nano.tcl at [c754eba9a7]

File nano.tcl artifact 98726f21ea part of check-in c754eba9a7


#! /usr/bin/env tclsh

package require Tcl 8.6.4

package require json
package require json::write

namespace eval ::nano {}
namespace eval ::nano::address {}
namespace eval ::nano::key {}
namespace eval ::nano::block {}
namespace eval ::nano::block::json {}
namespace eval ::nano::block::dict {}
namespace eval ::nano::block::create {}
namespace eval ::nano::work {}
namespace eval ::nano::account {}
namespace eval ::nano::node {}
namespace eval ::nano::ledger {}
namespace eval ::nano::ledger::lmdb {}
namespace eval ::nano::rpc {}
namespace eval ::nano::rpc::client {}
namespace eval ::nano::balance {}
namespace eval ::nano::node::server {}
namespace eval ::nano::node::bootstrap {}
namespace eval ::nano::node::realtime {}
namespace eval ::nano::network::client {}
namespace eval ::nano::network::server {}
namespace eval ::nano::network::_dns {}

# Constants
set ::nano::block::stateBlockPreamble [binary decode hex "0000000000000000000000000000000000000000000000000000000000000006"]
set ::nano::block::zero "0000000000000000000000000000000000000000000000000000000000000000"
set ::nano::address::zero $::nano::block::zero
set ::nano::address::base32alphabet {13456789abcdefghijkmnopqrstuwxyz}
set ::nano::network::messageTypes {
	"invalid"
	"not_a_type"
	"keepalive"
	"publish"
	"confirm_req"
	"confirm_ack"
	"bulk_pull"
	"bulk_push"
	"frontier_req"
	"bulk_pull_blocks"
	"node_id_handshake"
	"bulk_pull_account"
}
set ::nano::balance::_conversion {
	GNano 1000000000000000000000000000000000000000
	MNano 1000000000000000000000000000000000000
	Gnano 1000000000000000000000000000000000
	Gxrb  1000000000000000000000000000000000
	KNano 1000000000000000000000000000000000
	Nano  1000000000000000000000000000000
	_USER 1000000000000000000000000000000
	NANO  1000000000000000000000000000000
	Mnano 1000000000000000000000000000000
	Mxrb  1000000000000000000000000000000
	Mrai  1000000000000000000000000000000
	knano 1000000000000000000000000000
	kxrb  1000000000000000000000000000
	mNano 1000000000000000000000000000
	nano  1000000000000000000000000
	xrb   1000000000000000000000000
	uNano 1000000000000000000000000
	mnano 1000000000000000000000
	mxrb  1000000000000000000000
	unano 1000000000000000000
	uxrb  1000000000000000000
	Traw  1000000000000
	Graw  1000000000
	Mraw  1000000
	Kraw  1000
	raw   1
}

# Address management functions
proc ::nano::address::toPublicKey {address args} {
	set performChecksumCheck false
	set outputFormat "bytes"
	foreach arg $args {
		switch -exact -- $arg {
			"-verify" {
				set performChecksumCheck true
			}
			"-no-verify" {
				set performChecksumCheck false
			}
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	switch -glob -- $address {
		"xrb_*" - "nano_*" {}
		default {
			return -code error "Invalid address (format, header)"
		}
	}

	set address [join [lrange [split $address _] 1 end] _]
	set address [split $address ""]
	if {[llength $address] != 60} {
		return -code error "Invalid address (length)"
	}

	set alphabet [split $::nano::address::base32alphabet ""]
	set result 0
	foreach byte $address {
		set fiveBits [lsearch -exact $alphabet $byte]
		if {$fiveBits < 0} {
			return -code error "Invalid address (format, alphabet)"
		}

		set result [expr {($result << 5) | $fiveBits}]
	}

	set checksum [expr {$result & 0xffffffffff}]
	set result   [expr {$result >> 40}]
	set result   [format %064llX $result]

	if {$performChecksumCheck} {
		set resultBinary [binary decode hex $result]
		set checksumVerify [binary encode hex [string reverse [::nano::internal::hashData $resultBinary 5]]]
		set checksumVerify [expr "0x$checksumVerify"]

		if {$checksum != $checksumVerify} {
			return -code error "Invalid address (checksum)"
		}
	}

	if {$outputFormat eq "bytes"} {
		if {![info exists resultBinary]} {
			set resultBinary [binary decode hex $result]
		}

		set result $resultBinary
	}

	return $result
}

proc ::nano::address::fromPublicKey {publicKey args} {
	set addressPrefix "nano_"
	foreach arg $args {
		switch -exact -- $arg {
			"-xrb" {
				set addressPrefix "xrb_"
			}
			"-nano" {
				set addressPrefix "nano_"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	if {[string length $publicKey] != $::nano::key::publicKeyLength} {
		set publicKey [binary decode hex $publicKey]
	}

	set checksum [string reverse [::nano::internal::hashData $publicKey 5]]
	append publicKey $checksum

	set publicKey [binary encode hex $publicKey]
	set publicKey [expr "0x$publicKey"]
	set alphabet [split $::nano::address::base32alphabet ""]
	set address ""
	for {set index 0} {$index < 60} {incr index} {
		set fiveBits [expr {$publicKey & 0x1F}]
		set publicKey [expr {$publicKey >> 5}]
		set byte [lindex $alphabet $fiveBits]
		append address $byte
	}
	set address [string reverse $address]
	set address "${addressPrefix}${address}"

	return $address
}

proc ::nano::address::fromPrivateKey {privateKey args} {
	set pubKey [::nano::key::publicKeyFromPrivateKey $privateKey]
	tailcall ::nano::address::fromPublicKey $pubKey {*}$args
}

# Key management functions
proc ::nano::key::newSeed {args} {
	set outputFormat "bytes"
	foreach arg $args {
		switch -exact -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set retval [::nano::internal::generateSeed]

	if {$outputFormat eq "hex"} {
		set retval [binary encode hex $retval]
	}

	return $retval
}

proc ::nano::key::newKey {args} {
	set outputFormat "bytes"
	foreach arg $args {
		switch -exact -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set retval [::nano::internal::generateKey]

	if {$outputFormat eq "hex"} {
		set retval [binary encode hex $retval]
	}

	return $retval
}

proc ::nano::key::fromSeed {seed args} {
	set index 0
	set outputFormat "bytes"
	if {[llength $args] > 0} {
		if {[string index [lindex $args 0] 0] ne "-"} {
			set index [lindex $args 0]
			set args [lrange $args 1 end]
		}

		foreach arg $args {
			switch -exact -- $arg {
				"-hex" {
					set outputFormat "hex"
				}
				"-binary" {
					set outputFormat "bytes"
				}
				default {
					return -code error "Invalid option: $arg"
				}
			}
		}
	}
	if {[string length $seed] != $::nano::key::seedLength} {
		set seed [binary decode hex $seed]
	}

	set key [::nano::internal::generateKey $seed $index]
	if {$outputFormat eq "hex"} {
		set key [binary encode hex $key]
	}

	return $key
}

proc ::nano::key::publicKeyFromPrivateKey {privateKey args} {
	set outputFormat "bytes"
	foreach arg $args {
		switch -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	if {[string length $privateKey] != $::nano::key::privateKeyLength} {
		set privateKey [binary decode hex $privateKey]
	}

	set pubKey [::nano::internal::publicKey $privateKey]
	if {$outputFormat eq "hex"} {
		set pubKey [string toupper [binary encode hex $pubKey]]
	}

	return $pubKey
}

# Low-level block management
proc ::nano::block::dict::toBlock {blockDict} {
	array set block $blockDict

	switch -- $block(type) {
		"state" {
			append blockData $::nano::block::stateBlockPreamble
			append blockData [::nano::address::toPublicKey $block(account)]
			append blockData [binary decode hex $block(previous)]
			append blockData [::nano::address::toPublicKey $block(representative)]
			append blockData [binary decode hex [format %032llX $block(balance)]]
			if {![info exists block(link)] && [info exists block(link_as_account)]} {
				append blockData [::nano::address::toPublicKey $block(link_as_account)]
			} else {
				append blockData [binary decode hex $block(link)]
			}
		}
		"open" {
			append blockData [binary decode hex $block(source)]
			append blockData [::nano::address::toPublicKey $block(representative)]
			append blockData [::nano::address::toPublicKey $block(account)]
		}
		"send" {
			append blockData [binary decode hex $block(previous)]
			append blockData [::nano::address::toPublicKey $block(destination)]
			append blockData [binary decode hex [format %032llX $block(balance)]]
		}
		"receive" {
			append blockData [binary decode hex $block(previous)]
			append blockData [binary decode hex $block(source)]
		}
		"change" {
			append blockData [binary decode hex $block(previous)]
			append blockData [::nano::address::toPublicKey $block(representative)]
		}
		default {
			return -code error "Invalid block type $block(type)"
		}
	}

	return $blockData
}

proc ::nano::block::json::toBlock {blockJSON} {
	set blockDict [::nano::block::dict::fromJSON $blockJSON]
	tailcall ::nano::block::dict::toBlock $blockDict
}

proc ::nano::block::dict::fromJSON {blockJSON} {
	set retval [::json::json2dict $blockJSON]

	if {[dict get $retval "type"] eq "send"} {
		set balance [dict get $retval "balance"]
		set balance [format %lli "0x$balance"]
		dict set retval "balance" $balance
	}

	# Parse out the work data
	if {[dict get $retval "type"] in {send receive change state}} {
		set workDataBasedOn "previous"
	}

	if {[dict get $retval "type"] eq "state" && [dict get $retval "previous"] eq $::nano::block::zero && [dict get $retval "link"] eq $::nano::block::zero} {
		set workDataBasedOn "account"
	}

	if {[dict get $retval "type"] eq "open"} {
		set workDataBasedOn "account"
	}

	if {[info exists workDataBasedOn]} {
		if {$workDataBasedOn eq "previous"} {
			dict set retval "_workData" [dict get $retval "previous"]
		} else {
			dict set retval "_workData" [::nano::address::toPublicKey [dict get $retval "account"]]
		}
	}

	return $retval
}

proc ::nano::block::json::fromDict {blockDict} {
	array set block $blockDict

	if {$block(type) eq "state"} {
		if {![info exists block(link)]} {
			set block(link) [::nano::address::toPublicKey $block(link_as_account) -hex]
		}

		if {![info exists block(link_as_address)]} {
			set addressFormatFlag "-nano"
			foreach field {account destination representative} {
				if {![info exists block($field)]} {
					continue
				}
				if {[string match "nano_*" $block($field)]} {
					set addressFormatFlag "-nano"
				} else {
					set addressFormatFlag "-xrb"
				}

				break
			}

			set block(link_as_account) [::nano::address::fromPublicKey $block(link) $addressFormatFlag]
		}
	}

	set blockJSONFields {
		type account source destination previous representative balance
		link link_as_account _blockHash _workData work signature _comment
	}

	set blockJSONEntries [lmap field $blockJSONFields {
		if {![info exists block($field)]} {
			continue
		}

		switch -exact -- $field {
			"source" - "previous" - "link" - "_blockHash" - "_workData" {
				if {[string length $block($field)] == $::nano::block::hashLength} {
					set block($field) [binary encode hex $block($field)]
				}

				set block($field) [string toupper $block($field)]
			}
			"signature" {
				if {[string length $block($field)] == $::nano::block::signatureLength} {
					set block($field) [binary encode hex $block($field)]
				}

				set block($field) [string toupper $block($field)]
			}
			"work" {
				if {[string length $block($field)] == $::nano::work::workValueLength} {
					set block($field) [binary encode hex $block($field)]
				}

				set block($field) [string tolower $block($field)]
			}
			"balance" {
				if {$block(type) in {send receive change open}} {
					set balanceFormatStr %032llx
				} else {
					set balanceFormatStr %lli
				}
				set block($field) [string toupper [format $balanceFormatStr "$block($field)"]]
			}
		}

		return -level 0 [list $field [json::write string $block($field)]]
	}]
	set blockJSONEntries [join $blockJSONEntries]

	set blockJSON [json::write object {*}$blockJSONEntries]

	return $blockJSON
}

proc ::nano::block::dict::fromBlock {blockData args} {
	set block(type) ""
	set addressPrefix "nano_"
	foreach arg $args {
		switch -glob -- $arg {
			"-type=*" {
				set block(type) [lindex [split $arg =] 1]
			}
			"-signKey=*" {
				set block(signKey) [string range $arg 9 end]
			}
			"-xrb" {
				set addressPrefix "xrb_"
			}
			"-nano" {
				set addressPrefix "nano_"
			}
			default {
			}
		}
	}

	if {$block(type) eq ""} {
		switch -- [string length $blockData] {
			176 { set block(type) state   }
			96  { set block(type) open    }
			80  { set block(type) send    }
			default {
				return -code error "Unable to parse block, must specify type"
			}
		}
	}

	set addArgs_fromPublicKey [list]
	if {$addressPrefix eq "xrb_"} {
		lappend addArgs_fromPublicKey "-xrb"
	}

	switch -- $block(type) {
		"state" {
			binary scan $blockData a32a32H64a32H32H64 \
				block(header) \
				block(account) \
				block(previous) \
				block(representative) \
				block(balance) \
				block(link)

			if {$block(header) ne $::nano::block::stateBlockPreamble} {
				return -code error "Invalid block"
			}
		}
		"open" {
			binary scan $blockData H64a32a32 \
				block(source) \
				block(representative) \
				block(account)

			set block(_workData) $block(account)
		}
		"send" {
			binary scan $blockData H64a32H32 \
				block(previous) \
				block(destination) \
				block(balance)

			set block(_workData) $block(previous)
		}
		"receive" {
			binary scan $blockData H64H64 \
				block(previous) \
				block(source)

			set block(_workData) $block(previous)
		}
		"change" {
			binary scan $blockData H64a32 \
				block(previous) \
				block(representative)

			set block(_workData) $block(previous)
		}
		default {
			return -code error "Invalid block type: $block(type)"
		}
	}

	foreach field {account representative link_as_account destination balance} {
		if {![info exists block($field)]} {
			continue
		}

		switch -exact -- $field {
			"account" - "representative" - "link_as_account" - "destination" {
				set block($field) [::nano::address::fromPublicKey $block($field) {*}$addArgs_fromPublicKey]
			}
			"balance" {
				set block($field) [format %lli "0x$block($field)"]
			}
		}
	}

	set block(_blockData) $blockData

	return [array get block]
}

proc ::nano::block::json::fromBlock {blockData args} {
	set blockDict [::nano::block::dict::fromBlock $blockData {*}$args]

	set blockJSON [::nano::block::json::fromDict $blockDict]

	return $blockJSON
}

proc ::nano::block::hash {blockData args} {
	set outputFormat "bytes"
	foreach arg $args {
		switch -exact -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set hash [::nano::internal::hashData $blockData $::nano::block::hashLength]

	if {$outputFormat eq "hex"} {
		set hash [string toupper [binary encode hex $hash]]
	}

	return $hash
}

proc ::nano::block::signBlockHash {blockHash privateKey args} {
	set outputFormat "bytes"
	foreach arg $args {
		switch -exact -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	if {[string length $blockHash] != $::nano::block::hashLength} {
		set blockHash [binary decode hex $blockHash]
	}

	if {[string length $privateKey] != $::nano::key::privateKeyLength} {
		set privateKey [binary decode hex $privateKey]
	}

	set signature [::nano::internal::signDetached $blockHash $privateKey]

	if {$outputFormat eq "hex"} {
		set signature [string toupper [binary encode hex $signature]]
	}

	return $signature
}

proc ::nano::block::sign {blockData args} {
	set blockHash [::nano::block::hash $blockData]

	tailcall ::nano::block::signBlockHash $blockHash {*}$args
}

proc ::nano::block::verifyBlockHash {blockHash signature publicKey} {
	if {[string length $blockHash] != $::nano::block::hashLength} {
		set blockHash [binary decode hex $blockHash]
	}

	if {[string length $signature] != $::nano::block::signatureLength} {
		set signature [binary decode hex $signature]
	}

	if {[string length $publicKey] != $::nano::key::publicKeyLength} {
		set publicKey [binary decode hex $publicKey]
	}

	set valid [::nano::internal::verifyDetached $blockHash $signature $publicKey]

	return $valid
}

proc ::nano::block::verifyBlock {blockData args} {
	set blockHash [::nano::block::hash $blockData]

	tailcall ::nano::block::verifyBlockHash $blockHash {*}$args
}

proc ::nano::block::dict::_addBlockData {blockDict} {
	if {[dict exists $blockDict _blockData]} {
		return $blockDict
	}

	set blockData [::nano::block::dict::toBlock $blockDict]

	dict set blockDict _blockData $blockData

	return $blockDict
}

proc ::nano::block::dict::_addBlockHash {blockDict} {
	if {[dict exists $blockDict _blockHash]} {
		return $blockDict
	}

	set blockDict [_addBlockData $blockDict]
	set blockData [dict get $blockDict _blockData]

	set blockHash [::nano::block::hash $blockData -binary]

	dict set blockDict _blockHash $blockHash

	return $blockDict
}

proc ::nano::block::dict::sign {blockDict privateKey args} {
	set outputMode "signature"
	set outputFormat "bytes"
	foreach arg $args {
		switch -- $arg {
			"-update" {
				set outputMode "update"
			}
			"-signature" {
				set outputMode "signature"
			}
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set blockDict [_addBlockHash $blockDict]

	set blockHash [dict get $blockDict _blockHash]

	set signature [::nano::block::signBlockHash $blockHash $privateKey -binary]

	if {$outputMode eq "signature"} {
		if {$outputFormat eq "hex"} {
			set signature [binary encode hex $signature]
		}

		return $signature
	}

	dict set blockDict signature $signature

	return $blockDict
}

proc ::nano::block::json::sign {blockJSON privateKey args} {
	set outputMode "signature"
	foreach arg $args {
		switch -- $arg {
			"-update" {
				set outputMode "update"
			}
			"-signature" {
				set outputMode "signature"
			}
			"-hex" - "-binary" {}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set blockDict [::nano::block::dict::fromJSON $blockJSON]

	set retval [::nano::block::dict::sign $blockDict $privateKey {*}$args]

	if {$outputMode eq "signature"} {
		return $retval
	}

	set retval [::nano::block::json::fromDict $retval]

	return $retval
}

proc ::nano::block::dict::verifySignature {blockDict} {
	set publicKey [::nano::address::toPublicKey [dict get $blockDict account]]
	set signature [dict get $blockDict signature]

	set blockDict [_addBlockHash $blockDict]

	set blockHash [dict get $blockDict _blockHash]

	tailcall ::nano::block::verifyBlockHash $blockHash $signature $publicKey
}

proc ::nano::block::json::verifySignature {blockJSON} {
	set blockDict [::nano::block::dict::fromJSON $blockJSON]

	tailcall ::nano::block::dict::verifySignature $blockDict
}

proc ::nano::block::dict::work {blockDict args} {
	set outputMode "work"
	set outputFormat "hex"
	foreach arg $args {
		switch -- $arg {
			"-update" {
				set outputMode "update"
			}
			"-work" {
				set outputMode "work"
			}
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set blockDict [_addBlockHash $blockDict]

	set blockHash [dict get $blockDict _workData]

	set work [::nano::work::fromWorkData $blockHash -binary]

	if {$outputMode eq "work"} {
		if {$outputFormat eq "hex"} {
			set work [binary encode hex $work]
		}

		return $work
	}

	dict set blockDict work $work

	return $blockDict
}

proc ::nano::block::json::work {blockJSON args} {
	set outputMode "work"
	foreach arg $args {
		switch -- $arg {
			"-update" {
				set outputMode "update"
			}
			"-work" {
				set outputMode "work"
			}
			"-hex" - "-binary" {}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	set blockDict [::nano::block::dict::fromJSON $blockJSON]

	set retval [::nano::block::dict::work $blockDict {*}$args]

	if {$outputMode eq "work"} {
		return $retval
	}

	set retval [::nano::block::json::fromDict $retval]

	return $retval
}

proc ::nano::block::dict::validateWork {blockDict} {
	set blockDict [_addBlockHash $blockDict]

	set blockHash [dict get $blockDict _workData]
	set work      [dict get $blockDict work]

	tailcall ::nano::work::validate $blockHash $work
}

proc ::nano::block::json::validateWork {blockJSON} {
	set blockDict [::nano::block::dict::fromJSON $blockJSON]

	tailcall ::nano::block::dict::validateWork $blockDict
}

proc ::nano::block::json::filter {blockJSON} {
	set blockDict [::nano::block::dict::fromJSON $blockJSON]
	set blockDict [dict filter $blockDict script {key _} {
		if {[string match "_*" $key]} {
			continue
		}

		return -level 0 true
	}]
	set blockJSON [::nano::block::json::fromDict $blockDict]
	return $blockJSON
}

#   send from <account> to <account> previousBalance <balance>
#        amount <amount> sourceBlock <sourceBlockHash>
#        previous <previousBlockHash> ?representative <representative>?
proc ::nano::block::create::send {args} {
	array set block $args
	if {![info exists block(representative)]} {
		set block(representative) $block(from)
	}

	set block(balance) [expr {$block(previousBalance) - $block(amount)}]

	set blockDict [dict create \
		"type" state \
		"account" $block(from) \
		"previous" $block(previous) \
		"representative" $block(representative) \
		"balance" $block(balance) \
		"link_as_account" $block(to) \
		"_workData" $block(previous) \
		"_comment" "Send $block(amount) raw from $block(from) to $block(to)" \
	]

	if {[info exists block(signKey)]} {
		set blockDict [::nano::block::dict::sign $blockDict $block(signKey) -update]
	}

	if {[info exists block(-json)] && $block(-json)} {
		return [::nano::block::json::fromDict $blockDict]
	}

	return $blockDict
}

# Usage:
#   receive to <account> previousBalance <balance> amount <amount>
#           sourceBlock <sourceBlockHash> ?previous <previousBlockHash>?
#           ?representative <representative>?
proc ::nano::block::create::receive {args} {
	array set block $args

	if {![info exists block(representative)]} {
		set block(representative) $block(to)
	}

	if {![info exists block(previous)]} {
		set block(previous) $::nano::block::zero
		set block(previousBalance) 0
		set block(_workData) [::nano::address::toPublicKey $block(to) -hex]
	} else {
		set block(_workData) $block(previous)
	}

	set block(balance) [expr {$block(previousBalance) + $block(amount)}]

	set blockDict [dict create \
		"type" state \
		"account" $block(to) \
		"previous" $block(previous) \
		"representative" $block(representative) \
		"balance" $block(balance) \
		"link" $block(sourceBlock) \
		"_workData" $block(_workData) \
		"_comment" "Receive $block(amount) raw on $block(to) from hash $block(sourceBlock)" \
	]

	if {[info exists block(signKey)]} {
		set blockDict [::nano::block::dict::sign $blockDict $block(signKey) -update]
	}

	if {[info exists block(-json)] && $block(-json)} {
		return [::nano::block::json::fromDict $blockDict]
	}

	return $blockDict
}

# Usage:
#   setRepresentative account <account> previous <previousBlockHash>
#                     representative <newRepresentative> balance <balance>
proc ::nano::block::create::setRepresentative {args} {
	array set block $args

	set block(link) $::nano::block::zero

	set blockDict [dict create \
		"type" state \
		"account" $block(account) \
		"previous" $block(previous) \
		"representative" $block(representative) \
		"balance" $block(balance) \
		"link" $block(link) \
		"_workData" $block(previous) \
	]

	if {[info exists block(signKey)]} {
		dict set blockDict signKey $block(signKey)
	}

	if {[info exists block(signKey)]} {
		set blockDict [::nano::block::dict::sign $blockDict $block(signKey) -update]
	}

	if {[info exists block(-json)] && $block(-json)} {
		return [::nano::block::json::fromDict $blockDict]
	}

	return $blockDict
}

# Work generation functions
proc ::nano::work::fromWorkData {blockHashOrPublicKey args} {
	set outputFormat "hex"
	foreach arg $args {
		switch -- $arg {
			"-hex" {
				set outputFormat "hex"
			}
			"-binary" {
				set outputFormat "bytes"
			}
			default {
				return -code error "Invalid option: $arg"
			}
		}
	}

	if {[string length $blockHashOrPublicKey] != $::nano::block::hashLength} {
		set blockHashOrPublicKey [binary decode hex $blockHashOrPublicKey]
	}

	set work [::nano::internal::generateWork $blockHashOrPublicKey]

	if {$outputFormat eq "hex"} {
		set work [binary encode hex $work]
		set work [string tolower $work]
	}

	return $work
}

proc ::nano::work::fromBlock {blockData} {
	set blockDict [::nano::block::dict::fromBlock $blockData]
	set workData  [dict get $blockDict _workData]

	tailcall ::nano::work::fromBlockhash $workData
}

proc ::nano::work::validate {workData work} {
	if {[string length $workData] != $::nano::block::hashLength} {
		set workData [binary decode hex $workData]
	}

	if {[string length $work] != $::nano::work::workValueLength} {
		set work [binary decode hex $work]
	}

	tailcall ::nano::internal::validateWork $workData $work
}

# High level account management
proc ::nano::account::setFrontier {account frontierHash balance representative} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]
	set ::nano::account::frontiers($accountPubKey) [dict create \
		frontierHash $frontierHash balance $balance representative $representative \
	]
}

proc ::nano::account::getFrontier {account args} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]
	if {![info exists ::nano::account::frontiers($accountPubKey)]} {
		set frontier [dict create balance 0]
	} else {
		set frontier $::nano::account::frontiers($accountPubKey)
	}

	return [dict get $frontier {*}$args]
}

proc ::nano::account::addPending {account blockHash amount} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]

	dict set ::nano::account::pending $accountPubKey $blockHash amount $amount
}

proc ::nano::account::getPending {account args} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]

	set retval [dict create]
	catch {
		set retval [dict get $::nano::account::pending $accountPubKey {*}$args]
	}

	return $retval
}

proc ::nano::account::clearPending {account args} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]

	catch {
		dict unset ::nano::account::pending $accountPubKey {*}$args
	}

	return
}

proc ::nano::account::receive {account blockHash signKey} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]

	set frontierInfo [getFrontier $account]
	dict with frontierInfo {}

	set blockInfo [getPending $account $blockHash]

	if {![info exists representative]} {
		set representative $account
	}

	set amount [dict get $blockInfo amount]
	set blockArgs [list to $account previousBalance $balance \
	                    amount $amount sourceBlock $blockHash \
	                    signKey $signKey representative $representative]

	if {[info exists frontierHash]} {
		lappend blockArgs previous $frontierHash
	}

	dict set blockArgs -json true

	set block [::nano::block::create::receive {*}$blockArgs]

	set newFrontierHash [dict get [json::json2dict $block] "_blockHash"]
	set balance [expr {$balance + $amount}]

	setFrontier $account $newFrontierHash $balance $representative
	clearPending $account $blockHash

	return $block
}

proc ::nano::account::send {fromAccount toAccount amount signKey} {
	set fromAccountPubKey [::nano::address::toPublicKey $fromAccount -hex]
	set toAccountPubKey   [::nano::address::toPublicKey $fromAccount -hex]

	set fromFrontierInfo [getFrontier $fromAccount]
	set toFrontierInfo [getFrontier $toAccount]

	set fromBalance [dict get $fromFrontierInfo balance]
	set fromFrontierHash [dict get $fromFrontierInfo frontierHash]
	set fromRepresentative [dict get $fromFrontierInfo representative]

	set signKey [binary encode hex $signKey]

	set block [::nano::block::create::send \
		from            $fromAccount \
		to              $toAccount \
		previous        $fromFrontierHash \
		previousBalance $fromBalance \
		amount          $amount \
		signKey         $signKey \
		-json           true
	]

	set newBalance [expr {$fromBalance - $amount}]
	set newFrontierHash [dict get [json::json2dict $block] "_blockHash"]

	setFrontier $fromAccount $newFrontierHash $newBalance $fromRepresentative
	addPending  $toAccount $newFrontierHash $amount

	return $block
}

proc ::nano::account::receiveAllPending {key {accountPubKey ""}} {
	set outBlocks [list]

	if {$accountPubKey eq ""} {
		set accountPubKey [::nano::key::publicKeyFromPrivateKey $key -hex]
	}

	set account [::nano::address::fromPublicKey $accountPubKey]

	set pendingBlocks [getPending $account]
	if {[llength $pendingBlocks] == 0} {
		return $outBlocks
	}

	set signKey [binary encode hex $key]

	foreach blockHash [dict keys $pendingBlocks] {
		lappend outBlocks [receive $account $blockHash $signKey]
	}

	return $outBlocks
}

proc ::nano::account::setRepresentative {account representative signKey} {
	set accountPubKey [::nano::address::toPublicKey $account -hex]

	set frontierInfo [getFrontier $account]
	dict with frontierInfo {}

	set blockArgs [list account $account \
	                    representative $representative \
	                    signKey $signKey \
	                    previous $frontierHash \
	]
	dict set blockArgs -json true

	set block [::nano::block::create::setRepresentative {*}$blockArgs]

	set newFrontierHash [dict get [json::json2dict $block] "_blockHash"]

	setFrontier $account $newFrontierHash $balance $representative

	return $block
}

# Ledger
proc ::nano::ledger::lmdb::init {configDict} {
	package require lmdb

	array set config $configDict

	if {[info exists config(configDirectory)]} {
		set config(file) [file join $config(configDirectory) $config(file)]
	}
	set config(file) [file normalize $config(file)]

	set envHandle [lmdb env]
	$envHandle set_maxdbs 32
	$envHandle set_mapsize 1099511627776
	$envHandle open -path $config(file) -nosubdir true -readonly false

	set lmdbInfo [dict create \
		envHandle     $envHandle \
	]

	set handle [list apply {{lmdbInfo proc args} {
		tailcall ::nano::ledger::lmdb::$proc $lmdbInfo {*}$args
	}} $lmdbInfo]

	return $handle
}

proc ::nano::ledger::lmdb::_transaction {lmdbInfo table cursorVar code} {
	set table [split $table /]
	set readOnly true
	foreach arg [lrange $table 1 end] {
		switch -- $arg {
			"write" {
				set readOnly false
			}
			"read" {
				set readOnly true
			}
		}
	}
	set table [lindex $table 0]

	set envHandle [dict get $lmdbInfo envHandle]
	set dbHandle [lmdb open -env $envHandle -name $table]
	set sessionHandle [$envHandle txn -readonly $readOnly]
	set cursor [$dbHandle cursor -txn $sessionHandle]

	uplevel 1 [list set $cursorVar $cursor]
	set retcode [catch {uplevel 1 $code} retval options]

	$cursor close
	if {$retcode == 0} {
		$sessionHandle commit
	} else {
		if {$readOnly} {
			$sessionHandle reset
		} else {
			$sessionHandle abort
		}
	}
	$sessionHandle close
	$dbHandle close -env $envHandle

	if {$retcode == 0} {
		return $retval
	}

	return {*}$options $retval
}

proc ::nano::ledger::lmdb::_foreach {lmdbInfo table cursorVar keyVar valueVar args} {
	set code [lindex $args end]
	set args [lrange $args 0 end-1]

	if {[llength $args] == 0} {
		set initialize [list getBinary "-first"]
	} else {
		if {[lindex $args 0] eq "-set"} {
			set checkKeyEqual [lindex $args 1]
		}

		set initialize [list getBinary {*}$args]
	}
	set iterate [list getBinary "-next"]

	_transaction $lmdbInfo $table cursor {
		if {$cursorVar ne ""} {
			uplevel 1 [list set $cursorVar $cursor]
		}

		for {
			if {[catch {
				set work [$cursor {*}$initialize]
			} err]} {
				if {[string match "ERROR: MDB_NOTFOUND: *" $err]} {
					return
				}

				return -code error $err
			}
		} true {
			if {[catch {
				set work [$cursor {*}$iterate]
			} err]} {
				if {[string match "ERROR: MDB_NOTFOUND: *" $err]} {
					break
				}

				return -code error $err
			}
		} {
			unset -nocomplain key

			if {[info exists checkKeyEqual]} {
				set key [lindex $work 0]
				if {$key ne $checkKeyEqual} {
					break
				}
			}

			if {$keyVar ne ""} {
				if {![info exists key]} {
					set key [lindex $work 0]
				}
				uplevel 1 [list set $keyVar $key]
			}

			if {$valueVar ne ""} {
				set value [lindex $work 1]
				uplevel 1 [list set $valueVar $value]
			}

			catch {uplevel 1 $code} retval options

			switch -- [dict get $options "-code"] {
				4 - 0 {
					# TCL_CONTINUE or TCL_OK
					continue
				}
				1 {
					# TCL_ERROR, pass it on
					dict set options "-level" 1
					return {*}$options $retval
				}
				2 {
					# TCL_RETURN
					return -level 2 $retval
				}
				3 {
					# TCL_BREAK
					break
				}
			}
		}
	}

	return
}

# XXX:TODO: Track down why this speeds things up >10x
interp alias {} ::nano::ledger::lmdb::_magicSpeedup {} time

proc ::nano::ledger::lmdb::getPending {lmdbInfo args} {
	if {[llength $args] > 0} {
		set account [lindex $args 0]
		set accountPubKey [::nano::address::toPublicKey $account -binary]
		append searchKey $accountPubKey

		set args [lrange $args 1 end]
	}

	if {[llength $args] > 0} {
		set blockHash [lindex $args 0]
		if {[string length $blockHash] != $::nano::block::hashLength} {
			set blockHash [binary decode hex $blockHash]

			append searchKey $blockHash
		}

		set args [lrange $args 1 end]
	}

	set retval [list]

	if {[info exists searchKey]} {
		set searchKey [list "-set_range" $searchKey]
	} else {
		set searchKey [list]
	}

	_foreach $lmdbInfo "pending" cursor key value {*}$searchKey {
		set keyAccountPubKey [string range $key 0 31]
		if {[info exists accountPubKey] && $keyAccountPubKey ne $accountPubKey} {
			break
		}

		set keyBlockHash [string range $key 32 63]
		if {[info exists blockHash] && $keyBlockHash ne $blockHash} {
			break
		}

		set from [string range $value 0 31]
		set amount [string range $value 32 47]

		set itemDict [dict create \
			amount [format "%lli" 0x[binary encode hex $amount]] \
			from   [::nano::address::fromPublicKey $from] \
		]

		if {[info exists blockHash]} {
			set retval $itemDict

			break
		}

		set keyBlockHashHex [string toupper [binary encode hex $keyBlockHash]]

		if {[info exists accountPubKey]} {
			_magicSpeedup {
				dict set retval $keyBlockHashHex [set itemDict]
			}
		} else {
			set keyAccountPubKeyHex [string toupper [binary encode hex $keyAccountPubKey]]

			_magicSpeedup {
				dict set retval $keyAccountPubKeyHex $keyBlockHashHex $itemDict
			}
		}
	}

	if {[info exists blockHash] && [llength $args] > 0} {
		set retval [dict get $retval {*}$args]
	}

	return $retval
}

proc ::nano::ledger::lmdb::clearPending {lmdbInfo account args} {
	set accountPubKey [::nano::address::toPublicKey $account -binary]

	if {[llength $args] > 1} {
		return -code error "wrong # args: clearPending <lmdbInfo> <account> ?<blockHash>?"
	}

	if {[llength $args] == 1} {
		set blockHash [lindex $args 0]
		if {[string length $blockHash] != $::nano::block::hashLength} {
			set blockHash [binary decode hex $blockHash]
		}
		set searchKey "${accountPubKey}${blockHash}"

		set numberOfRowsDeleted 0

		_foreach $lmdbInfo "pending/write" cursor "" "" -set $searchKey {
			$cursor del

			incr numberOfRowsDeleted
		}

		return $numberOfRowsDeleted
	}

	set numberOfRowsDeleted 0
	set blockHashDict [getPending $lmdbInfo $account]
	foreach blockHash [dict keys $blockHashDict] {
		incr numberOfRowsDeleted [clearPending $lmdbInfo $account $blockHash]
	}

	return $numberOfRowsDeleted
}

proc ::nano::ledger::lmdb::addPending {lmdbInfo account blockHash args} {
	set accountPubKey [::nano::address::toPublicKey $account -binary]

	if {[string length $blockHash] != $::nano::block::hashLength} {
		set blockHash [binary decode hex $blockHash]
	}

	set lmdbKey "${accountPubKey}${blockHash}"
	set fromHex [::nano::address::toPublicKey [dict get $args from] -hex]
	set amountHex [format %032llx [dict get $args amount]]
	set lmdbData [binary format H64H32 $fromHex $amountHex]

	set keyExists false
	_foreach $lmdbInfo "pending" "" "" "" -set $lmdbKey {
		set keyExists true
	}

	if {!$keyExists} {
		_transaction $lmdbInfo "pending/write" cursor {
			$cursor putBinary $lmdbKey $lmdbData
		}
	}

	return
}

# Node Configuration
proc ::nano::node::_configDictToJSON {configDict {prefix ""}} {
	set values [list]
	foreach key [dict keys $configDict] {
		set value [dict get $configDict $key]
		switch -- ${prefix}${key} {
			"rpc" - "node" - "opencl" - "node/logging" - "node/database" {
				set value [_configDictToJSON $value "$key/"]
			}
			"node/preconfigured_peers" - "node/preconfigured_representatives" - "node/work_peers" {
				set value [json::write array {*}[lmap item $value {
					json::write string $item
				}]]
			}
			default {
				set value [json::write string $value]
			}
		}

		lappend values $key $value
	}

	set json [json::write object {*}$values]

	return $json
}

proc ::nano::node::_defaultConfig {basis network} {
	# XXX:TODO: Finish setting up the defaults
	set default_topLevel [dict create \
		"version"        2 \
		"rpc_enable"     false \
	]

	catch {
		set basis_rpc [dict create]
		set basis_rpc [dict get $basis "rpc"]
	}
	set default_rpc [dict create \
		"address"        "::ffff:127.0.0.1" \
		"port"           7076 \
	]

	catch {
		set basis_node [dict create]
		set basis_node [dict get $basis "node"]
	}
	set default_node [dict create \
		"client_id"     [binary encode hex [::nano::internal::randomBytes 32]]
	]

	catch {
		set basis_node_database [dict create]
		set basis_node_database [dict get $basis "node" "database"]
	}
	set default_node_database [dict create \
		"backend"        "lmdb" \
		"file"           "data.ldb" \
	]

	set basis [dict merge $default_topLevel $basis]
	set basis_rpc [dict merge $default_rpc $basis_rpc]
	set basis_node [dict merge $default_node $basis_node]
	set basis_node_database [dict merge $default_node_database $basis_node_database]

	dict set basis rpc $basis_rpc
	dict set basis node $basis_node
	dict set basis node database $basis_node_database

	return $basis
}

# Side-effect:  Sets ::nano::node::configuration
proc ::nano::node::_loadConfigFile {file network} {
	set json "{}"
	catch {
		set fd [open $file]
		set json [read $fd]
	}
	catch {
		close $fd
	}

	set configuration [::json::json2dict $json]

	set configuration [_defaultConfig $configuration $network]

	set ::nano::node::configuration $configuration

	return $::nano::node::configuration
}

proc ::nano::node::_saveConfigFile {file args} {
	if {[llength $args] == 0} {
		set configDict $::nano::node::configuration
	} elseif {[llength $args] == 1} {
		set configDict [lindex $args 0]
	} else {
		return -code error "wrong # args: _saveConfigFile <file> ?<configDict>?"
	}

	set json [_configDictToJSON $configDict]
	set tmpfile "${file}.new"
	set fd [open "${tmpfile}" "w"]
	puts $fd $json
	close $fd
	file rename -force -- "${tmpfile}" "${file}"

	return true
}

proc ::nano::node::setLedgerHandle {handle} {
	set procs {
		getPending
		clearPending
		addPending
	}

	namespace eval ::nano::node::ledger {}

	foreach proc $procs {
		proc ::nano::node::ledger::$proc args [concat [list tailcall {*}$handle $proc] {{*}$args}]
	}
}

proc ::nano::node::configure {network args} {
	# Set default options
	## XXX:TODO: Handle other networks
	if {$network ne "main"} {
		return -code error "Only main network is supported right now"
	}
	set info(-configDirectory) [file normalize ~/RaiBlocks]

	# Parse options to the configure
	array set info $args

	# Load configuration file
	set configFile [file join $info(-configDirectory) "config.json"]

	_loadConfigFile $configFile $network

	# Determine database backend and access information
	set database_config  [dict get $::nano::node::configuration "node" "database"]
	set database_backend [dict get $database_config "backend"]
	if {![dict exists $database_config "configDirectory"]} {
		dict set database_config "configDirectory" $info(-configDirectory)
	}

#	set dbHandle [::nano::ledger::${database_backend}::init $database_config]
#	::nano::node::setLedgerHandle $dbHandle
}

proc ::nano::node::log {message {level "debug"}} {
	set linePrefix ""
	foreach line [split $message "\n"] {
		puts stderr [format {%-40s %10s [%5s] %s} [::info coroutine] [clock seconds] $level ${linePrefix}$line]
		set linePrefix "    "
	}
}

proc ::nano::network::client::bulk_pull {account {end ""}} {
	set accountPubKey [::nano::address::toPublicKey $account -binary]

	if {$end ne ""} {
		if {[string length $end] != $::nano::block::hashLength} {
			set end [binary decode hex $end]
		}
	} else {
		set end [binary decode hex $::nano::block::zero]
	}

	return [binary format a32a32 \
		$accountPubKey \
		$end \
	]
}

proc ::nano::network::client::bulk_pull_account {account {minPending 0} {flags ""}} {
	set accountPubKey [::nano::address::toPublicKey $account -binary]
	set minPendingHex [format %032llx $minPending]

	if {[string length $minPendingHex] > 32} {
		return -code error "Invalid amount: $minPending"
	}

	set flagsInt 0
	foreach flagName $flags {
		unset -nocomplain flagValue

		switch -- $flagName {
			"pendingAddressOnly" {
				set flagValue 1
			}
			default {
				if {[string is integer -strict $flagName]} {
					set flagValue $flagName
				} else {
					return -code error "Invalid flag: $flagName"
				}
			}
		}

		set flagsInt [expr {$flagsInt | $flagValue}]
	}

	return [binary format a32H32c \
		$accountPubKey \
		$minPendingHex \
		$flagsInt \
	]
}

proc ::nano::network::client::bulk_pull_account_response {sock account {minPending 0} {flags ""}} {
	set frontierBlockhash [::nano::network::_recv $sock 32]
	set frontierBalance   [::nano::network::_recv $sock 16]

	set frontierBlockhash [binary encode hex $frontierBlockhash]
	set frontierBlockhash [string toupper $frontierBlockhash]

	set frontierBalance   [binary encode hex $frontierBalance]
	set frontierBalance 0x$frontierBalance
	set frontierBalance [expr {$frontierBalance}]

	set fullPendingInfo true
	if {[lsearch -exact $flags "pendingAddressOnly"] != -1} {
		# XXX:TODO: We support numeric flags in the generation
		# side but not here, should we ?
		set fullPendingInfo false
	}

	set pendingInfo [list]
	while true {
		if {$fullPendingInfo} {
			set pendingBlockhash [binary encode hex [::nano::network::_recv $sock 32]]
			set pendingAmount    [binary encode hex [::nano::network::_recv $sock 16]]

			if {$pendingBlockhash eq $::nano::block::zero} {
				break
			}

			set pendingBlockhash [string toupper $pendingBlockhash]
			set pendingAmount 0x$pendingAmount
			set pendingAmount [expr {$pendingAmount}]

			lappend pendingInfo [dict create \
				blockhash $pendingBlockhash \
				amount    $pendingAmount \
			]
		} else {
			set pendingFrom [binary encode hex [::nano::network::_recv $sock 32]]

			if {$pendingFrom eq $::nano::address::zero} {
				break
			}

			set pendingFrom [::nano::address::fromPublicKey $pendingFrom]

			lappend pendingInfo [dict create \
				from $pendingFrom \
			]
		}
	}

	set retval [dict create \
		frontier \
			[dict create \
				blockhash $frontierBlockhash \
				balance $frontierBalance \
			] \
		pending $pendingInfo \
	]

	return $retval
}

proc ::nano::network::client::frontier_req {{startAccount ""} {age ""} {count ""}} {
	if {$startAccount eq ""} {
		set accountPubKey [binary decode hex $::nano::address::zero]
	} else {
		set accountPubKey [::nano::address::toPublicKey $startAccount -binary]
	}

	if {$age eq ""} {
		set age [expr {2**32-1}]
	}

	if {$count eq ""} {
		set count [expr {2**32-1}]
	}

	return [binary format a32ii $accountPubKey $age $count]
}

proc ::nano::network::client::node_id_handshake {nodeID} {
	set nodeID [binary decode hex $nodeID]

	return $nodeID
}

proc ::nano::network::_localIP {version} {
	if {[info exists ::nano::network::_localIP($version)]} {
		return $::nano::network::_localIP($version)
	}

	## XXX:TODO: Work out a better system for determining ones own IP
	switch -exact -- $version {
		v4 {
			set url "http://ipv4.rkeene.org/whatismyip"
			set localIPPrefix "::ffff:"
		}
		v6 {
			set url "http://ipv6.rkeene.org/whatismyip"
			set localIPPrefix ""
		}
	}

	set localIP [exec curl -sS $url]
	if {$localIP eq ""} {
		return -code error "Unable to lookup local IP $version"
	}

	set localIP [string trim $localIP]
	set localIP "${localIPPrefix}${localIP}"

	set ::nano::network::_localIP($version) $localIP

	return $::nano::network::_localIP($version)
}

proc ::nano::network::client::keepalive {} {
	# Encode our local IP address in the packet
	set localIPs [list]
	foreach ipVersion {v4 v6} {
		unset -nocomplain localIP

		catch {
			set localIP [::nano::network::_localIP $ipVersion]
		}

		if {![info exists localIP]} {
			continue
		}

		lappend localIPs [binary decode hex [string map [list ":" ""] [::ip::normalize $localIP]]]
	}

	# Encode port as a 16-bit integer in network byte order (big endian)
	set localPort [dict get $::nano::node::configuration "node" "peering_port"]
	set localPort [binary format s $localPort]

	set retval ""
	while {[string length $retval] < 144} {
		foreach localIP $localIPs {
			append retval "${localIP}${localPort}"
		}
	}

	return [string range $retval 0 143]
}

proc ::nano::network::client {sock messageType args} {
	set versionUsing 12
	set versionMin 1
	set versionMax 12
	set extensions 0

	set messageType [string tolower $messageType]
	set messageTypeID [lsearch -exact $::nano::network::messageTypes $messageType]
	if {$messageTypeID == -1} {
		return -code error "Invalid message type: $messageType"
	}

	set blockType 0
	set extensions [expr {$extensions | (($blockType << 8) & 0x0f00)}]

	set message [binary format a2ccccS \
		RC \
		$versionMax \
		$versionUsing \
		$versionMin \
		$messageTypeID \
		$extensions \
	]

	append message [::nano::network::client::${messageType} {*}$args]

	::nano::node::log "Sending message [binary encode hex $message] to socket $sock"

	catch {
		if {[dict get $sock "type"] eq "realtime"} {
			set sockInfo $sock
			set sock [dict get $sock "socket"]
		}
	}

	if {[info exists sockInfo]} {
		fconfigure $sock -remote [dict get $sockInfo "remote"]
	}

	chan configure $sock -translation binary -encoding binary

	puts -nonewline $sock $message
	flush $sock

	set responseCommand ::nano::network::client::${messageType}_response
	set response ""
	if {[info command $responseCommand] ne ""} {
		set response [$responseCommand $sock {*}$args]
	}

	return $response
}

proc ::nano::node::bootstrap::peer {peer peerPort} {
	::nano::node::log "Connecting to ${peer}:${peerPort}"

	catch {
		set sock [::nano::network::_connect $peer $peerPort]
	} err
	if {![info exists sock]} {
		::nano::node::log "Failed to connect to ${peer} ${peerPort}: $::errorInfo"

		return
	}
	defer::defer close $sock

	::nano::node::log "Connected to $peer:$peerPort ;; sock = $sock"

	if {$::nano::node::bootstrap::frontier_req_running} {
		while true {
			if {[llength $::nano::node::bootstrap::frontiers_to_pull] == 0} {
				if {!$::nano::node::bootstrap::frontier_req_running} {
					break
				}

				::nano::node::_sleep 100 0

				continue
			}

			set accountInfo [lindex $::nano::node::bootstrap::frontiers_to_pull 0]
			set ::nano::node::bootstrap::frontiers_to_pull [lrange $::nano::node::bootstrap::frontiers_to_pull 1 end]

			set account [dict get $accountInfo "account"]

			::nano::node::log "Pulling $accountInfo"
			# XXX:TODO: Compare frontier, and supply our local one
			::nano::network::client $sock "bulk_pull" $account
			while true {
				::nano::network::_recv $sock 32
			}
		}
	} else {
		set ::nano::node::bootstrap::frontier_req_running true
		defer::defer set ::nano::node::bootstrap::frontier_req_running false

		::nano::node::log "Requesting frontiers"
		# XXX:TODO: Age?
		::nano::network::client $sock "frontier_req"
		while true {
			set account [::nano::address::fromPublicKey [::nano::network::_recv $sock 32]]
			set frontier [binary encode hex [::nano::network::_recv $sock 32]]

			lappend ::nano::node::bootstrap::frontiers_to_pull [dict create account $account frontier $frontier]
		}
	}

	return
}

proc ::nano::network::_dns::toIPList {name} {
	if {[::ip::version $name] > 0} {
		return [list $name]
	}

	set retval [list]
	foreach addressType {A AAAA} {
		set dnsQueryID [::dns::resolve $name -type $addressType]
		for {set dnsCheck 0} {$dnsCheck < 100} {incr dnsCheck} {
			switch -- [::dns::status $dnsQueryID] {
				"ok" {
					lappend retval {*}[::dns::address $dnsQueryID]

					break
				}
				"error" - "timeout" - "eof" {
					break
				}
				default {
				}
			}
			::nano::node::_sleep 10
		}
		::dns::cleanup $dnsQueryID
	}

	return $retval
}

# XXX:TODO: Which namespace should this go in ?
proc ::nano::node::_randomSortList {args} {
	set list [lindex $args end]
	set args [lrange $args 0 end-1]
	set salt [expr {rand()}]
	tailcall lsort {*}$args -command [list apply {{salt a b} {
		if {$a eq $b} {
			return 0
		}
		set a [binary encode hex [::nano::internal::hashData "${salt}|${a}"]]
		set b [binary encode hex [::nano::internal::hashData "${salt}|${b}"]]
		set a "0x${a}"
		set b "0x${b}"
		if {$a < $b} {
			return -1
		} else {
			return 1
		}
	}} $salt] $list
}

proc ::nano::node::bootstrap {} {
	set ::nano::node::bootstrap::frontiers_to_pull [list]
	set ::nano::node::bootstrap::frontier_req_running false

	while true {
		set peerInfoList [::nano::network::getPeers]
		::nano::node::log "Have [llength $peerInfoList] peers"

		foreach peerInfo $peerInfoList {
			set peer     [dict get $peerInfo "address"]
			set peerPort [dict get $peerInfo "port"]

			if {[llength [info command ::nano::node::bootstrap::peer_*]] >= [dict get $::nano::node::configuration node bootstrap_connections]} {
				continue
			}

			set peerId [binary encode hex [::nano::internal::hashData "$peer:$peerPort" 5]]

			if {[info command ::nano::node::bootstrap::peer_${peerId}] ne ""} {
				continue
			}

			coroutine ::nano::node::bootstrap::peer_${peerId} ::nano::node::bootstrap::peer $peer $peerPort
		}

		::nano::node::_sleep 30000
	}
}

proc ::nano::network::_connect {host port} {
	if {[info coroutine] eq ""} {
		set sock [socket $host $port]
	} else {
		set sock [socket -async $host $port]
		chan event $sock writable [info coroutine]
		chan event $sock readable [info coroutine]

		if {![chan configure $sock -connecting]} {
			if {[chan configure $sock -error] ne ""} {
				close $sock

				return -code error "Socket error connecting to $host $port"
			}

			chan event $sock writable ""
			chan event $sock readable ""

			return $sock
		}

		::nano::node::log "Waiting in the event loop for socket $sock to become writable"
		yield

		chan event $sock writable ""
		chan event $sock readable ""

		if {[eof $sock] || (![chan configure $sock -connecting] && [chan configure $sock -error] ne "") || [chan configure $sock -connecting]} {
			close $sock

			return -code error "EOF from socket"
		}
	}

	chan configure $sock -blocking false -translation binary -encoding binary

	return $sock
}

proc ::nano::network::_recv {sock bytes} {
	if {[info coroutine] ne ""} {
		chan event $sock readable [info coroutine]
	} else {
		chan configure $sock -blocking true
	}

	set retBuffer ""

	while {$bytes > 0} {
		if {[info coroutine] ne ""} {
			yield
		}

		set buffer [read $sock $bytes]
		set bufferLen [string length $buffer]
		if {$bufferLen == 0} {
			set chanError [chan configure $sock -error]
			if {$chanError ne ""} {
				return -code error "Short read on socket $sock ($bytes bytes remaining): $chanError"
			}

			if {[chan eof $sock]} {
				return -code error "Short read on socket $sock ($bytes bytes remaining): EOF"
			}

			continue
		}

		incr bytes -$bufferLen
		append retBuffer $buffer
	}

	chan event $sock readable ""

	return $retBuffer
}

proc ::nano::node::_sleep {ms {verbose 1}} {
	if {$verbose} {
		::nano::node::log "Sleeping for $ms ms"
	}

	after $ms [info coroutine]
	yield
}

proc ::nano::network::getPeers {} {
	if {[info exists ::nano::node::configuration]} {
		set peers [dict get $::nano::node::configuration node preconfigured_peers]
		set defaultPeerPort [dict get $::nano::node::configuration node peering_port]
	} else {
		error "Running without the node is currently unsupported"
	}

	set completePeers [list]
	foreach peer $peers {
		catch {
			foreach peer [::nano::network::_dns::toIPList $peer] {
				lappend completePeers [dict create address $peer port $defaultPeerPort]
			}
		}
	}

	set now [clock seconds]
	foreach {peerKeyInfo peerInfo} [array get ::nano::node::peers] {
		set lastSeen [dict get $peerInfo "lastSeen"]
		if {($now - $lastSeen) > (2 * 60 * 60)} {
			continue
		}

		set address [dict get $peerKeyInfo "address"]
		set peerPort [dict get $peerKeyInfo "port"]

		lappend completePeers [dict create address $peer port $peerPort]
	}

	set completePeers [::nano::node::_randomSortList -unique $completePeers]
	set retval [list]
	foreach peer $completePeers {
		lappend retval $peer
	}

	return $retval
}

proc ::nano::network::server::keepalive {blockData} {
	set peers [list]
	while {$blockData ne ""} {
		# Parse an address and port pair
		set foundElements [binary scan $blockData H32s address port]
		if {$foundElements != 2} {
			break
		}

		# Remove the parsed portion
		set blockData [string range $blockData 18 end]

		# Convert the hex-notation to an IPv6 address
		set address [string trim [regsub -all {....} $address {&:}] ":"]
		set address [::ip::contract $address]
		if {[string match "::ffff:*" $address] && [llength [split $address :]] == 5} {
			# Convert IPv4 addresses to dotted quad notation
			set address [::ip::normalize $address]
			set address [split $address :]
			set address [join [lrange $address end-1 end] ""]
			set address [::ip::intToString 0x$address]
		}
		set port [expr {$port & 0xffff}]

		lappend peers [dict create "address" $address "port" $port]
	}

	if {$blockData ne ""} {
		return -code error "Invalid keepalive packet [binary encode hex $blockData]: Had extra bytes"
	}

	if {[llength $peers] != 8} {
		return -code error "Invalid keepalive packet [binary encode hex $blockData]: Did not contain exactly 8 address+port tuples"
	}

	return [dict create "peers" $peers]
}

proc ::nano::node::server::keepalive {blockData} {
	set now [clock seconds]

	set peers [dict get [::nano::network::server::keepalive $blockData] "peers"]

	foreach peer $peers {
		set address [dict get $peer "address"]
		set port [dict get $peer "port"]

		set ::nano::node::peers([dict create address $address port $port]) [dict create lastSeen $now]
	}
}

proc ::nano::network::server::publish {blockData} {
	#puts "block: [binary encode hex $blockData]"
#9e1272edade3c247c738a4bd303eb0cfc3da298444bb9d13b8ffbced34ff036f4e1ff833324efc81c237776242928ef76a2cdfaa53f4c4530ee39bfff1977e26e382dd09ec8cafc2427cf817e9afe1f372ce81085ab4feb1f3de1f25ee818e5d000000008fc492fd20e57d048e000000204e7a62f25df739eaa224d403cb107b3f9caa0280113b0328fad3b402c465169006f988549a8b1e20e0a09b4b4dcae5397f6fcc4d507675f58c2b29ae02341b0a4fe562201a61bf27481aa4567c287136b4fd26b4840c93c42c7d1f5c518503d68ec561af4b8cf8
#9e1272edade3c247c738a4bd303eb0cfc3da298444bb9d13b8ffbced34ff036fa5e3647d3d296ec72baea013ba7fa1bf5c3357c33c90196f078ba091295e6e03e382dd09ec8cafc2427cf817e9afe1f372ce81085ab4feb1f3de1f25ee818e5d000000008fb2604ebd1fe098b8000000204e7a62f25df739eaa224d403cb107b3f9caa0280113b0328fad3b402c465165287cd9c61752dc9d011f666534dbdc10461e927503f9599791d73b1cca7fdc032d76db3f91e5b5c3d6206fa48b01bd08da4a89f2e880242e9917cfc3db80d0b9bfe8e6d1dd183d5
}

proc ::nano::network::server {message {networkType "bootstrap"}} {
	set messageParsed [binary scan $message a2ccccsa* \
		packetMagic \
		versionMax \
		versionUsing \
		versionMin \
		messageTypeID \
		extensions \
		args
	]

	if {$packetMagic ne "RC"} {
		return ""
	}

	# XXX:TODO: Check versions and extensions

	set messageType [lindex $::nano::network::messageTypes $messageTypeID]
puts "*** Incoming: $messageType ($messageTypeID on $networkType) [binary encode hex $message]"

	set retval ""
	if {[catch {
		set retval [::nano::node::server::${messageType} $args]
	} err]} {
		if {![string match "invalid command name *" $err]} {
			::nano::node::log "Error handling ${messageType}: $err"
		}
	}

	return $retval
}

proc ::nano::node::realtime::incoming {socket} {
	set data [read $socket 8192]
	if {$data eq ""} {
		return
	}

	set remote [chan configure $socket -peer]
	set response [::nano::network::server $data "realtime"]
	if {$response eq ""} {
		return
	}

	# XXX:TODO: Send response
	set peerSock [list type "realtime" remote $remote socket $socket]
	#::nano::network::client $peerSock ...

	return
}

proc ::nano::node::realtime {} {
	package require udp

	set peeringPort [dict get $::nano::node::configuration node peering_port]
	set clientID [dict get $::nano::node::configuration node client_id]

	# Start a UDP listening socket
	set socket(v6) [udp_open $peeringPort ipv6 reuse]
	set socket(v4) [udp_open $peeringPort reuse]
	foreach {protocolVersion protocolSocket} [array get socket] {
		fconfigure $protocolSocket -blocking false -encoding binary -translation binary
		chan event $protocolSocket readable [list ::nano::node::realtime::incoming $protocolSocket]
	}

	# Periodically send keepalives to all known peers
	## XXX:TODO: Limit this to only a few peers
	while true {
		foreach peerInfo [::nano::network::getPeers] {
			set peerAddress [dict get $peerInfo "address"]
			set peerPort [dict get $peerInfo "port"]
			set protocolVersion "v[::ip::version $peerAddress]"

			set peerSock [list type "realtime" remote [list $peerAddress $peerPort] socket $socket(${protocolVersion})]

			::nano::network::client $peerSock "node_id_handshake" $clientID
			::nano::network::client $peerSock "keepalive"
		}

		::nano::node::_sleep [expr {1 * 60 * 1000}]
	}
}

proc ::nano::node::start {} {
	package require defer
	package require ip
	package require udp
	package require dns

	coroutine ::nano::node::bootstrap::run ::nano::node::bootstrap
	coroutine ::nano::node::realtime::run ::nano::node::realtime

	vwait ::nano::node::_FOREVER_
}

# RPC Client
## Side-effect: Sets ::nano::rpc::client::config
proc ::nano::rpc::client::init args {
	if {![info exists ::nano::rpc::client::config]} {
		set ::nano::rpc::client::config [dict create \
		    url "http://localhost:7076/" \
		]
	}

	if {[llength $args] > 0} {
		set ::nano::rpc::client::config [dict merge $::nano::rpc::client::config $args]
	}

	return true
}

proc ::nano::rpc::client {action args} {
	::nano::rpc::client::init

	set rpcURL [dict get $::nano::rpc::client::config "url"]

	set jsonArgs [list]
	foreach {key value} $args {
		switch -exact -- $key {
			"-count" {}
			"-accounts" {
				set valueAsStrings [lmap valueItem $value { json::write string $valueItem }]
				set value [json::write array {*}$valueAsStrings]
			}
			default {
				set value [json::write string $value]
			}
		}
		set key [string range $key 1 end]

		lappend jsonArgs $key $value
	}

	set query [json::write object action [json::write string $action] {*}$jsonArgs]

	catch {
		set token [http::geturl $rpcURL -query $query]
		set ncode [http::ncode $token]
		set data [http::data $token]
	} error
	if {![info exists data]} {
		set ncode -1
		set data $error
	}

	if {[info exists token]} {
		http::cleanup $token
	}

	if {$ncode ne "200"} {
		return -code error "$ncode: $data"
	}

	set data [json::json2dict $data]

	return $data
}

# Account balance manipulation
proc ::nano::balance::toUnit {raw toUnit {decimals 0}} {
	set divisor [dict get $::nano::balance::_conversion $toUnit]

	if {$decimals == 0} {
		set balance [expr {entier(($raw / ($divisor * 1.0)) + 0.5)}]
	} else {
		set balance [expr {$raw / ($divisor * 1.0)}]
		set balance [format "%.${decimals}f" $balance]
	}

	return $balance
}

proc ::nano::balance::toRaw {balance fromUnit} {
	set multiplier [dict get $::nano::balance::_conversion $fromUnit]

	# Determine how long the multiplier is
	set zeros [expr {entier(log10($multiplier))}]

	# Find the location of the decimal point (or add it)
	set decimal [string first "." $balance]
	if {$decimal == -1} {
		append balance "."

		set decimal [string first "." $balance]
	}

	# Ensure that the balance has atleast the right number of trailing zeros
	append balance [string repeat "0" $zeros]

	# Remove the decimal point
	set balance [string replace $balance $decimal $decimal]

	# Get the subset of the string that corresponds to the balance
	set balance [string range $balance 0 [expr {$zeros + $decimal - 1}]]

	# Convert to a integer type
	set balance [expr {entier($balance)}]

	return $balance
}

proc ::nano::balance::normalizeUnitName {unit} {
	set multiplier [dict get $::nano::balance::_conversion $unit]
	foreach {unitName multiplierCheck} $::nano::balance::_conversion {
		if {$multiplierCheck == $multiplier} {
			return $unitName
		}
	}
}

proc ::nano::balance::toHuman {raw {decimals 3}} {
	set humanUnit [normalizeUnitName _USER]
	set humanUnitMultiplier [dict get $::nano::balance::_conversion $humanUnit]

	if {$raw > [expr {$humanUnitMultiplier / 10000000}]} {
		set baseUnit $humanUnit
	} else {
		set baseUnit "raw"
	}

	set balance [toUnit $raw $baseUnit $decimals]
	set work [split $balance "."]
	set leading  [lindex $work 0]
	set trailing [string trimright [lindex $work 1] "0"]
	set balance [join [list $leading $trailing] "."]
	set balance [string trimright $balance "."]

	set result [list $balance $baseUnit]

	return $result
}