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use http_muncher; use token::HttpToken; use parser_handler::ParserHandler; #[derive(Clone, Debug, PartialEq, Eq)] pub struct ParserError { pub error: String, } enum ParserType { Request, Response, } pub struct Parser { parser: http_muncher::Parser<ParserHandler>, parser_type: ParserType, error: Option<ParserError>, first_line_sent: bool, } impl Parser { pub fn request() -> Parser { Parser { parser: http_muncher::Parser::request(ParserHandler::default()), parser_type: ParserType::Request, error: None, first_line_sent: false, } } pub fn response() -> Parser { Parser { parser: http_muncher::Parser::response(ParserHandler::default()), parser_type: ParserType::Response, error: None, first_line_sent: false, } } pub fn next_token(&mut self, data: Option<&[u8]>) -> (Result<Option<HttpToken>, ParserError>, usize) { let mut nparsed = 0; if self.error.is_none() { if let Some(data) = data { if data.len() > 0 { nparsed = self.parser.parse(data); if self.parser.has_error() { self.error = Some(ParserError { error: self.parser.error().to_string(), }); } } } } if self.parser.get().tokens.front().is_some() && !self.first_line_sent { self.first_line_sent = true; match self.parser_type { ParserType::Request => { return (Ok(Some(HttpToken::Method(self.parser.http_method() .to_string()))), nparsed); } ParserType::Response => { let token = match self.parser.get().tokens.pop_front() .unwrap() { HttpToken::Status(_, reason) => { HttpToken::Status(self.parser.status_code(), reason) } _ => unreachable!(), }; return (Ok(Some(token)), nparsed); } } } if let Some(token) = self.parser.get().tokens.pop_front() { if token == HttpToken::EndOfMessage { self.first_line_sent = false; } return (Ok(Some(token)), nparsed); } else { if let Some(ref e) = self.error { return (Err(e.clone()), nparsed); } else { return (Ok(None), nparsed); } } } } #[cfg(test)] mod tests { use super::*; use token::HttpToken; #[test] fn simple() { let mut parser = Parser::request(); let mut tokens = Vec::new(); let mut http_request: Vec<_> = b"GET /te".iter() .cloned().collect(); loop { let (t, nparsed) = parser.next_token(Some(&http_request)); http_request.drain(..nparsed); if let Ok(Some(t)) = t { tokens.push(t); } else { break; } } http_request.extend(b"st HTTP/1.0\r\n\ Cont".iter().cloned()); loop { let (t, nparsed) = parser.next_token(Some(&http_request)); http_request.drain(..nparsed); if let Ok(Some(t)) = t { tokens.push(t); } else { break; } } http_request.extend(b"ent-Length: 00".iter().cloned()); loop { let (t, nparsed) = parser.next_token(Some(&http_request)); http_request.drain(..nparsed); if let Ok(Some(t)) = t { tokens.push(t); } else { break; } } http_request.extend(b"00\r\n\r\n".iter().cloned()); loop { let (t, nparsed) = parser.next_token(Some(&http_request)); http_request.drain(..nparsed); if let Ok(Some(t)) = t { tokens.push(t); } else { break; } } assert_eq!(tokens, [HttpToken::Method("GET".to_string()), HttpToken::Url("/test".to_string()), HttpToken::Field("Content-Length".to_string(), "0000".to_string()), HttpToken::EndOfMessage]); assert_eq!(parser.next_token(None), (Ok(None), 0)); } }