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Levin Zimmermann
neoppod
Commits
47f069a5
Commit
47f069a5
authored
Feb 12, 2018
by
Kirill Smelkov
Browse files
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Plain Diff
X move protocol bits into neo/proto/ package
parent
7b4ae7bd
Changes
26
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Showing
26 changed files
with
1009 additions
and
884 deletions
+1009
-884
go/neo/client/client.go
go/neo/client/client.go
+15
-14
go/neo/connection.go
go/neo/connection.go
+51
-48
go/neo/connection_test.go
go/neo/connection_test.go
+34
-31
go/neo/neo.go
go/neo/neo.go
+20
-31
go/neo/nodetab.go
go/neo/nodetab.go
+14
-12
go/neo/parttab.go
go/neo/parttab.go
+11
-10
go/neo/parttab_test.go
go/neo/parttab_test.go
+15
-13
go/neo/pkt.go
go/neo/pkt.go
+18
-15
go/neo/proto/error.go
go/neo/proto/error.go
+3
-2
go/neo/proto/proto-misc.go
go/neo/proto/proto-misc.go
+13
-2
go/neo/proto/proto.go
go/neo/proto/proto.go
+49
-22
go/neo/proto/proto_test.go
go/neo/proto/proto_test.go
+15
-15
go/neo/proto/proto_vs_py_test.go
go/neo/proto/proto_vs_py_test.go
+2
-2
go/neo/proto/protogen.go
go/neo/proto/protogen.go
+19
-19
go/neo/proto/py/pyneo-gen-testdata
go/neo/proto/py/pyneo-gen-testdata
+2
-2
go/neo/proto/zproto-marshal.go
go/neo/proto/zproto-marshal.go
+408
-408
go/neo/proto/zproto-str.go
go/neo/proto/zproto-str.go
+2
-2
go/neo/proto/ztestdata_proto_py_test.go
go/neo/proto/ztestdata_proto_py_test.go
+1
-1
go/neo/proto/ztrace.go
go/neo/proto/ztrace.go
+39
-0
go/neo/server/cluster_test.go
go/neo/server/cluster_test.go
+71
-69
go/neo/server/master.go
go/neo/server/master.go
+74
-73
go/neo/server/server.go
go/neo/server/server.go
+8
-7
go/neo/server/storage.go
go/neo/server/storage.go
+43
-42
go/neo/server/ztrace_test.go
go/neo/server/ztrace_test.go
+15
-6
go/neo/ztrace.go
go/neo/ztrace.go
+13
-38
go/xcommon/packed/packed.go
go/xcommon/packed/packed.go
+54
-0
No files found.
go/neo/client/client.go
View file @
47f069a5
...
...
@@ -36,6 +36,7 @@ import (
"lab.nexedi.com/kirr/go123/xnet"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/neo/internal/common"
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/neo/go/xcommon/log"
...
...
@@ -77,7 +78,7 @@ var _ zodb.IStorageDriver = (*Client)(nil)
// It will connect to master @masterAddr and identify with specified cluster name.
func
NewClient
(
clusterName
,
masterAddr
string
,
net
xnet
.
Networker
)
*
Client
{
cli
:=
&
Client
{
node
:
neo
.
NewNodeApp
(
net
,
ne
o
.
CLIENT
,
clusterName
,
masterAddr
,
""
),
node
:
neo
.
NewNodeApp
(
net
,
prot
o
.
CLIENT
,
clusterName
,
masterAddr
,
""
),
mlinkReady
:
make
(
chan
struct
{}),
operational
:
false
,
opReady
:
make
(
chan
struct
{}),
...
...
@@ -225,7 +226,7 @@ func (c *Client) talkMaster(ctx context.Context) (err error) {
}
func
(
c
*
Client
)
talkMaster1
(
ctx
context
.
Context
)
(
err
error
)
{
mlink
,
accept
,
err
:=
c
.
node
.
Dial
(
ctx
,
ne
o
.
MASTER
,
c
.
node
.
MasterAddr
)
mlink
,
accept
,
err
:=
c
.
node
.
Dial
(
ctx
,
prot
o
.
MASTER
,
c
.
node
.
MasterAddr
)
if
err
!=
nil
{
// FIXME it is not only identification - e.g. ECONNREFUSED
return
err
...
...
@@ -302,17 +303,17 @@ func (c *Client) recvMaster1(ctx context.Context, req neo.Request) error {
return
fmt
.
Errorf
(
"unexpected message: %T"
,
msg
)
// M sends whole PT
case
*
ne
o
.
SendPartitionTable
:
case
*
prot
o
.
SendPartitionTable
:
c
.
node
.
UpdatePartTab
(
ctx
,
msg
)
// M sends δPT
//case *
ne
o.NotifyPartitionChanges:
//case *
prot
o.NotifyPartitionChanges:
// TODO
case
*
ne
o
.
NotifyNodeInformation
:
case
*
prot
o
.
NotifyNodeInformation
:
c
.
node
.
UpdateNodeTab
(
ctx
,
msg
)
case
*
ne
o
.
NotifyClusterState
:
case
*
prot
o
.
NotifyClusterState
:
c
.
node
.
UpdateClusterState
(
ctx
,
msg
)
}
...
...
@@ -328,8 +329,8 @@ func (c *Client) initFromMaster(ctx context.Context, mlink *neo.NodeLink) (err e
defer
task
.
Running
(
&
ctx
,
"init"
)(
&
err
)
// ask M for PT
rpt
:=
ne
o
.
AnswerPartitionTable
{}
err
=
mlink
.
Ask1
(
&
ne
o
.
AskPartitionTable
{},
&
rpt
)
rpt
:=
prot
o
.
AnswerPartitionTable
{}
err
=
mlink
.
Ask1
(
&
prot
o
.
AskPartitionTable
{},
&
rpt
)
if
err
!=
nil
{
return
err
}
...
...
@@ -379,8 +380,8 @@ func (c *Client) LastTid(ctx context.Context) (_ zodb.Tid, err error) {
// XXX mlink can become down while we are making the call.
// XXX do we want to return error or retry?
reply
:=
ne
o
.
AnswerLastTransaction
{}
err
=
mlink
.
Ask1
(
&
ne
o
.
LastTransaction
{},
&
reply
)
// XXX Ask += ctx
reply
:=
prot
o
.
AnswerLastTransaction
{}
err
=
mlink
.
Ask1
(
&
prot
o
.
LastTransaction
{},
&
reply
)
// XXX Ask += ctx
if
err
!=
nil
{
return
0
,
err
// XXX err ctx
}
...
...
@@ -418,7 +419,7 @@ func (c *Client) _Load(ctx context.Context, xid zodb.Xid) (*mem.Buf, zodb.Tid, e
if
cell
.
Readable
()
{
stor
:=
c
.
node
.
NodeTab
.
Get
(
cell
.
UUID
)
// this storage might not yet come up
if
stor
!=
nil
&&
stor
.
State
==
ne
o
.
RUNNING
{
if
stor
!=
nil
&&
stor
.
State
==
prot
o
.
RUNNING
{
storv
=
append
(
storv
,
stor
)
}
}
...
...
@@ -443,13 +444,13 @@ func (c *Client) _Load(ctx context.Context, xid zodb.Xid) (*mem.Buf, zodb.Tid, e
// S decides to send us something)
// on the wire it comes as "before", not "at"
req
:=
ne
o
.
GetObject
{
req
:=
prot
o
.
GetObject
{
Oid
:
xid
.
Oid
,
Tid
:
common
.
At2Before
(
xid
.
At
),
Serial
:
ne
o
.
INVALID_TID
,
Serial
:
prot
o
.
INVALID_TID
,
}
resp
:=
ne
o
.
AnswerObject
{}
resp
:=
prot
o
.
AnswerObject
{}
err
=
slink
.
Ask1
(
&
req
,
&
resp
)
if
err
!=
nil
{
return
nil
,
0
,
err
// XXX err context
...
...
go/neo/connection.go
View file @
47f069a5
...
...
@@ -34,6 +34,9 @@ import (
"sync/atomic"
"time"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/xcommon/packed"
"github.com/someonegg/gocontainer/rbuf"
"lab.nexedi.com/kirr/go123/xbytes"
...
...
@@ -457,7 +460,7 @@ func (c *Conn) shutdownTX() {
}
// shutdownRX marks .rxq as no loner operational and interrupts Recv.
func
(
c
*
Conn
)
shutdownRX
(
errMsg
*
Error
)
{
func
(
c
*
Conn
)
shutdownRX
(
errMsg
*
proto
.
Error
)
{
c
.
rxdownOnce
.
Do
(
func
()
{
// close(c.rxdown) // wakeup Conn.Recv
c
.
downRX
(
errMsg
)
...
...
@@ -467,7 +470,7 @@ func (c *Conn) shutdownRX(errMsg *Error) {
// downRX marks .rxq as no longer operational.
//
// used in shutdownRX and separately to mark RX down for light Conns.
func
(
c
*
Conn
)
downRX
(
errMsg
*
Error
)
{
func
(
c
*
Conn
)
downRX
(
errMsg
*
proto
.
Error
)
{
// let serveRecv know RX is down for this connection
c
.
rxdownFlag
.
Set
(
1
)
// XXX cmpxchg and return if already down?
...
...
@@ -740,7 +743,7 @@ func (nl *NodeLink) serveRecv() {
}
// pkt.ConnId -> Conn
connId
:=
n
toh32
(
pkt
.
Header
()
.
ConnId
)
connId
:=
packed
.
N
toh32
(
pkt
.
Header
()
.
ConnId
)
accept
:=
false
nl
.
connMu
.
Lock
()
...
...
@@ -921,11 +924,11 @@ func (nl *NodeLink) serveRecv() {
// ---- network replies for closed / refused connections ----
var
errConnClosed
=
&
Error
{
PROTOCOL_ERROR
,
"connection closed"
}
var
errConnRefused
=
&
Error
{
PROTOCOL_ERROR
,
"connection refused"
}
var
errConnClosed
=
&
proto
.
Error
{
proto
.
PROTOCOL_ERROR
,
"connection closed"
}
var
errConnRefused
=
&
proto
.
Error
{
proto
.
PROTOCOL_ERROR
,
"connection refused"
}
// replyNoConn sends error message to peer when a packet was sent to closed / nonexistent connection
func
(
link
*
NodeLink
)
replyNoConn
(
connId
uint32
,
errMsg
Msg
)
{
func
(
link
*
NodeLink
)
replyNoConn
(
connId
uint32
,
errMsg
proto
.
Msg
)
{
//fmt.Printf("%s .%d: -> replyNoConn %v\n", link, connId, errMsg)
link
.
sendMsg
(
connId
,
errMsg
)
// ignore errors
//fmt.Printf("%s .%d: replyNoConn(%v) -> %v\n", link, connId, errMsg, err)
...
...
@@ -967,7 +970,7 @@ func (c *Conn) sendPkt(pkt *PktBuf) error {
func
(
c
*
Conn
)
sendPkt2
(
pkt
*
PktBuf
)
error
{
// connId must be set to one associated with this connection
if
pkt
.
Header
()
.
ConnId
!=
h
ton32
(
c
.
connId
)
{
if
pkt
.
Header
()
.
ConnId
!=
packed
.
H
ton32
(
c
.
connId
)
{
panic
(
"Conn.sendPkt: connId wrong"
)
}
...
...
@@ -1052,7 +1055,7 @@ func (nl *NodeLink) serveSend() {
// sendPktDirect sends raw packet with appropriate connection ID directly via link.
func
(
c
*
Conn
)
sendPktDirect
(
pkt
*
PktBuf
)
error
{
// set pkt connId associated with this connection
pkt
.
Header
()
.
ConnId
=
h
ton32
(
c
.
connId
)
pkt
.
Header
()
.
ConnId
=
packed
.
H
ton32
(
c
.
connId
)
// XXX if n.peerLink was just closed by rx->shutdown we'll get ErrNetClosing
err
:=
c
.
link
.
sendPkt
(
pkt
)
...
...
@@ -1108,13 +1111,13 @@ func (nl *NodeLink) recvPkt() (*PktBuf, error) {
// next packet could be already prefetched in part by previous read
if
nl
.
rxbuf
.
Len
()
>
0
{
δn
,
_
:=
nl
.
rxbuf
.
Read
(
data
[
:
pktHeaderLen
])
δn
,
_
:=
nl
.
rxbuf
.
Read
(
data
[
:
p
roto
.
P
ktHeaderLen
])
n
+=
δn
}
// first read to read pkt header and hopefully rest of packet in 1 syscall
if
n
<
pktHeaderLen
{
δn
,
err
:=
io
.
ReadAtLeast
(
nl
.
peerLink
,
data
[
n
:
],
pktHeaderLen
-
n
)
if
n
<
p
roto
.
P
ktHeaderLen
{
δn
,
err
:=
io
.
ReadAtLeast
(
nl
.
peerLink
,
data
[
n
:
],
p
roto
.
P
ktHeaderLen
-
n
)
if
err
!=
nil
{
return
nil
,
err
}
...
...
@@ -1123,8 +1126,8 @@ func (nl *NodeLink) recvPkt() (*PktBuf, error) {
pkth
:=
pkt
.
Header
()
pktLen
:=
int
(
p
ktHeaderLen
+
n
toh32
(
pkth
.
MsgLen
))
// whole packet length
if
pktLen
>
pktMaxSize
{
pktLen
:=
int
(
p
roto
.
PktHeaderLen
+
packed
.
N
toh32
(
pkth
.
MsgLen
))
// whole packet length
if
pktLen
>
p
roto
.
P
ktMaxSize
{
return
nil
,
ErrPktTooBig
}
...
...
@@ -1171,7 +1174,7 @@ func (nl *NodeLink) recvPkt() (*PktBuf, error) {
// On success raw connection is returned wrapped into NodeLink.
// On error raw connection is closed.
func
Handshake
(
ctx
context
.
Context
,
conn
net
.
Conn
,
role
LinkRole
)
(
nl
*
NodeLink
,
err
error
)
{
err
=
handshake
(
ctx
,
conn
,
Protocol
Version
)
err
=
handshake
(
ctx
,
conn
,
proto
.
Version
)
if
err
!=
nil
{
return
nil
,
err
}
...
...
@@ -1450,21 +1453,21 @@ func (c *Conn) err(op string, e error) error {
// ---- exchange of messages ----
//trace:event traceMsgRecv(c *Conn, msg Msg)
//trace:event traceMsgSendPre(l *NodeLink, connId uint32, msg Msg)
//trace:event traceMsgRecv(c *Conn, msg
proto.
Msg)
//trace:event traceMsgSendPre(l *NodeLink, connId uint32, msg
proto.
Msg)
// XXX do we also need traceConnSend?
// msgPack allocates PktBuf and encodes msg into it.
func
msgPack
(
connId
uint32
,
msg
Msg
)
*
PktBuf
{
l
:=
msg
.
neo
MsgEncodedLen
()
buf
:=
pktAlloc
(
pktHeaderLen
+
l
)
func
msgPack
(
connId
uint32
,
msg
proto
.
Msg
)
*
PktBuf
{
l
:=
msg
.
NEO
MsgEncodedLen
()
buf
:=
pktAlloc
(
p
roto
.
P
ktHeaderLen
+
l
)
h
:=
buf
.
Header
()
h
.
ConnId
=
h
ton32
(
connId
)
h
.
MsgCode
=
hton16
(
msg
.
neo
MsgCode
())
h
.
MsgLen
=
h
ton32
(
uint32
(
l
))
// XXX casting: think again
h
.
ConnId
=
packed
.
H
ton32
(
connId
)
h
.
MsgCode
=
packed
.
Hton16
(
msg
.
NEO
MsgCode
())
h
.
MsgLen
=
packed
.
H
ton32
(
uint32
(
l
))
// XXX casting: think again
msg
.
neo
MsgEncode
(
buf
.
Payload
())
msg
.
NEO
MsgEncode
(
buf
.
Payload
())
return
buf
}
...
...
@@ -1472,7 +1475,7 @@ func msgPack(connId uint32, msg Msg) *PktBuf {
// Recv receives message
// it receives packet and decodes message from it
func
(
c
*
Conn
)
Recv
()
(
Msg
,
error
)
{
func
(
c
*
Conn
)
Recv
()
(
proto
.
Msg
,
error
)
{
pkt
,
err
:=
c
.
recvPkt
()
if
err
!=
nil
{
return
nil
,
err
...
...
@@ -1483,11 +1486,11 @@ func (c *Conn) Recv() (Msg, error) {
return
msg
,
err
}
func
(
c
*
Conn
)
_Recv
(
pkt
*
PktBuf
)
(
Msg
,
error
)
{
func
(
c
*
Conn
)
_Recv
(
pkt
*
PktBuf
)
(
proto
.
Msg
,
error
)
{
// decode packet
pkth
:=
pkt
.
Header
()
msgCode
:=
n
toh16
(
pkth
.
MsgCode
)
msgType
:=
msgTypeRegistry
[
msgCode
]
msgCode
:=
packed
.
N
toh16
(
pkth
.
MsgCode
)
msgType
:=
proto
.
MsgType
(
msgCode
)
if
msgType
==
nil
{
err
:=
fmt
.
Errorf
(
"invalid msgCode (%d)"
,
msgCode
)
// XXX "decode" -> "recv: decode"?
...
...
@@ -1495,11 +1498,11 @@ func (c *Conn) _Recv(pkt *PktBuf) (Msg, error) {
}
// TODO use free-list for decoded messages + when possible decode in-place
msg
:=
reflect
.
New
(
msgType
)
.
Interface
()
.
(
Msg
)
msg
:=
reflect
.
New
(
msgType
)
.
Interface
()
.
(
proto
.
Msg
)
// msg := reflect.NewAt(msgType, bufAlloc(msgType.Size())
_
,
err
:=
msg
.
neo
MsgDecode
(
pkt
.
Payload
())
_
,
err
:=
msg
.
NEO
MsgDecode
(
pkt
.
Payload
())
if
err
!=
nil
{
return
nil
,
c
.
err
(
"decode"
,
err
)
// XXX "decode:" is already in ErrDecodeOverflow
}
...
...
@@ -1513,7 +1516,7 @@ func (c *Conn) _Recv(pkt *PktBuf) (Msg, error) {
// it encodes message int packet, sets header appropriately and sends it.
//
// it is ok to call sendMsg in parallel with serveSend. XXX link to sendPktDirect for rationale?
func
(
link
*
NodeLink
)
sendMsg
(
connId
uint32
,
msg
Msg
)
error
{
func
(
link
*
NodeLink
)
sendMsg
(
connId
uint32
,
msg
proto
.
Msg
)
error
{
traceMsgSendPre
(
link
,
connId
,
msg
)
buf
:=
msgPack
(
connId
,
msg
)
...
...
@@ -1524,14 +1527,14 @@ func (link *NodeLink) sendMsg(connId uint32, msg Msg) error {
// Send sends message.
//
// it encodes message into packet and sends it.
func
(
c
*
Conn
)
Send
(
msg
Msg
)
error
{
func
(
c
*
Conn
)
Send
(
msg
proto
.
Msg
)
error
{
traceMsgSendPre
(
c
.
link
,
c
.
connId
,
msg
)
buf
:=
msgPack
(
c
.
connId
,
msg
)
return
c
.
sendPkt
(
buf
)
// XXX more context in err? (msg type)
}
func
(
c
*
Conn
)
sendMsgDirect
(
msg
Msg
)
error
{
func
(
c
*
Conn
)
sendMsgDirect
(
msg
proto
.
Msg
)
error
{
return
c
.
link
.
sendMsg
(
c
.
connId
,
msg
)
}
...
...
@@ -1542,7 +1545,7 @@ func (c *Conn) sendMsgDirect(msg Msg) error {
// which indicates index of received message.
//
// on error (-1, err) is returned
func
(
c
*
Conn
)
Expect
(
msgv
...
Msg
)
(
which
int
,
err
error
)
{
func
(
c
*
Conn
)
Expect
(
msgv
...
proto
.
Msg
)
(
which
int
,
err
error
)
{
// XXX a bit dup wrt Recv
pkt
,
err
:=
c
.
recvPkt
()
if
err
!=
nil
{
...
...
@@ -1554,13 +1557,13 @@ func (c *Conn) Expect(msgv ...Msg) (which int, err error) {
return
which
,
err
}
func
(
c
*
Conn
)
_Expect
(
pkt
*
PktBuf
,
msgv
...
Msg
)
(
int
,
error
)
{
func
(
c
*
Conn
)
_Expect
(
pkt
*
PktBuf
,
msgv
...
proto
.
Msg
)
(
int
,
error
)
{
pkth
:=
pkt
.
Header
()
msgCode
:=
n
toh16
(
pkth
.
MsgCode
)
msgCode
:=
packed
.
N
toh16
(
pkth
.
MsgCode
)
for
i
,
msg
:=
range
msgv
{
if
msg
.
neo
MsgCode
()
==
msgCode
{
_
,
err
:=
msg
.
neo
MsgDecode
(
pkt
.
Payload
())
if
msg
.
NEO
MsgCode
()
==
msgCode
{
_
,
err
:=
msg
.
NEO
MsgDecode
(
pkt
.
Payload
())
if
err
!=
nil
{
return
-
1
,
c
.
err
(
"decode"
,
err
)
}
...
...
@@ -1569,7 +1572,7 @@ func (c *Conn) _Expect(pkt *PktBuf, msgv ...Msg) (int, error) {
}
// unexpected message
msgType
:=
msgTypeRegistry
[
msgCode
]
msgType
:=
proto
.
MsgType
(
msgCode
)
if
msgType
==
nil
{
return
-
1
,
c
.
err
(
"decode"
,
fmt
.
Errorf
(
"invalid msgCode (%d)"
,
msgCode
))
}
...
...
@@ -1583,19 +1586,19 @@ func (c *Conn) _Expect(pkt *PktBuf, msgv ...Msg) (int, error) {
// It expects response to be exactly of resp type and errors otherwise
// XXX clarify error semantic (when Error is decoded)
// XXX do the same as Expect wrt respv ?
func
(
c
*
Conn
)
Ask
(
req
Msg
,
resp
Msg
)
error
{
func
(
c
*
Conn
)
Ask
(
req
proto
.
Msg
,
resp
proto
.
Msg
)
error
{
err
:=
c
.
Send
(
req
)
if
err
!=
nil
{
return
err
}
nerr
:=
&
Error
{}
nerr
:=
&
proto
.
Error
{}
which
,
err
:=
c
.
Expect
(
resp
,
nerr
)
switch
which
{
case
0
:
return
nil
case
1
:
return
ErrDecode
(
nerr
)
return
proto
.
ErrDecode
(
nerr
)
}
return
err
...
...
@@ -1637,7 +1640,7 @@ func (c *Conn) lightClose() {
//
// Request represents 1 request - 0|1 reply interaction model XXX
type
Request
struct
{
Msg
Msg
Msg
proto
.
Msg
conn
*
Conn
}
...
...
@@ -1668,7 +1671,7 @@ func (link *NodeLink) Recv1() (Request, error) {
// Reply sends response to request.
//
// XXX doc
func
(
req
*
Request
)
Reply
(
resp
Msg
)
error
{
func
(
req
*
Request
)
Reply
(
resp
proto
.
Msg
)
error
{
return
req
.
conn
.
sendMsgDirect
(
resp
)
//err1 := req.conn.Send(resp)
//err2 := req.conn.Close() // XXX no - only Send here?
...
...
@@ -1690,7 +1693,7 @@ func (req *Request) Close() { // XXX +error?
// Send1 sends one message over link.
//
// XXX doc
func
(
link
*
NodeLink
)
Send1
(
msg
Msg
)
error
{
func
(
link
*
NodeLink
)
Send1
(
msg
proto
.
Msg
)
error
{
conn
,
err
:=
link
.
NewConn
()
if
err
!=
nil
{
return
err
...
...
@@ -1708,7 +1711,7 @@ func (link *NodeLink) Send1(msg Msg) error {
//
// See Conn.Ask for semantic details.
// XXX doc
func
(
link
*
NodeLink
)
Ask1
(
req
Msg
,
resp
Msg
)
(
err
error
)
{
func
(
link
*
NodeLink
)
Ask1
(
req
proto
.
Msg
,
resp
proto
.
Msg
)
(
err
error
)
{
conn
,
err
:=
link
.
NewConn
()
if
err
!=
nil
{
return
err
...
...
@@ -1720,19 +1723,19 @@ func (link *NodeLink) Ask1(req Msg, resp Msg) (err error) {
return
err
}
func
(
conn
*
Conn
)
_Ask1
(
req
Msg
,
resp
Msg
)
error
{
func
(
conn
*
Conn
)
_Ask1
(
req
proto
.
Msg
,
resp
proto
.
Msg
)
error
{
err
:=
conn
.
sendMsgDirect
(
req
)
if
err
!=
nil
{
return
err
}
nerr
:=
&
Error
{}
nerr
:=
&
proto
.
Error
{}
which
,
err
:=
conn
.
Expect
(
resp
,
nerr
)
switch
which
{
case
0
:
return
nil
case
1
:
return
ErrDecode
(
nerr
)
return
proto
.
ErrDecode
(
nerr
)
}
return
err
...
...
go/neo/connection_test.go
View file @
47f069a5
...
...
@@ -35,7 +35,10 @@ import (
"lab.nexedi.com/kirr/go123/exc"
"lab.nexedi.com/kirr/go123/xerr"
"lab.nexedi.com/kirr/neo/go/xcommon/packed"
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"github.com/kylelemons/godebug/pretty"
"github.com/pkg/errors"
...
...
@@ -103,11 +106,11 @@ func xconnError(err error) error {
// Prepare PktBuf with content
func
_mkpkt
(
connid
uint32
,
msgcode
uint16
,
payload
[]
byte
)
*
PktBuf
{
pkt
:=
&
PktBuf
{
make
([]
byte
,
pktHeaderLen
+
len
(
payload
))}
pkt
:=
&
PktBuf
{
make
([]
byte
,
p
roto
.
P
ktHeaderLen
+
len
(
payload
))}
h
:=
pkt
.
Header
()
h
.
ConnId
=
h
ton32
(
connid
)
h
.
MsgCode
=
h
ton16
(
msgcode
)
h
.
MsgLen
=
h
ton32
(
uint32
(
len
(
payload
)))
h
.
ConnId
=
packed
.
H
ton32
(
connid
)
h
.
MsgCode
=
packed
.
H
ton16
(
msgcode
)
h
.
MsgLen
=
packed
.
H
ton32
(
uint32
(
len
(
payload
)))
copy
(
pkt
.
Payload
(),
payload
)
return
pkt
}
...
...
@@ -122,14 +125,14 @@ func xverifyPkt(pkt *PktBuf, connid uint32, msgcode uint16, payload []byte) {
errv
:=
xerr
.
Errorv
{}
h
:=
pkt
.
Header
()
// TODO include caller location
if
n
toh32
(
h
.
ConnId
)
!=
connid
{
errv
.
Appendf
(
"header: unexpected connid %v (want %v)"
,
n
toh32
(
h
.
ConnId
),
connid
)
if
packed
.
N
toh32
(
h
.
ConnId
)
!=
connid
{
errv
.
Appendf
(
"header: unexpected connid %v (want %v)"
,
packed
.
N
toh32
(
h
.
ConnId
),
connid
)
}
if
n
toh16
(
h
.
MsgCode
)
!=
msgcode
{
errv
.
Appendf
(
"header: unexpected msgcode %v (want %v)"
,
n
toh16
(
h
.
MsgCode
),
msgcode
)
if
packed
.
N
toh16
(
h
.
MsgCode
)
!=
msgcode
{
errv
.
Appendf
(
"header: unexpected msgcode %v (want %v)"
,
packed
.
N
toh16
(
h
.
MsgCode
),
msgcode
)
}
if
n
toh32
(
h
.
MsgLen
)
!=
uint32
(
len
(
payload
))
{
errv
.
Appendf
(
"header: unexpected msglen %v (want %v)"
,
n
toh32
(
h
.
MsgLen
),
len
(
payload
))
if
packed
.
N
toh32
(
h
.
MsgLen
)
!=
uint32
(
len
(
payload
))
{
errv
.
Appendf
(
"header: unexpected msglen %v (want %v)"
,
packed
.
N
toh32
(
h
.
MsgLen
),
len
(
payload
))
}
if
!
bytes
.
Equal
(
pkt
.
Payload
(),
payload
)
{
errv
.
Appendf
(
"payload differ:
\n
%s"
,
...
...
@@ -140,10 +143,10 @@ func xverifyPkt(pkt *PktBuf, connid uint32, msgcode uint16, payload []byte) {
}
// Verify PktBuf to match expected message
func
xverifyPktMsg
(
pkt
*
PktBuf
,
connid
uint32
,
msg
Msg
)
{
data
:=
make
([]
byte
,
msg
.
neo
MsgEncodedLen
())
msg
.
neo
MsgEncode
(
data
)
xverifyPkt
(
pkt
,
connid
,
msg
.
neo
MsgCode
(),
data
)
func
xverifyPktMsg
(
pkt
*
PktBuf
,
connid
uint32
,
msg
proto
.
Msg
)
{
data
:=
make
([]
byte
,
msg
.
NEO
MsgEncodedLen
())
msg
.
NEO
MsgEncode
(
data
)
xverifyPkt
(
pkt
,
connid
,
msg
.
NEO
MsgCode
(),
data
)
}
// delay a bit
...
...
@@ -625,7 +628,7 @@ func TestNodeLink(t *testing.T) {
gox
(
wg
,
func
()
{
pkt
:=
xrecvPkt
(
c
)
n
:=
n
toh16
(
pkt
.
Header
()
.
MsgCode
)
n
:=
packed
.
N
toh16
(
pkt
.
Header
()
.
MsgCode
)
x
:=
replyOrder
[
n
]
// wait before it is our turn & echo pkt back
...
...
@@ -743,12 +746,12 @@ func TestHandshake(t *testing.T) {
// ---- recv1 mode ----
func
xSend
(
c
*
Conn
,
msg
Msg
)
{
func
xSend
(
c
*
Conn
,
msg
proto
.
Msg
)
{
err
:=
c
.
Send
(
msg
)
exc
.
Raiseif
(
err
)
}
func
xRecv
(
c
*
Conn
)
Msg
{
func
xRecv
(
c
*
Conn
)
proto
.
Msg
{
msg
,
err
:=
c
.
Recv
()
exc
.
Raiseif
(
err
)
return
msg
...
...
@@ -760,12 +763,12 @@ func xRecv1(l *NodeLink) Request {
return
req
}
func
xSend1
(
l
*
NodeLink
,
msg
Msg
)
{
func
xSend1
(
l
*
NodeLink
,
msg
proto
.
Msg
)
{
err
:=
l
.
Send1
(
msg
)
exc
.
Raiseif
(
err
)
}
func
xverifyMsg
(
msg1
,
msg2
Msg
)
{
func
xverifyMsg
(
msg1
,
msg2
proto
.
Msg
)
{
if
!
reflect
.
DeepEqual
(
msg1
,
msg2
)
{
exc
.
Raisef
(
"messages differ:
\n
%s"
,
pretty
.
Compare
(
msg1
,
msg2
))
}
...
...
@@ -789,8 +792,8 @@ func TestRecv1Mode(t *testing.T) {
//println("X aaa + 1")
msg
:=
xRecv
(
c
)
//println("X aaa + 2")
xverifyMsg
(
msg
,
&
Ping
{})
xSend
(
c
,
&
Pong
{})
xverifyMsg
(
msg
,
&
proto
.
Ping
{})
xSend
(
c
,
&
proto
.
Pong
{})
//println("X aaa + 3")
msg
=
xRecv
(
c
)
//println("X aaa + 4")
...
...
@@ -803,8 +806,8 @@ func TestRecv1Mode(t *testing.T) {
c
=
xaccept
(
nl2
)
msg
=
xRecv
(
c
)
//fmt.Println("X zzz + 1", c, msg)
xverifyMsg
(
msg
,
&
Error
{
ACK
,
"hello up there"
})
xSend
(
c
,
&
Error
{
ACK
,
"hello to you too"
})
xverifyMsg
(
msg
,
&
proto
.
Error
{
proto
.
ACK
,
"hello up there"
})
xSend
(
c
,
&
proto
.
Error
{
proto
.
ACK
,
"hello to you too"
})
msg
=
xRecv
(
c
)
//println("X zzz + 2")
xverifyMsg
(
msg
,
errConnClosed
)
...
...
@@ -813,14 +816,14 @@ func TestRecv1Mode(t *testing.T) {
})
//println("aaa")
xSend1
(
nl1
,
&
Ping
{})
xSend1
(
nl1
,
&
proto
.
Ping
{})
// before next Send1 wait till peer receives errConnClosed from us
// otherwise peer could be already in accept while our errConnClosed is received
// and there is only one receiving thread there ^^^
<-
sync
//println("bbb")
xSend1
(
nl1
,
&
Error
{
ACK
,
"hello up there"
})
xSend1
(
nl1
,
&
proto
.
Error
{
proto
.
ACK
,
"hello up there"
})
//println("ccc")
xwait
(
wg
)
...
...
@@ -832,9 +835,9 @@ func TestRecv1Mode(t *testing.T) {
c
:=
xnewconn
(
nl2
)
//println("aaa")
xSend
(
c
,
&
Ping
{})
xSend
(
c
,
&
proto
.
Ping
{})
//println("bbb")
xSend
(
c
,
&
Ping
{})
xSend
(
c
,
&
proto
.
Ping
{})
//println("ccc")
msg
:=
xRecv
(
c
)
//println("ddd")
...
...
@@ -1158,8 +1161,8 @@ func benchmarkLinkRTT(b *testing.B, l1, l2 *NodeLink) {
default
:
b
.
Fatalf
(
"read -> unexpected message %T"
,
msg
)
case
*
GetObject
:
err
=
req
.
Reply
(
&
AnswerObject
{
case
*
proto
.
GetObject
:
err
=
req
.
Reply
(
&
proto
.
AnswerObject
{
Oid
:
msg
.
Oid
,
Serial
:
msg
.
Serial
,
DataSerial
:
msg
.
Tid
,
...
...
@@ -1175,8 +1178,8 @@ func benchmarkLinkRTT(b *testing.B, l1, l2 *NodeLink) {
for
i
:=
0
;
i
<
b
.
N
;
i
++
{
// NOTE keeping inside loop to simulate what happens in real Load
get
:=
&
GetObject
{}
obj
:=
&
AnswerObject
{}
get
:=
&
proto
.
GetObject
{}
obj
:=
&
proto
.
AnswerObject
{}
get
.
Oid
=
zodb
.
Oid
(
i
)
get
.
Serial
=
zodb
.
Tid
(
i
+
1
)
...
...
go/neo/neo.go
View file @
47f069a5
...
...
@@ -38,26 +38,15 @@ import (
"lab.nexedi.com/kirr/neo/go/xcommon/log"
"lab.nexedi.com/kirr/neo/go/xcommon/task"
//"lab.nexedi.com/kirr/neo/go/xcommon/xio"
"lab.nexedi.com/kirr/neo/go/zodb"
)
const
(
//INVALID_UUID UUID = 0
// XXX -> zodb?
INVALID_TID
zodb
.
Tid
=
1
<<
64
-
1
// 0xffffffffffffffff
INVALID_OID
zodb
.
Oid
=
1
<<
64
-
1
// OID_LEN = 8
// TID_LEN = 8
"lab.nexedi.com/kirr/neo/go/neo/proto"
)
// NodeApp is base for implementing NEO node applications.
//
// XXX -> internal?
type
NodeApp
struct
{
MyInfo
NodeInfo
MyInfo
proto
.
NodeInfo
ClusterName
string
Net
xnet
.
Networker
// network AP we are sending/receiving on
...
...
@@ -66,22 +55,22 @@ type NodeApp struct {
StateMu
sync
.
RWMutex
// <- XXX just embed?
NodeTab
*
NodeTable
// information about nodes in the cluster
PartTab
*
PartitionTable
// information about data distribution in the cluster
ClusterState
ClusterState
// master idea about cluster state
ClusterState
proto
.
ClusterState
// master idea about cluster state
// should be set by user so NodeApp can notify when master tells this node to shutdown
OnShutdown
func
()
}
// NewNodeApp creates new node application
func
NewNodeApp
(
net
xnet
.
Networker
,
typ
NodeType
,
clusterName
,
masterAddr
,
serveAddr
string
)
*
NodeApp
{
func
NewNodeApp
(
net
xnet
.
Networker
,
typ
proto
.
NodeType
,
clusterName
,
masterAddr
,
serveAddr
string
)
*
NodeApp
{
// convert serveAddr into neo format
addr
,
err
:=
AddrString
(
net
.
Network
(),
serveAddr
)
addr
,
err
:=
proto
.
AddrString
(
net
.
Network
(),
serveAddr
)
if
err
!=
nil
{
panic
(
err
)
// XXX
}
app
:=
&
NodeApp
{
MyInfo
:
NodeInfo
{
Type
:
typ
,
Addr
:
addr
,
IdTime
:
IdTimeNone
},
MyInfo
:
proto
.
NodeInfo
{
Type
:
typ
,
Addr
:
addr
,
IdTime
:
proto
.
IdTimeNone
},
ClusterName
:
clusterName
,
Net
:
net
,
MasterAddr
:
masterAddr
,
...
...
@@ -103,7 +92,7 @@ func NewNodeApp(net xnet.Networker, typ NodeType, clusterName, masterAddr, serve
//
// Dial does not update .NodeTab or its node entries in any way.
// For establishing links to peers present in .NodeTab use Node.Dial.
func
(
app
*
NodeApp
)
Dial
(
ctx
context
.
Context
,
peerType
NodeType
,
addr
string
)
(
_
*
NodeLink
,
_
*
AcceptIdentification
,
err
error
)
{
func
(
app
*
NodeApp
)
Dial
(
ctx
context
.
Context
,
peerType
proto
.
NodeType
,
addr
string
)
(
_
*
NodeLink
,
_
*
proto
.
AcceptIdentification
,
err
error
)
{
defer
task
.
Runningf
(
&
ctx
,
"dial %v (%v)"
,
addr
,
peerType
)(
&
err
)
link
,
err
:=
DialLink
(
ctx
,
app
.
Net
,
addr
)
...
...
@@ -125,14 +114,14 @@ func (app *NodeApp) Dial(ctx context.Context, peerType NodeType, addr string) (_
}
}()
req
:=
&
RequestIdentification
{
req
:=
&
proto
.
RequestIdentification
{
NodeType
:
app
.
MyInfo
.
Type
,
UUID
:
app
.
MyInfo
.
UUID
,
Address
:
app
.
MyInfo
.
Addr
,
ClusterName
:
app
.
ClusterName
,
IdTime
:
app
.
MyInfo
.
IdTime
,
// XXX ok?
}
accept
:=
&
AcceptIdentification
{}
accept
:=
&
proto
.
AcceptIdentification
{}
// FIXME error if peer sends us something with another connID
// (currently we ignore and serveRecv will deadlock)
//
...
...
@@ -179,7 +168,7 @@ func (app *NodeApp) Listen() (Listener, error) {
// NOTE listen("tcp", ":1234") gives l.Addr 0.0.0.0:1234 and
// listen("tcp6", ":1234") gives l.Addr [::]:1234
// -> host is never empty
addr
,
err
:=
Addr
(
ll
.
Addr
())
addr
,
err
:=
proto
.
Addr
(
ll
.
Addr
())
if
err
!=
nil
{
// XXX -> panic here ?
ll
.
Close
()
...
...
@@ -216,7 +205,7 @@ type Listener interface {
// After successful accept it is the caller responsibility to reply the request.
//
// NOTE established link is Request.Link().
Accept
(
ctx
context
.
Context
)
(
*
Request
,
*
RequestIdentification
,
error
)
Accept
(
ctx
context
.
Context
)
(
*
Request
,
*
proto
.
RequestIdentification
,
error
)
}
type
listener
struct
{
...
...
@@ -227,7 +216,7 @@ type listener struct {
type
accepted
struct
{
req
*
Request
idReq
*
RequestIdentification
idReq
*
proto
.
RequestIdentification
err
error
}
...
...
@@ -284,7 +273,7 @@ func (l *listener) accept(link *NodeLink, err error) {
}
}
func
(
l
*
listener
)
accept1
(
ctx
context
.
Context
,
link
*
NodeLink
,
err0
error
)
(
_
*
Request
,
_
*
RequestIdentification
,
err
error
)
{
func
(
l
*
listener
)
accept1
(
ctx
context
.
Context
,
link
*
NodeLink
,
err0
error
)
(
_
*
Request
,
_
*
proto
.
RequestIdentification
,
err
error
)
{
if
err0
!=
nil
{
return
nil
,
nil
,
err0
}
...
...
@@ -299,16 +288,16 @@ func (l *listener) accept1(ctx context.Context, link *NodeLink, err0 error) (_ *
}
switch
msg
:=
req
.
Msg
.
(
type
)
{
case
*
RequestIdentification
:
case
*
proto
.
RequestIdentification
:
return
&
req
,
msg
,
nil
}
emsg
:=
&
Error
{
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
.
Msg
)}
emsg
:=
&
proto
.
Error
{
proto
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
.
Msg
)}
req
.
Reply
(
emsg
)
// XXX err
return
nil
,
nil
,
emsg
}
func
(
l
*
listener
)
Accept
(
ctx
context
.
Context
)
(
*
Request
,
*
RequestIdentification
,
error
)
{
func
(
l
*
listener
)
Accept
(
ctx
context
.
Context
)
(
*
Request
,
*
proto
.
RequestIdentification
,
error
)
{
select
{
case
<-
l
.
closed
:
// we know raw listener is already closed - return proper error about it
...
...
@@ -330,7 +319,7 @@ func (l *listener) Addr() net.Addr {
// ----------------------------------------
// UpdateNodeTab applies updates to .NodeTab from message and logs changes appropriately.
func
(
app
*
NodeApp
)
UpdateNodeTab
(
ctx
context
.
Context
,
msg
*
NotifyNodeInformation
)
{
func
(
app
*
NodeApp
)
UpdateNodeTab
(
ctx
context
.
Context
,
msg
*
proto
.
NotifyNodeInformation
)
{
// XXX msg.IdTime ?
for
_
,
nodeInfo
:=
range
msg
.
NodeList
{
log
.
Infof
(
ctx
,
"node update: %v"
,
nodeInfo
)
...
...
@@ -344,7 +333,7 @@ func (app *NodeApp) UpdateNodeTab(ctx context.Context, msg *NotifyNodeInformatio
app
.
MyInfo
.
IdTime
=
nodeInfo
.
IdTime
// FIXME hack - better it be separate command and handled cleanly
if
nodeInfo
.
State
==
DOWN
{
if
nodeInfo
.
State
==
proto
.
DOWN
{
log
.
Info
(
ctx
,
"master told us to shutdown"
)
log
.
Flush
()
app
.
OnShutdown
()
...
...
@@ -359,7 +348,7 @@ func (app *NodeApp) UpdateNodeTab(ctx context.Context, msg *NotifyNodeInformatio
}
// UpdatePartTab applies updates to .PartTab from message and logs changes appropriately.
func
(
app
*
NodeApp
)
UpdatePartTab
(
ctx
context
.
Context
,
msg
*
SendPartitionTable
)
{
func
(
app
*
NodeApp
)
UpdatePartTab
(
ctx
context
.
Context
,
msg
*
proto
.
SendPartitionTable
)
{
pt
:=
PartTabFromDump
(
msg
.
PTid
,
msg
.
RowList
)
// XXX logging under lock
log
.
Infof
(
ctx
,
"parttab update: %v"
,
pt
)
...
...
@@ -367,7 +356,7 @@ func (app *NodeApp) UpdatePartTab(ctx context.Context, msg *SendPartitionTable)
}
// UpdateClusterState applies update to .ClusterState from message and logs change appropriately.
func
(
app
*
NodeApp
)
UpdateClusterState
(
ctx
context
.
Context
,
msg
*
NotifyClusterState
)
{
func
(
app
*
NodeApp
)
UpdateClusterState
(
ctx
context
.
Context
,
msg
*
proto
.
NotifyClusterState
)
{
// XXX loging under lock
log
.
Infof
(
ctx
,
"state update: %v"
,
msg
.
State
)
app
.
ClusterState
.
Set
(
msg
.
State
)
...
...
go/neo/nodetab.go
View file @
47f069a5
...
...
@@ -27,6 +27,8 @@ import (
"sync"
"time"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/xcommon/log"
"lab.nexedi.com/kirr/neo/go/xcommon/task"
)
...
...
@@ -67,7 +69,7 @@ type NodeTable struct {
//storv []*Node // storages
nodev
[]
*
Node
// all other nodes
notifyv
[]
chan
NodeInfo
// subscribers
notifyv
[]
chan
proto
.
NodeInfo
// subscribers
}
//trace:event traceNodeChanged(nt *NodeTable, n *Node)
...
...
@@ -78,7 +80,7 @@ type NodeTable struct {
type
Node
struct
{
nodeTab
*
NodeTable
// this node is part of
NodeInfo
// .type, .addr, .uuid, ... XXX also protect by mu?
proto
.
NodeInfo
// .type, .addr, .uuid, ... XXX also protect by mu?
linkMu
sync
.
Mutex
link
*
NodeLink
// link to this peer; nil if not connected
...
...
@@ -115,7 +117,7 @@ func (nt *NodeTable) All() []*Node {
}
// Get finds node by uuid.
func
(
nt
*
NodeTable
)
Get
(
uuid
NodeUUID
)
*
Node
{
func
(
nt
*
NodeTable
)
Get
(
uuid
proto
.
NodeUUID
)
*
Node
{
// FIXME linear scan
for
_
,
node
:=
range
nt
.
nodev
{
if
node
.
UUID
==
uuid
{
...
...
@@ -130,7 +132,7 @@ func (nt *NodeTable) Get(uuid NodeUUID) *Node {
// Update updates information about a node.
//
// it returns corresponding node entry for convenience.
func
(
nt
*
NodeTable
)
Update
(
nodeInfo
NodeInfo
)
*
Node
{
func
(
nt
*
NodeTable
)
Update
(
nodeInfo
proto
.
NodeInfo
)
*
Node
{
node
:=
nt
.
Get
(
nodeInfo
.
UUID
)
if
node
==
nil
{
node
=
&
Node
{
nodeTab
:
nt
}
...
...
@@ -156,7 +158,7 @@ func (nt *NodeTable) StorageList() []*Node {
// FIXME linear scan
sl
:=
[]
*
Node
{}
for
_
,
node
:=
range
nt
.
nodev
{
if
node
.
Type
==
STORAGE
{
if
node
.
Type
==
proto
.
STORAGE
{
sl
=
append
(
sl
,
node
)
}
}
...
...
@@ -165,7 +167,7 @@ func (nt *NodeTable) StorageList() []*Node {
// XXX doc
func
(
n
*
Node
)
SetState
(
state
NodeState
)
{
func
(
n
*
Node
)
SetState
(
state
proto
.
NodeState
)
{
n
.
State
=
state
traceNodeChanged
(
n
.
nodeTab
,
n
)
n
.
nodeTab
.
notify
(
n
.
NodeInfo
)
...
...
@@ -188,7 +190,7 @@ func (nt *NodeTable) String() string {
// ---- subscription to nodetab updates ----
// notify notifies NodeTable subscribers that nodeInfo was updated
func
(
nt
*
NodeTable
)
notify
(
nodeInfo
NodeInfo
)
{
func
(
nt
*
NodeTable
)
notify
(
nodeInfo
proto
.
NodeInfo
)
{
// XXX rlock for .notifyv ?
for
_
,
notify
:=
range
nt
.
notifyv
{
notify
<-
nodeInfo
...
...
@@ -200,8 +202,8 @@ func (nt *NodeTable) notify(nodeInfo NodeInfo) {
// It returns a channel via which updates will be delivered and function to unsubscribe.
//
// XXX locking: client for subscribe/unsubscribe XXX ok?
func
(
nt
*
NodeTable
)
Subscribe
()
(
ch
chan
NodeInfo
,
unsubscribe
func
())
{
ch
=
make
(
chan
NodeInfo
)
// XXX how to specify ch buf size if needed ?
func
(
nt
*
NodeTable
)
Subscribe
()
(
ch
chan
proto
.
NodeInfo
,
unsubscribe
func
())
{
ch
=
make
(
chan
proto
.
NodeInfo
)
// XXX how to specify ch buf size if needed ?
nt
.
notifyv
=
append
(
nt
.
notifyv
,
ch
)
unsubscribe
=
func
()
{
...
...
@@ -227,12 +229,12 @@ func (nt *NodeTable) Subscribe() (ch chan NodeInfo, unsubscribe func()) {
// to infinity - via e.g. detecting stuck connections and unsubscribing on shutdown.
//
// XXX locking: client for subscribe/unsubscribe XXX ok?
func
(
nt
*
NodeTable
)
SubscribeBuffered
()
(
ch
chan
[]
NodeInfo
,
unsubscribe
func
())
{
func
(
nt
*
NodeTable
)
SubscribeBuffered
()
(
ch
chan
[]
proto
.
NodeInfo
,
unsubscribe
func
())
{
in
,
unsubscribe
:=
nt
.
Subscribe
()
ch
=
make
(
chan
[]
NodeInfo
)
ch
=
make
(
chan
[]
proto
.
NodeInfo
)
go
func
()
{
var
updatev
[]
NodeInfo
var
updatev
[]
proto
.
NodeInfo
shutdown
:=
false
for
{
...
...
go/neo/parttab.go
View file @
47f069a5
...
...
@@ -25,6 +25,7 @@ import (
"fmt"
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/neo/go/neo/proto"
)
// PartitionTable represents object space partitioning in a cluster
...
...
@@ -118,12 +119,12 @@ type PartitionTable struct {
tab
[][]
Cell
// [#Np] pid -> []Cell
PTid
PTid
// ↑ for versioning XXX -> ver ? XXX move out of here?
PTid
proto
.
PTid
// ↑ for versioning XXX -> ver ? XXX move out of here?
}
// Cell describes one storage in a pid entry in partition table
type
Cell
struct
{
CellInfo
// .uuid + .state
proto
.
CellInfo
// .uuid + .state
// XXX ? + .haveUpToTid associated node has data up to such tid
// = uptodate if haveUpToTid == lastTid
...
...
@@ -149,7 +150,7 @@ func (pt *PartitionTable) Get(oid zodb.Oid) []Cell {
// Readable reports whether it is ok to read data from a cell
func
(
c
*
Cell
)
Readable
()
bool
{
switch
c
.
State
{
case
UP_TO_DATE
,
FEEDING
:
case
proto
.
UP_TO_DATE
,
proto
.
FEEDING
:
return
true
}
return
false
...
...
@@ -165,7 +166,7 @@ func MakePartTab(np int, nodev []*Node) *PartitionTable {
node
:=
nodev
[
j
]
// XXX assert node.State > DOWN
//fmt.Printf("tab[%d] <- %v\n", i, node.UUID)
tab
[
i
]
=
[]
Cell
{{
CellInfo
:
CellInfo
{
node
.
UUID
,
UP_TO_DATE
/*XXX ok?*/
}}}
tab
[
i
]
=
[]
Cell
{{
CellInfo
:
proto
.
CellInfo
{
node
.
UUID
,
proto
.
UP_TO_DATE
/*XXX ok?*/
}}}
}
return
&
PartitionTable
{
tab
:
tab
}
...
...
@@ -203,7 +204,7 @@ func (pt *PartitionTable) OperationalWith(nt *NodeTable) bool {
//
// We leave it as is for now.
node
:=
nt
.
Get
(
cell
.
UUID
)
if
node
==
nil
||
node
.
State
!=
RUNNING
{
// XXX PENDING is also ok ?
if
node
==
nil
||
node
.
State
!=
proto
.
RUNNING
{
// XXX PENDING is also ok ?
continue
}
...
...
@@ -245,20 +246,20 @@ func (pt *PartitionTable) String() string {
}
// XXX -> RowList() ?
func
(
pt
*
PartitionTable
)
Dump
()
[]
RowInfo
{
// XXX also include .ptid? -> struct ?
rowv
:=
make
([]
RowInfo
,
len
(
pt
.
tab
))
func
(
pt
*
PartitionTable
)
Dump
()
[]
proto
.
RowInfo
{
// XXX also include .ptid? -> struct ?
rowv
:=
make
([]
proto
.
RowInfo
,
len
(
pt
.
tab
))
for
i
,
row
:=
range
pt
.
tab
{
cellv
:=
make
([]
CellInfo
,
len
(
row
))
cellv
:=
make
([]
proto
.
CellInfo
,
len
(
row
))
for
j
,
cell
:=
range
row
{
cellv
[
j
]
=
cell
.
CellInfo
}
rowv
[
i
]
=
RowInfo
{
Offset
:
uint32
(
i
),
CellList
:
cellv
}
// XXX cast?
rowv
[
i
]
=
proto
.
RowInfo
{
Offset
:
uint32
(
i
),
CellList
:
cellv
}
// XXX cast?
}
return
rowv
}
func
PartTabFromDump
(
ptid
PTid
,
rowv
[]
RowInfo
)
*
PartitionTable
{
func
PartTabFromDump
(
ptid
proto
.
PTid
,
rowv
[]
proto
.
RowInfo
)
*
PartitionTable
{
// reconstruct partition table from response
pt
:=
&
PartitionTable
{}
pt
.
PTid
=
ptid
...
...
go/neo/parttab_test.go
View file @
47f069a5
...
...
@@ -21,19 +21,21 @@ package neo
import
(
"testing"
"lab.nexedi.com/kirr/neo/go/neo/proto"
)
func
TestPartTabOperational
(
t
*
testing
.
T
)
{
s1
:=
UUID
(
STORAGE
,
1
)
s2
:=
UUID
(
STORAGE
,
2
)
s1
:=
proto
.
UUID
(
proto
.
STORAGE
,
1
)
s2
:=
proto
.
UUID
(
proto
.
STORAGE
,
2
)
// create nodeinfo for uuid/state
n
:=
func
(
uuid
NodeUUID
,
state
NodeState
)
NodeInfo
{
return
NodeInfo
{
UUID
:
uuid
,
State
:
state
}
// XXX .Type?
n
:=
func
(
uuid
proto
.
NodeUUID
,
state
proto
.
NodeState
)
proto
.
NodeInfo
{
return
proto
.
NodeInfo
{
UUID
:
uuid
,
State
:
state
}
// XXX .Type?
}
// create nodetab with [](uuid, state)
N
:=
func
(
nodeiv
...
NodeInfo
)
*
NodeTable
{
N
:=
func
(
nodeiv
...
proto
.
NodeInfo
)
*
NodeTable
{
nt
:=
&
NodeTable
{}
for
_
,
nodei
:=
range
nodeiv
{
nt
.
Update
(
nodei
)
...
...
@@ -42,8 +44,8 @@ func TestPartTabOperational(t *testing.T) {
}
// create cell with uuid/state
C
:=
func
(
uuid
NodeUUID
,
state
CellState
)
Cell
{
return
Cell
{
CellInfo
{
UUID
:
uuid
,
State
:
state
}}
C
:=
func
(
uuid
proto
.
NodeUUID
,
state
proto
.
CellState
)
Cell
{
return
Cell
{
proto
.
CellInfo
{
UUID
:
uuid
,
State
:
state
}}
}
// shortcut to create []Cell
...
...
@@ -57,14 +59,14 @@ func TestPartTabOperational(t *testing.T) {
var
testv
=
[]
struct
{
pt
*
PartitionTable
;
nt
*
NodeTable
;
operational
bool
}{
// empty parttab is non-operational
{
P
(),
N
(),
false
},
{
P
(),
N
(
n
(
s1
,
RUNNING
)),
false
},
{
P
(),
N
(
n
(
s1
,
proto
.
RUNNING
)),
false
},
// parttab with 1 storage
{
P
(
v
(
C
(
s1
,
UP_TO_DATE
))),
N
(),
false
},
{
P
(
v
(
C
(
s1
,
UP_TO_DATE
))),
N
(
n
(
s2
,
RUNNING
)),
false
},
{
P
(
v
(
C
(
s1
,
OUT_OF_DATE
))),
N
(
n
(
s1
,
RUNNING
)),
false
},
{
P
(
v
(
C
(
s1
,
UP_TO_DATE
))),
N
(
n
(
s1
,
RUNNING
)),
true
},
{
P
(
v
(
C
(
s1
,
FEEDING
))),
N
(
n
(
s1
,
RUNNING
)),
true
},
{
P
(
v
(
C
(
s1
,
proto
.
UP_TO_DATE
))),
N
(),
false
},
{
P
(
v
(
C
(
s1
,
proto
.
UP_TO_DATE
))),
N
(
n
(
s2
,
proto
.
RUNNING
)),
false
},
{
P
(
v
(
C
(
s1
,
proto
.
OUT_OF_DATE
))),
N
(
n
(
s1
,
proto
.
RUNNING
)),
false
},
{
P
(
v
(
C
(
s1
,
proto
.
UP_TO_DATE
))),
N
(
n
(
s1
,
proto
.
RUNNING
)),
true
},
{
P
(
v
(
C
(
s1
,
proto
.
FEEDING
))),
N
(
n
(
s1
,
proto
.
RUNNING
)),
true
},
// TODO more tests
}
...
...
go/neo/pkt.go
View file @
47f069a5
...
...
@@ -27,26 +27,29 @@ import (
"unsafe"
"lab.nexedi.com/kirr/go123/xbytes"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/xcommon/packed"
)
// PktBuf is a buffer with full raw packet (header + data).
//
// variables of type PktBuf are usually named "pkb" (packet buffer), similar to "skb" in Linux.
//
// Allocate PktBuf via
allocPkt
() and free via PktBuf.Free().
// Allocate PktBuf via
pktAlloc
() and free via PktBuf.Free().
type
PktBuf
struct
{
Data
[]
byte
// whole packet data including all headers
}
// Header returns pointer to packet header.
func
(
pkt
*
PktBuf
)
Header
()
*
PktHeader
{
// XXX check len(Data) < PktHeader ? -> no, Data has to be allocated with cap >=
p
ktHeaderLen
return
(
*
PktHeader
)(
unsafe
.
Pointer
(
&
pkt
.
Data
[
0
]))
func
(
pkt
*
PktBuf
)
Header
()
*
proto
.
PktHeader
{
// XXX check len(Data) < PktHeader ? -> no, Data has to be allocated with cap >=
P
ktHeaderLen
return
(
*
proto
.
PktHeader
)(
unsafe
.
Pointer
(
&
pkt
.
Data
[
0
]))
}
// Payload returns []byte representing packet payload.
func
(
pkt
*
PktBuf
)
Payload
()
[]
byte
{
return
pkt
.
Data
[
pktHeaderLen
:
]
return
pkt
.
Data
[
p
roto
.
P
ktHeaderLen
:
]
}
// ---- PktBuf freelist ----
...
...
@@ -73,25 +76,25 @@ func (pkt *PktBuf) Free() {
// Strings dumps a packet in human-readable form
func
(
pkt
*
PktBuf
)
String
()
string
{
if
len
(
pkt
.
Data
)
<
pktHeaderLen
{
return
fmt
.
Sprintf
(
"(! <
p
ktHeaderLen) % x"
,
pkt
.
Data
)
if
len
(
pkt
.
Data
)
<
p
roto
.
P
ktHeaderLen
{
return
fmt
.
Sprintf
(
"(! <
P
ktHeaderLen) % x"
,
pkt
.
Data
)
}
h
:=
pkt
.
Header
()
s
:=
fmt
.
Sprintf
(
".%d"
,
n
toh32
(
h
.
ConnId
))
s
:=
fmt
.
Sprintf
(
".%d"
,
packed
.
N
toh32
(
h
.
ConnId
))
msgCode
:=
n
toh16
(
h
.
MsgCode
)
msgLen
:=
n
toh32
(
h
.
MsgLen
)
msgCode
:=
packed
.
N
toh16
(
h
.
MsgCode
)
msgLen
:=
packed
.
N
toh32
(
h
.
MsgLen
)
data
:=
pkt
.
Payload
()
msgType
:=
msgTypeRegistry
[
msgCode
]
msgType
:=
proto
.
MsgType
(
msgCode
)
if
msgType
==
nil
{
s
+=
fmt
.
Sprintf
(
" ? (%d) #%d [%d]: % x"
,
msgCode
,
msgLen
,
len
(
data
),
data
)
return
s
}
// XXX dup wrt Conn.Recv
msg
:=
reflect
.
New
(
msgType
)
.
Interface
()
.
(
Msg
)
n
,
err
:=
msg
.
neo
MsgDecode
(
data
)
msg
:=
reflect
.
New
(
msgType
)
.
Interface
()
.
(
proto
.
Msg
)
n
,
err
:=
msg
.
NEO
MsgDecode
(
data
)
if
err
!=
nil
{
s
+=
fmt
.
Sprintf
(
" (%s) %v; #%d [%d]: % x"
,
msgType
,
err
,
msgLen
,
len
(
data
),
data
)
}
...
...
@@ -108,12 +111,12 @@ func (pkt *PktBuf) String() string {
// Dump dumps a packet in raw form
func
(
pkt
*
PktBuf
)
Dump
()
string
{
if
len
(
pkt
.
Data
)
<
pktHeaderLen
{
if
len
(
pkt
.
Data
)
<
p
roto
.
P
ktHeaderLen
{
return
fmt
.
Sprintf
(
"(! < pktHeaderLen) % x"
,
pkt
.
Data
)
}
h
:=
pkt
.
Header
()
data
:=
pkt
.
Payload
()
return
fmt
.
Sprintf
(
".%d (%d) #%d [%d]: % x"
,
ntoh32
(
h
.
ConnId
),
ntoh16
(
h
.
MsgCode
),
n
toh32
(
h
.
MsgLen
),
len
(
data
),
data
)
packed
.
Ntoh32
(
h
.
ConnId
),
packed
.
Ntoh16
(
h
.
MsgCode
),
packed
.
N
toh32
(
h
.
MsgLen
),
len
(
data
),
data
)
}
go/neo/error.go
→
go/neo/
proto/
error.go
View file @
47f069a5
...
...
@@ -17,7 +17,7 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
ne
o
package
prot
o
// error related utilities
import
(
...
...
@@ -27,7 +27,8 @@ import (
)
// XXX place=? -> methods of Error
// XXX name -> zodbErrEncode, zodbErrDecode ?
// XXX should be not in proto/ ?
// ErrEncode translates an error into Error packet.
// XXX more text describing relation with zodb errors
...
...
go/neo/proto-misc.go
→
go/neo/proto
/proto
-misc.go
View file @
47f069a5
...
...
@@ -17,20 +17,29 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
//go:generate stringer -output zproto-str.go -type ErrorCode,ClusterState,NodeType,NodeState,CellState proto.go
packed.go
//go:generate stringer -output zproto-str.go -type ErrorCode,ClusterState,NodeType,NodeState,CellState proto.go
package
ne
o
package
prot
o
// supporting code for types defined in proto.go
import
(
"fmt"
"math"
"net"
"reflect"
"strconv"
"strings"
"time"
)
// MsgType looks up message type by message code.
//
// Nil is returned if message code is not valid.
func
MsgType
(
msgCode
uint16
)
reflect
.
Type
{
return
msgTypeRegistry
[
msgCode
]
}
// XXX or better translate to some other errors ?
// XXX here - not in proto.go - because else stringer will be confused
func
(
e
*
Error
)
Error
()
string
{
...
...
@@ -44,6 +53,8 @@ func (e *Error) Error() string {
// Set sets cluster state value to v.
// Use Set instead of direct assignment for ClusterState tracing to work.
//
// XXX move this to neo.clusterState wrapping proto.ClusterState?
func
(
cs
*
ClusterState
)
Set
(
v
ClusterState
)
{
*
cs
=
v
traceClusterStateChanged
(
cs
)
...
...
go/neo/proto.go
→
go/neo/proto
/proto
.go
View file @
47f069a5
// Copyright (C) 2006-201
7
Nexedi SA and Contributors.
// Copyright (C) 2006-201
8
Nexedi SA and Contributors.
//
// 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
...
...
@@ -16,8 +16,24 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
neo
// protocol definition
// Package proto provides definition of NEO messages and their marshalling
// to/from wire format.
//
// Two NEO nodes can exchange messages over underlying network link after
// performing NEO-specific handshake. A message is sent as a packet specifying
// ID of subconnection multiplexed on top of the underlying link, carried
// message code and message data.
//
// PktHeader describes packet header structure.
//
// Messages are represented by corresponding types that all implement Msg interface.
//
// A message type can be looked up by message code with MsgType.
//
// The proto packages provides only message definitions and low-level
// primitives for their marshalling. Package lab.nexedi.com/kirr/neo/go/neo/net
// (XXX) provides actual service for message exchange over network.
package
proto
// This file defines everything that relates to messages on the wire.
// In particular every type that is included in a message is defined here as well.
...
...
@@ -39,6 +55,7 @@ package neo
// The code to marshal/unmarshal messages is generated by protogen.go .
//go:generate sh -c "go run protogen.go >zproto-marshal.go"
//go:generate gotrace gen .
// TODO regroup messages definitions to stay more close to 1 communication topic
...
...
@@ -53,6 +70,8 @@ import (
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/go123/mem"
"lab.nexedi.com/kirr/neo/go/xcommon/packed"
"encoding/binary"
"errors"
"math"
...
...
@@ -62,17 +81,24 @@ const (
// The protocol version must be increased whenever upgrading a node may require
// to upgrade other nodes. It is encoded as a 4-bytes big-endian integer and
// the high order byte 0 is different from TLS Handshake (0x16).
Protocol
Version
=
1
Version
=
1
// length of packet header
p
ktHeaderLen
=
10
// = unsafe.Sizeof(PktHeader{}), but latter gives typed constant (uintptr)
P
ktHeaderLen
=
10
// = unsafe.Sizeof(PktHeader{}), but latter gives typed constant (uintptr)
//
we are not accepting packets larger than pktMaxSize
.
//
in particular this avoids
out-of-memory error on packets with corrupt message len.
p
ktMaxSize
=
0x4000000
//
packets larger than PktMaxSize are not allowed
.
//
this helps to avoid
out-of-memory error on packets with corrupt message len.
P
ktMaxSize
=
0x4000000
// answerBit is set in message code in answer messages for compatibility with neo/py
answerBit
=
0x8000
//INVALID_UUID UUID = 0
// XXX -> zodb?
INVALID_TID
zodb
.
Tid
=
1
<<
64
-
1
// 0xffffffffffffffff
INVALID_OID
zodb
.
Oid
=
1
<<
64
-
1
)
// PktHeader represents header of a raw packet.
...
...
@@ -81,29 +107,29 @@ const (
//
//neo:proto typeonly
type
PktHeader
struct
{
ConnId
be
32
// NOTE is .msgid in py
MsgCode
be
16
// payload message code
MsgLen
be
32
// payload message length (excluding packet header)
ConnId
packed
.
BE
32
// NOTE is .msgid in py
MsgCode
packed
.
BE
16
// payload message code
MsgLen
packed
.
BE
32
// payload message length (excluding packet header)
}
// Msg is the interface implemented by all NEO messages.
type
Msg
interface
{
// marshal/unmarshal into/from wire format:
//
neo
MsgCode returns message code needed to be used for particular message type
//
NEO
MsgCode returns message code needed to be used for particular message type
// on the wire.
neo
MsgCode
()
uint16
NEO
MsgCode
()
uint16
//
neo
MsgEncodedLen returns how much space is needed to encode current message payload.
neo
MsgEncodedLen
()
int
//
NEO
MsgEncodedLen returns how much space is needed to encode current message payload.
NEO
MsgEncodedLen
()
int
//
neo
MsgEncode encodes current message state into buf.
//
NEO
MsgEncode encodes current message state into buf.
//
// len(buf) must be >= neoMsgEncodedLen().
neo
MsgEncode
(
buf
[]
byte
)
NEO
MsgEncode
(
buf
[]
byte
)
//
neo
MsgDecode decodes data into message in-place.
neo
MsgDecode
(
data
[]
byte
)
(
nread
int
,
err
error
)
//
NEO
MsgDecode decodes data into message in-place.
NEO
MsgDecode
(
data
[]
byte
)
(
nread
int
,
err
error
)
}
// ErrDecodeOverflow is the error returned by neoMsgDecode when decoding hits buffer overflow
...
...
@@ -127,6 +153,7 @@ const (
INCOMPLETE_TRANSACTION
)
// XXX move this to neo.clusterState wrapping proto.ClusterState?
//trace:event traceClusterStateChanged(cs *ClusterState)
type
ClusterState
int32
...
...
@@ -584,7 +611,7 @@ type AnswerRebaseObject struct {
// FIXME POption('data')
Compression
bool
Checksum
Checksum
Data
[]
byte
// XXX was string
Data
*
mem
.
Buf
}
...
...
@@ -596,7 +623,7 @@ type StoreObject struct {
Serial
zodb
.
Tid
Compression
bool
Checksum
Checksum
Data
[]
byte
// TODO encode ->
separately (for writev)
Data
[]
byte
// TODO -> msg.Buf,
separately (for writev)
DataSerial
zodb
.
Tid
Tid
zodb
.
Tid
}
...
...
@@ -1036,7 +1063,7 @@ type AddObject struct {
Serial
zodb
.
Tid
Compression
bool
Checksum
Checksum
Data
[]
byte
// TODO from pool, separately (?)
Data
*
mem
.
Buf
DataSerial
zodb
.
Tid
}
...
...
go/neo/proto_test.go
→
go/neo/proto
/proto
_test.go
View file @
47f069a5
...
...
@@ -17,8 +17,8 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
ne
o
//
protocol
tests
package
prot
o
//
NEO. protocol encoding
tests
import
(
hexpkg
"encoding/hex"
...
...
@@ -64,12 +64,12 @@ func u64(v uint64) string {
}
func
TestPktHeader
(
t
*
testing
.
T
)
{
// make sure PktHeader is really packed and its size matches
p
ktHeaderLen
// make sure PktHeader is really packed and its size matches
P
ktHeaderLen
if
unsafe
.
Sizeof
(
PktHeader
{})
!=
10
{
t
.
Fatalf
(
"sizeof(PktHeader) = %v ; want 10"
,
unsafe
.
Sizeof
(
PktHeader
{}))
}
if
unsafe
.
Sizeof
(
PktHeader
{})
!=
p
ktHeaderLen
{
t
.
Fatalf
(
"sizeof(PktHeader) = %v ; want %v"
,
unsafe
.
Sizeof
(
PktHeader
{}),
p
ktHeaderLen
)
if
unsafe
.
Sizeof
(
PktHeader
{})
!=
P
ktHeaderLen
{
t
.
Fatalf
(
"sizeof(PktHeader) = %v ; want %v"
,
unsafe
.
Sizeof
(
PktHeader
{}),
P
ktHeaderLen
)
}
}
...
...
@@ -85,9 +85,9 @@ func testMsgMarshal(t *testing.T, msg Msg, encoded string) {
}()
// msg.encode() == expected
msgCode
:=
msg
.
neo
MsgCode
()
n
:=
msg
.
neo
MsgEncodedLen
()
msgType
:=
msgTypeRegistry
[
msgCode
]
msgCode
:=
msg
.
NEO
MsgCode
()
n
:=
msg
.
NEO
MsgEncodedLen
()
msgType
:=
MsgType
(
msgCode
)
if
msgType
!=
typ
{
t
.
Errorf
(
"%v: msgCode = %v which corresponds to %v"
,
typ
,
msgCode
,
msgType
)
}
...
...
@@ -96,7 +96,7 @@ func testMsgMarshal(t *testing.T, msg Msg, encoded string) {
}
buf
:=
make
([]
byte
,
n
)
msg
.
neo
MsgEncode
(
buf
)
msg
.
NEO
MsgEncode
(
buf
)
if
string
(
buf
)
!=
encoded
{
t
.
Errorf
(
"%v: encode result unexpected:"
,
typ
)
t
.
Errorf
(
"
\t
have: %s"
,
hexpkg
.
EncodeToString
(
buf
))
...
...
@@ -126,13 +126,13 @@ func testMsgMarshal(t *testing.T, msg Msg, encoded string) {
}
}()
msg
.
neo
MsgEncode
(
buf
[
:
l
])
msg
.
NEO
MsgEncode
(
buf
[
:
l
])
}()
}
// msg.decode() == expected
data
:=
[]
byte
(
encoded
+
"noise"
)
n
,
err
:=
msg2
.
neo
MsgDecode
(
data
)
n
,
err
:=
msg2
.
NEO
MsgDecode
(
data
)
if
err
!=
nil
{
t
.
Errorf
(
"%v: decode error %v"
,
typ
,
err
)
}
...
...
@@ -146,7 +146,7 @@ func testMsgMarshal(t *testing.T, msg Msg, encoded string) {
// decode must detect buffer overflow
for
l
:=
len
(
encoded
)
-
1
;
l
>=
0
;
l
--
{
n
,
err
=
msg2
.
neo
MsgDecode
(
data
[
:
l
])
n
,
err
=
msg2
.
NEO
MsgDecode
(
data
[
:
l
])
if
!
(
n
==
0
&&
err
==
ErrDecodeOverflow
)
{
t
.
Errorf
(
"%v: decode overflow not detected on [:%v]"
,
typ
,
l
)
}
...
...
@@ -281,11 +281,11 @@ func TestMsgMarshalAllOverflowLightly(t *testing.T) {
for
_
,
typ
:=
range
msgTypeRegistry
{
// zero-value for a type
msg
:=
reflect
.
New
(
typ
)
.
Interface
()
.
(
Msg
)
l
:=
msg
.
neo
MsgEncodedLen
()
l
:=
msg
.
NEO
MsgEncodedLen
()
zerol
:=
make
([]
byte
,
l
)
// decoding will turn nil slice & map into empty allocated ones.
// we need it so that reflect.DeepEqual works for msg encode/decode comparison
n
,
err
:=
msg
.
neo
MsgDecode
(
zerol
)
n
,
err
:=
msg
.
NEO
MsgDecode
(
zerol
)
if
!
(
n
==
l
&&
err
==
nil
)
{
t
.
Errorf
(
"%v: zero-decode unexpected: %v, %v ; want %v, nil"
,
typ
,
n
,
err
,
l
)
}
...
...
@@ -316,7 +316,7 @@ func TestMsgDecodeLenOverflow(t *testing.T) {
}
}()
n
,
err
:=
tt
.
msg
.
neo
MsgDecode
(
data
)
n
,
err
:=
tt
.
msg
.
NEO
MsgDecode
(
data
)
if
!
(
n
==
0
&&
err
==
ErrDecodeOverflow
)
{
t
.
Errorf
(
"%T: decode %x
\n
have: %d, %v
\n
want: %d, %v"
,
tt
.
msg
,
data
,
n
,
err
,
0
,
ErrDecodeOverflow
)
...
...
go/neo/proto_vs_py_test.go
→
go/neo/proto
/proto
_vs_py_test.go
View file @
47f069a5
...
...
@@ -17,8 +17,8 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
ne
o
// test wire protocol compatibility with python
package
prot
o
//
NEO.
test wire protocol compatibility with python
//go:generate ./py/pyneo-gen-testdata
...
...
go/neo/protogen.go
→
go/neo/proto
/proto
gen.go
View file @
47f069a5
// Copyright (C) 2016-201
7
Nexedi SA and Contributors.
// Copyright (C) 2016-201
8
Nexedi SA and Contributors.
// Kirill Smelkov <kirr@nexedi.com>
//
// This program is free software: you can Use, Study, Modify and Redistribute
...
...
@@ -25,10 +25,10 @@ NEO. Protocol module. Code generator
This program generates marshalling code for message types defined in proto.go .
For every type 4 methods are generated in accordance with neo.Msg interface:
neo
MsgCode() uint16
neo
MsgEncodedLen() int
neo
MsgEncode(buf []byte)
neo
MsgDecode(data []byte) (nread int, err error)
NEO
MsgCode() uint16
NEO
MsgEncodedLen() int
NEO
MsgEncode(buf []byte)
NEO
MsgDecode(data []byte) (nread int, err error)
List of message types is obtained via searching through proto.go AST - looking
for appropriate struct declarations there.
...
...
@@ -94,12 +94,12 @@ func pos(x interface { Pos() token.Pos }) token.Position {
}
// get type name in context of neo package
var
zodbPkg
*
types
.
Package
var
neoPkg
*
types
.
Package
var
zodbPkg
*
types
.
Package
var
protoPkg
*
types
.
Package
func
typeName
(
typ
types
.
Type
)
string
{
qf
:=
func
(
pkg
*
types
.
Package
)
string
{
switch
pkg
{
case
ne
oPkg
:
case
prot
oPkg
:
// same package - unqualified
return
""
...
...
@@ -247,11 +247,11 @@ func main() {
log
.
SetFlags
(
0
)
// go through proto.go and AST'ify & typecheck it
zodbPkg
=
loadPkg
(
"lab.nexedi.com/kirr/neo/go/zodb"
,
"
../zodb/zodb.go"
)
neoPkg
=
loadPkg
(
"lab.nexedi.com/kirr/neo/go/neo"
,
"proto.go"
,
"packed
.go"
)
zodbPkg
=
loadPkg
(
"lab.nexedi.com/kirr/neo/go/zodb"
,
"../
../zodb/zodb.go"
)
protoPkg
=
loadPkg
(
"lab.nexedi.com/kirr/neo/go/neo/proto"
,
"proto
.go"
)
// extract neo.customCodec
cc
:=
ne
oPkg
.
Scope
()
.
Lookup
(
"customCodec"
)
cc
:=
prot
oPkg
.
Scope
()
.
Lookup
(
"customCodec"
)
if
cc
==
nil
{
log
.
Fatal
(
"cannot find `customCodec`"
)
}
...
...
@@ -285,8 +285,8 @@ func main() {
buf
:=
Buffer
{}
buf
.
emit
(
`// Code generated by protogen.go; DO NOT EDIT.
package
ne
o
// protocol messages to/from wire marshalling.
package
prot
o
//
NEO.
protocol messages to/from wire marshalling.
import (
"encoding/binary"
...
...
@@ -350,7 +350,7 @@ import (
fmt
.
Fprintf
(
&
buf
,
"// %s. %s
\n\n
"
,
msgCode
,
typename
)
buf
.
emit
(
"func (*%s)
neo
MsgCode() uint16 {"
,
typename
)
buf
.
emit
(
"func (*%s)
NEO
MsgCode() uint16 {"
,
typename
)
buf
.
emit
(
"return %s"
,
msgCode
)
buf
.
emit
(
"}
\n
"
)
...
...
@@ -629,7 +629,7 @@ type sizer struct {
//
// when type is recursively walked, for every case code to update `data[n:]` is generated.
// no overflow checks are generated as by neo.Msg interface provided data
// buffer should have at least payloadLen length returned by
neoMsgEncodedInfo
()
// buffer should have at least payloadLen length returned by
NEOMsgEncodedLen
()
// (the size computed by sizer).
//
// the code emitted looks like:
...
...
@@ -638,7 +638,7 @@ type sizer struct {
// encode<typ2>(data[n2:], path2)
// ...
//
// TODO encode have to care in
neo
MsgEncode to emit preamble such that bound
// TODO encode have to care in
NEO
MsgEncode to emit preamble such that bound
// checking is performed only once (currently compiler emits many of them)
type
encoder
struct
{
commonCodeGen
...
...
@@ -686,7 +686,7 @@ var _ CodeGenerator = (*decoder)(nil)
func
(
s
*
sizer
)
generatedCode
()
string
{
code
:=
Buffer
{}
// prologue
code
.
emit
(
"func (%s *%s)
neo
MsgEncodedLen() int {"
,
s
.
recvName
,
s
.
typeName
)
code
.
emit
(
"func (%s *%s)
NEO
MsgEncodedLen() int {"
,
s
.
recvName
,
s
.
typeName
)
if
s
.
varUsed
[
"size"
]
{
code
.
emit
(
"var %s int"
,
s
.
var_
(
"size"
))
}
...
...
@@ -707,7 +707,7 @@ func (s *sizer) generatedCode() string {
func
(
e
*
encoder
)
generatedCode
()
string
{
code
:=
Buffer
{}
// prologue
code
.
emit
(
"func (%s *%s)
neo
MsgEncode(data []byte) {"
,
e
.
recvName
,
e
.
typeName
)
code
.
emit
(
"func (%s *%s)
NEO
MsgEncode(data []byte) {"
,
e
.
recvName
,
e
.
typeName
)
code
.
Write
(
e
.
buf
.
Bytes
())
...
...
@@ -819,7 +819,7 @@ func (d *decoder) generatedCode() string {
code
:=
Buffer
{}
// prologue
code
.
emit
(
"func (%s *%s)
neo
MsgDecode(data []byte) (int, error) {"
,
d
.
recvName
,
d
.
typeName
)
code
.
emit
(
"func (%s *%s)
NEO
MsgDecode(data []byte) (int, error) {"
,
d
.
recvName
,
d
.
typeName
)
if
d
.
varUsed
[
"nread"
]
{
code
.
emit
(
"var %v uint64"
,
d
.
var_
(
"nread"
))
}
...
...
go/neo/py/pyneo-gen-testdata
→
go/neo/p
roto/p
y/pyneo-gen-testdata
View file @
47f069a5
...
...
@@ -65,7 +65,7 @@ _['NotifyClusterInformation'] = 'NotifyClusterState'
def
main
():
pyprotog
=
{}
execfile
(
'../../neo/lib/protocol.py'
,
pyprotog
)
execfile
(
'../../
../
neo/lib/protocol.py'
,
pyprotog
)
pypacket
=
pyprotog
[
'Packet'
]
pypackets
=
pyprotog
[
'Packets'
]
...
...
@@ -74,7 +74,7 @@ def main():
def
emit
(
v
):
print
>>
f
,
v
emit
(
"// Code generated by %s; DO NOT EDIT."
%
__file__
)
emit
(
"package
ne
o"
)
emit
(
"package
prot
o"
)
emit
(
"
\
n
var pyMsgRegistry = map[uint16]string{"
)
...
...
go/neo/zproto-marshal.go
→
go/neo/
proto/
zproto-marshal.go
View file @
47f069a5
// Code generated by protogen.go; DO NOT EDIT.
package
ne
o
package
prot
o
// protocol messages to/from wire marshalling.
//
NEO.
protocol messages to/from wire marshalling.
import
(
"encoding/binary"
...
...
@@ -17,15 +17,15 @@ import (
// 0 | answerBit. Error
func
(
*
Error
)
neo
MsgCode
()
uint16
{
func
(
*
Error
)
NEO
MsgCode
()
uint16
{
return
0
|
answerBit
}
func
(
p
*
Error
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Error
)
NEO
MsgEncodedLen
()
int
{
return
8
+
len
(
p
.
Message
)
}
func
(
p
*
Error
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Error
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
p
.
Code
))
{
l
:=
uint32
(
len
(
p
.
Message
))
...
...
@@ -36,7 +36,7 @@ func (p *Error) neoMsgEncode(data []byte) {
}
}
func
(
p
*
Error
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Error
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
8
{
goto
overflow
...
...
@@ -60,15 +60,15 @@ overflow:
// 1. RequestIdentification
func
(
*
RequestIdentification
)
neo
MsgCode
()
uint16
{
func
(
*
RequestIdentification
)
NEO
MsgCode
()
uint16
{
return
1
}
func
(
p
*
RequestIdentification
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
RequestIdentification
)
NEO
MsgEncodedLen
()
int
{
return
12
+
p
.
Address
.
neoEncodedLen
()
+
len
(
p
.
ClusterName
)
+
p
.
IdTime
.
neoEncodedLen
()
}
func
(
p
*
RequestIdentification
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
RequestIdentification
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
NodeType
)))
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
uint32
(
int32
(
p
.
UUID
)))
{
...
...
@@ -88,7 +88,7 @@ func (p *RequestIdentification) neoMsgEncode(data []byte) {
}
}
func
(
p
*
RequestIdentification
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
RequestIdentification
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
8
{
goto
overflow
...
...
@@ -133,15 +133,15 @@ overflow:
// 1 | answerBit. AcceptIdentification
func
(
*
AcceptIdentification
)
neo
MsgCode
()
uint16
{
func
(
*
AcceptIdentification
)
NEO
MsgCode
()
uint16
{
return
1
|
answerBit
}
func
(
p
*
AcceptIdentification
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AcceptIdentification
)
NEO
MsgEncodedLen
()
int
{
return
20
}
func
(
p
*
AcceptIdentification
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AcceptIdentification
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
NodeType
)))
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
uint32
(
int32
(
p
.
MyUUID
)))
binary
.
BigEndian
.
PutUint32
(
data
[
8
:
],
p
.
NumPartitions
)
...
...
@@ -149,7 +149,7 @@ func (p *AcceptIdentification) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint32
(
data
[
16
:
],
uint32
(
int32
(
p
.
YourUUID
)))
}
func
(
p
*
AcceptIdentification
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AcceptIdentification
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
20
{
goto
overflow
}
...
...
@@ -166,87 +166,87 @@ overflow:
// 3. Ping
func
(
*
Ping
)
neo
MsgCode
()
uint16
{
func
(
*
Ping
)
NEO
MsgCode
()
uint16
{
return
3
}
func
(
p
*
Ping
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Ping
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
Ping
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Ping
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
Ping
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Ping
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 3 | answerBit. Pong
func
(
*
Pong
)
neo
MsgCode
()
uint16
{
func
(
*
Pong
)
NEO
MsgCode
()
uint16
{
return
3
|
answerBit
}
func
(
p
*
Pong
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Pong
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
Pong
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Pong
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
Pong
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Pong
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 5. CloseClient
func
(
*
CloseClient
)
neo
MsgCode
()
uint16
{
func
(
*
CloseClient
)
NEO
MsgCode
()
uint16
{
return
5
}
func
(
p
*
CloseClient
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CloseClient
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
CloseClient
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CloseClient
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
CloseClient
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CloseClient
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 6. PrimaryMaster
func
(
*
PrimaryMaster
)
neo
MsgCode
()
uint16
{
func
(
*
PrimaryMaster
)
NEO
MsgCode
()
uint16
{
return
6
}
func
(
p
*
PrimaryMaster
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
PrimaryMaster
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
PrimaryMaster
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
PrimaryMaster
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
PrimaryMaster
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
PrimaryMaster
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 6 | answerBit. AnswerPrimary
func
(
*
AnswerPrimary
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerPrimary
)
NEO
MsgCode
()
uint16
{
return
6
|
answerBit
}
func
(
p
*
AnswerPrimary
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerPrimary
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
AnswerPrimary
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerPrimary
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
PrimaryNodeUUID
)))
}
func
(
p
*
AnswerPrimary
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerPrimary
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -259,11 +259,11 @@ overflow:
// 8. NotPrimaryMaster
func
(
*
NotPrimaryMaster
)
neo
MsgCode
()
uint16
{
func
(
*
NotPrimaryMaster
)
NEO
MsgCode
()
uint16
{
return
8
}
func
(
p
*
NotPrimaryMaster
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotPrimaryMaster
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
KnownMasterList
);
i
++
{
a
:=
&
p
.
KnownMasterList
[
i
]
...
...
@@ -272,7 +272,7 @@ func (p *NotPrimaryMaster) neoMsgEncodedLen() int {
return
8
+
size
}
func
(
p
*
NotPrimaryMaster
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotPrimaryMaster
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
Primary
)))
{
l
:=
uint32
(
len
(
p
.
KnownMasterList
))
...
...
@@ -289,7 +289,7 @@ func (p *NotPrimaryMaster) neoMsgEncode(data []byte) {
}
}
func
(
p
*
NotPrimaryMaster
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotPrimaryMaster
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
8
{
goto
overflow
...
...
@@ -319,11 +319,11 @@ overflow:
// 9. NotifyNodeInformation
func
(
*
NotifyNodeInformation
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyNodeInformation
)
NEO
MsgCode
()
uint16
{
return
9
}
func
(
p
*
NotifyNodeInformation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyNodeInformation
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
NodeList
);
i
++
{
a
:=
&
p
.
NodeList
[
i
]
...
...
@@ -332,7 +332,7 @@ func (p *NotifyNodeInformation) neoMsgEncodedLen() int {
return
4
+
p
.
IdTime
.
neoEncodedLen
()
+
len
(
p
.
NodeList
)
*
12
+
size
}
func
(
p
*
NotifyNodeInformation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyNodeInformation
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
n
:=
p
.
IdTime
.
neoEncode
(
data
[
0
:
])
data
=
data
[
0
+
n
:
]
...
...
@@ -359,7 +359,7 @@ func (p *NotifyNodeInformation) neoMsgEncode(data []byte) {
}
}
func
(
p
*
NotifyNodeInformation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyNodeInformation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
{
n
,
ok
:=
p
.
IdTime
.
neoDecode
(
data
)
...
...
@@ -416,38 +416,38 @@ overflow:
// 10. Recovery
func
(
*
Recovery
)
neo
MsgCode
()
uint16
{
func
(
*
Recovery
)
NEO
MsgCode
()
uint16
{
return
10
}
func
(
p
*
Recovery
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Recovery
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
Recovery
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Recovery
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
Recovery
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Recovery
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 10 | answerBit. AnswerRecovery
func
(
*
AnswerRecovery
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerRecovery
)
NEO
MsgCode
()
uint16
{
return
10
|
answerBit
}
func
(
p
*
AnswerRecovery
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerRecovery
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
AnswerRecovery
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerRecovery
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
BackupTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
TruncateTid
))
}
func
(
p
*
AnswerRecovery
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerRecovery
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -462,37 +462,37 @@ overflow:
// 12. LastIDs
func
(
*
LastIDs
)
neo
MsgCode
()
uint16
{
func
(
*
LastIDs
)
NEO
MsgCode
()
uint16
{
return
12
}
func
(
p
*
LastIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
LastIDs
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
LastIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
LastIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
LastIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
LastIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 12 | answerBit. AnswerLastIDs
func
(
*
AnswerLastIDs
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerLastIDs
)
NEO
MsgCode
()
uint16
{
return
12
|
answerBit
}
func
(
p
*
AnswerLastIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerLastIDs
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
AnswerLastIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerLastIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
LastOid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
LastTid
))
}
func
(
p
*
AnswerLastIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerLastIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -506,28 +506,28 @@ overflow:
// 14. AskPartitionTable
func
(
*
AskPartitionTable
)
neo
MsgCode
()
uint16
{
func
(
*
AskPartitionTable
)
NEO
MsgCode
()
uint16
{
return
14
}
func
(
p
*
AskPartitionTable
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AskPartitionTable
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
AskPartitionTable
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AskPartitionTable
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
AskPartitionTable
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AskPartitionTable
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 14 | answerBit. AnswerPartitionTable
func
(
*
AnswerPartitionTable
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerPartitionTable
)
NEO
MsgCode
()
uint16
{
return
14
|
answerBit
}
func
(
p
*
AnswerPartitionTable
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerPartitionTable
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
...
...
@@ -536,7 +536,7 @@ func (p *AnswerPartitionTable) neoMsgEncodedLen() int {
return
12
+
len
(
p
.
RowList
)
*
8
+
size
}
func
(
p
*
AnswerPartitionTable
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerPartitionTable
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PTid
))
{
l
:=
uint32
(
len
(
p
.
RowList
))
...
...
@@ -561,7 +561,7 @@ func (p *AnswerPartitionTable) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerPartitionTable
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerPartitionTable
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -603,11 +603,11 @@ overflow:
// 16. SendPartitionTable
func
(
*
SendPartitionTable
)
neo
MsgCode
()
uint16
{
func
(
*
SendPartitionTable
)
NEO
MsgCode
()
uint16
{
return
16
}
func
(
p
*
SendPartitionTable
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
SendPartitionTable
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
...
...
@@ -616,7 +616,7 @@ func (p *SendPartitionTable) neoMsgEncodedLen() int {
return
12
+
len
(
p
.
RowList
)
*
8
+
size
}
func
(
p
*
SendPartitionTable
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
SendPartitionTable
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PTid
))
{
l
:=
uint32
(
len
(
p
.
RowList
))
...
...
@@ -641,7 +641,7 @@ func (p *SendPartitionTable) neoMsgEncode(data []byte) {
}
}
func
(
p
*
SendPartitionTable
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
SendPartitionTable
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -683,15 +683,15 @@ overflow:
// 17. NotifyPartitionChanges
func
(
*
NotifyPartitionChanges
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyPartitionChanges
)
NEO
MsgCode
()
uint16
{
return
17
}
func
(
p
*
NotifyPartitionChanges
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyPartitionChanges
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
CellList
)
*
12
}
func
(
p
*
NotifyPartitionChanges
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyPartitionChanges
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PTid
))
{
l
:=
uint32
(
len
(
p
.
CellList
))
...
...
@@ -707,7 +707,7 @@ func (p *NotifyPartitionChanges) neoMsgEncode(data []byte) {
}
}
func
(
p
*
NotifyPartitionChanges
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyPartitionChanges
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -740,19 +740,19 @@ overflow:
// 18. StartOperation
func
(
*
StartOperation
)
neo
MsgCode
()
uint16
{
func
(
*
StartOperation
)
NEO
MsgCode
()
uint16
{
return
18
}
func
(
p
*
StartOperation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
StartOperation
)
NEO
MsgEncodedLen
()
int
{
return
1
}
func
(
p
*
StartOperation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
StartOperation
)
NEO
MsgEncode
(
data
[]
byte
)
{
(
data
[
0
:
])[
0
]
=
bool2byte
(
p
.
Backup
)
}
func
(
p
*
StartOperation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
StartOperation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
1
{
goto
overflow
}
...
...
@@ -765,32 +765,32 @@ overflow:
// 19. StopOperation
func
(
*
StopOperation
)
neo
MsgCode
()
uint16
{
func
(
*
StopOperation
)
NEO
MsgCode
()
uint16
{
return
19
}
func
(
p
*
StopOperation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
StopOperation
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
StopOperation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
StopOperation
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
StopOperation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
StopOperation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 20. UnfinishedTransactions
func
(
*
UnfinishedTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
UnfinishedTransactions
)
NEO
MsgCode
()
uint16
{
return
20
}
func
(
p
*
UnfinishedTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
UnfinishedTransactions
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
RowList
)
*
4
}
func
(
p
*
UnfinishedTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
UnfinishedTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
RowList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -803,7 +803,7 @@ func (p *UnfinishedTransactions) neoMsgEncode(data []byte) {
}
}
func
(
p
*
UnfinishedTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
UnfinishedTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -830,15 +830,15 @@ overflow:
// 20 | answerBit. AnswerUnfinishedTransactions
func
(
*
AnswerUnfinishedTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerUnfinishedTransactions
)
NEO
MsgCode
()
uint16
{
return
20
|
answerBit
}
func
(
p
*
AnswerUnfinishedTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerUnfinishedTransactions
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
TidList
)
*
8
}
func
(
p
*
AnswerUnfinishedTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerUnfinishedTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
MaxTID
))
{
l
:=
uint32
(
len
(
p
.
TidList
))
...
...
@@ -852,7 +852,7 @@ func (p *AnswerUnfinishedTransactions) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerUnfinishedTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerUnfinishedTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -880,32 +880,32 @@ overflow:
// 22. LockedTransactions
func
(
*
LockedTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
LockedTransactions
)
NEO
MsgCode
()
uint16
{
return
22
}
func
(
p
*
LockedTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
LockedTransactions
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
LockedTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
LockedTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
LockedTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
LockedTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 22 | answerBit. AnswerLockedTransactions
func
(
*
AnswerLockedTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerLockedTransactions
)
NEO
MsgCode
()
uint16
{
return
22
|
answerBit
}
func
(
p
*
AnswerLockedTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerLockedTransactions
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
TidDict
)
*
16
}
func
(
p
*
AnswerLockedTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerLockedTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
TidDict
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -923,7 +923,7 @@ func (p *AnswerLockedTransactions) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerLockedTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerLockedTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -951,19 +951,19 @@ overflow:
// 24. FinalTID
func
(
*
FinalTID
)
neo
MsgCode
()
uint16
{
func
(
*
FinalTID
)
NEO
MsgCode
()
uint16
{
return
24
}
func
(
p
*
FinalTID
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
FinalTID
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
FinalTID
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
FinalTID
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTID
))
}
func
(
p
*
FinalTID
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
FinalTID
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -976,19 +976,19 @@ overflow:
// 24 | answerBit. AnswerFinalTID
func
(
*
AnswerFinalTID
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerFinalTID
)
NEO
MsgCode
()
uint16
{
return
24
|
answerBit
}
func
(
p
*
AnswerFinalTID
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerFinalTID
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerFinalTID
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerFinalTID
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
AnswerFinalTID
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerFinalTID
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1001,20 +1001,20 @@ overflow:
// 26. ValidateTransaction
func
(
*
ValidateTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
ValidateTransaction
)
NEO
MsgCode
()
uint16
{
return
26
}
func
(
p
*
ValidateTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
ValidateTransaction
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
ValidateTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
ValidateTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTID
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
ValidateTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
ValidateTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1028,19 +1028,19 @@ overflow:
// 27. BeginTransaction
func
(
*
BeginTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
BeginTransaction
)
NEO
MsgCode
()
uint16
{
return
27
}
func
(
p
*
BeginTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
BeginTransaction
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
BeginTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
BeginTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
BeginTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
BeginTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1053,19 +1053,19 @@ overflow:
// 27 | answerBit. AnswerBeginTransaction
func
(
*
AnswerBeginTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerBeginTransaction
)
NEO
MsgCode
()
uint16
{
return
27
|
answerBit
}
func
(
p
*
AnswerBeginTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerBeginTransaction
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerBeginTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerBeginTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
AnswerBeginTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerBeginTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1078,15 +1078,15 @@ overflow:
// 29. FailedVote
func
(
*
FailedVote
)
neo
MsgCode
()
uint16
{
func
(
*
FailedVote
)
NEO
MsgCode
()
uint16
{
return
29
}
func
(
p
*
FailedVote
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
FailedVote
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
NodeList
)
*
4
}
func
(
p
*
FailedVote
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
FailedVote
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
NodeList
))
...
...
@@ -1100,7 +1100,7 @@ func (p *FailedVote) neoMsgEncode(data []byte) {
}
}
func
(
p
*
FailedVote
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
FailedVote
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -1128,15 +1128,15 @@ overflow:
// 30. FinishTransaction
func
(
*
FinishTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
FinishTransaction
)
NEO
MsgCode
()
uint16
{
return
30
}
func
(
p
*
FinishTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
FinishTransaction
)
NEO
MsgEncodedLen
()
int
{
return
16
+
len
(
p
.
OIDList
)
*
8
+
len
(
p
.
CheckedList
)
*
8
}
func
(
p
*
FinishTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
FinishTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
OIDList
))
...
...
@@ -1160,7 +1160,7 @@ func (p *FinishTransaction) neoMsgEncode(data []byte) {
}
}
func
(
p
*
FinishTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
FinishTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -1202,20 +1202,20 @@ overflow:
// 30 | answerBit. AnswerTransactionFinished
func
(
*
AnswerTransactionFinished
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerTransactionFinished
)
NEO
MsgCode
()
uint16
{
return
30
|
answerBit
}
func
(
p
*
AnswerTransactionFinished
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerTransactionFinished
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
AnswerTransactionFinished
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerTransactionFinished
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
AnswerTransactionFinished
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerTransactionFinished
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1229,20 +1229,20 @@ overflow:
// 32. LockInformation
func
(
*
LockInformation
)
neo
MsgCode
()
uint16
{
func
(
*
LockInformation
)
NEO
MsgCode
()
uint16
{
return
32
}
func
(
p
*
LockInformation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
LockInformation
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
LockInformation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
LockInformation
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Ttid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
LockInformation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
LockInformation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1256,19 +1256,19 @@ overflow:
// 32 | answerBit. AnswerInformationLocked
func
(
*
AnswerInformationLocked
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerInformationLocked
)
NEO
MsgCode
()
uint16
{
return
32
|
answerBit
}
func
(
p
*
AnswerInformationLocked
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerInformationLocked
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerInformationLocked
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerInformationLocked
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Ttid
))
}
func
(
p
*
AnswerInformationLocked
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerInformationLocked
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1281,15 +1281,15 @@ overflow:
// 34. InvalidateObjects
func
(
*
InvalidateObjects
)
neo
MsgCode
()
uint16
{
func
(
*
InvalidateObjects
)
NEO
MsgCode
()
uint16
{
return
34
}
func
(
p
*
InvalidateObjects
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
InvalidateObjects
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
InvalidateObjects
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
InvalidateObjects
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
OidList
))
...
...
@@ -1303,7 +1303,7 @@ func (p *InvalidateObjects) neoMsgEncode(data []byte) {
}
}
func
(
p
*
InvalidateObjects
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
InvalidateObjects
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -1331,19 +1331,19 @@ overflow:
// 35. NotifyUnlockInformation
func
(
*
NotifyUnlockInformation
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyUnlockInformation
)
NEO
MsgCode
()
uint16
{
return
35
}
func
(
p
*
NotifyUnlockInformation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyUnlockInformation
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
NotifyUnlockInformation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyUnlockInformation
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTID
))
}
func
(
p
*
NotifyUnlockInformation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyUnlockInformation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1356,19 +1356,19 @@ overflow:
// 36. AskNewOIDs
func
(
*
AskNewOIDs
)
neo
MsgCode
()
uint16
{
func
(
*
AskNewOIDs
)
NEO
MsgCode
()
uint16
{
return
36
}
func
(
p
*
AskNewOIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AskNewOIDs
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
AskNewOIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AskNewOIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
NumOIDs
)
}
func
(
p
*
AskNewOIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AskNewOIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -1381,15 +1381,15 @@ overflow:
// 36 | answerBit. AnswerNewOIDs
func
(
*
AnswerNewOIDs
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerNewOIDs
)
NEO
MsgCode
()
uint16
{
return
36
|
answerBit
}
func
(
p
*
AnswerNewOIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerNewOIDs
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
AnswerNewOIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerNewOIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
OidList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -1402,7 +1402,7 @@ func (p *AnswerNewOIDs) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerNewOIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerNewOIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -1429,20 +1429,20 @@ overflow:
// 38. NotifyDeadlock
func
(
*
NotifyDeadlock
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyDeadlock
)
NEO
MsgCode
()
uint16
{
return
38
}
func
(
p
*
NotifyDeadlock
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyDeadlock
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
NotifyDeadlock
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyDeadlock
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
LockingTid
))
}
func
(
p
*
NotifyDeadlock
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyDeadlock
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1456,20 +1456,20 @@ overflow:
// 39. RebaseTransaction
func
(
*
RebaseTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
RebaseTransaction
)
NEO
MsgCode
()
uint16
{
return
39
}
func
(
p
*
RebaseTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
RebaseTransaction
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
RebaseTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
RebaseTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
LockingTid
))
}
func
(
p
*
RebaseTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
RebaseTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1483,15 +1483,15 @@ overflow:
// 39 | answerBit. AnswerRebaseTransaction
func
(
*
AnswerRebaseTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerRebaseTransaction
)
NEO
MsgCode
()
uint16
{
return
39
|
answerBit
}
func
(
p
*
AnswerRebaseTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerRebaseTransaction
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
AnswerRebaseTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerRebaseTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
OidList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -1504,7 +1504,7 @@ func (p *AnswerRebaseTransaction) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerRebaseTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerRebaseTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -1531,20 +1531,20 @@ overflow:
// 41. RebaseObject
func
(
*
RebaseObject
)
neo
MsgCode
()
uint16
{
func
(
*
RebaseObject
)
NEO
MsgCode
()
uint16
{
return
41
}
func
(
p
*
RebaseObject
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
RebaseObject
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
RebaseObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
RebaseObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Oid
))
}
func
(
p
*
RebaseObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
RebaseObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -1558,29 +1558,29 @@ overflow:
// 41 | answerBit. AnswerRebaseObject
func
(
*
AnswerRebaseObject
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerRebaseObject
)
NEO
MsgCode
()
uint16
{
return
41
|
answerBit
}
func
(
p
*
AnswerRebaseObject
)
neo
MsgEncodedLen
()
int
{
return
41
+
len
(
p
.
Data
)
func
(
p
*
AnswerRebaseObject
)
NEO
MsgEncodedLen
()
int
{
return
41
+
len
(
p
.
Data
.
XData
()
)
}
func
(
p
*
AnswerRebaseObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerRebaseObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Serial
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
ConflictSerial
))
(
data
[
16
:
])[
0
]
=
bool2byte
(
p
.
Compression
)
copy
(
data
[
17
:
],
p
.
Checksum
[
:
])
{
l
:=
uint32
(
len
(
p
.
Data
))
l
:=
uint32
(
len
(
p
.
Data
.
XData
()
))
binary
.
BigEndian
.
PutUint32
(
data
[
37
:
],
l
)
data
=
data
[
41
:
]
copy
(
data
,
p
.
Data
)
copy
(
data
,
p
.
Data
.
XData
()
)
data
=
data
[
l
:
]
}
}
func
(
p
*
AnswerRebaseObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerRebaseObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
41
{
goto
overflow
...
...
@@ -1596,8 +1596,8 @@ func (p *AnswerRebaseObject) neoMsgDecode(data []byte) (int, error) {
goto
overflow
}
nread
+=
uint64
(
l
)
p
.
Data
=
m
ake
([]
byte
,
l
)
copy
(
p
.
Data
,
data
[
:
l
])
p
.
Data
=
m
em
.
BufAlloc
(
int
(
l
)
)
copy
(
p
.
Data
.
Data
,
data
[
:
l
])
data
=
data
[
l
:
]
}
return
41
+
int
(
nread
),
nil
...
...
@@ -1608,15 +1608,15 @@ overflow:
// 43. StoreObject
func
(
*
StoreObject
)
neo
MsgCode
()
uint16
{
func
(
*
StoreObject
)
NEO
MsgCode
()
uint16
{
return
43
}
func
(
p
*
StoreObject
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
StoreObject
)
NEO
MsgEncodedLen
()
int
{
return
57
+
len
(
p
.
Data
)
}
func
(
p
*
StoreObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
StoreObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Serial
))
(
data
[
16
:
])[
0
]
=
bool2byte
(
p
.
Compression
)
...
...
@@ -1632,7 +1632,7 @@ func (p *StoreObject) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
StoreObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
StoreObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
41
{
goto
overflow
...
...
@@ -1662,19 +1662,19 @@ overflow:
// 43 | answerBit. AnswerStoreObject
func
(
*
AnswerStoreObject
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerStoreObject
)
NEO
MsgCode
()
uint16
{
return
43
|
answerBit
}
func
(
p
*
AnswerStoreObject
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerStoreObject
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerStoreObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerStoreObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Conflict
))
}
func
(
p
*
AnswerStoreObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerStoreObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1687,15 +1687,15 @@ overflow:
// 45. AbortTransaction
func
(
*
AbortTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AbortTransaction
)
NEO
MsgCode
()
uint16
{
return
45
}
func
(
p
*
AbortTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AbortTransaction
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
NodeList
)
*
4
}
func
(
p
*
AbortTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AbortTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
NodeList
))
...
...
@@ -1709,7 +1709,7 @@ func (p *AbortTransaction) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AbortTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AbortTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -1737,15 +1737,15 @@ overflow:
// 46. StoreTransaction
func
(
*
StoreTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
StoreTransaction
)
NEO
MsgCode
()
uint16
{
return
46
}
func
(
p
*
StoreTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
StoreTransaction
)
NEO
MsgEncodedLen
()
int
{
return
24
+
len
(
p
.
User
)
+
len
(
p
.
Description
)
+
len
(
p
.
Extension
)
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
StoreTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
StoreTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
User
))
...
...
@@ -1780,7 +1780,7 @@ func (p *StoreTransaction) neoMsgEncode(data []byte) {
}
}
func
(
p
*
StoreTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
StoreTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -1838,36 +1838,36 @@ overflow:
// 46 | answerBit. AnswerStoreTransaction
func
(
*
AnswerStoreTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerStoreTransaction
)
NEO
MsgCode
()
uint16
{
return
46
|
answerBit
}
func
(
p
*
AnswerStoreTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerStoreTransaction
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
AnswerStoreTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerStoreTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
AnswerStoreTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerStoreTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 48. VoteTransaction
func
(
*
VoteTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
VoteTransaction
)
NEO
MsgCode
()
uint16
{
return
48
}
func
(
p
*
VoteTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
VoteTransaction
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
VoteTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
VoteTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
VoteTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
VoteTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -1880,38 +1880,38 @@ overflow:
// 48 | answerBit. AnswerVoteTransaction
func
(
*
AnswerVoteTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerVoteTransaction
)
NEO
MsgCode
()
uint16
{
return
48
|
answerBit
}
func
(
p
*
AnswerVoteTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerVoteTransaction
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
AnswerVoteTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerVoteTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
AnswerVoteTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerVoteTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 50. GetObject
func
(
*
GetObject
)
neo
MsgCode
()
uint16
{
func
(
*
GetObject
)
NEO
MsgCode
()
uint16
{
return
50
}
func
(
p
*
GetObject
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
GetObject
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
GetObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
GetObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Serial
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
GetObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
GetObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -1926,15 +1926,15 @@ overflow:
// 50 | answerBit. AnswerObject
func
(
*
AnswerObject
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerObject
)
NEO
MsgCode
()
uint16
{
return
50
|
answerBit
}
func
(
p
*
AnswerObject
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerObject
)
NEO
MsgEncodedLen
()
int
{
return
57
+
len
(
p
.
Data
.
XData
())
}
func
(
p
*
AnswerObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Serial
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
NextSerial
))
...
...
@@ -1950,7 +1950,7 @@ func (p *AnswerObject) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
DataSerial
))
}
func
(
p
*
AnswerObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
49
{
goto
overflow
...
...
@@ -1980,21 +1980,21 @@ overflow:
// 52. AskTIDs
func
(
*
AskTIDs
)
neo
MsgCode
()
uint16
{
func
(
*
AskTIDs
)
NEO
MsgCode
()
uint16
{
return
52
}
func
(
p
*
AskTIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AskTIDs
)
NEO
MsgEncodedLen
()
int
{
return
20
}
func
(
p
*
AskTIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AskTIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
p
.
First
)
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
p
.
Last
)
binary
.
BigEndian
.
PutUint32
(
data
[
16
:
],
p
.
Partition
)
}
func
(
p
*
AskTIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AskTIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
20
{
goto
overflow
}
...
...
@@ -2009,15 +2009,15 @@ overflow:
// 52 | answerBit. AnswerTIDs
func
(
*
AnswerTIDs
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerTIDs
)
NEO
MsgCode
()
uint16
{
return
52
|
answerBit
}
func
(
p
*
AnswerTIDs
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerTIDs
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
TIDList
)
*
8
}
func
(
p
*
AnswerTIDs
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerTIDs
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
TIDList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2030,7 +2030,7 @@ func (p *AnswerTIDs) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerTIDs
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerTIDs
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2057,19 +2057,19 @@ overflow:
// 54. TransactionInformation
func
(
*
TransactionInformation
)
neo
MsgCode
()
uint16
{
func
(
*
TransactionInformation
)
NEO
MsgCode
()
uint16
{
return
54
}
func
(
p
*
TransactionInformation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
TransactionInformation
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
TransactionInformation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
TransactionInformation
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
TransactionInformation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
TransactionInformation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -2082,15 +2082,15 @@ overflow:
// 54 | answerBit. AnswerTransactionInformation
func
(
*
AnswerTransactionInformation
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerTransactionInformation
)
NEO
MsgCode
()
uint16
{
return
54
|
answerBit
}
func
(
p
*
AnswerTransactionInformation
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerTransactionInformation
)
NEO
MsgEncodedLen
()
int
{
return
25
+
len
(
p
.
User
)
+
len
(
p
.
Description
)
+
len
(
p
.
Extension
)
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
AnswerTransactionInformation
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerTransactionInformation
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
User
))
...
...
@@ -2126,7 +2126,7 @@ func (p *AnswerTransactionInformation) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerTransactionInformation
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerTransactionInformation
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -2185,21 +2185,21 @@ overflow:
// 56. ObjectHistory
func
(
*
ObjectHistory
)
neo
MsgCode
()
uint16
{
func
(
*
ObjectHistory
)
NEO
MsgCode
()
uint16
{
return
56
}
func
(
p
*
ObjectHistory
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
ObjectHistory
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
ObjectHistory
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
ObjectHistory
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
p
.
First
)
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
p
.
Last
)
}
func
(
p
*
ObjectHistory
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
ObjectHistory
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -2214,15 +2214,15 @@ overflow:
// 56 | answerBit. AnswerObjectHistory
func
(
*
AnswerObjectHistory
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerObjectHistory
)
NEO
MsgCode
()
uint16
{
return
56
|
answerBit
}
func
(
p
*
AnswerObjectHistory
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerObjectHistory
)
NEO
MsgEncodedLen
()
int
{
return
12
+
len
(
p
.
HistoryList
)
*
12
}
func
(
p
*
AnswerObjectHistory
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerObjectHistory
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
{
l
:=
uint32
(
len
(
p
.
HistoryList
))
...
...
@@ -2237,7 +2237,7 @@ func (p *AnswerObjectHistory) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerObjectHistory
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerObjectHistory
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -2269,21 +2269,21 @@ overflow:
// 58. PartitionList
func
(
*
PartitionList
)
neo
MsgCode
()
uint16
{
func
(
*
PartitionList
)
NEO
MsgCode
()
uint16
{
return
58
}
func
(
p
*
PartitionList
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
PartitionList
)
NEO
MsgEncodedLen
()
int
{
return
12
}
func
(
p
*
PartitionList
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
PartitionList
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
MinOffset
)
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
p
.
MaxOffset
)
binary
.
BigEndian
.
PutUint32
(
data
[
8
:
],
uint32
(
int32
(
p
.
NodeUUID
)))
}
func
(
p
*
PartitionList
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
PartitionList
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
12
{
goto
overflow
}
...
...
@@ -2298,11 +2298,11 @@ overflow:
// 58 | answerBit. AnswerPartitionList
func
(
*
AnswerPartitionList
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerPartitionList
)
NEO
MsgCode
()
uint16
{
return
58
|
answerBit
}
func
(
p
*
AnswerPartitionList
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerPartitionList
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
...
...
@@ -2311,7 +2311,7 @@ func (p *AnswerPartitionList) neoMsgEncodedLen() int {
return
12
+
len
(
p
.
RowList
)
*
8
+
size
}
func
(
p
*
AnswerPartitionList
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerPartitionList
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PTid
))
{
l
:=
uint32
(
len
(
p
.
RowList
))
...
...
@@ -2336,7 +2336,7 @@ func (p *AnswerPartitionList) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerPartitionList
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerPartitionList
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -2378,19 +2378,19 @@ overflow:
// 60. NodeList
func
(
*
NodeList
)
neo
MsgCode
()
uint16
{
func
(
*
NodeList
)
NEO
MsgCode
()
uint16
{
return
60
}
func
(
p
*
NodeList
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NodeList
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
NodeList
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NodeList
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
NodeType
)))
}
func
(
p
*
NodeList
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NodeList
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -2403,11 +2403,11 @@ overflow:
// 60 | answerBit. AnswerNodeList
func
(
*
AnswerNodeList
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerNodeList
)
NEO
MsgCode
()
uint16
{
return
60
|
answerBit
}
func
(
p
*
AnswerNodeList
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerNodeList
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
i
:=
0
;
i
<
len
(
p
.
NodeList
);
i
++
{
a
:=
&
p
.
NodeList
[
i
]
...
...
@@ -2416,7 +2416,7 @@ func (p *AnswerNodeList) neoMsgEncodedLen() int {
return
4
+
len
(
p
.
NodeList
)
*
12
+
size
}
func
(
p
*
AnswerNodeList
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerNodeList
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
NodeList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2439,7 +2439,7 @@ func (p *AnswerNodeList) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerNodeList
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerNodeList
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2488,20 +2488,20 @@ overflow:
// 62. SetNodeState
func
(
*
SetNodeState
)
neo
MsgCode
()
uint16
{
func
(
*
SetNodeState
)
NEO
MsgCode
()
uint16
{
return
62
}
func
(
p
*
SetNodeState
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
SetNodeState
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
SetNodeState
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
SetNodeState
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
NodeUUID
)))
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
uint32
(
int32
(
p
.
NodeState
)))
}
func
(
p
*
SetNodeState
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
SetNodeState
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -2515,15 +2515,15 @@ overflow:
// 63. AddPendingNodes
func
(
*
AddPendingNodes
)
neo
MsgCode
()
uint16
{
func
(
*
AddPendingNodes
)
NEO
MsgCode
()
uint16
{
return
63
}
func
(
p
*
AddPendingNodes
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AddPendingNodes
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
NodeList
)
*
4
}
func
(
p
*
AddPendingNodes
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AddPendingNodes
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
NodeList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2536,7 +2536,7 @@ func (p *AddPendingNodes) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AddPendingNodes
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AddPendingNodes
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2563,15 +2563,15 @@ overflow:
// 64. TweakPartitionTable
func
(
*
TweakPartitionTable
)
neo
MsgCode
()
uint16
{
func
(
*
TweakPartitionTable
)
NEO
MsgCode
()
uint16
{
return
64
}
func
(
p
*
TweakPartitionTable
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
TweakPartitionTable
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
NodeList
)
*
4
}
func
(
p
*
TweakPartitionTable
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
TweakPartitionTable
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
NodeList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2584,7 +2584,7 @@ func (p *TweakPartitionTable) neoMsgEncode(data []byte) {
}
}
func
(
p
*
TweakPartitionTable
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
TweakPartitionTable
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2611,19 +2611,19 @@ overflow:
// 65. SetClusterState
func
(
*
SetClusterState
)
neo
MsgCode
()
uint16
{
func
(
*
SetClusterState
)
NEO
MsgCode
()
uint16
{
return
65
}
func
(
p
*
SetClusterState
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
SetClusterState
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
SetClusterState
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
SetClusterState
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
State
)))
}
func
(
p
*
SetClusterState
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
SetClusterState
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -2636,15 +2636,15 @@ overflow:
// 66. Repair
func
(
*
Repair
)
neo
MsgCode
()
uint16
{
func
(
*
Repair
)
NEO
MsgCode
()
uint16
{
return
66
}
func
(
p
*
Repair
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Repair
)
NEO
MsgEncodedLen
()
int
{
return
5
+
len
(
p
.
NodeList
)
*
4
}
func
(
p
*
Repair
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Repair
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
NodeList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2658,7 +2658,7 @@ func (p *Repair) neoMsgEncode(data []byte) {
(
data
[
0
:
])[
0
]
=
bool2byte
(
p
.
repairFlags
.
DryRun
)
}
func
(
p
*
Repair
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Repair
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2686,19 +2686,19 @@ overflow:
// 67. RepairOne
func
(
*
RepairOne
)
neo
MsgCode
()
uint16
{
func
(
*
RepairOne
)
NEO
MsgCode
()
uint16
{
return
67
}
func
(
p
*
RepairOne
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
RepairOne
)
NEO
MsgEncodedLen
()
int
{
return
1
}
func
(
p
*
RepairOne
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
RepairOne
)
NEO
MsgEncode
(
data
[]
byte
)
{
(
data
[
0
:
])[
0
]
=
bool2byte
(
p
.
repairFlags
.
DryRun
)
}
func
(
p
*
RepairOne
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
RepairOne
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
1
{
goto
overflow
}
...
...
@@ -2711,19 +2711,19 @@ overflow:
// 68. NotifyClusterState
func
(
*
NotifyClusterState
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyClusterState
)
NEO
MsgCode
()
uint16
{
return
68
}
func
(
p
*
NotifyClusterState
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyClusterState
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
NotifyClusterState
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyClusterState
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
State
)))
}
func
(
p
*
NotifyClusterState
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyClusterState
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -2736,36 +2736,36 @@ overflow:
// 69. AskClusterState
func
(
*
AskClusterState
)
neo
MsgCode
()
uint16
{
func
(
*
AskClusterState
)
NEO
MsgCode
()
uint16
{
return
69
}
func
(
p
*
AskClusterState
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AskClusterState
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
AskClusterState
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AskClusterState
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
AskClusterState
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AskClusterState
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 69 | answerBit. AnswerClusterState
func
(
*
AnswerClusterState
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerClusterState
)
NEO
MsgCode
()
uint16
{
return
69
|
answerBit
}
func
(
p
*
AnswerClusterState
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerClusterState
)
NEO
MsgEncodedLen
()
int
{
return
4
}
func
(
p
*
AnswerClusterState
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerClusterState
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
uint32
(
int32
(
p
.
State
)))
}
func
(
p
*
AnswerClusterState
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerClusterState
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
4
{
goto
overflow
}
...
...
@@ -2778,15 +2778,15 @@ overflow:
// 71. ObjectUndoSerial
func
(
*
ObjectUndoSerial
)
neo
MsgCode
()
uint16
{
func
(
*
ObjectUndoSerial
)
NEO
MsgCode
()
uint16
{
return
71
}
func
(
p
*
ObjectUndoSerial
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
ObjectUndoSerial
)
NEO
MsgEncodedLen
()
int
{
return
28
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
ObjectUndoSerial
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
ObjectUndoSerial
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
LTID
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
UndoneTID
))
...
...
@@ -2802,7 +2802,7 @@ func (p *ObjectUndoSerial) neoMsgEncode(data []byte) {
}
}
func
(
p
*
ObjectUndoSerial
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
ObjectUndoSerial
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
28
{
goto
overflow
...
...
@@ -2832,15 +2832,15 @@ overflow:
// 71 | answerBit. AnswerObjectUndoSerial
func
(
*
AnswerObjectUndoSerial
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerObjectUndoSerial
)
NEO
MsgCode
()
uint16
{
return
71
|
answerBit
}
func
(
p
*
AnswerObjectUndoSerial
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerObjectUndoSerial
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
ObjectTIDDict
)
*
25
}
func
(
p
*
AnswerObjectUndoSerial
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerObjectUndoSerial
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
ObjectTIDDict
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2860,7 +2860,7 @@ func (p *AnswerObjectUndoSerial) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerObjectUndoSerial
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerObjectUndoSerial
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2900,22 +2900,22 @@ overflow:
// 73. AskTIDsFrom
func
(
*
AskTIDsFrom
)
neo
MsgCode
()
uint16
{
func
(
*
AskTIDsFrom
)
NEO
MsgCode
()
uint16
{
return
73
}
func
(
p
*
AskTIDsFrom
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AskTIDsFrom
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
AskTIDsFrom
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AskTIDsFrom
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
MinTID
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MaxTID
))
binary
.
BigEndian
.
PutUint32
(
data
[
16
:
],
p
.
Length
)
binary
.
BigEndian
.
PutUint32
(
data
[
20
:
],
p
.
Partition
)
}
func
(
p
*
AskTIDsFrom
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AskTIDsFrom
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -2931,15 +2931,15 @@ overflow:
// 73 | answerBit. AnswerTIDsFrom
func
(
*
AnswerTIDsFrom
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerTIDsFrom
)
NEO
MsgCode
()
uint16
{
return
73
|
answerBit
}
func
(
p
*
AnswerTIDsFrom
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerTIDsFrom
)
NEO
MsgEncodedLen
()
int
{
return
4
+
len
(
p
.
TidList
)
*
8
}
func
(
p
*
AnswerTIDsFrom
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerTIDsFrom
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
TidList
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -2952,7 +2952,7 @@ func (p *AnswerTIDsFrom) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerTIDsFrom
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerTIDsFrom
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -2979,19 +2979,19 @@ overflow:
// 75. Pack
func
(
*
Pack
)
neo
MsgCode
()
uint16
{
func
(
*
Pack
)
NEO
MsgCode
()
uint16
{
return
75
}
func
(
p
*
Pack
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Pack
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
Pack
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Pack
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
Pack
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Pack
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -3004,19 +3004,19 @@ overflow:
// 75 | answerBit. AnswerPack
func
(
*
AnswerPack
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerPack
)
NEO
MsgCode
()
uint16
{
return
75
|
answerBit
}
func
(
p
*
AnswerPack
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerPack
)
NEO
MsgEncodedLen
()
int
{
return
1
}
func
(
p
*
AnswerPack
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerPack
)
NEO
MsgEncode
(
data
[]
byte
)
{
(
data
[
0
:
])[
0
]
=
bool2byte
(
p
.
Status
)
}
func
(
p
*
AnswerPack
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerPack
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
1
{
goto
overflow
}
...
...
@@ -3029,15 +3029,15 @@ overflow:
// 77. CheckReplicas
func
(
*
CheckReplicas
)
neo
MsgCode
()
uint16
{
func
(
*
CheckReplicas
)
NEO
MsgCode
()
uint16
{
return
77
}
func
(
p
*
CheckReplicas
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CheckReplicas
)
NEO
MsgEncodedLen
()
int
{
return
20
+
len
(
p
.
PartitionDict
)
*
8
}
func
(
p
*
CheckReplicas
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CheckReplicas
)
NEO
MsgEncode
(
data
[]
byte
)
{
{
l
:=
uint32
(
len
(
p
.
PartitionDict
))
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
l
)
...
...
@@ -3057,7 +3057,7 @@ func (p *CheckReplicas) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MaxTID
))
}
func
(
p
*
CheckReplicas
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CheckReplicas
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
4
{
goto
overflow
...
...
@@ -3087,15 +3087,15 @@ overflow:
// 78. CheckPartition
func
(
*
CheckPartition
)
neo
MsgCode
()
uint16
{
func
(
*
CheckPartition
)
NEO
MsgCode
()
uint16
{
return
78
}
func
(
p
*
CheckPartition
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CheckPartition
)
NEO
MsgEncodedLen
()
int
{
return
24
+
len
(
p
.
Source
.
UpstreamName
)
+
p
.
Source
.
Address
.
neoEncodedLen
()
}
func
(
p
*
CheckPartition
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CheckPartition
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
{
l
:=
uint32
(
len
(
p
.
Source
.
UpstreamName
))
...
...
@@ -3112,7 +3112,7 @@ func (p *CheckPartition) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MaxTID
))
}
func
(
p
*
CheckPartition
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CheckPartition
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
8
{
goto
overflow
...
...
@@ -3149,22 +3149,22 @@ overflow:
// 79. CheckTIDRange
func
(
*
CheckTIDRange
)
neo
MsgCode
()
uint16
{
func
(
*
CheckTIDRange
)
NEO
MsgCode
()
uint16
{
return
79
}
func
(
p
*
CheckTIDRange
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CheckTIDRange
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
CheckTIDRange
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CheckTIDRange
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
p
.
Length
)
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MinTID
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
MaxTID
))
}
func
(
p
*
CheckTIDRange
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CheckTIDRange
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -3180,21 +3180,21 @@ overflow:
// 79 | answerBit. AnswerCheckTIDRange
func
(
*
AnswerCheckTIDRange
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerCheckTIDRange
)
NEO
MsgCode
()
uint16
{
return
79
|
answerBit
}
func
(
p
*
AnswerCheckTIDRange
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerCheckTIDRange
)
NEO
MsgEncodedLen
()
int
{
return
32
}
func
(
p
*
AnswerCheckTIDRange
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerCheckTIDRange
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Count
)
copy
(
data
[
4
:
],
p
.
Checksum
[
:
])
binary
.
BigEndian
.
PutUint64
(
data
[
24
:
],
uint64
(
p
.
MaxTID
))
}
func
(
p
*
AnswerCheckTIDRange
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerCheckTIDRange
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
32
{
goto
overflow
}
...
...
@@ -3209,15 +3209,15 @@ overflow:
// 81. CheckSerialRange
func
(
*
CheckSerialRange
)
neo
MsgCode
()
uint16
{
func
(
*
CheckSerialRange
)
NEO
MsgCode
()
uint16
{
return
81
}
func
(
p
*
CheckSerialRange
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CheckSerialRange
)
NEO
MsgEncodedLen
()
int
{
return
32
}
func
(
p
*
CheckSerialRange
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CheckSerialRange
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
p
.
Length
)
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MinTID
))
...
...
@@ -3225,7 +3225,7 @@ func (p *CheckSerialRange) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
24
:
],
uint64
(
p
.
MinOID
))
}
func
(
p
*
CheckSerialRange
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CheckSerialRange
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
32
{
goto
overflow
}
...
...
@@ -3242,15 +3242,15 @@ overflow:
// 81 | answerBit. AnswerCheckSerialRange
func
(
*
AnswerCheckSerialRange
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerCheckSerialRange
)
NEO
MsgCode
()
uint16
{
return
81
|
answerBit
}
func
(
p
*
AnswerCheckSerialRange
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerCheckSerialRange
)
NEO
MsgEncodedLen
()
int
{
return
60
}
func
(
p
*
AnswerCheckSerialRange
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerCheckSerialRange
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Count
)
copy
(
data
[
4
:
],
p
.
TidChecksum
[
:
])
binary
.
BigEndian
.
PutUint64
(
data
[
24
:
],
uint64
(
p
.
MaxTID
))
...
...
@@ -3258,7 +3258,7 @@ func (p *AnswerCheckSerialRange) neoMsgEncode(data []byte) {
binary
.
BigEndian
.
PutUint64
(
data
[
52
:
],
uint64
(
p
.
MaxOID
))
}
func
(
p
*
AnswerCheckSerialRange
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerCheckSerialRange
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
60
{
goto
overflow
}
...
...
@@ -3275,15 +3275,15 @@ overflow:
// 83. PartitionCorrupted
func
(
*
PartitionCorrupted
)
neo
MsgCode
()
uint16
{
func
(
*
PartitionCorrupted
)
NEO
MsgCode
()
uint16
{
return
83
}
func
(
p
*
PartitionCorrupted
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
PartitionCorrupted
)
NEO
MsgEncodedLen
()
int
{
return
8
+
len
(
p
.
CellList
)
*
4
}
func
(
p
*
PartitionCorrupted
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
PartitionCorrupted
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
{
l
:=
uint32
(
len
(
p
.
CellList
))
...
...
@@ -3297,7 +3297,7 @@ func (p *PartitionCorrupted) neoMsgEncode(data []byte) {
}
}
func
(
p
*
PartitionCorrupted
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
PartitionCorrupted
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
8
{
goto
overflow
...
...
@@ -3325,53 +3325,53 @@ overflow:
// 84. NotifyReady
func
(
*
NotifyReady
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyReady
)
NEO
MsgCode
()
uint16
{
return
84
}
func
(
p
*
NotifyReady
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyReady
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
NotifyReady
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyReady
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
NotifyReady
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyReady
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 85. LastTransaction
func
(
*
LastTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
LastTransaction
)
NEO
MsgCode
()
uint16
{
return
85
}
func
(
p
*
LastTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
LastTransaction
)
NEO
MsgEncodedLen
()
int
{
return
0
}
func
(
p
*
LastTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
LastTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
}
func
(
p
*
LastTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
LastTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
return
0
,
nil
}
// 85 | answerBit. AnswerLastTransaction
func
(
*
AnswerLastTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerLastTransaction
)
NEO
MsgCode
()
uint16
{
return
85
|
answerBit
}
func
(
p
*
AnswerLastTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerLastTransaction
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerLastTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerLastTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
AnswerLastTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerLastTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -3384,21 +3384,21 @@ overflow:
// 87. CheckCurrentSerial
func
(
*
CheckCurrentSerial
)
neo
MsgCode
()
uint16
{
func
(
*
CheckCurrentSerial
)
NEO
MsgCode
()
uint16
{
return
87
}
func
(
p
*
CheckCurrentSerial
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
CheckCurrentSerial
)
NEO
MsgEncodedLen
()
int
{
return
24
}
func
(
p
*
CheckCurrentSerial
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
CheckCurrentSerial
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
Serial
))
}
func
(
p
*
CheckCurrentSerial
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
CheckCurrentSerial
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
24
{
goto
overflow
}
...
...
@@ -3413,19 +3413,19 @@ overflow:
// 87 | answerBit. AnswerCheckCurrentSerial
func
(
*
AnswerCheckCurrentSerial
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerCheckCurrentSerial
)
NEO
MsgCode
()
uint16
{
return
87
|
answerBit
}
func
(
p
*
AnswerCheckCurrentSerial
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerCheckCurrentSerial
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
AnswerCheckCurrentSerial
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerCheckCurrentSerial
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
AnswerStoreObject
.
Conflict
))
}
func
(
p
*
AnswerCheckCurrentSerial
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerCheckCurrentSerial
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
@@ -3438,20 +3438,20 @@ overflow:
// 89. NotifyTransactionFinished
func
(
*
NotifyTransactionFinished
)
neo
MsgCode
()
uint16
{
func
(
*
NotifyTransactionFinished
)
NEO
MsgCode
()
uint16
{
return
89
}
func
(
p
*
NotifyTransactionFinished
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
NotifyTransactionFinished
)
NEO
MsgEncodedLen
()
int
{
return
16
}
func
(
p
*
NotifyTransactionFinished
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
NotifyTransactionFinished
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
TTID
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MaxTID
))
}
func
(
p
*
NotifyTransactionFinished
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
NotifyTransactionFinished
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
16
{
goto
overflow
}
...
...
@@ -3465,11 +3465,11 @@ overflow:
// 90. Replicate
func
(
*
Replicate
)
neo
MsgCode
()
uint16
{
func
(
*
Replicate
)
NEO
MsgCode
()
uint16
{
return
90
}
func
(
p
*
Replicate
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Replicate
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
key
:=
range
p
.
SourceDict
{
size
+=
len
(
p
.
SourceDict
[
key
])
...
...
@@ -3477,7 +3477,7 @@ func (p *Replicate) neoMsgEncodedLen() int {
return
16
+
len
(
p
.
UpstreamName
)
+
len
(
p
.
SourceDict
)
*
8
+
size
}
func
(
p
*
Replicate
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Replicate
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
UpstreamName
))
...
...
@@ -3509,7 +3509,7 @@ func (p *Replicate) neoMsgEncode(data []byte) {
}
}
func
(
p
*
Replicate
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Replicate
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -3556,20 +3556,20 @@ overflow:
// 91. ReplicationDone
func
(
*
ReplicationDone
)
neo
MsgCode
()
uint16
{
func
(
*
ReplicationDone
)
NEO
MsgCode
()
uint16
{
return
91
}
func
(
p
*
ReplicationDone
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
ReplicationDone
)
NEO
MsgEncodedLen
()
int
{
return
12
}
func
(
p
*
ReplicationDone
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
ReplicationDone
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Offset
)
binary
.
BigEndian
.
PutUint64
(
data
[
4
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
ReplicationDone
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
ReplicationDone
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
12
{
goto
overflow
}
...
...
@@ -3583,15 +3583,15 @@ overflow:
// 92. FetchTransactions
func
(
*
FetchTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
FetchTransactions
)
NEO
MsgCode
()
uint16
{
return
92
}
func
(
p
*
FetchTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
FetchTransactions
)
NEO
MsgEncodedLen
()
int
{
return
28
+
len
(
p
.
TxnKnownList
)
*
8
}
func
(
p
*
FetchTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
FetchTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
p
.
Length
)
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MinTid
))
...
...
@@ -3608,7 +3608,7 @@ func (p *FetchTransactions) neoMsgEncode(data []byte) {
}
}
func
(
p
*
FetchTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
FetchTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
28
{
goto
overflow
...
...
@@ -3639,15 +3639,15 @@ overflow:
// 92 | answerBit. AnswerFetchTransactions
func
(
*
AnswerFetchTransactions
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerFetchTransactions
)
NEO
MsgCode
()
uint16
{
return
92
|
answerBit
}
func
(
p
*
AnswerFetchTransactions
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerFetchTransactions
)
NEO
MsgEncodedLen
()
int
{
return
20
+
len
(
p
.
TxnDeleteList
)
*
8
}
func
(
p
*
AnswerFetchTransactions
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerFetchTransactions
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PackTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
NextTid
))
{
...
...
@@ -3662,7 +3662,7 @@ func (p *AnswerFetchTransactions) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerFetchTransactions
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerFetchTransactions
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
20
{
goto
overflow
...
...
@@ -3691,11 +3691,11 @@ overflow:
// 94. FetchObjects
func
(
*
FetchObjects
)
neo
MsgCode
()
uint16
{
func
(
*
FetchObjects
)
NEO
MsgCode
()
uint16
{
return
94
}
func
(
p
*
FetchObjects
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
FetchObjects
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
key
:=
range
p
.
ObjKnownDict
{
size
+=
len
(
p
.
ObjKnownDict
[
key
])
*
8
...
...
@@ -3703,7 +3703,7 @@ func (p *FetchObjects) neoMsgEncodedLen() int {
return
36
+
len
(
p
.
ObjKnownDict
)
*
12
+
size
}
func
(
p
*
FetchObjects
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
FetchObjects
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint32
(
data
[
0
:
],
p
.
Partition
)
binary
.
BigEndian
.
PutUint32
(
data
[
4
:
],
p
.
Length
)
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
MinTid
))
...
...
@@ -3735,7 +3735,7 @@ func (p *FetchObjects) neoMsgEncode(data []byte) {
}
}
func
(
p
*
FetchObjects
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
FetchObjects
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
36
{
goto
overflow
...
...
@@ -3782,11 +3782,11 @@ overflow:
// 94 | answerBit. AnswerFetchObjects
func
(
*
AnswerFetchObjects
)
neo
MsgCode
()
uint16
{
func
(
*
AnswerFetchObjects
)
NEO
MsgCode
()
uint16
{
return
94
|
answerBit
}
func
(
p
*
AnswerFetchObjects
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AnswerFetchObjects
)
NEO
MsgEncodedLen
()
int
{
var
size
int
for
key
:=
range
p
.
ObjDeleteDict
{
size
+=
len
(
p
.
ObjDeleteDict
[
key
])
*
8
...
...
@@ -3794,7 +3794,7 @@ func (p *AnswerFetchObjects) neoMsgEncodedLen() int {
return
28
+
len
(
p
.
ObjDeleteDict
)
*
12
+
size
}
func
(
p
*
AnswerFetchObjects
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AnswerFetchObjects
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
PackTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
NextTid
))
binary
.
BigEndian
.
PutUint64
(
data
[
16
:
],
uint64
(
p
.
NextOid
))
...
...
@@ -3824,7 +3824,7 @@ func (p *AnswerFetchObjects) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AnswerFetchObjects
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AnswerFetchObjects
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
28
{
goto
overflow
...
...
@@ -3869,15 +3869,15 @@ overflow:
// 96. AddTransaction
func
(
*
AddTransaction
)
neo
MsgCode
()
uint16
{
func
(
*
AddTransaction
)
NEO
MsgCode
()
uint16
{
return
96
}
func
(
p
*
AddTransaction
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
AddTransaction
)
NEO
MsgEncodedLen
()
int
{
return
33
+
len
(
p
.
User
)
+
len
(
p
.
Description
)
+
len
(
p
.
Extension
)
+
len
(
p
.
OidList
)
*
8
}
func
(
p
*
AddTransaction
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AddTransaction
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
{
l
:=
uint32
(
len
(
p
.
User
))
...
...
@@ -3914,7 +3914,7 @@ func (p *AddTransaction) neoMsgEncode(data []byte) {
}
}
func
(
p
*
AddTransaction
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AddTransaction
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
12
{
goto
overflow
...
...
@@ -3974,30 +3974,30 @@ overflow:
// 97. AddObject
func
(
*
AddObject
)
neo
MsgCode
()
uint16
{
func
(
*
AddObject
)
NEO
MsgCode
()
uint16
{
return
97
}
func
(
p
*
AddObject
)
neo
MsgEncodedLen
()
int
{
return
49
+
len
(
p
.
Data
)
func
(
p
*
AddObject
)
NEO
MsgEncodedLen
()
int
{
return
49
+
len
(
p
.
Data
.
XData
()
)
}
func
(
p
*
AddObject
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
AddObject
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Oid
))
binary
.
BigEndian
.
PutUint64
(
data
[
8
:
],
uint64
(
p
.
Serial
))
(
data
[
16
:
])[
0
]
=
bool2byte
(
p
.
Compression
)
copy
(
data
[
17
:
],
p
.
Checksum
[
:
])
{
l
:=
uint32
(
len
(
p
.
Data
))
l
:=
uint32
(
len
(
p
.
Data
.
XData
()
))
binary
.
BigEndian
.
PutUint32
(
data
[
37
:
],
l
)
data
=
data
[
41
:
]
copy
(
data
,
p
.
Data
)
copy
(
data
,
p
.
Data
.
XData
()
)
data
=
data
[
l
:
]
}
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
DataSerial
))
}
func
(
p
*
AddObject
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
AddObject
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
var
nread
uint64
if
len
(
data
)
<
41
{
goto
overflow
...
...
@@ -4013,8 +4013,8 @@ func (p *AddObject) neoMsgDecode(data []byte) (int, error) {
goto
overflow
}
nread
+=
8
+
uint64
(
l
)
p
.
Data
=
m
ake
([]
byte
,
l
)
copy
(
p
.
Data
,
data
[
:
l
])
p
.
Data
=
m
em
.
BufAlloc
(
int
(
l
)
)
copy
(
p
.
Data
.
Data
,
data
[
:
l
])
data
=
data
[
l
:
]
}
p
.
DataSerial
=
zodb
.
Tid
(
binary
.
BigEndian
.
Uint64
(
data
[
0
:
0
+
8
]))
...
...
@@ -4026,19 +4026,19 @@ overflow:
// 98. Truncate
func
(
*
Truncate
)
neo
MsgCode
()
uint16
{
func
(
*
Truncate
)
NEO
MsgCode
()
uint16
{
return
98
}
func
(
p
*
Truncate
)
neo
MsgEncodedLen
()
int
{
func
(
p
*
Truncate
)
NEO
MsgEncodedLen
()
int
{
return
8
}
func
(
p
*
Truncate
)
neo
MsgEncode
(
data
[]
byte
)
{
func
(
p
*
Truncate
)
NEO
MsgEncode
(
data
[]
byte
)
{
binary
.
BigEndian
.
PutUint64
(
data
[
0
:
],
uint64
(
p
.
Tid
))
}
func
(
p
*
Truncate
)
neo
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
func
(
p
*
Truncate
)
NEO
MsgDecode
(
data
[]
byte
)
(
int
,
error
)
{
if
len
(
data
)
<
8
{
goto
overflow
}
...
...
go/neo/zproto-str.go
→
go/neo/
proto/
zproto-str.go
View file @
47f069a5
// Code generated by "stringer -output zproto-str.go -type ErrorCode,ClusterState,NodeType,NodeState,CellState proto.go
packed.go
"; DO NOT EDIT.
// Code generated by "stringer -output zproto-str.go -type ErrorCode,ClusterState,NodeType,NodeState,CellState proto.go"; DO NOT EDIT.
package
ne
o
package
prot
o
import
"fmt"
...
...
go/neo/ztestdata_proto_py_test.go
→
go/neo/
proto/
ztestdata_proto_py_test.go
View file @
47f069a5
// Code generated by ./py/pyneo-gen-testdata; DO NOT EDIT.
package
ne
o
package
prot
o
var
pyMsgRegistry
=
map
[
uint16
]
string
{
1
:
"RequestIdentification"
,
...
...
go/neo/proto/ztrace.go
0 → 100644
View file @
47f069a5
// Code generated by lab.nexedi.com/kirr/go123/tracing/cmd/gotrace; DO NOT EDIT.
package
proto
// code generated for tracepoints
import
(
"lab.nexedi.com/kirr/go123/tracing"
"unsafe"
)
// traceevent: traceClusterStateChanged(cs *ClusterState)
type
_t_traceClusterStateChanged
struct
{
tracing
.
Probe
probefunc
func
(
cs
*
ClusterState
)
}
var
_traceClusterStateChanged
*
_t_traceClusterStateChanged
func
traceClusterStateChanged
(
cs
*
ClusterState
)
{
if
_traceClusterStateChanged
!=
nil
{
_traceClusterStateChanged_run
(
cs
)
}
}
func
_traceClusterStateChanged_run
(
cs
*
ClusterState
)
{
for
p
:=
_traceClusterStateChanged
;
p
!=
nil
;
p
=
(
*
_t_traceClusterStateChanged
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
p
.
probefunc
(
cs
)
}
}
func
traceClusterStateChanged_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
cs
*
ClusterState
))
*
tracing
.
Probe
{
p
:=
_t_traceClusterStateChanged
{
probefunc
:
probe
}
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceClusterStateChanged
)),
&
p
.
Probe
)
return
&
p
.
Probe
}
// trace export signature
func
_trace_exporthash_20c3e52fbfabe08e304139ab4a6bbf7c569f0994
()
{}
go/neo/server/cluster_test.go
View file @
47f069a5
...
...
@@ -38,6 +38,7 @@ import (
//"github.com/kylelemons/godebug/pretty"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/neo/client"
//"lab.nexedi.com/kirr/neo/go/neo/internal/common"
...
...
@@ -77,17 +78,17 @@ type eventNetListen struct {
type
eventNeoSend
struct
{
Src
,
Dst
string
ConnID
uint32
Msg
ne
o
.
Msg
Msg
prot
o
.
Msg
}
// event: cluster state changed
type
eventClusterState
struct
{
//Ptr *neo.ClusterState // pointer to variable which holds the state
Where
string
State
ne
o
.
ClusterState
State
prot
o
.
ClusterState
}
func
clusterState
(
where
string
,
v
ne
o
.
ClusterState
)
*
eventClusterState
{
func
clusterState
(
where
string
,
v
prot
o
.
ClusterState
)
*
eventClusterState
{
return
&
eventClusterState
{
where
,
v
}
}
...
...
@@ -95,7 +96,7 @@ func clusterState(where string, v neo.ClusterState) *eventClusterState {
type
eventNodeTab
struct
{
//NodeTab unsafe.Pointer // *neo.NodeTable XXX not to noise test diff
Where
string
// host of running node XXX ok? XXX -> TabName?
NodeInfo
ne
o
.
NodeInfo
NodeInfo
prot
o
.
NodeInfo
}
// event: master ready to start changed
...
...
@@ -293,7 +294,7 @@ type TraceCollector struct {
node2Name
map
[
*
neo
.
NodeApp
]
string
nodeTab2Owner
map
[
*
neo
.
NodeTable
]
string
clusterState2Owner
map
[
*
ne
o
.
ClusterState
]
string
clusterState2Owner
map
[
*
prot
o
.
ClusterState
]
string
}
func
NewTraceCollector
(
dispatch
*
tsync
.
EventDispatcher
)
*
TraceCollector
{
...
...
@@ -303,18 +304,19 @@ func NewTraceCollector(dispatch *tsync.EventDispatcher) *TraceCollector {
node2Name
:
make
(
map
[
*
neo
.
NodeApp
]
string
),
nodeTab2Owner
:
make
(
map
[
*
neo
.
NodeTable
]
string
),
clusterState2Owner
:
make
(
map
[
*
ne
o
.
ClusterState
]
string
),
clusterState2Owner
:
make
(
map
[
*
prot
o
.
ClusterState
]
string
),
}
}
//trace:import "lab.nexedi.com/kirr/neo/go/neo"
//trace:import "lab.nexedi.com/kirr/neo/go/neo/proto"
// Attach attaches the tracer to appropriate trace points.
func
(
t
*
TraceCollector
)
Attach
()
{
tracing
.
Lock
()
//neo_traceMsgRecv_Attach(t.pg, t.traceNeoMsgRecv)
neo_traceMsgSendPre_Attach
(
t
.
pg
,
t
.
traceNeoMsgSendPre
)
ne
o_traceClusterStateChanged_Attach
(
t
.
pg
,
t
.
traceClusterState
)
prot
o_traceClusterStateChanged_Attach
(
t
.
pg
,
t
.
traceClusterState
)
neo_traceNodeChanged_Attach
(
t
.
pg
,
t
.
traceNode
)
traceMasterStartReady_Attach
(
t
.
pg
,
t
.
traceMasterStartReady
)
tracing
.
Unlock
()
...
...
@@ -354,11 +356,11 @@ func (t *TraceCollector) TraceNetListen(ev *xnet.TraceListen) {
func
(
t
*
TraceCollector
)
TraceNetTx
(
ev
*
xnet
.
TraceTx
)
{}
// we use traceNeoMsgSend instead
func
(
t
*
TraceCollector
)
traceNeoMsgSendPre
(
l
*
neo
.
NodeLink
,
connID
uint32
,
msg
ne
o
.
Msg
)
{
func
(
t
*
TraceCollector
)
traceNeoMsgSendPre
(
l
*
neo
.
NodeLink
,
connID
uint32
,
msg
prot
o
.
Msg
)
{
t
.
d
.
Dispatch
(
&
eventNeoSend
{
l
.
LocalAddr
()
.
String
(),
l
.
RemoteAddr
()
.
String
(),
connID
,
msg
})
}
func
(
t
*
TraceCollector
)
traceClusterState
(
cs
*
ne
o
.
ClusterState
)
{
func
(
t
*
TraceCollector
)
traceClusterState
(
cs
*
prot
o
.
ClusterState
)
{
//t.d.Dispatch(&eventClusterState{cs, *cs})
where
:=
t
.
clusterState2Owner
[
cs
]
t
.
d
.
Dispatch
(
&
eventClusterState
{
where
,
*
cs
})
...
...
@@ -400,11 +402,11 @@ func TestMasterStorage(t *testing.T) {
exc
.
Raiseif
(
err
)
return
a
}
xnaddr
:=
func
(
addr
string
)
ne
o
.
Address
{
xnaddr
:=
func
(
addr
string
)
prot
o
.
Address
{
if
addr
==
""
{
return
ne
o
.
Address
{}
return
prot
o
.
Address
{}
}
a
,
err
:=
ne
o
.
Addr
(
xaddr
(
addr
))
a
,
err
:=
prot
o
.
Addr
(
xaddr
(
addr
))
exc
.
Raiseif
(
err
)
return
a
}
...
...
@@ -419,23 +421,23 @@ func TestMasterStorage(t *testing.T) {
}
// shortcut for net tx event over nodelink connection
conntx
:=
func
(
src
,
dst
string
,
connid
uint32
,
msg
ne
o
.
Msg
)
*
eventNeoSend
{
conntx
:=
func
(
src
,
dst
string
,
connid
uint32
,
msg
prot
o
.
Msg
)
*
eventNeoSend
{
return
&
eventNeoSend
{
Src
:
src
,
Dst
:
dst
,
ConnID
:
connid
,
Msg
:
msg
}
}
// shortcut for NodeInfo
nodei
:=
func
(
laddr
string
,
typ
neo
.
NodeType
,
num
int32
,
state
neo
.
NodeState
,
idtime
neo
.
IdTime
)
ne
o
.
NodeInfo
{
return
ne
o
.
NodeInfo
{
nodei
:=
func
(
laddr
string
,
typ
proto
.
NodeType
,
num
int32
,
state
proto
.
NodeState
,
idtime
proto
.
IdTime
)
prot
o
.
NodeInfo
{
return
prot
o
.
NodeInfo
{
Type
:
typ
,
Addr
:
xnaddr
(
laddr
),
UUID
:
ne
o
.
UUID
(
typ
,
num
),
UUID
:
prot
o
.
UUID
(
typ
,
num
),
State
:
state
,
IdTime
:
idtime
,
}
}
// shortcut for nodetab change
node
:=
func
(
where
string
,
laddr
string
,
typ
neo
.
NodeType
,
num
int32
,
state
neo
.
NodeState
,
idtime
ne
o
.
IdTime
)
*
eventNodeTab
{
node
:=
func
(
where
string
,
laddr
string
,
typ
proto
.
NodeType
,
num
int32
,
state
proto
.
NodeState
,
idtime
prot
o
.
IdTime
)
*
eventNodeTab
{
return
&
eventNodeTab
{
Where
:
where
,
NodeInfo
:
nodei
(
laddr
,
typ
,
num
,
state
,
idtime
),
...
...
@@ -507,8 +509,8 @@ func TestMasterStorage(t *testing.T) {
// M starts listening
tM
.
Expect
(
netlisten
(
"m:1"
))
tM
.
Expect
(
node
(
"m"
,
"m:1"
,
neo
.
MASTER
,
1
,
neo
.
RUNNING
,
ne
o
.
IdTimeNone
))
tM
.
Expect
(
clusterState
(
"m"
,
ne
o
.
ClusterRecovering
))
tM
.
Expect
(
node
(
"m"
,
"m:1"
,
proto
.
MASTER
,
1
,
proto
.
RUNNING
,
prot
o
.
IdTimeNone
))
tM
.
Expect
(
clusterState
(
"m"
,
prot
o
.
ClusterRecovering
))
// TODO create C; C tries connect to master - rejected ("not yet operational")
...
...
@@ -517,39 +519,39 @@ func TestMasterStorage(t *testing.T) {
// S connects M
tSM
.
Expect
(
netconnect
(
"s:2"
,
"m:2"
,
"m:1"
))
tSM
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
1
,
&
ne
o
.
RequestIdentification
{
NodeType
:
ne
o
.
STORAGE
,
tSM
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
1
,
&
prot
o
.
RequestIdentification
{
NodeType
:
prot
o
.
STORAGE
,
UUID
:
0
,
Address
:
xnaddr
(
"s:1"
),
ClusterName
:
"abc1"
,
IdTime
:
ne
o
.
IdTimeNone
,
IdTime
:
prot
o
.
IdTimeNone
,
}))
tM
.
Expect
(
node
(
"m"
,
"s:1"
,
neo
.
STORAGE
,
1
,
ne
o
.
PENDING
,
0.01
))
tM
.
Expect
(
node
(
"m"
,
"s:1"
,
proto
.
STORAGE
,
1
,
prot
o
.
PENDING
,
0.01
))
tSM
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
1
,
&
ne
o
.
AcceptIdentification
{
NodeType
:
ne
o
.
MASTER
,
MyUUID
:
neo
.
UUID
(
ne
o
.
MASTER
,
1
),
tSM
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
1
,
&
prot
o
.
AcceptIdentification
{
NodeType
:
prot
o
.
MASTER
,
MyUUID
:
proto
.
UUID
(
prot
o
.
MASTER
,
1
),
NumPartitions
:
1
,
NumReplicas
:
1
,
YourUUID
:
neo
.
UUID
(
ne
o
.
STORAGE
,
1
),
YourUUID
:
proto
.
UUID
(
prot
o
.
STORAGE
,
1
),
}))
// TODO test ID rejects (uuid already registered, ...)
// M starts recovery on S
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
0
,
&
ne
o
.
Recovery
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
0
,
&
ne
o
.
AnswerRecovery
{
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
0
,
&
prot
o
.
Recovery
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
0
,
&
prot
o
.
AnswerRecovery
{
// empty new node
PTid
:
0
,
BackupTid
:
ne
o
.
INVALID_TID
,
TruncateTid
:
ne
o
.
INVALID_TID
,
BackupTid
:
prot
o
.
INVALID_TID
,
TruncateTid
:
prot
o
.
INVALID_TID
,
}))
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
2
,
&
ne
o
.
AskPartitionTable
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
2
,
&
ne
o
.
AnswerPartitionTable
{
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
2
,
&
prot
o
.
AskPartitionTable
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
2
,
&
prot
o
.
AnswerPartitionTable
{
PTid
:
0
,
RowList
:
[]
ne
o
.
RowInfo
{},
RowList
:
[]
prot
o
.
RowInfo
{},
}))
// M ready to start: new cluster, no in-progress S recovery
...
...
@@ -567,31 +569,31 @@ func TestMasterStorage(t *testing.T) {
// trace
tM
.
Expect
(
node
(
"m"
,
"s:1"
,
neo
.
STORAGE
,
1
,
ne
o
.
RUNNING
,
0.01
))
tM
.
Expect
(
node
(
"m"
,
"s:1"
,
proto
.
STORAGE
,
1
,
prot
o
.
RUNNING
,
0.01
))
xwait
(
wg
)
// XXX M.partTab <- S1
// M starts verification
tM
.
Expect
(
clusterState
(
"m"
,
ne
o
.
ClusterVerifying
))
tM
.
Expect
(
clusterState
(
"m"
,
prot
o
.
ClusterVerifying
))
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
4
,
&
ne
o
.
SendPartitionTable
{
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
4
,
&
prot
o
.
SendPartitionTable
{
PTid
:
1
,
RowList
:
[]
ne
o
.
RowInfo
{
{
0
,
[]
neo
.
CellInfo
{{
neo
.
UUID
(
neo
.
STORAGE
,
1
),
ne
o
.
UP_TO_DATE
}}},
RowList
:
[]
prot
o
.
RowInfo
{
{
0
,
[]
proto
.
CellInfo
{{
proto
.
UUID
(
proto
.
STORAGE
,
1
),
prot
o
.
UP_TO_DATE
}}},
},
}))
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
6
,
&
ne
o
.
LockedTransactions
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
6
,
&
ne
o
.
AnswerLockedTransactions
{
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
6
,
&
prot
o
.
LockedTransactions
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
6
,
&
prot
o
.
AnswerLockedTransactions
{
TidDict
:
nil
,
// map[zodb.Tid]zodb.Tid{},
}))
lastOid
,
err1
:=
zstor
.
LastOid
(
bg
)
lastTid
,
err2
:=
zstor
.
LastTid
(
bg
)
exc
.
Raiseif
(
xerr
.
Merge
(
err1
,
err2
))
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
8
,
&
ne
o
.
LastIDs
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
8
,
&
ne
o
.
AnswerLastIDs
{
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
8
,
&
prot
o
.
LastIDs
{}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
8
,
&
prot
o
.
AnswerLastIDs
{
LastOid
:
lastOid
,
LastTid
:
lastTid
,
}))
...
...
@@ -604,11 +606,11 @@ func TestMasterStorage(t *testing.T) {
// TODO M.Stop() while verify
// verification ok; M start service
tM
.
Expect
(
clusterState
(
"m"
,
ne
o
.
ClusterRunning
))
tM
.
Expect
(
clusterState
(
"m"
,
prot
o
.
ClusterRunning
))
// TODO ^^^ should be sent to S
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
10
,
&
ne
o
.
StartOperation
{
Backup
:
false
}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
10
,
&
ne
o
.
NotifyReady
{}))
tMS
.
Expect
(
conntx
(
"m:2"
,
"s:2"
,
10
,
&
prot
o
.
StartOperation
{
Backup
:
false
}))
tMS
.
Expect
(
conntx
(
"s:2"
,
"m:2"
,
10
,
&
prot
o
.
NotifyReady
{}))
// TODO S leave while service
// TODO S join while service
...
...
@@ -629,48 +631,48 @@ func TestMasterStorage(t *testing.T) {
// C connects M
tCM
.
Expect
(
netconnect
(
"c:1"
,
"m:3"
,
"m:1"
))
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
1
,
&
ne
o
.
RequestIdentification
{
NodeType
:
ne
o
.
CLIENT
,
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
1
,
&
prot
o
.
RequestIdentification
{
NodeType
:
prot
o
.
CLIENT
,
UUID
:
0
,
Address
:
xnaddr
(
""
),
ClusterName
:
"abc1"
,
IdTime
:
ne
o
.
IdTimeNone
,
IdTime
:
prot
o
.
IdTimeNone
,
}))
tM
.
Expect
(
node
(
"m"
,
""
,
neo
.
CLIENT
,
1
,
ne
o
.
RUNNING
,
0.02
))
tM
.
Expect
(
node
(
"m"
,
""
,
proto
.
CLIENT
,
1
,
prot
o
.
RUNNING
,
0.02
))
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
1
,
&
ne
o
.
AcceptIdentification
{
NodeType
:
ne
o
.
MASTER
,
MyUUID
:
neo
.
UUID
(
ne
o
.
MASTER
,
1
),
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
1
,
&
prot
o
.
AcceptIdentification
{
NodeType
:
prot
o
.
MASTER
,
MyUUID
:
proto
.
UUID
(
prot
o
.
MASTER
,
1
),
NumPartitions
:
1
,
NumReplicas
:
1
,
YourUUID
:
neo
.
UUID
(
ne
o
.
CLIENT
,
1
),
YourUUID
:
proto
.
UUID
(
prot
o
.
CLIENT
,
1
),
}))
// C asks M about PT
// FIXME this might come in parallel with vvv "C <- M NotifyNodeInformation C1,M1,S1"
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
3
,
&
ne
o
.
AskPartitionTable
{}))
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
3
,
&
ne
o
.
AnswerPartitionTable
{
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
3
,
&
prot
o
.
AskPartitionTable
{}))
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
3
,
&
prot
o
.
AnswerPartitionTable
{
PTid
:
1
,
RowList
:
[]
ne
o
.
RowInfo
{
{
0
,
[]
neo
.
CellInfo
{{
neo
.
UUID
(
neo
.
STORAGE
,
1
),
ne
o
.
UP_TO_DATE
}}},
RowList
:
[]
prot
o
.
RowInfo
{
{
0
,
[]
proto
.
CellInfo
{{
proto
.
UUID
(
proto
.
STORAGE
,
1
),
prot
o
.
UP_TO_DATE
}}},
},
}))
// C <- M NotifyNodeInformation C1,M1,S1
// FIXME this might come in parallel with ^^^ "C asks M about PT"
tMC
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
0
,
&
ne
o
.
NotifyNodeInformation
{
IdTime
:
ne
o
.
IdTimeNone
,
// XXX ?
NodeList
:
[]
ne
o
.
NodeInfo
{
nodei
(
"m:1"
,
neo
.
MASTER
,
1
,
neo
.
RUNNING
,
ne
o
.
IdTimeNone
),
nodei
(
"s:1"
,
neo
.
STORAGE
,
1
,
ne
o
.
RUNNING
,
0.01
),
nodei
(
""
,
neo
.
CLIENT
,
1
,
ne
o
.
RUNNING
,
0.02
),
tMC
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
0
,
&
prot
o
.
NotifyNodeInformation
{
IdTime
:
prot
o
.
IdTimeNone
,
// XXX ?
NodeList
:
[]
prot
o
.
NodeInfo
{
nodei
(
"m:1"
,
proto
.
MASTER
,
1
,
proto
.
RUNNING
,
prot
o
.
IdTimeNone
),
nodei
(
"s:1"
,
proto
.
STORAGE
,
1
,
prot
o
.
RUNNING
,
0.01
),
nodei
(
""
,
proto
.
CLIENT
,
1
,
prot
o
.
RUNNING
,
0.02
),
},
}))
tMC
.
Expect
(
node
(
"c"
,
"m:1"
,
neo
.
MASTER
,
1
,
neo
.
RUNNING
,
ne
o
.
IdTimeNone
))
tMC
.
Expect
(
node
(
"c"
,
"s:1"
,
neo
.
STORAGE
,
1
,
ne
o
.
RUNNING
,
0.01
))
tMC
.
Expect
(
node
(
"c"
,
""
,
neo
.
CLIENT
,
1
,
ne
o
.
RUNNING
,
0.02
))
tMC
.
Expect
(
node
(
"c"
,
"m:1"
,
proto
.
MASTER
,
1
,
proto
.
RUNNING
,
prot
o
.
IdTimeNone
))
tMC
.
Expect
(
node
(
"c"
,
"s:1"
,
proto
.
STORAGE
,
1
,
prot
o
.
RUNNING
,
0.01
))
tMC
.
Expect
(
node
(
"c"
,
""
,
proto
.
CLIENT
,
1
,
prot
o
.
RUNNING
,
0.02
))
// C asks M about last tid XXX better master sends it itself on new client connected
...
...
@@ -684,8 +686,8 @@ func TestMasterStorage(t *testing.T) {
}
})
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
5
,
&
ne
o
.
LastTransaction
{}))
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
5
,
&
ne
o
.
AnswerLastTransaction
{
tCM
.
Expect
(
conntx
(
"c:1"
,
"m:3"
,
5
,
&
prot
o
.
LastTransaction
{}))
tCM
.
Expect
(
conntx
(
"m:3"
,
"c:1"
,
5
,
&
prot
o
.
AnswerLastTransaction
{
Tid
:
lastTid
,
}))
...
...
go/neo/server/master.go
View file @
47f069a5
...
...
@@ -34,6 +34,7 @@ import (
"lab.nexedi.com/kirr/go123/xnet"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/neo/go/xcommon/log"
"lab.nexedi.com/kirr/neo/go/xcommon/task"
...
...
@@ -73,7 +74,7 @@ type Master struct {
// Use Run to actually start running the node.
func
NewMaster
(
clusterName
,
serveAddr
string
,
net
xnet
.
Networker
)
*
Master
{
m
:=
&
Master
{
node
:
neo
.
NewNodeApp
(
net
,
ne
o
.
MASTER
,
clusterName
,
serveAddr
,
serveAddr
),
node
:
neo
.
NewNodeApp
(
net
,
prot
o
.
MASTER
,
clusterName
,
serveAddr
,
serveAddr
),
ctlStart
:
make
(
chan
chan
error
),
ctlStop
:
make
(
chan
chan
struct
{}),
...
...
@@ -118,7 +119,7 @@ func (m *Master) Shutdown() error {
// setClusterState sets .clusterState and notifies subscribers.
func
(
m
*
Master
)
setClusterState
(
state
ne
o
.
ClusterState
)
{
func
(
m
*
Master
)
setClusterState
(
state
prot
o
.
ClusterState
)
{
m
.
node
.
ClusterState
.
Set
(
state
)
// TODO notify subscribers
...
...
@@ -136,19 +137,19 @@ func (m *Master) Run(ctx context.Context) (err error) {
defer
task
.
Runningf
(
&
ctx
,
"master(%v)"
,
l
.
Addr
())(
&
err
)
m
.
node
.
MasterAddr
=
l
.
Addr
()
.
String
()
naddr
,
err
:=
ne
o
.
Addr
(
l
.
Addr
())
naddr
,
err
:=
prot
o
.
Addr
(
l
.
Addr
())
if
err
!=
nil
{
// must be ok since l.Addr() is valid since it is listening
// XXX panic -> errors.Wrap?
panic
(
err
)
}
m
.
node
.
MyInfo
=
ne
o
.
NodeInfo
{
Type
:
ne
o
.
MASTER
,
m
.
node
.
MyInfo
=
prot
o
.
NodeInfo
{
Type
:
prot
o
.
MASTER
,
Addr
:
naddr
,
UUID
:
m
.
allocUUID
(
ne
o
.
MASTER
),
State
:
ne
o
.
RUNNING
,
IdTime
:
ne
o
.
IdTimeNone
,
// XXX ok?
UUID
:
m
.
allocUUID
(
prot
o
.
MASTER
),
State
:
prot
o
.
RUNNING
,
IdTime
:
prot
o
.
IdTimeNone
,
// XXX ok?
}
// update nodeTab with self
...
...
@@ -181,10 +182,10 @@ func (m *Master) Run(ctx context.Context) (err error) {
// and then master only drives it. So close accept as noone will be
// listening for it on our side anymore.
switch
idReq
.
NodeType
{
case
ne
o
.
CLIENT
:
case
prot
o
.
CLIENT
:
// ok
case
ne
o
.
STORAGE
:
case
prot
o
.
STORAGE
:
fallthrough
default
:
req
.
Link
()
.
CloseAccept
()
...
...
@@ -287,7 +288,7 @@ type storRecovery struct {
func
(
m
*
Master
)
recovery
(
ctx
context
.
Context
)
(
err
error
)
{
defer
task
.
Running
(
&
ctx
,
"recovery"
)(
&
err
)
m
.
setClusterState
(
ne
o
.
ClusterRecovering
)
m
.
setClusterState
(
prot
o
.
ClusterRecovering
)
ctx
,
rcancel
:=
context
.
WithCancel
(
ctx
)
defer
rcancel
()
...
...
@@ -301,7 +302,7 @@ func (m *Master) recovery(ctx context.Context) (err error) {
// start recovery on all storages we are currently in touch with
// XXX close links to clients
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
>
ne
o
.
DOWN
{
// XXX state cmp ok ? XXX or stor.Link != nil ?
if
stor
.
State
>
prot
o
.
DOWN
{
// XXX state cmp ok ? XXX or stor.Link != nil ?
inprogress
++
wg
.
Add
(
1
)
go
func
()
{
...
...
@@ -352,7 +353,7 @@ loop:
if
!
xcontext
.
Canceled
(
errors
.
Cause
(
r
.
err
))
{
r
.
stor
.
CloseLink
(
ctx
)
r
.
stor
.
SetState
(
ne
o
.
DOWN
)
r
.
stor
.
SetState
(
prot
o
.
DOWN
)
}
}
else
{
...
...
@@ -371,7 +372,7 @@ loop:
// recovery and there is no in-progress recovery running
nup
:=
0
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
>
ne
o
.
DOWN
{
if
stor
.
State
>
prot
o
.
DOWN
{
nup
++
}
}
...
...
@@ -436,7 +437,7 @@ loop2:
if
!
xcontext
.
Canceled
(
errors
.
Cause
(
r
.
err
))
{
r
.
stor
.
CloseLink
(
ctx
)
r
.
stor
.
SetState
(
ne
o
.
DOWN
)
r
.
stor
.
SetState
(
prot
o
.
DOWN
)
}
case
<-
done
:
...
...
@@ -453,8 +454,8 @@ loop2:
// S PENDING -> RUNNING
// XXX recheck logic is ok for when starting existing cluster
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
==
ne
o
.
PENDING
{
stor
.
SetState
(
ne
o
.
RUNNING
)
if
stor
.
State
==
prot
o
.
PENDING
{
stor
.
SetState
(
prot
o
.
RUNNING
)
}
}
...
...
@@ -463,7 +464,7 @@ loop2:
// XXX -> m.nodeTab.StorageList(State > DOWN)
storv
:=
[]
*
neo
.
Node
{}
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
>
ne
o
.
DOWN
{
if
stor
.
State
>
prot
o
.
DOWN
{
storv
=
append
(
storv
,
stor
)
}
}
...
...
@@ -492,14 +493,14 @@ func storCtlRecovery(ctx context.Context, stor *neo.Node, res chan storRecovery)
// XXX cancel on ctx
recovery
:=
ne
o
.
AnswerRecovery
{}
err
=
slink
.
Ask1
(
&
ne
o
.
Recovery
{},
&
recovery
)
recovery
:=
prot
o
.
AnswerRecovery
{}
err
=
slink
.
Ask1
(
&
prot
o
.
Recovery
{},
&
recovery
)
if
err
!=
nil
{
return
}
resp
:=
ne
o
.
AnswerPartitionTable
{}
err
=
slink
.
Ask1
(
&
ne
o
.
AskPartitionTable
{},
&
resp
)
resp
:=
prot
o
.
AnswerPartitionTable
{}
err
=
slink
.
Ask1
(
&
prot
o
.
AskPartitionTable
{},
&
resp
)
if
err
!=
nil
{
return
}
...
...
@@ -536,7 +537,7 @@ var errClusterDegraded = stderrors.New("cluster became non-operatonal")
func
(
m
*
Master
)
verify
(
ctx
context
.
Context
)
(
err
error
)
{
defer
task
.
Running
(
&
ctx
,
"verify"
)(
&
err
)
m
.
setClusterState
(
ne
o
.
ClusterVerifying
)
m
.
setClusterState
(
prot
o
.
ClusterVerifying
)
ctx
,
vcancel
:=
context
.
WithCancel
(
ctx
)
defer
vcancel
()
...
...
@@ -549,7 +550,7 @@ func (m *Master) verify(ctx context.Context) (err error) {
// start verification on all storages we are currently in touch with
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
>
ne
o
.
DOWN
{
// XXX state cmp ok ? XXX or stor.Link != nil ?
if
stor
.
State
>
prot
o
.
DOWN
{
// XXX state cmp ok ? XXX or stor.Link != nil ?
inprogress
++
wg
.
Add
(
1
)
go
func
()
{
...
...
@@ -587,7 +588,7 @@ loop:
/*
case n := <-m.nodeLeave:
n.node.SetState(
ne
o.DOWN)
n.node.SetState(
prot
o.DOWN)
// if cluster became non-operational - we cancel verification
if !m.node.PartTab.OperationalWith(m.node.NodeTab) {
...
...
@@ -611,7 +612,7 @@ loop:
if
!
xcontext
.
Canceled
(
errors
.
Cause
(
v
.
err
))
{
v
.
stor
.
CloseLink
(
ctx
)
v
.
stor
.
SetState
(
ne
o
.
DOWN
)
v
.
stor
.
SetState
(
prot
o
.
DOWN
)
}
// check partTab is still operational
...
...
@@ -660,7 +661,7 @@ loop2:
if
!
xcontext
.
Canceled
(
errors
.
Cause
(
v
.
err
))
{
v
.
stor
.
CloseLink
(
ctx
)
v
.
stor
.
SetState
(
ne
o
.
DOWN
)
v
.
stor
.
SetState
(
prot
o
.
DOWN
)
}
case
<-
done
:
...
...
@@ -694,7 +695,7 @@ func storCtlVerify(ctx context.Context, stor *neo.Node, pt *neo.PartitionTable,
defer
task
.
Runningf
(
&
ctx
,
"%s: stor verify"
,
slink
)(
&
err
)
// send just recovered parttab so storage saves it
err
=
slink
.
Send1
(
&
ne
o
.
SendPartitionTable
{
err
=
slink
.
Send1
(
&
prot
o
.
SendPartitionTable
{
PTid
:
pt
.
PTid
,
RowList
:
pt
.
Dump
(),
})
...
...
@@ -702,8 +703,8 @@ func storCtlVerify(ctx context.Context, stor *neo.Node, pt *neo.PartitionTable,
return
}
locked
:=
ne
o
.
AnswerLockedTransactions
{}
err
=
slink
.
Ask1
(
&
ne
o
.
LockedTransactions
{},
&
locked
)
locked
:=
prot
o
.
AnswerLockedTransactions
{}
err
=
slink
.
Ask1
(
&
prot
o
.
LockedTransactions
{},
&
locked
)
if
err
!=
nil
{
return
}
...
...
@@ -714,8 +715,8 @@ func storCtlVerify(ctx context.Context, stor *neo.Node, pt *neo.PartitionTable,
return
}
last
:=
ne
o
.
AnswerLastIDs
{}
err
=
slink
.
Ask1
(
&
ne
o
.
LastIDs
{},
&
last
)
last
:=
prot
o
.
AnswerLastIDs
{}
err
=
slink
.
Ask1
(
&
prot
o
.
LastIDs
{},
&
last
)
if
err
!=
nil
{
return
}
...
...
@@ -749,7 +750,7 @@ type serviceDone struct {
func
(
m
*
Master
)
service
(
ctx
context
.
Context
)
(
err
error
)
{
defer
task
.
Running
(
&
ctx
,
"service"
)(
&
err
)
m
.
setClusterState
(
ne
o
.
ClusterRunning
)
m
.
setClusterState
(
prot
o
.
ClusterRunning
)
ctx
,
cancel
:=
context
.
WithCancel
(
ctx
)
defer
cancel
()
...
...
@@ -758,7 +759,7 @@ func (m *Master) service(ctx context.Context) (err error) {
// spawn per-storage service driver
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
==
ne
o
.
RUNNING
{
// XXX note PENDING - not adding to service; ok?
if
stor
.
State
==
prot
o
.
RUNNING
{
// XXX note PENDING - not adding to service; ok?
wg
.
Add
(
1
)
go
func
()
{
defer
wg
.
Done
()
...
...
@@ -791,10 +792,10 @@ loop:
}
switch
node
.
Type
{
case
ne
o
.
STORAGE
:
case
prot
o
.
STORAGE
:
err
=
storCtlService
(
ctx
,
node
)
case
ne
o
.
CLIENT
:
case
prot
o
.
CLIENT
:
err
=
m
.
serveClient
(
ctx
,
node
)
// XXX ADMIN
...
...
@@ -810,7 +811,7 @@ loop:
/*
// XXX who sends here?
case n := <-m.nodeLeave:
n.node.SetState(
ne
o.DOWN)
n.node.SetState(
prot
o.DOWN)
// if cluster became non-operational - cancel service
if !m.node.PartTab.OperationalWith(m.node.NodeTab) {
...
...
@@ -853,9 +854,9 @@ func storCtlService(ctx context.Context, stor *neo.Node) (err error) {
// XXX current neo/py does StartOperation / NotifyReady as separate
// sends, not exchange on the same conn. - fixed
ready
:=
ne
o
.
NotifyReady
{}
err
=
slink
.
Ask1
(
&
ne
o
.
StartOperation
{
Backup
:
false
},
&
ready
)
//err = slink.Send1(&
ne
o.StartOperation{Backup: false})
ready
:=
prot
o
.
NotifyReady
{}
err
=
slink
.
Ask1
(
&
prot
o
.
StartOperation
{
Backup
:
false
},
&
ready
)
//err = slink.Send1(&
prot
o.StartOperation{Backup: false})
//if err != nil {
// return err
//}
...
...
@@ -865,9 +866,9 @@ func storCtlService(ctx context.Context, stor *neo.Node) (err error) {
//}
//req.Close() XXX must be after req handling
//switch msg := req.Msg.(type) {
//case *
ne
o.NotifyReady:
//case *
prot
o.NotifyReady:
// // ok
//case *
ne
o.Error:
//case *
prot
o.Error:
// return msg
//default:
// return fmt.Errorf("unexpected message %T", msg)
...
...
@@ -924,23 +925,23 @@ func (m *Master) serveClient(ctx context.Context, cli *neo.Node) (err error) {
}
// serveClient1 prepares response for 1 request from client
func
(
m
*
Master
)
serveClient1
(
ctx
context
.
Context
,
req
neo
.
Msg
)
(
resp
ne
o
.
Msg
)
{
func
(
m
*
Master
)
serveClient1
(
ctx
context
.
Context
,
req
proto
.
Msg
)
(
resp
prot
o
.
Msg
)
{
switch
req
:=
req
.
(
type
)
{
case
*
ne
o
.
AskPartitionTable
:
case
*
prot
o
.
AskPartitionTable
:
m
.
node
.
StateMu
.
RLock
()
rpt
:=
&
ne
o
.
AnswerPartitionTable
{
rpt
:=
&
prot
o
.
AnswerPartitionTable
{
PTid
:
m
.
node
.
PartTab
.
PTid
,
RowList
:
m
.
node
.
PartTab
.
Dump
(),
}
m
.
node
.
StateMu
.
RUnlock
()
return
rpt
case
*
ne
o
.
LastTransaction
:
case
*
prot
o
.
LastTransaction
:
// XXX lock
return
&
ne
o
.
AnswerLastTransaction
{
m
.
lastTid
}
return
&
prot
o
.
AnswerLastTransaction
{
m
.
lastTid
}
default
:
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
)}
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
)}
}
}
...
...
@@ -959,7 +960,7 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neo.NodeLink) (err e
// XXX ^^^ + subscribe
nodev
:=
m
.
node
.
NodeTab
.
All
()
nodeiv
:=
make
([]
ne
o
.
NodeInfo
,
len
(
nodev
))
nodeiv
:=
make
([]
prot
o
.
NodeInfo
,
len
(
nodev
))
for
i
,
node
:=
range
nodev
{
// NOTE .NodeInfo is data not pointers - so won't change after we copy it to nodeiv
nodeiv
[
i
]
=
node
.
NodeInfo
...
...
@@ -982,8 +983,8 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neo.NodeLink) (err e
// first send the snapshot.
// XXX +ClusterState
err
=
link
.
Send1
(
&
ne
o
.
NotifyNodeInformation
{
IdTime
:
ne
o
.
IdTimeNone
,
// XXX what here?
err
=
link
.
Send1
(
&
prot
o
.
NotifyNodeInformation
{
IdTime
:
prot
o
.
IdTimeNone
,
// XXX what here?
NodeList
:
nodeiv
,
})
if
err
!=
nil
{
...
...
@@ -992,7 +993,7 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neo.NodeLink) (err e
// now proxy the updates until we are done
for
{
var
msg
ne
o
.
Msg
var
msg
prot
o
.
Msg
select
{
case
<-
ctx
.
Done
()
:
...
...
@@ -1001,8 +1002,8 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neo.NodeLink) (err e
// XXX ClusterState
case
nodeiv
=
<-
nodech
:
msg
=
&
ne
o
.
NotifyNodeInformation
{
IdTime
:
ne
o
.
IdTimeNone
,
// XXX what here?
msg
=
&
prot
o
.
NotifyNodeInformation
{
IdTime
:
prot
o
.
IdTimeNone
,
// XXX what here?
NodeList
:
nodeiv
,
}
}
...
...
@@ -1024,7 +1025,7 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neo.NodeLink) (err e
// If node identification is accepted .nodeTab is updated and corresponding node entry is returned.
// Response message is constructed but not send back not to block the caller - it is
// the caller responsibility to send the response to node which requested identification.
func
(
m
*
Master
)
identify
(
ctx
context
.
Context
,
n
nodeCome
)
(
node
*
neo
.
Node
,
resp
ne
o
.
Msg
)
{
func
(
m
*
Master
)
identify
(
ctx
context
.
Context
,
n
nodeCome
)
(
node
*
neo
.
Node
,
resp
prot
o
.
Msg
)
{
// XXX also verify ? :
// - NodeType valid
// - IdTime ?
...
...
@@ -1032,9 +1033,9 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *neo.Node, resp
uuid
:=
n
.
idReq
.
UUID
nodeType
:=
n
.
idReq
.
NodeType
err
:=
func
()
*
ne
o
.
Error
{
err
:=
func
()
*
prot
o
.
Error
{
if
n
.
idReq
.
ClusterName
!=
m
.
node
.
ClusterName
{
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
"cluster name mismatch"
}
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
"cluster name mismatch"
}
}
if
uuid
==
0
{
...
...
@@ -1048,23 +1049,23 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *neo.Node, resp
if
node
!=
nil
{
// reject - uuid is already occupied by someone else
// XXX check also for down state - it could be the same node reconnecting
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"uuid %v already used by another node"
,
uuid
)}
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"uuid %v already used by another node"
,
uuid
)}
}
// accept only certain kind of nodes depending on .clusterState, e.g.
// XXX ok to have this logic inside identify? (better provide from outside ?)
switch
nodeType
{
case
ne
o
.
CLIENT
:
if
m
.
node
.
ClusterState
!=
ne
o
.
ClusterRunning
{
return
&
neo
.
Error
{
ne
o
.
NOT_READY
,
"cluster not operational"
}
case
prot
o
.
CLIENT
:
if
m
.
node
.
ClusterState
!=
prot
o
.
ClusterRunning
{
return
&
proto
.
Error
{
prot
o
.
NOT_READY
,
"cluster not operational"
}
}
case
ne
o
.
STORAGE
:
case
prot
o
.
STORAGE
:
// ok
// TODO +master, admin
default
:
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"not accepting node type %v"
,
nodeType
)}
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"not accepting node type %v"
,
nodeType
)}
}
return
nil
...
...
@@ -1078,8 +1079,8 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *neo.Node, resp
log
.
Infof
(
ctx
,
"%s: accepting as %s"
,
subj
,
uuid
)
accept
:=
&
ne
o
.
AcceptIdentification
{
NodeType
:
ne
o
.
MASTER
,
accept
:=
&
prot
o
.
AcceptIdentification
{
NodeType
:
prot
o
.
MASTER
,
MyUUID
:
m
.
node
.
MyInfo
.
UUID
,
NumPartitions
:
1
,
// FIXME hardcoded
NumReplicas
:
1
,
// FIXME hardcoded
...
...
@@ -1087,22 +1088,22 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *neo.Node, resp
}
// update nodeTab
var
nodeState
ne
o
.
NodeState
var
nodeState
prot
o
.
NodeState
switch
nodeType
{
case
ne
o
.
STORAGE
:
case
prot
o
.
STORAGE
:
// FIXME py sets to RUNNING/PENDING depending on cluster state
nodeState
=
ne
o
.
PENDING
nodeState
=
prot
o
.
PENDING
default
:
nodeState
=
ne
o
.
RUNNING
nodeState
=
prot
o
.
RUNNING
}
nodeInfo
:=
ne
o
.
NodeInfo
{
nodeInfo
:=
prot
o
.
NodeInfo
{
Type
:
nodeType
,
Addr
:
n
.
idReq
.
Address
,
UUID
:
uuid
,
State
:
nodeState
,
IdTime
:
ne
o
.
IdTime
(
m
.
monotime
()),
IdTime
:
prot
o
.
IdTime
(
m
.
monotime
()),
}
node
=
m
.
node
.
NodeTab
.
Update
(
nodeInfo
)
// NOTE this notifies all nodeTab subscribers
...
...
@@ -1113,9 +1114,9 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *neo.Node, resp
// allocUUID allocates new node uuid for a node of kind nodeType
// XXX it is bad idea for master to assign uuid to coming node
// -> better nodes generate really unique UUID themselves and always show with them
func
(
m
*
Master
)
allocUUID
(
nodeType
neo
.
NodeType
)
ne
o
.
NodeUUID
{
func
(
m
*
Master
)
allocUUID
(
nodeType
proto
.
NodeType
)
prot
o
.
NodeUUID
{
for
num
:=
int32
(
1
);
num
<
1
<<
24
;
num
++
{
uuid
:=
ne
o
.
UUID
(
nodeType
,
num
)
uuid
:=
prot
o
.
UUID
(
nodeType
,
num
)
if
m
.
node
.
NodeTab
.
Get
(
uuid
)
==
nil
{
return
uuid
}
...
...
go/neo/server/server.go
View file @
47f069a5
...
...
@@ -29,6 +29,7 @@ import (
"sync"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/xcommon/log"
"lab.nexedi.com/kirr/go123/xerr"
...
...
@@ -77,7 +78,7 @@ func Serve(ctx context.Context, l *neo.Listener, srv Server) error {
// IdentifyPeer identifies peer on the link
// it expects peer to send RequestIdentification packet and replies with AcceptIdentification if identification passes.
// returns information about identified node or error.
func
IdentifyPeer
(
ctx
context
.
Context
,
link
*
neo
.
NodeLink
,
myNodeType
neo
.
NodeType
)
(
nodeInfo
ne
o
.
RequestIdentification
,
err
error
)
{
func
IdentifyPeer
(
ctx
context
.
Context
,
link
*
neo
.
NodeLink
,
myNodeType
proto
.
NodeType
)
(
nodeInfo
prot
o
.
RequestIdentification
,
err
error
)
{
defer
xerr
.
Contextf
(
&
err
,
"%s: identify"
,
link
)
// the first conn must come with RequestIdentification packet
...
...
@@ -93,7 +94,7 @@ func IdentifyPeer(ctx context.Context, link *neo.NodeLink, myNodeType neo.NodeTy
}
}()
req
:=
ne
o
.
RequestIdentification
{}
req
:=
prot
o
.
RequestIdentification
{}
_
,
err
=
conn
.
Expect
(
&
req
)
if
err
!=
nil
{
return
nodeInfo
,
err
...
...
@@ -103,7 +104,7 @@ func IdentifyPeer(ctx context.Context, link *neo.NodeLink, myNodeType neo.NodeTy
// TODO hook here in logic to check identification request, assign nodeID etc
err
=
conn
.
Send
(
&
ne
o
.
AcceptIdentification
{
err
=
conn
.
Send
(
&
prot
o
.
AcceptIdentification
{
NodeType
:
myNodeType
,
MyUUID
:
0
,
// XXX
NumPartitions
:
1
,
// XXX
...
...
@@ -124,7 +125,7 @@ func IdentifyPeer(ctx context.Context, link *neo.NodeLink, myNodeType neo.NodeTy
// event: node connects
type
nodeCome
struct
{
req
*
neo
.
Request
idReq
*
ne
o
.
RequestIdentification
// we received this identification request
idReq
*
prot
o
.
RequestIdentification
// we received this identification request
}
/*
...
...
@@ -137,7 +138,7 @@ type nodeLeave struct {
// reject sends rejective identification response and closes associated link
func
reject
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
resp
ne
o
.
Msg
)
{
func
reject
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
resp
prot
o
.
Msg
)
{
// XXX cancel on ctx?
// log.Info(ctx, "identification rejected") ?
err1
:=
req
.
Reply
(
resp
)
...
...
@@ -149,7 +150,7 @@ func reject(ctx context.Context, req *neo.Request, resp neo.Msg) {
}
// goreject spawns reject in separate goroutine properly added/done on wg
func
goreject
(
ctx
context
.
Context
,
wg
*
sync
.
WaitGroup
,
req
*
neo
.
Request
,
resp
ne
o
.
Msg
)
{
func
goreject
(
ctx
context
.
Context
,
wg
*
sync
.
WaitGroup
,
req
*
neo
.
Request
,
resp
prot
o
.
Msg
)
{
wg
.
Add
(
1
)
defer
wg
.
Done
()
go
reject
(
ctx
,
req
,
resp
)
...
...
@@ -157,7 +158,7 @@ func goreject(ctx context.Context, wg *sync.WaitGroup, req *neo.Request, resp ne
// accept replies with acceptive identification response
// XXX spawn ping goroutine from here?
func
accept
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
resp
ne
o
.
Msg
)
error
{
func
accept
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
resp
prot
o
.
Msg
)
error
{
// XXX cancel on ctx
err1
:=
req
.
Reply
(
resp
)
return
err1
// XXX while trying to work on single conn
...
...
go/neo/server/storage.go
View file @
47f069a5
...
...
@@ -31,6 +31,7 @@ import (
"github.com/pkg/errors"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
"lab.nexedi.com/kirr/neo/go/neo/internal/common"
"lab.nexedi.com/kirr/neo/go/zodb"
"lab.nexedi.com/kirr/neo/go/zodb/storage/fs1"
...
...
@@ -78,7 +79,7 @@ type Storage struct {
// Use Run to actually start running the node.
func
NewStorage
(
clusterName
,
masterAddr
,
serveAddr
string
,
net
xnet
.
Networker
,
zstor
*
fs1
.
FileStorage
)
*
Storage
{
stor
:=
&
Storage
{
node
:
neo
.
NewNodeApp
(
net
,
ne
o
.
STORAGE
,
clusterName
,
masterAddr
,
serveAddr
),
node
:
neo
.
NewNodeApp
(
net
,
prot
o
.
STORAGE
,
clusterName
,
masterAddr
,
serveAddr
),
zstor
:
zstor
,
}
...
...
@@ -198,7 +199,7 @@ func (stor *Storage) talkMaster(ctx context.Context) (err error) {
// XXX distinguish between temporary problems and non-temporary ones?
func
(
stor
*
Storage
)
talkMaster1
(
ctx
context
.
Context
)
(
err
error
)
{
// XXX dup in Client.talkMaster1 ?
mlink
,
accept
,
err
:=
stor
.
node
.
Dial
(
ctx
,
ne
o
.
MASTER
,
stor
.
node
.
MasterAddr
)
mlink
,
accept
,
err
:=
stor
.
node
.
Dial
(
ctx
,
prot
o
.
MASTER
,
stor
.
node
.
MasterAddr
)
if
err
!=
nil
{
return
err
}
...
...
@@ -274,49 +275,49 @@ func (stor *Storage) m1initialize1(ctx context.Context, req neo.Request) error {
default
:
return
fmt
.
Errorf
(
"unexpected message: %T"
,
msg
)
case
*
ne
o
.
StartOperation
:
case
*
prot
o
.
StartOperation
:
// ok, transition to serve
return
cmdStart
case
*
ne
o
.
Recovery
:
err
=
req
.
Reply
(
&
ne
o
.
AnswerRecovery
{
case
*
prot
o
.
Recovery
:
err
=
req
.
Reply
(
&
prot
o
.
AnswerRecovery
{
PTid
:
stor
.
node
.
PartTab
.
PTid
,
BackupTid
:
ne
o
.
INVALID_TID
,
TruncateTid
:
ne
o
.
INVALID_TID
})
BackupTid
:
prot
o
.
INVALID_TID
,
TruncateTid
:
prot
o
.
INVALID_TID
})
case
*
ne
o
.
AskPartitionTable
:
case
*
prot
o
.
AskPartitionTable
:
// TODO initially read PT from disk
err
=
req
.
Reply
(
&
ne
o
.
AnswerPartitionTable
{
err
=
req
.
Reply
(
&
prot
o
.
AnswerPartitionTable
{
PTid
:
stor
.
node
.
PartTab
.
PTid
,
RowList
:
stor
.
node
.
PartTab
.
Dump
()})
case
*
ne
o
.
LockedTransactions
:
case
*
prot
o
.
LockedTransactions
:
// XXX r/o stub
err
=
req
.
Reply
(
&
ne
o
.
AnswerLockedTransactions
{})
err
=
req
.
Reply
(
&
prot
o
.
AnswerLockedTransactions
{})
// TODO AskUnfinishedTransactions
case
*
ne
o
.
LastIDs
:
case
*
prot
o
.
LastIDs
:
lastTid
,
zerr1
:=
stor
.
zstor
.
LastTid
(
ctx
)
lastOid
,
zerr2
:=
stor
.
zstor
.
LastOid
(
ctx
)
if
zerr
:=
xerr
.
First
(
zerr1
,
zerr2
);
zerr
!=
nil
{
return
zerr
// XXX send the error to M
}
err
=
req
.
Reply
(
&
ne
o
.
AnswerLastIDs
{
LastTid
:
lastTid
,
LastOid
:
lastOid
})
err
=
req
.
Reply
(
&
prot
o
.
AnswerLastIDs
{
LastTid
:
lastTid
,
LastOid
:
lastOid
})
case
*
ne
o
.
SendPartitionTable
:
case
*
prot
o
.
SendPartitionTable
:
// TODO M sends us whole PT -> save locally
stor
.
node
.
UpdatePartTab
(
ctx
,
msg
)
// XXX lock?
case
*
ne
o
.
NotifyPartitionChanges
:
case
*
prot
o
.
NotifyPartitionChanges
:
// TODO M sends us δPT -> save locally?
case
*
ne
o
.
NotifyNodeInformation
:
case
*
prot
o
.
NotifyNodeInformation
:
// XXX check for myUUID and consider it a command (like neo/py) does?
stor
.
node
.
UpdateNodeTab
(
ctx
,
msg
)
// XXX lock?
case
*
ne
o
.
NotifyClusterState
:
case
*
prot
o
.
NotifyClusterState
:
stor
.
node
.
UpdateClusterState
(
ctx
,
msg
)
// XXX lock? what to do with it?
}
...
...
@@ -347,7 +348,7 @@ func (stor *Storage) m1serve(ctx context.Context, reqStart *neo.Request) (err er
// reply M we are ready
// XXX according to current neo/py this is separate send - not reply - and so we do here
err
=
reqStart
.
Reply
(
&
ne
o
.
NotifyReady
{})
err
=
reqStart
.
Reply
(
&
prot
o
.
NotifyReady
{})
reqStart
.
Close
()
if
err
!=
nil
{
return
err
...
...
@@ -373,16 +374,16 @@ func (stor *Storage) m1serve1(ctx context.Context, req neo.Request) error {
default
:
return
fmt
.
Errorf
(
"unexpected message: %T"
,
msg
)
case
*
ne
o
.
StopOperation
:
case
*
prot
o
.
StopOperation
:
return
fmt
.
Errorf
(
"stop requested"
)
// XXX SendPartitionTable?
// XXX NotifyPartitionChanges?
case
*
ne
o
.
NotifyNodeInformation
:
case
*
prot
o
.
NotifyNodeInformation
:
stor
.
node
.
UpdateNodeTab
(
ctx
,
msg
)
// XXX lock?
case
*
ne
o
.
NotifyClusterState
:
case
*
prot
o
.
NotifyClusterState
:
stor
.
node
.
UpdateClusterState
(
ctx
,
msg
)
// XXX lock? what to do with it?
// TODO commit related messages
...
...
@@ -394,13 +395,13 @@ func (stor *Storage) m1serve1(ctx context.Context, req neo.Request) error {
// --- serve incoming connections from other nodes ---
// identify processes identification request from connected peer.
func
(
stor
*
Storage
)
identify
(
idReq
*
neo
.
RequestIdentification
)
(
ne
o
.
Msg
,
bool
)
{
func
(
stor
*
Storage
)
identify
(
idReq
*
proto
.
RequestIdentification
)
(
prot
o
.
Msg
,
bool
)
{
// XXX stub: we accept clients and don't care about their UUID
if
idReq
.
NodeType
!=
ne
o
.
CLIENT
{
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
"only clients are accepted"
},
false
if
idReq
.
NodeType
!=
prot
o
.
CLIENT
{
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
"only clients are accepted"
},
false
}
if
idReq
.
ClusterName
!=
stor
.
node
.
ClusterName
{
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
"cluster name mismatch"
},
false
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
"cluster name mismatch"
},
false
}
// check operational
...
...
@@ -409,10 +410,10 @@ func (stor *Storage) identify(idReq *neo.RequestIdentification) (neo.Msg, bool)
stor
.
opMu
.
Unlock
()
if
!
operational
{
return
&
neo
.
Error
{
ne
o
.
NOT_READY
,
"cluster not operational"
},
false
return
&
proto
.
Error
{
prot
o
.
NOT_READY
,
"cluster not operational"
},
false
}
return
&
ne
o
.
AcceptIdentification
{
return
&
prot
o
.
AcceptIdentification
{
NodeType
:
stor
.
node
.
MyInfo
.
Type
,
MyUUID
:
stor
.
node
.
MyInfo
.
UUID
,
// XXX lock wrt update
NumPartitions
:
1
,
// XXX
...
...
@@ -435,7 +436,7 @@ func (stor *Storage) withWhileOperational(ctx context.Context) (context.Context,
// serveLink serves incoming node-node link connection
func
(
stor
*
Storage
)
serveLink
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
idReq
*
ne
o
.
RequestIdentification
)
(
err
error
)
{
func
(
stor
*
Storage
)
serveLink
(
ctx
context
.
Context
,
req
*
neo
.
Request
,
idReq
*
prot
o
.
RequestIdentification
)
(
err
error
)
{
link
:=
req
.
Link
()
defer
task
.
Runningf
(
&
ctx
,
"serve %s"
,
link
)(
&
err
)
defer
xio
.
CloseWhenDone
(
ctx
,
link
)()
...
...
@@ -507,7 +508,7 @@ func (stor *Storage) serveClient(ctx context.Context, req neo.Request) {
// XXX hack -> resp.Release()
// XXX req.Msg release too?
if
resp
,
ok
:=
resp
.
(
*
ne
o
.
AnswerObject
);
ok
{
if
resp
,
ok
:=
resp
.
(
*
prot
o
.
AnswerObject
);
ok
{
resp
.
Data
.
Release
()
}
...
...
@@ -547,11 +548,11 @@ func sha1Sum(b []byte) [sha1.Size]byte {
}
// serveClient1 prepares response for 1 request from client
func
(
stor
*
Storage
)
serveClient1
(
ctx
context
.
Context
,
req
neo
.
Msg
)
(
resp
ne
o
.
Msg
)
{
func
(
stor
*
Storage
)
serveClient1
(
ctx
context
.
Context
,
req
proto
.
Msg
)
(
resp
prot
o
.
Msg
)
{
switch
req
:=
req
.
(
type
)
{
case
*
ne
o
.
GetObject
:
case
*
prot
o
.
GetObject
:
xid
:=
zodb
.
Xid
{
Oid
:
req
.
Oid
}
if
req
.
Serial
!=
ne
o
.
INVALID_TID
{
if
req
.
Serial
!=
prot
o
.
INVALID_TID
{
xid
.
At
=
req
.
Serial
}
else
{
xid
.
At
=
common
.
Before2At
(
req
.
Tid
)
...
...
@@ -562,15 +563,15 @@ func (stor *Storage) serveClient1(ctx context.Context, req neo.Msg) (resp neo.Ms
if
err
!=
nil
{
// translate err to NEO protocol error codes
e
:=
err
.
(
*
zodb
.
OpError
)
// XXX move this to ErrEncode?
return
ne
o
.
ErrEncode
(
e
.
Err
)
return
prot
o
.
ErrEncode
(
e
.
Err
)
}
// compatibility with py side:
// for loadSerial - check we have exact hit - else "nodata"
if
req
.
Serial
!=
ne
o
.
INVALID_TID
{
if
req
.
Serial
!=
prot
o
.
INVALID_TID
{
if
serial
!=
req
.
Serial
{
return
&
ne
o
.
Error
{
Code
:
ne
o
.
OID_NOT_FOUND
,
return
&
prot
o
.
Error
{
Code
:
prot
o
.
OID_NOT_FOUND
,
Message
:
fmt
.
Sprintf
(
"%s: no data with serial %s"
,
xid
.
Oid
,
req
.
Serial
),
}
}
...
...
@@ -578,10 +579,10 @@ func (stor *Storage) serveClient1(ctx context.Context, req neo.Msg) (resp neo.Ms
// no next serial -> None
if
nextSerial
==
zodb
.
TidMax
{
nextSerial
=
ne
o
.
INVALID_TID
nextSerial
=
prot
o
.
INVALID_TID
}
return
&
ne
o
.
AnswerObject
{
return
&
prot
o
.
AnswerObject
{
Oid
:
xid
.
Oid
,
Serial
:
serial
,
NextSerial
:
nextSerial
,
...
...
@@ -594,19 +595,19 @@ func (stor *Storage) serveClient1(ctx context.Context, req neo.Msg) (resp neo.Ms
// XXX .DataSerial
}
case
*
ne
o
.
LastTransaction
:
case
*
prot
o
.
LastTransaction
:
lastTid
,
err
:=
stor
.
zstor
.
LastTid
(
ctx
)
if
err
!=
nil
{
return
ne
o
.
ErrEncode
(
err
)
return
prot
o
.
ErrEncode
(
err
)
}
return
&
ne
o
.
AnswerLastTransaction
{
lastTid
}
return
&
prot
o
.
AnswerLastTransaction
{
lastTid
}
//case *ObjectHistory:
//case *StoreObject:
default
:
return
&
neo
.
Error
{
ne
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
)}
return
&
proto
.
Error
{
prot
o
.
PROTOCOL_ERROR
,
fmt
.
Sprintf
(
"unexpected message %T"
,
req
)}
}
//req.Put(...)
...
...
go/neo/server/ztrace_test.go
View file @
47f069a5
...
...
@@ -8,24 +8,33 @@ import (
_
"unsafe"
"lab.nexedi.com/kirr/neo/go/neo"
"lab.nexedi.com/kirr/neo/go/neo/proto"
)
// traceimport: "lab.nexedi.com/kirr/neo/go/neo"
// rerun "gotrace gen" if you see link failure ↓↓↓
//go:linkname neo_trace_exporthash lab.nexedi.com/kirr/neo/go/neo._trace_exporthash_
933f43c04bbb1566c5d1e9ea518f9ed6e0f147a7
//go:linkname neo_trace_exporthash lab.nexedi.com/kirr/neo/go/neo._trace_exporthash_
470beceafeb4cecc8dee4072ee06329e20eef0f1
func
neo_trace_exporthash
()
func
init
()
{
neo_trace_exporthash
()
}
//go:linkname neo_traceClusterStateChanged_Attach lab.nexedi.com/kirr/neo/go/neo.traceClusterStateChanged_Attach
func
neo_traceClusterStateChanged_Attach
(
*
tracing
.
ProbeGroup
,
func
(
cs
*
neo
.
ClusterState
))
*
tracing
.
Probe
//go:linkname neo_traceMsgRecv_Attach lab.nexedi.com/kirr/neo/go/neo.traceMsgRecv_Attach
func
neo_traceMsgRecv_Attach
(
*
tracing
.
ProbeGroup
,
func
(
c
*
neo
.
Conn
,
msg
ne
o
.
Msg
))
*
tracing
.
Probe
func
neo_traceMsgRecv_Attach
(
*
tracing
.
ProbeGroup
,
func
(
c
*
neo
.
Conn
,
msg
prot
o
.
Msg
))
*
tracing
.
Probe
//go:linkname neo_traceMsgSendPre_Attach lab.nexedi.com/kirr/neo/go/neo.traceMsgSendPre_Attach
func
neo_traceMsgSendPre_Attach
(
*
tracing
.
ProbeGroup
,
func
(
l
*
neo
.
NodeLink
,
connId
uint32
,
msg
ne
o
.
Msg
))
*
tracing
.
Probe
func
neo_traceMsgSendPre_Attach
(
*
tracing
.
ProbeGroup
,
func
(
l
*
neo
.
NodeLink
,
connId
uint32
,
msg
prot
o
.
Msg
))
*
tracing
.
Probe
//go:linkname neo_traceNodeChanged_Attach lab.nexedi.com/kirr/neo/go/neo.traceNodeChanged_Attach
func
neo_traceNodeChanged_Attach
(
*
tracing
.
ProbeGroup
,
func
(
nt
*
neo
.
NodeTable
,
n
*
neo
.
Node
))
*
tracing
.
Probe
// traceimport: "lab.nexedi.com/kirr/neo/go/neo/proto"
// rerun "gotrace gen" if you see link failure ↓↓↓
//go:linkname proto_trace_exporthash lab.nexedi.com/kirr/neo/go/neo/proto._trace_exporthash_20c3e52fbfabe08e304139ab4a6bbf7c569f0994
func
proto_trace_exporthash
()
func
init
()
{
proto_trace_exporthash
()
}
//go:linkname proto_traceClusterStateChanged_Attach lab.nexedi.com/kirr/neo/go/neo/proto.traceClusterStateChanged_Attach
func
proto_traceClusterStateChanged_Attach
(
*
tracing
.
ProbeGroup
,
func
(
cs
*
proto
.
ClusterState
))
*
tracing
.
Probe
go/neo/ztrace.go
View file @
47f069a5
...
...
@@ -6,84 +6,59 @@ package neo
import
(
"lab.nexedi.com/kirr/go123/tracing"
"unsafe"
)
// traceevent: traceClusterStateChanged(cs *ClusterState)
type
_t_traceClusterStateChanged
struct
{
tracing
.
Probe
probefunc
func
(
cs
*
ClusterState
)
}
var
_traceClusterStateChanged
*
_t_traceClusterStateChanged
func
traceClusterStateChanged
(
cs
*
ClusterState
)
{
if
_traceClusterStateChanged
!=
nil
{
_traceClusterStateChanged_run
(
cs
)
}
}
func
_traceClusterStateChanged_run
(
cs
*
ClusterState
)
{
for
p
:=
_traceClusterStateChanged
;
p
!=
nil
;
p
=
(
*
_t_traceClusterStateChanged
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
p
.
probefunc
(
cs
)
}
}
func
traceClusterStateChanged_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
cs
*
ClusterState
))
*
tracing
.
Probe
{
p
:=
_t_traceClusterStateChanged
{
probefunc
:
probe
}
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceClusterStateChanged
)),
&
p
.
Probe
)
return
&
p
.
Probe
}
"lab.nexedi.com/kirr/neo/go/neo/proto"
)
// traceevent: traceMsgRecv(c *Conn, msg Msg)
// traceevent: traceMsgRecv(c *Conn, msg
proto.
Msg)
type
_t_traceMsgRecv
struct
{
tracing
.
Probe
probefunc
func
(
c
*
Conn
,
msg
Msg
)
probefunc
func
(
c
*
Conn
,
msg
proto
.
Msg
)
}
var
_traceMsgRecv
*
_t_traceMsgRecv
func
traceMsgRecv
(
c
*
Conn
,
msg
Msg
)
{
func
traceMsgRecv
(
c
*
Conn
,
msg
proto
.
Msg
)
{
if
_traceMsgRecv
!=
nil
{
_traceMsgRecv_run
(
c
,
msg
)
}
}
func
_traceMsgRecv_run
(
c
*
Conn
,
msg
Msg
)
{
func
_traceMsgRecv_run
(
c
*
Conn
,
msg
proto
.
Msg
)
{
for
p
:=
_traceMsgRecv
;
p
!=
nil
;
p
=
(
*
_t_traceMsgRecv
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
p
.
probefunc
(
c
,
msg
)
}
}
func
traceMsgRecv_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
c
*
Conn
,
msg
Msg
))
*
tracing
.
Probe
{
func
traceMsgRecv_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
c
*
Conn
,
msg
proto
.
Msg
))
*
tracing
.
Probe
{
p
:=
_t_traceMsgRecv
{
probefunc
:
probe
}
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceMsgRecv
)),
&
p
.
Probe
)
return
&
p
.
Probe
}
// traceevent: traceMsgSendPre(l *NodeLink, connId uint32, msg Msg)
// traceevent: traceMsgSendPre(l *NodeLink, connId uint32, msg
proto.
Msg)
type
_t_traceMsgSendPre
struct
{
tracing
.
Probe
probefunc
func
(
l
*
NodeLink
,
connId
uint32
,
msg
Msg
)
probefunc
func
(
l
*
NodeLink
,
connId
uint32
,
msg
proto
.
Msg
)
}
var
_traceMsgSendPre
*
_t_traceMsgSendPre
func
traceMsgSendPre
(
l
*
NodeLink
,
connId
uint32
,
msg
Msg
)
{
func
traceMsgSendPre
(
l
*
NodeLink
,
connId
uint32
,
msg
proto
.
Msg
)
{
if
_traceMsgSendPre
!=
nil
{
_traceMsgSendPre_run
(
l
,
connId
,
msg
)
}
}
func
_traceMsgSendPre_run
(
l
*
NodeLink
,
connId
uint32
,
msg
Msg
)
{
func
_traceMsgSendPre_run
(
l
*
NodeLink
,
connId
uint32
,
msg
proto
.
Msg
)
{
for
p
:=
_traceMsgSendPre
;
p
!=
nil
;
p
=
(
*
_t_traceMsgSendPre
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
p
.
probefunc
(
l
,
connId
,
msg
)
}
}
func
traceMsgSendPre_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
l
*
NodeLink
,
connId
uint32
,
msg
Msg
))
*
tracing
.
Probe
{
func
traceMsgSendPre_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
l
*
NodeLink
,
connId
uint32
,
msg
proto
.
Msg
))
*
tracing
.
Probe
{
p
:=
_t_traceMsgSendPre
{
probefunc
:
probe
}
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceMsgSendPre
)),
&
p
.
Probe
)
return
&
p
.
Probe
...
...
@@ -117,4 +92,4 @@ func traceNodeChanged_Attach(pg *tracing.ProbeGroup, probe func(nt *NodeTable, n
}
// trace export signature
func
_trace_exporthash_
933f43c04bbb1566c5d1e9ea518f9ed6e0f147a7
()
{}
func
_trace_exporthash_
470beceafeb4cecc8dee4072ee06329e20eef0f1
()
{}
go/
neo
/packed.go
→
go/
xcommon/packed
/packed.go
View file @
47f069a5
...
...
@@ -17,13 +17,8 @@
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
neo
// Types to use in packed structures
import
(
"encoding/binary"
"unsafe"
)
// Package packed provides types to use in packed structures.
package
packed
// uintX has alignment requirement =X; [X]byte has alignment requirement 1.
// That's why we can use [X]byte and this way keep a struct packed, even if Go
...
...
@@ -34,135 +29,26 @@ import (
// https://github.com/golang/go/issues/15925
//
// so in the end we use hand-crafted array-like byte-structs.
type
be16
struct
{
_0
,
_1
byte
}
type
be32
struct
{
_0
,
_1
,
_2
,
_3
byte
}
type
be64
struct
{
_0
,
_1
,
_2
,
_3
,
_4
,
_5
,
_6
,
_7
byte
}
// XXX naming ntoh{s,l,q} ?
func
ntoh16
(
v
be16
)
uint16
{
return
_ntoh16_0
(
v
)
}
// FIXME becomes bad - why??? !!!
func
hton16
(
v
uint16
)
be16
{
return
_hton16_0
(
v
)
}
// good
func
ntoh32
(
v
be32
)
uint32
{
return
_ntoh32_0
(
v
)
}
// FIXME becomes bad - why??? !!!
func
hton32
(
v
uint32
)
be32
{
return
_hton32_0
(
v
)
}
// good
func
ntoh64
(
v
be64
)
uint64
{
return
_ntoh64_0
(
v
)
}
// bad: on-stack temp
//func ntoh64(v be64) uint64 { return _ntoh64_1(v) } // bad: on-stack temp
//func hton64(v uint64) be64 { return _hton64_0(v) } // bad: on-stack temp
func
hton64
(
v
uint64
)
be64
{
return
_hton64_1
(
v
)
}
// bad: pre-clears r (here twice)
type
BE16
struct
{
_0
,
_1
byte
}
type
BE32
struct
{
_0
,
_1
,
_2
,
_3
byte
}
// ----------------------------------------
// good
func
_ntoh16_0
(
v
be16
)
uint16
{
b
:=
(
*
[
2
]
byte
)(
unsafe
.
Pointer
(
&
v
))
return
binary
.
BigEndian
.
Uint16
(
b
[
:
])
}
// bad (unnecessary MOVBLZX AL, AX + shifts not combined into ROLW $8)
// XXX why?
func
_ntoh16_1
(
v
be16
)
uint16
{
func
Ntoh16
(
v
BE16
)
uint16
{
// XXX not as good as BigEndian.Uint16
// (unnecessary MOVBLZX AL, AX + shifts not combined into ROLW $8)
return
uint16
(
v
.
_1
)
|
uint16
(
v
.
_0
)
<<
8
}
// good
func
_hton16_0
(
v
uint16
)
be16
{
return
be16
{
byte
(
v
>>
8
),
byte
(
v
)}
}
// good
func
_hton16_1
(
v
uint16
)
(
r
be16
)
{
r
.
_0
=
byte
(
v
>>
8
)
r
.
_1
=
byte
(
v
)
return
r
}
// bad (partly (!?) preclears r)
func
_hton16_2
(
v
uint16
)
(
r
be16
)
{
b
:=
(
*
[
2
]
byte
)(
unsafe
.
Pointer
(
&
r
))
binary
.
BigEndian
.
PutUint16
(
b
[
:
],
v
)
return
r
}
// ----------------------------------------
// good
func
_ntoh32_0
(
v
be32
)
uint32
{
b
:=
(
*
[
4
]
byte
)(
unsafe
.
Pointer
(
&
v
))
return
binary
.
BigEndian
.
Uint32
(
b
[
:
])
func
Hton16
(
v
uint16
)
BE16
{
return
BE16
{
byte
(
v
>>
8
),
byte
(
v
)}
}
// baaaadd (unnecessary MOVBLZX AL, AX + shifts not combined into BSWAPL)
// XXX why?
func
_ntoh32_1
(
v
be32
)
uint32
{
func
Ntoh32
(
v
BE32
)
uint32
{
// XXX not as good as BigEndian.Uint32
// (unnecessary MOVBLZX AL, AX + shifts not combined into BSWAPL)
return
uint32
(
v
.
_3
)
|
uint32
(
v
.
_2
)
<<
8
|
uint32
(
v
.
_1
)
<<
16
|
uint32
(
v
.
_0
)
<<
24
}
// good
func
_hton32_0
(
v
uint32
)
be32
{
return
be32
{
byte
(
v
>>
24
),
byte
(
v
>>
16
),
byte
(
v
>>
8
),
byte
(
v
)}
}
// good
func
_hton32_1
(
v
uint32
)
(
r
be32
)
{
r
.
_0
=
byte
(
v
>>
24
)
r
.
_1
=
byte
(
v
>>
16
)
r
.
_2
=
byte
(
v
>>
8
)
r
.
_3
=
byte
(
v
)
return
r
}
// bad (partly (!?) preclears r)
func
hton32_2
(
v
uint32
)
(
r
be32
)
{
b
:=
(
*
[
4
]
byte
)(
unsafe
.
Pointer
(
&
r
))
binary
.
BigEndian
.
PutUint32
(
b
[
:
],
v
)
return
r
}
// ----------------------------------------
// good
func
_ntoh64_0
(
v
be64
)
uint64
{
b
:=
(
*
[
8
]
byte
)(
unsafe
.
Pointer
(
&
v
))
return
binary
.
BigEndian
.
Uint64
(
b
[
:
])
}
// good (XXX why vs _ntoh32_1 ?)
func
_ntoh64_1
(
v
be64
)
uint64
{
return
uint64
(
v
.
_7
)
|
uint64
(
v
.
_6
)
<<
8
|
uint64
(
v
.
_5
)
<<
16
|
uint64
(
v
.
_4
)
<<
24
|
uint64
(
v
.
_3
)
<<
32
|
uint64
(
v
.
_2
)
<<
40
|
uint64
(
v
.
_1
)
<<
48
|
uint64
(
v
.
_0
)
<<
56
}
// baad (+local temp; r = temp)
func
_hton64_0
(
v
uint64
)
be64
{
return
be64
{
byte
(
v
>>
56
),
byte
(
v
>>
48
),
byte
(
v
>>
40
),
byte
(
v
>>
32
),
byte
(
v
>>
24
),
byte
(
v
>>
16
),
byte
(
v
>>
8
),
byte
(
v
)}
}
// bad (pre-clears r)
func
_hton64_1
(
v
uint64
)
(
r
be64
)
{
r
.
_0
=
byte
(
v
>>
56
)
r
.
_1
=
byte
(
v
>>
48
)
r
.
_2
=
byte
(
v
>>
40
)
r
.
_3
=
byte
(
v
>>
32
)
r
.
_4
=
byte
(
v
>>
24
)
r
.
_5
=
byte
(
v
>>
16
)
r
.
_6
=
byte
(
v
>>
8
)
r
.
_7
=
byte
(
v
)
return
r
}
// bad (pre-clears r)
func
hton64_2
(
v
uint64
)
(
r
be64
)
{
b
:=
(
*
[
8
]
byte
)(
unsafe
.
Pointer
(
&
r
))
binary
.
BigEndian
.
PutUint64
(
b
[
:
],
v
)
return
r
}
// bad (pre-clears r)
func
hton64_3
(
v
uint64
)
(
r
be64
)
{
b
:=
(
*
[
8
]
byte
)(
unsafe
.
Pointer
(
&
v
))
*
(
*
uint64
)(
unsafe
.
Pointer
(
&
r
))
=
binary
.
BigEndian
.
Uint64
(
b
[
:
])
return
func
Hton32
(
v
uint32
)
BE32
{
return
BE32
{
byte
(
v
>>
24
),
byte
(
v
>>
16
),
byte
(
v
>>
8
),
byte
(
v
)}
}
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