use idna::domain_to_unicode; use garage_util::data::*; use garage_model::garage::Garage; use garage_model::key_table::Key; use crate::error::*; /// What kind of authorization is required to perform a given action #[derive(Debug, Clone, PartialEq, Eq)] pub enum Authorization { /// No authorization is required None, /// Having Read permission on bucket Read, /// Having Write permission on bucket Write, /// Having Owner permission on bucket Owner, } /// Host to bucket /// /// Convert a host, like "bucket.garage-site.tld" to the corresponding bucket "bucket", /// considering that ".garage-site.tld" is the "root domain". For domains not matching /// the provided root domain, no bucket is returned /// This behavior has been chosen to follow AWS S3 semantic. pub fn host_to_bucket<'a>(host: &'a str, root: &str) -> Option<&'a str> { let root = root.trim_start_matches('.'); let label_root = root.chars().filter(|c| c == &'.').count() + 1; let root = root.rsplit('.'); let mut host = host.rsplitn(label_root + 1, '.'); for root_part in root { let host_part = host.next()?; if root_part != host_part { return None; } } host.next() } /// Extract host from the authority section given by the HTTP host header /// /// The HTTP host contains both a host and a port. /// Extracting the port is more complex than just finding the colon (:) symbol due to IPv6 /// We do not use the collect pattern as there is no way in std rust to collect over a stack allocated value /// check here: pub fn authority_to_host(authority: &str) -> Result { let mut iter = authority.chars().enumerate(); let (_, first_char) = iter .next() .ok_or_else(|| Error::BadRequest("Authority is empty".to_string()))?; let split = match first_char { '[' => { let mut iter = iter.skip_while(|(_, c)| c != &']'); match iter.next() { Some((_, ']')) => iter.next(), _ => { return Err(Error::BadRequest(format!( "Authority {} has an illegal format", authority ))) } } } _ => iter.find(|(_, c)| *c == ':'), }; let authority = match split { Some((i, ':')) => Ok(&authority[..i]), None => Ok(authority), Some((_, _)) => Err(Error::BadRequest(format!( "Authority {} has an illegal format", authority ))), }; authority.map(|h| domain_to_unicode(h).0) } #[allow(clippy::ptr_arg)] pub async fn resolve_bucket( garage: &Garage, bucket_name: &String, api_key: &Key, ) -> Result { let api_key_params = api_key .state .as_option() .ok_or_internal_error("Key should not be deleted at this point")?; if let Some(Some(bucket_id)) = api_key_params.local_aliases.get(bucket_name) { Ok(*bucket_id) } else { Ok(garage .bucket_helper() .resolve_global_bucket_name(bucket_name) .await? .ok_or(Error::NoSuchBucket)?) } } /// Extract the bucket name and the key name from an HTTP path and possibly a bucket provided in /// the host header of the request /// /// S3 internally manages only buckets and keys. This function splits /// an HTTP path to get the corresponding bucket name and key. pub fn parse_bucket_key<'a>( path: &'a str, host_bucket: Option<&'a str>, ) -> Result<(&'a str, Option<&'a str>), Error> { let path = path.trim_start_matches('/'); if let Some(bucket) = host_bucket { if !path.is_empty() { return Ok((bucket, Some(path))); } else { return Ok((bucket, None)); } } let (bucket, key) = match path.find('/') { Some(i) => { let key = &path[i + 1..]; if !key.is_empty() { (&path[..i], Some(key)) } else { (&path[..i], None) } } None => (path, None), }; if bucket.is_empty() { return Err(Error::BadRequest("No bucket specified".to_string())); } Ok((bucket, key)) } const UTF8_BEFORE_LAST_CHAR: char = '\u{10FFFE}'; /// Compute the key after the prefix pub fn key_after_prefix(pfx: &str) -> Option { let mut next = pfx.to_string(); while !next.is_empty() { let tail = next.pop().unwrap(); if tail >= char::MAX { continue; } // Circumvent a limitation of RangeFrom that overflow earlier than needed // See: https://doc.rust-lang.org/core/ops/struct.RangeFrom.html let new_tail = if tail == UTF8_BEFORE_LAST_CHAR { char::MAX } else { (tail..).nth(1).unwrap() }; next.push(new_tail); return Some(next); } None } #[cfg(test)] mod tests { use super::*; #[test] fn parse_bucket_containing_a_key() -> Result<(), Error> { let (bucket, key) = parse_bucket_key("/my_bucket/a/super/file.jpg", None)?; assert_eq!(bucket, "my_bucket"); assert_eq!(key.expect("key must be set"), "a/super/file.jpg"); Ok(()) } #[test] fn parse_bucket_containing_no_key() -> Result<(), Error> { let (bucket, key) = parse_bucket_key("/my_bucket/", None)?; assert_eq!(bucket, "my_bucket"); assert!(key.is_none()); let (bucket, key) = parse_bucket_key("/my_bucket", None)?; assert_eq!(bucket, "my_bucket"); assert!(key.is_none()); Ok(()) } #[test] fn parse_bucket_containing_no_bucket() { let parsed = parse_bucket_key("", None); assert!(parsed.is_err()); let parsed = parse_bucket_key("/", None); assert!(parsed.is_err()); let parsed = parse_bucket_key("////", None); assert!(parsed.is_err()); } #[test] fn parse_bucket_with_vhost_and_key() -> Result<(), Error> { let (bucket, key) = parse_bucket_key("/a/super/file.jpg", Some("my-bucket"))?; assert_eq!(bucket, "my-bucket"); assert_eq!(key.expect("key must be set"), "a/super/file.jpg"); Ok(()) } #[test] fn parse_bucket_with_vhost_no_key() -> Result<(), Error> { let (bucket, key) = parse_bucket_key("", Some("my-bucket"))?; assert_eq!(bucket, "my-bucket"); assert!(key.is_none()); let (bucket, key) = parse_bucket_key("/", Some("my-bucket"))?; assert_eq!(bucket, "my-bucket"); assert!(key.is_none()); Ok(()) } #[test] fn authority_to_host_with_port() -> Result<(), Error> { let domain = authority_to_host("[::1]:3902")?; assert_eq!(domain, "[::1]"); let domain2 = authority_to_host("garage.tld:65200")?; assert_eq!(domain2, "garage.tld"); let domain3 = authority_to_host("127.0.0.1:80")?; assert_eq!(domain3, "127.0.0.1"); Ok(()) } #[test] fn authority_to_host_without_port() -> Result<(), Error> { let domain = authority_to_host("[::1]")?; assert_eq!(domain, "[::1]"); let domain2 = authority_to_host("garage.tld")?; assert_eq!(domain2, "garage.tld"); let domain3 = authority_to_host("127.0.0.1")?; assert_eq!(domain3, "127.0.0.1"); assert!(authority_to_host("[").is_err()); assert!(authority_to_host("[hello").is_err()); Ok(()) } #[test] fn host_to_bucket_test() { assert_eq!( host_to_bucket("john.doe.garage.tld", ".garage.tld").unwrap(), "john.doe" ); assert_eq!( host_to_bucket("john.doe.garage.tld", "garage.tld").unwrap(), "john.doe" ); assert_eq!(host_to_bucket("john.doe.com", "garage.tld"), None); assert_eq!(host_to_bucket("john.doe.com", ".garage.tld"), None); assert_eq!(host_to_bucket("garage.tld", "garage.tld"), None); assert_eq!(host_to_bucket("garage.tld", ".garage.tld"), None); assert_eq!(host_to_bucket("not-garage.tld", "garage.tld"), None); assert_eq!(host_to_bucket("not-garage.tld", ".garage.tld"), None); } #[test] fn test_key_after_prefix() { use std::iter::FromIterator; assert_eq!(UTF8_BEFORE_LAST_CHAR as u32, (char::MAX as u32) - 1); assert_eq!(key_after_prefix("a/b/").unwrap().as_str(), "a/b0"); assert_eq!(key_after_prefix("€").unwrap().as_str(), "₭"); assert_eq!( key_after_prefix("􏿽").unwrap().as_str(), String::from(char::from_u32(0x10FFFE).unwrap()) ); // When the last character is the biggest UTF8 char let a = String::from_iter(['a', char::MAX].iter()); assert_eq!(key_after_prefix(a.as_str()).unwrap().as_str(), "b"); // When all characters are the biggest UTF8 char let b = String::from_iter([char::MAX; 3].iter()); assert!(key_after_prefix(b.as_str()).is_none()); // Check utf8 surrogates let c = String::from('\u{D7FF}'); assert_eq!( key_after_prefix(c.as_str()).unwrap().as_str(), String::from('\u{E000}') ); // Check the character before the biggest one let d = String::from('\u{10FFFE}'); assert_eq!( key_after_prefix(d.as_str()).unwrap().as_str(), String::from(char::MAX) ); } }