#!/usr/bin/env python3 # # mmgen = Multi-Mode GENerator, command-line Bitcoin cold storage solution # Copyright (C)2013-2021 The MMGen Project # # This program is free software: you can redistribute it and/or modify it under # the terms of the GNU General Public License as published by the Free Software # Foundation, either version 3 of the License, or (at your option) any later # version. # # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU General Public License for more # details. # # You should have received a copy of the GNU General Public License along with # this program. If not, see . """ mmgen_node_tools.BlocksInfo: Display information about a block or range of blocks """ import re,json from collections import namedtuple from time import strftime,gmtime from mmgen.util import msg,Msg,Msg_r,die,suf,secs_to_ms,secs_to_dhms,is_int from mmgen.rpc import json_encoder class RangeParser: debug = False def __init__(self,caller,arg): self.caller = caller self.arg = self.orig_arg = arg def parse(self,target): ret = getattr(self,'parse_'+target)() if self.debug: msg(f'arg after parse({target}): {self.arg}') return ret def finalize(self): if self.arg: die(1,f'{self.orig_arg!r}: invalid range specifier') def parse_from_tip(self): m = re.match(r'-([0-9]+)(.*)',self.arg) if m: res,self.arg = (m[1],m[2]) return self.caller.check_nblocks(int(res)) def parse_abs_range(self): m = re.match(r'([^+-]+)(-([^+-]+)){0,1}(.*)',self.arg) if m: if self.debug: msg(f'abs_range parse: first={m[1]}, last={m[3]}') self.arg = m[4] return ( self.caller.conv_blkspec(m[1]), self.caller.conv_blkspec(m[3]) if m[3] else None ) return (None,None) def parse_add(self): m = re.match(r'\+([0-9*]+)(.*)',self.arg) if m: res,self.arg = (m[1],m[2]) if res.strip('*') != res: die(1,f"'+{res}': malformed nBlocks specifier") if len(res) > 30: die(1,f"'+{res}': overly long nBlocks specifier") return self.caller.check_nblocks(eval(res)) # res is only digits plus '*', so eval safe class BlocksInfo: total_bytes = 0 total_weight = 0 total_solve_time = 0 header_printed = False bf = namedtuple('block_info_fields',['fmt_func','src','fs','hdr1','hdr2','key1','key2']) # bh=getblockheader, bs=getblockstats, lo=local fields = { 'block': bf( None, 'bh', '{:<6}', '', 'Block', 'height', None ), 'hash': bf( None, 'bh', '{:<64}', '', 'Hash', 'hash', None ), 'date': bf( 'da', 'bh', '{:<19}', '', 'Date', 'time', None ), 'interval': bf( 'td', 'lo', '{:>8}', 'Solve', 'Time ', 'interval', None ), 'subsidy': bf( 'su', 'bs', '{:<5}', 'Sub-', 'sidy', 'subsidy', None ), 'totalfee': bf( 'tf', 'bs', '{:>10}', '', 'Total Fee', 'totalfee', None ), 'size': bf( None, 'bs', '{:>7}', '', 'Size', 'total_size', None ), 'weight': bf( None, 'bs', '{:>7}', '', 'Weight', 'total_weight', None ), 'fee90': bf( 'fe', 'bs', '{:>3}', '90%', 'Fee', 'feerate_percentiles', 4 ), 'fee75': bf( 'fe', 'bs', '{:>3}', '75%', 'Fee', 'feerate_percentiles', 3 ), 'fee50': bf( 'fe', 'bs', '{:>3}', '50%', 'Fee', 'feerate_percentiles', 2 ), 'fee25': bf( 'fe', 'bs', '{:>3}', '25%', 'Fee', 'feerate_percentiles', 1 ), 'fee10': bf( 'fe', 'bs', '{:>3}', '10%', 'Fee', 'feerate_percentiles', 0 ), 'fee_max': bf( 'fe', 'bs', '{:>5}', 'Max', 'Fee', 'maxfeerate', None ), 'fee_avg': bf( 'fe', 'bs', '{:>3}', 'Avg', 'Fee', 'avgfeerate', None ), 'fee_min': bf( 'fe', 'bs', '{:>3}', 'Min', 'Fee', 'minfeerate', None ), 'nTx': bf( None, 'bh', '{:>5}', '', ' nTx ', 'nTx', None ), 'inputs': bf( None, 'bs', '{:>5}', 'In- ', 'puts', 'ins', None ), 'outputs': bf( None, 'bs', '{:>5}', 'Out-', 'puts', 'outs', None ), 'utxo_inc': bf( None, 'bs', '{:>6}', ' UTXO', ' Incr', 'utxo_increase', None ), 'version': bf( None, 'bh', '{:<8}', '', 'Version', 'versionHex', None ), 'difficulty': bf( 'di', 'bh', '{:<8}', 'Diffi-','culty', 'difficulty', None ), 'miner': bf( None, 'lo', '{:<5}', '', 'Miner', 'miner', None ), } dfl_fields = ( 'block', 'date', 'interval', 'subsidy', 'totalfee', 'size', 'weight', 'fee50', 'fee25', 'fee10', 'fee_avg', 'fee_min', 'version', ) fixed_fields = ( 'block', # until ≈ 09/01/2028 (block 1000000) 'hash', 'date', 'size', # until ≈ 6x block size increase 'weight', # until ≈ 2.5x block size increase 'version', 'subsidy', # until ≈ 01/04/2028 (increases by 1 digit per halving until 9th halving [max 10 digits]) 'difficulty', # until 1.00e+100 (i.e. never) ) # column width adjustment data: fs_lsqueeze = ('totalfee','inputs','outputs','nTx') fs_rsqueeze = () fs_groups = ( ('fee10','fee25','fee50','fee75','fee90','fee_avg','fee_min','fee_max'), ) fs_lsqueeze2 = ('interval',) all_stats = ['col_avg','range','avg','mini_avg','total','diff'] dfl_stats = ['range','mini_avg','diff'] noindent_stats = ['col_avg'] avg_stats_skip = {'block', 'hash', 'date', 'version','miner'} range_data = namedtuple('parsed_range_data',['first','last','from_tip','nblocks','step']) t_fmt = lambda self,t: f'{t/86400:.2f} days' if t > 172800 else f'{t/3600:.2f} hrs' @classmethod def parse_cslist(cls,uarg,full_set,dfl_set,desc): def make_list(m,func): groups_lc = [set(e.lower() for e in gi.split(',')) for gi in m.groups()] for group in groups_lc: for e in group: if e not in full_set_lc: die(1,f'{e!r}: unrecognized {desc}') # display elements in order: return [e for e in full_set if e.lower() in func(groups_lc)] full_set_lc = set(e.lower() for e in full_set) dfl_set_lc = set(e.lower() for e in dfl_set) cspat = r'(\w+(?:,\w+)*)' for pat,func in ( ( rf'{cspat}$', lambda g: g[0] ), ( rf'\+{cspat}$', lambda g: dfl_set_lc | g[0] ), ( rf'\-{cspat}$', lambda g: dfl_set_lc - g[0] ), ( rf'\+{cspat}\-{cspat}$', lambda g: ( dfl_set_lc | g[0] ) - g[1] ), ( rf'\-{cspat}\+{cspat}$', lambda g: ( dfl_set_lc - g[0] ) | g[1] ), ( rf'all\-{cspat}$', lambda g: full_set_lc - g[0] ) ): m = re.match(pat,uarg,re.ASCII|re.IGNORECASE) if m: return make_list(m,func) else: die(1,f'{uarg}: invalid parameter') def __init__(self,cfg,cmd_args,rpc): def parse_cs_uarg(uarg,full_set,dfl_set,desc): return ( full_set if uarg == 'all' else [] if uarg == 'none' else self.parse_cslist(uarg,full_set,dfl_set,desc) ) def get_fields(): return parse_cs_uarg(self.cfg.fields,list(self.fields),self.dfl_fields,'field') def get_stats(): return parse_cs_uarg(self.cfg.stats.lower(),self.all_stats,self.dfl_stats,'stat') def parse_cmd_args(): # => (block_list, first, last, step) if not cmd_args: return (None,self.tip,self.tip,None) elif len(cmd_args) == 1: r = self.parse_rangespec(cmd_args[0]) return ( list(range(r.first,r.last+1,r.step)) if r.step else None, r.first, r.last, r.step ) else: return ([self.conv_blkspec(a) for a in cmd_args],None,None,None) self.cfg = cfg self.rpc = rpc self.tip = rpc.blockcount from_satoshi = self.rpc.proto.coin_amt.satoshi to_satoshi = 1 / from_satoshi self.block_list,self.first,self.last,self.step = parse_cmd_args() have_segwit = self.rpc.info('segwit_is_active') if not have_segwit: del self.fields['weight'] self.dfl_fields = tuple(f for f in self.dfl_fields if f != 'weight') self.stats_deps = { 'avg': set(self.fields) - self.avg_stats_skip, 'col_avg': set(self.fields) - self.avg_stats_skip, 'mini_avg': {'interval','size'} | ({'weight'} if have_segwit else set()), 'total': {'interval','subsidy','totalfee','nTx','inputs','outputs','utxo_inc'}, 'range': {}, 'diff': {}, } self.fmt_funcs = { 'da': lambda arg: strftime('%Y-%m-%d %X',gmtime(arg)), 'td': lambda arg: ( '-{:02}:{:02}'.format(abs(arg)//60,abs(arg)%60) if arg < 0 else ' {:02}:{:02}'.format(arg//60,arg%60) ), 'tf': lambda arg: '{:.8f}'.format(arg * from_satoshi), 'su': lambda arg: str(arg * from_satoshi).rstrip('0').rstrip('.'), 'fe': lambda arg: str(arg), 'di': lambda arg: '{:.2e}'.format(arg), } if self.cfg.coin == 'BCH': self.fmt_funcs.update({ 'su': lambda arg: str(arg).rstrip('0').rstrip('.'), 'fe': lambda arg: str(int(arg * to_satoshi)), 'tf': lambda arg: '{:.8f}'.format(arg), }) self.fnames = tuple( [f for f in self.fields if self.fields[f].src == 'bh' or f == 'interval'] if self.cfg.header_info else get_fields() if self.cfg.fields else self.dfl_fields ) if self.cfg.miner_info and 'miner' not in self.fnames: self.fnames += ('miner',) self.stats = get_stats() if self.cfg.stats else self.dfl_stats # Display diff stats by default only if user-requested range ends with chain tip if 'diff' in self.stats and not self.cfg.stats and self.last != self.tip: self.stats.remove('diff') if {'avg','col_avg'} <= set(self.stats) and self.cfg.stats_only: self.stats.remove('col_avg') if {'avg','mini_avg'} <= set(self.stats): self.stats.remove('mini_avg') if self.cfg.full_stats: add_fnames = {fname for sname in self.stats for fname in self.stats_deps[sname]} self.fnames = tuple(f for f in self.fields if f in {'block'} | set(self.fnames) | add_fnames ) else: if 'col_avg' in self.stats and not self.fnames: self.stats.remove('col_avg') # self.fnames is now finalized self.fvals = [self.fields[name] for name in self.fnames] self.fs = ''.join(self.gen_fs(self.fnames)).strip() self.bs_keys = set( [v.key1 for v in self.fvals if v.src == 'bs'] + ['total_size'] + (['total_weight'] if have_segwit else []) ) if 'miner' in self.fnames: # capturing parens must contain only ASCII chars! self.miner_pats = [re.compile(pat) for pat in ( rb'`/([_a-zA-Z0-9&. #/-]+)/', rb'[\xe3\xe4\xe5][\^/]([\x20-\x7e]+?)\xfa', rb'([a-zA-Z0-9&. -]+/Mined by [a-zA-Z0-9. ]+)', rb'\x08/(.*Mined by [a-zA-Z0-9. ]+)', rb'Mined by ([a-zA-Z0-9. ]+)', rb'[`]([_a-zA-Z0-9&. #/-]+)[/\xfa]', rb'([\x20-\x7e]{9,})', rb'[/^]([a-zA-Z0-9&. #/-]{5,})', rb'[/^]([_a-zA-Z0-9&. #/-]+)/', rb'^\x03...\W{0,5}([\\_a-zA-Z0-9&. #/-]+)[/\\]', )] self.block_data = namedtuple('block_data',self.fnames) self.deps = { v.src for v in self.fvals } def gen_fs(self,fnames,fill=[],fill_char='-',add_name=False): for i in range(len(fnames)): name = fnames[i] ls = (' ','')[name in self.fs_lsqueeze + self.fs_lsqueeze2] rs = (' ','')[name in self.fs_rsqueeze] if i < len(fnames) - 1 and fnames[i+1] in self.fs_lsqueeze2: rs = '' if i: for group in self.fs_groups: if name in group and fnames[i-1] in group: ls = '' break repl = (name if add_name else '') + ':' + (fill_char if name in fill else '') yield (ls + self.fields[name].fs.replace(':',repl) + rs) def conv_blkspec(self,arg): if str(arg).lower() == 'cur': return self.tip elif is_int(arg): if int(arg) < 0: die(1,f'{arg}: block number must be non-negative') elif int(arg) > self.tip: die(1,f'{arg}: requested block height greater than current chain tip!') else: return int(arg) else: die(1,f'{arg}: invalid block specifier') def check_nblocks(self,arg): if arg <= 0: die(1,'nBlocks must be a positive integer') elif arg > self.tip: die(1, f"'{arg}': nBlocks must be less than current chain height") return arg def parse_rangespec(self,arg): p = RangeParser(self,arg) from_tip = p.parse('from_tip') first,last = (self.tip-from_tip,None) if from_tip else p.parse('abs_range') add1 = p.parse('add') add2 = p.parse('add') p.finalize() if add2 and last is not None: die(1,f'{arg!r}: invalid range specifier') nblocks,step = (add1,add2) if last is None else (None,add1) if p.debug: msg(repr(self.range_data(first,last,from_tip,nblocks,step))) if nblocks: if first == None: first = self.tip - nblocks + 1 last = first + nblocks - 1 first = self.conv_blkspec(first) last = self.conv_blkspec(last or first) if p.debug: msg(repr(self.range_data(first,last,from_tip,nblocks,step))) if first > last: die(1,f'{first}-{last}: invalid block range') return self.range_data(first,last,from_tip,nblocks,step) async def process_blocks(self): async def get_hdrs(heights): hashes = await c.gathered_call('getblockhash',[(height,) for height in heights]) return await c.gathered_call('getblockheader',[(H,) for H in hashes]) c = self.rpc heights = self.block_list or range(self.first,self.last+1) self.hdrs = await get_hdrs(heights) if self.block_list: self.prev_hdrs = await get_hdrs([(n-1 if n else 0) for n in self.block_list]) self.first_prev_hdr = self.prev_hdrs[0] else: self.first_prev_hdr = ( self.hdrs[0] if heights[0] == 0 else await c.call('getblockheader',await c.call('getblockhash',heights[0]-1)) ) self.t_cur = self.first_prev_hdr['time'] self.res = [] for n in range(len(heights)): if self.block_list: self.t_cur = self.prev_hdrs[n]['time'] ret = await self.process_block(self.hdrs[n]) self.res.append(ret) if self.fnames and not self.cfg.stats_only: self.output_block(ret,n) def output_block(self,data,n): def gen(): for k,v in data._asdict().items(): func = self.fields[k].fmt_func yield self.fmt_funcs[func](v) if func else v Msg(self.fs.format(*gen())) async def process_block(self,hdr): self.t_diff = hdr['time'] - self.t_cur self.t_cur = hdr['time'] self.total_solve_time += self.t_diff blk_data = { 'bh': hdr, 'lo': { 'interval': self.t_diff } } if 'bs' in self.deps: bs = ( self.genesis_stats if hdr['height'] == 0 else await self.rpc.call('getblockstats',hdr['hash'],list(self.bs_keys)) ) self.total_bytes += bs['total_size'] if 'total_weight' in bs: self.total_weight += bs['total_weight'] blk_data['bs'] = bs if 'miner' in self.fnames: blk_data['lo']['miner'] = '-' if hdr['height'] == 0 else await self.get_miner_string(hdr['hash']) def gen(): for v in self.fvals: yield ( blk_data[v.src][v.key1] if v.key2 is None else blk_data[v.src][v.key1][v.key2] ) return self.block_data(*gen()) async def get_miner_string(self,H): tx0 = (await self.rpc.call('getblock',H))['tx'][0] bd = await self.rpc.call('getrawtransaction',tx0,1) if type(bd) == tuple: return '---' else: cb = bytes.fromhex(bd['vin'][0]['coinbase']) if self.cfg.raw_miner_info: return repr(cb) else: trmap_in = { '\\': ' ', '/': ' ', ',': ' ', } trmap = { ord(a):b for a,b in trmap_in.items() } for pat in self.miner_pats: m = pat.search(cb) if m: return re.sub( r'\s+', ' ', m[1].decode().strip('^').translate(trmap).strip() ) return '' def print_header(self): Msg('\n'.join(self.gen_header())) self.header_printed = True def gen_header(self): hdr1 = [v.hdr1 for v in self.fvals] hdr2 = [v.hdr2 for v in self.fvals] if ''.join(hdr1): yield self.fs.format(*hdr1) yield self.fs.format(*hdr2) def process_stats(self,sname): method = getattr(self,f'create_{sname}_stats',None) return self.output_stats(method() if method else self.create_stats(sname),sname) def fmt_stat_item(self,fs,s): return fs.format(s) if type(fs) == str else fs(s) async def output_stats(self,res,sname): def gen(data): for d in data: if len(d) == 2: yield (indent+d[0]).format(**{k:self.fmt_stat_item(*v) for k,v in d[1].items()}) elif len(d) == 4: yield (indent+d[0]).format(self.fmt_stat_item(d[2],d[3])) elif type(d) == str: yield d else: assert False, f'{d}: invalid stats data' foo,data = await res indent = '' if sname in self.noindent_stats else ' ' Msg('\n'.join(gen(data))) async def create_range_stats(self): # These figures don’t include the Genesis Block: elapsed = self.hdrs[-1]['time'] - self.first_prev_hdr['time'] nblocks = self.hdrs[-1]['height'] - self.first_prev_hdr['height'] total_blks = len(self.hdrs) step_disp = f', nBlocks={total_blks}, step={self.step}' if self.step else '' def gen(): yield 'Range Statistics:' yield ( 'Range: {start}-{end} ({range} blocks [{elapsed}]%s)' % step_disp, { 'start': ('{}', self.hdrs[0]['height']), 'end': ('{}', self.hdrs[-1]['height']), 'range': ('{}', self.hdrs[-1]['height'] - self.hdrs[0]['height'] + 1), 'elapsed': (self.t_fmt, elapsed), 'nBlocks': ('{}', total_blks), 'step': ('{}', self.step), } ) if elapsed: yield ( 'Start: {}', 'start_date', self.fmt_funcs['da'], self.hdrs[0]['time'] ) yield ( 'End: {}', 'end_date', self.fmt_funcs['da'], self.hdrs[-1]['time'] ) yield ( 'Avg BDI: {} min', 'avg_bdi', '{:.2f}', elapsed / nblocks / 60 ) return ( 'range', gen() ) async def create_diff_stats(self): c = self.rpc rel = self.tip % self.rpc.proto.diff_adjust_interval tip_hdr = ( self.hdrs[-1] if self.hdrs[-1]['height'] == self.tip else await c.call('getblockheader',await c.call('getblockhash',self.tip)) ) min_sample_blks = 432 # ≈3 days rel_hdr = await c.call('getblockheader',await c.call('getblockhash',self.tip-rel)) if rel >= min_sample_blks: sample_blks = rel bdi = ( tip_hdr['time'] - rel_hdr['time'] ) / rel else: sample_blks = min(min_sample_blks,self.tip) start_hdr = await c.call('getblockheader',await c.call('getblockhash',self.tip-sample_blks)) diff_adj = float(tip_hdr['difficulty'] / start_hdr['difficulty']) time1 = rel_hdr['time'] - start_hdr['time'] time2 = tip_hdr['time'] - rel_hdr['time'] bdi = ((time1 * diff_adj) + time2) / sample_blks rem = self.rpc.proto.diff_adjust_interval - rel return ( 'difficulty', ( 'Difficulty Statistics:', ('Current height: {}', 'chain_tip', '{}', self.tip), ('Next diff adjust: {next_diff_adjust} (in {blks_remaining} block%s [{time_remaining}])' % suf(rem), { 'next_diff_adjust': ('{}', self.tip + rem), 'blks_remaining': ('{}', rem), 'time_remaining': (self.t_fmt, rem * bdi) } ), ('Avg BDI: {avg_bdi} min (over {sample_blks}-block period)', { 'avg_bdi': ('{:.2f}', bdi/60), 'sample_blks': ('{}', sample_blks) } ), ('Cur difficulty: {}', 'cur_diff', '{:.2e}', tip_hdr['difficulty']), ('Est. diff adjust: {}%', 'est_diff_adjust_pct', '{:+.2f}', ((600 / bdi) - 1) * 100), )) async def create_col_avg_stats(self): def gen(): for field in self.fnames: if field in self.avg_stats_skip: yield ( field, ('{}','') ) else: ret = sum(getattr(block,field) for block in self.res) // len(self.res) func = self.fields[field].fmt_func yield ( field, ( (self.fmt_funcs[func] if func else '{}'), ret )) if not self.header_printed: self.print_header() fs = ''.join(self.gen_fs(self.fnames,fill=self.avg_stats_skip,add_name=True)).strip() return ('column_averages', ('Column averages:', (fs, dict(gen())) )) def avg_stats_data(self,data,spec_conv,spec_val): coin = self.rpc.proto.coin return data( hdr = 'Averages for processed blocks:', func = lambda field: sum(getattr(block,field) for block in self.res) // len(self.res), spec_sufs = { 'subsidy': f' {coin}', 'totalfee': f' {coin}' }, spec_convs = { 'interval': spec_conv(0, lambda arg: secs_to_ms(arg)), 'utxo_inc': spec_conv(-1, '{:<+}'), 'mb_per_hour': spec_conv(0, '{}'), }, spec_vals = ( spec_val( 'mb_per_hour', 'MB/hr', 'interval', lambda values: 'bs' in self.deps, lambda values: ( '{:.4f}'.format((self.total_bytes / 10000) / (self.total_solve_time / 36)) if self.total_solve_time else 'N/A' ), ), ) ) mini_avg_stats_data = avg_stats_data def total_stats_data(self,data,spec_conv,spec_val): coin = self.rpc.proto.coin return data( hdr = 'Totals for processed blocks:', func = lambda field: sum(getattr(block,field) for block in self.res), spec_sufs = { 'subsidy': f' {coin}', 'totalfee': f' {coin}', 'reward': f' {coin}' }, spec_convs = { 'interval': spec_conv(0, lambda arg: secs_to_dhms(arg)), 'utxo_inc': spec_conv(-1, '{:<+}'), 'reward': spec_conv(0, self.fmt_funcs['tf']), }, spec_vals = ( spec_val( 'reward', 'Reward', 'totalfee', lambda values: {'subsidy','totalfee'} <= set(values), lambda values: values['subsidy'] + values['totalfee'] ), ) ) async def create_stats(self,sname): def convert_stats_hdr(field): v = self.fields[field] return '{} {}'.format(v.hdr1.strip(), v.hdr2.strip()).replace('- ','') if v.hdr1 else v.hdr2.strip() d = getattr(self,f'{sname}_stats_data')( namedtuple('stats_data',['hdr','func','spec_sufs','spec_convs','spec_vals']), namedtuple('spec_conv',['width_adj','conv']), namedtuple('spec_val',['name','lbl','insert_after','condition','code']) ) fnames = [n for n in self.fnames if n in self.stats_deps[sname]] lbls = {n:convert_stats_hdr(n) for n in fnames} values = {n:d.func(n) for n in fnames} col1_w = max((len(l) for l in lbls.values()),default=0) + 2 for v in d.spec_vals: if v.condition(values): try: idx = fnames.index(v.insert_after) + 1 except: idx = 0 fnames.insert(idx,v.name) lbls[v.name] = v.lbl values[v.name] = v.code(values) def gen(): for n,fname in enumerate(fnames): spec_conv = d.spec_convs.get(fname) yield ( '{lbl:{wid}} {{}}{suf}'.format( lbl = lbls[fname] + ':', wid = col1_w + (spec_conv.width_adj if spec_conv else 0), suf = d.spec_sufs.get(fname) or '' ), fname, spec_conv.conv if spec_conv else ( (lambda x: self.fmt_funcs[x] if x else '{}')(self.fields[fname].fmt_func) ), values[fname] ) return ( sname, (d.hdr,) + tuple(gen()) ) def process_stats_pre(self,i): if (self.fnames and not self.cfg.stats_only) or i != 0: Msg('') def finalize_output(self): pass # 'getblockstats' RPC raises exception on Genesis Block, so provide our own stats: genesis_stats = { 'avgfee': 0, 'avgfeerate': 0, 'avgtxsize': 0, 'feerate_percentiles': [ 0, 0, 0, 0, 0 ], 'height': 0, 'ins': 0, 'maxfee': 0, 'maxfeerate': 0, 'maxtxsize': 0, 'medianfee': 0, 'mediantxsize': 0, 'minfee': 0, 'minfeerate': 0, 'mintxsize': 0, 'outs': 1, 'subsidy': 5000000000, 'swtotal_size': 0, 'swtotal_weight': 0, 'swtxs': 0, 'total_out': 0, 'total_size': 0, 'total_weight': 0, 'totalfee': 0, 'txs': 1, 'utxo_increase': 1, 'utxo_size_inc': 117 } class JSONBlocksInfo(BlocksInfo): def __init__(self,cfg,cmd_args,rpc): super().__init__(cfg,cmd_args,rpc) if self.cfg.json_raw: self.output_block = self.output_block_raw self.fmt_stat_item = self.fmt_stat_item_raw Msg_r('{') async def process_blocks(self): Msg_r('"block_data": [') await super().process_blocks() Msg_r(']') def output_block_raw(self,data,n): Msg_r( (', ','')[n==0] + json.dumps(data._asdict(),cls=json_encoder) ) def output_block(self,data,n): def gen(): for k,v in data._asdict().items(): func = self.fields[k].fmt_func yield ( k, (self.fmt_funcs[func](v) if func else v) ) Msg_r( (', ','')[n==0] + json.dumps(dict(gen()),cls=json_encoder) ) def print_header(self): pass def fmt_stat_item_raw(self,fs,s): return s async def output_stats(self,res,sname): def gen(data): for d in data: if len(d) == 2: for k,v in d[1].items(): yield (k,self.fmt_stat_item(*v)) elif len(d) == 4: yield (d[1],self.fmt_stat_item(d[2],d[3])) elif type(d) != str: assert False, f'{d}: invalid stats data' varname,data = await res Msg_r(', "{}_data": {}'.format( varname, json.dumps(dict(gen(data)),cls=json_encoder) )) def process_stats_pre(self,i): pass def finalize_output(self): Msg('}')