vecna
/
lox
mirror of https://gitlab.torproject.org/vecna/lox.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
lox/crates/lox-library/src/tests.rs

1853 lines
67 KiB
Rust
Raw Blame History

/*! Unit tests that require access to the testing-only function
BridgeLine::random() or private fields */
use super::bridge_table::{BridgeLine, BRIDGE_BYTES};
use super::proto::*;
use super::*;
use chrono::{DateTime, NaiveTime, Timelike, Utc};
use rand::Rng;
use statistical::{mean, standard_deviation};
use std::collections::HashSet;
use std::thread;
use std::time::{Duration, Instant};
#[cfg(feature = "fast")]
const USERS: usize = 100;
#[cfg(not(feature = "fast"))]
const USERS: usize = 10000;
struct PerfStat {
// Report performance metrics for each test
req_len: usize,
resp_len: usize,
req_t: Duration,
resp_t: Duration,
resp_handle_t: Duration,
}
struct TestHarness {
bdb: BridgeDb,
pub ba: BridgeAuth,
}
impl TestHarness {
fn new() -> Self {
TestHarness::new_buckets(5, 5)
}
fn new_buckets(num_buckets: u16, hot_spare: u16) -> Self {
// Create a BridegDb
let mut bdb = BridgeDb::new();
// Create a BridgeAuth
let mut ba = BridgeAuth::new(bdb.pubkey);
// Make 3 x num_buckets open invitation bridges, in sets of 3
for _ in 0..num_buckets {
let bucket = [
BridgeLine::random(),
BridgeLine::random(),
BridgeLine::random(),
];
ba.add_openinv_bridges(bucket, &mut bdb);
}
// Add hot_spare more hot spare buckets
for _ in 0..hot_spare {
let bucket = [
BridgeLine::random(),
BridgeLine::random(),
BridgeLine::random(),
];
ba.add_spare_bucket(bucket);
}
// Create the encrypted bridge table
ba.enc_bridge_table();
Self { bdb, ba }
}
fn advance_days(&mut self, days: u16) {
self.ba.advance_days(days);
}
fn open_invite(&mut self) -> (PerfStat, (cred::Lox, bridge_table::BridgeLine)) {
// Issue an open invitation
let inv = self.bdb.invite();
let req_start = Instant::now();
// Use it to get a Lox credential
let (req, state) = open_invite::request(&inv);
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_open_invite(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let (cred, bridgeline) =
open_invite::handle_response(state, decode_resp, &self.ba.lox_pub).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
(cred, bridgeline),
)
}
fn trust_promotion(&mut self, cred: &cred::Lox) -> (PerfStat, cred::Migration) {
let req_start = Instant::now();
let (promreq, promstate) =
trust_promotion::request(cred, &self.ba.lox_pub, self.ba.today()).unwrap();
let encoded: Vec<u8> = bincode::serialize(&promreq).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let promresp = self.ba.handle_trust_promotion(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&promresp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let migcred = trust_promotion::handle_response(promstate, decode_resp).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
migcred,
)
}
fn level0_migration(
&mut self,
loxcred: &cred::Lox,
migcred: &cred::Migration,
) -> (PerfStat, cred::Lox) {
let req_start = Instant::now();
let (migreq, migstate) =
migration::request(loxcred, migcred, &self.ba.lox_pub, &self.ba.migration_pub).unwrap();
let encoded: Vec<u8> = bincode::serialize(&migreq).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let migresp = self.ba.handle_migration(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&migresp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp: migration::Response = bincode::deserialize(&encoded_resp[..]).unwrap();
let cred = migration::handle_response(migstate, decode_resp, &self.ba.lox_pub).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
cred,
)
}
fn level_up(&mut self, cred: &cred::Lox) -> (PerfStat, cred::Lox) {
// Read the bucket in the credential to get today's Bucket
// Reachability credential
let (id, key) = bridge_table::from_scalar(cred.bucket).unwrap();
let encbuckets = self.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
let reachcred = bucket.1.unwrap();
// Use the Bucket Reachability credential to advance to the next
// level
let req_start = Instant::now();
let (req, state) = level_up::request(
cred,
&reachcred,
&self.ba.lox_pub,
&self.ba.reachability_pub,
self.ba.today(),
)
.unwrap();
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_level_up(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let cred = level_up::handle_response(state, decode_resp, &self.ba.lox_pub).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
cred,
)
}
fn issue_invite(&mut self, cred: &cred::Lox) -> (PerfStat, (cred::Lox, cred::Invitation)) {
// Read the bucket in the credential to get today's Bucket
// Reachability credential
let (id, key) = bridge_table::from_scalar(cred.bucket).unwrap();
let encbuckets = self.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
let reachcred = bucket.1.unwrap();
let req_start = Instant::now();
let (req, state) = issue_invite::request(
cred,
&reachcred,
&self.ba.lox_pub,
&self.ba.reachability_pub,
self.ba.today(),
)
.unwrap();
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_issue_invite(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let (cred, invite) = issue_invite::handle_response(
state,
decode_resp,
&self.ba.lox_pub,
&self.ba.invitation_pub,
)
.unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
(cred, invite),
)
}
fn redeem_invite(&mut self, inv: &cred::Invitation) -> (PerfStat, cred::Lox) {
let req_start = Instant::now();
let (req, state) =
redeem_invite::request(inv, &self.ba.invitation_pub, self.ba.today()).unwrap();
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_redeem_invite(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let cred = redeem_invite::handle_response(state, decode_resp, &self.ba.lox_pub).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
cred,
)
}
fn check_blockage(&mut self, cred: &cred::Lox) -> (PerfStat, cred::Migration) {
let req_start = Instant::now();
let (req, state) = check_blockage::request(cred, &self.ba.lox_pub).unwrap();
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_check_blockage(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp = bincode::deserialize(&encoded_resp[..]).unwrap();
let migcred = check_blockage::handle_response(state, decode_resp).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
migcred,
)
}
fn blockage_migration(
&mut self,
cred: &cred::Lox,
mig: &cred::Migration,
) -> (PerfStat, cred::Lox) {
let req_start = Instant::now();
let (req, state) =
blockage_migration::request(cred, mig, &self.ba.lox_pub, &self.ba.migration_pub)
.unwrap();
let encoded: Vec<u8> = bincode::serialize(&req).unwrap();
let req_t = req_start.elapsed();
let req_len = encoded.len();
let resp_start = Instant::now();
let decoded = bincode::deserialize(&encoded[..]).unwrap();
let resp = self.ba.handle_blockage_migration(decoded).unwrap();
let encoded_resp: Vec<u8> = bincode::serialize(&resp).unwrap();
let resp_t = resp_start.elapsed();
let resp_len = encoded_resp.len();
let resp_handle_start = Instant::now();
let decode_resp: blockage_migration::Response =
bincode::deserialize(&encoded_resp[..]).unwrap();
let cred =
blockage_migration::handle_response(state, decode_resp, &self.ba.lox_pub).unwrap();
let resp_handle_t = resp_handle_start.elapsed();
(
PerfStat {
req_len,
resp_len,
req_t,
resp_t,
resp_handle_t,
},
cred,
)
}
}
#[test]
fn test_open_invite() {
let mut th = TestHarness::new();
// Join an untrusted user
let (perf_stat, (cred, bridgeline)) = th.open_invite();
// Check that we can use the credential to read a bucket
let (id, key) = bridge_table::from_scalar(cred.bucket).unwrap();
let encbuckets = th.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
print_test_results(perf_stat);
println!("cred = {:?}", cred);
println!("bucket = {:?}", bucket);
println!("bridgeline = {:?}", bridgeline);
assert!(bucket.1.is_none());
assert!(th.ba.verify_lox(&cred));
assert!(bridgeline == bucket.0[0]);
}
#[test]
fn test_trust_promotion() {
let mut th = TestHarness::new();
let cred = th.open_invite().1 .0;
assert!(th.ba.verify_lox(&cred));
// Time passes
th.advance_days(47);
let (perf_stat, migcred) = th.trust_promotion(&cred);
assert!(th.ba.verify_migration(&migcred));
// Check that we can use the to_bucket in the Migration credenital
// to read a bucket
let (id, key) = bridge_table::from_scalar(migcred.to_bucket).unwrap();
let encbuckets = th.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
print_test_results(perf_stat);
println!("bucket = {:?}", bucket);
assert!(th.ba.verify_reachability(&bucket.1.unwrap()));
}
#[test]
fn test_level0_migration() {
let mut th = TestHarness::new();
let cred = th.open_invite().1 .0;
assert!(th.ba.verify_lox(&cred));
// Time passes
th.advance_days(47);
let (perf_stat, migcred) = th.trust_promotion(&cred);
assert!(th.ba.verify_migration(&migcred));
println!("--Trust Promotion to 1--\n");
print_test_results(perf_stat);
let (mperf_stat, newloxcred) = th.level0_migration(&cred, &migcred);
println!("--Level 0 migration--\n");
print_test_results(mperf_stat);
assert!(th.ba.verify_lox(&newloxcred));
println!("newloxcred = {:?}", newloxcred);
// Check that we can use the credenital to read a bucket
let (id, key) = bridge_table::from_scalar(newloxcred.bucket).unwrap();
let encbuckets = th.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
println!("bucket = {:?}", bucket);
assert!(th.ba.verify_reachability(&bucket.1.unwrap()));
}
#[test]
fn test_level_up() {
let mut th = TestHarness::new();
// Join an untrusted user
let cred = th.open_invite().1 .0;
// Time passes
th.advance_days(47);
// Go up to level 1
let (perf_stat, migcred) = th.trust_promotion(&cred);
println!("--Trust Promotion to 1--\n");
print_test_results(perf_stat);
let (mperf_stat, cred1) = th.level0_migration(&cred, &migcred);
println!("--New Level 1 Credential--\n");
print_test_results(mperf_stat);
assert!(scalar_u32(&cred1.trust_level).unwrap() == 1);
// Time passes
th.advance_days(20);
let (two_perf_stat, cred2) = th.level_up(&cred1);
assert!(scalar_u32(&cred2.trust_level).unwrap() == 2);
println!("--Upgrade to Level 2--\n");
print_test_results(two_perf_stat);
println!("cred2 = {:?}", cred2);
assert!(th.ba.verify_lox(&cred2));
// Time passes
th.advance_days(30);
let (three_perf_stat, cred3) = th.level_up(&cred2);
assert!(scalar_u32(&cred3.trust_level).unwrap() == 3);
println!("--Upgrade to Level 3--\n");
print_test_results(three_perf_stat);
println!("cred3 = {:?}", cred3);
assert!(th.ba.verify_lox(&cred3));
// Time passes
th.advance_days(60);
let (four_perf_stat, cred4) = th.level_up(&cred3);
assert!(scalar_u32(&cred3.trust_level).unwrap() == 3);
println!("--Upgrade to Level 4--\n");
print_test_results(four_perf_stat);
println!("cred4 = {:?}", cred4);
assert!(th.ba.verify_lox(&cred4));
}
#[test]
fn test_issue_invite() {
let mut th = TestHarness::new();
// Join an untrusted user
let cred = th.open_invite().1 .0;
// Time passes
th.advance_days(47);
// Go up to level 1
let (perf_stat, migcred) = th.trust_promotion(&cred);
println!("--Trust Promotion to 1--\n");
print_test_results(perf_stat);
let (mperf_stat, cred1) = th.level0_migration(&cred, &migcred);
println!("--New Level 1 Credential--\n");
print_test_results(mperf_stat);
assert!(scalar_u32(&cred1.trust_level).unwrap() == 1);
// Time passes
th.advance_days(20);
// Go up to level 2
let (two_perf_stat, cred2) = th.level_up(&cred1);
println!("--Upgrade to Level 2--\n");
print_test_results(two_perf_stat);
assert!(scalar_u32(&cred2.trust_level).unwrap() == 2);
println!("cred2 = {:?}", cred2);
assert!(th.ba.verify_lox(&cred2));
// Issue an invitation
let (invite_perf_stat, (cred2a, invite)) = th.issue_invite(&cred2);
println!("--Issue Invitation--\n");
print_test_results(invite_perf_stat);
assert!(th.ba.verify_lox(&cred2a));
assert!(th.ba.verify_invitation(&invite));
println!("cred2a = {:?}", cred2a);
println!("invite = {:?}", invite);
}
#[test]
fn test_redeem_invite() {
let mut th = TestHarness::new();
// Join an untrusted user
let cred = th.open_invite().1 .0;
// Time passes
th.advance_days(47);
// Go up to level 1
let (perf_stat, migcred) = th.trust_promotion(&cred);
println!("--Trust Promotion to 1--\n");
print_test_results(perf_stat);
let (mperf_stat, cred1) = th.level0_migration(&cred, &migcred);
println!("--New Level 1 Credential--\n");
print_test_results(mperf_stat);
assert!(scalar_u32(&cred1.trust_level).unwrap() == 1);
// Time passes
th.advance_days(20);
// Go up to level 2
let (two_perf_stat, cred2) = th.level_up(&cred1);
println!("--Upgrade to Level 2--\n");
print_test_results(two_perf_stat);
assert!(scalar_u32(&cred2.trust_level).unwrap() == 2);
println!("cred2 = {:?}", cred2);
assert!(th.ba.verify_lox(&cred2));
// Issue an invitation to Bob
let (invite_perf_stat, (cred2a, bob_invite)) = th.issue_invite(&cred2);
println!("--Issue Invitation--\n");
print_test_results(invite_perf_stat);
assert!(th.ba.verify_lox(&cred2a));
assert!(th.ba.verify_invitation(&bob_invite));
println!("cred2a = {:?}", cred2a);
println!("bob_invite = {:?}", bob_invite);
// Time passes
th.advance_days(12);
// Bob joins the system
let (bob_perf_stat, bob_cred) = th.redeem_invite(&bob_invite);
println!("--Bob joins the system--\n");
print_test_results(bob_perf_stat);
assert!(th.ba.verify_lox(&bob_cred));
println!("bob_cred = {:?}", bob_cred);
}
#[test]
fn test_update_bridge() {
let mut th = TestHarness::new();
// Add new bridge to table with known values,
// check that I can find and update the values and that everything else stays the same
// Create 3 bridges to test harness
let bucket = [
BridgeLine::random(),
BridgeLine::random(),
BridgeLine::random(),
];
// Store first bridgeline to update later
let bridgeline_to_update = bucket[0];
// Created changed info for bridgeline to be updated to
let updated_info = bucket[0];
let infostr: String = format!(
"type={} blocked_in={:?} protocol={} fingerprint={} distribution={}",
"obfs2 test bridge".to_string(),
{},
"obfs2".to_string(),
"ABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890ABCD".to_string(),
"moat".to_string(),
);
let mut updated_info_bytes: [u8; BRIDGE_BYTES - 18] = [0; BRIDGE_BYTES - 18];
updated_info_bytes[..infostr.len()].copy_from_slice(infostr.as_bytes());
let updated_bridgeline = BridgeLine {
addr: bridgeline_to_update.addr,
port: bridgeline_to_update.port,
info: updated_info_bytes,
};
assert!(
updated_bridgeline.addr == bridgeline_to_update.addr,
"Bridge entering the bridgepool {:?} did not have the same IP as the updating bridge {:?}",
bridgeline_to_update,
updated_bridgeline.addr
);
assert!(updated_bridgeline.port == bridgeline_to_update.port, "Bridge entering the bridgepool {:?} did not have the same port as the updating bridge {:?}", bridgeline_to_update, updated_bridgeline.port);
assert!(updated_bridgeline.info != bridgeline_to_update.info);
println!(
"Bridge entering the bridgepool {:?} has different info than the updating bridge {:?}",
bridgeline_to_update.info, updated_bridgeline.info
);
assert!(updated_bridgeline != bridgeline_to_update);
println!("The two bridgelines are not equal before the update");
// Add 3 bridges to test harness
th.ba.add_openinv_bridges(bucket, &mut th.bdb);
println!("Before update spares = {:?}", th.ba.bridge_table.spares);
println!(
"Before update tmig = {:?}",
th.ba.trustup_migration_table.table
);
println!(
"Before update bmig = {:?}",
th.ba.blockage_migration_table.table
);
println!("Before update openinv = {:?}\n", th.bdb.openinv_buckets);
// Update the info of a bridge with matching IP and Port to a bridge in the bridge table
let result = th.ba.bridge_update(&updated_bridgeline);
assert!(result, "Bridge failed to update successfully!!");
let found_bridge = th
.ba
.bridge_table
.reachable
.get_key_value(&updated_bridgeline);
assert!(*found_bridge.unwrap().0 != bridgeline_to_update);
assert!(*found_bridge.unwrap().0 == updated_bridgeline);
println!("After update spares = {:?}", th.ba.bridge_table.spares);
println!(
"After update tmig = {:?}",
th.ba.trustup_migration_table.table
);
println!(
"After update bmig = {:?}",
th.ba.blockage_migration_table.table
);
println!("After update openinv = {:?}\n", th.bdb.openinv_buckets);
}
#[test]
fn test_mark_unreachable() {
let mut th = TestHarness::new();
println!("spares = {:?}", th.ba.bridge_table.spares);
println!("tmig = {:?}", th.ba.trustup_migration_table.table);
println!("bmig = {:?}", th.ba.blockage_migration_table.table);
println!("openinv = {:?}\n", th.bdb.openinv_buckets);
// Mark a bridge in an untrusted bucket as unreachable
let b6 = th.ba.bridge_table.buckets[6][0];
th.ba.bridge_unreachable(&b6, &mut th.bdb);
println!("spares = {:?}", th.ba.bridge_table.spares);
println!("tmig = {:?}", th.ba.trustup_migration_table.table);
println!("bmig = {:?}", th.ba.blockage_migration_table.table);
println!("openinv = {:?}\n", th.bdb.openinv_buckets);
// Mark another bridge grouped to the same trusted bucket as
// unreachable
let b7 = th.ba.bridge_table.buckets[7][0];
th.ba.bridge_unreachable(&b7, &mut th.bdb);
println!("spares = {:?}", th.ba.bridge_table.spares);
println!("tmig = {:?}", th.ba.trustup_migration_table.table);
println!("bmig = {:?}", th.ba.blockage_migration_table.table);
println!("openinv = {:?}\n", th.bdb.openinv_buckets);
// That will have introduced a blockage migration. Get the target
let target: u32 = *th
.ba
.blockage_migration_table
.table
.iter()
.next()
.unwrap()
.1;
// Block two of the bridges in that target bucket
let bt1 = th.ba.bridge_table.buckets[target as usize][1];
let bt2 = th.ba.bridge_table.buckets[target as usize][2];
th.ba.bridge_unreachable(&bt1, &mut th.bdb);
th.ba.bridge_unreachable(&bt2, &mut th.bdb);
println!("spares = {:?}", th.ba.bridge_table.spares);
println!("tmig = {:?}", th.ba.trustup_migration_table.table);
println!("bmig = {:?}", th.ba.blockage_migration_table.table);
println!("openinv = {:?}\n", th.bdb.openinv_buckets);
}
#[test]
fn test_blockage_migration() {
let mut th = TestHarness::new();
// Join an untrusted user
let cred = th.open_invite().1 .0;
// Time passes
th.advance_days(47);
// Go up to level 1
let (_mperf_stat, migcred) = th.trust_promotion(&cred);
let (_perf_stat, cred1) = th.level0_migration(&cred, &migcred);
assert!(scalar_u32(&cred1.trust_level).unwrap() == 1);
// Time passes
th.advance_days(20);
// Go up to level 2
let (_two_perf_stat, cred2) = th.level_up(&cred1);
assert!(scalar_u32(&cred2.trust_level).unwrap() == 2);
println!("cred2 = {:?}", cred2);
assert!(th.ba.verify_lox(&cred2));
// Time passes
th.advance_days(29);
// Go up to level 3
let (_three_perf_stat, cred3) = th.level_up(&cred2);
assert!(scalar_u32(&cred3.trust_level).unwrap() == 3);
println!("cred3 = {:?}", cred3);
assert!(th.ba.verify_lox(&cred3));
// Get our bridges
let (id, key) = bridge_table::from_scalar(cred3.bucket).unwrap();
let encbuckets = th.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
// We should have a Bridge Reachability credential
assert!(bucket.1.is_some());
// Oh, no! Two of our bridges are blocked!
th.ba.bridge_unreachable(&bucket.0[0], &mut th.bdb);
th.ba.bridge_unreachable(&bucket.0[2], &mut th.bdb);
println!("spares = {:?}", th.ba.bridge_table.spares);
println!("tmig = {:?}", th.ba.trustup_migration_table.table);
println!("bmig = {:?}", th.ba.blockage_migration_table.table);
println!("openinv = {:?}\n", th.bdb.openinv_buckets);
// Time passes
th.advance_days(1);
let encbuckets2 = th.ba.enc_bridge_table();
let bucket2 =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets2[id as usize]).unwrap();
// We should no longer have a Bridge Reachability credential
assert!(bucket2.1.is_none());
// See about getting a Migration credential for the blockage
let (_block_perf_stat, migration) = th.check_blockage(&cred3);
println!("migration = {:?}", migration);
// Migrate
let (_four_perf_stat, cred4) = th.blockage_migration(&cred3, &migration);
println!("cred4 = {:?}", cred4);
assert!(th.ba.verify_lox(&cred4));
}
#[test]
fn stats_test_trust_levels() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut promo_req_size: Vec<f64> = Vec::new();
let mut promo_resp_size: Vec<f64> = Vec::new();
let mut promo_req_time: Vec<f64> = Vec::new();
let mut promo_resp_time: Vec<f64> = Vec::new();
let mut promo_resp_handle_time: Vec<f64> = Vec::new();
let mut mig_req_size: Vec<f64> = Vec::new();
let mut mig_resp_size: Vec<f64> = Vec::new();
let mut mig_req_time: Vec<f64> = Vec::new();
let mut mig_resp_time: Vec<f64> = Vec::new();
let mut mig_resp_handle_time: Vec<f64> = Vec::new();
let mut sec_req_size: Vec<f64> = Vec::new();
let mut sec_resp_size: Vec<f64> = Vec::new();
let mut sec_req_time: Vec<f64> = Vec::new();
let mut sec_resp_time: Vec<f64> = Vec::new();
let mut sec_resp_handle_time: Vec<f64> = Vec::new();
let mut three_req_size: Vec<f64> = Vec::new();
let mut three_resp_size: Vec<f64> = Vec::new();
let mut three_req_time: Vec<f64> = Vec::new();
let mut three_resp_time: Vec<f64> = Vec::new();
let mut three_resp_handle_time: Vec<f64> = Vec::new();
let mut four_req_size: Vec<f64> = Vec::new();
let mut four_resp_size: Vec<f64> = Vec::new();
let mut four_req_time: Vec<f64> = Vec::new();
let mut four_resp_time: Vec<f64> = Vec::new();
let mut four_resp_handle_time: Vec<f64> = Vec::new();
let mut open_req_size: Vec<f64> = Vec::new();
let mut open_resp_size: Vec<f64> = Vec::new();
let mut open_req_time: Vec<f64> = Vec::new();
let mut open_resp_time: Vec<f64> = Vec::new();
let mut open_resp_handle_time: Vec<f64> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let (open_perf_stat, cred) = th.open_invite();
th.advance_days(30);
let (tp_perf_stat, migcred) = th.trust_promotion(&cred.0);
let (mig_perf_stat, cred1) = th.level0_migration(&cred.0, &migcred);
th.advance_days(14);
let (sec_perf_stat, cred2) = th.level_up(&cred1);
th.advance_days(28);
let (three_perf_stat, cred3) = th.level_up(&cred2);
th.advance_days(56);
let (four_perf_stat, _) = th.level_up(&cred3);
open_req_size.push(open_perf_stat.req_len as f64);
open_req_time.push(open_perf_stat.req_t.as_secs_f64());
open_resp_size.push(open_perf_stat.resp_len as f64);
open_resp_time.push(open_perf_stat.resp_t.as_secs_f64());
open_resp_handle_time.push(open_perf_stat.resp_handle_t.as_secs_f64());
promo_req_size.push(tp_perf_stat.req_len as f64);
promo_req_time.push(tp_perf_stat.req_t.as_secs_f64());
promo_resp_size.push(tp_perf_stat.resp_len as f64);
promo_resp_time.push(tp_perf_stat.resp_t.as_secs_f64());
promo_resp_handle_time.push(tp_perf_stat.resp_handle_t.as_secs_f64());
mig_req_size.push(mig_perf_stat.req_len as f64);
mig_req_time.push(mig_perf_stat.req_t.as_secs_f64());
mig_resp_size.push(mig_perf_stat.resp_len as f64);
mig_resp_time.push(mig_perf_stat.resp_t.as_secs_f64());
mig_resp_handle_time.push(mig_perf_stat.resp_handle_t.as_secs_f64());
sec_req_size.push(sec_perf_stat.req_len as f64);
sec_req_time.push(sec_perf_stat.req_t.as_secs_f64());
sec_resp_size.push(sec_perf_stat.resp_len as f64);
sec_resp_time.push(sec_perf_stat.resp_t.as_secs_f64());
sec_resp_handle_time.push(sec_perf_stat.resp_handle_t.as_secs_f64());
three_req_size.push(three_perf_stat.req_len as f64);
three_req_time.push(three_perf_stat.req_t.as_secs_f64());
three_resp_size.push(three_perf_stat.resp_len as f64);
three_resp_time.push(three_perf_stat.resp_t.as_secs_f64());
three_resp_handle_time.push(three_perf_stat.resp_handle_t.as_secs_f64());
four_req_size.push(four_perf_stat.req_len as f64);
four_req_time.push(four_perf_stat.req_t.as_secs_f64());
four_resp_size.push(four_perf_stat.resp_len as f64);
four_resp_time.push(four_perf_stat.resp_t.as_secs_f64());
four_resp_handle_time.push(four_perf_stat.resp_handle_t.as_secs_f64());
}
println!("\n***START: {}*3*2 BUCKETS LEVELS***\n", x);
println!("\n----OPEN-INVITATION-{}---\n", x);
print_stats_test_results(
open_req_size,
open_req_time,
open_resp_size,
open_resp_time,
open_resp_handle_time,
);
println!("\n----TRUST-PROMOTION-1: 30 days-{}---\n", x);
print_stats_test_results(
promo_req_size,
promo_req_time,
promo_resp_size,
promo_resp_time,
promo_resp_handle_time,
);
println!("\n----TRUST-MIGRATION-0: 30 days-{}---\n", x);
print_stats_test_results(
mig_req_size,
mig_req_time,
mig_resp_size,
mig_resp_time,
mig_resp_handle_time,
);
println!("\n----LEVEL-UP-2: 44 days-{}---\n", x);
print_stats_test_results(
sec_req_size,
sec_req_time,
sec_resp_size,
sec_resp_time,
sec_resp_handle_time,
);
println!("\n----LEVEL-UP-3: 72 days---{}---\n", x);
print_stats_test_results(
three_req_size,
three_req_time,
three_resp_size,
three_resp_time,
three_resp_handle_time,
);
println!("\n----LEVEL-UP-4: 128 days---{}---\n", x);
print_stats_test_results(
four_req_size,
four_req_time,
four_resp_size,
four_resp_time,
four_resp_handle_time,
);
}
}
#[test]
fn stats_test_invitations() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut req_size: Vec<f64> = Vec::new();
let mut resp_size: Vec<f64> = Vec::new();
let mut req_time: Vec<f64> = Vec::new();
let mut resp_time: Vec<f64> = Vec::new();
let mut resp_handle_time: Vec<f64> = Vec::new();
let mut red_req_size: Vec<f64> = Vec::new();
let mut red_resp_size: Vec<f64> = Vec::new();
let mut red_req_time: Vec<f64> = Vec::new();
let mut red_resp_time: Vec<f64> = Vec::new();
let mut red_resp_handle_time: Vec<f64> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
th.advance_days(28);
let (perf_stat, (_, invite)) = th.issue_invite(&cred2);
let (bob_perf_stat, _) = th.redeem_invite(&invite);
req_size.push(perf_stat.req_len as f64);
req_time.push(perf_stat.req_t.as_secs_f64());
resp_size.push(perf_stat.resp_len as f64);
resp_time.push(perf_stat.resp_t.as_secs_f64());
resp_handle_time.push(perf_stat.resp_handle_t.as_secs_f64());
red_req_size.push(bob_perf_stat.req_len as f64);
red_req_time.push(bob_perf_stat.req_t.as_secs_f64());
red_resp_size.push(bob_perf_stat.resp_len as f64);
red_resp_time.push(bob_perf_stat.resp_t.as_secs_f64());
red_resp_handle_time.push(bob_perf_stat.resp_handle_t.as_secs_f64());
}
println!("\n***START: {}*3*2 BUCKETS INVITATIONS***\n", x);
println!("\n----ISSUE-INVITATION-{}---\n", x);
print_stats_test_results(req_size, req_time, resp_size, resp_time, resp_handle_time);
println!("\n----REDEEM-INVITATION-{}---\n", x);
print_stats_test_results(
red_req_size,
red_req_time,
red_resp_size,
red_resp_time,
red_resp_handle_time,
);
}
}
#[test]
fn stats_test_percent_blockage_migration_05() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 5***\n", x);
block_bridges(&mut th, 5, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_010() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 10***\n", x);
block_bridges(&mut th, 10, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_15() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 15***\n", x);
block_bridges(&mut th, 15, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_20() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 20***\n", x);
block_bridges(&mut th, 20, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_25() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 25***\n", x);
block_bridges(&mut th, 25, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_30() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 30***\n", x);
block_bridges(&mut th, 30, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_35() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 35***\n", x);
block_bridges(&mut th, 35, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_40() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 40***\n", x);
block_bridges(&mut th, 40, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_45() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 45***\n", x);
block_bridges(&mut th, 45, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_50() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 50***\n", x);
block_bridges(&mut th, 50, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_55() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 55***\n", x);
block_bridges(&mut th, 55, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_60() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 60***\n", x);
block_bridges(&mut th, 60, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_65() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 65***\n", x);
block_bridges(&mut th, 65, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_70() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 70***\n", x);
block_bridges(&mut th, 70, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_75() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 75***\n", x);
block_bridges(&mut th, 75, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_80() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 80***\n", x);
block_bridges(&mut th, 80, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_85() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 85***\n", x);
block_bridges(&mut th, 85, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_90() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 90***\n", x);
block_bridges(&mut th, 90, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_95() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 95***\n", x);
block_bridges(&mut th, 95, credentials);
}
}
#[test]
fn stats_test_percent_blockage_migration_100() {
let buckets: Vec<u16> = vec![150, 300, 450, 600, 750, 900, 1050, 1200, 1350, 1500];
for x in buckets {
let mut th = TestHarness::new_buckets(x, x);
let mut credentials: Vec<cred::Lox> = Vec::new();
for _ in 0..USERS {
let h: NaiveTime = DateTime::time(&Utc::now());
if h.hour() == 23 && h.minute() == 59 {
println!("Wait for UTC 00:00");
thread::sleep(Duration::new(60, 0));
println!("Ready to work again");
}
let cred = th.open_invite().1 .0;
th.advance_days(30);
let (_, migcred) = th.trust_promotion(&cred);
let (_, cred1) = th.level0_migration(&cred, &migcred);
th.advance_days(14);
let (_, cred2) = th.level_up(&cred1);
let (_, (cred2a, invite)) = th.issue_invite(&cred2);
let (_, bob_cred) = th.redeem_invite(&invite);
th.advance_days(28);
let (_, _) = th.level_up(&bob_cred);
let (_, cred3) = th.level_up(&cred2a);
credentials.push(cred3);
}
println!("\n***START: {}*3*2 BUCKETS 100***\n", x);
block_bridges(&mut th, 100, credentials);
}
}
/// Blocks a percentage of the bridges for the passed Test Harness
/// excluding the hot spare buckets as they will not have been handed out.
/// The logic assumes hot spare buckets are appended to the end of the bridge_table
/// bucket list.
fn block_bridges(th: &mut TestHarness, percentage: usize, credentials: Vec<cred::Lox>) {
let blockable_num = th.ba.bridge_table.buckets.len()
- th.ba.bridge_table.spares.len()
- th.bdb.openinv_buckets.len();
let blockable_range = th.ba.bridge_table.buckets.len() - th.ba.bridge_table.spares.len();
let to_block: usize = blockable_num * percentage / 100;
let mut block_index: HashSet<usize> = HashSet::new();
let mut rng = rand::thread_rng();
while block_index.len() < to_block {
let rand_num = rng.gen_range(0, blockable_range);
if !th.bdb.openinv_buckets.contains(&(rand_num as u32)) {
block_index.insert(rand_num);
}
}
for index in block_index {
let b0 = th.ba.bridge_table.buckets[index][0];
let b1 = th.ba.bridge_table.buckets[index][1];
let b2 = th.ba.bridge_table.buckets[index][2];
th.ba.bridge_unreachable(&b0, &mut th.bdb);
th.ba.bridge_unreachable(&b1, &mut th.bdb);
th.ba.bridge_unreachable(&b2, &mut th.bdb);
}
let mut req_size: Vec<f64> = Vec::new();
let mut resp_size: Vec<f64> = Vec::new();
let mut req_time: Vec<f64> = Vec::new();
let mut resp_time: Vec<f64> = Vec::new();
let mut resp_handle_time: Vec<f64> = Vec::new();
let mut red_req_size: Vec<f64> = Vec::new();
let mut red_resp_size: Vec<f64> = Vec::new();
let mut red_req_time: Vec<f64> = Vec::new();
let mut red_resp_time: Vec<f64> = Vec::new();
let mut red_resp_handle_time: Vec<f64> = Vec::new();
for cred in credentials {
let (id, key) = bridge_table::from_scalar(cred.bucket).unwrap();
let encbuckets = th.ba.enc_bridge_table();
let bucket =
bridge_table::BridgeTable::decrypt_bucket(id, &key, &encbuckets[id as usize]).unwrap();
let mut count = 0;
for bridge_line in &bucket.0 {
if th.ba.bridge_table.reachable.contains_key(bridge_line) {
count += 1;
}
}
if count < 2 {
let (perf_stat, migration) = th.check_blockage(&cred);
let (block_perf_stat, _) = th.blockage_migration(&cred, &migration);
req_size.push(perf_stat.req_len as f64);
req_time.push(perf_stat.req_t.as_secs_f64());
resp_size.push(perf_stat.resp_len as f64);
resp_time.push(perf_stat.resp_t.as_secs_f64());
resp_handle_time.push(perf_stat.resp_handle_t.as_secs_f64());
red_req_size.push(block_perf_stat.req_len as f64);
red_req_time.push(block_perf_stat.req_t.as_secs_f64());
red_resp_size.push(block_perf_stat.resp_len as f64);
red_resp_time.push(block_perf_stat.resp_t.as_secs_f64());
red_resp_handle_time.push(block_perf_stat.resp_handle_t.as_secs_f64());
}
}
println!("\n----CHECK-BLOCKAGE-{}----\n", percentage);
print_stats_test_results(req_size, req_time, resp_size, resp_time, resp_handle_time);
println!("\n----BLOCKAGE-MIGRATION-{}----\n", percentage);
print_stats_test_results(
red_req_size,
red_req_time,
red_resp_size,
red_resp_time,
red_resp_handle_time,
);
}
fn print_test_results(perf_stat: PerfStat) {
println!("Request size = {:?} bytes", perf_stat.req_len);
println!("Request time = {:?}", perf_stat.req_t);
println!("Response size = {:?} bytes", perf_stat.resp_len);
println!("Response time = {:?}", perf_stat.resp_t);
println!("Response handle time = {:?}", perf_stat.resp_handle_t);
}
//fn print_time_test_results(perf_stat: PerfStat) {
// println!("Request time = {:?}", perf_stat.req_t);
// println!("Response time = {:?}", perf_stat.resp_t);
// println!("Response handle time = {:?}", perf_stat.resp_handle_t);
//}
fn print_stats_test_results(
req_size: Vec<f64>,
req_time: Vec<f64>,
resp_size: Vec<f64>,
resp_time: Vec<f64>,
resp_handle_time: Vec<f64>,
) {
let mean_req_size = if req_size.len() > 0 {
mean(&req_size)
} else {
0.0
};
let req_std_dev = if req_size.len() > 1 {
standard_deviation(&req_size, Some(mean_req_size))
} else {
0.0
};
let mean_req_time = if req_time.len() > 0 {
mean(&req_time)
} else {
0.0
};
let req_time_std_dev = if req_time.len() > 1 {
standard_deviation(&req_time, Some(mean_req_time))
} else {
0.0
};
let mean_resp_size = if resp_size.len() > 0 {
mean(&resp_size)
} else {
0.0
};
let resp_std_dev = if resp_size.len() > 1 {
standard_deviation(&resp_size, Some(mean_resp_size))
} else {
0.0
};
let mean_resp_time = if resp_time.len() > 0 {
mean(&resp_time)
} else {
0.0
};
let resp_time_std_dev = if resp_time.len() > 1 {
standard_deviation(&resp_time, Some(mean_resp_time))
} else {
0.0
};
let mean_resp_handle_time = if resp_handle_time.len() > 0 {
mean(&resp_handle_time)
} else {
0.0
};
let resp_handle_time_std_dev = if resp_handle_time.len() > 1 {
standard_deviation(&resp_handle_time, Some(mean_resp_handle_time))
} else {
0.0
};
println!("Average request size = {} bytes", mean_req_size);
println!("Request size standard deviation = {} bytes", req_std_dev);
println!(
"Average request time = {:?}",
Duration::from_secs_f64(mean_req_time)
);
println!(
"Request time standard deviation = {:?}",
Duration::from_secs_f64(req_time_std_dev)
);
println!("Average response size = {} bytes", mean_resp_size);
println!("Response standard deviation = {} bytes", resp_std_dev);
println!(
"Average response time = {:?}",
Duration::from_secs_f64(mean_resp_time)
);
println!(
"Response time standard deviation = {:?}",
Duration::from_secs_f64(resp_time_std_dev)
);
println!(
"Average response handling time = {:?}",
Duration::from_secs_f64(mean_resp_handle_time)
);
println!(
"Response handling time standard deviation = {:?}",
Duration::from_secs_f64(resp_handle_time_std_dev)
);
}
Reference in New Issue View Git Blame Copy Permalink