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git/t/t0021/rot13-filter.pl
Johannes Schindelin 3306f6524d mingw: handle GITPERLLIB in t0021 in a Windows-compatible way 
Git's assumption that all path lists are colon-separated is not only
wrong on Windows, it is not even an assumption that is compatible with
POSIX.

In the interest of time, let's not try to fix this properly but simply
work around the obvious breakage on Windows, where the MSYS2 Bash used
by Git for Windows to interpret the Git's Unix shell scripts will
automagically convert path lists in the environment to
semicolon-separated lists of Windows paths (with drive letter and the
corresponding colon and all that jazz).

In other words, we simply look whether there is a semicolon in
GITPERLLIB and split by semicolons if found instead of colons. This is
not fool-proof, of course, as the path list could consist of a single
path. But that is not the case in Git for Windows' test suite, there are
always two paths in GITPERLLIB.

Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-01-10 14:00:54 -08:00

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#
# Example implementation for the Git filter protocol version 2
# See Documentation/gitattributes.txt, section "Filter Protocol"
#
# The first argument defines a debug log file that the script write to.
# All remaining arguments define a list of supported protocol
# capabilities ("clean", "smudge", etc).
#
# This implementation supports special test cases:
# (1) If data with the pathname "clean-write-fail.r" is processed with
# a "clean" operation then the write operation will die.
# (2) If data with the pathname "smudge-write-fail.r" is processed with
# a "smudge" operation then the write operation will die.
# (3) If data with the pathname "error.r" is processed with any
# operation then the filter signals that it cannot or does not want
# to process the file.
# (4) If data with the pathname "abort.r" is processed with any
# operation then the filter signals that it cannot or does not want
# to process the file and any file after that is processed with the
# same command.
# (5) If data with a pathname that is a key in the DELAY hash is
# requested (e.g. "test-delay10.a") then the filter responds with
# a "delay" status and sets the "requested" field in the DELAY hash.
# The filter will signal the availability of this object after
# "count" (field in DELAY hash) "list_available_blobs" commands.
# (6) If data with the pathname "missing-delay.a" is processed that the
# filter will drop the path from the "list_available_blobs" response.
# (7) If data with the pathname "invalid-delay.a" is processed that the
# filter will add the path "unfiltered" which was not delayed before
# to the "list_available_blobs" response.
#
use 5.008;
sub gitperllib {
# Git assumes that all path lists are Unix-y colon-separated ones. But
# when the Git for Windows executes the test suite, its MSYS2 Bash
# calls git.exe, and colon-separated path lists are converted into
# Windows-y semicolon-separated lists of *Windows* paths (which
# naturally contain a colon after the drive letter, so splitting by
# colons simply does not cut it).
#
# Detect semicolon-separated path list and handle them appropriately.
if ($ENV{GITPERLLIB} =~ /;/) {
return split(/;/, $ENV{GITPERLLIB});
}
return split(/:/, $ENV{GITPERLLIB});
}
use lib (gitperllib());
use strict;
use warnings;
use IO::File;
use Git::Packet;
my $MAX_PACKET_CONTENT_SIZE = 65516;
my $log_file = shift @ARGV;
my @capabilities = @ARGV;
open my $debug, ">>", $log_file or die "cannot open log file: $!";
my %DELAY = (
'test-delay10.a' => { "requested" => 0, "count" => 1 },
'test-delay11.a' => { "requested" => 0, "count" => 1 },
'test-delay20.a' => { "requested" => 0, "count" => 2 },
'test-delay10.b' => { "requested" => 0, "count" => 1 },
'missing-delay.a' => { "requested" => 0, "count" => 1 },
'invalid-delay.a' => { "requested" => 0, "count" => 1 },
);
sub rot13 {
my $str = shift;
$str =~ y/A-Za-z/N-ZA-Mn-za-m/;
return $str;
}
print $debug "START\n";
$debug->flush();
packet_initialize("git-filter", 2);
my %remote_caps = packet_read_and_check_capabilities("clean", "smudge", "delay");
packet_check_and_write_capabilities(\%remote_caps, @capabilities);
print $debug "init handshake complete\n";
$debug->flush();
while (1) {
my ( $res, $command ) = packet_key_val_read("command");
if ( $res == -1 ) {
print $debug "STOP\n";
exit();
}
print $debug "IN: $command";
$debug->flush();
if ( $command eq "list_available_blobs" ) {
# Flush
packet_compare_lists([1, ""], packet_bin_read()) ||
die "bad list_available_blobs end";
foreach my $pathname ( sort keys %DELAY ) {
if ( $DELAY{$pathname}{"requested"} >= 1 ) {
$DELAY{$pathname}{"count"} = $DELAY{$pathname}{"count"} - 1;
if ( $pathname eq "invalid-delay.a" ) {
# Send Git a pathname that was not delayed earlier
packet_txt_write("pathname=unfiltered");
}
if ( $pathname eq "missing-delay.a" ) {
# Do not signal Git that this file is available
} elsif ( $DELAY{$pathname}{"count"} == 0 ) {
print $debug " $pathname";
packet_txt_write("pathname=$pathname");
}
}
}
packet_flush();
print $debug " [OK]\n";
$debug->flush();
packet_txt_write("status=success");
packet_flush();
} else {
my ( $res, $pathname ) = packet_key_val_read("pathname");
if ( $res == -1 ) {
die "unexpected EOF while expecting pathname";
}
print $debug " $pathname";
$debug->flush();
# Read until flush
my ( $done, $buffer ) = packet_txt_read();
while ( $buffer ne '' ) {
if ( $buffer eq "can-delay=1" ) {
if ( exists $DELAY{$pathname} and $DELAY{$pathname}{"requested"} == 0 ) {
$DELAY{$pathname}{"requested"} = 1;
}
} else {
die "Unknown message '$buffer'";
}
( $done, $buffer ) = packet_txt_read();
}
if ( $done == -1 ) {
die "unexpected EOF after pathname '$pathname'";
}
my $input = "";
{
binmode(STDIN);
my $buffer;
my $done = 0;
while ( !$done ) {
( $done, $buffer ) = packet_bin_read();
$input .= $buffer;
}
if ( $done == -1 ) {
die "unexpected EOF while reading input for '$pathname'";
}
print $debug " " . length($input) . " [OK] -- ";
$debug->flush();
}
my $output;
if ( exists $DELAY{$pathname} and exists $DELAY{$pathname}{"output"} ) {
$output = $DELAY{$pathname}{"output"}
} elsif ( $pathname eq "error.r" or $pathname eq "abort.r" ) {
$output = "";
} elsif ( $command eq "clean" and grep( /^clean$/, @capabilities ) ) {
$output = rot13($input);
} elsif ( $command eq "smudge" and grep( /^smudge$/, @capabilities ) ) {
$output = rot13($input);
} else {
die "bad command '$command'";
}
if ( $pathname eq "error.r" ) {
print $debug "[ERROR]\n";
$debug->flush();
packet_txt_write("status=error");
packet_flush();
} elsif ( $pathname eq "abort.r" ) {
print $debug "[ABORT]\n";
$debug->flush();
packet_txt_write("status=abort");
packet_flush();
} elsif ( $command eq "smudge" and
exists $DELAY{$pathname} and
$DELAY{$pathname}{"requested"} == 1 ) {
print $debug "[DELAYED]\n";
$debug->flush();
packet_txt_write("status=delayed");
packet_flush();
$DELAY{$pathname}{"requested"} = 2;
$DELAY{$pathname}{"output"} = $output;
} else {
packet_txt_write("status=success");
packet_flush();
if ( $pathname eq "${command}-write-fail.r" ) {
print $debug "[WRITE FAIL]\n";
$debug->flush();
die "${command} write error";
}
print $debug "OUT: " . length($output) . " ";
$debug->flush();
while ( length($output) > 0 ) {
my $packet = substr( $output, 0, $MAX_PACKET_CONTENT_SIZE );
packet_bin_write($packet);
# dots represent the number of packets
print $debug ".";
if ( length($output) > $MAX_PACKET_CONTENT_SIZE ) {
$output = substr( $output, $MAX_PACKET_CONTENT_SIZE );
} else {
$output = "";
}
}
packet_flush();
print $debug " [OK]\n";
$debug->flush();
packet_flush();
}
}
}
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