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linux-stable/include/kunit/test.h
Linus Torvalds 3e7aeb78ab Networking changes for 6.8. 
Core & protocols
 ----------------
 
  - Analyze and reorganize core networking structs (socks, netdev,
    netns, mibs) to optimize cacheline consumption and set up
    build time warnings to safeguard against future header changes.
    This improves TCP performances with many concurrent connections
    up to 40%.
 
  - Add page-pool netlink-based introspection, exposing the
    memory usage and recycling stats. This helps indentify
    bad PP users and possible leaks.
 
  - Refine TCP/DCCP source port selection to no longer favor even
    source port at connect() time when IP_LOCAL_PORT_RANGE is set.
    This lowers the time taken by connect() for hosts having
    many active connections to the same destination.
 
  - Refactor the TCP bind conflict code, shrinking related socket
    structs.
 
  - Refactor TCP SYN-Cookie handling, as a preparation step to
    allow arbitrary SYN-Cookie processing via eBPF.
 
  - Tune optmem_max for 0-copy usage, increasing the default value
    to 128KB and namespecifying it.
 
  - Allow coalescing for cloned skbs coming from page pools, improving
    RX performances with some common configurations.
 
  - Reduce extension header parsing overhead at GRO time.
 
  - Add bridge MDB bulk deletion support, allowing user-space to
    request the deletion of matching entries.
 
  - Reorder nftables struct members, to keep data accessed by the
    datapath first.
 
  - Introduce TC block ports tracking and use. This allows supporting
    multicast-like behavior at the TC layer.
 
  - Remove UAPI support for retired TC qdiscs (dsmark, CBQ and ATM) and
    classifiers (RSVP and tcindex).
 
  - More data-race annotations.
 
  - Extend the diag interface to dump TCP bound-only sockets.
 
  - Conditional notification of events for TC qdisc class and actions.
 
  - Support for WPAN dynamic associations with nearby devices, to form
    a sub-network using a specific PAN ID.
 
  - Implement SMCv2.1 virtual ISM device support.
 
  - Add support for Batman-avd mulicast packet type.
 
 BPF
 ---
 
  - Tons of verifier improvements:
    - BPF register bounds logic and range support along with a large
      test suite
    - log improvements
    - complete precision tracking support for register spills
    - track aligned STACK_ZERO cases as imprecise spilled registers. It
      improves the verifier "instructions processed" metric from single
      digit to 50-60% for some programs
    - support for user's global BPF subprogram arguments with few
      commonly requested annotations for a better developer experience
    - support tracking of BPF_JNE which helps cases when the compiler
      transforms (unsigned) "a > 0" into "if a == 0 goto xxx" and the
      like
    - several fixes
 
  - Add initial TX metadata implementation for AF_XDP with support in
    mlx5 and stmmac drivers. Two types of offloads are supported right
    now, that is, TX timestamp and TX checksum offload.
 
  - Fix kCFI bugs in BPF all forms of indirect calls from BPF into
    kernel and from kernel into BPF work with CFI enabled. This allows
    BPF to work with CONFIG_FINEIBT=y.
 
  - Change BPF verifier logic to validate global subprograms lazily
    instead of unconditionally before the main program, so they can be
    guarded using BPF CO-RE techniques.
 
  - Support uid/gid options when mounting bpffs.
 
  - Add a new kfunc which acquires the associated cgroup of a task
    within a specific cgroup v1 hierarchy where the latter is identified
    by its id.
 
  - Extend verifier to allow bpf_refcount_acquire() of a map value field
    obtained via direct load which is a use-case needed in sched_ext.
 
  - Add BPF link_info support for uprobe multi link along with bpftool
    integration for the latter.
 
  - Support for VLAN tag in XDP hints.
 
  - Remove deprecated bpfilter kernel leftovers given the project
    is developed in user-space (https://github.com/facebook/bpfilter).
 
 Misc
 ----
 
  - Support for parellel TC self-tests execution.
 
  - Increase MPTCP self-tests coverage.
 
  - Updated the bridge documentation, including several so-far
    undocumented features.
 
  - Convert all the net self-tests to run in unique netns, to
    avoid random failures due to conflict and allow concurrent
    runs.
 
  - Add TCP-AO self-tests.
 
  - Add kunit tests for both cfg80211 and mac80211.
 
  - Autogenerate Netlink families documentation from YAML spec.
 
  - Add yml-gen support for fixed headers and recursive nests, the
    tool can now generate user-space code for all genetlink families
    for which we have specs.
 
  - A bunch of additional module descriptions fixes.
 
  - Catch incorrect freeing of pages belonging to a page pool.
 
 Driver API
 ----------
 
  - Rust abstractions for network PHY drivers; do not cover yet the
    full C API, but already allow implementing functional PHY drivers
    in rust.
 
  - Introduce queue and NAPI support in the netdev Netlink interface,
    allowing complete access to the device <> NAPIs <> queues
    relationship.
 
  - Introduce notifications filtering for devlink to allow control
    application scale to thousands of instances.
 
  - Improve PHY validation, requesting rate matching information for
    each ethtool link mode supported by both the PHY and host.
 
  - Add support for ethtool symmetric-xor RSS hash.
 
  - ACPI based Wifi band RFI (WBRF) mitigation feature for the AMD
    platform.
 
  - Expose pin fractional frequency offset value over new DPLL generic
    netlink attribute.
 
  - Convert older drivers to platform remove callback returning void.
 
  - Add support for PHY package MMD read/write.
 
 New hardware / drivers
 ----------------------
 
  - Ethernet:
    - Octeon CN10K devices
    - Broadcom 5760X P7
    - Qualcomm SM8550 SoC
    - Texas Instrument DP83TG720S PHY
 
  - Bluetooth:
    - IMC Networks Bluetooth radio
 
 Removed
 -------
 
  - WiFi:
    - libertas 16-bit PCMCIA support
    - Atmel at76c50x drivers
    - HostAP ISA/PCMCIA style 802.11b driver
    - zd1201 802.11b USB dongles
    - Orinoco ISA/PCMCIA 802.11b driver
    - Aviator/Raytheon driver
    - Planet WL3501 driver
    - RNDIS USB 802.11b driver
 
 Drivers
 -------
 
  - Ethernet high-speed NICs:
    - Intel (100G, ice, idpf):
      - allow one by one port representors creation and removal
      - add temperature and clock information reporting
      - add get/set for ethtool's header split ringparam
      - add again FW logging
      - adds support switchdev hardware packet mirroring
      - iavf: implement symmetric-xor RSS hash
      - igc: add support for concurrent physical and free-running timers
      - i40e: increase the allowable descriptors
    - nVidia/Mellanox:
      - Preparation for Socket-Direct multi-dev netdev. That will allow
        in future releases combining multiple PFs devices attached to
        different NUMA nodes under the same netdev
    - Broadcom (bnxt):
      - TX completion handling improvements
      - add basic ntuple filter support
      - reduce MSIX vectors usage for MQPRIO offload
      - add VXLAN support, USO offload and TX coalesce completion for P7
    - Marvell Octeon EP:
      - xmit-more support
      - add PF-VF mailbox support and use it for FW notifications for VFs
    - Wangxun (ngbe/txgbe):
      - implement ethtool functions to operate pause param, ring param,
        coalesce channel number and msglevel
    - Netronome/Corigine (nfp):
      - add flow-steering support
      - support UDP segmentation offload
 
  - Ethernet NICs embedded, slower, virtual:
    - Xilinx AXI: remove duplicate DMA code adopting the dma engine driver
    - stmmac: add support for HW-accelerated VLAN stripping
    - TI AM654x sw: add mqprio, frame preemption & coalescing
    - gve: add support for non-4k page sizes.
    - virtio-net: support dynamic coalescing moderation
 
  - nVidia/Mellanox Ethernet datacenter switches:
    - allow firmware upgrade without a reboot
    - more flexible support for bridge flooding via the compressed
      FID flooding mode
 
  - Ethernet embedded switches:
    - Microchip:
      - fine-tune flow control and speed configurations in KSZ8xxx
      - KSZ88X3: enable setting rmii reference
    - Renesas:
      - add jumbo frames support
    - Marvell:
      - 88E6xxx: add "eth-mac" and "rmon" stats support
 
  - Ethernet PHYs:
    - aquantia: add firmware load support
    - at803x: refactor the driver to simplify adding support for more
      chip variants
    - NXP C45 TJA11xx: Add MACsec offload support
 
  - Wifi:
    - MediaTek (mt76):
      - NVMEM EEPROM improvements
      - mt7996 Extremely High Throughput (EHT) improvements
      - mt7996 Wireless Ethernet Dispatcher (WED) support
      - mt7996 36-bit DMA support
    - Qualcomm (ath12k):
      - support for a single MSI vector
      - WCN7850: support AP mode
    - Intel (iwlwifi):
      - new debugfs file fw_dbg_clear
      - allow concurrent P2P operation on DFS channels
 
  - Bluetooth:
    - QCA2066: support HFP offload
    - ISO: more broadcast-related improvements
    - NXP: better recovery in case receiver/transmitter get out of sync
 
 Signed-off-by: Paolo Abeni <pabeni@redhat.com>
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Merge tag 'net-next-6.8' of git://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-next

Pull networking updates from Paolo Abeni:
 "The most interesting thing is probably the networking structs
  reorganization and a significant amount of changes is around
  self-tests.

  Core & protocols:

   - Analyze and reorganize core networking structs (socks, netdev,
     netns, mibs) to optimize cacheline consumption and set up build
     time warnings to safeguard against future header changes

     This improves TCP performances with many concurrent connections up
     to 40%

   - Add page-pool netlink-based introspection, exposing the memory
     usage and recycling stats. This helps indentify bad PP users and
     possible leaks

   - Refine TCP/DCCP source port selection to no longer favor even
     source port at connect() time when IP_LOCAL_PORT_RANGE is set. This
     lowers the time taken by connect() for hosts having many active
     connections to the same destination

   - Refactor the TCP bind conflict code, shrinking related socket
     structs

   - Refactor TCP SYN-Cookie handling, as a preparation step to allow
     arbitrary SYN-Cookie processing via eBPF

   - Tune optmem_max for 0-copy usage, increasing the default value to
     128KB and namespecifying it

   - Allow coalescing for cloned skbs coming from page pools, improving
     RX performances with some common configurations

   - Reduce extension header parsing overhead at GRO time

   - Add bridge MDB bulk deletion support, allowing user-space to
     request the deletion of matching entries

   - Reorder nftables struct members, to keep data accessed by the
     datapath first

   - Introduce TC block ports tracking and use. This allows supporting
     multicast-like behavior at the TC layer

   - Remove UAPI support for retired TC qdiscs (dsmark, CBQ and ATM) and
     classifiers (RSVP and tcindex)

   - More data-race annotations

   - Extend the diag interface to dump TCP bound-only sockets

   - Conditional notification of events for TC qdisc class and actions

   - Support for WPAN dynamic associations with nearby devices, to form
     a sub-network using a specific PAN ID

   - Implement SMCv2.1 virtual ISM device support

   - Add support for Batman-avd mulicast packet type

  BPF:

   - Tons of verifier improvements:
       - BPF register bounds logic and range support along with a large
         test suite
       - log improvements
       - complete precision tracking support for register spills
       - track aligned STACK_ZERO cases as imprecise spilled registers.
         This improves the verifier "instructions processed" metric from
         single digit to 50-60% for some programs
       - support for user's global BPF subprogram arguments with few
         commonly requested annotations for a better developer
         experience
       - support tracking of BPF_JNE which helps cases when the compiler
         transforms (unsigned) "a > 0" into "if a == 0 goto xxx" and the
         like
       - several fixes

   - Add initial TX metadata implementation for AF_XDP with support in
     mlx5 and stmmac drivers. Two types of offloads are supported right
     now, that is, TX timestamp and TX checksum offload

   - Fix kCFI bugs in BPF all forms of indirect calls from BPF into
     kernel and from kernel into BPF work with CFI enabled. This allows
     BPF to work with CONFIG_FINEIBT=y

   - Change BPF verifier logic to validate global subprograms lazily
     instead of unconditionally before the main program, so they can be
     guarded using BPF CO-RE techniques

   - Support uid/gid options when mounting bpffs

   - Add a new kfunc which acquires the associated cgroup of a task
     within a specific cgroup v1 hierarchy where the latter is
     identified by its id

   - Extend verifier to allow bpf_refcount_acquire() of a map value
     field obtained via direct load which is a use-case needed in
     sched_ext

   - Add BPF link_info support for uprobe multi link along with bpftool
     integration for the latter

   - Support for VLAN tag in XDP hints

   - Remove deprecated bpfilter kernel leftovers given the project is
     developed in user-space (https://github.com/facebook/bpfilter)

  Misc:

   - Support for parellel TC self-tests execution

   - Increase MPTCP self-tests coverage

   - Updated the bridge documentation, including several so-far
     undocumented features

   - Convert all the net self-tests to run in unique netns, to avoid
     random failures due to conflict and allow concurrent runs

   - Add TCP-AO self-tests

   - Add kunit tests for both cfg80211 and mac80211

   - Autogenerate Netlink families documentation from YAML spec

   - Add yml-gen support for fixed headers and recursive nests, the tool
     can now generate user-space code for all genetlink families for
     which we have specs

   - A bunch of additional module descriptions fixes

   - Catch incorrect freeing of pages belonging to a page pool

  Driver API:

   - Rust abstractions for network PHY drivers; do not cover yet the
     full C API, but already allow implementing functional PHY drivers
     in rust

   - Introduce queue and NAPI support in the netdev Netlink interface,
     allowing complete access to the device <> NAPIs <> queues
     relationship

   - Introduce notifications filtering for devlink to allow control
     application scale to thousands of instances

   - Improve PHY validation, requesting rate matching information for
     each ethtool link mode supported by both the PHY and host

   - Add support for ethtool symmetric-xor RSS hash

   - ACPI based Wifi band RFI (WBRF) mitigation feature for the AMD
     platform

   - Expose pin fractional frequency offset value over new DPLL generic
     netlink attribute

   - Convert older drivers to platform remove callback returning void

   - Add support for PHY package MMD read/write

  New hardware / drivers:

   - Ethernet:
       - Octeon CN10K devices
       - Broadcom 5760X P7
       - Qualcomm SM8550 SoC
       - Texas Instrument DP83TG720S PHY

   - Bluetooth:
       - IMC Networks Bluetooth radio

  Removed:

   - WiFi:
       - libertas 16-bit PCMCIA support
       - Atmel at76c50x drivers
       - HostAP ISA/PCMCIA style 802.11b driver
       - zd1201 802.11b USB dongles
       - Orinoco ISA/PCMCIA 802.11b driver
       - Aviator/Raytheon driver
       - Planet WL3501 driver
       - RNDIS USB 802.11b driver

  Driver updates:

   - Ethernet high-speed NICs:
       - Intel (100G, ice, idpf):
          - allow one by one port representors creation and removal
          - add temperature and clock information reporting
          - add get/set for ethtool's header split ringparam
          - add again FW logging
          - adds support switchdev hardware packet mirroring
          - iavf: implement symmetric-xor RSS hash
          - igc: add support for concurrent physical and free-running
            timers
          - i40e: increase the allowable descriptors
       - nVidia/Mellanox:
          - Preparation for Socket-Direct multi-dev netdev. That will
            allow in future releases combining multiple PFs devices
            attached to different NUMA nodes under the same netdev
       - Broadcom (bnxt):
          - TX completion handling improvements
          - add basic ntuple filter support
          - reduce MSIX vectors usage for MQPRIO offload
          - add VXLAN support, USO offload and TX coalesce completion
            for P7
       - Marvell Octeon EP:
          - xmit-more support
          - add PF-VF mailbox support and use it for FW notifications
            for VFs
       - Wangxun (ngbe/txgbe):
          - implement ethtool functions to operate pause param, ring
            param, coalesce channel number and msglevel
       - Netronome/Corigine (nfp):
          - add flow-steering support
          - support UDP segmentation offload

   - Ethernet NICs embedded, slower, virtual:
       - Xilinx AXI: remove duplicate DMA code adopting the dma engine
         driver
       - stmmac: add support for HW-accelerated VLAN stripping
       - TI AM654x sw: add mqprio, frame preemption & coalescing
       - gve: add support for non-4k page sizes.
       - virtio-net: support dynamic coalescing moderation

   - nVidia/Mellanox Ethernet datacenter switches:
       - allow firmware upgrade without a reboot
       - more flexible support for bridge flooding via the compressed
         FID flooding mode

   - Ethernet embedded switches:
       - Microchip:
          - fine-tune flow control and speed configurations in KSZ8xxx
          - KSZ88X3: enable setting rmii reference
       - Renesas:
          - add jumbo frames support
       - Marvell:
          - 88E6xxx: add "eth-mac" and "rmon" stats support

   - Ethernet PHYs:
       - aquantia: add firmware load support
       - at803x: refactor the driver to simplify adding support for more
         chip variants
       - NXP C45 TJA11xx: Add MACsec offload support

   - Wifi:
       - MediaTek (mt76):
          - NVMEM EEPROM improvements
          - mt7996 Extremely High Throughput (EHT) improvements
          - mt7996 Wireless Ethernet Dispatcher (WED) support
          - mt7996 36-bit DMA support
       - Qualcomm (ath12k):
          - support for a single MSI vector
          - WCN7850: support AP mode
       - Intel (iwlwifi):
          - new debugfs file fw_dbg_clear
          - allow concurrent P2P operation on DFS channels

   - Bluetooth:
       - QCA2066: support HFP offload
       - ISO: more broadcast-related improvements
       - NXP: better recovery in case receiver/transmitter get out of sync"

* tag 'net-next-6.8' of git://git.kernel.org/pub/scm/linux/kernel/git/netdev/net-next: (1714 commits)
  lan78xx: remove redundant statement in lan78xx_get_eee
  lan743x: remove redundant statement in lan743x_ethtool_get_eee
  bnxt_en: Fix RCU locking for ntuple filters in bnxt_rx_flow_steer()
  bnxt_en: Fix RCU locking for ntuple filters in bnxt_srxclsrldel()
  bnxt_en: Remove unneeded variable in bnxt_hwrm_clear_vnic_filter()
  tcp: Revert no longer abort SYN_SENT when receiving some ICMP
  Revert "mlx5 updates 2023-12-20"
  Revert "net: stmmac: Enable Per DMA Channel interrupt"
  ipvlan: Remove usage of the deprecated ida_simple_xx() API
  ipvlan: Fix a typo in a comment
  net/sched: Remove ipt action tests
  net: stmmac: Use interrupt mode INTM=1 for per channel irq
  net: stmmac: Add support for TX/RX channel interrupt
  net: stmmac: Make MSI interrupt routine generic
  dt-bindings: net: snps,dwmac: per channel irq
  net: phy: at803x: make read_status more generic
  net: phy: at803x: add support for cdt cross short test for qca808x
  net: phy: at803x: refactor qca808x cable test get status function
  net: phy: at803x: generalize cdt fault length function
  net: ethernet: cortina: Drop TSO support
  ...
2024-01-11 10:07:29 -08:00

1549 lines
54 KiB
C
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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Base unit test (KUnit) API.
*
* Copyright (C) 2019, Google LLC.
* Author: Brendan Higgins <brendanhiggins@google.com>
*/
#ifndef _KUNIT_TEST_H
#define _KUNIT_TEST_H
#include <kunit/assert.h>
#include <kunit/try-catch.h>
#include <linux/args.h>
#include <linux/compiler.h>
#include <linux/container_of.h>
#include <linux/err.h>
#include <linux/init.h>
#include <linux/jump_label.h>
#include <linux/kconfig.h>
#include <linux/kref.h>
#include <linux/list.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/spinlock.h>
#include <linux/string.h>
#include <linux/types.h>
#include <asm/rwonce.h>
/* Static key: true if any KUnit tests are currently running */
DECLARE_STATIC_KEY_FALSE(kunit_running);
struct kunit;
struct string_stream;
/* Maximum size of parameter description string. */
#define KUNIT_PARAM_DESC_SIZE 128
/* Maximum size of a status comment. */
#define KUNIT_STATUS_COMMENT_SIZE 256
/*
* TAP specifies subtest stream indentation of 4 spaces, 8 spaces for a
* sub-subtest. See the "Subtests" section in
* https://node-tap.org/tap-protocol/
*/
#define KUNIT_INDENT_LEN 4
#define KUNIT_SUBTEST_INDENT " "
#define KUNIT_SUBSUBTEST_INDENT " "
/**
* enum kunit_status - Type of result for a test or test suite
* @KUNIT_SUCCESS: Denotes the test suite has not failed nor been skipped
* @KUNIT_FAILURE: Denotes the test has failed.
* @KUNIT_SKIPPED: Denotes the test has been skipped.
*/
enum kunit_status {
KUNIT_SUCCESS,
KUNIT_FAILURE,
KUNIT_SKIPPED,
};
/* Attribute struct/enum definitions */
/*
* Speed Attribute is stored as an enum and separated into categories of
* speed: very_slowm, slow, and normal. These speeds are relative to
* other KUnit tests.
*
* Note: unset speed attribute acts as default of KUNIT_SPEED_NORMAL.
*/
enum kunit_speed {
KUNIT_SPEED_UNSET,
KUNIT_SPEED_VERY_SLOW,
KUNIT_SPEED_SLOW,
KUNIT_SPEED_NORMAL,
KUNIT_SPEED_MAX = KUNIT_SPEED_NORMAL,
};
/* Holds attributes for each test case and suite */
struct kunit_attributes {
enum kunit_speed speed;
};
/**
* struct kunit_case - represents an individual test case.
*
* @run_case: the function representing the actual test case.
* @name: the name of the test case.
* @generate_params: the generator function for parameterized tests.
* @attr: the attributes associated with the test
*
* A test case is a function with the signature,
* ``void (*)(struct kunit *)``
* that makes expectations and assertions (see KUNIT_EXPECT_TRUE() and
* KUNIT_ASSERT_TRUE()) about code under test. Each test case is associated
* with a &struct kunit_suite and will be run after the suite's init
* function and followed by the suite's exit function.
*
* A test case should be static and should only be created with the
* KUNIT_CASE() macro; additionally, every array of test cases should be
* terminated with an empty test case.
*
* Example:
*
* .. code-block:: c
*
* void add_test_basic(struct kunit *test)
* {
* KUNIT_EXPECT_EQ(test, 1, add(1, 0));
* KUNIT_EXPECT_EQ(test, 2, add(1, 1));
* KUNIT_EXPECT_EQ(test, 0, add(-1, 1));
* KUNIT_EXPECT_EQ(test, INT_MAX, add(0, INT_MAX));
* KUNIT_EXPECT_EQ(test, -1, add(INT_MAX, INT_MIN));
* }
*
* static struct kunit_case example_test_cases[] = {
* KUNIT_CASE(add_test_basic),
* {}
* };
*
*/
struct kunit_case {
void (*run_case)(struct kunit *test);
const char *name;
const void* (*generate_params)(const void *prev, char *desc);
struct kunit_attributes attr;
/* private: internal use only. */
enum kunit_status status;
char *module_name;
struct string_stream *log;
};
static inline char *kunit_status_to_ok_not_ok(enum kunit_status status)
{
switch (status) {
case KUNIT_SKIPPED:
case KUNIT_SUCCESS:
return "ok";
case KUNIT_FAILURE:
return "not ok";
}
return "invalid";
}
/**
* KUNIT_CASE - A helper for creating a &struct kunit_case
*
* @test_name: a reference to a test case function.
*
* Takes a symbol for a function representing a test case and creates a
* &struct kunit_case object from it. See the documentation for
* &struct kunit_case for an example on how to use it.
*/
#define KUNIT_CASE(test_name) \
{ .run_case = test_name, .name = #test_name, \
.module_name = KBUILD_MODNAME}
/**
* KUNIT_CASE_ATTR - A helper for creating a &struct kunit_case
* with attributes
*
* @test_name: a reference to a test case function.
* @attributes: a reference to a struct kunit_attributes object containing
* test attributes
*/
#define KUNIT_CASE_ATTR(test_name, attributes) \
{ .run_case = test_name, .name = #test_name, \
.attr = attributes, .module_name = KBUILD_MODNAME}
/**
* KUNIT_CASE_SLOW - A helper for creating a &struct kunit_case
* with the slow attribute
*
* @test_name: a reference to a test case function.
*/
#define KUNIT_CASE_SLOW(test_name) \
{ .run_case = test_name, .name = #test_name, \
.attr.speed = KUNIT_SPEED_SLOW, .module_name = KBUILD_MODNAME}
/**
* KUNIT_CASE_PARAM - A helper for creation a parameterized &struct kunit_case
*
* @test_name: a reference to a test case function.
* @gen_params: a reference to a parameter generator function.
*
* The generator function::
*
* const void* gen_params(const void *prev, char *desc)
*
* is used to lazily generate a series of arbitrarily typed values that fit into
* a void*. The argument @prev is the previously returned value, which should be
* used to derive the next value; @prev is set to NULL on the initial generator
* call. When no more values are available, the generator must return NULL.
* Optionally write a string into @desc (size of KUNIT_PARAM_DESC_SIZE)
* describing the parameter.
*/
#define KUNIT_CASE_PARAM(test_name, gen_params) \
{ .run_case = test_name, .name = #test_name, \
.generate_params = gen_params, .module_name = KBUILD_MODNAME}
/**
* KUNIT_CASE_PARAM_ATTR - A helper for creating a parameterized &struct
* kunit_case with attributes
*
* @test_name: a reference to a test case function.
* @gen_params: a reference to a parameter generator function.
* @attributes: a reference to a struct kunit_attributes object containing
* test attributes
*/
#define KUNIT_CASE_PARAM_ATTR(test_name, gen_params, attributes) \
{ .run_case = test_name, .name = #test_name, \
.generate_params = gen_params, \
.attr = attributes, .module_name = KBUILD_MODNAME}
/**
* struct kunit_suite - describes a related collection of &struct kunit_case
*
* @name: the name of the test. Purely informational.
* @suite_init: called once per test suite before the test cases.
* @suite_exit: called once per test suite after all test cases.
* @init: called before every test case.
* @exit: called after every test case.
* @test_cases: a null terminated array of test cases.
* @attr: the attributes associated with the test suite
*
* A kunit_suite is a collection of related &struct kunit_case s, such that
* @init is called before every test case and @exit is called after every
* test case, similar to the notion of a *test fixture* or a *test class*
* in other unit testing frameworks like JUnit or Googletest.
*
* Note that @exit and @suite_exit will run even if @init or @suite_init
* fail: make sure they can handle any inconsistent state which may result.
*
* Every &struct kunit_case must be associated with a kunit_suite for KUnit
* to run it.
*/
struct kunit_suite {
const char name[256];
int (*suite_init)(struct kunit_suite *suite);
void (*suite_exit)(struct kunit_suite *suite);
int (*init)(struct kunit *test);
void (*exit)(struct kunit *test);
struct kunit_case *test_cases;
struct kunit_attributes attr;
/* private: internal use only */
char status_comment[KUNIT_STATUS_COMMENT_SIZE];
struct dentry *debugfs;
struct string_stream *log;
int suite_init_err;
bool is_init;
};
/* Stores an array of suites, end points one past the end */
struct kunit_suite_set {
struct kunit_suite * const *start;
struct kunit_suite * const *end;
};
/**
* struct kunit - represents a running instance of a test.
*
* @priv: for user to store arbitrary data. Commonly used to pass data
* created in the init function (see &struct kunit_suite).
*
* Used to store information about the current context under which the test
* is running. Most of this data is private and should only be accessed
* indirectly via public functions; the one exception is @priv which can be
* used by the test writer to store arbitrary data.
*/
struct kunit {
void *priv;
/* private: internal use only. */
const char *name; /* Read only after initialization! */
struct string_stream *log; /* Points at case log after initialization */
struct kunit_try_catch try_catch;
/* param_value is the current parameter value for a test case. */
const void *param_value;
/* param_index stores the index of the parameter in parameterized tests. */
int param_index;
/*
* success starts as true, and may only be set to false during a
* test case; thus, it is safe to update this across multiple
* threads using WRITE_ONCE; however, as a consequence, it may only
* be read after the test case finishes once all threads associated
* with the test case have terminated.
*/
spinlock_t lock; /* Guards all mutable test state. */
enum kunit_status status; /* Read only after test_case finishes! */
/*
* Because resources is a list that may be updated multiple times (with
* new resources) from any thread associated with a test case, we must
* protect it with some type of lock.
*/
struct list_head resources; /* Protected by lock. */
char status_comment[KUNIT_STATUS_COMMENT_SIZE];
};
static inline void kunit_set_failure(struct kunit *test)
{
WRITE_ONCE(test->status, KUNIT_FAILURE);
}
bool kunit_enabled(void);
const char *kunit_action(void);
const char *kunit_filter_glob(void);
char *kunit_filter(void);
char *kunit_filter_action(void);
void kunit_init_test(struct kunit *test, const char *name, struct string_stream *log);
int kunit_run_tests(struct kunit_suite *suite);
size_t kunit_suite_num_test_cases(struct kunit_suite *suite);
unsigned int kunit_test_case_num(struct kunit_suite *suite,
struct kunit_case *test_case);
struct kunit_suite_set
kunit_filter_suites(const struct kunit_suite_set *suite_set,
const char *filter_glob,
char *filters,
char *filter_action,
int *err);
void kunit_free_suite_set(struct kunit_suite_set suite_set);
int __kunit_test_suites_init(struct kunit_suite * const * const suites, int num_suites);
void __kunit_test_suites_exit(struct kunit_suite **suites, int num_suites);
void kunit_exec_run_tests(struct kunit_suite_set *suite_set, bool builtin);
void kunit_exec_list_tests(struct kunit_suite_set *suite_set, bool include_attr);
struct kunit_suite_set kunit_merge_suite_sets(struct kunit_suite_set init_suite_set,
struct kunit_suite_set suite_set);
#if IS_BUILTIN(CONFIG_KUNIT)
int kunit_run_all_tests(void);
#else
static inline int kunit_run_all_tests(void)
{
return 0;
}
#endif /* IS_BUILTIN(CONFIG_KUNIT) */
#define __kunit_test_suites(unique_array, ...) \
static struct kunit_suite *unique_array[] \
__aligned(sizeof(struct kunit_suite *)) \
__used __section(".kunit_test_suites") = { __VA_ARGS__ }
/**
* kunit_test_suites() - used to register one or more &struct kunit_suite
* with KUnit.
*
* @__suites: a statically allocated list of &struct kunit_suite.
*
* Registers @suites with the test framework.
* This is done by placing the array of struct kunit_suite * in the
* .kunit_test_suites ELF section.
*
* When builtin, KUnit tests are all run via the executor at boot, and when
* built as a module, they run on module load.
*
*/
#define kunit_test_suites(__suites...) \
__kunit_test_suites(__UNIQUE_ID(array), \
##__suites)
#define kunit_test_suite(suite) kunit_test_suites(&suite)
#define __kunit_init_test_suites(unique_array, ...) \
static struct kunit_suite *unique_array[] \
__aligned(sizeof(struct kunit_suite *)) \
__used __section(".kunit_init_test_suites") = { __VA_ARGS__ }
/**
* kunit_test_init_section_suites() - used to register one or more &struct
* kunit_suite containing init functions or
* init data.
*
* @__suites: a statically allocated list of &struct kunit_suite.
*
* This functions similar to kunit_test_suites() except that it compiles the
* list of suites during init phase.
*
* This macro also suffixes the array and suite declarations it makes with
* _probe; so that modpost suppresses warnings about referencing init data
* for symbols named in this manner.
*
* Note: these init tests are not able to be run after boot so there is no
* "run" debugfs file generated for these tests.
*
* Also, do not mark the suite or test case structs with __initdata because
* they will be used after the init phase with debugfs.
*/
#define kunit_test_init_section_suites(__suites...) \
__kunit_init_test_suites(CONCATENATE(__UNIQUE_ID(array), _probe), \
##__suites)
#define kunit_test_init_section_suite(suite) \
kunit_test_init_section_suites(&suite)
#define kunit_suite_for_each_test_case(suite, test_case) \
for (test_case = suite->test_cases; test_case->run_case; test_case++)
enum kunit_status kunit_suite_has_succeeded(struct kunit_suite *suite);
/**
* kunit_kmalloc_array() - Like kmalloc_array() except the allocation is *test managed*.
* @test: The test context object.
* @n: number of elements.
* @size: The size in bytes of the desired memory.
* @gfp: flags passed to underlying kmalloc().
*
* Just like `kmalloc_array(...)`, except the allocation is managed by the test case
* and is automatically cleaned up after the test case concludes. See kunit_add_action()
* for more information.
*
* Note that some internal context data is also allocated with GFP_KERNEL,
* regardless of the gfp passed in.
*/
void *kunit_kmalloc_array(struct kunit *test, size_t n, size_t size, gfp_t gfp);
/**
* kunit_kmalloc() - Like kmalloc() except the allocation is *test managed*.
* @test: The test context object.
* @size: The size in bytes of the desired memory.
* @gfp: flags passed to underlying kmalloc().
*
* See kmalloc() and kunit_kmalloc_array() for more information.
*
* Note that some internal context data is also allocated with GFP_KERNEL,
* regardless of the gfp passed in.
*/
static inline void *kunit_kmalloc(struct kunit *test, size_t size, gfp_t gfp)
{
return kunit_kmalloc_array(test, 1, size, gfp);
}
/**
* kunit_kfree() - Like kfree except for allocations managed by KUnit.
* @test: The test case to which the resource belongs.
* @ptr: The memory allocation to free.
*/
void kunit_kfree(struct kunit *test, const void *ptr);
/**
* kunit_kzalloc() - Just like kunit_kmalloc(), but zeroes the allocation.
* @test: The test context object.
* @size: The size in bytes of the desired memory.
* @gfp: flags passed to underlying kmalloc().
*
* See kzalloc() and kunit_kmalloc_array() for more information.
*/
static inline void *kunit_kzalloc(struct kunit *test, size_t size, gfp_t gfp)
{
return kunit_kmalloc(test, size, gfp | __GFP_ZERO);
}
/**
* kunit_kcalloc() - Just like kunit_kmalloc_array(), but zeroes the allocation.
* @test: The test context object.
* @n: number of elements.
* @size: The size in bytes of the desired memory.
* @gfp: flags passed to underlying kmalloc().
*
* See kcalloc() and kunit_kmalloc_array() for more information.
*/
static inline void *kunit_kcalloc(struct kunit *test, size_t n, size_t size, gfp_t gfp)
{
return kunit_kmalloc_array(test, n, size, gfp | __GFP_ZERO);
}
void kunit_cleanup(struct kunit *test);
void __printf(2, 3) kunit_log_append(struct string_stream *log, const char *fmt, ...);
/**
* kunit_mark_skipped() - Marks @test_or_suite as skipped
*
* @test_or_suite: The test context object.
* @fmt: A printk() style format string.
*
* Marks the test as skipped. @fmt is given output as the test status
* comment, typically the reason the test was skipped.
*
* Test execution continues after kunit_mark_skipped() is called.
*/
#define kunit_mark_skipped(test_or_suite, fmt, ...) \
do { \
WRITE_ONCE((test_or_suite)->status, KUNIT_SKIPPED); \
scnprintf((test_or_suite)->status_comment, \
KUNIT_STATUS_COMMENT_SIZE, \
fmt, ##__VA_ARGS__); \
} while (0)
/**
* kunit_skip() - Marks @test_or_suite as skipped
*
* @test_or_suite: The test context object.
* @fmt: A printk() style format string.
*
* Skips the test. @fmt is given output as the test status
* comment, typically the reason the test was skipped.
*
* Test execution is halted after kunit_skip() is called.
*/
#define kunit_skip(test_or_suite, fmt, ...) \
do { \
kunit_mark_skipped((test_or_suite), fmt, ##__VA_ARGS__);\
kunit_try_catch_throw(&((test_or_suite)->try_catch)); \
} while (0)
/*
* printk and log to per-test or per-suite log buffer. Logging only done
* if CONFIG_KUNIT_DEBUGFS is 'y'; if it is 'n', no log is allocated/used.
*/
#define kunit_log(lvl, test_or_suite, fmt, ...) \
do { \
printk(lvl fmt, ##__VA_ARGS__); \
kunit_log_append((test_or_suite)->log, fmt, \
##__VA_ARGS__); \
} while (0)
#define kunit_printk(lvl, test, fmt, ...) \
kunit_log(lvl, test, KUNIT_SUBTEST_INDENT "# %s: " fmt, \
(test)->name, ##__VA_ARGS__)
/**
* kunit_info() - Prints an INFO level message associated with @test.
*
* @test: The test context object.
* @fmt: A printk() style format string.
*
* Prints an info level message associated with the test suite being run.
* Takes a variable number of format parameters just like printk().
*/
#define kunit_info(test, fmt, ...) \
kunit_printk(KERN_INFO, test, fmt, ##__VA_ARGS__)
/**
* kunit_warn() - Prints a WARN level message associated with @test.
*
* @test: The test context object.
* @fmt: A printk() style format string.
*
* Prints a warning level message.
*/
#define kunit_warn(test, fmt, ...) \
kunit_printk(KERN_WARNING, test, fmt, ##__VA_ARGS__)
/**
* kunit_err() - Prints an ERROR level message associated with @test.
*
* @test: The test context object.
* @fmt: A printk() style format string.
*
* Prints an error level message.
*/
#define kunit_err(test, fmt, ...) \
kunit_printk(KERN_ERR, test, fmt, ##__VA_ARGS__)
/**
* KUNIT_SUCCEED() - A no-op expectation. Only exists for code clarity.
* @test: The test context object.
*
* The opposite of KUNIT_FAIL(), it is an expectation that cannot fail. In other
* words, it does nothing and only exists for code clarity. See
* KUNIT_EXPECT_TRUE() for more information.
*/
#define KUNIT_SUCCEED(test) do {} while (0)
void __noreturn __kunit_abort(struct kunit *test);
void __kunit_do_failed_assertion(struct kunit *test,
const struct kunit_loc *loc,
enum kunit_assert_type type,
const struct kunit_assert *assert,
assert_format_t assert_format,
const char *fmt, ...);
#define _KUNIT_FAILED(test, assert_type, assert_class, assert_format, INITIALIZER, fmt, ...) do { \
static const struct kunit_loc __loc = KUNIT_CURRENT_LOC; \
const struct assert_class __assertion = INITIALIZER; \
__kunit_do_failed_assertion(test, \
&__loc, \
assert_type, \
&__assertion.assert, \
assert_format, \
fmt, \
##__VA_ARGS__); \
if (assert_type == KUNIT_ASSERTION) \
__kunit_abort(test); \
} while (0)
#define KUNIT_FAIL_ASSERTION(test, assert_type, fmt, ...) \
_KUNIT_FAILED(test, \
assert_type, \
kunit_fail_assert, \
kunit_fail_assert_format, \
{}, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_FAIL() - Always causes a test to fail when evaluated.
* @test: The test context object.
* @fmt: an informational message to be printed when the assertion is made.
* @...: string format arguments.
*
* The opposite of KUNIT_SUCCEED(), it is an expectation that always fails. In
* other words, it always results in a failed expectation, and consequently
* always causes the test case to fail when evaluated. See KUNIT_EXPECT_TRUE()
* for more information.
*/
#define KUNIT_FAIL(test, fmt, ...) \
KUNIT_FAIL_ASSERTION(test, \
KUNIT_EXPECTATION, \
fmt, \
##__VA_ARGS__)
/* Helper to safely pass around an initializer list to other macros. */
#define KUNIT_INIT_ASSERT(initializers...) { initializers }
#define KUNIT_UNARY_ASSERTION(test, \
assert_type, \
condition_, \
expected_true_, \
fmt, \
...) \
do { \
if (likely(!!(condition_) == !!expected_true_)) \
break; \
\
_KUNIT_FAILED(test, \
assert_type, \
kunit_unary_assert, \
kunit_unary_assert_format, \
KUNIT_INIT_ASSERT(.condition = #condition_, \
.expected_true = expected_true_), \
fmt, \
##__VA_ARGS__); \
} while (0)
#define KUNIT_TRUE_MSG_ASSERTION(test, assert_type, condition, fmt, ...) \
KUNIT_UNARY_ASSERTION(test, \
assert_type, \
condition, \
true, \
fmt, \
##__VA_ARGS__)
#define KUNIT_FALSE_MSG_ASSERTION(test, assert_type, condition, fmt, ...) \
KUNIT_UNARY_ASSERTION(test, \
assert_type, \
condition, \
false, \
fmt, \
##__VA_ARGS__)
/*
* A factory macro for defining the assertions and expectations for the basic
* comparisons defined for the built in types.
*
* Unfortunately, there is no common type that all types can be promoted to for
* which all the binary operators behave the same way as for the actual types
* (for example, there is no type that long long and unsigned long long can
* both be cast to where the comparison result is preserved for all values). So
* the best we can do is do the comparison in the original types and then coerce
* everything to long long for printing; this way, the comparison behaves
* correctly and the printed out value usually makes sense without
* interpretation, but can always be interpreted to figure out the actual
* value.
*/
#define KUNIT_BASE_BINARY_ASSERTION(test, \
assert_class, \
format_func, \
assert_type, \
left, \
op, \
right, \
fmt, \
...) \
do { \
const typeof(left) __left = (left); \
const typeof(right) __right = (right); \
static const struct kunit_binary_assert_text __text = { \
.operation = #op, \
.left_text = #left, \
.right_text = #right, \
}; \
\
if (likely(__left op __right)) \
break; \
\
_KUNIT_FAILED(test, \
assert_type, \
assert_class, \
format_func, \
KUNIT_INIT_ASSERT(.text = &__text, \
.left_value = __left, \
.right_value = __right), \
fmt, \
##__VA_ARGS__); \
} while (0)
#define KUNIT_BINARY_INT_ASSERTION(test, \
assert_type, \
left, \
op, \
right, \
fmt, \
...) \
KUNIT_BASE_BINARY_ASSERTION(test, \
kunit_binary_assert, \
kunit_binary_assert_format, \
assert_type, \
left, op, right, \
fmt, \
##__VA_ARGS__)
#define KUNIT_BINARY_PTR_ASSERTION(test, \
assert_type, \
left, \
op, \
right, \
fmt, \
...) \
KUNIT_BASE_BINARY_ASSERTION(test, \
kunit_binary_ptr_assert, \
kunit_binary_ptr_assert_format, \
assert_type, \
left, op, right, \
fmt, \
##__VA_ARGS__)
#define KUNIT_BINARY_STR_ASSERTION(test, \
assert_type, \
left, \
op, \
right, \
fmt, \
...) \
do { \
const char *__left = (left); \
const char *__right = (right); \
static const struct kunit_binary_assert_text __text = { \
.operation = #op, \
.left_text = #left, \
.right_text = #right, \
}; \
\
if (likely((__left) && (__right) && (strcmp(__left, __right) op 0))) \
break; \
\
\
_KUNIT_FAILED(test, \
assert_type, \
kunit_binary_str_assert, \
kunit_binary_str_assert_format, \
KUNIT_INIT_ASSERT(.text = &__text, \
.left_value = __left, \
.right_value = __right), \
fmt, \
##__VA_ARGS__); \
} while (0)
#define KUNIT_MEM_ASSERTION(test, \
assert_type, \
left, \
op, \
right, \
size_, \
fmt, \
...) \
do { \
const void *__left = (left); \
const void *__right = (right); \
const size_t __size = (size_); \
static const struct kunit_binary_assert_text __text = { \
.operation = #op, \
.left_text = #left, \
.right_text = #right, \
}; \
\
if (likely(__left && __right)) \
if (likely(memcmp(__left, __right, __size) op 0)) \
break; \
\
_KUNIT_FAILED(test, \
assert_type, \
kunit_mem_assert, \
kunit_mem_assert_format, \
KUNIT_INIT_ASSERT(.text = &__text, \
.left_value = __left, \
.right_value = __right, \
.size = __size), \
fmt, \
##__VA_ARGS__); \
} while (0)
#define KUNIT_PTR_NOT_ERR_OR_NULL_MSG_ASSERTION(test, \
assert_type, \
ptr, \
fmt, \
...) \
do { \
const typeof(ptr) __ptr = (ptr); \
\
if (!IS_ERR_OR_NULL(__ptr)) \
break; \
\
_KUNIT_FAILED(test, \
assert_type, \
kunit_ptr_not_err_assert, \
kunit_ptr_not_err_assert_format, \
KUNIT_INIT_ASSERT(.text = #ptr, .value = __ptr), \
fmt, \
##__VA_ARGS__); \
} while (0)
/**
* KUNIT_EXPECT_TRUE() - Causes a test failure when the expression is not true.
* @test: The test context object.
* @condition: an arbitrary boolean expression. The test fails when this does
* not evaluate to true.
*
* This and expectations of the form `KUNIT_EXPECT_*` will cause the test case
* to fail when the specified condition is not met; however, it will not prevent
* the test case from continuing to run; this is otherwise known as an
* *expectation failure*.
*/
#define KUNIT_EXPECT_TRUE(test, condition) \
KUNIT_EXPECT_TRUE_MSG(test, condition, NULL)
#define KUNIT_EXPECT_TRUE_MSG(test, condition, fmt, ...) \
KUNIT_TRUE_MSG_ASSERTION(test, \
KUNIT_EXPECTATION, \
condition, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_FALSE() - Makes a test failure when the expression is not false.
* @test: The test context object.
* @condition: an arbitrary boolean expression. The test fails when this does
* not evaluate to false.
*
* Sets an expectation that @condition evaluates to false. See
* KUNIT_EXPECT_TRUE() for more information.
*/
#define KUNIT_EXPECT_FALSE(test, condition) \
KUNIT_EXPECT_FALSE_MSG(test, condition, NULL)
#define KUNIT_EXPECT_FALSE_MSG(test, condition, fmt, ...) \
KUNIT_FALSE_MSG_ASSERTION(test, \
KUNIT_EXPECTATION, \
condition, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_EQ() - Sets an expectation that @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the values that @left and @right evaluate to are
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) == (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_EQ(test, left, right) \
KUNIT_EXPECT_EQ_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_EQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_PTR_EQ() - Expects that pointers @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a pointer.
* @right: an arbitrary expression that evaluates to a pointer.
*
* Sets an expectation that the values that @left and @right evaluate to are
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) == (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_PTR_EQ(test, left, right) \
KUNIT_EXPECT_PTR_EQ_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_PTR_EQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_NE() - An expectation that @left and @right are not equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the values that @left and @right evaluate to are not
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) != (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_NE(test, left, right) \
KUNIT_EXPECT_NE_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_NE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_PTR_NE() - Expects that pointers @left and @right are not equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a pointer.
* @right: an arbitrary expression that evaluates to a pointer.
*
* Sets an expectation that the values that @left and @right evaluate to are not
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) != (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_PTR_NE(test, left, right) \
KUNIT_EXPECT_PTR_NE_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_PTR_NE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_LT() - An expectation that @left is less than @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the value that @left evaluates to is less than the
* value that @right evaluates to. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) < (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_LT(test, left, right) \
KUNIT_EXPECT_LT_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_LT_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, <, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_LE() - Expects that @left is less than or equal to @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the value that @left evaluates to is less than or
* equal to the value that @right evaluates to. Semantically this is equivalent
* to KUNIT_EXPECT_TRUE(@test, (@left) <= (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_LE(test, left, right) \
KUNIT_EXPECT_LE_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_LE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, <=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_GT() - An expectation that @left is greater than @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the value that @left evaluates to is greater than
* the value that @right evaluates to. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) > (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_GT(test, left, right) \
KUNIT_EXPECT_GT_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_GT_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, >, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_GE() - Expects that @left is greater than or equal to @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an expectation that the value that @left evaluates to is greater than
* the value that @right evaluates to. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, (@left) >= (@right)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_GE(test, left, right) \
KUNIT_EXPECT_GE_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_GE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, >=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_STREQ() - Expects that strings @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a null terminated string.
* @right: an arbitrary expression that evaluates to a null terminated string.
*
* Sets an expectation that the values that @left and @right evaluate to are
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, !strcmp((@left), (@right))). See KUNIT_EXPECT_TRUE()
* for more information.
*/
#define KUNIT_EXPECT_STREQ(test, left, right) \
KUNIT_EXPECT_STREQ_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_STREQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_STR_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_STRNEQ() - Expects that strings @left and @right are not equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a null terminated string.
* @right: an arbitrary expression that evaluates to a null terminated string.
*
* Sets an expectation that the values that @left and @right evaluate to are
* not equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, strcmp((@left), (@right))). See KUNIT_EXPECT_TRUE()
* for more information.
*/
#define KUNIT_EXPECT_STRNEQ(test, left, right) \
KUNIT_EXPECT_STRNEQ_MSG(test, left, right, NULL)
#define KUNIT_EXPECT_STRNEQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_STR_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_MEMEQ() - Expects that the first @size bytes of @left and @right are equal.
* @test: The test context object.
* @left: An arbitrary expression that evaluates to the specified size.
* @right: An arbitrary expression that evaluates to the specified size.
* @size: Number of bytes compared.
*
* Sets an expectation that the values that @left and @right evaluate to are
* equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, !memcmp((@left), (@right), (@size))). See
* KUNIT_EXPECT_TRUE() for more information.
*
* Although this expectation works for any memory block, it is not recommended
* for comparing more structured data, such as structs. This expectation is
* recommended for comparing, for example, data arrays.
*/
#define KUNIT_EXPECT_MEMEQ(test, left, right, size) \
KUNIT_EXPECT_MEMEQ_MSG(test, left, right, size, NULL)
#define KUNIT_EXPECT_MEMEQ_MSG(test, left, right, size, fmt, ...) \
KUNIT_MEM_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, ==, right, \
size, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_MEMNEQ() - Expects that the first @size bytes of @left and @right are not equal.
* @test: The test context object.
* @left: An arbitrary expression that evaluates to the specified size.
* @right: An arbitrary expression that evaluates to the specified size.
* @size: Number of bytes compared.
*
* Sets an expectation that the values that @left and @right evaluate to are
* not equal. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, memcmp((@left), (@right), (@size))). See
* KUNIT_EXPECT_TRUE() for more information.
*
* Although this expectation works for any memory block, it is not recommended
* for comparing more structured data, such as structs. This expectation is
* recommended for comparing, for example, data arrays.
*/
#define KUNIT_EXPECT_MEMNEQ(test, left, right, size) \
KUNIT_EXPECT_MEMNEQ_MSG(test, left, right, size, NULL)
#define KUNIT_EXPECT_MEMNEQ_MSG(test, left, right, size, fmt, ...) \
KUNIT_MEM_ASSERTION(test, \
KUNIT_EXPECTATION, \
left, !=, right, \
size, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_NULL() - Expects that @ptr is null.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an expectation that the value that @ptr evaluates to is null. This is
* semantically equivalent to KUNIT_EXPECT_PTR_EQ(@test, ptr, NULL).
* See KUNIT_EXPECT_TRUE() for more information.
*/
#define KUNIT_EXPECT_NULL(test, ptr) \
KUNIT_EXPECT_NULL_MSG(test, \
ptr, \
NULL)
#define KUNIT_EXPECT_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_EXPECTATION, \
ptr, ==, NULL, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_NOT_NULL() - Expects that @ptr is not null.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an expectation that the value that @ptr evaluates to is not null. This
* is semantically equivalent to KUNIT_EXPECT_PTR_NE(@test, ptr, NULL).
* See KUNIT_EXPECT_TRUE() for more information.
*/
#define KUNIT_EXPECT_NOT_NULL(test, ptr) \
KUNIT_EXPECT_NOT_NULL_MSG(test, \
ptr, \
NULL)
#define KUNIT_EXPECT_NOT_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_EXPECTATION, \
ptr, !=, NULL, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_EXPECT_NOT_ERR_OR_NULL() - Expects that @ptr is not null and not err.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an expectation that the value that @ptr evaluates to is not null and not
* an errno stored in a pointer. This is semantically equivalent to
* KUNIT_EXPECT_TRUE(@test, !IS_ERR_OR_NULL(@ptr)). See KUNIT_EXPECT_TRUE() for
* more information.
*/
#define KUNIT_EXPECT_NOT_ERR_OR_NULL(test, ptr) \
KUNIT_EXPECT_NOT_ERR_OR_NULL_MSG(test, ptr, NULL)
#define KUNIT_EXPECT_NOT_ERR_OR_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_PTR_NOT_ERR_OR_NULL_MSG_ASSERTION(test, \
KUNIT_EXPECTATION, \
ptr, \
fmt, \
##__VA_ARGS__)
#define KUNIT_ASSERT_FAILURE(test, fmt, ...) \
KUNIT_FAIL_ASSERTION(test, KUNIT_ASSERTION, fmt, ##__VA_ARGS__)
/**
* KUNIT_ASSERT_TRUE() - Sets an assertion that @condition is true.
* @test: The test context object.
* @condition: an arbitrary boolean expression. The test fails and aborts when
* this does not evaluate to true.
*
* This and assertions of the form `KUNIT_ASSERT_*` will cause the test case to
* fail *and immediately abort* when the specified condition is not met. Unlike
* an expectation failure, it will prevent the test case from continuing to run;
* this is otherwise known as an *assertion failure*.
*/
#define KUNIT_ASSERT_TRUE(test, condition) \
KUNIT_ASSERT_TRUE_MSG(test, condition, NULL)
#define KUNIT_ASSERT_TRUE_MSG(test, condition, fmt, ...) \
KUNIT_TRUE_MSG_ASSERTION(test, \
KUNIT_ASSERTION, \
condition, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_FALSE() - Sets an assertion that @condition is false.
* @test: The test context object.
* @condition: an arbitrary boolean expression.
*
* Sets an assertion that the value that @condition evaluates to is false. This
* is the same as KUNIT_EXPECT_FALSE(), except it causes an assertion failure
* (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_FALSE(test, condition) \
KUNIT_ASSERT_FALSE_MSG(test, condition, NULL)
#define KUNIT_ASSERT_FALSE_MSG(test, condition, fmt, ...) \
KUNIT_FALSE_MSG_ASSERTION(test, \
KUNIT_ASSERTION, \
condition, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_EQ() - Sets an assertion that @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the values that @left and @right evaluate to are
* equal. This is the same as KUNIT_EXPECT_EQ(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_EQ(test, left, right) \
KUNIT_ASSERT_EQ_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_EQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_PTR_EQ() - Asserts that pointers @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a pointer.
* @right: an arbitrary expression that evaluates to a pointer.
*
* Sets an assertion that the values that @left and @right evaluate to are
* equal. This is the same as KUNIT_EXPECT_EQ(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_PTR_EQ(test, left, right) \
KUNIT_ASSERT_PTR_EQ_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_PTR_EQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_ASSERTION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_NE() - An assertion that @left and @right are not equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the values that @left and @right evaluate to are not
* equal. This is the same as KUNIT_EXPECT_NE(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_NE(test, left, right) \
KUNIT_ASSERT_NE_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_NE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_PTR_NE() - Asserts that pointers @left and @right are not equal.
* KUNIT_ASSERT_PTR_EQ() - Asserts that pointers @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a pointer.
* @right: an arbitrary expression that evaluates to a pointer.
*
* Sets an assertion that the values that @left and @right evaluate to are not
* equal. This is the same as KUNIT_EXPECT_NE(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_PTR_NE(test, left, right) \
KUNIT_ASSERT_PTR_NE_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_PTR_NE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_ASSERTION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_LT() - An assertion that @left is less than @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the value that @left evaluates to is less than the
* value that @right evaluates to. This is the same as KUNIT_EXPECT_LT(), except
* it causes an assertion failure (see KUNIT_ASSERT_TRUE()) when the assertion
* is not met.
*/
#define KUNIT_ASSERT_LT(test, left, right) \
KUNIT_ASSERT_LT_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_LT_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, <, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_LE() - An assertion that @left is less than or equal to @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the value that @left evaluates to is less than or
* equal to the value that @right evaluates to. This is the same as
* KUNIT_EXPECT_LE(), except it causes an assertion failure (see
* KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_LE(test, left, right) \
KUNIT_ASSERT_LE_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_LE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, <=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_GT() - An assertion that @left is greater than @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the value that @left evaluates to is greater than the
* value that @right evaluates to. This is the same as KUNIT_EXPECT_GT(), except
* it causes an assertion failure (see KUNIT_ASSERT_TRUE()) when the assertion
* is not met.
*/
#define KUNIT_ASSERT_GT(test, left, right) \
KUNIT_ASSERT_GT_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_GT_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, >, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_GE() - Assertion that @left is greater than or equal to @right.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a primitive C type.
* @right: an arbitrary expression that evaluates to a primitive C type.
*
* Sets an assertion that the value that @left evaluates to is greater than the
* value that @right evaluates to. This is the same as KUNIT_EXPECT_GE(), except
* it causes an assertion failure (see KUNIT_ASSERT_TRUE()) when the assertion
* is not met.
*/
#define KUNIT_ASSERT_GE(test, left, right) \
KUNIT_ASSERT_GE_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_GE_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_INT_ASSERTION(test, \
KUNIT_ASSERTION, \
left, >=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_STREQ() - An assertion that strings @left and @right are equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a null terminated string.
* @right: an arbitrary expression that evaluates to a null terminated string.
*
* Sets an assertion that the values that @left and @right evaluate to are
* equal. This is the same as KUNIT_EXPECT_STREQ(), except it causes an
* assertion failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_STREQ(test, left, right) \
KUNIT_ASSERT_STREQ_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_STREQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_STR_ASSERTION(test, \
KUNIT_ASSERTION, \
left, ==, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_STRNEQ() - Expects that strings @left and @right are not equal.
* @test: The test context object.
* @left: an arbitrary expression that evaluates to a null terminated string.
* @right: an arbitrary expression that evaluates to a null terminated string.
*
* Sets an expectation that the values that @left and @right evaluate to are
* not equal. This is semantically equivalent to
* KUNIT_ASSERT_TRUE(@test, strcmp((@left), (@right))). See KUNIT_ASSERT_TRUE()
* for more information.
*/
#define KUNIT_ASSERT_STRNEQ(test, left, right) \
KUNIT_ASSERT_STRNEQ_MSG(test, left, right, NULL)
#define KUNIT_ASSERT_STRNEQ_MSG(test, left, right, fmt, ...) \
KUNIT_BINARY_STR_ASSERTION(test, \
KUNIT_ASSERTION, \
left, !=, right, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_NULL() - Asserts that pointers @ptr is null.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an assertion that the values that @ptr evaluates to is null. This is
* the same as KUNIT_EXPECT_NULL(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_NULL(test, ptr) \
KUNIT_ASSERT_NULL_MSG(test, \
ptr, \
NULL)
#define KUNIT_ASSERT_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_ASSERTION, \
ptr, ==, NULL, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_NOT_NULL() - Asserts that pointers @ptr is not null.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an assertion that the values that @ptr evaluates to is not null. This
* is the same as KUNIT_EXPECT_NOT_NULL(), except it causes an assertion
* failure (see KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_NOT_NULL(test, ptr) \
KUNIT_ASSERT_NOT_NULL_MSG(test, \
ptr, \
NULL)
#define KUNIT_ASSERT_NOT_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_BINARY_PTR_ASSERTION(test, \
KUNIT_ASSERTION, \
ptr, !=, NULL, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ASSERT_NOT_ERR_OR_NULL() - Assertion that @ptr is not null and not err.
* @test: The test context object.
* @ptr: an arbitrary pointer.
*
* Sets an assertion that the value that @ptr evaluates to is not null and not
* an errno stored in a pointer. This is the same as
* KUNIT_EXPECT_NOT_ERR_OR_NULL(), except it causes an assertion failure (see
* KUNIT_ASSERT_TRUE()) when the assertion is not met.
*/
#define KUNIT_ASSERT_NOT_ERR_OR_NULL(test, ptr) \
KUNIT_ASSERT_NOT_ERR_OR_NULL_MSG(test, ptr, NULL)
#define KUNIT_ASSERT_NOT_ERR_OR_NULL_MSG(test, ptr, fmt, ...) \
KUNIT_PTR_NOT_ERR_OR_NULL_MSG_ASSERTION(test, \
KUNIT_ASSERTION, \
ptr, \
fmt, \
##__VA_ARGS__)
/**
* KUNIT_ARRAY_PARAM() - Define test parameter generator from an array.
* @name: prefix for the test parameter generator function.
* @array: array of test parameters.
* @get_desc: function to convert param to description; NULL to use default
*
* Define function @name_gen_params which uses @array to generate parameters.
*/
#define KUNIT_ARRAY_PARAM(name, array, get_desc) \
static const void *name##_gen_params(const void *prev, char *desc) \
{ \
typeof((array)[0]) *__next = prev ? ((typeof(__next)) prev) + 1 : (array); \
if (__next - (array) < ARRAY_SIZE((array))) { \
void (*__get_desc)(typeof(__next), char *) = get_desc; \
if (__get_desc) \
__get_desc(__next, desc); \
return __next; \
} \
return NULL; \
}
/**
* KUNIT_ARRAY_PARAM_DESC() - Define test parameter generator from an array.
* @name: prefix for the test parameter generator function.
* @array: array of test parameters.
* @desc_member: structure member from array element to use as description
*
* Define function @name_gen_params which uses @array to generate parameters.
*/
#define KUNIT_ARRAY_PARAM_DESC(name, array, desc_member) \
static const void *name##_gen_params(const void *prev, char *desc) \
{ \
typeof((array)[0]) *__next = prev ? ((typeof(__next)) prev) + 1 : (array); \
if (__next - (array) < ARRAY_SIZE((array))) { \
strscpy(desc, __next->desc_member, KUNIT_PARAM_DESC_SIZE); \
return __next; \
} \
return NULL; \
}
// TODO(dlatypov@google.com): consider eventually migrating users to explicitly
// include resource.h themselves if they need it.
#include <kunit/resource.h>
#endif /* _KUNIT_TEST_H */
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