use crate::{
compiler::{
grammar::{
instruction::{CompilerState, Instruction, MapLocalVars},
Capability,
},
lexer::{word::Word, Token},
CompileError, ErrorType, Value,
},
runtime::actions::action_notify::{validate_from, validate_uri},
FileCarbonCopy,
};
#[derive(Debug, Clone, PartialEq, Eq)]
#[cfg_attr(
any(test, feature = "serde"),
derive(serde::Serialize, serde::Deserialize)
)]
#[cfg_attr(
feature = "rkyv",
derive(rkyv::Serialize, rkyv::Deserialize, rkyv::Archive)
)]
pub(crate) struct Notify {
pub from: Option<Value>,
pub importance: Option<Value>,
pub options: Vec<Value>,
pub message: Option<Value>,
pub fcc: Option<FileCarbonCopy<Value>>,
pub method: Value,
}
impl CompilerState<'_> {
pub(crate) fn parse_notify(&mut self) -> Result<(), CompileError> {
let method;
let mut from = None;
let mut importance = None;
let mut message = None;
let mut options = Vec::new();
let mut fcc = None;
let mut create = false;
let mut flags = Vec::new();
let mut special_use = None;
let mut mailbox_id = None;
loop {
let token_info = self.tokens.unwrap_next()?;
match token_info.token {
Token::Tag(Word::From) => {
self.validate_argument(1, None, token_info.line_num, token_info.line_pos)?;
let address = self.parse_string()?;
if let Value::Text(address) = &address {
if address.is_empty() || !validate_from(address) {
return Err(token_info.custom(ErrorType::InvalidAddress));
}
}
from = address.into();
}
Token::Tag(Word::Message) => {
self.validate_argument(2, None, token_info.line_num, token_info.line_pos)?;
message = self.parse_string()?.into();
}
Token::Tag(Word::Importance) => {
self.validate_argument(3, None, token_info.line_num, token_info.line_pos)?;
importance = self.parse_string()?.into();
}
Token::Tag(Word::Options) => {
self.validate_argument(4, None, token_info.line_num, token_info.line_pos)?;
options = self.parse_strings(false)?;
}
Token::Tag(Word::Create) => {
self.validate_argument(
5,
Capability::Mailbox.into(),
token_info.line_num,
token_info.line_pos,
)?;
create = true;
}
Token::Tag(Word::SpecialUse) => {
self.validate_argument(
6,
Capability::SpecialUse.into(),
token_info.line_num,
token_info.line_pos,
)?;
special_use = self.parse_string()?.into();
}
Token::Tag(Word::MailboxId) => {
self.validate_argument(
7,
Capability::MailboxId.into(),
token_info.line_num,
token_info.line_pos,
)?;
mailbox_id = self.parse_string()?.into();
}
Token::Tag(Word::Fcc) => {
self.validate_argument(
8,
Capability::Fcc.into(),
token_info.line_num,
token_info.line_pos,
)?;
fcc = self.parse_string()?.into();
}
Token::Tag(Word::Flags) => {
self.validate_argument(
9,
Capability::Imap4Flags.into(),
token_info.line_num,
token_info.line_pos,
)?;
flags = self.parse_strings(false)?;
}
_ => {
if let Token::StringConstant(uri) = &token_info.token {
if validate_uri(uri.to_string().as_ref()).is_none() {
return Err(token_info.custom(ErrorType::InvalidURI));
}
}
method = self.parse_string_token(token_info)?;
break;
}
}
}
if fcc.is_none()
&& (create || !flags.is_empty() || special_use.is_some() || mailbox_id.is_some())
{
return Err(self.tokens.unwrap_next()?.missing_tag(":fcc"));
}
self.instructions.push(Instruction::Notify(Notify {
method,
from,
importance,
options,
message,
fcc: if let Some(fcc) = fcc {
FileCarbonCopy {
mailbox: fcc,
create,
flags,
special_use,
mailbox_id,
}
.into()
} else {
None
},
}));
Ok(())
}
}
impl MapLocalVars for FileCarbonCopy<Value> {
fn map_local_vars(&mut self, last_id: usize) {
self.mailbox.map_local_vars(last_id);
self.mailbox_id.map_local_vars(last_id);
self.flags.map_local_vars(last_id);
self.special_use.map_local_vars(last_id);
}
}