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dms3
go-merkledag
Commits
f93ea20c
Commit
f93ea20c
authored
Jan 07, 2015
by
Juan Batiz-Benet
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merkledag: split off node.go
parent
43f8f601
Changes
2
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2 changed files
with
188 additions
and
181 deletions
+188
-181
merkledag.go
merkledag.go
+0
-181
node.go
node.go
+188
-0
No files found.
merkledag.go
View file @
f93ea20c
...
...
@@ -9,7 +9,6 @@ import (
"github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/go.net/context"
mh
"github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multihash"
blocks
"github.com/jbenet/go-ipfs/blocks"
bserv
"github.com/jbenet/go-ipfs/blockservice"
u
"github.com/jbenet/go-ipfs/util"
...
...
@@ -18,11 +17,6 @@ import (
var
log
=
u
.
Logger
(
"merkledag"
)
var
ErrNotFound
=
fmt
.
Errorf
(
"merkledag: not found"
)
// NodeMap maps u.Keys to Nodes.
// We cannot use []byte/Multihash for keys :(
// so have to convert Multihash bytes to string (u.Key)
type
NodeMap
map
[
u
.
Key
]
*
Node
// DAGService is an IPFS Merkle DAG service.
type
DAGService
interface
{
Add
(
*
Node
)
(
u
.
Key
,
error
)
...
...
@@ -39,181 +33,6 @@ func NewDAGService(bs *bserv.BlockService) DAGService {
return
&
dagService
{
bs
}
}
// Node represents a node in the IPFS Merkle DAG.
// nodes have opaque data and a set of navigable links.
type
Node
struct
{
Links
[]
*
Link
Data
[]
byte
// cache encoded/marshaled value
encoded
[]
byte
cached
mh
.
Multihash
}
// NodeStat is a statistics object for a Node. Mostly sizes.
type
NodeStat
struct
{
NumLinks
int
// number of links in link table
BlockSize
int
// size of the raw data
LinksSize
int
// size of the links segment
DataSize
int
// size of the data segment
CumulativeSize
int
// cumulatie size of object + all it references
}
func
(
ns
NodeStat
)
String
()
string
{
f
:=
"NodeStat{NumLinks: %d, BlockSize: %d, LinksSize: %d, DataSize: %d, CumulativeSize: %d}"
return
fmt
.
Sprintf
(
f
,
ns
.
NumLinks
,
ns
.
BlockSize
,
ns
.
LinksSize
,
ns
.
DataSize
,
ns
.
CumulativeSize
)
}
// Link represents an IPFS Merkle DAG Link between Nodes.
type
Link
struct
{
// utf string name. should be unique per object
Name
string
// utf8
// cumulative size of target object
Size
uint64
// multihash of the target object
Hash
mh
.
Multihash
// a ptr to the actual node for graph manipulation
Node
*
Node
}
type
LinkSlice
[]
*
Link
func
(
ls
LinkSlice
)
Len
()
int
{
return
len
(
ls
)
}
func
(
ls
LinkSlice
)
Swap
(
a
,
b
int
)
{
ls
[
a
],
ls
[
b
]
=
ls
[
b
],
ls
[
a
]
}
func
(
ls
LinkSlice
)
Less
(
a
,
b
int
)
bool
{
return
ls
[
a
]
.
Name
<
ls
[
b
]
.
Name
}
// MakeLink creates a link to the given node
func
MakeLink
(
n
*
Node
)
(
*
Link
,
error
)
{
s
,
err
:=
n
.
Size
()
if
err
!=
nil
{
return
nil
,
err
}
h
,
err
:=
n
.
Multihash
()
if
err
!=
nil
{
return
nil
,
err
}
return
&
Link
{
Size
:
s
,
Hash
:
h
,
},
nil
}
// GetNode returns the MDAG Node that this link points to
func
(
l
*
Link
)
GetNode
(
serv
DAGService
)
(
*
Node
,
error
)
{
if
l
.
Node
!=
nil
{
return
l
.
Node
,
nil
}
return
serv
.
Get
(
u
.
Key
(
l
.
Hash
))
}
// AddNodeLink adds a link to another node.
func
(
n
*
Node
)
AddNodeLink
(
name
string
,
that
*
Node
)
error
{
lnk
,
err
:=
MakeLink
(
that
)
if
err
!=
nil
{
return
err
}
lnk
.
Name
=
name
lnk
.
Node
=
that
n
.
Links
=
append
(
n
.
Links
,
lnk
)
return
nil
}
// AddNodeLink adds a link to another node. without keeping a reference to
// the child node
func
(
n
*
Node
)
AddNodeLinkClean
(
name
string
,
that
*
Node
)
error
{
lnk
,
err
:=
MakeLink
(
that
)
if
err
!=
nil
{
return
err
}
lnk
.
Name
=
name
n
.
Links
=
append
(
n
.
Links
,
lnk
)
return
nil
}
// Remove a link on this node by the given name
func
(
n
*
Node
)
RemoveNodeLink
(
name
string
)
error
{
for
i
,
l
:=
range
n
.
Links
{
if
l
.
Name
==
name
{
n
.
Links
=
append
(
n
.
Links
[
:
i
],
n
.
Links
[
i
+
1
:
]
...
)
return
nil
}
}
return
ErrNotFound
}
// Copy returns a copy of the node.
// NOTE: does not make copies of Node objects in the links.
func
(
n
*
Node
)
Copy
()
*
Node
{
nnode
:=
new
(
Node
)
nnode
.
Data
=
make
([]
byte
,
len
(
n
.
Data
))
copy
(
nnode
.
Data
,
n
.
Data
)
nnode
.
Links
=
make
([]
*
Link
,
len
(
n
.
Links
))
copy
(
nnode
.
Links
,
n
.
Links
)
return
nnode
}
// Size returns the total size of the data addressed by node,
// including the total sizes of references.
func
(
n
*
Node
)
Size
()
(
uint64
,
error
)
{
b
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
0
,
err
}
s
:=
uint64
(
len
(
b
))
for
_
,
l
:=
range
n
.
Links
{
s
+=
l
.
Size
}
return
s
,
nil
}
// Stat returns statistics on the node.
func
(
n
*
Node
)
Stat
()
(
NodeStat
,
error
)
{
enc
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
NodeStat
{},
err
}
cumSize
,
err
:=
n
.
Size
()
if
err
!=
nil
{
return
NodeStat
{},
err
}
return
NodeStat
{
NumLinks
:
len
(
n
.
Links
),
BlockSize
:
len
(
enc
),
LinksSize
:
len
(
enc
)
-
len
(
n
.
Data
),
// includes framing.
DataSize
:
len
(
n
.
Data
),
CumulativeSize
:
int
(
cumSize
),
},
nil
}
// Multihash hashes the encoded data of this node.
func
(
n
*
Node
)
Multihash
()
(
mh
.
Multihash
,
error
)
{
// Note: Encoded generates the hash and puts it in n.cached.
_
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
nil
,
err
}
return
n
.
cached
,
nil
}
// Key returns the Multihash as a key, for maps.
func
(
n
*
Node
)
Key
()
(
u
.
Key
,
error
)
{
h
,
err
:=
n
.
Multihash
()
return
u
.
Key
(
h
),
err
}
// dagService is an IPFS Merkle DAG service.
// - the root is virtual (like a forest)
// - stores nodes' data in a BlockService
...
...
node.go
0 → 100644
View file @
f93ea20c
package
merkledag
import
(
"fmt"
mh
"github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multihash"
u
"github.com/jbenet/go-ipfs/util"
)
// NodeMap maps u.Keys to Nodes.
// We cannot use []byte/Multihash for keys :(
// so have to convert Multihash bytes to string (u.Key)
type
NodeMap
map
[
u
.
Key
]
*
Node
// Node represents a node in the IPFS Merkle DAG.
// nodes have opaque data and a set of navigable links.
type
Node
struct
{
Links
[]
*
Link
Data
[]
byte
// cache encoded/marshaled value
encoded
[]
byte
cached
mh
.
Multihash
}
// NodeStat is a statistics object for a Node. Mostly sizes.
type
NodeStat
struct
{
NumLinks
int
// number of links in link table
BlockSize
int
// size of the raw data
LinksSize
int
// size of the links segment
DataSize
int
// size of the data segment
CumulativeSize
int
// cumulatie size of object + all it references
}
func
(
ns
NodeStat
)
String
()
string
{
f
:=
"NodeStat{NumLinks: %d, BlockSize: %d, LinksSize: %d, DataSize: %d, CumulativeSize: %d}"
return
fmt
.
Sprintf
(
f
,
ns
.
NumLinks
,
ns
.
BlockSize
,
ns
.
LinksSize
,
ns
.
DataSize
,
ns
.
CumulativeSize
)
}
// Link represents an IPFS Merkle DAG Link between Nodes.
type
Link
struct
{
// utf string name. should be unique per object
Name
string
// utf8
// cumulative size of target object
Size
uint64
// multihash of the target object
Hash
mh
.
Multihash
// a ptr to the actual node for graph manipulation
Node
*
Node
}
type
LinkSlice
[]
*
Link
func
(
ls
LinkSlice
)
Len
()
int
{
return
len
(
ls
)
}
func
(
ls
LinkSlice
)
Swap
(
a
,
b
int
)
{
ls
[
a
],
ls
[
b
]
=
ls
[
b
],
ls
[
a
]
}
func
(
ls
LinkSlice
)
Less
(
a
,
b
int
)
bool
{
return
ls
[
a
]
.
Name
<
ls
[
b
]
.
Name
}
// MakeLink creates a link to the given node
func
MakeLink
(
n
*
Node
)
(
*
Link
,
error
)
{
s
,
err
:=
n
.
Size
()
if
err
!=
nil
{
return
nil
,
err
}
h
,
err
:=
n
.
Multihash
()
if
err
!=
nil
{
return
nil
,
err
}
return
&
Link
{
Size
:
s
,
Hash
:
h
,
},
nil
}
// GetNode returns the MDAG Node that this link points to
func
(
l
*
Link
)
GetNode
(
serv
DAGService
)
(
*
Node
,
error
)
{
if
l
.
Node
!=
nil
{
return
l
.
Node
,
nil
}
return
serv
.
Get
(
u
.
Key
(
l
.
Hash
))
}
// AddNodeLink adds a link to another node.
func
(
n
*
Node
)
AddNodeLink
(
name
string
,
that
*
Node
)
error
{
lnk
,
err
:=
MakeLink
(
that
)
if
err
!=
nil
{
return
err
}
lnk
.
Name
=
name
lnk
.
Node
=
that
n
.
Links
=
append
(
n
.
Links
,
lnk
)
return
nil
}
// AddNodeLink adds a link to another node. without keeping a reference to
// the child node
func
(
n
*
Node
)
AddNodeLinkClean
(
name
string
,
that
*
Node
)
error
{
lnk
,
err
:=
MakeLink
(
that
)
if
err
!=
nil
{
return
err
}
lnk
.
Name
=
name
n
.
Links
=
append
(
n
.
Links
,
lnk
)
return
nil
}
// Remove a link on this node by the given name
func
(
n
*
Node
)
RemoveNodeLink
(
name
string
)
error
{
for
i
,
l
:=
range
n
.
Links
{
if
l
.
Name
==
name
{
n
.
Links
=
append
(
n
.
Links
[
:
i
],
n
.
Links
[
i
+
1
:
]
...
)
return
nil
}
}
return
ErrNotFound
}
// Copy returns a copy of the node.
// NOTE: does not make copies of Node objects in the links.
func
(
n
*
Node
)
Copy
()
*
Node
{
nnode
:=
new
(
Node
)
nnode
.
Data
=
make
([]
byte
,
len
(
n
.
Data
))
copy
(
nnode
.
Data
,
n
.
Data
)
nnode
.
Links
=
make
([]
*
Link
,
len
(
n
.
Links
))
copy
(
nnode
.
Links
,
n
.
Links
)
return
nnode
}
// Size returns the total size of the data addressed by node,
// including the total sizes of references.
func
(
n
*
Node
)
Size
()
(
uint64
,
error
)
{
b
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
0
,
err
}
s
:=
uint64
(
len
(
b
))
for
_
,
l
:=
range
n
.
Links
{
s
+=
l
.
Size
}
return
s
,
nil
}
// Stat returns statistics on the node.
func
(
n
*
Node
)
Stat
()
(
NodeStat
,
error
)
{
enc
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
NodeStat
{},
err
}
cumSize
,
err
:=
n
.
Size
()
if
err
!=
nil
{
return
NodeStat
{},
err
}
return
NodeStat
{
NumLinks
:
len
(
n
.
Links
),
BlockSize
:
len
(
enc
),
LinksSize
:
len
(
enc
)
-
len
(
n
.
Data
),
// includes framing.
DataSize
:
len
(
n
.
Data
),
CumulativeSize
:
int
(
cumSize
),
},
nil
}
// Multihash hashes the encoded data of this node.
func
(
n
*
Node
)
Multihash
()
(
mh
.
Multihash
,
error
)
{
// Note: Encoded generates the hash and puts it in n.cached.
_
,
err
:=
n
.
Encoded
(
false
)
if
err
!=
nil
{
return
nil
,
err
}
return
n
.
cached
,
nil
}
// Key returns the Multihash as a key, for maps.
func
(
n
*
Node
)
Key
()
(
u
.
Key
,
error
)
{
h
,
err
:=
n
.
Multihash
()
return
u
.
Key
(
h
),
err
}
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