2 Unix SMB/CIFS implementation.
3 Implement a stack of talloc contexts
4 Copyright (C) Volker Lendecke 2007
5 Copyright (C) Jeremy Allison 2009 - made thread safe.
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2 of the License, or
10 (at your option) any later version.
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with this program; if not, write to the Free Software
19 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
23 * Implement a stack of talloc frames.
25 * When a new talloc stackframe is allocated with talloc_stackframe(), then
26 * the TALLOC_CTX returned with talloc_tos() is reset to that new
27 * frame. Whenever that stack frame is TALLOC_FREE()'ed, then the reverse
28 * happens: The previous talloc_tos() is restored.
30 * This API is designed to be robust in the sense that if someone forgets to
31 * TALLOC_FREE() a stackframe, then the next outer one correctly cleans up and
32 * resets the talloc_tos().
34 * This robustness feature means that we can't rely on a linked list with
35 * talloc destructors because in a hierarchy of talloc destructors the parent
36 * destructor is called before its children destructors. The child destructor
37 * called after the parent would set the talloc_tos() to the wrong value.
42 struct talloc_stackframe
{
44 int talloc_stack_arraysize
;
45 TALLOC_CTX
**talloc_stack
;
49 * In the single threaded case this is a pointer
50 * to the global talloc_stackframe. In the MT-case
51 * this is the pointer to the thread-specific key
52 * used to look up the per-thread talloc_stackframe
56 static void *global_ts
;
58 /* Variable to ensure TLS value is only initialized once. */
59 static smb_thread_once_t ts_initialized
= SMB_THREAD_ONCE_INIT
;
61 static void talloc_stackframe_init(void * unused
)
63 if (SMB_THREAD_CREATE_TLS("talloc_stackframe", global_ts
)) {
64 smb_panic("talloc_stackframe_init create_tls failed");
68 static struct talloc_stackframe
*talloc_stackframe_create(void)
70 #if defined(PARANOID_MALLOC_CHECKER)
75 struct talloc_stackframe
*ts
= (struct talloc_stackframe
*)calloc(
76 1, sizeof(struct talloc_stackframe
));
77 #if defined(PARANOID_MALLOC_CHECKER)
78 #define calloc(n, s) __ERROR_DONT_USE_MALLOC_DIRECTLY
82 smb_panic("talloc_stackframe_init malloc failed");
85 SMB_THREAD_ONCE(&ts_initialized
, talloc_stackframe_init
, NULL
);
87 if (SMB_THREAD_SET_TLS(global_ts
, ts
)) {
88 smb_panic("talloc_stackframe_init set_tls failed");
93 static int talloc_pop(TALLOC_CTX
*frame
)
95 struct talloc_stackframe
*ts
=
96 (struct talloc_stackframe
*)SMB_THREAD_GET_TLS(global_ts
);
99 /* Catch lazy frame-freeing. */
100 if (ts
->talloc_stack
[ts
->talloc_stacksize
-1] != frame
) {
101 DEBUG(0, ("Freed frame %s, expected %s.\n",
102 talloc_get_name(frame
),
103 talloc_get_name(ts
->talloc_stack
104 [ts
->talloc_stacksize
-1])));
106 smb_panic("Frame not freed in order.");
110 for (i
=ts
->talloc_stacksize
-1; i
>0; i
--) {
111 if (frame
== ts
->talloc_stack
[i
]) {
114 TALLOC_FREE(ts
->talloc_stack
[i
]);
117 ts
->talloc_stack
[i
] = NULL
;
118 ts
->talloc_stacksize
= i
;
123 * Create a new talloc stack frame.
125 * When free'd, it frees all stack frames that were created after this one and
126 * not explicitly freed.
129 static TALLOC_CTX
*talloc_stackframe_internal(const char *location
,
132 TALLOC_CTX
**tmp
, *top
;
133 struct talloc_stackframe
*ts
=
134 (struct talloc_stackframe
*)SMB_THREAD_GET_TLS(global_ts
);
137 ts
= talloc_stackframe_create();
140 if (ts
->talloc_stack_arraysize
< ts
->talloc_stacksize
+ 1) {
141 tmp
= talloc_realloc(NULL
, ts
->talloc_stack
, TALLOC_CTX
*,
142 ts
->talloc_stacksize
+ 1);
146 ts
->talloc_stack
= tmp
;
147 ts
->talloc_stack_arraysize
= ts
->talloc_stacksize
+ 1;
151 top
= talloc_pool(ts
->talloc_stack
, poolsize
);
154 /* We chain parentage, so if one is a pool we draw from it. */
155 if (ts
->talloc_stacksize
== 0) {
156 parent
= ts
->talloc_stack
;
158 parent
= ts
->talloc_stack
[ts
->talloc_stacksize
-1];
160 top
= talloc_new(parent
);
166 talloc_set_name_const(top
, location
);
167 talloc_set_destructor(top
, talloc_pop
);
169 ts
->talloc_stack
[ts
->talloc_stacksize
++] = top
;
173 smb_panic("talloc_stackframe failed");
177 TALLOC_CTX
*_talloc_stackframe(const char *location
)
179 return talloc_stackframe_internal(location
, 0);
182 TALLOC_CTX
*_talloc_stackframe_pool(const char *location
, size_t poolsize
)
184 return talloc_stackframe_internal(location
, poolsize
);
188 * Get us the current top of the talloc stack.
191 TALLOC_CTX
*_talloc_tos(const char *location
)
193 struct talloc_stackframe
*ts
=
194 (struct talloc_stackframe
*)SMB_THREAD_GET_TLS(global_ts
);
196 if (ts
== NULL
|| ts
->talloc_stacksize
== 0) {
197 _talloc_stackframe(location
);
198 ts
= (struct talloc_stackframe
*)SMB_THREAD_GET_TLS(global_ts
);
199 DEBUG(0, ("no talloc stackframe at %s, leaking memory\n",
202 smb_panic("No talloc stackframe");
206 return ts
->talloc_stack
[ts
->talloc_stacksize
-1];
210 * return true if a talloc stackframe exists
211 * this can be used to prevent memory leaks for code that can
212 * optionally use a talloc stackframe (eg. nt_errstr())
215 bool talloc_stackframe_exists(void)
217 struct talloc_stackframe
*ts
=
218 (struct talloc_stackframe
*)SMB_THREAD_GET_TLS(global_ts
);
220 if (ts
== NULL
|| ts
->talloc_stacksize
== 0) {