forked from mirrors/gecko-dev
8182bee632
Upgrades to Glean v50.0.1, which comes with a rewritten core and UniFFI-powered bindings. Glean has some API changes, so we swap it over to that. Mostly mechanical changes. Also upgrades to inherent v1.0 in fog. This matches what Glean uses internally and gets rid of one duplicated crate. Also upgrades to glean-parser==6.0.1 One crate duplication now (change in `python/mozbuild/mozbuild/vendor/vendor_rust.py` required). Some new crates now vendored. These are transitive dependencies of Glean dependencies, all with valid licenses and already used in other products (mobile). Differential Revision: https://phabricator.services.mozilla.com/D146062
207 lines
5.2 KiB
Rust
207 lines
5.2 KiB
Rust
use nom::{
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bytes::complete::take_while,
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character::complete::{
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alphanumeric1 as alphanumeric, char, multispace0 as multispace, space0 as space,
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},
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combinator::{map, map_res, opt},
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multi::many0,
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sequence::{delimited, pair, separated_pair, terminated, tuple},
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IResult,
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};
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use std::collections::HashMap;
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use std::str;
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fn category(i: &[u8]) -> IResult<&[u8], &str> {
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map_res(
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delimited(char('['), take_while(|c| c != b']'), char(']')),
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str::from_utf8,
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)(i)
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}
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fn key_value(i: &[u8]) -> IResult<&[u8], (&str, &str)> {
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let (i, key) = map_res(alphanumeric, str::from_utf8)(i)?;
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let (i, _) = tuple((opt(space), char('='), opt(space)))(i)?;
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let (i, val) = map_res(take_while(|c| c != b'\n' && c != b';'), str::from_utf8)(i)?;
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let (i, _) = opt(pair(char(';'), take_while(|c| c != b'\n')))(i)?;
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Ok((i, (key, val)))
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}
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fn keys_and_values(i: &[u8]) -> IResult<&[u8], HashMap<&str, &str>> {
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map(many0(terminated(key_value, opt(multispace))), |vec| {
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vec.into_iter().collect()
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})(i)
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}
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fn category_and_keys(i: &[u8]) -> IResult<&[u8], (&str, HashMap<&str, &str>)> {
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let (i, category) = terminated(category, opt(multispace))(i)?;
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let (i, keys) = keys_and_values(i)?;
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Ok((i, (category, keys)))
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}
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fn categories(i: &[u8]) -> IResult<&[u8], HashMap<&str, HashMap<&str, &str>>> {
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map(
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many0(separated_pair(
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category,
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opt(multispace),
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map(
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many0(terminated(key_value, opt(multispace))),
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|vec: Vec<_>| vec.into_iter().collect(),
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),
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)),
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|vec: Vec<_>| vec.into_iter().collect(),
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)(i)
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}
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#[test]
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fn parse_category_test() {
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let ini_file = &b"[category]
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parameter=value
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key = value2"[..];
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let ini_without_category = &b"\n\nparameter=value
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key = value2"[..];
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let res = category(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, o)) => println!("i: {:?} | o: {:?}", str::from_utf8(i), o),
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_ => println!("error"),
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}
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assert_eq!(res, Ok((ini_without_category, "category")));
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}
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#[test]
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fn parse_key_value_test() {
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let ini_file = &b"parameter=value
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key = value2"[..];
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let ini_without_key_value = &b"\nkey = value2"[..];
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let res = key_value(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, (o1, o2))) => println!("i: {:?} | o: ({:?},{:?})", str::from_utf8(i), o1, o2),
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_ => println!("error"),
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}
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assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value"))));
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}
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#[test]
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fn parse_key_value_with_space_test() {
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let ini_file = &b"parameter = value
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key = value2"[..];
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let ini_without_key_value = &b"\nkey = value2"[..];
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let res = key_value(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, (o1, o2))) => println!("i: {:?} | o: ({:?},{:?})", str::from_utf8(i), o1, o2),
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_ => println!("error"),
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}
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assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value"))));
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}
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#[test]
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fn parse_key_value_with_comment_test() {
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let ini_file = &b"parameter=value;abc
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key = value2"[..];
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let ini_without_key_value = &b"\nkey = value2"[..];
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let res = key_value(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, (o1, o2))) => println!("i: {:?} | o: ({:?},{:?})", str::from_utf8(i), o1, o2),
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_ => println!("error"),
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}
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assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value"))));
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}
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#[test]
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fn parse_multiple_keys_and_values_test() {
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let ini_file = &b"parameter=value;abc
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key = value2
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[category]"[..];
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let ini_without_key_value = &b"[category]"[..];
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let res = keys_and_values(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, ref o)) => println!("i: {:?} | o: {:?}", str::from_utf8(i), o),
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_ => println!("error"),
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}
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let mut expected: HashMap<&str, &str> = HashMap::new();
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expected.insert("parameter", "value");
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expected.insert("key", "value2");
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assert_eq!(res, Ok((ini_without_key_value, expected)));
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}
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#[test]
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fn parse_category_then_multiple_keys_and_values_test() {
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//FIXME: there can be an empty line or a comment line after a category
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let ini_file = &b"[abcd]
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parameter=value;abc
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key = value2
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[category]"[..];
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let ini_after_parser = &b"[category]"[..];
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let res = category_and_keys(ini_file);
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println!("{:?}", res);
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match res {
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Ok((i, ref o)) => println!("i: {:?} | o: {:?}", str::from_utf8(i), o),
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_ => println!("error"),
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}
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let mut expected_h: HashMap<&str, &str> = HashMap::new();
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expected_h.insert("parameter", "value");
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expected_h.insert("key", "value2");
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assert_eq!(res, Ok((ini_after_parser, ("abcd", expected_h))));
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}
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#[test]
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fn parse_multiple_categories_test() {
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let ini_file = &b"[abcd]
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parameter=value;abc
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key = value2
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[category]
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parameter3=value3
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key4 = value4
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"[..];
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let ini_after_parser = &b""[..];
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let res = categories(ini_file);
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//println!("{:?}", res);
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match res {
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Ok((i, ref o)) => println!("i: {:?} | o: {:?}", str::from_utf8(i), o),
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_ => println!("error"),
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}
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let mut expected_1: HashMap<&str, &str> = HashMap::new();
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expected_1.insert("parameter", "value");
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expected_1.insert("key", "value2");
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let mut expected_2: HashMap<&str, &str> = HashMap::new();
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expected_2.insert("parameter3", "value3");
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expected_2.insert("key4", "value4");
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let mut expected_h: HashMap<&str, HashMap<&str, &str>> = HashMap::new();
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expected_h.insert("abcd", expected_1);
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expected_h.insert("category", expected_2);
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assert_eq!(res, Ok((ini_after_parser, expected_h)));
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}
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