use crate::crypto::TuyaCipher;
use crate::error::Result;
use crate::protocol::{
CommandType, NO_PROTOCOL_HEADER_CMDS, TuyaProtocol, Version, create_base_payload,
};
use log::trace;
use serde_json::Value;
pub struct ProtocolV34;
impl ProtocolV34 {
fn add_protocol_header(&self, payload: &[u8]) -> Vec<u8> {
let mut header = Version::V3_4.as_bytes().to_vec();
header.extend_from_slice(&[0u8; 12]);
header.extend_from_slice(payload);
header
}
}
impl TuyaProtocol for ProtocolV34 {
fn version(&self) -> Version {
Version::V3_4
}
fn get_effective_command(&self, command: CommandType) -> u32 {
match command {
CommandType::Control => CommandType::ControlNew as u32,
CommandType::DpQuery => CommandType::DpQueryNew as u32,
cmd => cmd as u32,
}
}
fn generate_payload(
&self,
device_id: &str,
command: CommandType,
data: Option<Value>,
cid: Option<&str>,
t: u64,
) -> Result<(u32, Value)> {
let cmd_to_send = self.get_effective_command(command);
let mut payload =
create_base_payload(device_id, cid, data.clone(), Some(t.to_string().into()));
match command {
CommandType::UpdateDps => {
payload.retain(|k, _| k == "cid");
let d = data.unwrap_or_else(|| serde_json::json!([18, 19, 20]));
payload.insert("dpId".into(), d);
}
CommandType::Control | CommandType::ControlNew => {
payload.clear();
payload.insert("protocol".into(), 5.into());
payload.insert("t".into(), t.into());
let mut data_obj = serde_json::Map::new();
if let Some(c) = cid {
data_obj.insert("cid".into(), c.into());
data_obj.insert("ctype".into(), 0.into());
}
if let Some(d) = data {
data_obj.insert("dps".into(), d);
}
payload.insert("data".into(), Value::Object(data_obj));
}
CommandType::LanExtStream => {
payload.clear();
if let Some(Value::Object(mut data_obj)) = data {
if let Some(req_type) = data_obj.remove("reqType") {
payload.insert("reqType".into(), req_type);
}
payload.insert("data".into(), Value::Object(data_obj));
}
}
CommandType::DpQuery | CommandType::DpQueryNew => {
payload.retain(|k, _| k == "cid" || k == "dps");
}
CommandType::Status | CommandType::HeartBeat => {
payload.remove("uid");
payload.remove("t");
}
_ => {
}
}
let payload_obj = Value::Object(payload);
trace!("v3.4 generated payload (cmd {cmd_to_send}): {payload_obj}");
Ok((cmd_to_send, payload_obj))
}
fn pack_payload(&self, payload: &[u8], cmd: u32, cipher: &TuyaCipher) -> Result<Vec<u8>> {
let use_header = !NO_PROTOCOL_HEADER_CMDS.contains(&cmd);
let mut data = payload.to_vec();
if use_header {
data = self.add_protocol_header(&data);
}
cipher.encrypt(&data, false, None, None, true)
}
fn decrypt_payload(&self, mut payload: Vec<u8>, cipher: &TuyaCipher) -> Result<Vec<u8>> {
if let Ok(decrypted) = cipher.decrypt(&payload, false, None, None, None) {
payload = decrypted;
}
if self.has_version_header(&payload) {
payload.drain(..15);
}
Ok(payload)
}
fn has_version_header(&self, payload: &[u8]) -> bool {
payload.len() >= 15 && &payload[..3] == Version::V3_4.as_bytes()
}
fn requires_session_key(&self) -> bool {
true
}
fn encrypt_session_key(
&self,
session_key: &[u8],
cipher: &TuyaCipher,
_nonce: &[u8],
) -> Result<Vec<u8>> {
cipher.encrypt(session_key, false, None, None, false)
}
fn get_prefix(&self) -> u32 {
crate::protocol::PREFIX_55AA
}
fn get_hmac_key<'a>(&self, cipher_key: &'a [u8]) -> Option<&'a [u8]> {
Some(cipher_key)
}
fn is_empty_payload_allowed(&self, _cmd: u32) -> bool {
false
}
fn should_check_dev22_fallback(&self) -> bool {
true
}
}