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Kirill Smelkov
neo
Commits
e050e32d
Commit
e050e32d
authored
Aug 30, 2017
by
Kirill Smelkov
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parent
50098921
Changes
5
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5 changed files
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83 additions
and
68 deletions
+83
-68
go/neo/client/client.go
go/neo/client/client.go
+80
-28
go/neo/cluster.go
go/neo/cluster.go
+0
-37
go/neo/neo.go
go/neo/neo.go
+2
-1
go/neo/parttab.go
go/neo/parttab.go
+1
-1
go/neo/server/master.go
go/neo/server/master.go
+0
-1
No files found.
go/neo/client/client.go
View file @
e050e32d
...
...
@@ -47,10 +47,27 @@ type Client struct {
talkMasterCancel
func
()
// link to master - established and maintained by talkMaster
// link to master - established and maintained by talkMaster.
// users retrieve it via masterLink.
mlinkMu
sync
.
Mutex
mlink
*
neo
.
NodeLink
mlinkReady
chan
struct
{}
// reinitialized at each new talk cycle
// operational state - maintained by recvMaster.
// users retrieve it via withOperational.
//
// NOTE being operational means:
// - link to master established and is ok
// - .PartTab is operational wrt .NodeTab
// - .ClusterState = RUNNING <- XXX needed?
//
// however master link is accessed separately (see ^^^ and masterLink)
opMu
sync
.
RWMutex
// node.NodeTab
// node.PartTab
// XXX + node.ClusterState
operational
bool
opReady
chan
struct
{}
// reinitialized each time state becomes non-operational
}
var
_
zodb
.
IStorage
=
(
*
Client
)(
nil
)
...
...
@@ -94,14 +111,6 @@ func (c *Client) Close() error {
// --- connection with master ---
/*
// mconnected is result of connecting to master
type mconnected struct {
mlink *neo.NodeLink
ready chan struct{}
}
*/
// masterLink returns link to primary master.
//
// NOTE that even if masterLink returns != nil, the master link can become
...
...
@@ -128,6 +137,31 @@ func (c *Client) masterLink(ctx context.Context) (*neo.NodeLink, error) {
}
}
// withOperational waits for cluster state to be operational.
//
// If successful it returns with operational state RLocked (c.opMu).
//
// the only error possible is if provided ctx cancel.
func
(
c
*
Client
)
withOperational
(
ctx
context
.
Context
)
error
{
for
{
c
.
opMu
.
RLock
()
if
c
.
operational
{
return
nil
}
ready
:=
c
.
opReady
c
.
opMu
.
RUnlock
()
select
{
case
<-
ctx
.
Done
()
:
return
ctx
.
Err
()
case
<-
ready
:
// ok - try to relock and read again.
}
}
}
// talkMaster connects to master, announces self and receives notifications.
// it tries to persist master link reconnecting as needed.
//
...
...
@@ -204,36 +238,48 @@ func (c *Client) talkMaster1(ctx context.Context) (err error) {
})
return
wg
.
Wait
()
}
// recvMaster receives and handles notifications from master
func
(
c
*
Client
)
recvMaster
(
ctx
context
.
Context
,
M
link
*
neo
.
NodeLink
)
error
{
func
(
c
*
Client
)
recvMaster
(
ctx
context
.
Context
,
m
link
*
neo
.
NodeLink
)
error
{
// XXX .nodeTab.Reset()
for
{
req
,
err
:=
Mlink
.
Recv1
()
req
,
err
:=
mlink
.
Recv1
()
if
err
!=
nil
{
return
err
}
err
=
req
.
Close
()
if
err
!=
nil
{
return
err
}
msg
:=
req
.
Msg
switch
msg
.
(
type
)
{
switch
msg
:=
req
.
Msg
.
(
type
)
{
default
:
return
fmt
.
Errorf
(
"unexpected message: %T"
,
msg
)
//case *neo.NotifyPartitionTable:
// // TODO M sends whole PT
// M sends whole PT
case
*
neo
.
NotifyPartitionTable
:
// XXX lock
// XXX update operational
// M sends δPT
//case *neo.NotifyPartitionChanges:
// // TODO M sends δPT
// TODO
case
*
neo
.
NotifyNodeInformation
:
// TODO
// XXX lock
// XXX update operational
// XXX msg.IdTimestamp ?
for
_
,
nodeInfo
:=
range
msg
.
NodeList
{
c
.
node
.
NodeTab
.
Update
(
nodeInfo
,
/*XXX conn should not be here*/
nil
)
}
case
*
neo
.
NotifyClusterState
:
// TODO
// XXX lock
// XXX update operational
c
.
node
.
ClusterState
.
Set
(
msg
.
State
)
}
}
}
...
...
@@ -281,6 +327,8 @@ func (c *Client) LastTid(ctx context.Context) (_ zodb.Tid, err error) {
return
0
,
err
}
// XXX mlink can become down while we are making the call.
// XXX do we want to return error or retry?
reply
:=
neo
.
AnswerLastTransaction
{}
err
=
mlink
.
Ask1
(
&
neo
.
LastTransaction
{},
&
reply
)
// XXX Ask += ctx
if
err
!=
nil
{
...
...
@@ -296,9 +344,14 @@ func (c *Client) LastOid(ctx context.Context) (zodb.Oid, error) {
func
(
c
*
Client
)
Load
(
ctx
context
.
Context
,
xid
zodb
.
Xid
)
(
data
[]
byte
,
serial
zodb
.
Tid
,
err
error
)
{
// XXX err context (but keep zodb errors intact ?)
defer
xerr
.
Context
(
&
err
,
"client: load"
)
err
=
c
.
withOperational
(
ctx
)
if
err
!=
nil
{
return
nil
,
0
,
err
}
// XXX check pt is operational first? -> no if there is no data - we'll
// just won't find ready cell
// XXX wait pt is operational first
//
// XXX or better still check first M told us ok to go? (ClusterState=RUNNING)
//if c.node.ClusterState != ClusterRunning {
...
...
@@ -317,12 +370,11 @@ func (c *Client) Load(ctx context.Context, xid zodb.Xid) (data []byte, serial zo
}
// XXX check stor.State == RUNNING -> in link
Sconn
:=
stor
.
Conn
// XXX temp stub
//
Sconn, err := stor.Conn
()
slink
:=
stor
.
Link
// XXX temp stub
//
slink, err := stor.Link
()
if
err
!=
nil
{
return
nil
,
0
,
err
// XXX err ctx
}
defer
lclose
(
ctx
,
Sconn
)
req
:=
neo
.
GetObject
{
Oid
:
xid
.
Oid
}
if
xid
.
TidBefore
{
...
...
@@ -334,21 +386,21 @@ func (c *Client) Load(ctx context.Context, xid zodb.Xid) (data []byte, serial zo
}
resp
:=
neo
.
AnswerGetObject
{}
err
=
Sconn
.
Ask
(
&
req
,
&
resp
)
err
=
slink
.
Ask1
(
&
req
,
&
resp
)
if
err
!=
nil
{
return
nil
,
0
,
err
// XXX err context
}
checksum
:=
sha1
.
Sum
(
data
)
if
checksum
!=
resp
.
Checksum
{
// XXX data corrupt
panic
(
"TODO"
)
// XXX data corrupt
}
data
=
resp
.
Data
if
resp
.
Compression
{
data
,
err
=
decompress
(
resp
.
Data
,
make
([]
byte
,
0
,
len
(
resp
.
Data
)))
if
err
!=
nil
{
// XXX data corrupt
panic
(
"TODO"
)
// XXX data corrupt
}
}
...
...
go/neo/cluster.go
deleted
100644 → 0
View file @
50098921
// Copyright (C) 2017 Nexedi SA and Contributors.
// Kirill Smelkov <kirr@nexedi.com>
//
// This program is free software: you can Use, Study, Modify and Redistribute
// it under the terms of the GNU General Public License version 3, or (at your
// option) any later version, as published by the Free Software Foundation.
//
// You can also Link and Combine this program with other software covered by
// the terms of any of the Free Software licenses or any of the Open Source
// Initiative approved licenses and Convey the resulting work. Corresponding
// source of such a combination shall include the source code for all other
// software used.
//
// This program is distributed WITHOUT ANY WARRANTY; without even the implied
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
//
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
// XXX goes away - we don't need it.
package
neo
// cluster state XXX
// ClusterInfo represents information about state and participants of a NEO cluster
//
// Usually ClusterInfo is Master's idea about the cluster which Master shares
// with other nodes. XXX text ok?
//
// XXX naming -> ClusterState ? (but conflict with proto.ClusterState)
type
ClusterInfo
struct
{
State
ClusterState
// what is cluster currently doing: recovering/verification/service/...
NodeTab
NodeTable
// nodes participating in the cluster
PartTab
PartitionTable
// data space partitioning
// XXX do we want to put data movement scheduling plans here ?
}
go/neo/neo.go
View file @
e050e32d
...
...
@@ -51,7 +51,7 @@ const (
// NodeCommon is common data in all NEO nodes: Master, Storage & Client XXX text
// XXX naming -> Node ?
type
NodeCommon
struct
{
MyInfo
NodeInfo
// XXX -> only NodeUUID
MyInfo
NodeInfo
ClusterName
string
Net
xnet
.
Networker
// network AP we are sending/receiving on
...
...
@@ -59,6 +59,7 @@ type NodeCommon struct {
NodeTab
NodeTable
// information about nodes in the cluster
PartTab
PartitionTable
// information about data distribution in the cluster
ClusterState
ClusterState
// master idea about cluster state
}
// Dial connects to another node in the cluster
...
...
go/neo/parttab.go
View file @
e050e32d
...
...
@@ -122,7 +122,7 @@ type PartitionTable struct {
// Cell describes one storage in a pid entry in partition table
type
Cell
struct
{
CellInfo
CellInfo
// .uuid + .state
// XXX ? + .haveUpToTid associated node has data up to such tid
// = uptodate if haveUpToTid == lastTid
...
...
go/neo/server/master.go
View file @
e050e32d
...
...
@@ -57,7 +57,6 @@ type Master struct {
partTab
*
neo
.
PartitionTable
// XXX ^ is also in node
clusterState
neo
.
ClusterState
//*/
clusterInfo
neo
.
ClusterInfo
// channels controlling main driver
ctlStart
chan
chan
error
// request to start cluster
...
...
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