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extstore.c
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extstore.c
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/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
// FIXME: config.h?
#include <stdint.h>
#include <stdbool.h>
// end FIXME
#include <stdlib.h>
#include <limits.h>
#include <pthread.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/uio.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "extstore.h"
#include "config.h"
// TODO: better if an init option turns this on/off.
#ifdef EXTSTORE_DEBUG
#define E_DEBUG(...) \
do { \
fprintf(stderr, __VA_ARGS__); \
} while (0)
#else
#define E_DEBUG(...)
#endif
#define STAT_L(e) pthread_mutex_lock(&e->stats_mutex);
#define STAT_UL(e) pthread_mutex_unlock(&e->stats_mutex);
#define STAT_INCR(e, stat, amount) { \
pthread_mutex_lock(&e->stats_mutex); \
e->stats.stat += amount; \
pthread_mutex_unlock(&e->stats_mutex); \
}
#define STAT_DECR(e, stat, amount) { \
pthread_mutex_lock(&e->stats_mutex); \
e->stats.stat -= amount; \
pthread_mutex_unlock(&e->stats_mutex); \
}
typedef struct __store_wbuf {
struct __store_wbuf *next;
char *buf;
char *buf_pos;
unsigned int free;
unsigned int size;
unsigned int offset; /* offset into page this write starts at */
bool full; /* done writing to this page */
bool flushed; /* whether wbuf has been flushed to disk */
} _store_wbuf;
typedef struct _store_page {
pthread_mutex_t mutex; /* Need to be held for most operations */
uint64_t obj_count; /* _delete can decrease post-closing */
uint64_t bytes_used; /* _delete can decrease post-closing */
uint64_t offset; /* starting address of page within fd */
unsigned int version;
unsigned int refcount;
unsigned int allocated;
unsigned int written; /* item offsets can be past written if wbuf not flushed */
unsigned int bucket; /* which bucket the page is linked into */
unsigned int free_bucket; /* which bucket this page returns to when freed */
int fd;
unsigned short id;
bool active; /* actively being written to */
bool closed; /* closed and draining before free */
bool free; /* on freelist */
_store_wbuf *wbuf; /* currently active wbuf from the stack */
struct _store_page *next;
} store_page;
typedef struct store_engine store_engine;
typedef struct {
pthread_mutex_t mutex;
pthread_cond_t cond;
obj_io *queue;
obj_io *queue_tail;
store_engine *e;
unsigned int depth; // queue depth
} store_io_thread;
typedef struct {
pthread_mutex_t mutex;
pthread_cond_t cond;
store_engine *e;
} store_maint_thread;
struct store_engine {
pthread_mutex_t mutex; /* covers internal stacks and variables */
store_page *pages; /* directly addressable page list */
_store_wbuf *wbuf_stack; /* wbuf freelist */
obj_io *io_stack; /* IO's to use with submitting wbuf's */
store_io_thread *io_threads;
store_maint_thread *maint_thread;
store_page *page_freelist;
store_page **page_buckets; /* stack of pages currently allocated to each bucket */
store_page **free_page_buckets; /* stack of use-case isolated free pages */
size_t page_size;
unsigned int version; /* global version counter */
unsigned int last_io_thread; /* round robin the IO threads */
unsigned int io_threadcount; /* count of IO threads */
unsigned int page_count;
unsigned int page_free; /* unallocated pages */
unsigned int page_bucketcount; /* count of potential page buckets */
unsigned int free_page_bucketcount; /* count of free page buckets */
unsigned int io_depth; /* FIXME: Might cache into thr struct */
pthread_mutex_t stats_mutex;
struct extstore_stats stats;
};
static _store_wbuf *wbuf_new(size_t size) {
_store_wbuf *b = calloc(1, sizeof(_store_wbuf));
if (b == NULL)
return NULL;
b->buf = calloc(size, sizeof(char));
if (b->buf == NULL) {
free(b);
return NULL;
}
b->buf_pos = b->buf;
b->free = size;
b->size = size;
return b;
}
static store_io_thread *_get_io_thread(store_engine *e) {
int tid = -1;
long long int low = LLONG_MAX;
pthread_mutex_lock(&e->mutex);
// find smallest queue. ignoring lock since being wrong isn't fatal.
// TODO: if average queue depth can be quickly tracked, can break as soon
// as we see a thread that's less than average, and start from last_io_thread
for (int x = 0; x < e->io_threadcount; x++) {
if (e->io_threads[x].depth == 0) {
tid = x;
break;
} else if (e->io_threads[x].depth < low) {
tid = x;
low = e->io_threads[x].depth;
}
}
pthread_mutex_unlock(&e->mutex);
return &e->io_threads[tid];
}
static uint64_t _next_version(store_engine *e) {
return e->version++;
}
static void *extstore_io_thread(void *arg);
static void *extstore_maint_thread(void *arg);
/* Copies stats internal to engine and computes any derived values */
void extstore_get_stats(void *ptr, struct extstore_stats *st) {
store_engine *e = (store_engine *)ptr;
STAT_L(e);
memcpy(st, &e->stats, sizeof(struct extstore_stats));
STAT_UL(e);
// grab pages_free/pages_used
pthread_mutex_lock(&e->mutex);
st->pages_free = e->page_free;
st->pages_used = e->page_count - e->page_free;
pthread_mutex_unlock(&e->mutex);
st->io_queue = 0;
for (int x = 0; x < e->io_threadcount; x++) {
pthread_mutex_lock(&e->io_threads[x].mutex);
st->io_queue += e->io_threads[x].depth;
pthread_mutex_unlock(&e->io_threads[x].mutex);
}
// calculate bytes_fragmented.
// note that open and yet-filled pages count against fragmentation.
st->bytes_fragmented = st->pages_used * e->page_size -
st->bytes_used;
}
void extstore_get_page_data(void *ptr, struct extstore_stats *st) {
store_engine *e = (store_engine *)ptr;
STAT_L(e);
memcpy(st->page_data, e->stats.page_data,
sizeof(struct extstore_page_data) * e->page_count);
STAT_UL(e);
}
const char *extstore_err(enum extstore_res res) {
const char *rv = "unknown error";
switch (res) {
case EXTSTORE_INIT_BAD_WBUF_SIZE:
rv = "page_size must be divisible by wbuf_size";
break;
case EXTSTORE_INIT_NEED_MORE_WBUF:
rv = "wbuf_count must be >= page_buckets";
break;
case EXTSTORE_INIT_NEED_MORE_BUCKETS:
rv = "page_buckets must be > 0";
break;
case EXTSTORE_INIT_PAGE_WBUF_ALIGNMENT:
rv = "page_size and wbuf_size must be divisible by 1024*1024*2";
break;
case EXTSTORE_INIT_TOO_MANY_PAGES:
rv = "page_count must total to < 65536. Increase page_size or lower path sizes";
break;
case EXTSTORE_INIT_OOM:
rv = "failed calloc for engine";
break;
case EXTSTORE_INIT_OPEN_FAIL:
rv = "failed to open file";
break;
case EXTSTORE_INIT_THREAD_FAIL:
break;
}
return rv;
}
// TODO: #define's for DEFAULT_BUCKET, FREE_VERSION, etc
void *extstore_init(struct extstore_conf_file *fh, struct extstore_conf *cf,
enum extstore_res *res) {
int i;
struct extstore_conf_file *f = NULL;
pthread_t thread;
if (cf->page_size % cf->wbuf_size != 0) {
*res = EXTSTORE_INIT_BAD_WBUF_SIZE;
return NULL;
}
// Should ensure at least one write buffer per potential page
if (cf->page_buckets > cf->wbuf_count) {
*res = EXTSTORE_INIT_NEED_MORE_WBUF;
return NULL;
}
if (cf->page_buckets < 1) {
*res = EXTSTORE_INIT_NEED_MORE_BUCKETS;
return NULL;
}
// TODO: More intelligence around alignment of flash erasure block sizes
if (cf->page_size % (1024 * 1024 * 2) != 0 ||
cf->wbuf_size % (1024 * 1024 * 2) != 0) {
*res = EXTSTORE_INIT_PAGE_WBUF_ALIGNMENT;
return NULL;
}
store_engine *e = calloc(1, sizeof(store_engine));
if (e == NULL) {
*res = EXTSTORE_INIT_OOM;
return NULL;
}
e->page_size = cf->page_size;
uint64_t temp_page_count = 0;
for (f = fh; f != NULL; f = f->next) {
f->fd = open(f->file, O_RDWR | O_CREAT, 0644);
if (f->fd < 0) {
*res = EXTSTORE_INIT_OPEN_FAIL;
#ifdef EXTSTORE_DEBUG
perror("extstore open");
#endif
free(e);
return NULL;
}
// use an fcntl lock to help avoid double starting.
struct flock lock;
lock.l_type = F_WRLCK;
lock.l_start = 0;
lock.l_whence = SEEK_SET;
lock.l_len = 0;
if (fcntl(f->fd, F_SETLK, &lock) < 0) {
*res = EXTSTORE_INIT_OPEN_FAIL;
free(e);
return NULL;
}
if (ftruncate(f->fd, 0) < 0) {
*res = EXTSTORE_INIT_OPEN_FAIL;
free(e);
return NULL;
}
temp_page_count += f->page_count;
f->offset = 0;
}
if (temp_page_count >= UINT16_MAX) {
*res = EXTSTORE_INIT_TOO_MANY_PAGES;
free(e);
return NULL;
}
e->page_count = temp_page_count;
e->pages = calloc(e->page_count, sizeof(store_page));
if (e->pages == NULL) {
*res = EXTSTORE_INIT_OOM;
// FIXME: loop-close. make error label
free(e);
return NULL;
}
// interleave the pages between devices
f = NULL; // start at the first device.
for (i = 0; i < e->page_count; i++) {
// find next device with available pages
while (1) {
// restart the loop
if (f == NULL || f->next == NULL) {
f = fh;
} else {
f = f->next;
}
if (f->page_count) {
f->page_count--;
break;
}
}
pthread_mutex_init(&e->pages[i].mutex, NULL);
e->pages[i].id = i;
e->pages[i].fd = f->fd;
e->pages[i].free_bucket = f->free_bucket;
e->pages[i].offset = f->offset;
e->pages[i].free = true;
f->offset += e->page_size;
}
// free page buckets allows the app to organize devices by use case
e->free_page_buckets = calloc(cf->page_buckets, sizeof(store_page *));
e->page_bucketcount = cf->page_buckets;
for (i = e->page_count-1; i > 0; i--) {
e->page_free++;
if (e->pages[i].free_bucket == 0) {
e->pages[i].next = e->page_freelist;
e->page_freelist = &e->pages[i];
} else {
int fb = e->pages[i].free_bucket;
e->pages[i].next = e->free_page_buckets[fb];
e->free_page_buckets[fb] = &e->pages[i];
}
}
// 0 is magic "page is freed" version
e->version = 1;
// scratch data for stats. TODO: malloc failure handle
e->stats.page_data =
calloc(e->page_count, sizeof(struct extstore_page_data));
e->stats.page_count = e->page_count;
e->stats.page_size = e->page_size;
// page buckets lazily have pages assigned into them
e->page_buckets = calloc(cf->page_buckets, sizeof(store_page *));
e->page_bucketcount = cf->page_buckets;
// allocate write buffers
// also IO's to use for shipping to IO thread
for (i = 0; i < cf->wbuf_count; i++) {
_store_wbuf *w = wbuf_new(cf->wbuf_size);
obj_io *io = calloc(1, sizeof(obj_io));
/* TODO: on error, loop again and free stack. */
w->next = e->wbuf_stack;
e->wbuf_stack = w;
io->next = e->io_stack;
e->io_stack = io;
}
pthread_mutex_init(&e->mutex, NULL);
pthread_mutex_init(&e->stats_mutex, NULL);
e->io_depth = cf->io_depth;
// spawn threads
e->io_threads = calloc(cf->io_threadcount, sizeof(store_io_thread));
for (i = 0; i < cf->io_threadcount; i++) {
pthread_mutex_init(&e->io_threads[i].mutex, NULL);
pthread_cond_init(&e->io_threads[i].cond, NULL);
e->io_threads[i].e = e;
// FIXME: error handling
pthread_create(&thread, NULL, extstore_io_thread, &e->io_threads[i]);
}
e->io_threadcount = cf->io_threadcount;
e->maint_thread = calloc(1, sizeof(store_maint_thread));
e->maint_thread->e = e;
// FIXME: error handling
pthread_mutex_init(&e->maint_thread->mutex, NULL);
pthread_cond_init(&e->maint_thread->cond, NULL);
pthread_create(&thread, NULL, extstore_maint_thread, e->maint_thread);
extstore_run_maint(e);
return (void *)e;
}
void extstore_run_maint(void *ptr) {
store_engine *e = (store_engine *)ptr;
pthread_cond_signal(&e->maint_thread->cond);
}
// call with *e locked
static store_page *_allocate_page(store_engine *e, unsigned int bucket,
unsigned int free_bucket) {
assert(!e->page_buckets[bucket] || e->page_buckets[bucket]->allocated == e->page_size);
store_page *tmp = NULL;
// if a specific free bucket was requested, check there first
if (free_bucket != 0 && e->free_page_buckets[free_bucket] != NULL) {
assert(e->page_free > 0);
tmp = e->free_page_buckets[free_bucket];
e->free_page_buckets[free_bucket] = tmp->next;
}
// failing that, try the global list.
if (tmp == NULL && e->page_freelist != NULL) {
tmp = e->page_freelist;
e->page_freelist = tmp->next;
}
E_DEBUG("EXTSTORE: allocating new page\n");
// page_freelist can be empty if the only free pages are specialized and
// we didn't just request one.
if (e->page_free > 0 && tmp != NULL) {
tmp->next = e->page_buckets[bucket];
e->page_buckets[bucket] = tmp;
tmp->active = true;
tmp->free = false;
tmp->closed = false;
tmp->version = _next_version(e);
tmp->bucket = bucket;
e->page_free--;
STAT_INCR(e, page_allocs, 1);
} else {
extstore_run_maint(e);
}
if (tmp)
E_DEBUG("EXTSTORE: got page %u\n", tmp->id);
return tmp;
}
// call with *p locked. locks *e
static void _allocate_wbuf(store_engine *e, store_page *p) {
_store_wbuf *wbuf = NULL;
assert(!p->wbuf);
pthread_mutex_lock(&e->mutex);
if (e->wbuf_stack) {
wbuf = e->wbuf_stack;
e->wbuf_stack = wbuf->next;
wbuf->next = 0;
}
pthread_mutex_unlock(&e->mutex);
if (wbuf) {
wbuf->offset = p->allocated;
p->allocated += wbuf->size;
wbuf->free = wbuf->size;
wbuf->buf_pos = wbuf->buf;
wbuf->full = false;
wbuf->flushed = false;
p->wbuf = wbuf;
}
}
/* callback after wbuf is flushed. can only remove wbuf's from the head onward
* if successfully flushed, which complicates this routine. each callback
* attempts to free the wbuf stack, which is finally done when the head wbuf's
* callback happens.
* It's rare flushes would happen out of order.
*/
static void _wbuf_cb(void *ep, obj_io *io, int ret) {
store_engine *e = (store_engine *)ep;
store_page *p = &e->pages[io->page_id];
_store_wbuf *w = (_store_wbuf *) io->data;
// TODO: Examine return code. Not entirely sure how to handle errors.
// Naive first-pass should probably cause the page to close/free.
w->flushed = true;
pthread_mutex_lock(&p->mutex);
assert(p->wbuf != NULL && p->wbuf == w);
assert(p->written == w->offset);
p->written += w->size;
p->wbuf = NULL;
if (p->written == e->page_size)
p->active = false;
// return the wbuf
pthread_mutex_lock(&e->mutex);
w->next = e->wbuf_stack;
e->wbuf_stack = w;
// also return the IO we just used.
io->next = e->io_stack;
e->io_stack = io;
pthread_mutex_unlock(&e->mutex);
pthread_mutex_unlock(&p->mutex);
}
/* Wraps pages current wbuf in an io and submits to IO thread.
* Called with p locked, locks e.
*/
static void _submit_wbuf(store_engine *e, store_page *p) {
_store_wbuf *w;
pthread_mutex_lock(&e->mutex);
obj_io *io = e->io_stack;
e->io_stack = io->next;
pthread_mutex_unlock(&e->mutex);
w = p->wbuf;
// zero out the end of the wbuf to allow blind readback of data.
memset(w->buf + (w->size - w->free), 0, w->free);
io->next = NULL;
io->mode = OBJ_IO_WRITE;
io->page_id = p->id;
io->data = w;
io->offset = w->offset;
io->len = w->size;
io->buf = w->buf;
io->cb = _wbuf_cb;
extstore_submit(e, io);
}
/* engine write function; takes engine, item_io.
* fast fail if no available write buffer (flushing)
* lock engine context, find active page, unlock
* if page full, submit page/buffer to io thread.
*
* write is designed to be flaky; if page full, caller must try again to get
* new page. best if used from a background thread that can harmlessly retry.
*/
int extstore_write_request(void *ptr, unsigned int bucket,
unsigned int free_bucket, obj_io *io) {
store_engine *e = (store_engine *)ptr;
store_page *p;
int ret = -1;
if (bucket >= e->page_bucketcount)
return ret;
pthread_mutex_lock(&e->mutex);
p = e->page_buckets[bucket];
if (!p) {
p = _allocate_page(e, bucket, free_bucket);
}
pthread_mutex_unlock(&e->mutex);
if (!p)
return ret;
pthread_mutex_lock(&p->mutex);
// FIXME: can't null out page_buckets!!!
// page is full, clear bucket and retry later.
if (!p->active ||
((!p->wbuf || p->wbuf->full) && p->allocated >= e->page_size)) {
pthread_mutex_unlock(&p->mutex);
pthread_mutex_lock(&e->mutex);
_allocate_page(e, bucket, free_bucket);
pthread_mutex_unlock(&e->mutex);
return ret;
}
// if io won't fit, submit IO for wbuf and find new one.
if (p->wbuf && p->wbuf->free < io->len && !p->wbuf->full) {
_submit_wbuf(e, p);
p->wbuf->full = true;
}
if (!p->wbuf && p->allocated < e->page_size) {
_allocate_wbuf(e, p);
}
// hand over buffer for caller to copy into
// leaves p locked.
if (p->wbuf && !p->wbuf->full && p->wbuf->free >= io->len) {
io->buf = p->wbuf->buf_pos;
io->page_id = p->id;
return 0;
}
pthread_mutex_unlock(&p->mutex);
// p->written is incremented post-wbuf flush
return ret;
}
/* _must_ be called after a successful write_request.
* fills the rest of io structure.
*/
void extstore_write(void *ptr, obj_io *io) {
store_engine *e = (store_engine *)ptr;
store_page *p = &e->pages[io->page_id];
io->offset = p->wbuf->offset + (p->wbuf->size - p->wbuf->free);
io->page_version = p->version;
p->wbuf->buf_pos += io->len;
p->wbuf->free -= io->len;
p->bytes_used += io->len;
p->obj_count++;
STAT_L(e);
e->stats.bytes_written += io->len;
e->stats.bytes_used += io->len;
e->stats.objects_written++;
e->stats.objects_used++;
STAT_UL(e);
pthread_mutex_unlock(&p->mutex);
}
/* engine submit function; takes engine, item_io stack.
* lock io_thread context and add stack?
* signal io thread to wake.
* return success.
*/
int extstore_submit(void *ptr, obj_io *io) {
store_engine *e = (store_engine *)ptr;
unsigned int depth = 0;
obj_io *tio = io;
obj_io *tail = NULL;
while (tio != NULL) {
tail = tio; // keep updating potential tail.
depth++;
tio = tio->next;
}
store_io_thread *t = _get_io_thread(e);
pthread_mutex_lock(&t->mutex);
t->depth += depth;
if (t->queue == NULL) {
t->queue = io;
t->queue_tail = tail;
} else {
// Have to put the *io stack at the end of current queue.
assert(tail->next == NULL);
assert(t->queue_tail->next == NULL);
t->queue_tail->next = io;
t->queue_tail = tail;
}
pthread_mutex_unlock(&t->mutex);
//pthread_mutex_lock(&t->mutex);
pthread_cond_signal(&t->cond);
//pthread_mutex_unlock(&t->mutex);
return 0;
}
/* engine note delete function: takes engine, page id, size?
* note that an item in this page is no longer valid
*/
int extstore_delete(void *ptr, unsigned int page_id, uint64_t page_version,
unsigned int count, unsigned int bytes) {
store_engine *e = (store_engine *)ptr;
// FIXME: validate page_id in bounds
store_page *p = &e->pages[page_id];
int ret = 0;
pthread_mutex_lock(&p->mutex);
if (!p->closed && p->version == page_version) {
if (p->bytes_used >= bytes) {
p->bytes_used -= bytes;
} else {
p->bytes_used = 0;
}
if (p->obj_count >= count) {
p->obj_count -= count;
} else {
p->obj_count = 0; // caller has bad accounting?
}
STAT_L(e);
e->stats.bytes_used -= bytes;
e->stats.objects_used -= count;
STAT_UL(e);
if (p->obj_count == 0) {
extstore_run_maint(e);
}
} else {
ret = -1;
}
pthread_mutex_unlock(&p->mutex);
return ret;
}
int extstore_check(void *ptr, unsigned int page_id, uint64_t page_version) {
store_engine *e = (store_engine *)ptr;
store_page *p = &e->pages[page_id];
int ret = 0;
pthread_mutex_lock(&p->mutex);
if (p->version != page_version)
ret = -1;
pthread_mutex_unlock(&p->mutex);
return ret;
}
/* allows a compactor to say "we're done with this page, kill it. */
void extstore_close_page(void *ptr, unsigned int page_id, uint64_t page_version) {
store_engine *e = (store_engine *)ptr;
store_page *p = &e->pages[page_id];
pthread_mutex_lock(&p->mutex);
if (!p->closed && p->version == page_version) {
p->closed = true;
extstore_run_maint(e);
}
pthread_mutex_unlock(&p->mutex);
}
/* Finds an attached wbuf that can satisfy the read.
* Since wbufs can potentially be flushed to disk out of order, they are only
* removed as the head of the list successfully flushes to disk.
*/
// call with *p locked
// FIXME: protect from reading past wbuf
static inline int _read_from_wbuf(store_page *p, obj_io *io) {
_store_wbuf *wbuf = p->wbuf;
assert(wbuf != NULL);
assert(io->offset < p->written + wbuf->size);
if (io->iov == NULL) {
memcpy(io->buf, wbuf->buf + (io->offset - wbuf->offset), io->len);
} else {
int x;
unsigned int off = io->offset - wbuf->offset;
// need to loop fill iovecs
for (x = 0; x < io->iovcnt; x++) {
struct iovec *iov = &io->iov[x];
memcpy(iov->iov_base, wbuf->buf + off, iov->iov_len);
off += iov->iov_len;
}
}
return io->len;
}
/* engine IO thread; takes engine context
* manage writes/reads
* runs IO callbacks inline after each IO
*/
// FIXME: protect from reading past page
static void *extstore_io_thread(void *arg) {
store_io_thread *me = (store_io_thread *)arg;
store_engine *e = me->e;
while (1) {
obj_io *io_stack = NULL;
pthread_mutex_lock(&me->mutex);
if (me->queue == NULL) {
pthread_cond_wait(&me->cond, &me->mutex);
}
// Pull and disconnect a batch from the queue
// Chew small batches from the queue so the IO thread picker can keep
// the IO queue depth even, instead of piling on threads one at a time
// as they gobble a queue.
if (me->queue != NULL) {
int i;
obj_io *end = NULL;
io_stack = me->queue;
end = io_stack;
for (i = 1; i < e->io_depth; i++) {
if (end->next) {
end = end->next;
} else {
me->queue_tail = end->next;
break;
}
}
me->depth -= i;
me->queue = end->next;
end->next = NULL;
}
pthread_mutex_unlock(&me->mutex);
obj_io *cur_io = io_stack;
while (cur_io) {
// We need to note next before the callback in case the obj_io
// gets reused.
obj_io *next = cur_io->next;
int ret = 0;
int do_op = 1;
store_page *p = &e->pages[cur_io->page_id];
// TODO: loop if not enough bytes were read/written.
switch (cur_io->mode) {
case OBJ_IO_READ:
// Page is currently open. deal if read is past the end.
pthread_mutex_lock(&p->mutex);
if (!p->free && !p->closed && p->version == cur_io->page_version) {
if (p->active && cur_io->offset >= p->written) {
ret = _read_from_wbuf(p, cur_io);
do_op = 0;
} else {
p->refcount++;
}
STAT_L(e);
e->stats.bytes_read += cur_io->len;
e->stats.objects_read++;
STAT_UL(e);
} else {
do_op = 0;
ret = -2; // TODO: enum in IO for status?
}
pthread_mutex_unlock(&p->mutex);
if (do_op) {
#if !defined(HAVE_PREAD) || !defined(HAVE_PREADV)
// TODO: lseek offset is natively 64-bit on OS X, but
// perhaps not on all platforms? Else use lseek64()
ret = lseek(p->fd, p->offset + cur_io->offset, SEEK_SET);
if (ret >= 0) {
if (cur_io->iov == NULL) {
ret = read(p->fd, cur_io->buf, cur_io->len);
} else {
ret = readv(p->fd, cur_io->iov, cur_io->iovcnt);
}
}
#else
if (cur_io->iov == NULL) {
ret = pread(p->fd, cur_io->buf, cur_io->len, p->offset + cur_io->offset);
} else {
ret = preadv(p->fd, cur_io->iov, cur_io->iovcnt, p->offset + cur_io->offset);
}
#endif
}
break;
case OBJ_IO_WRITE:
do_op = 0;
// FIXME: Should hold refcount during write. doesn't
// currently matter since page can't free while active.
ret = pwrite(p->fd, cur_io->buf, cur_io->len, p->offset + cur_io->offset);
break;
}
if (ret == 0) {
E_DEBUG("read returned nothing\n");
}
#ifdef EXTSTORE_DEBUG
if (ret == -1) {
perror("read/write op failed");
}
#endif
cur_io->cb(e, cur_io, ret);
if (do_op) {
pthread_mutex_lock(&p->mutex);
p->refcount--;
pthread_mutex_unlock(&p->mutex);
}
cur_io = next;
}
}
return NULL;
}
// call with *p locked.
static void _free_page(store_engine *e, store_page *p) {
store_page *tmp = NULL;
store_page *prev = NULL;
E_DEBUG("EXTSTORE: freeing page %u\n", p->id);
STAT_L(e);
e->stats.objects_used -= p->obj_count;
e->stats.bytes_used -= p->bytes_used;
e->stats.page_reclaims++;
STAT_UL(e);
pthread_mutex_lock(&e->mutex);
// unlink page from bucket list
tmp = e->page_buckets[p->bucket];
while (tmp) {
if (tmp == p) {
if (prev) {
prev->next = tmp->next;
} else {
e->page_buckets[p->bucket] = tmp->next;
}
tmp->next = NULL;
break;
}
prev = tmp;
tmp = tmp->next;
}
// reset most values
p->version = 0;
p->obj_count = 0;
p->bytes_used = 0;
p->allocated = 0;
p->written = 0;
p->bucket = 0;
p->active = false;
p->closed = false;
p->free = true;
// add to page stack
// TODO: free_page_buckets first class and remove redundancy?
if (p->free_bucket != 0) {
p->next = e->free_page_buckets[p->free_bucket];
e->free_page_buckets[p->free_bucket] = p;
} else {
p->next = e->page_freelist;
e->page_freelist = p;
}
e->page_free++;
pthread_mutex_unlock(&e->mutex);
}
/* engine maint thread; takes engine context.
* Uses version to ensure oldest possible objects are being evicted.
* Needs interface to inform owner of pages with fewer objects or most space
* free, which can then be actively compacted to avoid eviction.
*
* This gets called asynchronously after every page allocation. Could run less
* often if more pages are free.
*
* Another allocation call is required if an attempted free didn't happen
* due to the page having a refcount.
*/
// TODO: Don't over-evict pages if waiting on refcounts to drop
static void *extstore_maint_thread(void *arg) {
store_maint_thread *me = (store_maint_thread *)arg;
store_engine *e = me->e;
struct extstore_page_data *pd =
calloc(e->page_count, sizeof(struct extstore_page_data));
pthread_mutex_lock(&me->mutex);
while (1) {
int i;
bool do_evict = false;
unsigned int low_page = 0;
uint64_t low_version = ULLONG_MAX;
pthread_cond_wait(&me->cond, &me->mutex);
pthread_mutex_lock(&e->mutex);
// default freelist requires at least one page free.
// specialized freelists fall back to default once full.
if (e->page_free == 0 || e->page_freelist == NULL) {
do_evict = true;
}
pthread_mutex_unlock(&e->mutex);
memset(pd, 0, sizeof(struct extstore_page_data) * e->page_count);
for (i = 0; i < e->page_count; i++) {
store_page *p = &e->pages[i];
pthread_mutex_lock(&p->mutex);
pd[p->id].free_bucket = p->free_bucket;
if (p->active || p->free) {
pthread_mutex_unlock(&p->mutex);
continue;
}
if (p->obj_count > 0 && !p->closed) {
pd[p->id].version = p->version;
pd[p->id].bytes_used = p->bytes_used;
pd[p->id].bucket = p->bucket;
// low_version/low_page are only used in the eviction
// scenario. when we evict, it's only to fill the default page
// bucket again.
// TODO: experiment with allowing evicting up to a single page
// for any specific free bucket. this is *probably* required
// since it could cause a load bias on default-only devices?
if (p->free_bucket == 0 && p->version < low_version) {
low_version = p->version;
low_page = i;
}
}
if ((p->obj_count == 0 || p->closed) && p->refcount == 0) {
_free_page(e, p);
// Found a page to free, no longer need to evict.
do_evict = false;
}
pthread_mutex_unlock(&p->mutex);
}
if (do_evict && low_version != ULLONG_MAX) {
store_page *p = &e->pages[low_page];
E_DEBUG("EXTSTORE: evicting page [%d] [v: %llu]\n",
p->id, (unsigned long long) p->version);
pthread_mutex_lock(&p->mutex);
if (!p->closed) {
p->closed = true;
STAT_L(e);
e->stats.page_evictions++;
e->stats.objects_evicted += p->obj_count;
e->stats.bytes_evicted += p->bytes_used;
STAT_UL(e);
if (p->refcount == 0) {
_free_page(e, p);
}
}
pthread_mutex_unlock(&p->mutex);
}
// copy the page data into engine context so callers can use it from
// the stats lock.
STAT_L(e);
memcpy(e->stats.page_data, pd,
sizeof(struct extstore_page_data) * e->page_count);
STAT_UL(e);
}
return NULL;
}