[Intel-gfx] [PATCH v10] lib: Add a simple prime number generator
Daniel Vetter
daniel at ffwll.ch
Tue Dec 27 11:31:42 UTC 2016
On Thu, Dec 22, 2016 at 02:45:14PM +0000, Chris Wilson wrote:
> Prime numbers are interesting for testing components that use multiplies
> and divides, such as testing DRM's struct drm_mm alignment computations.
>
> v2: Move to lib/, add selftest
> v3: Fix initial constants (exclude 0/1 from being primes)
> v4: More RCU markup to keep 0day/sparse happy
> v5: Fix RCU unwind on module exit, add to kselftests
> v6: Tidy computation of bitmap size
> v7: for_each_prime_number_from()
> v8: Compose small-primes using BIT() for easier verification
> v9: Move rcu dance entirely into callers.
> v10: Improve quote for Betrand's Postulate (aka Chebyshev's theorem)
>
> Signed-off-by: Chris Wilson <chris at chris-wilson.co.uk>
> Cc: Lukas Wunner <lukas at wunner.de>
> Reviewed-by: Joonas Lahtinen <joonas.lahtinen at linux.intel.com>
> ---
> include/linux/prime_numbers.h | 37 ++++
> lib/Kconfig | 7 +
> lib/Makefile | 2 +
> lib/prime_numbers.c | 314 +++++++++++++++++++++++++++
> tools/testing/selftests/lib/prime_numbers.sh | 15 ++
You typed all that nice kernel-doc, but no stanza in any .rst to pull it
in. Can you pls fix that up in a follow-up, cc: linux-doc at vger?
-Daniel
> 5 files changed, 375 insertions(+)
> create mode 100644 include/linux/prime_numbers.h
> create mode 100644 lib/prime_numbers.c
> create mode 100755 tools/testing/selftests/lib/prime_numbers.sh
>
> diff --git a/include/linux/prime_numbers.h b/include/linux/prime_numbers.h
> new file mode 100644
> index 000000000000..14ec4f567342
> --- /dev/null
> +++ b/include/linux/prime_numbers.h
> @@ -0,0 +1,37 @@
> +#ifndef __LINUX_PRIME_NUMBERS_H
> +#define __LINUX_PRIME_NUMBERS_H
> +
> +#include <linux/types.h>
> +
> +bool is_prime_number(unsigned long x);
> +unsigned long next_prime_number(unsigned long x);
> +
> +/**
> + * for_each_prime_number - iterate over each prime upto a value
> + * @prime: the current prime number in this iteration
> + * @max: the upper limit
> + *
> + * Starting from the first prime number 2 iterate over each prime number up to
> + * the @max value. On each iteration, @prime is set to the current prime number.
> + * @max should be less than ULONG_MAX to ensure termination. To begin with
> + * @prime set to 1 on the first iteration use for_each_prime_number_from()
> + * instead.
> + */
> +#define for_each_prime_number(prime, max) \
> + for_each_prime_number_from((prime), 2, (max))
> +
> +/**
> + * for_each_prime_number_from - iterate over each prime upto a value
> + * @prime: the current prime number in this iteration
> + * @from: the initial value
> + * @max: the upper limit
> + *
> + * Starting from @from iterate over each successive prime number up to the
> + * @max value. On each iteration, @prime is set to the current prime number.
> + * @max should be less than ULONG_MAX, and @from less than @max, to ensure
> + * termination.
> + */
> +#define for_each_prime_number_from(prime, from, max) \
> + for (prime = (from); prime <= (max); prime = next_prime_number(prime))
> +
> +#endif /* !__LINUX_PRIME_NUMBERS_H */
> diff --git a/lib/Kconfig b/lib/Kconfig
> index 260a80e313b9..1788a1f50d28 100644
> --- a/lib/Kconfig
> +++ b/lib/Kconfig
> @@ -550,4 +550,11 @@ config STACKDEPOT
> config SBITMAP
> bool
>
> +config PRIME_NUMBERS
> + tristate "Prime number generator"
> + default n
> + help
> + Provides a helper module to generate prime numbers. Useful for writing
> + test code, especially when checking multiplication and divison.
> +
> endmenu
> diff --git a/lib/Makefile b/lib/Makefile
> index 50144a3aeebd..c664143fd917 100644
> --- a/lib/Makefile
> +++ b/lib/Makefile
> @@ -197,6 +197,8 @@ obj-$(CONFIG_ASN1) += asn1_decoder.o
>
> obj-$(CONFIG_FONT_SUPPORT) += fonts/
>
> +obj-$(CONFIG_PRIME_NUMBERS) += prime_numbers.o
> +
> hostprogs-y := gen_crc32table
> clean-files := crc32table.h
>
> diff --git a/lib/prime_numbers.c b/lib/prime_numbers.c
> new file mode 100644
> index 000000000000..c9b3c29614aa
> --- /dev/null
> +++ b/lib/prime_numbers.c
> @@ -0,0 +1,314 @@
> +#define pr_fmt(fmt) "prime numbers: " fmt "\n"
> +
> +#include <linux/module.h>
> +#include <linux/mutex.h>
> +#include <linux/prime_numbers.h>
> +#include <linux/slab.h>
> +
> +#define bitmap_size(nbits) (BITS_TO_LONGS(nbits) * sizeof(unsigned long))
> +
> +struct primes {
> + struct rcu_head rcu;
> + unsigned long last, sz;
> + unsigned long primes[];
> +};
> +
> +#if BITS_PER_LONG == 64
> +static const struct primes small_primes = {
> + .last = 61,
> + .sz = 64,
> + .primes = {
> + BIT(2) |
> + BIT(3) |
> + BIT(5) |
> + BIT(7) |
> + BIT(11) |
> + BIT(13) |
> + BIT(17) |
> + BIT(19) |
> + BIT(23) |
> + BIT(29) |
> + BIT(31) |
> + BIT(37) |
> + BIT(41) |
> + BIT(43) |
> + BIT(47) |
> + BIT(53) |
> + BIT(59) |
> + BIT(61)
> + }
> +};
> +#elif BITS_PER_LONG == 32
> +static const struct primes small_primes = {
> + .last = 31,
> + .sz = 32,
> + .primes = {
> + BIT(2) |
> + BIT(3) |
> + BIT(5) |
> + BIT(7) |
> + BIT(11) |
> + BIT(13) |
> + BIT(17) |
> + BIT(19) |
> + BIT(23) |
> + BIT(29) |
> + BIT(31)
> + }
> +};
> +#else
> +#error "unhandled BITS_PER_LONG"
> +#endif
> +
> +static DEFINE_MUTEX(lock);
> +static const struct primes __rcu *primes = RCU_INITIALIZER(&small_primes);
> +
> +static unsigned long selftest_max;
> +
> +static bool slow_is_prime_number(unsigned long x)
> +{
> + unsigned long y = int_sqrt(x);
> +
> + while (y > 1) {
> + if ((x % y) == 0)
> + break;
> + y--;
> + }
> +
> + return y == 1;
> +}
> +
> +static unsigned long slow_next_prime_number(unsigned long x)
> +{
> + while (x < ULONG_MAX && !slow_is_prime_number(++x))
> + ;
> +
> + return x;
> +}
> +
> +static unsigned long clear_multiples(unsigned long x,
> + unsigned long *p,
> + unsigned long start,
> + unsigned long end)
> +{
> + unsigned long m;
> +
> + m = 2 * x;
> + if (m < start)
> + m = roundup(start, x);
> +
> + while (m < end) {
> + __clear_bit(m, p);
> + m += x;
> + }
> +
> + return x;
> +}
> +
> +static bool expand_to_next_prime(unsigned long x)
> +{
> + const struct primes *p;
> + struct primes *new;
> + unsigned long sz, y;
> +
> + /* Betrand's Postulate (or Chebyshev's theorem) states that if n > 3,
> + * there is always at least one prime p between n and 2n - 2.
> + * Equivalently, if n > 1, then there is always at least one prime p
> + * such that n < p < 2n.
> + *
> + * http://mathworld.wolfram.com/BertrandsPostulate.html
> + * https://en.wikipedia.org/wiki/Bertrand's_postulate
> + */
> + sz = 2 * x;
> + if (sz < x)
> + return false;
> +
> + sz = round_up(sz, BITS_PER_LONG);
> + new = kmalloc(sizeof(*new) + bitmap_size(sz), GFP_KERNEL);
> + if (!new)
> + return false;
> +
> + mutex_lock(&lock);
> + p = rcu_dereference_protected(primes, lockdep_is_held(&lock));
> + if (x < p->last) {
> + kfree(new);
> + goto unlock;
> + }
> +
> + /* Where memory permits, track the primes using the
> + * Sieve of Eratosthenes. The sieve is to remove all multiples of known
> + * primes from the set, what remains in the set is therefore prime.
> + */
> + bitmap_fill(new->primes, sz);
> + bitmap_copy(new->primes, p->primes, p->sz);
> + for (y = 2UL; y < sz; y = find_next_bit(new->primes, sz, y + 1))
> + new->last = clear_multiples(y, new->primes, p->sz, sz);
> + new->sz = sz;
> +
> + BUG_ON(new->last <= x);
> +
> + rcu_assign_pointer(primes, new);
> + if (p != &small_primes)
> + kfree_rcu((struct primes *)p, rcu);
> +
> +unlock:
> + mutex_unlock(&lock);
> + return true;
> +}
> +
> +static void free_primes(void)
> +{
> + const struct primes *p;
> +
> + mutex_lock(&lock);
> + p = rcu_dereference_protected(primes, lockdep_is_held(&lock));
> + if (p != &small_primes) {
> + rcu_assign_pointer(primes, &small_primes);
> + kfree_rcu((struct primes *)p, rcu);
> + }
> + mutex_unlock(&lock);
> +}
> +
> +/**
> + * next_prime_number - return the next prime number
> + * @x: the starting point for searching to test
> + *
> + * A prime number is an integer greater than 1 that is only divisible by
> + * itself and 1. The set of prime numbers is computed using the Sieve of
> + * Eratoshenes (on finding a prime, all multiples of that prime are removed
> + * from the set) enabling a fast lookup of the next prime number larger than
> + * @x. If the sieve fails (memory limitation), the search falls back to using
> + * slow trial-divison, up to the value of ULONG_MAX (which is reported as the
> + * final prime as a sentinel).
> + *
> + * Returns: the next prime number larger than @x
> + */
> +unsigned long next_prime_number(unsigned long x)
> +{
> + const struct primes *p;
> +
> + rcu_read_lock();
> + p = rcu_dereference(primes);
> + while (x >= p->last) {
> + rcu_read_unlock();
> +
> + if (!expand_to_next_prime(x))
> + return slow_next_prime_number(x);
> +
> + rcu_read_lock();
> + p = rcu_dereference(primes);
> + }
> + x = find_next_bit(p->primes, p->last, x + 1);
> + rcu_read_unlock();
> +
> + return x;
> +}
> +EXPORT_SYMBOL(next_prime_number);
> +
> +/**
> + * is_prime_number - test whether the given number is prime
> + * @x: the number to test
> + *
> + * A prime number is an integer greater than 1 that is only divisible by
> + * itself and 1. Internally a cache of prime numbers is kept (to speed up
> + * searching for sequential primes, see next_prime_number()), but if the number
> + * falls outside of that cache, its primality is tested using trial-divison.
> + *
> + * Returns: true if @x is prime, false for composite numbers.
> + */
> +bool is_prime_number(unsigned long x)
> +{
> + const struct primes *p;
> + bool result;
> +
> + rcu_read_lock();
> + p = rcu_dereference(primes);
> + while (x >= p->sz) {
> + rcu_read_unlock();
> +
> + if (!expand_to_next_prime(x))
> + return slow_is_prime_number(x);
> +
> + rcu_read_lock();
> + p = rcu_dereference(primes);
> + }
> + result = test_bit(x, p->primes);
> + rcu_read_unlock();
> +
> + return result;
> +}
> +EXPORT_SYMBOL(is_prime_number);
> +
> +static void dump_primes(void)
> +{
> + const struct primes *p;
> + char *buf;
> +
> + buf = kmalloc(PAGE_SIZE, GFP_KERNEL);
> +
> + rcu_read_lock();
> + p = rcu_dereference(primes);
> +
> + if (buf)
> + bitmap_print_to_pagebuf(true, buf, p->primes, p->sz);
> + pr_info("primes.{last=%lu, .sz=%lu, .primes[]=...x%lx} = %s",
> + p->last, p->sz, p->primes[BITS_TO_LONGS(p->sz) - 1], buf);
> +
> + rcu_read_unlock();
> +
> + kfree(buf);
> +}
> +
> +static int selftest(unsigned long max)
> +{
> + unsigned long x, last;
> +
> + if (!max)
> + return 0;
> +
> + for (last = 0, x = 2; x < max; x++) {
> + bool slow = slow_is_prime_number(x);
> + bool fast = is_prime_number(x);
> +
> + if (slow != fast) {
> + pr_err("inconsistent result for is-prime(%lu): slow=%s, fast=%s!",
> + x, slow ? "yes" : "no", fast ? "yes" : "no");
> + goto err;
> + }
> +
> + if (!slow)
> + continue;
> +
> + if (next_prime_number(last) != x) {
> + pr_err("incorrect result for next-prime(%lu): expected %lu, got %lu",
> + last, x, next_prime_number(last));
> + goto err;
> + }
> + last = x;
> + }
> +
> + pr_info("selftest(%lu) passed, last prime was %lu", x, last);
> + return 0;
> +
> +err:
> + dump_primes();
> + return -EINVAL;
> +}
> +
> +static int __init primes_init(void)
> +{
> + return selftest(selftest_max);
> +}
> +
> +static void __exit primes_exit(void)
> +{
> + free_primes();
> +}
> +
> +module_init(primes_init);
> +module_exit(primes_exit);
> +
> +module_param_named(selftest, selftest_max, ulong, 0400);
> +
> +MODULE_AUTHOR("Intel Corporation");
> +MODULE_LICENSE("GPL");
> diff --git a/tools/testing/selftests/lib/prime_numbers.sh b/tools/testing/selftests/lib/prime_numbers.sh
> new file mode 100755
> index 000000000000..da4cbcd766f5
> --- /dev/null
> +++ b/tools/testing/selftests/lib/prime_numbers.sh
> @@ -0,0 +1,15 @@
> +#!/bin/sh
> +# Checks fast/slow prime_number generation for inconsistencies
> +
> +if ! /sbin/modprobe -q -r prime_numbers; then
> + echo "prime_numbers: [SKIP]"
> + exit 77
> +fi
> +
> +if /sbin/modprobe -q prime_numbers selftest=65536; then
> + /sbin/modprobe -q -r prime_numbers
> + echo "prime_numbers: ok"
> +else
> + echo "prime_numbers: [FAIL]"
> + exit 1
> +fi
> --
> 2.11.0
>
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--
Daniel Vetter
Software Engineer, Intel Corporation
http://blog.ffwll.ch
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