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use super::message::{MessageHead, PartHead};
use super::{AsyncReadBuffer, ProtocolError, Result, Slice};
use futures::{AsyncRead, Stream};
async fn read_message<T: AsyncRead + Unpin>(buf: &mut AsyncReadBuffer<T>) -> Result<Vec<Vec<u8>>> {
let mut message = Vec::new();
let line = buf.read_line().await?;
let head = MessageHead::from_buf(line)?;
for _ in 0..head.count {
let part = buf.read_line().await?;
let head = PartHead::from_buf(part)?;
let mut content = buf.read_exact(head.size + 2).await?;
let content = content.drain(0..content.len() - 2).collect();
message.push(content);
}
Ok(message)
}
#[derive(Clone)]
pub struct PutCommand {
pub key: Slice,
pub value: Slice,
}
#[derive(Clone)]
pub struct GetCommand {
pub key: Slice,
}
#[derive(Clone)]
pub struct ScanCommand {
pub start: Slice,
pub end: Slice,
}
#[derive(Clone)]
pub struct DeleteCommand {
pub key: Slice,
}
#[derive(Clone)]
pub enum Command {
PUT(PutCommand),
GET(GetCommand),
DELETE(DeleteCommand),
SCAN(ScanCommand),
}
impl Command {
fn from_message(mut message: Vec<Vec<u8>>) -> Result<Command> {
let command = std::str::from_utf8(&message[0])?.to_uppercase();
match command.as_ref() {
"PUT" => {
if message.len() == 3 {
let value = Slice(message.remove(2));
let key = Slice(message.remove(1));
Ok(Command::PUT(PutCommand { key, value }))
} else {
Err(ProtocolError::GrammarCheckFailed(
"PUT should have two arguments",
))
}
}
"GET" => {
if message.len() == 2 {
let key = Slice(message.remove(1));
Ok(Command::GET(GetCommand { key }))
} else {
Err(ProtocolError::GrammarCheckFailed(
"GET should have one argument",
))
}
}
"DELETE" => {
if message.len() == 2 {
let key = Slice(message.remove(1));
Ok(Command::DELETE(DeleteCommand { key }))
} else {
Err(ProtocolError::GrammarCheckFailed(
"DELETE should have one argument",
))
}
}
"SCAN" => {
if message.len() == 3 {
let end = Slice(message.remove(2));
let start = Slice(message.remove(1));
Ok(Command::SCAN(ScanCommand { start, end }))
} else {
Err(ProtocolError::GrammarCheckFailed(
"SCAN should have two arguments",
))
}
}
_ => Err(ProtocolError::CommandNotSupport(command)),
}
}
}
async fn read_command<T: AsyncRead + Unpin>(buf: &mut AsyncReadBuffer<T>) -> Result<Command> {
let message = read_message(buf).await?;
Ok(Command::from_message(message)?)
}
trait AppendSlice {
fn append_part(&mut self, slice: &[u8]);
}
impl AppendSlice for Vec<u8> {
fn append_part(&mut self, slice: &[u8]) {
self.extend_from_slice((PartHead { size: slice.len() }).into_bytes().as_slice());
self.extend_from_slice(slice);
self.extend_from_slice(b"\r\n");
}
}
impl Into<Vec<u8>> for Command {
fn into(self) -> Vec<u8> {
let mut message = Vec::new();
match self {
Command::PUT(command) => {
message.extend_from_slice((MessageHead { count: 3 }).into_bytes().as_slice());
message.append_part(b"PUT");
message.append_part(command.key.0.as_slice());
message.append_part(command.value.0.as_slice());
}
Command::GET(command) => {
message.extend_from_slice((MessageHead { count: 2 }).into_bytes().as_slice());
message.append_part(b"GET");
message.append_part(command.key.0.as_slice());
}
Command::DELETE(command) => {
message.extend_from_slice((MessageHead { count: 2 }).into_bytes().as_slice());
message.append_part(b"DELETE");
message.append_part(command.key.0.as_slice());
}
Command::SCAN(command) => {
message.extend_from_slice((MessageHead { count: 3 }).into_bytes().as_slice());
message.append_part(b"SCAN");
message.append_part(command.start.0.as_slice());
message.append_part(command.end.0.as_slice());
}
}
message
}
}
impl<T: AsyncRead + Unpin + 'static> AsyncReadBuffer<T> {
pub fn into_command_stream(self) -> impl Stream<Item = Result<Command>> {
futures::stream::unfold(self, |mut buffer| {
let future = async move {
let command = read_command(&mut buffer).await;
Some((command, buffer))
};
Box::pin(future)
})
}
}