Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
N
neo
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Labels
Merge Requests
2
Merge Requests
2
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Analytics
Analytics
CI / CD
Repository
Value Stream
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Jobs
Commits
Open sidebar
Kirill Smelkov
neo
Commits
641b1326
Commit
641b1326
authored
Feb 03, 2021
by
Kirill Smelkov
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
.
parent
7864d9cb
Changes
7
Show whitespace changes
Inline
Side-by-side
Showing
7 changed files
with
66 additions
and
66 deletions
+66
-66
go/neo/client.go
go/neo/client.go
+1
-1
go/neo/master.go
go/neo/master.go
+21
-21
go/neo/t_tracego_test.go
go/neo/t_tracego_test.go
+1
-1
go/neo/xneo/nodetab.go
go/neo/xneo/nodetab.go
+33
-34
go/neo/xneo/parttab.go
go/neo/xneo/parttab.go
+2
-1
go/neo/xneo/ztrace.go
go/neo/xneo/ztrace.go
+6
-6
go/neo/ztrace_test.go
go/neo/ztrace_test.go
+2
-2
No files found.
go/neo/client.go
View file @
641b1326
...
@@ -295,7 +295,7 @@ func (c *Client) Load(ctx context.Context, xid zodb.Xid) (buf *mem.Buf, serial z
...
@@ -295,7 +295,7 @@ func (c *Client) Load(ctx context.Context, xid zodb.Xid) (buf *mem.Buf, serial z
}()
}()
// Retrieve storages we might need to access.
// Retrieve storages we might need to access.
storv
:=
make
([]
*
xneo
.
Node
,
0
,
1
)
storv
:=
make
([]
*
xneo
.
Peer
Node
,
0
,
1
)
err
=
c
.
node
.
WithOperational
(
ctx
,
func
(
mlink
*
neonet
.
NodeLink
,
cs
*
xneo
.
ClusterState
)
error
{
err
=
c
.
node
.
WithOperational
(
ctx
,
func
(
mlink
*
neonet
.
NodeLink
,
cs
*
xneo
.
ClusterState
)
error
{
for
_
,
cell
:=
range
cs
.
PartTab
.
Get
(
xid
.
Oid
)
{
for
_
,
cell
:=
range
cs
.
PartTab
.
Get
(
xid
.
Oid
)
{
if
cell
.
Readable
()
{
if
cell
.
Readable
()
{
...
...
go/neo/master.go
View file @
641b1326
...
@@ -269,16 +269,16 @@ func (m *Master) runMain(ctx context.Context) (err error) {
...
@@ -269,16 +269,16 @@ func (m *Master) runMain(ctx context.Context) (err error) {
// - start is also allowed if storages connected and say there is no partition
// - start is also allowed if storages connected and say there is no partition
// table saved to them (empty new cluster case).
// table saved to them (empty new cluster case).
// storRecovery is result of 1 storage node passing recovery phase
// storRecovery is result of 1 storage node passing recovery phase
.
type
storRecovery
struct
{
type
storRecovery
struct
{
stor
*
xneo
.
Node
stor
*
xneo
.
Peer
Node
partTab
*
xneo
.
PartitionTable
partTab
*
xneo
.
PartitionTable
err
error
err
error
// XXX + backup_tid, truncate_tid ?
// XXX + backup_tid, truncate_tid ?
}
}
// recovery drives cluster during recovery phase
// recovery drives cluster during recovery phase
.
//
//
// when recovery finishes error indicates:
// when recovery finishes error indicates:
// - nil: recovery was ok and a command came for cluster to start
// - nil: recovery was ok and a command came for cluster to start
...
@@ -460,7 +460,7 @@ loop2:
...
@@ -460,7 +460,7 @@ loop2:
// if we are starting for new cluster - create partition table
// if we are starting for new cluster - create partition table
if
m
.
node
.
PartTab
.
PTid
==
0
{
if
m
.
node
.
PartTab
.
PTid
==
0
{
// XXX -> m.nodeTab.StorageList(State > DOWN)
// XXX -> m.nodeTab.StorageList(State > DOWN)
storv
:=
[]
*
xneo
.
Node
{}
storv
:=
[]
*
xneo
.
Peer
Node
{}
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
for
_
,
stor
:=
range
m
.
node
.
NodeTab
.
StorageList
()
{
if
stor
.
State
>
proto
.
DOWN
{
if
stor
.
State
>
proto
.
DOWN
{
storv
=
append
(
storv
,
stor
)
storv
=
append
(
storv
,
stor
)
...
@@ -474,9 +474,9 @@ loop2:
...
@@ -474,9 +474,9 @@ loop2:
return
nil
return
nil
}
}
// storCtlRecovery drives a storage node during cluster recovering state
// storCtlRecovery drives a storage node during cluster recovering state
.
// it retrieves various ids and partition table from as stored on the storage
// it retrieves various ids and partition table from as stored on the storage
func
storCtlRecovery
(
ctx
context
.
Context
,
stor
*
xneo
.
Node
,
res
chan
storRecovery
)
{
func
storCtlRecovery
(
ctx
context
.
Context
,
stor
*
xneo
.
Peer
Node
,
res
chan
storRecovery
)
{
var
err
error
var
err
error
defer
func
()
{
defer
func
()
{
if
err
==
nil
{
if
err
==
nil
{
...
@@ -526,7 +526,7 @@ var errClusterDegraded = stderrors.New("cluster became non-operatonal")
...
@@ -526,7 +526,7 @@ var errClusterDegraded = stderrors.New("cluster became non-operatonal")
// - once we are done without losing too much storages in the process (so that
// - once we are done without losing too much storages in the process (so that
// partition table is still operational) we are ready to enter servicing state.
// partition table is still operational) we are ready to enter servicing state.
// verify drives cluster during verification phase
// verify drives cluster during verification phase
.
//
//
// when verify finishes error indicates:
// when verify finishes error indicates:
// - nil: verification completed ok; cluster is ready to enter running state
// - nil: verification completed ok; cluster is ready to enter running state
...
@@ -671,16 +671,16 @@ loop2:
...
@@ -671,16 +671,16 @@ loop2:
return
err
return
err
}
}
// storVerify is result of a storage node passing verification phase
// storVerify is result of a storage node passing verification phase
.
type
storVerify
struct
{
type
storVerify
struct
{
stor
*
xneo
.
Node
stor
*
xneo
.
Peer
Node
lastOid
zodb
.
Oid
lastOid
zodb
.
Oid
lastTid
zodb
.
Tid
lastTid
zodb
.
Tid
err
error
err
error
}
}
// storCtlVerify drives a storage node during cluster verifying (= starting) state
// storCtlVerify drives a storage node during cluster verifying (= starting) state
.
func
storCtlVerify
(
ctx
context
.
Context
,
stor
*
xneo
.
Node
,
pt
*
xneo
.
PartitionTable
,
res
chan
storVerify
)
{
func
storCtlVerify
(
ctx
context
.
Context
,
stor
*
xneo
.
Peer
Node
,
pt
*
xneo
.
PartitionTable
,
res
chan
storVerify
)
{
// XXX link.Close on err -> = xcontext.WithCloseOnErrCancel
// XXX link.Close on err -> = xcontext.WithCloseOnErrCancel
// XXX cancel on ctx -> = ^^^
// XXX cancel on ctx -> = ^^^
...
@@ -736,13 +736,13 @@ func storCtlVerify(ctx context.Context, stor *xneo.Node, pt *xneo.PartitionTable
...
@@ -736,13 +736,13 @@ func storCtlVerify(ctx context.Context, stor *xneo.Node, pt *xneo.PartitionTable
//
//
// TODO also plan data movement on new storage nodes appearing
// TODO also plan data movement on new storage nodes appearing
// serviceDone is the error returned after service-phase node handling is finished
// serviceDone is the error returned after service-phase node handling is finished
.
type
serviceDone
struct
{
type
serviceDone
struct
{
node
*
xneo
.
Node
node
*
xneo
.
Peer
Node
err
error
err
error
}
}
// service drives cluster during running state
// service drives cluster during running state
.
//
//
// TODO document error meanings on return
// TODO document error meanings on return
//
//
...
@@ -845,7 +845,7 @@ loop:
...
@@ -845,7 +845,7 @@ loop:
}
}
// storCtlService drives a storage node during cluster service state
// storCtlService drives a storage node during cluster service state
func
storCtlService
(
ctx
context
.
Context
,
stor
*
xneo
.
Node
)
(
err
error
)
{
func
storCtlService
(
ctx
context
.
Context
,
stor
*
xneo
.
Peer
Node
)
(
err
error
)
{
slink
:=
stor
.
Link
()
slink
:=
stor
.
Link
()
defer
task
.
Runningf
(
&
ctx
,
"%s: stor service"
,
slink
.
RemoteAddr
())(
&
err
)
defer
task
.
Runningf
(
&
ctx
,
"%s: stor service"
,
slink
.
RemoteAddr
())(
&
err
)
...
@@ -891,8 +891,8 @@ func storCtlService(ctx context.Context, stor *xneo.Node) (err error) {
...
@@ -891,8 +891,8 @@ func storCtlService(ctx context.Context, stor *xneo.Node) (err error) {
}
}
}
}
// serveClient serves incoming client link
// serveClient serves incoming client link
.
func
(
m
*
Master
)
serveClient
(
ctx
context
.
Context
,
cli
*
xneo
.
Node
)
(
err
error
)
{
func
(
m
*
Master
)
serveClient
(
ctx
context
.
Context
,
cli
*
xneo
.
Peer
Node
)
(
err
error
)
{
clink
:=
cli
.
Link
()
clink
:=
cli
.
Link
()
defer
task
.
Runningf
(
&
ctx
,
"%s: client service"
,
clink
.
RemoteAddr
())(
&
err
)
defer
task
.
Runningf
(
&
ctx
,
"%s: client service"
,
clink
.
RemoteAddr
())(
&
err
)
...
@@ -927,7 +927,7 @@ func (m *Master) serveClient(ctx context.Context, cli *xneo.Node) (err error) {
...
@@ -927,7 +927,7 @@ func (m *Master) serveClient(ctx context.Context, cli *xneo.Node) (err error) {
return
wg
.
Wait
()
return
wg
.
Wait
()
}
}
// serveClient1 prepares response for 1 request from client
// serveClient1 prepares response for 1 request from client
.
func
(
m
*
Master
)
serveClient1
(
ctx
context
.
Context
,
req
proto
.
Msg
)
(
resp
proto
.
Msg
)
{
func
(
m
*
Master
)
serveClient1
(
ctx
context
.
Context
,
req
proto
.
Msg
)
(
resp
proto
.
Msg
)
{
switch
req
:=
req
.
(
type
)
{
switch
req
:=
req
.
(
type
)
{
case
*
proto
.
LastTransaction
:
case
*
proto
.
LastTransaction
:
...
@@ -941,7 +941,7 @@ func (m *Master) serveClient1(ctx context.Context, req proto.Msg) (resp proto.Ms
...
@@ -941,7 +941,7 @@ func (m *Master) serveClient1(ctx context.Context, req proto.Msg) (resp proto.Ms
// ----------------------------------------
// ----------------------------------------
// keepPeerUpdated sends cluster state updates to peer on the link
// keepPeerUpdated sends cluster state updates to peer on the link
.
func
(
m
*
Master
)
keepPeerUpdated
(
ctx
context
.
Context
,
link
*
neonet
.
NodeLink
)
(
err
error
)
{
func
(
m
*
Master
)
keepPeerUpdated
(
ctx
context
.
Context
,
link
*
neonet
.
NodeLink
)
(
err
error
)
{
// link should be already in parent ctx (XXX and closed on cancel ?)
// link should be already in parent ctx (XXX and closed on cancel ?)
defer
task
.
Runningf
(
&
ctx
,
"keep updated"
)(
&
err
)
defer
task
.
Runningf
(
&
ctx
,
"keep updated"
)(
&
err
)
...
@@ -1033,7 +1033,7 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neonet.NodeLink) (er
...
@@ -1033,7 +1033,7 @@ func (m *Master) keepPeerUpdated(ctx context.Context, link *neonet.NodeLink) (er
// If node identification is accepted .nodeTab is updated and corresponding node entry is returned.
// 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
// 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.
// the caller responsibility to send the response to node which requested identification.
func
(
m
*
Master
)
identify
(
ctx
context
.
Context
,
n
nodeCome
)
(
node
*
xneo
.
Node
,
resp
proto
.
Msg
)
{
func
(
m
*
Master
)
identify
(
ctx
context
.
Context
,
n
nodeCome
)
(
node
*
xneo
.
Peer
Node
,
resp
proto
.
Msg
)
{
// XXX also verify ? :
// XXX also verify ? :
// - NodeType valid
// - NodeType valid
// - IdTime ?
// - IdTime ?
...
@@ -1117,7 +1117,7 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *xneo.Node, res
...
@@ -1117,7 +1117,7 @@ func (m *Master) identify(ctx context.Context, n nodeCome) (node *xneo.Node, res
return
node
,
accept
return
node
,
accept
}
}
// allocNID allocates new node ID for a node of kind nodeType
// allocNID allocates new node ID for a node of kind nodeType
.
// XXX it is bad idea for master to assign node ID to coming node
// XXX it is bad idea for master to assign node ID to coming node
// -> better nodes generate really unique UUID themselves and always show with them
// -> better nodes generate really unique UUID themselves and always show with them
func
(
m
*
Master
)
allocNID
(
nodeType
proto
.
NodeType
)
proto
.
NodeID
{
func
(
m
*
Master
)
allocNID
(
nodeType
proto
.
NodeType
)
proto
.
NodeID
{
...
...
go/neo/t_tracego_test.go
View file @
641b1326
...
@@ -131,7 +131,7 @@ func (t *TraceCollector) traceClusterState(cs *proto.ClusterState) {
...
@@ -131,7 +131,7 @@ func (t *TraceCollector) traceClusterState(cs *proto.ClusterState) {
t
.
rx
.
RxEvent
(
&
eventClusterState
{
where
,
*
cs
})
t
.
rx
.
RxEvent
(
&
eventClusterState
{
where
,
*
cs
})
}
}
func
(
t
*
TraceCollector
)
traceNode
(
nt
*
xneo
.
NodeTable
,
n
*
xneo
.
Node
)
{
func
(
t
*
TraceCollector
)
traceNode
(
nt
*
xneo
.
NodeTable
,
n
*
xneo
.
Peer
Node
)
{
//t.rx.RxEvent(&eventNodeTab{unsafe.Pointer(nt), n.NodeInfo})
//t.rx.RxEvent(&eventNodeTab{unsafe.Pointer(nt), n.NodeInfo})
where
:=
t
.
nodeTab2Owner
[
nt
]
where
:=
t
.
nodeTab2Owner
[
nt
]
t
.
rx
.
RxEvent
(
&
eventNodeTab
{
where
,
n
.
NodeInfo
})
t
.
rx
.
RxEvent
(
&
eventNodeTab
{
where
,
n
.
NodeInfo
})
...
...
go/neo/xneo/nodetab.go
View file @
641b1326
...
@@ -35,11 +35,17 @@ import (
...
@@ -35,11 +35,17 @@ import (
"lab.nexedi.com/kirr/neo/go/internal/xio"
"lab.nexedi.com/kirr/neo/go/internal/xio"
)
)
// NodeTable represents known nodes in a cluster.
// TODO
//
// - Node <- instead of NodeApp
// + PeerNode <- instead of Node
// - NodeTable <- remains + comment that each entry is "node information" + link
// NodeTable represents known nodes in a cluster. XXX + "containing" parent node
//
//
// It is
// It is
//
//
// NID -> *Node ; = (.laddr, .state, ...) + .link
// NID -> *
Peer
Node ; = (.laddr, .state, ...) + .link
//
//
// mapping listing known nodes and associating their node ID with information
// mapping listing known nodes and associating their node ID with information
// about a node.
// about a node.
...
@@ -65,20 +71,19 @@ import (
...
@@ -65,20 +71,19 @@ import (
//
//
// XXX users have to care locking explicitly
// XXX users have to care locking explicitly
type
NodeTable
struct
{
type
NodeTable
struct
{
// XXX for Node.Dial to work. see also comments vvv near "peer link"
// XXX for PeerNode.Dial to work. see also comments vvv near "peer link"
// XXX move pointer to local node to PeerNode instead?
nodeApp
*
NodeApp
nodeApp
*
NodeApp
nodev
[]
*
Node
// all nodes
nodev
[]
*
Peer
Node
// all nodes
notifyv
[]
chan
proto
.
NodeInfo
// subscribers
notifyv
[]
chan
proto
.
NodeInfo
// subscribers
}
}
//trace:event traceNodeChanged(nt *NodeTable, n *Node)
//trace:event traceNodeChanged(nt *NodeTable, n *
Peer
Node)
// Node represents a peer node in the cluster.
// PeerNode represents a peer node in the cluster.
//
type
PeerNode
struct
{
// XXX name as Peer? PeerNode?
nodeTab
*
NodeTable
// this node is part of // XXX -> change to `local *Node` ?
type
Node
struct
{
nodeTab
*
NodeTable
// this node is part of
proto
.
NodeInfo
// (.type, .laddr, .nid, .state, .idtime) XXX also protect by mu?
proto
.
NodeInfo
// (.type, .laddr, .nid, .state, .idtime) XXX also protect by mu?
...
@@ -108,13 +113,12 @@ func (nt *NodeTable) Len() int {
...
@@ -108,13 +113,12 @@ func (nt *NodeTable) Len() int {
}
}
// All returns all entries in the table as one slice.
// All returns all entries in the table as one slice.
// XXX -> better iter?
func
(
nt
*
NodeTable
)
All
()
[]
*
PeerNode
{
func
(
nt
*
NodeTable
)
All
()
[]
*
Node
{
return
nt
.
nodev
return
nt
.
nodev
}
}
// Get finds node by node ID.
// Get finds node by node ID.
func
(
nt
*
NodeTable
)
Get
(
nid
proto
.
NodeID
)
*
Node
{
func
(
nt
*
NodeTable
)
Get
(
nid
proto
.
NodeID
)
*
Peer
Node
{
// FIXME linear scan
// FIXME linear scan
for
_
,
node
:=
range
nt
.
nodev
{
for
_
,
node
:=
range
nt
.
nodev
{
if
node
.
NID
==
nid
{
if
node
.
NID
==
nid
{
...
@@ -129,20 +133,14 @@ func (nt *NodeTable) Get(nid proto.NodeID) *Node {
...
@@ -129,20 +133,14 @@ func (nt *NodeTable) Get(nid proto.NodeID) *Node {
// Update updates information about a node.
// Update updates information about a node.
//
//
// it returns corresponding node entry for convenience.
// it returns corresponding node entry for convenience.
func
(
nt
*
NodeTable
)
Update
(
nodeInfo
proto
.
NodeInfo
)
*
Node
{
func
(
nt
*
NodeTable
)
Update
(
nodeInfo
proto
.
NodeInfo
)
*
Peer
Node
{
node
:=
nt
.
Get
(
nodeInfo
.
NID
)
node
:=
nt
.
Get
(
nodeInfo
.
NID
)
if
node
==
nil
{
if
node
==
nil
{
node
=
&
Node
{
nodeTab
:
nt
}
node
=
&
Peer
Node
{
nodeTab
:
nt
}
nt
.
nodev
=
append
(
nt
.
nodev
,
node
)
nt
.
nodev
=
append
(
nt
.
nodev
,
node
)
}
}
node
.
NodeInfo
=
nodeInfo
node
.
NodeInfo
=
nodeInfo
/*
node.Conn = conn
if conn != nil {
node.Link = conn.Link()
}
*/
// XXX close link if .state becomes DOWN ?
// XXX close link if .state becomes DOWN ?
...
@@ -152,13 +150,13 @@ func (nt *NodeTable) Update(nodeInfo proto.NodeInfo) *Node {
...
@@ -152,13 +150,13 @@ func (nt *NodeTable) Update(nodeInfo proto.NodeInfo) *Node {
return
node
return
node
}
}
// StorageList returns list of all storages in
node table
// StorageList returns list of all storages in
the node table.
func
(
nt
*
NodeTable
)
StorageList
()
[]
*
Node
{
func
(
nt
*
NodeTable
)
StorageList
()
[]
*
Peer
Node
{
// FIXME linear scan
// FIXME linear scan
sl
:=
[]
*
Node
{}
sl
:=
[]
*
Peer
Node
{}
for
_
,
node
:=
range
nt
.
nodev
{
for
_
,
node
v
:=
range
nt
.
nodev
{
if
node
.
Type
==
proto
.
STORAGE
{
if
node
v
.
Type
==
proto
.
STORAGE
{
sl
=
append
(
sl
,
node
)
sl
=
append
(
sl
,
node
v
)
}
}
}
}
return
sl
return
sl
...
@@ -166,7 +164,7 @@ func (nt *NodeTable) StorageList() []*Node {
...
@@ -166,7 +164,7 @@ func (nt *NodeTable) StorageList() []*Node {
// XXX doc
// XXX doc
func
(
n
*
Node
)
SetState
(
state
proto
.
NodeState
)
{
func
(
n
*
Peer
Node
)
SetState
(
state
proto
.
NodeState
)
{
n
.
State
=
state
n
.
State
=
state
traceNodeChanged
(
n
.
nodeTab
,
n
)
traceNodeChanged
(
n
.
nodeTab
,
n
)
n
.
nodeTab
.
notify
(
n
.
NodeInfo
)
n
.
nodeTab
.
notify
(
n
.
NodeInfo
)
...
@@ -179,6 +177,7 @@ func (nt *NodeTable) String() string {
...
@@ -179,6 +177,7 @@ func (nt *NodeTable) String() string {
for
_
,
n
:=
range
nt
.
nodev
{
for
_
,
n
:=
range
nt
.
nodev
{
// XXX recheck output
// XXX recheck output
// XXX +link ?
fmt
.
Fprintf
(
&
buf
,
"%s (%s)
\t
%s
\t
%s
\t
@ %s
\n
"
,
n
.
NID
,
n
.
Type
,
n
.
State
,
n
.
Addr
,
n
.
IdTime
)
fmt
.
Fprintf
(
&
buf
,
"%s (%s)
\t
%s
\t
%s
\t
@ %s
\n
"
,
n
.
NID
,
n
.
Type
,
n
.
State
,
n
.
Addr
,
n
.
IdTime
)
}
}
...
@@ -283,7 +282,7 @@ func (nt *NodeTable) SubscribeBuffered() (ch chan []proto.NodeInfo, unsubscribe
...
@@ -283,7 +282,7 @@ func (nt *NodeTable) SubscribeBuffered() (ch chan []proto.NodeInfo, unsubscribe
// XXX
// XXX
//
//
// See also: Link, ResetLink, Dial.
// See also: Link, ResetLink, Dial.
func
(
p
*
Node
)
SetLink
(
link
*
neonet
.
NodeLink
)
{
func
(
p
*
Peer
Node
)
SetLink
(
link
*
neonet
.
NodeLink
)
{
// XXX see Link about locking - whether it is needed here or not
// XXX see Link about locking - whether it is needed here or not
p
.
linkMu
.
Lock
()
p
.
linkMu
.
Lock
()
p
.
link
=
link
p
.
link
=
link
...
@@ -295,7 +294,7 @@ func (p *Node) SetLink(link *neonet.NodeLink) {
...
@@ -295,7 +294,7 @@ func (p *Node) SetLink(link *neonet.NodeLink) {
// If the link is not yet established - Link returns nil.
// If the link is not yet established - Link returns nil.
//
//
// See also: Dial.
// See also: Dial.
func
(
p
*
Node
)
Link
()
*
neonet
.
NodeLink
{
func
(
p
*
Peer
Node
)
Link
()
*
neonet
.
NodeLink
{
// XXX do we need lock here?
// XXX do we need lock here?
// XXX usages where Link is used (contrary to Dial) there is no need for lock
// XXX usages where Link is used (contrary to Dial) there is no need for lock
p
.
linkMu
.
Lock
()
p
.
linkMu
.
Lock
()
...
@@ -305,7 +304,7 @@ func (p *Node) Link() *neonet.NodeLink {
...
@@ -305,7 +304,7 @@ func (p *Node) Link() *neonet.NodeLink {
}
}
// ResetLink closes link to peer and sets it to nil.
// ResetLink closes link to peer and sets it to nil.
func
(
p
*
Node
)
ResetLink
(
ctx
context
.
Context
)
{
func
(
p
*
Peer
Node
)
ResetLink
(
ctx
context
.
Context
)
{
p
.
linkMu
.
Lock
()
p
.
linkMu
.
Lock
()
link
:=
p
.
link
link
:=
p
.
link
p
.
link
=
nil
p
.
link
=
nil
...
@@ -324,7 +323,7 @@ func (p *Node) ResetLink(ctx context.Context) {
...
@@ -324,7 +323,7 @@ func (p *Node) ResetLink(ctx context.Context) {
// dial does low-level work to dial peer
// dial does low-level work to dial peer
// XXX p.* reading without lock - ok?
// XXX p.* reading without lock - ok?
// XXX app.MyInfo without lock - ok?
// XXX app.MyInfo without lock - ok?
func
(
p
*
Node
)
dial
(
ctx
context
.
Context
)
(
_
*
neonet
.
NodeLink
,
err
error
)
{
func
(
p
*
Peer
Node
)
dial
(
ctx
context
.
Context
)
(
_
*
neonet
.
NodeLink
,
err
error
)
{
defer
task
.
Runningf
(
&
ctx
,
"connect %s"
,
p
.
NID
)(
&
err
)
// XXX "connect" good word here?
defer
task
.
Runningf
(
&
ctx
,
"connect %s"
,
p
.
NID
)(
&
err
)
// XXX "connect" good word here?
app
:=
p
.
nodeTab
.
nodeApp
app
:=
p
.
nodeTab
.
nodeApp
...
@@ -343,7 +342,7 @@ func (p *Node) dial(ctx context.Context) (_ *neonet.NodeLink, err error) {
...
@@ -343,7 +342,7 @@ func (p *Node) dial(ctx context.Context) (_ *neonet.NodeLink, err error) {
case
accept
.
YourNID
!=
app
.
MyInfo
.
NID
:
case
accept
.
YourNID
!=
app
.
MyInfo
.
NID
:
err
=
fmt
.
Errorf
(
"connected, but peer gives us nid %v (our is %v)"
,
accept
.
YourNID
,
app
.
MyInfo
.
NID
)
err
=
fmt
.
Errorf
(
"connected, but peer gives us nid %v (our is %v)"
,
accept
.
YourNID
,
app
.
MyInfo
.
NID
)
// XXX Node.Dial is currently used by Client only.
// XXX
Peer
Node.Dial is currently used by Client only.
// XXX For Client it would be not correct to check #partition only at
// XXX For Client it would be not correct to check #partition only at
// XXX connection time, but it has to be also checked after always as every
// XXX connection time, but it has to be also checked after always as every
// XXX operation could coincide with cluster reconfiguration.
// XXX operation could coincide with cluster reconfiguration.
...
@@ -386,7 +385,7 @@ type dialed struct {
...
@@ -386,7 +385,7 @@ type dialed struct {
//
//
// In case Dial returns an error - future Dial will attempt to reconnect with
// In case Dial returns an error - future Dial will attempt to reconnect with
// "don't reconnect too fast" throttling.
// "don't reconnect too fast" throttling.
func
(
p
*
Node
)
Dial
(
ctx
context
.
Context
)
(
*
neonet
.
NodeLink
,
error
)
{
func
(
p
*
Peer
Node
)
Dial
(
ctx
context
.
Context
)
(
*
neonet
.
NodeLink
,
error
)
{
p
.
linkMu
.
Lock
()
p
.
linkMu
.
Lock
()
// ok if already connected
// ok if already connected
...
...
go/neo/xneo/parttab.go
View file @
641b1326
...
@@ -159,7 +159,8 @@ func (c *Cell) Readable() bool {
...
@@ -159,7 +159,8 @@ func (c *Cell) Readable() bool {
// MakePartTab creates new partition with uniformly distributed nodes
// MakePartTab creates new partition with uniformly distributed nodes
// The partition table created will be of len=np
// The partition table created will be of len=np
// FIXME R=1 hardcoded
// FIXME R=1 hardcoded
func
MakePartTab
(
np
int
,
nodev
[]
*
Node
)
*
PartitionTable
{
// XXX nodev -> []NodeInfo ?
func
MakePartTab
(
np
int
,
nodev
[]
*
PeerNode
)
*
PartitionTable
{
// XXX stub, not tested
// XXX stub, not tested
tab
:=
make
([][]
Cell
,
np
)
tab
:=
make
([][]
Cell
,
np
)
for
i
,
j
:=
0
,
0
;
i
<
np
;
i
,
j
=
i
+
1
,
j
+
1
%
len
(
nodev
)
{
for
i
,
j
:=
0
,
0
;
i
<
np
;
i
,
j
=
i
+
1
,
j
+
1
%
len
(
nodev
)
{
...
...
go/neo/xneo/ztrace.go
View file @
641b1326
...
@@ -8,32 +8,32 @@ import (
...
@@ -8,32 +8,32 @@ import (
"unsafe"
"unsafe"
)
)
// traceevent: traceNodeChanged(nt *NodeTable, n *Node)
// traceevent: traceNodeChanged(nt *NodeTable, n *
Peer
Node)
type
_t_traceNodeChanged
struct
{
type
_t_traceNodeChanged
struct
{
tracing
.
Probe
tracing
.
Probe
probefunc
func
(
nt
*
NodeTable
,
n
*
Node
)
probefunc
func
(
nt
*
NodeTable
,
n
*
Peer
Node
)
}
}
var
_traceNodeChanged
*
_t_traceNodeChanged
var
_traceNodeChanged
*
_t_traceNodeChanged
func
traceNodeChanged
(
nt
*
NodeTable
,
n
*
Node
)
{
func
traceNodeChanged
(
nt
*
NodeTable
,
n
*
Peer
Node
)
{
if
_traceNodeChanged
!=
nil
{
if
_traceNodeChanged
!=
nil
{
_traceNodeChanged_run
(
nt
,
n
)
_traceNodeChanged_run
(
nt
,
n
)
}
}
}
}
func
_traceNodeChanged_run
(
nt
*
NodeTable
,
n
*
Node
)
{
func
_traceNodeChanged_run
(
nt
*
NodeTable
,
n
*
Peer
Node
)
{
for
p
:=
_traceNodeChanged
;
p
!=
nil
;
p
=
(
*
_t_traceNodeChanged
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
for
p
:=
_traceNodeChanged
;
p
!=
nil
;
p
=
(
*
_t_traceNodeChanged
)(
unsafe
.
Pointer
(
p
.
Next
()))
{
p
.
probefunc
(
nt
,
n
)
p
.
probefunc
(
nt
,
n
)
}
}
}
}
func
traceNodeChanged_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
nt
*
NodeTable
,
n
*
Node
))
*
tracing
.
Probe
{
func
traceNodeChanged_Attach
(
pg
*
tracing
.
ProbeGroup
,
probe
func
(
nt
*
NodeTable
,
n
*
Peer
Node
))
*
tracing
.
Probe
{
p
:=
_t_traceNodeChanged
{
probefunc
:
probe
}
p
:=
_t_traceNodeChanged
{
probefunc
:
probe
}
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceNodeChanged
)),
&
p
.
Probe
)
tracing
.
AttachProbe
(
pg
,
(
**
tracing
.
Probe
)(
unsafe
.
Pointer
(
&
_traceNodeChanged
)),
&
p
.
Probe
)
return
&
p
.
Probe
return
&
p
.
Probe
}
}
// trace export signature
// trace export signature
func
_trace_exporthash_
a393ecf34683256731eab893a4d035f1326c103e
()
{}
func
_trace_exporthash_
703f7fc2f10119b6979d924e79f1bb7862c52ced
()
{}
go/neo/ztrace_test.go
View file @
641b1326
...
@@ -40,10 +40,10 @@ func proto_traceClusterStateChanged_Attach(*tracing.ProbeGroup, func(cs *proto.C
...
@@ -40,10 +40,10 @@ func proto_traceClusterStateChanged_Attach(*tracing.ProbeGroup, func(cs *proto.C
// traceimport: "lab.nexedi.com/kirr/neo/go/neo/xneo"
// traceimport: "lab.nexedi.com/kirr/neo/go/neo/xneo"
// rerun "gotrace gen" if you see link failure ↓↓↓
// rerun "gotrace gen" if you see link failure ↓↓↓
//go:linkname xneo_trace_exporthash lab.nexedi.com/kirr/neo/go/neo/xneo._trace_exporthash_
a393ecf34683256731eab893a4d035f1326c103e
//go:linkname xneo_trace_exporthash lab.nexedi.com/kirr/neo/go/neo/xneo._trace_exporthash_
703f7fc2f10119b6979d924e79f1bb7862c52ced
func
xneo_trace_exporthash
()
func
xneo_trace_exporthash
()
func
init
()
{
xneo_trace_exporthash
()
}
func
init
()
{
xneo_trace_exporthash
()
}
//go:linkname xneo_traceNodeChanged_Attach lab.nexedi.com/kirr/neo/go/neo/xneo.traceNodeChanged_Attach
//go:linkname xneo_traceNodeChanged_Attach lab.nexedi.com/kirr/neo/go/neo/xneo.traceNodeChanged_Attach
func
xneo_traceNodeChanged_Attach
(
*
tracing
.
ProbeGroup
,
func
(
nt
*
xneo
.
NodeTable
,
n
*
xneo
.
Node
))
*
tracing
.
Probe
func
xneo_traceNodeChanged_Attach
(
*
tracing
.
ProbeGroup
,
func
(
nt
*
xneo
.
NodeTable
,
n
*
xneo
.
Peer
Node
))
*
tracing
.
Probe
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment