/usr/include/glusterfs/stack.h is in glusterfs-common 3.7.6-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (c) 2008-2012 Red Hat, Inc. <http://www.redhat.com>
This file is part of GlusterFS.
This file is licensed to you under your choice of the GNU Lesser
General Public License, version 3 or any later version (LGPLv3 or
later), or the GNU General Public License, version 2 (GPLv2), in all
cases as published by the Free Software Foundation.
*/
/*
This file defines MACROS and static inlines used to emulate a function
call over asynchronous communication with remote server
*/
#ifndef _STACK_H
#define _STACK_H
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
struct _call_stack_t;
typedef struct _call_stack_t call_stack_t;
struct _call_frame_t;
typedef struct _call_frame_t call_frame_t;
struct call_pool;
typedef struct call_pool call_pool_t;
#include <sys/time.h>
#include "xlator.h"
#include "dict.h"
#include "list.h"
#include "common-utils.h"
#include "globals.h"
#include "lkowner.h"
#include "client_t.h"
#include "libglusterfs-messages.h"
#define NFS_PID 1
#define LOW_PRIO_PROC_PID -1
typedef int32_t (*ret_fn_t) (call_frame_t *frame,
call_frame_t *prev_frame,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
...);
struct call_pool {
union {
struct list_head all_frames;
struct {
call_stack_t *next_call;
call_stack_t *prev_call;
} all_stacks;
};
int64_t cnt;
gf_lock_t lock;
struct mem_pool *frame_mem_pool;
struct mem_pool *stack_mem_pool;
};
struct _call_frame_t {
call_stack_t *root; /* stack root */
call_frame_t *parent; /* previous BP */
struct list_head frames;
void *local; /* local variables */
xlator_t *this; /* implicit object */
ret_fn_t ret; /* op_return address */
int32_t ref_count;
gf_lock_t lock;
void *cookie; /* unique cookie */
gf_boolean_t complete;
glusterfs_fop_t op;
struct timeval begin; /* when this frame was created */
struct timeval end; /* when this frame completed */
const char *wind_from;
const char *wind_to;
const char *unwind_from;
const char *unwind_to;
};
#define SMALL_GROUP_COUNT 128
struct _call_stack_t {
union {
struct list_head all_frames;
struct {
call_stack_t *next_call;
call_stack_t *prev_call;
};
};
call_pool_t *pool;
gf_lock_t stack_lock;
client_t *client;
uint64_t unique;
void *state; /* pointer to request state */
uid_t uid;
gid_t gid;
pid_t pid;
uint16_t ngrps;
uint32_t groups_small[SMALL_GROUP_COUNT];
uint32_t *groups_large;
uint32_t *groups;
gf_lkowner_t lk_owner;
glusterfs_ctx_t *ctx;
struct list_head myframes; /* List of call_frame_t that go
to make the call stack */
int32_t op;
int8_t type;
struct timeval tv;
};
#define frame_set_uid_gid(frm, u, g) \
do { \
if (frm) { \
(frm)->root->uid = u; \
(frm)->root->gid = g; \
(frm)->root->ngrps = 0; \
} \
} while (0); \
struct xlator_fops;
void
gf_latency_begin (call_frame_t *frame, void *fn);
void
gf_latency_end (call_frame_t *frame);
static inline void
FRAME_DESTROY (call_frame_t *frame)
{
void *local = NULL;
list_del_init (&frame->frames);
if (frame->local) {
local = frame->local;
frame->local = NULL;
}
LOCK_DESTROY (&frame->lock);
mem_put (frame);
if (local)
mem_put (local);
}
static inline void
STACK_DESTROY (call_stack_t *stack)
{
void *local = NULL;
call_frame_t *frame = NULL;
call_frame_t *tmp = NULL;
LOCK (&stack->pool->lock);
{
list_del_init (&stack->all_frames);
stack->pool->cnt--;
}
UNLOCK (&stack->pool->lock);
LOCK_DESTROY (&stack->stack_lock);
list_for_each_entry_safe (frame, tmp, &stack->myframes, frames) {
FRAME_DESTROY (frame);
}
GF_FREE (stack->groups_large);
mem_put (stack);
if (local)
mem_put (local);
}
static inline void
STACK_RESET (call_stack_t *stack)
{
void *local = NULL;
call_frame_t *frame = NULL;
call_frame_t *tmp = NULL;
call_frame_t *last = NULL;
struct list_head toreset = {0};
INIT_LIST_HEAD (&toreset);
/* We acquire call_pool->lock only to remove the frames from this stack
* to preserve atomicity. This synchronizes across concurrent requests
* like statedump, STACK_DESTROY etc. */
LOCK (&stack->pool->lock);
{
last = list_last_entry (&stack->myframes, call_frame_t, frames);
list_del_init (&last->frames);
list_splice_init (&stack->myframes, &toreset);
list_add (&last->frames, &stack->myframes);
}
UNLOCK (&stack->pool->lock);
list_for_each_entry_safe (frame, tmp, &toreset, frames) {
FRAME_DESTROY (frame);
}
if (local)
mem_put (local);
}
#define cbk(x) cbk_##x
#define FRAME_SU_DO(frm, local_type) \
do { \
local_type *__local = (frm)->local; \
__local->uid = frm->root->uid; \
__local->gid = frm->root->gid; \
frm->root->uid = 0; \
frm->root->gid = 0; \
} while (0); \
#define FRAME_SU_UNDO(frm, local_type) \
do { \
local_type *__local = (frm)->local; \
frm->root->uid = __local->uid; \
frm->root->gid = __local->gid; \
} while (0); \
/* make a call */
#define STACK_WIND(frame, rfn, obj, fn, params ...) \
do { \
call_frame_t *_new = NULL; \
xlator_t *old_THIS = NULL; \
\
_new = mem_get0 (frame->root->pool->frame_mem_pool); \
if (!_new) { \
break; \
} \
typeof(fn##_cbk) tmp_cbk = rfn; \
_new->root = frame->root; \
_new->this = obj; \
_new->ret = (ret_fn_t) tmp_cbk; \
_new->parent = frame; \
_new->cookie = _new; \
_new->wind_from = __FUNCTION__; \
_new->wind_to = #fn; \
_new->unwind_to = #rfn; \
\
LOCK_INIT (&_new->lock); \
LOCK(&frame->root->stack_lock); \
{ \
list_add (&_new->frames, &frame->root->myframes);\
frame->ref_count++; \
} \
UNLOCK(&frame->root->stack_lock); \
old_THIS = THIS; \
THIS = obj; \
if (frame->this->ctx->measure_latency) \
gf_latency_begin (_new, fn); \
fn (_new, obj, params); \
THIS = old_THIS; \
} while (0)
/* make a call without switching frames */
#define STACK_WIND_TAIL(frame, obj, fn, params ...) \
do { \
xlator_t *old_THIS = NULL; \
\
frame->this = obj; \
frame->wind_to = #fn; \
old_THIS = THIS; \
THIS = obj; \
fn (frame, obj, params); \
THIS = old_THIS; \
} while (0)
/* make a call with a cookie */
#define STACK_WIND_COOKIE(frame, rfn, cky, obj, fn, params ...) \
do { \
call_frame_t *_new = NULL; \
xlator_t *old_THIS = NULL; \
\
_new = mem_get0 (frame->root->pool->frame_mem_pool); \
if (!_new) { \
break; \
} \
typeof(fn##_cbk) tmp_cbk = rfn; \
_new->root = frame->root; \
_new->this = obj; \
_new->ret = (ret_fn_t) tmp_cbk; \
_new->parent = frame; \
_new->cookie = cky; \
_new->wind_from = __FUNCTION__; \
_new->wind_to = #fn; \
_new->unwind_to = #rfn; \
LOCK_INIT (&_new->lock); \
LOCK(&frame->root->stack_lock); \
{ \
list_add (&_new->frames, &frame->root->myframes);\
frame->ref_count++; \
} \
UNLOCK(&frame->root->stack_lock); \
fn##_cbk = rfn; \
old_THIS = THIS; \
THIS = obj; \
if (obj->ctx->measure_latency) \
gf_latency_begin (_new, fn); \
fn (_new, obj, params); \
THIS = old_THIS; \
} while (0)
/* return from function */
#define STACK_UNWIND(frame, params ...) \
do { \
ret_fn_t fn = NULL; \
call_frame_t *_parent = NULL; \
xlator_t *old_THIS = NULL; \
if (!frame) { \
gf_msg ("stack", GF_LOG_CRITICAL, 0, \
LG_MSG_FRAME_ERROR, "!frame"); \
break; \
} \
fn = frame->ret; \
_parent = frame->parent; \
LOCK(&frame->root->stack_lock); \
{ \
_parent->ref_count--; \
} \
UNLOCK(&frame->root->stack_lock); \
old_THIS = THIS; \
THIS = _parent->this; \
frame->complete = _gf_true; \
frame->unwind_from = __FUNCTION__; \
if (frame->this->ctx->measure_latency) \
gf_latency_end (frame); \
fn (_parent, frame->cookie, _parent->this, params); \
THIS = old_THIS; \
} while (0)
/* return from function in type-safe way */
#define STACK_UNWIND_STRICT(op, frame, params ...) \
do { \
fop_##op##_cbk_t fn = NULL; \
call_frame_t *_parent = NULL; \
xlator_t *old_THIS = NULL; \
\
if (!frame) { \
gf_msg ("stack", GF_LOG_CRITICAL, 0, \
LG_MSG_FRAME_ERROR, "!frame"); \
break; \
} \
fn = (fop_##op##_cbk_t )frame->ret; \
_parent = frame->parent; \
LOCK(&frame->root->stack_lock); \
{ \
_parent->ref_count--; \
} \
UNLOCK(&frame->root->stack_lock); \
old_THIS = THIS; \
THIS = _parent->this; \
frame->complete = _gf_true; \
frame->unwind_from = __FUNCTION__; \
if (frame->this->ctx->measure_latency) \
gf_latency_end (frame); \
fn (_parent, frame->cookie, _parent->this, params); \
THIS = old_THIS; \
} while (0)
static inline int
call_stack_alloc_groups (call_stack_t *stack, int ngrps)
{
if (ngrps <= SMALL_GROUP_COUNT) {
stack->groups = stack->groups_small;
} else {
stack->groups_large = GF_CALLOC (sizeof (gid_t), ngrps,
gf_common_mt_groups_t);
if (!stack->groups_large)
return -1;
stack->groups = stack->groups_large;
}
stack->ngrps = ngrps;
return 0;
}
static inline
int call_frames_count (call_stack_t *call_stack)
{
call_frame_t *pos;
int32_t count = 0;
if (!call_stack)
return count;
list_for_each_entry (pos, &call_stack->myframes, frames)
count++;
return count;
}
static inline call_frame_t *
copy_frame (call_frame_t *frame)
{
call_stack_t *newstack = NULL;
call_stack_t *oldstack = NULL;
call_frame_t *newframe = NULL;
if (!frame) {
return NULL;
}
newstack = mem_get0 (frame->root->pool->stack_mem_pool);
if (newstack == NULL) {
return NULL;
}
INIT_LIST_HEAD (&newstack->myframes);
newframe = mem_get0 (frame->root->pool->frame_mem_pool);
if (!newframe) {
mem_put (newstack);
return NULL;
}
newframe->this = frame->this;
newframe->root = newstack;
INIT_LIST_HEAD (&newframe->frames);
list_add (&newframe->frames, &newstack->myframes);
oldstack = frame->root;
newstack->uid = oldstack->uid;
newstack->gid = oldstack->gid;
newstack->pid = oldstack->pid;
newstack->ngrps = oldstack->ngrps;
newstack->op = oldstack->op;
newstack->type = oldstack->type;
if (call_stack_alloc_groups (newstack, oldstack->ngrps) != 0) {
mem_put (newstack);
return NULL;
}
memcpy (newstack->groups, oldstack->groups,
sizeof (gid_t) * oldstack->ngrps);
newstack->unique = oldstack->unique;
newstack->pool = oldstack->pool;
newstack->lk_owner = oldstack->lk_owner;
newstack->ctx = oldstack->ctx;
if (newstack->ctx->measure_latency) {
if (gettimeofday (&newstack->tv, NULL) == -1)
gf_msg ("stack", GF_LOG_ERROR, errno,
LG_MSG_GETTIMEOFDAY_FAILED,
"gettimeofday () failed.");
memcpy (&newframe->begin, &newstack->tv,
sizeof (newstack->tv));
}
LOCK_INIT (&newframe->lock);
LOCK_INIT (&newstack->stack_lock);
LOCK (&oldstack->pool->lock);
{
list_add (&newstack->all_frames, &oldstack->all_frames);
newstack->pool->cnt++;
}
UNLOCK (&oldstack->pool->lock);
return newframe;
}
void gf_proc_dump_pending_frames(call_pool_t *call_pool);
void gf_proc_dump_pending_frames_to_dict (call_pool_t *call_pool,
dict_t *dict);
call_frame_t *create_frame (xlator_t *xl, call_pool_t *pool);
gf_boolean_t __is_fuse_call (call_frame_t *frame);
#endif /* _STACK_H */
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