2017-12-29 04:16:20 +00:00
package yggdrasil
type address [ 16 ] byte // IPv6 address within the network
2018-01-04 22:37:51 +00:00
type subnet [ 8 ] byte // It's a /64
2017-12-29 04:16:20 +00:00
var address_prefix = [ ... ] byte { 0xfd } // For node addresses + local subnets
func ( a * address ) isValid ( ) bool {
2018-01-04 22:37:51 +00:00
for idx := range address_prefix {
if ( * a ) [ idx ] != address_prefix [ idx ] {
return false
}
}
return ( * a ) [ len ( address_prefix ) ] & 0x80 == 0
2017-12-29 04:16:20 +00:00
}
func ( s * subnet ) isValid ( ) bool {
2018-01-04 22:37:51 +00:00
for idx := range address_prefix {
if ( * s ) [ idx ] != address_prefix [ idx ] {
return false
}
}
return ( * s ) [ len ( address_prefix ) ] & 0x80 != 0
2017-12-29 04:16:20 +00:00
}
func address_addrForNodeID ( nid * NodeID ) * address {
2018-01-04 22:37:51 +00:00
// 128 bit address
// Begins with prefix
// Next bit is a 0
// Next 7 bits, interpreted as a uint, are # of leading 1s in the NodeID
// Leading 1s and first leading 0 of the NodeID are truncated off
// The rest is appended to the IPv6 address (truncated to 128 bits total)
var addr address
var temp [ ] byte
done := false
ones := byte ( 0 )
bits := byte ( 0 )
nBits := 0
for idx := 0 ; idx < 8 * len ( nid ) ; idx ++ {
bit := ( nid [ idx / 8 ] & ( 0x80 >> byte ( idx % 8 ) ) ) >> byte ( 7 - ( idx % 8 ) )
if ! done && bit != 0 {
ones ++
continue
}
if ! done && bit == 0 {
done = true
2018-01-26 23:30:51 +00:00
continue // FIXME? this assumes that ones <= 127, probably only worth changing by using a variable length uint64, but that would require changes to the addressing scheme, and I'm not sure ones > 127 is realistic
2018-01-04 22:37:51 +00:00
}
bits = ( bits << 1 ) | bit
nBits ++
if nBits == 8 {
nBits = 0
temp = append ( temp , bits )
}
}
copy ( addr [ : ] , address_prefix [ : ] )
addr [ len ( address_prefix ) ] = ones & 0x7f
copy ( addr [ len ( address_prefix ) + 1 : ] , temp )
return & addr
2017-12-29 04:16:20 +00:00
}
func address_subnetForNodeID ( nid * NodeID ) * subnet {
2018-01-04 22:37:51 +00:00
// Exactly as the address version, with two exceptions:
// 1) The first bit after the fixed prefix is a 1 instead of a 0
// 2) It's truncated to a subnet prefix length instead of 128 bits
addr := * address_addrForNodeID ( nid )
var snet subnet
copy ( snet [ : ] , addr [ : ] )
snet [ len ( address_prefix ) ] |= 0x80
return & snet
2017-12-29 04:16:20 +00:00
}
func ( a * address ) getNodeIDandMask ( ) ( * NodeID , * NodeID ) {
2018-01-04 22:37:51 +00:00
// Mask is a bitmask to mark the bits visible from the address
// This means truncated leading 1s, first leading 0, and visible part of addr
var nid NodeID
var mask NodeID
ones := int ( a [ len ( address_prefix ) ] & 0x7f )
for idx := 0 ; idx < ones ; idx ++ {
nid [ idx / 8 ] |= 0x80 >> byte ( idx % 8 )
}
nidOffset := ones + 1
addrOffset := 8 * len ( address_prefix ) + 8
for idx := addrOffset ; idx < 8 * len ( a ) ; idx ++ {
bits := a [ idx / 8 ] & ( 0x80 >> byte ( idx % 8 ) )
bits <<= byte ( idx % 8 )
nidIdx := nidOffset + ( idx - addrOffset )
bits >>= byte ( nidIdx % 8 )
nid [ nidIdx / 8 ] |= bits
}
maxMask := 8 * ( len ( a ) - len ( address_prefix ) - 1 ) + ones + 1
for idx := 0 ; idx < maxMask ; idx ++ {
mask [ idx / 8 ] |= 0x80 >> byte ( idx % 8 )
}
return & nid , & mask
2017-12-29 04:16:20 +00:00
}
func ( s * subnet ) getNodeIDandMask ( ) ( * NodeID , * NodeID ) {
2018-01-21 18:55:45 +00:00
// As with the address version, but visible parts of the subnet prefix instead
2018-01-04 22:37:51 +00:00
var nid NodeID
var mask NodeID
ones := int ( s [ len ( address_prefix ) ] & 0x7f )
for idx := 0 ; idx < ones ; idx ++ {
nid [ idx / 8 ] |= 0x80 >> byte ( idx % 8 )
}
nidOffset := ones + 1
addrOffset := 8 * len ( address_prefix ) + 8
for idx := addrOffset ; idx < 8 * len ( s ) ; idx ++ {
bits := s [ idx / 8 ] & ( 0x80 >> byte ( idx % 8 ) )
bits <<= byte ( idx % 8 )
nidIdx := nidOffset + ( idx - addrOffset )
bits >>= byte ( nidIdx % 8 )
nid [ nidIdx / 8 ] |= bits
}
maxMask := 8 * ( len ( s ) - len ( address_prefix ) - 1 ) + ones + 1
for idx := 0 ; idx < maxMask ; idx ++ {
mask [ idx / 8 ] |= 0x80 >> byte ( idx % 8 )
}
return & nid , & mask
2017-12-29 04:16:20 +00:00
}