mingw: always chmod(, 0666) before unlink()
[git/mingw/4msysgit.git] / git-applypatch.sh
blob8df2aee4c2d031ac10c66af0a079bd022c281c0d
1 #!/bin/sh
2 ##
3 ## applypatch takes four file arguments, and uses those to
4 ## apply the unpacked patch (surprise surprise) that they
5 ## represent to the current tree.
6 ##
7 ## The arguments are:
8 ## $1 - file with commit message
9 ## $2 - file with the actual patch
10 ## $3 - "info" file with Author, email and subject
11 ## $4 - optional file containing signoff to add
14 USAGE='<msg> <patch> <info> [<signoff>]'
15 . git-sh-setup
17 case "$#" in 3|4) ;; *) usage ;; esac
19 final=.dotest/final-commit
21 ## If this file exists, we ask before applying
23 query_apply=.dotest/.query_apply
25 ## We do not munge the first line of the commit message too much
26 ## if this file exists.
27 keep_subject=.dotest/.keep_subject
29 ## We do not attempt the 3-way merge fallback unless this file exists.
30 fall_back_3way=.dotest/.3way
32 MSGFILE=$1
33 PATCHFILE=$2
34 INFO=$3
35 SIGNOFF=$4
36 EDIT=${VISUAL:-${EDITOR:-vi}}
38 export GIT_AUTHOR_NAME="$(sed -n '/^Author/ s/Author: //p' "$INFO")"
39 export GIT_AUTHOR_EMAIL="$(sed -n '/^Email/ s/Email: //p' "$INFO")"
40 export GIT_AUTHOR_DATE="$(sed -n '/^Date/ s/Date: //p' "$INFO")"
41 export SUBJECT="$(sed -n '/^Subject/ s/Subject: //p' "$INFO")"
43 if test '' != "$SIGNOFF"
44 then
45 if test -f "$SIGNOFF"
46 then
47 SIGNOFF=`cat "$SIGNOFF"` || exit
48 elif case "$SIGNOFF" in yes | true | me | please) : ;; *) false ;; esac
49 then
50 SIGNOFF=`git-var GIT_COMMITTER_IDENT | sed -e '
51 s/>.*/>/
52 s/^/Signed-off-by: /'
54 else
55 SIGNOFF=
57 if test '' != "$SIGNOFF"
58 then
59 LAST_SIGNED_OFF_BY=`
60 sed -ne '/^Signed-off-by: /p' "$MSGFILE" |
61 tail -n 1
63 test "$LAST_SIGNED_OFF_BY" = "$SIGNOFF" || {
64 test '' = "$LAST_SIGNED_OFF_BY" && echo
65 echo "$SIGNOFF"
66 } >>"$MSGFILE"
70 patch_header=
71 test -f "$keep_subject" || patch_header='[PATCH] '
74 echo "$patch_header$SUBJECT"
75 if test -s "$MSGFILE"
76 then
77 echo
78 cat "$MSGFILE"
80 } >"$final"
82 interactive=yes
83 test -f "$query_apply" || interactive=no
85 while [ "$interactive" = yes ]; do
86 echo "Commit Body is:"
87 echo "--------------------------"
88 cat "$final"
89 echo "--------------------------"
90 printf "Apply? [y]es/[n]o/[e]dit/[a]ccept all "
91 read reply
92 case "$reply" in
93 y|Y) interactive=no;;
94 n|N) exit 2;; # special value to tell dotest to keep going
95 e|E) "$EDIT" "$final";;
96 a|A) rm -f "$query_apply"
97 interactive=no ;;
98 esac
99 done
101 if test -x "$GIT_DIR"/hooks/applypatch-msg
102 then
103 "$GIT_DIR"/hooks/applypatch-msg "$final" || exit
106 echo
107 echo Applying "'$SUBJECT'"
108 echo
110 git-apply --index "$PATCHFILE" || {
112 # git-apply exits with status 1 when the patch does not apply,
113 # but it die()s with other failures, most notably upon corrupt
114 # patch. In the latter case, there is no point to try applying
115 # it to another tree and do 3-way merge.
116 test $? = 1 || exit 1
118 test -f "$fall_back_3way" || exit 1
120 # Here if we know which revision the patch applies to,
121 # we create a temporary working tree and index, apply the
122 # patch, and attempt 3-way merge with the resulting tree.
124 O_OBJECT=`cd "$GIT_OBJECT_DIRECTORY" && pwd`
125 rm -fr .patch-merge-*
127 if git-apply -z --index-info "$PATCHFILE" \
128 >.patch-merge-index-info 2>/dev/null &&
129 GIT_INDEX_FILE=.patch-merge-tmp-index \
130 git-update-index -z --index-info <.patch-merge-index-info &&
131 GIT_INDEX_FILE=.patch-merge-tmp-index \
132 git-write-tree >.patch-merge-tmp-base &&
134 mkdir .patch-merge-tmp-dir &&
135 cd .patch-merge-tmp-dir &&
136 GIT_INDEX_FILE="../.patch-merge-tmp-index" \
137 GIT_OBJECT_DIRECTORY="$O_OBJECT" \
138 git-apply $binary --index
139 ) <"$PATCHFILE"
140 then
141 echo Using index info to reconstruct a base tree...
142 mv .patch-merge-tmp-base .patch-merge-base
143 mv .patch-merge-tmp-index .patch-merge-index
144 else
146 N=10
148 # Otherwise, try nearby trees that can be used to apply the
149 # patch.
150 git-rev-list --max-count=$N HEAD
152 # or hoping the patch is against known tags...
153 git-ls-remote --tags .
155 while read base junk
157 # Try it if we have it as a tree.
158 git-cat-file tree "$base" >/dev/null 2>&1 || continue
160 rm -fr .patch-merge-tmp-* &&
161 mkdir .patch-merge-tmp-dir || break
163 cd .patch-merge-tmp-dir &&
164 GIT_INDEX_FILE=../.patch-merge-tmp-index &&
165 GIT_OBJECT_DIRECTORY="$O_OBJECT" &&
166 export GIT_INDEX_FILE GIT_OBJECT_DIRECTORY &&
167 git-read-tree "$base" &&
168 git-apply --index &&
169 mv ../.patch-merge-tmp-index ../.patch-merge-index &&
170 echo "$base" >../.patch-merge-base
171 ) <"$PATCHFILE" 2>/dev/null && break
172 done
175 test -f .patch-merge-index &&
176 his_tree=$(GIT_INDEX_FILE=.patch-merge-index git-write-tree) &&
177 orig_tree=$(cat .patch-merge-base) &&
178 rm -fr .patch-merge-* || exit 1
180 echo Falling back to patching base and 3-way merge using $orig_tree...
182 # This is not so wrong. Depending on which base we picked,
183 # orig_tree may be wildly different from ours, but his_tree
184 # has the same set of wildly different changes in parts the
185 # patch did not touch, so resolve ends up canceling them,
186 # saying that we reverted all those changes.
188 if git-merge-resolve $orig_tree -- HEAD $his_tree
189 then
190 echo Done.
191 else
192 echo Failed to merge in the changes.
193 exit 1
197 if test -x "$GIT_DIR"/hooks/pre-applypatch
198 then
199 "$GIT_DIR"/hooks/pre-applypatch || exit
202 tree=$(git-write-tree) || exit 1
203 echo Wrote tree $tree
204 parent=$(git-rev-parse --verify HEAD) &&
205 commit=$(git-commit-tree $tree -p $parent <"$final") || exit 1
206 echo Committed: $commit
207 git-update-ref -m "applypatch: $SUBJECT" HEAD $commit $parent || exit
209 if test -x "$GIT_DIR"/hooks/post-applypatch
210 then
211 "$GIT_DIR"/hooks/post-applypatch