use crate::k2v::error::*;
use std::borrow::Cow;
use hyper::{Method, Request};
use crate::helpers::Authorization;
use crate::router_macros::{generateQueryParameters, router_match};
router_match! {@func
/// List of all K2V API endpoints.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Endpoint {
DeleteBatch {
},
DeleteItem {
partition_key: String,
sort_key: String,
},
InsertBatch {
},
InsertItem {
partition_key: String,
sort_key: String,
},
Options,
PollItem {
partition_key: String,
sort_key: String,
causality_token: String,
timeout: Option<u64>,
},
PollRange {
partition_key: String,
},
ReadBatch {
},
ReadIndex {
prefix: Option<String>,
start: Option<String>,
end: Option<String>,
limit: Option<u64>,
reverse: Option<bool>,
},
ReadItem {
partition_key: String,
sort_key: String,
},
}}
impl Endpoint {
/// Determine which S3 endpoint a request is for using the request, and a bucket which was
/// possibly extracted from the Host header.
/// Returns Self plus bucket name, if endpoint is not Endpoint::ListBuckets
pub fn from_request<T>(req: &Request<T>) -> Result<(Self, String), Error> {
let uri = req.uri();
let path = uri.path().trim_start_matches('/');
let query = uri.query();
let (bucket, partition_key) = path
.split_once('/')
.map(|(b, p)| (b.to_owned(), p.trim_start_matches('/')))
.unwrap_or((path.to_owned(), ""));
if bucket.is_empty() {
return Err(Error::bad_request("Missing bucket name"));
}
if *req.method() == Method::OPTIONS {
return Ok((Self::Options, bucket));
}
let partition_key = percent_encoding::percent_decode_str(partition_key)
.decode_utf8()?
.into_owned();
let mut query = QueryParameters::from_query(query.unwrap_or_default())?;
let method_search = Method::from_bytes(b"SEARCH").unwrap();
let res = match *req.method() {
Method::GET => Self::from_get(partition_key, &mut query)?,
//&Method::HEAD => Self::from_head(partition_key, &mut query)?,
Method::POST => Self::from_post(partition_key, &mut query)?,
Method::PUT => Self::from_put(partition_key, &mut query)?,
Method::DELETE => Self::from_delete(partition_key, &mut query)?,
_ if req.method() == method_search => Self::from_search(partition_key, &mut query)?,
_ => return Err(Error::bad_request("Unknown method")),
};
if let Some(message) = query.nonempty_message() {
debug!("Unused query parameter: {}", message)
}
Ok((res, bucket))
}
/// Determine which endpoint a request is for, knowing it is a GET.
fn from_get(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
EMPTY if causality_token => PollItem (query::sort_key, query::causality_token, opt_parse::timeout),
EMPTY => ReadItem (query::sort_key),
],
no_key: [
EMPTY => ReadIndex (query_opt::prefix, query_opt::start, query_opt::end, opt_parse::limit, opt_parse::reverse),
]
}
}
/// Determine which endpoint a request is for, knowing it is a SEARCH.
fn from_search(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
POLL_RANGE => PollRange,
],
no_key: [
EMPTY => ReadBatch,
]
}
}
/*
/// Determine which endpoint a request is for, knowing it is a HEAD.
fn from_head(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
EMPTY => HeadObject(opt_parse::part_number, query_opt::version_id),
],
no_key: [
EMPTY => HeadBucket,
]
}
}
*/
/// Determine which endpoint a request is for, knowing it is a POST.
fn from_post(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
POLL_RANGE => PollRange,
],
no_key: [
EMPTY => InsertBatch,
DELETE => DeleteBatch,
SEARCH => ReadBatch,
]
}
}
/// Determine which endpoint a request is for, knowing it is a PUT.
fn from_put(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
EMPTY => InsertItem (query::sort_key),
],
no_key: [
]
}
}
/// Determine which endpoint a request is for, knowing it is a DELETE.
fn from_delete(partition_key: String, query: &mut QueryParameters<'_>) -> Result<Self, Error> {
router_match! {
@gen_parser
(query.keyword.take().unwrap_or_default(), partition_key, query, None),
key: [
EMPTY => DeleteItem (query::sort_key),
],
no_key: [
]
}
}
/// Get the partition key the request target. Returns None for requests which don't use a partition key.
#[allow(dead_code)]
pub fn get_partition_key(&self) -> Option<&str> {
router_match! {
@extract
self,
partition_key,
[
DeleteItem,
InsertItem,
PollItem,
ReadItem,
]
}
}
/// Get the sort key the request target. Returns None for requests which don't use a sort key.
#[allow(dead_code)]
pub fn get_sort_key(&self) -> Option<&str> {
router_match! {
@extract
self,
sort_key,
[
DeleteItem,
InsertItem,
PollItem,
ReadItem,
]
}
}
/// Get the kind of authorization which is required to perform the operation.
pub fn authorization_type(&self) -> Authorization {
let readonly = router_match! {
@match
self,
[
PollItem,
ReadBatch,
ReadIndex,
ReadItem,
]
};
if readonly {
Authorization::Read
} else {
Authorization::Write
}
}
}
// parameter name => struct field
generateQueryParameters! {
keywords: [
"delete" => DELETE,
"search" => SEARCH,
"poll_range" => POLL_RANGE
],
fields: [
"prefix" => prefix,
"start" => start,
"causality_token" => causality_token,
"end" => end,
"limit" => limit,
"reverse" => reverse,
"sort_key" => sort_key,
"timeout" => timeout
]
}