS_FILE_COMPRESSION FS_VOL_IS_COMPRESSED )],
+ FSCTL_ => [qw(
+ FSCTL_SET_REPARSE_POINT FSCTL_GET_REPARSE_POINT
+ FSCTL_DELETE_REPARSE_POINT )],
+ HANDLE_FLAG_ => [qw(
+ HANDLE_FLAG_INHERIT HANDLE_FLAG_PROTECT_FROM_CLOSE )],
+ IOCTL_STORAGE_ => [qw(
+ IOCTL_STORAGE_CHECK_VERIFY IOCTL_STORAGE_MEDIA_REMOVAL
+ IOCTL_STORAGE_EJECT_MEDIA IOCTL_STORAGE_LOAD_MEDIA
+ IOCTL_STORAGE_RESERVE IOCTL_STORAGE_RELEASE
+ IOCTL_STORAGE_FIND_NEW_DEVICES IOCTL_STORAGE_GET_MEDIA_TYPES
+ )],
+ IOCTL_DISK_ => [qw(
+ IOCTL_DISK_FORMAT_TRACKS IOCTL_DISK_FORMAT_TRACKS_EX
+ IOCTL_DISK_GET_DRIVE_GEOMETRY IOCTL_DISK_GET_DRIVE_LAYOUT
+ IOCTL_DISK_GET_MEDIA_TYPES IOCTL_DISK_GET_PARTITION_INFO
+ IOCTL_DISK_HISTOGRAM_DATA IOCTL_DISK_HISTOGRAM_RESET
+ IOCTL_DISK_HISTOGRAM_STRUCTURE IOCTL_DISK_IS_WRITABLE
+ IOCTL_DISK_LOGGING IOCTL_DISK_PERFORMANCE
+ IOCTL_DISK_REASSIGN_BLOCKS IOCTL_DISK_REQUEST_DATA
+ IOCTL_DISK_REQUEST_STRUCTURE IOCTL_DISK_SET_DRIVE_LAYOUT
+ IOCTL_DISK_SET_PARTITION_INFO IOCTL_DISK_VERIFY )],
+ GENERIC_ => [qw(
+ GENERIC_ALL GENERIC_EXECUTE
+ GENERIC_READ GENERIC_WRITE )],
+ MEDIA_TYPE => [qw(
+ Unknown F5_1Pt2_512 F3_1Pt44_512
+ F3_2Pt88_512 F3_20Pt8_512 F3_720_512
+ F5_360_512 F5_320_512 F5_320_1024
+ F5_180_512 F5_160_512 RemovableMedia
+ FixedMedia F3_120M_512 )],
+ MOVEFILE_ => [qw(
+ MOVEFILE_COPY_ALLOWED MOVEFILE_DELAY_UNTIL_REBOOT
+ MOVEFILE_REPLACE_EXISTING MOVEFILE_WRITE_THROUGH )],
+ SECURITY_ => [qw(
+ SECURITY_ANONYMOUS SECURITY_CONTEXT_TRACKING
+ SECURITY_DELEGATION SECURITY_EFFECTIVE_ONLY
+ SECURITY_IDENTIFICATION SECURITY_IMPERSONATION
+ SECURITY_SQOS_PRESENT )],
+ SEM_ => [qw(
+ SEM_FAILCRITICALERRORS SEM_NOGPFAULTERRORBOX
+ SEM_NOALIGNMENTFAULTEXCEPT SEM_NOOPENFILEERRORBOX )],
+ PARTITION_ => [qw(
+ PARTITION_ENTRY_UNUSED PARTITION_FAT_12
+ PARTITION_XENIX_1 PARTITION_XENIX_2
+ PARTITION_FAT_16 PARTITION_EXTENDED
+ PARTITION_HUGE PARTITION_IFS
+ PARTITION_FAT32 PARTITION_FAT32_XINT13
+ PARTITION_XINT13 PARTITION_XINT13_EXTENDED
+ PARTITION_PREP PARTITION_UNIX
+ VALID_NTFT PARTITION_NTFT )],
+);
+@EXPORT_OK= ();
+{
+ my $key;
+ foreach $key ( keys(%EXPORT_TAGS) ) {
+ push( @EXPORT_OK, @{$EXPORT_TAGS{$key}} );
+ #push( @EXPORT_FAIL, @{$EXPORT_TAGS{$key}} ) unless $key =~ /^Func/;
+ }
+}
+$EXPORT_TAGS{ALL}= \@EXPORT_OK;
+
+bootstrap Win32API::File $VERSION;
+
+# Preloaded methods go here.
+
+# To convert C constants to Perl code in cFile.pc
+# [instead of C or C++ code in cFile.h]:
+# * Modify F<Makefile.PL> to add WriteMakeFile() =>
+# CONST2PERL/postamble => [[ "Win32API::File" => ]] WRITE_PERL => 1.
+# * Either comment out C<#include "cFile.h"> from F<File.xs>
+# or make F<cFile.h> an empty file.
+# * Make sure the following C<if> block is not commented out.
+# * "nmake clean", "perl Makefile.PL", "nmake"
+
+if( ! defined &GENERIC_READ ) {
+ require "Win32API/File/cFile.pc";
+}
+
+sub fileConstant
+{
+ my( $name )= @_;
+ if( 1 != @_ || ! $name || $name =~ /\W/ ) {
+ require Carp;
+ Carp::croak( 'Usage: ',__PACKAGE__,'::fileConstant("CONST_NAME")' );
+ }
+ my $proto= prototype $name;
+ if( defined \&$name
+ && defined $proto
+ && "" eq $proto ) {
+ no strict 'refs';
+ return &$name;
+ }
+ return undef;
+}
+
+# We provide this for backwards compatibility:
+sub constant
+{
+ my( $name )= @_;
+ my $value= fileConstant( $name );
+ if( defined $value ) {
+ $!= 0;
+ return $value;
+ }
+ $!= 11; # EINVAL
+ return 0;
+}
+
+# BEGIN {
+# my $code= 'return _fileLastError(@_)';
+# local( $!, $^E )= ( 1, 1 );
+# if( $! ne $^E ) {
+# $code= '
+# local( $^E )= _fileLastError(@_);
+# my $ret= $^E;
+# return $ret;
+# ';
+# }
+# eval "sub fileLastError { $code }";
+# die "$@" if $@;
+# }
+
+package Win32API::File::_error;
+
+use overload
+ '""' => sub {
+ require Win32 unless defined &Win32::FormatMessage;
+ $_ = Win32::FormatMessage(Win32API::File::_fileLastError());
+ tr/\r\n//d;
+ return $_;
+ },
+ '0+' => sub { Win32API::File::_fileLastError() },
+ 'fallback' => 1;
+
+sub new { return bless {}, shift }
+sub set { Win32API::File::_fileLastError($_[1]); return $_[0] }
+
+package Win32API::File;
+
+my $_error = Win32API::File::_error->new();
+
+sub fileLastError {
+ croak 'Usage: ',__PACKAGE__,'::fileLastError( [$setWin32ErrCode] )' if @_ > 1;
+ $_error->set($_[0]) if defined $_[0];
+ return $_error;
+}
+
+# Since we ISA DynaLoader which ISA AutoLoader, we ISA AutoLoader so we
+# need this next chunk to prevent Win32API::File->nonesuch() from
+# looking for "nonesuch.al" and producing confusing error messages:
+use vars qw($AUTOLOAD);
+sub AUTOLOAD {
+ require Carp;
+ Carp::croak(
+ "Can't locate method $AUTOLOAD via package Win32API::File" );
+}
+
+# Replace "&rout;" with "goto &rout;" when that is supported on Win32.
+
+# Aliases for non-Unicode functions:
+sub CopyFile { &CopyFileA; }
+sub CreateFile { &CreateFileA; }
+sub DefineDosDevice { &DefineDosDeviceA; }
+sub DeleteFile { &DeleteFileA; }
+sub GetDriveType { &GetDriveTypeA; }
+sub GetFileAttributes { &GetFileAttributesA; }
+sub GetLogicalDriveStrings { &GetLogicalDriveStringsA; }
+sub GetVolumeInformation { &GetVolumeInformationA; }
+sub MoveFile { &MoveFileA; }
+sub MoveFileEx { &MoveFileExA; }
+sub QueryDosDevice { &QueryDosDeviceA; }
+
+sub OsFHandleOpen {
+ if( 3 != @_ ) {
+ croak 'Win32API::File Usage: ',
+ 'OsFHandleOpen(FILE,$hNativeHandle,"rwatb")';
+ }
+ my( $fh, $osfh, $access )= @_;
+ if( ! ref($fh) ) {
+ if( $fh !~ /('|::)/ ) {
+ $fh= caller() . "::" . $fh;
+ }
+ no strict "refs";
+ $fh= \*{$fh};
+ }
+ my( $mode, $pref );
+ if( $access =~ /r/i ) {
+ if( $access =~ /w/i ) {
+ $mode= O_RDWR;
+ $pref= "+<";
+ } else {
+ $mode= O_RDONLY;
+ $pref= "<";
+ }
+ } else {
+ if( $access =~ /w/i ) {
+ $mode= O_WRONLY;
+ $pref= ">";
+ } else {
+ # croak qq<Win32API::File::OsFHandleOpen(): >,
+ # qq<Access ($access) missing both "r" and "w">;
+ $mode= O_RDONLY;
+ $pref= "<";
+ }
+ }
+ $mode |= O_APPEND if $access =~ /a/i;
+ #$mode |= O_TEXT if $access =~ /t/i;
+ # Some versions of the Fcntl module are broken and won't autoload O_TEXT:
+ if( $access =~ /t/i ) {
+ my $o_text= eval "O_TEXT";
+ $o_text= 0x4000 if $@;
+ $mode |= $o_text;
+ }
+ $mode |= O_BINARY if $access =~ /b/i;
+ my $fd = eval { OsFHandleOpenFd( $osfh, $mode ) };
+ if ($@) {
+ return tie *{$fh}, __PACKAGE__, $osfh;
+ }
+ return undef if $fd < 0;
+ return open( $fh, $pref."&=".$fd );
+}
+
+sub GetOsFHandle {
+ if( 1 != @_ ) {
+ croak 'Win32API::File Usage: $OsFHandle= GetOsFHandle(FILE)';
+ }
+ my( $file )= @_;
+ if( ! ref($file) ) {
+ if( $file !~ /('|::)/ ) {
+ $file= caller() . "::" . $file;
+ }
+ no strict "refs";
+ # The eval "" is necessary in Perl 5.6, avoid it otherwise.
+ my $tied = !defined($^]) || $^] < 5.008
+ ? eval "tied *{$file}"
+ : tied *{$file};
+
+ if (UNIVERSAL::isa($tied => __PACKAGE__)) {
+ return $tied->win32_handle;
+ }
+
+ $file= *{$file};
+ }
+ my( $fd )= fileno($file);
+ if( ! defined( $fd ) ) {
+ if( $file =~ /^\d+\Z/ ) {
+ $fd= $file;
+ } else {
+ return (); # $! should be set by fileno().
+ }
+ }
+ my $h= FdGetOsFHandle( $fd );
+ if( INVALID_HANDLE_VALUE() == $h ) {
+ $h= "";
+ } elsif( "0" eq $h ) {
+ $h= "0 but true";
+ }
+ return $h;
+}
+
+sub getFileSize {
+ croak 'Win32API::File Usage: $size= getFileSize($hNativeHandle)'
+ if @_ != 1;
+
+ my $handle = shift;
+ my $high_size = 0;
+
+ my $low_size = GetFileSize($handle, $high_size);
+
+ my $retval = $_64BITINT ? $high_size : Math::BigInt->new($high_size);
+
+ $retval <<= $THIRTY_TWO;
+ $retval += $low_size;
+
+ return $retval;
+}
+
+sub setFilePointer {
+ croak 'Win32API::File Usage: $pos= setFilePointer($hNativeHandle, $posl, $from_where)'
+ if @_ != 3;
+
+ my ($handle, $pos, $from_where) = @_;
+
+ my ($pos_low, $pos_high) = ($pos, 0);
+
+ if ($_64BITINT) {
+ $pos_low = ($pos & $FFFFFFFF);
+ $pos_high = (($pos >> $THIRTY_TWO) & $FFFFFFFF);
+ }
+ elsif (UNIVERSAL::isa($pos => 'Math::BigInt')) {
+ $pos_low = ($pos & $FFFFFFFF)->numify();
+ $pos_high = (($pos >> $THIRTY_TWO) & $FFFFFFFF)->numify();
+ }
+
+ my $retval = SetFilePointer($handle, $pos_low, $pos_high, $from_where);
+
+ if (defined $pos_high && $pos_high != 0) {
+ if (! $_64BITINT) {
+ $retval = Math::BigInt->new($retval);
+ $pos_high = Math::BigInt->new($pos_high);
+ }
+
+ $retval += $pos_high << $THIRTY_TWO;
+ }
+
+ return $retval;
+}
+
+sub attrLetsToBits
+{
+ my( $lets )= @_;
+ my( %a )= (
+ "a"=>FILE_ATTRIBUTE_ARCHIVE(), "c"=>FILE_ATTRIBUTE_COMPRESSED(),
+ "h"=>FILE_ATTRIBUTE_HIDDEN(), "o"=>FILE_ATTRIBUTE_OFFLINE(),
+ "r"=>FILE_ATTRIBUTE_READONLY(), "s"=>FILE_ATTRIBUTE_SYSTEM(),
+ "t"=>FILE_ATTRIBUTE_TEMPORARY() );
+ my( $bits )= 0;
+ foreach( split(//,$lets) ) {
+ croak "Win32API::File::attrLetsToBits: Unknown attribute letter ($_)"
+ unless exists $a{$_};
+ $bits |= $a{$_};
+ }
+ return $bits;
+}
+
+use vars qw( @_createFile_Opts %_createFile_Opts );
+@_createFile_Opts= qw( Access Create Share Attributes
+ Flags Security Model );
+@_createFile_Opts{@_createFile_Opts}= (1) x @_createFile_Opts;
+
+sub createFile
+{
+ my $opts= "";
+ if( 2 <= @_ && "HASH" eq ref($_[$#_]) ) {
+ $opts= pop( @_ );
+ }
+ my( $sPath, $svAccess, $svShare )= @_;
+ if( @_ < 1 || 3 < @_ ) {
+ croak "Win32API::File::createFile() usage: \$hObject= createFile(\n",
+ " \$sPath, [\$svAccess_qrw_ktn_ce,[\$svShare_rwd,]]",
+ " [{Option=>\$Value}] )\n",
+ " options: @_createFile_Opts\nCalled";
+ }
+ my( $create, $flags, $sec, $model )= ( "", 0, [], 0 );
+ if( ref($opts) ) {
+ my @err= grep( ! $_createFile_Opts{$_}, keys(%$opts) );
+ @err and croak "_createFile: Invalid options (@err)";
+ $flags= $opts->{Flags} if exists( $opts->{Flags} );
+ $flags |= attrLetsToBits( $opts->{Attributes} )
+ if exists( $opts->{Attributes} );
+ $sec= $opts->{Security} if exists( $opts->{Security} );
+ $model= $opts->{Model} if exists( $opts->{Model} );
+ $svAccess= $opts->{Access} if exists( $opts->{Access} );
+ $create= $opts->{Create} if exists( $opts->{Create} );
+ $svShare= $opts->{Share} if exists( $opts->{Share} );
+ }
+ $svAccess= "r" unless defined($svAccess);
+ $svShare= "rw" unless defined($svShare);
+ if( $svAccess =~ /^[qrw ktn ce]*$/i ) {
+ ( my $c= $svAccess ) =~ tr/qrw QRW//d;
+ $create= $c if "" ne $c && "" eq $create;
+ local( $_ )= $svAccess;
+ $svAccess= 0;
+ $svAccess |= GENERIC_READ() if /r/i;
+ $svAccess |= GENERIC_WRITE() if /w/i;
+ } elsif( "?" eq $svAccess ) {
+ croak
+ "Win32API::File::createFile: \$svAccess can use the following:\n",
+ " One or more of the following:\n",
+ "\tq -- Query access (same as 0)\n",
+ "\tr -- Read access (GENERIC_READ)\n",
+ "\tw -- Write access (GENERIC_WRITE)\n",
+ " At most one of the following:\n",
+ "\tk -- Keep if exists\n",
+ "\tt -- Truncate if exists\n",
+ "\tn -- New file only (fail if file already exists)\n",
+ " At most one of the following:\n",
+ "\tc -- Create if doesn't exist\n",
+ "\te -- Existing file only (fail if doesn't exist)\n",
+ " '' is the same as 'q k e'\n",
+ " 'r' is the same as 'r k e'\n",
+ " 'w' is the same as 'w t c'\n",
+ " 'rw' is the same as 'rw k c'\n",
+ " 'rt' or 'rn' implies 'c'.\n",
+ " Or \$svAccess can be numeric.\n", "Called from";
+ } elsif( $svAccess == 0 && $svAccess !~ /^[-+.]*0/ ) {
+ croak "Win32API::File::createFile: Invalid \$svAccess ($svAccess)";
+ }
+ if( $create =~ /^[ktn ce]*$/ ) {
+ local( $_ )= $create;
+ my( $k, $t, $n, $c, $e )= ( scalar(/k/i), scalar(/t/i),
+ scalar(/n/i), scalar(/c/i), scalar(/e/i) );
+ if( 1 < $k + $t + $n ) {
+ croak "Win32API::File::createFile: \$create must not use ",
+ qq<more than one of "k", "t", and "n" ($create)>;
+ }
+ if( $c && $e ) {
+ croak "Win32API::File::createFile: \$create must not use ",
+ qq<both "c" and "e" ($create)>;
+ }
+ my $r= ( $svAccess & GENERIC_READ() ) == GENERIC_READ();
+ my $w= ( $svAccess & GENERIC_WRITE() ) == GENERIC_WRITE();
+ if( ! $k && ! $t && ! $n ) {
+ if( $w && ! $r ) { $t= 1;
+ } else { $k= 1; }
+ }
+ if( $k ) {
+ if( $c || $w && ! $e ) { $create= OPEN_ALWAYS();
+ } else { $create= OPEN_EXISTING(); }
+ } elsif( $t ) {
+ if( $e ) { $create= TRUNCATE_EXISTING();
+ } else { $create= CREATE_ALWAYS(); }
+ } else { # $n
+ if( ! $e ) { $create= CREATE_NEW();
+ } else {
+ croak "Win32API::File::createFile: \$create must not use ",
+ qq<both "n" and "e" ($create)>;
+ }
+ }
+ } elsif( "?" eq $create ) {
+ croak 'Win32API::File::createFile: $create !~ /^[ktn ce]*$/;',
+ ' pass $svAccess as "?" for more information.';
+ } elsif( $create == 0 && $create ne "0" ) {
+ croak "Win32API::File::createFile: Invalid \$create ($create)";
+ }
+ if( $svShare =~ /^[drw]*$/ ) {
+ my %s= ( "d"=>FILE_SHARE_DELETE(), "r"=>FILE_SHARE_READ(),
+ "w"=>FILE_SHARE_WRITE() );
+ my @s= split(//,$svShare);
+ $svShare= 0;
+ foreach( @s ) {
+ $svShare |= $s{$_};
+ }
+ } elsif( $svShare == 0 && $svShare !~ /^[-+.]*0/ ) {
+ croak "Win32API::File::createFile: Invalid \$svShare ($svShare)";
+ }
+ return CreateFileA(
+ $sPath, $svAccess, $svShare, $sec, $create, $flags, $model );
+}
+
+
+sub getLogicalDrives
+{
+ my( $ref )= @_;
+ my $s= "";
+ if( ! GetLogicalDriveStringsA( 256, $s ) ) {
+ return undef;
+ }
+ if( ! defined($ref) ) {
+ return split( /\0/, $s );
+ } elsif( "ARRAY" ne ref($ref) ) {
+ croak 'Usage: C<@arr= getLogicalDrives()> ',
+ 'or C<getLogicalDrives(\\@arr)>', "\n";
+ }
+ @$ref= split( /\0/, $s );
+ return $ref;
+}
+
+###############################################################################
+# Experimental Tied Handle and Object Oriented interface. #
+###############################################################################
+
+sub new {
+ my $class = shift;
+ $class = ref $class || $class;
+
+ my $self = IO::File::new($class);
+ tie *$self, __PACKAGE__;
+
+ $self->open(@_) if @_;
+
+ return $self;
+}
+
+sub TIEHANDLE {
+ my ($class, $win32_handle) = @_;
+ $class = ref $class || $class;
+
+ return bless {
+ _win32_handle => $win32_handle,
+ _binmode => 0,
+ _buffered => 0,
+ _buffer => '',
+ _eof => 0,
+ _fileno => undef,
+ _access => 'r',
+ _append => 0,
+ }, $class;
+}
+
+# This is called for getting the tied object from hard refs to glob refs in
+# some cases, for reasons I don't quite grok.
+
+sub FETCH { return $_[0] }
+
+# Public accessors
+
+sub win32_handle{ $_[0]->{_win32_handle}||= $_[1] }
+
+# Protected accessors
+
+sub _buffer { $_[0]->{_buffer} ||= $_[1] }
+sub _binmode { $_[0]->{_binmode} ||= $_[1] }
+sub _fileno { $_[0]->{_fileno} ||= $_[1] }
+sub _access { $_[0]->{_access} ||= $_[1] }
+sub _append { $_[0]->{_append} ||= $_[1] }
+
+# Tie interface
+
+sub OPEN {
+ my $self = shift;
+ my $expr = shift;
+ croak "Only the two argument form of open is supported at this time" if @_;
+# FIXME: this needs to parse the full Perl open syntax in $expr
+
+ my ($mixed, $mode, $path) =
+ ($expr =~ /^\s* (\+)? \s* (<|>|>>)? \s* (.*?) \s*$/x);
+
+ croak "Unsupported open mode" if not $path;
+
+ my $access = 'r';
+ my $append = $mode eq '>>' ? 1 : 0;
+
+ if ($mixed) {
+ $access = 'rw';
+ } elsif($mode eq '>') {
+ $access = 'w';
+ }
+
+ my $w32_handle = createFile($path, $access);
+
+ $self->win32_handle($w32_handle);
+
+ $self->seek(1,2) if $append;
+
+ $self->_access($access);
+ $self->_append($append);
+
+ return 1;
+}
+
+sub BINMODE {
+ $_[0]->_binmode(1);
+}
+
+sub WRITE {
+ my ($self, $buf, $len, $offset, $overlap) = @_;
+
+ if ($offset) {
+ $buf = substr($buf, $offset);
+ $len = length($buf);
+ }
+
+ $len = length($buf) if not defined $len;
+
+ $overlap = [] if not defined $overlap;;
+
+ my $bytes_written = 0;
+
+ WriteFile (
+ $self->win32_handle, $buf, $len,
+ $bytes_written, $overlap
+ );
+
+ return $bytes_written;
+}
+
+sub PRINT {
+ my $self = shift;
+
+ my $buf = join defined $, ? $, : "" => @_;
+
+ $buf =~ s/\012/\015\012/sg unless $self->_binmode();
+
+ $buf .= $\ if defined $\;
+
+ $self->WRITE($buf, length($buf), 0);
+}
+
+sub READ {
+ my $self = shift;
+ my $into = \$_[0]; shift;
+ my ($len, $offset, $overlap) = @_;
+
+ my $buffer = defined $self->_buffer ? $self->_buffer : "";
+ my $buf_length = length($buffer);
+ my $bytes_read = 0;
+ my $data;
+ $offset = 0 if not defined $offset;
+
+ if ($buf_length >= $len) {
+ $data = substr($buffer, 0, $len => "");
+ $bytes_read = $len;
+ $self->_buffer($buffer);
+ } else {
+ if ($buf_length > 0) {
+ $len -= $buf_length;
+ substr($$into, $offset) = $buffer;
+ $offset += $buf_length;
+ }
+
+ $overlap ||= [];
+
+ ReadFile (
+ $self->win32_handle, $data, $len,
+ $bytes_read, $overlap
+ );
+ }
+
+ $$into = "" if not defined $$into;
+
+ substr($$into, $offset) = $data;
+
+ return $bytes_read;
+}
+
+sub READLINE {
+ my $self = shift;
+ my $line = "";
+
+ while ((index $line, $/) == $[-1) { # read until end of line marker
+ my $char = $self->GETC();
+
+ last if !defined $char || $char eq '';
+
+ $line .= $char;
+ }
+
+ return undef if $line eq '';
+
+ return $line;
+}
+
+
+sub FILENO {
+ my $self = shift;
+
+ return $self->_fileno() if defined $self->_fileno();
+
+ return -1 if $^O eq 'cygwin';
+
+# FIXME: We don't always open the handle, better to query the handle or to set
+# the right access info at TIEHANDLE time.
+
+ my $access = $self->_access();
+ my $mode = $access eq 'rw' ? O_RDWR :
+ $access eq 'w' ? O_WRONLY : O_RDONLY;
+
+ $mode |= O_APPEND if $self->_append();
+
+ $mode |= O_TEXT if not $self->_binmode();
+
+ return $self->_fileno ( OsfHandleOpenFd (
+ $self->win32_handle, $mode
+ ));
+}
+
+sub SEEK {
+ my ($self, $pos, $whence) = @_;
+
+ $whence = 0 if not defined $whence;
+ my @file_consts = map {
+ fileConstant($_)
+ } qw(FILE_BEGIN FILE_CURRENT FILE_END);
+
+ my $from_where = $file_consts[$whence];
+
+ return setFilePointer($self->win32_handle, $pos, $from_where);
+}
+
+sub TELL {
+# SetFilePointer with position 0 at FILE_CURRENT will return position.
+ return $_[0]->SEEK(0, 1);
+}
+
+sub EOF {
+ my $self = shift;
+
+ my $current = $self->TELL() + 0;
+ my $end = getFileSize($self->win32_handle) + 0;
+
+ return $current == $end;
+}
+
+sub CLOSE {
+ my $self = shift;
+
+ my $retval = 1;
+
+ if (defined $self->win32_handle) {
+ $retval = CloseHandle($self->win32_handle);
+
+ $self->win32_handle(undef);
+ }
+
+ return $retval;
+}
+
+# Only close the handle on explicit close, too many problems otherwise.
+sub UNTIE {}
+
+sub DESTROY {}
+
+# End of Tie/OO Interface
+
+# Autoload methods go after =cut, and are processed by the autosplit program.
+
+1;
+__END__
+
+=head1 NAME
+
+Win32API::File - Low-level access to Win32 system API calls for files/dirs.
+
+=head1 SYNOPSIS
+
+ use Win32API::File 0.08 qw( :ALL );
+
+ MoveFile( $Source, $Destination )
+ or die "Can't move $Source to $Destination: ",fileLastError(),"\n";
+ MoveFileEx( $Source, $Destination, MOVEFILE_REPLACE_EXISTING() )
+ or die "Can't move $Source to $Destination: ",fileLastError(),"\n";
+ [...]
+
+=head1 DESCRIPTION
+
+This provides fairly low-level access to the Win32 System API
+calls dealing with files and directories.
+
+To pass in C<NULL> as the pointer to an optional buffer, pass in
+an empty list reference, C<[]>.
+
+Beyond raw access to the API calls and related constants, this module
+handles smart buffer allocation and translation of return codes.
+
+All functions, unless otherwise noted, return a true value for success
+and a false value for failure and set C<$^E> on failure.
+
+=head2 Object Oriented/Tied Handle Interface
+
+WARNING: this is new code, use at your own risk.
+
+This version of C<Win32API::File> can be used like an C<IO::File> object:
+
+ my $file = Win32API::File->new("+> foo");
+ binmode $file;
+ print $file "hello there\n";
+ seek $file, 0, 0;
+ my $line = <$file>;
+ $file->close;
+
+It also supports tying via a win32 handle (for example, from C<createFile()>):
+
+ tie FILE, 'Win32API::File', $win32_handle;
+ print FILE "...";
+
+It has not been extensively tested yet and buffered I/O is not yet implemented.
+
+=head2 Exports
+
+Nothing is exported by default. The following tags can be used to
+have large sets of symbols exported: C<":Func">, C<":FuncA">,
+C<":FuncW">, C<":Misc">, C<":DDD_">, C<":DRIVE_">, C<":FILE_">,
+C<":FILE_ATTRIBUTE_">, C<":FILE_FLAG_">, C<":FILE_SHARE_">,
+C<":FILE_TYPE_">, C<":FS_">, C<":FSCTL_">, C<":HANDLE_FLAG_">,
+C<":IOCTL_STORAGE_">, C<":IOCTL_DISK_">, C<":GENERIC_">,
+C<":MEDIA_TYPE">, C<":MOVEFILE_">, C<":SECURITY_">, C<":SEM_">,
+and C<":PARTITION_">.
+
+=over
+
+=item C<":Func">
+
+The basic function names: C<attrLetsToBits>, C<createFile>,
+C<fileConstant>, C<fileLastError>, C<getLogicalDrives>,
+C<setFilePointer>, C<getFileSize>,
+C<CloseHandle>, C<CopyFile>, C<CreateFile>,
+C<DefineDosDevice>, C<DeleteFile>, C<DeviceIoControl>,
+C<FdGetOsFHandle>, C<GetDriveType>, C<GetFileAttributes>,
+C<GetFileSize>, C<GetFileType>, C<GetHandleInformation>,
+C<GetLogicalDrives>, C<GetLogicalDriveStrings>, C<GetOsFHandle>,
+C<GetOverlappedResult>, C<GetVolumeInformation>, C<IsContainerPartition>,
+C<IsRecognizedPartition>, C<MoveFile>, C<MoveFileEx>,
+C<OsFHandleOpen>, C<OsFHandleOpenFd>, C<QueryDosDevice>,
+C<ReadFile>, C<SetErrorMode>, C<SetFilePointer>,
+C<SetHandleInformation>, and C<WriteFile>.
+
+=over
+
+=item attrLetsToBits
+
+=item C<$uBits= attrLetsToBits( $sAttributeLetters )>
+
+Converts a string of file attribute letters into an unsigned value with
+the corresponding bits set. C<$sAttributeLetters> should contain zero
+or more letters from C<"achorst">:
+
+=over
+
+=item C<"a">
+
+C<FILE_ATTRIBUTE_ARCHIVE>
+
+=item C<"c">
+
+C<FILE_ATTRIBUTE_COMPRESSED>
+
+=item C<"h">
+
+C<FILE_ATTRIBUTE_HIDDEN>
+
+=item C<"o">
+
+C<FILE_ATTRIBUTE_OFFLINE>
+
+=item C<"r">
+
+C<FILE_ATTRIBUTE_READONLY>
+
+=item C<"s">
+
+C<FILE_ATTRIBUTE_SYSTEM>
+
+=item C<"t">
+
+C<FILE_ATTRIBUTE_TEMPORARY>
+
+=back
+
+=item createFile
+
+=item C<$hObject= createFile( $sPath )>
+
+=item C<$hObject= createFile( $sPath, $rvhvOptions )>
+
+=item C<$hObject= createFile( $sPath, $svAccess )>
+
+=item C<$hObject= createFile( $sPath, $svAccess, $rvhvOptions )>
+
+=item C<$hObject= createFile( $sPath, $svAccess, $svShare )>
+
+=item C<$hObject= createFile( $sPath, $svAccess, $svShare, $rvhvOptions )>
+
+This is a Perl-friendly wrapper around C<CreateFile>.
+
+On failure, C<$hObject> gets set to a false value and C<regLastError()>
+and C<$^E> are set to the reason for the failure. Otherwise,
+C<$hObject> gets set to a Win32 native file handle which is alwasy
+a true value [returns C<"0 but true"> in the impossible(?) case of
+the handle having a value of C<0>].
+
+C<$sPath> is the path to the file [or device, etc.] to be opened. See
+C<CreateFile> for more information on possible special values for
+C<$sPath>.
+
+C<$svAccess> can be a number containing the bit mask representing
+the specific type(s) of access to the file that you desire. See the
+C<$uAccess> parameter to C<CreateFile> for more information on these
+values.
+
+More likely, C<$svAccess> is a string describing the generic type of
+access you desire and possibly the file creation options to use. In
+this case, C<$svAccess> should contain zero or more characters from
+C<"qrw"> [access desired], zero or one character each from C<"ktn">
+and C<"ce">, and optional white space. These letters stand for,
+respectively, "Query access", "Read access", "Write access", "Keep if
+exists", "Truncate if exists", "New file only", "Create if none", and
+"Existing file only". Case is ignored.
+
+You can pass in C<"?"> for C<$svAccess> to have an error message
+displayed summarizing its possible values. This is very handy when
+doing on-the-fly programming using the Perl debugger:
+
+ Win32API::File::createFile: $svAccess can use the following:
+ One or more of the following:
+ q -- Query access (same as 0)
+ r -- Read access (GENERIC_READ)
+ w -- Write access (GENERIC_WRITE)
+ At most one of the following:
+ k -- Keep if exists
+ t -- Truncate if exists
+ n -- New file only (fail if file already exists)
+ At most one of the following:
+ c -- Create if doesn't exist
+ e -- Existing file only (fail if doesn't exist)
+ '' is the same as 'q k e'
+ 'r' is the same as 'r k e'
+ 'w' is the same as 'w t c'
+ 'rw' is the same as 'rw k c'
+ 'rt' or 'rn' implies 'c'.
+ Or $access can be numeric.
+
+C<$svAccess> is designed to be "do what I mean", so you can skip
+the rest of its explanation unless you are interested in the complex
+details. Note that, if you want write access to a device, you need
+to specify C<"k"> [and perhaps C<"e">, as in C<"w ke"> or C<"rw ke">]
+since Win32 suggests C<OPEN_EXISTING> be used when opening a device.
+
+=over
+
+=item C<"q">
+
+Stands for "Query access". This is really a no-op since you always have
+query access when you open a file. You can specify C<"q"> to document
+that you plan to query the file [or device, etc.]. This is especially
+helpful when you don't want read nor write access since something like
+C<"q"> or C<"q ke"> may be easier to understand than just C<""> or C<"ke">.
+
+=item C<"r">
+
+Stands for "Read access". Sets the C<GENERIC_READ> bit(s) in the
+C<$uAccess> that is passed to C<CreateFile>. This is the default
+access if the C<$svAccess> parameter is missing [or if it is C<undef>
+and C<$rvhvOptions> doesn't specify an C<"Access"> option].
+
+=item C<"w">
+
+Stands for "Write access". Sets the C<GENERIC_WRITE> bit(s) in the
+C<$uAccess> that is passed to C<CreateFile>.
+
+=item C<"k">
+
+Stands for "Keep if exists". If the requested file exists, then it is
+opened. This is the default unless C<GENERIC_WRITE> access has been
+requested but C<GENERIC_READ> access has not been requested. Contrast
+with C<"t"> and C<"n">.
+
+=item C<"t">
+
+Stands for "Truncate if exists". If the requested file exists, then
+it is truncated to zero length and then opened. This is the default if
+C<GENERIC_WRITE> access has been requested and C<GENERIC_READ> access
+has not been requested. Contrast with C<"k"> and C<"n">.
+
+=item C<"n">
+
+Stands for "New file only". If the requested file exists, then it is
+not opened and the C<createFile> call fails. Contrast with C<"k"> and
+C<"t">. Can't be used with C<"e">.
+
+=item C<"c">
+
+Stands for "Create if none". If the requested file does not
+exist, then it is created and then opened. This is the default
+if C<GENERIC_WRITE> access has been requested or if C<"t"> or
+C<"n"> was specified. Contrast with C<"e">.
+
+=item C<"e">
+
+Stands for "Existing file only". If the requested file does not
+exist, then nothing is opened and the C<createFile> call fails. This
+is the default unless C<GENERIC_WRITE> access has been requested or
+C<"t"> or C<"n"> was specified. Contrast with C<"c">. Can't be
+used with C<"n">.
+
+=back
+
+The characters from C<"ktn"> and C<"ce"> are combined to determine the
+what value for C<$uCreate> to pass to C<CreateFile> [unless overridden
+by C<$rvhvOptions>]:
+
+=over
+
+=item C<"kc">
+
+C<OPEN_ALWAYS>
+
+=item C<"ke">
+
+C<OPEN_EXISTING>
+
+=item C<"tc">
+
+C<TRUNCATE_EXISTING>
+
+=item C<"te">
+
+C<CREATE_ALWAYS>
+
+=item C<"nc">
+
+C<CREATE_NEW>
+
+=item C<"ne">
+
+Illegal.
+
+=back
+
+C<$svShare> controls how the file is shared, that is, whether other
+processes can have read, write, and/or delete access to the file while
+we have it opened. C<$svShare> will usually be a string containing zero
+or more characters from C<"rwd"> but can also be a numeric bit mask.
+
+C<"r"> sets the C<FILE_SHARE_READ> bit which allows other processes to have
+read access to the file. C<"w"> sets the C<FILE_SHARE_WRITE> bit which
+allows other processes to have write access to the file. C<"d"> sets the
+C<FILE_SHARE_DELETE> bit which allows other processes to have delete access
+to the file [ignored under Windows 95].
+
+The default for C<$svShare> is C<"rw"> which provides the same sharing as
+using regular perl C<open()>.
+
+If another process currently has read, write, and/or delete access to
+the file and you don't allow that level of sharing, then your call to
+C<createFile> will fail. If you requested read, write, and/or delete
+access and another process already has the file open but doesn't allow
+that level of sharing, then your call to C<createFile> will fail. Once
+you have the file open, if another process tries to open it with read,
+write, and/or delete access and you don't allow that level of sharing,
+then that process won't be allowed to open the file.
+
+C<$rvhvOptions> is a reference to a hash where any keys must be from
+the list C<qw( Access Create Share Attributes Flags Security Model )>.
+The meaning of the value depends on the key name, as described below.
+Any option values in C<$rvhvOptions> override the settings from
+C<$svAccess> and C<$svShare> if they conflict.
+
+=over
+
+=item Flags => $uFlags
+
+C<$uFlags> is an unsigned value having any of the C<FILE_FLAG_*> or
+C<FILE_ATTRIBUTE_*> bits set. Any C<FILE_ATTRIBUTE_*> bits set via the
+C<Attributes> option are logically C<or>ed with these bits. Defaults
+to C<0>.
+
+If opening the client side of a named pipe, then you can also specify
+C<SECURITY_SQOS_PRESENT> along with one of the other C<SECURITY_*>
+constants to specify the security quality of service to be used.
+
+=item Attributes => $sAttributes
+
+A string of zero or more characters from C<"achorst"> [see C<attrLetsToBits>
+for more information] which are converted to C<FILE_ATTRIBUTE_*> bits to
+be set in the C<$uFlags> argument passed to C<CreateFile>.
+
+=item Security => $pSecurityAttributes
+
+C<$pSecurityAttributes> should contain a C<SECURITY_ATTRIBUTES> structure
+packed into a string or C<[]> [the default].
+
+=item Model => $hModelFile
+
+C<$hModelFile> should contain a handle opened with C<GENERIC_READ>
+access to a model file from which file attributes and extended attributes
+are to be copied. Or C<$hModelFile> can be C<0> [the default].
+
+=item Access => $sAccess
+
+=item Access => $uAccess
+
+C<$sAccess> should be a string of zero or more characters from
+C<"qrw"> specifying the type of access desired: "query" or C<0>,
+"read" or C<GENERIC_READ> [the default], or "write" or
+C<GENERIC_WRITE>.
+
+C<$uAccess> should be an unsigned value containing bits set to
+indicate the type of access desired. C<GENERIC_READ> is the default.
+
+=item Create => $sCreate
+
+=item Create => $uCreate
+
+C<$sCreate> should be a string constaing zero or one character from
+C<"ktn"> and zero or one character from C<"ce">. These stand for
+"Keep if exists", "Truncate if exists", "New file only", "Create if
+none", and "Existing file only". These are translated into a
+C<$uCreate> value.
+
+C<$uCreate> should be one of C<OPEN_ALWAYS>, C<OPEN_EXISTING>,
+C<TRUNCATE_EXISTING>, C<CREATE_ALWAYS>, or C<CREATE_NEW>.
+
+=item Share => $sShare
+
+=item Share => $uShare
+
+C<$sShare> should be a string with zero or more characters from
+C<"rwd"> that is translated into a C<$uShare> value. C<"rw"> is
+the default.
+
+C<$uShare> should be an unsigned value having zero or more of the
+following bits set: C<FILE_SHARE_READ>, C<FILE_SHARE_WRITE>, and
+C<FILE_SHARE_DELETE>. C<FILE_SHARE_READ|FILE_SHARE_WRITE> is the
+default.
+
+=back
+
+Examples:
+
+ $hFlop= createFile( "//./A:", "r", "r" )
+ or die "Can't prevent others from writing to floppy: $^E\n";
+ $hDisk= createFile( "//./C:", "rw ke", "" )
+ or die "Can't get exclusive access to C: $^E\n";
+ $hDisk= createFile( $sFilePath, "ke",
+ { Access=>FILE_READ_ATTRIBUTES } )
+ or die "Can't read attributes of $sFilePath: $^E\n";
+ $hTemp= createFile( "$ENV{Temp}/temp.$$", "wn", "",
+ { Attributes=>"hst", Flags=>FILE_FLAG_DELETE_ON_CLOSE() } )
+ or die "Can't create temporary file, temp.$$: $^E\n";
+
+=item getLogicalDrives
+
+=item C<@roots= getLogicalDrives()>
+
+Returns the paths to the root directories of all logical drives
+currently defined. This includes all types of drive lettters, such
+as floppies, CD-ROMs, hard disks, and network shares. A typical
+return value on a poorly equipped computer would be C<("A:\\","C:\\")>.
+
+=item CloseHandle
+
+=item C<CloseHandle( $hObject )>
+
+Closes a Win32 native handle, such as one opened via C<CreateFile>.
+Like most routines, returns a true value if successful and a false
+value [and sets C<$^E> and C<regLastError()>] on failure.
+
+=item CopyFile
+
+=item C<CopyFile( $sOldFileName, $sNewFileName, $bFailIfExists )>
+
+C<$sOldFileName> is the path to the file to be copied.
+C<$sNewFileName> is the path to where the file should be copied.
+Note that you can B<NOT> just specify a path to a directory in
+C<$sNewFileName> to copy the file to that directory using the
+same file name.
+
+If C<$bFailIfExists> is true and C<$sNewFileName> is the path to
+a file that already exists, then C<CopyFile> will fail. If
+C<$bFailIfExists> is falsea, then the copy of the C<$sOldFileNmae>
+file will overwrite the C<$sNewFileName> file if it already exists.
+
+Like most routines, returns a true value if successful and a false
+value [and sets C<$^E> and C<regLastError()>] on failure.
+
+=item CreateFile
+
+=item C<$hObject= CreateFile( $sPath, $uAccess, $uShare, $pSecAttr, $uCreate, $uFlags, $hModel )>
+
+On failure, C<$hObject> gets set to a false value and C<$^E> and
+C<fileLastError()> are set to the reason for the failure. Otherwise,
+C<$hObject> gets set to a Win32 native file handle which is always a
+true value [returns C<"0 but true"> in the impossible(?) case of the
+handle having a value of C<0>].
+
+C<$sPath> is the path to the file [or device, etc.] to be opened.
+
+C<$sPath> can use C<"/"> or C<"\\"> as path delimiters and can even
+mix the two. We will usually only use C<"/"> in our examples since
+using C<"\\"> is usually harder to read.
+
+Under Windows NT, C<$sPath> can start with C<"//?/"> to allow the use
+of paths longer than C<MAX_PATH> [for UNC paths, replace the leading
+C<"//"> with C<"//?/UNC/">, as in C<"//?/UNC/Server/Share/Dir/File.Ext">].
+
+C<$sPath> can start with C<"//./"> to indicate that the rest of the
+path is the name of a "DOS device." You can use C<QueryDosDevice>
+to list all current DOS devices and can add or delete them with
+C<DefineDosDevice>. If you get the source-code distribution of this
+module from CPAN, then it includes an example script, F<ex/ListDevs.plx>
+that will list all current DOS devices and their "native" definition.
+Again, note that this doesn't work under Win95 nor Win98.
+
+The most common such DOS devices include:
+
+=over
+
+=item C<"//./PhysicalDrive0">
+
+Your entire first hard disk. Doesn't work under Windows 95. This
+allows you to read or write raw sectors of your hard disk and to use
+C<DeviceIoControl> to perform miscellaneous queries and operations
+to the hard disk. Writing raw sectors and certain other operations
+can seriously damage your files or the function of your computer.
+
+Locking this for exclusive access [by specifying C<0> for C<$uShare>]
+doesn't prevent access to the partitions on the disk nor their file
+systems. So other processes can still access any raw sectors within
+a partition and can use the file system on the disk as usual.
+
+=item C<"//./C:">
+
+Your F<C:> partition. Doesn't work under Windows 95. This allows
+you to read or write raw sectors of that partition and to use
+C<DeviceIoControl> to perform miscellaneous queries and operations
+to the partition. Writing raw sectors and certain other operations
+can seriously damage your files or the function of your computer.
+
+Locking this for exclusive access doesn't prevent access to the
+physical drive that the partition is on so other processes can
+still access the raw sectors that way. Locking this for exclusive
+access B<does> prevent other processes from opening the same raw
+partition and B<does> prevent access to the file system on it. It
+even prevents the current process from accessing the file system
+on that partition.
+
+=item C<"//./A:">
+
+The raw floppy disk. Doesn't work under Windows 95. This allows
+you to read or write raw sectors of the floppy disk and to use
+C<DeviceIoControl> to perform miscellaneous queries and operations
+to the floopy disk or drive.
+
+Locking this for exclusive access prevents all access to the floppy.
+
+=item C<"//./PIPE/PipeName">
+
+A named pipe, created via C<CreateNamedPipe>.
+
+=back
+
+C<$uAccess> is an unsigned value with bits set indicating the
+type of access desired. Usually either C<0> ["query" access],
+C<GENERIC_READ>, C<GENERIC_WRITE>, C<GENERIC_READ|GENERIC_WRITE>,
+or C<GENERIC_ALL>. More specific types of access can be specified,
+such as C<FILE_APPEND_DATA> or C<FILE_READ_EA>.
+
+C<$uShare> controls how the file is shared, that is, whether other
+processes can have read, write, and/or delete access to the file while
+we have it opened. C<$uShare> is an unsigned value with zero or more
+of these bits set: C<FILE_SHARE_READ>, C<FILE_SHARE_WRITE>, and
+C<FILE_SHARE_DELETE>.
+
+If another process currently has read, write, and/or delete access to
+the file and you don't allow that level of sharing, then your call to
+C<CreateFile> will fail. If you requested read, write, and/or delete
+access and another process already has the file open but doesn't allow
+that level of sharing, thenn your call to C<createFile> will fail. Once
+you have the file open, if another process tries to open it with read,
+write, and/or delete access and you don't allow that level of sharing,
+then that process won't be allowed to open the file.
+
+C<$pSecAttr> should either be C<[]> [for C<NULL>] or a
+C<SECURITY_ATTRIBUTES> data structure packed into a string.
+For example, if C<$pSecDesc> contains a C<SECURITY_DESCRIPTOR>
+structure packed into a string, perhaps via:
+
+ RegGetKeySecurity( $key, 4, $pSecDesc, 1024 );
+
+then you can set C<$pSecAttr> via:
+
+ $pSecAttr= pack( "L P i", 12, $pSecDesc, $bInheritHandle );
+
+C<$uCreate> is one of the following values: C<OPEN_ALWAYS>,
+C<OPEN_EXISTING>, C<TRUNCATE_EXISTING>, C<CREATE_ALWAYS>, and
+C<CREATE_NEW>.
+
+C<$uFlags> is an unsigned value with zero or more bits set indicating
+attributes to associate with the file [C<FILE_ATTRIBUTE_*> values] or
+special options [C<FILE_FLAG_*> values].
+
+If opening the client side of a named pipe, then you can also set
+C<$uFlags> to include C<SECURITY_SQOS_PRESENT> along with one of the
+other C<SECURITY_*> constants to specify the security quality of
+service to be used.
+
+C<$hModel> is C<0> [or C<[]>, both of which mean C<NULL>] or a Win32
+native handle opened with C<GENERIC_READ> access to a model file from
+which file attributes and extended attributes are to be copied if a
+new file gets created.
+
+Examples:
+
+ $hFlop= CreateFile( "//./A:", GENERIC_READ(),
+ FILE_SHARE_READ(), [], OPEN_EXISTING(), 0, [] )
+ or die "Can't prevent others from writing to floppy: $^E\n";
+ $hDisk= CreateFile( $sFilePath, FILE_READ_ATTRIBUTES(),
+ FILE_SHARE_READ()|FILE_SHARE_WRITE(), [], OPEN_EXISTING(), 0, [] )
+ or die "Can't read attributes of $sFilePath: $^E\n";
+ $hTemp= CreateFile( "$ENV{Temp}/temp.$$", GENERIC_WRITE(), 0,
+ CREATE_NEW(), FILE_FLAG_DELETE_ON_CLOSE()|attrLetsToBits("hst"), [] )
+ or die "Can't create temporary file, temp.$$: $^E\n";
+
+=item DefineDosDevice
+
+=item C<DefineDosDevice( $uFlags, $sDosDeviceName, $sTargetPath )>
+
+Defines a new DOS device, overrides the current definition of a DOS
+device, or deletes a definition of a DOS device. Like most routines,
+returns a true value if successful and a false value [and sets C<$^E>
+and C<regLastError()>] on failure.
+
+C<$sDosDeviceName> is the name of a DOS device for which we'd like
+to add or delete a definition.
+
+C<$uFlags> is an unsigned value with zero or more of the following
+bits set:
+
+=over
+
+=item C<DDD_RAW_TARGET_PATH>
+
+Indicates that C<$sTargetPath> will be a raw Windows NT object name.
+This usually means that C<$sTargetPath> starts with C<"\\Device\\">.
+Note that you cannot use C<"/"> in place of C<"\\"> in raw target path
+names.
+
+=item C<DDD_REMOVE_DEFINITION>
+
+Requests that a definition be deleted. If C<$sTargetPath> is
+C<[]> [for C<NULL>], then the most recently added definition for
+C<$sDosDeviceName> is removed. Otherwise the most recently added
+definition matching C<$sTargetPath> is removed.
+
+If the last definition is removed, then the DOS device name is
+also deleted.
+
+=item C<DDD_EXACT_MATCH_ON_REMOVE>
+
+When deleting a definition, this bit causes each C<$sTargetPath> to
+be compared to the full-length definition when searching for the most
+recently added match. If this bit is not set, then C<$sTargetPath>
+only needs to match a prefix of the definition.
+
+=back
+
+C<$sTargetPath> is the DOS device's specific definition that you
+wish to add or delete. For C<DDD_RAW_TARGET_PATH>, these usually
+start with C<"\\Device\\">. If the C<DDD_RAW_TARGET_PATH> bit is
+not set, then C<$sTargetPath> is just an ordinary path to some file
+or directory, providing the functionality of the B<subst> command.
+
+=item DeleteFile
+
+=item C<DeleteFile( $sFileName )>
+
+Deletes the named file. Compared to Perl's C<unlink>, C<DeleteFile>
+has the advantage of not deleting read-only files. For B<some>
+versions of Perl, C<unlink> silently calls C<chmod> whether it needs
+to or not before deleting the file so that files that you have
+protected by marking them as read-only are not always protected from
+Perl's C<unlink>.
+
+Like most routines, returns a true value if successful and a false
+value [and sets C<$^E> and C<regLastError()>] on failure.
+
+=item DeviceIoControl
+
+=item C<DeviceIoControl( $hDevice, $uIoControlCode, $pInBuf, $lInBuf, $opOutBuf, $lOutBuf, $olRetBytes, $pOverlapped )>
+
+Requests a special operation on an I/O [input/output] device, such
+as ejecting a tape or formatting a disk. Like most routines, returns
+a true value if successful and a false value [and sets C<$^E> and
+C<regLastError()>] on failure.
+
+C<$hDevice> is a Win32 native file handle to a device [return value
+from C<CreateFile>].
+
+C<$uIoControlCode> is an unsigned value [a C<IOCTL_*> or C<FSCTL_*>
+constant] indicating the type query or other operation to be performed.
+
+C<$pInBuf> is C<[]> [for C<NULL>] or a data structure packed into a
+string. The type of data structure depends on the C<$uIoControlCode>
+value. C<$lInBuf> is C<0> or the length of the structure in
+C<$pInBuf>. If C<$pInBuf> is not C<[]> and C<$lInBuf> is C<0>, then
+C<$lInBuf> will automatically be set to C<length($pInBuf)> for you.
+
+C<$opOutBuf> is C<[]> [for C<NULL>] or will be set to contain a
+returned data structure packed into a string. C<$lOutBuf> indicates
+how much space to allocate in C<$opOutBuf> for C<DeviceIoControl> to
+store the data structure. If C<$lOutBuf> is a number and C<$opOutBuf>
+already has a buffer allocated for it that is larger than C<$lOutBuf>
+bytes, then this larger buffer size will be passed to C<DeviceIoControl>.
+However, you can force a specific buffer size to be passed to
+C<DeviceIoControl> by prepending a C<"="> to the front of C<$lOutBuf>.
+
+C<$olRetBytes> is C<[]> or is a scalar to receive the number of bytes
+written to C<$opOutBuf>. Even when C<$olRetBytes> is C<[]>, a valid
+pointer to a C<DWORD> [and not C<NULL>] is passed to C<DeviceIoControl>.
+In this case, C<[]> just means that you don't care about the value
+that might be written to C<$olRetBytes>, which is usually the case
+since you can usually use C<length($opOutBuf)> instead.
+
+C<$pOverlapped> is C<[]> or is a C<OVERLAPPED> structure packed into
+a string. This is only useful if C<$hDevice> was opened with the
+C<FILE_FLAG_OVERLAPPED> flag set.
+
+=item FdGetOsFHandle
+
+=item C<$hNativeHandle= FdGetOsFHandle( $ivFd )>
+
+C<FdGetOsFHandle> simply calls C<_get_osfhandle()>. It was renamed
+to better fit in with the rest the function names of this module,
+in particular to distinguish it from C<GetOsFHandle>. It takes an
+integer file descriptor [as from Perl's C<fileno>] and returns the
+Win32 native file handle associated with that file descriptor or
+C<INVALID_HANDLE_VALUE> if C<$ivFd> is not an open file descriptor.
+
+When you call Perl's C<open> to set a Perl file handle [like C<STDOUT>],
+Perl calls C's C<fopen> to set a stdio C<FILE *>. C's C<fopen> calls
+something like Unix's C<open>, that is, Win32's C<_sopen>, to get an
+integer file descriptor [where 0 is for C<STDIN>, 1 for C<STDOUT>, etc.].
+Win32's C<_sopen> calls C<CreateFile> to set a C<HANDLE>, a Win32 native
+file handle. So every Perl file handle [like C<STDOUT>] has an integer
+file descriptor associated with it that you can get via C<fileno>. And,
+under Win32, every file descriptor has a Win32 native file handle
+associated with it. C<FdGetOsFHandle> lets you get access to that.
+
+C<$hNativeHandle> is set to C<INVALID_HANDLE_VALUE> [and
+C<lastFileError()> and C<$^E> are set] if C<FdGetOsFHandle> fails.
+See also C<GetOsFHandle> which provides a friendlier interface.
+
+=item fileConstant
+
+=item C<$value= fileConstant( $sConstantName )>
+
+Fetch the value of a constant. Returns C<undef> if C<$sConstantName>
+is not the name of a constant supported by this module. Never sets
+C<$!> nor C<$^E>.
+
+This function is rarely used since you will usually get the value of a
+constant by having that constant imported into your package by listing
+the constant name in the C<use Win32API::File> statement and then
+simply using the constant name in your code [perhaps followed by
+C<()>]. This function is useful for verifying constant names not in
+Perl code, for example, after prompting a user to type in a constant
+name.
+
+=item fileLastError
+
+=item C<$svError= fileLastError();>
+
+=item C<fileLastError( $uError );>
+
+Returns the last error encountered by a routine from this module.
+It is just like C<$^E> except it isn't changed by anything except
+routines from this module. Ideally you could just use C<$^E>, but
+current versions of Perl often overwrite C<$^E> before you get a
+chance to check it and really old versions of Perl don't really
+support C<$^E> under Win32.
+
+Just like C<$^E>, in a numeric context C<fileLastError()> returns
+the numeric error value while in a string context it returns a
+text description of the error [actually it returns a Perl scalar
+that contains both values so C<$x= fileLastError()> causes C<$x>
+to give different values in string vs. numeric contexts].
+
+The last form sets the error returned by future calls to
+C<fileLastError()> and should not be used often. C<$uError> must
+be a numeric error code. Also returns the dual-valued version
+of C<$uError>.
+
+=item GetDriveType
+
+=item C<$uDriveType= GetDriveType( $sRootPath )>
+
+Takes a string giving the path to the root directory of a file system
+[called a "drive" because every file system is assigned a "drive letter"]
+and returns an unsigned value indicating the type of drive the file
+system is on. The return value should be one of:
+
+=over
+
+=item C<DRIVE_UNKNOWN>
+
+None of the following.
+
+=item C<DRIVE_NO_ROOT_DIR>
+
+A "drive" that does not have a file system. This can be a drive letter
+that hasn't been defined or a drive letter assigned to a partition
+that hasn't been formatted yet.
+
+=item C<DRIVE_REMOVABLE>
+
+A floppy diskette drive or other removable media drive, but not a CD-ROM
+drive.
+
+=item C<DRIVE_FIXED>
+
+An ordinary hard disk partition.
+
+=item C<DRIVE_REMOTE>
+
+A network share.
+
+=item C<DRIVE_CDROM>
+
+A CD-ROM drive.
+
+=item C<DRIVE_RAMDISK>
+
+A "ram disk" or memory-resident virtual file system used for high-speed
+access to small amounts of temporary file space.
+
+=back
+
+=item GetFileAttributes
+
+=item C<$uAttrs = GetFileAttributes( $sPath )>
+
+Takes a path string and returns an unsigned value with attribute flags.
+If it fails, it returns INVALID_FILE_ATTRIBUTES, otherwise it can be
+one or more of the following values:
+
+=over
+
+=item C<FILE_ATTRIBUTE_ARCHIVE>
+
+The file or directory is an archive file or directory. Applications use
+this attribute to mark files for backup or removal.
+
+=item C<FILE_ATTRIBUTE_COMPRESSED>
+
+The file or directory is compressed. For a file, this means that all of
+the data in the file is compressed. For a directory, this means that
+compression is the default for newly created files and subdirectories.
+
+=item C<FILE_ATTRIBUTE_DEVICE>
+
+Reserved; do not use.
+
+=item C<FILE_ATTRIBUTE_DIRECTORY>
+
+The handle identifies a directory.
+
+=item C<FILE_ATTRIBUTE_ENCRYPTED>
+
+The file or directory is encrypted. For a file, this means that all data
+streams in the file are encrypted. For a directory, this means that
+encryption is the default for newly created files and subdirectories.
+
+=item C<FILE_ATTRIBUTE_HIDDEN>
+
+The file or directory is hidden. It is not included in an ordinary directory
+listing.
+
+=item C<FILE_ATTRIBUTE_NORMAL>
+
+The file or directory has no other attributes set. This attribute is valid
+only if used alone.
+
+=item C<FILE_ATTRIBUTE_NOT_CONTENT_INDEXED>
+
+The file will not be indexed by the content indexing service.
+
+=item C<FILE_ATTRIBUTE_OFFLINE>
+
+The data of the file is not immediately available. This attribute indicates
+that the file data has been physically moved to offline storage. This
+attribute is used by Remote Storage, the hierarchical storage management
+software. Applications should not arbitrarily change this attribute.
+
+=item C<FILE_ATTRIBUTE_READONLY>
+
+The file or directory is read-only. Applications can read the file but cannot
+write to it or delete it. In the case of a directory, applications cannot
+delete it.
+
+=item C<FILE_ATTRIBUTE_REPARSE_POINT>
+
+The file or directory has an associated reparse point.
+
+=item C<FILE_ATTRIBUTE_SPARSE_FILE>
+
+The file is a sparse file.
+
+=item C<FILE_ATTRIBUTE_SYSTEM>
+
+The file or directory is part of, or is used exclusively by, the operating
+system.
+
+=item C<FILE_ATTRIBUTE_TEMPORARY>
+
+The file is being used for temporary storage. File systems avoid writing
+data back to mass storage if sufficient cache memory is available, because
+often the application deletes the temporary file shortly after the handle is
+closed. In that case, the system can entirely avoid writing the data.
+Otherwise, the data will be written after the handle is closed.
+
+=back
+
+=item GetFileType
+
+=item C<$uFileType= GetFileType( $hFile )>
+
+Takes a Win32 native file handle and returns a C<FILE_TYPE_*> constant
+indicating the type of the file opened on that handle:
+
+=over
+
+=item C<FILE_TYPE_UNKNOWN>
+
+None of the below. Often a special device.
+
+=item C<FILE_TYPE_DISK>
+
+An ordinary disk file.
+
+=item C<FILE_TYPE_CHAR>
+
+What Unix would call a "character special file", that is, a device that
+works on character streams such as a printer port or a console.
+
+=item C<FILE_TYPE_PIPE>
+
+Either a named or anonymous pipe.
+
+=back
+
+=item getFileSize
+
+=item C<$size= getFileSize( $hFile )>
+
+This is a Perl-friendly wrapper for the C<GetFileSize> (below) API call.
+
+It takes a Win32 native file handle and returns the size in bytes. Since the
+size can be a 64 bit value, on non 64 bit integer Perls the value returned will
+be an object of type C<Math::BigInt>.
+
+=item GetFileSize
+
+=item C<$iSizeLow= GetFileSize($win32Handle, $iSizeHigh)>
+
+Returns the size of a file pointed to by C<$win32Handle>, optionally storing
+the high order 32 bits into C<$iSizeHigh> if it is not C<[]>. If $iSizeHigh is
+C<[]>, a non-zero value indicates success. Otherwise, on failure the return
+value will be C<0xffffffff> and C<fileLastError()> will not be C<NO_ERROR>.
+
+=item GetOverlappedResult
+
+=item C<$bRetval= GetOverlappedResult( $win32Handle, $pOverlapped,
+ $numBytesTransferred, $bWait )>
+
+Used for asynchronous IO in Win32 to get the result of a pending IO operation,
+such as when a file operation returns C<ERROR_IO_PENDING>. Returns a false
+value on failure. The C<$overlapped> structure and C<$numBytesTransferred>
+will be modified with the results of the operation.
+
+As far as creating the C<$pOverlapped> structure, you are currently on your own.
+
+See L<http://msdn.microsoft.com/library/default.asp?url=/library/en-us/dllproc/base/getoverlappedresult.asp> for more information.
+
+=item GetLogicalDrives
+
+=item C<$uDriveBits= GetLogicalDrives()>
+
+Returns an unsigned value with one bit set for each drive letter currently
+defined. If "A:" is currently a valid drive letter, then the C<1> bit
+will be set in C<$uDriveBits>. If "B:" is valid, then the C<2> bit will
+be set. If "Z:" is valid, then the C<2**26> [C<0x4000000>] bit will be
+set.
+
+=item GetLogicalDriveStrings
+
+=item C<$olOutLength= GetLogicalDriveStrings( $lBufSize, $osBuffer )>
+
+For each currently defined drive letter, a C<'\0'>-terminated string
+of the path to the root of its file system is constructed. All of
+these strings are concatenated into a single larger string and an
+extra terminating C<'\0'> is added. This larger string is returned
+in C<$osBuffer>. Note that this includes drive letters that have
+been defined but that have no file system, such as drive letters
+assigned to unformatted partitions.
+
+C<$lBufSize> is the size of the buffer to allocate to store this
+list of strings. C<26*4+1> is always sufficient and should usually
+be used.
+
+C<$osBuffer> is a scalar to be set to contain the constructed string.
+
+C<$olOutLength> is the number of bytes actually written to C<$osBuffer>
+but C<length($osBuffer)> can also be used to determine this.
+
+For example, on a poorly equipped computer,
+
+ GetLogicalDriveStrings( 4*26+1, $osBuffer );
+
+might set C<$osBuffer> to the 9-character string, C<"A:\\\0C:\\\0\0">.
+
+=item GetHandleInformation
+
+=item C<GetHandleInformation( $hObject, $ouFlags )>
+
+Retrieves the flags associated with a Win32 native file handle or object
+handle.
+
+C<$hObject> is an open Win32 native file handle or an open Win32 native
+handle to some other type of object.
+
+C<$ouFlags> will be set to an unsigned value having zero or more of
+the bits C<HANDLE_FLAG_INHERIT> and C<HANDLE_FLAG_PROTECT_FROM_CLOSE>
+set. See the C<":HANDLE_FLAG_"> export class for the meanings of these
+bits.
+
+=item GetOsFHandle
+
+=item C<$hNativeHandle= GetOsFHandle( FILE )>
+
+Takes a Perl file handle [like C<STDIN>] and returns the Win32 native
+file handle associated with it. See C<FdGetOsFHandle> for more
+information about Win32 native file handles.
+
+C<$hNativeHandle> is set to a false value [and C<lastFileError()> and
+C<$^E> are set] if C<GetOsFHandle> fails. C<GetOsFHandle> returns
+C<"0 but true"> in the impossible(?) case of the handle having a value
+of C<0>.
+
+=item GetVolumeInformation
+
+=item C<GetVolumeInformation( $sRootPath, $osVolName, $lVolName, $ouSerialNum, $ouMaxNameLen, $ouFsFlags, $osFsType, $lFsType )>
+
+Gets information about a file system volume, returning a true
+value if successful. On failure, returns a false value and sets
+C<fileLastError()> and C<$^E>.
+
+C<$sRootPath> is a string specifying the path to the root of the file system,
+for example, C<"C:/">.
+
+C<$osVolName> is a scalar to be set to the string representing the
+volume name, also called the file system label. C<$lVolName> is the
+number of bytes to allocate for the C<$osVolName> buffer [see
+L<Buffer Sizes> for more information].
+
+C<$ouSerialNum> is C<[]> [for C<NULL>] or will be set to the numeric
+value of the volume's serial number.
+
+C<$ouMaxNameLen> is C<[]> [for C<NULL>] or will be set to the maximum
+length allowed for a file name or directory name within the file system.
+
+C<$osFsType> is a scalar to be set to the string representing the
+file system type, such as C<"FAT"> or C<"NTFS">. C<$lFsType> is the
+number of bytes to allocate for the C<$osFsType> buffer [see
+L<Buffer Sizes> for more information].
+
+C<$ouFsFlags> is C<[]> [for C<NULL>] or will be set to an unsigned integer
+with bits set indicating properties of the file system:
+
+=over
+
+=item C<FS_CASE_IS_PRESERVED>
+
+The file system preserves the case of file names [usually true].
+That is, it doesn't change the case of file names such as forcing
+them to upper- or lower-case.
+
+=item C<FS_CASE_SENSITIVE>
+
+The file system supports the ability to not ignore the case of file
+names [but might ignore case the way you are using it]. That is, the
+file system has the ability to force you to get the letter case of a
+file's name exactly right to be able to open it. This is true for
+"NTFS" file systems, even though case in file names is usually still
+ignored.
+
+=item C<FS_UNICODE_STORED_ON_DISK>
+
+The file system preserves Unicode in file names [true for "NTFS"].
+
+=item C<FS_PERSISTENT_ACLS>
+
+The file system supports setting Access Control Lists on files [true
+for "NTFS"].
+
+=item C<FS_FILE_COMPRESSION>
+
+The file system supports compression on a per-file basis [true for
+"NTFS"].
+
+=item C<FS_VOL_IS_COMPRESSED>
+
+The entire file system is compressed such as via "DoubleSpace".
+
+=back
+
+=item IsRecognizedPartition
+
+=item C<IsRecognizedPartition( $ivPartitionType )>
+
+Takes a partition type and returns whether that partition type is
+supported under Win32. C<$ivPartitonType> is an integer value as from
+the operating system byte of a hard disk's DOS-compatible partition
+table [that is, a partition table for x86-based Win32, not, for
+example, one used with Windows NT for Alpha processors]. For example,
+the C<PartitionType> member of the C<PARTITION_INFORMATION> structure.
+
+Common values for C<$ivPartitionType> include C<PARTITION_FAT_12==1>,
+C<PARTITION_FAT_16==4>, C<PARTITION_EXTENDED==5>, C<PARTITION_FAT32==0xB>.
+
+=item IsContainerPartition
+
+=item C<IsContainerPartition( $ivPartitionType )>
+
+Takes a partition type and returns whether that partition is a
+"container" partition that is supported under Win32, that is, whether
+it is an "extended" partition that can contain "logical" partitions.
+C<$ivPartitonType> is as for C<IsRecognizedPartition>.
+
+=item MoveFile
+
+=item C<MoveFile( $sOldName, $sNewName )>
+
+Renames a file or directory. C<$sOldName> is the name of the existing
+file or directory that is to be renamed. C<$sNewName> is the new name
+to give the file or directory. Returns a true value if the move
+succeeds. For failure, returns a false value and sets
+C<fileLastErorr()> and C<$^E> to the reason for the failure.
+
+Files can be "renamed" between file systems and the file contents and
+some attributes will be moved. Directories can only be renamed within
+one file system. If there is already a file or directory named
+C<$sNewName>, then C<MoveFile> will fail.
+
+=item MoveFileEx
+
+=item C<MoveFileEx( $sOldName, $sNewName, $uFlags )>
+
+Renames a file or directory. C<$sOldName> is the name of the existing
+file or directory that is to be renamed. C<$sNewName> is the new name
+to give the file or directory. Returns a true value if the move
+succeeds. For failure, returns a false value and sets
+C<fileLastErorr()> and C<$^E> to the reason for the failure.
+
+C<$uFlags> is an unsigned value with zero or more of the following bits set:
+
+=over
+
+=item C<MOVEFILE_REPLACE_EXISTING>
+
+If this bit is set and a file [but not a directory] named C<$sNewName>
+already exists, then it will be replaced by C<$sOldName>. If this bit
+is not set then C<MoveFileEx> will fail rather than replace an existing
+C<$sNewName>.
+
+=item C<MOVEFILE_COPY_ALLOWED>
+
+Allows files [but not directories] to be moved between file systems
+by copying the C<$sOldName> file data and some attributes to
+C<$sNewName> and then deleting C<$sOldName>. If this bit is not set
+[or if C<$sOldName> denotes a directory] and C<$sNewName> refers to a
+different file system than C<$sOldName>, then C<MoveFileEx> will fail.
+
+=item C<MOVEFILE_DELAY_UNTIL_REBOOT>
+
+Preliminary verifications are made and then an entry is added to the
+Registry to cause the rename [or delete] operation to be done the
+next time this copy of the operating system is booted [right after
+any automatic file system checks have completed]. This is not
+supported under Windows 95.
+
+When this bit is set, C<$sNewName> can be C<[]> [for C<NULL>] to
+indicate that C<$sOldName> should be deleted during the next boot
+rather than renamed.
+
+Setting both the C<MOVEFILE_COPY_ALLOWED> and
+C<MOVEFILE_DELAY_UNTIL_REBOOT> bits will cause C<MoveFileEx> to fail.
+
+=item C<MOVEFILE_WRITE_THROUGH>
+
+Ensures that C<MoveFileEx> won't return until the operation has
+finished and been flushed to disk. This is not supported under
+Windows 95. Only affects file renames to another file system,
+forcing a buffer flush at the end of the copy operation.
+
+=back
+
+=item OsFHandleOpen
+
+=item C<OsFHandleOpen( FILE, $hNativeHandle, $sMode )>
+
+Opens a Perl file handle based on an already open Win32 native
+file handle [much like C's C<fdopen()> does with a file descriptor].
+Returns a true value if the open operation succeeded. For failure,
+returns a false value and sets C<$!> [and possibly C<fileLastError()>
+and C<$^E>] to the reason for the failure.
+
+C<FILE> is a Perl file handle [in any of the supported forms, a
+bareword, a string, a typeglob, or a reference to a typeglob] that
+will be opened. If C<FILE> is already open, it will automatically
+be closed before it is reopened.
+
+C<$hNativeHandle> is an open Win32 native file handle, probably the
+return value from C<CreateFile> or C<createFile>.
+
+C<$sMode> is string of zero or more letters from C<"rwatb">. These
+are translated into a combination C<O_RDONLY> [C<"r">], C<O_WRONLY>
+[C<"w">], C<O_RDWR> [C<"rw">], C<O_APPEND> [C<"a">], C<O_TEXT>
+[C<"t">], and C<O_BINARY> [C<"b">] flags [see the L<Fcntl> module]
+that is passed to C<OsFHandleOpenFd>. Currently only C<O_APPEND>
+and C<O_TEXT> have any significance.
+
+Also, a C<"r"> and/or C<"w"> in C<$sMode> is used to decide how the
+file descriptor is converted into a Perl file handle, even though this
+doesn't appear to make a difference. One of the following is used:
+
+ open( FILE, "<&=".$ivFd ) # "r" w/o "w"
+ open( FILE, ">&=".$ivFd ) # "w" w/o "r"
+ open( FILE, "+<&=".$ivFd ) # both "r" and "w"
+
+C<OsFHandleOpen> eventually calls the Win32-specific C routine
+C<_open_osfhandle()> or Perl's "improved" version called
+C<win32_open_osfhandle()>. Prior to Perl5.005, C's
+C<_open_osfhandle()> is called which will fail if
+C<GetFileType($hNativeHandle)> would return C<FILE_TYPE_UNKNOWN>. For
+Perl5.005 and later, C<OsFHandleOpen> calls C<win32_open_osfhandle()>
+from the Perl DLL which doesn't have this restriction.
+
+=item OsFHandleOpenFd
+
+=item C<$ivFD= OsFHandleOpenFd( $hNativeHandle, $uMode )>
+
+Opens a file descriptor [C<$ivFD>] based on an already open Win32
+native file handle, C<$hNativeHandle>. This just calls the
+Win32-specific C routine C<_open_osfhandle()> or Perl's "improved"
+version called C<win32_open_osfhandle()>. Prior to Perl5.005 and in Cygwin
+Perl, C's C<_open_osfhandle()> is called which will fail if
+C<GetFileType($hNativeHandle)> would return C<FILE_TYPE_UNKNOWN>. For
+Perl5.005 and later, C<OsFHandleOpenFd> calls C<win32_open_osfhandle()> from
+the Perl DLL which doesn't have this restriction.
+
+C<$uMode> the logical combination of zero or more C<O_*> constants
+exported by the C<Fcntl> module. Currently only C<O_APPEND> and
+C<O_TEXT> have any significance.
+
+C<$ivFD> will be non-negative if the open operation was successful.
+For failure, C<-1> is returned and C<$!> [and possibly
+C<fileLastError()> and C<$^E>] is set to the reason for the failure.
+
+=item QueryDosDevice
+
+=item C<$olTargetLen= QueryDosDevice( $sDosDeviceName, $osTargetPath, $lTargetBuf )>
+
+Looks up the definition of a given "DOS" device name, yielding the
+active Windows NT native device name along with any currently dormant
+definitions.
+
+C<$sDosDeviceName> is the name of the "DOS" device whose definitions
+we want. For example, C<"C:">, C<"COM1">, or C<"PhysicalDrive0">.
+If C<$sDosDeviceName> is C<[]> [for C<NULL>], the list of all DOS
+device names is returned instead.
+
+C<$osTargetPath> will be assigned a string containing the list of
+definitions. The definitions are each C<'\0'>-terminate and are
+concatenated into the string, most recent first, with an extra C<'\0'>
+at the end of the whole string [see C<GetLogicalDriveStrings> for
+a sample of this format].
+
+C<$lTargetBuf> is the size [in bytes] of the buffer to allocate for
+C<$osTargetPath>. See L<Buffer Sizes> for more information.
+
+C<$olTargetLen> is set to the number of bytes written to
+C<$osTargetPath> but you can also use C<length($osTargetPath)>
+to determine this.
+
+For failure, C<0> is returned and C<fileLastError()> and C<$^E> are
+set to the reason for the failure.
+
+=item ReadFile
+
+=item C<ReadFile( $hFile, $opBuffer, $lBytes, $olBytesRead, $pOverlapped )>
+
+Reads bytes from a file or file-like device. Returns a true value if
+the read operation was successful. For failure, returns a false value
+and sets C<fileLastError()> and C<$^E> for the reason for the failure.
+
+C<$hFile> is a Win32 native file handle that is already open to the
+file or device to read from.
+
+C<$opBuffer> will be set to a string containing the bytes read.
+
+C<$lBytes> is the number of bytes you would like to read.
+C<$opBuffer> is automatically initialized to have a buffer large
+enough to hold that many bytes. Unlike other buffer sizes, C<$lBytes>
+does not need to have a C<"="> prepended to it to prevent a larger
+value to be passed to the underlying Win32 C<ReadFile> API. However,
+a leading C<"="> will be silently ignored, even if Perl warnings are
+enabled.
+
+If C<$olBytesRead> is not C<[]>, it will be set to the actual number
+of bytes read, though C<length($opBuffer)> can also be used to
+determine this.
+
+C<$pOverlapped> is C<[]> or is a C<OVERLAPPED> structure packed
+into a string. This is only useful if C<$hFile> was opened with
+the C<FILE_FLAG_OVERLAPPED> flag set.
+
+=item SetErrorMode
+
+=item C<$uOldMode= SetErrorMode( $uNewMode )>
+
+Sets the mode controlling system error handling B<and> returns the
+previous mode value. Both C<$uOldMode> and C<$uNewMode> will have
+zero or more of the following bits set:
+
+=over
+
+=item C<SEM_FAILCRITICALERRORS>
+
+If set, indicates that when a critical error is encountered, the call
+that triggered the error fails immediately. Normally this bit is not
+set, which means that a critical error causes a dialogue box to appear
+notifying the desktop user that some application has triggered a
+critical error. The dialogue box allows the desktop user to decide
+whether the critical error is returned to the process, is ignored, or
+the offending operation is retried.
+
+This affects the C<CreateFile> and C<GetVolumeInformation> calls.
+
+Setting this bit is useful for allowing you to check whether a floppy
+diskette is in the floppy drive.
+
+=item C<SEM_NOALIGNMENTFAULTEXCEPT>
+
+If set, this causes memory access misalignment faults to be
+automatically fixed in a manner invisible to the process. This flag
+is ignored on x86-based versions of Windows NT. This flag is not
+supported on Windows 95.
+
+=item C<SEM_NOGPFAULTERRORBOX>
+
+If set, general protection faults do not generate a dialogue box but
+can instead be handled by the process via an exception handler. This
+bit should not be set by programs that don't know how to handle such
+faults.
+
+=item C<SEM_NOOPENFILEERRORBOX>
+
+If set, then when an attempt to continue reading from or writing to
+an already open file [usually on a removable medium like a floppy
+diskette] finds the file no longer available, the call will
+immediately fail. Normally this bit is not set, which means that
+instead a dialogue box will appear notifying the desktop user that
+some application has run into this problem. The dialogue box allows
+the desktop user to decide whether the failure is returned to the
+process, is ignored, or the offending operation is retried.
+
+This affects the C<ReadFile> and C<WriteFile> calls.
+
+=back
+
+=item setFilePointer
+
+=item C<$uNewPos = setFilePointer( $hFile, $ivOffset, $uFromWhere )>
+
+This is a perl-friendly wrapper for the SetFilePointer API (below).
+C<$ivOffset> can be a 64 bit integer or C<Math::BigInt> object if your Perl
+doesn't have 64 bit integers. The return value is the new offset and will
+likewise be a 64 bit integer or a C<Math::BigInt> object.
+
+=item SetFilePointer
+
+=item C<$uNewPos = SetFilePointer( $hFile, $ivOffset, $ioivOffsetHigh, $uFromWhere )>
+
+The native Win32 version of C<seek()>. C<SetFilePointer> sets the
+position within a file where the next read or write operation will
+start from.
+
+C<$hFile> is a Win32 native file handle.
+
+C<$uFromWhere> is either C<FILE_BEGIN>, C<FILE_CURRENT>, or
+C<FILE_END>, indicating that the new file position is being specified
+relative to the beginning of the file, the current file pointer, or
+the end of the file, respectively.
+
+C<$ivOffset> is [if C<$ioivOffsetHigh> is C<[]>] the offset [in bytes]
+to the new file position from the position specified via
+C<$uFromWhere>. If C<$ioivOffsetHigh> is not C<[]>, then C<$ivOffset>
+is converted to an unsigned value to be used as the low-order 4 bytes
+of the offset.
+
+C<$ioivOffsetHigh> can be C<[]> [for C<NULL>] to indicate that you are
+only specifying a 4-byte offset and the resulting file position will
+be 0xFFFFFFFE or less [just under 4GB]. Otherwise C<$ioivOfffsetHigh>
+starts out with the high-order 4 bytes [signed] of the offset and gets
+set to the [unsigned] high-order 4 bytes of the resulting file position.
+
+The underlying C<SetFilePointer> returns C<0xFFFFFFFF> to indicate
+failure, but if C<$ioivOffsetHigh> is not C<[]>, you would also have
+to check C<$^E> to determine whether C<0xFFFFFFFF> indicates an error
+or not. C<Win32API::File::SetFilePointer> does this checking for you
+and returns a false value if and only if the underlying
+C<SetFilePointer> failed. For this reason, C<$uNewPos> is set to
+C<"0 but true"> if you set the file pointer to the beginning of the
+file [or any position with 0 for the low-order 4 bytes].
+
+So the return value will be true if the seek operation was successful.
+For failure, a false value is returned and C<fileLastError()> and
+C<$^E> are set to the reason for the failure.
+
+=item SetHandleInformation
+
+=item C<SetHandleInformation( $hObject, $uMask, $uFlags )>
+
+Sets the flags associated with a Win32 native file handle or object
+handle. Returns a true value if the operation was successful. For
+failure, returns a false value and sets C<fileLastError()> and C<$^E>
+for the reason for the failure.
+
+C<$hObject> is an open Win32 native file handle or an open Win32 native
+handle to some other type of object.
+
+C<$uMask> is an unsigned value having one or more of the bits
+C<HANDLE_FLAG_INHERIT> and C<HANDLE_FLAG_PROTECT_FROM_CLOSE> set.
+Only bits set in C<$uMask> will be modified by C<SetHandleInformation>.
+
+C<$uFlags> is an unsigned value having zero or more of the bits
+C<HANDLE_FLAG_INHERIT> and C<HANDLE_FLAG_PROTECT_FROM_CLOSE> set.
+For each bit set in C<$uMask>, the cooresponding bit in the handle's
+flags is set to the value of the cooresponding bit in C<$uFlags>.
+
+If C<$uOldFlags> were the value of the handle's flags before the
+call to C<SetHandleInformation>, then the value of the handle's
+flags afterward would be:
+
+ ( $uOldFlags & ~$uMask ) | ( $uFlags & $uMask )
+
+[at least as far as the C<HANDLE_FLAG_INHERIT> and
+C<HANDLE_FLAG_PROTECT_FROM_CLOSE> bits are concerned.]
+
+See the C<":HANDLE_FLAG_"> export class for the meanings of these bits.
+
+=item WriteFile
+
+=item C<WriteFile( $hFile, $pBuffer, $lBytes, $ouBytesWritten, $pOverlapped )>
+
+Write bytes to a file or file-like device. Returns a true value if
+the operation was successful. For failure, returns a false value and
+sets C<fileLastError()> and C<$^E> for the reason for the failure.
+
+C<$hFile> is a Win32 native file handle that is already open to the
+file or device to be written to.
+
+C<$pBuffer> is a string containing the bytes to be written.
+
+C<$lBytes> is the number of bytes you would like to write. If
+C<$pBuffer> is not at least C<$lBytes> long, C<WriteFile> croaks. You
+can specify C<0> for C<$lBytes> to write C<length($pBuffer)> bytes.
+A leading C<"="> on C<$lBytes> will be silently ignored, even if Perl
+warnings are enabled.
+
+C<$ouBytesWritten> will be set to the actual number of bytes written
+unless you specify it as C<[]>.
+
+C<$pOverlapped> is C<[]> or is an C<OVERLAPPED> structure packed
+into a string. This is only useful if C<$hFile> was opened with
+the C<FILE_FLAG_OVERLAPPED> flag set.
+
+=back
+
+=item C<":FuncA">
+
+The ASCII-specific functions. Each of these is just the same as the
+version without the trailing "A".
+
+ CopyFileA
+ CreateFileA
+ DefineDosDeviceA
+ DeleteFileA
+ GetDriveTypeA
+ GetFileAttributesA
+ GetLogicalDriveStringsA
+ GetVolumeInformationA
+ MoveFileA
+ MoveFileExA
+ QueryDosDeviceA
+
+=item C<":FuncW">
+
+The wide-character-specific (Unicode) functions. Each of these is
+just the same as the version without the trailing "W" except that
+strings are expected in Unicode and some lengths are measured as
+number of C<WCHAR>s instead of number of bytes, as indicated below.
+
+=over
+
+=item CopyFileW
+
+=item C<CopyFileW( $swOldFileName, $swNewFileName, $bFailIfExists )>
+
+C<$swOldFileName> and C<$swNewFileName> are Unicode strings.
+
+=item CreateFileW
+
+=item C<$hObject= CreateFileW( $swPath, $uAccess, $uShare, $pSecAttr, $uCreate, $uFlags, $hModel )>
+
+C<$swPath> is Unicode.
+
+=item DefineDosDeviceW
+
+=item C<DefineDosDeviceW( $uFlags, $swDosDeviceName, $swTargetPath )>
+
+C<$swDosDeviceName> and C<$swTargetPath> are Unicode.
+
+=item DeleteFileW
+
+=item C<DeleteFileW( $swFileName )>
+
+C<$swFileName> is Unicode.
+
+=item GetDriveTypeW
+
+=item C<$uDriveType= GetDriveTypeW( $swRootPath )>
+
+C<$swRootPath> is Unicode.
+
+=item GetFileAttributesW
+
+=item C<$uAttrs= GetFileAttributesW( $swPath )>
+
+C<$swPath> is Unicode.
+
+=item GetLogicalDriveStringsW
+
+=item C<$olwOutLength= GetLogicalDriveStringsW( $lwBufSize, $oswBuffer )>
+
+Unicode is stored in C<$oswBuffer>. C<$lwBufSize> and C<$olwOutLength>
+are measured as number of C<WCHAR>s.
+
+=item GetVolumeInformationW
+
+=item C<GetVolumeInformationW( $swRootPath, $oswVolName, $lwVolName, $ouSerialNum, $ouMaxNameLen, $ouFsFlags, $oswFsType, $lwFsType )>
+
+C<$swRootPath> is Unicode and Unicode is written to C<$oswVolName> and
+C<$oswFsType>. C<$lwVolName> and C<$lwFsType> are measures as number
+of C<WCHAR>s.
+
+=item MoveFileW
+
+=item C<MoveFileW( $swOldName, $swNewName )>
+
+C<$swOldName> and C<$swNewName> are Unicode.
+
+=item MoveFileExW
+
+=item C<MoveFileExW( $swOldName, $swNewName, $uFlags )>
+
+C<$swOldName> and C<$swNewName> are Unicode.
+
+=item QueryDosDeviceW
+
+=item C<$olwTargetLen= QueryDosDeviceW( $swDeviceName, $oswTargetPath, $lwTargetBuf )>
+
+C<$swDeviceName> is Unicode and Unicode is written to
+C<$oswTargetPath>. C<$lwTargetBuf> and C<$olwTargetLen> are measured
+as number of C<WCHAR>s.
+
+=back
+
+=item C<":Misc">
+
+Miscellaneous constants. Used for the C<$uCreate> argument of
+C<CreateFile> or the C<$uFromWhere> argument of C<SetFilePointer>.
+Plus C<INVALID_HANDLE_VALUE>, which you usually won't need to check
+for since most routines translate it into a false value.
+
+ CREATE_ALWAYS CREATE_NEW OPEN_ALWAYS
+ OPEN_EXISTING TRUNCATE_EXISTING INVALID_HANDLE_VALUE
+ FILE_BEGIN FILE_CURRENT FILE_END
+
+=item C<":DDD_">
+
+Constants for the C<$uFlags> argument of C<DefineDosDevice>.
+
+ DDD_EXACT_MATCH_ON_REMOVE
+ DDD_RAW_TARGET_PATH
+ DDD_REMOVE_DEFINITION
+
+=item C<":DRIVE_">
+
+Constants returned by C<GetDriveType>.
+
+ DRIVE_UNKNOWN DRIVE_NO_ROOT_DIR DRIVE_REMOVABLE
+ DRIVE_FIXED DRIVE_REMOTE DRIVE_CDROM
+ DRIVE_RAMDISK
+
+=item C<":FILE_">
+
+Specific types of access to files that can be requested via the
+C<$uAccess> argument to C<CreateFile>.
+
+ FILE_READ_DATA FILE_LIST_DIRECTORY
+ FILE_WRITE_DATA FILE_ADD_FILE
+ FILE_APPEND_DATA FILE_ADD_SUBDIRECTORY
+ FILE_CREATE_PIPE_INSTANCE FILE_READ_EA
+ FILE_WRITE_EA FILE_EXECUTE
+ FILE_TRAVERSE FILE_DELETE_CHILD
+ FILE_READ_ATTRIBUTES FILE_WRITE_ATTRIBUTES
+ FILE_ALL_ACCESS FILE_GENERIC_READ
+ FILE_GENERIC_WRITE FILE_GENERIC_EXECUTE )],
+
+=item C<":FILE_ATTRIBUTE_">
+
+File attribute constants. Returned by C<attrLetsToBits> and used in
+the C<$uFlags> argument to C<CreateFile>.
+
+ FILE_ATTRIBUTE_ARCHIVE FILE_ATTRIBUTE_COMPRESSED
+ FILE_ATTRIBUTE_HIDDEN FILE_ATTRIBUTE_NORMAL
+ FILE_ATTRIBUTE_OFFLINE FILE_ATTRIBUTE_READONLY
+ FILE_ATTRIBUTE_SYSTEM FILE_ATTRIBUTE_TEMPORARY
+
+In addition, C<GetFileAttributes> can return these constants (or
+INVALID_FILE_ATTRIBUTES in case of an error).
+
+ FILE_ATTRIBUTE_DEVICE FILE_ATTRIBUTE_DIRECTORY
+ FILE_ATTRIBUTE_ENCRYPTED FILE_ATTRIBUTE_NOT_CONTENT_INDEXED
+ FILE_ATTRIBUTE_REPARSE_POINT FILE_ATTRIBUTE_SPARSE_FILE
+
+=item C<":FILE_FLAG_">
+
+File option flag constants. Used in the C<$uFlags> argument to
+C<CreateFile>.
+
+ FILE_FLAG_BACKUP_SEMANTICS FILE_FLAG_DELETE_ON_CLOSE
+ FILE_FLAG_NO_BUFFERING FILE_FLAG_OVERLAPPED
+ FILE_FLAG_POSIX_SEMANTICS FILE_FLAG_RANDOM_ACCESS
+ FILE_FLAG_SEQUENTIAL_SCAN FILE_FLAG_WRITE_THROUGH
+ FILE_FLAG_OPEN_REPARSE_POINT
+
+=item C<":FILE_SHARE_">
+
+File sharing constants. Used in the C<$uShare> argument to
+C<CreateFile>.
+
+ FILE_SHARE_DELETE FILE_SHARE_READ FILE_SHARE_WRITE
+
+=item C<":FILE_TYPE_">
+
+File type constants. Returned by C<GetFileType>.
+
+ FILE_TYPE_CHAR FILE_TYPE_DISK
+ FILE_TYPE_PIPE FILE_TYPE_UNKNOWN
+
+=item C<":FS_">
+
+File system characteristics constants. Placed in the C<$ouFsFlags>
+argument to C<GetVolumeInformation>.
+
+ FS_CASE_IS_PRESERVED FS_CASE_SENSITIVE
+ FS_UNICODE_STORED_ON_DISK FS_PERSISTENT_ACLS
+ FS_FILE_COMPRESSION FS_VOL_IS_COMPRESSED
+
+=item C<":HANDLE_FLAG_">
+
+Flag bits modifying the behavior of an object handle and accessed via
+C<GetHandleInformation> and C<SetHandleInformation>.
+
+=over
+
+=item HANDLE_FLAG_INHERIT
+
+If this bit is set, then children of this process who inherit handles
+[that is, processes created by calls to the Win32 C<CreateProcess> API
+with the C<bInheritHandles> parameter specified as C<TRUE>], will inherit
+this particular object handle.
+
+=item HANDLE_FLAG_PROTECT_FROM_CLOSE
+
+If this bit is set, then calls to C<CloseHandle> against this handle
+will be ignored, leaving the handle open and usable.
+
+=back
+
+=item C<":IOCTL_STORAGE_">
+
+I/O control operations for generic storage devices. Used in the
+C<$uIoControlCode> argument to C<DeviceIoControl>. Includes
+C<IOCTL_STORAGE_CHECK_VERIFY>, C<IOCTL_STORAGE_MEDIA_REMOVAL>,
+C<IOCTL_STORAGE_EJECT_MEDIA>, C<IOCTL_STORAGE_LOAD_MEDIA>,
+C<IOCTL_STORAGE_RESERVE>, C<IOCTL_STORAGE_RELEASE>,
+C<IOCTL_STORAGE_FIND_NEW_DEVICES>, and
+C<IOCTL_STORAGE_GET_MEDIA_TYPES>.
+
+=over
+
+=item C<IOCTL_STORAGE_CHECK_VERIFY>
+
+Verify that a device's media is accessible. C<$pInBuf> and C<$opOutBuf>
+should both be C<[]>. If C<DeviceIoControl> returns a true value, then
+the media is currently accessible.
+
+=item C<IOCTL_STORAGE_MEDIA_REMOVAL>
+
+Allows the device's media to be locked or unlocked. C<$opOutBuf> should
+be C<[]>. C<$pInBuf> should be a C<PREVENT_MEDIA_REMOVAL> data structure,
+which is simply an interger containing a boolean value:
+
+ $pInBuf= pack( "i", $bPreventMediaRemoval );
+
+=item C<IOCTL_STORAGE_EJECT_MEDIA>
+
+Requests that the device eject the media. C<$pInBuf> and C<$opOutBuf>
+should both be C<[]>.
+
+=item C<IOCTL_STORAGE_LOAD_MEDIA>
+
+Requests that the device load the media. C<$pInBuf> and C<$opOutBuf>
+should both be C<[]>.
+
+=item C<IOCTL_STORAGE_RESERVE>
+
+Requests that the device be reserved. C<$pInBuf> and C<$opOutBuf>
+should both be C<[]>.
+
+=item C<IOCTL_STORAGE_RELEASE>
+
+Releases a previous device reservation. C<$pInBuf> and C<$opOutBuf>
+should both be C<[]>.
+
+=item C<IOCTL_STORAGE_FIND_NEW_DEVICES>
+
+No documentation on this IOCTL operation was found.
+
+=item C<IOCTL_STORAGE_GET_MEDIA_TYPES>
+
+Requests information about the type of media supported by the device.
+C<$pInBuf> should be C<[]>. C<$opOutBuf> will be set to contain a
+vector of C<DISK_GEOMETRY> data structures, which can be decoded via:
+
+ # Calculate the number of DISK_GEOMETRY structures returned:
+ my $cStructs= length($opOutBuf)/(4+4+4+4+4+4);
+ my @fields= unpack( "L l I L L L" x $cStructs, $opOutBuf )
+ my( @ucCylsLow, @ivcCylsHigh, @uMediaType, @uTracksPerCyl,
+ @uSectsPerTrack, @uBytesPerSect )= ();
+ while( @fields ) {
+ push( @ucCylsLow, unshift @fields );
+ push( @ivcCylsHigh, unshift @fields );
+ push( @uMediaType, unshift @fields );
+ push( @uTracksPerCyl, unshift @fields );
+ push( @uSectsPerTrack, unshift @fields );
+ push( @uBytesPerSect, unshift @fields );
+ }
+
+For the C<$i>th type of supported media, the following variables will
+contain the following data.
+
+=over
+
+=item C<$ucCylsLow[$i]>
+
+The low-order 4 bytes of the total number of cylinders.
+
+=item C<$ivcCylsHigh[$i]>
+
+The high-order 4 bytes of the total number of cylinders.
+
+=item C<$uMediaType[$i]>
+
+A code for the type of media. See the C<":MEDIA_TYPE"> export class.
+
+=item C<$uTracksPerCyl[$i]>
+
+The number of tracks in each cylinder.
+
+=item C<$uSectsPerTrack[$i]>
+
+The number of sectors in each track.
+
+=item C<$uBytesPerSect[$i]>
+
+The number of bytes in each sector.
+
+=back
+
+=back
+
+=item C<":IOCTL_DISK_">
+
+I/O control operations for disk devices. Used in the C<$uIoControlCode>
+argument to C<DeviceIoControl>. Most of these are to be used on
+physical drive devices like C<"//./PhysicalDrive0">. However,
+C<IOCTL_DISK_GET_PARTITION_INFO> and C<IOCTL_DISK_SET_PARTITION_INFO>
+should only be used on a single-partition device like C<"//./C:">. Also,
+C<IOCTL_DISK_GET_MEDIA_TYPES> is documented as having been superceded but
+is still useful when used on a floppy device like C<"//./A:">.
+
+Includes C<IOCTL_DISK_FORMAT_TRACKS>, C<IOCTL_DISK_FORMAT_TRACKS_EX>,
+C<IOCTL_DISK_GET_DRIVE_GEOMETRY>, C<IOCTL_DISK_GET_DRIVE_LAYOUT>,
+C<IOCTL_DISK_GET_MEDIA_TYPES>, C<IOCTL_DISK_GET_PARTITION_INFO>,
+C<IOCTL_DISK_HISTOGRAM_DATA>, C<IOCTL_DISK_HISTOGRAM_RESET>,
+C<IOCTL_DISK_HISTOGRAM_STRUCTURE>, C<IOCTL_DISK_IS_WRITABLE>,
+C<IOCTL_DISK_LOGGING>, C<IOCTL_DISK_PERFORMANCE>,
+C<IOCTL_DISK_REASSIGN_BLOCKS>, C<IOCTL_DISK_REQUEST_DATA>,
+C<IOCTL_DISK_REQUEST_STRUCTURE>, C<IOCTL_DISK_SET_DRIVE_LAYOUT>,
+C<IOCTL_DISK_SET_PARTITION_INFO>, and C<IOCTL_DISK_VERIFY>.
+
+=over
+
+=item C<IOCTL_DISK_GET_DRIVE_GEOMETRY>
+
+Request information about the size and geometry of the disk. C<$pInBuf>
+should be C<[]>. C<$opOutBuf> will be set to a C<DISK_GEOMETRY> data
+structure which can be decode via:
+
+ ( $ucCylsLow, $ivcCylsHigh, $uMediaType, $uTracksPerCyl,
+ $uSectsPerTrack, $uBytesPerSect )= unpack( "L l I L L L", $opOutBuf );
+
+=over
+
+=item C<$ucCylsLow>
+
+The low-order 4 bytes of the total number of cylinders.
+
+=item C<$ivcCylsHigh>
+
+The high-order 4 bytes of the total number of cylinders.
+
+=item C<$uMediaType>
+
+A code for the type of media. See the C<":MEDIA_TYPE"> export class.
+
+=item C<$uTracksPerCyl>
+
+The number of tracks in each cylinder.
+
+=item C<$uSectsPerTrack>
+
+The number of sectors in each track.
+
+=item C<$uBytesPerSect>
+
+The number of bytes in each sector.
+
+=back
+
+=item C<IOCTL_DISK_GET_PARTITION_INFO>
+
+Request information about the size and geometry of the partition.
+C<$pInBuf> should be C<[]>. C<$opOutBuf> will be set to a
+C<PARTITION_INFORMATION> data structure which can be decode via:
+
+ ( $uStartLow, $ivStartHigh, $ucHiddenSects, $uPartitionSeqNumber,
+ $uPartitionType, $bActive, $bRecognized, $bToRewrite )=
+ unpack( "L l L L C c c c", $opOutBuf );
+
+=over
+
+=item C<$uStartLow> and C<$ivStartHigh>
+
+The low-order and high-order [respectively] 4 bytes of the starting
+offset of the partition, measured in bytes.
+
+=item C<$ucHiddenSects>
+
+The number of "hidden" sectors for this partition. Actually this is
+the number of sectors found prior to this partiton, that is, the
+starting offset [as found in C<$uStartLow> and C<$ivStartHigh>]
+divided by the number of bytes per sector.
+
+=item C<$uPartitionSeqNumber>
+
+The sequence number of this partition. Partitions are numbered
+starting as C<1> [with "partition 0" meaning the entire disk].
+Sometimes this field may be C<0> and you'll have to infer the
+partition sequence number from how many partitions preceed it on
+the disk.
+
+=item C<$uPartitionType>
+
+The type of partition. See the C<":PARTITION_"> export class for a
+list of known types. See also C<IsRecognizedPartition> and
+C<IsContainerPartition>.
+
+=item C<$bActive>
+
+C<1> for the active [boot] partition, C<0> otherwise.
+
+=item C<$bRecognized>
+
+Whether this type of partition is support under Win32.
+
+=item C<$bToRewrite>
+
+Whether to update this partition information. This field is not used
+by C<IOCTL_DISK_GET_PARTITION_INFO>. For
+C<IOCTL_DISK_SET_DRIVE_LAYOUT>, you must set this field to a true
+value for any partitions you wish to have changed, added, or deleted.
+
+=back
+
+=item C<IOCTL_DISK_SET_PARTITION_INFO>
+
+Change the type of the partition. C<$opOutBuf> should be C<[]>.
+C<$pInBuf> should be a C<SET_PARTITION_INFORMATION> data structure
+which is just a single byte containing the new parition type [see
+the C<":PARTITION_"> export class for a list of known types]:
+
+ $pInBuf= pack( "C", $uPartitionType );
+
+=item C<IOCTL_DISK_GET_DRIVE_LAYOUT>
+
+Request information about the disk layout. C<$pInBuf> should be C<[]>.
+C<$opOutBuf> will be set to contain C<DRIVE_LAYOUT_INFORMATION>
+structure including several C<PARTITION_INFORMATION> structures:
+
+ my( $cPartitions, $uDiskSignature )= unpack( "L L", $opOutBuf );
+ my @fields= unpack( "x8" . ( "L l L L C c c c" x $cPartitions ),
+ $opOutBuf );
+ my( @uStartLow, @ivStartHigh, @ucHiddenSects,
+ @uPartitionSeqNumber, @uPartitionType, @bActive,
+ @bRecognized, @bToRewrite )= ();
+ for( 1..$cPartition ) {
+ push( @uStartLow, unshift @fields );
+ push( @ivStartHigh, unshift @fields );
+ push( @ucHiddenSects, unshift @fields );
+ push( @uPartitionSeqNumber, unshift @fields );
+ push( @uPartitionType, unshift @fields );
+ push( @bActive, unshift @fields );
+ push( @bRecognized, unshift @fields );
+ push( @bToRewrite, unshift @fields );
+ }
+
+=over
+
+=item C<$cPartitions>
+
+If the number of partitions on the disk.
+
+=item C<$uDiskSignature>
+
+Is the disk signature, a unique number assigned by Disk Administrator
+[F<WinDisk.exe>] and used to identify the disk. This allows drive
+letters for partitions on that disk to remain constant even if the
+SCSI Target ID of the disk gets changed.
+
+=back
+
+See C<IOCTL_DISK_GET_PARTITION_INFORMATION> for information on the
+remaining these fields.
+
+=item C<IOCTL_DISK_GET_MEDIA_TYPES>
+
+Is supposed to be superseded by C<IOCTL_STORAGE_GET_MEDIA_TYPES> but
+is still useful for determining the types of floppy diskette formats
+that can be produced by a given floppy drive. See
+F<ex/FormatFloppy.plx> for an example.
+
+=item C<IOCTL_DISK_SET_DRIVE_LAYOUT>
+
+Change the partition layout of the disk. C<$pOutBuf> should be C<[]>.
+C<$pInBuf> should be a C<DISK_LAYOUT_INFORMATION> data structure
+including several C<PARTITION_INFORMATION> data structures.
+
+ # Already set: $cPartitions, $uDiskSignature, @uStartLow, @ivStartHigh,
+ # @ucHiddenSects, @uPartitionSeqNumber, @uPartitionType, @bActive,
+ # @bRecognized, and @bToRewrite.
+ my( @fields, $prtn )= ();
+ for $prtn ( 1..$cPartition ) {
+ push( @fields, $uStartLow[$prtn-1], $ivStartHigh[$prtn-1],
+ $ucHiddenSects[$prtn-1], $uPartitionSeqNumber[$prtn-1],
+ $uPartitionType[$prtn-1], $bActive[$prtn-1],
+ $bRecognized[$prtn-1], $bToRewrite[$prtn-1] );
+ }
+ $pInBuf= pack( "L L" . ( "L l L L C c c c" x $cPartitions ),
+ $cPartitions, $uDiskSignature, @fields );
+
+To delete a partition, zero out all fields except for C<$bToRewrite>
+which should be set to C<1>. To add a partition, increment
+C<$cPartitions> and add the information for the new partition
+into the arrays, making sure that you insert C<1> into @bToRewrite.
+
+See C<IOCTL_DISK_GET_DRIVE_LAYOUT> and
+C<IOCTL_DISK_GET_PARITITON_INFORMATION> for descriptions of the
+fields.
+
+=item C<IOCTL_DISK_VERIFY>
+
+Performs a logical format of [part of] the disk. C<$opOutBuf> should
+be C<[]>. C<$pInBuf> should contain a C<VERIFY_INFORMATION> data
+structure:
+
+ $pInBuf= pack( "L l L",
+ $uStartOffsetLow, $ivStartOffsetHigh, $uLength );
+
+=over
+
+=item C<$uStartOffsetLow> and C<$ivStartOffsetHigh>
+
+The low-order and high-order [respectively] 4 bytes of the offset [in
+bytes] where the formatting should begin.
+
+=item C<$uLength>
+
+The length [in bytes] of the section to be formatted.
+
+=back
+
+=item C<IOCTL_DISK_FORMAT_TRACKS>
+
+Format a range of tracks on the disk. C<$opOutBuf> should be C<[]>.
+C<$pInBuf> should contain a C<FORMAT_PARAMETERS> data structure:
+
+ $pInBuf= pack( "L L L L L", $uMediaType,
+ $uStartCyl, $uEndCyl, $uStartHead, $uEndHead );
+
+C<$uMediaType> if the type of media to be formatted. Mostly used to
+specify the density to use when formatting a floppy diskette. See the
+C<":MEDIA_TYPE"> export class for more information.
+
+The remaining fields specify the starting and ending cylinder and
+head of the range of tracks to be formatted.
+
+=item C<IOCTL_DISK_REASSIGN_BLOCKS>
+
+Reassign a list of disk blocks to the disk's spare-block pool.
+C<$opOutBuf> should be C<[]>. C<$pInBuf> should be a
+C<REASSIGN_BLOCKS> data structure:
+
+ $pInBuf= pack( "S S L*", 0, $cBlocks, @uBlockNumbers );
+
+=item C<IOCTL_DISK_PERFORMANCE>
+
+Request information about disk performance. C<$pInBuf> should be C<[]>.
+C<$opOutBuf> will be set to contain a C<DISK_PERFORMANCE> data structure:
+
+ my( $ucBytesReadLow, $ivcBytesReadHigh,
+ $ucBytesWrittenLow, $ivcBytesWrittenHigh,
+ $uReadTimeLow, $ivReadTimeHigh,
+ $uWriteTimeLow, $ivWriteTimeHigh,
+ $ucReads, $ucWrites, $uQueueDepth )=
+ unpack( "L l L l L l L l L L L", $opOutBuf );
+
+=item C<IOCTL_DISK_IS_WRITABLE>
+
+No documentation on this IOCTL operation was found.
+
+=item C<IOCTL_DISK_LOGGING>
+
+Control disk logging. Little documentation for this IOCTL operation
+was found. It makes use of a C<DISK_LOGGING> data structure:
+
+=over
+
+=item DISK_LOGGING_START
+
+Start logging each disk request in a buffer internal to the disk device
+driver of size C<$uLogBufferSize>:
+
+ $pInBuf= pack( "C L L", 0, 0, $uLogBufferSize );
+
+=item DISK_LOGGING_STOP
+
+Stop loggin each disk request:
+
+ $pInBuf= pack( "C L L", 1, 0, 0 );
+
+=item DISK_LOGGING_DUMP
+
+Copy the interal log into the supplied buffer:
+
+ $pLogBuffer= ' ' x $uLogBufferSize
+ $pInBuf= pack( "C P L", 2, $pLogBuffer, $uLogBufferSize );
+
+ ( $uByteOffsetLow[$i], $ivByteOffsetHigh[$i],
+ $uStartTimeLow[$i], $ivStartTimeHigh[$i],
+ $uEndTimeLog[$i], $ivEndTimeHigh[$i],
+ $hVirtualAddress[$i], $ucBytes[$i],
+ $uDeviceNumber[$i], $bWasReading[$i] )=
+ unpack( "x".(8+8+8+4+4+1+1+2)." L l L l L l L L C c x2", $pLogBuffer );
+
+=item DISK_LOGGING_BINNING
+
+Keep statics grouped into bins based on request sizes.
+
+ $pInBuf= pack( "C P L", 3, $pUnknown, $uUnknownSize );
+
+=back
+
+=item C<IOCTL_DISK_FORMAT_TRACKS_EX>
+
+No documentation on this IOCTL is included.
+
+=item C<IOCTL_DISK_HISTOGRAM_STRUCTURE>
+
+No documentation on this IOCTL is included.
+
+=item C<IOCTL_DISK_HISTOGRAM_DATA>
+
+No documentation on this IOCTL is included.
+
+=item C<IOCTL_DISK_HISTOGRAM_RESET>
+
+No documentation on this IOCTL is included.
+
+=item C<IOCTL_DISK_REQUEST_STRUCTURE>
+
+No documentation on this IOCTL operation was found.
+
+=item C<IOCTL_DISK_REQUEST_DATA>
+
+No documentation on this IOCTL operation was found.
+
+=back
+
+=item C<":FSCTL_">
+
+File system control operations. Used in the C<$uIoControlCode>
+argument to C<DeviceIoControl>.
+
+Includes C<FSCTL_SET_REPARSE_POINT>, C<FSCTL_GET_REPARSE_POINT>,
+C<FSCTL_DELETE_REPARSE_POINT>.
+
+=over
+
+=item C<FSCTL_SET_REPARSE_POINT>
+
+Sets reparse point data to be associated with $hDevice.
+
+=item C<FSCTL_GET_REPARSE_POINT>
+
+Retrieves the reparse point data associated with $hDevice.
+
+=item C<FSCTL_DELETE_REPARSE_POINT>
+
+Deletes the reparse point data associated with $hDevice.
+
+=back
+
+=item C<":GENERIC_">
+
+Constants specifying generic access permissions that are not specific
+to one type of object.
+
+ GENERIC_ALL GENERIC_EXECUTE
+ GENERIC_READ GENERIC_WRITE
+
+=item C<":MEDIA_TYPE">
+
+Different classes of media that a device can support. Used in the
+C<$uMediaType> field of a C<DISK_GEOMETRY> structure.
+
+=over
+
+=item C<Unknown>
+
+Format is unknown.
+
+=item C<F5_1Pt2_512>
+
+5.25" floppy, 1.2MB [really 1,200KB] total space, 512 bytes/sector.
+
+=item C<F3_1Pt44_512>
+
+3.5" floppy, 1.44MB [really 1,440KB] total space, 512 bytes/sector.
+
+=item C<F3_2Pt88_512>
+
+3.5" floppy, 2.88MB [really 2,880KB] total space, 512 bytes/sector.
+
+=item C<F3_20Pt8_512>
+
+3.5" floppy, 20.8MB total space, 512 bytes/sector.
+
+=item C<F3_720_512>
+
+3.5" floppy, 720KB total space, 512 bytes/sector.
+
+=item C<F5_360_512>
+
+5.25" floppy, 360KB total space, 512 bytes/sector.
+
+=item C<F5_320_512>
+
+5.25" floppy, 320KB total space, 512 bytes/sector.
+
+=item C<F5_320_1024>
+
+5.25" floppy, 320KB total space, 1024 bytes/sector.
+
+=item C<F5_180_512>
+
+5.25" floppy, 180KB total space, 512 bytes/sector.
+
+=item C<F5_160_512>
+
+5.25" floppy, 160KB total space, 512 bytes/sector.
+
+=item C<RemovableMedia>
+
+Some type of removable media other than a floppy diskette.
+
+=item C<FixedMedia>
+
+A fixed hard disk.
+
+=item C<F3_120M_512>
+
+3.5" floppy, 120MB total space.
+
+=back
+
+=item C<":MOVEFILE_">
+
+Constants for use in C<$uFlags> arguments to C<MoveFileEx>.
+
+ MOVEFILE_COPY_ALLOWED MOVEFILE_DELAY_UNTIL_REBOOT
+ MOVEFILE_REPLACE_EXISTING MOVEFILE_WRITE_THROUGH
+
+=item C<":SECURITY_">
+
+Security quality of service values that can be used in the C<$uFlags>
+argument to C<CreateFile> if opening the client side of a named pipe.
+
+ SECURITY_ANONYMOUS SECURITY_CONTEXT_TRACKING
+ SECURITY_DELEGATION SECURITY_EFFECTIVE_ONLY
+ SECURITY_IDENTIFICATION SECURITY_IMPERSONATION
+ SECURITY_SQOS_PRESENT
+
+=item C<":SEM_">
+
+Constants to be used with C<SetErrorMode>.
+
+ SEM_FAILCRITICALERRORS SEM_NOGPFAULTERRORBOX
+ SEM_NOALIGNMENTFAULTEXCEPT SEM_NOOPENFILEERRORBOX
+
+=item C<":PARTITION_">
+
+Constants describing partition types.
+
+ PARTITION_ENTRY_UNUSED PARTITION_FAT_12
+ PARTITION_XENIX_1 PARTITION_XENIX_2
+ PARTITION_FAT_16 PARTITION_EXTENDED
+ PARTITION_HUGE PARTITION_IFS
+ PARTITION_FAT32 PARTITION_FAT32_XINT13
+ PARTITION_XINT13 PARTITION_XINT13_EXTENDED
+ PARTITION_PREP PARTITION_UNIX
+ VALID_NTFT PARTITION_NTFT
+
+=item C<":ALL">
+
+All of the above.
+
+=back
+
+=head1 BUGS
+
+None known at this time.
+
+=head1 AUTHOR
+
+Tye McQueen, tye@metronet.com, http://www.metronet.com/~tye/.
+
+=head1 SEE ALSO
+
+The pyramids.
+
+=cut
diff --git a/cpan/Win32API-File/File.xs b/cpan/Win32API-File/File.xs
new file mode 100644
index 0000000000..7dbe783c0e
--- /dev/null
+++ b/cpan/Win32API-File/File.xs
@@ -0,0 +1,647 @@
+/* Win32API/File.xs */
+
+#include "EXTERN.h"
+#include "perl.h"
+#include "XSUB.h"
+/*#include "patchlevel.h"*/
+
+/* Uncomment the next line unless set "WRITE_PERL=>1" in Makefile.PL: */
+#define NEED_newCONSTSUB
+#include "ppport.h"
+
+#ifdef WORD
+# undef WORD
+#endif
+
+#define WIN32_LEAN_AND_MEAN /* Tell windows.h to skip much */
+#include <windows.h>
+#include <winioctl.h>
+
+/*CONSTS_DEFINED*/
+
+#ifndef INVALID_SET_FILE_POINTER
+# define INVALID_SET_FILE_POINTER ((DWORD)-1)
+#endif
+
+#define oDWORD DWORD
+
+#if (PERL_REVISION <= 5 && PERL_VERSION < 5) || defined(__CYGWIN__)
+# define win32_get_osfhandle _get_osfhandle
+# ifdef __CYGWIN__
+# define win32_open_osfhandle(handle,mode) \
+ (Perl_croak(aTHX_ "_open_osfhandle not implemented on Cygwin!"), -1)
+# else
+# define win32_open_osfhandle _open_osfhandle
+# endif
+# ifdef _get_osfhandle
+# undef _get_osfhandle /* stolen_get_osfhandle() isn't available here */
+# endif
+# ifdef _open_osfhandle
+# undef _open_osfhandle /* stolen_open_osfhandle() isn't available here */
+# endif
+#endif
+
+#ifndef XST_mUV
+# define XST_mUV(i,v) (ST(i) = sv_2mortal(newSVuv(v)) )
+#endif
+
+#ifndef XSRETURN_UV
+# define XSRETURN_UV(v) STMT_START { XST_mUV(0,v); XSRETURN(1); } STMT_END
+#endif
+
+#ifndef DEBUGGING
+# define Debug(list) /*Nothing*/
+#else
+# define Debug(list) ErrPrintf list
+# include <stdarg.h>
+ static void
+ ErrPrintf( const char *sFmt, ... )
+ {
+ va_list pAList;
+ static char *sEnv= NULL;
+ DWORD uErr= GetLastError();
+ if( NULL == sEnv ) {
+ if( NULL == ( sEnv= getenv("DEBUG_WIN32API_FILE") ) )
+ sEnv= "";
+ }
+ if( '\0' == *sEnv )
+ return;
+ va_start( pAList, sFmt );
+ vfprintf( stderr, sFmt, pAList );
+ va_end( pAList );
+ SetLastError( uErr );
+ }
+#endif /* DEBUGGING */
+
+
+#include "buffers.h" /* Include this after DEBUGGING setup finished */
+
+static LONG uLastFileErr= 0;
+
+static void
+SaveErr( BOOL bFailed )
+{
+ if( bFailed ) {
+ uLastFileErr= GetLastError();
+ }
+}
+
+MODULE = Win32API::File PACKAGE = Win32API::File
+
+PROTOTYPES: DISABLE
+
+
+LONG
+_fileLastError( uError=0 )
+ DWORD uError
+ CODE:
+ if( 1 <= items ) {
+ uLastFileErr= uError;
+ }
+ RETVAL= uLastFileErr;
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+CloseHandle( hObject )
+ HANDLE hObject
+ CODE:
+ RETVAL = CloseHandle( hObject );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+CopyFileA( sOldFileName, sNewFileName, bFailIfExists )
+ char * sOldFileName
+ char * sNewFileName
+ BOOL bFailIfExists
+ CODE:
+ RETVAL = CopyFileA( sOldFileName, sNewFileName, bFailIfExists );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+CopyFileW( swOldFileName, swNewFileName, bFailIfExists )
+ WCHAR * swOldFileName
+ WCHAR * swNewFileName
+ BOOL bFailIfExists
+ CODE:
+ RETVAL = CopyFileW( swOldFileName, swNewFileName, bFailIfExists );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+HANDLE
+CreateFileA( sPath, uAccess, uShare, pSecAttr, uCreate, uFlags, hModel )
+ char * sPath
+ DWORD uAccess
+ DWORD uShare
+ void * pSecAttr
+ DWORD uCreate
+ DWORD uFlags
+ HANDLE hModel
+ CODE:
+ RETVAL= CreateFileA( sPath, uAccess, uShare,
+ pSecAttr, uCreate, uFlags, hModel );
+ if( INVALID_HANDLE_VALUE == RETVAL ) {
+ SaveErr( 1 );
+ XSRETURN_NO;
+ } else if( 0 == RETVAL ) {
+ XSRETURN_PV( "0 but true" );
+ } else {
+ XSRETURN_UV( PTR2UV(RETVAL) );
+ }
+
+
+HANDLE
+CreateFileW( swPath, uAccess, uShare, pSecAttr, uCreate, uFlags, hModel )
+ WCHAR * swPath
+ DWORD uAccess
+ DWORD uShare
+ void * pSecAttr
+ DWORD uCreate
+ DWORD uFlags
+ HANDLE hModel
+ CODE:
+ RETVAL= CreateFileW( swPath, uAccess, uShare,
+ pSecAttr, uCreate, uFlags, hModel );
+ if( INVALID_HANDLE_VALUE == RETVAL ) {
+ SaveErr( 1 );
+ XSRETURN_NO;
+ } else if( 0 == RETVAL ) {
+ XSRETURN_PV( "0 but true" );
+ } else {
+ XSRETURN_UV( PTR2UV(RETVAL) );
+ }
+
+
+BOOL
+DefineDosDeviceA( uFlags, sDosDeviceName, sTargetPath )
+ DWORD uFlags
+ char * sDosDeviceName
+ char * sTargetPath
+ CODE:
+ RETVAL = DefineDosDeviceA( uFlags, sDosDeviceName, sTargetPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+DefineDosDeviceW( uFlags, swDosDeviceName, swTargetPath )
+ DWORD uFlags
+ WCHAR * swDosDeviceName
+ WCHAR * swTargetPath
+ CODE:
+ RETVAL = DefineDosDeviceW( uFlags, swDosDeviceName, swTargetPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+DeleteFileA( sFileName )
+ char * sFileName
+ CODE:
+ RETVAL = DeleteFileA( sFileName );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+DeleteFileW( swFileName )
+ WCHAR * swFileName
+ CODE:
+ RETVAL = DeleteFileW( swFileName );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+DeviceIoControl( hDevice, uIoControlCode, pInBuf, lInBuf, opOutBuf, lOutBuf, olRetBytes, pOverlapped )
+ HANDLE hDevice
+ DWORD uIoControlCode
+ char * pInBuf
+ DWORD lInBuf = init_buf_l($arg);
+ char * opOutBuf = NO_INIT
+ DWORD lOutBuf = init_buf_l($arg);
+ oDWORD &olRetBytes
+ void * pOverlapped
+ CODE:
+ if( NULL != pInBuf ) {
+ if( 0 == lInBuf ) {
+ lInBuf= SvCUR(ST(2));
+ } else if( SvCUR(ST(2)) < lInBuf ) {
+ croak( "%s: pInBuf shorter than specified (%d < %d)",
+ "Win32API::File::DeviceIoControl", SvCUR(ST(2)), lInBuf );
+ }
+ }
+ grow_buf_l( opOutBuf,ST(4),char *, lOutBuf,ST(5) );
+ RETVAL= DeviceIoControl( hDevice, uIoControlCode, pInBuf, lInBuf,
+ opOutBuf, lOutBuf, &olRetBytes, pOverlapped );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ opOutBuf trunc_buf_l( RETVAL, opOutBuf,ST(4), olRetBytes );
+ olRetBytes
+
+
+HANDLE
+FdGetOsFHandle( ivFd )
+ int ivFd
+ CODE:
+ RETVAL= (HANDLE) win32_get_osfhandle( ivFd );
+ SaveErr( INVALID_HANDLE_VALUE == RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetDriveTypeA( sRootPath )
+ char * sRootPath
+ CODE:
+ RETVAL = GetDriveTypeA( sRootPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetDriveTypeW( swRootPath )
+ WCHAR * swRootPath
+ CODE:
+ RETVAL = GetDriveTypeW( swRootPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetFileAttributesA( sPath )
+ char * sPath
+ CODE:
+ RETVAL = GetFileAttributesA( sPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetFileAttributesW( swPath )
+ WCHAR * swPath
+ CODE:
+ RETVAL = GetFileAttributesW( swPath );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetFileType( hFile )
+ HANDLE hFile
+ CODE:
+ RETVAL = GetFileType( hFile );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+GetHandleInformation( hObject, ouFlags )
+ HANDLE hObject
+ oDWORD * ouFlags
+ CODE:
+ RETVAL = GetHandleInformation( hObject, ouFlags );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ ouFlags
+
+
+DWORD
+GetLogicalDrives()
+ CODE:
+ RETVAL = GetLogicalDrives();
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+DWORD
+GetLogicalDriveStringsA( lBufSize, osBuffer )
+ DWORD lBufSize = init_buf_l($arg);
+ char * osBuffer = NO_INIT
+ CODE:
+ grow_buf_l( osBuffer,ST(1),char *, lBufSize,ST(0) );
+ RETVAL= GetLogicalDriveStringsA( lBufSize, osBuffer );
+ if( lBufSize < RETVAL && autosize(ST(0)) ) {
+ lBufSize= RETVAL;
+ grow_buf_l( osBuffer,ST(1),char *, lBufSize,ST(0) );
+ RETVAL= GetLogicalDriveStringsA( lBufSize, osBuffer );
+ }
+ if( 0 == RETVAL || lBufSize < RETVAL ) {
+ SaveErr( 1 );
+ } else {
+ trunc_buf_l( 1, osBuffer,ST(1), RETVAL );
+ }
+ OUTPUT:
+ RETVAL
+ osBuffer ;/* The code for this appears above. */
+
+
+DWORD
+GetLogicalDriveStringsW( lwBufSize, oswBuffer )
+ DWORD lwBufSize = init_buf_lw($arg);
+ WCHAR * oswBuffer = NO_INIT
+ CODE:
+ grow_buf_lw( oswBuffer,ST(1), lwBufSize,ST(0) );
+ RETVAL= GetLogicalDriveStringsW( lwBufSize, oswBuffer );
+ if( lwBufSize < RETVAL && autosize(ST(0)) ) {
+ lwBufSize= RETVAL;
+ grow_buf_lw( oswBuffer,ST(1), lwBufSize,ST(0) );
+ RETVAL= GetLogicalDriveStringsW( lwBufSize, oswBuffer );
+ }
+ if( 0 == RETVAL || lwBufSize < RETVAL ) {
+ SaveErr( 1 );
+ } else {
+ trunc_buf_lw( 1, oswBuffer,ST(1), RETVAL );
+ }
+ OUTPUT:
+ RETVAL
+ oswBuffer ;/* The code for this appears above. */
+
+
+BOOL
+GetVolumeInformationA( sRootPath, osVolName, lVolName, ouSerialNum, ouMaxNameLen, ouFsFlags, osFsType, lFsType )
+ char * sRootPath
+ char * osVolName = NO_INIT
+ DWORD lVolName = init_buf_l($arg);
+ oDWORD &ouSerialNum = optUV($arg);
+ oDWORD &ouMaxNameLen = optUV($arg);
+ oDWORD &ouFsFlags = optUV($arg);
+ char * osFsType = NO_INIT
+ DWORD lFsType = init_buf_l($arg);
+ CODE:
+ grow_buf_l( osVolName,ST(1),char *, lVolName,ST(2) );
+ grow_buf_l( osFsType,ST(6),char *, lFsType,ST(7) );
+ RETVAL= GetVolumeInformationA( sRootPath, osVolName, lVolName,
+ &ouSerialNum, &ouMaxNameLen, &ouFsFlags, osFsType, lFsType );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ osVolName trunc_buf_z( RETVAL, osVolName,ST(1) );
+ osFsType trunc_buf_z( RETVAL, osFsType,ST(6) );
+ ouSerialNum
+ ouMaxNameLen
+ ouFsFlags
+
+
+BOOL
+GetVolumeInformationW( swRootPath, oswVolName, lwVolName, ouSerialNum, ouMaxNameLen, ouFsFlags, oswFsType, lwFsType )
+ WCHAR * swRootPath
+ WCHAR * oswVolName = NO_INIT
+ DWORD lwVolName = init_buf_lw($arg);
+ oDWORD &ouSerialNum = optUV($arg);
+ oDWORD &ouMaxNameLen = optUV($arg);
+ oDWORD &ouFsFlags = optUV($arg);
+ WCHAR * oswFsType = NO_INIT
+ DWORD lwFsType = init_buf_lw($arg);
+ CODE:
+ grow_buf_lw( oswVolName,ST(1), lwVolName,ST(2) );
+ grow_buf_lw( oswFsType,ST(6), lwFsType,ST(7) );
+ RETVAL= GetVolumeInformationW( swRootPath, oswVolName, lwVolName,
+ &ouSerialNum, &ouMaxNameLen, &ouFsFlags, oswFsType, lwFsType );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ oswVolName trunc_buf_zw( RETVAL, oswVolName,ST(1) );
+ oswFsType trunc_buf_zw( RETVAL, oswFsType,ST(6) );
+ ouSerialNum
+ ouMaxNameLen
+ ouFsFlags
+
+
+BOOL
+IsRecognizedPartition( ivPartitionType )
+ int ivPartitionType
+ CODE:
+ RETVAL = IsRecognizedPartition( ivPartitionType );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+IsContainerPartition( ivPartitionType )
+ int ivPartitionType
+ CODE:
+ RETVAL = IsContainerPartition( ivPartitionType );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+MoveFileA( sOldName, sNewName )
+ char * sOldName
+ char * sNewName
+ CODE:
+ RETVAL = MoveFileA( sOldName, sNewName );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+MoveFileW( swOldName, swNewName )
+ WCHAR * swOldName
+ WCHAR * swNewName
+ CODE:
+ RETVAL = MoveFileW( swOldName, swNewName );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+MoveFileExA( sOldName, sNewName, uFlags )
+ char * sOldName
+ char * sNewName
+ DWORD uFlags
+ CODE:
+ RETVAL = MoveFileExA( sOldName, sNewName, uFlags );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+MoveFileExW( swOldName, swNewName, uFlags )
+ WCHAR * swOldName
+ WCHAR * swNewName
+ DWORD uFlags
+ CODE:
+ RETVAL = MoveFileExW( swOldName, swNewName, uFlags );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+long
+OsFHandleOpenFd( hOsFHandle, uMode )
+ long hOsFHandle
+ DWORD uMode
+ CODE:
+ RETVAL= win32_open_osfhandle( hOsFHandle, uMode );
+ if( RETVAL < 0 ) {
+ SaveErr( 1 );
+ XSRETURN_NO;
+ } else if( 0 == RETVAL ) {
+ XSRETURN_PV( "0 but true" );
+ } else {
+ XSRETURN_IV( (IV) RETVAL );
+ }
+
+
+DWORD
+QueryDosDeviceA( sDeviceName, osTargetPath, lTargetBuf )
+ char * sDeviceName
+ char * osTargetPath = NO_INIT
+ DWORD lTargetBuf = init_buf_l($arg);
+ CODE:
+ grow_buf_l( osTargetPath,ST(1),char *, lTargetBuf,ST(2) );
+ RETVAL= QueryDosDeviceA( sDeviceName, osTargetPath, lTargetBuf );
+ SaveErr( 0 == RETVAL );
+ OUTPUT:
+ RETVAL
+ osTargetPath trunc_buf_l( 1, osTargetPath,ST(1), RETVAL );
+
+
+DWORD
+QueryDosDeviceW( swDeviceName, oswTargetPath, lwTargetBuf )
+ WCHAR * swDeviceName
+ WCHAR * oswTargetPath = NO_INIT
+ DWORD lwTargetBuf = init_buf_lw($arg);
+ CODE:
+ grow_buf_lw( oswTargetPath,ST(1), lwTargetBuf,ST(2) );
+ RETVAL= QueryDosDeviceW( swDeviceName, oswTargetPath, lwTargetBuf );
+ SaveErr( 0 == RETVAL );
+ OUTPUT:
+ RETVAL
+ oswTargetPath trunc_buf_lw( 1, oswTargetPath,ST(1), RETVAL );
+
+
+BOOL
+ReadFile( hFile, opBuffer, lBytes, olBytesRead, pOverlapped )
+ HANDLE hFile
+ BYTE * opBuffer = NO_INIT
+ DWORD lBytes = init_buf_l($arg);
+ oDWORD &olBytesRead
+ void * pOverlapped
+ CODE:
+ grow_buf_l( opBuffer,ST(1),BYTE *, lBytes,ST(2) );
+ /* Don't read more bytes than asked for if buffer is already big: */
+ lBytes= init_buf_l(ST(2));
+ if( 0 == lBytes && autosize(ST(2)) ) {
+ lBytes= SvLEN( ST(1) ) - 1;
+ }
+ RETVAL= ReadFile( hFile, opBuffer, lBytes, &olBytesRead, pOverlapped );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ opBuffer trunc_buf_l( RETVAL, opBuffer,ST(1), olBytesRead );
+ olBytesRead
+
+
+BOOL
+GetOverlappedResult( hFile, lpOverlapped, lpNumberOfBytesTransferred, bWait)
+ HANDLE hFile
+ LPOVERLAPPED lpOverlapped
+ LPDWORD lpNumberOfBytesTransferred
+ BOOL bWait
+ CODE:
+ RETVAL= GetOverlappedResult( hFile, lpOverlapped,
+ lpNumberOfBytesTransferred, bWait);
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ lpOverlapped
+ lpNumberOfBytesTransferred
+
+DWORD
+GetFileSize( hFile, lpFileSizeHigh )
+ HANDLE hFile
+ LPDWORD lpFileSizeHigh
+ CODE:
+ RETVAL= GetFileSize( hFile, lpFileSizeHigh );
+ SaveErr( NO_ERROR != GetLastError() );
+ OUTPUT:
+ RETVAL
+ lpFileSizeHigh
+
+UINT
+SetErrorMode( uNewMode )
+ UINT uNewMode
+
+
+LONG
+SetFilePointer( hFile, ivOffset, ioivOffsetHigh, uFromWhere )
+ HANDLE hFile
+ LONG ivOffset
+ LONG * ioivOffsetHigh
+ DWORD uFromWhere
+ CODE:
+ RETVAL= SetFilePointer( hFile, ivOffset, ioivOffsetHigh, uFromWhere );
+ if( RETVAL == INVALID_SET_FILE_POINTER && (GetLastError() != NO_ERROR) ) {
+ SaveErr( 1 );
+ XST_mNO(0);
+ } else if( 0 == RETVAL ) {
+ XST_mPV(0,"0 but true");
+ } else {
+ XST_mIV(0,RETVAL);
+ }
+ OUTPUT:
+ ioivOffsetHigh
+
+
+BOOL
+SetHandleInformation( hObject, uMask, uFlags )
+ HANDLE hObject
+ DWORD uMask
+ DWORD uFlags
+ CODE:
+ RETVAL = SetHandleInformation( hObject, uMask, uFlags );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+
+
+BOOL
+WriteFile( hFile, pBuffer, lBytes, ouBytesWritten, pOverlapped )
+ HANDLE hFile
+ BYTE * pBuffer
+ DWORD lBytes = init_buf_l($arg);
+ oDWORD &ouBytesWritten
+ void * pOverlapped
+ CODE:
+ /* SvCUR(ST(1)) might "panic" if pBuffer isn't valid */
+ if( 0 == lBytes ) {
+ lBytes= SvCUR(ST(1));
+ } else if( SvCUR(ST(1)) < lBytes ) {
+ croak( "%s: pBuffer value too short (%d < %d)",
+ "Win32API::File::WriteFile", SvCUR(ST(1)), lBytes );
+ }
+ RETVAL= WriteFile( hFile, pBuffer, lBytes,
+ &ouBytesWritten, pOverlapped );
+ SaveErr( !RETVAL );
+ OUTPUT:
+ RETVAL
+ ouBytesWritten
diff --git a/cpan/Win32API-File/Makefile.PL b/cpan/Win32API-File/Makefile.PL
new file mode 100644
index 0000000000..6e5511a4bf
--- /dev/null
+++ b/cpan/Win32API-File/Makefile.PL
@@ -0,0 +1,144 @@
+#!/usr/bin/perl -w
+use 5.001; #not tested
+use ExtUtils::MakeMaker;
+use Config;
+use strict;
+# See lib/ExtUtils/MakeMaker.pm for details of how to influence
+# the contents of the Makefile that is written.
+unless ($^O eq "MSWin32" || $^O eq "cygwin" || $^O eq "interix") { #not tested on Interix
+ die "OS unsupported\n";
+}
+
+WriteMakefile(
+ 'NAME' => 'Win32API::File',
+ 'VERSION_FROM' => 'File.pm', # finds $VERSION
+ ( $Config{archname} =~ /-object\b/i ? ( 'CAPI' => 'TRUE' ) : () ),
+ 'AUTHOR' => 'Tye McQueen <tye@metronet.com>',
+ 'ABSTRACT_FROM' => 'File.pm',
+ 'postamble' => { IMPORT_LIST => [qw(/._/ !/[a-z]/ :MEDIA_TYPE)],
+ IFDEF => "!/[a-z\\d]/",
+ CPLUSPLUS => 1,
+ WRITE_PERL => 1,
+ # Comment out next line to rebuild constants defs:
+ NO_REBUILD => 1,
+ },
+ ( ! $Config{libperl} ? () : ( LIBPERL_A => $Config{libperl} ) ),
+ 'INSTALLDIRS' => ($] >= 5.008009 ? 'perl' : 'site'),
+ ($ExtUtils::MakeMaker::VERSION ge '6.31'?
+ ('LICENSE' => 'perl', ) : ()),
+ ($ExtUtils::MakeMaker::VERSION ge '6.48'?
+ ('MIN_PERL_VERSION' => 5.001,) : ()),
+ 'PREREQ_PM' => {
+ 'IO::File' => 0, #build
+ 'File::Spec' => 0, #build
+ 'Math::BigInt' => 0,
+ 'Win32' => 0,
+ }
+);
+
+# Replacement for MakeMaker's "const2perl section" for versions
+# of MakeMaker prior to the addition of this functionality:
+sub MY::postamble
+{
+ my( $self, %attribs )= @_;
+
+ # Don't do anything if MakeMaker has const2perl
+ # that already took care of all of this:
+ return unless %attribs;
+
+ # Don't require these here if we just C<return> above:
+ eval "use ExtUtils::Myconst2perl qw(ParseAttribs); 1" or die "$@";
+ eval "use ExtUtils::MakeMaker qw(neatvalue); 1" or die "$@";
+
+ # If only one module, can skip one level of indirection:
+ my $hvAttr= \%attribs;
+ if( $attribs{IMPORT_LIST} ) {
+ $hvAttr= { $self->{NAME} => \%attribs };
+ }
+
+ my( $module, @m, $_final, @clean, @realclean );
+ foreach $module ( keys %$hvAttr ) {
+ my( $outfile, @perlfiles, @cfiles, $bin, $obj, $final, $noreb );
+
+ # Translate user-friendly options into coder-friendly specifics:
+ ParseAttribs( $module, $hvAttr->{$module}, { OUTFILE => \$outfile,
+ C_FILE_LIST => \@perlfiles, PERL_FILE_LIST => \@cfiles,
+ OBJECT => \$obj, BINARY => \$bin, FINAL_PERL => \$final,
+ NO_REBUILD => \$noreb } );
+ die "IFDEF option in Makefile.PL must be string, not code ref.\n"
+ if ref $hvAttr->{$module}->{IFDEF};
+ die qq{IFDEF option in Makefile.PL must not contain quotes (").\n}
+ if ref $hvAttr->{$module}->{IFDEF};
+
+ # How to create F<$outfile> via ExtUtils::Myconst2perl::Myconst2perl:
+ push @m, "
+$outfile: @perlfiles @cfiles Makefile" . '
+ $(PERL) "-I$(PERL_ARCHLIB)" "-I$(PERL_LIB)" -MExtUtils::Myconst2perl \\
+ -e "my %attribs;" \\
+ ';
+ $m[-1] =~ s/^/##/gm if $noreb;
+ my( $key, $value );
+ while( ( $key, $value )= each %{$hvAttr->{$module}} ) {
+ push @m, '-e "$$attribs{' . $key . '}= '
+ . neatvalue($value) . qq[;" \\\n\t ];
+ $m[-1] =~ s/^/##/gm if $noreb;
+ }
+ push @m, '-e "Myconst2perl(' . neatvalue($module) . ",%attribs)\"\n";
+
+ # If requested extra work to generate Perl instead of XS code:
+ if( $bin ) {
+ my @path= split /::/, $module;
+ my $_final= $final;
+ $_final =~ s/\W/_/g;
+
+ # How to compile F<$outfile> and then run it to produce F<$final>:
+ push @m, "
+$bin: $outfile" . '
+ $(CC) $(INC) $(CCFLAGS) $(OPTIMIZE) $(PERLTYPE) $(LARGE) \\
+ $(SPLIT) $(DEFINE_VERSION) $(XS_DEFINE_VERSION) -I$(PERL_INC) \\
+ $(DEFINE)' . $outfile . " "
+ . $self->catfile(qw[ $(PERL_INC) $(LIBPERL_A) ]) . " -o $bin
+
+$final: $bin
+ " . $self->catfile(".",$bin) . " >$final\n";
+ $m[-1] =~ s/^/##/gm if $noreb;
+
+ # Make sure the rarely-used $(INST_ARCHLIB) directory exists:
+ push @m, $self->dir_target('$(INST_ARCHLIB)');
+
+ ##warn qq{$path[-1].pm should C<require "},
+ ## join("/",@path,$final), qq{">.\n};
+ # Install F<$final> whenever regular pm_to_blib target is built:
+ push @m, "
+pm_to_blib: ${_final}_to_blib
+
+${_final}_to_blib: $final
+ " . '@$(PERL) "-I$(INST_ARCHLIB)" "-I$(INST_LIB)" \\
+ "-I$(PERL_ARCHLIB)" "-I$(PERL_LIB)" -MExtUtils::Install \\
+ -e "pm_to_blib({ ',neatvalue($final),',',
+ neatvalue($self->catfile('$(INST_ARCHLIB)',@path,$final)), ' },',
+ neatvalue($self->catfile(qw[$(INST_LIB) auto])), ')"
+ @$(TOUCH) ', $_final, "_to_blib
+
+realclean ::
+ $self->{RM_RF} ", $self->catfile('$(INST_ARCHLIB)', $path[0]), "\n";
+
+ push( @clean, $outfile, $bin, $obj, $_final . "_to_blib" );
+ push( @realclean, $final ) unless $noreb;
+ } else {
+
+ ##my $name= ( split /::/, $module )[-1];
+ ##warn qq{$name.xs should C<#include "$final"> },
+ ## qq{in the C<BOOT:> section\n};
+ push( @realclean, $outfile ) unless $noreb;
+ }
+ }
+
+ push @m, "
+clean ::
+ $self->{RM_F} @clean\n" if @clean;
+ push @m, "
+realclean ::
+ $self->{RM_F} @realclean\n" if @realclean;
+ return join('',@m);
+}
diff --git a/cpan/Win32API-File/README b/cpan/Win32API-File/README
new file mode 100644
index 0000000000..93d287a2d5
--- /dev/null
+++ b/cpan/Win32API-File/README
@@ -0,0 +1,136 @@
+Win32API::File v0.08 -- Low-level access to Win32 API calls for files.
+
+New since v0.07:
+
+ GetHandleInformation SetHandleInformation
+ HANDLE_FLAG_INHERIT HANDLE_FLAG_PROTECT_FROM_CLOSE
+ fileConstant fileLastError
+
+Low-level and full-power access to the following routines are provided:
+
+ CloseHandle CopyFile CreateFile
+ DefineDosDevice DeleteFile DeviceIoControl
+ GetDriveType GetFileType GetHandleInformation
+ GetLogicalDrives GetLogicalDriveStrings GetVolumeInformation
+ IsRecognizedPartition IsContainerPartition MoveFile
+ MoveFileEx QueryDosDevice ReadFile
+ SetFilePointer SetErrorMode SetHandleInformation
+ WriteFile
+
+Plus the Unicode versions:
+
+ CopyFileW CreateFileW DefineDosDeviceW
+ DeleteFileW GetDriveTypeW GetLogicalDriveStringsW
+ GetVolumeInformationW MoveFileW MoveFileExW
+ QueryDosDeviceW
+
+Full conversion between Win32-native file handles and Perl file handles is
+also supported. Access to the following C run-time library routines [or at
+least the Perl run-time library wrappers for them] is provided:
+
+ _get_osfhandle or win32_get_osfhandle as FdGetOsFHandle
+ _open_osfhandle or win32_open_osfhandle as OsFHandleOpenFd
+
+The following Perl-friendly wrappers and helper functions are also provided:
+
+ OsFHandleOpen GetOsFHandle attrLetsToBits
+ createFile fileConstant fileLastError
+ getLogicalDrives
+
+Plus the following constants:
+
+ CREATE_ALWAYS CREATE_NEW FILE_BEGIN
+ FILE_CURRENT FILE_END INVALID_HANDLE_VALUE
+ OPEN_ALWAYS OPEN_EXISTING TRUNCATE_EXISTING
+
+ DDD_EXACT_MATCH_ON_REMOVE DDD_RAW_TARGET_PATH
+ DDD_REMOVE_DEFINITION
+
+ DRIVE_UNKNOWN DRIVE_NO_ROOT_DIR DRIVE_REMOVABLE
+ DRIVE_FIXED DRIVE_REMOTE DRIVE_CDROM
+ DRIVE_RAMDISK
+
+ FILE_READ_DATA FILE_LIST_DIRECTORY
+ FILE_WRITE_DATA FILE_ADD_FILE
+ FILE_APPEND_DATA FILE_ADD_SUBDIRECTORY
+ FILE_CREATE_PIPE_INSTANCE FILE_READ_EA
+ FILE_WRITE_EA FILE_EXECUTE
+ FILE_TRAVERSE FILE_DELETE_CHILD
+ FILE_READ_ATTRIBUTES FILE_WRITE_ATTRIBUTES
+ FILE_ALL_ACCESS FILE_GENERIC_READ
+ FILE_GENERIC_WRITE FILE_GENERIC_EXECUTE
+
+ FILE_ATTRIBUTE_ARCHIVE FILE_ATTRIBUTE_COMPRESSED
+ FILE_ATTRIBUTE_HIDDEN FILE_ATTRIBUTE_NORMAL
+ FILE_ATTRIBUTE_OFFLINE FILE_ATTRIBUTE_READONLY
+ FILE_ATTRIBUTE_SYSTEM FILE_ATTRIBUTE_TEMPORARY
+
+ FILE_FLAG_BACKUP_SEMANTICS FILE_FLAG_DELETE_ON_CLOSE
+ FILE_FLAG_NO_BUFFERING FILE_FLAG_OVERLAPPED
+ FILE_FLAG_POSIX_SEMANTICS FILE_FLAG_RANDOM_ACCESS
+ FILE_FLAG_SEQUENTIAL_SCAN FILE_FLAG_WRITE_THROUGH
+
+ FILE_SHARE_DELETE FILE_SHARE_READ FILE_SHARE_WRITE
+
+ FILE_TYPE_CHAR FILE_TYPE_DISK FILE_TYPE_PIPE
+ FILE_TYPE_UNKNOWN
+
+ FS_CASE_IS_PRESERVED FS_CASE_SENSITIVE
+ FS_UNICODE_STORED_ON_DISK FS_PERSISTENT_ACLS
+ FS_FILE_COMPRESSION FS_VOL_IS_COMPRESSED
+
+ HANDLE_FLAG_INHERIT HANDLE_FLAG_PROTECT_FROM_CLOSE
+
+ IOCTL_STORAGE_CHECK_VERIFY IOCTL_STORAGE_MEDIA_REMOVAL
+ IOCTL_STORAGE_EJECT_MEDIA IOCTL_STORAGE_LOAD_MEDIA
+ IOCTL_STORAGE_RESERVE IOCTL_STORAGE_RELEASE
+ IOCTL_STORAGE_FIND_NEW_DEVICES IOCTL_STORAGE_GET_MEDIA_TYPES
+
+ IOCTL_DISK_GET_DRIVE_GEOMETRY IOCTL_DISK_GET_PARTITION_INFO
+ IOCTL_DISK_SET_PARTITION_INFO IOCTL_DISK_GET_DRIVE_LAYOUT
+ IOCTL_DISK_SET_DRIVE_LAYOUT IOCTL_DISK_VERIFY
+ IOCTL_DISK_FORMAT_TRACKS IOCTL_DISK_REASSIGN_BLOCKS
+ IOCTL_DISK_PERFORMANCE IOCTL_DISK_IS_WRITABLE
+ IOCTL_DISK_LOGGING IOCTL_DISK_FORMAT_TRACKS_EX
+ IOCTL_DISK_HISTOGRAM_STRUCTURE IOCTL_DISK_HISTOGRAM_DATA
+ IOCTL_DISK_HISTOGRAM_RESET IOCTL_DISK_REQUEST_STRUCTURE
+ IOCTL_DISK_REQUEST_DATA
+
+ GENERIC_ALL GENERIC_EXECUTE
+ GENERIC_READ GENERIC_WRITE
+
+ Unknown F5_1Pt2_512 F3_1Pt44_512
+ F3_2Pt88_512 F3_20Pt8_512 F3_720_512
+ F5_360_512 F5_320_512 F5_320_1024
+ F5_180_512 F5_160_512 RemovableMedia
+ FixedMedia F3_120M_512
+
+ MOVEFILE_COPY_ALLOWED MOVEFILE_DELAY_UNTIL_REBOOT
+ MOVEFILE_REPLACE_EXISTING MOVEFILE_WRITE_THROUGH
+
+ SECURITY_ANONYMOUS SECURITY_CONTEXT_TRACKING
+ SECURITY_DELEGATION SECURITY_EFFECTIVE_ONLY
+ SECURITY_IDENTIFICATION SECURITY_IMPERSONATION
+ SECURITY_SQOS_PRESENT
+
+ SEM_FAILCRITICALERRORS SEM_NOGPFAULTERRORBOX
+ SEM_NOALIGNMENTFAULTEXCEPT SEM_NOOPENFILEERRORBOX
+
+ PARTITION_ENTRY_UNUSED PARTITION_FAT_12
+ PARTITION_XENIX_1 PARTITION_XENIX_2
+ PARTITION_FAT_16 PARTITION_EXTENDED
+ PARTITION_HUGE PARTITION_IFS
+ PARTITION_FAT32 PARTITION_FAT32_XINT13
+ PARTITION_XINT13 PARTITION_XINT13_EXTENDED
+ PARTITION_PREP PARTITION_UNIX
+ VALID_NTFT PARTITION_NTFT
+
+Comments, additions, and bug reports are welcomed. Please address
+technical questions that are not full bug reports to
+
+http://perlmonks.org/index.pl?node=Seekers%20of%20Perl%20Wisdom
+
+Tye McQueen, tye@metronet.com, http://www.metronet.com/~tye/.
+
+This program is free software; you can redistribute it and/or modify it
+under the same terms as Perl itself.
diff --git a/cpan/Win32API-File/buffers.h b/cpan/Win32API-File/buffers.h
new file mode 100644
index 0000000000..934e57b9ac
--- /dev/null
+++ b/cpan/Win32API-File/buffers.h
@@ -0,0 +1,423 @@
+/* buffers.h -- Version 1.11 */
+
+/* The following abbreviations are used at start of parameter names
+ * to indicate the type of data:
+ * s string (char * or WCHAR *) [PV]
+ * sw wide string (WCHAR *) [PV]
+ * p pointer (usually to some structure) [PV]
+ * a array (packed array as in C) (usually of some structure) [PV]
+ * called a "vector" or "vect" in some places.
+ * n generic number [IV, UV, or NV]
+ * iv signed integral value [IV]
+ * u unsigned integral value [UV]
+ * d floating-point number (double) [NV]
+ * b boolean (bool) [IV]
+ * c count of items [UV]
+ * l length (in bytes) [UV]
+ * lw length in WCHARs [UV]
+ * h a handle [IV]
+ * r record (structure) [PV]
+ * sv Perl scalar (s, i, u, d, n, or rv) [SV]
+ * rv Perl reference (usually to scalar) [RV]
+ * hv reference to Perl hash [HV]
+ * av reference to Perl array [AV]
+ * cv Perl code reference [PVCV]
+ *
+ * Unusual combined types:
+ * pp single pointer (to non-Perl data) packed into string [PV]
+ * pap vector of pointers (to non-Perl data) packed into string [PV]
+ *
+ * Whether a parameter is for input data, output data, or both is usually
+ * not reflected by the data type prefix. In cases where this is not
+ * obvious nor reflected in the variable name proper, you can use
+ * the following in front of the data type prefix:
+ * i an input parameter given to API (usually omitted)
+ * o an Output parameter taken from API
+ * io Input given to API then overwritten with Output taken from API
+ */
+
+/* Buffer arguments are usually followed by an argument (or two) specifying
+ * their size and/or returning the size of data written. The size can be
+ * measured in bytes ["lSize"] or in characters [for (char *) buffers such as
+ * for *A() routines, these sizes are also called "lSize", but are called
+ * "lwSize" for (WCHAR *) buffers, UNICODE strings, such as for *W() routines].
+ *
+ * Before calling the actual C function, you must make sure the Perl variable
+ * actually has a big enough buffer allocated, and, if the user didn't want
+ * to specify a buffer size, set the buffer size to be correct. This is what
+ * the grow_*() macros are for. They also handle special meanings of the
+ * buffer size argument [described below].
+ *
+ * Once the actual C function returns, you must set the Perl variable to know
+ * the size of the written data. This is what the trunc_*() macros are for.
+ *
+ * The size sometimes does and sometimes doesn't include the trailing '\0'
+ * [or L'\0'], so we always add or substract 1 in the appropriate places so
+ * we don't care about this detail.
+ *
+ * A call may 1) request a pointer to the buffer size which means that
+ * the buffer size will be overwritten with the size of the data written;
+ * 2) have an extra argument which is a pointer to the place to write the
+ * size of the written data; 3) provide the size of the written data in
+ * the function's return value; 4) format the data so that the length
+ * can be determined by examining the data [such as with '\0'-terminated
+ * strings]; or 5) write fixed-length data [usually sizeof(STRUCT)].
+ * This obviously determines what you should use in the trunc_*() macro
+ # to specify the size of the output value.
+ *
+ * The user can pass in an empty list reference, C<[]>, to indicate C<NULL>
+ * for the pointer to the buffer which means that they don't want that data.
+ *
+ * The user can pass in C<[]> or C<0> to indicate that they don't care about
+ * the buffer size [we aren't programming in C here, after all] and just try
+ * to get the data. This will work if either the buffer already alloated for
+ * the SV [scalar value] is large enough to hold the data or the API provides
+ * an easy way to determine the required size [and the XS code uses it].
+ *
+ * If the user passes in a numeric value for a buffer size, then the XS
+ * code makes sure that the buffer is at least large enough to hold a value
+ * of that size and then passes in how large the buffer is. So the buffer
+ * size passed to the API call is the larger of the size requested by the
+ * user and the size of the buffer aleady allocated to the SV.
+ *
+ * The user can also pass in a string consisting of a leading "=" followed
+ * by digits for a buffer size. This means just use the size specified after
+ * the equals sign, even if the allocated buffer is larger. The XS code will
+ * still allocate a large enough buffer before the first call.
+ *
+ * If the function is nice enough to tell us that a buffer was too small
+ * [usually via ERROR_MORE_DATA] _and_ how large the buffer needs to be,
+ * then the XS code should enlarge the buffer(s) and repeat the call [once].
+ * This resizing is _not_ done for buffers whose size was specified with a
+ * leading "=".
+ *
+ * Only grow_buf() and perhaps trunc_buf() can be used in a typemap file.
+ * The other macros would be used in the parameter declarations or INPUT:
+ * section [grow_*()], the INIT: section [init_*()], or the OUTPUT: section
+ * [trunc_*()].
+ *
+ * Buffer arguments should be initialied with C<= NO_INIT> [or C<= NULL;>].
+ *
+ * See also the F<typemap> file. C<oDWORD>, for example, is for an output-
+ * only parameter of type C<DWORD> and you should simply C<#define> it to be
+ * C<DWORD>. In F<typemap>, C<oDWORD> is treated differently than C<DWORD>
+ * in two ways.
+ *
+ * First, if C<undef> is passed in, a C<DWORD> could generate a warning
+ * when it gets converted to 0 while C<oDWORD> will never generate such a
+ * warning for C<undef>. This first difference doesn't apply if specific
+ * initialization is specified for the variable, as in C<= init_buf_l($var);>.
+ * In particular, the init_*() macros also convert C<undef> to 0 without
+ * ever producing a warning.
+ *
+ * Second, passing in a read-only SV for a C<oDWORD> parameter will generate
+ * a fatal error on output when we try to update the SV. For C<DWORD>, we
+ * won't update a read-only SV since passing in a literal constant for a
+ * buffer size is a useful thing to do even though it prevents us from
+ * returning the size of data written via that SV. Since we should use a
+ * trunc_*() macro to output the actual data, the user should be able to
+ * determine the size of data written based on the size of the scalar we
+ * output anyway.
+ *
+ * This second difference doesn't apply unless the paremter is listed in
+ * the OUTPUT: section without specific output instructions. We define
+ * no macros for outputing buffer length parameters so be careful to use
+ * C<oDWORD> [for example] for them if and only if they are output-only.
+ *
+ * Note that C<oDWORD> is the same as C<DWORD> in that, if a defined value
+ * is passed in, it is used [and can generate a warning if the value is
+ * "not numeric"]. So although C<oDWORD> is for output-only parameters,
+ * we still initialize the C variable before calling the API. This is good
+ * in case the parameter isn't always strictly output-only due to upgrades,
+ * bugs, etc.
+ *
+ * Here is a made-up example that shows several cases:
+ *
+ * # Actual GetDataW() returns length of data written to ioswName, not bool.
+ * bool
+ * GetDataW( ioswName, ilwName, oswText, iolwText, opJunk, opRec, ilRec, olRec )
+ * WCHAR * ioswName = NO_INIT
+ * DWORD ilwName = NO_INIT
+ * WCHAR * oswText = NO_INIT
+ * DWORD &iolwText = init_buf_l($arg);
+ * void * opJunk = NO_INIT
+ * BYTE * opRec = NO_INIT
+ * DWORD ilRec = init_buf_l($arg);
+ * oDWORD &olRec
+ * PREINIT:
+ * DWORD olwName;
+ * INIT:
+ * grow_buf_lw( ioswName,ST(0), ilwName,ST(1) );
+ * grow_buf_lw( oswText,ST(2), iolwText,ST(3) );
+ * grow_buf_typ( opJunk,ST(4),void *, LONG_STRUCT_TYPEDEF );
+ * grow_buf_l( opRec,ST(5),BYTE *, ilRec,ST(6) );
+ * CODE:
+ * olwName= GetDataW( ioswName, ilwName, oswText, &iolwText,
+ * (LONG_STRUCT_TYPEDEF *)opJunk, opRec, &iolRec );
+ * if( 0 == olwName && ERROR_MORE_DATA == GetLastError()
+ * && ( autosize(ST(1)) || autosize(ST(3)) || autosize(ST(6)) ) ) {
+ * if( autosize(ST(1)) )
+ * grow_buf_lw( ioswName,ST(0), ilwName,ST(1) );
+ * if( autosize(ST(3)) )
+ * grow_buf_lw( oswText,ST(2), iolwText,ST(3) );
+ * if( autosize(ST(6)) )
+ * grow_buf_l( opRec,ST(5),BYTE *, iolRec,ST(6) );
+ * olwName= GetDataW( ioswName, ilwName, oswText, &iolwText,
+ * (LONG_STRUCT_TYPEDEF *)opJunk, opRec, &iolRec );
+ * }
+ * RETVAL= 0 != olwName;
+ * OUTPUT:
+ * RETVAL
+ * ioswName trunc_buf_lw( RETVAL, ioswName,ST(0), olwName );
+ * oswText trunc_buf_lw( RETVAL, oswText,ST(2), iolwText );
+ * iolwText
+ * opJunk trunc_buf_typ(RETVAL,opJunk,ST(4),LONG_STRUCT_TYPEDEF);
+ * opRec trunc_buf_l( RETVAL, opRec,ST(5), olRec );
+ * olRec
+ *
+ * The above example would be more complex and less efficient if we used
+ * C<DWORD * iolwText> in place of C<DWORD &iolwText>. The only possible
+ * advantage would be that C<NULL> would be passed in for C<iolwText> if
+ * _both_ C<$oswText> and C<$iolwText> were specified as C<[]>. The *_pl*()
+ * macros are defined [and C<DWORD *> specified in F<typemap>] so we can
+ * handle those cases but it is usually better to use the *_l*() macros
+ * instead by specifying C<&> instead of C<*>. Using C<&> instead of C<*>
+ * is usually better when dealing with scalars, even if they aren't buffer
+ * sizes. But you must use C<*> if it is important for that parameter to
+ * be able to pass C<NULL> to the underlying API.
+ *
+ * In Win32API::, we try to use C<*> for buffer sizes of optional buffers
+ * and C<&> for buffer sizes of required buffers.
+ *
+ * For parameters that are pointers to things other than buffers or buffer
+ * sizes, we use C<*> for "important" parameters [so that using C<[]>
+ * generates an error rather than fetching the value and just throwing it
+ * away], and for optional parameters [in case specifying C<NULL> is or
+ * becomes important]. Otherwise we use C<&> [for "unimportant" but
+ * required parameters] so the user can specify C<[]> if they don't care
+ * about it. The output handle of an "open" routine is "important".
+ */
+
+#ifndef Debug
+# define Debug(list) /*Nothing*/
+#endif
+
+/*#ifndef CAST
+ *# ifdef __cplusplus
+ *# define CAST(type,expr) static_cast<type>(expr)
+ *# else*/
+# define CAST(type,expr) (type)(expr)
+/*# endif
+ *#endif*/
+
+/* Is an argument C<[]>, meaning we should pass C<NULL>? */
+#define null_arg(sv) ( SvROK(sv) && SVt_PVAV == SvTYPE(SvRV(sv)) \
+ && -1 == av_len((AV*)SvRV(sv)) )
+
+#define PV_or_null(sv) ( null_arg(sv) ? NULL : SvPV_nolen(sv) )
+
+/* Minimum buffer size to use when no buffer existed: */
+#define MIN_GROW_SIZE 128
+
+#ifdef Debug
+/* Used in Debug() messages to show which macro call is involved: */
+#define string(arg) #arg
+#endif
+
+/* Simplify using SvGROW() for byte-sized buffers: */
+#define lSvGROW(sv,n) SvGROW( sv, 0==(n) ? MIN_GROW_SIZE : (n)+1 )
+
+/* Simplify using SvGROW() for WCHAR-sized buffers: */
+#define lwSvGROW(sv,n) CAST( WCHAR *, \
+ SvGROW( sv, sizeof(WCHAR)*( 0==(n) ? MIN_GROW_SIZE : (n)+1 ) ) )
+
+/* Whether the buffer size we got lets us change what buffer size we use: */
+#define autosize(sv) (!( SvOK(sv) && ! SvROK(sv) \
+ && SvPV_nolen(sv) && '=' == *SvPV_nolen(sv) ))
+
+/* Get the IV/UV for a parameter that might be C<[]> or C<undef>: */
+#define optIV(sv) ( null_arg(sv) ? 0 : !SvOK(sv) ? 0 : SvIV(sv) )
+#define optUV(sv) ( null_arg(sv) ? 0 : !SvOK(sv) ? 0 : SvUV(sv) )
+
+/* Allocate temporary storage that will automatically be freed later: */
+#ifndef TempAlloc /* Can be C<#define>d to be C<_alloca>, for example */
+# define TempAlloc( size ) sv_grow( sv_newmortal(), size )
+#endif
+
+/* Initialize a buffer size argument of type (DWORD *): */
+#define init_buf_pl( plSize, svSize, tpSize ) STMT_START { \
+ if( null_arg(svSize) ) \
+ plSize= NULL; \
+ else { \
+ STRLEN n_a; \
+ *( plSize= CAST( tpSize, TempAlloc(sizeof(*plSize)) ) )= \
+ autosize(svSize) ? optUV(svSize) \
+ : strtoul( 1+SvPV(svSize,n_a), NULL, 10 ); \
+ } } STMT_END
+/* In INPUT section put ": init_buf_pl($var,$arg,$type);" after var name. */
+
+/* Initialize a buffer size argument of type DWORD: */
+#define init_buf_l( svSize ) \
+ ( null_arg(svSize) ? 0 : autosize(svSize) ? optUV(svSize) \
+ : strtoul( 1+SvPV_nolen(svSize), NULL, 10 ) )
+/* In INPUT section put "= init_buf_l($arg);" after variable name. */
+
+/* Lengths in WCHARs are initialized the same as lengths in bytes: */
+#define init_buf_plw init_buf_pl
+#define init_buf_lw init_buf_l
+
+/* grow_buf_pl() and grow_buf_plw() are included so you can define
+ * parameters of type C<DWORD *>, for example. In practice, it is
+ * usually better to define such parameters as "DWORD &". */
+
+/* Grow a buffer where we have a pointer to its size in bytes: */
+#define grow_buf_pl( sBuf,svBuf,tpBuf, plSize,svSize,tpSize ) STMT_START { \
+ Debug(("grow_buf_pl( %s==0x%lX,[%s:%ld/%ld, %s==0x%lX:%ld,[%s )\n",\
+ string(sBuf),sBuf,strchr(string(svBuf),'('),SvPOK(svBuf)? \
+ SvCUR(svBuf):-1,SvPOK(svBuf)?SvLEN(svBuf):-1,string(plSize), \
+ plSize,plSize?*plSize:-1,strchr(string(svSize),'('))); \
+ if( null_arg(svBuf) ) { \
+ sBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( NULL == plSize ) \
+ *( plSize= CAST(tpSize,TempAlloc(sizeof(*plSize))) )= 0;\
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ sBuf= CAST( tpBuf, lSvGROW( svBuf, *plSize ) ); \
+ if( autosize(svSize) ) *plSize= SvLEN(svBuf) - 1; \
+ Debug(("more buf_pl( %s==0x%lX,[%s:%ld/%ld, %s==0x%lX:%ld,[%s )\n",\
+ string(sBuf),sBuf,strchr(string(svBuf),'('),SvPOK(svBuf)? \
+ SvCUR(svBuf):-1,SvPOK(svBuf)?SvLEN(svBuf):-1,string(plSize),\
+ plSize,plSize?*plSize:-1,strchr(string(svSize),'('))); \
+ } } STMT_END
+
+/* Grow a buffer where we have a pointer to its size in WCHARs: */
+#define grow_buf_plw( sBuf,svBuf, plwSize,svSize,tpSize ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ sBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( NULL == plwSize ) \
+ *( plwSize= CAST(tpSize,TempAlloc(sizeof(*plwSize))) )= 0;\
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ sBuf= lwSvGROW( svBuf, *plwSize ); \
+ if( autosize(svSize) ) \
+ *plwSize= SvLEN(svBuf)/sizeof(WCHAR) - 1; \
+ } } STMT_END
+
+/* Grow a buffer where we have its size in bytes: */
+#define grow_buf_l( sBuf,svBuf,tpBuf, lSize,svSize ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ sBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ sBuf= CAST( tpBuf, lSvGROW( svBuf, lSize ) ); \
+ if( autosize(svSize) ) lSize= SvLEN(svBuf) - 1; \
+ } } STMT_END
+
+/* Grow a buffer where we have its size in WCHARs: */
+#define grow_buf_lw( swBuf,svBuf, lwSize,svSize ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ swBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ swBuf= lwSvGROW( svBuf, lwSize ); \
+ if( autosize(svSize) ) \
+ lwSize= SvLEN(svBuf)/sizeof(WCHAR) - 1; \
+ } } STMT_END
+
+/* Grow a buffer that contains the declared fixed data type: */
+#define grow_buf( pBuf,svBuf, tpBuf ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ pBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ pBuf= CAST( tpBuf, SvGROW( svBuf, sizeof(*pBuf) ) ); \
+ } } STMT_END
+
+/* Grow a buffer that contains a fixed data type other than that declared: */
+#define grow_buf_typ( pBuf,svBuf,tpBuf, Type ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ pBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ pBuf= CAST( tpBuf, SvGROW( svBuf, sizeof(Type) ) ); \
+ } } STMT_END
+
+/* Grow a buffer that contains a list of items of the declared data type: */
+#define grow_vect( pBuf,svBuf,tpBuf, cItems ) STMT_START { \
+ if( null_arg(svBuf) ) { \
+ pBuf= NULL; \
+ } else { \
+ STRLEN n_a; \
+ if( ! SvOK(svBuf) ) sv_setpvn(svBuf,"",0); \
+ (void) SvPV_force( svBuf, n_a ); \
+ pBuf= CAST( tpBuf, SvGROW( svBuf, sizeof(*pBuf)*cItems ) ); \
+ } } STMT_END
+
+/* If call succeeded, set data length to returned length (in bytes): */
+#define trunc_buf_l( bOkay, sBuf,svBuf, lSize ) STMT_START { \
+ if( bOkay && NULL != sBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, lSize ); \
+ } } STMT_END
+
+/* Same as above except we have a poitner to the returned length: */
+#define trunc_buf_pl( bOkay, sBuf,svBuf, plSize ) \
+ trunc_buf_l( bOkay, sBuf,svBuf, *plSize )
+
+/* If call succeeded, set data length to returned length (in WCHARs): */
+#define trunc_buf_lw( bOkay, sBuf,svBuf, lwSize ) STMT_START { \
+ if( bOkay && NULL != sBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, (lwSize)*sizeof(WCHAR) ); \
+ } } STMT_END
+
+/* Same as above except we have a poitner to the returned length: */
+#define trunc_buf_plw( bOkay, swBuf,svBuf, plwSize ) \
+ trunc_buf_lw( bOkay, swBuf,svBuf, *plwSize )
+
+/* Set data length for a buffer that contains the declared fixed data type: */
+#define trunc_buf( bOkay, pBuf,svBuf ) STMT_START { \
+ if( bOkay && NULL != pBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, sizeof(*pBuf) ); \
+ } } STMT_END
+
+/* Set data length for a buffer that contains some other fixed data type: */
+#define trunc_buf_typ( bOkay, pBuf,svBuf, Type ) STMT_START { \
+ if( bOkay && NULL != pBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, sizeof(Type) ); \
+ } } STMT_END
+
+/* Set length for buffer that contains list of items of the declared type: */
+#define trunc_vect( bOkay, pBuf,svBuf, cItems ) STMT_START { \
+ if( bOkay && NULL != pBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, sizeof(*pBuf)*cItems ); \
+ } } STMT_END
+
+/* Set data length for a buffer where a '\0'-terminate string was stored: */
+#define trunc_buf_z( bOkay, sBuf,svBuf ) STMT_START { \
+ if( bOkay && NULL != sBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, strlen(sBuf) ); \
+ } } STMT_END
+
+/* Set data length for a buffer where a L'\0'-terminate string was stored: */
+#define trunc_buf_zw( bOkay, sBuf,svBuf ) STMT_START { \
+ if( bOkay && NULL != sBuf ) { \
+ SvPOK_only( svBuf ); \
+ SvCUR_set( svBuf, wcslen(sBuf)*sizeof(WCHAR) ); \
+ } } STMT_END
diff --git a/cpan/Win32API-File/cFile.h b/cpan/Win32API-File/cFile.h
new file mode 100644
index 0000000000..23e7ed89f5
--- /dev/null
+++ b/cpan/Win32API-File/cFile.h
@@ -0,0 +1 @@
+/* Would contain C code to generate Perl constants if not using cFile.pc */
diff --git a/cpan/Win32API-File/cFile.pc b/cpan/Win32API-File/cFile.pc
new file mode 100644
index 0000000000..da00f413aa
--- /dev/null
+++ b/cpan/Win32API-File/cFile.pc
@@ -0,0 +1,165 @@
+# Generated by cFile_pc.cxx.
+# Package Win32API::File with options:
+# CPLUSPLUS => q[1]
+# IFDEF => q[!/[a-z\d]/]
+# IMPORT_LIST => [q[/._/], q[!/[a-z]/], q[:MEDIA_TYPE]]
+# WRITE_PERL => q[1]
+# Perl files eval'd:
+# File.pm => last if /^\s*(bootstrap|XSLoader::load)\b/
+# C files included:
+# File.xs => last if m#/[/*]\s*CONSTS_DEFINED\b|^\s*MODULE\b#
+sub CREATE_ALWAYS () { 2 }
+sub CREATE_NEW () { 1 }
+sub DDD_EXACT_MATCH_ON_REMOVE () { 4 }
+sub DDD_RAW_TARGET_PATH () { 1 }
+sub DDD_REMOVE_DEFINITION () { 2 }
+sub DRIVE_CDROM () { 5 }
+sub DRIVE_FIXED () { 3 }
+sub DRIVE_NO_ROOT_DIR () { 1 }
+sub DRIVE_RAMDISK () { 6 }
+sub DRIVE_REMOTE () { 4 }
+sub DRIVE_REMOVABLE () { 2 }
+sub DRIVE_UNKNOWN () { 0 }
+sub F3_120M_512 () { 13 }
+sub F3_1Pt44_512 () { 2 }
+sub F3_20Pt8_512 () { 4 }
+sub F3_2Pt88_512 () { 3 }
+sub F3_720_512 () { 5 }
+sub F5_160_512 () { 10 }
+sub F5_180_512 () { 9 }
+sub F5_1Pt2_512 () { 1 }
+sub F5_320_1024 () { 8 }
+sub F5_320_512 () { 7 }
+sub F5_360_512 () { 6 }
+sub FILE_ADD_FILE () { 2 }
+sub FILE_ADD_SUBDIRECTORY () { 4 }
+sub FILE_ALL_ACCESS () { 2032127 }
+sub FILE_APPEND_DATA () { 4 }
+sub FILE_ATTRIBUTE_ARCHIVE () { 32 }
+sub FILE_ATTRIBUTE_COMPRESSED () { 2048 }
+sub FILE_ATTRIBUTE_DEVICE () { 0x00000040 }
+sub FILE_ATTRIBUTE_DIRECTORY () { 0x00000010 }
+sub FILE_ATTRIBUTE_ENCRYPTED () { 0x00004000 }
+sub FILE_ATTRIBUTE_HIDDEN () { 2 }
+sub FILE_ATTRIBUTE_NORMAL () { 128 }
+sub FILE_ATTRIBUTE_NOT_CONTENT_INDEXED () { 0x00002000 }
+sub FILE_ATTRIBUTE_OFFLINE () { 4096 }
+sub FILE_ATTRIBUTE_READONLY () { 1 }
+sub FILE_ATTRIBUTE_REPARSE_POINT () { 0x00000400 }
+sub FILE_ATTRIBUTE_SPARSE_FILE () { 0x00000200 }
+sub FILE_ATTRIBUTE_SYSTEM () { 4 }
+sub FILE_ATTRIBUTE_TEMPORARY () { 256 }
+sub FILE_BEGIN () { 0 }
+sub FILE_CREATE_PIPE_INSTANCE () { 4 }
+sub FILE_CURRENT () { 1 }
+sub FILE_DELETE_CHILD () { 64 }
+sub FILE_END () { 2 }
+sub FILE_EXECUTE () { 32 }
+sub FILE_FLAG_BACKUP_SEMANTICS () { 33554432 }
+sub FILE_FLAG_DELETE_ON_CLOSE () { 67108864 }
+sub FILE_FLAG_NO_BUFFERING () { 536870912 }
+sub FILE_FLAG_OPEN_REPARSE_POINT () { 0x200000 }
+sub FILE_FLAG_OVERLAPPED () { 1073741824 }
+sub FILE_FLAG_POSIX_SEMANTICS () { 16777216 }
+sub FILE_FLAG_RANDOM_ACCESS () { 268435456 }
+sub FILE_FLAG_SEQUENTIAL_SCAN () { 134217728 }
+sub FILE_FLAG_WRITE_THROUGH () { 0x80000000 }
+sub FILE_GENERIC_EXECUTE () { 1179808 }
+sub FILE_GENERIC_READ () { 1179785 }
+sub FILE_GENERIC_WRITE () { 1179926 }
+sub FILE_LIST_DIRECTORY () { 1 }
+sub FILE_READ_ATTRIBUTES () { 128 }
+sub FILE_READ_DATA () { 1 }
+sub FILE_READ_EA () { 8 }
+sub FILE_SHARE_DELETE () { 4 }
+sub FILE_SHARE_READ () { 1 }
+sub FILE_SHARE_WRITE () { 2 }
+sub FILE_TRAVERSE () { 32 }
+sub FILE_TYPE_CHAR () { 2 }
+sub FILE_TYPE_DISK () { 1 }
+sub FILE_TYPE_PIPE () { 3 }
+sub FILE_TYPE_UNKNOWN () { 0 }
+sub FILE_WRITE_ATTRIBUTES () { 256 }
+sub FILE_WRITE_DATA () { 2 }
+sub FILE_WRITE_EA () { 16 }
+sub FS_CASE_IS_PRESERVED () { 2 }
+sub FS_CASE_SENSITIVE () { 1 }
+sub FS_FILE_COMPRESSION () { 16 }
+sub FS_PERSISTENT_ACLS () { 8 }
+sub FS_UNICODE_STORED_ON_DISK () { 4 }
+sub FS_VOL_IS_COMPRESSED () { 32768 }
+sub FSCTL_SET_REPARSE_POINT () { (9 << 16 | 0 << 14 | 41 << 2 | 0) }
+sub FSCTL_GET_REPARSE_POINT () { (9 << 16 | 0 << 14 | 42 << 2 | 0) }
+sub FSCTL_DELETE_REPARSE_POINT () { (9 << 16 | 0 << 14 | 43 << 2 | 0) }
+sub FixedMedia () { 12 }
+sub GENERIC_ALL () { 268435456 }
+sub GENERIC_EXECUTE () { 536870912 }
+sub GENERIC_READ () { 0x80000000 }
+sub GENERIC_WRITE () { 1073741824 }
+sub HANDLE_FLAG_INHERIT () { 1 }
+sub HANDLE_FLAG_PROTECT_FROM_CLOSE () { 2 }
+sub INVALID_FILE_ATTRIBUTES () { 0xFFFFFFFF }
+sub INVALID_HANDLE_VALUE () { 0xffffffff }
+sub IOCTL_DISK_FORMAT_TRACKS () { 507928 }
+sub IOCTL_DISK_FORMAT_TRACKS_EX () { 507948 }
+sub IOCTL_DISK_GET_DRIVE_GEOMETRY () { 458752 }
+sub IOCTL_DISK_GET_DRIVE_LAYOUT () { 475148 }
+sub IOCTL_DISK_GET_MEDIA_TYPES () { 461824 }
+sub IOCTL_DISK_GET_PARTITION_INFO () { 475140 }
+sub IOCTL_DISK_HISTOGRAM_DATA () { 458804 }
+sub IOCTL_DISK_HISTOGRAM_RESET () { 458808 }
+sub IOCTL_DISK_HISTOGRAM_STRUCTURE () { 458800 }
+sub IOCTL_DISK_IS_WRITABLE () { 458788 }
+sub IOCTL_DISK_LOGGING () { 458792 }
+sub IOCTL_DISK_PERFORMANCE () { 458784 }
+sub IOCTL_DISK_REASSIGN_BLOCKS () { 507932 }
+sub IOCTL_DISK_REQUEST_DATA () { 458816 }
+sub IOCTL_DISK_REQUEST_STRUCTURE () { 458812 }
+sub IOCTL_DISK_SET_DRIVE_LAYOUT () { 507920 }
+sub IOCTL_DISK_SET_PARTITION_INFO () { 507912 }
+sub IOCTL_DISK_VERIFY () { 458772 }
+sub IOCTL_STORAGE_CHECK_VERIFY () { 2967552 }
+sub IOCTL_STORAGE_EJECT_MEDIA () { 2967560 }
+sub IOCTL_STORAGE_FIND_NEW_DEVICES () { 2967576 }
+sub IOCTL_STORAGE_GET_MEDIA_TYPES () { 2952192 }
+sub IOCTL_STORAGE_LOAD_MEDIA () { 2967564 }
+sub IOCTL_STORAGE_MEDIA_REMOVAL () { 2967556 }
+sub IOCTL_STORAGE_RELEASE () { 2967572 }
+sub IOCTL_STORAGE_RESERVE () { 2967568 }
+sub MOVEFILE_COPY_ALLOWED () { 2 }
+sub MOVEFILE_DELAY_UNTIL_REBOOT () { 4 }
+sub MOVEFILE_REPLACE_EXISTING () { 1 }
+sub MOVEFILE_WRITE_THROUGH () { 8 }
+sub OPEN_ALWAYS () { 4 }
+sub OPEN_EXISTING () { 3 }
+sub PARTITION_ENTRY_UNUSED () { 0 }
+sub PARTITION_EXTENDED () { 5 }
+sub PARTITION_FAT32 () { 11 }
+sub PARTITION_FAT32_XINT13 () { 12 }
+sub PARTITION_FAT_12 () { 1 }
+sub PARTITION_FAT_16 () { 4 }
+sub PARTITION_HUGE () { 6 }
+sub PARTITION_IFS () { 7 }
+sub PARTITION_NTFT () { 128 }
+sub PARTITION_PREP () { 65 }
+sub PARTITION_UNIX () { 99 }
+sub PARTITION_XENIX_1 () { 2 }
+sub PARTITION_XENIX_2 () { 3 }
+sub PARTITION_XINT13 () { 14 }
+sub PARTITION_XINT13_EXTENDED () { 15 }
+sub RemovableMedia () { 11 }
+sub SECURITY_ANONYMOUS () { 0 }
+sub SECURITY_CONTEXT_TRACKING () { 262144 }
+sub SECURITY_DELEGATION () { 196608 }
+sub SECURITY_EFFECTIVE_ONLY () { 524288 }
+sub SECURITY_IDENTIFICATION () { 65536 }
+sub SECURITY_IMPERSONATION () { 131072 }
+sub SECURITY_SQOS_PRESENT () { 1048576 }
+sub SEM_FAILCRITICALERRORS () { 1 }
+sub SEM_NOALIGNMENTFAULTEXCEPT () { 4 }
+sub SEM_NOGPFAULTERRORBOX () { 2 }
+sub SEM_NOOPENFILEERRORBOX () { 32768 }
+sub TRUNCATE_EXISTING () { 5 }
+sub Unknown () { 0 }
+sub VALID_NTFT () { 192 }
+1;
diff --git a/cpan/Win32API-File/const2perl.h b/cpan/Win32API-File/const2perl.h
new file mode 100644
index 0000000000..dbd94c10a8
--- /dev/null
+++ b/cpan/Win32API-File/const2perl.h
@@ -0,0 +1,193 @@
+/* const2perl.h -- For converting C constants into Perl constant subs
+ * (usually via XS code but can just write Perl code to stdout). */
+
+
+/* #ifndef _INCLUDE_CONST2PERL_H
+ * #define _INCLUDE_CONST2PERL_H 1 */
+
+#ifndef CONST2WRITE_PERL /* Default is "const to .xs": */
+
+# define newconst( sName, sFmt, xValue, newSV ) \
+ newCONSTSUB( mHvStash, sName, newSV )
+
+# define noconst( const ) av_push( mAvExportFail, newSVpv(#const,0) )
+
+# define setuv(u) do { \
+ mpSvNew= newSViv(0); sv_setuv(mpSvNew,u); \
+ } while( 0 )
+
+#else
+
+/* #ifdef __cplusplus
+ * # undef printf
+ * # undef fprintf
+ * # undef stderr
+ * # define stderr (&_iob[2])
+ * # undef iobuf
+ * # undef malloc
+ * #endif */
+
+# include <stdio.h> /* Probably already included, but shouldn't hurt */
+# include <errno.h> /* Possibly already included, but shouldn't hurt */
+
+# define newconst( sName, sFmt, xValue, newSV ) \
+ printf( "sub %s () { " sFmt " }\n", sName, xValue )
+
+# define noconst( const ) printf( "push @EXPORT_FAIL, '%s';\n", #const )
+
+# define setuv(u) /* Nothing */
+
+# ifndef IVdf
+# define IVdf "ld"
+# endif
+# ifndef UVuf
+# define UVuf "lu"
+# endif
+# ifndef UVxf
+# define UVxf "lX"
+# endif
+# ifndef NV_DIG
+# define NV_DIG 15
+# endif
+
+static char *
+escquote( const char *sValue )
+{
+ Size_t lLen= 1+2*strlen(sValue);
+ char *sEscaped= (char *) malloc( lLen );
+ char *sNext= sEscaped;
+ if( NULL == sEscaped ) {
+ fprintf( stderr, "Can't allocate %"UVuf"-byte buffer (errno=%d)\n",
+ U_V(lLen), _errno );
+ exit( 1 );
+ }
+ while( '\0' != *sValue ) {
+ switch( *sValue ) {
+ case '\'':
+ case '\\':
+ *(sNext++)= '\\';
+ }
+ *(sNext++)= *(sValue++);
+ }
+ *sNext= *sValue;
+ return( sEscaped );
+}
+
+#endif
+
+
+#ifdef __cplusplus
+
+class _const2perl {
+ public:
+ char msBuf[64]; /* Must fit sprintf of longest NV */
+#ifndef CONST2WRITE_PERL
+ HV *mHvStash;
+ AV *mAvExportFail;
+ SV *mpSvNew;
+ _const2perl::_const2perl( char *sModName ) {
+ mHvStash= gv_stashpv( sModName, TRUE );
+ SV **pSv= hv_fetch( mHvStash, "EXPORT_FAIL", 11, TRUE );
+ GV *gv;
+ char *sVarName= (char *) malloc( 15+strlen(sModName) );
+ strcpy( sVarName, sModName );
+ strcat( sVarName, "::EXPORT_FAIL" );
+ gv= gv_fetchpv( sVarName, 1, SVt_PVAV );
+ mAvExportFail= GvAVn( gv );
+ }
+#else
+ _const2perl::_const2perl( char *sModName ) {
+ ; /* Nothing to do */
+ }
+#endif /* CONST2WRITE_PERL */
+ void mkconst( char *sName, unsigned long uValue ) {
+ setuv(uValue);
+ newconst( sName, "0x%"UVxf, uValue, mpSvNew );
+ }
+ void mkconst( char *sName, unsigned int uValue ) {
+ setuv(uValue);
+ newconst( sName, "0x%"UVxf, uValue, mpSvNew );
+ }
+ void mkconst( char *sName, unsigned short uValue ) {
+ setuv(uValue);
+ newconst( sName, "0x%"UVxf, uValue, mpSvNew );
+ }
+ void mkconst( char *sName, long iValue ) {
+ newconst( sName, "%"IVdf, iValue, newSViv(iValue) );
+ }
+ void mkconst( char *sName, int iValue ) {
+ newconst( sName, "%"IVdf, iValue, newSViv(iValue) );
+ }
+ void mkconst( char *sName, short iValue ) {
+ newconst( sName, "%"IVdf, iValue, newSViv(iValue) );
+ }
+ void mkconst( char *sName, double nValue ) {
+ newconst( sName, "%s",
+ Gconvert(nValue,NV_DIG,0,msBuf), newSVnv(nValue) );
+ }
+ void mkconst( char *sName, char *sValue ) {
+ newconst( sName, "'%s'", escquote(sValue), newSVpv(sValue,0) );
+ }
+ void mkconst( char *sName, const void *pValue ) {
+ setuv((UV)pValue);
+ newconst( sName, "0x%"UVxf, (UV)(pValue), mpSvNew );
+ }
+/*#ifdef HAS_QUAD
+ * HAS_QUAD only means pack/unpack deal with them, not that SVs can.
+ * void mkconst( char *sName, Quad_t *qValue ) {
+ * newconst( sName, "0x%"QVxf, qValue, newSVqv(qValue) );
+ * }
+ *#endif / * HAS_QUAD */
+};
+
+#define START_CONSTS( sModName ) _const2perl const2( sModName );
+#define const2perl( const ) const2.mkconst( #const, const )
+
+#else /* __cplusplus */
+
+# ifndef CONST2WRITE_PERL
+# define START_CONSTS( sModName ) \
+ HV *mHvStash= gv_stashpv( sModName, TRUE ); \
+ AV *mAvExportFail; \
+ SV *mpSvNew; \
+ { char *sVarName= malloc( 15+strlen(sModName) ); \
+ GV *gv; \
+ strcpy( sVarName, sModName ); \
+ strcat( sVarName, "::EXPORT_FAIL" ); \
+ gv= gv_fetchpv( sVarName, 1, SVt_PVAV ); \
+ mAvExportFail= GvAVn( gv ); \
+ }
+# else
+# define START_CONSTS( sModName ) /* Nothing */
+# endif
+
+#define const2perl( const ) do { \
+ if( const < 0 ) { \
+ newconst( #const, "%"IVdf, const, newSViv((IV)const) ); \
+ } else { \
+ setuv( (UV)const ); \
+ newconst( #const, "0x%"UVxf, const, mpSvNew ); \
+ } \
+ } while( 0 )
+
+#endif /* __cplusplus */
+
+
+//Example use:
+//#include <const2perl.h>
+// {
+// START_CONSTS( "Package::Name" ) /* No ";" */
+//#ifdef $const
+// const2perl( $const );
+//#else
+// noconst( $const );
+//#endif
+// }
+// sub ? { my( $sConstName )= @_;
+// return $sConstName; # "#ifdef $sConstName"
+// return FALSE; # Same as above
+// return "HAS_QUAD"; # "#ifdef HAS_QUAD"
+// return "#if 5.04 <= VERSION";
+// return "#if 0";
+// return 1; # No #ifdef
+/* #endif / * _INCLUDE_CONST2PERL_H */
diff --git a/cpan/Win32API-File/t/file.t b/cpan/Win32API-File/t/file.t
new file mode 100644
index 0000000000..0039b57435
--- /dev/null
+++ b/cpan/Win32API-File/t/file.t
@@ -0,0 +1,427 @@
+#!/usr/bin/perl -w
+# Before `make install' is performed this script should be runnable with
+# `make test'. After `make install' it should work as `perl test.pl'
+
+######################### We start with some black magic to print on failure.
+
+BEGIN {
+ $|= 1;
+
+ # when building perl, skip this test if Win32API::File isn't being built
+ if ( $ENV{PERL_CORE} ) {
+ require Config;
+ if ( $Config::Config{extensions} !~ m:(?<!\S)Win32API/File(?!\S): ) {
+ print "1..0 # Skip Win32API::File extension not built\n";
+ exit();
+ }
+ }
+
+ print "1..267\n";
+}
+END {print "not ok 1\n" unless $loaded;}
+
+# Win32API::File does an implicit "require Win32", but
+# the ../lib directory in @INC will no longer work once
+# we chdir() into the TEMP directory.
+
+require Win32 unless defined &Win32::FormatMessage;
+use File::Spec;
+use Carp;
+use Carp::Heavy;
+
+use Win32API::File qw(:ALL);
+$loaded = 1;
+print "ok 1\n";
+
+######################### End of black magic.
+
+$test= 1;
+
+use strict qw(subs);
+
+$temp= File::Spec->tmpdir();
+$dir= "W32ApiF.tmp";
+
+$ENV{WINDIR} = $ENV{SYSTEMROOT} if not exists $ENV{WINDIR};
+
+chdir( $temp )
+ or die "# Can't cd to temp directory, $temp: $!\n";
+$tempdir = File::Spec->catdir($temp,$dir);
+if( -d $dir ) {
+ print "# deleting ",File::Spec->catdir($temp,$dir,'*'),"\n" if glob "$dir/*";
+
+ for (glob "$dir/*") {
+ chmod 0777, $_;
+ unlink $_;
+ }
+ rmdir $dir or die "Could not rmdir $dir: $!";
+}
+mkdir( $dir, 0777 )
+ or die "# Can't create temp dir, $tempdir: $!\n";
+print "# chdir $tempdir\n";
+chdir( $dir )
+ or die "# Can't cd to my dir, $tempdir: $!\n";
+$h1= createFile( "ReadOnly.txt", "r", { Attributes=>"r" } );
+$ok= ! $h1 && Win32API::File::_fileLastError() == 2; # could not find the file
+$ok or print "# ","".fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 2
+if( ! $ok ) { CloseHandle($h1); unlink("ReadOnly.txt"); }
+
+$ok= $h1= createFile( "ReadOnly.txt", "wcn", { Attributes=>"r" } );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 3
+
+$ok= WriteFile( $h1, "Original text\n", 0, [], [] );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 4
+
+$h2= createFile( "ReadOnly.txt", "rcn" );
+$ok= ! $h2 && Win32API::File::_fileLastError() == 80; # file exists
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 5
+if( ! $ok ) { CloseHandle($h2); }
+
+$h2= createFile( "ReadOnly.txt", "rwke" );
+$ok= ! $h2 && Win32API::File::_fileLastError() == 5; # access is denied
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 6
+if( ! $ok ) { CloseHandle($h2); }
+
+$ok= $h2= createFile( "ReadOnly.txt", "r" );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 7
+
+$ok= SetFilePointer( $h1, length("Original"), [], FILE_BEGIN );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 8
+
+$ok= WriteFile( $h1, "ly was other text\n", 0, $len, [] )
+ && $len == length("ly was other text\n");
+$ok or print "# <$len> should be <",
+ length("ly was other text\n"),">: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 9
+
+$ok= ReadFile( $h2, $text, 80, $len, [] )
+ && $len == length($text);
+$ok or print "# <$len> should be <",length($text),
+ ">: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 10
+
+$ok= $text eq "Originally was other text\n";
+if( !$ok ) {
+ $text =~ s/\r/\\r/g; $text =~ s/\n/\\n/g;
+ print "# <$text> should be <Originally was other text\\n>.\n";
+}
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 11
+
+$ok= CloseHandle($h2);
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 12
+
+$ok= ! ReadFile( $h2, $text, 80, $len, [] )
+ && Win32API::File::_fileLastError() == 6; # handle is invalid
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 13
+
+CloseHandle($h1);
+
+$ok= $h1= createFile( "CanWrite.txt", "rw", FILE_SHARE_WRITE,
+ { Create=>CREATE_ALWAYS } );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 14
+
+$ok= WriteFile( $h1, "Just this and not this", 10, [], [] );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 15
+
+$ok= $h2= createFile( "CanWrite.txt", "wk", { Share=>"rw" } );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 16
+
+$ok= OsFHandleOpen( "APP", $h2, "wat" );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 17
+
+$ok= $h2 == GetOsFHandle( "APP" );
+$ok or print "# $h2 != ",GetOsFHandle("APP"),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 18
+
+{ my $save= select(APP); $|= 1; select($save); }
+$ok= print APP "is enough\n";
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 19
+
+SetFilePointer($h1, 0, [], FILE_BEGIN) if $^O eq 'cygwin';
+
+$ok= ReadFile( $h1, $text, 0, [], [] );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 20
+
+$ok= $text eq "is enough\r\n";
+if( !$ok ) {
+ $text =~ s/\r/\\r/g;
+ $text =~ s/\n/\\n/g;
+ print "# <$text> should be <is enough\\r\\n>\n";
+}
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 21
+
+$skip = "";
+if ($^O eq 'cygwin') {
+ $ok = 1;
+ $skip = " # skip cygwin can delete open files";
+}
+else {
+ unlink("CanWrite.txt");
+ $ok = -e "CanWrite.txt" && $! =~ /permission denied/i;
+ $ok or print "# $!\n";
+}
+print $ok ? "" : "not ", "ok ", ++$test, "$skip\n"; # ok 22
+
+close(APP); # Also does C<CloseHandle($h2)>
+## CloseHandle( $h2 );
+CloseHandle( $h1 );
+
+$ok= ! DeleteFile( "ReadOnly.txt" )
+ && Win32API::File::_fileLastError() == 5; # access is denied
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 23
+
+$ok= ! CopyFile( "ReadOnly.txt", "CanWrite.txt", 1 )
+ && Win32API::File::_fileLastError() == 80; # file exists
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 24
+
+$ok= ! CopyFile( "CanWrite.txt", "ReadOnly.txt", 0 )
+ && Win32API::File::_fileLastError() == 5; # access is denied
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 25
+
+$ok= ! MoveFile( "NoSuchFile", "NoSuchDest" )
+ && Win32API::File::_fileLastError() == 2; # not find the file
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 26
+
+$ok= ! MoveFileEx( "NoSuchFile", "NoSuchDest", 0 )
+ && Win32API::File::_fileLastError() == 2; # not find the file
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 27
+
+$ok= ! MoveFile( "ReadOnly.txt", "CanWrite.txt" )
+ && Win32API::File::_fileLastError() == 183; # file already exists
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 28
+
+$ok= ! MoveFileEx( "ReadOnly.txt", "CanWrite.txt", 0 )
+ && Win32API::File::_fileLastError() == 183; # file already exists
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 29
+
+$ok= CopyFile( "ReadOnly.txt", "ReadOnly.cp", 1 )
+ && CopyFile( "CanWrite.txt", "CanWrite.cp", 1 );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 30
+
+$ok= ! MoveFileEx( "CanWrite.txt", "ReadOnly.cp", MOVEFILE_REPLACE_EXISTING )
+ && (Win32API::File::_fileLastError() == 5 # access is denied
+ || Win32API::File::_fileLastError() == 183); # already exists
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 31
+
+$ok= MoveFileEx( "ReadOnly.cp", "CanWrite.cp", MOVEFILE_REPLACE_EXISTING );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 32
+
+$ok= MoveFile( "CanWrite.cp", "Moved.cp" );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 33
+
+$ok= ! unlink( "ReadOnly.cp" )
+ && $! =~ /no such file/i
+ && ! unlink( "CanWrite.cp" )
+ && $! =~ /no such file/i;
+$ok or print "# $!\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 34
+
+$ok= ! DeleteFile( "Moved.cp" )
+ && Win32API::File::_fileLastError() == 5; # access is denied
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 35
+
+if ($^O eq 'cygwin') {
+ chmod( 0200 | 07777 & (stat("Moved.cp"))[2], "Moved.cp" );
+}
+else {
+ system( "attrib -r Moved.cp" );
+}
+
+$ok= DeleteFile( "Moved.cp" );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 36
+
+$new= SEM_FAILCRITICALERRORS|SEM_NOOPENFILEERRORBOX;
+$old= SetErrorMode( $new );
+$renew= SetErrorMode( $old );
+$reold= SetErrorMode( $old );
+
+$ok= $old == $reold;
+$ok or print "# $old != $reold: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 37
+
+$ok= ($renew&$new) == $new;
+$ok or print "# $new != $renew: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 38
+
+$ok= @drives= getLogicalDrives();
+$ok && print "# @drives\n";
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 39
+
+$ok= $drives[0] !~ /^[ab]/ || DRIVE_REMOVABLE == GetDriveType($drives[0]);
+$ok or print "# ",DRIVE_REMOVABLE," != ",GetDriveType($drives[0]),
+ ": ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 40
+
+$drive= substr( $ENV{WINDIR}, 0, 3 );
+
+$ok= 1 == grep /^\Q$drive\E/i, @drives;
+$ok or print "# No $drive found in list of drives.\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 41
+
+$ok= DRIVE_FIXED == GetDriveType( $drive );
+$ok or print
+ "# ",DRIVE_FIXED," != ",GetDriveType($drive),": ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 42
+
+$ok= GetVolumeInformation( $drive, $vol, 64, $ser, $max, $flag, $fs, 16 );
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 43
+$vol= $ser= $max= $flag= $fs= ""; # Prevent warnings.
+
+chop($drive);
+$ok= QueryDosDevice( $drive, $dev, 80 );
+$ok or print "# $drive: ",fileLastError(),"\n";
+if( $ok ) {
+ ( $text= $dev ) =~ s/\0/\\0/g;
+ print "# $drive => $text\n";
+}
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 44
+
+$bits= GetLogicalDrives();
+$let= 25;
+$bit= 1<<$let;
+while( $bit & $bits ) {
+ $let--;
+ $bit >>= 1;
+}
+$let= pack( "C", $let + unpack("C","A") ) . ":";
+print "# Querying undefined $let.\n";
+
+$ok= DefineDosDevice( 0, $let, $ENV{WINDIR} );
+$ok or print "# $let,$ENV{WINDIR}: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 45
+
+$ok= -s $let."/Win.ini" == -s $ENV{WINDIR}."/Win.ini";
+$ok or print "# ", -s $let."/Win.ini", " vs. ",
+ -s $ENV{WINDIR}."/Win.ini", ": ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 46
+
+$ok= DefineDosDevice( DDD_REMOVE_DEFINITION|DDD_EXACT_MATCH_ON_REMOVE,
+ $let, $ENV{WINDIR} );
+$ok or print "# $let,$ENV{WINDIR}: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 47
+
+$ok= ! -f $let."/Win.ini"
+ && $! =~ /no such file/i;
+$ok or print "# $!\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 48
+
+$ok= DefineDosDevice( DDD_RAW_TARGET_PATH, $let, $dev );
+if( !$ok ) {
+ ( $text= $dev ) =~ s/\0/\\0/g;
+ print "# $let,$text: ",fileLastError(),"\n";
+}
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 49
+
+$ok= -f $let.substr($ENV{WINDIR},3)."/win.ini";
+$ok or print "# ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 50
+
+$ok= DefineDosDevice( DDD_REMOVE_DEFINITION|DDD_EXACT_MATCH_ON_REMOVE
+ |DDD_RAW_TARGET_PATH, $let, $dev );
+$ok or print "# $let,$dev: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 51
+
+my $path = $ENV{WINDIR};
+my $attrs = GetFileAttributes( $path );
+$ok= $attrs != INVALID_FILE_ATTRIBUTES;
+$ok or print "# $path gave invalid attribute value, attrs=$attrs: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 52
+
+$ok= ($attrs & FILE_ATTRIBUTE_DIRECTORY);
+$ok or print "# $path not a directory, attrs=$attrs: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 53
+
+$path .= "/win.ini";
+$attrs = GetFileAttributes( $path );
+$ok= $attrs != INVALID_FILE_ATTRIBUTES;
+$ok or print "# $path gave invalid attribute value, attrs=$attrs: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 54
+
+$ok= !($attrs & FILE_ATTRIBUTE_DIRECTORY);
+$ok or print "# $path is a directory, attrs=$attrs: ",fileLastError(),"\n";
+print $ok ? "" : "not ", "ok ", ++$test, "\n"; # ok 55
+
+# DefineDosDevice
+# GetFileType
+# GetVolumeInformation
+# QueryDosDevice
+#Add a drive letter that points to our temp directory
+#Add a drive letter that points to the drive our directory is in
+
+#winnt.t:
+# get first drive letters and use to test disk and storage IOCTLs
+# "//./PhysicalDrive0"
+# DeviceIoControl
+
+my %consts;
+my @consts= @Win32API::File::EXPORT_OK;
+@consts{@consts}= @consts;
+
+my( @noargs, %noargs )= qw(
+ attrLetsToBits fileLastError getLogicalDrives GetLogicalDrives );
+@noargs{@noargs}= @noargs;
+
+foreach $func ( @{$Win32API::File::EXPORT_TAGS{Func}} ) {
+ delete $consts{$func};
+ if( defined( $noargs{$func} ) ) {
+ $ok= ! eval("$func(0,0)") && $@ =~ /(::|\s)_?${func}A?[(:\s]/;
+ } else {
+ $ok= ! eval("$func()") && $@ =~ /(::|\s)_?${func}A?[(:\s]/;
+ }
+ $ok or print "# $func: $@\n";
+ print $ok ? "" : "not ", "ok ", ++$test, "\n";
+}
+
+foreach $func ( @{$Win32API::File::EXPORT_TAGS{FuncA}},
+ @{$Win32API::File::EXPORT_TAGS{FuncW}} ) {
+ $ok= ! eval("$func()") && $@ =~ /::_?${func}\(/;
+ delete $consts{$func};
+ $ok or print "# $func: $@\n";
+ print $ok ? "" : "not ", "ok ", ++$test, "\n";
+}
+
+foreach $const ( keys(%consts) ) {
+ $ok= eval("my \$x= $const(); 1");
+ $ok or print "# Constant $const: $@\n";
+ print $ok ? "" : "not ", "ok ", ++$test, "\n";
+}
+
+chdir( $temp );
+if (-e "$dir/ReadOnly.txt") {
+ chmod 0777, "$dir/ReadOnly.txt";
+ unlink "$dir/ReadOnly.txt";
+}
+unlink "$dir/CanWrite.txt" if -e "$dir/CanWrite.txt";
+rmdir $dir;
+
+__END__
diff --git a/cpan/Win32API-File/t/tie.t b/cpan/Win32API-File/t/tie.t
new file mode 100644
index 0000000000..ec4ab83e63
--- /dev/null
+++ b/cpan/Win32API-File/t/tie.t
@@ -0,0 +1,92 @@
+#!perl
+# vim:syntax=perl:
+
+BEGIN {
+ $|= 1;
+
+ # when building perl, skip this test if Win32API::File isn't being built
+ if ( $ENV{PERL_CORE} ) {
+ require Config;
+ if ( $Config::Config{extensions} !~ m:(?<!\S)Win32API/File(?!\S): ) {
+ print "1..0 # Skip Win32API::File extension not built\n";
+ exit();
+ }
+ }
+
+ print "1..10\n";
+}
+END { print "not ok 1\n" unless $main::loaded; }
+
+use strict;
+use warnings;
+use Win32API::File qw(:ALL);
+use IO::File;
+
+$main::loaded = 1;
+
+print "ok 1\n";
+
+unlink "foo.txt";
+
+my $fh = new Win32API::File "+> foo.txt"
+ or die fileLastError();
+
+my $tell = tell $fh;
+print "# tell \$fh == '$tell'\n";
+print "not " unless
+ tell $fh == 0;
+print "ok 2\n";
+
+my $text = "some text\n";
+
+print "not " unless
+ print $fh $text;
+print "ok 3\n";
+
+$tell = tell $fh;
+print "# after printing 'some text\\n', tell is: '$tell'\n";
+print "not " unless
+ $tell == length($text) + 1;
+print "ok 4\n";
+
+print "not " unless
+ seek($fh, 0, 0) == 0;
+print "ok 5\n";
+
+print "not " unless
+ not eof $fh;
+print "ok 6\n";
+
+my $readline = <$fh>;
+
+my $pretty_readline = $readline;
+$pretty_readline =~ s/\r/\\r/g; $pretty_readline =~ s/\n/\\n/g;
+print "# read line is '$pretty_readline'\n";
+
+print "not " unless
+ $readline eq "some text\r\n";
+print "ok 7\n";
+
+print "not " unless
+ eof $fh;
+print "ok 8\n";
+
+print "not " unless
+ close $fh;
+print "ok 9\n";
+
+# Test out binmode (should be only LF with print, no CR).
+
+$fh = new Win32API::File "+> foo.txt"
+ or die fileLastError();
+binmode $fh;
+print $fh "hello there\n";
+seek $fh, 0, 0;
+
+print "not " unless
+ <$fh> eq "hello there\n";
+print "ok 10\n";
+
+close $fh;
+
+unlink "foo.txt";
diff --git a/cpan/Win32API-File/typemap b/cpan/Win32API-File/typemap
new file mode 100644
index 0000000000..2134712109
--- /dev/null
+++ b/cpan/Win32API-File/typemap
@@ -0,0 +1,140 @@
+BOOL T_BOOL
+LONG T_IV
+HKEY T_UV
+HANDLE T_UV
+DWORD T_UV
+oDWORD O_UV
+UINT T_UV
+REGSAM T_UV
+SECURITY_INFORMATION T_UV
+char * T_BUF
+WCHAR * T_BUF
+BYTE * T_BUF
+void * T_BUF
+ValEntA * T_BUF
+ValEntW * T_BUF
+SECURITY_DESCRIPTOR * T_BUF
+SECURITY_ATTRIBUTES * T_BUF
+LPOVERLAPPED T_BUF
+LONG * T_IVBUF
+DWORD * T_UVBUF
+LPDWORD T_UVBUF
+oDWORD * O_UVBUF
+HKEY * T_UVBUFP
+oHKEY * O_UVBUFP
+FILETIME * T_SBUF
+
+#############################################################################
+INPUT
+T_BOOL
+ $var= null_arg($arg)||!SvTRUE($arg) ? ($type)0 : looks_like_number($arg) ? ($type)SvIV($arg) : ($type)1
+T_BUF
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ $var= ($type) SvPV_nolen( $arg )
+T_SBUF
+ grow_buf( $var,$arg, $type )
+T_IV
+ $var= null_arg($arg) ? ($type)0 : INT2PTR($type,SvIV($arg))
+T_UV
+ $var= null_arg($arg) ? ($type)0 : INT2PTR($type,SvUV($arg))
+O_IV
+ $var= optIV($arg)
+O_UV
+ $var= optUV($arg)
+T_IVBUF
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )= SvIV($arg)
+T_UVBUF
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )= SvUV($arg)
+O_IVBUF
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )=
+ SvOK($arg) ? SvIV($arg) : 0;
+O_UVBUF
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )=
+ SvOK($arg) ? SvUV($arg) : 0;
+T_IVBUFP
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )= (void *)SvIV($arg)
+T_UVBUFP
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )= (void *)SvUV($arg)
+O_IVBUFP
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )=
+ SvOK($arg) ? (void *)SvIV($arg) : 0;
+O_UVBUFP
+ if( null_arg($arg) )
+ $var= NULL;
+ else
+ *( $var= ($type) TempAlloc( sizeof(*($var)) ) )=
+ SvOK($arg) ? (void *)SvUV($arg) : 0;
+
+#############################################################################
+OUTPUT
+T_BOOL
+ if( ! null_arg($arg) && ! SvREADONLY($arg) ) {
+ if( $var ) {
+ sv_setiv( $arg, (IV)$var );
+ } else {
+ sv_setsv( $arg, &PL_sv_no );
+ }
+ }
+T_BUF
+ ;
+T_SBUF
+ trunc_buf( RETVAL, $var,$arg );
+T_IV
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setiv( $arg, PTR2IV($var) );
+T_UV
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setuv( $arg, PTR2UV($var) );
+O_IV
+ if( ! null_arg($arg) )
+ sv_setiv( $arg, PTR2IV($var) );
+O_UV
+ if( ! null_arg($arg) )
+ sv_setuv( $arg, PTR2UV($var) );
+T_IVBUF
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setiv( $arg, (IV)*($var) );
+T_UVBUF
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setuv( $arg, (UV)*($var) );
+O_IVBUF
+ if( ! null_arg($arg) )
+ sv_setiv( $arg, (IV)*($var) );
+O_UVBUF
+ if( ! null_arg($arg) )
+ sv_setuv( $arg, (UV)*($var) );
+T_IVBUFP
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setiv( $arg, (IV)*($var) );
+T_UVBUFP
+ if( ! null_arg($arg) && ! SvREADONLY($arg) )
+ sv_setuv( $arg, (UV)*($var) );
+O_IVBUFP
+ if( ! null_arg($arg) )
+ sv_setiv( $arg, (IV)*($var) );
+O_UVBUFP
+ if( ! null_arg($arg) )
+ sv_setuv( $arg, (UV)*($var) );