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/*
Copyright (c) 2008-2009 Z RESEARCH, Inc. <http://www.zresearch.com>
This file is part of GlusterFS.
GlusterFS is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3 of the License,
or (at your option) any later version.
GlusterFS 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
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see
<http://www.gnu.org/licenses/>.
*/
#ifndef __AFR_H__
#define __AFR_H__
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
#include "scheduler.h"
#include "call-stub.h"
#include "compat-errno.h"
#define AFR_XATTR_PREFIX "trusted.afr"
typedef struct _afr_private {
gf_lock_t lock; /* to guard access to child_count, etc */
unsigned int child_count; /* total number of children */
unsigned int read_child_rr; /* round-robin index of the read_child */
gf_lock_t read_child_lock; /* lock to protect above */
xlator_t **children;
unsigned char *child_up;
char **pending_key;
gf_boolean_t data_self_heal; /* on/off */
char * data_self_heal_algorithm; /* name of algorithm */
gf_boolean_t metadata_self_heal; /* on/off */
gf_boolean_t entry_self_heal; /* on/off */
gf_boolean_t data_change_log; /* on/off */
gf_boolean_t metadata_change_log; /* on/off */
gf_boolean_t entry_change_log; /* on/off */
int read_child; /* read-subvolume */
unsigned int favorite_child; /* subvolume to be preferred in resolving
split-brain cases */
unsigned int data_lock_server_count;
unsigned int metadata_lock_server_count;
unsigned int entry_lock_server_count;
unsigned int wait_count; /* # of servers to wait for success */
} afr_private_t;
typedef struct {
/* array of stat's, one for each child */
struct stat *buf;
/* array of xattr's, one for each child */
dict_t **xattr;
/* array of errno's, one for each child */
int *child_errno;
int32_t **pending_matrix;
int32_t **delta_matrix;
int *sources;
int source;
int active_source;
int active_sinks;
int *success;
fd_t *healing_fd;
int op_failed;
int file_has_holes;
blksize_t block_size;
off_t file_size;
off_t offset;
loc_t parent_loc;
/* private data for the particular self-heal algorithm */
void *private;
int (*completion_cbk) (call_frame_t *frame, xlator_t *this);
int (*algo_completion_cbk) (call_frame_t *frame, xlator_t *this);
int (*algo_abort_cbk) (call_frame_t *frame, xlator_t *this);
call_frame_t *sh_frame;
} afr_self_heal_t;
typedef enum {
AFR_DATA_TRANSACTION, /* truncate, write, ... */
AFR_METADATA_TRANSACTION, /* chmod, chown, ... */
AFR_ENTRY_TRANSACTION, /* create, rmdir, ... */
AFR_ENTRY_RENAME_TRANSACTION, /* rename */
AFR_FLUSH_TRANSACTION, /* flush */
} afr_transaction_type;
/*
xattr format: trusted.afr.volume = [x y z]
x - data pending
y - metadata pending
z - entry pending
*/
static inline int
afr_index_for_transaction_type (afr_transaction_type type)
{
switch (type) {
case AFR_DATA_TRANSACTION:
case AFR_FLUSH_TRANSACTION:
return 0;
case AFR_METADATA_TRANSACTION:
return 1;
case AFR_ENTRY_TRANSACTION:
case AFR_ENTRY_RENAME_TRANSACTION:
return 2;
}
return -1; /* make gcc happy */
}
typedef struct _afr_local {
unsigned int call_count;
unsigned int success_count;
unsigned int enoent_count;
unsigned int need_metadata_self_heal;
unsigned int need_entry_self_heal;
unsigned int need_data_self_heal;
unsigned int govinda_gOvinda;
unsigned int read_child_index;
unsigned char read_child_returned;
pid_t saved_pid;
int32_t op_ret;
int32_t op_errno;
int32_t **pending;
loc_t loc;
loc_t newloc;
fd_t *fd;
glusterfs_fop_t fop;
unsigned char *child_up;
int child_count;
int32_t *child_errno;
dict_t *xattr_req;
int open_fd_count;
/*
This struct contains the arguments for the "continuation"
(scheme-like) of fops
*/
int op;
struct {
struct {
unsigned char buf_set;
struct statvfs buf;
} statfs;
struct {
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
ino_t ino;
dict_t *xattr;
} lookup;
struct {
int32_t flags;
} open;
struct {
int32_t cmd;
struct flock flock;
unsigned char *locked_nodes;
} lk;
struct {
uint8_t *file_checksum;
uint8_t *dir_checksum;
} checksum;
/* inode read */
struct {
int32_t mask;
int last_tried; /* index of the child we tried previously */
} access;
struct {
int last_tried;
ino_t ino;
} stat;
struct {
int last_tried;
ino_t ino;
} fstat;
struct {
size_t size;
int last_tried;
} readlink;
struct {
const char *name;
int last_tried;
} getxattr;
struct {
ino_t ino;
size_t size;
off_t offset;
int last_tried;
} readv;
/* dir read */
struct {
int success_count;
int32_t op_ret;
int32_t op_errno;
} opendir;
struct {
int32_t op_ret;
int32_t op_errno;
size_t size;
off_t offset;
int last_tried;
} readdir;
struct {
int32_t op_ret;
int32_t op_errno;
size_t size;
off_t offset;
int32_t flag;
int last_tried;
} getdents;
/* inode write */
struct {
ino_t ino;
mode_t mode;
struct stat buf;
struct stat read_child_buf;
} chmod;
struct {
ino_t ino;
mode_t mode;
struct stat buf;
struct stat read_child_buf;
} fchmod;
struct {
ino_t ino;
uid_t uid;
gid_t gid;
struct stat buf;
struct stat read_child_buf;
} chown;
struct {
ino_t ino;
uid_t uid;
gid_t gid;
struct stat buf;
struct stat read_child_buf;
} fchown;
struct {
ino_t ino;
struct stat buf;
struct stat read_child_buf;
int32_t op_ret;
struct iovec *vector;
struct iobref *iobref;
int32_t count;
off_t offset;
} writev;
struct {
ino_t ino;
off_t offset;
struct stat buf;
struct stat read_child_buf;
} truncate;
struct {
ino_t ino;
off_t offset;
struct stat buf;
struct stat read_child_buf;
} ftruncate;
struct {
ino_t ino;
struct timespec tv[2];
struct stat buf;
struct stat read_child_buf;
} utimens;
struct {
dict_t *dict;
int32_t flags;
} setxattr;
struct {
const char *name;
} removexattr;
/* dir write */
struct {
ino_t ino;
fd_t *fd;
int32_t flags;
mode_t mode;
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
} create;
struct {
ino_t ino;
dev_t dev;
mode_t mode;
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
} mknod;
struct {
ino_t ino;
int32_t mode;
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
} mkdir;
struct {
int32_t op_ret;
int32_t op_errno;
} unlink;
struct {
int32_t op_ret;
int32_t op_errno;
} rmdir;
struct {
ino_t ino;
struct stat buf;
struct stat read_child_buf;
} rename;
struct {
ino_t ino;
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
} link;
struct {
ino_t ino;
inode_t *inode;
struct stat buf;
struct stat read_child_buf;
char *linkpath;
} symlink;
struct {
int32_t flags;
dir_entry_t *entries;
int32_t count;
} setdents;
} cont;
struct {
off_t start, len;
unsigned char *locked_nodes;
int lock_count;
const char *basename;
const char *new_basename;
loc_t parent_loc;
loc_t new_parent_loc;
afr_transaction_type type;
int success_count;
int erase_pending;
int failure_count;
int last_tried;
int32_t *child_errno;
call_frame_t *main_frame;
int (*fop) (call_frame_t *frame, xlator_t *this);
int (*done) (call_frame_t *frame, xlator_t *this);
int (*resume) (call_frame_t *frame, xlator_t *this);
int (*unwind) (call_frame_t *frame, xlator_t *this);
} transaction;
afr_self_heal_t self_heal;
} afr_local_t;
typedef struct {
unsigned char pre_op_done;
unsigned char *child_failed;
} afr_fd_ctx_t;
/* try alloc and if it fails, goto label */
#define ALLOC_OR_GOTO(var, type, label) do { \
var = CALLOC (sizeof (type), 1); \
if (!var) { \
gf_log (this->name, GF_LOG_ERROR, \
"out of memory :("); \
op_errno = ENOMEM; \
goto label; \
} \
} while (0);
/* did a call fail due to a child failing? */
#define child_went_down(op_ret, op_errno) (((op_ret) < 0) && \
((op_errno == ENOTCONN) || \
(op_errno == EBADFD)))
#define afr_fop_failed(op_ret, op_errno) ((op_ret) == -1)
/* have we tried all children? */
#define all_tried(i, count) ((i) == (count) - 1)
int
afr_fd_ctx_set (xlator_t *this, fd_t *fd);
uint64_t
afr_read_child (xlator_t *this, inode_t *inode);
void
afr_set_read_child (xlator_t *this, inode_t *inode, int32_t read_child);
void
afr_build_parent_loc (loc_t *parent, loc_t *child);
int
afr_up_children_count (int child_count, unsigned char *child_up);
int
afr_locked_nodes_count (unsigned char *locked_nodes, int child_count);
int
afr_first_up_child (afr_private_t *priv);
ino64_t
afr_itransform (ino64_t ino, int child_count, int child_index);
int
afr_deitransform (ino64_t ino, int child_count);
void
afr_local_cleanup (afr_local_t *local, xlator_t *this);
int
afr_frame_return (call_frame_t *frame);
#define AFR_STACK_UNWIND(frame, params ...) \
do { \
afr_local_t *__local = NULL; \
xlator_t *__this = NULL; \
__local = frame->local; \
__this = frame->this; \
frame->local = NULL; \
STACK_UNWIND (frame, params); \
afr_local_cleanup (__local, __this); \
free (__local); \
} while (0);
#define AFR_STACK_DESTROY(frame) \
do { \
afr_local_t *__local = NULL; \
xlator_t *__this = NULL; \
__local = frame->local; \
__this = frame->this; \
frame->local = NULL; \
STACK_DESTROY (frame->root); \
afr_local_cleanup (__local, __this); \
free (__local); \
} while (0);
/* allocate and return a string that is the basename of argument */
static inline char *
AFR_BASENAME (const char *str)
{
char *__tmp_str = NULL;
char *__basename_str = NULL;
__tmp_str = strdup (str);
__basename_str = strdup (basename (__tmp_str));
FREE (__tmp_str);
return __basename_str;
}
/* initialize local_t */
static inline int
AFR_LOCAL_INIT (afr_local_t *local, afr_private_t *priv)
{
local->child_up = CALLOC (sizeof (*local->child_up),
priv->child_count);
if (!local->child_up) {
return -ENOMEM;
}
memcpy (local->child_up, priv->child_up,
sizeof (*local->child_up) * priv->child_count);
local->call_count = afr_up_children_count (priv->child_count, local->child_up);
if (local->call_count == 0)
return -ENOTCONN;
local->transaction.erase_pending = 1;
local->op_ret = -1;
local->op_errno = EUCLEAN;
return 0;
}
static inline int
afr_transaction_local_init (afr_local_t *local, afr_private_t *priv)
{
int i;
local->child_errno = CALLOC (sizeof (*local->child_errno),
priv->child_count);
if (!local->child_errno) {
return -ENOMEM;
}
local->pending = CALLOC (sizeof (*local->pending),
priv->child_count);
if (!local->pending) {
return -ENOMEM;
}
for (i = 0; i < priv->child_count; i++) {
local->pending[i] = CALLOC (sizeof (*local->pending[i]),
3); /* data + metadata + entry */
if (!local->pending[i])
return -ENOMEM;
}
local->transaction.locked_nodes = CALLOC (sizeof (*local->transaction.locked_nodes),
priv->child_count);
local->transaction.child_errno = CALLOC (sizeof (*local->transaction.child_errno),
priv->child_count);
return 0;
}
#endif /* __AFR_H__ */
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