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|
/*
Copyright (c) 2008-2013 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.
*/
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
#include "defaults.h"
#include "crypt-common.h"
#include "crypt.h"
/*
* Glossary
*
*
* cblock (or cipher block). A logical unit in a file.
* cblock size is defined as the number of bits
* in an input (or output) block of the block
* cipher (*). Cipher block size is a property of
* cipher algorithm. E.g. cblock size is 64 bits
* for DES, 128 bits for AES, etc.
*
* atomic cipher A cipher algorithm, which requires some chunks of
* algorithm text to be padded at left and(or) right sides before
* cipher transaform.
*
*
* block (atom) Minimal chunk of file's data, which doesn't require
* padding. We'll consider logical units in a file of
* block size (atom size).
*
* cipher algorithm Atomic cipher algorithm, which requires the last
* with EOF issue incomplete cblock in a file to be padded with some
* data (usually zeros).
*
*
* operation, which reading/writing from offset, which is not aligned to
* forms a gap at to atom size
* the beginning
*
*
* operation, which reading/writing count bytes starting from offset off,
* forms a gap at so that off+count is not aligned to atom_size
* the end
*
* head block the first atom affected by an operation, which forms
* a gap at the beginning, or(and) at the end.
* Сomment. Head block has at least one gap (either at
* the beginning, or at the end)
*
*
* tail block the last atom different from head, affected by an
* operation, which forms a gap at the end.
* Сomment: Tail block has exactly one gap (at the end).
*
*
* partial block head or tail block
*
*
* full block block without gaps.
*
*
* (*) Recommendation for Block Cipher Modes of Operation
* Methods and Techniques
* NIST Special Publication 800-38A Edition 2001
*/
/*
* atom->offset_at()
*/
static off_t offset_at_head(struct avec_config *conf)
{
return conf->aligned_offset;
}
static off_t offset_at_hole_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_head(get_hole_conf(frame));
}
static off_t offset_at_data_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_head(get_data_conf(frame));
}
static off_t offset_at_tail(struct avec_config *conf,
struct object_cipher_info *object)
{
return conf->aligned_offset +
(conf->off_in_head ? get_atom_size(object) : 0) +
(conf->nr_full_blocks << get_atom_bits(object));
}
static off_t offset_at_hole_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_tail(get_hole_conf(frame), object);
}
static off_t offset_at_data_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_tail(get_data_conf(frame), object);
}
static off_t offset_at_full(struct avec_config *conf,
struct object_cipher_info *object)
{
return conf->aligned_offset +
(conf->off_in_head ? get_atom_size(object) : 0);
}
static off_t offset_at_data_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_full(get_data_conf(frame), object);
}
static off_t offset_at_hole_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_at_full(get_hole_conf(frame), object);
}
/*
* atom->io_size_nopad()
*/
static uint32_t io_size_nopad_head(struct avec_config *conf,
struct object_cipher_info *object)
{
uint32_t gap_at_beg;
uint32_t gap_at_end;
check_head_block(conf);
gap_at_beg = conf->off_in_head;
if (has_tail_block(conf) || has_full_blocks(conf) || conf->off_in_tail == 0 )
gap_at_end = 0;
else
gap_at_end = get_atom_size(object) - conf->off_in_tail;
return get_atom_size(object) - (gap_at_beg + gap_at_end);
}
static uint32_t io_size_nopad_tail(struct avec_config *conf,
struct object_cipher_info *object)
{
check_tail_block(conf);
return conf->off_in_tail;
}
static uint32_t io_size_nopad_full(struct avec_config *conf,
struct object_cipher_info *object)
{
check_full_block(conf);
return get_atom_size(object);
}
static uint32_t io_size_nopad_data_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_head(get_data_conf(frame), object);
}
static uint32_t io_size_nopad_hole_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_head(get_hole_conf(frame), object);
}
static uint32_t io_size_nopad_data_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_tail(get_data_conf(frame), object);
}
static uint32_t io_size_nopad_hole_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_tail(get_hole_conf(frame), object);
}
static uint32_t io_size_nopad_data_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_full(get_data_conf(frame), object);
}
static uint32_t io_size_nopad_hole_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return io_size_nopad_full(get_hole_conf(frame), object);
}
static uint32_t offset_in_head(struct avec_config *conf)
{
check_cursor_head(conf);
return conf->off_in_head;
}
static uint32_t offset_in_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return 0;
}
static uint32_t offset_in_full(struct avec_config *conf,
struct object_cipher_info *object)
{
check_cursor_full(conf);
if (has_head_block(conf))
return (conf->cursor - 1) << get_atom_bits(object);
else
return conf->cursor << get_atom_bits(object);
}
static uint32_t offset_in_data_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_in_head(get_data_conf(frame));
}
static uint32_t offset_in_hole_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_in_head(get_hole_conf(frame));
}
static uint32_t offset_in_data_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_in_full(get_data_conf(frame), object);
}
static uint32_t offset_in_hole_full(call_frame_t *frame,
struct object_cipher_info *object)
{
return offset_in_full(get_hole_conf(frame), object);
}
/*
* atom->rmw()
*/
/*
* Pre-conditions:
* @vec contains plain text of the latest
* version.
*
* Uptodate gaps of the @partial block with
* this plain text, encrypt the whole block
* and write the result to disk.
*/
static int32_t rmw_partial_block(call_frame_t *frame,
void *cookie,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
struct iovec *vec,
int32_t count,
struct iatt *stbuf,
struct iobref *iobref,
struct rmw_atom *atom)
{
size_t was_read = 0;
uint64_t file_size;
crypt_local_t *local = frame->local;
struct object_cipher_info *object = &local->info->cinfo;
struct iovec *partial = atom->get_iovec(frame, 0);
struct avec_config *conf = atom->get_config(frame);
end_writeback_handler_t end_writeback_partial_block;
#if DEBUG_CRYPT
gf_boolean_t check_last_cblock = _gf_false;
#endif
local->op_ret = op_ret;
local->op_errno = op_errno;
if (op_ret < 0)
goto exit;
file_size = local->cur_file_size;
was_read = op_ret;
if (atom->locality == HEAD_ATOM && conf->off_in_head) {
/*
* head atom with a non-uptodate gap
* at the beginning
*
* fill the gap with plain text of the
* latest version. Convert a part of hole
* (if any) to zeros.
*/
int32_t i;
int32_t copied = 0;
int32_t to_gap; /* amount of data needed to uptodate
the gap at the beginning */
#if 0
int32_t hole = 0; /* The part of the hole which
* got in the head block */
#endif /* 0 */
to_gap = conf->off_in_head;
if (was_read < to_gap) {
if (file_size >
offset_at_head(conf) + was_read) {
/*
* It is impossible to uptodate
* head block: too few bytes have
* been read from disk, so that
* partial write is impossible.
*
* It could happen because of many
* reasons: IO errors, (meta)data
* corruption in the local file system,
* etc.
*/
gf_log(this->name, GF_LOG_WARNING,
"Can not uptodate a gap at the beginning");
local->op_ret = -1;
local->op_errno = EIO;
goto exit;
}
#if 0
hole = to_gap - was_read;
#endif /* 0 */
to_gap = was_read;
}
/*
* uptodate the gap at the beginning
*/
for (i = 0; i < count && copied < to_gap; i++) {
int32_t to_copy;
to_copy = vec[i].iov_len;
if (to_copy > to_gap - copied)
to_copy = to_gap - copied;
memcpy(partial->iov_base, vec[i].iov_base, to_copy);
copied += to_copy;
}
#if 0
/*
* If possible, convert part of the
* hole, which got in the head block
*/
ret = TRY_LOCK(&local->hole_lock);
if (!ret) {
if (local->hole_handled)
/*
* already converted by
* crypt_writev_cbk()
*/
UNLOCK(&local->hole_lock);
else {
/*
* convert the part of the hole
* which got in the head block
* to zeros.
*
* Update the orig_offset to make
* sure writev_cbk() won't care
* about this part of the hole.
*
*/
memset(partial->iov_base + to_gap, 0, hole);
conf->orig_offset -= hole;
conf->orig_size += hole;
UNLOCK(&local->hole_lock);
}
}
else /*
* conversion is being performed
* by crypt_writev_cbk()
*/
;
#endif /* 0 */
}
if (atom->locality == TAIL_ATOM ||
(!has_tail_block(conf) && conf->off_in_tail)) {
/*
* tail atom, or head atom with a non-uptodate
* gap at the end.
*
* fill the gap at the end of the block
* with plain text of the latest version.
* Pad the result, (if needed)
*/
int32_t i;
int32_t to_gap;
int copied;
off_t off_in_tail;
int32_t to_copy;
off_in_tail = conf->off_in_tail;
to_gap = conf->gap_in_tail;
if (to_gap && was_read < off_in_tail + to_gap) {
/*
* It is impossible to uptodate
* the gap at the end: too few bytes
* have been read from disk, so that
* partial write is impossible.
*
* It could happen because of many
* reasons: IO errors, (meta)data
* corruption in the local file system,
* etc.
*/
gf_log(this->name, GF_LOG_WARNING,
"Can not uptodate a gap at the end");
local->op_ret = -1;
local->op_errno = EIO;
goto exit;
}
/*
* uptodate the gap at the end
*/
copied = 0;
to_copy = to_gap;
for(i = count - 1; i >= 0 && to_copy > 0; i--) {
uint32_t from_vec, off_in_vec;
off_in_vec = 0;
from_vec = vec[i].iov_len;
if (from_vec > to_copy) {
off_in_vec = from_vec - to_copy;
from_vec = to_copy;
}
memcpy(partial->iov_base +
off_in_tail + to_gap - copied - from_vec,
vec[i].iov_base + off_in_vec,
from_vec);
gf_log(this->name, GF_LOG_DEBUG,
"uptodate %d bytes at tail. Offset at target(source): %d(%d)",
(int)from_vec,
(int)off_in_tail + to_gap - copied - from_vec,
(int)off_in_vec);
copied += from_vec;
to_copy -= from_vec;
}
partial->iov_len = off_in_tail + to_gap;
if (object_alg_should_pad(object)) {
int32_t resid = 0;
resid = partial->iov_len & (object_alg_blksize(object) - 1);
if (resid) {
/*
* append a new EOF padding
*/
local->eof_padding_size =
object_alg_blksize(object) - resid;
gf_log(this->name, GF_LOG_DEBUG,
"set padding size %d",
local->eof_padding_size);
memset(partial->iov_base + partial->iov_len,
1,
local->eof_padding_size);
partial->iov_len += local->eof_padding_size;
#if DEBUG_CRYPT
gf_log(this->name, GF_LOG_DEBUG,
"pad cblock with %d zeros:",
local->eof_padding_size);
dump_cblock(this,
(unsigned char *)partial->iov_base +
partial->iov_len - object_alg_blksize(object));
check_last_cblock = _gf_true;
#endif
}
}
}
/*
* encrypt the whole block
*/
encrypt_aligned_iov(object,
partial,
1,
atom->offset_at(frame, object));
#if DEBUG_CRYPT
if (check_last_cblock == _gf_true) {
gf_log(this->name, GF_LOG_DEBUG,
"encrypt last cblock with offset %llu",
(unsigned long long)atom->offset_at(frame, object));
dump_cblock(this, (unsigned char *)partial->iov_base +
partial->iov_len - object_alg_blksize(object));
}
#endif
set_local_io_params_writev(frame, object, atom,
atom->offset_at(frame, object),
iovec_get_size(partial, 1));
/*
* write the whole block to disk
*/
end_writeback_partial_block = dispatch_end_writeback(local->fop);
conf->cursor ++;
STACK_WIND(frame,
end_writeback_partial_block,
FIRST_CHILD(this),
FIRST_CHILD(this)->fops->writev,
local->fd,
partial,
1,
atom->offset_at(frame, object),
local->flags,
local->iobref_data,
local->xdata);
gf_log("crypt", GF_LOG_DEBUG,
"submit partial block: %d bytes from %d offset",
(int)iovec_get_size(partial, 1),
(int)atom->offset_at(frame, object));
exit:
return 0;
}
/*
* Perform a (read-)modify-write sequence.
* This should be performed only after approval
* of upper server-side manager, i.e. the caller
* needs to make sure this is his turn to rmw.
*/
void submit_partial(call_frame_t *frame,
xlator_t *this,
fd_t *fd,
atom_locality_type ltype)
{
int32_t ret;
dict_t *dict;
struct rmw_atom *atom;
crypt_local_t *local = frame->local;
struct object_cipher_info *object = &local->info->cinfo;
atom = atom_by_types(local->active_setup, ltype);
/*
* To perform the "read" component of the read-modify-write
* sequence the crypt translator does stack_wind to itself.
*
* Pass current file size to crypt_readv()
*/
dict = dict_new();
if (!dict) {
/*
* FIXME: Handle the error
*/
gf_log("crypt", GF_LOG_WARNING, "Can not alloc dict");
return;
}
ret = dict_set(dict,
FSIZE_XATTR_PREFIX,
data_from_uint64(local->cur_file_size));
if (ret) {
/*
* FIXME: Handle the error
*/
dict_unref(dict);
gf_log("crypt", GF_LOG_WARNING, "Can not set dict");
goto exit;
}
STACK_WIND(frame,
atom->rmw,
this,
this->fops->readv, /* crypt_readv */
fd,
atom->count_to_uptodate(frame, object), /* count */
atom->offset_at(frame, object), /* offset to read from */
0,
dict);
exit:
dict_unref(dict);
}
/*
* submit blocks of FULL_ATOM type
*/
void submit_full(call_frame_t *frame, xlator_t *this)
{
crypt_local_t *local = frame->local;
struct object_cipher_info *object = &local->info->cinfo;
struct rmw_atom *atom = atom_by_types(local->active_setup, FULL_ATOM);
uint32_t count; /* total number of full blocks to submit */
uint32_t granularity; /* number of blocks to submit in one iteration */
uint64_t off_in_file; /* start offset in the file, bytes */
uint32_t off_in_atom; /* start offset in the atom, blocks */
uint32_t blocks_written = 0; /* blocks written for this submit */
struct avec_config *conf = atom->get_config(frame);
end_writeback_handler_t end_writeback_full_block;
/*
* Write full blocks by groups of granularity size.
*/
end_writeback_full_block = dispatch_end_writeback(local->fop);
if (is_ordered_mode(frame)) {
uint32_t skip = has_head_block(conf) ? 1 : 0;
count = 1;
granularity = 1;
/*
* calculate start offset using cursor value;
* here we should take into accout head block,
* which corresponds to cursor value 0.
*/
off_in_file = atom->offset_at(frame, object) +
((conf->cursor - skip) << get_atom_bits(object));
off_in_atom = conf->cursor - skip;
}
else {
/*
* in parallel mode
*/
count = conf->nr_full_blocks;
granularity = MAX_IOVEC;
off_in_file = atom->offset_at(frame, object);
off_in_atom = 0;
}
while (count) {
uint32_t blocks_to_write = count;
if (blocks_to_write > granularity)
blocks_to_write = granularity;
if (conf->type == HOLE_ATOM)
/*
* reset iovec before encryption
*/
memset(atom->get_iovec(frame, 0)->iov_base,
0,
get_atom_size(object));
/*
* encrypt the group
*/
encrypt_aligned_iov(object,
atom->get_iovec(frame,
off_in_atom +
blocks_written),
blocks_to_write,
off_in_file + (blocks_written <<
get_atom_bits(object)));
set_local_io_params_writev(frame, object, atom,
off_in_file + (blocks_written << get_atom_bits(object)),
blocks_to_write << get_atom_bits(object));
conf->cursor += blocks_to_write;
STACK_WIND(frame,
end_writeback_full_block,
FIRST_CHILD(this),
FIRST_CHILD(this)->fops->writev,
local->fd,
atom->get_iovec(frame, off_in_atom + blocks_written),
blocks_to_write,
off_in_file + (blocks_written << get_atom_bits(object)),
local->flags,
local->iobref_data ? local->iobref_data : local->iobref,
local->xdata);
gf_log("crypt", GF_LOG_DEBUG, "submit %d full blocks from %d offset",
blocks_to_write,
(int)(off_in_file + (blocks_written << get_atom_bits(object))));
count -= blocks_to_write;
blocks_written += blocks_to_write;
}
return;
}
static int32_t rmw_data_head(call_frame_t *frame,
void *cookie,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
struct iovec *vec,
int32_t count,
struct iatt *stbuf,
struct iobref *iobref,
dict_t *xdata)
{
return rmw_partial_block(frame,
cookie,
this,
op_ret,
op_errno,
vec,
count,
stbuf,
iobref,
atom_by_types(DATA_ATOM, HEAD_ATOM));
}
static int32_t rmw_data_tail(call_frame_t *frame,
void *cookie,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
struct iovec *vec,
int32_t count,
struct iatt *stbuf,
struct iobref *iobref,
dict_t *xdata)
{
return rmw_partial_block(frame,
cookie,
this,
op_ret,
op_errno,
vec,
count,
stbuf,
iobref,
atom_by_types(DATA_ATOM, TAIL_ATOM));
}
static int32_t rmw_hole_head(call_frame_t *frame,
void *cookie,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
struct iovec *vec,
int32_t count,
struct iatt *stbuf,
struct iobref *iobref,
dict_t *xdata)
{
return rmw_partial_block(frame,
cookie,
this,
op_ret,
op_errno,
vec,
count,
stbuf,
iobref,
atom_by_types(HOLE_ATOM, HEAD_ATOM));
}
static int32_t rmw_hole_tail(call_frame_t *frame,
void *cookie,
xlator_t *this,
int32_t op_ret,
int32_t op_errno,
struct iovec *vec,
int32_t count,
struct iatt *stbuf,
struct iobref *iobref,
dict_t *xdata)
{
return rmw_partial_block(frame,
cookie,
this,
op_ret,
op_errno,
vec,
count,
stbuf,
iobref,
atom_by_types(HOLE_ATOM, TAIL_ATOM));
}
/*
* atom->count_to_uptodate()
*/
static uint32_t count_to_uptodate_head(struct avec_config *conf,
struct object_cipher_info *object)
{
if (conf->acount == 1 && conf->off_in_tail)
return get_atom_size(object);
else
/* there is no need to read the whole head block */
return conf->off_in_head;
}
static uint32_t count_to_uptodate_tail(struct avec_config *conf,
struct object_cipher_info *object)
{
/* we need to read the whole tail block */
return get_atom_size(object);
}
static uint32_t count_to_uptodate_data_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return count_to_uptodate_head(get_data_conf(frame), object);
}
static uint32_t count_to_uptodate_data_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return count_to_uptodate_tail(get_data_conf(frame), object);
}
static uint32_t count_to_uptodate_hole_head(call_frame_t *frame,
struct object_cipher_info *object)
{
return count_to_uptodate_head(get_hole_conf(frame), object);
}
static uint32_t count_to_uptodate_hole_tail(call_frame_t *frame,
struct object_cipher_info *object)
{
return count_to_uptodate_tail(get_hole_conf(frame), object);
}
/* atom->get_config() */
static struct avec_config *get_config_data(call_frame_t *frame)
{
return &((crypt_local_t *)frame->local)->data_conf;
}
static struct avec_config *get_config_hole(call_frame_t *frame)
{
return &((crypt_local_t *)frame->local)->hole_conf;
}
/*
* atom->get_iovec()
*/
static struct iovec *get_iovec_hole_head(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_hole_conf(frame);
return conf->avec;
}
static struct iovec *get_iovec_hole_full(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_hole_conf(frame);
return conf->avec + (conf->off_in_head ? 1 : 0);
}
static inline struct iovec *get_iovec_hole_tail(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_hole_conf(frame);
return conf->avec + (conf->blocks_in_pool - 1);
}
static inline struct iovec *get_iovec_data_head(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_data_conf(frame);
return conf->avec;
}
static inline struct iovec *get_iovec_data_full(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_data_conf(frame);
return conf->avec + (conf->off_in_head ? 1 : 0) + count;
}
static inline struct iovec *get_iovec_data_tail(call_frame_t *frame,
uint32_t count)
{
struct avec_config *conf = get_data_conf(frame);
return conf->avec +
(conf->off_in_head ? 1 : 0) +
conf->nr_full_blocks;
}
static struct rmw_atom atoms[LAST_DATA_TYPE][LAST_LOCALITY_TYPE] = {
[DATA_ATOM][HEAD_ATOM] =
{ .locality = HEAD_ATOM,
.rmw = rmw_data_head,
.offset_at = offset_at_data_head,
.offset_in = offset_in_data_head,
.get_iovec = get_iovec_data_head,
.io_size_nopad = io_size_nopad_data_head,
.count_to_uptodate = count_to_uptodate_data_head,
.get_config = get_config_data
},
[DATA_ATOM][TAIL_ATOM] =
{ .locality = TAIL_ATOM,
.rmw = rmw_data_tail,
.offset_at = offset_at_data_tail,
.offset_in = offset_in_tail,
.get_iovec = get_iovec_data_tail,
.io_size_nopad = io_size_nopad_data_tail,
.count_to_uptodate = count_to_uptodate_data_tail,
.get_config = get_config_data
},
[DATA_ATOM][FULL_ATOM] =
{ .locality = FULL_ATOM,
.offset_at = offset_at_data_full,
.offset_in = offset_in_data_full,
.get_iovec = get_iovec_data_full,
.io_size_nopad = io_size_nopad_data_full,
.get_config = get_config_data
},
[HOLE_ATOM][HEAD_ATOM] =
{ .locality = HEAD_ATOM,
.rmw = rmw_hole_head,
.offset_at = offset_at_hole_head,
.offset_in = offset_in_hole_head,
.get_iovec = get_iovec_hole_head,
.io_size_nopad = io_size_nopad_hole_head,
.count_to_uptodate = count_to_uptodate_hole_head,
.get_config = get_config_hole
},
[HOLE_ATOM][TAIL_ATOM] =
{ .locality = TAIL_ATOM,
.rmw = rmw_hole_tail,
.offset_at = offset_at_hole_tail,
.offset_in = offset_in_tail,
.get_iovec = get_iovec_hole_tail,
.io_size_nopad = io_size_nopad_hole_tail,
.count_to_uptodate = count_to_uptodate_hole_tail,
.get_config = get_config_hole
},
[HOLE_ATOM][FULL_ATOM] =
{ .locality = FULL_ATOM,
.offset_at = offset_at_hole_full,
.offset_in = offset_in_hole_full,
.get_iovec = get_iovec_hole_full,
.io_size_nopad = io_size_nopad_hole_full,
.get_config = get_config_hole
}
};
struct rmw_atom *atom_by_types(atom_data_type data,
atom_locality_type locality)
{
return &atoms[data][locality];
}
/*
Local variables:
c-indentation-style: "K&R"
mode-name: "LC"
c-basic-offset: 8
tab-width: 8
fill-column: 80
scroll-step: 1
End:
*/
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