lox-simulation/src/user.rs

// User behavior in simulation

use crate::{
    bridge::Bridge,
    censor::{Censor, Secrecy::*, Totality::*},
    config::Config,
};

use anyhow::{anyhow, Result};
use lox_cli::{networking::*, *};
use lox_library::{
    bridge_table::BridgeLine,
    cred::{Invitation, Lox},
    proto::check_blockage::MIN_TRUST_LEVEL,
    scalar_u32,
};
use rand::Rng;
use std::collections::{HashMap, HashSet};
use troll_patrol::{
    get_date, negative_report::NegativeReport, positive_report::PositiveReport, BridgeDistributor,
};
use x25519_dalek::PublicKey;

// Helper function to probabilistically return true or false
pub fn event_happens(probability: f64) -> bool {
    let mut rng = rand::thread_rng();
    let num: f64 = rng.gen_range(0.0..1.0);
    num < probability
}

// Make sure each bridge is in global bridges set and known by censor
pub fn give_bucket_to_censor(
    bucket: &[BridgeLine],
    bridges: &mut HashMap<[u8; 20], Bridge>,
    censor: &mut Censor,
) {
    for bridgeline in bucket {
        if *bridgeline != BridgeLine::default() {
            let fingerprint = bridgeline.get_hashed_fingerprint();
            if !bridges.contains_key(&fingerprint) {
                let bridge = Bridge::from_bridge_line(&bridgeline);
                bridges.insert(fingerprint, bridge);
            }
            censor.learn_bridge(&fingerprint);
        }
    }
}

pub struct User {
    // Does this user cooperate with a censor?
    pub is_censor: bool,

    // The user always has a primary credential. If this credential's bucket is
    // blocked, the user may replace it or temporarily hold two credentials
    // while waiting to migrate from the primary credential.
    pub primary_cred: Lox,
    secondary_cred: Option<Lox>,

    // Does the user submit reports to Troll Patrol?
    submits_reports: bool,

    // How likely is this user to use bridges on a given day?
    prob_use_bridges: f64,

    // If the censor implements partial blocking, is the user blocked?
    in_censorship_range: bool,

    // Track date the user joined and whether they're able to connect
    pub join_date: u32,
    pub able_to_connect: bool,
    // Attempted to connect today
    pub attempted_connection: bool,
}

impl User {
    pub async fn new(
        config: &Config,
        is_censor: bool,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
    ) -> Result<Self> {
        if censor.is_active() && !is_censor {
            return Err(anyhow!("Censor is active; open invites disabled"));
        }

        let cred = Self::get_new_credential(&config).await?.0;

        // Decide how likely this user is to use bridges on a given day
        // and whether they submit reports
        let (prob_use_bridges, submits_reports) = if is_censor {
            (0.0, false)
        } else {
            let mut rng = rand::thread_rng();
            let prob_use_bridges = rng.gen_range(0.0..=1.0);
            let submits_reports = event_happens(config.prob_user_submits_reports);
            (prob_use_bridges, submits_reports)
        };

        let in_censorship_range = if config.censor_totality == Partial {
            event_happens(config.censor_partial_blocking_percent)
        } else {
            true
        };

        let mut result = Self {
            is_censor,
            primary_cred: cred,
            secondary_cred: None,
            submits_reports: submits_reports,
            prob_use_bridges: prob_use_bridges,
            in_censorship_range,
            join_date: get_date(),
            able_to_connect: false,
            attempted_connection: true,
        };

        // Immediately download and try to use our bridges, or report them to the censor.
        let (bucket, _reachcred) = get_bucket(&config.la_net, &result.primary_cred).await?;

        if is_censor {
            // Give bridges to censor
            give_bucket_to_censor(&bucket, bridges, censor);
        } else {
            // Test bridges to see if they work
            let (s, f) = result.test_bridges(&bucket, config, bridges, censor);

            // Our bridge worked! Yay!
            if !s.is_empty() {
                result.able_to_connect = true;
            }

            // Report any failures if we submit reports
            if submits_reports {
                for bl in f {
                    let mut negative_reports = Vec::<NegativeReport>::new();
                    negative_reports.push(NegativeReport::from_bridgeline(
                        bl,
                        config.country.to_string(),
                        BridgeDistributor::Lox,
                    ));
                    Self::send_negative_reports(&config, negative_reports).await?;
                }
            }
        }

        // Return our new user
        Ok(result)
    }

    // Get an invite if able
    pub async fn get_invite(
        &mut self,
        config: &Config,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
    ) -> Result<Invitation> {
        let etable = get_reachability_credential(&config.la_net).await?;
        let (new_cred, invite) = issue_invite(
            &config.la_net,
            &self.primary_cred,
            &etable,
            get_lox_pub(&config.la_pubkeys),
            get_reachability_pub(&config.la_pubkeys),
            get_invitation_pub(&config.la_pubkeys),
        )
        .await?;
        self.primary_cred = new_cred;

        // If user cooperates with censor, give bridges and credential
        // now. Otherwise, wait until the user actually wants to use
        // Tor.
        if self.is_censor {
            let (bucket, _reachcred) = get_bucket(&config.la_net, &self.primary_cred).await?;

            give_bucket_to_censor(&bucket, bridges, censor);
        }
        Ok(invite)
    }

    pub async fn from_invite(
        invite: Invitation,
        config: &Config,
        is_censor: bool,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
    ) -> Result<Self> {
        let cred = redeem_invite(
            &config.la_net,
            &invite,
            get_lox_pub(&config.la_pubkeys),
            get_invitation_pub(&config.la_pubkeys),
        )
        .await?
        .0;

        // Decide how likely this user is to use bridges on a given day
        // and whether they submit reports
        let (prob_use_bridges, submits_reports) = if is_censor {
            (0.0, false)
        } else {
            let mut rng = rand::thread_rng();
            let prob_use_bridges = rng.gen_range(0.0..=1.0);
            let submits_reports = event_happens(config.prob_user_submits_reports);
            (prob_use_bridges, submits_reports)
        };

        let in_censorship_range = if config.censor_totality == Partial {
            event_happens(config.censor_partial_blocking_percent)
        } else {
            true
        };

        let mut result = Self {
            is_censor,
            primary_cred: cred,
            secondary_cred: None,
            submits_reports: submits_reports,
            prob_use_bridges: prob_use_bridges,
            in_censorship_range,
            join_date: get_date(),
            able_to_connect: false,
            attempted_connection: true,
        };

        let (bucket, _reachcred) = get_bucket(&config.la_net, &result.primary_cred).await?;

        if is_censor {
            give_bucket_to_censor(&bucket, bridges, censor);
        } else {
            let (s, f) = result.test_bridges(&bucket, config, bridges, censor);

            // Our bridge worked! Yay!
            if !s.is_empty() {
                result.able_to_connect = true;
            }

            // Report any failures if we submit reports
            if submits_reports {
                for bl in f {
                    let mut negative_reports = Vec::<NegativeReport>::new();
                    negative_reports.push(NegativeReport::from_bridgeline(
                        bl,
                        config.country.to_string(),
                        BridgeDistributor::Lox,
                    ));
                    Self::send_negative_reports(&config, negative_reports).await?;
                }
            }
        }

        Ok(result)
    }

    // Attempt to "connect" to the bridge, returns true if successful.
    // Note that this does not involve making a real connection to a
    // real bridge.
    pub fn connect(
        in_censorship_range: bool,
        config: &Config,
        bridge: &mut Bridge,
        censor: &Censor,
    ) -> bool {
        if censor.blocks_bridge(config, &bridge.fingerprint) {
            if config.censor_totality == Full
                || config.censor_totality == Partial && in_censorship_range
            {
                // If censor tries to hide its censorship, record a
                // false connection
                if config.censor_secrecy == Hiding {
                    bridge.connect_total();
                }

                // Return false because the connection failed
                return false;
            } else if config.censor_totality == Throttling {
                // With some probability, the user connects but gives up
                // because there is too much interference. In this case,
                // a real connection occurs, but we treat it like a
                // false connection from the censor.
                if event_happens(config.prob_user_treats_throttling_as_blocking) {
                    bridge.connect_total();

                    // Return false because there was interference
                    // detected in the connection
                    return false;
                }
            }
        }

        // Connection may randomly fail, without censor intervention
        let mut connection_fails = true;
        // The user retries some number of times
        for _ in 0..=config.num_connection_retries {
            if !event_happens(config.prob_connection_fails) {
                connection_fails = false;
                break;
            }
        }
        if connection_fails {
            return false;
        }

        // If we haven't returned yet, the connection succeeded
        bridge.connect_real();
        true
    }

    // Given a Lox credential, download its bucket, test its bridges, and
    // return sets of working and non-working bridges
    pub fn test_bridges(
        &mut self,
        bucket: &[BridgeLine],
        config: &Config,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &Censor,
    ) -> (HashSet<BridgeLine>, HashSet<BridgeLine>) {
        let mut failed = HashSet::<BridgeLine>::new();
        let mut succeeded = HashSet::<BridgeLine>::new();

        for bridgeline in bucket {
            if *bridgeline != BridgeLine::default() {
                let fingerprint = bridgeline.get_hashed_fingerprint();

                // Make sure bridge is in the global set
                if !bridges.contains_key(&fingerprint) {
                    let bridge = Bridge::from_bridge_line(&bridgeline);
                    bridges.insert(fingerprint, bridge);
                }

                // If this is the first time the bridge has been
                // distributed to a real user, store that info
                let bridge = bridges.get_mut(&fingerprint).unwrap();
                if bridge.first_real_user == 0 {
                    bridge.first_real_user = get_date();
                }

                // Attempt to connect to the bridge
                if Self::connect(
                    self.in_censorship_range,
                    config,
                    bridges
                        .get_mut(&bridgeline.get_hashed_fingerprint())
                        .unwrap(),
                    censor,
                ) {
                    self.able_to_connect = true;
                    succeeded.insert(*bridgeline);
                } else {
                    failed.insert(*bridgeline);
                }
            }
        }

        (succeeded, failed)
    }

    pub async fn get_new_credential(config: &Config) -> Result<(Lox, BridgeLine)> {
        get_lox_credential(
            &config.la_net,
            &get_open_invitation(&config.la_net).await?,
            get_lox_pub(&config.la_pubkeys),
        )
        .await
    }

    pub async fn send_negative_reports(
        config: &Config,
        reports: Vec<NegativeReport>,
    ) -> Result<()> {
        let date = get_date();
        let pubkey = match serde_json::from_slice::<Option<PublicKey>>(
            &config
                .tp_net
                .request("/nrkey".to_string(), serde_json::to_string(&date)?.into())
                .await?,
        )? {
            Some(v) => v,
            None => return Err(anyhow!("No available negative report encryption key")),
        };
        for report in reports {
            config
                .tp_net
                .request(
                    "/negativereport".to_string(),
                    bincode::serialize(&report.encrypt(&pubkey))?,
                )
                .await?;
        }
        Ok(())
    }

    pub async fn send_positive_reports(
        config: &Config,
        reports: Vec<PositiveReport>,
    ) -> Result<()> {
        for report in reports {
            config
                .tp_net
                .request("/positivereport".to_string(), report.to_json().into_bytes())
                .await?;
        }
        Ok(())
    }

    pub async fn daily_tasks(
        &mut self,
        config: &Config,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
        invites: &mut Vec<Invitation>,
    ) -> Result<Vec<User>> {
        if self.is_censor {
            self.daily_tasks_censor(config, bridges, censor).await
        } else {
            self.daily_tasks_non_censor(config, bridges, censor, invites)
                .await
        }
    }

    // User performs daily connection attempts, etc. and returns a
    // vector of newly invited friends.
    // TODO: The map of bridges and the censor should be Arc<Mutex<>>
    // or something so we can parallelize this.
    pub async fn daily_tasks_non_censor(
        &mut self,
        config: &Config,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
        invites: &mut Vec<Invitation>,
    ) -> Result<Vec<User>> {
        // Probabilistically decide if the user should use bridges today
        if event_happens(self.prob_use_bridges) {
            self.attempted_connection = true;

            // Start with the assumption that we can't connect, change
            // only if we can
            self.able_to_connect = false;

            // Download bucket to see if bridge is still reachable. (We
            // assume that this step can be done even if the user can't
            // actually talk to the LA.)
            let (bucket, reachcred) = get_bucket(&config.la_net, &self.primary_cred).await?;
            let level = match scalar_u32(&self.primary_cred.trust_level) {
                Some(v) => v,
                None => return Err(anyhow!("Failed to get trust level from credential")),
            };

            // Can we level up the main credential?
            let can_level_up = reachcred.is_some()
                && (level == 0
                    && eligible_for_trust_promotion(&config.la_net, &self.primary_cred).await
                    || level > 0
                        && eligible_for_level_up(&config.la_net, &self.primary_cred).await);

            // Can we migrate the main credential?
            let can_migrate = reachcred.is_none() && level >= MIN_TRUST_LEVEL;

            // Can we level up the secondary credential?
            let mut second_level_up = false;

            // Track which connections succeeded and which failed. We use sets
            // instead of vectors for deduplication in case we test a bridge
            // multiple times.
            let mut succeeded = HashSet::<BridgeLine>::new();
            let mut failed = HashSet::<BridgeLine>::new();

            let (s, f) = self.test_bridges(&bucket, config, bridges, censor);

            // Add working bridges to succeeded set
            for b in s {
                succeeded.insert(b);
            }

            // Add non-working bridges to failed set
            for b in f {
                failed.insert(b);
            }

            // If we were not able to connect to any bridges but also
            // cannot migrate, ask for a new invitation
            if !self.able_to_connect && !can_migrate {
                while let Some(invite) = invites.pop() {
                    match redeem_invite(
                        &config.la_net,
                        &invite,
                        get_lox_pub(&config.la_pubkeys),
                        get_invitation_pub(&config.la_pubkeys),
                    )
                    .await
                    {
                        Ok((cred, bucket)) => {
                            self.primary_cred = cred;

                            // Test our bridges
                            let (s, f) = self.test_bridges(&bucket, config, bridges, censor);

                            for b in s {
                                succeeded.insert(b);
                            }

                            for b in f {
                                failed.insert(b);
                            }

                            // We got a credential. Stop now.
                            break;
                        }
                        Err(e) => {
                            println!("Failed to redeem invite. Error: {}", e);
                        }
                    }
                }
            }

            // If we were still not able to connect to any bridges, get
            // a second credential
            let second_cred = if !self.able_to_connect {
                if self.secondary_cred.is_some() {
                    std::mem::replace(&mut self.secondary_cred, None)
                } else {
                    // If the censor is in play, we cannot get open-entry invites
                    if censor.is_active() {
                        None
                    } else {
                        // Get new credential
                        match Self::get_new_credential(&config).await {
                            Ok((cred, _bl)) => Some(cred),
                            Err(e) => {
                                eprintln!("Failed to get new Lox credential. Error: {}", e);
                                None
                            }
                        }
                    }
                }
            } else {
                // If we're able to connect with the primary credential, don't
                // keep a secondary one.
                None
            };
            if second_cred.is_some() {
                let second_cred = second_cred.as_ref().unwrap();

                // Test our bridges
                let (second_bucket, second_reachcred) =
                    get_bucket(&config.la_net, &second_cred).await?;
                let (s, f) = self.test_bridges(&second_bucket, config, bridges, censor);

                // Add each working bridge to succeeded set
                for b in s {
                    succeeded.insert(b);
                }

                // Add each non-working bridge to failed set
                for b in f {
                    failed.insert(b);
                }

                // If we're able to connect, see if we can level up
                if self.able_to_connect {
                    if second_reachcred.is_some()
                        && eligible_for_trust_promotion(&config.la_net, &second_cred).await
                    {
                        second_level_up = true;
                    }
                }
            }

            let mut negative_reports = Vec::<NegativeReport>::new();
            let mut positive_reports = Vec::<PositiveReport>::new();

            if self.submits_reports {
                for bridgeline in &failed {
                    negative_reports.push(NegativeReport::from_bridgeline(
                        *bridgeline,
                        config.country.to_string(),
                        BridgeDistributor::Lox,
                    ));
                }
                if level >= 3 {
                    for bridgeline in &succeeded {
                        // If we haven't received a positive report yet,
                        // add a record about it with today's date
                        let fingerprint = bridgeline.get_hashed_fingerprint();
                        let bridge = bridges.get_mut(&fingerprint).unwrap();
                        if bridge.first_positive_report == 0 {
                            bridge.first_positive_report = get_date();
                        }

                        positive_reports.push(
                            PositiveReport::from_lox_credential(
                                fingerprint,
                                None,
                                &self.primary_cred,
                                get_lox_pub(&config.la_pubkeys),
                                config.country.to_string(),
                            )
                            .unwrap(),
                        );
                    }
                }
            }

            // We might restrict these steps to succeeded.len() > 0, but
            // we do assume the user can contact the LA somehow, so
            // let's just allow it.

            if can_level_up {
                // If we can level up/trust migrate, do so

                // Trust migration from level 0 to level 1
                let cred = if level == 0 {
                    trust_migration(
                        &config.la_net,
                        &self.primary_cred,
                        &trust_promotion(
                            &config.la_net,
                            &self.primary_cred,
                            get_lox_pub(&config.la_pubkeys),
                        )
                        .await?,
                        get_lox_pub(&config.la_pubkeys),
                        get_migration_pub(&config.la_pubkeys),
                    )
                    .await?
                } else {
                    // Level up from level 1+
                    level_up(
                        &config.la_net,
                        &self.primary_cred,
                        &reachcred.unwrap(),
                        get_lox_pub(&config.la_pubkeys),
                        get_reachability_pub(&config.la_pubkeys),
                    )
                    .await?
                };
                self.primary_cred = cred;
                self.secondary_cred = None;
            } else if can_migrate {
                // If we can't level up, try to migrate
                let cred = blockage_migration(
                    &config.la_net,
                    &self.primary_cred,
                    &check_blockage(
                        &config.la_net,
                        &self.primary_cred,
                        get_lox_pub(&config.la_pubkeys),
                    )
                    .await?,
                    get_lox_pub(&config.la_pubkeys),
                    get_migration_pub(&config.la_pubkeys),
                )
                .await?;
                self.primary_cred = cred;
                self.secondary_cred = None;
            } else if second_level_up {
                // If we can't migrate, try to level up our secondary
                // credential
                let second_cred = second_cred.as_ref().unwrap();
                let cred = trust_migration(
                    &config.la_net,
                    &second_cred,
                    &trust_promotion(
                        &config.la_net,
                        &second_cred,
                        get_lox_pub(&config.la_pubkeys),
                    )
                    .await?,
                    get_lox_pub(&config.la_pubkeys),
                    get_migration_pub(&config.la_pubkeys),
                )
                .await?;
                self.primary_cred = cred;
                self.secondary_cred = None;
            } else if second_cred.is_some() {
                // Couldn't connect with primary credential
                if self.able_to_connect {
                    // Keep the second credential only if it's useful
                    self.secondary_cred = second_cred;
                }
            }

            if !negative_reports.is_empty() {
                Self::send_negative_reports(&config, negative_reports).await?;
            }
            if !positive_reports.is_empty() {
                Self::send_positive_reports(&config, positive_reports).await?;
            }

            // Invite friends if applicable
            let invitations = match scalar_u32(&self.primary_cred.invites_remaining) {
                Some(v) => v,
                None => 0, // This is probably an error case that should not happen
            };

            // It's just more convenient in the code to do this this way.
            // Invite censors directly as new users. If the invited user is
            // not a censor, instead add the invitation to a global list.
            let mut new_censors = Vec::<User>::new();

            // Scale the probability of inviting a censor, based on the
            // user's own trust level. We assume that users with
            // more-trusted credentials are less likely to invite
            // censors because they have more to lose.
            let level_scale = match scalar_u32(&self.primary_cred.trust_level) {
                // These numbers are fairly arbitrary.
                Some(4) => 0.25,
                Some(3) => 0.5,
                Some(2) => 1.0,
                _ => 1.0, // should not have invitations
            };
            for _ in 0..invitations {
                if event_happens(config.prob_user_invites_friend) {
                    match self.get_invite(config, bridges, censor).await {
                        Ok(invite) => {
                            // With some probability, the user is convinced to
                            // invite a censor. We assume users with higher
                            // trust levels will be more cautious with
                            // invitations because they have more to lose.
                            if censor.is_active()
                                && event_happens(config.prob_censor_gets_invite * level_scale)
                            {
                                // Invite friend (who might be a censor)
                                match Self::from_invite(invite, config, true, bridges, censor).await
                                {
                                    Ok(friend) => {
                                        // You really shouldn't push your friends,
                                        // especially new ones whose boundaries you
                                        // might not know well.
                                        new_censors.push(friend);
                                    }
                                    Err(e) => {
                                        println!("{}", e);
                                    }
                                }
                            } else {
                                invites.push(invite);
                            }
                        }
                        Err(e) => {
                            println!("{}", e);
                        }
                    }
                }
            }

            Ok(new_censors)
        } else {
            // If we didn't try to connect, indicate so. This is to
            // prevent users from being counted as able/unable to
            // connect when they just haven't tried.
            self.attempted_connection = false;
            Ok(Vec::<User>::new())
        }
    }

    // User cooperates with censor and performs daily tasks to try to
    // learn more bridges.
    pub async fn daily_tasks_censor(
        &mut self,
        config: &Config,
        bridges: &mut HashMap<[u8; 20], Bridge>,
        censor: &mut Censor,
    ) -> Result<Vec<User>> {
        // Download bucket to see if bridge is still reachable and if we
        // have any new bridges
        let (bucket, reachcred) = get_bucket(&config.la_net, &self.primary_cred).await?;
        let level = scalar_u32(&self.primary_cred.trust_level).unwrap();

        // Make sure each bridge is in global bridges set and known by
        // censor
        for bridgeline in bucket {
            if bridgeline != BridgeLine::default() {
                let fingerprint = bridgeline.get_hashed_fingerprint();
                if !bridges.contains_key(&fingerprint) {
                    let bridge = Bridge::from_bridge_line(&bridgeline);
                    bridges.insert(fingerprint, bridge);
                }
                censor.learn_bridge(&fingerprint);
            }
        }

        // Censor user tries to level up their primary credential
        if reachcred.is_some() {
            if level == 0 && eligible_for_trust_promotion(&config.la_net, &self.primary_cred).await
                || level > 0 && eligible_for_level_up(&config.la_net, &self.primary_cred).await
            {
                let new_cred = if level == 0 {
                    trust_migration(
                        &config.la_net,
                        &self.primary_cred,
                        &trust_promotion(
                            &config.la_net,
                            &self.primary_cred,
                            get_lox_pub(&config.la_pubkeys),
                        )
                        .await?,
                        get_lox_pub(&config.la_pubkeys),
                        get_migration_pub(&config.la_pubkeys),
                    )
                    .await?
                } else {
                    level_up(
                        &config.la_net,
                        &self.primary_cred,
                        &reachcred.unwrap(),
                        get_lox_pub(&config.la_pubkeys),
                        get_reachability_pub(&config.la_pubkeys),
                    )
                    .await?
                };
                self.primary_cred = new_cred;
                let (bucket, _reachcred) = get_bucket(&config.la_net, &self.primary_cred).await?;
                // Make sure each bridge is in global bridges set and
                // known by censor
                for bl in bucket {
                    let fingerprint = bl.get_hashed_fingerprint();
                    if !bridges.contains_key(&fingerprint) {
                        let bridge = Bridge::from_bridge_line(&bl);
                        bridges.insert(fingerprint, bridge);
                    }
                    censor.learn_bridge(&fingerprint);
                    if level == 2 {
                        // level up to 3
                        // Give censor an additional credential
                        censor.give_lox_cred(&fingerprint, &self.primary_cred, true);
                    } else if level > 2 {
                        // level up to 4
                        // Replace censor's credential with newer one,
                        // but don't add to count of censor's
                        // credentials
                        censor.give_lox_cred(&fingerprint, &self.primary_cred, false);
                    }
                }
            }
        } else {
            // LA has identified this bucket as blocked. This change
            // will not be reverted, so either migrate or replace the
            // primary credential with a new level 0 credential and work
            // on gaining trust for that one.

            // Migrate if able
            if level >= MIN_TRUST_LEVEL {
                if let Ok(migcred) = check_blockage(
                    &config.la_net,
                    &self.primary_cred,
                    get_lox_pub(&config.la_pubkeys),
                )
                .await
                {
                    if let Ok(cred) = blockage_migration(
                        &config.la_net,
                        &self.primary_cred,
                        &migcred,
                        get_lox_pub(&config.la_pubkeys),
                        get_migration_pub(&config.la_pubkeys),
                    )
                    .await
                    {
                        self.primary_cred = cred;

                        // You can't migrate to level 3 or 4, so the
                        // censor doesn't want this new credential

                        // Download bucket to see if bridge is still
                        // reachable and if we have any new bridges
                        let (bucket, _reachcred) =
                            get_bucket(&config.la_net, &self.primary_cred).await?;

                        // Make sure each bridge is in global bridges
                        // set and known by censor
                        for bridgeline in bucket {
                            if bridgeline != BridgeLine::default() {
                                let fingerprint = bridgeline.get_hashed_fingerprint();
                                if !bridges.contains_key(&fingerprint) {
                                    let bridge = Bridge::from_bridge_line(&bridgeline);
                                    bridges.insert(fingerprint, bridge);
                                }
                                censor.learn_bridge(&fingerprint);
                            }
                        }
                    }
                }

                // Removing this case for efficiency. If the censor is in
                // play, we just assume it wins the open-entry game and stop
                // distributing open-entry invites altogether.
                /*
                            } else {
                                // If unable to migrate, try to get a new open-entry
                                // credential and start over
                                let res = Self::get_new_credential(&config).await;
                                if res.is_ok() {
                                    let (new_cred, bl) = res.unwrap();
                                    let fingerprint = bl.get_hashed_fingerprint();
                                    if !bridges.contains_key(&fingerprint) {
                                        let bridge = Bridge::from_bridge_line(&bl);
                                        bridges.insert(fingerprint, bridge);
                                    }
                                    censor.learn_bridge(&fingerprint);
                                    // Censor doesn't want new_cred yet
                                    self.primary_cred = new_cred;
                                }
                */
            }
        }

        // Also removing this case for efficiency.
        /*
                // Separately from primary credential, censor user requests a
                // new secondary credential each day just to block the
                // open-entry bridges. This is stored but not reused.
                let res = Self::get_new_credential(&config).await;
                if res.is_ok() {
                    let (_new_cred, bl) = res.unwrap();
                    let fingerprint = bl.get_hashed_fingerprint();
                    if !bridges.contains_key(&fingerprint) {
                        let bridge = Bridge::from_bridge_line(&bl);
                        bridges.insert(fingerprint, bridge);
                    }
                    censor.learn_bridge(&fingerprint);
                    // Censor doesn't want new_cred. User doesn't actually use
                    // secondary_cred, so don't store it.
                }
        */

        // Censor user invites as many censor friends as possible
        let invitations = scalar_u32(&self.primary_cred.invites_remaining).unwrap();
        let mut new_friends = Vec::<User>::new();
        for _ in 0..invitations {
            match self.get_invite(config, bridges, censor).await {
                Ok(invite) => {
                    match Self::from_invite(invite, &config, true, bridges, censor).await {
                        Ok(friend) => {
                            new_friends.push(friend);
                        }
                        Err(e) => {
                            println!("{}", e);
                        }
                    }
                }
                Err(e) => {
                    println!("{}", e);
                }
            }
        }
        Ok(new_friends)
    }
}