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Stefane Fermigier
neo
Commits
42bc63f7
Commit
42bc63f7
authored
Feb 07, 2018
by
Kirill Smelkov
Browse files
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.
parent
d46afb3e
Changes
4
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4 changed files
with
193 additions
and
139 deletions
+193
-139
go/neo/client/client.go
go/neo/client/client.go
+1
-1
go/neo/server/cluster_test.go
go/neo/server/cluster_test.go
+53
-78
go/neo/server/misc_test.go
go/neo/server/misc_test.go
+64
-0
go/xcommon/xtesting/xtesting.go
go/xcommon/xtesting/xtesting.go
+75
-60
No files found.
go/neo/client/client.go
View file @
42bc63f7
...
...
@@ -195,7 +195,7 @@ func (c *Client) withOperational(ctx context.Context) error {
// talkMaster connects to master, announces self and receives notifications.
// it tries to persist master link reconnecting as needed.
//
// XXX C -> M for commit
// XXX C -> M for commit
(-> another channel)
//
// XXX always error (dup Storage.talkMaster) ?
func
(
c
*
Client
)
talkMaster
(
ctx
context
.
Context
)
(
err
error
)
{
...
...
go/neo/server/cluster_test.go
View file @
42bc63f7
...
...
@@ -27,7 +27,6 @@ import (
"context"
"crypto/sha1"
"io"
"math"
"net"
"reflect"
"testing"
...
...
@@ -42,7 +41,6 @@ import (
"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"
"lab.nexedi.com/kirr/neo/go/xcommon/xtesting"
...
...
@@ -56,106 +54,83 @@ import (
"time"
)
// XXX dup from connection_test
func
xwait
(
w
interface
{
Wait
()
error
})
{
err
:=
w
.
Wait
()
exc
.
Raiseif
(
err
)
}
func
gox
(
wg
interface
{
Go
(
func
()
error
)
},
xf
func
())
{
wg
.
Go
(
exc
.
Funcx
(
xf
))
}
func
xfs1stor
(
path
string
)
*
fs1
.
FileStorage
{
zstor
,
err
:=
fs1
.
Open
(
bg
,
path
)
exc
.
Raiseif
(
err
)
return
zstor
}
var
bg
=
context
.
Background
()
// XXX tracer which can collect tracing events from net + TODO master/storage/etc...
// XXX naming
type
MyTracer
struct
{
*
xtesting
.
SyncTracer
}
// ---- events used in tests ----
func
(
t
*
MyTracer
)
TraceNetConnect
(
ev
*
xnet
.
TraceConnect
)
{
t
.
Trace1
(
ev
)
}
func
(
t
*
MyTracer
)
TraceNetListen
(
ev
*
xnet
.
TraceListen
)
{
t
.
Trace1
(
ev
)
}
func
(
t
*
MyTracer
)
TraceNetTx
(
ev
*
xnet
.
TraceTx
)
{}
// { t.Trace1(ev) }
//type traceNeoRecv struct {conn *neo.Conn; msg neo.Msg}
//func (t *MyTracer) traceNeoConnRecv(c *neo.Conn, msg neo.Msg) { t.Trace1(&traceNeoRecv{c, msg}) }
// xnet.TraceConnect
// xnet.TraceListen
// tx via neo.Conn
type
trace
NeoSend
struct
{
//
event:
tx via neo.Conn
type
event
NeoSend
struct
{
Src
,
Dst
net
.
Addr
ConnID
uint32
Msg
neo
.
Msg
}
func
(
t
*
MyTracer
)
traceNeoMsgSendPre
(
l
*
neo
.
NodeLink
,
connID
uint32
,
msg
neo
.
Msg
)
{
t
.
Trace1
(
&
traceNeoSend
{
l
.
LocalAddr
(),
l
.
RemoteAddr
(),
connID
,
msg
})
}
// cluster state changed
type
trace
ClusterState
struct
{
//
event:
cluster state changed
type
event
ClusterState
struct
{
Ptr
*
neo
.
ClusterState
// pointer to variable which holds the state
State
neo
.
ClusterState
}
func
(
t
*
MyTracer
)
traceClusterState
(
cs
*
neo
.
ClusterState
)
{
t
.
Trace1
(
&
traceClusterState
{
cs
,
*
cs
})
}
func
clusterState
(
cs
*
neo
.
ClusterState
,
v
neo
.
ClusterState
)
*
traceClusterState
{
return
&
traceClusterState
{
cs
,
v
}
func
clusterState
(
cs
*
neo
.
ClusterState
,
v
neo
.
ClusterState
)
*
eventClusterState
{
return
&
eventClusterState
{
cs
,
v
}
}
// nodetab entry changed
type
traceNode
struct
{
//
event:
nodetab entry changed
type
eventNodeTab
struct
{
NodeTab
unsafe
.
Pointer
// *neo.NodeTable XXX not to noise test diff
NodeInfo
neo
.
NodeInfo
}
func
(
t
*
MyTracer
)
traceNode
(
nt
*
neo
.
NodeTable
,
n
*
neo
.
Node
)
{
t
.
Trace1
(
&
traceNode
{
unsafe
.
Pointer
(
nt
),
n
.
NodeInfo
})
}
// master ready to start changed
type
trace
MStartReady
struct
{
//
event:
master ready to start changed
type
event
MStartReady
struct
{
Master
unsafe
.
Pointer
// *Master XXX not to noise test diff
Ready
bool
}
func
(
t
*
MyTracer
)
traceMasterStartReady
(
m
*
Master
,
ready
bool
)
{
t
.
Trace1
(
masterStartReady
(
m
,
ready
))
func
masterStartReady
(
m
*
Master
,
ready
bool
)
*
eventMStartReady
{
return
&
eventMStartReady
{
unsafe
.
Pointer
(
m
),
ready
}
}
func
masterStartReady
(
m
*
Master
,
ready
bool
)
*
traceMStartReady
{
return
&
traceMStartReady
{
unsafe
.
Pointer
(
m
),
ready
}
// ----------------------------------------
// XXX tracer which can collect tracing events from net + TODO master/storage/etc...
// XXX naming
type
MyTracer
struct
{
*
xtesting
.
SyncChan
}
func
(
t
*
MyTracer
)
TraceNetConnect
(
ev
*
xnet
.
TraceConnect
)
{
t
.
Send
(
ev
)
}
func
(
t
*
MyTracer
)
TraceNetListen
(
ev
*
xnet
.
TraceListen
)
{
t
.
Send
(
ev
)
}
func
(
t
*
MyTracer
)
TraceNetTx
(
ev
*
xnet
.
TraceTx
)
{}
// { t.Send(ev) }
// vclock is a virtual clock
// XXX place -> util?
type
vclock
struct
{
t
float64
//type traceNeoRecv struct {conn *neo.Conn; msg neo.Msg}
//func (t *MyTracer) traceNeoConnRecv(c *neo.Conn, msg neo.Msg) { t.Send(&traceNeoRecv{c, msg}) }
func
(
t
*
MyTracer
)
traceNeoMsgSendPre
(
l
*
neo
.
NodeLink
,
connID
uint32
,
msg
neo
.
Msg
)
{
t
.
Send
(
&
eventNeoSend
{
l
.
LocalAddr
(),
l
.
RemoteAddr
(),
connID
,
msg
})
}
func
(
c
*
vclock
)
monotime
()
float64
{
c
.
t
+=
1E-2
return
c
.
t
func
(
t
*
MyTracer
)
traceClusterState
(
cs
*
neo
.
ClusterState
)
{
t
.
Send
(
&
eventClusterState
{
cs
,
*
cs
})
}
func
(
c
*
vclock
)
tick
()
{
// XXX do we need tick?
t
:=
math
.
Ceil
(
c
.
t
)
if
!
(
t
>
c
.
t
)
{
t
+=
1
}
c
.
t
=
t
func
(
t
*
MyTracer
)
traceNode
(
nt
*
neo
.
NodeTable
,
n
*
neo
.
Node
)
{
t
.
Send
(
&
eventNodeTab
{
unsafe
.
Pointer
(
nt
),
n
.
NodeInfo
})
}
func
(
t
*
MyTracer
)
traceMasterStartReady
(
m
*
Master
,
ready
bool
)
{
t
.
Send
(
masterStartReady
(
m
,
ready
))
}
//trace:import "lab.nexedi.com/kirr/neo/go/neo"
// M drives cluster with 1 S & C through recovery -> verification -> service -> shutdown
func
TestMasterStorage
(
t
*
testing
.
T
)
{
tracer
:=
&
MyTracer
{
xtesting
.
NewSync
Tracer
()}
tc
:=
xtesting
.
New
TraceChecker
(
t
,
tracer
.
SyncTracer
)
tracer
:=
&
MyTracer
{
xtesting
.
NewSync
Chan
()}
tc
:=
xtesting
.
New
EventChecker
(
t
,
tracer
.
SyncChan
)
net
:=
pipenet
.
New
(
"testnet"
)
// test network
...
...
@@ -203,8 +178,8 @@ func TestMasterStorage(t *testing.T) {
}
// shortcut for net tx event over nodelink connection
conntx
:=
func
(
src
,
dst
string
,
connid
uint32
,
msg
neo
.
Msg
)
*
trace
NeoSend
{
return
&
trace
NeoSend
{
Src
:
xaddr
(
src
),
Dst
:
xaddr
(
dst
),
ConnID
:
connid
,
Msg
:
msg
}
conntx
:=
func
(
src
,
dst
string
,
connid
uint32
,
msg
neo
.
Msg
)
*
event
NeoSend
{
return
&
event
NeoSend
{
Src
:
xaddr
(
src
),
Dst
:
xaddr
(
dst
),
ConnID
:
connid
,
Msg
:
msg
}
}
// shortcut for NodeInfo
...
...
@@ -219,8 +194,8 @@ func TestMasterStorage(t *testing.T) {
}
// shortcut for nodetab change
node
:=
func
(
x
*
neo
.
NodeApp
,
laddr
string
,
typ
neo
.
NodeType
,
num
int32
,
state
neo
.
NodeState
,
idtime
neo
.
IdTime
)
*
traceNode
{
return
&
traceNode
{
node
:=
func
(
x
*
neo
.
NodeApp
,
laddr
string
,
typ
neo
.
NodeType
,
num
int32
,
state
neo
.
NodeState
,
idtime
neo
.
IdTime
)
*
eventNodeTab
{
return
&
eventNodeTab
{
NodeTab
:
unsafe
.
Pointer
(
x
.
NodeTab
),
NodeInfo
:
nodei
(
laddr
,
typ
,
num
,
state
,
idtime
),
}
...
...
@@ -603,8 +578,8 @@ func benchmarkGetObject(b *testing.B, Mnet, Snet, Cnet xnet.Networker, benchit f
M
:=
NewMaster
(
"abc1"
,
""
,
Mnet
)
// XXX to wait for "M listens at ..." & "ready to start" -> XXX add something to M api?
tracer
:=
&
MyTracer
{
xtesting
.
NewSync
Tracer
()}
tc
:=
xtesting
.
New
TraceChecker
(
b
,
tracer
.
SyncTracer
)
tracer
:=
&
MyTracer
{
xtesting
.
NewSync
Chan
()}
tc
:=
xtesting
.
New
EventChecker
(
b
,
tracer
.
SyncChan
)
pg
:=
&
tracing
.
ProbeGroup
{}
tracing
.
Lock
()
pnode
:=
neo_traceNodeChanged_Attach
(
nil
,
tracer
.
traceNode
)
...
...
@@ -616,10 +591,10 @@ func benchmarkGetObject(b *testing.B, Mnet, Snet, Cnet xnet.Networker, benchit f
})
// determing M serving address XXX better with M api
ev
:=
tracer
.
Get1
()
mnode
,
ok
:=
ev
.
Event
.
(
*
traceNode
)
ev
:=
tracer
.
Recv
()
mnode
,
ok
:=
ev
.
Event
.
(
*
eventNodeTab
)
if
!
ok
{
b
.
Fatal
(
"after M start: got %T ; want
traceNode
"
,
ev
.
Event
)
b
.
Fatal
(
"after M start: got %T ; want
eventNodeTab
"
,
ev
.
Event
)
}
Maddr
:=
mnode
.
NodeInfo
.
Addr
.
String
()
...
...
go/neo/server/misc_test.go
0 → 100644
View file @
42bc63f7
// Copyright (C) 2017 Nexedi SA and Contributors.
// Kirill Smelkov <kirr@nexedi.com>
//
// This program is free software: you can Use, Study, Modify and Redistribute
// it under the terms of the GNU General Public License version 3, or (at your
// option) any later version, as published by the Free Software Foundation.
//
// You can also Link and Combine this program with other software covered by
// the terms of any of the Free Software licenses or any of the Open Source
// Initiative approved licenses and Convey the resulting work. Corresponding
// source of such a combination shall include the source code for all other
// software used.
//
// This program is distributed WITHOUT ANY WARRANTY; without even the implied
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
//
// See COPYING file for full licensing terms.
// See https://www.nexedi.com/licensing for rationale and options.
package
server
import
(
"context"
"math"
"lab.nexedi.com/kirr/neo/go/zodb/storage/fs1"
"lab.nexedi.com/kirr/go123/exc"
)
// XXX dup from connection_test
func
xwait
(
w
interface
{
Wait
()
error
})
{
err
:=
w
.
Wait
()
exc
.
Raiseif
(
err
)
}
func
gox
(
wg
interface
{
Go
(
func
()
error
)
},
xf
func
())
{
wg
.
Go
(
exc
.
Funcx
(
xf
))
}
func
xfs1stor
(
path
string
)
*
fs1
.
FileStorage
{
zstor
,
err
:=
fs1
.
Open
(
bg
,
path
)
exc
.
Raiseif
(
err
)
return
zstor
}
var
bg
=
context
.
Background
()
// vclock is a virtual clock
type
vclock
struct
{
t
float64
}
func
(
c
*
vclock
)
monotime
()
float64
{
c
.
t
+=
1E-2
return
c
.
t
}
func
(
c
*
vclock
)
tick
()
{
// XXX do we need tick?
t
:=
math
.
Ceil
(
c
.
t
)
if
!
(
t
>
c
.
t
)
{
t
+=
1
}
c
.
t
=
t
}
go/xcommon/xtesting/xtesting.go
View file @
42bc63f7
...
...
@@ -21,89 +21,82 @@
package
xtesting
import
(
"fmt"
"reflect"
"strings"
"testing"
"github.com/kylelemons/godebug/pretty"
)
// XXX move -> tracing
// TODO tests for this
// SyncChan provides synchronous channel with additional property that send
// blocks until receiving side explicitly acknowledges message was received and
// processed.
//
// New channels must be created via NewSyncChan.
//
// It is safe to use SyncChan from multiple goroutines simultaneously.
type
SyncChan
struct
{
msgq
chan
*
SyncMsg
}
// XXX Tracer interface {Trace1} ?
// Send sends event to a consumer and waits for ack.
func
(
ch
*
SyncChan
)
Send
(
event
interface
{})
{
ack
:=
make
(
chan
struct
{})
ch
.
msgq
<-
&
SyncMsg
{
event
,
ack
}
<-
ack
}
//
SyncTracer provides base infrastructure for synchronous tracing
//
Recv receives message from a producer.
//
// T
racing events from several sources could be collected and sent for consumption via 1 channel
.
// For each event the goroutine which produced it will wait for ack before continue.
type
SyncTracer
struct
{
tracech
chan
*
SyncTraceM
sg
// T
he consumer, after dealing with the message, must send back an ack
.
func
(
ch
*
SyncChan
)
Recv
()
*
SyncMsg
{
msg
:=
<-
ch
.
msgq
return
m
sg
}
// Sync
TraceMsg represents message with 1 synchronous tracing communicatio
n.
// Sync
Msg represents message with 1 event sent over SyncCha
n.
//
//
the goroutine which produced
the message will wait for Ack before continue.
type
Sync
Trace
Msg
struct
{
//
The goroutine which sent
the message will wait for Ack before continue.
type
SyncMsg
struct
{
Event
interface
{}
ack
chan
<-
struct
{}
}
// Ack acknowledges the event was processed and un
pause
s producer goroutine.
func
(
m
*
Sync
Trace
Msg
)
Ack
()
{
// Ack acknowledges the event was processed and un
block
s producer goroutine.
func
(
m
*
SyncMsg
)
Ack
()
{
close
(
m
.
ack
)
}
// XXX doc
func
NewSyncTracer
()
*
SyncTracer
{
return
&
SyncTracer
{
tracech
:
make
(
chan
*
SyncTraceMsg
)}
}
// Trace1 sends message with 1 tracing event to a consumer and waits for ack
func
(
st
*
SyncTracer
)
Trace1
(
event
interface
{})
{
ack
:=
make
(
chan
struct
{})
//fmt.Printf("trace: send: %T %v\n", event, event)
st
.
tracech
<-
&
SyncTraceMsg
{
event
,
ack
}
<-
ack
}
// Get1 receives message with 1 tracing event from a producer.
//
// The consumer, after dealing with the message, must send back an ack.
func
(
st
*
SyncTracer
)
Get1
()
*
SyncTraceMsg
{
msg
:=
<-
st
.
tracech
//fmt.Printf("trace: get1: %T %v\n", msg.Event, msg.Event)
return
msg
// NewSyncChan creates new SyncChan channel.
func
NewSyncChan
()
*
SyncChan
{
return
&
SyncChan
{
msgq
:
make
(
chan
*
SyncMsg
)}
}
// ----------------------------------------
// XXX naming -> SyncTraceChecker
// TraceChecker synchronously collects and checks tracing events from a SyncTracer
type
TraceChecker
struct
{
// EventChecker is testing utility to verify events coming from a SyncChan are as expected.
type
EventChecker
struct
{
t
testing
.
TB
st
*
SyncTracer
in
*
SyncChan
}
// XXX doc
func
NewTraceChecker
(
t
testing
.
TB
,
st
*
SyncTracer
)
*
TraceChecker
{
return
&
TraceChecker
{
t
:
t
,
st
:
st
}
// NewEventChecker constructs new EventChecker that will retrieve events from
// `in` and use `t` for tests reporting.
func
NewEventChecker
(
t
testing
.
TB
,
in
*
SyncChan
)
*
EventChecker
{
return
&
EventChecker
{
t
:
t
,
in
:
in
}
}
// get1 gets 1 event in place and checks it has expected type
//
// if checks do not pass - fatal testing error is raised
// XXX merge back to expect1 ?
func
(
tc
*
TraceChecker
)
xget1
(
eventp
interface
{})
*
SyncTraceMsg
{
tc
.
t
.
Helper
()
msg
:=
tc
.
st
.
Get1
()
func
(
evc
*
EventChecker
)
xget1
(
eventp
interface
{})
*
SyncMsg
{
evc
.
t
.
Helper
()
msg
:=
evc
.
in
.
Recv
()
reventp
:=
reflect
.
ValueOf
(
eventp
)
if
reventp
.
Type
()
.
Elem
()
!=
reflect
.
TypeOf
(
msg
.
Event
)
{
t
c
.
t
.
Fatalf
(
"expect: %s: got %#v"
,
reventp
.
Elem
()
.
Type
(),
msg
.
Event
)
ev
c
.
t
.
Fatalf
(
"expect: %s: got %#v"
,
reventp
.
Elem
()
.
Type
(),
msg
.
Event
)
}
// *eventp = msg.Event
...
...
@@ -113,35 +106,56 @@ func (tc *TraceChecker) xget1(eventp interface{}) *SyncTraceMsg {
}
// expect1 asks checker to expect next event to be eventExpect (both type and value)
//
if checks do not pass - fatal testing error is raised
//
XXX merge back to expect?
func
(
tc
*
TraceChecker
)
expect1
(
eventExpect
interface
{})
{
t
c
.
t
.
Helper
()
//
//
if checks do not pass - fatal testing error is raised.
func
(
evc
*
EventChecker
)
expect1
(
eventExpect
interface
{})
*
SyncMsg
{
ev
c
.
t
.
Helper
()
reventExpect
:=
reflect
.
ValueOf
(
eventExpect
)
reventp
:=
reflect
.
New
(
reventExpect
.
Type
())
msg
:=
t
c
.
xget1
(
reventp
.
Interface
())
msg
:=
ev
c
.
xget1
(
reventp
.
Interface
())
revent
:=
reventp
.
Elem
()
if
!
reflect
.
DeepEqual
(
revent
.
Interface
(),
reventExpect
.
Interface
())
{
t
c
.
t
.
Fatalf
(
"expect: %s:
\n
want: %v
\n
have: %v
\n
diff: %s"
,
ev
c
.
t
.
Fatalf
(
"expect: %s:
\n
want: %v
\n
have: %v
\n
diff: %s"
,
reventExpect
.
Type
(),
reventExpect
,
revent
,
pretty
.
Compare
(
reventExpect
.
Interface
(),
revent
.
Interface
()))
}
return
msg
}
// Expect asks checker to receive next event and verify it to be equal to expected.
//
// If check is successful ACK is sent back to event producer.
// If check does not pass - fatal testing error is raised.
func
(
evc
*
EventChecker
)
Expect
(
expected
interface
{})
{
evc
.
t
.
Helper
()
msg
:=
evc
.
expect1
(
expected
)
msg
.
Ack
()
}
// Expect asks checker to expect next series of events to be from eventExpectV in specified order
func
(
tc
*
TraceChecker
)
Expect
(
eventExpectV
...
interface
{})
{
tc
.
t
.
Helper
()
// ExpectNoACK asks checker to receive next event and verify it to be equal to
// expected without sending back ACK.
//
// No ACK is sent back to event producer - the caller becomes responsible to
// send ACK back by itself.
//
// If check does not pass - fatal testing error is raised.
func
(
evc
*
EventChecker
)
ExpectNoACK
(
expected
interface
{})
*
SyncMsg
{
evc
.
t
.
Helper
()
for
_
,
eventExpect
:=
range
eventExpectV
{
tc
.
expect1
(
eventExpect
)
}
msg
:=
evc
.
expect1
(
expected
)
return
msg
}
// XXX goes away? (if there is no happens-before for events - just check them one by one in dedicated goroutines ?)
/*
// ExpectPar asks checker to expect next series of events to be from eventExpectV in no particular order
// XXX naming
func (tc *TraceChecker) ExpectPar(eventExpectV ...interface{}) {
...
...
@@ -170,3 +184,4 @@ loop:
tc.t.Fatalf("expect:\nhave: %T %v\nwant: [%v]", msg.Event, msg.Event, strings.Join(strv, " | "))
}
}
*/
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