Re: [PATCH v3 1/9] kcsan: Add Kernel Concurrency Sanitizer infrastructure

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Hi Dmitry,

On Wed, 6 Nov 2019 at 10:38, Dmitry Vyukov <dvyukov@xxxxxxxxxx> wrote:
>
> On Mon, Nov 4, 2019 at 3:28 PM Marco Elver <elver@xxxxxxxxxx> wrote:
> >
> > Kernel Concurrency Sanitizer (KCSAN) is a dynamic data-race detector for
> > kernel space. KCSAN is a sampling watchpoint-based data-race detector.
> > See the included Documentation/dev-tools/kcsan.rst for more details.
> ...
> > +static inline atomic_long_t *find_watchpoint(unsigned long addr, size_t size,
> > +                                            bool expect_write,
> > +                                            long *encoded_watchpoint)
> > +{
> > +       const int slot = watchpoint_slot(addr);
> > +       const unsigned long addr_masked = addr & WATCHPOINT_ADDR_MASK;
> > +       atomic_long_t *watchpoint;
> > +       unsigned long wp_addr_masked;
> > +       size_t wp_size;
> > +       bool is_write;
> > +       int i;
> > +
> > +       BUILD_BUG_ON(CONFIG_KCSAN_NUM_WATCHPOINTS < CHECK_NUM_SLOTS);
> > +
> > +       for (i = 0; i < CHECK_NUM_SLOTS; ++i) {
> > +               watchpoint = &watchpoints[SLOT_IDX(slot, i)];
>
>
> The fast path code become much nicer!
> I did another pass looking at how we can optimize the fast path.
> Currently we still have 2 push/pop pairs on the fast path because of
> register pressure. The logic in SLOT_IDX seems to be the main culprit.
> We discussed several options offline:
> 1. Just check 1 slot and ignore all corner cases (we will miss racing
> unaligned access to different addresses but overlapping and crossing
> pages, which sounds pretty esoteric)
> 2. Check 3 slots in order and without wraparound (watchpoints[slot +
> i], where i=-1,0,1), this will require adding dummy slots around the
> array
> 3. An interesting option is to check just 2 slots (that's enough!), to
> make this work we will need to slightly offset bucket number when
> setting a watch point (namely, if an access goes to the very end of a
> page, we set the watchpoint into the bucket corresponding to the
> _next_ page)
> All of these options remove push/pop in my experiments. Obviously
> checking fewer slots will reduce dynamic overhead even more.
>
>
> > +               *encoded_watchpoint = atomic_long_read(watchpoint);
> > +               if (!decode_watchpoint(*encoded_watchpoint, &wp_addr_masked,
> > +                                      &wp_size, &is_write))
> > +                       continue;
> > +
> > +               if (expect_write && !is_write)
> > +                       continue;
> > +
> > +               /* Check if the watchpoint matches the access. */
> > +               if (matching_access(wp_addr_masked, wp_size, addr_masked, size))
> > +                       return watchpoint;
> > +       }
> > +
> > +       return NULL;
> > +}
> > +
> > +static inline atomic_long_t *insert_watchpoint(unsigned long addr, size_t size,
> > +                                              bool is_write)
> > +{
> > +       const int slot = watchpoint_slot(addr);
> > +       const long encoded_watchpoint = encode_watchpoint(addr, size, is_write);
> > +       atomic_long_t *watchpoint;
> > +       int i;
> > +
> > +       for (i = 0; i < CHECK_NUM_SLOTS; ++i) {
> > +               long expect_val = INVALID_WATCHPOINT;
> > +
> > +               /* Try to acquire this slot. */
> > +               watchpoint = &watchpoints[SLOT_IDX(slot, i)];
>
> If we do this SLOT_IDX trickery to catch unaligned accesses crossing
> pages, then I think we should not use it insert_watchpoint at all and
> only set the watchpoint to the exact index. Otherwise, we will
> actually miss the corner cases which defeats the whole purpose of
> SLOT_IDX and 3 iterations.
>
> > +               if (atomic_long_try_cmpxchg_relaxed(watchpoint, &expect_val,
> > +                                                   encoded_watchpoint))
> > +                       return watchpoint;
> > +       }
> > +
> > +       return NULL;
> > +}
> > +
> > +/*
> > + * Return true if watchpoint was successfully consumed, false otherwise.
> > + *
> > + * This may return false if:
> > + *
> > + *     1. another thread already consumed the watchpoint;
> > + *     2. the thread that set up the watchpoint already removed it;
> > + *     3. the watchpoint was removed and then re-used.
> > + */
> > +static inline bool try_consume_watchpoint(atomic_long_t *watchpoint,
> > +                                         long encoded_watchpoint)
> > +{
> > +       return atomic_long_try_cmpxchg_relaxed(watchpoint, &encoded_watchpoint,
> > +                                              CONSUMED_WATCHPOINT);
> > +}
> > +
> > +/*
> > + * Return true if watchpoint was not touched, false if consumed.
> > + */
> > +static inline bool remove_watchpoint(atomic_long_t *watchpoint)
> > +{
> > +       return atomic_long_xchg_relaxed(watchpoint, INVALID_WATCHPOINT) !=
> > +              CONSUMED_WATCHPOINT;
> > +}
> > +
> > +static inline struct kcsan_ctx *get_ctx(void)
> > +{
> > +       /*
> > +        * In interrupt, use raw_cpu_ptr to avoid unnecessary checks, that would
> > +        * also result in calls that generate warnings in uaccess regions.
> > +        */
> > +       return in_task() ? &current->kcsan_ctx : raw_cpu_ptr(&kcsan_cpu_ctx);
> > +}
> > +
> > +static inline bool is_atomic(const volatile void *ptr)
> > +{
> > +       struct kcsan_ctx *ctx = get_ctx();
> > +
> > +       if (unlikely(ctx->atomic_next > 0)) {
> > +               --ctx->atomic_next;
> > +               return true;
> > +       }
> > +       if (unlikely(ctx->atomic_nest_count > 0 || ctx->in_flat_atomic))
> > +               return true;
> > +
> > +       return kcsan_is_atomic(ptr);
> > +}
> > +
> > +static inline bool should_watch(const volatile void *ptr, int type)
> > +{
> > +       /*
> > +        * Never set up watchpoints when memory operations are atomic.
> > +        *
> > +        * Need to check this first, before kcsan_skip check below: (1) atomics
> > +        * should not count towards skipped instructions, and (2) to actually
> > +        * decrement kcsan_atomic_next for consecutive instruction stream.
> > +        */
> > +       if ((type & KCSAN_ACCESS_ATOMIC) != 0 || is_atomic(ptr))
> > +               return false;
>
> should_watch and is_atomic are invoked on the fast path and do more
> things than strictly necessary.
> The minimal amount of actions would be:
>  - check and decrement ctx->atomic_next for atomic accesses
>  - decrement kcsan_skip
>
> atomic_nest_count/in_flat_atomic/kcsan_is_atomic can be checked on
> uninlined slow path.
>
> It should not be necessary to set kcsan_skip to -1 if we _always_
> resetup kcsan_skip on slow path.
>
> > +       if (this_cpu_dec_return(kcsan_skip) >= 0)
> > +               return false;
> > +
> > +       /* avoid underflow if !kcsan_is_enabled() */
> > +       this_cpu_write(kcsan_skip, -1);
> > +
> > +       /* this operation should be watched */
> > +       return true;
> > +}
> > +
> > +static inline void reset_kcsan_skip(void)
> > +{
> > +       long skip_count = CONFIG_KCSAN_SKIP_WATCH -
> > +                         (IS_ENABLED(CONFIG_KCSAN_SKIP_WATCH_RANDOMIZE) ?
> > +                                  prandom_u32_max(CONFIG_KCSAN_SKIP_WATCH) :
> > +                                  0);
> > +       this_cpu_write(kcsan_skip, skip_count);
> > +}
> > +
> > +static inline bool kcsan_is_enabled(void)
> > +{
> > +       return READ_ONCE(kcsan_enabled) && get_ctx()->disable_count == 0;
> > +}
> > +
> > +static inline unsigned int get_delay(void)
> > +{
> > +       unsigned int delay = in_task() ? CONFIG_KCSAN_UDELAY_TASK :
> > +                                        CONFIG_KCSAN_UDELAY_INTERRUPT;
> > +       return delay - (IS_ENABLED(CONFIG_KCSAN_DELAY_RANDOMIZE) ?
> > +                               prandom_u32_max(delay) :
> > +                               0);
> > +}
> > +
> > +/*
> > + * Pull everything together: check_access() below contains the performance
> > + * critical operations; the fast-path (including check_access) functions should
> > + * all be inlinable by the instrumentation functions.
> > + *
> > + * The slow-path (kcsan_found_watchpoint, kcsan_setup_watchpoint) are
> > + * non-inlinable -- note that, we prefix these with "kcsan_" to ensure they can
> > + * be filtered from the stacktrace, as well as give them unique names for the
> > + * UACCESS whitelist of objtool. Each function uses user_access_save/restore(),
> > + * since they do not access any user memory, but instrumentation is still
> > + * emitted in UACCESS regions.
> > + */
> > +
> > +static noinline void kcsan_found_watchpoint(const volatile void *ptr,
> > +                                           size_t size, bool is_write,
> > +                                           bool consumed)
> > +{
> > +       unsigned long flags = user_access_save();
> > +       enum kcsan_report_type report_type;
> > +
> > +       if (!consumed) {
> > +               /*
> > +                * The other thread may not print any diagnostics, as it has
> > +                * already removed the watchpoint, or another thread consumed
> > +                * the watchpoint before this thread.
> > +                */
> > +               kcsan_counter_inc(KCSAN_COUNTER_REPORT_RACES);
> > +               report_type = KCSAN_REPORT_RACE_CHECK_RACE;
> > +       } else {
> > +               report_type = KCSAN_REPORT_RACE_CHECK;
> > +       }
> > +
> > +       kcsan_counter_inc(KCSAN_COUNTER_DATA_RACES);
> > +       kcsan_report(ptr, size, is_write, raw_smp_processor_id(), report_type);
> > +
> > +       user_access_restore(flags);
> > +}
> > +
> > +static noinline void kcsan_setup_watchpoint(const volatile void *ptr,
> > +                                           size_t size, bool is_write)
> > +{
> > +       atomic_long_t *watchpoint;
> > +       union {
> > +               u8 _1;
> > +               u16 _2;
> > +               u32 _4;
> > +               u64 _8;
> > +       } expect_value;
> > +       bool is_expected = true;
> > +       unsigned long ua_flags = user_access_save();
> > +       unsigned long irq_flags;
> > +
> > +       if (!check_encodable((unsigned long)ptr, size)) {
> > +               kcsan_counter_inc(KCSAN_COUNTER_UNENCODABLE_ACCESSES);
> > +               goto out;
> > +       }
> > +
> > +       /*
> > +        * Disable interrupts & preemptions to avoid another thread on the same
> > +        * CPU accessing memory locations for the set up watchpoint; this is to
> > +        * avoid reporting races to e.g. CPU-local data.
> > +        *
> > +        * An alternative would be adding the source CPU to the watchpoint
> > +        * encoding, and checking that watchpoint-CPU != this-CPU. There are
> > +        * several problems with this:
> > +        *   1. we should avoid stealing more bits from the watchpoint encoding
> > +        *      as it would affect accuracy, as well as increase performance
> > +        *      overhead in the fast-path;
> > +        *   2. if we are preempted, but there *is* a genuine data race, we
> > +        *      would *not* report it -- since this is the common case (vs.
> > +        *      CPU-local data accesses), it makes more sense (from a data race
> > +        *      detection point of view) to simply disable preemptions to ensure
> > +        *      as many tasks as possible run on other CPUs.
> > +        */
> > +       local_irq_save(irq_flags);
> > +
> > +       watchpoint = insert_watchpoint((unsigned long)ptr, size, is_write);
> > +       if (watchpoint == NULL) {
> > +               /*
> > +                * Out of capacity: the size of `watchpoints`, and the frequency
> > +                * with which `should_watch()` returns true should be tweaked so
> > +                * that this case happens very rarely.
> > +                */
> > +               kcsan_counter_inc(KCSAN_COUNTER_NO_CAPACITY);
> > +               goto out_unlock;
> > +       }
> > +
> > +       /*
> > +        * Reset kcsan_skip counter: only do this if we succeeded in setting up
> > +        * a watchpoint.
> > +        */
> > +       reset_kcsan_skip();
> > +
> > +       kcsan_counter_inc(KCSAN_COUNTER_SETUP_WATCHPOINTS);
> > +       kcsan_counter_inc(KCSAN_COUNTER_USED_WATCHPOINTS);
> > +
> > +       /*
> > +        * Read the current value, to later check and infer a race if the data
> > +        * was modified via a non-instrumented access, e.g. from a device.
> > +        */
> > +       switch (size) {
> > +       case 1:
> > +               expect_value._1 = READ_ONCE(*(const u8 *)ptr);
> > +               break;
> > +       case 2:
> > +               expect_value._2 = READ_ONCE(*(const u16 *)ptr);
> > +               break;
> > +       case 4:
> > +               expect_value._4 = READ_ONCE(*(const u32 *)ptr);
> > +               break;
> > +       case 8:
> > +               expect_value._8 = READ_ONCE(*(const u64 *)ptr);
> > +               break;
> > +       default:
> > +               break; /* ignore; we do not diff the values */
> > +       }
> > +
> > +       if (IS_ENABLED(CONFIG_KCSAN_DEBUG)) {
> > +               kcsan_disable_current();
> > +               pr_err("KCSAN: watching %s, size: %zu, addr: %px [slot: %d, encoded: %lx]\n",
> > +                      is_write ? "write" : "read", size, ptr,
> > +                      watchpoint_slot((unsigned long)ptr),
> > +                      encode_watchpoint((unsigned long)ptr, size, is_write));
> > +               kcsan_enable_current();
> > +       }
> > +
> > +       /*
> > +        * Delay this thread, to increase probability of observing a racy
> > +        * conflicting access.
> > +        */
> > +       udelay(get_delay());
> > +
> > +       /*
> > +        * Re-read value, and check if it is as expected; if not, we infer a
> > +        * racy access.
> > +        */
> > +       switch (size) {
> > +       case 1:
> > +               is_expected = expect_value._1 == READ_ONCE(*(const u8 *)ptr);
> > +               break;
> > +       case 2:
> > +               is_expected = expect_value._2 == READ_ONCE(*(const u16 *)ptr);
> > +               break;
> > +       case 4:
> > +               is_expected = expect_value._4 == READ_ONCE(*(const u32 *)ptr);
> > +               break;
> > +       case 8:
> > +               is_expected = expect_value._8 == READ_ONCE(*(const u64 *)ptr);
> > +               break;
> > +       default:
> > +               break; /* ignore; we do not diff the values */
> > +       }
> > +
> > +       /* Check if this access raced with another. */
> > +       if (!remove_watchpoint(watchpoint)) {
> > +               /*
> > +                * No need to increment 'data_races' counter, as the racing
> > +                * thread already did.
> > +                */
> > +               kcsan_report(ptr, size, is_write, smp_processor_id(),
> > +                            KCSAN_REPORT_RACE_SETUP);
> > +       } else if (!is_expected) {
> > +               /* Inferring a race, since the value should not have changed. */
> > +               kcsan_counter_inc(KCSAN_COUNTER_RACES_UNKNOWN_ORIGIN);
> > +               if (IS_ENABLED(CONFIG_KCSAN_REPORT_RACE_UNKNOWN_ORIGIN))
> > +                       kcsan_report(ptr, size, is_write, smp_processor_id(),
> > +                                    KCSAN_REPORT_RACE_UNKNOWN_ORIGIN);
> > +       }
> > +
> > +       kcsan_counter_dec(KCSAN_COUNTER_USED_WATCHPOINTS);
> > +out_unlock:
> > +       local_irq_restore(irq_flags);
> > +out:
> > +       user_access_restore(ua_flags);
> > +}
> > +
> > +static inline void check_access(const volatile void *ptr, size_t size, int type)
> > +{
> > +       const bool is_write = (type & KCSAN_ACCESS_WRITE) != 0;
> > +       atomic_long_t *watchpoint;
> > +       long encoded_watchpoint;
> > +
> > +       if (IS_ENABLED(CONFIG_KCSAN_PLAIN_WRITE_PRETEND_ONCE) && is_write)
> > +               type |= KCSAN_ACCESS_ATOMIC;
> > +
> > +       /*
> > +        * Avoid user_access_save in fast-path: find_watchpoint is safe without
> > +        * user_access_save, as the address that ptr points to is only used to
> > +        * check if a watchpoint exists; ptr is never dereferenced.
> > +        */
> > +       watchpoint = find_watchpoint((unsigned long)ptr, size, !is_write,
> > +                                    &encoded_watchpoint);
> > +
> > +       /*
> > +        * It is safe to check kcsan_is_enabled() after find_watchpoint, but
> > +        * right before we would enter the slow-path: no state changes that
> > +        * cause a data race to be detected and reported have occurred yet.
> > +        */
> > +
> > +       if (unlikely(watchpoint != NULL) && kcsan_is_enabled()) {
>
> I would move kcsan_is_enabled and the rest of the code in the branch
> into non-inlined slow path.
> It makes the hot function much shorter.
> There is a trick related to number of arguments, though. We would need
> to pass ptr, size, is_write, watchpoint and encoded_watchpoint. That's
> 5 arguments. Only 4 are passed in registers. So it may make sense to
> combine size and type into a single word. On the inlined fast path
> compiler packs/unpacks that statically, so it does not matter. But for
> the function call it will just forward a single const.
>
>
> > +               /*
> > +                * Try consume the watchpoint as soon after finding the
> > +                * watchpoint as possible; this must always be guarded by
> > +                * kcsan_is_enabled() check, as otherwise we might erroneously
> > +                * triggering reports when disabled.
> > +                */
> > +               const bool consumed =
> > +                       try_consume_watchpoint(watchpoint, encoded_watchpoint);
> > +
> > +               kcsan_found_watchpoint(ptr, size, is_write, consumed);
> > +       } else if (unlikely(should_watch(ptr, type)) && kcsan_is_enabled()) {
>
> I would move kcsan_is_enabled check into kcsan_setup_watchpoint. It's
> not executed on fast path, but bloats the host function code.
>
> > +               kcsan_setup_watchpoint(ptr, size, is_write);
> > +       }
> > +}

Thanks! I will work on these. My only worry is that some of these
might overcomplicate the code with no measurable gain. I will try to
find a balance here.

Will send v4 then.

Thanks,
-- Marco



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