# BitcoinPurple — Technical Reference Parameter reference for BitcoinPurple (BTCP) node operators and developers building on top of the network: ElectrumX server, Electrum wallet fork, Lightning Network fork. All values are sourced directly from the codebase unless noted otherwise. --- ## Quick Reference The most-looked-up values, all in one place. | Parameter | Mainnet | Testnet | Signet | Regtest | |-----------|---------|---------|--------|---------| | P2P port | `13496` | `23496` | `33496` | `18444` | | RPC port | `13495` | `23495` | `33495` | `18443` | | ElectrumX TCP | `50001` | `60001` | — | — | | ElectrumX SSL | `50002` | `60002` | — | — | | Magic bytes | `fc991395` | `29fbc5fe` | — | `31346ac9` | | Bech32 / BOLT11 HRP | `btcp` | `tbtcp` | `tbtcp` | `rbtcp` | | P2PKH prefix | 56 (`0x38`) → `P` | 56 (`0x38`) | 56 | 56 | | P2SH prefix | 55 (`0x37`) → `P` | 55 (`0x37`) | 55 | 55 | | WIF prefix | 183 (`0xb7`) | 183 (`0xb7`) | 183 | 183 | | BIP32 xpub | `0488B21E` | `043587CF` | `043587CF` | `043587CF` | | BIP32 xprv | `0488ADE4` | `04358394` | `04358394` | `04358394` | | Block time | 60 s | 60 s | 60 s | instant | | Halving interval | 500,000 blocks | — | — | 150 blocks | | Monetary cap (`MAX_MONEY`) | 1,000,000 BTCP | — | — | — | | Genesis hash | `000003823f…c015` | `000002fdc3…d998` | `00000131aa…b403` | `6f6ffbda…e1df` | | LN chain_hash | `15c04ef0…0000` | `98d9f92e…0000` | — | — | --- ## 1. Network Identity | Parameter | Value | Source | |-----------|-------|--------| | Full name | BitcoinPurple | — | | Ticker | BTCP | — | | Version | 1.1.1 | `configure.ac` | | Daemon binary | `bitcoinpurpled` | — | | Config file | `~/.bitcoinpurple/bitcoinpurple.conf` | — | | PoW algorithm | SHA256d (identical to Bitcoin) | — | | Protocol version | 70016 | `src/version.h:12` | | Min peer protocol | 31800 | `src/version.h:18` | --- ## 2. Mainnet Parameters ### 2.1 Ports | Service | Port | Source | |---------|------|--------| | P2P | `13496` | `src/kernel/chainparams.cpp:116` | | RPC | `13495` | `src/chainparamsbase.cpp:47` | | Tor onion | `8334` | `src/chainparamsbase.cpp:47` | ### 2.2 Address Encoding | Type | Decimal | Hex | Address prefix | Source | |------|---------|-----|----------------|--------| | P2PKH (`PUBKEY_ADDRESS`) | 56 | `0x38` | `P` | `src/kernel/chainparams.cpp:154` | | P2SH (`SCRIPT_ADDRESS`) | 55 | `0x37` | `P` | `src/kernel/chainparams.cpp:155` | | WIF secret key | 183 | `0xb7` | — | `src/kernel/chainparams.cpp:156` | | Bech32 HRP | — | — | `btcp1…` | `src/kernel/chainparams.cpp:160` | ### 2.3 HD Key Version Bytes **BIP32 standard (xpub / xprv):** | Type | Bytes (hex) | Base58 prefix | Source | |------|-------------|---------------|--------| | xpub | `0488B21E` | `xpub` | `src/kernel/chainparams.cpp:157` | | xprv | `0488ADE4` | `xprv` | `src/kernel/chainparams.cpp:158` | **SLIP-0132 extended headers (all script types):** BTCP uses the same BIP32 root bytes as Bitcoin mainnet, so the registered SLIP-0132 SegWit version bytes are identical to Bitcoin mainnet. Taproot/BIP86 does **not** have registered SLIP-0132 `trub` / `trpv` headers; use standard `xpub` / `xprv` plus the BIP86 derivation path or descriptors. ```python XPRV_HEADERS = { 'standard': 0x0488ade4, # xprv 'p2wpkh-p2sh': 0x049d7878, # yprv 'p2wsh-p2sh': 0x0295b005, # Yprv 'p2wpkh': 0x04b2430c, # zprv 'p2wsh': 0x02aa7a99, # Zprv } XPUB_HEADERS = { 'standard': 0x0488b21e, # xpub 'p2wpkh-p2sh': 0x049d7cb2, # ypub 'p2wsh-p2sh': 0x0295b43f, # Ypub 'p2wpkh': 0x04b24746, # zpub 'p2wsh': 0x02aa7ed3, # Zpub } ``` ### 2.4 Magic Bytes (P2P message header) `fc 99 13 95` — Source: `src/kernel/chainparams.cpp:112-115` ### 2.5 Genesis Block | Parameter | Value | Source | |-----------|-------|--------| | Hash (display) | `000003823fbf82ea4906cbe214617ce7a70a5da29c19ecb1d65618bcf04ec015` | `src/kernel/chainparams.cpp:144` | | LN chain_hash (wire, reversed bytes) | `15c04ef0bc1856d6b1ec199ca25d0aa7e77c6114e2cb0649ea82bf3f82030000` | derived | | Merkle root | `b5f46757618a0aa2961b23f51de039ef23a77c24decc43d600348aff051f0a05` | `src/kernel/chainparams.cpp:145` | | Timestamp (Unix) | `1691126832` | `src/kernel/chainparams.cpp:121` | | Timestamp (UTC) | `2023-08-04T05:27:12Z` | — | | Nonce | `1302816` (`0x13E120`) | `src/kernel/chainparams.cpp:121` | | nBits | `1e0ffff0` | `src/kernel/chainparams.cpp:121` | | Version | `1` | `src/kernel/chainparams.cpp:121` | | Coinbase message | `"Global transactions for everyone around the world"` | `src/kernel/chainparams.cpp:64` | | Coinbase pubkey | `04f26c8111029cf40de900c7075706cb58e5ed1e7f1d4911790019ee8c345eeb84060b1a09fb655c88e58ff35357ffe28678e62008f759ea260c7c37c9fae23869` | `src/kernel/chainparams.cpp:65` | ### 2.6 Consensus & Emission | Parameter | Value | Source | |-----------|-------|--------| | Block time (`nPowTargetSpacing`) | 60 seconds | `src/kernel/chainparams.cpp:88` | | Difficulty retarget window | 120 blocks (~2 hours) | `src/kernel/chainparams.cpp:87-88` | | PoW target timespan | 7200 seconds | `src/kernel/chainparams.cpp:87` | | PoW limit | `00000fffffffffffffffffffffffffffffffffffffffffffffffffffffffffff` | `src/kernel/chainparams.cpp:86` | | Halving interval | 500,000 blocks | `src/kernel/chainparams.cpp:78` | | Initial block reward | 1 BTCP | `src/validation.cpp:1549` | | COIN (satoshis per BTCP) | 100,000,000 | `src/consensus/amount.h:16` | | MAX_MONEY validation cap | 1,000,000 BTCP | `src/consensus/amount.h:27` | | Coinbase maturity | 100 blocks | `src/consensus/consensus.h:19` | | Rule change activation threshold | 108 / 120 blocks (90%) | `src/kernel/chainparams.cpp:91` | **Block reward schedule** (source: `src/validation.cpp:1542-1551`): | Era | Block range | Reward | Era total | |-----|-------------|--------|-----------| | 0 | 0 – 499,999 | 1.00000000 BTCP | 500,000 BTCP | | 1 | 500,000 – 999,999 | 0.50000000 BTCP | 250,000 BTCP | | 2 | 1,000,000 – 1,499,999 | 0.25000000 BTCP | 125,000 BTCP | | 3 | 1,500,000 – 1,999,999 | 0.12500000 BTCP | 62,500 BTCP | | ∞ | — | — | ~1,000,000 BTCP generated subsidy | `MAX_MONEY` is the consensus money-range sanity cap, not a direct UTXO supply counter. The genesis coinbase follows the normal 1 BTCP subsidy construction, but like Bitcoin Core-derived chains it is not spendable from the UTXO set. For user-facing supply text, distinguish: - **Maximum generated subsidy:** asymptotically ~1,000,000 BTCP. - **Maximum spendable subsidy:** asymptotically ~999,999 BTCP if the genesis coinbase remains unspendable. ### 2.7 Difficulty Adjustment BTCP keeps Bitcoin's compact target / SHA256d proof-of-work validation, but the retarget interval is much shorter: | Parameter | Mainnet value | Source | |-----------|---------------|--------| | Target spacing | 60 seconds | `src/kernel/chainparams.cpp:88` | | Target timespan | 7,200 seconds | `src/kernel/chainparams.cpp:87` | | Adjustment interval | 120 blocks | `nPowTargetTimespan / nPowTargetSpacing` | | Retarget boundary | every block height divisible by 120 | `src/pow.cpp:18-47` | | Minimum actual timespan | 1,800 seconds | `src/pow.cpp:56` | | Maximum actual timespan | 28,800 seconds | `src/pow.cpp:58` | | Max change per retarget | 4x easier or 4x harder | `src/pow.cpp:56-66` | | Mainnet min-difficulty blocks | disabled | `fPowAllowMinDifficultyBlocks=false` | | No-retarget mode | disabled | `fPowNoRetargeting=false` | Retarget flow for a candidate block at height `H`: 1. If `H % 120 != 0`, the block must keep the previous block's `nBits`. 2. If `H % 120 == 0`, take the previous 120-block window: `first = H - 120`, `last = H - 1`. 3. Compute `actual_timespan = last.time - first.time`. 4. Clamp it to `[7200 / 4, 7200 * 4]`, i.e. `[1800, 28800]` seconds. 5. Decode previous `nBits` to a target, then: ```text new_target = old_target * actual_timespan / 7200 new_target = min(new_target, powLimit) new_nBits = compact(new_target) ``` Interpretation: - Blocks faster than 60 seconds make `actual_timespan < 7200`, so target decreases and difficulty increases. - Blocks slower than 60 seconds make `actual_timespan > 7200`, so target increases and difficulty decreases. - The clamp prevents a single retarget from changing difficulty by more than 4x. ### 2.8 Soft-Fork Activation All soft-forks are active from genesis (height 0). Source: `src/kernel/chainparams.cpp:79-102` | BIP | Feature | Activation height | |-----|---------|-------------------| | BIP34 | Block height in coinbase | 0 | | BIP65 | `CHECKLOCKTIMEVERIFY` | 0 | | BIP66 | Strict DER signatures | 0 | | BIP68/112/113 | `CheckSequenceVerify` (CSV) | 0 | | BIP141/143/147 | SegWit | 0 | | BIP340-342 | Taproot (`ALWAYS_ACTIVE`) | 0 | ### 2.9 Chain Validation | Parameter | Value | Source | |-----------|-------|--------| | Minimum chain work | `00000000000000000000000000000000000000000000074e7000dc41ac550926` | `src/kernel/chainparams.cpp:104` | | Default assume valid | `00000000000009733cf805e87e19261ae833319b874c694d4d74995ea526c968` | `src/kernel/chainparams.cpp:105` | | Prune after height | 100,000 | `src/kernel/chainparams.cpp:117` | | TX count reference | 1,189,400 at block 1,048,808 | `src/kernel/chainparams.cpp:178-184` | ### 2.10 DNS Seeds | Seed | Source | |------|--------| | `node3.walletbuilders.com` | `src/kernel/chainparams.cpp:152` | --- ## 3. Testnet Parameters | Parameter | Value | Source | |-----------|-------|--------| | P2P port | `23496` | `src/kernel/chainparams.cpp:230` | | RPC port | `23495` | `src/chainparamsbase.cpp:49` | | Magic bytes | `29 fb c5 fe` | `src/kernel/chainparams.cpp:226-229` | | Bech32 / BOLT11 HRP | `tbtcp` | `src/kernel/chainparams.cpp:270` | | P2PKH | 56 (`0x38`) | `src/kernel/chainparams.cpp:264` | | P2SH | 55 (`0x37`) | `src/kernel/chainparams.cpp:265` | | WIF prefix | 183 (`0xb7`) | `src/kernel/chainparams.cpp:266` | | BIP32 xpub | `043587CF` | `src/kernel/chainparams.cpp:267` | | BIP32 xprv | `04358394` | `src/kernel/chainparams.cpp:268` | | Genesis hash (display) | `000002fdc3921c1ad368816fcc587f499698d42b42ab5a5d94ee67882ef9d998` | `src/kernel/chainparams.cpp:259` | | LN chain_hash (wire) | `98d9f92e8867ee945d5aab422bd49896497f58cc6f8168d31a1c92c3fd020000` | derived | | Genesis merkle root | `b5f46757618a0aa2961b23f51de039ef23a77c24decc43d600348aff051f0a05` | same as mainnet | | Genesis timestamp | `1691126837` | `src/kernel/chainparams.cpp:235` | | Genesis nonce | `521609` (`0x7F589`) | `src/kernel/chainparams.cpp:235` | | Genesis nBits | `1e0ffff0` | `src/kernel/chainparams.cpp:235` | | ElectrumX TCP / SSL | `60001` / `60002` | `coins_btcp.py` | **SLIP-0132 HD headers — testnet** (identical to Bitcoin testnet, since BIP32 bytes are `043587CF`/`04358394`; Taproot/BIP86 still uses standard `tpub` / `tprv` plus path/descriptor metadata): ```python XPRV_HEADERS = { 'standard': 0x04358394, # tprv 'p2wpkh-p2sh': 0x044a4e28, # uprv 'p2wsh-p2sh': 0x024285b5, # Uprv 'p2wpkh': 0x045f18bc, # vprv 'p2wsh': 0x02575048, # Vprv } XPUB_HEADERS = { 'standard': 0x043587cf, # tpub 'p2wpkh-p2sh': 0x044a5262, # upub 'p2wsh-p2sh': 0x024289ef, # Upub 'p2wpkh': 0x045f1cf6, # vpub 'p2wsh': 0x02575483, # Vpub } ``` --- ## 4. Signet Parameters | Parameter | Value | Source | |-----------|-------|--------| | P2P port | `33496` | `src/kernel/chainparams.cpp:375` | | RPC port | `33495` | `src/chainparamsbase.cpp:51` | | Bech32 HRP | `tbtcp` | `src/kernel/chainparams.cpp:412` | | P2PKH / P2SH / WIF | 56 / 55 / 183 | `src/kernel/chainparams.cpp:406-408` | | BIP32 xpub / xprv | `043587CF` / `04358394` | `src/kernel/chainparams.cpp:409-410` | | Genesis hash | `00000131aa3124412b7ba8473f137922692c88da8fe26042e250c6cd76b7b403` | `src/kernel/chainparams.cpp:402` | | Genesis timestamp | `1691126842` | `src/kernel/chainparams.cpp:378` | | Genesis nonce | `1829993` (`0x1be0a9`) | `src/kernel/chainparams.cpp:378` | | Genesis nBits | `1e0377ae` | `src/kernel/chainparams.cpp:378` | | PoW limit | `00000377ae000000000000000000000000000000000000000000000000000000` | `src/kernel/chainparams.cpp:350` | | Default signet challenge | `512103ad5e0edad18cb1f0fc0d28a3d4f1f3e445640337489abb10404f2d1e086be430210359ef5021964fe22d6f8e05b2463c9540ce96883fe3b278760f048f5189f2e6c452ae` | `src/kernel/chainparams.cpp:308` | --- ## 5. Regtest Parameters | Parameter | Value | Source | |-----------|-------|--------| | P2P port | `18444` | `src/kernel/chainparams.cpp:466` | | RPC port | `18443` | `src/chainparamsbase.cpp:53` | | Magic bytes | `31 34 6a c9` | `src/kernel/chainparams.cpp:462-465` | | Bech32 HRP | `rbtcp` | `src/kernel/chainparams.cpp:556` | | P2PKH / P2SH / WIF | 56 / 55 / 183 | `src/kernel/chainparams.cpp:550-552` | | BIP32 xpub / xprv | `043587CF` / `04358394` | `src/kernel/chainparams.cpp:553-554` | | Genesis hash | `6f6ffbda4cb789c69d885d4624ea4a28841d3689fbaf969262150ca45a1ae1df` | `src/kernel/chainparams.cpp:521` | | Genesis timestamp | `1691126837` | `src/kernel/chainparams.cpp:497` | | Genesis nonce | `4` | `src/kernel/chainparams.cpp:497` | | Genesis nBits | `207fffff` | `src/kernel/chainparams.cpp:497` | | Halving interval | 150 blocks | `src/kernel/chainparams.cpp:433` | | No retargeting | `true` | `src/kernel/chainparams.cpp:440` | --- ## 6. ElectrumX Server ### 6.1 Coin Definition (`coins_btcp.py`) Drop-in patch for `electrumx/lib/coins.py`. Place as `electrumx-patch/coins_btcp.py` and apply via the Docker patch snippet below. ```python # coins_btcp.py — BitcoinPurple (BTCP) coin definitions for ElectrumX # Patch into electrumx/lib/coins.py alongside the Bitcoin class. class BitcoinPurple(Bitcoin): NAME = 'BitcoinPurple' SHORTNAME = 'BTCP' NET = 'mainnet' DESERIALIZER = lib_tx.DeserializerSegWit GENESIS_HASH = ( '000003823fbf82ea4906cbe214617ce7a70a5da29c19ecb1d65618bcf04ec015' ) # Base58 address prefixes P2PKH_VERBYTE = bytes([56]) # 0x38 P2SH_VERBYTES = (bytes([55]),) # 0x37 WIF_BYTE = bytes([183]) # 0xb7 # BIP32 HD key version bytes XPUB_VERBYTES = bytes.fromhex('0488B21E') XPRV_VERBYTES = bytes.fromhex('0488ADE4') # Bech32 / SegWit metadata for forks; ElectrumX indexes scripts directly. SEGWIT_HRP = 'btcp' # Do not inherit Bitcoin Electrum peers or Bitcoin Core version gates. PEERS = [] MIN_REQUIRED_DAEMON_VERSION = '1.1.1' BLACKLIST_URL = None # 1-minute blocks: keep enough undo data for practical reorg handling. REORG_LIMIT = 1200 # Chain stats — updated from fully synced mainnet node at block 1,048,808 (Apr 2026) TX_COUNT = 1_189_400 TX_COUNT_HEIGHT = 1_048_808 TX_PER_BLOCK = 2 # RPC port (bitcoinpurpled mainnet default) RPC_PORT = 13495 PEER_DEFAULT_PORTS = {'t': '50001', 's': '50002'} class BitcoinPurpleTestnet(BitcoinPurple): NAME = 'BitcoinPurple Testnet' SHORTNAME = 'TBTCP' NET = 'testnet' GENESIS_HASH = ( '000002fdc3921c1ad368816fcc587f499698d42b42ab5a5d94ee67882ef9d998' ) XPUB_VERBYTES = bytes.fromhex('043587CF') XPRV_VERBYTES = bytes.fromhex('04358394') SEGWIT_HRP = 'tbtcp' TX_COUNT = 1 TX_COUNT_HEIGHT = 0 TX_PER_BLOCK = 1 RPC_PORT = 23495 PEERS = [] REORG_LIMIT = 1200 PEER_DEFAULT_PORTS = {'t': '60001', 's': '60002'} ``` Notes for this coin class: - `PEERS = []` is intentional until there are known-good BTCP ElectrumX peers. ElectrumX peer discovery verifies genesis, but inheriting Bitcoin peers wastes resources and can leak confusing peer data. - `MIN_REQUIRED_DAEMON_VERSION` must not inherit Bitcoin's current upstream requirement. Keep it aligned with the BTCP daemon version you ship, or remove the version gate in your ElectrumX fork. - `TX_COUNT`, `TX_COUNT_HEIGHT`, and `TX_PER_BLOCK` are sync-estimation hints, not consensus values. Refresh them from a synced BTCP node before release. - ElectrumX does not need ZMQ to index; it polls RPC. ZMQ is useful for lower latency only if your chosen ElectrumX build/plugin uses it. ### 6.1.1 ElectrumX Node Requirements Required full-node settings: | Requirement | Value / setting | Reason | |-------------|-----------------|--------| | RPC server | `server=1`, `rpcport=13495` | ElectrumX reads blocks and transactions through JSON-RPC | | Transaction index | `txindex=1` | Required for historical transaction lookups | | Pruning | disabled (`prune=0`) | ElectrumX must be able to index from genesis | | Chain | mainnet unless `NET=testnet` | Must match `COIN`/`NET` in ElectrumX | | Disk | full block data + ElectrumX DB | DB grows with history; do not run from a tiny volume | Minimum RPC methods used by ElectrumX-compatible servers include `getblockhash`, `getblock`, `getrawtransaction`, `getnetworkinfo`, `getblockchaininfo`, `estimatesmartfee`, and `sendrawtransaction`. Recommended public Electrum services: | Service | Mainnet | Testnet | Notes | |---------|---------|---------|-------| | Plain TCP | `50001` | `60001` | Standard Electrum convention | | TLS/SSL TCP | `50002` | `60002` | Recommended for public wallets | | Local admin RPC | `8000` | `8000` or private | Keep firewalled; do not advertise publicly | For `servers.json`, replace `your-server.example.com` with a real DNS name or public IP. The current file only documents the format; it does not configure a real public server. ### 6.2 Docker Patch Snippet ```dockerfile COPY electrumx-patch/coins_btcp.py /tmp/coins_btcp.py RUN python3 - <<'PATCH' import pathlib, re patch = pathlib.Path('/tmp/coins_btcp.py').read_text() classes = re.split(r'^(?=class )', patch, flags=re.MULTILINE) classes = [c for c in classes if c.strip().startswith('class ')] body = '\n' + '\n'.join(classes) for target in [ '/usr/local/lib/python3.13/dist-packages/electrumx/lib/coins.py', '/electrumx/src/electrumx/lib/coins.py', ]: p = pathlib.Path(target) if p.exists(): s = p.read_text() if 'class BitcoinPurple(Bitcoin):' not in s: p.write_text(s + body) print('>> Patched ElectrumX with BitcoinPurple coin classes') PATCH ``` ### 6.3 Environment Variables ```env # ── Identity ────────────────────────────────────────────────────────────────── COIN=BitcoinPurple NET=mainnet # or: testnet # ── Node connection ─────────────────────────────────────────────────────────── DAEMON_URL=http://btcpuser:CHANGE_ME@bitcoinpurpled:13495/ # testnet: DAEMON_URL=http://btcpuser:CHANGE_ME@bitcoinpurpled:23495/ # ── Storage ─────────────────────────────────────────────────────────────────── DB_DIRECTORY=/data/electrumx # ── Services exposed ────────────────────────────────────────────────────────── SERVICES=tcp://0.0.0.0:50001,ssl://0.0.0.0:50002,rpc://0.0.0.0:8000 # Override only if auto-detected public IP is wrong: # REPORT_SERVICES=tcp://your-server-ip:50001,ssl://your-server-ip:50002 # ── TLS ─────────────────────────────────────────────────────────────────────── SSL_CERTFILE=/certs/server.crt SSL_KEYFILE=/certs/server.key # ── Performance ─────────────────────────────────────────────────────────────── CACHE_MB=1200 MAX_SESSIONS=1000 INITIAL_CONCURRENT=2 # ── Rate limiting (0 = disabled) ───────────────────────────────────────────── COST_SOFT_LIMIT=0 COST_HARD_LIMIT=0 # ── Peer discovery ──────────────────────────────────────────────────────────── PEER_DISCOVERY=on PEER_ANNOUNCE=true ``` **Protocol version** served: `1.4.2` **OS ulimit** — set `nofile` to at least `1048576` (open file descriptors): ```yaml ulimits: nofile: soft: 1048576 hard: 1048576 ``` ### 6.4 ZMQ Notification Ports These are recommended local ports if you enable ZMQ notifications. BitcoinPurple Core does not assign default ZMQ bind ports; the port only exists if you set the corresponding `bitcoinpurple.conf` value. | `bitcoinpurple.conf` key | Recommended local port | Payload | |--------------------------|------------------------|---------| | `zmqpubrawblock` | `28332` | full serialised block | | `zmqpubrawtx` | `28333` | raw transaction (mempool + confirmed) | | `zmqpubhashblock` | `28334` | 32-byte block hash | | `zmqpubhashtx` | `28335` | 32-byte tx hash | Prevent dropped messages under load: ```ini zmqpubrawblockhwm=500 zmqpubrawtxhwm=500 ``` --- ## 7. Electrum Wallet (`constants.py`) Reference for building an Electrum wallet fork targeting BTCP. Modelled after the `AbstractNet` interface (see `pallectrum` for a working example). ### 7.1 Parameter Table | Field | Mainnet | Testnet | Source / Note | |-------|---------|---------|---------------| | `NET_NAME` | `"bitcoinpurple"` | `"testnet"` | wallet data subfolder | | `TESTNET` | `False` | `True` | | | `WIF_PREFIX` | `0xb7` (183) | `0xb7` (183) | same on both — `chainparams.cpp:156/266` | | `ADDRTYPE_P2PKH` | `56` | `56` | addresses start with `P` | | `ADDRTYPE_P2SH` | `55` | `55` | addresses start with `P` | | `SEGWIT_HRP` | `"btcp"` | `"tbtcp"` | Bech32 human-readable part | | `BOLT11_HRP` | `"btcp"` | `"tbtcp"` | LN invoice prefix | | `GENESIS` | `000003823f…c015` | `000002fdc3…d998` | full hashes in §2.5 / §3 | | `DEFAULT_PORTS` | `{'t':'50001','s':'50002'}` | `{'t':'60001','s':'60002'}` | | | `BIP44_COIN_TYPE` | **TBD / private project constant** | `1` | not registered for BitcoinPurple — see note | | `LN_REALM_BYTE` | `0` | `1` | LN DNS realm byte; unused while `LN_DNS_SEEDS=[]` | | `LN_DNS_SEEDS` | `[]` | `[]` | no LN seeds configured | | `SKIP_POW_DIFFICULTY_VALIDATION` | `False` only after BTCP retarget support | `False` only after BTCP retarget support | see §7.7 | | `POW_TARGET_SPACING` | `60` | `60` | seconds per block | | `COINBASE_MATURITY` | `100` | `100` | blocks before coinbase is spendable | | `BLOCK_HEIGHT_FIRST_LIGHTNING_CHANNELS` | `0` | `0` | allowed from genesis if LN is enabled | > **BIP44 coin type:** BitcoinPurple has no SLIP-0044 entry. `BTCP` at index > `183` is already assigned to Bitcoin Private, so do not reuse it for > BitcoinPurple. In Electrum constants, store the non-hardened index > (`0 <= value < 0x80000000`); wallet derivation code adds the hardened bit when > building paths such as `m/44'/COIN_TYPE'/0'`. Use one project-wide provisional > integer until an official SLIP-0044 slot is registered. The `13496` value below > is a project-local placeholder chosen to match the BTCP P2P port, not a > registered SLIP-0044 value. ### 7.2 `constants.py` Class Definitions ```python # constants.py — BitcoinPurple network definitions for an Electrum wallet fork # Drop these classes into electrum/constants.py alongside BitcoinMainnet. class BitcoinPurple(AbstractNet): NET_NAME = "bitcoinpurple" TESTNET = False # Address & key encoding WIF_PREFIX = 0xb7 # 183 — chainparams.cpp:156 ADDRTYPE_P2PKH = 56 # 0x38 — chainparams.cpp:154 ADDRTYPE_P2SH = 55 # 0x37 — chainparams.cpp:155 SEGWIT_HRP = "btcp" # chainparams.cpp:160 BOLT11_HRP = SEGWIT_HRP GENESIS = "000003823fbf82ea4906cbe214617ce7a70a5da29c19ecb1d65618bcf04ec015" DEFAULT_PORTS = {'t': '50001', 's': '50002'} # Consensus COINBASE_MATURITY = 100 # consensus/consensus.h:19 POW_TARGET_SPACING = 60 # 60-second blocks # BIP44 coin type — not registered in SLIP-0044 BIP44_COIN_TYPE = 13496 # provisional private constant; update when registered # Lightning. Height 0 means "allowed from genesis" in Electrum. BLOCK_HEIGHT_FIRST_LIGHTNING_CHANNELS = 0 LN_REALM_BYTE = 0 LN_DNS_SEEDS = [] # PoW validation — requires BTCP's 120-block retarget implementation. SKIP_POW_DIFFICULTY_VALIDATION = False # SLIP-0132 HD key version bytes — identical to Bitcoin mainnet # BTCP mainnet uses the same BIP32 root bytes: 0488B21E / 0488ADE4 XPRV_HEADERS = { 'standard': 0x0488ade4, # xprv 'p2wpkh-p2sh': 0x049d7878, # yprv 'p2wsh-p2sh': 0x0295b005, # Yprv 'p2wpkh': 0x04b2430c, # zprv 'p2wsh': 0x02aa7a99, # Zprv } XPRV_HEADERS_INV = inv_dict(XPRV_HEADERS) XPUB_HEADERS = { 'standard': 0x0488b21e, # xpub 'p2wpkh-p2sh': 0x049d7cb2, # ypub 'p2wsh-p2sh': 0x0295b43f, # Ypub 'p2wpkh': 0x04b24746, # zpub 'p2wsh': 0x02aa7ed3, # Zpub } XPUB_HEADERS_INV = inv_dict(XPUB_HEADERS) class BitcoinPurpleTestnet(BitcoinPurple): NET_NAME = "testnet" TESTNET = True # Testnet uses the same address/WIF prefixes as mainnet (see chainparams) WIF_PREFIX = 0xb7 # chainparams.cpp:266 ADDRTYPE_P2PKH = 56 # chainparams.cpp:264 ADDRTYPE_P2SH = 55 # chainparams.cpp:265 SEGWIT_HRP = "tbtcp" # chainparams.cpp:270 BOLT11_HRP = SEGWIT_HRP GENESIS = "000002fdc3921c1ad368816fcc587f499698d42b42ab5a5d94ee67882ef9d998" DEFAULT_PORTS = {'t': '60001', 's': '60002'} BIP44_COIN_TYPE = 1 # standard testnet coin type LN_REALM_BYTE = 1 # SLIP-0132 — standard Bitcoin testnet values (BIP32 root: 043587CF / 04358394) XPRV_HEADERS = { 'standard': 0x04358394, # tprv 'p2wpkh-p2sh': 0x044a4e28, # uprv 'p2wsh-p2sh': 0x024285b5, # Uprv 'p2wpkh': 0x045f18bc, # vprv 'p2wsh': 0x02575048, # Vprv } XPRV_HEADERS_INV = inv_dict(XPRV_HEADERS) XPUB_HEADERS = { 'standard': 0x043587cf, # tpub 'p2wpkh-p2sh': 0x044a5262, # upub 'p2wsh-p2sh': 0x024289ef, # Upub 'p2wpkh': 0x045f1cf6, # vpub 'p2wsh': 0x02575483, # Vpub } XPUB_HEADERS_INV = inv_dict(XPUB_HEADERS) ``` ### 7.3 Derivation Paths (BIP44 / 49 / 84 / 86) Standard HD paths for each script type. Replace `COIN_TYPE` with the registered value (TBD — see §7.1 note). | BIP | Script type | Path template | xpub/xprv prefix | |-----|-------------|---------------|-----------------| | BIP44 | P2PKH (legacy) | `m/44'/COIN_TYPE'/0'/0/n` | `xpub` / `xprv` | | BIP49 | P2WPKH-P2SH (wrapped SegWit) | `m/49'/COIN_TYPE'/0'/0/n` | `ypub` / `yprv` | | BIP84 | P2WPKH (native SegWit) | `m/84'/COIN_TYPE'/0'/0/n` | `zpub` / `zprv` | | BIP86 | P2TR (Taproot) | `m/86'/COIN_TYPE'/0'/0/n` | `xpub` / `xprv` or descriptors | - `ACCOUNT` = `0'` (first account, hardened) - `CHANGE` = `0` (receive) or `1` (change) - `INDEX` = address index (unhardened) ### 7.4 Checkpoints (`checkpoints.json`) Electrum uses checkpoints for SPV header chain verification. The file lives at `electrum/chains/bitcoinpurple/checkpoints.json`. Format: a JSON array of `[header_hash_hex, accumulated_work_int]` pairs, one entry per 2016-block chunk. Chunk `n` covers blocks `n*2016` to `(n+1)*2016-1`. ```json [ [ "000003823fbf82ea4906cbe214617ce7a70a5da29c19ecb1d65618bcf04ec015", 1048592 ] ] ``` The first entry (chunk 0) is the genesis block hash with its accumulated PoW work (`0x00000000000000000000000000000000000000000000074e7000dc41ac550926` — from `nMinimumChainWork` in chainparams.cpp:104, updated at block 1,048,808). **To generate a full checkpoints.json** from a running node: ```python import json, subprocess, math def get_header(height): h = subprocess.check_output( ['bitcoinpurple-cli', 'getblockhash', str(height)]).decode().strip() return subprocess.check_output( ['bitcoinpurple-cli', 'getblockheader', h, 'true']).decode() checkpoints = [] tip = int(subprocess.check_output( ['bitcoinpurple-cli', 'getblockcount']).decode().strip()) for chunk in range(tip // 2016 + 1): height = chunk * 2016 import json as _j header = _j.loads(get_header(height)) checkpoints.append([header['hash'], int(header['chainwork'], 16)]) print(json.dumps(checkpoints, indent=2)) ``` ### 7.5 `servers.json` Format Place at `electrum/chains/bitcoinpurple/servers.json` (mainnet) and `electrum/chains/testnet/servers.json` (testnet). ```json { "your-server.example.com": { "pruning": "-", "s": "50002", "t": "50001", "version": "1.4.2" } } ``` | Field | Meaning | |-------|---------| | key | hostname or IP of the ElectrumX server | | `"pruning"` | `"-"` = full node; a number = pruned at that height | | `"s"` | SSL port | | `"t"` | TCP plain port | | `"version"` | minimum Electrum protocol version required | ### 7.6 Dust Thresholds Minimum output values below which an output is considered "dust" and non-standard. These are the same as Bitcoin since BTCP uses identical script formats. | Script type | Dust limit | Policy fee rate | |-------------|-----------|-----------------| | P2PKH | 546 sat | `DUST_RELAY_TX_FEE` = 3000 sat/kvB (`src/policy/policy.h:55`) | | P2WPKH (native SegWit) | 294 sat | same | | P2WSH | 330 sat | same | | P2TR (Taproot) | 294 sat | same | | `OP_RETURN` | 0 (unspendable) | max 83 bytes (`src/script/standard.h:34`) | ### 7.7 Electrum Header Verification Do not reuse Bitcoin's 2016-block difficulty verification logic unchanged. BTCP uses Bitcoin-style compact targets and double-SHA256 proof-of-work, but retargets every 120 blocks with a 7,200 second target timespan. Wallet constants / chain-verifier values: ```python POW_LIMIT = int( "00000fffffffffffffffffffffffffffffffffffffffffffffffffffffffffff", 16 ) TARGET_SPACING = 60 TARGET_TIMESPAN = 120 * 60 DIFFICULTY_ADJUSTMENT_INTERVAL = 120 MAX_ADJUSTMENT_FACTOR = 4 ``` Header validation must perform: 1. Verify `double_sha256(header) <= target_from_nbits(header.bits)`. 2. Verify target is `> 0` and `<= POW_LIMIT`. 3. If `height % 120 != 0`, require `header.bits == previous.bits`. 4. If `height % 120 == 0`, compute expected `bits` from the previous 120-block window using the §2.7 formula. 5. Verify each header links to the previous header hash. 6. Use `GENESIS` to anchor the chain and `checkpoints.json` to accelerate SPV verification. If the Electrum fork does not yet implement BTCP's 120-block retarget logic, set `SKIP_POW_DIFFICULTY_VALIDATION = True` temporarily for development only. Do not ship a production wallet with difficulty validation disabled. ### 7.8 Electrum Wallet Build Checklist Files that must be added or changed in an Electrum fork: | File / area | Required BTCP change | |-------------|----------------------| | `electrum/constants.py` | Add `BitcoinPurple` and `BitcoinPurpleTestnet` classes | | `electrum/chains/bitcoinpurple/servers.json` | Add real ElectrumX host(s), ports `50001` / `50002` | | `electrum/chains/bitcoinpurple/checkpoints.json` | Generate from a synced BTCP node | | header chain verifier | Use 120-block retarget and BTCP `powLimit` | | address module | Accept Base58 versions 56/55 and Bech32 HRP `btcp` | | transaction/wallet formats | Use BTCP provisional BIP44 coin type consistently | | Lightning invoice parser | Accept `lnbtcp` / `lntbtcp` BOLT11 prefixes if LN is enabled | | UI/network selector | Expose BitcoinPurple mainnet/testnet names and datadirs | --- ## 8. Lightning Network This section documents the chain-specific parameters required to build or fork a Lightning Network implementation for BTCP. General BOLT protocol behaviour (onion routing, payment flow, gossip) is identical to Bitcoin LN. ### 8.1 Chain Identification In BOLT1, every message that references a specific chain carries a `chain_hash`. This is the genesis block hash in **wire byte order** (i.e. the display hex reversed byte-by-byte). | Network | Genesis hash (display) | chain_hash (BOLT1 wire) | |---------|------------------------|-------------------------| | Mainnet | `000003823fbf82ea…c015` | `15c04ef0bc1856d6b1ec199ca25d0aa7e77c6114e2cb0649ea82bf3f82030000` | | Testnet | `000002fdc3921c1a…d998` | `98d9f92e8867ee945d5aab422bd49896497f58cc6f8168d31a1c92c3fd020000` | The `chain_hash` appears in channel-establishment, channel-gossip, and gossip-query messages such as `open_channel`, `accept_channel`, `funding_created`, `channel_announcement`, `channel_update`, `query_channel_range`, and `reply_channel_range`. BOLT11 invoices do not normally carry `chain_hash`; their network is selected by the invoice HRP. ### 8.2 BOLT11 Invoice Prefix | Network | HRP | Example invoice start | |---------|-----|-----------------------| | Mainnet | `btcp` | `lnbtcp1…` | | Testnet | `tbtcp` | `lntbtcp1…` | Amount suffix multipliers (same as Bitcoin): | Multiplier | Value | |------------|-------| | `m` | 0.001 BTCP (100,000 sat) | | `u` | 0.000001 BTCP (100 sat) | | `n` | 0.000000001 BTCP (0.1 sat) | | `p` | 0.000000000001 BTCP (0.0001 sat) | ### 8.3 Block-Time-Scaled Timeout Parameters **This is the most critical section for LN on BTCP.** BTCP has 1-minute blocks (vs Bitcoin's 10-minute blocks). All LN timeout parameters expressed in blocks must be scaled by ×10 to achieve the same real-world security windows as Bitcoin LN. Failure to do this results in dangerously short penalty and payment expiry windows. | Parameter | Source type | Bitcoin common default | BTCP recommended (1 min/block) | Real-world time | |-----------|----------|------------------------|-------------------------------|-----------------| | `to_self_delay` (justice window) | implementation policy | 144 blocks | **1440 blocks** | ~24 hours | | `cltv_expiry_delta` per routing hop | implementation policy / BOLT7 field | 40 blocks | **400 blocks** | ~6.7 hours | | `min_final_cltv_expiry_delta` (last hop) | implementation policy / BOLT11 field | 9 blocks | **90 blocks** | ~90 minutes | | maximum remote `to_self_delay` accepted | BOLT2 policy limit | 2016 blocks | **20160 blocks** | ~14 days | | `max_cltv_expiry` (max payment timeout) | implementation policy | 2016 blocks | **20160 blocks** | ~14 days | | Channel funding confirmation target | best practice | 3–6 blocks | **30–60 blocks** | ~30–60 minutes | > **Why this matters:** if a remote party broadcasts a revoked commitment transaction, > your node has until `to_self_delay` blocks to publish the penalty transaction. > With 1-min blocks and Bitcoin's default of 144, you would have only 2.4 hours. > Using the recommended 1440 gives a full 24 hours — the same window as Bitcoin. ### 8.4 Channel Parameters These match Bitcoin LN defaults and do not need to change for BTCP. | Parameter | Value | Note | |-----------|-------|------| | `dust_limit_satoshis` | 354 sat (P2WPKH anchor) or 546 sat (legacy) | minimum output in commitment tx | | `max_htlc_value_in_flight_msat` | 0 (unlimited) or % of capacity | channel-operator choice | | `max_accepted_htlcs` | 483 | BOLT3 protocol maximum (script complexity limit) | | `htlc_minimum_msat` | 1 msat | minimum HTLC size | | `channel_reserve_satoshis` | ~1% of channel capacity (min 1000 sat) | reserves the counterparty cannot spend | | `fee_base_msat` | 1000 (1 sat) | routing fee base | | `fee_proportional_millionths` | 1 (0.0001%) | routing fee rate | | `feerate_per_kw` | node-determined | initial commitment transaction fee rate | ### 8.5 Feature Bits (BOLT1 `init`) LN feature bits are chain-agnostic; BTCP uses the same bit assignments as Bitcoin LN. | Feature | Bit pair | Status | |---------|----------|--------| | `var_onion_optin` | 8/9 | mandatory | | `option_static_remotekey` | 12/13 | mandatory | | `payment_secret` | 14/15 | mandatory | | `basic_mpp` (multi-part payments) | 16/17 | optional | | `option_anchors_zero_fee_htlc_tx` | 22/23 | optional (preferred over legacy anchors) | | `option_scid_alias` | 46/47 | optional | | `option_zero_conf` | 50/51 | optional | ### 8.6 Shared Implementation Fork Notes All major LN implementations (LND, CLN, Eclair, LDK) hardcode Bitcoin's chain hash. Forking any of them for BTCP requires at minimum: 1. Replace the genesis hash / chain_hash constant with the BTCP value (§8.1) 2. Replace the BOLT11 invoice HRP with `btcp` (§8.2) 3. Update all block-count-based timeout defaults (§8.3) 4. Point the Bitcoin RPC backend to `bitcoinpurpled` on port `13495` 5. Update the network / bech32 address validation to accept `btcp1…` addresses Also update any constants derived from Bitcoin's 10-minute block cadence: confirmation targets, fee-estimation targets, CLTV deltas, wallet rescan lookbacks, channel announcement depth policy, and watchtower/penalty windows. ### 8.7 Core Lightning (CLN) Fork Parameters Core Lightning is Bitcoin-specific upstream. A BTCP fork needs a new chain definition or equivalent patches wherever CLN selects `bitcoin`, `testnet`, `signet`, or `regtest`. | Area | BTCP mainnet value / action | |------|-----------------------------| | Network name | add `bitcoinpurple` / `btcp` network selector | | Chain hash | `15c04ef0bc1856d6b1ec199ca25d0aa7e77c6114e2cb0649ea82bf3f82030000` | | On-chain RPC backend | `bitcoinpurple-cli` / `bitcoinpurpled` RPC on `127.0.0.1:13495` | | Bech32 address HRP | `btcp` | | BOLT11 HRP | `btcp` (`lnbtcp...`) | | Native unit | 1 BTCP = 100,000,000 sat; 1 sat = 1,000 msat | | Genesis display hash | `000003823fbf82ea4906cbe214617ce7a70a5da29c19ecb1d65618bcf04ec015` | | P2P gossip chain filter | accept only BTCP `chain_hash` | | Fee estimates | call BTCP daemon `estimatesmartfee`; scale targets for 1-minute blocks | | Confirmation policy | use 30-60 blocks where you want Bitcoin-like 30-60 minute confidence | | Timeout defaults | use §8.3 scaled block counts | | DNS bootstrap | empty until BTCP LN seed infrastructure exists | CLN does not require Bitcoin Core ZMQ or `txindex=1` for normal operation; it polls the backend over RPC. If CLN and ElectrumX share one `bitcoinpurpled`, increase `rpcworkqueue` and monitor RPC latency. ### 8.8 LND Fork Parameters LND uses btcsuite chain parameters and Bitcoin-specific network selection. A BTCP fork needs equivalent new `chaincfg` / chain registry parameters. | Area | BTCP mainnet value / action | |------|-----------------------------| | Chain registry | add BitcoinPurple params instead of `chaincfg.MainNetParams` | | RPC backend | `bitcoind`-style backend pointed to `bitcoinpurpled:13495` | | ZMQ raw block | `bitcoind.zmqpubrawblock=tcp://127.0.0.1:28332` if using ZMQ | | ZMQ raw tx | `bitcoind.zmqpubrawtx=tcp://127.0.0.1:28333` if using ZMQ | | Address params | P2PKH 56, P2SH 55, Bech32 `btcp`, WIF 183 | | Chain hash | same §8.1 wire value | | Invoice HRP | `btcp` | | Coin type | use the same provisional Electrum value until SLIP-0044 registration | | Timeout defaults | use §8.3 scaled block counts | | Fee estimator | ensure targets are interpreted as 1-minute BTCP blocks | Unlike ElectrumX, LND normally benefits from ZMQ for prompt block/transaction notifications. If ZMQ is omitted, use the implementation's RPC polling mode and expect higher latency. ### 8.9 Lightning Difficulty / Block Cadence Implications LN implementations do not recalculate proof-of-work difficulty themselves for normal operation; the full node validates blocks. The LN daemon consumes validated block headers/blocks from `bitcoinpurpled` and uses block heights for timeouts. What must still be changed in LN code: - Treat one BTCP block as ~60 seconds when converting user-facing time windows to block counts. - Use BTCP's `chain_hash` everywhere gossip or channel messages identify a chain. - Use BTCP's address and BOLT11 HRPs for invoices, fallback addresses, and on-chain outputs. - Do not connect to Bitcoin LN peers or DNS seeds; BTCP LN needs its own network graph and bootstrap peers. --- ## 9. `bitcoinpurple.conf` Reference ### 9.1 Default Values | Parameter | Default | Source | |-----------|---------|--------| | `dbcache` | 450 MiB | `src/txdb.h:30` | | `maxmempool` | 300 MB | `src/kernel/mempool_options.h:20` | | `mempoolexpiry` | 336 h (14 days) | `src/kernel/mempool_options.h:24` | | `blockmaxweight` | 3,996,000 wu | `src/policy/policy.h:23` | | `rpcthreads` | 4 | `src/httpserver.h:12` | | `rpcworkqueue` | 16 | `src/httpserver.h:13` | | `rpcservertimeout` | 30 s | `src/httpserver.h:14` | | `maxconnections` | 125 | `src/net.h` | ### 9.2 Full Annotated Config ```ini ############################################################################## # bitcoinpurple.conf — full node + solo mining + ElectrumX backend # Location: ~/.bitcoinpurple/bitcoinpurple.conf ############################################################################## # ── Network ────────────────────────────────────────────────────────────────── # mainnet by default; uncomment for testnet #testnet=1 listen=1 maxconnections=125 # addnode=node3.walletbuilders.com # ── Chain & Indexes ─────────────────────────────────────────────────────────── # txindex=1 is REQUIRED by ElectrumX — incompatible with prune txindex=1 # blockfilterindex=1 # optional: BIP157/158 compact filters for light clients # prune=0 # never prune when txindex=1 # ── Performance ─────────────────────────────────────────────────────────────── dbcache=450 # MiB (default: 450; raise on high-RAM machines) maxmempool=300 # MB (default: 300) mempoolexpiry=336 # hours before unconfirmed txs are evicted (default: 336 = 14 days) # ── RPC Server (required by ElectrumX) ─────────────────────────────────────── server=1 rpcport=13495 rpcbind=127.0.0.1 rpcallowip=127.0.0.1 # set to container subnet when ElectrumX is in Docker rpcuser=btcpuser rpcpassword=CHANGE_ME_USE_STRONG_PASSWORD rpcthreads=4 rpcworkqueue=64 # raised from default 16 for ElectrumX parallel RPC calls rpcservertimeout=30 # ── ZMQ Notifications (optional real-time updates) ─────────────────────────── zmqpubrawblock=tcp://127.0.0.1:28332 zmqpubrawtx=tcp://127.0.0.1:28333 zmqpubhashblock=tcp://127.0.0.1:28334 zmqpubhashtx=tcp://127.0.0.1:28335 zmqpubrawblockhwm=500 zmqpubrawtxhwm=500 zmqpubhashblockhwm=500 zmqpubhashtxhwm=500 # ── Mining ──────────────────────────────────────────────────────────────────── # MAX_BLOCK_WEIGHT = 4,000,000 wu (consensus/consensus.h:15) blockmaxweight=3996000 blockmintxfee=0.00001 # blocknotify=/usr/local/bin/notify_new_block.sh %s # ── Wallet (disable if mining to an external address via getblocktemplate) ─── # disablewallet=1 ``` ### 9.3 Notes - **`txindex=1` and `prune` are mutually exclusive.** ElectrumX requires `txindex=1`. - **ZMQ** requires `--enable-zmq` at build time. Verify: `bitcoinpurple-cli getnetworkinfo | grep zmq`. ElectrumX can index through RPC polling; LND-style backends usually use ZMQ for low-latency block/tx notifications. - **Solo mining** via `getblocktemplate` (BIP22): point your miner to `http://btcpuser:CHANGE_ME@127.0.0.1:13495`. - **Docker networking:** set `rpcallowip` to the container subnet (e.g. `172.17.0.0/16`) when ElectrumX runs in a separate container. - **LN node:** the LN daemon also connects to `bitcoinpurpled` via RPC. Set `rpcworkqueue` high enough (128+) if both ElectrumX and an LN node share the same node instance. ### 9.4 Minimal ElectrumX `env` (standalone / non-Docker) ```env COIN=BitcoinPurple NET=mainnet DAEMON_URL=http://btcpuser:CHANGE_ME@127.0.0.1:13495/ DB_DIRECTORY=/data/electrumx SERVICES=tcp://0.0.0.0:50001,ssl://0.0.0.0:50002,rpc://0.0.0.0:8000 REPORT_SERVICES=tcp://YOUR_PUBLIC_IP:50001,ssl://YOUR_PUBLIC_IP:50002 SSL_CERTFILE=/certs/server.crt SSL_KEYFILE=/certs/server.key CACHE_MB=1200 MAX_SESSIONS=1000 INITIAL_CONCURRENT=2 COST_SOFT_LIMIT=0 COST_HARD_LIMIT=0 PEER_DISCOVERY=on PEER_ANNOUNCE=true ```