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6c2b579962
The SXID_* tunable properties only influence processes that are AT_SECURE, so make that a bit more explicit in the documentation and comment. Revisiting the code after a few years I managed to confuse myself, so I imagine there could be others who may have incorrectly assumed like I did that the SXID_ERASE tunables are not inherited by children of non-AT_SECURE processes. Reviewed-by: Florian Weimer <fweimer@redhat.com>
157 lines
5.2 KiB
Plaintext
157 lines
5.2 KiB
Plaintext
TUNABLE FRAMEWORK
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=================
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Tunables is a feature in the GNU C Library that allows application authors and
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distribution maintainers to alter the runtime library behaviour to match their
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workload.
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The tunable framework allows modules within glibc to register variables that
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may be tweaked through an environment variable. It aims to enforce a strict
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namespace rule to bring consistency to naming of these tunable environment
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variables across the project. This document is a guide for glibc developers to
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add tunables to the framework.
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ADDING A NEW TUNABLE
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--------------------
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The TOP_NAMESPACE macro is defined by default as 'glibc'. If distributions
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intend to add their own tunables, they should do so in a different top
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namespace by overriding the TOP_NAMESPACE macro for that tunable. Downstream
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implementations are discouraged from using the 'glibc' top namespace for
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tunables they don't already have consensus to push upstream.
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There are three steps to adding a tunable:
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1. Add a tunable to the list and fully specify its properties:
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For each tunable you want to add, make an entry in elf/dl-tunables.list. The
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format of the file is as follows:
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TOP_NAMESPACE {
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NAMESPACE1 {
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TUNABLE1 {
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# tunable attributes, one per line
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}
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# A tunable with default attributes, i.e. string variable.
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TUNABLE2
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TUNABLE3 {
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# its attributes
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}
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}
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NAMESPACE2 {
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...
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}
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}
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The list of allowed attributes are:
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- type: Data type. Defaults to STRING. Allowed types are:
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INT_32, UINT_64, SIZE_T and STRING. Numeric types may
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be in octal or hexadecimal format too.
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- minval: Optional minimum acceptable value. For a string type
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this is the minimum length of the value.
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- maxval: Optional maximum acceptable value. For a string type
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this is the maximum length of the value.
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- default: Specify an optional default value for the tunable.
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- env_alias: An alias environment variable
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- security_level: Specify security level of the tunable for AT_SECURE
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binaries. Valid values are:
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SXID_ERASE: (default) Do not read and do not pass on to
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child processes.
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SXID_IGNORE: Do not read, but retain for non-AT_SECURE
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child processes.
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NONE: Read all the time.
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2. Use TUNABLE_GET/TUNABLE_SET/TUNABLE_SET_WITH_BOUNDS to get and set tunables.
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3. OPTIONAL: If tunables in a namespace are being used multiple times within a
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specific module, set the TUNABLE_NAMESPACE macro to reduce the amount of
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typing.
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GETTING AND SETTING TUNABLES
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----------------------------
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When the TUNABLE_NAMESPACE macro is defined, one may get tunables in that
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module using the TUNABLE_GET macro as follows:
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val = TUNABLE_GET (check, int32_t, TUNABLE_CALLBACK (check_callback))
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where 'check' is the tunable name, 'int32_t' is the C type of the tunable and
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'check_callback' is the function to call if the tunable got initialized to a
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non-default value. The macro returns the value as type 'int32_t'.
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The callback function should be defined as follows:
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void
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TUNABLE_CALLBACK (check_callback) (int32_t *valp)
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{
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...
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}
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where it can expect the tunable value to be passed in VALP.
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Tunables in the module can be updated using:
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TUNABLE_SET (check, int32_t, val)
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where 'check' is the tunable name, 'int32_t' is the C type of the tunable and
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'val' is a value of same type.
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To get and set tunables in a different namespace from that module, use the full
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form of the macros as follows:
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val = TUNABLE_GET_FULL (glibc, cpu, hwcap_mask, uint64_t, NULL)
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TUNABLE_SET_FULL (glibc, cpu, hwcap_mask, uint64_t, val)
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where 'glibc' is the top namespace, 'cpu' is the tunable namespace and the
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remaining arguments are the same as the short form macros.
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The minimum and maximum values can updated together with the tunable value
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using:
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TUNABLE_SET_WITH_BOUNDS (check, int32_t, val, min, max)
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where 'check' is the tunable name, 'int32_t' is the C type of the tunable,
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'val' is a value of same type, 'min' and 'max' are the minimum and maximum
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values of the tunable.
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To set the minimum and maximum values of tunables in a different namespace
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from that module, use the full form of the macros as follows:
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val = TUNABLE_GET_FULL (glibc, cpu, hwcap_mask, uint64_t, NULL)
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TUNABLE_SET_WITH_BOUNDS_FULL (glibc, cpu, hwcap_mask, uint64_t, val, min, max)
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where 'glibc' is the top namespace, 'cpu' is the tunable namespace and the
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remaining arguments are the same as the short form macros.
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When TUNABLE_NAMESPACE is not defined in a module, TUNABLE_GET is equivalent to
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TUNABLE_GET_FULL, so you will need to provide full namespace information for
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both macros. Likewise for TUNABLE_SET, TUNABLE_SET_FULL,
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TUNABLE_SET_WITH_BOUNDS and TUNABLE_SET_WITH_BOUNDS_FULL.
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** IMPORTANT NOTE **
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The tunable list is set as read-only after the dynamic linker relocates itself,
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so setting tunable values must be limited only to tunables within the dynamic
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linker, that too before relocation.
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FUTURE WORK
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-----------
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The framework currently only allows a one-time initialization of variables
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through environment variables and in some cases, modification of variables via
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an API call. A future goals for this project include:
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- Setting system-wide and user-wide defaults for tunables through some
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mechanism like a configuration file.
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- Allow tweaking of some tunables at runtime
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