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path: root/src/commands/stream_mapper.rs
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use regex::Regex;

use std::collections::VecDeque;
use std::collections::vec_deque::Drain;
use std::convert::TryInto;

use super::*;

pub struct CommandToByteMapper {
    buffer: VecDeque<u8>,
}
impl CommandToByteMapper {

    pub fn new() -> CommandToByteMapper {
        CommandToByteMapper{ buffer: VecDeque::new() }
    }

    pub fn map(&mut self, command: Command) -> Drain<u8> {
        self.clear_buffer();

        self.write_u8(command.opcode());
        match command {
            Command::GetInfo => {},
            Command::CreateScanner {
                scan_id,
            } => {
                
                    self.write_u32(scan_id);
            },
            Command::RemoveScanner {
                scan_id,
            } => {
                
                    self.write_u32(scan_id);
            },
            Command::CreateConnectionChannel {
                conn_id,
                bd_addr,
                latency_mode,
                auto_disconnect_time,
            } => {
                
                    self.write_u32(conn_id);
                    self.write_bdaddr(&bd_addr[..]);
                    if let Ok(latency_mode) = latency_mode.try_into() {
                        self.write_u8(latency_mode);
                    }
                    self.write_i16(auto_disconnect_time);
            },
            Command::RemoveConnectionChannel {
                conn_id,
            } => {
                
                    self.write_u32(conn_id);
            },
            Command::ForceDisconnect {
                bd_addr,
            } => {
                
                    self.write_bdaddr(&bd_addr[..]);
            },
            Command::ChangeModeParameters {
                conn_id,
                latency_mode,
                auto_disconnect_time,
            } => {
                
                    self.write_u32(conn_id);
                    if let Ok(latency_mode) = latency_mode.try_into() {
                        self.write_u8(latency_mode);
                    }
                    self.write_i16(auto_disconnect_time);
            },
            Command::Ping {
                ping_id,
            } => {
                
                    self.write_u32(ping_id);
            },
            Command::GetButtonInfo {
                bd_addr,
            } => {
                
                    self.write_bdaddr(&bd_addr[..]);
            },
            Command::CreateScanWizard {
                scan_wizard_id,
            } => {
                
                    self.write_u32(scan_wizard_id);
            },
            Command::CancelScanWizard {
                scan_wizard_id,
            } => {
                
                    self.write_u32(scan_wizard_id);
            },
            Command::DeleteButton {
                bd_addr,
            } => {
                
                    self.write_bdaddr(&bd_addr[..]);
            },
            Command::CreateBatteryStatusListener {
                listener_id,
                bd_addr,
            } => {
                
                    self.write_u32(listener_id);
                    self.write_bdaddr(&bd_addr[..]);
            },
            Command::RemoveBatteryStatusListener {
                listener_id,
            } => {
                
                    self.write_u32(listener_id);
            },
        }

        self.prepend_size();

        self.buffer.drain(..)
    }

    fn clear_buffer(&mut self) {
        self.buffer.drain(..);
    }

    fn prepend_size(&mut self) {
        let len = self.buffer.len();
        self.buffer.push_front((len >> 8) as u8);
        self.buffer.push_front((len & 255) as u8);
    }
    fn write_u8(&mut self, value: u8) {
        let mut buf = vec![value].into_iter().collect();
        self.buffer.append(&mut buf);
    }
/*
    fn write_bool(&mut self, value: bool) {
        if value {
            self.write_u8(1);
        }
        else {
            self.write_u8(0);
        }
    }
*/
    fn write_u16(&mut self, value: u16) {
        self.write_u8(value as u8);
        self.write_u8((value >> 8) as u8);
    }
    fn write_i16(&mut self, value: i16) {
        self.write_u8(value as u8);
        self.write_u8((value >> 8) as u8);
    }
    fn write_u32(&mut self, value: u32) {
        self.write_u16(value as u16);
        self.write_u16((value >> 16) as u16);
    }
/*
    fn write_i32(&mut self, value: i32) {
        self.write_i16(value as i16);
        self.write_i16((value >> 16) as i16);
    }
*/
    fn write_bdaddr(&mut self, str: &str) {
        let re = Regex::new(r"([0-9a-z]{2}:){5}[0-9a-z]{2}").unwrap();
        if re.is_match(str) {
            if let Some(b) = hex_to_u8(&str[15..]) { self.write_u8(b); }
            if let Some(b) = hex_to_u8(&str[12..]) { self.write_u8(b); }
            if let Some(b) = hex_to_u8(&str[ 9..]) { self.write_u8(b); }
            if let Some(b) = hex_to_u8(&str[ 6..]) { self.write_u8(b); }
            if let Some(b) = hex_to_u8(&str[ 3..]) { self.write_u8(b); }
            if let Some(b) = hex_to_u8(&str[  ..]) { self.write_u8(b); }
        }
    }

}

fn hex_to_u8(buffer: &str) -> Option<u8> {
    let mut char_indices = buffer.char_indices();
    match (char_indices.next(), char_indices.next()) {
        (Some((0, upper)), Some((1, lower))) => {
            let mut b = 0u8;
            if let Some(v) = upper.to_digit(16) { b += (v as u8) << 4; }
            if let Some(v) = lower.to_digit(16) { b += v as u8; }
            Some(b)
        },
        _ => None,
    }
}