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/Linux-v6.1/Documentation/filesystems/
D	idmappings.rst	1 .. SPDX-License-Identifier: GPL-2.0 12 ------------ 16 in userspace is:: 20 ``u`` indicates the first element in the upper idmapset ``U`` and ``k`` 21 indicates the first element in the lower idmapset ``K``. The ``r`` parameter 24 we're talking about an id in the upper or lower idmapset. 26 To see what this looks like in practice, let's take the following idmapping:: 32 u22 -> k10000 33 u23 -> k10001 34 u24 -> k10002 [all …]
/Linux-v6.1/Documentation/process/
D	1.Intro.rst	7 ----------------- 9 The rest of this section covers the scope of the kernel development process 11 encounter there. There are a great many reasons why kernel code should be 12 merged into the official ("mainline") kernel, including automatic 13 availability to users, community support in many forms, and the ability to 14 influence the direction of kernel development. Code contributed to the 15 Linux kernel must be made available under a GPL-compatible license. 17 :ref:`development_process` introduces the development process, the kernel 18 release cycle, and the mechanics of the merge window. The various phases in 21 with kernel development are encouraged to track down and fix bugs as an [all …]
D	howto.rst	3 HOWTO do Linux kernel development 6 This is the be-all, end-all document on this topic. It contains 7 instructions on how to become a Linux kernel developer and how to learn 8 to work with the Linux kernel development community. It tries to not 9 contain anything related to the technical aspects of kernel programming, 10 but will help point you in the right direction for that. 12 If anything in this document becomes out of date, please send in patches 18 ------------ 20 So, you want to learn how to become a Linux kernel developer? Or you 27 The kernel is written mostly in C, with some architecture-dependent [all …]
D	stable-api-nonsense.rst	3 The Linux Kernel Driver Interface 8 Greg Kroah-Hartman <greg@kroah.com> 11 kernel interface, nor does it have a stable kernel interface. 15 Please realize that this article describes the in kernel** interfaces, not 16 the kernel to userspace interfaces. 18 The kernel to userspace interface is the one that application programs use, 21 kernel that still work just fine on the latest 2.6 kernel release. 27 ----------------- 28 You think you want a stable kernel interface, but you really do not, and 30 you get that only if your driver is in the main kernel tree. You also [all …]
D	2.Process.rst	6 Linux kernel development in the early 1990's was a pretty loose affair, 8 user base in the millions and with some 2,000 developers involved over the 9 course of one year, the kernel has since had to evolve a number of 11 how the process works is required in order to be an effective part of it. 14 --------------- 16 The kernel developers use a loosely time-based release process, with a new 17 major kernel release happening every two or three months. The recent 29 Every 5.x release is a major kernel release with new features, internal 32 the leading edge of Linux kernel development; the kernel uses a 39 community) is merged into the mainline kernel. The bulk of changes for a [all …]
D	4.Coding.rst	6 While there is much to be said for a solid and community-oriented design 7 process, the proof of any kernel development project is in the resulting 13 number of ways in which kernel developers can go wrong. Then the focus 14 will shift toward doing things right and the tools which can help in that 19 --------- 24 The kernel has long had a standard coding style, described in 25 :ref:`Documentation/process/coding-style.rst <codingstyle>`. For much of 26 that time, the policies described in that file were taken as being, at most, 27 advisory. As a result, there is a substantial amount of code in the kernel 29 leads to two independent hazards for kernel developers. [all …]
D	applying-patches.rst	3 Applying Patches To The Linux Kernel 11 This document is obsolete. In most cases, rather than using ``patch`` 14 A frequently asked question on the Linux Kernel Mailing List is how to apply 15 a patch to the kernel or, more specifically, what base kernel a patch for 19 In addition to explaining how to apply and revert patches, a brief 20 description of the different kernel trees (and examples of how to apply 33 should both be present in the patch file metadata or be possible to deduce 41 (or patch) file and makes the changes to the source tree described in it. 43 Patches for the Linux kernel are generated relative to the parent directory 44 holding the kernel source dir. [all …]
D	3.Early-stage.rst	3 Early-stage planning 6 When contemplating a Linux kernel development project, it can be tempting 7 to jump right in and start coding. As with any significant project, 9 line of code is written. Some time spent in early planning and 14 ---------------------- 16 Like any engineering project, a successful kernel enhancement starts with a 17 clear description of the problem to be solved. In some cases, this step is 19 example. In others, though, it is tempting to confuse the real problem 24 by excessive latency in the system. The solution they arrived at was a 25 kernel module intended to hook into the Linux Security Module (LSM) [all …]
/Linux-v6.1/Documentation/dev-tools/
D	kgdb.rst	2 Using kgdb, kdb and the kernel debugger internals 10 The kernel has two different debugger front ends (kdb and kgdb) which 13 configure the kernel properly at compile and runtime. 15 Kdb is simplistic shell-style interface which you can use on a system 18 stop in a certain location. Kdb is not a source level debugger, although 19 you can set breakpoints and execute some basic kernel run control. Kdb 20 is mainly aimed at doing some analysis to aid in development or 21 diagnosing kernel problems. You can access some symbols by name in 22 kernel built-ins or in kernel modules if the code was built with 26 kernel. It is used along with gdb to debug a Linux kernel. The [all …]
/Linux-v6.1/Documentation/admin-guide/
D	reporting-issues.rst	1 .. SPDX-License-Identifier: (GPL-2.0+ OR CC-BY-4.0) 13 <https://lore.kernel.org/lkml/>`_ and the `Linux stable mailing list 14 <https://lore.kernel.org/stable/>`_ archives for matching reports to join. If 16 <https://kernel.org/>`_. If it still shows the issue, report it to the stable 17 mailing list (stable@vger.kernel.org) and CC the regressions list 19 list for the subsystem in question. 21 In all other cases try your best guess which kernel part might be causing the 24 mailing list in CC. Check the destination's archives for matching reports; 25 search the `LKML <https://lore.kernel.org/lkml/>`_ and the web, too. If you 26 don't find any to join, install `the latest mainline kernel [all …]
D	README.rst	3 Linux kernel release 6.x <http://kernel.org/> 8 kernel, and what to do if something goes wrong. 11 -------------- 14 Linus Torvalds with assistance from a loosely-knit team of hackers across 17 It has all the features you would expect in a modern fully-fledged Unix, 19 loading, shared copy-on-write executables, proper memory management, 22 It is distributed under the GNU General Public License v2 - see the 26 ----------------------------- 28 Although originally developed first for 32-bit x86-based PCs (386 or higher), 31 IBM S/390, MIPS, HP PA-RISC, Intel IA-64, DEC VAX, AMD x86-64 Xtensa, and [all …]
D	tainted-kernels.rst	2 --------------- 4 The kernel will mark itself as 'tainted' when something occurs that might be 6 most of the time it's not a problem to run a tainted kernel; the information is 8 cause might be the event that got the kernel tainted. That's why bug reports 10 problems with an untainted kernel. 12 Note the kernel will remain tainted even after you undo what caused the taint 13 (i.e. unload a proprietary kernel module), to indicate the kernel remains not 14 trustworthy. That's also why the kernel will print the tainted state when it 15 notices an internal problem (a 'kernel bug'), a recoverable error 16 ('kernel oops') or a non-recoverable error ('kernel panic') and writes debug [all …]
/Linux-v6.1/Documentation/translations/it_IT/process/
D	howto.rst	1 .. include:: ../disclaimer-ita.rst 8 Come partecipare allo sviluppo del kernel Linux 13 del kernel Linux e spiega come lavorare con la comunità di 14 sviluppo kernel Linux. Il documento non tratterà alcun aspetto 15 tecnico relativo alla programmazione del kernel, ma vi aiuterà 18 Se qualsiasi cosa presente in questo documento diventasse obsoleta, 20 file, indicati in fondo al presente documento. 23 ------------ 24 Dunque, volete imparare come diventare sviluppatori del kernel Linux? 30 di spiegare alcune delle ragioni per le quali la comunità lavora in un [all …]
D	4.Coding.rst	1 .. include:: ../disclaimer-ita.rst 13 del kernel si trova nel codice stesso. È il codice che sarà esaminato dagli 18 sulle diverse casistiche nelle quali gli sviluppatori kernel possono 20 correttamente" e sugli strumenti che possono essere utili in questa missione. 23 -------- 28 Il kernel ha da tempo delle norme sullo stile di codifica che sono descritte in 29 :ref:`Documentation/translations/it_IT/process/coding-style.rst <codingstyle>`. 30 Per la maggior parte del tempo, la politica descritta in quel file è stata 32 codice nel kernel che non rispetta le linee guida relative allo stile. 34 sviluppatori kernel. [all …]
D	2.Process.rst	1 .. include:: ../disclaimer-ita.rst 11 Lo sviluppo del Kernel agli inizi degli anno '90 era abbastanza libero, con 14 il kernel da allora ha messo in atto un certo numero di procedure per rendere 19 ------------------- 21 Gli sviluppatori kernel utilizzano un calendario di rilascio generico, dove 22 ogni due o tre mesi viene effettuata un rilascio importante del kernel. 34 Ciascun rilascio 5.x è un importante rilascio del kernel con nuove 38 linea di confine nello sviluppo del kernel Linux; il kernel utilizza un sistema 43 "finestra di inclusione" viene dichiarata aperta. In quel momento il codice 45 viene incluso nel ramo principale del kernel. La maggior parte delle [all …]
/Linux-v6.1/Documentation/arm/
D	booting.rst	9 The following documentation is relevant to 2.4.18-rmk6 and beyond. 11 In order to boot ARM Linux, you require a boot loader, which is a small 12 program that runs before the main kernel. The boot loader is expected 13 to initialise various devices, and eventually call the Linux kernel, 14 passing information to the kernel. 22 4. Setup the kernel tagged list. 24 6. Call the kernel image. 28 --------------------------- 36 kernel will use for volatile data storage in the system. It performs 37 this in a machine dependent manner. (It may use internal algorithms [all …]
/Linux-v6.1/Documentation/x86/
D	pti.rst	1 .. SPDX-License-Identifier: GPL-2.0 11 countermeasure against attacks on the shared user/kernel address 16 the kernel is entered via syscalls, interrupts or exceptions, the 17 page tables are switched to the full "kernel" copy. When the system 20 The userspace page tables contain only a minimal amount of kernel 21 data: only what is needed to enter/exit the kernel such as the 25 comments in pti.c). 27 This approach helps to ensure that side-channel attacks leveraging 30 Once enabled at compile-time, it can be disabled at boot with the 31 'nopti' or 'pti=' kernel parameters (see kernel-parameters.txt). [all …]
/Linux-v6.1/Documentation/admin-guide/kdump/
D	kdump.rst	2 Documentation for Kdump - The kexec-based Crash Dumping Solution 11 Kdump uses kexec to quickly boot to a dump-capture kernel whenever a 12 dump of the system kernel's memory needs to be taken (for example, when 13 the system panics). The system kernel's memory image is preserved across 14 the reboot and is accessible to the dump-capture kernel. 23 When the system kernel boots, it reserves a small section of memory for 24 the dump-capture kernel. This ensures that ongoing Direct Memory Access 25 (DMA) from the system kernel does not corrupt the dump-capture kernel. 26 The kexec -p command loads the dump-capture kernel into this reserved 30 regardless of where the kernel loads. For simpler handling, the whole [all …]
/Linux-v6.1/Documentation/powerpc/
D	booting.rst	1 .. SPDX-License-Identifier: GPL-2.0 4 ------------------ 6 During the development of the Linux/ppc64 kernel, and more specifically, the 8 was decided to enforce some strict rules regarding the kernel entry and 9 bootloader <-> kernel interfaces, in order to avoid the degeneration that had 10 become the ppc32 kernel entry point and the way a new platform should be added 11 to the kernel. The legacy iSeries platform breaks those rules as it predates 12 this scheme, but no new board support will be accepted in the main tree that 13 doesn't follow them properly. In addition, since the advent of the arch/powerpc 14 merged architecture for ppc32 and ppc64, new 32-bit platforms and 32-bit [all …]
/Linux-v6.1/Documentation/arm64/
D	booting.rst	10 is relevant to all public releases of the AArch64 Linux kernel. 13 (EL0 - EL3), with EL0, EL1 and EL2 having a secure and a non-secure 15 level and exists only in secure mode. Both are architecturally optional. 19 is passed to the Linux kernel. This may include secure monitor and 28 3. Decompress the kernel image 29 4. Call the kernel image 33 --------------------------- 38 kernel will use for volatile data storage in the system. It performs 39 this in a machine dependent manner. (It may use internal algorithms 41 the RAM in the machine, or any other method the boot loader designer [all …]
/Linux-v6.1/include/uapi/linux/
D	dm-log-userspace.h	1 /* SPDX-License-Identifier: LGPL-2.0+ WITH Linux-syscall-note / 3 Copyright (C) 2006-2009 Red Hat, Inc. 12 #include <linux/dm-ioctl.h> /* For DM_UUID_LEN / 15 The device-mapper userspace log module consists of a kernel component and 16 * a user-space component. The kernel component implements the API defined 17 * in dm-dirty-log.h. Its purpose is simply to pass the parameters and 18 * return values of those API functions between kernel and user-space. 20 * Below are defined the 'request_types' - DM_ULOG_CTR, DM_ULOG_DTR, etc. 21 * These request types represent the different functions in the device-mapper 22 * dirty log API. Each of these is described in more detail below. [all …]
/Linux-v6.1/Documentation/security/
D	self-protection.rst	2 Kernel Self-Protection 5 Kernel self-protection is the design and implementation of systems and 6 structures within the Linux kernel to protect against security flaws in 7 the kernel itself. This covers a wide range of issues, including removing 9 and actively detecting attack attempts. Not all topics are explored in 13 In the worst-case scenario, we assume an unprivileged local attacker 14 has arbitrary read and write access to the kernel's memory. In many 16 but with systems in place that defend against the worst case we'll 18 still be kept in mind, is protecting the kernel against a _privileged_ 21 kernel modules.) [all …]
/Linux-v6.1/Documentation/doc-guide/
D	kernel-doc.rst	1 .. title:: Kernel-doc comments 4 Writing kernel-doc comments 7 The Linux kernel source files may contain structured documentation 8 comments in the kernel-doc format to describe the functions, types 9 and design of the code. It is easier to keep documentation up-to-date 10 when it is embedded in source files. 12 .. note:: The kernel-doc format is deceptively similar to javadoc, 13 gtk-doc or Doxygen, yet distinctively different, for historical 14 reasons. The kernel source contains tens of thousands of kernel-doc 17 .. note:: kernel-doc does not cover Rust code: please see [all …]
/Linux-v6.1/Documentation/ABI/testing/
D	sysfs-kernel-mm-damon	`1 what: /sys/kernel/mm/damon/ 3 Contact: SeongJae Park <sj@kernel.org> 6 please refer to Documentation/admin-guide/mm/damon/index.rst. 8 What: /sys/kernel/mm/damon/admin/ 10 Contact: SeongJae Park <sj@kernel.org> 14 What: /sys/kernel/mm/damon/admin/kdamonds/nr_kdamonds 16 Contact: SeongJae Park <sj@kernel.org> 19 named '0' to 'N-1' under the kdamonds/ directory. 21 What: /sys/kernel/mm/damon/admin/kdamonds/<K>/state 23 Contact: SeongJae Park <sj@kernel.org> [all …]`
/Linux-v6.1/arch/riscv/
D	Kconfig	1 # SPDX-License-Identifier: GPL-2.0-only 4 # see Documentation/kbuild/kconfig-language.rst. 141 # VA_BITS - PAGE_SHIFT - 3 149 # set if we run in machine mode, cleared if we run in supervisor mode 154 # set if we are running in S-mode and can use SBI calls 161 bool "MMU-based Paged Memory Management Support" 164 Select if you want MMU-based virtualised addressing space 234 def_bool $(as-instr,.insn r 51$(comma) 0$(comma) 0$(comma) t0$(comma) t0$(comma) zero) 242 bool "Allow configurations that result in non-portable kernels" 244 RISC-V kernel binaries are compatible between all known systems [all …]

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