dash/contrib/devtools/check-rpc-mappings.py
Wladimir J. van der Laan fb18f2664f
Merge #11443: [qa] Allow "make cov" out-of-tree; Fix rpc mapping check
fae60e3 qa: Fix lcov for out-of-tree builds (MarcoFalke)
fae2673 qa: check-rpc-mapping must not run on empty lists (MarcoFalke)

Pull request description:

  Random qa fixups:

  * `make cov` should work for out-of-tree builds
  * `check-rpc-mappings.py` should assert that it is actually checking something and the lists are not empty.

Tree-SHA512: 2b66f69d6a1ae035c772f8ceb1d58dce904d98058330dad6ccb1421941e167aa748fe1c12126b87f43b0843f51fa85d89de079d586629fcaf8261c44a8dc6053
2020-02-08 23:33:25 -06:00

164 lines
6.0 KiB
Python
Executable File

#!/usr/bin/env python3
# Copyright (c) 2017 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Check RPC argument consistency."""
from collections import defaultdict
import os
import re
import sys
# Source files (relative to root) to scan for dispatch tables
SOURCES = [
"src/rpc/server.cpp",
"src/rpc/blockchain.cpp",
"src/rpc/governance.cpp",
"src/rpc/masternode.cpp",
"src/rpc/mining.cpp",
"src/rpc/misc.cpp",
"src/rpc/net.cpp",
"src/rpc/privatesend.cpp",
"src/rpc/rawtransaction.cpp",
"src/rpc/rpcevo.cpp",
"src/rpc/rpcquorums.cpp",
"src/wallet/rpcwallet.cpp",
]
# Source file (relative to root) containing conversion mapping
SOURCE_CLIENT = 'src/rpc/client.cpp'
# Argument names that should be ignored in consistency checks
IGNORE_DUMMY_ARGS = {'dummy', 'arg0', 'arg1', 'arg2', 'arg3', 'arg4', 'arg5', 'arg6', 'arg7', 'arg8', 'arg9'}
class RPCCommand:
def __init__(self, name, args):
self.name = name
self.args = args
class RPCArgument:
def __init__(self, names, idx):
self.names = names
self.idx = idx
self.convert = False
def parse_string(s):
assert s[0] == '"'
assert s[-1] == '"'
return s[1:-1]
def process_commands(fname):
"""Find and parse dispatch table in implementation file `fname`."""
cmds = []
in_rpcs = False
with open(fname, "r") as f:
for line in f:
line = line.rstrip()
if not in_rpcs:
if re.match("static const CRPCCommand .*\[\] =", line):
in_rpcs = True
else:
if line.startswith('};'):
in_rpcs = False
elif '{' in line and '"' in line:
m = re.search('{ *("[^"]*"), *("[^"]*"), *&([^,]*), *{([^}]*)} *},', line)
assert m, 'No match to table expression: %s' % line
name = parse_string(m.group(2))
args_str = m.group(4).strip()
if args_str:
args = [RPCArgument(parse_string(x.strip()).split('|'), idx) for idx, x in enumerate(args_str.split(','))]
else:
args = []
cmds.append(RPCCommand(name, args))
assert not in_rpcs and cmds, "Something went wrong with parsing the C++ file: update the regexps"
return cmds
def process_mapping(fname):
"""Find and parse conversion table in implementation file `fname`."""
cmds = []
in_rpcs = False
with open(fname, "r") as f:
for line in f:
line = line.rstrip()
if not in_rpcs:
if line == 'static const CRPCConvertParam vRPCConvertParams[] =':
in_rpcs = True
else:
if line.startswith('};'):
in_rpcs = False
elif '{' in line and '"' in line:
m = re.search('{ *("[^"]*"), *([0-9]+) *, *("[^"]*") *},', line)
assert m, 'No match to table expression: %s' % line
name = parse_string(m.group(1))
idx = int(m.group(2))
argname = parse_string(m.group(3))
cmds.append((name, idx, argname))
assert not in_rpcs and cmds
return cmds
def main():
root = sys.argv[1]
# Get all commands from dispatch tables
cmds = []
for fname in SOURCES:
cmds += process_commands(os.path.join(root, fname))
cmds_by_name = {}
for cmd in cmds:
cmds_by_name[cmd.name] = cmd
# Get current convert mapping for client
client = SOURCE_CLIENT
mapping = set(process_mapping(os.path.join(root, client)))
print('* Checking consistency between dispatch tables and vRPCConvertParams')
# Check mapping consistency
errors = 0
for (cmdname, argidx, argname) in mapping:
try:
rargnames = cmds_by_name[cmdname].args[argidx].names
except IndexError:
print('ERROR: %s argument %i (named %s in vRPCConvertParams) is not defined in dispatch table' % (cmdname, argidx, argname))
errors += 1
continue
if argname not in rargnames:
print('ERROR: %s argument %i is named %s in vRPCConvertParams but %s in dispatch table' % (cmdname, argidx, argname, rargnames), file=sys.stderr)
errors += 1
# Check for conflicts in vRPCConvertParams conversion
# All aliases for an argument must either be present in the
# conversion table, or not. Anything in between means an oversight
# and some aliases won't work.
for cmd in cmds:
for arg in cmd.args:
convert = [((cmd.name, arg.idx, argname) in mapping) for argname in arg.names]
if any(convert) != all(convert):
print('ERROR: %s argument %s has conflicts in vRPCConvertParams conversion specifier %s' % (cmd.name, arg.names, convert))
errors += 1
arg.convert = all(convert)
# Check for conversion difference by argument name.
# It is preferable for API consistency that arguments with the same name
# have the same conversion, so bin by argument name.
all_methods_by_argname = defaultdict(list)
converts_by_argname = defaultdict(list)
for cmd in cmds:
for arg in cmd.args:
for argname in arg.names:
all_methods_by_argname[argname].append(cmd.name)
converts_by_argname[argname].append(arg.convert)
for argname, convert in converts_by_argname.items():
if all(convert) != any(convert):
if argname in IGNORE_DUMMY_ARGS:
# these are testing or dummy, don't warn for them
continue
print('WARNING: conversion mismatch for argument named %s (%s)' %
(argname, list(zip(all_methods_by_argname[argname], converts_by_argname[argname]))))
sys.exit(errors > 0)
if __name__ == '__main__':
main()