1. 10 Mar, 2023 20 commits
  2. 09 Mar, 2023 13 commits
    • Lorenzo Bianconi's avatar
    • Lorenzo Bianconi's avatar
      selftests/bpf: Use ifname instead of ifindex in XDP compliance test tool · 27a36bc3
      Lorenzo Bianconi authored
      Rely on interface name instead of interface index in error messages or
      logs from XDP compliance test tool.
      Signed-off-by: default avatarLorenzo Bianconi <lorenzo@kernel.org>
      Signed-off-by: default avatarDaniel Borkmann <daniel@iogearbox.net>
      Link: https://lore.kernel.org/bpf/7dc5a8ff56c252b1a7ae29b059d0b2b1543c8b5d.1678382940.git.lorenzo@kernel.org
      27a36bc3
    • Michael Weiß's avatar
      bpf: Fix a typo for BPF_F_ANY_ALIGNMENT in bpf.h · 5a70f4a6
      Michael Weiß authored
      Fix s/BPF_PROF_LOAD/BPF_PROG_LOAD/ typo in the documentation comment
      for BPF_F_ANY_ALIGNMENT in bpf.h.
      Signed-off-by: default avatarMichael Weiß <michael.weiss@aisec.fraunhofer.de>
      Signed-off-by: default avatarDaniel Borkmann <daniel@iogearbox.net>
      Link: https://lore.kernel.org/bpf/20230309133823.944097-1-michael.weiss@aisec.fraunhofer.de
      5a70f4a6
    • Martin KaFai Lau's avatar
      selftests/bpf: Fix flaky fib_lookup test · a6865576
      Martin KaFai Lau authored
      There is a report that fib_lookup test is flaky when running in parallel.
      A symptom of slowness or delay. An example:
      
      Testing IPv6 stale neigh
      set_lookup_params:PASS:inet_pton(IPV6_IFACE_ADDR) 0 nsec
      test_fib_lookup:PASS:bpf_prog_test_run_opts 0 nsec
      test_fib_lookup:FAIL:fib_lookup_ret unexpected fib_lookup_ret: actual 0 != expected 7
      test_fib_lookup:FAIL:dmac not match unexpected dmac not match: actual 1 != expected 0
      dmac expected 11:11:11:11:11:11 actual 00:00:00:00:00:00
      
      [ Note that the "fib_lookup_ret unexpected fib_lookup_ret actual 0 ..."
        is reversed in terms of expected and actual value. Fixing in this
        patch also. ]
      
      One possibility is the testing stale neigh entry was marked dead by the
      gc (in neigh_periodic_work). The default gc_stale_time sysctl is 60s.
      This patch increases it to 15 mins.
      
      It also:
      
      - fixes the reversed arg (actual vs expected) in one of the
        ASSERT_EQ test
      - removes the nodad command arg when adding v4 neigh entry which
        currently has a warning.
      
      Fixes: 168de023 ("selftests/bpf: Add bpf_fib_lookup test")
      Reported-by: default avatarAlexei Starovoitov <ast@kernel.org>
      Signed-off-by: default avatarMartin KaFai Lau <martin.lau@kernel.org>
      Signed-off-by: default avatarDaniel Borkmann <daniel@iogearbox.net>
      Link: https://lore.kernel.org/bpf/20230309060244.3242491-1-martin.lau@linux.dev
      a6865576
    • Alexei Starovoitov's avatar
      Merge branch 'BPF open-coded iterators' · 23e403b3
      Alexei Starovoitov authored
      Andrii Nakryiko says:
      
      ====================
      
      Add support for open-coded (aka inline) iterators in BPF world. This is a next
      evolution of gradually allowing more powerful and less restrictive looping and
      iteration capabilities to BPF programs.
      
      We set up a framework for implementing all kinds of iterators (e.g., cgroup,
      task, file, etc, iterators), but this patch set only implements numbers
      iterator, which is used to implement ergonomic bpf_for() for-like construct
      (see patches #4-#5). We also add bpf_for_each(), which is a generic
      foreach-like construct that will work with any kind of open-coded iterator
      implementation, as long as we stick with bpf_iter_<type>_{new,next,destroy}()
      naming pattern (which we now enforce on the kernel side).
      
      Patch #1 is preparatory refactoring for easier way to check for special kfunc
      calls. Patch #2 is adding iterator kfunc registration and validation logic,
      which is mostly independent from the rest of open-coded iterator logic, so is
      separated out for easier reviewing.
      
      The meat of verifier-side logic is in patch #3. Patch #4 implements numbers
      iterator. I kept them separate to have clean reference for how to integrate
      new iterator types (now even simpler to do than in v1 of this patch set).
      Patch #5 adds bpf_for(), bpf_for_each(), and bpf_repeat() macros to
      bpf_misc.h, and also adds yet another pyperf test variant, now with bpf_for()
      loop. Patch #6 is verification tests, based on numbers iterator (as the only
      available right now). Patch #7 actually tests runtime behavior of numbers
      iterator.
      
      Finally, with changes in v2, it's possible and trivial to implement custom
      iterators completely in kernel modules, which we showcase and test by adding
      a simple iterator returning same number a given number of times to
      bpf_testmod. Patch #8 is where all this happens and is tested.
      
      Most of the relevant details are in corresponding commit messages or code
      comments.
      
      v4->v5:
        - fixing missed inner for() in is_iter_reg_valid_uninit, and fixed return
          false (kernel test robot);
        - typo fixes and comment/commit description improvements throughout the
          patch set;
      v3->v4:
        - remove unused variable from is_iter_reg_valid_init (kernel test robot);
      v2->v3:
        - remove special kfunc leftovers for bpf_iter_num_{new,next,destroy};
        - add iters/testmod_seq* to DENYLIST.s390x, it doesn't support kfuncs in
          modules yet (CI);
      v1->v2:
        - rebased on latest, dropping previously landed preparatory patches;
        - each iterator type now have its own `struct bpf_iter_<type>` which allows
          each iterator implementation to use exactly as much stack space as
          necessary, allowing to avoid runtime allocations (Alexei);
        - reworked how iterator kfuncs are defined, no verifier changes are required
          when adding new iterator type;
        - added bpf_testmod-based iterator implementation;
        - address the rest of feedback, comments, commit message adjustment, etc.
      
      Cc: Tejun Heo <tj@kernel.org>
      ====================
      Signed-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      23e403b3
    • Andrii Nakryiko's avatar
      selftests/bpf: implement and test custom testmod_seq iterator · 7e86a8c4
      Andrii Nakryiko authored
      Implement a trivial iterator returning same specified integer value
      N times as part of bpf_testmod kernel module. Add selftests to validate
      everything works end to end.
      
      We also reuse these tests as "verification-only" tests to validate that
      kernel prints the state of custom kernel module-defined iterator correctly:
      
        fp-16=iter_testmod_seq(ref_id=1,state=drained,depth=0)
      
      "testmod_seq" part is an iterator type, and is coming from module's BTF
      data dynamically at runtime.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-9-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      7e86a8c4
    • Andrii Nakryiko's avatar
      selftests/bpf: add number iterator tests · f59b1460
      Andrii Nakryiko authored
      Add number iterator (bpf_iter_num_{new,next,destroy}()) tests,
      validating the correct handling of various corner and common cases
      *at runtime*.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-8-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      f59b1460
    • Andrii Nakryiko's avatar
      selftests/bpf: add iterators tests · 57400dcc
      Andrii Nakryiko authored
      Add various tests for open-coded iterators. Some of them excercise
      various possible coding patterns in C, some go down to low-level
      assembly for more control over various conditions, especially invalid
      ones.
      
      We also make use of bpf_for(), bpf_for_each(), bpf_repeat() macros in
      some of these tests.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-7-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      57400dcc
    • Andrii Nakryiko's avatar
      selftests/bpf: add bpf_for_each(), bpf_for(), and bpf_repeat() macros · 8c2b5e90
      Andrii Nakryiko authored
      Add bpf_for_each(), bpf_for(), and bpf_repeat() macros that make writing
      open-coded iterator-based loops much more convenient and natural. These
      macros utilize cleanup attribute to ensure proper destruction of the
      iterator and thanks to that manage to provide the ergonomics that is
      very close to C language's for() construct. Typical loop would look like:
      
        int i;
        int arr[N];
      
        bpf_for(i, 0, N) {
            /* verifier will know that i >= 0 && i < N, so could be used to
             * directly access array elements with no extra checks
             */
             arr[i] = i;
        }
      
      bpf_repeat() is very similar, but it doesn't expose iteration number and
      is meant as a simple "repeat action N times" loop:
      
        bpf_repeat(N) { /* whatever, N times */ }
      
      Note that `break` and `continue` statements inside the {} block work as
      expected.
      
      bpf_for_each() is a generalization over any kind of BPF open-coded
      iterator allowing to use for-each-like approach instead of calling
      low-level bpf_iter_<type>_{new,next,destroy}() APIs explicitly. E.g.:
      
        struct cgroup *cg;
      
        bpf_for_each(cgroup, cg, some, input, args) {
            /* do something with each cg */
        }
      
      would call (not-yet-implemented) bpf_iter_cgroup_{new,next,destroy}()
      functions to form a loop over cgroups, where `some, input, args` are
      passed verbatim into constructor as
      
        bpf_iter_cgroup_new(&it, some, input, args).
      
      As a first demonstration, add pyperf variant based on the bpf_for() loop.
      
      Also clean up a few tests that either included bpf_misc.h header
      unnecessarily from the user-space, which is unsupported, or included it
      before any common types are defined (and thus leading to unnecessary
      compilation warnings, potentially).
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-6-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      8c2b5e90
    • Andrii Nakryiko's avatar
      bpf: implement numbers iterator · 6018e1f4
      Andrii Nakryiko authored
      Implement the first open-coded iterator type over a range of integers.
      
      It's public API consists of:
        - bpf_iter_num_new() constructor, which accepts [start, end) range
          (that is, start is inclusive, end is exclusive).
        - bpf_iter_num_next() which will keep returning read-only pointer to int
          until the range is exhausted, at which point NULL will be returned.
          If bpf_iter_num_next() is kept calling after this, NULL will be
          persistently returned.
        - bpf_iter_num_destroy() destructor, which needs to be called at some
          point to clean up iterator state. BPF verifier enforces that iterator
          destructor is called at some point before BPF program exits.
      
      Note that `start = end = X` is a valid combination to setup an empty
      iterator. bpf_iter_num_new() will return 0 (success) for any such
      combination.
      
      If bpf_iter_num_new() detects invalid combination of input arguments, it
      returns error, resets iterator state to, effectively, empty iterator, so
      any subsequent call to bpf_iter_num_next() will keep returning NULL.
      
      BPF verifier has no knowledge that returned integers are in the
      [start, end) value range, as both `start` and `end` are not statically
      known and enforced: they are runtime values.
      
      While the implementation is pretty trivial, some care needs to be taken
      to avoid overflows and underflows. Subsequent selftests will validate
      correctness of [start, end) semantics, especially around extremes
      (INT_MIN and INT_MAX).
      
      Similarly to bpf_loop(), we enforce that no more than BPF_MAX_LOOPS can
      be specified.
      
      bpf_iter_num_{new,next,destroy}() is a logical evolution from bounded
      BPF loops and bpf_loop() helper and is the basis for implementing
      ergonomic BPF loops with no statically known or verified bounds.
      Subsequent patches implement bpf_for() macro, demonstrating how this can
      be wrapped into something that works and feels like a normal for() loop
      in C language.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-5-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      6018e1f4
    • Andrii Nakryiko's avatar
      bpf: add support for open-coded iterator loops · 06accc87
      Andrii Nakryiko authored
      Teach verifier about the concept of the open-coded (or inline) iterators.
      
      This patch adds generic iterator loop verification logic, new STACK_ITER
      stack slot type to contain iterator state, and necessary kfunc plumbing
      for iterator's constructor, destructor and next methods. Next patch
      implements first specific iterator (numbers iterator for implementing
      for() loop logic). Such split allows to have more focused commits for
      verifier logic and separate commit that we could point later to
      demonstrating  what does it take to add a new kind of iterator.
      
      Each kind of iterator has its own associated struct bpf_iter_<type>,
      where <type> denotes a specific type of iterator. struct bpf_iter_<type>
      state is supposed to live on BPF program stack, so there will be no way
      to change its size later on without breaking backwards compatibility, so
      choose wisely! But given this struct is specific to a given <type> of
      iterator, this allows a lot of flexibility: simple iterators could be
      fine with just one stack slot (8 bytes), like numbers iterator in the
      next patch, while some other more complicated iterators might need way
      more to keep their iterator state. Either way, such design allows to
      avoid runtime memory allocations, which otherwise would be necessary if
      we fixed on-the-stack size and it turned out to be too small for a given
      iterator implementation.
      
      The way BPF verifier logic is implemented, there are no artificial
      restrictions on a number of active iterators, it should work correctly
      using multiple active iterators at the same time. This also means you
      can have multiple nested iteration loops. struct bpf_iter_<type>
      reference can be safely passed to subprograms as well.
      
      General flow is easiest to demonstrate with a simple example using
      number iterator implemented in next patch. Here's the simplest possible
      loop:
      
        struct bpf_iter_num it;
        int *v;
      
        bpf_iter_num_new(&it, 2, 5);
        while ((v = bpf_iter_num_next(&it))) {
            bpf_printk("X = %d", *v);
        }
        bpf_iter_num_destroy(&it);
      
      Above snippet should output "X = 2", "X = 3", "X = 4". Note that 5 is
      exclusive and is not returned. This matches similar APIs (e.g., slices
      in Go or Rust) that implement a range of elements, where end index is
      non-inclusive.
      
      In the above example, we see a trio of function:
        - constructor, bpf_iter_num_new(), which initializes iterator state
        (struct bpf_iter_num it) on the stack. If any of the input arguments
        are invalid, constructor should make sure to still initialize it such
        that subsequent bpf_iter_num_next() calls will return NULL. I.e., on
        error, return error and construct empty iterator.
        - next method, bpf_iter_num_next(), which accepts pointer to iterator
        state and produces an element. Next method should always return
        a pointer. The contract between BPF verifier is that next method will
        always eventually return NULL when elements are exhausted. Once NULL is
        returned, subsequent next calls should keep returning NULL. In the
        case of numbers iterator, bpf_iter_num_next() returns a pointer to an int
        (storage for this integer is inside the iterator state itself),
        which can be dereferenced after corresponding NULL check.
        - once done with the iterator, it's mandated that user cleans up its
        state with the call to destructor, bpf_iter_num_destroy() in this
        case. Destructor frees up any resources and marks stack space used by
        struct bpf_iter_num as usable for something else.
      
      Any other iterator implementation will have to implement at least these
      three methods. It is enforced that for any given type of iterator only
      applicable constructor/destructor/next are callable. I.e., verifier
      ensures you can't pass number iterator state into, say, cgroup
      iterator's next method.
      
      It is important to keep the naming pattern consistent to be able to
      create generic macros to help with BPF iter usability. E.g., one
      of the follow up patches adds generic bpf_for_each() macro to bpf_misc.h
      in selftests, which allows to utilize iterator "trio" nicely without
      having to code the above somewhat tedious loop explicitly every time.
      This is enforced at kfunc registration point by one of the previous
      patches in this series.
      
      At the implementation level, iterator state tracking for verification
      purposes is very similar to dynptr. We add STACK_ITER stack slot type,
      reserve necessary number of slots, depending on
      sizeof(struct bpf_iter_<type>), and keep track of necessary extra state
      in the "main" slot, which is marked with non-zero ref_obj_id. Other
      slots are also marked as STACK_ITER, but have zero ref_obj_id. This is
      simpler than having a separate "is_first_slot" flag.
      
      Another big distinction is that STACK_ITER is *always refcounted*, which
      simplifies implementation without sacrificing usability. So no need for
      extra "iter_id", no need to anticipate reuse of STACK_ITER slots for new
      constructors, etc. Keeping it simple here.
      
      As far as the verification logic goes, there are two extensive comments:
      in process_iter_next_call() and iter_active_depths_differ() explaining
      some important and sometimes subtle aspects. Please refer to them for
      details.
      
      But from 10,000-foot point of view, next methods are the points of
      forking a verification state, which are conceptually similar to what
      verifier is doing when validating conditional jump. We branch out at
      a `call bpf_iter_<type>_next` instruction and simulate two outcomes:
      NULL (iteration is done) and non-NULL (new element is returned). NULL is
      simulated first and is supposed to reach exit without looping. After
      that non-NULL case is validated and it either reaches exit (for trivial
      examples with no real loop), or reaches another `call bpf_iter_<type>_next`
      instruction with the state equivalent to already (partially) validated
      one. State equivalency at that point means we technically are going to
      be looping forever without "breaking out" out of established "state
      envelope" (i.e., subsequent iterations don't add any new knowledge or
      constraints to the verifier state, so running 1, 2, 10, or a million of
      them doesn't matter). But taking into account the contract stating that
      iterator next method *has to* return NULL eventually, we can conclude
      that loop body is safe and will eventually terminate. Given we validated
      logic outside of the loop (NULL case), and concluded that loop body is
      safe (though potentially looping many times), verifier can claim safety
      of the overall program logic.
      
      The rest of the patch is necessary plumbing for state tracking, marking,
      validation, and necessary further kfunc plumbing to allow implementing
      iterator constructor, destructor, and next methods.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-4-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      06accc87
    • Andrii Nakryiko's avatar
      bpf: add iterator kfuncs registration and validation logic · 215bf496
      Andrii Nakryiko authored
      Add ability to register kfuncs that implement BPF open-coded iterator
      contract and enforce naming and function proto convention. Enforcement
      happens at the time of kfunc registration and significantly simplifies
      the rest of iterators logic in the verifier.
      
      More details follow in subsequent patches, but we enforce the following
      conditions.
      
      All kfuncs (constructor, next, destructor) have to be named consistenly
      as bpf_iter_<type>_{new,next,destroy}(), respectively. <type> represents
      iterator type, and iterator state should be represented as a matching
      `struct bpf_iter_<type>` state type. Also, all iter kfuncs should have
      a pointer to this `struct bpf_iter_<type>` as the very first argument.
      
      Additionally:
        - Constructor, i.e., bpf_iter_<type>_new(), can have arbitrary extra
        number of arguments. Return type is not enforced either.
        - Next method, i.e., bpf_iter_<type>_next(), has to return a pointer
        type and should have exactly one argument: `struct bpf_iter_<type> *`
        (const/volatile/restrict and typedefs are ignored).
        - Destructor, i.e., bpf_iter_<type>_destroy(), should return void and
        should have exactly one argument, similar to the next method.
        - struct bpf_iter_<type> size is enforced to be positive and
        a multiple of 8 bytes (to fit stack slots correctly).
      
      Such strictness and consistency allows to build generic helpers
      abstracting important, but boilerplate, details to be able to use
      open-coded iterators effectively and ergonomically (see bpf_for_each()
      in subsequent patches). It also simplifies the verifier logic in some
      places. At the same time, this doesn't hurt generality of possible
      iterator implementations. Win-win.
      
      Constructor kfunc is marked with a new KF_ITER_NEW flags, next method is
      marked with KF_ITER_NEXT (and should also have KF_RET_NULL, of course),
      while destructor kfunc is marked as KF_ITER_DESTROY.
      
      Additionally, we add a trivial kfunc name validation: it should be
      a valid non-NULL and non-empty string.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-3-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      215bf496
    • Andrii Nakryiko's avatar
      bpf: factor out fetching basic kfunc metadata · 07236eab
      Andrii Nakryiko authored
      Factor out logic to fetch basic kfunc metadata based on struct bpf_insn.
      This is not exactly short or trivial code to just copy/paste and this
      information is sometimes necessary in other parts of the verifier logic.
      Subsequent patches will rely on this to determine if an instruction is
      a kfunc call to iterator next method.
      
      No functional changes intended, including that verbose() warning
      behavior when kfunc is not allowed for a particular program type.
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Link: https://lore.kernel.org/r/20230308184121.1165081-2-andrii@kernel.orgSigned-off-by: default avatarAlexei Starovoitov <ast@kernel.org>
      07236eab
  3. 08 Mar, 2023 7 commits
    • Jakub Kicinski's avatar
      Merge https://git.kernel.org/pub/scm/linux/kernel/git/bpf/bpf-next · ed69e066
      Jakub Kicinski authored
      Andrii Nakryiko says:
      
      ====================
      pull-request: bpf-next 2023-03-08
      
      We've added 23 non-merge commits during the last 2 day(s) which contain
      a total of 28 files changed, 414 insertions(+), 104 deletions(-).
      
      The main changes are:
      
      1) Add more precise memory usage reporting for all BPF map types,
         from Yafang Shao.
      
      2) Add ARM32 USDT support to libbpf, from Puranjay Mohan.
      
      3) Fix BTF_ID_LIST size causing problems in !CONFIG_DEBUG_INFO_BTF,
         from Nathan Chancellor.
      
      4) IMA selftests fix, from Roberto Sassu.
      
      5) libbpf fix in APK support code, from Daniel Müller.
      
      * https://git.kernel.org/pub/scm/linux/kernel/git/bpf/bpf-next: (23 commits)
        selftests/bpf: Fix IMA test
        libbpf: USDT arm arg parsing support
        libbpf: Refactor parse_usdt_arg() to re-use code
        libbpf: Fix theoretical u32 underflow in find_cd() function
        bpf: enforce all maps having memory usage callback
        bpf: offload map memory usage
        bpf, net: xskmap memory usage
        bpf, net: sock_map memory usage
        bpf, net: bpf_local_storage memory usage
        bpf: local_storage memory usage
        bpf: bpf_struct_ops memory usage
        bpf: queue_stack_maps memory usage
        bpf: devmap memory usage
        bpf: cpumap memory usage
        bpf: bloom_filter memory usage
        bpf: ringbuf memory usage
        bpf: reuseport_array memory usage
        bpf: stackmap memory usage
        bpf: arraymap memory usage
        bpf: hashtab memory usage
        ...
      ====================
      
      Link: https://lore.kernel.org/r/20230308193533.1671597-1-andrii@kernel.orgSigned-off-by: default avatarJakub Kicinski <kuba@kernel.org>
      ed69e066
    • Roberto Sassu's avatar
      selftests/bpf: Fix IMA test · 12fabae0
      Roberto Sassu authored
      Commit 62622dab ("ima: return IMA digest value only when IMA_COLLECTED
      flag is set") caused bpf_ima_inode_hash() to refuse to give non-fresh
      digests. IMA test #3 assumed the old behavior, that bpf_ima_inode_hash()
      still returned also non-fresh digests.
      
      Correct the test by accepting both cases. If the samples returned are 1,
      assume that the commit above is applied and that the returned digest is
      fresh. If the samples returned are 2, assume that the commit above is not
      applied, and check both the non-fresh and fresh digest.
      
      Fixes: 62622dab ("ima: return IMA digest value only when IMA_COLLECTED flag is set")
      Reported-by: default avatarDavid Vernet <void@manifault.com>
      Signed-off-by: default avatarRoberto Sassu <roberto.sassu@huawei.com>
      Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
      Reviewed-by: default avatarMatt Bobrowski <mattbobrowski@google.com>
      Link: https://lore.kernel.org/bpf/20230308103713.1681200-1-roberto.sassu@huaweicloud.com
      12fabae0
    • Eric Dumazet's avatar
      net: reclaim skb->scm_io_uring bit · 10369080
      Eric Dumazet authored
      Commit 0091bfc8 ("io_uring/af_unix: defer registered
      files gc to io_uring release") added one bit to struct sk_buff.
      
      This structure is critical for networking, and we try very hard
      to not add bloat on it, unless absolutely required.
      
      For instance, we can use a specific destructor as a wrapper
      around unix_destruct_scm(), to identify skbs that unix_gc()
      has to special case.
      Signed-off-by: default avatarEric Dumazet <edumazet@google.com>
      Cc: Pavel Begunkov <asml.silence@gmail.com>
      Cc: Thadeu Lima de Souza Cascardo <cascardo@canonical.com>
      Cc: Jens Axboe <axboe@kernel.dk>
      Reviewed-by: default avatarJens Axboe <axboe@kernel.dk>
      Reviewed-by: default avatarPavel Begunkov <asml.silence@gmail.com>
      Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
      10369080
    • David S. Miller's avatar
      Merge branch 'sparx5-tc-flower-templates' · b3f4cd07
      David S. Miller authored
      Steen Hegelund says:
      
      ====================
      Add support for TC flower templates in Sparx5
      
      This adds support for the TC template mechanism in the Sparx5 flower filter
      implementation.
      
      Templates are as such handled by the TC framework, but when a template is
      created (using a chain id) there are by definition no filters on this
      chain (an error will be returned if there are any).
      
      If the templates chain id is one that is represented by a VCAP lookup, then
      when the template is created, we know that it is safe to use the keys
      provided in the template to change the keyset configuration for the (port,
      lookup) combination, if this is needed to improve the match on the
      template.
      
      The original port keyset configuration is captured in the template state
      information which is kept per port, so that when the template is deleted
      the port keyset configuration can be restored to its previous setting.
      
      The template also provides the protocol parameter which is the basic
      information that is used to find out which port keyset configuration needs
      to be changed.
      
      The VCAPs and lookups are slightly different when it comes to which keys,
      keysets and protocol are supported and used for selection, so in some
      cases a bit of tweaking is needed to find a useful match.  This is done by
      e.g. removing a key that prevents the best matching keyset from being
      selected.
      
      The debugfs output that is provided for a port allows inspection of the
      currently used keyset in each of the VCAPs lookups.  So when a template has
      been created the debugfs output allows you to verify if the keyset
      configuration has been changed successfully.
      ====================
      Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
      b3f4cd07
    • Steen Hegelund's avatar
      net: microchip: sparx5: Add TC template support · e1d597ec
      Steen Hegelund authored
      This adds support for using the "template add" and "template destroy"
      functionality to change the port keyset configuration.
      
      If the VCAP lookup already contains rules, the port keyset is left
      unchanged, as a change would make these rules unusable.
      
      When the template is destroyed the port keyset configuration is restored.
      The filters using the template chain will automatically be deleted by the
      TC framework.
      Signed-off-by: default avatarSteen Hegelund <steen.hegelund@microchip.com>
      Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
      e1d597ec
    • Steen Hegelund's avatar
      net: microchip: sparx5: Add port keyset changing functionality · d9f175b0
      Steen Hegelund authored
      With this its is now possible for clients (like TC) to change the port
      keyset configuration in the Sparx5 VCAPs.
      
      This is typically done per traffic class which is guided with the L3
      protocol information.
      Before the change the current keyset configuration is collected in a list
      that is handed back to the client.
      Signed-off-by: default avatarSteen Hegelund <steen.hegelund@microchip.com>
      Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
      d9f175b0
    • Steen Hegelund's avatar
      net: microchip: sparx5: Add TC template list to a port · 1c14432d
      Steen Hegelund authored
      This adds a list that is used to collect the templates that are active on a
      port.
      
      This allows the template creation to change the port configuration
      and the template destruction to change it back.
      Signed-off-by: default avatarSteen Hegelund <steen.hegelund@microchip.com>
      Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
      1c14432d