//! This module provides the functionality to scrape and gathers all the results from the upstream //! search engines and then removes duplicate results. use super::user_agent::random_user_agent; use crate::handler::{file_path, FileType}; use crate::models::{ aggregation_models::{EngineErrorInfo, SearchResult, SearchResults}, engine_models::{EngineError, EngineHandler}, }; use error_stack::Report; use regex::Regex; use reqwest::{Client, ClientBuilder}; use std::time::{SystemTime, UNIX_EPOCH}; use std::{ collections::HashMap, io::{BufReader, Read}, time::Duration, }; use std::{fs::File, io::BufRead}; use tokio::task::JoinHandle; /// A constant for holding the prebuilt Client globally in the app. static CLIENT: std::sync::OnceLock = std::sync::OnceLock::new(); /// Aliases for long type annotations type FutureVec = Vec, Report>>>; /// The function aggregates the scraped results from the user-selected upstream search engines. /// These engines can be chosen either from the user interface (UI) or from the configuration file. /// The code handles this process by matching the selected search engines and adding them to a vector. /// This vector is then used to create an asynchronous task vector using `tokio::spawn`, which returns /// a future. This future is awaited in another loop. Once the results are collected, they are filtered /// to remove any errors and ensure only proper results are included. If an error is encountered, it is /// sent to the UI along with the name of the engine and the type of error. This information is finally /// placed in the returned `SearchResults` struct. /// /// Additionally, the function eliminates duplicate results. If two results are identified as coming from /// multiple engines, their names are combined to indicate that the results were fetched from these upstream /// engines. After this, all the data in the `HashMap` is removed and placed into a struct that contains all /// the aggregated results in a vector. Furthermore, the query used is also added to the struct. This step is /// necessary to ensure that the search bar in the search remains populated even when searched from the query URL. /// /// Overall, this function serves to aggregate scraped results from user-selected search engines, handling errors, /// removing duplicates, and organizing the data for display in the UI. /// /// # Example: /// /// If you search from the url like `https://127.0.0.1/search?q=huston` then the search bar should /// contain the word huston and not remain empty. /// /// # Arguments /// /// * `query` - Accepts a string to query with the above upstream search engines. /// * `page` - Accepts an u32 page number. /// * `random_delay` - Accepts a boolean value to add a random delay before making the request. /// * `debug` - Accepts a boolean value to enable or disable debug mode option. /// * `upstream_search_engines` - Accepts a vector of search engine names which was selected by the /// * `request_timeout` - Accepts a time (secs) as a value which controls the server request timeout. /// user through the UI or the config file. /// /// # Error /// /// Returns an error a reqwest and scraping selector errors if any error occurs in the results /// function in either `searx` or `duckduckgo` or both otherwise returns a `SearchResults struct` /// containing appropriate values. pub async fn aggregate( query: &str, page: u32, random_delay: bool, debug: bool, upstream_search_engines: &[EngineHandler], request_timeout: u8, safe_search: u8, ) -> Result> { let client = CLIENT.get_or_init(|| { ClientBuilder::new() .timeout(Duration::from_secs(request_timeout as u64)) // Add timeout to request to avoid DDOSing the server .https_only(true) .gzip(true) .brotli(true) .build() .unwrap() }); let user_agent: &str = random_user_agent(); // Add a random delay before making the request. if random_delay || !debug { let nanos = SystemTime::now().duration_since(UNIX_EPOCH)?.subsec_nanos() as f32; let delay = ((nanos / 1_0000_0000 as f32).floor() as u64) + 1; tokio::time::sleep(Duration::from_secs(delay)).await; } let mut names: Vec<&str> = Vec::with_capacity(0); // create tasks for upstream result fetching let mut tasks: FutureVec = FutureVec::new(); for engine_handler in upstream_search_engines { let (name, search_engine) = engine_handler.to_owned().into_name_engine(); names.push(name); let query: String = query.to_owned(); tasks.push(tokio::spawn(async move { search_engine .results(&query, page, user_agent, client, safe_search) .await })); } // get upstream responses let mut responses = Vec::with_capacity(tasks.len()); for task in tasks { if let Ok(result) = task.await { responses.push(result) } } // aggregate search results, removing duplicates and handling errors the upstream engines returned let mut result_map: HashMap = HashMap::new(); let mut engine_errors_info: Vec = Vec::new(); let mut handle_error = |error: &Report, engine_name: &'static str| { log::error!("Engine Error: {:?}", error); engine_errors_info.push(EngineErrorInfo::new( error.downcast_ref::().unwrap(), engine_name, )); }; for _ in 0..responses.len() { let response = responses.pop().unwrap(); let engine = names.pop().unwrap(); if result_map.is_empty() { match response { Ok(results) => { result_map = results.clone(); } Err(error) => { handle_error(&error, engine); } } continue; } match response { Ok(result) => { result.into_iter().for_each(|(key, value)| { result_map .entry(key) .and_modify(|result| { result.add_engines(engine); }) .or_insert_with(|| -> SearchResult { value }); }); } Err(error) => { handle_error(&error, engine); } } } if safe_search >= 3 { let mut blacklist_map: HashMap = HashMap::new(); filter_with_lists( &mut result_map, &mut blacklist_map, file_path(FileType::BlockList)?, )?; filter_with_lists( &mut blacklist_map, &mut result_map, file_path(FileType::AllowList)?, )?; drop(blacklist_map); } let results: Vec = result_map.into_values().collect(); Ok(SearchResults::new(results, &engine_errors_info)) } /// Filters a map of search results using a list of regex patterns. /// /// # Arguments /// /// * `map_to_be_filtered` - A mutable reference to a `HashMap` of search results to filter, where the filtered results will be removed from. /// * `resultant_map` - A mutable reference to a `HashMap` to hold the filtered results. /// * `file_path` - A `&str` representing the path to a file containing regex patterns to use for filtering. /// /// # Errors /// /// Returns an error if the file at `file_path` cannot be opened or read, or if a regex pattern is invalid. pub fn filter_with_lists( map_to_be_filtered: &mut HashMap, resultant_map: &mut HashMap, file_path: &str, ) -> Result<(), Box> { let mut reader = BufReader::new(File::open(file_path)?); for line in reader.by_ref().lines() { let re = Regex::new(line?.trim())?; // Iterate over each search result in the map and check if it matches the regex pattern for (url, search_result) in map_to_be_filtered.clone().into_iter() { if re.is_match(&url.to_lowercase()) || re.is_match(&search_result.title.to_lowercase()) || re.is_match(&search_result.description.to_lowercase()) { // If the search result matches the regex pattern, move it from the original map to the resultant map resultant_map.insert( url.to_owned(), map_to_be_filtered.remove(&url.to_owned()).unwrap(), ); } } } Ok(()) } #[cfg(test)] mod tests { use super::*; use smallvec::smallvec; use std::collections::HashMap; use std::io::Write; use tempfile::NamedTempFile; #[test] fn test_filter_with_lists() -> Result<(), Box> { // Create a map of search results to filter let mut map_to_be_filtered = HashMap::new(); map_to_be_filtered.insert( "https://www.example.com".to_owned(), SearchResult { title: "Example Domain".to_owned(), url: "https://www.example.com".to_owned(), description: "This domain is for use in illustrative examples in documents." .to_owned(), engine: smallvec!["Google".to_owned(), "Bing".to_owned()], }, ); map_to_be_filtered.insert( "https://www.rust-lang.org/".to_owned(), SearchResult { title: "Rust Programming Language".to_owned(), url: "https://www.rust-lang.org/".to_owned(), description: "A systems programming language that runs blazingly fast, prevents segfaults, and guarantees thread safety.".to_owned(), engine: smallvec!["Google".to_owned(), "DuckDuckGo".to_owned()], }, ); // Create a temporary file with regex patterns let mut file = NamedTempFile::new()?; writeln!(file, "example")?; writeln!(file, "rust")?; file.flush()?; let mut resultant_map = HashMap::new(); filter_with_lists( &mut map_to_be_filtered, &mut resultant_map, file.path().to_str().unwrap(), )?; assert_eq!(resultant_map.len(), 2); assert!(resultant_map.contains_key("https://www.example.com")); assert!(resultant_map.contains_key("https://www.rust-lang.org/")); assert_eq!(map_to_be_filtered.len(), 0); Ok(()) } #[test] fn test_filter_with_lists_wildcard() -> Result<(), Box> { let mut map_to_be_filtered = HashMap::new(); map_to_be_filtered.insert( "https://www.example.com".to_owned(), SearchResult { title: "Example Domain".to_owned(), url: "https://www.example.com".to_owned(), description: "This domain is for use in illustrative examples in documents." .to_owned(), engine: smallvec!["Google".to_owned(), "Bing".to_owned()], }, ); map_to_be_filtered.insert( "https://www.rust-lang.org/".to_owned(), SearchResult { title: "Rust Programming Language".to_owned(), url: "https://www.rust-lang.org/".to_owned(), description: "A systems programming language that runs blazingly fast, prevents segfaults, and guarantees thread safety.".to_owned(), engine: smallvec!["Google".to_owned(), "DuckDuckGo".to_owned()], }, ); // Create a temporary file with a regex pattern containing a wildcard let mut file = NamedTempFile::new()?; writeln!(file, "ex.*le")?; file.flush()?; let mut resultant_map = HashMap::new(); filter_with_lists( &mut map_to_be_filtered, &mut resultant_map, file.path().to_str().unwrap(), )?; assert_eq!(resultant_map.len(), 1); assert!(resultant_map.contains_key("https://www.example.com")); assert_eq!(map_to_be_filtered.len(), 1); assert!(map_to_be_filtered.contains_key("https://www.rust-lang.org/")); Ok(()) } #[test] fn test_filter_with_lists_file_not_found() { let mut map_to_be_filtered = HashMap::new(); let mut resultant_map = HashMap::new(); // Call the `filter_with_lists` function with a non-existent file path let result = filter_with_lists( &mut map_to_be_filtered, &mut resultant_map, "non-existent-file.txt", ); assert!(result.is_err()); } #[test] fn test_filter_with_lists_invalid_regex() { let mut map_to_be_filtered = HashMap::new(); map_to_be_filtered.insert( "https://www.example.com".to_owned(), SearchResult { title: "Example Domain".to_owned(), url: "https://www.example.com".to_owned(), description: "This domain is for use in illustrative examples in documents." .to_owned(), engine: smallvec!["Google".to_owned(), "Bing".to_owned()], }, ); let mut resultant_map = HashMap::new(); // Create a temporary file with an invalid regex pattern let mut file = NamedTempFile::new().unwrap(); writeln!(file, "example(").unwrap(); file.flush().unwrap(); let result = filter_with_lists( &mut map_to_be_filtered, &mut resultant_map, file.path().to_str().unwrap(), ); assert!(result.is_err()); } }