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mirror of https://github.com/trezor/trezor-firmware.git synced 2024-11-16 04:29:08 +00:00
trezor-firmware/tools/cointool.py
2018-08-15 19:20:15 +02:00

417 lines
11 KiB
Python
Executable File

#!/usr/bin/env python3
import io
import json
import re
import sys
import os
import glob
import binascii
import struct
import zlib
from hashlib import sha256
import click
import coin_info
from coindef import CoinDef
try:
import mako
import mako.template
from munch import Munch
CAN_RENDER = True
except ImportError:
CAN_RENDER = False
try:
import requests
except ImportError:
requests = None
try:
import ed25519
from PIL import Image
from trezorlib import protobuf
CAN_BUILD_DEFS = True
except ImportError:
CAN_BUILD_DEFS = False
# ======= Mako management ======
def c_str_filter(b):
if b is None:
return "NULL"
def hexescape(c):
return r"\x{:02x}".format(c)
if isinstance(b, bytes):
return '"' + "".join(map(hexescape, b)) + '"'
else:
return json.dumps(b)
def black_repr_filter(val):
if isinstance(val, str):
if '"' in val:
return repr(val)
else:
return c_str_filter(val)
elif isinstance(val, bytes):
return "b" + c_str_filter(val)
else:
return repr(val)
def ascii_filter(s):
return re.sub("[^ -\x7e]", "_", s)
def make_support_filter(support_info):
def supported_on(device, coins):
for coin in coins:
if support_info[coin.key].get(device):
yield coin
return supported_on
MAKO_FILTERS = {
"c_str": c_str_filter,
"ascii": ascii_filter,
"black_repr": black_repr_filter,
}
def render_file(src, dst, coins, support_info):
"""Renders `src` template into `dst`.
`src` is a filename, `dst` is an open file object.
"""
template = mako.template.Template(filename=src)
result = template.render(
support_info=support_info,
supported_on=make_support_filter(support_info),
**coins,
**MAKO_FILTERS,
)
dst.write(result)
# ====== validation functions ======
def check_btc(coins):
check_passed = True
for coin in coins:
errors = coin_info.validate_btc(coin)
if errors:
check_passed = False
print("ERR:", "invalid definition for", coin["name"])
print("\n".join(errors))
collisions = coin_info.find_address_collisions(coins)
# warning only
for key, dups in collisions.items():
if dups:
print("WARN: collisions found in", key)
for k, v in dups.items():
print("-", k, ":", ", ".join(map(str, v)))
return check_passed
def check_dups(buckets):
check_passed = True
for bucket in buckets.values():
nontokens = [coin for coin in bucket if not coin["key"].startswith("erc20")]
token_list = [coin["key"] for coin in bucket if coin["key"].startswith("erc20")]
if not nontokens:
continue
if len(nontokens) == 1:
coin = nontokens[0]
print(
f"Coin {coin['key']} ({coin['name']}) is duplicate with",
", ".join(token_list),
"and that is OK.",
)
else:
nontoken_list = [f"{coin['key']} ({coin['name']})" for coin in nontokens]
print("Duplicate shortcuts for", ", ".join(nontoken_list))
check_passed = False
return check_passed
def check_backends(coins):
check_passed = True
for coin in coins:
genesis_block = coin.get("hash_genesis_block")
if not genesis_block:
continue
backends = coin.get("blockbook", []) + coin.get("bitcore", [])
for backend in backends:
print("checking", backend, "... ", end="", flush=True)
try:
j = requests.get(backend + "/api/block-index/0").json()
if j["blockHash"] != genesis_block:
raise RuntimeError("genesis block mismatch")
except Exception as e:
print(e)
check_passed = False
else:
print("OK")
return check_passed
def check_icons(coins):
check_passed = True
for coin in coins:
key = coin["key"]
icon_file = coin.get("icon")
if not icon_file:
print(key, ": missing icon")
check_passed = False
continue
try:
icon = Image.open(icon_file)
except Exception:
print(key, ": failed to open icon file", icon_file)
check_passed = False
continue
if icon.size != (96, 96) or icon.mode != "RGBA":
print(key, ": bad icon format (must be RGBA 96x96)")
check_passed = False
return check_passed
# ====== coindefs generators ======
def convert_icon(icon):
"""Convert PIL icon to TOIF format"""
# TODO: move this to python-trezor at some point
DIM = 32
icon = icon.resize((DIM, DIM), Image.LANCZOS)
# remove alpha channel, replace with black
bg = Image.new("RGBA", icon.size, (0, 0, 0, 255))
icon = Image.alpha_composite(bg, icon)
# process pixels
pix = icon.load()
data = bytes()
for y in range(DIM):
for x in range(DIM):
r, g, b, _ = pix[x, y]
c = ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | ((b & 0xF8) >> 3)
data += struct.pack(">H", c)
z = zlib.compressobj(level=9, wbits=10)
zdata = z.compress(data) + z.flush()
zdata = zdata[2:-4] # strip header and checksum
return zdata
def coindef_from_dict(coin):
proto = CoinDef()
for fname, _, fflags in CoinDef.FIELDS.values():
val = coin.get(fname)
if val is None and fflags & protobuf.FLAG_REPEATED:
val = []
elif fname == "signed_message_header":
val = val.encode("utf-8")
elif fname == "hash_genesis_block":
val = binascii.unhexlify(val)
setattr(proto, fname, val)
return proto
def serialize_coindef(proto, icon):
proto.icon = icon
buf = io.BytesIO()
protobuf.dump_message(buf, proto)
return buf.getvalue()
def sign(data):
h = sha256(data).digest()
sign_key = ed25519.SigningKey(b"A" * 32)
return sign_key.sign(h)
# ====== click command handlers ======
@click.group()
def cli():
pass
@cli.command()
# fmt: off
@click.option("--missing-support/--no-missing-support", "-s", default=False, help="Fail if support info for a coin is missing")
@click.option("--backend/--no-backend", "-b", default=False, help="Check blockbook/bitcore responses")
@click.option("--icons/--no-icons", default=True, help="Check icon files")
# fmt: on
def check(missing_support, backend, icons):
"""Validate coin definitions.
Checks that every btc-like coin is properly filled out, reports address collisions
and missing support information.
"""
if backend and requests is None:
raise click.ClickException("You must install requests for backend check")
if icons and not CAN_BUILD_DEFS:
raise click.ClickException("Missing requirements for icon check")
defs = coin_info.get_all(deduplicate=False)
buckets = coin_info.mark_duplicate_shortcuts(defs.as_list())
all_checks_passed = True
print("Checking BTC-like coins...")
if not check_btc(defs.coins):
all_checks_passed = False
# XXX support.py is responsible for checking support data
# print("Checking support data...")
# support_data = coin_info.get_support_data()
# if not check_support(defs, support_data, fail_missing=missing_support):
# all_checks_passed = False
print("Checking unexpected duplicates...")
if not check_dups(buckets):
all_checks_passed = False
if icons:
print("Checking icon files...")
if not check_icons(defs.coins):
all_checks_passed = False
if backend:
print("Checking backend responses...")
if not check_backends(defs.coins):
all_checks_passed = False
if not all_checks_passed:
print("Some checks failed.")
sys.exit(1)
else:
print("Everything is OK.")
@cli.command()
@click.option("-o", "--outfile", type=click.File(mode="w"), default="./coins.json")
def coins_json(outfile):
"""Generate coins.json for consumption in python-trezor and Connect/Wallet"""
coins = coin_info.get_all().coins
support_info = coin_info.support_info(coins)
by_name = {}
for coin in coins:
coin["support"] = support_info[coin["key"]]
by_name[coin["name"]] = coin
with outfile:
json.dump(by_name, outfile, indent=4, sort_keys=True)
outfile.write("\n")
@cli.command()
@click.option("-o", "--outfile", type=click.File(mode="w"), default="./coindefs.json")
def coindefs(outfile):
"""Generate signed coin definitions for python-trezor and others
This is currently unused but should enable us to add new coins without having to
update firmware.
"""
coins = coin_info.get_all().coins
coindefs = {}
for coin in coins:
key = coin["key"]
icon = Image.open(coin["icon"])
ser = serialize_coindef(coindef_from_dict(coin), convert_icon(icon))
sig = sign(ser)
definition = binascii.hexlify(sig + ser).decode("ascii")
coindefs[key] = definition
with outfile:
json.dump(coindefs, outfile, indent=4, sort_keys=True)
outfile.write("\n")
@cli.command()
# fmt: off
@click.argument("paths", metavar="[path]...", nargs=-1)
@click.option("-o", "--outfile", type=click.File("w"), help="Alternate output file")
@click.option("-v", "--verbose", is_flag=True, help="Print rendered file names")
# fmt: on
def render(paths, outfile, verbose):
"""Generate source code from Mako templates.
For every "foo.bar.mako" filename passed, runs the template and
saves the result as "foo.bar". For every directory name passed,
processes all ".mako" files found in that directory.
If `-o` is specified, renders a single file into the specified outfile.
If no arguments are given, processes the current directory.
"""
if not CAN_RENDER:
raise click.ClickException("Please install 'mako' and 'munch'")
if outfile and (len(paths) != 1 or not os.path.isfile(paths[0])):
raise click.ClickException("Option -o can only be used with single input file")
# prepare defs
defs = coin_info.get_all()
support_info = coin_info.support_info(defs)
# munch dicts - make them attribute-accessible
for key, value in defs.items():
defs[key] = [Munch(coin) for coin in value]
for key, value in support_info.items():
support_info[key] = Munch(value)
def do_render(src, dst):
if verbose:
click.echo("Rendering {} => {}".format(src, dst))
render_file(src, dst, defs, support_info)
# single in-out case
if outfile:
do_render(paths[0], outfile)
return
# find files in directories
if not paths:
paths = ["."]
files = []
for path in paths:
if not os.path.exists(path):
click.echo("Path {} does not exist".format(path))
elif os.path.isdir(path):
files += glob.glob(os.path.join(path, "*.mako"))
else:
files.append(path)
# render each file
for file in files:
if not file.endswith(".mako"):
click.echo("File {} does not end with .mako".format(file))
else:
target = file[: -len(".mako")]
with open(target, "w") as dst:
do_render(file, dst)
if __name__ == "__main__":
cli()