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@@ -26,6 +26,9 @@ pub struct User {
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// Does the user submit reports to Troll Patrol?
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submits_reports: bool,
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+
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+ // How likely is this user to use bridges on a given day?
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+ prob_use_bridges: f64,
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}
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impl User {
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@@ -63,12 +66,17 @@ impl User {
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cc
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};
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+ // Randomly determine how likely this user is to use bridges on
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+ // a given day
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+ let prob_use_bridges = rng.gen_range(0.0..=1.0);
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+
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Self {
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censor: censor,
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country: cc,
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primary_cred: cred,
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secondary_cred: None,
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submits_reports: submits_reports,
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+ prob_use_bridges: prob_use_bridges,
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}
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}
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@@ -127,12 +135,17 @@ impl User {
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cc
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};
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+ // Randomly determine how likely this user is to use bridges on
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+ // a given day
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+ let prob_use_bridges = rng.gen_range(0.0..=1.0);
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+
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Ok(Self {
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censor: censor,
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country: cc,
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primary_cred: friend_cred,
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secondary_cred: None,
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submits_reports: submits_reports,
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+ prob_use_bridges: prob_use_bridges,
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})
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}
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@@ -179,180 +192,189 @@ impl User {
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// newly invited friends and a vector of fingerprints of successfully
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// contacted bridges.
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pub async fn daily_tasks(&mut self, state: &State) -> (Vec<User>, Vec<[u8; 20]>) {
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- // Download bucket to see if bridge is still reachable
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- // (We assume that this step can be done even if the user can't actually
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- // talk to the LA.)
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- let (bucket, reachcred) = get_bucket(&state.net, &self.primary_cred).await;
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- let level = scalar_u32(&self.primary_cred.trust_level).unwrap();
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-
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- // Can we level up the main credential?
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- let can_level_up = reachcred.is_some()
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- && (level == 0 && eligible_for_trust_promotion(&state.net, &self.primary_cred).await
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- || level > 0 && eligible_for_level_up(&state.net, &self.primary_cred).await);
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-
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- // Can we migrate the main credential?
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- let can_migrate = reachcred.is_none() && level >= MIN_TRUST_LEVEL;
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-
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- // Can we level up the secondary credential?
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- let mut second_level_up = false;
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-
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- let mut failed = Vec::<BridgeLine>::new();
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- let mut succeeded = Vec::<BridgeLine>::new();
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- for i in 0..bucket.len() {
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- // At level 0, we only have 1 bridge
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- if level > 0 || i == 0 {
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- if self.connect(&bucket[i]) {
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- succeeded.push(bucket[i]);
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- } else {
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- failed.push(bucket[i]);
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+ // Probabilistically decide if the user should use bridges today
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+ let mut rng = rand::thread_rng();
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+ let num: f64 = rng.gen_range(0.0..1.0);
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+ if num < self.prob_use_bridges {
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+ // Download bucket to see if bridge is still reachable
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+ // (We assume that this step can be done even if the user can't actually
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+ // talk to the LA.)
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+ let (bucket, reachcred) = get_bucket(&state.net, &self.primary_cred).await;
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+ let level = scalar_u32(&self.primary_cred.trust_level).unwrap();
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+
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+ // Can we level up the main credential?
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+ let can_level_up = reachcred.is_some()
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+ && (level == 0
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+ && eligible_for_trust_promotion(&state.net, &self.primary_cred).await
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+ || level > 0 && eligible_for_level_up(&state.net, &self.primary_cred).await);
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+
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+ // Can we migrate the main credential?
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+ let can_migrate = reachcred.is_none() && level >= MIN_TRUST_LEVEL;
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+
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+ // Can we level up the secondary credential?
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+ let mut second_level_up = false;
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+
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+ let mut failed = Vec::<BridgeLine>::new();
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+ let mut succeeded = Vec::<BridgeLine>::new();
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+ for i in 0..bucket.len() {
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+ // At level 0, we only have 1 bridge
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+ if level > 0 || i == 0 {
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+ if self.connect(&bucket[i]) {
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+ succeeded.push(bucket[i]);
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+ } else {
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+ failed.push(bucket[i]);
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+ }
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}
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}
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- }
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- let second_cred = if succeeded.len() < 1 {
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- if self.secondary_cred.is_some() {
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- std::mem::replace(&mut self.secondary_cred, None)
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- } else {
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- // Get new credential
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- let cred = get_lox_credential(
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- &state.net,
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- &get_open_invitation(&state.net).await,
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- get_lox_pub(&state.la_pubkeys),
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- )
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- .await
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- .0;
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- Some(cred)
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- }
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- } else {
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- // If we're able to connect with the primary credential, don't
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- // keep a secondary one.
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- None
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- };
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- if second_cred.is_some() {
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- let second_cred = second_cred.as_ref().unwrap();
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- let (second_bucket, second_reachcred) = get_bucket(&state.net, &second_cred).await;
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- if self.connect(&second_bucket[0]) {
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- succeeded.push(second_bucket[0]);
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- if second_reachcred.is_some()
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- && eligible_for_trust_promotion(&state.net, &second_cred).await
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- {
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- second_level_up = true;
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+ let second_cred = if succeeded.len() < 1 {
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+ if self.secondary_cred.is_some() {
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+ std::mem::replace(&mut self.secondary_cred, None)
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+ } else {
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+ // Get new credential
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+ let cred = get_lox_credential(
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+ &state.net,
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+ &get_open_invitation(&state.net).await,
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+ get_lox_pub(&state.la_pubkeys),
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+ )
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+ .await
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+ .0;
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+ Some(cred)
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}
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} else {
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- failed.push(second_bucket[0]);
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+ // If we're able to connect with the primary credential, don't
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+ // keep a secondary one.
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+ None
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+ };
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+ if second_cred.is_some() {
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+ let second_cred = second_cred.as_ref().unwrap();
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+ let (second_bucket, second_reachcred) = get_bucket(&state.net, &second_cred).await;
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+ if self.connect(&second_bucket[0]) {
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+ succeeded.push(second_bucket[0]);
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+ if second_reachcred.is_some()
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+ && eligible_for_trust_promotion(&state.net, &second_cred).await
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+ {
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+ second_level_up = true;
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+ }
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+ } else {
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+ failed.push(second_bucket[0]);
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+ }
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}
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- }
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- let mut negative_reports = Vec::<NegativeReport>::new();
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- let mut positive_reports = Vec::<PositiveReport>::new();
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- if self.submits_reports {
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- for bridge in &failed {
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- negative_reports.push(NegativeReport::from_bridgeline(
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- *bridge,
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- self.country.to_string(),
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- BridgeDistributor::Lox,
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- ));
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- }
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- if level >= 3 {
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- for bridge in &succeeded {
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- positive_reports.push(
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- PositiveReport::from_lox_credential(
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- bridge.fingerprint,
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- None,
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- &self.primary_cred,
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- get_lox_pub(&state.la_pubkeys),
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- self.country.to_string(),
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- )
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- .unwrap(),
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- );
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+ let mut negative_reports = Vec::<NegativeReport>::new();
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+ let mut positive_reports = Vec::<PositiveReport>::new();
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+ if self.submits_reports {
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+ for bridge in &failed {
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+ negative_reports.push(NegativeReport::from_bridgeline(
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+ *bridge,
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+ self.country.to_string(),
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+ BridgeDistributor::Lox,
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+ ));
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+ }
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+ if level >= 3 {
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+ for bridge in &succeeded {
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+ positive_reports.push(
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+ PositiveReport::from_lox_credential(
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+ bridge.fingerprint,
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+ None,
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+ &self.primary_cred,
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+ get_lox_pub(&state.la_pubkeys),
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+ self.country.to_string(),
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+ )
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+ .unwrap(),
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+ );
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+ }
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}
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}
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- }
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- // We might restrict these steps to succeeded.len() > 0, but we do
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- // assume the user can contact the LA somehow, so let's just allow it.
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- if can_level_up {
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- let cred = level_up(
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- &state.net,
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- &self.primary_cred,
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- &reachcred.unwrap(),
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- get_lox_pub(&state.la_pubkeys),
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- get_reachability_pub(&state.la_pubkeys),
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- )
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- .await;
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- self.primary_cred = cred;
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- self.secondary_cred = None;
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- }
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- // We favor starting over at level 1 to migrating
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- else if second_level_up {
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- let second_cred = second_cred.as_ref().unwrap();
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- let cred = trust_migration(
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- &state.net,
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- &second_cred,
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- &trust_promotion(&state.net, &second_cred, get_lox_pub(&state.la_pubkeys)).await,
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- get_lox_pub(&state.la_pubkeys),
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- get_migration_pub(&state.la_pubkeys),
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- )
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- .await;
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- self.primary_cred = cred;
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- self.secondary_cred = None;
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- } else if can_migrate {
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- let cred = blockage_migration(
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- &state.net,
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- &self.primary_cred,
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- &check_blockage(
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+ // We might restrict these steps to succeeded.len() > 0, but we do
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+ // assume the user can contact the LA somehow, so let's just allow it.
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+ if can_level_up {
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+ let cred = level_up(
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&state.net,
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&self.primary_cred,
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+ &reachcred.unwrap(),
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get_lox_pub(&state.la_pubkeys),
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+ get_reachability_pub(&state.la_pubkeys),
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)
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- .await,
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- get_lox_pub(&state.la_pubkeys),
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- get_migration_pub(&state.la_pubkeys),
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- )
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- .await;
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- self.primary_cred = cred;
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- self.secondary_cred = None;
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- } else if second_cred.is_some() {
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- // Couldn't connect with primary credential
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- if succeeded.len() > 0 {
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- // Keep the second credential only if it's useful
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- self.secondary_cred = second_cred;
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+ .await;
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+ self.primary_cred = cred;
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+ self.secondary_cred = None;
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+ }
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+ // We favor starting over at level 1 to migrating
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+ else if second_level_up {
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+ let second_cred = second_cred.as_ref().unwrap();
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+ let cred = trust_migration(
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+ &state.net,
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+ &second_cred,
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+ &trust_promotion(&state.net, &second_cred, get_lox_pub(&state.la_pubkeys))
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+ .await,
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+ get_lox_pub(&state.la_pubkeys),
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+ get_migration_pub(&state.la_pubkeys),
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+ )
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+ .await;
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+ self.primary_cred = cred;
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+ self.secondary_cred = None;
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+ } else if can_migrate {
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+ let cred = blockage_migration(
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+ &state.net,
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+ &self.primary_cred,
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+ &check_blockage(
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+ &state.net,
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+ &self.primary_cred,
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+ get_lox_pub(&state.la_pubkeys),
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+ )
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+ .await,
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+ get_lox_pub(&state.la_pubkeys),
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+ get_migration_pub(&state.la_pubkeys),
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+ )
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+ .await;
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+ self.primary_cred = cred;
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+ self.secondary_cred = None;
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+ } else if second_cred.is_some() {
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+ // Couldn't connect with primary credential
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+ if succeeded.len() > 0 {
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+ // Keep the second credential only if it's useful
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+ self.secondary_cred = second_cred;
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+ }
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}
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- }
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- if negative_reports.len() > 0 {
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- Self::send_negative_reports(&state, negative_reports).await;
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- }
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- if positive_reports.len() > 0 {
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- Self::send_positive_reports(&state, positive_reports).await;
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- }
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+ if negative_reports.len() > 0 {
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+ Self::send_negative_reports(&state, negative_reports).await;
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+ }
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+ if positive_reports.len() > 0 {
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+ Self::send_positive_reports(&state, positive_reports).await;
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+ }
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- // Invite friends if applicable
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- let invitations = scalar_u32(&self.primary_cred.invites_remaining).unwrap();
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- let mut new_friends = Vec::<User>::new();
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- for _i in 0..invitations {
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- let mut rng = rand::thread_rng();
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- let num: f64 = rng.gen_range(0.0..1.0);
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- if num < state.prob_user_invites_friend {
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- match self.invite(&state).await {
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- Ok(friend) => {
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- // You really shouldn't push your friends, especially
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- // new ones whose boundaries you might not know well.
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- new_friends.push(friend);
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- }
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- Err(e) => {
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- println!("{}", e);
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+ // Invite friends if applicable
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+ let invitations = scalar_u32(&self.primary_cred.invites_remaining).unwrap();
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+ let mut new_friends = Vec::<User>::new();
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+ for _i in 0..invitations {
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+ let mut rng = rand::thread_rng();
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+ let num: f64 = rng.gen_range(0.0..1.0);
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+ if num < state.prob_user_invites_friend {
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+ match self.invite(&state).await {
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+ Ok(friend) => {
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+ // You really shouldn't push your friends, especially
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+ // new ones whose boundaries you might not know well.
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+ new_friends.push(friend);
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+ }
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+ Err(e) => {
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+ println!("{}", e);
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+ }
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}
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}
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}
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- }
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- // List of fingerprints we contacted. This should not actually be more
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- // than one.
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- let mut connections = Vec::<[u8; 20]>::new();
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- for bridge in succeeded {
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- connections.push(bridge.get_hashed_fingerprint());
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- }
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+ // List of fingerprints we contacted. This should not actually be more
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+ // than one.
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+ let mut connections = Vec::<[u8; 20]>::new();
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+ for bridge in succeeded {
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+ connections.push(bridge.get_hashed_fingerprint());
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+ }
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- (new_friends, connections)
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+ (new_friends, connections)
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+ } else {
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+ (Vec::<User>::new(), Vec::<[u8; 20]>::new())
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+ }
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}
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}
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