gambas-source-code/main/lib/inotify/c_watch.c
Tobias Boege 24e542b4c5 [GB.INOTIFY]
* BUG: (Bug 730) Don't pass NULL key and zero length to GB.HashTable.Remove()
* OPT: Use GB.StringLength() where possible



git-svn-id: svn://localhost/gambas/trunk@7303 867c0c6c-44f3-4631-809d-bfa615b0a4ec
2015-09-12 19:52:38 +00:00

551 lines
13 KiB
C

/*
* c_watch.c - Watch and .Watch.Events classes
*
* Copyright (C) 2013, 2014 Tobias Boege <tobias@gambas-buch.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 1, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*/
#define __C_WATCH_C
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <sys/inotify.h>
#include <limits.h>
#include "gambas.h"
#include "c_watch.h"
#define GB_ErrorErrno() GB.Error(strerror(errno))
typedef struct {
GB_BASE ob;
int wd;
uint32_t mask;
char *path;
int paused;
GB_VARIANT_VALUE tag;
} CWATCH;
typedef struct cinfo CINFO;
struct cinfo {
struct inotify_event *iev;
CINFO *prev;
};
typedef struct {
int fd;
GB_HASHTABLE watches;
CINFO *top;
} CINOTIFY;
/* XXX: We currently only support one inotify instance */
static CINOTIFY _ino = {-1, NULL, NULL};
static CWATCH *find_watch(CINOTIFY *ino, int wd)
{
CWATCH *watch = NULL;
GB.HashTable.Get(ino->watches, (char *) &wd, sizeof(wd),
(void **) &watch);
/* If the lookup fails, `watch' isn't changed */
return watch;
}
static CWATCH *find_watch_path(CINOTIFY *ino, const char *path)
{
CWATCH *watch = NULL;
GB.HashTable.Get(ino->watches, path, GB.StringLength((char *) path),
(void **) &watch);
return watch;
}
DECLARE_EVENT(EVENT_Read);
DECLARE_EVENT(EVENT_Stat);
DECLARE_EVENT(EVENT_Close);
DECLARE_EVENT(EVENT_Create);
DECLARE_EVENT(EVENT_Delete);
DECLARE_EVENT(EVENT_Write);
DECLARE_EVENT(EVENT_Move);
DECLARE_EVENT(EVENT_MoveFrom);
DECLARE_EVENT(EVENT_MoveTo);
DECLARE_EVENT(EVENT_Open);
static struct {
int *eventp;
uint32_t mask;
} _event_table[] = {
{&EVENT_Read, IN_ACCESS},
{&EVENT_Stat, IN_ATTRIB},
{&EVENT_Close, IN_CLOSE_WRITE | IN_CLOSE_NOWRITE},
{&EVENT_Create, IN_CREATE},
{&EVENT_Delete, IN_DELETE | IN_DELETE_SELF},
{&EVENT_Write, IN_MODIFY},
{&EVENT_Move, IN_MOVE_SELF},
{&EVENT_MoveFrom, IN_MOVED_FROM},
{&EVENT_MoveTo, IN_MOVED_TO},
{&EVENT_Open, IN_OPEN},
{NULL, 0}
};
static int *get_event(uint32_t *maskp)
{
int i;
for (i = 0; _event_table[i].eventp; i++) {
if (*maskp & _event_table[i].mask) {
/* Remove that event */
*maskp &= ~_event_table[i].mask;
return _event_table[i].eventp;
}
}
*maskp = 0;
return NULL;
}
/* Forward */
static void INOTIFY_exit(void);
static void destroy_watch(CWATCH *watch)
{
inotify_rm_watch(_ino.fd, watch->wd);
GB.HashTable.Remove(_ino.watches, (char *) &watch->wd,
sizeof(watch->wd));
if (watch->path) {
GB.HashTable.Remove(_ino.watches, watch->path,
GB.StringLength(watch->path));
}
GB.FreeString(&watch->path);
GB.StoreVariant(NULL, &watch->tag);
/* Serves as a validity flag */
watch->path = NULL;
/* Close the inotify instance again if all watches were released */
if (!GB.HashTable.Count(_ino.watches))
INOTIFY_exit();
}
static int check_watch(CWATCH *watch)
{
return !watch || !watch->path;
}
static void callback(int fd, int flags, CINOTIFY *ino)
{
struct inotify_event *iev;
char buf[sizeof(*iev) + NAME_MAX + 1]
__attribute__((aligned(sizeof(int))));
int i, length;
again:
if ((length = read(fd, buf, sizeof(buf))) <= 0) {
if (errno == EINTR) {
goto again;
} else {
GB_ErrorErrno();
return;
}
}
for (i = 0; i < length; i += sizeof(*iev) + iev->len) {
CWATCH *watch;
uint32_t mask;
iev = (struct inotify_event *) &buf[i];
watch = find_watch(ino, iev->wd);
if (!watch && !(iev->mask & IN_Q_OVERFLOW)) {
if (getenv("GB_INOTIFY_DEBUG")) {
fprintf(stderr, "gb.inotify: Descriptor "
"%d not known. Name was `%s'\n",
iev->wd, iev->name);
}
continue;
}
mask = iev->mask & ~(IN_IGNORED | IN_ISDIR | IN_Q_OVERFLOW
| IN_UNMOUNT);
while (flags) {
uint32_t oldmask = mask;
int *eventp;
CINFO info;
eventp = get_event(&mask);
if (!eventp) {
if (getenv("GB_INOTIFY_DEBUG")) {
fprintf(stderr, "gb.inotify: "
"Unhandled event 0x%x "
"of watch `%s'\n",
oldmask ^ mask,
watch->path);
}
break;
}
if (!GB.CanRaise(watch, *eventp) || watch->paused)
continue;
/*
* In case, the event loop kicks in at GB.Raise()
* and preempts this callback with itself.
*
* The problem is then that the event info structure
* may get replaced by another, thus we lose data.
* That's why we save it here. However, it is
* sufficient to keep the CINFO on the stack!
*/
info.iev = iev;
info.prev = _ino.top;
_ino.top = &info;
GB.Raise(watch, *eventp, 0);
_ino.top = info.prev;
}
/* Also remove the watch if the kernel did. */
if (iev->mask & IN_IGNORED)
destroy_watch(watch);
}
}
static void INOTIFY_init(void)
{
_ino.fd = inotify_init();
if (_ino.fd == -1) {
GB_ErrorErrno();
return;
}
GB.HashTable.New(&_ino.watches, GB_COMP_BINARY);
GB.Watch(_ino.fd, GB_WATCH_READ, callback, (intptr_t) &_ino);
_ino.top = NULL;
}
static void INOTIFY_exit(void)
{
GB.Watch(_ino.fd, GB_WATCH_NONE, NULL, (intptr_t) NULL);
close(_ino.fd);
_ino.fd = -1;
GB.HashTable.Free(&_ino.watches);
}
/**G
* Tidy up.
**/
BEGIN_METHOD_VOID(Watch_exit)
if (!_ino.watches)
return;
/* Free the remaining objects. destroy_watch() will then also take
* care of calling INOTIFY_exit() to free bookkeeping data. */
GB.HashTable.Enum(_ino.watches, (GB_HASHTABLE_ENUM_FUNC) destroy_watch);
END_METHOD
/**G
* Return a Watch from its path. If the path is not watched, Null is
* returned.
**/
BEGIN_METHOD(Watch_get, GB_STRING path)
CWATCH *watch;
watch = find_watch_path(&_ino, GB.ToZeroString(ARG(path)));
if (!watch) {
GB.ReturnNull();
return;
}
GB.ReturnObject(watch);
END_METHOD
/**G
* The name of the file or directory which is subject to the event, relative
* to the Watch object which triggered the event. If Null, the directory
* itself is subject.
**/
BEGIN_PROPERTY(Watch_Name)
struct inotify_event *iev = _ino.top->iev;
GB.ReturnNewZeroString(iev->len ? iev->name : "");
END_PROPERTY
/**G
* Return whether the event subject is/was a directory.
**/
BEGIN_PROPERTY(Watch_IsDir)
GB.ReturnBoolean(!!(_ino.top->iev->mask & IN_ISDIR));
END_PROPERTY
/**G
* Return whether the filesystem on which the watched path resided, was
* unmounted. In this case, the Watch object is invalidated just after the
* event.
**/
BEGIN_PROPERTY(Watch_Unmount)
GB.ReturnBoolean(!!(_ino.top->iev->mask & IN_UNMOUNT));
END_PROPERTY
/**G
* A cookie used to associate events. This is currently only used to connect
* MoveFrom and MoveTo events of the same file.
**/
BEGIN_PROPERTY(Watch_Cookie)
GB.ReturnInteger(_ino.top->iev->cookie);
END_PROPERTY
#define THIS ((CWATCH *) _object)
/**G
* Create a new watch for the given path.
*
* If the NoFollowLink parameter is set and true, symlinks are not followed.
*
* Events is a bitmask specifying which events are to be reported at all.
* The default mask is determined by the event handlers defined for this
* object.
*
* TODO: Maybe add support for IN_EXCL_UNLINK, IN_ONESHOT and IN_ONLYDIR.
**/
BEGIN_METHOD(Watch_new, GB_STRING path; GB_BOOLEAN nofollow;
GB_INTEGER mask)
int wd, i;
uint32_t mask = VARGOPT(mask, 0);
char *path = GB.NewString(STRING(path), LENGTH(path));
/* If this is the first watch, we need an inotify instance first.
* We don't use the component's init function to set up _ino because
* the inotify instance needs a GB.Watch() which would keep the
* program open even if no watches were registered. So this is done
* ad-hoc if there are watches. */
if (_ino.fd == -1)
INOTIFY_init();
/* Get the mask */
if (!mask) {
for (i = 0; _event_table[i].eventp; i++) {
if (GB.CanRaise(THIS, *_event_table[i].eventp))
mask |= _event_table[i].mask;
}
/* But we need at least to watch one event. IN_DELETE_SELF
* seems a good one as it doesn't trigger too often :-) */
mask |= IN_DELETE_SELF;
}
if (VARGOPT(nofollow, 0))
mask |= IN_DONT_FOLLOW;
wd = inotify_add_watch(_ino.fd, path, mask);
if (wd == -1) {
GB.FreeString(&path);
GB_ErrorErrno();
return;
}
THIS->wd = wd;
THIS->mask = mask;
THIS->path = path;
THIS->paused = 0;
THIS->tag.type = GB_T_NULL;
GB.HashTable.Add(_ino.watches, (char *) &wd, sizeof(wd), THIS);
GB.HashTable.Add(_ino.watches, path, GB.StringLength(path), THIS);
END_METHOD
/**G
* Deallocate the watch.
**/
BEGIN_METHOD_VOID(Watch_free)
destroy_watch(THIS);
END_METHOD
/**G
* Resume a paused watch. Whether the watch was actually paused does not
* matter.
*/
BEGIN_METHOD_VOID(Watch_Resume)
inotify_add_watch(_ino.fd, THIS->path, THIS->mask);
END_METHOD
/**G
* Pause a watch. You can pause a watch multiple times. This has no effect.
*
* A paused watch will not monitor any events -- without formally altering
* the events bitmask -- and thus not inflict any interruption by events
* from the kernel.
*/
BEGIN_METHOD_VOID(Watch_Pause)
/* We can't really pause as the kernel won't allow us to set an
* empty mask. We pick an unlikely one here and add special logic
* to the event dispatching code to prevent an event from being
* raised if the watch is paused. */
inotify_add_watch(_ino.fd, THIS->path, IN_DELETE_SELF);
END_METHOD
/**G
* Return the watched path.
**/
BEGIN_PROPERTY(Watch_Path)
GB.ReturnString(THIS->path);
END_PROPERTY
/**G
* Return or set if the watch is paused.
*
* {seealso
* Pause(), Resume()
* }
**/
BEGIN_PROPERTY(Watch_IsPaused)
if (READ_PROPERTY) {
GB.ReturnBoolean(THIS->paused);
return;
}
THIS->paused = VPROP(GB_BOOLEAN);
if (THIS->paused)
CALL_METHOD_VOID(Watch_Pause);
else
CALL_METHOD_VOID(Watch_Resume);
END_PROPERTY
/**G
* This Variant is free for use by the Gambas programmer.
**/
BEGIN_PROPERTY(Watch_Tag)
if (READ_PROPERTY) {
GB.ReturnVariant(&THIS->tag);
return;
}
GB.StoreVariant(PROP(GB_VARIANT), &THIS->tag);
END_PROPERTY
GB_DESC CWatch[] = {
GB_DECLARE("Watch", sizeof(CWATCH)),
GB_HOOK_CHECK(check_watch),
/*
* Watch event bits
*/
GB_CONSTANT("Read", "i", IN_ACCESS),
GB_CONSTANT("Stat", "i", IN_ATTRIB),
GB_CONSTANT("Close", "i", IN_CLOSE_WRITE | IN_CLOSE_NOWRITE),
GB_CONSTANT("Create", "i", IN_CREATE),
GB_CONSTANT("Delete", "i", IN_DELETE | IN_DELETE_SELF),
GB_CONSTANT("Write", "i", IN_MODIFY),
GB_CONSTANT("Move", "i", IN_MOVE_SELF),
GB_CONSTANT("MoveFrom", "i", IN_MOVED_FROM),
GB_CONSTANT("MoveTo", "i", IN_MOVED_TO),
GB_CONSTANT("Open", "i", IN_OPEN),
GB_CONSTANT("All", "i", IN_ALL_EVENTS),
GB_EVENT("Read", NULL, NULL, &EVENT_Read),
GB_EVENT("Stat", NULL, NULL, &EVENT_Stat),
GB_EVENT("Close", NULL, NULL, &EVENT_Close),
GB_EVENT("Create", NULL, NULL, &EVENT_Create),
GB_EVENT("Delete", NULL, NULL, &EVENT_Delete),
GB_EVENT("Write", NULL, NULL, &EVENT_Write),
GB_EVENT("Move", NULL, NULL, &EVENT_Move),
GB_EVENT("MoveFrom", NULL, NULL, &EVENT_MoveFrom),
GB_EVENT("MoveTo", NULL, NULL, &EVENT_MoveTo),
GB_EVENT("Open", NULL, NULL, &EVENT_Open),
GB_STATIC_METHOD("_exit", NULL, Watch_exit, NULL),
GB_STATIC_METHOD("_get", "Watch", Watch_get, "(Path)s"),
GB_METHOD("Resume", NULL, Watch_Resume, NULL),
GB_METHOD("Pause", NULL, Watch_Pause, NULL),
GB_STATIC_PROPERTY_READ("Name", "s", Watch_Name),
GB_STATIC_PROPERTY_READ("IsDir", "b", Watch_IsDir),
GB_STATIC_PROPERTY_READ("Unmount", "b", Watch_Unmount),
GB_STATIC_PROPERTY_READ("Cookie", "i", Watch_Cookie),
GB_METHOD("_new", NULL, Watch_new, "(Path)s[(NoFollowLink)b(Events)i]"),
GB_METHOD("_free", NULL, Watch_free, NULL),
GB_PROPERTY_SELF("Events", ".Watch.Events"),
GB_PROPERTY_READ("Path", "s", Watch_Path),
GB_PROPERTY("IsPaused", "b", Watch_IsPaused),
GB_PROPERTY("Tag", "v", Watch_Tag),
GB_END_DECLARE
};
static void change_mask(CWATCH *watch, int set, uint32_t bits)
{
if (set)
watch->mask |= bits;
else
watch->mask &= ~bits;
/* Re-add with new mask */
inotify_add_watch(_ino.fd, watch->path, watch->mask);
}
/**G
* Return if the given flag is set. You can also combine multiple flags to
* check if at least one of them is set.
**/
BEGIN_METHOD(WatchEvents_get, GB_INTEGER flags)
GB.ReturnBoolean(!!(THIS->mask & VARG(flags)));
END_METHOD
/**G
* Set or clear a flag. You can combine multiple flags to set or clear them
* en masse.
**/
BEGIN_METHOD(WatchEvents_put, GB_BOOLEAN value; GB_INTEGER flags)
change_mask(THIS, !!VARG(value), VARG(flags));
END_METHOD
GB_DESC CWatchEvents[] = {
GB_DECLARE(".Watch.Events", 0),
GB_VIRTUAL_CLASS(),
GB_METHOD("_get", "b", WatchEvents_get, "(Flags)i"),
GB_METHOD("_put", NULL, WatchEvents_put, "(Value)b(Flags)i"),
GB_END_DECLARE
};