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OnDiskInvertedLists.cpp
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OnDiskInvertedLists.cpp
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/**
* Copyright (c) 2015-present, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD+Patents license found in the
* LICENSE file in the root directory of this source tree.
*/
// -*- c++ -*-
#include "OnDiskInvertedLists.h"
#include <pthread.h>
#include <unordered_set>
#include <sys/mman.h>
#include <unistd.h>
#include <sys/types.h>
#include "FaissAssert.h"
namespace faiss {
/**********************************************
* LockLevels
**********************************************/
struct LockLevels {
/* There n times lock1(n), one lock2 and one lock3
* Invariants:
* a single thread can hold one lock1(n) for some n
* a single thread can hold lock2, if it holds lock1(n) for some n
* a single thread can hold lock3, if it holds lock1(n) for some n
* AND lock2 AND no other thread holds lock1(m) for m != n
*/
pthread_mutex_t mutex1;
pthread_cond_t level1_cv;
pthread_cond_t level2_cv;
pthread_cond_t level3_cv;
std::unordered_set<int> level1_holders; // which level1 locks are held
int n_level2; // nb threads that wait on level2
bool level3_in_use; // a threads waits on level3
bool level2_in_use;
LockLevels() {
pthread_mutex_init(&mutex1, nullptr);
pthread_cond_init(&level1_cv, nullptr);
pthread_cond_init(&level2_cv, nullptr);
pthread_cond_init(&level3_cv, nullptr);
n_level2 = 0;
level2_in_use = false;
level3_in_use = false;
}
~LockLevels() {
pthread_cond_destroy(&level1_cv);
pthread_cond_destroy(&level2_cv);
pthread_cond_destroy(&level3_cv);
pthread_mutex_destroy(&mutex1);
}
void lock_1(int no) {
pthread_mutex_lock(&mutex1);
while (level3_in_use || level1_holders.count(no) > 0) {
pthread_cond_wait(&level1_cv, &mutex1);
}
level1_holders.insert(no);
pthread_mutex_unlock(&mutex1);
}
void unlock_1(int no) {
pthread_mutex_lock(&mutex1);
assert(level1_holders.count(no) == 1);
level1_holders.erase(no);
if (level3_in_use) { // a writer is waiting
pthread_cond_signal(&level3_cv);
} else {
pthread_cond_broadcast(&level1_cv);
}
pthread_mutex_unlock(&mutex1);
}
void lock_2() {
pthread_mutex_lock(&mutex1);
n_level2 ++;
if (level3_in_use) { // tell waiting level3 that we are blocked
pthread_cond_signal(&level3_cv);
}
while (level2_in_use) {
pthread_cond_wait(&level2_cv, &mutex1);
}
level2_in_use = true;
pthread_mutex_unlock(&mutex1);
}
void unlock_2() {
pthread_mutex_lock(&mutex1);
level2_in_use = false;
n_level2 --;
pthread_cond_signal(&level2_cv);
pthread_mutex_unlock(&mutex1);
}
void lock_3() {
pthread_mutex_lock(&mutex1);
level3_in_use = true;
// wait until there are no level1 holders anymore except the
// ones that are waiting on level2 (we are holding lock2)
while (level1_holders.size() > n_level2) {
pthread_cond_wait(&level3_cv, &mutex1);
}
// don't release the lock!
}
void unlock_3() {
level3_in_use = false;
// wake up all level1_holders
pthread_cond_broadcast(&level1_cv);
pthread_mutex_unlock(&mutex1);
}
void print () {
pthread_mutex_lock(&mutex1);
printf("State: level3_in_use=%d n_level2=%d level1_holders: [", level3_in_use, n_level2);
for (int k : level1_holders) {
printf("%d ", k);
}
printf("]\n");
pthread_mutex_unlock(&mutex1);
}
};
/**********************************************
* OngoingPrefetch
**********************************************/
struct OnDiskInvertedLists::OngoingPrefetch {
struct Thread {
pthread_t pth;
const OnDiskInvertedLists *od;
int64_t list_no;
};
std::vector<Thread> threads;
pthread_mutex_t mutex;
// pretext to avoid code below to be optimized out
static int global_cs;
const OnDiskInvertedLists *od;
OngoingPrefetch (const OnDiskInvertedLists *od): od (od)
{
pthread_mutex_init (&mutex, nullptr);
}
static void* prefetch_list (void * arg) {
Thread *th = static_cast<Thread*>(arg);
th->od->locks->lock_1(th->list_no);
size_t n = th->od->list_size(th->list_no);
const Index::idx_t *idx = th->od->get_ids(th->list_no);
const uint8_t *codes = th->od->get_codes(th->list_no);
int cs = 0;
for (size_t i = 0; i < n;i++) {
cs += idx[i];
}
const long *codes8 = (const long*)codes;
long n8 = n * th->od->code_size / 8;
for (size_t i = 0; i < n8;i++) {
cs += codes8[i];
}
th->od->locks->unlock_1(th->list_no);
global_cs += cs & 1;
return nullptr;
}
void prefetch_lists (const long *list_nos, int n) {
pthread_mutex_lock (&mutex);
for (auto &th: threads) {
if (th.list_no != -1) {
pthread_join (th.pth, nullptr);
}
}
threads.resize (n);
for (int i = 0; i < n; i++) {
long list_no = list_nos[i];
Thread & th = threads[i];
if (list_no >= 0 && od->list_size(list_no) > 0) {
th.list_no = list_no;
th.od = od;
pthread_create (&th.pth, nullptr, prefetch_list, &th);
} else {
th.list_no = -1;
}
}
pthread_mutex_unlock (&mutex);
}
~OngoingPrefetch () {
pthread_mutex_lock (&mutex);
for (auto &th: threads) {
if (th.list_no != -1) {
pthread_join (th.pth, nullptr);
}
}
pthread_mutex_unlock (&mutex);
pthread_mutex_destroy (&mutex);
}
};
int OnDiskInvertedLists::OngoingPrefetch::global_cs = 0;
void OnDiskInvertedLists::prefetch_lists (const long *list_nos, int n) const
{
pf->prefetch_lists (list_nos, n);
}
/**********************************************
* OnDiskInvertedLists: mmapping
**********************************************/
void OnDiskInvertedLists::do_mmap ()
{
const char *rw_flags = read_only ? "r" : "r+";
int prot = read_only ? PROT_READ : PROT_WRITE | PROT_READ;
FILE *f = fopen (filename.c_str(), rw_flags);
FAISS_THROW_IF_NOT_FMT (f, "could not open %s in mode %s: %s",
filename.c_str(), rw_flags, strerror(errno));
uint8_t * ptro = (uint8_t*)mmap (nullptr, totsize,
prot, MAP_SHARED, fileno (f), 0);
FAISS_THROW_IF_NOT_FMT (ptro != MAP_FAILED,
"could not mmap %s: %s",
filename.c_str(),
strerror(errno));
ptr = ptro;
fclose (f);
}
void OnDiskInvertedLists::update_totsize (size_t new_size)
{
// unmap file
if (ptr != nullptr) {
int err = munmap (ptr, totsize);
FAISS_THROW_IF_NOT_FMT (err == 0, "mumap error: %s",
strerror(errno));
}
if (totsize == 0) {
// must create file before truncating it
FILE *f = fopen (filename.c_str(), "w");
FAISS_THROW_IF_NOT_FMT (f, "could not open %s in mode W: %s",
filename.c_str(), strerror(errno));
fclose (f);
}
if (new_size > totsize) {
if (!slots.empty() &&
slots.back().offset + slots.back().capacity == totsize) {
slots.back().capacity += new_size - totsize;
} else {
slots.push_back (Slot(totsize, new_size - totsize));
}
} else {
assert(!"not implemented");
}
totsize = new_size;
// create file
printf ("resizing %s to %ld bytes\n", filename.c_str(), totsize);
int err = truncate (filename.c_str(), totsize);
FAISS_THROW_IF_NOT_FMT (err == 0, "truncate %s to %ld: %s",
filename.c_str(), totsize,
strerror(errno));
do_mmap ();
}
/**********************************************
* OnDiskInvertedLists
**********************************************/
#define INVALID_OFFSET (size_t)(-1)
OnDiskInvertedLists::List::List ():
size (0), capacity (0), offset (INVALID_OFFSET)
{}
OnDiskInvertedLists::Slot::Slot (size_t offset, size_t capacity):
offset (offset), capacity (capacity)
{}
OnDiskInvertedLists::Slot::Slot ():
offset (0), capacity (0)
{}
OnDiskInvertedLists::OnDiskInvertedLists (
size_t nlist, size_t code_size,
const char *filename):
InvertedLists (nlist, code_size),
filename (filename),
totsize (0),
ptr (nullptr),
read_only (false),
locks (new LockLevels ()),
pf (new OngoingPrefetch (this))
{
lists.resize (nlist);
// slots starts empty
}
OnDiskInvertedLists::OnDiskInvertedLists ():
InvertedLists (0, 0),
totsize (0),
ptr (nullptr),
read_only (false),
locks (new LockLevels ()),
pf (new OngoingPrefetch (this))
{
}
OnDiskInvertedLists::~OnDiskInvertedLists ()
{
delete pf;
// unmap all lists
if (ptr != nullptr) {
int err = munmap (ptr, totsize);
FAISS_THROW_IF_NOT_FMT (err == 0,
"mumap error: %s",
strerror(errno));
}
delete locks;
}
size_t OnDiskInvertedLists::list_size(size_t list_no) const
{
return lists[list_no].size;
}
const uint8_t * OnDiskInvertedLists::get_codes (size_t list_no) const
{
if (lists[list_no].offset == INVALID_OFFSET) {
return nullptr;
}
return ptr + lists[list_no].offset;
}
const Index::idx_t * OnDiskInvertedLists::get_ids (size_t list_no) const
{
if (lists[list_no].offset == INVALID_OFFSET) {
return nullptr;
}
return (const idx_t*)(ptr + lists[list_no].offset +
code_size * lists[list_no].capacity);
}
void OnDiskInvertedLists::update_entries (
size_t list_no, size_t offset, size_t n_entry,
const idx_t *ids_in, const uint8_t *codes_in)
{
FAISS_THROW_IF_NOT (!read_only);
if (n_entry == 0) return;
const List & l = lists[list_no];
assert (n_entry + offset <= l.size);
idx_t *ids = const_cast<idx_t*>(get_ids (list_no));
memcpy (ids + offset, ids_in, sizeof(ids_in[0]) * n_entry);
uint8_t *codes = const_cast<uint8_t*>(get_codes (list_no));
memcpy (codes + offset * code_size, codes_in, code_size * n_entry);
}
size_t OnDiskInvertedLists::add_entries (
size_t list_no, size_t n_entry,
const idx_t* ids, const uint8_t *code)
{
FAISS_THROW_IF_NOT (!read_only);
locks->lock_1 (list_no);
size_t o = list_size (list_no);
resize_locked (list_no, n_entry + o);
update_entries (list_no, o, n_entry, ids, code);
locks->unlock_1 (list_no);
return o;
}
void OnDiskInvertedLists::resize (size_t list_no, size_t new_size)
{
FAISS_THROW_IF_NOT (!read_only);
locks->lock_1 (list_no);
resize_locked (list_no, new_size);
locks->unlock_1 (list_no);
}
void OnDiskInvertedLists::resize_locked (size_t list_no, size_t new_size)
{
List & l = lists[list_no];
if (new_size <= l.capacity &&
new_size > l.capacity / 2) {
l.size = new_size;
return;
}
// otherwise we release the current slot, and find a new one
locks->lock_2 ();
free_slot (l.offset, l.capacity);
List new_l;
if (new_size == 0) {
new_l = List();
} else {
new_l.size = new_size;
new_l.capacity = 1;
while (new_l.capacity < new_size) {
new_l.capacity *= 2;
}
new_l.offset = allocate_slot (
new_l.capacity * (sizeof(idx_t) + code_size));
}
// copy common data
if (l.offset != new_l.offset) {
size_t n = std::min (new_size, l.size);
if (n > 0) {
memcpy (ptr + new_l.offset, get_codes(list_no), n * code_size);
memcpy (ptr + new_l.offset + new_l.capacity * code_size,
get_ids (list_no), n * sizeof(idx_t));
}
}
lists[list_no] = new_l;
locks->unlock_2 ();
}
size_t OnDiskInvertedLists::allocate_slot (size_t capacity) {
// should hold lock2
auto it = slots.begin();
while (it != slots.end() && it->capacity < capacity) {
it++;
}
if (it == slots.end()) {
// not enough capacity
size_t new_size = totsize == 0 ? 32 : totsize * 2;
while (new_size - totsize < capacity)
new_size *= 2;
locks->lock_3 ();
update_totsize(new_size);
locks->unlock_3 ();
it = slots.begin();
while (it != slots.end() && it->capacity < capacity) {
it++;
}
assert (it != slots.end());
}
size_t o = it->offset;
if (it->capacity == capacity) {
slots.erase (it);
} else {
// take from beginning of slot
it->capacity -= capacity;
it->offset += capacity;
}
return o;
}
void OnDiskInvertedLists::free_slot (size_t offset, size_t capacity) {
// should hold lock2
if (capacity == 0) return;
auto it = slots.begin();
while (it != slots.end() && it->offset <= offset) {
it++;
}
size_t inf = 1UL << 60;
size_t end_prev = inf;
if (it != slots.begin()) {
auto prev = it;
prev--;
end_prev = prev->offset + prev->capacity;
}
size_t begin_next = 1L << 60;
if (it != slots.end()) {
begin_next = it->offset;
}
assert (end_prev == inf || offset >= end_prev);
assert (offset + capacity <= begin_next);
if (offset == end_prev) {
auto prev = it;
prev--;
if (offset + capacity == begin_next) {
prev->capacity += capacity + it->capacity;
slots.erase (it);
} else {
prev->capacity += capacity;
}
} else {
if (offset + capacity == begin_next) {
it->offset -= capacity;
it->capacity += capacity;
} else {
slots.insert (it, Slot (offset, capacity));
}
}
// TODO shrink global storage if needed
}
/*****************************************
* Compact form
*****************************************/
size_t OnDiskInvertedLists::merge_from (const InvertedLists **ils, int n_il)
{
FAISS_THROW_IF_NOT_MSG (totsize == 0, "works only on an empty InvertedLists");
std::vector<size_t> sizes (nlist);
for (int i = 0; i < n_il; i++) {
const InvertedLists *il = ils[i];
FAISS_THROW_IF_NOT (il->nlist == nlist && il->code_size == code_size);
for (size_t j = 0; j < nlist; j++) {
sizes [j] += il->list_size(j);
}
}
size_t cums = 0;
size_t ntotal = 0;
for (size_t j = 0; j < nlist; j++) {
ntotal += sizes[j];
lists[j].size = 0;
lists[j].capacity = sizes[j];
lists[j].offset = cums;
cums += lists[j].capacity * (sizeof(idx_t) + code_size);
}
update_totsize (cums);
#pragma omp parallel for
for (size_t j = 0; j < nlist; j++) {
List & l = lists[j];
for (int i = 0; i < n_il; i++) {
const InvertedLists *il = ils[i];
size_t n_entry = il->list_size(j);
l.size += n_entry;
update_entries (j, l.size - n_entry, n_entry,
il->get_ids(j),
il->get_codes(j));
}
assert (l.size == l.capacity);
}
return ntotal;
}
} // namespace faiss