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bird/sysdep/unix/alloc.c

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/*
* BIRD Internet Routing Daemon -- Raw allocation
*
* (c) 2020 Maria Matejka <mq@ucw.cz>
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
#include "nest/bird.h"
#include "lib/resource.h"
#include "lib/lists.h"
#include "lib/event.h"
#include "lib/io-loop.h"
#include <errno.h>
#include <stdlib.h>
#include <unistd.h>
#ifdef HAVE_MMAP
# include <sys/mman.h>
#endif
#ifdef CONFIG_DISABLE_THP
# include <sys/prctl.h>
# ifndef PR_SET_THP_DISABLE
# define PR_SET_THP_DISABLE 41
# endif
#endif
long page_size = 0;
#ifdef HAVE_MMAP
# define KEEP_PAGES_MAX 512
# define KEEP_PAGES_MIN 32
# define KEEP_PAGES_MAX_LOCAL 16
# define ALLOC_PAGES_AT_ONCE 8
STATIC_ASSERT(KEEP_PAGES_MIN * 4 < KEEP_PAGES_MAX);
STATIC_ASSERT(ALLOC_PAGES_AT_ONCE < KEEP_PAGES_MAX_LOCAL);
static _Bool use_fake = 0;
static _Bool initialized = 0;
# define PROTECT_PAGE(pg)
# define UNPROTECT_PAGE(pg)
# if DEBUGGING
# ifdef ENABLE_EXPENSIVE_CHECKS
# undef PROTECT_PAGE
# undef UNPROTECT_PAGE
# define PROTECT_PAGE(pg) mprotect((pg), page_size, PROT_READ)
# define UNPROTECT_PAGE(pg) mprotect((pg), page_size, PROT_READ | PROT_WRITE)
# endif
# define AJSIZE 16384
static struct alloc_journal {
void *fp;
void *next;
u16 pos;
u16 type;
uint thread_id;
} alloc_journal[AJSIZE];
_Thread_local int alloc_journal_local_pos = -1;
_Atomic int alloc_journal_pos = 0;
# define AJT_ALLOC_LOCAL_HOT 1
# define AJT_ALLOC_GLOBAL_HOT 2
# define AJT_ALLOC_COLD_STD 3
# define AJT_ALLOC_COLD_KEEPER 4
# define AJT_ALLOC_MMAP 5
# define AJT_FREE_LOCAL_HOT 0x11
# define AJT_FREE_GLOBAL_HOT 0x12
# define AJT_CLEANUP_NOTHING 0xc0
# define AJT_CLEANUP_COLD_STD 0xc3
# define AJT_CLEANUP_COLD_KEEPER 0xc4
# define AJT_CLEANUP_BEGIN 0xcb
# define AJT_CLEANUP_END 0xce
# define AJT_FLUSH_LOCAL_BEGIN 0xfb
# define AJT_FLUSH_LOCAL_END 0xfe
# define AJT_SCHEDULE_CLEANUP 0xff
static void
ajlog(void *fp, void *next, u16 pos, u16 type)
{
alloc_journal[(alloc_journal_local_pos = atomic_fetch_add_explicit(&alloc_journal_pos, 1, memory_order_relaxed)) % AJSIZE] = (struct alloc_journal) {
.fp = fp,
.next = next,
.pos = pos,
.type = type,
.thread_id = THIS_THREAD_ID,
};
}
struct free_page {
node unused[42];
struct free_page * _Atomic next;
};
# else /* ! DEBUGGING */
# define ajlog(...)
struct free_page {
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struct free_page * _Atomic next;
};
# endif
# define WRITE_NEXT(pg, val) do { UNPROTECT_PAGE((pg)); (pg)->next = (val); PROTECT_PAGE((pg)); } while (0)
# define EP_POS_MAX ((page_size - OFFSETOF(struct empty_pages, pages)) / sizeof (void *))
struct empty_pages {
struct empty_pages *next;
uint pos;
void *pages[0];
};
static DOMAIN(resource) empty_pages_domain;
static struct empty_pages *empty_pages = NULL;
static struct free_page * _Atomic page_stack = NULL;
static _Thread_local struct free_page * local_page_stack = NULL;
static struct free_page page_stack_blocked;
/* Try to replace the page stack head with a cork, until it succeeds. */
# define PAGE_STACK_GET ({ \
struct free_page *fp; \
while ((fp = atomic_exchange_explicit(&page_stack, &page_stack_blocked, memory_order_acq_rel)) == &page_stack_blocked) birdloop_yield(); \
fp; })
/* Reinstate the stack with another value */
# define PAGE_STACK_PUT(val) ASSERT_DIE(atomic_exchange_explicit(&page_stack, (val), memory_order_acq_rel) == &page_stack_blocked)
static void page_cleanup(void *);
static event page_cleanup_event = { .hook = page_cleanup, };
# define SCHEDULE_CLEANUP do if (initialized && !shutting_down) ev_send(&global_event_list, &page_cleanup_event); while (0)
_Atomic int pages_kept = 0;
_Atomic int pages_kept_locally = 0;
static _Thread_local int pages_kept_here = 0;
static void *
alloc_sys_page(void)
{
void *ptr = mmap(NULL, page_size * ALLOC_PAGES_AT_ONCE, PROT_WRITE | PROT_READ, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
if (ptr == MAP_FAILED)
die("mmap(%ld) failed: %m", (s64) page_size);
return ptr;
}
extern int shutting_down; /* Shutdown requested. */
#else // ! HAVE_MMAP
# define use_fake 1
#endif
void *
alloc_page(void)
{
/* If the system page allocator is goofy, we use posix_memalign to get aligned blocks of memory. */
if (use_fake)
{
void *ptr = NULL;
int err = posix_memalign(&ptr, page_size, page_size);
if (err || !ptr)
die("posix_memalign(%ld) failed", (s64) page_size);
return ptr;
}
#ifdef HAVE_MMAP
/* If there is any free page kept hot in this thread, we use it. */
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struct free_page *fp = local_page_stack;
if (fp)
{
local_page_stack = atomic_load_explicit(&fp->next, memory_order_relaxed);
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atomic_fetch_sub_explicit(&pages_kept_locally, 1, memory_order_relaxed);
pages_kept_here--;
UNPROTECT_PAGE(fp);
ajlog(fp, local_page_stack, pages_kept_here, AJT_ALLOC_LOCAL_HOT);
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return fp;
}
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ASSERT_DIE(pages_kept_here == 0);
/* If there is any free page kept hot in global storage, we use it. */
if (fp = PAGE_STACK_GET)
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{
/* Reinstate the stack with the next page in list */
PAGE_STACK_PUT(atomic_load_explicit(&fp->next, memory_order_relaxed));
/* Update the counters */
UNUSED uint pk = atomic_fetch_sub_explicit(&pages_kept, 1, memory_order_relaxed);
/* Release the page */
UNPROTECT_PAGE(fp);
ajlog(fp, atomic_load_explicit(&fp->next, memory_order_relaxed), pk, AJT_ALLOC_GLOBAL_HOT);
return fp;
}
/* Reinstate the stack with zero */
PAGE_STACK_PUT(NULL);
/* If there is any free page kept cold, we use that. */
LOCK_DOMAIN(resource, empty_pages_domain);
if (empty_pages) {
UNPROTECT_PAGE(empty_pages);
if (empty_pages->pos)
{
/* Either the keeper page contains at least one cold page pointer, return that */
fp = empty_pages->pages[--empty_pages->pos];
PROTECT_PAGE(empty_pages);
UNPROTECT_PAGE(fp);
ajlog(fp, empty_pages, empty_pages->pos, AJT_ALLOC_COLD_STD);
}
else
{
/* Or the keeper page has no more cold page pointer, return the keeper page */
fp = (struct free_page *) empty_pages;
empty_pages = empty_pages->next;
ajlog(fp, empty_pages, 0, AJT_ALLOC_COLD_KEEPER);
}
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}
UNLOCK_DOMAIN(resource, empty_pages_domain);
if (fp)
return fp;
/* And in the worst case, allocate some new pages by mmap() */
void *ptr = alloc_sys_page();
ajlog(ptr, NULL, 0, AJT_ALLOC_MMAP);
for (int i=1; i<ALLOC_PAGES_AT_ONCE; i++)
free_page(ptr + page_size * i);
return ptr;
#endif
}
void
free_page(void *ptr)
{
/* If the system page allocator is goofy, we just free the block and care no more. */
if (use_fake)
{
free(ptr);
return;
}
#ifdef HAVE_MMAP
/* We primarily try to keep the pages locally. */
struct free_page *fp = ptr;
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if (shutting_down || (pages_kept_here < KEEP_PAGES_MAX_LOCAL))
{
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struct free_page *next = local_page_stack;
atomic_store_explicit(&fp->next, next, memory_order_relaxed);
PROTECT_PAGE(fp);
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local_page_stack = fp;
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atomic_fetch_add_explicit(&pages_kept_locally, 1, memory_order_relaxed);
pages_kept_here++;
ajlog(fp, next, pages_kept_here, AJT_FREE_LOCAL_HOT);
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return;
}
/* If there are too many local pages, we add the free page to the global hot-free-page list */
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struct free_page *next = PAGE_STACK_GET;
atomic_store_explicit(&fp->next, next, memory_order_relaxed);
PROTECT_PAGE(fp);
/* Unblock the stack with the page being freed */
PAGE_STACK_PUT(fp);
/* Update counters */
uint pk = atomic_fetch_add_explicit(&pages_kept, 1, memory_order_relaxed);
ajlog(fp, next, pk, AJT_FREE_GLOBAL_HOT);
/* And if there are too many global hot free pages, we ask for page cleanup */
if (pk >= KEEP_PAGES_MAX)
SCHEDULE_CLEANUP;
#endif
}
/* When the routine is going to sleep for a long time, we flush the local
* hot page cache to not keep dirty pages for nothing. */
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void
flush_local_pages(void)
{
if (use_fake || !local_page_stack || shutting_down)
return;
ajlog(local_page_stack, NULL, pages_kept_here, AJT_FLUSH_LOCAL_BEGIN);
/* We first count the pages to enable consistency checking.
* Also, we need to know the last page. */
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struct free_page *last = local_page_stack, *next;
int check_count = 1;
while (next = atomic_load_explicit(&last->next, memory_order_relaxed))
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{
check_count++;
last = next;
}
/* The actual number of pages must be equal to the counter value. */
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ASSERT_DIE(check_count == pages_kept_here);
/* Block the stack by a cork */
UNPROTECT_PAGE(last);
atomic_store_explicit(&last->next, PAGE_STACK_GET, memory_order_relaxed);
PROTECT_PAGE(last);
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/* Update the stack */
PAGE_STACK_PUT(last);
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/* Finished. Now the local stack is empty. */
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local_page_stack = NULL;
pages_kept_here = 0;
ajlog(NULL, NULL, 0, AJT_FLUSH_LOCAL_END);
/* Check the state of global page cache and maybe schedule its cleanup. */
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atomic_fetch_sub_explicit(&pages_kept_locally, check_count, memory_order_relaxed);
if (atomic_fetch_add_explicit(&pages_kept, check_count, memory_order_relaxed) >= KEEP_PAGES_MAX)
SCHEDULE_CLEANUP;
}
#ifdef HAVE_MMAP
static void
page_cleanup(void *_ UNUSED)
{
/* Cleanup on shutdown is ignored. All pages may be kept hot, OS will take care. */
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if (shutting_down)
return;
ajlog(NULL, NULL, 0, AJT_CLEANUP_BEGIN);
/* Prevent contention */
struct free_page *stack = PAGE_STACK_GET;
/* Always replace by zero */
PAGE_STACK_PUT(NULL);
if (!stack)
{
ajlog(NULL, NULL, 0, AJT_CLEANUP_NOTHING);
return;
}
do {
struct free_page *fp = stack;
stack = atomic_load_explicit(&fp->next, memory_order_relaxed);
LOCK_DOMAIN(resource, empty_pages_domain);
/* Empty pages are stored as pointers. To store them, we need a pointer block. */
if (!empty_pages || (empty_pages->pos == EP_POS_MAX))
{
/* There is either no pointer block or the last block is full. We use this block as a pointer block. */
struct empty_pages *ep = (struct empty_pages *) fp;
UNPROTECT_PAGE(ep);
*ep = (struct empty_pages) {
.next = empty_pages,
};
PROTECT_PAGE(ep);
empty_pages = ep;
ajlog(empty_pages, empty_pages->next, 0, AJT_CLEANUP_COLD_KEEPER);
}
else
{
/* We store this block as a pointer into the first free place
* and tell the OS that the underlying memory is trash. */
UNPROTECT_PAGE(empty_pages);
empty_pages->pages[empty_pages->pos++] = fp;
PROTECT_PAGE(empty_pages);
PROTECT_PAGE(fp);
if (madvise(fp, page_size,
#ifdef CONFIG_MADV_DONTNEED_TO_FREE
MADV_DONTNEED
#else
MADV_FREE
#endif
) < 0)
bug("madvise(%p) failed: %m", fp);
ajlog(fp, empty_pages, empty_pages->pos, AJT_CLEANUP_COLD_STD);
}
UNLOCK_DOMAIN(resource, empty_pages_domain);
}
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while ((atomic_fetch_sub_explicit(&pages_kept, 1, memory_order_relaxed) >= KEEP_PAGES_MAX / 2) && stack);
while (stack)
{
struct free_page *f = stack;
stack = atomic_load_explicit(&f->next, memory_order_acquire);
UNPROTECT_PAGE(f);
free_page(f);
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atomic_fetch_sub_explicit(&pages_kept, 1, memory_order_relaxed);
}
ajlog(NULL, NULL, 0, AJT_CLEANUP_END);
}
#endif
void
resource_sys_init(void)
{
#ifdef CONFIG_DISABLE_THP
/* Disable transparent huge pages, they do not work properly with madvice(MADV_DONTNEED) */
if (prctl(PR_SET_THP_DISABLE, (unsigned long) 1, (unsigned long) 0, (unsigned long) 0, (unsigned long) 0) < 0)
log(L_WARN "Cannot disable transparent huge pages: prctl(PR_SET_THP_DISABLE) failed: %m");
#endif
#ifdef HAVE_MMAP
/* Check what page size the system supports */
if (!(page_size = sysconf(_SC_PAGESIZE)))
die("System page size must be non-zero");
if ((u64_popcount(page_size) == 1) && (page_size >= (1 << 10)) && (page_size <= (1 << 18)))
{
/* We assume that page size has only one bit and is between 1K and 256K (incl.).
* Otherwise, the assumptions in lib/slab.c (sl_head's num_full range) aren't met. */
empty_pages_domain = DOMAIN_NEW(resource);
DOMAIN_SETUP(resource, empty_pages_domain, "Empty Pages", NULL);
initialized = 1;
return;
}
/* Too big or strange page, use the aligned allocator instead */
log(L_WARN "Got strange memory page size (%ld), using the aligned allocator instead", (s64) page_size);
use_fake = 1;
#endif
page_size = 4096;
initialized = 1;
}