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compute_periods.py
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compute_periods.py
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#!/usr/bin/env python3
import os
import csv
import sqlite3
import requests
import statistics
from classifier import compute_best_guess
from prepare_training_data import CLIENTS
from build_db import block_row_to_obj
DEFAULT_BN = "http://localhost:5052"
# The 95%-confidence median estimate seems to offer precision while still allowing for uncertainty
DEFAULT_GUESS = "guess_med_95"
def get_head_slot(bn_url):
res = requests.get(f"{bn_url}/eth/v1/beacon/headers/head")
res.raise_for_status()
return int(res.json()["data"]["header"]["message"]["slot"])
def is_active_validator(validator, slot):
epoch = slot // 32
activation_epoch = int(validator["validator"]["activation_epoch"])
exit_epoch = int(validator["validator"]["exit_epoch"])
return activation_epoch <= epoch < exit_epoch
def get_active_validator_count(slot, bn_url):
res = requests.get(f"{bn_url}/eth/v1/beacon/states/{slot}/validators")
res.raise_for_status()
return sum(
1 for validator in res.json()["data"] if is_active_validator(validator, slot)
)
def fetch_periods_from_bn(slots_per_period, bn_url):
head_slot = get_head_slot(bn_url)
periods = []
for i, start_slot in enumerate(range(0, head_slot, slots_per_period)):
end_slot = min(start_slot + slots_per_period, head_slot)
num_active_validators = get_active_validator_count(end_slot, bn_url)
periods.append(
{
"id": i,
"end_slot": end_slot,
"num_active_validators": num_active_validators,
}
)
return periods
def create_period_db(slots_per_period, db_dir):
db_path = os.path.join(db_dir, f"aggregated_{slots_per_period}.sqlite")
if os.path.exists(db_path):
os.remove(db_path)
conn = sqlite3.connect(db_path)
conn.execute(
"""CREATE TABLE periods (
id INT PRIMARY KEY,
end_slot INT,
num_active_validators INT
)
"""
)
conn.execute(
"""CREATE TABLE period_validators (
period_id INT,
validator_index INT,
guess_k_recent TEXT,
guess_mode TEXT,
guess_med_95 TEXT,
FOREIGN KEY(period_id) REFERENCES periods(id)
)
"""
)
return conn
# Guess the client from the most recent 3 proposals.
#
# Prefer proposals from within the period but take into account later proposals if no others
# available.
def guess_from_k_recent(proposals, end_slot, k=3):
relevant_proposals = [block for block in proposals if block["slot"] <= end_slot]
if len(relevant_proposals) == 0:
relevant_proposals = proposals
num_recent = max(k, len(relevant_proposals))
recent_relevant = relevant_proposals[-1 * num_recent :]
return compute_best_guess(
count_frequency([block["best_guess_single"] for block in recent_relevant])
)
# Guess the client from the single most recent proposal.
#
# Return "Unkown" if no proposal has slot less than `end_slot`, and "Uncertain" if the classifier
# is not confident about the most recent proposal.
def guess_from_latest(proposals, end_slot, check_prob=True):
relevant_proposals = [block for block in proposals if block["slot"] <= end_slot]
if len(relevant_proposals) == 0:
return "Unknown"
latest = relevant_proposals[-1]
guess = latest["best_guess_single"]
if not check_prob or latest["probability_map"][guess] > 0.95:
return guess
else:
return "Uncertain"
# Guess the client from the most common classification, ignoring the period end slot.
def guess_from_mode(proposals, end_slot):
return compute_best_guess(
count_frequency([block["best_guess_single"] for block in proposals])
)
def guess_from_weighted_average(proposals, end_slot, confidence_threshold=0.95):
if len(proposals) == 0:
return "Unknown"
averages = {
client: sum(proposal["probability_map"][client] for proposal in proposals)
/ len(proposals)
for client in CLIENTS
}
best_guess = compute_best_guess(averages)
if averages[best_guess] > confidence_threshold:
return best_guess
else:
return "Uncertain"
def guess_from_median(proposals, end_slot, confidence_threshold=0.95):
if len(proposals) == 0:
return "Unknown"
medians = {
client: statistics.median(
proposal["probability_map"][client] for proposal in proposals
)
for client in CLIENTS
}
best_guess = compute_best_guess(medians)
if medians[best_guess] > confidence_threshold:
return best_guess
else:
return "Uncertain"
def count_frequency(guesses):
client_frequency = {}
for client in guesses:
if client not in client_frequency:
client_frequency[client] = 1
else:
client_frequency[client] += 1
return client_frequency
def compute_period_validators(period, period_db, block_db):
period_id = period["id"]
end_slot = period["end_slot"]
num_validators = period["num_active_validators"]
period_db.execute(
"INSERT INTO periods VALUES (?, ?, ?)", (period_id, end_slot, num_validators)
)
# Build validators table
for validator_index in range(0, num_validators + 1):
proposals = list(
map(
block_row_to_obj,
block_db.execute(
"""SELECT *
FROM blocks
WHERE proposer_index = ? ORDER BY slot ASC""",
(validator_index,),
),
)
)
guess_k_recent = guess_from_k_recent(proposals, end_slot)
guess_mode = guess_from_mode(proposals, end_slot)
guess_med_95 = guess_from_median(proposals, end_slot, confidence_threshold=0.95)
period_db.execute(
"INSERT INTO period_validators VALUES (?, ?, ?, ?, ?)",
(period_id, validator_index, guess_k_recent, guess_mode, guess_med_95),
)
period_db.commit()
def open_period_db(period_db_path):
return sqlite3.connect(period_db_path)
def build_period_db(
block_db_path, period_db_dir, slots_per_period, periods=None, bn_url=DEFAULT_BN
):
block_db = sqlite3.connect(block_db_path)
period_db = create_period_db(slots_per_period, period_db_dir)
if periods is None:
print(f"fetching active validators every {slots_per_period} slots from BN")
periods = fetch_periods_from_bn(slots_per_period, bn_url)
for period in periods:
print(f"computing validator client affinity up to slot {period['end_slot']}")
compute_period_validators(period, period_db, block_db)
print("done")
return period_db
def slot_to_period_id(period_db, slot):
res = list(
period_db.execute(
"SELECT id, MIN(end_slot) FROM periods WHERE end_slot > ?", (slot,)
)
)
assert len(res) == 1
period_id = res[0][0]
if period_id is None:
raise Exception(f"no period known for slot {slot}")
return int(period_id)
def row_to_obj(row):
assert len(row) == 5
return {
"period_id": row[0],
"validator_index": row[1],
"guess_k_recent": row[2],
"guess_mode": row[3],
"guess_med_95": row[4],
}
def most_recent_period_id(period_db):
res = list(period_db.execute("SELECT id, MAX(end_slot) FROM periods"))
assert len(res) == 1
period_id = res[0][0]
if period_id is None:
raise Exception("no max period, DB is probably empty")
return int(period_id)
def get_data_for_validators(period_db, validator_indices=None, slot=None):
if slot is None:
period_id = most_recent_period_id(period_db)
else:
period_id = slot_to_period_id(period_db, slot)
if validator_indices is None:
rows = period_db.execute(
"SELECT * FROM period_validators WHERE period_id = ?", [period_id]
)
else:
assert 0 < len(validator_indices) <= 999
rows = period_db.execute(
f"""SELECT * FROM period_validators WHERE period_id = ?
AND validator_index IN ({','.join(['?'] * len(validator_indices))})""",
[period_id, *validator_indices],
)
return [row_to_obj(row) for row in rows]
def get_client_for_validators(
period_db, validator_indices, slot=None, guess_column=DEFAULT_GUESS
):
return {
x["validator_index"]: x[guess_column]
for x in get_data_for_validators(period_db, validator_indices, slot)
}
def get_validators_per_client(period_db, period_id, guess_column=DEFAULT_GUESS):
validators_per_client = {client: 0 for client in ["Unknown", "Uncertain", *CLIENTS]}
# NOTE: SQL injection. Don't read `guess_column` from the web lol
client_counts = period_db.execute(
f"""SELECT {guess_column}, COUNT(validator_index)
FROM period_validators
WHERE period_id = ?
GROUP BY {guess_column}""",
(period_id,),
)
for client, count in client_counts:
validators_per_client[client] = int(count)
return validators_per_client
def period_db_to_csv(period_db, output_file, guess_column=DEFAULT_GUESS):
# Output rows
fieldnames = [
"period_id",
"end_slot",
"num_active_validators",
"Unknown",
"Uncertain",
*CLIENTS,
]
csv_file = open(output_file, "w", newline="")
writer = csv.DictWriter(csv_file, fieldnames=fieldnames)
writer.writeheader()
periods = period_db.execute("SELECT * FROM periods")
for period_id, end_slot, num_active_validators in periods:
row = {
"period_id": period_id,
"end_slot": end_slot,
"num_active_validators": num_active_validators,
}
validators_per_client = get_validators_per_client(
period_db, period_id, guess_column
)
row.update(validators_per_client)
writer.writerow(row)
csv_file.close()