Workshop o mikrokontrolérech na SKSP 2024.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

346 lines
7.6 KiB

/*
* UCW Library -- Fast Buffered I/O on O_DIRECT Files
*
* (c) 2006--2007 Martin Mares <mj@ucw.cz>
*
* This software may be freely distributed and used according to the terms
* of the GNU Lesser General Public License.
*/
/*
* This is a fastbuf backend for fast streaming I/O using O_DIRECT and
* the asynchronous I/O module. It's designed for use on large files
* which don't fit in the disk cache.
*
* CAVEATS:
*
* - All operations with a single fbdirect handle must be done
* within a single thread, unless you provide a custom I/O queue
* and take care of locking.
*
* FIXME: what if the OS doesn't support O_DIRECT?
* FIXME: unaligned seeks and partial writes?
* FIXME: append to unaligned file
*/
#undef LOCAL_DEBUG
#include <ucw/lib.h>
#include <ucw/fastbuf.h>
#include <ucw/io.h>
#include <ucw/asio.h>
#include <ucw/conf.h>
#include <ucw/threads.h>
#include <string.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdio.h>
#define FBDIR_ALIGN 512
enum fbdir_mode { // Current operating mode
M_NULL,
M_READ,
M_WRITE
};
struct fb_direct {
struct fastbuf fb;
int fd; // File descriptor
int is_temp_file;
struct asio_queue *io_queue; // I/O queue to use
struct asio_queue *user_queue; // If io_queue was supplied by the user
struct asio_request *pending_read;
struct asio_request *done_read;
struct asio_request *active_buffer;
enum fbdir_mode mode;
byte name[0];
};
#define FB_DIRECT(f) ((struct fb_direct *)(f))
#ifndef TEST
uint fbdir_cheat;
static struct cf_section fbdir_cf = {
CF_ITEMS {
CF_UINT("Cheat", &fbdir_cheat),
CF_END
}
};
static void CONSTRUCTOR
fbdir_global_init(void)
{
cf_declare_section("FBDirect", &fbdir_cf, 0);
}
#endif
static void
fbdir_read_sync(struct fb_direct *F)
{
while (F->pending_read)
{
struct asio_request *r = asio_wait(F->io_queue);
ASSERT(r);
struct fb_direct *G = r->user_data;
ASSERT(G);
ASSERT(G->pending_read == r && !G->done_read);
G->pending_read = NULL;
G->done_read = r;
}
}
static void
fbdir_change_mode(struct fb_direct *F, enum fbdir_mode mode)
{
if (F->mode == mode)
return;
DBG("FB-DIRECT: Switching mode to %d", mode);
switch (F->mode)
{
case M_NULL:
break;
case M_READ:
fbdir_read_sync(F); // Wait for read-ahead requests to finish
if (F->done_read) // Return read-ahead requests if any
{
asio_put(F->done_read);
F->done_read = NULL;
}
break;
case M_WRITE:
asio_sync(F->io_queue); // Wait for pending writebacks
break;
}
if (F->active_buffer)
{
asio_put(F->active_buffer);
F->active_buffer = NULL;
}
F->mode = mode;
}
static void
fbdir_submit_read(struct fb_direct *F)
{
struct asio_request *r = asio_get(F->io_queue);
r->fd = F->fd;
r->op = ASIO_READ;
r->len = F->io_queue->buffer_size;
r->user_data = F;
asio_submit(r);
F->pending_read = r;
}
static int
fbdir_refill(struct fastbuf *f)
{
struct fb_direct *F = FB_DIRECT(f);
DBG("FB-DIRECT: Refill");
if (!F->done_read)
{
if (!F->pending_read)
{
fbdir_change_mode(F, M_READ);
fbdir_submit_read(F);
}
fbdir_read_sync(F);
ASSERT(F->done_read);
}
struct asio_request *r = F->done_read;
F->done_read = NULL;
if (F->active_buffer)
asio_put(F->active_buffer);
F->active_buffer = r;
if (!r->status)
return 0;
if (r->status < 0)
bthrow(f, "read", "Error reading %s: %s", f->name, strerror(r->returned_errno));
f->bptr = f->buffer = r->buffer;
f->bstop = f->bufend = f->buffer + r->status;
f->pos += r->status;
fbdir_submit_read(F); // Read-ahead the next block
return r->status;
}
static void
fbdir_spout(struct fastbuf *f)
{
struct fb_direct *F = FB_DIRECT(f);
struct asio_request *r;
DBG("FB-DIRECT: Spout");
fbdir_change_mode(F, M_WRITE);
r = F->active_buffer;
if (r && f->bptr > f->bstop)
{
r->op = ASIO_WRITE_BACK;
r->fd = F->fd;
r->len = f->bptr - f->bstop;
ASSERT(!(f->pos % FBDIR_ALIGN) || fbdir_cheat);
f->pos += r->len;
if (!fbdir_cheat && r->len % FBDIR_ALIGN) // Have to simulate incomplete writes
{
r->len = ALIGN_TO(r->len, FBDIR_ALIGN);
asio_submit(r);
asio_sync(F->io_queue);
DBG("FB-DIRECT: Truncating at %llu", (long long)f->pos);
if (ucw_ftruncate(F->fd, f->pos) < 0)
bthrow(f, "write", "Error truncating %s: %m", f->name);
}
else
asio_submit(r);
r = NULL;
}
if (!r)
r = asio_get(F->io_queue);
f->bstop = f->bptr = f->buffer = r->buffer;
f->bufend = f->buffer + F->io_queue->buffer_size;
F->active_buffer = r;
}
static int
fbdir_seek(struct fastbuf *f, ucw_off_t pos, int whence)
{
DBG("FB-DIRECT: Seek %llu %d", (long long)pos, whence);
if (whence == SEEK_SET && pos == f->pos)
return 1;
fbdir_change_mode(FB_DIRECT(f), M_NULL); // Wait for all async requests to finish
ucw_off_t l = ucw_seek(FB_DIRECT(f)->fd, pos, whence);
if (l < 0)
return 0;
f->pos = l;
return 1;
}
static struct asio_queue *
fbdir_get_io_queue(uint buffer_size, uint write_back)
{
struct ucwlib_context *ctx = ucwlib_thread_context();
struct asio_queue *q = ctx->io_queue;
if (!q)
{
q = xmalloc_zero(sizeof(struct asio_queue));
q->buffer_size = buffer_size;
q->max_writebacks = write_back;
asio_init_queue(q);
ctx->io_queue = q;
}
q->use_count++;
DBG("FB-DIRECT: Got I/O queue, uc=%d", q->use_count);
return q;
}
static void
fbdir_put_io_queue(void)
{
struct ucwlib_context *ctx = ucwlib_thread_context();
struct asio_queue *q = ctx->io_queue;
ASSERT(q);
DBG("FB-DIRECT: Put I/O queue, uc=%d", q->use_count);
if (!--q->use_count)
{
asio_cleanup_queue(q);
xfree(q);
ctx->io_queue = NULL;
}
}
static void
fbdir_close(struct fastbuf *f)
{
struct fb_direct *F = FB_DIRECT(f);
DBG("FB-DIRECT: Close");
fbdir_change_mode(F, M_NULL);
if (!F->user_queue)
fbdir_put_io_queue();
bclose_file_helper(f, F->fd, F->is_temp_file);
xfree(f);
}
static int
fbdir_config(struct fastbuf *f, uint item, int value)
{
int orig;
switch (item)
{
case BCONFIG_IS_TEMP_FILE:
orig = FB_DIRECT(f)->is_temp_file;
FB_DIRECT(f)->is_temp_file = value;
return orig;
default:
return -1;
}
}
struct fastbuf *
fbdir_open_fd_internal(int fd, const char *name, struct asio_queue *q, uint buffer_size, uint read_ahead UNUSED, uint write_back)
{
int namelen = strlen(name) + 1;
struct fb_direct *F = xmalloc(sizeof(struct fb_direct) + namelen);
struct fastbuf *f = &F->fb;
DBG("FB-DIRECT: Open");
bzero(F, sizeof(*F));
f->name = F->name;
memcpy(f->name, name, namelen);
F->fd = fd;
if (q)
F->io_queue = F->user_queue = q;
else
F->io_queue = fbdir_get_io_queue(buffer_size, write_back);
f->refill = fbdir_refill;
f->spout = fbdir_spout;
f->seek = fbdir_seek;
f->close = fbdir_close;
f->config = fbdir_config;
f->can_overwrite_buffer = 2;
return f;
}
#ifdef TEST
#include <ucw/getopt.h>
int main(int argc, char **argv)
{
struct fb_params par = { .type = FB_DIRECT };
struct fastbuf *f, *t;
log_init(NULL);
if (cf_getopt(argc, argv, CF_SHORT_OPTS, CF_NO_LONG_OPTS, NULL) >= 0)
die("Hey, whaddya want?");
f = (optind < argc) ? bopen_file(argv[optind++], O_RDONLY, &par) : bopen_fd(0, &par);
t = (optind < argc) ? bopen_file(argv[optind++], O_RDWR | O_CREAT | O_TRUNC, &par) : bopen_fd(1, &par);
bbcopy(f, t, ~0U);
ASSERT(btell(f) == btell(t));
#if 0 // This triggers unaligned write
bflush(t);
bputc(t, '\n');
#endif
brewind(t);
bgetc(t);
ASSERT(btell(t) == 1);
bclose(f);
bclose(t);
return 0;
}
#endif