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Kirill Smelkov
wendelin.core
Commits
d3c86584
Commit
d3c86584
authored
Jul 17, 2018
by
Kirill Smelkov
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parent
6c0aa796
Changes
5
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5 changed files
with
185 additions
and
162 deletions
+185
-162
wcfs/misc.go
wcfs/misc.go
+1
-1
wcfs/wcfs.go
wcfs/wcfs.go
+2
-1
wcfs/weak.go
wcfs/weak.go
+1
-1
wcfs/xxx.go
wcfs/xxx.go
+153
-0
wcfs/zodb.go
wcfs/zodb.go
+28
-159
No files found.
wcfs/misc.go
View file @
d3c86584
...
...
@@ -55,7 +55,7 @@ func (f *StaticFile) Read(_ nodefs.File, dest []byte, off int64, _ *fuse.Context
// mkdir adds child to parent as directory.
//
// Note: parent must
to
be already in the filesystem tree - i.e. associated
// Note: parent must be already in the filesystem tree - i.e. associated
// with inode. if not - nodefs will panic in Inode.NewChild on nil dereference.
func
mkdir
(
parent
nodefs
.
Node
,
name
string
,
child
nodefs
.
Node
)
{
parent
.
Inode
()
.
NewChild
(
name
,
true
,
child
)
...
...
wcfs/wcfs.go
View file @
d3c86584
...
...
@@ -446,6 +446,7 @@ func (br *BigFileRoot) Mkdir(name string, mode uint32, _ *fuse.Context) (*nodefs
// ZData
// str (chunk)
// Read implements reading from /bigfile/<bigfileX>/head/data.
// XXX and from /bigfile/<bigfileX>/@<tidX>/data.
/*
...
...
@@ -464,7 +465,7 @@ func (bf *BigFile) Read(_ nodefs.File, dest []byte, off int64, _ fuse.Context) (
// For the data itself - we put it to kernel cache and always deactivate from
// ZODB right after that.
//
//
XXX
set it to Connection.CacheControl
//
TODO
set it to Connection.CacheControl
type
zodbCacheControl
struct
{}
func
(
cc
*
zodbCacheControl
)
WantEvict
(
obj
Object
)
{
...
...
wcfs/weak.go
View file @
d3c86584
...
...
@@ -22,7 +22,7 @@
// See https://www.nexedi.com/licensing for rationale and options.
package
main
// weak reference
// weak reference
s
import
(
"runtime"
...
...
wcfs/xxx.go
0 → 100644
View file @
d3c86584
package
main
/*
// loadInProgress entry in Conn.objtab tells users, that try to get the entry,
// that another goroutine is already in progress of loading it.
type loadInProgress struct {
ready chan struct{} // closed when loading finishes
// result of the load
pyobj interface{} // XXX -> pyObject iface
err error
}
*/
/*
conn.objmu.Lock() // XXX -> rlock
objentry := conn.objtab[oid]
// someone else is already loading the object.
// we have to wait for that someone to finish the load.
if load, ok := objentry.(*loadInProgress); ok {
conn.objmu.Unlock()
select {
case <-ctx.Done():
return nil, ctx.Err() // XXX err ctx
case <-load.ready:
// XXX check pyclass match
return load.pyobj, load.err
}
}
// noone else is loading the object. Investigate whether it is simply not
// in objtab, or it is lost weakref, and if so we have to initiate the load.
var xobj interface{}
if objentry != nil {
wobj := objentry.(*WeakRef)
xobj = wobj.Get()
}
if xpyobj != nil {
// the object is already there
conn.objmu.Unlock()
return xpyobj, nil // XXX + activate?
}
// the object is not there, we have to (re)load it.
load := &loadInProgress{ready: make(chan struct)}
conn.objTab[oid] = load
conn.objmu.Unlock()
pyobj, err = conn.loadpy(ctx, oid)
load.pyobj = pyobj
load.err = err
close(load.ready)
// replace objtab entry with WeakRef
conn.objmu.Lock()
defer conn.objmu.Unlock()
if x := conn.objtab[oid]; x != load {
panic(fmt.Sprintf("zodb.Conn: objtab[%s]: load finished, but it is: %#v", oid, x)
}
if err != nil {
// it was loading error - remove the entry not to cause uncontrolled objtab growth.
// if this object is accessed next time - the load will be retried.
delete(conn.objtab[oid])
} else {
conn.objtab[oid] = NewWeakRef(pyobj)
}
*/
/*
{
objentry := conn.objtab[oid]
// someone else is already loading the object.
// we have to wait for that someone to finish the load.
if load, ok := objentry.(*loadInProgress); ok {
conn.objmu.Unlock()
select {
case <-ctx.Done():
return nil, ctx.Err() // XXX err ctx
case <-load.ready:
// XXX check pyclass match
return load.pyobj, err
}
}
// noone else is loading the object. Investigate whether it is simply not
// in objtab, or it is lost weakref, and if so we have to initiate the load.
var xobj interface{}
if objentry != nil {
wobj := objentry.(*WeakRef)
xobj = wobj.Get()
}
if xpyobj != nil {
// the object is already there
conn.objmu.Unlock()
return xpyobj, nil // XXX + activate?
}
// the object is not there, we have to (re)load it.
load := &loadInProgress{ready: make(chan struct)}
conn.objTab[oid] = load
conn.objmu.Unlock()
pyobj, err = conn.loadpy(ctx, oid)
load.pyobj = pyobj
load.err = err
close(load.ready)
// replace objtab entry with WeakRef
conn.objmu.Lock()
defer conn.objmu.Unlock()
if x := conn.objtab[oid]; x != load {
panic(fmt.Sprintf("zodb.Conn: objtab[%s]: load finished, but it is: %#v", oid, x)
}
if err != nil {
// it was loading error - remove the entry not to cause uncontrolled objtab growth.
// if this object is accessed next time - the load will be retried.
delete(conn.objtab[oid])
} else {
conn.objtab[oid] = NewWeakRef(pyobj)
}
}
*/
/*
// XXX -> loadpy
buf, serial, err := conn.stor.Load(ctx, zodb.Xid{Oid: oid, At: conn.at})
if err != nil {
return nil, err
}
pyclass, pystate, err := zodb.PyData(buf.Data).Decode()
if err != nil {
return nil, err // XXX err ctx
}
buf.Release()
return &pyObject{
object: object{jar: conn,oid: oid, serial: serial},
pyclass: pyclass,
pystate: pystate,
}, nil
}
*/
/*
func (conn *Connection) load(ctx context.Context, oid zodb.Oid) (*pyObject, error) {
// XXX
}
*/
wcfs/zodb.go
View file @
d3c86584
...
...
@@ -25,17 +25,22 @@ import (
pickle
"github.com/kisielk/og-rek"
)
// XXX make methods private, e.g. _pJar ?
// Object is the interface that every in-RAM object representing any ZODB object implements.
type
Object
interface
{
// XXX make methods private, e.g. _pJar ?
PJar
()
*
Connection
POid
()
zodb
.
Oid
PJar
()
*
Connection
// Connection this in-RAM object is part of.
POid
()
zodb
.
Oid
// object ID in the database.
// object serial as of database state for particular Connection (PJar).
// 0 if not yet loaded (XXX ok?)
PSerial
()
zodb
.
Tid
// PActivate brings object to live state.
//
// It requests to persistency layer that in-RAM object data to be present.
// If object state
i
s not in RAM - it is loaded from the database.
// If object state
wa
s not in RAM - it is loaded from the database.
//
// On successful return the object data is either the same as in the
// database or, if this data was previously modified by user of
...
...
@@ -53,7 +58,7 @@ type Object interface {
//
// Note that it is valid to have several concurrent uses of object
// data, each protected with corresponding PActivate/PDeactivate pair:
//
A
s long as there is still any PActivate not yet compensated with
//
a
s long as there is still any PActivate not yet compensated with
// corresponding PDeactivate, object data will assuredly stay alive in RAM.
//
// Besides exotic cases, the caller thus must not use object's data
...
...
@@ -66,7 +71,18 @@ type Object interface {
// database, or it was modified, that in-RAM data must be forgotten.
//
// PInvalidate must not be called while there is any in-progress
// object's data use (PActivate / PDeactivate).
// object's data use (PActivate till PDeactivate).
//
// In practice this means that:
//
// - application must make sure to finish all objects accesses
// before transaction boundary: at transaction boundary - either
// at abort or commit, the persistency layer will sync to
// database and process invalidations.
//
// - if PInvalidate is explicitly called by application, the
// application must care to make sure it does not access the
// object data simultaneously.
PInvalidate
()
}
...
...
@@ -79,7 +95,7 @@ type PyObject interface {
}
// object is common base for in-RAM representation of ZODB object.
// object is common base for in-RAM representation of ZODB object
s
.
type
object
struct
{
jar
*
Connection
oid
zodb
.
Oid
...
...
@@ -119,7 +135,7 @@ type LiveCacheControl interface {
//
// The view is representing state of ZODB objects as of `at` transaction.
//
//
XXX
Connection changes are private and are isolated from changes in other Connections.
// Connection changes are private and are isolated from changes in other Connections.
//
// XXX Connection, and {Py}Object methods that relate to it, are not safe for
// modifications from multiple goroutines simultaneously.
...
...
@@ -178,23 +194,12 @@ type Connection struct {
// Hopefully we don't have cycles with ZBtree/ZBucket XXX verify this
objmu
sync
.
Mutex
objtab
map
[
zodb
.
Oid
]
*
WeakRef
// oid -> WeakRef(PyObject)
//objtab map[zodb.Oid]interface{} // oid -> WeakRef(pyObject) | loadInProgress
cacheControl
ConnCacheControl
// hooks for application to influence live caching decisions.
cacheControl
LiveCacheControl
}
/*
// loadInProgress entry in Conn.objtab tells users, that try to get the entry,
// that another goroutine is already in progress of loading it.
type loadInProgress struct {
ready chan struct{} // closed when loading finishes
// result of the load
pyobj interface{} // XXX -> pyObject iface
err error
}
*/
// Get returns in-RAM object corresponding to specified ZODB object according to current database view.
//
...
...
@@ -238,60 +243,6 @@ func (conn *Connection) Get(ctx context.Context, oid zodb.Oid) (interface{} /*Py
return
xobj
,
nil
}
/*
conn.objmu.Lock() // XXX -> rlock
objentry := conn.objtab[oid]
// someone else is already loading the object.
// we have to wait for that someone to finish the load.
if load, ok := objentry.(*loadInProgress); ok {
conn.objmu.Unlock()
select {
case <-ctx.Done():
return nil, ctx.Err() // XXX err ctx
case <-load.ready:
// XXX check pyclass match
return load.pyobj, load.err
}
}
// noone else is loading the object. Investigate whether it is simply not
// in objtab, or it is lost weakref, and if so we have to initiate the load.
var xobj interface{}
if objentry != nil {
wobj := objentry.(*WeakRef)
xobj = wobj.Get()
}
if xpyobj != nil {
// the object is already there
conn.objmu.Unlock()
return xpyobj, nil // XXX + activate?
}
// the object is not there, we have to (re)load it.
load := &loadInProgress{ready: make(chan struct)}
conn.objTab[oid] = load
conn.objmu.Unlock()
pyobj, err = conn.loadpy(ctx, oid)
load.pyobj = pyobj
load.err = err
close(load.ready)
// replace objtab entry with WeakRef
conn.objmu.Lock()
defer conn.objmu.Unlock()
if x := conn.objtab[oid]; x != load {
panic(fmt.Sprintf("zodb.Conn: objtab[%s]: load finished, but it is: %#v", oid, x)
}
if err != nil {
// it was loading error - remove the entry not to cause uncontrolled objtab growth.
// if this object is accessed next time - the load will be retried.
delete(conn.objtab[oid])
} else {
conn.objtab[oid] = NewWeakRef(pyobj)
}
*/
// wrongClassError is the error cause returned when object's class is not what was expected.
type
wrongClassError
struct
{
...
...
@@ -347,90 +298,6 @@ func (conn *Connection) get(pyclass pickle.Class, oid zodb.Oid) (PyObject, error
}
/*
{
objentry := conn.objtab[oid]
// someone else is already loading the object.
// we have to wait for that someone to finish the load.
if load, ok := objentry.(*loadInProgress); ok {
conn.objmu.Unlock()
select {
case <-ctx.Done():
return nil, ctx.Err() // XXX err ctx
case <-load.ready:
// XXX check pyclass match
return load.pyobj, err
}
}
// noone else is loading the object. Investigate whether it is simply not
// in objtab, or it is lost weakref, and if so we have to initiate the load.
var xobj interface{}
if objentry != nil {
wobj := objentry.(*WeakRef)
xobj = wobj.Get()
}
if xpyobj != nil {
// the object is already there
conn.objmu.Unlock()
return xpyobj, nil // XXX + activate?
}
// the object is not there, we have to (re)load it.
load := &loadInProgress{ready: make(chan struct)}
conn.objTab[oid] = load
conn.objmu.Unlock()
pyobj, err = conn.loadpy(ctx, oid)
load.pyobj = pyobj
load.err = err
close(load.ready)
// replace objtab entry with WeakRef
conn.objmu.Lock()
defer conn.objmu.Unlock()
if x := conn.objtab[oid]; x != load {
panic(fmt.Sprintf("zodb.Conn: objtab[%s]: load finished, but it is: %#v", oid, x)
}
if err != nil {
// it was loading error - remove the entry not to cause uncontrolled objtab growth.
// if this object is accessed next time - the load will be retried.
delete(conn.objtab[oid])
} else {
conn.objtab[oid] = NewWeakRef(pyobj)
}
}
*/
/*
// XXX -> loadpy
buf, serial, err := conn.stor.Load(ctx, zodb.Xid{Oid: oid, At: conn.at})
if err != nil {
return nil, err
}
pyclass, pystate, err := zodb.PyData(buf.Data).Decode()
if err != nil {
return nil, err // XXX err ctx
}
buf.Release()
return &pyObject{
object: object{jar: conn,oid: oid, serial: serial},
pyclass: pyclass,
pystate: pystate,
}, nil
}
*/
/*
func (conn *Connection) load(ctx context.Context, oid zodb.Oid) (*pyObject, error) {
// XXX
}
*/
func
(
conn
*
Connection
)
loadpy
(
ctx
context
.
Context
,
oid
zodb
.
Oid
)
(
pyclass
pickle
.
Class
,
pystate
interface
{},
serial
zodb
.
Tid
,
_
error
)
{
buf
,
serial
,
err
:=
conn
.
stor
.
Load
(
ctx
,
zodb
.
Xid
{
Oid
:
oid
,
At
:
conn
.
at
})
if
err
!=
nil
{
...
...
@@ -447,6 +314,7 @@ func (conn *Connection) loadpy(ctx context.Context, oid zodb.Oid) (pyclass pickl
return
pyclass
,
pystate
,
serial
,
nil
}
// path(class) -> new(pyobj)
var
classTab
=
make
(
map
[
string
]
func
(
*
pyObject
)
PyObject
)
...
...
@@ -576,5 +444,6 @@ func (pyobj *pyObject) PDeactivate() {
}
// XXX pyobj.PInvalidate() = deactivate without checking if state != modified
// XXX panic if refcnt != 0 (object being used)
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