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ad0aa1f549
Remove the environment variable LD_HWCAP_MASK and the tunable glibc.cpu.hwcap_mask as those are not used anymore in common-code after removal in elf/dl-cache.c:search_cache(). The only remaining user is sparc32 where it is used in elf_machine_matches_host(). If sparc32 does not need it anymore, we can get rid of it at all. Otherwise we could also move LD_HWCAP_MASK / tunable glibc.cpu.hwcap_mask to be sparc32 specific. Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
753 lines
32 KiB
Plaintext
753 lines
32 KiB
Plaintext
@node Tunables
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@c @node Tunables, , Internal Probes, Top
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@c %MENU% Tunable switches to alter libc internal behavior
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@chapter Tunables
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@cindex tunables
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@dfn{Tunables} are a feature in @theglibc{} that allows application authors and
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distribution maintainers to alter the runtime library behavior to match
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their workload. These are implemented as a set of switches that may be
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modified in different ways. The current default method to do this is via
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the @env{GLIBC_TUNABLES} environment variable by setting it to a string
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of colon-separated @var{name}=@var{value} pairs. For example, the following
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example enables @code{malloc} checking and sets the @code{malloc}
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trim threshold to 128
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bytes:
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@example
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GLIBC_TUNABLES=glibc.malloc.trim_threshold=128:glibc.malloc.check=3
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export GLIBC_TUNABLES
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@end example
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Tunables are not part of the @glibcadj{} stable ABI, and they are
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subject to change or removal across releases. Additionally, the method to
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modify tunable values may change between releases and across distributions.
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It is possible to implement multiple `frontends' for the tunables allowing
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distributions to choose their preferred method at build time.
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Finally, the set of tunables available may vary between distributions as
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the tunables feature allows distributions to add their own tunables under
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their own namespace.
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Passing @option{--list-tunables} to the dynamic loader to print all
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tunables with minimum and maximum values:
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@example
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$ /lib64/ld-linux-x86-64.so.2 --list-tunables
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glibc.rtld.nns: 0x4 (min: 0x1, max: 0x10)
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glibc.elision.skip_lock_after_retries: 3 (min: 0, max: 2147483647)
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glibc.malloc.trim_threshold: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.perturb: 0 (min: 0, max: 255)
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glibc.cpu.x86_shared_cache_size: 0x100000 (min: 0x0, max: 0xffffffffffffffff)
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glibc.pthread.rseq: 1 (min: 0, max: 1)
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glibc.cpu.prefer_map_32bit_exec: 0 (min: 0, max: 1)
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glibc.mem.tagging: 0 (min: 0, max: 255)
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glibc.elision.tries: 3 (min: 0, max: 2147483647)
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glibc.elision.enable: 0 (min: 0, max: 1)
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glibc.malloc.hugetlb: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.cpu.x86_rep_movsb_threshold: 0x2000 (min: 0x100, max: 0xffffffffffffffff)
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glibc.malloc.mxfast: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.rtld.dynamic_sort: 2 (min: 1, max: 2)
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glibc.elision.skip_lock_busy: 3 (min: 0, max: 2147483647)
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glibc.malloc.top_pad: 0x20000 (min: 0x0, max: 0xffffffffffffffff)
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glibc.cpu.x86_rep_stosb_threshold: 0x800 (min: 0x1, max: 0xffffffffffffffff)
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glibc.cpu.x86_non_temporal_threshold: 0xc0000 (min: 0x4040, max: 0xfffffffffffffff)
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glibc.cpu.x86_memset_non_temporal_threshold: 0xc0000 (min: 0x4040, max: 0xfffffffffffffff)
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glibc.cpu.x86_shstk:
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glibc.pthread.stack_cache_size: 0x2800000 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.mmap_max: 0 (min: 0, max: 2147483647)
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glibc.elision.skip_trylock_internal_abort: 3 (min: 0, max: 2147483647)
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glibc.cpu.plt_rewrite: 0 (min: 0, max: 2)
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glibc.malloc.tcache_unsorted_limit: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.cpu.x86_ibt:
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glibc.cpu.hwcaps:
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glibc.elision.skip_lock_internal_abort: 3 (min: 0, max: 2147483647)
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glibc.malloc.arena_max: 0x0 (min: 0x1, max: 0xffffffffffffffff)
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glibc.malloc.mmap_threshold: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.cpu.x86_data_cache_size: 0x8000 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.tcache_count: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.arena_test: 0x0 (min: 0x1, max: 0xffffffffffffffff)
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glibc.pthread.mutex_spin_count: 100 (min: 0, max: 32767)
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glibc.rtld.optional_static_tls: 0x200 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.tcache_max: 0x0 (min: 0x0, max: 0xffffffffffffffff)
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glibc.malloc.check: 0 (min: 0, max: 3)
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@end example
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@menu
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* Tunable names:: The structure of a tunable name
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* Memory Allocation Tunables:: Tunables in the memory allocation subsystem
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* Dynamic Linking Tunables:: Tunables in the dynamic linking subsystem
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* Elision Tunables:: Tunables in elision subsystem
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* POSIX Thread Tunables:: Tunables in the POSIX thread subsystem
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* Hardware Capability Tunables:: Tunables that modify the hardware
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capabilities seen by @theglibc{}
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* Memory Related Tunables:: Tunables that control the use of memory by
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@theglibc{}.
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* gmon Tunables:: Tunables that control the gmon profiler, used in
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conjunction with gprof
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@end menu
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@node Tunable names
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@section Tunable names
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@cindex Tunable names
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@cindex Tunable namespaces
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A tunable name is split into three components, a top namespace, a tunable
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namespace and the tunable name. The top namespace for tunables implemented in
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@theglibc{} is @code{glibc}. Distributions that choose to add custom tunables
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in their maintained versions of @theglibc{} may choose to do so under their own
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top namespace.
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The tunable namespace is a logical grouping of tunables in a single
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module. This currently holds no special significance, although that may
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change in the future.
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The tunable name is the actual name of the tunable. It is possible that
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different tunable namespaces may have tunables within them that have the
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same name, likewise for top namespaces. Hence, we only support
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identification of tunables by their full name, i.e. with the top
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namespace, tunable namespace and tunable name, separated by periods.
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@node Memory Allocation Tunables
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@section Memory Allocation Tunables
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@cindex memory allocation tunables
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@cindex malloc tunables
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@cindex tunables, malloc
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@deftp {Tunable namespace} glibc.malloc
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Memory allocation behavior can be modified by setting any of the
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following tunables in the @code{malloc} namespace:
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@end deftp
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@deftp Tunable glibc.malloc.check
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This tunable supersedes the @env{MALLOC_CHECK_} environment variable and is
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identical in features. This tunable has no effect by default and needs the
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debug library @file{libc_malloc_debug} to be preloaded using the
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@code{LD_PRELOAD} environment variable.
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Setting this tunable to a non-zero value less than 4 enables a special (less
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efficient) memory allocator for the @code{malloc} family of functions that is
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designed to be tolerant against simple errors such as double calls of
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free with the same argument, or overruns of a single byte (off-by-one
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bugs). Not all such errors can be protected against, however, and memory
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leaks can result. Any detected heap corruption results in immediate
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termination of the process.
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Like @env{MALLOC_CHECK_}, @code{glibc.malloc.check} has a problem in that it
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diverges from normal program behavior by writing to @code{stderr}, which could
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by exploited in SUID and SGID binaries. Therefore, @code{glibc.malloc.check}
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is disabled by default for SUID and SGID binaries.
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@end deftp
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@deftp Tunable glibc.malloc.top_pad
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This tunable supersedes the @env{MALLOC_TOP_PAD_} environment variable and is
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identical in features.
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This tunable determines the amount of extra memory in bytes to obtain from the
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system when any of the arenas need to be extended. It also specifies the
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number of bytes to retain when shrinking any of the arenas. This provides the
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necessary hysteresis in heap size such that excessive amounts of system calls
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can be avoided.
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The default value of this tunable is @samp{131072} (128 KB).
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@end deftp
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@deftp Tunable glibc.malloc.perturb
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This tunable supersedes the @env{MALLOC_PERTURB_} environment variable and is
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identical in features.
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If set to a non-zero value, memory blocks are initialized with values depending
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on some low order bits of this tunable when they are allocated (except when
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allocated by @code{calloc}) and freed. This can be used to debug the use of
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uninitialized or freed heap memory. Note that this option does not guarantee
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that the freed block will have any specific values. It only guarantees that the
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content the block had before it was freed will be overwritten.
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The default value of this tunable is @samp{0}.
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@end deftp
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@deftp Tunable glibc.malloc.mmap_threshold
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This tunable supersedes the @env{MALLOC_MMAP_THRESHOLD_} environment variable
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and is identical in features.
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When this tunable is set, all chunks larger than this value in bytes are
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allocated outside the normal heap, using the @code{mmap} system call. This way
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it is guaranteed that the memory for these chunks can be returned to the system
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on @code{free}. Note that requests smaller than this threshold might still be
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allocated via @code{mmap}.
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If this tunable is not set, the default value is set to @samp{131072} bytes and
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the threshold is adjusted dynamically to suit the allocation patterns of the
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program. If the tunable is set, the dynamic adjustment is disabled and the
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value is set as static.
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@end deftp
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@deftp Tunable glibc.malloc.trim_threshold
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This tunable supersedes the @env{MALLOC_TRIM_THRESHOLD_} environment variable
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and is identical in features.
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The value of this tunable is the minimum size (in bytes) of the top-most,
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releasable chunk in an arena that will trigger a system call in order to return
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memory to the system from that arena.
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If this tunable is not set, the default value is set as 128 KB and the
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threshold is adjusted dynamically to suit the allocation patterns of the
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program. If the tunable is set, the dynamic adjustment is disabled and the
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value is set as static.
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@end deftp
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@deftp Tunable glibc.malloc.mmap_max
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This tunable supersedes the @env{MALLOC_MMAP_MAX_} environment variable and is
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identical in features.
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The value of this tunable is maximum number of chunks to allocate with
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@code{mmap}. Setting this to zero disables all use of @code{mmap}.
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The default value of this tunable is @samp{65536}.
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@end deftp
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@deftp Tunable glibc.malloc.arena_test
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This tunable supersedes the @env{MALLOC_ARENA_TEST} environment variable and is
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identical in features.
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The @code{glibc.malloc.arena_test} tunable specifies the number of arenas that
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can be created before the test on the limit to the number of arenas is
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conducted. The value is ignored if @code{glibc.malloc.arena_max} is set.
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The default value of this tunable is 2 for 32-bit systems and 8 for 64-bit
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systems.
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@end deftp
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@deftp Tunable glibc.malloc.arena_max
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This tunable supersedes the @env{MALLOC_ARENA_MAX} environment variable and is
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identical in features.
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This tunable sets the number of arenas to use in a process regardless of the
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number of cores in the system.
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The default value of this tunable is @code{0}, meaning that the limit on the
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number of arenas is determined by the number of CPU cores online. For 32-bit
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systems the limit is twice the number of cores online and on 64-bit systems, it
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is 8 times the number of cores online.
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@end deftp
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@deftp Tunable glibc.malloc.tcache_max
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The maximum size of a request (in bytes) which may be met via the
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per-thread cache. The default (and maximum) value is 1032 bytes on
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64-bit systems and 516 bytes on 32-bit systems.
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@end deftp
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@deftp Tunable glibc.malloc.tcache_count
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The maximum number of chunks of each size to cache. The default is 7.
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The upper limit is 65535. If set to zero, the per-thread cache is effectively
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disabled.
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The approximate maximum overhead of the per-thread cache is thus equal
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to the number of bins times the chunk count in each bin times the size
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of each chunk. With defaults, the approximate maximum overhead of the
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per-thread cache is approximately 236 KB on 64-bit systems and 118 KB
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on 32-bit systems.
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@end deftp
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@deftp Tunable glibc.malloc.tcache_unsorted_limit
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When the user requests memory and the request cannot be met via the
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per-thread cache, the arenas are used to meet the request. At this
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time, additional chunks will be moved from existing arena lists to
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pre-fill the corresponding cache. While copies from the fastbins,
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smallbins, and regular bins are bounded and predictable due to the bin
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sizes, copies from the unsorted bin are not bounded, and incur
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additional time penalties as they need to be sorted as they're
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scanned. To make scanning the unsorted list more predictable and
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bounded, the user may set this tunable to limit the number of chunks
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that are scanned from the unsorted list while searching for chunks to
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pre-fill the per-thread cache with. The default, or when set to zero,
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is no limit.
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@end deftp
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@deftp Tunable glibc.malloc.mxfast
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One of the optimizations @code{malloc} uses is to maintain a series of ``fast
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bins'' that hold chunks up to a specific size. The default and
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maximum size which may be held this way is 80 bytes on 32-bit systems
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or 160 bytes on 64-bit systems. Applications which value size over
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speed may choose to reduce the size of requests which are serviced
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from fast bins with this tunable. Note that the value specified
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includes @code{malloc}'s internal overhead, which is normally the size of one
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pointer, so add 4 on 32-bit systems or 8 on 64-bit systems to the size
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passed to @code{malloc} for the largest bin size to enable.
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@end deftp
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@deftp Tunable glibc.malloc.hugetlb
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This tunable controls the usage of Huge Pages on @code{malloc} calls. The
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default value is @code{0}, which disables any additional support on
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@code{malloc}.
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Setting its value to @code{1} enables the use of @code{madvise} with
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@code{MADV_HUGEPAGE} after memory allocation with @code{mmap}. It is enabled
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only if the system supports Transparent Huge Page (currently only on Linux).
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Setting its value to @code{2} enables the use of Huge Page directly with
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@code{mmap} with the use of @code{MAP_HUGETLB} flag. The huge page size
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to use will be the default one provided by the system. A value larger than
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@code{2} specifies huge page size, which will be matched against the system
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supported ones. If provided value is invalid, @code{MAP_HUGETLB} will not
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be used.
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@end deftp
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@node Dynamic Linking Tunables
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@section Dynamic Linking Tunables
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@cindex dynamic linking tunables
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@cindex rtld tunables
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@deftp {Tunable namespace} glibc.rtld
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Dynamic linker behavior can be modified by setting the
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following tunables in the @code{rtld} namespace:
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@end deftp
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@deftp Tunable glibc.rtld.nns
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Sets the number of supported dynamic link namespaces (see @code{dlmopen}).
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Currently this limit can be set between 1 and 16 inclusive, the default is 4.
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Each link namespace consumes some memory in all thread, and thus raising the
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limit will increase the amount of memory each thread uses. Raising the limit
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is useful when your application uses more than 4 dynamic link namespaces as
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created by @code{dlmopen} with an lmid argument of @code{LM_ID_NEWLM}.
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Dynamic linker audit modules are loaded in their own dynamic link namespaces,
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but they are not accounted for in @code{glibc.rtld.nns}. They implicitly
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increase the per-thread memory usage as necessary, so this tunable does
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not need to be changed to allow many audit modules e.g. via @env{LD_AUDIT}.
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@end deftp
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@deftp Tunable glibc.rtld.optional_static_tls
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Sets the amount of surplus static TLS in bytes to allocate at program
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startup. Every thread created allocates this amount of specified surplus
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static TLS. This is a minimum value and additional space may be allocated
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for internal purposes including alignment. Optional static TLS is used for
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optimizing dynamic TLS access for platforms that support such optimizations
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e.g. TLS descriptors or optimized TLS access for POWER (@code{DT_PPC64_OPT}
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and @code{DT_PPC_OPT}). In order to make the best use of such optimizations
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the value should be as many bytes as would be required to hold all TLS
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variables in all dynamic loaded shared libraries. The value cannot be known
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by the dynamic loader because it doesn't know the expected set of shared
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libraries which will be loaded. The existing static TLS space cannot be
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changed once allocated at process startup. The default allocation of
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optional static TLS is 512 bytes and is allocated in every thread.
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@end deftp
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@deftp Tunable glibc.rtld.dynamic_sort
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Sets the algorithm to use for DSO sorting, valid values are @samp{1} and
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@samp{2}. For value of @samp{1}, an older O(n^3) algorithm is used, which is
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long time tested, but may have performance issues when dependencies between
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shared objects contain cycles due to circular dependencies. When set to the
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value of @samp{2}, a different algorithm is used, which implements a
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topological sort through depth-first search, and does not exhibit the
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performance issues of @samp{1}.
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The default value of this tunable is @samp{2}.
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@end deftp
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@deftp Tunable glibc.rtld.enable_secure
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Used to run a program as if it were a setuid process. The only valid value
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is @samp{1} as this tunable can only be used to set and not unset
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@code{enable_secure}. Setting this tunable to @samp{1} also disables all other
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tunables. This tunable is intended to facilitate more extensive verification
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tests for @code{AT_SECURE} programs and not meant to be a security feature.
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The default value of this tunable is @samp{0}.
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@end deftp
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@node Elision Tunables
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@section Elision Tunables
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@cindex elision tunables
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@cindex tunables, elision
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@deftp {Tunable namespace} glibc.elision
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Contended locks are usually slow and can lead to performance and scalability
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issues in multithread code. Lock elision will use memory transactions to under
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certain conditions, to elide locks and improve performance.
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Elision behavior can be modified by setting the following tunables in
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the @code{elision} namespace:
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@end deftp
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@deftp Tunable glibc.elision.enable
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The @code{glibc.elision.enable} tunable enables lock elision if the feature is
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supported by the hardware. If elision is not supported by the hardware this
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tunable has no effect.
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Elision tunables are supported for 64-bit Intel, IBM POWER, and z System
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architectures.
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@end deftp
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@deftp Tunable glibc.elision.skip_lock_busy
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The @code{glibc.elision.skip_lock_busy} tunable sets how many times to use a
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non-transactional lock after a transactional failure has occurred because the
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lock is already acquired. Expressed in number of lock acquisition attempts.
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The default value of this tunable is @samp{3}.
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@end deftp
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@deftp Tunable glibc.elision.skip_lock_internal_abort
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The @code{glibc.elision.skip_lock_internal_abort} tunable sets how many times
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the thread should avoid using elision if a transaction aborted for any reason
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other than a different thread's memory accesses. Expressed in number of lock
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acquisition attempts.
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The default value of this tunable is @samp{3}.
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@end deftp
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@deftp Tunable glibc.elision.skip_lock_after_retries
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The @code{glibc.elision.skip_lock_after_retries} tunable sets how many times
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to try to elide a lock with transactions, that only failed due to a different
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thread's memory accesses, before falling back to regular lock.
|
|
Expressed in number of lock elision attempts.
|
|
|
|
This tunable is supported only on IBM POWER, and z System architectures.
|
|
|
|
The default value of this tunable is @samp{3}.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.elision.tries
|
|
The @code{glibc.elision.tries} sets how many times to retry elision if there is
|
|
chance for the transaction to finish execution e.g., it wasn't
|
|
aborted due to the lock being already acquired. If elision is not supported
|
|
by the hardware this tunable is set to @samp{0} to avoid retries.
|
|
|
|
The default value of this tunable is @samp{3}.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.elision.skip_trylock_internal_abort
|
|
The @code{glibc.elision.skip_trylock_internal_abort} tunable sets how many
|
|
times the thread should avoid trying the lock if a transaction aborted due to
|
|
reasons other than a different thread's memory accesses. Expressed in number
|
|
of try lock attempts.
|
|
|
|
The default value of this tunable is @samp{3}.
|
|
@end deftp
|
|
|
|
@node POSIX Thread Tunables
|
|
@section POSIX Thread Tunables
|
|
@cindex pthread mutex tunables
|
|
@cindex thread mutex tunables
|
|
@cindex mutex tunables
|
|
@cindex tunables thread mutex
|
|
|
|
@deftp {Tunable namespace} glibc.pthread
|
|
The behavior of POSIX threads can be tuned to gain performance improvements
|
|
according to specific hardware capabilities and workload characteristics by
|
|
setting the following tunables in the @code{pthread} namespace:
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.pthread.mutex_spin_count
|
|
The @code{glibc.pthread.mutex_spin_count} tunable sets the maximum number of times
|
|
a thread should spin on the lock before calling into the kernel to block.
|
|
Adaptive spin is used for mutexes initialized with the
|
|
@code{PTHREAD_MUTEX_ADAPTIVE_NP} GNU extension. It affects both
|
|
@code{pthread_mutex_lock} and @code{pthread_mutex_timedlock}.
|
|
|
|
The thread spins until either the maximum spin count is reached or the lock
|
|
is acquired.
|
|
|
|
The default value of this tunable is @samp{100}.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.pthread.stack_cache_size
|
|
This tunable configures the maximum size of the stack cache. Once the
|
|
stack cache exceeds this size, unused thread stacks are returned to
|
|
the kernel, to bring the cache size below this limit.
|
|
|
|
The value is measured in bytes. The default is @samp{41943040}
|
|
(forty mibibytes).
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.pthread.rseq
|
|
The @code{glibc.pthread.rseq} tunable can be set to @samp{0}, to disable
|
|
restartable sequences support in @theglibc{}. This enables applications
|
|
to perform direct restartable sequence registration with the kernel.
|
|
The default is @samp{1}, which means that @theglibc{} performs
|
|
registration on behalf of the application.
|
|
|
|
Restartable sequences are a Linux-specific extension.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.pthread.stack_hugetlb
|
|
This tunable controls whether to use Huge Pages in the stacks created by
|
|
@code{pthread_create}. This tunable only affects the stacks created by
|
|
@theglibc{}, it has no effect on stack assigned with
|
|
@code{pthread_attr_setstack}.
|
|
|
|
The default is @samp{1} where the system default value is used. Setting
|
|
its value to @code{0} enables the use of @code{madvise} with
|
|
@code{MADV_NOHUGEPAGE} after stack creation with @code{mmap}.
|
|
|
|
This is a memory utilization optimization, since internal glibc setup of either
|
|
the thread descriptor and the guard page might force the kernel to move the
|
|
thread stack originally backup by Huge Pages to default pages.
|
|
@end deftp
|
|
|
|
@node Hardware Capability Tunables
|
|
@section Hardware Capability Tunables
|
|
@cindex hardware capability tunables
|
|
@cindex hwcap tunables
|
|
@cindex tunables, hwcap
|
|
@cindex hwcaps tunables
|
|
@cindex tunables, hwcaps
|
|
@cindex data_cache_size tunables
|
|
@cindex tunables, data_cache_size
|
|
@cindex shared_cache_size tunables
|
|
@cindex tunables, shared_cache_size
|
|
@cindex non_temporal_threshold tunables
|
|
@cindex memset_non_temporal_threshold tunables
|
|
@cindex tunables, non_temporal_threshold, memset_non_temporal_threshold
|
|
|
|
@deftp {Tunable namespace} glibc.cpu
|
|
Behavior of @theglibc{} can be tuned to assume specific hardware capabilities
|
|
by setting the following tunables in the @code{cpu} namespace:
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.hwcaps
|
|
The @code{glibc.cpu.hwcaps=-xxx,yyy,-zzz...} tunable allows the user to
|
|
enable CPU/ARCH feature @code{yyy}, disable CPU/ARCH feature @code{xxx}
|
|
and @code{zzz} where the feature name is case-sensitive and has to match
|
|
the ones in @code{sysdeps/x86/include/cpu-features.h}.
|
|
|
|
On s390x, the supported HWCAP and STFLE features can be found in
|
|
@code{sysdeps/s390/cpu-features.c}. In addition the user can also set
|
|
a CPU arch-level like @code{z13} instead of single HWCAP and STFLE features.
|
|
|
|
On powerpc, the supported HWCAP and HWCAP2 features can be found in
|
|
@code{sysdeps/powerpc/dl-procinfo.c}.
|
|
|
|
On loongarch, the supported HWCAP features can be found in
|
|
@code{sysdeps/loongarch/cpu-tunables.c}.
|
|
|
|
This tunable is specific to i386, x86-64, s390x, powerpc and loongarch.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.cached_memopt
|
|
The @code{glibc.cpu.cached_memopt=[0|1]} tunable allows the user to
|
|
enable optimizations recommended for cacheable memory. If set to
|
|
@code{1}, @theglibc{} assumes that the process memory image consists
|
|
of cacheable (non-device) memory only. The default, @code{0},
|
|
indicates that the process may use device memory.
|
|
|
|
This tunable is specific to powerpc, powerpc64 and powerpc64le.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.name
|
|
The @code{glibc.cpu.name=xxx} tunable allows the user to tell @theglibc{} to
|
|
assume that the CPU is @code{xxx} where xxx may have one of these values:
|
|
@code{generic}, @code{thunderxt88}, @code{thunderx2t99},
|
|
@code{thunderx2t99p1}, @code{ares}, @code{emag}, @code{kunpeng},
|
|
@code{a64fx}.
|
|
|
|
This tunable is specific to aarch64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_data_cache_size
|
|
The @code{glibc.cpu.x86_data_cache_size} tunable allows the user to set
|
|
data cache size in bytes for use in memory and string routines.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_shared_cache_size
|
|
The @code{glibc.cpu.x86_shared_cache_size} tunable allows the user to
|
|
set shared cache size in bytes for use in memory and string routines.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_non_temporal_threshold
|
|
The @code{glibc.cpu.x86_non_temporal_threshold} tunable allows the user
|
|
to set threshold in bytes for non temporal store. Non temporal stores
|
|
give a hint to the hardware to move data directly to memory without
|
|
displacing other data from the cache. This tunable is used by some
|
|
platforms to determine when to use non temporal stores in operations
|
|
like memmove and memcpy.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_memset_non_temporal_threshold
|
|
The @code{glibc.cpu.x86_memset_non_temporal_threshold} tunable allows
|
|
the user to set threshold in bytes for non temporal store in
|
|
memset. Non temporal stores give a hint to the hardware to move data
|
|
directly to memory without displacing other data from the cache. This
|
|
tunable is used by some platforms to determine when to use non
|
|
temporal stores memset.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
|
|
@deftp Tunable glibc.cpu.x86_rep_movsb_threshold
|
|
The @code{glibc.cpu.x86_rep_movsb_threshold} tunable allows the user to
|
|
set threshold in bytes to start using "rep movsb". The value must be
|
|
greater than zero, and currently defaults to 2048 bytes.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_rep_stosb_threshold
|
|
The @code{glibc.cpu.x86_rep_stosb_threshold} tunable allows the user to
|
|
set threshold in bytes to start using "rep stosb". The value must be
|
|
greater than zero, and currently defaults to 2048 bytes.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_ibt
|
|
The @code{glibc.cpu.x86_ibt} tunable allows the user to control how
|
|
indirect branch tracking (IBT) should be enabled. Accepted values are
|
|
@code{on}, @code{off}, and @code{permissive}. @code{on} always turns
|
|
on IBT regardless of whether IBT is enabled in the executable and its
|
|
dependent shared libraries. @code{off} always turns off IBT regardless
|
|
of whether IBT is enabled in the executable and its dependent shared
|
|
libraries. @code{permissive} is the same as the default which disables
|
|
IBT on non-CET executables and shared libraries.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.x86_shstk
|
|
The @code{glibc.cpu.x86_shstk} tunable allows the user to control how
|
|
the shadow stack (SHSTK) should be enabled. Accepted values are
|
|
@code{on}, @code{off}, and @code{permissive}. @code{on} always turns on
|
|
SHSTK regardless of whether SHSTK is enabled in the executable and its
|
|
dependent shared libraries. @code{off} always turns off SHSTK regardless
|
|
of whether SHSTK is enabled in the executable and its dependent shared
|
|
libraries. @code{permissive} changes how dlopen works on non-CET shared
|
|
libraries. By default, when SHSTK is enabled, dlopening a non-CET shared
|
|
library returns an error. With @code{permissive}, it turns off SHSTK
|
|
instead.
|
|
|
|
This tunable is specific to i386 and x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.prefer_map_32bit_exec
|
|
When this tunable is set to @code{1}, shared libraries of non-setuid
|
|
programs will be loaded below 2GB with MAP_32BIT.
|
|
|
|
Note that the @env{LD_PREFER_MAP_32BIT_EXEC} environment is an alias of
|
|
this tunable.
|
|
|
|
This tunable is specific to 64-bit x86-64.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.cpu.plt_rewrite
|
|
When this tunable is set to @code{1}, the dynamic linker will rewrite
|
|
the PLT section with 32-bit direct jump. When it is set to @code{2},
|
|
the dynamic linker will rewrite the PLT section with 32-bit direct
|
|
jump and on APX processors with 64-bit absolute jump.
|
|
|
|
This tunable is specific to x86-64 and effective only when the lazy
|
|
binding is disabled.
|
|
@end deftp
|
|
|
|
@node Memory Related Tunables
|
|
@section Memory Related Tunables
|
|
@cindex memory related tunables
|
|
|
|
@deftp {Tunable namespace} glibc.mem
|
|
This tunable namespace supports operations that affect the way @theglibc{}
|
|
and the process manage memory.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.mem.tagging
|
|
If the hardware supports memory tagging, this tunable can be used to
|
|
control the way @theglibc{} uses this feature. At present this is only
|
|
supported on AArch64 systems with the MTE extension; it is ignored for
|
|
all other systems.
|
|
|
|
This tunable takes a value between 0 and 255 and acts as a bitmask
|
|
that enables various capabilities.
|
|
|
|
Bit 0 (the least significant bit) causes the @code{malloc}
|
|
subsystem to allocate
|
|
tagged memory, with each allocation being assigned a random tag.
|
|
|
|
Bit 1 enables precise faulting mode for tag violations on systems that
|
|
support deferred tag violation reporting. This may cause programs
|
|
to run more slowly.
|
|
|
|
Bit 2 enables either precise or deferred faulting mode for tag violations
|
|
whichever is preferred by the system.
|
|
|
|
Other bits are currently reserved.
|
|
|
|
@Theglibc{} startup code will automatically enable memory tagging
|
|
support in the kernel if this tunable has any non-zero value.
|
|
|
|
The default value is @samp{0}, which disables all memory tagging.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.mem.decorate_maps
|
|
If the kernel supports naming anonymous virtual memory areas (since
|
|
Linux version 5.17, although not always enabled by some kernel
|
|
configurations), this tunable can be used to control whether
|
|
@theglibc{} decorates the underlying memory obtained from operating
|
|
system with a string describing its usage (for instance, on the thread
|
|
stack created by @code{ptthread_create} or memory allocated by
|
|
@code{malloc}).
|
|
|
|
The process mappings can be obtained by reading the @code{/proc/<pid>maps}
|
|
(with @code{pid} being either the @dfn{process ID} or @code{self} for the
|
|
process own mapping).
|
|
|
|
This tunable takes a value of 0 and 1, where 1 enables the feature.
|
|
The default value is @samp{0}, which disables the decoration.
|
|
@end deftp
|
|
|
|
@node gmon Tunables
|
|
@section gmon Tunables
|
|
@cindex gmon tunables
|
|
|
|
@deftp {Tunable namespace} glibc.gmon
|
|
This tunable namespace affects the behaviour of the gmon profiler.
|
|
gmon is a component of @theglibc{} which is normally used in
|
|
conjunction with gprof.
|
|
|
|
When GCC compiles a program with the @code{-pg} option, it instruments
|
|
the program with calls to the @code{mcount} function, to record the
|
|
program's call graph. At program startup, a memory buffer is allocated
|
|
to store this call graph; the size of the buffer is calculated using a
|
|
heuristic based on code size. If during execution, the buffer is found
|
|
to be too small, profiling will be aborted and no @file{gmon.out} file
|
|
will be produced. In that case, you will see the following message
|
|
printed to standard error:
|
|
|
|
@example
|
|
mcount: call graph buffer size limit exceeded, gmon.out will not be generated
|
|
@end example
|
|
|
|
Most of the symbols discussed in this section are defined in the header
|
|
@code{sys/gmon.h}. However, some symbols (for example @code{mcount})
|
|
are not defined in any header file, since they are only intended to be
|
|
called from code generated by the compiler.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.mem.minarcs
|
|
The heuristic for sizing the call graph buffer is known to be
|
|
insufficient for small programs; hence, the calculated value is clamped
|
|
to be at least a minimum size. The default minimum (in units of
|
|
call graph entries, @code{struct tostruct}), is given by the macro
|
|
@code{MINARCS}. If you have some program with an unusually complex
|
|
call graph, for which the heuristic fails to allocate enough space,
|
|
you can use this tunable to increase the minimum to a larger value.
|
|
@end deftp
|
|
|
|
@deftp Tunable glibc.mem.maxarcs
|
|
To prevent excessive memory consumption when profiling very large
|
|
programs, the call graph buffer is allowed to have a maximum of
|
|
@code{MAXARCS} entries. For some very large programs, the default
|
|
value of @code{MAXARCS} defined in @file{sys/gmon.h} is too small; in
|
|
that case, you can use this tunable to increase it.
|
|
|
|
Note the value of the @code{maxarcs} tunable must be greater or equal
|
|
to that of the @code{minarcs} tunable; if this constraint is violated,
|
|
a warning will printed to standard error at program startup, and
|
|
the @code{minarcs} value will be used as the maximum as well.
|
|
|
|
Setting either tunable too high may result in a call graph buffer
|
|
whose size exceeds the available memory; in that case, an out of memory
|
|
error will be printed at program startup, the profiler will be
|
|
disabled, and no @file{gmon.out} file will be generated.
|
|
@end deftp
|