teslatte/tesla_api_coverage/src/vehicle_command.rs

210 lines
5.9 KiB
Rust
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use nom::branch::alt;
use nom::bytes::complete::{tag, take_until, take_while};
use nom::character::complete::{char, line_ending, space0, space1, tab};
use nom::combinator::opt;
use nom::multi::{many0, many1};
use nom::IResult;
use tracing::{trace, warn};
pub fn parse(s: &str) -> () {
// Seek all the way to: var commands = map[string]*Command{\n
// Afterwards has the first map entry.
let commands_start = "var commands = map[string]*Command{\n";
let offset = s.find(commands_start).unwrap();
let s = &s[offset + commands_start.len()..];
let (go, entries) = many1(map_entry)(s).unwrap();
dbg!(&entries);
warn!("todo: parse")
}
#[derive(Debug)]
struct MapEntry {
endpoint: String,
help: String,
// requires_auth: bool,
// requires_fleet: bool,
}
fn map_entry(s: &str) -> IResult<&str, MapEntry> {
// "unlock": &Command{
// help: "Unlock vehicle",
// requiresAuth: true,
// requiresFleetAPI: false,
// args: []Argument{
// Argument{name: "TEMP", help: "Desired temperature (e.g., 70f or 21c; defaults to Celsius)"},
// Argument{name: "ROLE", help: "One of: owner, driver"},
// },
// handler: func(ctx context.Context, acct *account.Account, car *vehicle.Vehicle, args map[string]string) error {
// return car.Unlock(ctx)
// },
// },
short_trace("--- map entry ---", s);
// endpoint
short_trace("endpoint", s);
let (s, _) = ignore_whitespace(s)?;
let (s, endpoint) = quoted_string(s)?;
let (s, _) = until_eol(s)?;
// help
short_trace("help", s);
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("help:")(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, help) = quoted_string(s)?;
let (s, _) = tag(",")(s)?;
// requiresAuth
short_trace("requiresAuth", s);
let (s, requires_auth) = bool_field_or_false(s, "requiresAuth:")?;
// requiresFleetAPI
short_trace("requiresFleetAPI", s);
let (s, requires_fleet) = bool_field_or_false(s, "requiresFleetAPI:")?;
// required args
short_trace("required args", s);
let (s, required_args) = args(s, "args: []Argument{")?;
// optional args
short_trace("optional args", s);
let (s, optional_args) = args(s, "optional: []Argument{")?;
// check and ignore the handler, as there's not really much data we can take out of it.
let (s, _) = ignore_whitespace(s)?;
let (s, _) = take_until("},")(s)?;
let (s, _) = tag("},")(s)?;
// And the end of the record...
let (s, _) = take_until("},")(s)?;
let (s, _) = tag("},")(s)?;
dbg!(endpoint, help, requires_auth, requires_fleet);
Ok((
s,
MapEntry {
endpoint: endpoint.to_string(),
help: help.to_string(),
},
))
}
/// Ignore the quotes and return the inner string.
/// e.g. "unlock"
fn quoted_string(s: &str) -> IResult<&str, &str> {
short_trace("quoted string", s);
let (s, _) = char('"')(s)?;
let (s, string) = take_until("\"")(s)?;
let (s, _) = char('"')(s)?;
Ok((s, string))
}
fn ignore_whitespace(s: &str) -> IResult<&str, ()> {
short_trace("ignore whitespace", s);
let (s, ws) = many0(alt((tag("\t"), space1, line_ending)))(s)?;
short_trace("ignore whitespace afterwards", s);
Ok((s, ()))
}
fn until_eol(s: &str) -> IResult<&str, &str> {
short_trace("eol", s);
let (s, line) = take_until("\n")(s)?;
let (s, _) = line_ending(s)?;
short_trace("eol afterwards", s);
Ok((s, line))
}
fn str_to_bool(s: &str) -> IResult<&str, bool> {
short_trace("bool", s);
let (s, bool_str) = alt((tag("true"), tag("false")))(s)?;
let bool = match bool_str {
"true" => true,
"false" => false,
_ => unreachable!(),
};
short_trace("bool afterwards", s);
Ok((s, bool))
}
/// If the field isn't there, assume false.
fn bool_field<'a>(field_tag: &str) -> impl Fn(&'a str) -> IResult<&'a str, bool> + '_ {
return move |s: &str| -> IResult<&'a str, bool> {
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag(field_tag)(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, value) = str_to_bool(s)?;
let (s, _) = tag(",")(s)?;
Ok((s, value))
};
}
fn bool_field_or_false<'a>(s: &'a str, field_tag: &str) -> IResult<&'a str, bool> {
let (s, value) = opt(bool_field(field_tag))(s)?;
return Ok((s, value.unwrap_or(false)));
}
struct Arg {
name: String,
help: String,
}
fn args<'a>(s: &'a str, field_tag: &str) -> IResult<&'a str, Vec<Arg>> {
short_trace("args", s);
let (s, _) = ignore_whitespace(s)?;
let (s, maybe_field) = opt(tag(field_tag))(s)?;
if maybe_field.is_none() {
trace!("no arg record");
return Ok((s, vec![]));
}
let (s, _) = ignore_whitespace(s)?;
let (s, args) = many1(arg)(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("},")(s)?;
short_trace("args afterwards", s);
Ok((s, args))
}
fn arg(s: &str) -> IResult<&str, Arg> {
short_trace("arg", s);
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("Argument{")(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("name:")(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, name) = quoted_string(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag(",")(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("help:")(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, help) = quoted_string(s)?;
let (s, _) = opt(tag(","))(s)?;
let (s, _) = ignore_whitespace(s)?;
let (s, _) = tag("},")(s)?;
short_trace("arg afterwards", s);
Ok((
s,
Arg {
name: name.to_string(),
help: help.to_string(),
},
))
}
fn short_trace(prefix: &str, s: &str) {
let mut max_len_left = 20;
if s.len() < max_len_left {
max_len_left = s.len();
}
trace!("{}: {:?}...", prefix, &s[0..max_len_left])
}