# SPDX-License-Identifier: GPL-2.0 # Copyright (c) 2026: Mauro Carvalho Chehab # Test cases for the dynamic tests. # Useful to test if kernel-doc classes are doing what it is expected. # tests: - name: func1 fname: mock_functions.c description: "Simplest function test: do nothing, just rst output" source: | /** * func1 - Not exported function * @arg1: @arg1 does nothing * * Does nothing * * return: * always return 0. */ int func1(char *arg1) { return 0; }; expected: - rst: | .. c:function:: int func1 (char *arg1) Not exported function .. container:: kernelindent **Parameters** ``char *arg1`` **arg1** does nothing **Description** Does nothing **Return** always return 0. # TODO: how to handle timestamps at .TH? man: | .TH "func1" 9 "February 2026" "" "Kernel API Manual" .SH NAME func1 \- Not exported function .SH SYNOPSIS .B "int" func1 .BI "(char *arg1 " ");" .SH ARGUMENTS .IP "arg1" 12 \fIarg1\fP does nothing .SH "DESCRIPTION" Does nothing .SH "RETURN" always return 0. .SH "SEE ALSO" .PP Kernel file \fBmock_functions.c\fR - name: func2 fname: func2.c description: Simple test with exports source: | /** * func2() - Exported function * @arg1: @arg1 does nothing * * Does nothing * * return: * always return 0. */ int func2(char *arg1) { return 0; }; EXPORT_SYMBOL(func2); exports: func2 expected: - kdoc_item: name: func2 type: function declaration_start_line: 1 sections: Description: | Does nothing Return: | always return 0. sections_start_lines: Description: 3 Return: 6 parameterdescs: arg1: | @arg1 does nothing parameterlist: - arg1 parameterdesc_start_lines: arg1: 2 parametertypes: arg1: char *arg1 other_stuff: func_macro: false functiontype: int purpose: "Exported function" typedef: false rst: | .. c:function:: int func2 (char *arg1) Exported function .. container:: kernelindent **Parameters** ``char *arg1`` **arg1** does nothing **Description** Does nothing **Return** always return 0. man: | .TH "func2" 9 "February 2026" "" "Kernel API Manual" .SH NAME func2 \- Exported function .SH SYNOPSIS .B "int" func2 .BI "(char *arg1 " ");" .SH ARGUMENTS .IP "arg1" 12 \fIarg1\fP does nothing .SH "DESCRIPTION" Does nothing .SH "RETURN" always return 0. .SH "SEE ALSO" .PP Kernel file \fBfunc2.c\fR - name: doc_with_complex_table description: Test if complex tables are handled fname: mock.c source: | /** * DOC: Supported input formats and encodings * * Depending on the Hardware configuration of the Controller IP, it supports * a subset of the following input formats and encodings on its internal * 48bit bus. * * +----------------------+----------------------------------+------------------------------+ * | Format Name | Format Code | Encodings | * +======================+==================================+==============================+ * | RGB 4:4:4 8bit | ``MEDIA_BUS_FMT_RGB888_1X24`` | ``V4L2_YCBCR_ENC_DEFAULT`` | * +----------------------+----------------------------------+------------------------------+ * | RGB 4:4:4 10bits | ``MEDIA_BUS_FMT_RGB101010_1X30`` | ``V4L2_YCBCR_ENC_DEFAULT`` | * +----------------------+----------------------------------+------------------------------+ */ expected: - man: | .TH "Supported input formats and encodings" 9 "March 2026" "" "Kernel API Manual" .SH "Supported input formats and encodings" Depending on the Hardware configuration of the Controller IP, it supports a subset of the following input formats and encodings on its internal 48bit bus. .PP .TS box; l l l. \fBFormat Name\fP \fBFormat Code\fP \fBEncodings\fP _ RGB 4:4:4 8bit ``MEDIA_BUS_FMT_RGB888_1X24 V4L2_YCBCR_ENC_DEFAULT RGB 4:4:4 10bits MEDIA_BUS_FMT_RGB101010_1X30 V4L2_YCBCR_ENC_DEFAULT`` .TE .SH "SEE ALSO" .PP Kernel file \fBmock.c\fR rst: |- .. _Supported input formats and encodings: **Supported input formats and encodings** Depending on the Hardware configuration of the Controller IP, it supports a subset of the following input formats and encodings on its internal 48bit bus. +----------------------+----------------------------------+------------------------------+ | Format Name | Format Code | Encodings | +======================+==================================+==============================+ | RGB 4:4:4 8bit | ``MEDIA_BUS_FMT_RGB888_1X24`` | ``V4L2_YCBCR_ENC_DEFAULT`` | +----------------------+----------------------------------+------------------------------+ | RGB 4:4:4 10bits | ``MEDIA_BUS_FMT_RGB101010_1X30`` | ``V4L2_YCBCR_ENC_DEFAULT`` | +----------------------+----------------------------------+------------------------------+ - name: func_with_ascii_artwork description: Test if ascii artwork is properly output fname: mock.c source: | /** * add_cxl_resources() - reflect CXL fixed memory windows in iomem_resource * @cxl_res: A standalone resource tree where each CXL window is a sibling * * Walk each CXL window in @cxl_res and add it to iomem_resource potentially * expanding its boundaries to ensure that any conflicting resources become * children. If a window is expanded it may then conflict with a another window * entry and require the window to be truncated or trimmed. Consider this * situation:: * * |-- "CXL Window 0" --||----- "CXL Window 1" -----| * |--------------- "System RAM" -------------| * * ...where platform firmware has established as System RAM resource across 2 * windows, but has left some portion of window 1 for dynamic CXL region * provisioning. In this case "Window 0" will span the entirety of the "System * RAM" span, and "CXL Window 1" is truncated to the remaining tail past the end * of that "System RAM" resource. */ static int add_cxl_resources(struct resource *cxl_res); expected: - man: |- .TH "add_cxl_resources" 9 "March 2026" "" "Kernel API Manual" .SH NAME add_cxl_resources \- reflect CXL fixed memory windows in iomem_resource .SH SYNOPSIS .B "int" add_cxl_resources .BI "(struct resource *cxl_res " ");" .SH ARGUMENTS .IP "cxl_res" 12 A standalone resource tree where each CXL window is a sibling .SH "DESCRIPTION" Walk each CXL window in \fIcxl_res\fP and add it to iomem_resource potentially expanding its boundaries to ensure that any conflicting resources become children. If a window is expanded it may then conflict with a another window entry and require the window to be truncated or trimmed. Consider this situation: .nf |-- "CXL Window 0" --||----- "CXL Window 1" -----| |--------------- "System RAM" -------------| .fi .PP \&...where platform firmware has established as System RAM resource across 2 windows, but has left some portion of window 1 for dynamic CXL region provisioning. In this case "Window 0" will span the entirety of the "System RAM" span, and "CXL Window 1" is truncated to the remaining tail past the end of that "System RAM" resource. .SH "SEE ALSO" .PP Kernel file \fBmock.c\fR rst: | .. c:function:: int add_cxl_resources (struct resource *cxl_res) reflect CXL fixed memory windows in iomem_resource .. container:: kernelindent **Parameters** ``struct resource *cxl_res`` A standalone resource tree where each CXL window is a sibling **Description** Walk each CXL window in **cxl_res** and add it to iomem_resource potentially expanding its boundaries to ensure that any conflicting resources become children. If a window is expanded it may then conflict with a another window entry and require the window to be truncated or trimmed. Consider this situation:: |-- "CXL Window 0" --||----- "CXL Window 1" -----| |--------------- "System RAM" -------------| ...where platform firmware has established as System RAM resource across 2 windows, but has left some portion of window 1 for dynamic CXL region provisioning. In this case "Window 0" will span the entirety of the "System RAM" span, and "CXL Window 1" is truncated to the remaining tail past the end of that "System RAM" resource. - name: simple_tables description: Test formatting two simple tables fname: mock.c source: | /** * bitmap_onto - translate one bitmap relative to another * @dst: resulting translated bitmap * @orig: original untranslated bitmap * @relmap: bitmap relative to which translated * @bits: number of bits in each of these bitmaps * * =============== ============== ================= * @orig tmp @dst * 0 0 40 * 1 1 41 * =============== ============== ================= * * And: * * =============== ============== ================= * @orig tmp @dst * =============== ============== ================= * 9 9 95 * 10 0 40 [#f1]_ * =============== ============== ================= */ void bitmap_onto(unsigned long *dst, const unsigned long *orig, const unsigned long *relmap, unsigned int bits); expected: - man: | .TH "bitmap_onto" 9 "March 2026" "" "Kernel API Manual" .SH NAME bitmap_onto \- translate one bitmap relative to another .SH SYNOPSIS .B "void" bitmap_onto .BI "(unsigned long *dst " "," .BI "const unsigned long *orig " "," .BI "const unsigned long *relmap " "," .BI "unsigned int bits " ");" .SH ARGUMENTS .IP "dst" 12 resulting translated bitmap .IP "orig" 12 original untranslated bitmap .IP "relmap" 12 bitmap relative to which translated .IP "bits" 12 number of bits in each of these bitmaps .SH "DESCRIPTION" .TS box; l l l. \fIorig\fP tmp \fIdst\fP 0 0 40 1 1 41 .TE .PP And: .PP .TS box; l l l. \fIorig\fP tmp \fIdst\fP .TE 9 9 95 10 0 40 [#f1]_ .SH "SEE ALSO" .PP Kernel file \fBmock.c\fR rst: | .. c:function:: void bitmap_onto (unsigned long *dst, const unsigned long *orig, const unsigned long *relmap, unsigned int bits) translate one bitmap relative to another .. container:: kernelindent **Parameters** ``unsigned long *dst`` resulting translated bitmap ``const unsigned long *orig`` original untranslated bitmap ``const unsigned long *relmap`` bitmap relative to which translated ``unsigned int bits`` number of bits in each of these bitmaps **Description** =============== ============== ================= **orig** tmp **dst** 0 0 40 1 1 41 =============== ============== ================= And: =============== ============== ================= **orig** tmp **dst** =============== ============== ================= 9 9 95 10 0 40 [#f1]_ =============== ============== ================= # # Variable tests from Randy Dunlap's testset # - name: unsigned_long_var_on_uppercase description: Test an unsigned long varaible in uppercase fname: mock-vars.c source: | /** * var ROOT_DEV - system root device * * @ROOT_DEV is either the successful root device or the root device * that failed boot in the boot failure message. */ unsigned long ROOT_DEV; expected: - man: | .TH "var ROOT_DEV" 9 "February 2026" "" "Kernel API Manual" .SH NAME ROOT_DEV \- system root device .SH SYNOPSIS unsigned long ROOT_DEV; .SH "Description" \fIROOT_DEV\fP is either the successful root device or the root device that failed boot in the boot failure message. .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: ROOT_DEV ``unsigned long ROOT_DEV;`` system root device **Description** **ROOT_DEV** is either the successful root device or the root device that failed boot in the boot failure message. - name: enum_var description: Test an enum var with __read_mostly fname: mock-vars.c source: | /** * var system_state - system state used during boot or suspend/hibernate/resume * * @system_state can be used during boot to determine if it is safe to * make certain calls to other parts of the kernel. It can also be used * during suspend/hibernate or resume to determine the order of actions * that need to be executed. The numerical values of system_state are * sometimes used in numerical ordering tests, so the relative values * must not be altered. */ enum system_states system_state __read_mostly; expected: - man: | .TH "var system_state" 9 "February 2026" "" "Kernel API Manual" .SH NAME system_state \- system state used during boot or suspend/hibernate/resume .SH SYNOPSIS enum system_states system_state __read_mostly; .SH "Description" \fIsystem_state\fP can be used during boot to determine if it is safe to make certain calls to other parts of the kernel. It can also be used during suspend/hibernate or resume to determine the order of actions that need to be executed. The numerical values of system_state are sometimes used in numerical ordering tests, so the relative values must not be altered. .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: system_state ``enum system_states system_state __read_mostly;`` system state used during boot or suspend/hibernate/resume **Description** **system_state** can be used during boot to determine if it is safe to make certain calls to other parts of the kernel. It can also be used during suspend/hibernate or resume to determine the order of actions that need to be executed. The numerical values of system_state are sometimes used in numerical ordering tests, so the relative values must not be altered. - name: char_pointer_var description: Test char * var with __ro_after_init fname: mock-vars.c source: | /** * var saved_command_line - kernel's command line, saved from use at * any later time in the kernel. */ char *saved_command_line __ro_after_init; expected: - man: | .TH "var saved_command_line" 9 "February 2026" "" "Kernel API Manual" .SH NAME saved_command_line \- kernel's command line, saved from use at any later time in the kernel. .SH SYNOPSIS char *saved_command_line __ro_after_init; .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: saved_command_line ``char *saved_command_line __ro_after_init;`` kernel's command line, saved from use at any later time in the kernel. - name: unsigned_long_with_default description: Test an unsigned long var that is set to a default value fname: mock-vars.c source: | /** * var loop_per_jiffy - calculated loop count needed to consume one jiffy * of time */ unsigned long loops_per_jiffy = (1<<12); expected: - man: | .TH "var loops_per_jiffy" 9 "February 2026" "" "Kernel API Manual" .SH NAME loops_per_jiffy \- calculated loop count needed to consume one jiffy of time .SH SYNOPSIS unsigned long loops_per_jiffy = (1<<12); .SH "Initialization" default: (1<<12) .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: loops_per_jiffy ``unsigned long loops_per_jiffy = (1<<12);`` calculated loop count needed to consume one jiffy of time **Initialization** default: ``(1<<12)`` - name: unsigned_long description: test a simple unsigned long variable. fname: mock-vars.c source: | /** * var preset_lpj - lpj (loops per jiffy) value set from kernel * command line using "lpj=VALUE" * * See Documentation/admin-guide/kernel-parameters.txt ("lpj=") for details. */ unsigned long preset_lpj; expected: - man: | .TH "var preset_lpj" 9 "February 2026" "" "Kernel API Manual" .SH NAME preset_lpj \- lpj (loops per jiffy) value set from kernel command line using "lpj=VALUE" .SH SYNOPSIS unsigned long preset_lpj; .SH "Description" See Documentation/admin-guide/kernel-parameters.txt ("lpj=") for details. .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: preset_lpj ``unsigned long preset_lpj;`` lpj (loops per jiffy) value set from kernel command line using "lpj=VALUE" **Description** See Documentation/admin-guide/kernel-parameters.txt ("lpj=") for details. - name: char_array description: test a char array variable fname: mock-vars.c source: | /** * var linux_proc_banner - text used from /proc/version file * * * first %s is sysname (e.g., "Linux") * * second %s is release * * third %s is version */ char linux_proc_banner[]; expected: - man: | .TH "var linux_proc_banner" 9 "February 2026" "" "Kernel API Manual" .SH NAME linux_proc_banner \- text used from /proc/version file .SH SYNOPSIS char linux_proc_banner[]; .SH "Description" .IP \[bu] first s is sysname (e.g., "Linux") .IP \[bu] second s is release .IP \[bu] third s is version .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: linux_proc_banner ``char linux_proc_banner[];`` text used from /proc/version file **Description** * first ``s`` is sysname (e.g., "Linux") * second ``s`` is release * third ``s`` is version - name: const_char_array description: test a const char array variable fname: mock-vars.c source: | /** * var linux_banner - Linux boot banner, usually printed at boot time */ const char linux_banner[]; expected: - man: | .TH "var linux_banner" 9 "February 2026" "" "Kernel API Manual" .SH NAME linux_banner \- Linux boot banner, usually printed at boot time .SH SYNOPSIS const char linux_banner[]; .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: linux_banner ``const char linux_banner[];`` Linux boot banner, usually printed at boot time - name: static_atomic64_t_var description: test a static atomi64_t variable fname: mock-vars.c source: | /** * var diskseq - unique sequence number for block device instances * * Allows userspace to associate uevents to the lifetime of a device */ static atomic64_t diskseq; expected: - man: | .TH "var diskseq" 9 "February 2026" "" "Kernel API Manual" .SH NAME diskseq \- unique sequence number for block device instances .SH SYNOPSIS static atomic64_t diskseq; .SH "Description" Allows userspace to associate uevents to the lifetime of a device .SH "SEE ALSO" .PP Kernel file \fBmock-vars.c\fR rst: | .. c:macro:: diskseq ``static atomic64_t diskseq;`` unique sequence number for block device instances **Description** Allows userspace to associate uevents to the lifetime of a device - name: unsigned_long_on_init description: test an unsigned long var at "init" with a different timestamp. fname: init/mock-vars.c source: | /** * var rtnl_mutex - historical global lock for networking control operations. * * @rtnl_mutex is used to serialize rtnetlink requests * and protect all kernel internal data structures related to networking. * * See Documentation/networking/netdevices.rst for details. * Often known as the rtnl_lock, although rtnl_lock is a kernel function. */ unsigned long rtnl_mutex; expected: - man: | .TH "var rtnl_mutex" 9 "February 2026" "init" "Kernel API Manual" .SH NAME rtnl_mutex \- historical global lock for networking control operations. .SH SYNOPSIS unsigned long rtnl_mutex; .SH "Description" \fIrtnl_mutex\fP is used to serialize rtnetlink requests and protect all kernel internal data structures related to networking. .PP See Documentation/networking/netdevices.rst for details. Often known as the rtnl_lock, although rtnl_lock is a kernel function. .SH "SEE ALSO" .PP Kernel file \fBinit/mock-vars.c\fR rst: | .. c:macro:: rtnl_mutex ``unsigned long rtnl_mutex;`` historical global lock for networking control operations. **Description** **rtnl_mutex** is used to serialize rtnetlink requests and protect all kernel internal data structures related to networking. See Documentation/networking/netdevices.rst for details. Often known as the rtnl_lock, although rtnl_lock is a kernel function. - name: struct_kcov fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * struct kcov - kcov descriptor (one per opened debugfs file). * State transitions of the descriptor: * * - initial state after open() * - then there must be a single ioctl(KCOV_INIT_TRACE) call * - then, mmap() call (several calls are allowed but not useful) * - then, ioctl(KCOV_ENABLE, arg), where arg is * KCOV_TRACE_PC - to trace only the PCs * or * KCOV_TRACE_CMP - to trace only the comparison operands * - then, ioctl(KCOV_DISABLE) to disable the task. * * Enabling/disabling ioctls can be repeated (only one task a time allowed). */ struct kcov { /** * @refcount: Reference counter. We keep one for: * - opened file descriptor * - task with enabled coverage (we can't unwire it from another task) * - each code section for remote coverage collection */ refcount_t refcount; /** * @lock: The lock protects mode, size, area and t. */ spinlock_t lock; /** * @mode: the kcov_mode */ enum kcov_mode mode __guarded_by(&lock); /** * @size: Size of arena (in long's). */ unsigned int size __guarded_by(&lock); /** * @area: Coverage buffer shared with user space. */ void *area __guarded_by(&lock); /** * @t: Task for which we collect coverage, or NULL. */ struct task_struct *t __guarded_by(&lock); /** * @remote: Collecting coverage from remote (background) threads. */ bool remote; /** * @remote_size: Size of remote area (in long's). */ unsigned int remote_size; /** * @sequence: Sequence is incremented each time kcov is reenabled, * used by kcov_remote_stop(), see the comment there. */ int sequence; }; expected: - man: | .TH "struct kcov" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME struct kcov \- kcov descriptor (one per opened debugfs file). State transitions of the descriptor: .SH SYNOPSIS struct kcov { .br .BI " refcount_t refcount;" .br .BI " spinlock_t lock;" .br .BI " enum kcov_mode mode;" .br .BI " unsigned int size;" .br .BI " void *area;" .br .BI " struct task_struct *t;" .br .BI " bool remote;" .br .BI " unsigned int remote_size;" .br .BI " int sequence;" .br .BI " }; .br .SH Members .IP "refcount" 12 Reference counter. We keep one for: .IP \[bu] opened file descriptor .IP \[bu] task with enabled coverage (we can't unwire it from another task) .IP \[bu] each code section for remote coverage collection .IP "lock" 12 The lock protects mode, size, area and t. .IP "mode" 12 the kcov_mode .IP "size" 12 Size of arena (in long's). .IP "area" 12 Coverage buffer shared with user space. .IP "t" 12 Task for which we collect coverage, or NULL. .IP "remote" 12 Collecting coverage from remote (background) threads. .IP "remote_size" 12 Size of remote area (in long's). .IP "sequence" 12 Sequence is incremented each time kcov is reenabled, used by \fBkcov_remote_stop\fP, see the comment there. .SH "Description" .IP \[bu] initial state after \fBopen\fP .IP \[bu] then there must be a single ioctl(KCOV_INIT_TRACE) call .IP \[bu] then, \fBmmap\fP call (several calls are allowed but not useful) .IP \[bu] then, ioctl(KCOV_ENABLE, arg), where arg is KCOV_TRACE_PC - to trace only the PCs or KCOV_TRACE_CMP - to trace only the comparison operands .IP \[bu] then, ioctl(KCOV_DISABLE) to disable the task. .PP Enabling/disabling ioctls can be repeated (only one task a time allowed). .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:struct:: kcov kcov descriptor (one per opened debugfs file). State transitions of the descriptor: .. container:: kernelindent **Definition**:: struct kcov { refcount_t refcount; spinlock_t lock; enum kcov_mode mode; unsigned int size; void *area; struct task_struct *t; bool remote; unsigned int remote_size; int sequence; }; **Members** ``refcount`` Reference counter. We keep one for: - opened file descriptor - task with enabled coverage (we can't unwire it from another task) - each code section for remote coverage collection ``lock`` The lock protects mode, size, area and t. ``mode`` the kcov_mode ``size`` Size of arena (in long's). ``area`` Coverage buffer shared with user space. ``t`` Task for which we collect coverage, or NULL. ``remote`` Collecting coverage from remote (background) threads. ``remote_size`` Size of remote area (in long's). ``sequence`` Sequence is incremented each time kcov is reenabled, used by kcov_remote_stop(), see the comment there. **Description** - initial state after open() - then there must be a single ioctl(KCOV_INIT_TRACE) call - then, mmap() call (several calls are allowed but not useful) - then, ioctl(KCOV_ENABLE, arg), where arg is KCOV_TRACE_PC - to trace only the PCs or KCOV_TRACE_CMP - to trace only the comparison operands - then, ioctl(KCOV_DISABLE) to disable the task. Enabling/disabling ioctls can be repeated (only one task a time allowed). - name: pool_offset description: mock_tests/kdoc-drop-ctx-lock.c line 83 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * var pool_offset - Offset to the unused space in the currently used pool. * */ size_t pool_offset __guarded_by(&pool_lock) = DEPOT_POOL_SIZE; expected: - man: | .TH "var pool_offset" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME pool_offset \- Offset to the unused space in the currently used pool. .SH SYNOPSIS size_t pool_offset __guarded_by(&pool_lock) = DEPOT_POOL_SIZE; .SH "Initialization" default: DEPOT_POOL_SIZE .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:macro:: pool_offset ``size_t pool_offset __guarded_by(&pool_lock) = DEPOT_POOL_SIZE;`` Offset to the unused space in the currently used pool. **Initialization** default: ``DEPOT_POOL_SIZE`` - name: free_stacks description: mock_tests/kdoc-drop-ctx-lock.c line 88 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * var free_stacks - Freelist of stack records within stack_pools. * */ __guarded_by(&pool_lock) LIST_HEAD(free_stacks); expected: - man: | .TH "var free_stacks" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME free_stacks \- Freelist of stack records within stack_pools. .SH SYNOPSIS __guarded_by(&pool_lock) LIST_HEAD(free_stacks); .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:macro:: free_stacks ``__guarded_by(&pool_lock) LIST_HEAD(free_stacks);`` Freelist of stack records within stack_pools. - name: stack_pools description: mock_tests/kdoc-drop-ctx-lock.c line 94 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * var stack_pools - Array of memory regions that store stack records. * */ void **stack_pools __pt_guarded_by(&pool_lock); expected: - man: | .TH "var stack_pools" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME stack_pools \- Array of memory regions that store stack records. .SH SYNOPSIS void **stack_pools __pt_guarded_by(&pool_lock); .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:macro:: stack_pools ``void **stack_pools __pt_guarded_by(&pool_lock);`` Array of memory regions that store stack records. - name: prepare_report_consumer description: mock_tests/kdoc-drop-ctx-lock.c line 103 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * prepare_report_consumer - prepare the report consumer * @flags: flags * @ai: not that AI * @other_info: yes that */ bool prepare_report_consumer(unsigned long *flags, const struct access_info *ai, struct other_info *other_info) __cond_acquires(true, &report_lock) { expected: - man: | .TH "prepare_report_consumer" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME prepare_report_consumer \- prepare the report consumer .SH SYNOPSIS .B "bool" prepare_report_consumer .BI "(unsigned long *flags " "," .BI "const struct access_info *ai " "," .BI "struct other_info *other_info " ");" .SH ARGUMENTS .IP "flags" 12 flags .IP "ai" 12 not that AI .IP "other_info" 12 yes that .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: bool prepare_report_consumer (unsigned long *flags, const struct access_info *ai, struct other_info *other_info) prepare the report consumer .. container:: kernelindent **Parameters** ``unsigned long *flags`` flags ``const struct access_info *ai`` not that AI ``struct other_info *other_info`` yes that - name: tcp_sigpool_start description: mock_tests/kdoc-drop-ctx-lock.c line 117 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * tcp_sigpool_start - start a tcp message of @id, using @c * @id: TCP message ID * @c: the &tcp_sigpool to use */ int tcp_sigpool_start(unsigned int id, struct tcp_sigpool *c) __cond_acquires(0, RCU_BH) { expected: - man: | .TH "tcp_sigpool_start" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME tcp_sigpool_start \- start a tcp message of @id, using @c .SH SYNOPSIS .B "int" tcp_sigpool_start .BI "(unsigned int id " "," .BI "struct tcp_sigpool *c " ");" .SH ARGUMENTS .IP "id" 12 TCP message ID .IP "c" 12 the \fItcp_sigpool\fP to use .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: int tcp_sigpool_start (unsigned int id, struct tcp_sigpool *c) start a tcp message of **id**, using **c** .. container:: kernelindent **Parameters** ``unsigned int id`` TCP message ID ``struct tcp_sigpool *c`` the :c:type:`tcp_sigpool` to use - name: undo_report_consumer description: mock_tests/kdoc-drop-ctx-lock.c line 129 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * undo_report_consumer - teardown a report consumer * @flags: those flags * @ai: not that AI * @other_info: yes that */ bool undo_report_consumer(unsigned long *flags, const struct access_info *ai, struct other_info *other_info) __cond_releases(true, &report_lock) { expected: - man: | .TH "undo_report_consumer" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME undo_report_consumer \- teardown a report consumer .SH SYNOPSIS .B "bool" undo_report_consumer .BI "(unsigned long *flags " "," .BI "const struct access_info *ai " "," .BI "struct other_info *other_info " ");" .SH ARGUMENTS .IP "flags" 12 those flags .IP "ai" 12 not that AI .IP "other_info" 12 yes that .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: bool undo_report_consumer (unsigned long *flags, const struct access_info *ai, struct other_info *other_info) teardown a report consumer .. container:: kernelindent **Parameters** ``unsigned long *flags`` those flags ``const struct access_info *ai`` not that AI ``struct other_info *other_info`` yes that - name: debugfs_enter_cancellation description: mock_tests/kdoc-drop-ctx-lock.c line 143 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * debugfs_enter_cancellation - begin a cancellation operation on @file * @file: the target file * @cancellation: the operation to execute */ void debugfs_enter_cancellation(struct file *file, struct debugfs_cancellation *cancellation) __acquires(cancellation) { } expected: - man: | .TH "debugfs_enter_cancellation" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME debugfs_enter_cancellation \- begin a cancellation operation on @file .SH SYNOPSIS .B "void" debugfs_enter_cancellation .BI "(struct file *file " "," .BI "struct debugfs_cancellation *cancellation " ");" .SH ARGUMENTS .IP "file" 12 the target file .IP "cancellation" 12 the operation to execute .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void debugfs_enter_cancellation (struct file *file, struct debugfs_cancellation *cancellation) begin a cancellation operation on **file** .. container:: kernelindent **Parameters** ``struct file *file`` the target file ``struct debugfs_cancellation *cancellation`` the operation to execute - name: debugfs_leave_cancellation description: mock_tests/kdoc-drop-ctx-lock.c line 152 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * debugfs_leave_cancellation - wrapup the cancellation operation on @file * @file: the target file * @cancellation: the operation to wrapup */ void debugfs_leave_cancellation(struct file *file, struct debugfs_cancellation *cancellation) __releases(cancellation) { } expected: - man: | .TH "debugfs_leave_cancellation" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME debugfs_leave_cancellation \- wrapup the cancellation operation on @file .SH SYNOPSIS .B "void" debugfs_leave_cancellation .BI "(struct file *file " "," .BI "struct debugfs_cancellation *cancellation " ");" .SH ARGUMENTS .IP "file" 12 the target file .IP "cancellation" 12 the operation to wrapup .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void debugfs_leave_cancellation (struct file *file, struct debugfs_cancellation *cancellation) wrapup the cancellation operation on **file** .. container:: kernelindent **Parameters** ``struct file *file`` the target file ``struct debugfs_cancellation *cancellation`` the operation to wrapup - name: acpi_os_acquire_lock description: mock_tests/kdoc-drop-ctx-lock.c line 161 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * acpi_os_acquire_lock - Acquire a spinlock. * @lockp: pointer to the spinlock_t. */ acpi_cpu_flags acpi_os_acquire_lock(acpi_spinlock lockp) __acquires(lockp) { expected: - man: | .TH "acpi_os_acquire_lock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME acpi_os_acquire_lock \- Acquire a spinlock. .SH SYNOPSIS .B "acpi_cpu_flags" acpi_os_acquire_lock .BI "(acpi_spinlock lockp " ");" .SH ARGUMENTS .IP "lockp" 12 pointer to the spinlock_t. .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: acpi_cpu_flags acpi_os_acquire_lock (acpi_spinlock lockp) Acquire a spinlock. .. container:: kernelindent **Parameters** ``acpi_spinlock lockp`` pointer to the spinlock_t. - name: acpi_os_release_lock description: mock_tests/kdoc-drop-ctx-lock.c line 172 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * acpi_os_release_lock - Release a spinlock. * @lockp: pointer to the spinlock_t. * @not_used: these flags are not used. */ void acpi_os_release_lock(acpi_spinlock lockp, acpi_cpu_flags not_used) __releases(lockp) { expected: - man: | .TH "acpi_os_release_lock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME acpi_os_release_lock \- Release a spinlock. .SH SYNOPSIS .B "void" acpi_os_release_lock .BI "(acpi_spinlock lockp " "," .BI "acpi_cpu_flags not_used " ");" .SH ARGUMENTS .IP "lockp" 12 pointer to the spinlock_t. .IP "not_used" 12 these flags are not used. .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void acpi_os_release_lock (acpi_spinlock lockp, acpi_cpu_flags not_used) Release a spinlock. .. container:: kernelindent **Parameters** ``acpi_spinlock lockp`` pointer to the spinlock_t. ``acpi_cpu_flags not_used`` these flags are not used. - name: tx description: mock_tests/kdoc-drop-ctx-lock.c line 183 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * tx - transmit message ID @id * @id: message ID to transmit */ int tx(int id) __must_hold(&txlock) { expected: - man: | .TH "tx" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME tx \- transmit message ID @id .SH SYNOPSIS .B "int" tx .BI "(int id " ");" .SH ARGUMENTS .IP "id" 12 message ID to transmit .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: int tx (int id) transmit message ID **id** .. container:: kernelindent **Parameters** ``int id`` message ID to transmit - name: contend_for_bm description: mock_tests/kdoc-drop-ctx-lock.c line 192 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * contend_for_bm - try to become the bus master * @card: the &fw_card (describes the bus) */ enum bm_contention_outcome contend_for_bm(struct fw_card *card) __must_hold(&card->lock) { expected: - man: | .TH "contend_for_bm" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME contend_for_bm \- try to become the bus master .SH SYNOPSIS .B "enum bm_contention_outcome" contend_for_bm .BI "(struct fw_card *card " ");" .SH ARGUMENTS .IP "card" 12 the \fIfw_card\fP (describes the bus) .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: enum bm_contention_outcome contend_for_bm (struct fw_card *card) try to become the bus master .. container:: kernelindent **Parameters** ``struct fw_card *card`` the :c:type:`fw_card` (describes the bus) - name: prepare_report_producer description: mock_tests/kdoc-drop-ctx-lock.c line 202 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * prepare_report_producer - prepare the report producer * @flags: still flags * @ai: some AI * @other_info: Populate @other_info; requires that the provided * @other_info not in use. */ void prepare_report_producer(unsigned long *flags, const struct access_info *ai, struct other_info *other_info) __must_not_hold(&report_lock) { } expected: - man: | .TH "prepare_report_producer" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME prepare_report_producer \- prepare the report producer .SH SYNOPSIS .B "void" prepare_report_producer .BI "(unsigned long *flags " "," .BI "const struct access_info *ai " "," .BI "struct other_info *other_info " ");" .SH ARGUMENTS .IP "flags" 12 still flags .IP "ai" 12 some AI .IP "other_info" 12 Populate \fIother_info\fP; requires that the provided \fIother_info\fP not in use. .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void prepare_report_producer (unsigned long *flags, const struct access_info *ai, struct other_info *other_info) prepare the report producer .. container:: kernelindent **Parameters** ``unsigned long *flags`` still flags ``const struct access_info *ai`` some AI ``struct other_info *other_info`` Populate **other_info**; requires that the provided **other_info** not in use. - name: crypto_alg_lookup description: mock_tests/kdoc-drop-ctx-lock.c line 215 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * __crypto_alg_lookup() - lookup the algorithm by name/type/mask * @name: name to search for * @type: type to search for * @mask: mask to match */ struct crypto_alg *__crypto_alg_lookup(const char *name, u32 type, u32 mask) __must_hold_shared(&crypto_alg_sem) { expected: - man: | .TH "__crypto_alg_lookup" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME __crypto_alg_lookup \- lookup the algorithm by name/type/mask .SH SYNOPSIS .B "struct crypto_alg *" __crypto_alg_lookup .BI "(const char *name " "," .BI "u32 type " "," .BI "u32 mask " ");" .SH ARGUMENTS .IP "name" 12 name to search for .IP "type" 12 type to search for .IP "mask" 12 mask to match .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: struct crypto_alg * __crypto_alg_lookup (const char *name, u32 type, u32 mask) lookup the algorithm by name/type/mask .. container:: kernelindent **Parameters** ``const char *name`` name to search for ``u32 type`` type to search for ``u32 mask`` mask to match - name: down_read_trylock description: mock_tests/kdoc-drop-ctx-lock.c line 228 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * down_read_trylock - trylock for reading * @sem: the semaphore to try to lock * * Returns: 1 if successful, 0 if contention */ extern int down_read_trylock(struct rw_semaphore *sem) __cond_acquires_shared(true, sem); expected: - man: | .TH "down_read_trylock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME down_read_trylock \- trylock for reading .SH SYNOPSIS .B "int" down_read_trylock .BI "(struct rw_semaphore *sem " ");" .SH ARGUMENTS .IP "sem" 12 the semaphore to try to lock .SH "RETURN" 1 if successful, 0 if contention .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: int down_read_trylock (struct rw_semaphore *sem) trylock for reading .. container:: kernelindent **Parameters** ``struct rw_semaphore *sem`` the semaphore to try to lock **Return** 1 if successful, 0 if contention - name: tomoyo_read_lock description: mock_tests/kdoc-drop-ctx-lock.c line 236 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * tomoyo_read_lock - Take lock for protecting policy. * * Returns: index number for tomoyo_read_unlock(). */ int tomoyo_read_lock(void) __acquires_shared(&tomoyo_ss) { expected: - man: | .TH "tomoyo_read_lock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME tomoyo_read_lock \- Take lock for protecting policy. .SH SYNOPSIS .B "int" tomoyo_read_lock .BI "(void " ");" .SH ARGUMENTS .IP "void" 12 no arguments .SH "RETURN" index number for \fBtomoyo_read_unlock\fP. .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: int tomoyo_read_lock (void) Take lock for protecting policy. .. container:: kernelindent **Parameters** ``void`` no arguments **Return** index number for tomoyo_read_unlock(). - name: tomoyo_read_unlock description: mock_tests/kdoc-drop-ctx-lock.c line 247 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * tomoyo_read_unlock - Release lock for protecting policy. * * @idx: Index number returned by tomoyo_read_lock(). */ void tomoyo_read_unlock(int idx) __releases_shared(&tomoyo_ss) { } expected: - man: | .TH "tomoyo_read_unlock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME tomoyo_read_unlock \- Release lock for protecting policy. .SH SYNOPSIS .B "void" tomoyo_read_unlock .BI "(int idx " ");" .SH ARGUMENTS .IP "idx" 12 Index number returned by \fBtomoyo_read_lock\fP. .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void tomoyo_read_unlock (int idx) Release lock for protecting policy. .. container:: kernelindent **Parameters** ``int idx`` Index number returned by tomoyo_read_lock(). - name: c_stop description: mock_tests/kdoc-drop-ctx-lock.c line 256 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * c_stop - stop the seq_file iteration * @m: the &struct seq_file * @p: handle */ void c_stop(struct seq_file *m, void *p) __releases_shared(&crypto_alg_sem) { } expected: - man: | .TH "c_stop" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME c_stop \- stop the seq_file iteration .SH SYNOPSIS .B "void" c_stop .BI "(struct seq_file *m " "," .BI "void *p " ");" .SH ARGUMENTS .IP "m" 12 the \fIstruct seq_file\fP .IP "p" 12 handle .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void c_stop (struct seq_file *m, void *p) stop the seq_file iteration .. container:: kernelindent **Parameters** ``struct seq_file *m`` the :c:type:`struct seq_file ` ``void *p`` handle - name: spin_lock description: mock_tests/kdoc-drop-ctx-lock.c line 265 fname: mock_tests/kdoc-drop-ctx-lock.c source: | /** * spin_lock - spin until the @lock is acquired * @lock: the spinlock */ void spin_lock(spinlock_t *lock) __acquires(lock) __no_context_analysis { } expected: - man: | .TH "spin_lock" 9 "February 2026" "mock_tests" "Kernel API Manual" .SH NAME spin_lock \- spin until the @lock is acquired .SH SYNOPSIS .B "void" spin_lock .BI "(spinlock_t *lock " ");" .SH ARGUMENTS .IP "lock" 12 the spinlock .SH "SEE ALSO" .PP Kernel file \fBmock_tests/kdoc-drop-ctx-lock.c\fR rst: | .. c:function:: void spin_lock (spinlock_t *lock) spin until the **lock** is acquired .. container:: kernelindent **Parameters** ``spinlock_t *lock`` the spinlock