6 const char *tree_type
= "tree";
8 static int read_one_entry(unsigned char *sha1
, const char *base
, int baselen
, const char *pathname
, unsigned mode
, int stage
)
10 int len
= strlen(pathname
);
11 unsigned int size
= cache_entry_size(baselen
+ len
);
12 struct cache_entry
*ce
= xmalloc(size
);
16 ce
->ce_mode
= create_ce_mode(mode
);
17 ce
->ce_flags
= create_ce_flags(baselen
+ len
, stage
);
18 memcpy(ce
->name
, base
, baselen
);
19 memcpy(ce
->name
+ baselen
, pathname
, len
+1);
20 memcpy(ce
->sha1
, sha1
, 20);
21 return add_cache_entry(ce
, ADD_CACHE_OK_TO_ADD
);
24 static int read_tree_recursive(void *buffer
, unsigned long size
,
25 const char *base
, int baselen
, int stage
)
28 int len
= strlen(buffer
)+1;
29 unsigned char *sha1
= buffer
+ len
;
30 char *path
= strchr(buffer
, ' ')+1;
33 if (size
< len
+ 20 || sscanf(buffer
, "%o", &mode
) != 1)
41 int pathlen
= strlen(path
);
45 unsigned long eltsize
;
47 eltbuf
= read_sha1_file(sha1
, elttype
, &eltsize
);
48 if (!eltbuf
|| strcmp(elttype
, "tree")) {
49 if (eltbuf
) free(eltbuf
);
52 newbase
= xmalloc(baselen
+ 1 + pathlen
);
53 memcpy(newbase
, base
, baselen
);
54 memcpy(newbase
+ baselen
, path
, pathlen
);
55 newbase
[baselen
+ pathlen
] = '/';
56 retval
= read_tree_recursive(eltbuf
, eltsize
,
58 baselen
+ pathlen
+ 1, stage
);
65 if (read_one_entry(sha1
, base
, baselen
, path
, mode
, stage
) < 0)
71 int read_tree(void *buffer
, unsigned long size
, int stage
)
73 return read_tree_recursive(buffer
, size
, "", 0, stage
);
76 struct tree
*lookup_tree(unsigned char *sha1
)
78 struct object
*obj
= lookup_object(sha1
);
80 struct tree
*ret
= xmalloc(sizeof(struct tree
));
81 memset(ret
, 0, sizeof(struct tree
));
82 created_object(sha1
, &ret
->object
);
83 ret
->object
.type
= tree_type
;
87 obj
->type
= tree_type
;
88 if (obj
->type
!= tree_type
) {
89 error("Object %s is a %s, not a tree",
90 sha1_to_hex(sha1
), obj
->type
);
93 return (struct tree
*) obj
;
96 int parse_tree_buffer(struct tree
*item
, void *buffer
, unsigned long size
)
98 void *bufptr
= buffer
;
99 struct tree_entry_list
**list_p
;
101 if (item
->object
.parsed
)
103 item
->object
.parsed
= 1;
104 list_p
= &item
->entries
;
107 struct tree_entry_list
*entry
;
108 int len
= 1+strlen(bufptr
);
109 unsigned char *file_sha1
= bufptr
+ len
;
110 char *path
= strchr(bufptr
, ' ');
112 if (size
< len
+ 20 || !path
||
113 sscanf(bufptr
, "%o", &mode
) != 1)
116 entry
= xmalloc(sizeof(struct tree_entry_list
));
117 entry
->name
= strdup(path
+ 1);
118 entry
->directory
= S_ISDIR(mode
) != 0;
119 entry
->executable
= (mode
& S_IXUSR
) != 0;
120 entry
->symlink
= S_ISLNK(mode
) != 0;
127 if (entry
->directory
) {
128 entry
->item
.tree
= lookup_tree(file_sha1
);
129 obj
= &entry
->item
.tree
->object
;
131 entry
->item
.blob
= lookup_blob(file_sha1
);
132 obj
= &entry
->item
.blob
->object
;
135 add_ref(&item
->object
, obj
);
136 entry
->parent
= NULL
; /* needs to be filled by the user */
138 list_p
= &entry
->next
;
143 int parse_tree(struct tree
*item
)
150 if (item
->object
.parsed
)
152 buffer
= read_sha1_file(item
->object
.sha1
, type
, &size
);
154 return error("Could not read %s",
155 sha1_to_hex(item
->object
.sha1
));
156 if (strcmp(type
, tree_type
)) {
158 return error("Object %s not a tree",
159 sha1_to_hex(item
->object
.sha1
));
161 ret
= parse_tree_buffer(item
, buffer
, size
);