mirror_zfs/module/nvpair/nvpair.c

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2008-11-20 23:01:55 +03:00
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or https://opensource.org/licenses/CDDL-1.0.
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* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2000, 2010, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2015, 2017 by Delphix. All rights reserved.
* Copyright 2018 RackTop Systems.
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*/
/*
* Links to Illumos.org for more information on Interface Libraries:
* [1] https://illumos.org/man/3lib/libnvpair
* [2] https://illumos.org/man/3nvpair/nvlist_alloc
* [3] https://illumos.org/man/9f/nvlist_alloc
* [4] https://illumos.org/man/9f/nvlist_next_nvpair
* [5] https://illumos.org/man/9f/nvpair_value_byte
*/
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#include <sys/debug.h>
#include <sys/isa_defs.h>
#include <sys/nvpair.h>
#include <sys/nvpair_impl.h>
Update build system and packaging Minimal changes required to integrate the SPL sources in to the ZFS repository build infrastructure and packaging. Build system and packaging: * Renamed SPL_* autoconf m4 macros to ZFS_*. * Removed redundant SPL_* autoconf m4 macros. * Updated the RPM spec files to remove SPL package dependency. * The zfs package obsoletes the spl package, and the zfs-kmod package obsoletes the spl-kmod package. * The zfs-kmod-devel* packages were updated to add compatibility symlinks under /usr/src/spl-x.y.z until all dependent packages can be updated. They will be removed in a future release. * Updated copy-builtin script for in-kernel builds. * Updated DKMS package to include the spl.ko. * Updated stale AUTHORS file to include all contributors. * Updated stale COPYRIGHT and included the SPL as an exception. * Renamed README.markdown to README.md * Renamed OPENSOLARIS.LICENSE to LICENSE. * Renamed DISCLAIMER to NOTICE. Required code changes: * Removed redundant HAVE_SPL macro. * Removed _BOOT from nvpairs since it doesn't apply for Linux. * Initial header cleanup (removal of empty headers, refactoring). * Remove SPL repository clone/build from zimport.sh. * Use of DEFINE_RATELIMIT_STATE and DEFINE_SPINLOCK removed due to build issues when forcing C99 compilation. * Replaced legacy ACCESS_ONCE with READ_ONCE. * Include needed headers for `current` and `EXPORT_SYMBOL`. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Olaf Faaland <faaland1@llnl.gov> Reviewed-by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Pavel Zakharov <pavel.zakharov@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> TEST_ZIMPORT_SKIP="yes" Closes #7556
2018-02-16 04:53:18 +03:00
#include <sys/types.h>
#include <sys/param.h>
#include <sys/string.h>
#include <rpc/types.h>
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#include <rpc/xdr.h>
#include <sys/mod.h>
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Update build system and packaging Minimal changes required to integrate the SPL sources in to the ZFS repository build infrastructure and packaging. Build system and packaging: * Renamed SPL_* autoconf m4 macros to ZFS_*. * Removed redundant SPL_* autoconf m4 macros. * Updated the RPM spec files to remove SPL package dependency. * The zfs package obsoletes the spl package, and the zfs-kmod package obsoletes the spl-kmod package. * The zfs-kmod-devel* packages were updated to add compatibility symlinks under /usr/src/spl-x.y.z until all dependent packages can be updated. They will be removed in a future release. * Updated copy-builtin script for in-kernel builds. * Updated DKMS package to include the spl.ko. * Updated stale AUTHORS file to include all contributors. * Updated stale COPYRIGHT and included the SPL as an exception. * Renamed README.markdown to README.md * Renamed OPENSOLARIS.LICENSE to LICENSE. * Renamed DISCLAIMER to NOTICE. Required code changes: * Removed redundant HAVE_SPL macro. * Removed _BOOT from nvpairs since it doesn't apply for Linux. * Initial header cleanup (removal of empty headers, refactoring). * Remove SPL repository clone/build from zimport.sh. * Use of DEFINE_RATELIMIT_STATE and DEFINE_SPINLOCK removed due to build issues when forcing C99 compilation. * Replaced legacy ACCESS_ONCE with READ_ONCE. * Include needed headers for `current` and `EXPORT_SYMBOL`. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Olaf Faaland <faaland1@llnl.gov> Reviewed-by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Pavel Zakharov <pavel.zakharov@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> TEST_ZIMPORT_SKIP="yes" Closes #7556
2018-02-16 04:53:18 +03:00
#if defined(_KERNEL)
#include <sys/sunddi.h>
#include <sys/sysmacros.h>
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#else
#include <stdarg.h>
#include <stdlib.h>
#include <stddef.h>
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#endif
#define skip_whitespace(p) while ((*(p) == ' ') || (*(p) == '\t')) (p)++
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/*
* nvpair.c - Provides kernel & userland interfaces for manipulating
* name-value pairs.
*
* Overview Diagram
*
* +--------------+
* | nvlist_t |
* |--------------|
* | nvl_version |
* | nvl_nvflag |
* | nvl_priv -+-+
* | nvl_flag | |
* | nvl_pad | |
* +--------------+ |
* V
* +--------------+ last i_nvp in list
* | nvpriv_t | +--------------------->
* |--------------| |
* +--+- nvp_list | | +------------+
* | | nvp_last -+--+ + nv_alloc_t |
* | | nvp_curr | |------------|
* | | nvp_nva -+----> | nva_ops |
* | | nvp_stat | | nva_arg |
* | +--------------+ +------------+
* |
* +-------+
* V
* +---------------------+ +-------------------+
* | i_nvp_t | +-->| i_nvp_t | +-->
* |---------------------| | |-------------------| |
* | nvi_next -+--+ | nvi_next -+--+
* | nvi_prev (NULL) | <----+ nvi_prev |
* | . . . . . . . . . . | | . . . . . . . . . |
* | nvp (nvpair_t) | | nvp (nvpair_t) |
* | - nvp_size | | - nvp_size |
* | - nvp_name_sz | | - nvp_name_sz |
* | - nvp_value_elem | | - nvp_value_elem |
* | - nvp_type | | - nvp_type |
* | - data ... | | - data ... |
* +---------------------+ +-------------------+
*
*
*
* +---------------------+ +---------------------+
* | i_nvp_t | +--> +-->| i_nvp_t (last) |
* |---------------------| | | |---------------------|
* | nvi_next -+--+ ... --+ | nvi_next (NULL) |
* <-+- nvi_prev |<-- ... <----+ nvi_prev |
* | . . . . . . . . . | | . . . . . . . . . |
* | nvp (nvpair_t) | | nvp (nvpair_t) |
* | - nvp_size | | - nvp_size |
* | - nvp_name_sz | | - nvp_name_sz |
* | - nvp_value_elem | | - nvp_value_elem |
* | - DATA_TYPE_NVLIST | | - nvp_type |
* | - data (embedded) | | - data ... |
* | nvlist name | +---------------------+
* | +--------------+ |
* | | nvlist_t | |
* | |--------------| |
* | | nvl_version | |
* | | nvl_nvflag | |
* | | nvl_priv --+---+---->
* | | nvl_flag | |
* | | nvl_pad | |
* | +--------------+ |
* +---------------------+
*
*
* N.B. nvpair_t may be aligned on 4 byte boundary, so +4 will
* allow value to be aligned on 8 byte boundary
*
* name_len is the length of the name string including the null terminator
* so it must be >= 1
*/
#define NVP_SIZE_CALC(name_len, data_len) \
(NV_ALIGN((sizeof (nvpair_t)) + name_len) + NV_ALIGN(data_len))
static int i_get_value_size(data_type_t type, const void *data, uint_t nelem);
static int nvlist_add_common(nvlist_t *nvl, const char *name, data_type_t type,
uint_t nelem, const void *data);
#define NV_STAT_EMBEDDED 0x1
#define EMBEDDED_NVL(nvp) ((nvlist_t *)(void *)NVP_VALUE(nvp))
#define EMBEDDED_NVL_ARRAY(nvp) ((nvlist_t **)(void *)NVP_VALUE(nvp))
#define NVP_VALOFF(nvp) (NV_ALIGN(sizeof (nvpair_t) + (nvp)->nvp_name_sz))
#define NVPAIR2I_NVP(nvp) \
((i_nvp_t *)((size_t)(nvp) - offsetof(i_nvp_t, nvi_nvp)))
#ifdef _KERNEL
static const int nvpair_max_recursion = 20;
#else
static const int nvpair_max_recursion = 100;
#endif
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static const uint64_t nvlist_hashtable_init_size = (1 << 4);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
2008-11-20 23:01:55 +03:00
int
nv_alloc_init(nv_alloc_t *nva, const nv_alloc_ops_t *nvo, /* args */ ...)
{
va_list valist;
int err = 0;
nva->nva_ops = nvo;
nva->nva_arg = NULL;
va_start(valist, nvo);
if (nva->nva_ops->nv_ao_init != NULL)
err = nva->nva_ops->nv_ao_init(nva, valist);
va_end(valist);
return (err);
}
void
nv_alloc_reset(nv_alloc_t *nva)
{
if (nva->nva_ops->nv_ao_reset != NULL)
nva->nva_ops->nv_ao_reset(nva);
}
void
nv_alloc_fini(nv_alloc_t *nva)
{
if (nva->nva_ops->nv_ao_fini != NULL)
nva->nva_ops->nv_ao_fini(nva);
}
nv_alloc_t *
nvlist_lookup_nv_alloc(nvlist_t *nvl)
{
nvpriv_t *priv;
if (nvl == NULL ||
(priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (NULL);
return (priv->nvp_nva);
}
static void *
nv_mem_zalloc(nvpriv_t *nvp, size_t size)
{
nv_alloc_t *nva = nvp->nvp_nva;
void *buf;
if ((buf = nva->nva_ops->nv_ao_alloc(nva, size)) != NULL)
memset(buf, 0, size);
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return (buf);
}
static void
nv_mem_free(nvpriv_t *nvp, void *buf, size_t size)
{
nv_alloc_t *nva = nvp->nvp_nva;
nva->nva_ops->nv_ao_free(nva, buf, size);
}
static void
nv_priv_init(nvpriv_t *priv, nv_alloc_t *nva, uint32_t stat)
{
memset(priv, 0, sizeof (nvpriv_t));
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priv->nvp_nva = nva;
priv->nvp_stat = stat;
}
static nvpriv_t *
nv_priv_alloc(nv_alloc_t *nva)
{
nvpriv_t *priv;
/*
* nv_mem_alloc() cannot called here because it needs the priv
* argument.
*/
if ((priv = nva->nva_ops->nv_ao_alloc(nva, sizeof (nvpriv_t))) == NULL)
return (NULL);
nv_priv_init(priv, nva, 0);
return (priv);
}
/*
* Embedded lists need their own nvpriv_t's. We create a new
* nvpriv_t using the parameters and allocator from the parent
* list's nvpriv_t.
*/
static nvpriv_t *
nv_priv_alloc_embedded(nvpriv_t *priv)
{
nvpriv_t *emb_priv;
if ((emb_priv = nv_mem_zalloc(priv, sizeof (nvpriv_t))) == NULL)
return (NULL);
nv_priv_init(emb_priv, priv->nvp_nva, NV_STAT_EMBEDDED);
return (emb_priv);
}
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
static int
nvt_tab_alloc(nvpriv_t *priv, uint64_t buckets)
{
ASSERT3P(priv->nvp_hashtable, ==, NULL);
ASSERT0(priv->nvp_nbuckets);
ASSERT0(priv->nvp_nentries);
i_nvp_t **tab = nv_mem_zalloc(priv, buckets * sizeof (i_nvp_t *));
if (tab == NULL)
return (ENOMEM);
priv->nvp_hashtable = tab;
priv->nvp_nbuckets = buckets;
return (0);
}
static void
nvt_tab_free(nvpriv_t *priv)
{
i_nvp_t **tab = priv->nvp_hashtable;
if (tab == NULL) {
ASSERT0(priv->nvp_nbuckets);
ASSERT0(priv->nvp_nentries);
return;
}
nv_mem_free(priv, tab, priv->nvp_nbuckets * sizeof (i_nvp_t *));
priv->nvp_hashtable = NULL;
priv->nvp_nbuckets = 0;
priv->nvp_nentries = 0;
}
static uint32_t
nvt_hash(const char *p)
{
uint32_t g, hval = 0;
while (*p) {
hval = (hval << 4) + *p++;
if ((g = (hval & 0xf0000000)) != 0)
hval ^= g >> 24;
hval &= ~g;
}
return (hval);
}
static boolean_t
nvt_nvpair_match(const nvpair_t *nvp1, const nvpair_t *nvp2, uint32_t nvflag)
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
{
boolean_t match = B_FALSE;
if (nvflag & NV_UNIQUE_NAME_TYPE) {
if (strcmp(NVP_NAME(nvp1), NVP_NAME(nvp2)) == 0 &&
NVP_TYPE(nvp1) == NVP_TYPE(nvp2))
match = B_TRUE;
} else {
ASSERT(nvflag == 0 || nvflag & NV_UNIQUE_NAME);
if (strcmp(NVP_NAME(nvp1), NVP_NAME(nvp2)) == 0)
match = B_TRUE;
}
return (match);
}
static nvpair_t *
nvt_lookup_name_type(const nvlist_t *nvl, const char *name, data_type_t type)
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
{
const nvpriv_t *priv = (const nvpriv_t *)(uintptr_t)nvl->nvl_priv;
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
ASSERT(priv != NULL);
i_nvp_t **tab = priv->nvp_hashtable;
if (tab == NULL) {
ASSERT3P(priv->nvp_list, ==, NULL);
ASSERT0(priv->nvp_nbuckets);
ASSERT0(priv->nvp_nentries);
return (NULL);
} else {
ASSERT(priv->nvp_nbuckets != 0);
}
uint64_t hash = nvt_hash(name);
uint64_t index = hash & (priv->nvp_nbuckets - 1);
ASSERT3U(index, <, priv->nvp_nbuckets);
i_nvp_t *entry = tab[index];
for (i_nvp_t *e = entry; e != NULL; e = e->nvi_hashtable_next) {
if (strcmp(NVP_NAME(&e->nvi_nvp), name) == 0 &&
(type == DATA_TYPE_DONTCARE ||
NVP_TYPE(&e->nvi_nvp) == type))
return (&e->nvi_nvp);
}
return (NULL);
}
static nvpair_t *
nvt_lookup_name(const nvlist_t *nvl, const char *name)
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
{
return (nvt_lookup_name_type(nvl, name, DATA_TYPE_DONTCARE));
}
static int
nvt_resize(nvpriv_t *priv, uint32_t new_size)
{
i_nvp_t **tab = priv->nvp_hashtable;
/*
* Migrate all the entries from the current table
* to a newly-allocated table with the new size by
* re-adjusting the pointers of their entries.
*/
uint32_t size = priv->nvp_nbuckets;
uint32_t new_mask = new_size - 1;
ASSERT(ISP2(new_size));
i_nvp_t **new_tab = nv_mem_zalloc(priv, new_size * sizeof (i_nvp_t *));
if (new_tab == NULL)
return (ENOMEM);
uint32_t nentries = 0;
for (uint32_t i = 0; i < size; i++) {
i_nvp_t *next, *e = tab[i];
while (e != NULL) {
next = e->nvi_hashtable_next;
uint32_t hash = nvt_hash(NVP_NAME(&e->nvi_nvp));
uint32_t index = hash & new_mask;
e->nvi_hashtable_next = new_tab[index];
new_tab[index] = e;
nentries++;
e = next;
}
tab[i] = NULL;
}
ASSERT3U(nentries, ==, priv->nvp_nentries);
nvt_tab_free(priv);
priv->nvp_hashtable = new_tab;
priv->nvp_nbuckets = new_size;
priv->nvp_nentries = nentries;
return (0);
}
static boolean_t
nvt_needs_togrow(nvpriv_t *priv)
{
/*
* Grow only when we have more elements than buckets
* and the # of buckets doesn't overflow.
*/
return (priv->nvp_nentries > priv->nvp_nbuckets &&
(UINT32_MAX >> 1) >= priv->nvp_nbuckets);
}
/*
* Allocate a new table that's twice the size of the old one,
* and migrate all the entries from the old one to the new
* one by re-adjusting their pointers.
*/
static int
nvt_grow(nvpriv_t *priv)
{
uint32_t current_size = priv->nvp_nbuckets;
/* ensure we won't overflow */
ASSERT3U(UINT32_MAX >> 1, >=, current_size);
return (nvt_resize(priv, current_size << 1));
}
static boolean_t
nvt_needs_toshrink(nvpriv_t *priv)
{
/*
* Shrink only when the # of elements is less than or
* equal to 1/4 the # of buckets. Never shrink less than
* nvlist_hashtable_init_size.
*/
ASSERT3U(priv->nvp_nbuckets, >=, nvlist_hashtable_init_size);
if (priv->nvp_nbuckets == nvlist_hashtable_init_size)
return (B_FALSE);
return (priv->nvp_nentries <= (priv->nvp_nbuckets >> 2));
}
/*
* Allocate a new table that's half the size of the old one,
* and migrate all the entries from the old one to the new
* one by re-adjusting their pointers.
*/
static int
nvt_shrink(nvpriv_t *priv)
{
uint32_t current_size = priv->nvp_nbuckets;
/* ensure we won't overflow */
ASSERT3U(current_size, >=, nvlist_hashtable_init_size);
return (nvt_resize(priv, current_size >> 1));
}
static int
nvt_remove_nvpair(nvlist_t *nvl, const nvpair_t *nvp)
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
if (nvt_needs_toshrink(priv)) {
int err = nvt_shrink(priv);
if (err != 0)
return (err);
}
i_nvp_t **tab = priv->nvp_hashtable;
const char *name = NVP_NAME(nvp);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
uint64_t hash = nvt_hash(name);
uint64_t index = hash & (priv->nvp_nbuckets - 1);
ASSERT3U(index, <, priv->nvp_nbuckets);
i_nvp_t *bucket = tab[index];
for (i_nvp_t *prev = NULL, *e = bucket;
e != NULL; prev = e, e = e->nvi_hashtable_next) {
if (nvt_nvpair_match(&e->nvi_nvp, nvp, nvl->nvl_nvflag)) {
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
if (prev != NULL) {
prev->nvi_hashtable_next =
e->nvi_hashtable_next;
} else {
ASSERT3P(e, ==, bucket);
tab[index] = e->nvi_hashtable_next;
}
e->nvi_hashtable_next = NULL;
priv->nvp_nentries--;
break;
}
}
return (0);
}
static int
nvt_add_nvpair(nvlist_t *nvl, nvpair_t *nvp)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
/* initialize nvpair table now if it doesn't exist. */
if (priv->nvp_hashtable == NULL) {
int err = nvt_tab_alloc(priv, nvlist_hashtable_init_size);
if (err != 0)
return (err);
}
/*
* if we don't allow duplicate entries, make sure to
* unlink any existing entries from the table.
*/
if (nvl->nvl_nvflag != 0) {
int err = nvt_remove_nvpair(nvl, nvp);
if (err != 0)
return (err);
}
if (nvt_needs_togrow(priv)) {
int err = nvt_grow(priv);
if (err != 0)
return (err);
}
i_nvp_t **tab = priv->nvp_hashtable;
const char *name = NVP_NAME(nvp);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
uint64_t hash = nvt_hash(name);
uint64_t index = hash & (priv->nvp_nbuckets - 1);
ASSERT3U(index, <, priv->nvp_nbuckets);
// cppcheck-suppress nullPointerRedundantCheck
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
i_nvp_t *bucket = tab[index];
/* insert link at the beginning of the bucket */
i_nvp_t *new_entry = NVPAIR2I_NVP(nvp);
ASSERT3P(new_entry->nvi_hashtable_next, ==, NULL);
new_entry->nvi_hashtable_next = bucket;
// cppcheck-suppress nullPointerRedundantCheck
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
tab[index] = new_entry;
priv->nvp_nentries++;
return (0);
}
2008-11-20 23:01:55 +03:00
static void
nvlist_init(nvlist_t *nvl, uint32_t nvflag, nvpriv_t *priv)
{
nvl->nvl_version = NV_VERSION;
nvl->nvl_nvflag = nvflag & (NV_UNIQUE_NAME|NV_UNIQUE_NAME_TYPE);
nvl->nvl_priv = (uint64_t)(uintptr_t)priv;
nvl->nvl_flag = 0;
nvl->nvl_pad = 0;
}
uint_t
nvlist_nvflag(nvlist_t *nvl)
{
return (nvl->nvl_nvflag);
}
static nv_alloc_t *
nvlist_nv_alloc(int kmflag)
2008-11-20 23:01:55 +03:00
{
Update build system and packaging Minimal changes required to integrate the SPL sources in to the ZFS repository build infrastructure and packaging. Build system and packaging: * Renamed SPL_* autoconf m4 macros to ZFS_*. * Removed redundant SPL_* autoconf m4 macros. * Updated the RPM spec files to remove SPL package dependency. * The zfs package obsoletes the spl package, and the zfs-kmod package obsoletes the spl-kmod package. * The zfs-kmod-devel* packages were updated to add compatibility symlinks under /usr/src/spl-x.y.z until all dependent packages can be updated. They will be removed in a future release. * Updated copy-builtin script for in-kernel builds. * Updated DKMS package to include the spl.ko. * Updated stale AUTHORS file to include all contributors. * Updated stale COPYRIGHT and included the SPL as an exception. * Renamed README.markdown to README.md * Renamed OPENSOLARIS.LICENSE to LICENSE. * Renamed DISCLAIMER to NOTICE. Required code changes: * Removed redundant HAVE_SPL macro. * Removed _BOOT from nvpairs since it doesn't apply for Linux. * Initial header cleanup (removal of empty headers, refactoring). * Remove SPL repository clone/build from zimport.sh. * Use of DEFINE_RATELIMIT_STATE and DEFINE_SPINLOCK removed due to build issues when forcing C99 compilation. * Replaced legacy ACCESS_ONCE with READ_ONCE. * Include needed headers for `current` and `EXPORT_SYMBOL`. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Olaf Faaland <faaland1@llnl.gov> Reviewed-by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Pavel Zakharov <pavel.zakharov@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> TEST_ZIMPORT_SKIP="yes" Closes #7556
2018-02-16 04:53:18 +03:00
#if defined(_KERNEL)
switch (kmflag) {
case KM_SLEEP:
return (nv_alloc_sleep);
case KM_NOSLEEP:
return (nv_alloc_nosleep);
default:
return (nv_alloc_pushpage);
}
#else
(void) kmflag;
return (nv_alloc_nosleep);
Update build system and packaging Minimal changes required to integrate the SPL sources in to the ZFS repository build infrastructure and packaging. Build system and packaging: * Renamed SPL_* autoconf m4 macros to ZFS_*. * Removed redundant SPL_* autoconf m4 macros. * Updated the RPM spec files to remove SPL package dependency. * The zfs package obsoletes the spl package, and the zfs-kmod package obsoletes the spl-kmod package. * The zfs-kmod-devel* packages were updated to add compatibility symlinks under /usr/src/spl-x.y.z until all dependent packages can be updated. They will be removed in a future release. * Updated copy-builtin script for in-kernel builds. * Updated DKMS package to include the spl.ko. * Updated stale AUTHORS file to include all contributors. * Updated stale COPYRIGHT and included the SPL as an exception. * Renamed README.markdown to README.md * Renamed OPENSOLARIS.LICENSE to LICENSE. * Renamed DISCLAIMER to NOTICE. Required code changes: * Removed redundant HAVE_SPL macro. * Removed _BOOT from nvpairs since it doesn't apply for Linux. * Initial header cleanup (removal of empty headers, refactoring). * Remove SPL repository clone/build from zimport.sh. * Use of DEFINE_RATELIMIT_STATE and DEFINE_SPINLOCK removed due to build issues when forcing C99 compilation. * Replaced legacy ACCESS_ONCE with READ_ONCE. * Include needed headers for `current` and `EXPORT_SYMBOL`. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Olaf Faaland <faaland1@llnl.gov> Reviewed-by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Pavel Zakharov <pavel.zakharov@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> TEST_ZIMPORT_SKIP="yes" Closes #7556
2018-02-16 04:53:18 +03:00
#endif /* _KERNEL */
}
/*
* nvlist_alloc - Allocate nvlist.
*/
int
nvlist_alloc(nvlist_t **nvlp, uint_t nvflag, int kmflag)
{
return (nvlist_xalloc(nvlp, nvflag, nvlist_nv_alloc(kmflag)));
2008-11-20 23:01:55 +03:00
}
int
nvlist_xalloc(nvlist_t **nvlp, uint_t nvflag, nv_alloc_t *nva)
{
nvpriv_t *priv;
if (nvlp == NULL || nva == NULL)
return (EINVAL);
if ((priv = nv_priv_alloc(nva)) == NULL)
return (ENOMEM);
if ((*nvlp = nv_mem_zalloc(priv,
NV_ALIGN(sizeof (nvlist_t)))) == NULL) {
nv_mem_free(priv, priv, sizeof (nvpriv_t));
return (ENOMEM);
}
nvlist_init(*nvlp, nvflag, priv);
return (0);
}
/*
* nvp_buf_alloc - Allocate i_nvp_t for storing a new nv pair.
*/
static nvpair_t *
nvp_buf_alloc(nvlist_t *nvl, size_t len)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
i_nvp_t *buf;
nvpair_t *nvp;
size_t nvsize;
/*
* Allocate the buffer
*/
nvsize = len + offsetof(i_nvp_t, nvi_nvp);
if ((buf = nv_mem_zalloc(priv, nvsize)) == NULL)
return (NULL);
nvp = &buf->nvi_nvp;
nvp->nvp_size = len;
return (nvp);
}
/*
* nvp_buf_free - de-Allocate an i_nvp_t.
*/
static void
nvp_buf_free(nvlist_t *nvl, nvpair_t *nvp)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
size_t nvsize = nvp->nvp_size + offsetof(i_nvp_t, nvi_nvp);
nv_mem_free(priv, NVPAIR2I_NVP(nvp), nvsize);
}
/*
* nvp_buf_link - link a new nv pair into the nvlist.
*/
static void
nvp_buf_link(nvlist_t *nvl, nvpair_t *nvp)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
i_nvp_t *curr = NVPAIR2I_NVP(nvp);
/* Put element at end of nvlist */
if (priv->nvp_list == NULL) {
priv->nvp_list = priv->nvp_last = curr;
} else {
curr->nvi_prev = priv->nvp_last;
priv->nvp_last->nvi_next = curr;
priv->nvp_last = curr;
}
}
/*
* nvp_buf_unlink - unlink an removed nvpair out of the nvlist.
*/
static void
nvp_buf_unlink(nvlist_t *nvl, nvpair_t *nvp)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
i_nvp_t *curr = NVPAIR2I_NVP(nvp);
/*
* protect nvlist_next_nvpair() against walking on freed memory.
*/
if (priv->nvp_curr == curr)
priv->nvp_curr = curr->nvi_next;
if (curr == priv->nvp_list)
priv->nvp_list = curr->nvi_next;
else
curr->nvi_prev->nvi_next = curr->nvi_next;
if (curr == priv->nvp_last)
priv->nvp_last = curr->nvi_prev;
else
curr->nvi_next->nvi_prev = curr->nvi_prev;
}
/*
* take a nvpair type and number of elements and make sure the are valid
*/
static int
i_validate_type_nelem(data_type_t type, uint_t nelem)
{
switch (type) {
case DATA_TYPE_BOOLEAN:
if (nelem != 0)
return (EINVAL);
break;
case DATA_TYPE_BOOLEAN_VALUE:
case DATA_TYPE_BYTE:
case DATA_TYPE_INT8:
case DATA_TYPE_UINT8:
case DATA_TYPE_INT16:
case DATA_TYPE_UINT16:
case DATA_TYPE_INT32:
case DATA_TYPE_UINT32:
case DATA_TYPE_INT64:
case DATA_TYPE_UINT64:
case DATA_TYPE_STRING:
case DATA_TYPE_HRTIME:
case DATA_TYPE_NVLIST:
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
#endif
2008-11-20 23:01:55 +03:00
if (nelem != 1)
return (EINVAL);
break;
case DATA_TYPE_BOOLEAN_ARRAY:
case DATA_TYPE_BYTE_ARRAY:
case DATA_TYPE_INT8_ARRAY:
case DATA_TYPE_UINT8_ARRAY:
case DATA_TYPE_INT16_ARRAY:
case DATA_TYPE_UINT16_ARRAY:
case DATA_TYPE_INT32_ARRAY:
case DATA_TYPE_UINT32_ARRAY:
case DATA_TYPE_INT64_ARRAY:
case DATA_TYPE_UINT64_ARRAY:
case DATA_TYPE_STRING_ARRAY:
case DATA_TYPE_NVLIST_ARRAY:
/* we allow arrays with 0 elements */
break;
default:
return (EINVAL);
}
return (0);
}
/*
* Verify nvp_name_sz and check the name string length.
*/
static int
i_validate_nvpair_name(nvpair_t *nvp)
{
if ((nvp->nvp_name_sz <= 0) ||
(nvp->nvp_size < NVP_SIZE_CALC(nvp->nvp_name_sz, 0)))
return (EFAULT);
/* verify the name string, make sure its terminated */
if (NVP_NAME(nvp)[nvp->nvp_name_sz - 1] != '\0')
return (EFAULT);
return (strlen(NVP_NAME(nvp)) == nvp->nvp_name_sz - 1 ? 0 : EFAULT);
}
static int
i_validate_nvpair_value(data_type_t type, uint_t nelem, const void *data)
{
switch (type) {
case DATA_TYPE_BOOLEAN_VALUE:
if (*(boolean_t *)data != B_TRUE &&
*(boolean_t *)data != B_FALSE)
return (EINVAL);
break;
case DATA_TYPE_BOOLEAN_ARRAY: {
int i;
for (i = 0; i < nelem; i++)
if (((boolean_t *)data)[i] != B_TRUE &&
((boolean_t *)data)[i] != B_FALSE)
return (EINVAL);
break;
}
default:
break;
}
return (0);
}
/*
* This function takes a pointer to what should be a nvpair and it's size
* and then verifies that all the nvpair fields make sense and can be
* trusted. This function is used when decoding packed nvpairs.
*/
static int
i_validate_nvpair(nvpair_t *nvp)
{
data_type_t type = NVP_TYPE(nvp);
int size1, size2;
/* verify nvp_name_sz, check the name string length */
if (i_validate_nvpair_name(nvp) != 0)
return (EFAULT);
if (i_validate_nvpair_value(type, NVP_NELEM(nvp), NVP_VALUE(nvp)) != 0)
return (EFAULT);
/*
* verify nvp_type, nvp_value_elem, and also possibly
* verify string values and get the value size.
*/
size2 = i_get_value_size(type, NVP_VALUE(nvp), NVP_NELEM(nvp));
size1 = nvp->nvp_size - NVP_VALOFF(nvp);
if (size2 < 0 || size1 != NV_ALIGN(size2))
return (EFAULT);
return (0);
}
static int
nvlist_copy_pairs(const nvlist_t *snvl, nvlist_t *dnvl)
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{
const nvpriv_t *priv;
const i_nvp_t *curr;
2008-11-20 23:01:55 +03:00
if ((priv = (const nvpriv_t *)(uintptr_t)snvl->nvl_priv) == NULL)
2008-11-20 23:01:55 +03:00
return (EINVAL);
for (curr = priv->nvp_list; curr != NULL; curr = curr->nvi_next) {
const nvpair_t *nvp = &curr->nvi_nvp;
2008-11-20 23:01:55 +03:00
int err;
if ((err = nvlist_add_common(dnvl, NVP_NAME(nvp), NVP_TYPE(nvp),
NVP_NELEM(nvp), NVP_VALUE(nvp))) != 0)
return (err);
}
return (0);
}
/*
* Frees all memory allocated for an nvpair (like embedded lists) with
* the exception of the nvpair buffer itself.
*/
static void
nvpair_free(nvpair_t *nvp)
{
switch (NVP_TYPE(nvp)) {
case DATA_TYPE_NVLIST:
nvlist_free(EMBEDDED_NVL(nvp));
break;
case DATA_TYPE_NVLIST_ARRAY: {
nvlist_t **nvlp = EMBEDDED_NVL_ARRAY(nvp);
int i;
for (i = 0; i < NVP_NELEM(nvp); i++)
if (nvlp[i] != NULL)
nvlist_free(nvlp[i]);
break;
}
default:
break;
}
}
/*
* nvlist_free - free an unpacked nvlist
*/
void
nvlist_free(nvlist_t *nvl)
{
nvpriv_t *priv;
i_nvp_t *curr;
if (nvl == NULL ||
(priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return;
/*
* Unpacked nvlist are linked through i_nvp_t
*/
curr = priv->nvp_list;
while (curr != NULL) {
nvpair_t *nvp = &curr->nvi_nvp;
curr = curr->nvi_next;
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
}
if (!(priv->nvp_stat & NV_STAT_EMBEDDED))
nv_mem_free(priv, nvl, NV_ALIGN(sizeof (nvlist_t)));
else
nvl->nvl_priv = 0;
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
nvt_tab_free(priv);
2008-11-20 23:01:55 +03:00
nv_mem_free(priv, priv, sizeof (nvpriv_t));
}
static int
nvlist_contains_nvp(const nvlist_t *nvl, const nvpair_t *nvp)
2008-11-20 23:01:55 +03:00
{
const nvpriv_t *priv = (const nvpriv_t *)(uintptr_t)nvl->nvl_priv;
const i_nvp_t *curr;
2008-11-20 23:01:55 +03:00
if (nvp == NULL)
return (0);
for (curr = priv->nvp_list; curr != NULL; curr = curr->nvi_next)
if (&curr->nvi_nvp == nvp)
return (1);
return (0);
}
/*
* Make a copy of nvlist
*/
int
nvlist_dup(const nvlist_t *nvl, nvlist_t **nvlp, int kmflag)
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{
return (nvlist_xdup(nvl, nvlp, nvlist_nv_alloc(kmflag)));
2008-11-20 23:01:55 +03:00
}
int
nvlist_xdup(const nvlist_t *nvl, nvlist_t **nvlp, nv_alloc_t *nva)
2008-11-20 23:01:55 +03:00
{
int err;
nvlist_t *ret;
if (nvl == NULL || nvlp == NULL)
return (EINVAL);
if ((err = nvlist_xalloc(&ret, nvl->nvl_nvflag, nva)) != 0)
return (err);
if ((err = nvlist_copy_pairs(nvl, ret)) != 0)
nvlist_free(ret);
else
*nvlp = ret;
return (err);
}
/*
* Remove all with matching name
*/
int
nvlist_remove_all(nvlist_t *nvl, const char *name)
{
int error = ENOENT;
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
if (nvl == NULL || name == NULL || nvl->nvl_priv == 0)
2008-11-20 23:01:55 +03:00
return (EINVAL);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
nvpair_t *nvp;
while ((nvp = nvt_lookup_name(nvl, name)) != NULL) {
VERIFY0(nvlist_remove_nvpair(nvl, nvp));
2008-11-20 23:01:55 +03:00
error = 0;
}
return (error);
}
/*
* Remove first one with matching name and type
*/
int
nvlist_remove(nvlist_t *nvl, const char *name, data_type_t type)
{
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
if (nvl == NULL || name == NULL || nvl->nvl_priv == 0)
2008-11-20 23:01:55 +03:00
return (EINVAL);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
nvpair_t *nvp = nvt_lookup_name_type(nvl, name, type);
if (nvp == NULL)
return (ENOENT);
2008-11-20 23:01:55 +03:00
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
return (nvlist_remove_nvpair(nvl, nvp));
2008-11-20 23:01:55 +03:00
}
int
nvlist_remove_nvpair(nvlist_t *nvl, nvpair_t *nvp)
{
if (nvl == NULL || nvp == NULL)
return (EINVAL);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
int err = nvt_remove_nvpair(nvl, nvp);
if (err != 0)
return (err);
nvp_buf_unlink(nvl, nvp);
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
return (0);
}
2008-11-20 23:01:55 +03:00
/*
* This function calculates the size of an nvpair value.
*
* The data argument controls the behavior in case of the data types
* DATA_TYPE_STRING and
* DATA_TYPE_STRING_ARRAY
* Is data == NULL then the size of the string(s) is excluded.
*/
static int
i_get_value_size(data_type_t type, const void *data, uint_t nelem)
{
uint64_t value_sz;
if (i_validate_type_nelem(type, nelem) != 0)
return (-1);
/* Calculate required size for holding value */
switch (type) {
case DATA_TYPE_BOOLEAN:
value_sz = 0;
break;
case DATA_TYPE_BOOLEAN_VALUE:
value_sz = sizeof (boolean_t);
break;
case DATA_TYPE_BYTE:
value_sz = sizeof (uchar_t);
break;
case DATA_TYPE_INT8:
value_sz = sizeof (int8_t);
break;
case DATA_TYPE_UINT8:
value_sz = sizeof (uint8_t);
break;
case DATA_TYPE_INT16:
value_sz = sizeof (int16_t);
break;
case DATA_TYPE_UINT16:
value_sz = sizeof (uint16_t);
break;
case DATA_TYPE_INT32:
value_sz = sizeof (int32_t);
break;
case DATA_TYPE_UINT32:
value_sz = sizeof (uint32_t);
break;
case DATA_TYPE_INT64:
value_sz = sizeof (int64_t);
break;
case DATA_TYPE_UINT64:
value_sz = sizeof (uint64_t);
break;
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
value_sz = sizeof (double);
break;
#endif
2008-11-20 23:01:55 +03:00
case DATA_TYPE_STRING:
if (data == NULL)
value_sz = 0;
else
value_sz = strlen(data) + 1;
break;
case DATA_TYPE_BOOLEAN_ARRAY:
value_sz = (uint64_t)nelem * sizeof (boolean_t);
break;
case DATA_TYPE_BYTE_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uchar_t);
break;
case DATA_TYPE_INT8_ARRAY:
value_sz = (uint64_t)nelem * sizeof (int8_t);
break;
case DATA_TYPE_UINT8_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint8_t);
break;
case DATA_TYPE_INT16_ARRAY:
value_sz = (uint64_t)nelem * sizeof (int16_t);
break;
case DATA_TYPE_UINT16_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint16_t);
break;
case DATA_TYPE_INT32_ARRAY:
value_sz = (uint64_t)nelem * sizeof (int32_t);
break;
case DATA_TYPE_UINT32_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint32_t);
break;
case DATA_TYPE_INT64_ARRAY:
value_sz = (uint64_t)nelem * sizeof (int64_t);
break;
case DATA_TYPE_UINT64_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint64_t);
break;
case DATA_TYPE_STRING_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint64_t);
if (data != NULL) {
char *const *strs = data;
uint_t i;
/* no alignment requirement for strings */
for (i = 0; i < nelem; i++) {
if (strs[i] == NULL)
return (-1);
value_sz += strlen(strs[i]) + 1;
}
}
break;
case DATA_TYPE_HRTIME:
value_sz = sizeof (hrtime_t);
break;
case DATA_TYPE_NVLIST:
value_sz = NV_ALIGN(sizeof (nvlist_t));
break;
case DATA_TYPE_NVLIST_ARRAY:
value_sz = (uint64_t)nelem * sizeof (uint64_t) +
(uint64_t)nelem * NV_ALIGN(sizeof (nvlist_t));
break;
default:
return (-1);
}
return (value_sz > INT32_MAX ? -1 : (int)value_sz);
}
static int
nvlist_copy_embedded(nvlist_t *nvl, nvlist_t *onvl, nvlist_t *emb_nvl)
{
nvpriv_t *priv;
int err;
if ((priv = nv_priv_alloc_embedded((nvpriv_t *)(uintptr_t)
nvl->nvl_priv)) == NULL)
return (ENOMEM);
nvlist_init(emb_nvl, onvl->nvl_nvflag, priv);
if ((err = nvlist_copy_pairs(onvl, emb_nvl)) != 0) {
nvlist_free(emb_nvl);
emb_nvl->nvl_priv = 0;
}
return (err);
}
/*
* nvlist_add_common - Add new <name,value> pair to nvlist
*/
static int
nvlist_add_common(nvlist_t *nvl, const char *name,
data_type_t type, uint_t nelem, const void *data)
{
nvpair_t *nvp;
uint_t i;
int nvp_sz, name_sz, value_sz;
int err = 0;
if (name == NULL || nvl == NULL || nvl->nvl_priv == 0)
return (EINVAL);
if (nelem != 0 && data == NULL)
return (EINVAL);
/*
* Verify type and nelem and get the value size.
* In case of data types DATA_TYPE_STRING and DATA_TYPE_STRING_ARRAY
* is the size of the string(s) included.
*/
if ((value_sz = i_get_value_size(type, data, nelem)) < 0)
return (EINVAL);
if (i_validate_nvpair_value(type, nelem, data) != 0)
return (EINVAL);
/*
* If we're adding an nvlist or nvlist array, ensure that we are not
* adding the input nvlist to itself, which would cause recursion,
* and ensure that no NULL nvlist pointers are present.
*/
switch (type) {
case DATA_TYPE_NVLIST:
if (data == nvl || data == NULL)
return (EINVAL);
break;
case DATA_TYPE_NVLIST_ARRAY: {
nvlist_t **onvlp = (nvlist_t **)data;
for (i = 0; i < nelem; i++) {
if (onvlp[i] == nvl || onvlp[i] == NULL)
return (EINVAL);
}
break;
}
default:
break;
}
/* calculate sizes of the nvpair elements and the nvpair itself */
name_sz = strlen(name) + 1;
if (name_sz >= 1ULL << (sizeof (nvp->nvp_name_sz) * NBBY - 1))
return (EINVAL);
2008-11-20 23:01:55 +03:00
nvp_sz = NVP_SIZE_CALC(name_sz, value_sz);
if ((nvp = nvp_buf_alloc(nvl, nvp_sz)) == NULL)
return (ENOMEM);
ASSERT(nvp->nvp_size == nvp_sz);
nvp->nvp_name_sz = name_sz;
nvp->nvp_value_elem = nelem;
nvp->nvp_type = type;
memcpy(NVP_NAME(nvp), name, name_sz);
2008-11-20 23:01:55 +03:00
switch (type) {
case DATA_TYPE_BOOLEAN:
break;
case DATA_TYPE_STRING_ARRAY: {
char *const *strs = data;
char *buf = NVP_VALUE(nvp);
char **cstrs = (void *)buf;
/* skip pre-allocated space for pointer array */
buf += nelem * sizeof (uint64_t);
for (i = 0; i < nelem; i++) {
int slen = strlen(strs[i]) + 1;
memcpy(buf, strs[i], slen);
2008-11-20 23:01:55 +03:00
cstrs[i] = buf;
buf += slen;
}
break;
}
case DATA_TYPE_NVLIST: {
nvlist_t *nnvl = EMBEDDED_NVL(nvp);
nvlist_t *onvl = (nvlist_t *)data;
if ((err = nvlist_copy_embedded(nvl, onvl, nnvl)) != 0) {
nvp_buf_free(nvl, nvp);
return (err);
}
break;
}
case DATA_TYPE_NVLIST_ARRAY: {
nvlist_t **onvlp = (nvlist_t **)data;
nvlist_t **nvlp = EMBEDDED_NVL_ARRAY(nvp);
nvlist_t *embedded = (nvlist_t *)
((uintptr_t)nvlp + nelem * sizeof (uint64_t));
for (i = 0; i < nelem; i++) {
if ((err = nvlist_copy_embedded(nvl,
onvlp[i], embedded)) != 0) {
/*
* Free any successfully created lists
*/
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
return (err);
}
nvlp[i] = embedded++;
}
break;
}
default:
memcpy(NVP_VALUE(nvp), data, value_sz);
2008-11-20 23:01:55 +03:00
}
/* if unique name, remove before add */
if (nvl->nvl_nvflag & NV_UNIQUE_NAME)
(void) nvlist_remove_all(nvl, name);
else if (nvl->nvl_nvflag & NV_UNIQUE_NAME_TYPE)
(void) nvlist_remove(nvl, name, type);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
err = nvt_add_nvpair(nvl, nvp);
if (err != 0) {
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
return (err);
}
2008-11-20 23:01:55 +03:00
nvp_buf_link(nvl, nvp);
return (0);
}
int
nvlist_add_boolean(nvlist_t *nvl, const char *name)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_BOOLEAN, 0, NULL));
}
int
nvlist_add_boolean_value(nvlist_t *nvl, const char *name, boolean_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_BOOLEAN_VALUE, 1, &val));
}
int
nvlist_add_byte(nvlist_t *nvl, const char *name, uchar_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_BYTE, 1, &val));
}
int
nvlist_add_int8(nvlist_t *nvl, const char *name, int8_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT8, 1, &val));
}
int
nvlist_add_uint8(nvlist_t *nvl, const char *name, uint8_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT8, 1, &val));
}
int
nvlist_add_int16(nvlist_t *nvl, const char *name, int16_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT16, 1, &val));
}
int
nvlist_add_uint16(nvlist_t *nvl, const char *name, uint16_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT16, 1, &val));
}
int
nvlist_add_int32(nvlist_t *nvl, const char *name, int32_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT32, 1, &val));
}
int
nvlist_add_uint32(nvlist_t *nvl, const char *name, uint32_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT32, 1, &val));
}
int
nvlist_add_int64(nvlist_t *nvl, const char *name, int64_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT64, 1, &val));
}
int
nvlist_add_uint64(nvlist_t *nvl, const char *name, uint64_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT64, 1, &val));
}
#if !defined(_KERNEL)
int
nvlist_add_double(nvlist_t *nvl, const char *name, double val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_DOUBLE, 1, &val));
}
#endif
2008-11-20 23:01:55 +03:00
int
nvlist_add_string(nvlist_t *nvl, const char *name, const char *val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_STRING, 1, (void *)val));
}
int
nvlist_add_boolean_array(nvlist_t *nvl, const char *name,
const boolean_t *a, uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_BOOLEAN_ARRAY, n, a));
}
int
nvlist_add_byte_array(nvlist_t *nvl, const char *name, const uchar_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_BYTE_ARRAY, n, a));
}
int
nvlist_add_int8_array(nvlist_t *nvl, const char *name, const int8_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT8_ARRAY, n, a));
}
int
nvlist_add_uint8_array(nvlist_t *nvl, const char *name, const uint8_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT8_ARRAY, n, a));
}
int
nvlist_add_int16_array(nvlist_t *nvl, const char *name, const int16_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT16_ARRAY, n, a));
}
int
nvlist_add_uint16_array(nvlist_t *nvl, const char *name, const uint16_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT16_ARRAY, n, a));
}
int
nvlist_add_int32_array(nvlist_t *nvl, const char *name, const int32_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT32_ARRAY, n, a));
}
int
nvlist_add_uint32_array(nvlist_t *nvl, const char *name, const uint32_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT32_ARRAY, n, a));
}
int
nvlist_add_int64_array(nvlist_t *nvl, const char *name, const int64_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_INT64_ARRAY, n, a));
}
int
nvlist_add_uint64_array(nvlist_t *nvl, const char *name, const uint64_t *a,
uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_UINT64_ARRAY, n, a));
}
int
nvlist_add_string_array(nvlist_t *nvl, const char *name,
const char *const *a, uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_STRING_ARRAY, n, a));
}
int
nvlist_add_hrtime(nvlist_t *nvl, const char *name, hrtime_t val)
{
return (nvlist_add_common(nvl, name, DATA_TYPE_HRTIME, 1, &val));
}
int
nvlist_add_nvlist(nvlist_t *nvl, const char *name, const nvlist_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_NVLIST, 1, val));
}
int
nvlist_add_nvlist_array(nvlist_t *nvl, const char *name,
const nvlist_t * const *a, uint_t n)
2008-11-20 23:01:55 +03:00
{
return (nvlist_add_common(nvl, name, DATA_TYPE_NVLIST_ARRAY, n, a));
}
/* reading name-value pairs */
nvpair_t *
nvlist_next_nvpair(nvlist_t *nvl, const nvpair_t *nvp)
2008-11-20 23:01:55 +03:00
{
nvpriv_t *priv;
i_nvp_t *curr;
if (nvl == NULL ||
(priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (NULL);
curr = NVPAIR2I_NVP(nvp);
/*
* Ensure that nvp is a valid nvpair on this nvlist.
* NB: nvp_curr is used only as a hint so that we don't always
* have to walk the list to determine if nvp is still on the list.
*/
if (nvp == NULL)
curr = priv->nvp_list;
else if (priv->nvp_curr == curr || nvlist_contains_nvp(nvl, nvp))
curr = curr->nvi_next;
else
curr = NULL;
priv->nvp_curr = curr;
return (curr != NULL ? &curr->nvi_nvp : NULL);
}
nvpair_t *
nvlist_prev_nvpair(nvlist_t *nvl, const nvpair_t *nvp)
{
nvpriv_t *priv;
i_nvp_t *curr;
if (nvl == NULL ||
(priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (NULL);
curr = NVPAIR2I_NVP(nvp);
if (nvp == NULL)
curr = priv->nvp_last;
else if (priv->nvp_curr == curr || nvlist_contains_nvp(nvl, nvp))
curr = curr->nvi_prev;
else
curr = NULL;
priv->nvp_curr = curr;
return (curr != NULL ? &curr->nvi_nvp : NULL);
}
boolean_t
nvlist_empty(const nvlist_t *nvl)
{
const nvpriv_t *priv;
if (nvl == NULL ||
(priv = (const nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (B_TRUE);
return (priv->nvp_list == NULL);
}
const char *
nvpair_name(const nvpair_t *nvp)
2008-11-20 23:01:55 +03:00
{
return (NVP_NAME(nvp));
}
data_type_t
nvpair_type(const nvpair_t *nvp)
2008-11-20 23:01:55 +03:00
{
return (NVP_TYPE(nvp));
}
int
nvpair_type_is_array(const nvpair_t *nvp)
{
data_type_t type = NVP_TYPE(nvp);
if ((type == DATA_TYPE_BYTE_ARRAY) ||
(type == DATA_TYPE_INT8_ARRAY) ||
(type == DATA_TYPE_UINT8_ARRAY) ||
(type == DATA_TYPE_INT16_ARRAY) ||
(type == DATA_TYPE_UINT16_ARRAY) ||
(type == DATA_TYPE_INT32_ARRAY) ||
(type == DATA_TYPE_UINT32_ARRAY) ||
(type == DATA_TYPE_INT64_ARRAY) ||
(type == DATA_TYPE_UINT64_ARRAY) ||
(type == DATA_TYPE_BOOLEAN_ARRAY) ||
(type == DATA_TYPE_STRING_ARRAY) ||
(type == DATA_TYPE_NVLIST_ARRAY))
return (1);
return (0);
}
2008-11-20 23:01:55 +03:00
static int
nvpair_value_common(const nvpair_t *nvp, data_type_t type, uint_t *nelem,
void *data)
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{
int value_sz;
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if (nvp == NULL || nvpair_type(nvp) != type)
return (EINVAL);
/*
* For non-array types, we copy the data.
* For array types (including string), we set a pointer.
*/
switch (type) {
case DATA_TYPE_BOOLEAN:
if (nelem != NULL)
*nelem = 0;
break;
case DATA_TYPE_BOOLEAN_VALUE:
case DATA_TYPE_BYTE:
case DATA_TYPE_INT8:
case DATA_TYPE_UINT8:
case DATA_TYPE_INT16:
case DATA_TYPE_UINT16:
case DATA_TYPE_INT32:
case DATA_TYPE_UINT32:
case DATA_TYPE_INT64:
case DATA_TYPE_UINT64:
case DATA_TYPE_HRTIME:
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
#endif
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if (data == NULL)
return (EINVAL);
if ((value_sz = i_get_value_size(type, NULL, 1)) < 0)
return (EINVAL);
memcpy(data, NVP_VALUE(nvp), (size_t)value_sz);
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if (nelem != NULL)
*nelem = 1;
break;
case DATA_TYPE_NVLIST:
case DATA_TYPE_STRING:
if (data == NULL)
return (EINVAL);
/*
* This discards the const from nvp, so all callers for these
* types must not accept const nvpairs.
*/
2008-11-20 23:01:55 +03:00
*(void **)data = (void *)NVP_VALUE(nvp);
if (nelem != NULL)
*nelem = 1;
break;
case DATA_TYPE_BOOLEAN_ARRAY:
case DATA_TYPE_BYTE_ARRAY:
case DATA_TYPE_INT8_ARRAY:
case DATA_TYPE_UINT8_ARRAY:
case DATA_TYPE_INT16_ARRAY:
case DATA_TYPE_UINT16_ARRAY:
case DATA_TYPE_INT32_ARRAY:
case DATA_TYPE_UINT32_ARRAY:
case DATA_TYPE_INT64_ARRAY:
case DATA_TYPE_UINT64_ARRAY:
case DATA_TYPE_STRING_ARRAY:
case DATA_TYPE_NVLIST_ARRAY:
if (nelem == NULL || data == NULL)
return (EINVAL);
/*
* This discards the const from nvp, so all callers for these
* types must not accept const nvpairs.
*/
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if ((*nelem = NVP_NELEM(nvp)) != 0)
*(void **)data = (void *)NVP_VALUE(nvp);
else
*(void **)data = NULL;
break;
default:
return (ENOTSUP);
}
return (0);
}
static int
nvlist_lookup_common(const nvlist_t *nvl, const char *name, data_type_t type,
2008-11-20 23:01:55 +03:00
uint_t *nelem, void *data)
{
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
if (name == NULL || nvl == NULL || nvl->nvl_priv == 0)
2008-11-20 23:01:55 +03:00
return (EINVAL);
if (!(nvl->nvl_nvflag & (NV_UNIQUE_NAME | NV_UNIQUE_NAME_TYPE)))
return (ENOTSUP);
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
nvpair_t *nvp = nvt_lookup_name_type(nvl, name, type);
if (nvp == NULL)
return (ENOENT);
2008-11-20 23:01:55 +03:00
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
2017-12-05 20:57:42 +03:00
return (nvpair_value_common(nvp, type, nelem, data));
2008-11-20 23:01:55 +03:00
}
int
nvlist_lookup_boolean(const nvlist_t *nvl, const char *name)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_BOOLEAN, NULL, NULL));
}
int
nvlist_lookup_boolean_value(const nvlist_t *nvl, const char *name,
boolean_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name,
DATA_TYPE_BOOLEAN_VALUE, NULL, val));
}
int
nvlist_lookup_byte(const nvlist_t *nvl, const char *name, uchar_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_BYTE, NULL, val));
}
int
nvlist_lookup_int8(const nvlist_t *nvl, const char *name, int8_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT8, NULL, val));
}
int
nvlist_lookup_uint8(const nvlist_t *nvl, const char *name, uint8_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT8, NULL, val));
}
int
nvlist_lookup_int16(const nvlist_t *nvl, const char *name, int16_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT16, NULL, val));
}
int
nvlist_lookup_uint16(const nvlist_t *nvl, const char *name, uint16_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT16, NULL, val));
}
int
nvlist_lookup_int32(const nvlist_t *nvl, const char *name, int32_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT32, NULL, val));
}
int
nvlist_lookup_uint32(const nvlist_t *nvl, const char *name, uint32_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT32, NULL, val));
}
int
nvlist_lookup_int64(const nvlist_t *nvl, const char *name, int64_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT64, NULL, val));
}
int
nvlist_lookup_uint64(const nvlist_t *nvl, const char *name, uint64_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT64, NULL, val));
}
#if !defined(_KERNEL)
int
nvlist_lookup_double(const nvlist_t *nvl, const char *name, double *val)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_DOUBLE, NULL, val));
}
#endif
2008-11-20 23:01:55 +03:00
int
nvlist_lookup_string(const nvlist_t *nvl, const char *name, const char **val)
2008-11-20 23:01:55 +03:00
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_STRING, NULL, val));
}
int
nvlist_lookup_nvlist(nvlist_t *nvl, const char *name, nvlist_t **val)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_NVLIST, NULL, val));
}
int
nvlist_lookup_boolean_array(nvlist_t *nvl, const char *name,
boolean_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name,
DATA_TYPE_BOOLEAN_ARRAY, n, a));
}
int
nvlist_lookup_byte_array(nvlist_t *nvl, const char *name,
uchar_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_BYTE_ARRAY, n, a));
}
int
nvlist_lookup_int8_array(nvlist_t *nvl, const char *name, int8_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT8_ARRAY, n, a));
}
int
nvlist_lookup_uint8_array(nvlist_t *nvl, const char *name,
uint8_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT8_ARRAY, n, a));
}
int
nvlist_lookup_int16_array(nvlist_t *nvl, const char *name,
int16_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT16_ARRAY, n, a));
}
int
nvlist_lookup_uint16_array(nvlist_t *nvl, const char *name,
uint16_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT16_ARRAY, n, a));
}
int
nvlist_lookup_int32_array(nvlist_t *nvl, const char *name,
int32_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT32_ARRAY, n, a));
}
int
nvlist_lookup_uint32_array(nvlist_t *nvl, const char *name,
uint32_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT32_ARRAY, n, a));
}
int
nvlist_lookup_int64_array(nvlist_t *nvl, const char *name,
int64_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_INT64_ARRAY, n, a));
}
int
nvlist_lookup_uint64_array(nvlist_t *nvl, const char *name,
uint64_t **a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_UINT64_ARRAY, n, a));
}
int
nvlist_lookup_string_array(nvlist_t *nvl, const char *name,
char ***a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_STRING_ARRAY, n, a));
}
int
nvlist_lookup_nvlist_array(nvlist_t *nvl, const char *name,
nvlist_t ***a, uint_t *n)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_NVLIST_ARRAY, n, a));
}
int
nvlist_lookup_hrtime(nvlist_t *nvl, const char *name, hrtime_t *val)
{
return (nvlist_lookup_common(nvl, name, DATA_TYPE_HRTIME, NULL, val));
}
int
nvlist_lookup_pairs(nvlist_t *nvl, int flag, ...)
{
va_list ap;
char *name;
int noentok = (flag & NV_FLAG_NOENTOK ? 1 : 0);
int ret = 0;
va_start(ap, flag);
while (ret == 0 && (name = va_arg(ap, char *)) != NULL) {
data_type_t type;
void *val;
uint_t *nelem;
switch (type = va_arg(ap, data_type_t)) {
case DATA_TYPE_BOOLEAN:
ret = nvlist_lookup_common(nvl, name, type, NULL, NULL);
break;
case DATA_TYPE_BOOLEAN_VALUE:
case DATA_TYPE_BYTE:
case DATA_TYPE_INT8:
case DATA_TYPE_UINT8:
case DATA_TYPE_INT16:
case DATA_TYPE_UINT16:
case DATA_TYPE_INT32:
case DATA_TYPE_UINT32:
case DATA_TYPE_INT64:
case DATA_TYPE_UINT64:
case DATA_TYPE_HRTIME:
case DATA_TYPE_STRING:
case DATA_TYPE_NVLIST:
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
#endif
2008-11-20 23:01:55 +03:00
val = va_arg(ap, void *);
ret = nvlist_lookup_common(nvl, name, type, NULL, val);
break;
case DATA_TYPE_BYTE_ARRAY:
case DATA_TYPE_BOOLEAN_ARRAY:
case DATA_TYPE_INT8_ARRAY:
case DATA_TYPE_UINT8_ARRAY:
case DATA_TYPE_INT16_ARRAY:
case DATA_TYPE_UINT16_ARRAY:
case DATA_TYPE_INT32_ARRAY:
case DATA_TYPE_UINT32_ARRAY:
case DATA_TYPE_INT64_ARRAY:
case DATA_TYPE_UINT64_ARRAY:
case DATA_TYPE_STRING_ARRAY:
case DATA_TYPE_NVLIST_ARRAY:
val = va_arg(ap, void *);
nelem = va_arg(ap, uint_t *);
ret = nvlist_lookup_common(nvl, name, type, nelem, val);
break;
default:
ret = EINVAL;
}
if (ret == ENOENT && noentok)
ret = 0;
}
va_end(ap);
return (ret);
}
/*
* Find the 'name'ed nvpair in the nvlist 'nvl'. If 'name' found, the function
* returns zero and a pointer to the matching nvpair is returned in '*ret'
* (given 'ret' is non-NULL). If 'sep' is specified then 'name' will penitrate
* multiple levels of embedded nvlists, with 'sep' as the separator. As an
* example, if sep is '.', name might look like: "a" or "a.b" or "a.c[3]" or
* "a.d[3].e[1]". This matches the C syntax for array embed (for convenience,
* code also supports "a.d[3]e[1]" syntax).
*
* If 'ip' is non-NULL and the last name component is an array, return the
* value of the "...[index]" array index in *ip. For an array reference that
* is not indexed, *ip will be returned as -1. If there is a syntax error in
* 'name', and 'ep' is non-NULL then *ep will be set to point to the location
* inside the 'name' string where the syntax error was detected.
*/
static int
nvlist_lookup_nvpair_ei_sep(nvlist_t *nvl, const char *name, const char sep,
nvpair_t **ret, int *ip, const char **ep)
{
nvpair_t *nvp;
const char *np;
char *sepp = NULL;
char *idxp, *idxep;
nvlist_t **nva;
long idx = 0;
int n;
if (ip)
*ip = -1; /* not indexed */
if (ep)
*ep = NULL;
if ((nvl == NULL) || (name == NULL))
2008-11-20 23:01:55 +03:00
return (EINVAL);
sepp = NULL;
idx = 0;
/* step through components of name */
for (np = name; np && *np; np = sepp) {
/* ensure unique names */
if (!(nvl->nvl_nvflag & NV_UNIQUE_NAME))
return (ENOTSUP);
2008-11-20 23:01:55 +03:00
/* skip white space */
skip_whitespace(np);
if (*np == 0)
break;
2008-11-20 23:01:55 +03:00
/* set 'sepp' to end of current component 'np' */
if (sep)
sepp = strchr(np, sep);
else
sepp = NULL;
/* find start of next "[ index ]..." */
idxp = strchr(np, '[');
/* if sepp comes first, set idxp to NULL */
if (sepp && idxp && (sepp < idxp))
idxp = NULL;
/*
* At this point 'idxp' is set if there is an index
* expected for the current component.
*/
if (idxp) {
/* set 'n' to length of current 'np' name component */
n = idxp++ - np;
/* keep sepp up to date for *ep use as we advance */
skip_whitespace(idxp);
sepp = idxp;
/* determine the index value */
Update build system and packaging Minimal changes required to integrate the SPL sources in to the ZFS repository build infrastructure and packaging. Build system and packaging: * Renamed SPL_* autoconf m4 macros to ZFS_*. * Removed redundant SPL_* autoconf m4 macros. * Updated the RPM spec files to remove SPL package dependency. * The zfs package obsoletes the spl package, and the zfs-kmod package obsoletes the spl-kmod package. * The zfs-kmod-devel* packages were updated to add compatibility symlinks under /usr/src/spl-x.y.z until all dependent packages can be updated. They will be removed in a future release. * Updated copy-builtin script for in-kernel builds. * Updated DKMS package to include the spl.ko. * Updated stale AUTHORS file to include all contributors. * Updated stale COPYRIGHT and included the SPL as an exception. * Renamed README.markdown to README.md * Renamed OPENSOLARIS.LICENSE to LICENSE. * Renamed DISCLAIMER to NOTICE. Required code changes: * Removed redundant HAVE_SPL macro. * Removed _BOOT from nvpairs since it doesn't apply for Linux. * Initial header cleanup (removal of empty headers, refactoring). * Remove SPL repository clone/build from zimport.sh. * Use of DEFINE_RATELIMIT_STATE and DEFINE_SPINLOCK removed due to build issues when forcing C99 compilation. * Replaced legacy ACCESS_ONCE with READ_ONCE. * Include needed headers for `current` and `EXPORT_SYMBOL`. Reviewed-by: Tony Hutter <hutter2@llnl.gov> Reviewed-by: Olaf Faaland <faaland1@llnl.gov> Reviewed-by: Matthew Ahrens <mahrens@delphix.com> Reviewed-by: Pavel Zakharov <pavel.zakharov@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> TEST_ZIMPORT_SKIP="yes" Closes #7556
2018-02-16 04:53:18 +03:00
#if defined(_KERNEL)
if (ddi_strtol(idxp, &idxep, 0, &idx))
goto fail;
#else
idx = strtol(idxp, &idxep, 0);
#endif
if (idxep == idxp)
goto fail;
/* keep sepp up to date for *ep use as we advance */
sepp = idxep;
/* skip white space index value and check for ']' */
skip_whitespace(sepp);
if (*sepp++ != ']')
goto fail;
/* for embedded arrays, support C syntax: "a[1].b" */
skip_whitespace(sepp);
if (sep && (*sepp == sep))
sepp++;
} else if (sepp) {
n = sepp++ - np;
} else {
n = strlen(np);
}
/* trim trailing whitespace by reducing length of 'np' */
if (n == 0)
goto fail;
for (n--; (np[n] == ' ') || (np[n] == '\t'); n--)
;
n++;
/* skip whitespace, and set sepp to NULL if complete */
if (sepp) {
skip_whitespace(sepp);
if (*sepp == 0)
sepp = NULL;
}
/*
* At this point:
* o 'n' is the length of current 'np' component.
* o 'idxp' is set if there was an index, and value 'idx'.
* o 'sepp' is set to the beginning of the next component,
* and set to NULL if we have no more components.
*
* Search for nvpair with matching component name.
*/
for (nvp = nvlist_next_nvpair(nvl, NULL); nvp != NULL;
nvp = nvlist_next_nvpair(nvl, nvp)) {
/* continue if no match on name */
if (strncmp(np, nvpair_name(nvp), n) ||
(strlen(nvpair_name(nvp)) != n))
continue;
/* if indexed, verify type is array oriented */
if (idxp && !nvpair_type_is_array(nvp))
goto fail;
/*
* Full match found, return nvp and idx if this
* was the last component.
*/
if (sepp == NULL) {
if (ret)
*ret = nvp;
if (ip && idxp)
*ip = (int)idx; /* return index */
return (0); /* found */
}
/*
* More components: current match must be
* of DATA_TYPE_NVLIST or DATA_TYPE_NVLIST_ARRAY
* to support going deeper.
*/
if (nvpair_type(nvp) == DATA_TYPE_NVLIST) {
nvl = EMBEDDED_NVL(nvp);
break;
} else if (nvpair_type(nvp) == DATA_TYPE_NVLIST_ARRAY) {
if (nvpair_value_nvlist_array(nvp,
&nva, (uint_t *)&n) != 0)
goto fail;
if (nva == NULL)
goto fail;
if ((n < 0) || (idx >= n))
goto fail;
nvl = nva[idx];
break;
}
/* type does not support more levels */
goto fail;
2008-11-20 23:01:55 +03:00
}
if (nvp == NULL)
goto fail; /* 'name' not found */
/* search for match of next component in embedded 'nvl' list */
2008-11-20 23:01:55 +03:00
}
fail: if (ep && sepp)
*ep = sepp;
return (EINVAL);
}
/*
* Return pointer to nvpair with specified 'name'.
*/
int
nvlist_lookup_nvpair(nvlist_t *nvl, const char *name, nvpair_t **ret)
{
return (nvlist_lookup_nvpair_ei_sep(nvl, name, 0, ret, NULL, NULL));
}
/*
* Determine if named nvpair exists in nvlist (use embedded separator of '.'
* and return array index). See nvlist_lookup_nvpair_ei_sep for more detailed
* description.
*/
int nvlist_lookup_nvpair_embedded_index(nvlist_t *nvl,
const char *name, nvpair_t **ret, int *ip, const char **ep)
{
return (nvlist_lookup_nvpair_ei_sep(nvl, name, '.', ret, ip, ep));
2008-11-20 23:01:55 +03:00
}
boolean_t
nvlist_exists(const nvlist_t *nvl, const char *name)
2008-11-20 23:01:55 +03:00
{
nvpriv_t *priv;
nvpair_t *nvp;
i_nvp_t *curr;
if (name == NULL || nvl == NULL ||
(priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (B_FALSE);
for (curr = priv->nvp_list; curr != NULL; curr = curr->nvi_next) {
nvp = &curr->nvi_nvp;
if (strcmp(name, NVP_NAME(nvp)) == 0)
return (B_TRUE);
}
return (B_FALSE);
}
int
nvpair_value_boolean_value(const nvpair_t *nvp, boolean_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_BOOLEAN_VALUE, NULL, val));
}
int
nvpair_value_byte(const nvpair_t *nvp, uchar_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_BYTE, NULL, val));
}
int
nvpair_value_int8(const nvpair_t *nvp, int8_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_INT8, NULL, val));
}
int
nvpair_value_uint8(const nvpair_t *nvp, uint8_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT8, NULL, val));
}
int
nvpair_value_int16(const nvpair_t *nvp, int16_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_INT16, NULL, val));
}
int
nvpair_value_uint16(const nvpair_t *nvp, uint16_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT16, NULL, val));
}
int
nvpair_value_int32(const nvpair_t *nvp, int32_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_INT32, NULL, val));
}
int
nvpair_value_uint32(const nvpair_t *nvp, uint32_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT32, NULL, val));
}
int
nvpair_value_int64(const nvpair_t *nvp, int64_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_INT64, NULL, val));
}
int
nvpair_value_uint64(const nvpair_t *nvp, uint64_t *val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT64, NULL, val));
}
#if !defined(_KERNEL)
int
nvpair_value_double(const nvpair_t *nvp, double *val)
{
return (nvpair_value_common(nvp, DATA_TYPE_DOUBLE, NULL, val));
}
#endif
2008-11-20 23:01:55 +03:00
int
nvpair_value_string(const nvpair_t *nvp, const char **val)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_STRING, NULL, val));
}
int
nvpair_value_nvlist(nvpair_t *nvp, nvlist_t **val)
{
return (nvpair_value_common(nvp, DATA_TYPE_NVLIST, NULL, val));
}
int
nvpair_value_boolean_array(nvpair_t *nvp, boolean_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_BOOLEAN_ARRAY, nelem, val));
}
int
nvpair_value_byte_array(nvpair_t *nvp, uchar_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_BYTE_ARRAY, nelem, val));
}
int
nvpair_value_int8_array(nvpair_t *nvp, int8_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_INT8_ARRAY, nelem, val));
}
int
nvpair_value_uint8_array(nvpair_t *nvp, uint8_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT8_ARRAY, nelem, val));
}
int
nvpair_value_int16_array(nvpair_t *nvp, int16_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_INT16_ARRAY, nelem, val));
}
int
nvpair_value_uint16_array(nvpair_t *nvp, uint16_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT16_ARRAY, nelem, val));
}
int
nvpair_value_int32_array(nvpair_t *nvp, int32_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_INT32_ARRAY, nelem, val));
}
int
nvpair_value_uint32_array(nvpair_t *nvp, uint32_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT32_ARRAY, nelem, val));
}
int
nvpair_value_int64_array(nvpair_t *nvp, int64_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_INT64_ARRAY, nelem, val));
}
int
nvpair_value_uint64_array(nvpair_t *nvp, uint64_t **val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_UINT64_ARRAY, nelem, val));
}
int
nvpair_value_string_array(nvpair_t *nvp, const char ***val, uint_t *nelem)
2008-11-20 23:01:55 +03:00
{
return (nvpair_value_common(nvp, DATA_TYPE_STRING_ARRAY, nelem, val));
}
int
nvpair_value_nvlist_array(nvpair_t *nvp, nvlist_t ***val, uint_t *nelem)
{
return (nvpair_value_common(nvp, DATA_TYPE_NVLIST_ARRAY, nelem, val));
}
int
nvpair_value_hrtime(nvpair_t *nvp, hrtime_t *val)
{
return (nvpair_value_common(nvp, DATA_TYPE_HRTIME, NULL, val));
}
/*
* Add specified pair to the list.
*/
int
nvlist_add_nvpair(nvlist_t *nvl, nvpair_t *nvp)
{
if (nvl == NULL || nvp == NULL)
return (EINVAL);
return (nvlist_add_common(nvl, NVP_NAME(nvp), NVP_TYPE(nvp),
NVP_NELEM(nvp), NVP_VALUE(nvp)));
}
/*
* Merge the supplied nvlists and put the result in dst.
* The merged list will contain all names specified in both lists,
* the values are taken from nvl in the case of duplicates.
* Return 0 on success.
*/
int
nvlist_merge(nvlist_t *dst, nvlist_t *nvl, int flag)
{
(void) flag;
2008-11-20 23:01:55 +03:00
if (nvl == NULL || dst == NULL)
return (EINVAL);
if (dst != nvl)
return (nvlist_copy_pairs(nvl, dst));
return (0);
}
/*
* Encoding related routines
*/
#define NVS_OP_ENCODE 0
#define NVS_OP_DECODE 1
#define NVS_OP_GETSIZE 2
typedef struct nvs_ops nvs_ops_t;
typedef struct {
int nvs_op;
const nvs_ops_t *nvs_ops;
void *nvs_private;
nvpriv_t *nvs_priv;
int nvs_recursion;
2008-11-20 23:01:55 +03:00
} nvstream_t;
/*
* nvs operations are:
* - nvs_nvlist
* encoding / decoding of an nvlist header (nvlist_t)
2008-11-20 23:01:55 +03:00
* calculates the size used for header and end detection
*
* - nvs_nvpair
* responsible for the first part of encoding / decoding of an nvpair
* calculates the decoded size of an nvpair
*
* - nvs_nvp_op
* second part of encoding / decoding of an nvpair
*
* - nvs_nvp_size
* calculates the encoding size of an nvpair
*
* - nvs_nvl_fini
* encodes the end detection mark (zeros).
*/
struct nvs_ops {
int (*nvs_nvlist)(nvstream_t *, nvlist_t *, size_t *);
int (*nvs_nvpair)(nvstream_t *, nvpair_t *, size_t *);
int (*nvs_nvp_op)(nvstream_t *, nvpair_t *);
int (*nvs_nvp_size)(nvstream_t *, nvpair_t *, size_t *);
int (*nvs_nvl_fini)(nvstream_t *);
};
typedef struct {
char nvh_encoding; /* nvs encoding method */
char nvh_endian; /* nvs endian */
char nvh_reserved1; /* reserved for future use */
char nvh_reserved2; /* reserved for future use */
} nvs_header_t;
static int
nvs_encode_pairs(nvstream_t *nvs, nvlist_t *nvl)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
i_nvp_t *curr;
/*
* Walk nvpair in list and encode each nvpair
*/
for (curr = priv->nvp_list; curr != NULL; curr = curr->nvi_next)
if (nvs->nvs_ops->nvs_nvpair(nvs, &curr->nvi_nvp, NULL) != 0)
return (EFAULT);
return (nvs->nvs_ops->nvs_nvl_fini(nvs));
}
static int
nvs_decode_pairs(nvstream_t *nvs, nvlist_t *nvl)
{
nvpair_t *nvp;
size_t nvsize;
int err;
/*
* Get decoded size of next pair in stream, alloc
* memory for nvpair_t, then decode the nvpair
*/
while ((err = nvs->nvs_ops->nvs_nvpair(nvs, NULL, &nvsize)) == 0) {
if (nvsize == 0) /* end of list */
break;
/* make sure len makes sense */
if (nvsize < NVP_SIZE_CALC(1, 0))
return (EFAULT);
if ((nvp = nvp_buf_alloc(nvl, nvsize)) == NULL)
return (ENOMEM);
if ((err = nvs->nvs_ops->nvs_nvp_op(nvs, nvp)) != 0) {
nvp_buf_free(nvl, nvp);
return (err);
}
if (i_validate_nvpair(nvp) != 0) {
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
return (EFAULT);
}
OpenZFS 9580 - Add a hash-table on top of nvlist to speed-up operations = Motivation While dealing with another performance issue (see 126118f) we noticed that we spend a lot of time in various places in the kernel when constructing long nvlists. The problem is that when an nvlist is created with the NV_UNIQUE_NAME set (which is the case most of the time), we do a linear search through the whole list to ensure uniqueness for every entry we add. An example of the above scenario can be seen in the following flamegraph, where more than have the time of the zfsdev_ioctl() is spent on constructing nvlists. Flamegraph: https://sdimitro.github.io/img/flame/sdimitro_snap_unmount3.svg Adding a table to speed up lookups will help situations where we just construct an nvlist (like the scenario above), in addition to regular lookups and removals. = What this patch does In this diff we've implemented a hash-table on top of the nvlist code that converts most nvlist operations from O(# number of entries) to O(1)* (the start is for amortized time as the hash-table grows and shrinks depending on the # of entries - plain lookup is strictly O(1)). = Performance Analysis To analyze the performance improvement I just used the setup from the snapshot deletion issue mentioned above in the Motivation section. Basically I created 10K filesystems with one snapshot each and then I just used the API of libZFS_Core to pass down an nvlist of all the snapshots to have them deleted. The reason I used my own driver program was to have clean performance results of what actually happens in the kernel. The flamegraphs and wall clock times mentioned below were gathered from the start to the end of the driver program's run. Between trials the testpool used was completely destroyed, the system was rebooted and the testpool was completely recreated. The reason for this dance was to get consistent results. == Results (before patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3.svg === Wall clock times (in seconds) ``` [Trial 4] real 5.3 user 0.4 sys 2.3 [Trial 5] real 8.2 user 0.4 sys 2.4 [Trial 6] real 6.0 user 0.5 sys 2.3 ``` == Results (after patch): === Sampling Flamegraphs [Trial 1] https://sdimitro.github.io/img/flame/DLPX-53417/trial-Ae.svg [Trial 2] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A2e.svg [Trial 3] https://sdimitro.github.io/img/flame/DLPX-53417/trial-A3e.svg === Wall clock times (in seconds) ``` [Trial 4] real 4.9 user 0.0 sys 0.9 [Trial 5] real 3.8 user 0.0 sys 0.9 [Trial 6] real 3.6 user 0.0 sys 0.9 ``` == Analysis The results between the trials are consistent so in this sections I will only talk about the flamegraph results from trial-1 and the wall-clock results from trial-4. From trial-1 we can see that zfs_dev_ioctl() goes from 2,331 to 996 samples counts. Specifically, the samples from fnvlist_add_nvlist() and spa_history_log_nvl() are almost gone (~500 & ~800 to 5 & 5 samples), leaving zfs_ioc_destroy_snaps() to dominate most samples from zfs_dev_ioctl(). From trial-4 we see that the user time dropped to 0 secods. I believe the consistent 0.4 seconds before my patch was applied was due to my driver program constructing the long nvlist of snapshots so it can pass it to the kernel. As for the system time, the effect there is more clear (2.3 down to 0.9 seconds). Porting Notes: * DATA_TYPE_DONTCARE case added to switch in fm_nvprintr() and zpool_do_events_nvprint(). Authored by: Serapheim Dimitropoulos <serapheim.dimitro@delphix.com> Reviewed by: Matt Ahrens <matt@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Robert Mustacchi <rm@joyent.com> Ported-by: Brian Behlendorf <behlendorf1@llnl.gov> OpenZFS-issue: https://www.illumos.org/issues/9580 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/b5eca7b1 Closes #7748
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err = nvt_add_nvpair(nvl, nvp);
if (err != 0) {
nvpair_free(nvp);
nvp_buf_free(nvl, nvp);
return (err);
}
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nvp_buf_link(nvl, nvp);
}
return (err);
}
static int
nvs_getsize_pairs(nvstream_t *nvs, nvlist_t *nvl, size_t *buflen)
{
nvpriv_t *priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv;
i_nvp_t *curr;
uint64_t nvsize = *buflen;
size_t size;
/*
* Get encoded size of nvpairs in nvlist
*/
for (curr = priv->nvp_list; curr != NULL; curr = curr->nvi_next) {
if (nvs->nvs_ops->nvs_nvp_size(nvs, &curr->nvi_nvp, &size) != 0)
return (EINVAL);
if ((nvsize += size) > INT32_MAX)
return (EINVAL);
}
*buflen = nvsize;
return (0);
}
static int
nvs_operation(nvstream_t *nvs, nvlist_t *nvl, size_t *buflen)
{
int err;
if (nvl->nvl_priv == 0)
return (EFAULT);
/*
* Perform the operation, starting with header, then each nvpair
*/
if ((err = nvs->nvs_ops->nvs_nvlist(nvs, nvl, buflen)) != 0)
return (err);
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
err = nvs_encode_pairs(nvs, nvl);
break;
case NVS_OP_DECODE:
err = nvs_decode_pairs(nvs, nvl);
break;
case NVS_OP_GETSIZE:
err = nvs_getsize_pairs(nvs, nvl, buflen);
break;
default:
err = EINVAL;
}
return (err);
}
static int
nvs_embedded(nvstream_t *nvs, nvlist_t *embedded)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE: {
int err;
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if (nvs->nvs_recursion >= nvpair_max_recursion)
return (EINVAL);
nvs->nvs_recursion++;
err = nvs_operation(nvs, embedded, NULL);
nvs->nvs_recursion--;
return (err);
}
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case NVS_OP_DECODE: {
nvpriv_t *priv;
int err;
if (embedded->nvl_version != NV_VERSION)
return (ENOTSUP);
if ((priv = nv_priv_alloc_embedded(nvs->nvs_priv)) == NULL)
return (ENOMEM);
nvlist_init(embedded, embedded->nvl_nvflag, priv);
if (nvs->nvs_recursion >= nvpair_max_recursion) {
nvlist_free(embedded);
return (EINVAL);
}
nvs->nvs_recursion++;
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if ((err = nvs_operation(nvs, embedded, NULL)) != 0)
nvlist_free(embedded);
nvs->nvs_recursion--;
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return (err);
}
default:
break;
}
return (EINVAL);
}
static int
nvs_embedded_nvl_array(nvstream_t *nvs, nvpair_t *nvp, size_t *size)
{
size_t nelem = NVP_NELEM(nvp);
nvlist_t **nvlp = EMBEDDED_NVL_ARRAY(nvp);
int i;
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
for (i = 0; i < nelem; i++)
if (nvs_embedded(nvs, nvlp[i]) != 0)
return (EFAULT);
break;
case NVS_OP_DECODE: {
size_t len = nelem * sizeof (uint64_t);
nvlist_t *embedded = (nvlist_t *)((uintptr_t)nvlp + len);
memset(nvlp, 0, len); /* don't trust packed data */
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for (i = 0; i < nelem; i++) {
if (nvs_embedded(nvs, embedded) != 0) {
nvpair_free(nvp);
return (EFAULT);
}
nvlp[i] = embedded++;
}
break;
}
case NVS_OP_GETSIZE: {
uint64_t nvsize = 0;
for (i = 0; i < nelem; i++) {
size_t nvp_sz = 0;
if (nvs_operation(nvs, nvlp[i], &nvp_sz) != 0)
return (EINVAL);
if ((nvsize += nvp_sz) > INT32_MAX)
return (EINVAL);
}
*size = nvsize;
break;
}
default:
return (EINVAL);
}
return (0);
}
static int nvs_native(nvstream_t *, nvlist_t *, char *, size_t *);
static int nvs_xdr(nvstream_t *, nvlist_t *, char *, size_t *);
/*
* Common routine for nvlist operations:
* encode, decode, getsize (encoded size).
*/
static int
nvlist_common(nvlist_t *nvl, char *buf, size_t *buflen, int encoding,
int nvs_op)
{
int err = 0;
nvstream_t nvs;
int nvl_endian;
#if defined(_ZFS_LITTLE_ENDIAN)
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int host_endian = 1;
#elif defined(_ZFS_BIG_ENDIAN)
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int host_endian = 0;
#else
#error "No endian defined!"
#endif /* _ZFS_LITTLE_ENDIAN */
nvs_header_t *nvh;
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if (buflen == NULL || nvl == NULL ||
(nvs.nvs_priv = (nvpriv_t *)(uintptr_t)nvl->nvl_priv) == NULL)
return (EINVAL);
nvs.nvs_op = nvs_op;
nvs.nvs_recursion = 0;
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/*
* For NVS_OP_ENCODE and NVS_OP_DECODE make sure an nvlist and
* a buffer is allocated. The first 4 bytes in the buffer are
* used for encoding method and host endian.
*/
switch (nvs_op) {
case NVS_OP_ENCODE:
if (buf == NULL || *buflen < sizeof (nvs_header_t))
return (EINVAL);
nvh = (void *)buf;
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nvh->nvh_encoding = encoding;
nvh->nvh_endian = nvl_endian = host_endian;
nvh->nvh_reserved1 = 0;
nvh->nvh_reserved2 = 0;
break;
case NVS_OP_DECODE:
if (buf == NULL || *buflen < sizeof (nvs_header_t))
return (EINVAL);
/* get method of encoding from first byte */
nvh = (void *)buf;
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encoding = nvh->nvh_encoding;
nvl_endian = nvh->nvh_endian;
break;
case NVS_OP_GETSIZE:
nvl_endian = host_endian;
/*
* add the size for encoding
*/
*buflen = sizeof (nvs_header_t);
break;
default:
return (ENOTSUP);
}
/*
* Create an nvstream with proper encoding method
*/
switch (encoding) {
case NV_ENCODE_NATIVE:
/*
* check endianness, in case we are unpacking
* from a file
*/
if (nvl_endian != host_endian)
return (ENOTSUP);
err = nvs_native(&nvs, nvl, buf, buflen);
break;
case NV_ENCODE_XDR:
err = nvs_xdr(&nvs, nvl, buf, buflen);
break;
default:
err = ENOTSUP;
break;
}
return (err);
}
int
nvlist_size(nvlist_t *nvl, size_t *size, int encoding)
{
return (nvlist_common(nvl, NULL, size, encoding, NVS_OP_GETSIZE));
}
/*
* Pack nvlist into contiguous memory
*/
int
nvlist_pack(nvlist_t *nvl, char **bufp, size_t *buflen, int encoding,
int kmflag)
{
return (nvlist_xpack(nvl, bufp, buflen, encoding,
nvlist_nv_alloc(kmflag)));
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}
int
nvlist_xpack(nvlist_t *nvl, char **bufp, size_t *buflen, int encoding,
nv_alloc_t *nva)
{
nvpriv_t nvpriv;
size_t alloc_size;
char *buf;
int err;
if (nva == NULL || nvl == NULL || bufp == NULL || buflen == NULL)
return (EINVAL);
if (*bufp != NULL)
return (nvlist_common(nvl, *bufp, buflen, encoding,
NVS_OP_ENCODE));
/*
* Here is a difficult situation:
* 1. The nvlist has fixed allocator properties.
* All other nvlist routines (like nvlist_add_*, ...) use
* these properties.
* 2. When using nvlist_pack() the user can specify their own
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* allocator properties (e.g. by using KM_NOSLEEP).
*
* We use the user specified properties (2). A clearer solution
* will be to remove the kmflag from nvlist_pack(), but we will
* not change the interface.
*/
nv_priv_init(&nvpriv, nva, 0);
if ((err = nvlist_size(nvl, &alloc_size, encoding)))
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return (err);
if ((buf = nv_mem_zalloc(&nvpriv, alloc_size)) == NULL)
return (ENOMEM);
if ((err = nvlist_common(nvl, buf, &alloc_size, encoding,
NVS_OP_ENCODE)) != 0) {
nv_mem_free(&nvpriv, buf, alloc_size);
} else {
*buflen = alloc_size;
*bufp = buf;
}
return (err);
}
/*
* Unpack buf into an nvlist_t
*/
int
nvlist_unpack(char *buf, size_t buflen, nvlist_t **nvlp, int kmflag)
{
return (nvlist_xunpack(buf, buflen, nvlp, nvlist_nv_alloc(kmflag)));
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}
int
nvlist_xunpack(char *buf, size_t buflen, nvlist_t **nvlp, nv_alloc_t *nva)
{
nvlist_t *nvl;
int err;
if (nvlp == NULL)
return (EINVAL);
if ((err = nvlist_xalloc(&nvl, 0, nva)) != 0)
return (err);
if ((err = nvlist_common(nvl, buf, &buflen, NV_ENCODE_NATIVE,
NVS_OP_DECODE)) != 0)
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nvlist_free(nvl);
else
*nvlp = nvl;
return (err);
}
/*
* Native encoding functions
*/
typedef struct {
/*
* This structure is used when decoding a packed nvpair in
* the native format. n_base points to a buffer containing the
* packed nvpair. n_end is a pointer to the end of the buffer.
* (n_end actually points to the first byte past the end of the
* buffer.) n_curr is a pointer that lies between n_base and n_end.
* It points to the current data that we are decoding.
* The amount of data left in the buffer is equal to n_end - n_curr.
* n_flag is used to recognize a packed embedded list.
*/
caddr_t n_base;
caddr_t n_end;
caddr_t n_curr;
uint_t n_flag;
} nvs_native_t;
static int
nvs_native_create(nvstream_t *nvs, nvs_native_t *native, char *buf,
size_t buflen)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
case NVS_OP_DECODE:
nvs->nvs_private = native;
native->n_curr = native->n_base = buf;
native->n_end = buf + buflen;
native->n_flag = 0;
return (0);
case NVS_OP_GETSIZE:
nvs->nvs_private = native;
native->n_curr = native->n_base = native->n_end = NULL;
native->n_flag = 0;
return (0);
default:
return (EINVAL);
}
}
static void
nvs_native_destroy(nvstream_t *nvs)
{
nvs->nvs_private = NULL;
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}
static int
native_cp(nvstream_t *nvs, void *buf, size_t size)
{
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
if (native->n_curr + size > native->n_end)
return (EFAULT);
/*
* The memcpy() below eliminates alignment requirement
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* on the buffer (stream) and is preferred over direct access.
*/
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
memcpy(native->n_curr, buf, size);
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break;
case NVS_OP_DECODE:
memcpy(buf, native->n_curr, size);
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break;
default:
return (EINVAL);
}
native->n_curr += size;
return (0);
}
/*
* operate on nvlist_t header
*/
static int
nvs_native_nvlist(nvstream_t *nvs, nvlist_t *nvl, size_t *size)
{
nvs_native_t *native = nvs->nvs_private;
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
case NVS_OP_DECODE:
if (native->n_flag)
return (0); /* packed embedded list */
native->n_flag = 1;
/* copy version and nvflag of the nvlist_t */
if (native_cp(nvs, &nvl->nvl_version, sizeof (int32_t)) != 0 ||
native_cp(nvs, &nvl->nvl_nvflag, sizeof (int32_t)) != 0)
return (EFAULT);
return (0);
case NVS_OP_GETSIZE:
/*
* if calculate for packed embedded list
* 4 for end of the embedded list
* else
* 2 * sizeof (int32_t) for nvl_version and nvl_nvflag
* and 4 for end of the entire list
*/
if (native->n_flag) {
*size += 4;
} else {
native->n_flag = 1;
*size += 2 * sizeof (int32_t) + 4;
}
return (0);
default:
return (EINVAL);
}
}
static int
nvs_native_nvl_fini(nvstream_t *nvs)
{
if (nvs->nvs_op == NVS_OP_ENCODE) {
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
/*
* Add 4 zero bytes at end of nvlist. They are used
* for end detection by the decode routine.
*/
if (native->n_curr + sizeof (int) > native->n_end)
return (EFAULT);
memset(native->n_curr, 0, sizeof (int));
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native->n_curr += sizeof (int);
}
return (0);
}
static int
nvpair_native_embedded(nvstream_t *nvs, nvpair_t *nvp)
{
if (nvs->nvs_op == NVS_OP_ENCODE) {
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
nvlist_t *packed = (void *)
(native->n_curr - nvp->nvp_size + NVP_VALOFF(nvp));
/*
* Null out the pointer that is meaningless in the packed
* structure. The address may not be aligned, so we have
* to use memset.
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*/
memset((char *)packed + offsetof(nvlist_t, nvl_priv),
0, sizeof (uint64_t));
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}
return (nvs_embedded(nvs, EMBEDDED_NVL(nvp)));
}
static int
nvpair_native_embedded_array(nvstream_t *nvs, nvpair_t *nvp)
{
if (nvs->nvs_op == NVS_OP_ENCODE) {
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
char *value = native->n_curr - nvp->nvp_size + NVP_VALOFF(nvp);
size_t len = NVP_NELEM(nvp) * sizeof (uint64_t);
nvlist_t *packed = (nvlist_t *)((uintptr_t)value + len);
int i;
/*
* Null out pointers that are meaningless in the packed
* structure. The addresses may not be aligned, so we have
* to use memset.
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*/
memset(value, 0, len);
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for (i = 0; i < NVP_NELEM(nvp); i++, packed++)
/*
* Null out the pointer that is meaningless in the
* packed structure. The address may not be aligned,
* so we have to use memset.
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*/
memset((char *)packed + offsetof(nvlist_t, nvl_priv),
0, sizeof (uint64_t));
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}
return (nvs_embedded_nvl_array(nvs, nvp, NULL));
}
static void
nvpair_native_string_array(nvstream_t *nvs, nvpair_t *nvp)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE: {
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
uint64_t *strp = (void *)
(native->n_curr - nvp->nvp_size + NVP_VALOFF(nvp));
/*
* Null out pointers that are meaningless in the packed
* structure. The addresses may not be aligned, so we have
* to use memset.
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*/
memset(strp, 0, NVP_NELEM(nvp) * sizeof (uint64_t));
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break;
}
case NVS_OP_DECODE: {
char **strp = (void *)NVP_VALUE(nvp);
char *buf = ((char *)strp + NVP_NELEM(nvp) * sizeof (uint64_t));
int i;
for (i = 0; i < NVP_NELEM(nvp); i++) {
strp[i] = buf;
buf += strlen(buf) + 1;
}
break;
}
}
}
static int
nvs_native_nvp_op(nvstream_t *nvs, nvpair_t *nvp)
{
data_type_t type;
int value_sz;
int ret = 0;
/*
* We do the initial memcpy of the data before we look at
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* the nvpair type, because when we're decoding, we won't
* have the correct values for the pair until we do the memcpy.
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*/
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
case NVS_OP_DECODE:
if (native_cp(nvs, nvp, nvp->nvp_size) != 0)
return (EFAULT);
break;
default:
return (EINVAL);
}
/* verify nvp_name_sz, check the name string length */
if (i_validate_nvpair_name(nvp) != 0)
return (EFAULT);
type = NVP_TYPE(nvp);
/*
* Verify type and nelem and get the value size.
* In case of data types DATA_TYPE_STRING and DATA_TYPE_STRING_ARRAY
* is the size of the string(s) excluded.
*/
if ((value_sz = i_get_value_size(type, NULL, NVP_NELEM(nvp))) < 0)
return (EFAULT);
if (NVP_SIZE_CALC(nvp->nvp_name_sz, value_sz) > nvp->nvp_size)
return (EFAULT);
switch (type) {
case DATA_TYPE_NVLIST:
ret = nvpair_native_embedded(nvs, nvp);
break;
case DATA_TYPE_NVLIST_ARRAY:
ret = nvpair_native_embedded_array(nvs, nvp);
break;
case DATA_TYPE_STRING_ARRAY:
nvpair_native_string_array(nvs, nvp);
break;
default:
break;
}
return (ret);
}
static int
nvs_native_nvp_size(nvstream_t *nvs, nvpair_t *nvp, size_t *size)
{
uint64_t nvp_sz = nvp->nvp_size;
switch (NVP_TYPE(nvp)) {
case DATA_TYPE_NVLIST: {
size_t nvsize = 0;
if (nvs_operation(nvs, EMBEDDED_NVL(nvp), &nvsize) != 0)
return (EINVAL);
nvp_sz += nvsize;
break;
}
case DATA_TYPE_NVLIST_ARRAY: {
size_t nvsize;
if (nvs_embedded_nvl_array(nvs, nvp, &nvsize) != 0)
return (EINVAL);
nvp_sz += nvsize;
break;
}
default:
break;
}
if (nvp_sz > INT32_MAX)
return (EINVAL);
*size = nvp_sz;
return (0);
}
static int
nvs_native_nvpair(nvstream_t *nvs, nvpair_t *nvp, size_t *size)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
return (nvs_native_nvp_op(nvs, nvp));
case NVS_OP_DECODE: {
nvs_native_t *native = (nvs_native_t *)nvs->nvs_private;
int32_t decode_len;
/* try to read the size value from the stream */
if (native->n_curr + sizeof (int32_t) > native->n_end)
return (EFAULT);
memcpy(&decode_len, native->n_curr, sizeof (int32_t));
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/* sanity check the size value */
if (decode_len < 0 ||
decode_len > native->n_end - native->n_curr)
return (EFAULT);
*size = decode_len;
/*
* If at the end of the stream then move the cursor
* forward, otherwise nvpair_native_op() will read
* the entire nvpair at the same cursor position.
*/
if (*size == 0)
native->n_curr += sizeof (int32_t);
break;
}
default:
return (EINVAL);
}
return (0);
}
static const nvs_ops_t nvs_native_ops = {
.nvs_nvlist = nvs_native_nvlist,
.nvs_nvpair = nvs_native_nvpair,
.nvs_nvp_op = nvs_native_nvp_op,
.nvs_nvp_size = nvs_native_nvp_size,
.nvs_nvl_fini = nvs_native_nvl_fini
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};
static int
nvs_native(nvstream_t *nvs, nvlist_t *nvl, char *buf, size_t *buflen)
{
nvs_native_t native;
int err;
nvs->nvs_ops = &nvs_native_ops;
if ((err = nvs_native_create(nvs, &native, buf + sizeof (nvs_header_t),
*buflen - sizeof (nvs_header_t))) != 0)
return (err);
err = nvs_operation(nvs, nvl, buflen);
nvs_native_destroy(nvs);
return (err);
}
/*
* XDR encoding functions
*
* An xdr packed nvlist is encoded as:
*
* - encoding method and host endian (4 bytes)
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* - nvl_version (4 bytes)
* - nvl_nvflag (4 bytes)
*
* - encoded nvpairs, the format of one xdr encoded nvpair is:
* - encoded size of the nvpair (4 bytes)
* - decoded size of the nvpair (4 bytes)
* - name string, (4 + sizeof(NV_ALIGN4(string))
* a string is coded as size (4 bytes) and data
* - data type (4 bytes)
* - number of elements in the nvpair (4 bytes)
* - data
*
* - 2 zero's for end of the entire list (8 bytes)
*/
static int
nvs_xdr_create(nvstream_t *nvs, XDR *xdr, char *buf, size_t buflen)
{
/* xdr data must be 4 byte aligned */
if ((ulong_t)buf % 4 != 0)
return (EFAULT);
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
xdrmem_create(xdr, buf, (uint_t)buflen, XDR_ENCODE);
nvs->nvs_private = xdr;
return (0);
case NVS_OP_DECODE:
xdrmem_create(xdr, buf, (uint_t)buflen, XDR_DECODE);
nvs->nvs_private = xdr;
return (0);
case NVS_OP_GETSIZE:
nvs->nvs_private = NULL;
return (0);
default:
return (EINVAL);
}
}
static void
nvs_xdr_destroy(nvstream_t *nvs)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
case NVS_OP_DECODE:
nvs->nvs_private = NULL;
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break;
default:
break;
}
}
static int
nvs_xdr_nvlist(nvstream_t *nvs, nvlist_t *nvl, size_t *size)
{
switch (nvs->nvs_op) {
case NVS_OP_ENCODE:
case NVS_OP_DECODE: {
XDR *xdr = nvs->nvs_private;
if (!xdr_int(xdr, &nvl->nvl_version) ||
!xdr_u_int(xdr, &nvl->nvl_nvflag))
return (EFAULT);
break;
}
case NVS_OP_GETSIZE: {
/*
* 2 * 4 for nvl_version + nvl_nvflag
* and 8 for end of the entire list
*/
*size += 2 * 4 + 8;
break;
}
default:
return (EINVAL);
}
return (0);
}
static int
nvs_xdr_nvl_fini(nvstream_t *nvs)
{
if (nvs->nvs_op == NVS_OP_ENCODE) {
XDR *xdr = nvs->nvs_private;
int zero = 0;
if (!xdr_int(xdr, &zero) || !xdr_int(xdr, &zero))
return (EFAULT);
}
return (0);
}
/*
* xdrproc_t-compatible callbacks for xdr_array()
*/
#if defined(_KERNEL) && defined(__linux__) /* Linux kernel */
#define NVS_BUILD_XDRPROC_T(type) \
static bool_t \
nvs_xdr_nvp_##type(XDR *xdrs, void *ptr) \
{ \
return (xdr_##type(xdrs, ptr)); \
}
#elif !defined(_KERNEL) && defined(XDR_CONTROL) /* tirpc */
#define NVS_BUILD_XDRPROC_T(type) \
static bool_t \
nvs_xdr_nvp_##type(XDR *xdrs, ...) \
{ \
va_list args; \
void *ptr; \
\
va_start(args, xdrs); \
ptr = va_arg(args, void *); \
va_end(args); \
\
return (xdr_##type(xdrs, ptr)); \
}
#else /* FreeBSD, sunrpc */
#define NVS_BUILD_XDRPROC_T(type) \
static bool_t \
nvs_xdr_nvp_##type(XDR *xdrs, void *ptr, ...) \
{ \
return (xdr_##type(xdrs, ptr)); \
}
#endif
/* BEGIN CSTYLED */
NVS_BUILD_XDRPROC_T(char);
NVS_BUILD_XDRPROC_T(short);
NVS_BUILD_XDRPROC_T(u_short);
NVS_BUILD_XDRPROC_T(int);
NVS_BUILD_XDRPROC_T(u_int);
NVS_BUILD_XDRPROC_T(longlong_t);
NVS_BUILD_XDRPROC_T(u_longlong_t);
/* END CSTYLED */
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/*
* The format of xdr encoded nvpair is:
* encode_size, decode_size, name string, data type, nelem, data
*/
static int
nvs_xdr_nvp_op(nvstream_t *nvs, nvpair_t *nvp)
{
ASSERT(nvs != NULL && nvp != NULL);
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data_type_t type;
char *buf;
char *buf_end = (char *)nvp + nvp->nvp_size;
int value_sz;
uint_t nelem, buflen;
bool_t ret = FALSE;
XDR *xdr = nvs->nvs_private;
ASSERT(xdr != NULL);
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/* name string */
if ((buf = NVP_NAME(nvp)) >= buf_end)
return (EFAULT);
buflen = buf_end - buf;
if (!xdr_string(xdr, &buf, buflen - 1))
return (EFAULT);
nvp->nvp_name_sz = strlen(buf) + 1;
/* type and nelem */
if (!xdr_int(xdr, (int *)&nvp->nvp_type) ||
!xdr_int(xdr, &nvp->nvp_value_elem))
return (EFAULT);
type = NVP_TYPE(nvp);
nelem = nvp->nvp_value_elem;
/*
* Verify type and nelem and get the value size.
* In case of data types DATA_TYPE_STRING and DATA_TYPE_STRING_ARRAY
* is the size of the string(s) excluded.
*/
if ((value_sz = i_get_value_size(type, NULL, nelem)) < 0)
return (EFAULT);
/* if there is no data to extract then return */
if (nelem == 0)
return (0);
/* value */
if ((buf = NVP_VALUE(nvp)) >= buf_end)
return (EFAULT);
buflen = buf_end - buf;
if (buflen < value_sz)
return (EFAULT);
switch (type) {
case DATA_TYPE_NVLIST:
if (nvs_embedded(nvs, (void *)buf) == 0)
return (0);
break;
case DATA_TYPE_NVLIST_ARRAY:
if (nvs_embedded_nvl_array(nvs, nvp, NULL) == 0)
return (0);
break;
case DATA_TYPE_BOOLEAN:
ret = TRUE;
break;
case DATA_TYPE_BYTE:
case DATA_TYPE_INT8:
case DATA_TYPE_UINT8:
ret = xdr_char(xdr, buf);
break;
case DATA_TYPE_INT16:
ret = xdr_short(xdr, (void *)buf);
break;
case DATA_TYPE_UINT16:
ret = xdr_u_short(xdr, (void *)buf);
break;
case DATA_TYPE_BOOLEAN_VALUE:
case DATA_TYPE_INT32:
ret = xdr_int(xdr, (void *)buf);
break;
case DATA_TYPE_UINT32:
ret = xdr_u_int(xdr, (void *)buf);
break;
case DATA_TYPE_INT64:
ret = xdr_longlong_t(xdr, (void *)buf);
break;
case DATA_TYPE_UINT64:
ret = xdr_u_longlong_t(xdr, (void *)buf);
break;
case DATA_TYPE_HRTIME:
/*
* NOTE: must expose the definition of hrtime_t here
*/
ret = xdr_longlong_t(xdr, (void *)buf);
break;
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
ret = xdr_double(xdr, (void *)buf);
break;
#endif
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case DATA_TYPE_STRING:
ret = xdr_string(xdr, &buf, buflen - 1);
break;
case DATA_TYPE_BYTE_ARRAY:
ret = xdr_opaque(xdr, buf, nelem);
break;
case DATA_TYPE_INT8_ARRAY:
case DATA_TYPE_UINT8_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen, sizeof (int8_t),
nvs_xdr_nvp_char);
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break;
case DATA_TYPE_INT16_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (int16_t),
sizeof (int16_t), nvs_xdr_nvp_short);
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break;
case DATA_TYPE_UINT16_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (uint16_t),
sizeof (uint16_t), nvs_xdr_nvp_u_short);
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break;
case DATA_TYPE_BOOLEAN_ARRAY:
case DATA_TYPE_INT32_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (int32_t),
sizeof (int32_t), nvs_xdr_nvp_int);
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break;
case DATA_TYPE_UINT32_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (uint32_t),
sizeof (uint32_t), nvs_xdr_nvp_u_int);
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break;
case DATA_TYPE_INT64_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (int64_t),
sizeof (int64_t), nvs_xdr_nvp_longlong_t);
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break;
case DATA_TYPE_UINT64_ARRAY:
ret = xdr_array(xdr, &buf, &nelem, buflen / sizeof (uint64_t),
sizeof (uint64_t), nvs_xdr_nvp_u_longlong_t);
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break;
case DATA_TYPE_STRING_ARRAY: {
size_t len = nelem * sizeof (uint64_t);
char **strp = (void *)buf;
int i;
if (nvs->nvs_op == NVS_OP_DECODE)
memset(buf, 0, len); /* don't trust packed data */
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for (i = 0; i < nelem; i++) {
if (buflen <= len)
return (EFAULT);
buf += len;
buflen -= len;
if (xdr_string(xdr, &buf, buflen - 1) != TRUE)
return (EFAULT);
if (nvs->nvs_op == NVS_OP_DECODE)
strp[i] = buf;
len = strlen(buf) + 1;
}
ret = TRUE;
break;
}
default:
break;
}
return (ret == TRUE ? 0 : EFAULT);
}
static int
nvs_xdr_nvp_size(nvstream_t *nvs, nvpair_t *nvp, size_t *size)
{
data_type_t type = NVP_TYPE(nvp);
/*
* encode_size + decode_size + name string size + data type + nelem
* where name string size = 4 + NV_ALIGN4(strlen(NVP_NAME(nvp)))
*/
uint64_t nvp_sz = 4 + 4 + 4 + NV_ALIGN4(strlen(NVP_NAME(nvp))) + 4 + 4;
switch (type) {
case DATA_TYPE_BOOLEAN:
break;
case DATA_TYPE_BOOLEAN_VALUE:
case DATA_TYPE_BYTE:
case DATA_TYPE_INT8:
case DATA_TYPE_UINT8:
case DATA_TYPE_INT16:
case DATA_TYPE_UINT16:
case DATA_TYPE_INT32:
case DATA_TYPE_UINT32:
nvp_sz += 4; /* 4 is the minimum xdr unit */
break;
case DATA_TYPE_INT64:
case DATA_TYPE_UINT64:
case DATA_TYPE_HRTIME:
#if !defined(_KERNEL)
case DATA_TYPE_DOUBLE:
#endif
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nvp_sz += 8;
break;
case DATA_TYPE_STRING:
nvp_sz += 4 + NV_ALIGN4(strlen((char *)NVP_VALUE(nvp)));
break;
case DATA_TYPE_BYTE_ARRAY:
nvp_sz += NV_ALIGN4(NVP_NELEM(nvp));
break;
case DATA_TYPE_BOOLEAN_ARRAY:
case DATA_TYPE_INT8_ARRAY:
case DATA_TYPE_UINT8_ARRAY:
case DATA_TYPE_INT16_ARRAY:
case DATA_TYPE_UINT16_ARRAY:
case DATA_TYPE_INT32_ARRAY:
case DATA_TYPE_UINT32_ARRAY:
nvp_sz += 4 + 4 * (uint64_t)NVP_NELEM(nvp);
break;
case DATA_TYPE_INT64_ARRAY:
case DATA_TYPE_UINT64_ARRAY:
nvp_sz += 4 + 8 * (uint64_t)NVP_NELEM(nvp);
break;
case DATA_TYPE_STRING_ARRAY: {
int i;
char **strs = (void *)NVP_VALUE(nvp);
for (i = 0; i < NVP_NELEM(nvp); i++)
nvp_sz += 4 + NV_ALIGN4(strlen(strs[i]));
break;
}
case DATA_TYPE_NVLIST:
case DATA_TYPE_NVLIST_ARRAY: {
size_t nvsize = 0;
int old_nvs_op = nvs->nvs_op;
int err;
nvs->nvs_op = NVS_OP_GETSIZE;
if (type == DATA_TYPE_NVLIST)
err = nvs_operation(nvs, EMBEDDED_NVL(nvp), &nvsize);
else
err = nvs_embedded_nvl_array(nvs, nvp, &nvsize);
nvs->nvs_op = old_nvs_op;
if (err != 0)
return (EINVAL);
nvp_sz += nvsize;
break;
}
default:
return (EINVAL);
}
if (nvp_sz > INT32_MAX)
return (EINVAL);
*size = nvp_sz;
return (0);
}
/*
* The NVS_XDR_MAX_LEN macro takes a packed xdr buffer of size x and estimates
* the largest nvpair that could be encoded in the buffer.
*
* See comments above nvpair_xdr_op() for the format of xdr encoding.
* The size of a xdr packed nvpair without any data is 5 words.
*
* Using the size of the data directly as an estimate would be ok
* in all cases except one. If the data type is of DATA_TYPE_STRING_ARRAY
* then the actual nvpair has space for an array of pointers to index
* the strings. These pointers are not encoded into the packed xdr buffer.
*
* If the data is of type DATA_TYPE_STRING_ARRAY and all the strings are
* of length 0, then each string is encoded in xdr format as a single word.
2008-11-20 23:01:55 +03:00
* Therefore when expanded to an nvpair there will be 2.25 word used for
* each string. (a int64_t allocated for pointer usage, and a single char
* for the null termination.)
*
* This is the calculation performed by the NVS_XDR_MAX_LEN macro.
*/
#define NVS_XDR_HDR_LEN ((size_t)(5 * 4))
#define NVS_XDR_DATA_LEN(y) (((size_t)(y) <= NVS_XDR_HDR_LEN) ? \
0 : ((size_t)(y) - NVS_XDR_HDR_LEN))
#define NVS_XDR_MAX_LEN(x) (NVP_SIZE_CALC(1, 0) + \
(NVS_XDR_DATA_LEN(x) * 2) + \
NV_ALIGN4((NVS_XDR_DATA_LEN(x) / 4)))
static int
nvs_xdr_nvpair(nvstream_t *nvs, nvpair_t *nvp, size_t *size)
{
XDR *xdr = nvs->nvs_private;
int32_t encode_len, decode_len;
switch (nvs->nvs_op) {
case NVS_OP_ENCODE: {
size_t nvsize;
if (nvs_xdr_nvp_size(nvs, nvp, &nvsize) != 0)
return (EFAULT);
decode_len = nvp->nvp_size;
encode_len = nvsize;
if (!xdr_int(xdr, &encode_len) || !xdr_int(xdr, &decode_len))
return (EFAULT);
return (nvs_xdr_nvp_op(nvs, nvp));
}
case NVS_OP_DECODE: {
struct xdr_bytesrec bytesrec;
/* get the encode and decode size */
if (!xdr_int(xdr, &encode_len) || !xdr_int(xdr, &decode_len))
return (EFAULT);
*size = decode_len;
/* are we at the end of the stream? */
if (*size == 0)
return (0);
/* sanity check the size parameter */
if (!xdr_control(xdr, XDR_GET_BYTES_AVAIL, &bytesrec))
return (EFAULT);
if (*size > NVS_XDR_MAX_LEN(bytesrec.xc_num_avail))
return (EFAULT);
break;
}
default:
return (EINVAL);
}
return (0);
}
static const struct nvs_ops nvs_xdr_ops = {
.nvs_nvlist = nvs_xdr_nvlist,
.nvs_nvpair = nvs_xdr_nvpair,
.nvs_nvp_op = nvs_xdr_nvp_op,
.nvs_nvp_size = nvs_xdr_nvp_size,
.nvs_nvl_fini = nvs_xdr_nvl_fini
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};
static int
nvs_xdr(nvstream_t *nvs, nvlist_t *nvl, char *buf, size_t *buflen)
{
XDR xdr;
int err;
nvs->nvs_ops = &nvs_xdr_ops;
if ((err = nvs_xdr_create(nvs, &xdr, buf + sizeof (nvs_header_t),
*buflen - sizeof (nvs_header_t))) != 0)
return (err);
err = nvs_operation(nvs, nvl, buflen);
nvs_xdr_destroy(nvs);
return (err);
}
EXPORT_SYMBOL(nv_alloc_init);
EXPORT_SYMBOL(nv_alloc_reset);
EXPORT_SYMBOL(nv_alloc_fini);
/* list management */
EXPORT_SYMBOL(nvlist_alloc);
EXPORT_SYMBOL(nvlist_free);
EXPORT_SYMBOL(nvlist_size);
EXPORT_SYMBOL(nvlist_pack);
EXPORT_SYMBOL(nvlist_unpack);
EXPORT_SYMBOL(nvlist_dup);
EXPORT_SYMBOL(nvlist_merge);
EXPORT_SYMBOL(nvlist_xalloc);
EXPORT_SYMBOL(nvlist_xpack);
EXPORT_SYMBOL(nvlist_xunpack);
EXPORT_SYMBOL(nvlist_xdup);
EXPORT_SYMBOL(nvlist_lookup_nv_alloc);
EXPORT_SYMBOL(nvlist_add_nvpair);
EXPORT_SYMBOL(nvlist_add_boolean);
EXPORT_SYMBOL(nvlist_add_boolean_value);
EXPORT_SYMBOL(nvlist_add_byte);
EXPORT_SYMBOL(nvlist_add_int8);
EXPORT_SYMBOL(nvlist_add_uint8);
EXPORT_SYMBOL(nvlist_add_int16);
EXPORT_SYMBOL(nvlist_add_uint16);
EXPORT_SYMBOL(nvlist_add_int32);
EXPORT_SYMBOL(nvlist_add_uint32);
EXPORT_SYMBOL(nvlist_add_int64);
EXPORT_SYMBOL(nvlist_add_uint64);
EXPORT_SYMBOL(nvlist_add_string);
EXPORT_SYMBOL(nvlist_add_nvlist);
EXPORT_SYMBOL(nvlist_add_boolean_array);
EXPORT_SYMBOL(nvlist_add_byte_array);
EXPORT_SYMBOL(nvlist_add_int8_array);
EXPORT_SYMBOL(nvlist_add_uint8_array);
EXPORT_SYMBOL(nvlist_add_int16_array);
EXPORT_SYMBOL(nvlist_add_uint16_array);
EXPORT_SYMBOL(nvlist_add_int32_array);
EXPORT_SYMBOL(nvlist_add_uint32_array);
EXPORT_SYMBOL(nvlist_add_int64_array);
EXPORT_SYMBOL(nvlist_add_uint64_array);
EXPORT_SYMBOL(nvlist_add_string_array);
EXPORT_SYMBOL(nvlist_add_nvlist_array);
EXPORT_SYMBOL(nvlist_next_nvpair);
EXPORT_SYMBOL(nvlist_prev_nvpair);
EXPORT_SYMBOL(nvlist_empty);
EXPORT_SYMBOL(nvlist_add_hrtime);
EXPORT_SYMBOL(nvlist_remove);
EXPORT_SYMBOL(nvlist_remove_nvpair);
EXPORT_SYMBOL(nvlist_remove_all);
EXPORT_SYMBOL(nvlist_lookup_boolean);
EXPORT_SYMBOL(nvlist_lookup_boolean_value);
EXPORT_SYMBOL(nvlist_lookup_byte);
EXPORT_SYMBOL(nvlist_lookup_int8);
EXPORT_SYMBOL(nvlist_lookup_uint8);
EXPORT_SYMBOL(nvlist_lookup_int16);
EXPORT_SYMBOL(nvlist_lookup_uint16);
EXPORT_SYMBOL(nvlist_lookup_int32);
EXPORT_SYMBOL(nvlist_lookup_uint32);
EXPORT_SYMBOL(nvlist_lookup_int64);
EXPORT_SYMBOL(nvlist_lookup_uint64);
EXPORT_SYMBOL(nvlist_lookup_string);
EXPORT_SYMBOL(nvlist_lookup_nvlist);
EXPORT_SYMBOL(nvlist_lookup_boolean_array);
EXPORT_SYMBOL(nvlist_lookup_byte_array);
EXPORT_SYMBOL(nvlist_lookup_int8_array);
EXPORT_SYMBOL(nvlist_lookup_uint8_array);
EXPORT_SYMBOL(nvlist_lookup_int16_array);
EXPORT_SYMBOL(nvlist_lookup_uint16_array);
EXPORT_SYMBOL(nvlist_lookup_int32_array);
EXPORT_SYMBOL(nvlist_lookup_uint32_array);
EXPORT_SYMBOL(nvlist_lookup_int64_array);
EXPORT_SYMBOL(nvlist_lookup_uint64_array);
EXPORT_SYMBOL(nvlist_lookup_string_array);
EXPORT_SYMBOL(nvlist_lookup_nvlist_array);
EXPORT_SYMBOL(nvlist_lookup_hrtime);
EXPORT_SYMBOL(nvlist_lookup_pairs);
EXPORT_SYMBOL(nvlist_lookup_nvpair);
EXPORT_SYMBOL(nvlist_exists);
/* processing nvpair */
EXPORT_SYMBOL(nvpair_name);
EXPORT_SYMBOL(nvpair_type);
EXPORT_SYMBOL(nvpair_value_boolean_value);
EXPORT_SYMBOL(nvpair_value_byte);
EXPORT_SYMBOL(nvpair_value_int8);
EXPORT_SYMBOL(nvpair_value_uint8);
EXPORT_SYMBOL(nvpair_value_int16);
EXPORT_SYMBOL(nvpair_value_uint16);
EXPORT_SYMBOL(nvpair_value_int32);
EXPORT_SYMBOL(nvpair_value_uint32);
EXPORT_SYMBOL(nvpair_value_int64);
EXPORT_SYMBOL(nvpair_value_uint64);
EXPORT_SYMBOL(nvpair_value_string);
EXPORT_SYMBOL(nvpair_value_nvlist);
EXPORT_SYMBOL(nvpair_value_boolean_array);
EXPORT_SYMBOL(nvpair_value_byte_array);
EXPORT_SYMBOL(nvpair_value_int8_array);
EXPORT_SYMBOL(nvpair_value_uint8_array);
EXPORT_SYMBOL(nvpair_value_int16_array);
EXPORT_SYMBOL(nvpair_value_uint16_array);
EXPORT_SYMBOL(nvpair_value_int32_array);
EXPORT_SYMBOL(nvpair_value_uint32_array);
EXPORT_SYMBOL(nvpair_value_int64_array);
EXPORT_SYMBOL(nvpair_value_uint64_array);
EXPORT_SYMBOL(nvpair_value_string_array);
EXPORT_SYMBOL(nvpair_value_nvlist_array);
EXPORT_SYMBOL(nvpair_value_hrtime);