troll-patrol/src/analysis.rs

use crate::{get_date, BridgeInfo, BridgeInfoType};
use lox_library::proto::{level_up::LEVEL_INTERVAL, trust_promotion::UNTRUSTED_INTERVAL};
use nalgebra::DVector;
use statrs::distribution::{Continuous, MultivariateNormal};
use std::{
    cmp::min,
    collections::{BTreeMap, HashSet},
};

/// Provides a function for predicting which countries block this bridge
pub trait Analyzer {
    /// Evaluate open-entry bridge. Returns true if blocked, false otherwise.
    fn stage_one(
        &self,
        confidence: f64,
        bridge_ips: &[u32],
        bridge_ips_today: u32,
        negative_reports: &[u32],
        negative_reports_today: u32,
    ) -> bool;

    /// Evaluate invite-only bridge without positive reports. Return true if
    /// blocked, false otherwise.
    fn stage_two(
        &self,
        confidence: f64,
        bridge_ips: &[u32],
        bridge_ips_today: u32,
        negative_reports: &[u32],
        negative_reports_today: u32,
    ) -> bool;

    /// Evaluate invite-only bridge with positive reports. Return true if
    /// blocked, false otherwise.
    fn stage_three(
        &self,
        confidence: f64,
        bridge_ips: &[u32],
        bridge_ips_today: u32,
        negative_reports: &[u32],
        negative_reports_today: u32,
        positive_reports: &[u32],
        positive_reports_today: u32,
    ) -> bool;
}

/// Accepts an analyzer, information about a bridge, and a confidence value.
/// Returns a set of country codes where the bridge is believed to be blocked.
pub fn blocked_in(
    analyzer: &dyn Analyzer,
    bridge_info: &BridgeInfo,
    confidence: f64,
) -> HashSet<String> {
    // TODO: Re-evaluate past days if we have backdated reports
    let mut blocked_in = HashSet::<String>::new();
    let today = get_date();
    let age = bridge_info.first_seen - today;
    for (country, info) in &bridge_info.info_by_country {
        if info.blocked {
            // Assume bridges never become unblocked
            blocked_in.insert(country.to_string());
        } else {
            // Get today's values
            let new_map_binding = BTreeMap::<BridgeInfoType, u32>::new();
            // TODO: Evaluate on yesterday if we don't have data for today?
            let today_info = match info.info_by_day.get(&today) {
                Some(v) => v,
                None => &new_map_binding,
            };
            let bridge_ips_today = match today_info.get(&BridgeInfoType::BridgeIps) {
                Some(v) => *v,
                None => 0,
            };
            let negative_reports_today = match today_info.get(&BridgeInfoType::NegativeReports) {
                Some(v) => *v,
                None => 0,
            };
            let positive_reports_today = match today_info.get(&BridgeInfoType::PositiveReports) {
                Some(v) => *v,
                None => 0,
            };

            let num_days = min(age, UNTRUSTED_INTERVAL);

            // Get time series for last num_days
            let mut bridge_ips = vec![0; num_days as usize];
            let mut negative_reports = vec![0; num_days as usize];
            let mut positive_reports = vec![0; num_days as usize];

            for i in 0..num_days {
                let date = today - num_days + i - 1;
                let new_map_binding = BTreeMap::<BridgeInfoType, u32>::new();
                let day_info = match info.info_by_day.get(&date) {
                    Some(v) => v,
                    None => &new_map_binding,
                };
                bridge_ips[i as usize] = match day_info.get(&BridgeInfoType::BridgeIps) {
                    Some(&v) => v,
                    None => 0,
                };
                negative_reports[i as usize] = match day_info.get(&BridgeInfoType::NegativeReports)
                {
                    Some(&v) => v,
                    None => 0,
                };
                positive_reports[i as usize] = match day_info.get(&BridgeInfoType::PositiveReports)
                {
                    Some(&v) => v,
                    None => 0,
                };
            }

            // Evaluate using appropriate stage based on age of the bridge
            if age < UNTRUSTED_INTERVAL {
                // open-entry bridge
                if analyzer.stage_one(
                    confidence,
                    &bridge_ips,
                    bridge_ips_today,
                    &negative_reports,
                    negative_reports_today,
                ) {
                    blocked_in.insert(country.to_string());
                }
            } else if age
                < UNTRUSTED_INTERVAL + LEVEL_INTERVAL[1] + LEVEL_INTERVAL[2] + UNTRUSTED_INTERVAL
            {
                // invite-only bridge without 30+ days of historical data on
                // positive reports
                if analyzer.stage_two(
                    confidence,
                    &bridge_ips,
                    bridge_ips_today,
                    &negative_reports,
                    negative_reports_today,
                ) {
                    blocked_in.insert(country.to_string());
                }
            } else {
                // invite-only bridge that has been up long enough that it
                // might have 30+ days of historical data on positive reports
                if analyzer.stage_three(
                    confidence,
                    &bridge_ips,
                    bridge_ips_today,
                    &negative_reports,
                    negative_reports_today,
                    &positive_reports,
                    positive_reports_today,
                ) {
                    blocked_in.insert(country.to_string());
                }
            }
        }
    }
    blocked_in
}

// Analyzer implementations

/// Dummy example that never thinks bridges are blocked
pub struct ExampleAnalyzer {}

impl Analyzer for ExampleAnalyzer {
    fn stage_one(
        &self,
        _confidence: f64,
        _bridge_ips: &[u32],
        _bridge_ips_today: u32,
        _negative_reports: &[u32],
        _negative_reports_today: u32,
    ) -> bool {
        false
    }

    fn stage_two(
        &self,
        _confidence: f64,
        _bridge_ips: &[u32],
        _bridge_ips_today: u32,
        _negative_reports: &[u32],
        _negative_reports_today: u32,
    ) -> bool {
        false
    }

    fn stage_three(
        &self,
        _confidence: f64,
        _bridge_ips: &[u32],
        _bridge_ips_today: u32,
        _negative_reports: &[u32],
        _negative_reports_today: u32,
        _positive_reports: &[u32],
        _positive_reports_today: u32,
    ) -> bool {
        false
    }
}

/// Model data as multivariate normal distribution
pub struct NormalAnalyzer {
    max_threshold: u32,
    scaling_factor: f64,
}

impl NormalAnalyzer {
    pub fn new(max_threshold: u32, scaling_factor: f64) -> Self {
        Self {
            max_threshold,
            scaling_factor,
        }
    }

    fn mean_vector_and_covariance_matrix(data: &[&[u32]]) -> (Vec<f64>, Vec<f64>) {
        let n = data.len();

        // Compute mean vector
        let mean_vec = {
            let mut mean_vec = Vec::<f64>::new();
            for var in data {
                mean_vec.push({
                    let mut sum = 0.0;
                    for count in *var {
                        sum += *count as f64;
                    }
                    sum / var.len() as f64
                });
            }
            mean_vec
        };

        // Compute covariance matrix
        let cov_mat = {
            let mut cov_mat = Vec::<f64>::new();
            // We don't need to recompute Syx, but we currently do
            for i in 0..n {
                for j in 0..n {
                    cov_mat.push({
                        let var1 = data[i];
                        let var1_mean = mean_vec[i];

                        let var2 = data[j];
                        let var2_mean = mean_vec[j];

                        assert_eq!(var1.len(), var2.len());

                        let mut sum = 0.0;
                        for index in 0..var1.len() {
                            sum +=
                                (var1[index] as f64 - var1_mean) * (var2[index] as f64 - var2_mean);
                        }
                        sum / var1.len() as f64
                    });
                }
            }
            cov_mat
        };

        (mean_vec, cov_mat)
    }
}

impl Analyzer for NormalAnalyzer {
    /// Evaluate open-entry bridge based on only today's data
    fn stage_one(
        &self,
        _confidence: f64,
        _bridge_ips: &[u32],
        bridge_ips_today: u32,
        _negative_reports: &[u32],
        negative_reports_today: u32,
    ) -> bool {
        negative_reports_today > self.max_threshold
            || f64::from(negative_reports_today) > self.scaling_factor * f64::from(bridge_ips_today)
    }

    /// Evaluate invite-only bridge based on last 30 days
    fn stage_two(
        &self,
        confidence: f64,
        bridge_ips: &[u32],
        bridge_ips_today: u32,
        negative_reports: &[u32],
        negative_reports_today: u32,
    ) -> bool {
        assert!(bridge_ips.len() >= UNTRUSTED_INTERVAL as usize);
        assert_eq!(bridge_ips.len(), negative_reports.len());

        let (mean_vec, cov_mat) =
            Self::mean_vector_and_covariance_matrix(&[bridge_ips, negative_reports]);
        let bridge_ips_mean = mean_vec[0];
        let negative_reports_mean = mean_vec[1];

        let mvn = MultivariateNormal::new(mean_vec, cov_mat).unwrap();
        if mvn.pdf(&DVector::from_vec(vec![
            bridge_ips_today as f64,
            negative_reports_today as f64,
        ])) < confidence
        {
            (negative_reports_today as f64) > negative_reports_mean
                || (bridge_ips_today as f64) < bridge_ips_mean
        } else {
            false
        }
    }

    /// Evaluate invite-only bridge with lv3+ users submitting positive reports
    fn stage_three(
        &self,
        confidence: f64,
        bridge_ips: &[u32],
        bridge_ips_today: u32,
        negative_reports: &[u32],
        negative_reports_today: u32,
        positive_reports: &[u32],
        positive_reports_today: u32,
    ) -> bool {
        assert!(bridge_ips.len() >= UNTRUSTED_INTERVAL as usize);
        assert_eq!(bridge_ips.len(), negative_reports.len());
        assert_eq!(bridge_ips.len(), positive_reports.len());

        let (mean_vec, cov_mat) = Self::mean_vector_and_covariance_matrix(&[
            bridge_ips,
            negative_reports,
            positive_reports,
        ]);
        let bridge_ips_mean = mean_vec[0];
        let negative_reports_mean = mean_vec[1];
        let positive_reports_mean = mean_vec[2];

        let mvn = MultivariateNormal::new(mean_vec, cov_mat).unwrap();
        if mvn.pdf(&DVector::from_vec(vec![
            bridge_ips_today as f64,
            negative_reports_today as f64,
            positive_reports_today as f64,
        ])) < confidence
        {
            (negative_reports_today as f64) > negative_reports_mean
                || (bridge_ips_today as f64) < bridge_ips_mean
                || (positive_reports_today as f64) < positive_reports_mean
        } else {
            false
        }
    }
}
Refactor Analyzer trait 2024-04-15 13:19:56 -04:00			`use crate::{get_date, BridgeInfo, BridgeInfoType};`
			`use lox_library::proto::{level_up::LEVEL_INTERVAL, trust_promotion::UNTRUSTED_INTERVAL};`
			`use nalgebra::DVector;`
			`use statrs::distribution::{Continuous, MultivariateNormal};`
			`use std::{`
			`cmp::min,`
			`collections::{BTreeMap, HashSet},`
			`};`

			`/// Provides a function for predicting which countries block this bridge`
			`pub trait Analyzer {`
			`/// Evaluate open-entry bridge. Returns true if blocked, false otherwise.`
			`fn stage_one(`
			`&self,`
			`confidence: f64,`
			`bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`) -> bool;`

			`/// Evaluate invite-only bridge without positive reports. Return true if`
			`/// blocked, false otherwise.`
			`fn stage_two(`
			`&self,`
			`confidence: f64,`
			`bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`) -> bool;`

			`/// Evaluate invite-only bridge with positive reports. Return true if`
			`/// blocked, false otherwise.`
			`fn stage_three(`
			`&self,`
			`confidence: f64,`
			`bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`positive_reports: &[u32],`
			`positive_reports_today: u32,`
			`) -> bool;`
			`}`

			`/// Accepts an analyzer, information about a bridge, and a confidence value.`
			`/// Returns a set of country codes where the bridge is believed to be blocked.`
			`pub fn blocked_in(`
			`analyzer: &dyn Analyzer,`
			`bridge_info: &BridgeInfo,`
			`confidence: f64,`
			`) -> HashSet<String> {`
			`// TODO: Re-evaluate past days if we have backdated reports`
			`let mut blocked_in = HashSet::<String>::new();`
			`let today = get_date();`
			`let age = bridge_info.first_seen - today;`
			`for (country, info) in &bridge_info.info_by_country {`
			`if info.blocked {`
			`// Assume bridges never become unblocked`
			`blocked_in.insert(country.to_string());`
			`} else {`
			`// Get today's values`
			`let new_map_binding = BTreeMap::<BridgeInfoType, u32>::new();`
			`// TODO: Evaluate on yesterday if we don't have data for today?`
			`let today_info = match info.info_by_day.get(&today) {`
			`Some(v) => v,`
			`None => &new_map_binding,`
			`};`
			`let bridge_ips_today = match today_info.get(&BridgeInfoType::BridgeIps) {`
			`Some(v) => *v,`
			`None => 0,`
			`};`
			`let negative_reports_today = match today_info.get(&BridgeInfoType::NegativeReports) {`
			`Some(v) => *v,`
			`None => 0,`
			`};`
			`let positive_reports_today = match today_info.get(&BridgeInfoType::PositiveReports) {`
			`Some(v) => *v,`
			`None => 0,`
			`};`

			`let num_days = min(age, UNTRUSTED_INTERVAL);`

			`// Get time series for last num_days`
			`let mut bridge_ips = vec![0; num_days as usize];`
			`let mut negative_reports = vec![0; num_days as usize];`
			`let mut positive_reports = vec![0; num_days as usize];`

			`for i in 0..num_days {`
			`let date = today - num_days + i - 1;`
			`let new_map_binding = BTreeMap::<BridgeInfoType, u32>::new();`
			`let day_info = match info.info_by_day.get(&date) {`
			`Some(v) => v,`
			`None => &new_map_binding,`
			`};`
			`bridge_ips[i as usize] = match day_info.get(&BridgeInfoType::BridgeIps) {`
			`Some(&v) => v,`
			`None => 0,`
			`};`
			`negative_reports[i as usize] = match day_info.get(&BridgeInfoType::NegativeReports)`
			`{`
			`Some(&v) => v,`
			`None => 0,`
			`};`
			`positive_reports[i as usize] = match day_info.get(&BridgeInfoType::PositiveReports)`
			`{`
			`Some(&v) => v,`
			`None => 0,`
			`};`
			`}`

			`// Evaluate using appropriate stage based on age of the bridge`
			`if age < UNTRUSTED_INTERVAL {`
			`// open-entry bridge`
			`if analyzer.stage_one(`
			`confidence,`
			`&bridge_ips,`
			`bridge_ips_today,`
			`&negative_reports,`
			`negative_reports_today,`
			`) {`
			`blocked_in.insert(country.to_string());`
			`}`
			`} else if age`
			`< UNTRUSTED_INTERVAL + LEVEL_INTERVAL[1] + LEVEL_INTERVAL[2] + UNTRUSTED_INTERVAL`
			`{`
			`// invite-only bridge without 30+ days of historical data on`
			`// positive reports`
			`if analyzer.stage_two(`
			`confidence,`
			`&bridge_ips,`
			`bridge_ips_today,`
			`&negative_reports,`
			`negative_reports_today,`
			`) {`
			`blocked_in.insert(country.to_string());`
			`}`
			`} else {`
			`// invite-only bridge that has been up long enough that it`
			`// might have 30+ days of historical data on positive reports`
			`if analyzer.stage_three(`
			`confidence,`
			`&bridge_ips,`
			`bridge_ips_today,`
			`&negative_reports,`
			`negative_reports_today,`
			`&positive_reports,`
			`positive_reports_today,`
			`) {`
			`blocked_in.insert(country.to_string());`
			`}`
			`}`
			`}`
			`}`
			`blocked_in`
			`}`

			`// Analyzer implementations`

			`/// Dummy example that never thinks bridges are blocked`
			`pub struct ExampleAnalyzer {}`

			`impl Analyzer for ExampleAnalyzer {`
			`fn stage_one(`
			`&self,`
			`_confidence: f64,`
			`_bridge_ips: &[u32],`
			`_bridge_ips_today: u32,`
			`_negative_reports: &[u32],`
			`_negative_reports_today: u32,`
			`) -> bool {`
			`false`
			`}`

			`fn stage_two(`
			`&self,`
			`_confidence: f64,`
			`_bridge_ips: &[u32],`
			`_bridge_ips_today: u32,`
			`_negative_reports: &[u32],`
			`_negative_reports_today: u32,`
			`) -> bool {`
			`false`
			`}`

			`fn stage_three(`
			`&self,`
			`_confidence: f64,`
			`_bridge_ips: &[u32],`
			`_bridge_ips_today: u32,`
			`_negative_reports: &[u32],`
			`_negative_reports_today: u32,`
			`_positive_reports: &[u32],`
			`_positive_reports_today: u32,`
			`) -> bool {`
			`false`
			`}`
			`}`

			`/// Model data as multivariate normal distribution`
			`pub struct NormalAnalyzer {`
			`max_threshold: u32,`
			`scaling_factor: f64,`
			`}`

			`impl NormalAnalyzer {`
			`pub fn new(max_threshold: u32, scaling_factor: f64) -> Self {`
			`Self {`
			`max_threshold,`
			`scaling_factor,`
			`}`
			`}`

			`fn mean_vector_and_covariance_matrix(data: &[&[u32]]) -> (Vec<f64>, Vec<f64>) {`
			`let n = data.len();`

			`// Compute mean vector`
			`let mean_vec = {`
			`let mut mean_vec = Vec::<f64>::new();`
			`for var in data {`
			`mean_vec.push({`
			`let mut sum = 0.0;`
			`for count in *var {`
			`sum += *count as f64;`
			`}`
			`sum / var.len() as f64`
			`});`
			`}`
			`mean_vec`
			`};`

			`// Compute covariance matrix`
			`let cov_mat = {`
			`let mut cov_mat = Vec::<f64>::new();`
			`// We don't need to recompute Syx, but we currently do`
			`for i in 0..n {`
			`for j in 0..n {`
			`cov_mat.push({`
			`let var1 = data[i];`
			`let var1_mean = mean_vec[i];`

			`let var2 = data[j];`
			`let var2_mean = mean_vec[j];`

			`assert_eq!(var1.len(), var2.len());`

			`let mut sum = 0.0;`
			`for index in 0..var1.len() {`
			`sum +=`
			`(var1[index] as f64 - var1_mean) * (var2[index] as f64 - var2_mean);`
			`}`
			`sum / var1.len() as f64`
			`});`
			`}`
			`}`
			`cov_mat`
			`};`

			`(mean_vec, cov_mat)`
			`}`
			`}`

			`impl Analyzer for NormalAnalyzer {`
			`/// Evaluate open-entry bridge based on only today's data`
			`fn stage_one(`
			`&self,`
			`_confidence: f64,`
			`_bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`_negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`) -> bool {`
			`negative_reports_today > self.max_threshold`
			`\|\| f64::from(negative_reports_today) > self.scaling_factor * f64::from(bridge_ips_today)`
			`}`

			`/// Evaluate invite-only bridge based on last 30 days`
			`fn stage_two(`
			`&self,`
			`confidence: f64,`
			`bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`) -> bool {`
			`assert!(bridge_ips.len() >= UNTRUSTED_INTERVAL as usize);`
			`assert_eq!(bridge_ips.len(), negative_reports.len());`

			`let (mean_vec, cov_mat) =`
			`Self::mean_vector_and_covariance_matrix(&[bridge_ips, negative_reports]);`
			`let bridge_ips_mean = mean_vec[0];`
			`let negative_reports_mean = mean_vec[1];`

			`let mvn = MultivariateNormal::new(mean_vec, cov_mat).unwrap();`
			`if mvn.pdf(&DVector::from_vec(vec![`
			`bridge_ips_today as f64,`
			`negative_reports_today as f64,`
			`])) < confidence`
			`{`
			`(negative_reports_today as f64) > negative_reports_mean`
			`\|\| (bridge_ips_today as f64) < bridge_ips_mean`
			`} else {`
			`false`
			`}`
			`}`

			`/// Evaluate invite-only bridge with lv3+ users submitting positive reports`
			`fn stage_three(`
			`&self,`
			`confidence: f64,`
			`bridge_ips: &[u32],`
			`bridge_ips_today: u32,`
			`negative_reports: &[u32],`
			`negative_reports_today: u32,`
			`positive_reports: &[u32],`
			`positive_reports_today: u32,`
			`) -> bool {`
			`assert!(bridge_ips.len() >= UNTRUSTED_INTERVAL as usize);`
			`assert_eq!(bridge_ips.len(), negative_reports.len());`
			`assert_eq!(bridge_ips.len(), positive_reports.len());`

			`let (mean_vec, cov_mat) = Self::mean_vector_and_covariance_matrix(&[`
			`bridge_ips,`
			`negative_reports,`
			`positive_reports,`
			`]);`
			`let bridge_ips_mean = mean_vec[0];`
			`let negative_reports_mean = mean_vec[1];`
			`let positive_reports_mean = mean_vec[2];`

			`let mvn = MultivariateNormal::new(mean_vec, cov_mat).unwrap();`
			`if mvn.pdf(&DVector::from_vec(vec![`
			`bridge_ips_today as f64,`
			`negative_reports_today as f64,`
			`positive_reports_today as f64,`
			`])) < confidence`
			`{`
			`(negative_reports_today as f64) > negative_reports_mean`
			`\|\| (bridge_ips_today as f64) < bridge_ips_mean`
			`\|\| (positive_reports_today as f64) < positive_reports_mean`
			`} else {`
			`false`
			`}`
			`}`
			`}`