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Levin Zimmermann
neoppod
Commits
78681a6e
Commit
78681a6e
authored
Aug 28, 2017
by
Kirill Smelkov
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.
parent
529c4666
Changes
4
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4 changed files
with
123 additions
and
26 deletions
+123
-26
go/neo/client/client.go
go/neo/client/client.go
+3
-10
go/neo/connection.go
go/neo/connection.go
+5
-4
go/neo/nodetab.go
go/neo/nodetab.go
+88
-12
go/neo/server/storage.go
go/neo/server/storage.go
+27
-0
No files found.
go/neo/client/client.go
View file @
78681a6e
...
@@ -100,7 +100,8 @@ func (c *Client) LastOid() (zodb.Oid, error) {
...
@@ -100,7 +100,8 @@ func (c *Client) LastOid() (zodb.Oid, error) {
}
}
func
(
c
*
Client
)
Load
(
xid
zodb
.
Xid
)
(
data
[]
byte
,
tid
zodb
.
Tid
,
err
error
)
{
func
(
c
*
Client
)
Load
(
xid
zodb
.
Xid
)
(
data
[]
byte
,
tid
zodb
.
Tid
,
err
error
)
{
// XXX check pt is operational first?
// XXX check pt is operational first? -> no if there is no data - we'll
// just won't find ready cell
cellv
:=
c
.
node
.
PartTab
.
Get
(
xid
.
Oid
)
cellv
:=
c
.
node
.
PartTab
.
Get
(
xid
.
Oid
)
// XXX cellv = filter(cellv, UP_TO_DATE)
// XXX cellv = filter(cellv, UP_TO_DATE)
cell
:=
cellv
[
rand
.
Intn
(
len
(
cellv
))]
cell
:=
cellv
[
rand
.
Intn
(
len
(
cellv
))]
...
@@ -110,15 +111,7 @@ func (c *Client) Load(xid zodb.Xid) (data []byte, tid zodb.Tid, err error) {
...
@@ -110,15 +111,7 @@ func (c *Client) Load(xid zodb.Xid) (data []byte, tid zodb.Tid, err error) {
}
}
// XXX check stor.State == RUNNING
// XXX check stor.State == RUNNING
//Slink := c.Connect(stor) // single-flight Dial; puts result into stor.Link (XXX ok?)
Sconn
,
err
:=
stor
.
Conn
()
//Slink := stor.Connect() // single-flight Dial; puts result into stor.Link (XXX ok?)
Slink
:=
stor
.
Link
// XXX stub
// TODO maintain conn pool so every new GetObject request does not
// spawn new goroutine on server
// Sconn = stor.GetConn()
// XXX defer if ok stor.PutConn(Sconn)
Sconn
,
err
:=
Slink
.
NewConn
()
if
err
!=
nil
{
if
err
!=
nil
{
panic
(
0
)
// XXX
panic
(
0
)
// XXX
}
}
...
...
go/neo/connection.go
View file @
78681a6e
...
@@ -111,14 +111,14 @@ var ErrClosedConn = errors.New("connection is closed")
...
@@ -111,14 +111,14 @@ var ErrClosedConn = errors.New("connection is closed")
// (think from point of view how user should be handling errors)
// (think from point of view how user should be handling errors)
// XXX or it is good to be able to distinguish between only conn error vs whole-link error?
// XXX or it is good to be able to distinguish between only conn error vs whole-link error?
// LinkError is
usually
returned by NodeLink operations
// LinkError is returned by NodeLink operations
type
LinkError
struct
{
type
LinkError
struct
{
Link
*
NodeLink
Link
*
NodeLink
Op
string
Op
string
Err
error
Err
error
}
}
// ConnError is
usually
returned by Conn operations
// ConnError is returned by Conn operations
type
ConnError
struct
{
type
ConnError
struct
{
Conn
*
Conn
Conn
*
Conn
Op
string
Op
string
...
@@ -277,10 +277,11 @@ func (nl *NodeLink) shutdown() {
...
@@ -277,10 +277,11 @@ func (nl *NodeLink) shutdown() {
}
}
// Close closes node-node link.
// Close closes node-node link.
//
// All blocking operations - Accept and IO on associated connections
// All blocking operations - Accept and IO on associated connections
// established over node link - are automatically interrupted with an error.
// established over node link - are automatically interrupted with an error.
// Underlying raw connection is closed.
// Underlying raw connection is closed.
// It is safe to call Close several times
// It is safe to call Close several times
.
func
(
nl
*
NodeLink
)
Close
()
error
{
func
(
nl
*
NodeLink
)
Close
()
error
{
atomic
.
StoreUint32
(
&
nl
.
closed
,
1
)
atomic
.
StoreUint32
(
&
nl
.
closed
,
1
)
nl
.
shutdown
()
nl
.
shutdown
()
...
@@ -344,7 +345,7 @@ func (c *Conn) Close() error {
...
@@ -344,7 +345,7 @@ func (c *Conn) Close() error {
// ---- receive ----
// ---- receive ----
// Accept waits for and accepts incoming connection on top of node-node link
// Accept waits for and accepts incoming connection on top of node-node link
.
func
(
nl
*
NodeLink
)
Accept
()
(
c
*
Conn
,
err
error
)
{
func
(
nl
*
NodeLink
)
Accept
()
(
c
*
Conn
,
err
error
)
{
defer
func
()
{
defer
func
()
{
if
err
!=
nil
{
if
err
!=
nil
{
...
...
go/neo/nodetab.go
View file @
78681a6e
...
@@ -79,8 +79,6 @@ type NodeTable struct {
...
@@ -79,8 +79,6 @@ type NodeTable struct {
//storv []*Node // storages
//storv []*Node // storages
nodev
[]
*
Node
// all other nodes -> *Peer
nodev
[]
*
Node
// all other nodes -> *Peer
notifyv
[]
chan
NodeInfo
// subscribers
notifyv
[]
chan
NodeInfo
// subscribers
//ver int // ↑ for versioning XXX do we need this?
}
}
...
@@ -92,27 +90,29 @@ const δtRedial = 3 * time.Second
...
@@ -92,27 +90,29 @@ const δtRedial = 3 * time.Second
// Peer represents a peer node in the cluster.
// Peer represents a peer node in the cluster.
type
Peer
struct
{
type
Peer
struct
{
NodeInfo
// .uuid, .addr, ...
NodeInfo
// .type, .addr, .uuid, ... XXX also protect by mu?
// link to this peer
linkMu
sync
.
Mutex
linkMu
sync
.
Mutex
link
*
NodeLink
// link to peer or
nil if not connected
link
*
NodeLink
// link to this peer;
nil if not connected
dialT
time
.
Time
// dialing
finished at this time
dialT
time
.
Time
// last dial
finished at this time
// dialer notifies waiters via this; reinitialized at each redial; nil while not dialing
// dialer notifies waiters via this; reinitialized at each redial; nil while not dialing
//
//
// NOTE duplicates .link to have the following properties:
// NOTE duplicates .link to have the following properties:
//
//
// 1. all waiters of current in-progress dial wakup immediately after
// 1. all waiters of current in-progress dial wak
e
up immediately after
// dial completes and get link/error from dial result.
// dial completes and get link/error from dial result.
//
//
// 2. any .
Connect
() that sees .link=nil starts new redial with throttle
// 2. any .
Link
() that sees .link=nil starts new redial with throttle
// to make sure peer is dialed not faster than δtRedial.
// to make sure peer is dialed not faster than δtRedial.
//
//
// (if we do not have dialing.link waiter will need to relock
// (if we do not have dialing.link waiter will need to relock
// peer.linkMu and for some waiters chances are another .
Connect
()
// peer.linkMu and for some waiters chances are another .
Link
()
// already started redialing and they will have to wait again)
// already started redialing and they will have to wait again)
dialing
*
dialed
dialing
*
dialed
// // live connection pool that user provided back here via .PutConn()
// connPool []*Conn
}
}
// dialed is result of dialing a peer.
// dialed is result of dialing a peer.
...
@@ -122,12 +122,18 @@ type dialed struct {
...
@@ -122,12 +122,18 @@ type dialed struct {
ready
chan
struct
{}
ready
chan
struct
{}
}
}
//
Connect returns link to this peer. XXX -> DialLink ?
//
Link returns link to the peer.
//
//
// If the link was not yet established
Connect
dials the peer appropriately,
// If the link was not yet established
Link
dials the peer appropriately,
// handshakes, requests identification and checks that identification reply is
// handshakes, requests identification and checks that identification reply is
// as expected.
// as expected.
func
(
p
*
Peer
)
Connect
(
ctx
context
.
Context
)
(
*
NodeLink
,
error
)
{
//
// Several Link calls may be done in parallel - in any case only 1 link-level
// dial will be made and others will share established link.
//
// In case Link returns an error - future Link will attempt to reconnect with
// "don't reconnect too fast" throttling.
func
(
p
*
Peer
)
Link
(
ctx
context
.
Context
)
(
*
NodeLink
,
error
)
{
p
.
linkMu
.
Lock
()
p
.
linkMu
.
Lock
()
// ok if already connected
// ok if already connected
...
@@ -193,6 +199,59 @@ func (p *Peer) Connect(ctx context.Context) (*NodeLink, error) {
...
@@ -193,6 +199,59 @@ func (p *Peer) Connect(ctx context.Context) (*NodeLink, error) {
return
dialing
.
link
,
dialing
.
err
return
dialing
.
link
,
dialing
.
err
}
}
// Conn returns conn to the peer.
//
// If there is no link established - conn first dials peer (see Link).
//
// For established link Conn either creates new connection over the link,
// XXX (currently inactive) or gets one from the pool of unused connections (see PutConn).
func
(
p
*
Peer
)
Conn
(
ctx
context
.
Context
)
(
*
Conn
,
error
)
{
var
err
error
/*
p.linkMu.Lock()
if l := len(p.connPool); l > 0 {
conn := p.connPool[l-1]
p.connPool = p.connPool[:l-1]
p.linkMu.Unlock()
return conn, nil
}
*/
// connection poll is empty - let's create new connection from .link
link
:=
p
.
link
p
.
linkMu
.
Unlock
()
// we might need to (re)dial
if
link
==
nil
{
link
,
err
=
p
.
Link
(
ctx
)
if
err
!=
nil
{
return
nil
,
err
}
}
return
link
.
NewConn
()
}
/*
// PutConn saves c in the pool of unused connections.
//
// Since connections saved into pool can be reused by other code, after
// PutConn call the caller must not use the connection directly.
//
// PutConn ignores connections not created for current peer link.
func (p *Peer) PutConn(c *Conn) {
p.linkMu.Lock()
// NOTE we can't panic on p.link != c.Link() - reason is: p.link can change on redial
if p.link == c.Link() {
p.connPool = append(p.connPool, c)
}
p.linkMu.Unlock()
}
*/
// XXX dial does low-level work to dial peer
// XXX dial does low-level work to dial peer
// XXX p.* reading without lock - ok?
// XXX p.* reading without lock - ok?
...
@@ -210,11 +269,13 @@ func (p *Peer) dial(ctx context.Context) (*NodeLink, error) {
...
@@ -210,11 +269,13 @@ func (p *Peer) dial(ctx context.Context) (*NodeLink, error) {
switch
{
switch
{
case
accept
.
NodeType
!=
p
.
Type
:
case
accept
.
NodeType
!=
p
.
Type
:
err
=
fmt
.
Errorf
(
"connected, but peer is not %v (identifies as %v)"
,
p
.
Type
,
accept
.
NodeType
)
err
=
fmt
.
Errorf
(
"connected, but peer is not %v (identifies as %v)"
,
p
.
Type
,
accept
.
NodeType
)
case
accept
.
MyUUID
!=
p
.
UUID
:
case
accept
.
MyUUID
!=
p
.
UUID
:
err
=
fmt
.
Errorf
(
"connected, but peer's uuid is not %v (identifies as %v)"
,
p
.
UUID
,
accept
.
MyUUID
)
err
=
fmt
.
Errorf
(
"connected, but peer's uuid is not %v (identifies as %v)"
,
p
.
UUID
,
accept
.
MyUUID
)
case
accept
.
YourUUID
!=
me
.
MyInfo
.
UUID
:
case
accept
.
YourUUID
!=
me
.
MyInfo
.
UUID
:
err
=
fmt
.
Errorf
(
"connected, but peer gives us uuid %v (our is %v)"
,
accept
.
YourUUID
,
me
.
MyInfo
.
UUID
)
err
=
fmt
.
Errorf
(
"connected, but peer gives us uuid %v (our is %v)"
,
accept
.
YourUUID
,
me
.
MyInfo
.
UUID
)
case
!
(
accept
.
NumPartitions
==
1
&&
accept
.
NumReplicas
==
1
)
:
case
!
(
accept
.
NumPartitions
==
1
&&
accept
.
NumReplicas
==
1
)
:
err
=
fmt
.
Errorf
(
"connected but TODO peer works with ! 1x1 partition table."
)
err
=
fmt
.
Errorf
(
"connected but TODO peer works with ! 1x1 partition table."
)
}
}
...
@@ -230,6 +291,21 @@ func (p *Peer) dial(ctx context.Context) (*NodeLink, error) {
...
@@ -230,6 +291,21 @@ func (p *Peer) dial(ctx context.Context) (*NodeLink, error) {
/* XXX closing .link on .state = DOWN
func (p *Peer) SetState(state NodeState) {
// XXX lock?
p.State = state
traceNodeChanged(nt, node)
if state == DOWN {
if p.link != nil {
lclose(ctx, p.link)
p.link = nil
// XXX clear p.connPool
}
}
nt.notify(node.NodeInfo)
}
*/
...
...
go/neo/server/storage.go
View file @
78681a6e
...
@@ -476,6 +476,33 @@ func (stor *Storage) withWhileOperational(ctx context.Context) (context.Context,
...
@@ -476,6 +476,33 @@ func (stor *Storage) withWhileOperational(ctx context.Context) (context.Context,
return
xcontext
.
Merge
(
ctx
,
opCtx
)
return
xcontext
.
Merge
(
ctx
,
opCtx
)
}
}
func
(
stor
*
Storage
)
serveClient
(
ctx
context
.
Context
,
conn
*
neo
.
Conn
)
{
log
.
Infof
(
ctx
,
"%s: serving new client conn"
,
conn
)
// XXX -> running?
// rederive ctx to be also cancelled if M tells us StopOperation
ctx
,
cancel
:=
stor
.
withWhileOperational
(
ctx
)
defer
cancel
()
link
:=
conn
.
Link
()
for
{
err
:=
stor
.
serveClient1
(
ctx
,
conn
)
if
err
!=
nil
{
return
err
}
lclose
(
conn
)
// keep on going in the same goroutine to avoid goroutine creation overhead
// TODO Accept += timeout, go away if inactive
conn
,
err
=
link
.
Accept
(
ctx
)
if
err
!=
nil
{
// lclose(link) XXX ?
return
err
}
}
}
// serveClient serves incoming connection on which peer identified itself as client
// serveClient serves incoming connection on which peer identified itself as client
// the connection is closed when serveClient returns
// the connection is closed when serveClient returns
// XXX +error return?
// XXX +error return?
...
...
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