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walg.c
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walg.c
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#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <fcntl.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <dirent.h>
#include <sys/uio.h>
#include <sys/stat.h>
#include <limits.h>
#include "dat.h"
static int reserve(Wal *w, int n);
// Reads w->dir for files matching binlog.NNN,
// sets w->next to the next unused number, and
// returns the minimum number.
// If no files are found, sets w->next to 1 and
// returns a large number.
static int
walscandir(Wal *w)
{
static char base[] = "binlog.";
static const int len = sizeof(base) - 1;
DIR *d;
struct dirent *e;
int min = 1<<30;
int max = 0;
int n;
char *p;
d = opendir(w->dir);
if (!d) return min;
while ((e = readdir(d))) {
if (strncmp(e->d_name, base, len) == 0) {
n = strtol(e->d_name+len, &p, 10);
if (p && *p == '\0') {
if (n > max) max = n;
if (n < min) min = n;
}
}
}
closedir(d);
w->next = max + 1;
return min;
}
void
walgc(Wal *w)
{
File *f;
while (w->head && !w->head->refs) {
f = w->head;
w->head = f->next;
if (w->tail == f) {
w->tail = f->next; // also, f->next == NULL
}
w->nfile--;
unlink(f->path);
free(f->path);
free(f);
}
}
// returns 1 on success, 0 on error.
static int
usenext(Wal *w)
{
File *f;
f = w->cur;
if (!f->next) {
twarnx("there is no next wal file");
return 0;
}
w->cur = f->next;
filewclose(f);
return 1;
}
static int
ratio(Wal *w)
{
int n, d;
d = w->alive + w->resv;
n = w->nfile*w->filesz - d;
if (!d) return 0;
return n / d;
}
// Returns the number of bytes reserved or 0 on error.
static int
walresvmigrate(Wal *w, job j)
{
int z = 0;
// reserve only space for the migrated full job record
// space for the delete is already reserved
z += sizeof(int);
z += strlen(j->tube->name);
z += sizeof(Jobrec);
z += j->r.body_size;
return reserve(w, z);
}
static void
moveone(Wal *w)
{
job j;
if (w->head == w->cur || w->head->next == w->cur) {
// no point in moving a job
return;
}
j = w->head->jlist.fnext;
if (!j || j == &w->head->jlist) {
// head holds no jlist; can't happen
twarnx("head holds no jlist");
return;
}
if (!walresvmigrate(w, j)) {
// it will not fit, so we'll try again later
return;
}
filermjob(w->head, j);
w->nmig++;
walwrite(w, j);
}
static void
walcompact(Wal *w)
{
int r;
for (r=ratio(w); r>=2; r--) {
moveone(w);
}
}
static void
walsync(Wal *w)
{
int64 now;
now = nanoseconds();
if (w->wantsync && now >= w->lastsync+w->syncrate) {
w->lastsync = now;
if (fsync(w->cur->fd) == -1) {
twarn("fsync");
}
}
}
// Walwrite writes j to the log w (if w is enabled).
// On failure, walwrite disables w and returns 0; on success, it returns 1.
// Unlke walresv*, walwrite should never fail because of a full disk.
// If w is disabled, then walwrite takes no action and returns 1.
int
walwrite(Wal *w, job j)
{
int r = 0;
if (!w->use) return 1;
if (w->cur->resv > 0 || usenext(w)) {
if (j->file) {
r = filewrjobshort(w->cur, j);
} else {
r = filewrjobfull(w->cur, j);
}
}
if (!r) {
filewclose(w->cur);
w->use = 0;
}
w->nrec++;
return r;
}
void
walmaint(Wal *w)
{
if (w->use) {
if (!w->nocomp) {
walcompact(w);
}
walsync(w);
}
}
static int
makenextfile(Wal *w)
{
File *f;
f = new(File);
if (!f) {
twarnx("OOM");
return 0;
}
if (!fileinit(f, w, w->next)) {
free(f);
twarnx("OOM");
return 0;
}
filewopen(f);
if (!f->iswopen) {
free(f->path);
free(f);
return 0;
}
w->next++;
fileadd(f, w);
return 1;
}
static void
moveresv(File *to, File *from, int n)
{
from->resv -= n;
from->free += n;
to->resv += n;
to->free -= n;
}
static int
needfree(Wal *w, int n)
{
if (w->tail->free >= n) return n;
if (makenextfile(w)) return n;
return 0;
}
// Ensures:
// 1. b->resv is congruent to n (mod z).
// 2. x->resv is congruent to 0 (mod z) for each future file x.
// Assumes (and preserves) that b->resv >= n.
// Reserved space is conserved (neither created nor destroyed);
// we just move it around to preserve the invariant.
// We might have to allocate a new file.
// Returns 1 on success, otherwise 0. If there was a failure,
// w->tail is not updated.
static int
balancerest(Wal *w, File *b, int n)
{
int rest, c, r;
static const int z = sizeof(int) + sizeof(Jobrec);
if (!b) return 1;
rest = b->resv - n;
r = rest % z;
if (r == 0) return balancerest(w, b->next, 0);
c = z - r;
if (w->tail->resv >= c && b->free >= c) {
moveresv(b, w->tail, c);
return balancerest(w, b->next, 0);
}
if (needfree(w, r) != r) {
twarnx("needfree");
return 0;
}
moveresv(w->tail, b, r);
return balancerest(w, b->next, 0);
}
// Ensures:
// 1. w->cur->resv >= n.
// 2. w->cur->resv is congruent to n (mod z).
// 3. x->resv is congruent to 0 (mod z) for each future file x.
// (where z is the size of a delete record in the wal).
// Reserved space is conserved (neither created nor destroyed);
// we just move it around to preserve the invariant.
// We might have to allocate a new file.
// Returns 1 on success, otherwise 0. If there was a failure,
// w->tail is not updated.
static int
balance(Wal *w, int n)
{
int r;
// Invariant 1
// (this loop will run at most once)
while (w->cur->resv < n) {
int m = w->cur->resv;
r = needfree(w, m);
if (r != m) {
twarnx("needfree");
return 0;
}
moveresv(w->tail, w->cur, m);
usenext(w);
}
// Invariants 2 and 3
return balancerest(w, w->cur, n);
}
// Returns the number of bytes successfully reserved: either 0 or n.
static int
reserve(Wal *w, int n)
{
int r;
// return value must be nonzero but is otherwise ignored
if (!w->use) return 1;
if (w->cur->free >= n) {
w->cur->free -= n;
w->cur->resv += n;
w->resv += n;
return n;
}
r = needfree(w, n);
if (r != n) {
twarnx("needfree");
return 0;
}
w->tail->free -= n;
w->tail->resv += n;
w->resv += n;
if (!balance(w, n)) {
// error; undo the reservation
w->resv -= n;
w->tail->resv -= n;
w->tail->free += n;
return 0;
}
return n;
}
// Returns the number of bytes reserved or 0 on error.
int
walresvput(Wal *w, job j)
{
int z = 0;
// reserve space for the initial job record
z += sizeof(int);
z += strlen(j->tube->name);
z += sizeof(Jobrec);
z += j->r.body_size;
// plus space for a delete to come later
z += sizeof(int);
z += sizeof(Jobrec);
return reserve(w, z);
}
// Returns the number of bytes reserved or 0 on error.
int
walresvupdate(Wal *w, job j)
{
int z = 0;
z +=sizeof(int);
z +=sizeof(Jobrec);
return reserve(w, z);
}
// Returns the number of locks acquired: either 0 or 1.
int
waldirlock(Wal *w)
{
int r;
int fd;
struct flock lk;
char path[PATH_MAX];
r = snprintf(path, PATH_MAX, "%s/lock", w->dir);
if (r > PATH_MAX) {
twarnx("path too long: %s/lock", w->dir);
return 0;
}
fd = open(path, O_WRONLY|O_CREAT, 0600);
if (fd == -1) {
twarn("open");
return 0;
}
lk.l_type = F_WRLCK;
lk.l_whence = SEEK_SET;
lk.l_start = 0;
lk.l_len = 0;
r = fcntl(fd, F_SETLK, &lk);
if (r) {
twarn("fcntl");
return 0;
}
// intentionally leak fd, since we never want to close it
// and we'll never need it again
return 1;
}
void
walread(Wal *w, job list, int min, int max)
{
File *f;
int i, fd;
int err = 0;
for (i = min; i < w->next; i++) {
f = new(File);
if (!f) {
twarnx("OOM");
exit(1);
}
if (!fileinit(f, w, i)) {
free(f);
twarnx("OOM");
exit(1);
}
fd = open(f->path, O_RDONLY);
if (fd < 0) {
twarn("open %s", f->path);
free(f->path);
free(f);
continue;
}
f->fd = fd;
fileadd(f, w);
err |= fileread(f, list);
close(fd);
}
if (err) {
warnx("Errors reading one or more WAL files.");
warnx("Continuing. You may be missing data.");
}
}
void
walinit(Wal *w, job list)
{
int min;
min = walscandir(w);
walread(w, list, min, w->next);
// first writable file
if (!makenextfile(w)) {
twarnx("makenextfile");
exit(1);
}
w->cur = w->tail;
}