wine-staging/patches/gitapply.sh

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#!/usr/bin/env bash
#
# Wrapper to apply binary patches without git.
#
# Copyright (C) 2014-2016 Sebastian Lackner
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
#
nogit=0
tmpfile=""
# Show usage information about gitapply script
usage()
{
echo ""
echo "Usage: ./gitapply.sh [--nogit] [-d DIRECTORY]"
echo ""
echo "Reads patch data from stdin and applies the patch to the current"
echo "directory or the directory given via commandline."
echo ""
echo "The patch file can contain both unified text patches as well as"
echo "git binary patches."
echo ""
}
# Critical error, abort
abort()
{
if [ ! -z "$tmpfile" ]; then
rm "$tmpfile"
tmpfile=""
fi
echo "[PATCH] ERR: $1" >&2
exit 1
}
# Show a warning
warning()
{
echo "[PATCH] WRN: $1" >&2
}
# Calculate git sha1 hash
gitsha1()
{
if [ -f "$1" ]; then
echo -en "blob $(du -b "$1" | cut -f1)\x00" | cat - "$1" | sha1sum | cut -d' ' -f1
else
echo "0000000000000000000000000000000000000000"
fi
}
# Determine size of a file (or zero, if it doesn't exist)
filesize()
{
local size=$(du -b "$1" | cut -f1)
if [ -z "$size" ]; then
size="0"
fi
echo "$size"
}
# Parse environment variables
while [ "$#" -gt 0 ]; do
cmd="$1"; shift
case "$cmd" in
--nogit)
nogit=1
;;
-v)
;;
--directory=*)
cd "${cmd#*=}"
;;
-d)
cd "$1"; shift
;;
-R)
abort "Reverse applying patches not supported yet with this tool."
;;
--help)
usage
exit 0
;;
*)
warning "Unknown argument $cmd."
;;
esac
done
# Redirect to git apply if available
if [ "$nogit" -eq 0 ] && command -v git >/dev/null 2>&1; then
exec git apply --whitespace=nowarn "$@"
exit 1
fi
# Detect BSD - we check this first to error out as early as possible
if gzip -V 2>&1 | grep -q "BSD"; then
echo "This script is not compatible with *BSD utilities. Please install git," >&2
echo "which provides the same functionality and will be used instead." >&2
exit 1
fi
# Check if GNU Awk is available
if ! command -v gawk >/dev/null 2>&1; then
if ! awk -V 2>/dev/null | grep -q "GNU Awk"; then
echo "This script requires GNU Awk (or alternatively git) to work properly." >&2
exit 1
fi
gawk()
{
awk "$@"
}
fi
# Check for missing depdencies
for dependency in gawk cut dd du grep gzip hexdump patch sha1sum; do
if ! command -v "$dependency" >/dev/null 2>&1; then
echo "Missing dependency: $dependency - please install this program and try again." >&2
exit 1
fi
done
# Workaround for new versions of awk, which assume that we want to use unicode
export LANG=C
export LC_ALL=C
# Decode base85 git data, prepend with a gzip header
awk_decode_b85='
BEGIN{
git="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
b85="0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz!#$%&()*+-;<=>?@^_`{|}~";
printf("\x1f\x8b\x08\x00\x00\x00\x00\x00");
while (getline > 0){
l = index(git, substr($0, 1, 1));
if (l == 0){ exit 1; }
p=2;
while (l > 0 && p <= length($0)){
a = index(b85, substr($0, p++, 1));
b = index(b85, substr($0, p++, 1));
c = index(b85, substr($0, p++, 1));
d = index(b85, substr($0, p++, 1));
e = index(b85, substr($0, p++, 1));
if (a-- == 0 || b-- == 0 || c-- == 0 || d-- == 0 || e-- == 0){ exit 1; }
n = (((a * 85 + b) * 85 + c) * 85 + d) * 85 + e;
if (n > 4294967295){ exit 1; }
a = n % 256; n /= 256;
b = n % 256; n /= 256;
c = n % 256; n /= 256;
d = n % 256;
if (l-- > 0) printf("%c", d);
if (l-- > 0) printf("%c", c);
if (l-- > 0) printf("%c", b);
if (l-- > 0) printf("%c", a);
}
if (p != length($0) + 1 || l != 0){ exit 1; }
}
}'
# Decodes the information from a git delta patch passed in as hex encoded
awk_decode_binarypatch='
function get_byte(a, b){ # usage: get_byte()
if (length(__buffer) == 0){ if(getline __buffer <= 0){ exit 1; } }
a = index(hex, substr(__buffer, 1, 1));
b = index(hex, substr(__buffer, 2, 1));
if (a-- == 0 || b-- == 0){ exit 1; }
__buffer = substr(__buffer, 3); __pos++;
return a * 16 + b;
}
function skip_bytes(n, m){ # usage: skip_bytes(n)
if (length(__buffer) == 0){ if(getline __buffer <= 0){ exit 1; } }
while (n >= (length(__buffer) / 2)){
m = length(__buffer) / 2; n -= m; __pos += m;
if(getline __buffer <= 0){ exit 1; }
}
if (n > 0){ __buffer = substr(__buffer, 1 + 2 * n); __pos += n; }
}
function get_delta_hdr_size(){ # usage: get_delta_hdr_size()
cmd = get_byte(); size = and(cmd, 0x7f); i = 7;
while (and(cmd, 0x80)){
cmd = get_byte(); size += lshift(and(cmd, 0x7f), i); i += 7;
}
return size;
}
BEGIN{
hex="0123456789ABCDEF"
src_size = get_delta_hdr_size(); dst_size = get_delta_hdr_size();
printf("S %d %d\n", src_size, dst_size);
while (dst_size > 0){
cmd = get_byte();
if (and(cmd, 0x80)){
cp_offs = 0; cp_size = 0;
if (and(cmd, 0x01)){ cp_offs = get_byte(); }
if (and(cmd, 0x02)){ cp_offs += lshift(get_byte(), 8); }
if (and(cmd, 0x04)){ cp_offs += lshift(get_byte(), 16); }
if (and(cmd, 0x08)){ cp_offs += lshift(get_byte(), 24); }
if (and(cmd, 0x10)){ cp_size = get_byte(); }
if (and(cmd, 0x20)){ cp_size += lshift(get_byte(), 8); }
if (and(cmd, 0x40)){ cp_size += lshift(get_byte(), 16); }
if (cp_size == 0){ cp_size = 0x10000; }
if (cp_offs + cp_size > src_size || cp_size > dst_size){ exit 1; }
printf("1 %d %d\n", cp_offs, cp_size);
dst_size -= cp_size;
}else if (cmd){
if (cmd > dst_size){ exit 1; }
printf("2 %d %d\n", __pos, cmd);
skip_bytes(cmd);
dst_size -= cmd;
}else{ exit 1; }
}
printf("E 0 0\n");
}'
# Find end of patch header
awk_eof_header='
BEGIN{
ofs=1;
}
!/^(--- |\+\+\+ |old |deleted |new |copy |rename |similarity |index |GIT |literal |delta )/{
ofs=0; exit 0;
}
END{
print FNR+ofs;
}'
# Find end of text patch
awk_eof_textpatch='
BEGIN{
ofs=1;
}
!/^(@| |+|-|\\)/{
ofs=0; exit 0;
}
END{
print FNR+ofs;
}'
# Find end of git binary patch
awk_eof_binarypatch='
BEGIN{
ofs=1;
}
!/^[A-Za-z]/{
ofs=0; exit 0;
}
END{
print FNR+ofs;
}'
# Create a temporary file containing the patch - NOTE: even if the user
# provided a filename it still makes sense to work with a temporary file,
# to avoid changes of the content while this script is active.
tmpfile=$(mktemp)
if [ ! -f "$tmpfile" ]; then
tmpfile=""
abort "Unable to create temporary file for patch."
elif ! cat > "$tmpfile"; then
abort "Patch truncated."
fi
# Go through the different patch sections
lastoffset=1
for offset in $(gawk '/^diff --git /{ print FNR; }' "$tmpfile"); do
# Check part between end of last patch and start of current patch
if [ "$lastoffset" -gt "$offset" ]; then
abort "Unable to split patch. Is this a proper git patch?"
elif [ "$lastoffset" -lt "$offset" ]; then
tmpoffset=$((offset - 1))
if sed -n "$lastoffset,$tmpoffset p" "$tmpfile" | grep -q '^\(@@ -\|--- \|+++ \)'; then
abort "Patch corrupted or not created with git."
fi
fi
# Find out the size of the patch header
tmpoffset=$((offset + 1))
tmpoffset=$(sed -n "$tmpoffset,\$ p" "$tmpfile" | gawk "$awk_eof_header")
hdroffset=$((offset + tmpoffset))
# Parse all important fields of the header
patch_oldname=""
patch_newname=""
patch_oldsha1=""
patch_newsha1=""
patch_is_binary=0
patch_binary_type=""
patch_binary_size=""
tmpoffset=$((hdroffset - 1))
while IFS= read -r line; do
if [ "$line" == "GIT binary patch" ]; then
patch_is_binary=1
elif [[ "$line" =~ ^diff\ --git\ ([^ ]*)\ ([^ ]*)$ ]]; then
patch_oldname="${BASH_REMATCH[1]}"
patch_newname="${BASH_REMATCH[2]}"
elif [[ "$line" =~ ^---\ (.*)$ ]]; then
patch_oldname="${BASH_REMATCH[1]}"
elif [[ "$line" =~ ^\+\+\+\ (.*)$ ]]; then
patch_newname="${BASH_REMATCH[1]}"
elif [[ "$line" =~ ^index\ ([a-fA-F0-9]*)\.\.([a-fA-F0-9]*) ]]; then
patch_oldsha1="${BASH_REMATCH[1]}"
patch_newsha1="${BASH_REMATCH[2]}"
elif [[ "$line" =~ ^(literal|delta)\ ([0-9]+)$ ]]; then
patch_binary_type="${BASH_REMATCH[1]}"
patch_binary_size="${BASH_REMATCH[2]}"
fi
done < <(sed -n "$offset,$tmpoffset p" "$tmpfile")
# Remove first path components, which are always a/ and b/ for git patches
if [[ "$patch_oldname" =~ ^a/(.*)$ ]]; then
patch_oldname="${BASH_REMATCH[1]}"
elif [ "$patch_oldname" != "/dev/null" ]; then
abort "Old name doesn't start with a/."
fi
if [[ "$patch_newname" =~ ^b/(.*)$ ]]; then
patch_newname="${BASH_REMATCH[1]}"
elif [ "$patch_newname" != "/dev/null" ]; then
abort "New name doesn't start with b/."
fi
# Short progress message
echo "patching $patch_newname"
# If its a textual patch, then use 'patch' to apply it.
if [ "$patch_is_binary" -eq 0 ]; then
# Find end of textual patch
tmpoffset=$(sed -n "$hdroffset,\$ p" "$tmpfile" | gawk "$awk_eof_textpatch")
lastoffset=$((hdroffset + tmpoffset - 1))
# Apply textual patch
tmpoffset=$((lastoffset - 1))
if ! sed -n "$offset,$tmpoffset p" "$tmpfile" | patch -p1 -s -f; then
abort "Textual patch did not apply, aborting."
fi
continue
fi
# It is a binary patch - check that requirements are fulfilled
if [ "$patch_binary_type" != "literal" ] && [ "$patch_binary_type" != "delta" ]; then
abort "Unknown binary patch type."
elif [ -z "$patch_oldsha1" ] || [ -z "$patch_newsha1" ]; then
abort "Missing index header, sha1 sums required for binary patch."
elif [ "$patch_oldname" != "$patch_newname" ]; then
abort "Stripped old and new name doesn't match for binary patch."
fi
# Ensure that checksum of old file matches
sha=$(gitsha1 "$patch_oldname")
if [ "$patch_oldsha1" != "$sha" ]; then
abort "Checksum mismatch for $patch_oldname (expected $patch_oldsha1, got $sha)."
fi
# Find end of binary patch
tmpoffset=$(sed -n "$hdroffset,\$ p" "$tmpfile" | gawk "$awk_eof_binarypatch")
lastoffset=$((hdroffset + tmpoffset - 1))
# Special case - deleting the whole file
if [ "$patch_newsha1" == "0000000000000000000000000000000000000000" ] &&
[ "$patch_binary_size" -eq 0 ] && [ "$patch_binary_type" == "literal" ]; then
# Applying the patch just means deleting the file
if [ -f "$patch_oldname" ] && ! rm "$patch_oldname"; then
abort "Unable to delete file $patch_oldname."
fi
continue
fi
# Create temporary file for literal patch
literal_tmpfile=$(mktemp)
if [ ! -f "$literal_tmpfile" ]; then
abort "Unable to create temporary file for binary patch."
fi
# Decode base85 and gzip compression
tmpoffset=$((lastoffset - 1))
sed -n "$hdroffset,$tmpoffset p" "$tmpfile" | gawk "$awk_decode_b85" | gzip -dc > "$literal_tmpfile" 2>/dev/null
if [ "$patch_binary_size" -ne "$(filesize "$literal_tmpfile")" ]; then
rm "$literal_tmpfile"
abort "Uncompressed binary patch has wrong size."
fi
# Convert delta to literal patch
if [ "$patch_binary_type" == "delta" ]; then
# Create new temporary file for literal patch
delta_tmpfile="$literal_tmpfile"
literal_tmpfile=$(mktemp)
if [ ! -f "$literal_tmpfile" ]; then
rm "$delta_tmpfile"
abort "Unable to create temporary file for binary patch."
fi
patch_binary_complete=0
patch_binary_destsize=0
while read cmd arg1 arg2; do
if [ "$cmd" == "S" ]; then
[ "$arg1" -eq "$(filesize "$patch_oldname")" ] || break
patch_binary_destsize="$arg2"
elif [ "$cmd" == "1" ]; then
dd if="$patch_oldname" bs=1 skip="$arg1" count="$arg2" >> "$literal_tmpfile" 2>/dev/null || break
elif [ "$cmd" == "2" ]; then
dd if="$delta_tmpfile" bs=1 skip="$arg1" count="$arg2" >> "$literal_tmpfile" 2>/dev/null || break
elif [ "$cmd" == "E" ]; then
patch_binary_complete=1
else break; fi
done < <(hexdump -v -e '32/1 "%02X" "\n"' "$delta_tmpfile" | gawk "$awk_decode_binarypatch")
rm "$delta_tmpfile"
if [ "$patch_binary_complete" -eq 0 ]; then
rm "$literal_tmpfile"
abort "Unable to parse full patch."
elif [ "$patch_binary_destsize" -ne "$(filesize "$literal_tmpfile")" ]; then
rm "$literal_tmpfile"
abort "Unpacked delta patch has wrong size."
fi
fi
# Ensure that checksum of literal patch matches
sha=$(gitsha1 "$literal_tmpfile")
if [ "$patch_newsha1" != "$sha" ]; then
rm "$literal_tmpfile"
abort "Checksum mismatch for patched $patch_newname (expected $patch_newsha1, got $sha)."
fi
# Apply the patch - copy literal patch to destination path
if ! cp "$literal_tmpfile" "$patch_newname"; then
rm "$literal_tmpfile"
abort "Unable to replace $patch_newname with patched file."
fi
rm "$literal_tmpfile"
done
# Check last remaining part for unparsed patches
if sed -n "$lastoffset,\$ p" "$tmpfile" | grep -q '^\(@@ -\|--- \|+++ \)'; then
abort "Patch corrupted or not created with git."
fi
# Delete temp file (if any)
if [ ! -z "$tmpfile" ]; then
rm "$tmpfile"
tmpfile=""
fi
# Success
exit 0