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freebsd-src/lib/libmemstat/memstat_uma.c

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Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
/*-
Update copyright for 2006. MFC after: 3 days
2006-02-11 19:21:39 +00:00
* Copyright (c) 2005-2006 Robert N. M. Watson
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#include <sys/param.h>
Fix a mismerge.
2011-05-08 14:45:53 +00:00
#include <sys/cpuset.h>
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
#include <sys/sysctl.h>
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
#include <vm/vm.h>
#include <vm/vm_page.h>
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
#include <vm/uma.h>
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
#include <vm/uma_int.h>
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
#include <err.h>
#include <errno.h>
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
#include <kvm.h>
#include <nlist.h>
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
#include <stddef.h>
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
Commit the support for removing cpumask_t and replacing it directly with cpuset_t objects. That is going to offer the underlying support for a simple bump of MAXCPU and then support for number of cpus > 32 (as it is today). Right now, cpumask_t is an int, 32 bits on all our supported architecture. cpumask_t on the other side is implemented as an array of longs, and easilly extendible by definition. The architectures touched by this commit are the following: - amd64 - i386 - pc98 - arm - ia64 - XEN while the others are still missing. Userland is believed to be fully converted with the changes contained here. Some technical notes: - This commit may be considered an ABI nop for all the architectures different from amd64 and ia64 (and sparc64 in the future) - per-cpu members, which are now converted to cpuset_t, needs to be accessed avoiding migration, because the size of cpuset_t should be considered unknown - size of cpuset_t objects is different from kernel and userland (this is primirally done in order to leave some more space in userland to cope with KBI extensions). If you need to access kernel cpuset_t from the userland please refer to example in this patch on how to do that correctly (kgdb may be a good source, for example). - Support for other architectures is going to be added soon - Only MAXCPU for amd64 is bumped now The patch has been tested by sbruno and Nicholas Esborn on opteron 4 x 12 pack CPUs. More testing on big SMP is expected to came soon. pluknet tested the patch with his 8-ways on both amd64 and i386. Tested by: pluknet, sbruno, gianni, Nicholas Esborn Reviewed by: jeff, jhb, sbruno
2011-05-05 14:39:14 +00:00
#include <unistd.h>
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
#include "memstat.h"
#include "memstat_internal.h"
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
static struct nlist namelist[] = {
#define X_UMA_KEGS 0
{ .n_name = "_uma_kegs" },
#define X_MP_MAXID 1
{ .n_name = "_mp_maxid" },
Read all_cpus variable out of kmem, and validate CPUs against the all_cpus cpu mask before looking at the cache entries for the CPU. For systems with sparse CPU id arrays, this skips otherwise uninitialized cache structures. MFC after: 3 days
2006-02-11 18:44:37 +00:00
#define X_ALL_CPUS 2
{ .n_name = "_all_cpus" },
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
{ .n_name = "" },
};
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
/*
* Extract uma(9) statistics from the running kernel, and store all memory
* type information in the passed list. For each type, check the list for an
* existing entry with the right name/allocator -- if present, update that
* entry. Otherwise, add a new entry. On error, the entire list will be
* cleared, as entries will be in an inconsistent state.
*
* To reduce the level of work for a list that starts empty, we keep around a
* hint as to whether it was empty when we began, so we can avoid searching
* the list for entries to update. Updates are O(n^2) due to searching for
* each entry before adding it.
*/
int
memstat_sysctl_uma(struct memory_type_list *list, int flags)
{
struct uma_stream_header *ushp;
struct uma_type_header *uthp;
struct uma_percpu_stat *upsp;
struct memory_type *mtp;
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
int count, hint_dontsearch, i, j, maxcpus, maxid;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
char *buffer, *p;
size_t size;
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
hint_dontsearch = LIST_EMPTY(&list->mtl_list);
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
/*
* Query the number of CPUs, number of malloc types so that we can
* guess an initial buffer size. We loop until we succeed or really
* fail. Note that the value of maxcpus we query using sysctl is not
* the version we use when processing the real data -- that is read
* from the header.
*/
retry:
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
size = sizeof(maxid);
if (sysctlbyname("kern.smp.maxid", &maxid, &size, NULL, 0) < 0) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
if (errno == EACCES || errno == EPERM)
list->mtl_error = MEMSTAT_ERROR_PERMISSION;
else
list->mtl_error = MEMSTAT_ERROR_DATAERROR;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
if (size != sizeof(maxid)) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_DATAERROR;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
size = sizeof(count);
if (sysctlbyname("vm.zone_count", &count, &size, NULL, 0) < 0) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
if (errno == EACCES || errno == EPERM)
list->mtl_error = MEMSTAT_ERROR_PERMISSION;
else
list->mtl_error = MEMSTAT_ERROR_VERSION;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
if (size != sizeof(count)) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_DATAERROR;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
size = sizeof(*uthp) + count * (sizeof(*uthp) + sizeof(*upsp) *
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
(maxid + 1));
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
buffer = malloc(size);
if (buffer == NULL) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_NOMEMORY;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
if (sysctlbyname("vm.zone_stats", buffer, &size, NULL, 0) < 0) {
/*
* XXXRW: ENOMEM is an ambiguous return, we should bound the
* number of loops, perhaps.
*/
if (errno == ENOMEM) {
free(buffer);
goto retry;
}
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
if (errno == EACCES || errno == EPERM)
list->mtl_error = MEMSTAT_ERROR_PERMISSION;
else
list->mtl_error = MEMSTAT_ERROR_VERSION;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
free(buffer);
return (-1);
}
if (size == 0) {
free(buffer);
return (0);
}
if (size < sizeof(*ushp)) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_VERSION;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
free(buffer);
return (-1);
}
p = buffer;
ushp = (struct uma_stream_header *)p;
p += sizeof(*ushp);
if (ushp->ush_version != UMA_STREAM_VERSION) {
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_VERSION;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
free(buffer);
return (-1);
}
/*
* For the remainder of this function, we are quite trusting about
* the layout of structures and sizes, since we've determined we have
* a matching version and acceptable CPU count.
*/
maxcpus = ushp->ush_maxcpus;
count = ushp->ush_count;
for (i = 0; i < count; i++) {
uthp = (struct uma_type_header *)p;
p += sizeof(*uthp);
if (hint_dontsearch == 0) {
mtp = memstat_mtl_find(list, ALLOCATOR_UMA,
uthp->uth_name);
} else
mtp = NULL;
if (mtp == NULL)
Prefix two non-static libmemstat(3) internal functions with '_' symbols, to try and discourage use outside the library. Remove duplicate declaration of memstat_mtl_free() from memstat_internal.h, as it's not internal, and the memstat.h definition suffices.
2005-07-23 21:17:15 +00:00
mtp = _memstat_mt_allocate(list, ALLOCATOR_UMA,
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
uthp->uth_name, maxid + 1);
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
if (mtp == NULL) {
Correct two libmemstat(3) bugs: - Move memory_type_list flushing logic from memstat_mtl_free() to _memstat_mtl_empty(), a libmemstat-internal function that can be called from other parts of the library. Invoke _memstat_mtl_empty() from memstat_mtl_free(), which also frees the containing list structure. Invoke _memstat_mtl_empty() instead of memstat_mtl_free() in various error cases in memstat_malloc.c and memstat_uma.c, which previously resulted in the list being freed prematurely. - Reverse the order of updating the mt_kegfree and mt_free fields of the memory_type in memstat_uma.c, otherwise keg free items won't be counted properly for non-secondary zones. MFC after: 3 days
2005-08-01 13:18:21 +00:00
_memstat_mtl_empty(list);
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
free(buffer);
Introduce more formal error handling for libmemstat(3): - Define a set of libmemstat(3) error constants, which are used by all libmemstat(3) methods except for memstat_mtl_alloc(), which allocates a memory type list and may return ENOMEM via errno. - Define a per-memory_type_list current error value, which is set when a call associated with a memory list fails. This requires wrapping a structure around the queue(9) list head data structure, but this change is not visible to libmemstat(3) consumers due to using access methods. - Add a new accessor method, memstat_mtl_geterror() to retrieve the error number. - Consistently set the error number in a number of failure modes where previously some combination of setting errno and printf'ing error descriptions was used. libmemstat(3) will now no longer print to stdio under any circumstances. Returns of NULL/-1 for errors remain the same. This avoids use of stdio, misuse of error numbers, and should make it easier to program a libmemstat(3) consumer able to print useful error messages. Currently, no error-to-string function is provided, as I'm unsure how to address internationalization concerns. MFC after: 1 day
2005-07-24 01:28:54 +00:00
list->mtl_error = MEMSTAT_ERROR_NOMEMORY;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
return (-1);
}
/*
* Reset the statistics on a current node.
*/
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
_memstat_mt_reset_stats(mtp, maxid + 1);
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
Properly combine per-CPU UMA cache allocation and free counts with the global counters maintained in the zone. MFC after: 1 week
2005-07-14 20:01:04 +00:00
mtp->mt_numallocs = uthp->uth_allocs;
mtp->mt_numfrees = uthp->uth_frees;
Teach libmemstat(3) about UMA(9) failure statistics. Requested by: victor cruceru <victor dot cruceru at gmail dot com> MFC after: 1 week
2005-07-15 23:39:21 +00:00
mtp->mt_failures = uthp->uth_fails;
Add a new column to the output of vmstat -z to indicate the number of times the system was forced to sleep when requesting a new allocation. Expand the debugger hook, db_show_uma, to display these results as well. This has proven to be very useful in out of memory situations when it is not known why systems have become sluggish or fail in odd ways. Reviewed by: rwatson alc Approved by: scottl (mentor) peter Obtained from: Yahoo Inc.
2010-06-15 19:28:37 +00:00
mtp->mt_sleeps = uthp->uth_sleeps;
Properly combine per-CPU UMA cache allocation and free counts with the global counters maintained in the zone. MFC after: 1 week
2005-07-14 20:01:04 +00:00
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
for (j = 0; j < maxcpus; j++) {
upsp = (struct uma_percpu_stat *)p;
p += sizeof(*upsp);
mtp->mt_percpu_cache[j].mtp_free =
upsp->ups_cache_free;
mtp->mt_free += upsp->ups_cache_free;
mtp->mt_numallocs += upsp->ups_allocs;
mtp->mt_numfrees += upsp->ups_frees;
}
mtp->mt_size = uthp->uth_size;
Properly combine per-CPU UMA cache allocation and free counts with the global counters maintained in the zone. MFC after: 1 week
2005-07-14 20:01:04 +00:00
mtp->mt_memalloced = mtp->mt_numallocs * uthp->uth_size;
mtp->mt_memfreed = mtp->mt_numfrees * uthp->uth_size;
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
mtp->mt_bytes = mtp->mt_memalloced - mtp->mt_memfreed;
mtp->mt_countlimit = uthp->uth_limit;
mtp->mt_byteslimit = uthp->uth_limit * uthp->uth_size;
mtp->mt_count = mtp->mt_numallocs - mtp->mt_numfrees;
UMA supports "secondary" zones, in which a second zone can be layered on top of a primary zone, sharing the same allocation "keg". When reporting statistics for zones, do not report the free items in the keg as part of the free items in the zone, or those free items will be reported more than once: for the primary zone, and then any secondary zones off the primary zone. Separately record and maintain a kegfree statistic, and export via memstat_get_kegfree(), which is available for use if needed. Since items free'd back to the keg are not fully initialized, and hence may not actually be available (since secondary zone ctor-time initialization can fail), this makes some amount of sense. This change corrects a bug made visible in the libmemstat(3) modifications to netstat: mbufs freed back to the keg from the packet zone would be counted twice, resulting in negative values being printed in the mbuf free count. Some further refinement of reporting relating to secondary zones may still be required. Reported by: ssouhlal MFC after: 3 days
2005-07-20 09:17:40 +00:00
mtp->mt_zonefree = uthp->uth_zone_free;
If a retrieved UMA zone is a secondary zone, don't report keg free items, as they actually belong to the primary zone, and maye otherwise be reported more than once. MFC after: 1 day
2005-07-25 09:52:59 +00:00
/*
* UMA secondary zones share a keg with the primary zone. To
* avoid double-reporting of free items, report keg free
* items only in the primary zone.
*/
if (!(uthp->uth_zone_flags & UTH_ZONE_SECONDARY)) {
mtp->mt_kegfree = uthp->uth_keg_free;
Correct two libmemstat(3) bugs: - Move memory_type_list flushing logic from memstat_mtl_free() to _memstat_mtl_empty(), a libmemstat-internal function that can be called from other parts of the library. Invoke _memstat_mtl_empty() from memstat_mtl_free(), which also frees the containing list structure. Invoke _memstat_mtl_empty() instead of memstat_mtl_free() in various error cases in memstat_malloc.c and memstat_uma.c, which previously resulted in the list being freed prematurely. - Reverse the order of updating the mt_kegfree and mt_free fields of the memory_type in memstat_uma.c, otherwise keg free items won't be counted properly for non-secondary zones. MFC after: 3 days
2005-08-01 13:18:21 +00:00
mtp->mt_free += mtp->mt_kegfree;
If a retrieved UMA zone is a secondary zone, don't report keg free items, as they actually belong to the primary zone, and maye otherwise be reported more than once. MFC after: 1 day
2005-07-25 09:52:59 +00:00
}
Add libmemstat(3), a library for use by debugging and monitoring applications in tracking kernel memory statistics. It provides an abstracted interface to uma(9) and malloc(9) statistics, wrapped around the recently added binary stream sysctls for the allocators. Using this interface, it is easy to build monitoring tools, query specific memory types for usage information, etc. Facilities are provided for binding caller-provided data to memory types, incremental updates of memory types, and queries that span multiple allocators. Support for additional allocators is (relatively) easy to add. The API for libmemstat(3) will probably change some over time as consumers are written, and requirements evolve. It is written to avoid encoding ABIs for data structure layout into consuming applications for this reason. MFC after: 1 week
2005-07-14 17:40:02 +00:00
mtp->mt_free += mtp->mt_zonefree;
}
free(buffer);
return (0);
}
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
static int
kread(kvm_t *kvm, void *kvm_pointer, void *address, size_t size,
size_t offset)
{
ssize_t ret;
ret = kvm_read(kvm, (unsigned long)kvm_pointer + offset, address,
size);
if (ret < 0)
return (MEMSTAT_ERROR_KVM);
if ((size_t)ret != size)
return (MEMSTAT_ERROR_KVM_SHORTREAD);
return (0);
}
static int
kread_string(kvm_t *kvm, void *kvm_pointer, char *buffer, int buflen)
{
ssize_t ret;
int i;
for (i = 0; i < buflen; i++) {
ret = kvm_read(kvm, (unsigned long)kvm_pointer + i,
&(buffer[i]), sizeof(char));
if (ret < 0)
return (MEMSTAT_ERROR_KVM);
if ((size_t)ret != sizeof(char))
return (MEMSTAT_ERROR_KVM_SHORTREAD);
if (buffer[i] == '\0')
return (0);
}
/* Truncate. */
buffer[i-1] = '\0';
return (0);
}
static int
kread_symbol(kvm_t *kvm, int index, void *address, size_t size,
size_t offset)
{
ssize_t ret;
ret = kvm_read(kvm, namelist[index].n_value + offset, address, size);
if (ret < 0)
return (MEMSTAT_ERROR_KVM);
if ((size_t)ret != size)
return (MEMSTAT_ERROR_KVM_SHORTREAD);
return (0);
}
/*
* memstat_kvm_uma() is similar to memstat_sysctl_uma(), only it extracts
* UMA(9) statistics from a kernel core/memory file.
*/
int
memstat_kvm_uma(struct memory_type_list *list, void *kvm_handle)
{
Remove unnecessary and undesirable 'static' from function-local keg list, which could cause problems for multi-threaded applications using libmemstat to monitor UMA in more than one thread simultaneously. MFC after: 3 days
2006-01-16 00:37:20 +00:00
LIST_HEAD(, uma_keg) uma_kegs;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
struct memory_type *mtp;
struct uma_bucket *ubp, ub;
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
struct uma_cache *ucp, *ucp_array;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
struct uma_zone *uzp, uz;
struct uma_keg *kzp, kz;
int hint_dontsearch, i, mp_maxid, ret;
char name[MEMTYPE_MAXNAME];
Remove the redefinition of MEMSTAT_MAXCPU and just use MAXCPU for that. Reviewed by: sbruno
2011-05-02 17:13:40 +00:00
cpuset_t all_cpus;
Commit the support for removing cpumask_t and replacing it directly with cpuset_t objects. That is going to offer the underlying support for a simple bump of MAXCPU and then support for number of cpus > 32 (as it is today). Right now, cpumask_t is an int, 32 bits on all our supported architecture. cpumask_t on the other side is implemented as an array of longs, and easilly extendible by definition. The architectures touched by this commit are the following: - amd64 - i386 - pc98 - arm - ia64 - XEN while the others are still missing. Userland is believed to be fully converted with the changes contained here. Some technical notes: - This commit may be considered an ABI nop for all the architectures different from amd64 and ia64 (and sparc64 in the future) - per-cpu members, which are now converted to cpuset_t, needs to be accessed avoiding migration, because the size of cpuset_t should be considered unknown - size of cpuset_t objects is different from kernel and userland (this is primirally done in order to leave some more space in userland to cope with KBI extensions). If you need to access kernel cpuset_t from the userland please refer to example in this patch on how to do that correctly (kgdb may be a good source, for example). - Support for other architectures is going to be added soon - Only MAXCPU for amd64 is bumped now The patch has been tested by sbruno and Nicholas Esborn on opteron 4 x 12 pack CPUs. More testing on big SMP is expected to came soon. pluknet tested the patch with his 8-ways on both amd64 and i386. Tested by: pluknet, sbruno, gianni, Nicholas Esborn Reviewed by: jeff, jhb, sbruno
2011-05-05 14:39:14 +00:00
long cpusetsize;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
kvm_t *kvm;
kvm = (kvm_t *)kvm_handle;
hint_dontsearch = LIST_EMPTY(&list->mtl_list);
if (kvm_nlist(kvm, namelist) != 0) {
list->mtl_error = MEMSTAT_ERROR_KVM;
return (-1);
}
if (namelist[X_UMA_KEGS].n_type == 0 ||
namelist[X_UMA_KEGS].n_value == 0) {
list->mtl_error = MEMSTAT_ERROR_KVM_NOSYMBOL;
return (-1);
}
ret = kread_symbol(kvm, X_MP_MAXID, &mp_maxid, sizeof(mp_maxid), 0);
if (ret != 0) {
list->mtl_error = ret;
return (-1);
}
ret = kread_symbol(kvm, X_UMA_KEGS, &uma_kegs, sizeof(uma_kegs), 0);
if (ret != 0) {
list->mtl_error = ret;
return (-1);
}
Commit the support for removing cpumask_t and replacing it directly with cpuset_t objects. That is going to offer the underlying support for a simple bump of MAXCPU and then support for number of cpus > 32 (as it is today). Right now, cpumask_t is an int, 32 bits on all our supported architecture. cpumask_t on the other side is implemented as an array of longs, and easilly extendible by definition. The architectures touched by this commit are the following: - amd64 - i386 - pc98 - arm - ia64 - XEN while the others are still missing. Userland is believed to be fully converted with the changes contained here. Some technical notes: - This commit may be considered an ABI nop for all the architectures different from amd64 and ia64 (and sparc64 in the future) - per-cpu members, which are now converted to cpuset_t, needs to be accessed avoiding migration, because the size of cpuset_t should be considered unknown - size of cpuset_t objects is different from kernel and userland (this is primirally done in order to leave some more space in userland to cope with KBI extensions). If you need to access kernel cpuset_t from the userland please refer to example in this patch on how to do that correctly (kgdb may be a good source, for example). - Support for other architectures is going to be added soon - Only MAXCPU for amd64 is bumped now The patch has been tested by sbruno and Nicholas Esborn on opteron 4 x 12 pack CPUs. More testing on big SMP is expected to came soon. pluknet tested the patch with his 8-ways on both amd64 and i386. Tested by: pluknet, sbruno, gianni, Nicholas Esborn Reviewed by: jeff, jhb, sbruno
2011-05-05 14:39:14 +00:00
cpusetsize = sysconf(_SC_CPUSET_SIZE);
Revert r222363, as bde@ pointed out the initial solution was far more correct.
2011-05-31 20:59:53 +00:00
if (cpusetsize == -1 || (u_long)cpusetsize > sizeof(cpuset_t)) {
Commit the support for removing cpumask_t and replacing it directly with cpuset_t objects. That is going to offer the underlying support for a simple bump of MAXCPU and then support for number of cpus > 32 (as it is today). Right now, cpumask_t is an int, 32 bits on all our supported architecture. cpumask_t on the other side is implemented as an array of longs, and easilly extendible by definition. The architectures touched by this commit are the following: - amd64 - i386 - pc98 - arm - ia64 - XEN while the others are still missing. Userland is believed to be fully converted with the changes contained here. Some technical notes: - This commit may be considered an ABI nop for all the architectures different from amd64 and ia64 (and sparc64 in the future) - per-cpu members, which are now converted to cpuset_t, needs to be accessed avoiding migration, because the size of cpuset_t should be considered unknown - size of cpuset_t objects is different from kernel and userland (this is primirally done in order to leave some more space in userland to cope with KBI extensions). If you need to access kernel cpuset_t from the userland please refer to example in this patch on how to do that correctly (kgdb may be a good source, for example). - Support for other architectures is going to be added soon - Only MAXCPU for amd64 is bumped now The patch has been tested by sbruno and Nicholas Esborn on opteron 4 x 12 pack CPUs. More testing on big SMP is expected to came soon. pluknet tested the patch with his 8-ways on both amd64 and i386. Tested by: pluknet, sbruno, gianni, Nicholas Esborn Reviewed by: jeff, jhb, sbruno
2011-05-05 14:39:14 +00:00
list->mtl_error = MEMSTAT_ERROR_KVM_NOSYMBOL;
return (-1);
}
CPU_ZERO(&all_cpus);
ret = kread_symbol(kvm, X_ALL_CPUS, &all_cpus, cpusetsize, 0);
Read all_cpus variable out of kmem, and validate CPUs against the all_cpus cpu mask before looking at the cache entries for the CPU. For systems with sparse CPU id arrays, this skips otherwise uninitialized cache structures. MFC after: 3 days
2006-02-11 18:44:37 +00:00
if (ret != 0) {
list->mtl_error = ret;
return (-1);
}
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
ucp_array = malloc(sizeof(struct uma_cache) * (mp_maxid + 1));
if (ucp_array == NULL) {
list->mtl_error = MEMSTAT_ERROR_NOMEMORY;
return (-1);
}
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
for (kzp = LIST_FIRST(&uma_kegs); kzp != NULL; kzp =
LIST_NEXT(&kz, uk_link)) {
ret = kread(kvm, kzp, &kz, sizeof(kz), 0);
if (ret != 0) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
list->mtl_error = ret;
return (-1);
}
for (uzp = LIST_FIRST(&kz.uk_zones); uzp != NULL; uzp =
LIST_NEXT(&uz, uz_link)) {
ret = kread(kvm, uzp, &uz, sizeof(uz), 0);
if (ret != 0) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
_memstat_mtl_empty(list);
list->mtl_error = ret;
return (-1);
}
ret = kread(kvm, uzp, ucp_array,
sizeof(struct uma_cache) * (mp_maxid + 1),
offsetof(struct uma_zone, uz_cpu[0]));
if (ret != 0) {
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
list->mtl_error = ret;
return (-1);
}
ret = kread_string(kvm, uz.uz_name, name,
MEMTYPE_MAXNAME);
if (ret != 0) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
list->mtl_error = ret;
return (-1);
}
if (hint_dontsearch == 0) {
mtp = memstat_mtl_find(list, ALLOCATOR_UMA,
name);
} else
mtp = NULL;
if (mtp == NULL)
mtp = _memstat_mt_allocate(list, ALLOCATOR_UMA,
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
name, mp_maxid + 1);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
if (mtp == NULL) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
list->mtl_error = MEMSTAT_ERROR_NOMEMORY;
return (-1);
}
/*
* Reset the statistics on a current node.
*/
Get rid of MAXCPU knowledge used for internal needs only. Switch to dynamic memory allocation to hold per-CPU memory types data (sized to mp_maxid for UMA, and to mp_maxcpus for malloc to match the kernel). That fixes libmemstat with arbitrary large MAXCPU values and therefore eliminates MEMSTAT_ERROR_TOOMANYCPUS error type. Reviewed by: jhb Approved by: re (kib)
2011-08-01 09:43:35 +00:00
_memstat_mt_reset_stats(mtp, mp_maxid + 1);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
mtp->mt_numallocs = uz.uz_allocs;
mtp->mt_numfrees = uz.uz_frees;
mtp->mt_failures = uz.uz_fails;
Add a new column to the output of vmstat -z to indicate the number of times the system was forced to sleep when requesting a new allocation. Expand the debugger hook, db_show_uma, to display these results as well. This has proven to be very useful in out of memory situations when it is not known why systems have become sluggish or fail in odd ways. Reviewed by: rwatson alc Approved by: scottl (mentor) peter Obtained from: Yahoo Inc.
2010-06-15 19:28:37 +00:00
mtp->mt_sleeps = uz.uz_sleeps;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
if (kz.uk_flags & UMA_ZFLAG_INTERNAL)
goto skip_percpu;
for (i = 0; i < mp_maxid + 1; i++) {
Remove the redefinition of MEMSTAT_MAXCPU and just use MAXCPU for that. Reviewed by: sbruno
2011-05-02 17:13:40 +00:00
if (!CPU_ISSET(i, &all_cpus))
Read all_cpus variable out of kmem, and validate CPUs against the all_cpus cpu mask before looking at the cache entries for the CPU. For systems with sparse CPU id arrays, this skips otherwise uninitialized cache structures. MFC after: 3 days
2006-02-11 18:44:37 +00:00
continue;
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
ucp = &ucp_array[i];
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
mtp->mt_numallocs += ucp->uc_allocs;
mtp->mt_numfrees += ucp->uc_frees;
if (ucp->uc_allocbucket != NULL) {
ret = kread(kvm, ucp->uc_allocbucket,
&ub, sizeof(ub), 0);
if (ret != 0) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
When reporting an error reading from UMA per-cpu cache pointers using KVM, return a KVM error rather than an out of memory error, so that the caller reports the KVM error state. This replaces a misleading error message with a more accurate although equally confusing one. MFC after: 3 days
2006-02-11 18:55:03 +00:00
list->mtl_error = ret;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
return (-1);
}
mtp->mt_free += ub.ub_cnt;
}
if (ucp->uc_freebucket != NULL) {
ret = kread(kvm, ucp->uc_freebucket,
&ub, sizeof(ub), 0);
if (ret != 0) {
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
_memstat_mtl_empty(list);
When reporting an error reading from UMA per-cpu cache pointers using KVM, return a KVM error rather than an out of memory error, so that the caller reports the KVM error state. This replaces a misleading error message with a more accurate although equally confusing one. MFC after: 3 days
2006-02-11 18:55:03 +00:00
list->mtl_error = ret;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
return (-1);
}
mtp->mt_free += ub.ub_cnt;
}
}
skip_percpu:
mtp->mt_size = kz.uk_size;
mtp->mt_memalloced = mtp->mt_numallocs * mtp->mt_size;
mtp->mt_memfreed = mtp->mt_numfrees * mtp->mt_size;
Correct a typo in the extraction of zone information from UMA using kmem: bytes = allocated - freed, not bytes = allocated = freed. MFC after: 3 days
2006-02-11 16:54:00 +00:00
mtp->mt_bytes = mtp->mt_memalloced - mtp->mt_memfreed;
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
if (kz.uk_ppera > 1)
mtp->mt_countlimit = kz.uk_maxpages /
kz.uk_ipers;
else
mtp->mt_countlimit = kz.uk_maxpages *
kz.uk_ipers;
mtp->mt_byteslimit = mtp->mt_countlimit * mtp->mt_size;
mtp->mt_count = mtp->mt_numallocs - mtp->mt_numfrees;
for (ubp = LIST_FIRST(&uz.uz_full_bucket); ubp !=
NULL; ubp = LIST_NEXT(&ub, ub_link)) {
ret = kread(kvm, ubp, &ub, sizeof(ub), 0);
mtp->mt_zonefree += ub.ub_cnt;
}
if (!((kz.uk_flags & UMA_ZONE_SECONDARY) &&
LIST_FIRST(&kz.uk_zones) != uzp)) {
mtp->mt_kegfree = kz.uk_free;
mtp->mt_free += mtp->mt_kegfree;
}
mtp->mt_free += mtp->mt_zonefree;
}
}
The uma_zone data structure defines the size of its uz_cpu[] array as 1, but then sizes the containing data structure at run-time to make room for per-cpu cache data. Modify libmemstat to separately allocate a buffer to hold per-cpu cache data, sized based on the run-time mp_maxid variable when using libkvm to access UMA data. This avoids reading invalid cache data from beyond the end of the uma_zone data structure on the stack, which can result in invalid statistics and/or reads from invalid kernel addresses. Foot target practice by: ps MFC after: 3 days
2006-02-11 19:19:29 +00:00
free(ucp_array);
Add memstat_kvm_uma(), an implementation of a libmemstat(3) query routine that knows how to extract UMA(9) allocator statistics from a core dump or live memory image using kvm(3). The caller is expected to provide the necessary kvm_t handle, which is then used by libmemstat(3). With these changes, it is trivially straight forward to re-introduce vmstat -z support on core dumps, which was lost when UMA was introduced. In the short term, this requires including vm/ include files that are not intended for extra-kernel use, requiring in turn some ugliness.
2005-08-01 19:07:39 +00:00
return (0);
}
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