mirror of
https://github.com/FlipsideCrypto/dcrd.git
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47ade78c1a
This resurrects the regression test network that was removed before initial launch although it really should not have been. The simulation test network and the regression test network do not serve the same purpose. Specifically, the regression test network is intended for unit tests, RPC server tests, and consensus tests. On the other hand, the simulation test network is intended for private use within a group of individuals doing simulation testing and full integration tests between different applications such as wallets, voting service providers, mining pools, block explorers, and other services that build on Decred. Keeping the concerns separate will allow the simulation test network to be modified in ways such as activating consensus changes that have been successfully voted into mainnet without also needing to vote them in on the simulation test network while still preserving the ability for the unit tests to properly test the voting semantics and handling to help prevent regressions. In addition to resurrecting the regression test network, this also fully fleshes out new values for the various addresses prefixes (Rk, Rs, Re, etc), HD key prefixes (rprv, rpub), and treasury multisig details. As a part of resurrecting the network, a new CLI flag `--regnet` is added to allow the RPC test harness connect to a running instance, the areas of the code which involve votes have been modified to allow the votes to apply to the new network, and tests have been added to the relevant modules. This bumps the affected module versions as follows: - github.com/decred/dcrd/wire@v1.2.0 - github.com/decred/dcrd/chaincfg@v1.2.0 - github.com/decred/dcrd/dcrutil@v1.2.0 - github.com/decred/dcrd/hdkeychain@v1.1.1 The blockchain module is also affected, but since its version has already been bumped since the last release tag, it is not bumped again. Finally, this does not include switching unit tests or the RPC test harness over the new network since that will be done in a separate commit.
143 lines
5.1 KiB
Go
143 lines
5.1 KiB
Go
// Copyright (c) 2018 The Decred developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package main
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import (
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"bytes"
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"strings"
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"testing"
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"github.com/decred/base58"
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"github.com/decred/dcrd/blockchain"
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"github.com/decred/dcrd/chaincfg"
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)
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// checkPowLimitsAreConsistent ensures PowLimit and PowLimitBits are consistent
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// with each other
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// PowLimit: mainPowLimit,// big int
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// PowLimitBits: 0x1d00ffff, // conceptually the same
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// // value, but in an obscure form
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func checkPowLimitsAreConsistent(t *testing.T, params *chaincfg.Params) {
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powLimitBigInt := params.PowLimit
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powLimitCompact := params.PowLimitBits
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toBig := blockchain.CompactToBig(powLimitCompact)
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toCompact := blockchain.BigToCompact(powLimitBigInt)
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// Check params.PowLimitBits matches params.PowLimit converted
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// into the compact form
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if toCompact != powLimitCompact {
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t.Fatalf("PowLimit values mismatch:\n"+
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"params.PowLimit :%064x\n"+
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" :%x\n"+
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"params.PowLimitBits:%064x\n"+
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" :%x\n"+
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"params.PowLimit is not consistent with the params.PowLimitBits",
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powLimitBigInt, toCompact, toBig, powLimitCompact)
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}
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}
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// checkGenesisBlockRespectsNetworkPowLimit ensures genesis.Header.Bits value
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// is within the network PoW limit.
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//
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// Genesis header bits define starting difficulty of the network.
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// Header bits of each block define target difficulty of the subsequent block.
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//
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// The first few solved blocks of the network will inherit the genesis block
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// bits value before the difficulty reajustment takes place.
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//
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// Solved block shouldn't be rejected due to the PoW limit check.
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//
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// This test ensures these blocks will respect the network PoW limit.
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func checkGenesisBlockRespectsNetworkPowLimit(t *testing.T, params *chaincfg.Params) {
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genesis := params.GenesisBlock
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bits := genesis.Header.Bits
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// Header bits as big.Int
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bitsAsBigInt := blockchain.CompactToBig(bits)
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// network PoW limit
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powLimitBigInt := params.PowLimit
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if bitsAsBigInt.Cmp(powLimitBigInt) > 0 {
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t.Fatalf("Genesis block fails the consensus:\n"+
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"genesis.Header.Bits:%x\n"+
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" :%064x\n"+
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"params.PowLimit :%064x\n"+
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"genesis.Header.Bits "+
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"should respect network PoW limit",
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bits, bitsAsBigInt, powLimitBigInt)
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}
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}
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// checkPrefix checks if targetString starts with the given prefix
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func checkPrefix(t *testing.T, prefix string, targetString, networkName string) {
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if strings.Index(targetString, prefix) != 0 {
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t.Logf("Address prefix mismatch for <%s>: expected <%s> received <%s>",
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networkName, prefix, targetString)
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t.FailNow()
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}
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}
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// checkInterval creates two corner cases defining interval
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// of all key values: [ xxxx000000000...0cccc , xxxx111111111...1cccc ],
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// where xxxx - is the encoding magic, and cccc is a checksum.
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// The interval is mapped to corresponding interval in base 58.
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// Then prefixes are checked for mismatch.
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func checkInterval(t *testing.T, desiredPrefix string, keySize int, networkName string, magic [2]byte) {
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// min and max possible keys
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// all zeroes
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minKey := bytes.Repeat([]byte{0x00}, keySize)
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// all ones
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maxKey := bytes.Repeat([]byte{0xff}, keySize)
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base58interval := [2]string{
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base58.CheckEncode(minKey, magic),
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base58.CheckEncode(maxKey, magic),
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}
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checkPrefix(t, desiredPrefix, base58interval[0], networkName)
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checkPrefix(t, desiredPrefix, base58interval[1], networkName)
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}
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// checkAddressPrefixesAreConsistent ensures address encoding magics and
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// NetworkAddressPrefix are consistent with each other.
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// This test will light red when a new network is started with incorrect values.
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func checkAddressPrefixesAreConsistent(t *testing.T, privateKeyPrefix string, params *chaincfg.Params) {
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P := params.NetworkAddressPrefix
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// Desired prefixes
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Pk := P + "k"
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Ps := P + "s"
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Pe := P + "e"
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PS := P + "S"
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Pc := P + "c"
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pk := privateKeyPrefix
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checkInterval(t, Pk, 33, params.Name, params.PubKeyAddrID)
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checkInterval(t, Ps, 20, params.Name, params.PubKeyHashAddrID)
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checkInterval(t, Pe, 20, params.Name, params.PKHEdwardsAddrID)
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checkInterval(t, PS, 20, params.Name, params.PKHSchnorrAddrID)
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checkInterval(t, Pc, 20, params.Name, params.ScriptHashAddrID)
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checkInterval(t, pk, 33, params.Name, params.PrivateKeyID)
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}
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// TestDecredNetworkSettings checks Network-specific settings
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func TestDecredNetworkSettings(t *testing.T) {
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checkPowLimitsAreConsistent(t, &chaincfg.MainNetParams)
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checkPowLimitsAreConsistent(t, &chaincfg.TestNet3Params)
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checkPowLimitsAreConsistent(t, &chaincfg.SimNetParams)
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checkPowLimitsAreConsistent(t, &chaincfg.RegNetParams)
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checkGenesisBlockRespectsNetworkPowLimit(t, &chaincfg.MainNetParams)
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checkGenesisBlockRespectsNetworkPowLimit(t, &chaincfg.TestNet3Params)
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checkGenesisBlockRespectsNetworkPowLimit(t, &chaincfg.SimNetParams)
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checkGenesisBlockRespectsNetworkPowLimit(t, &chaincfg.RegNetParams)
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checkAddressPrefixesAreConsistent(t, "Pm", &chaincfg.MainNetParams)
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checkAddressPrefixesAreConsistent(t, "Pt", &chaincfg.TestNet3Params)
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checkAddressPrefixesAreConsistent(t, "Ps", &chaincfg.SimNetParams)
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checkAddressPrefixesAreConsistent(t, "Pr", &chaincfg.RegNetParams)
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}
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