use std::collections::BTreeMap; use std::convert::TryInto; use std::time::{Duration, SystemTime}; use base64::prelude::*; use log::{debug, error}; use percent_encoding::{utf8_percent_encode, AsciiSet, NON_ALPHANUMERIC}; use http::header::{ACCEPT, CONTENT_TYPE}; use http::status::StatusCode; use http::{HeaderName, HeaderValue, Request}; use hyper::{body::Bytes, Body}; use hyper::{client::connect::HttpConnector, Client as HttpClient}; use hyper_rustls::HttpsConnector; use aws_sigv4::http_request::{sign, SignableRequest, SigningParams, SigningSettings}; use serde::de::Error as DeError; use serde::{Deserialize, Deserializer, Serialize, Serializer}; mod error; pub use error::Error; const DEFAULT_TIMEOUT: Duration = Duration::from_secs(5); const DEFAULT_POLL_TIMEOUT: Duration = Duration::from_secs(300); const SERVICE: &str = "k2v"; const AMZ_CONTENT_SHA256: HeaderName = HeaderName::from_static("x-amz-content-sha256"); const GARAGE_CAUSALITY_TOKEN: HeaderName = HeaderName::from_static("x-garage-causality-token"); const STRICT_ENCODE_SET: AsciiSet = NON_ALPHANUMERIC .remove(b'_') .remove(b'-') .remove(b'.') .remove(b'~'); const PATH_ENCODE_SET: AsciiSet = NON_ALPHANUMERIC .remove(b'/') .remove(b'_') .remove(b'-') .remove(b'.') .remove(b'~'); pub struct K2vClientConfig { pub endpoint: String, pub region: String, pub aws_access_key_id: String, pub aws_secret_access_key: String, pub bucket: String, pub user_agent: Option, } /// Client used to query a K2V server. pub struct K2vClient { config: K2vClientConfig, user_agent: HeaderValue, client: HttpClient>, } impl K2vClient { /// Create a new K2V client. pub fn new(config: K2vClientConfig) -> Result { let connector = hyper_rustls::HttpsConnectorBuilder::new() .with_native_roots() .https_or_http() .enable_http1() .enable_http2() .build(); let client = HttpClient::builder().build(connector); let user_agent: std::borrow::Cow = match &config.user_agent { Some(ua) => ua.into(), None => format!("k2v/{}", env!("CARGO_PKG_VERSION")).into(), }; let user_agent = HeaderValue::from_str(&user_agent) .map_err(|_| Error::Message("invalid user agent".into()))?; Ok(K2vClient { config, client, user_agent, }) } /// Perform a ReadItem request, reading the value(s) stored for a single pk+sk. pub async fn read_item( &self, partition_key: &str, sort_key: &str, ) -> Result { let url = self.build_url(Some(partition_key), &[("sort_key", sort_key)]); let req = Request::get(url) .header(ACCEPT, "application/octet-stream, application/json") .body(Bytes::new())?; let res = self.dispatch(req, None).await?; let causality = res .causality_token .ok_or_else(|| Error::InvalidResponse("missing causality token".into()))?; if res.status == StatusCode::NO_CONTENT { return Ok(CausalValue { causality, value: vec![K2vValue::Tombstone], }); } match res.content_type.as_deref() { Some("application/octet-stream") => Ok(CausalValue { causality, value: vec![K2vValue::Value(res.body.to_vec())], }), Some("application/json") => { let value = serde_json::from_slice(&res.body)?; Ok(CausalValue { causality, value }) } Some(ct) => Err(Error::InvalidResponse( format!("invalid content type: {}", ct).into(), )), None => Err(Error::InvalidResponse("missing content type".into())), } } /// Perform a PollItem request, waiting for the value(s) stored for a single pk+sk to be /// updated. pub async fn poll_item( &self, partition_key: &str, sort_key: &str, causality: CausalityToken, timeout: Option, ) -> Result, Error> { let timeout = timeout.unwrap_or(DEFAULT_POLL_TIMEOUT); let url = self.build_url( Some(partition_key), &[ ("sort_key", sort_key), ("causality_token", &causality.0), ("timeout", &timeout.as_secs().to_string()), ], ); let req = Request::get(url) .header(ACCEPT, "application/octet-stream, application/json") .body(Bytes::new())?; let res = self.dispatch(req, Some(timeout + DEFAULT_TIMEOUT)).await?; if res.status == StatusCode::NOT_MODIFIED { return Ok(None); } let causality = res .causality_token .ok_or_else(|| Error::InvalidResponse("missing causality token".into()))?; if res.status == StatusCode::NO_CONTENT { return Ok(Some(CausalValue { causality, value: vec![K2vValue::Tombstone], })); } match res.content_type.as_deref() { Some("application/octet-stream") => Ok(Some(CausalValue { causality, value: vec![K2vValue::Value(res.body.to_vec())], })), Some("application/json") => { let value = serde_json::from_slice(&res.body)?; Ok(Some(CausalValue { causality, value })) } Some(ct) => Err(Error::InvalidResponse( format!("invalid content type: {}", ct).into(), )), None => Err(Error::InvalidResponse("missing content type".into())), } } /// Perform a PollRange request, waiting for any change in a given range of keys /// to occur pub async fn poll_range( &self, partition_key: &str, filter: Option>, seen_marker: Option<&str>, timeout: Option, ) -> Result, String)>, Error> { let timeout = timeout.unwrap_or(DEFAULT_POLL_TIMEOUT); let request = PollRangeRequest { filter: filter.unwrap_or_default(), seen_marker, timeout: timeout.as_secs(), }; let url = self.build_url(Some(partition_key), &[("poll_range", "")]); let payload = serde_json::to_vec(&request)?; let req = Request::post(url).body(Bytes::from(payload))?; let res = self.dispatch(req, Some(timeout + DEFAULT_TIMEOUT)).await?; if res.status == StatusCode::NOT_MODIFIED { return Ok(None); } let resp: PollRangeResponse = serde_json::from_slice(&res.body)?; let items = resp .items .into_iter() .map(|BatchReadItem { sk, ct, v }| { ( sk, CausalValue { causality: ct, value: v, }, ) }) .collect::>(); Ok(Some((items, resp.seen_marker))) } /// Perform an InsertItem request, inserting a value for a single pk+sk. pub async fn insert_item( &self, partition_key: &str, sort_key: &str, value: Vec, causality: Option, ) -> Result<(), Error> { let url = self.build_url(Some(partition_key), &[("sort_key", sort_key)]); let mut req = Request::put(url); if let Some(causality) = causality { req = req.header(GARAGE_CAUSALITY_TOKEN, &causality.0); } let req = req.body(Bytes::from(value))?; self.dispatch(req, None).await?; Ok(()) } /// Perform a DeleteItem request, deleting the value(s) stored for a single pk+sk. pub async fn delete_item( &self, partition_key: &str, sort_key: &str, causality: CausalityToken, ) -> Result<(), Error> { let url = self.build_url(Some(partition_key), &[("sort_key", sort_key)]); let req = Request::delete(url) .header(GARAGE_CAUSALITY_TOKEN, &causality.0) .body(Bytes::new())?; self.dispatch(req, None).await?; Ok(()) } /// Perform a ReadIndex request, listing partition key which have at least one associated /// sort key, and which matches the filter. pub async fn read_index( &self, filter: Filter<'_>, ) -> Result, Error> { let params = filter.query_params(); let url = self.build_url(None, ¶ms); let req = Request::get(url).body(Bytes::new())?; let res = self.dispatch(req, None).await?; let resp: ReadIndexResponse = serde_json::from_slice(&res.body)?; let items = resp .partition_keys .into_iter() .map(|ReadIndexItem { pk, info }| (pk, info)) .collect(); Ok(PaginatedRange { items, next_start: resp.next_start, }) } /// Perform an InsertBatch request, inserting multiple values at once. Note: this operation is /// *not* atomic: it is possible for some sub-operations to fails and others to success. In /// that case, failure is reported. pub async fn insert_batch(&self, operations: &[BatchInsertOp<'_>]) -> Result<(), Error> { let url = self.build_url::<&str>(None, &[]); let payload = serde_json::to_vec(operations)?; let req = Request::post(url).body(payload.into())?; self.dispatch(req, None).await?; Ok(()) } /// Perform a ReadBatch request, reading multiple values or range of values at once. pub async fn read_batch( &self, operations: &[BatchReadOp<'_>], ) -> Result>, Error> { let url = self.build_url(None, &[("search", "")]); let payload = serde_json::to_vec(operations)?; let req = Request::post(url).body(payload.into())?; let res = self.dispatch(req, None).await?; let resp: Vec = serde_json::from_slice(&res.body)?; Ok(resp .into_iter() .map(|e| PaginatedRange { items: e .items .into_iter() .map(|BatchReadItem { sk, ct, v }| { ( sk, CausalValue { causality: ct, value: v, }, ) }) .collect(), next_start: e.next_start, }) .collect()) } /// Perform a DeleteBatch request, deleting mutiple values or range of values at once, without /// providing causality information. pub async fn delete_batch(&self, operations: &[BatchDeleteOp<'_>]) -> Result, Error> { let url = self.build_url(None, &[("delete", "")]); let payload = serde_json::to_vec(operations)?; let req = Request::post(url).body(payload.into())?; let res = self.dispatch(req, None).await?; let resp: Vec = serde_json::from_slice(&res.body)?; Ok(resp.into_iter().map(|r| r.deleted_items).collect()) } async fn dispatch( &self, mut req: Request, timeout: Option, ) -> Result { req.headers_mut() .insert(http::header::USER_AGENT, self.user_agent.clone()); use sha2::{Digest, Sha256}; let mut hasher = Sha256::new(); hasher.update(req.body()); let hash = hex::encode(&hasher.finalize()); req.headers_mut() .insert(AMZ_CONTENT_SHA256, hash.try_into().unwrap()); debug!("request uri: {:?}", req.uri()); // Sign request let signing_settings = SigningSettings::default(); let signing_params = SigningParams::builder() .access_key(&self.config.aws_access_key_id) .secret_key(&self.config.aws_secret_access_key) .region(&self.config.region) .service_name(SERVICE) .time(SystemTime::now()) .settings(signing_settings) .build()?; // Convert the HTTP request into a signable request let signable_request = SignableRequest::from(&req); // Sign and then apply the signature to the request let (signing_instructions, _signature) = sign(signable_request, &signing_params)?.into_parts(); signing_instructions.apply_to_request(&mut req); // Send and wait for timeout let res = tokio::select! { res = self.client.request(req.map(Body::from)) => res?, _ = tokio::time::sleep(timeout.unwrap_or(DEFAULT_TIMEOUT)) => { return Err(Error::Timeout); } }; let (mut res, body) = res.into_parts(); let causality_token = match res.headers.remove(GARAGE_CAUSALITY_TOKEN) { Some(v) => Some(CausalityToken(v.to_str()?.to_string())), None => None, }; let content_type = match res.headers.remove(CONTENT_TYPE) { Some(v) => Some(v.to_str()?.to_string()), None => None, }; let body = match res.status { StatusCode::OK => hyper::body::to_bytes(body).await?, StatusCode::NO_CONTENT => Bytes::new(), StatusCode::NOT_FOUND => return Err(Error::NotFound), StatusCode::NOT_MODIFIED => Bytes::new(), s => { let err_body = hyper::body::to_bytes(body).await.unwrap_or_default(); let err_body_str = std::str::from_utf8(&err_body) .map(String::from) .unwrap_or_else(|_| BASE64_STANDARD.encode(&err_body)); if s.is_client_error() || s.is_server_error() { error!("Error response {}: {}", res.status, err_body_str); let err = match serde_json::from_slice::(&err_body) { Ok(err) => Error::Remote( res.status, err.code.into(), err.message.into(), err.path.into(), ), Err(_) => Error::Remote( res.status, "unknown".into(), err_body_str.into(), "?".into(), ), }; return Err(err); } else { let msg = format!( "Unexpected response code {}. Response body: {}", res.status, err_body_str ); error!("{}", msg); return Err(Error::InvalidResponse(msg.into())); } } }; debug!( "Response body: {}", std::str::from_utf8(&body) .map(String::from) .unwrap_or_else(|_| BASE64_STANDARD.encode(&body)) ); Ok(Response { body, status: res.status, causality_token, content_type, }) } fn build_url>(&self, partition_key: Option<&str>, query: &[(&str, V)]) -> String { let mut url = format!("{}/{}", self.config.endpoint, self.config.bucket); if let Some(pk) = partition_key { url.push('/'); url.extend(utf8_percent_encode(pk, &PATH_ENCODE_SET)); } if !query.is_empty() { url.push('?'); for (i, (k, v)) in query.iter().enumerate() { if i > 0 { url.push('&'); } url.extend(utf8_percent_encode(k, &STRICT_ENCODE_SET)); url.push('='); url.extend(utf8_percent_encode(v.as_ref(), &STRICT_ENCODE_SET)); } } url } } /// An opaque token used to convey causality between operations. #[derive(Debug, Clone, PartialEq, Eq, Deserialize, Serialize)] #[serde(transparent)] pub struct CausalityToken(String); impl From for CausalityToken { fn from(v: String) -> Self { CausalityToken(v) } } impl From for String { fn from(v: CausalityToken) -> Self { v.0 } } impl AsRef for CausalityToken { fn as_ref(&self) -> &str { &self.0 } } /// A value in K2V. can be either a binary value, or a tombstone. #[derive(Debug, Clone, PartialEq, Eq)] pub enum K2vValue { Tombstone, Value(Vec), } impl From> for K2vValue { fn from(v: Vec) -> Self { K2vValue::Value(v) } } impl From>> for K2vValue { fn from(v: Option>) -> Self { match v { Some(v) => K2vValue::Value(v), None => K2vValue::Tombstone, } } } impl<'de> Deserialize<'de> for K2vValue { fn deserialize(d: D) -> Result where D: Deserializer<'de>, { let val: Option<&str> = Option::deserialize(d)?; Ok(match val { Some(s) => K2vValue::Value( BASE64_STANDARD .decode(s) .map_err(|_| DeError::custom("invalid base64"))?, ), None => K2vValue::Tombstone, }) } } impl Serialize for K2vValue { fn serialize(&self, serializer: S) -> Result where S: Serializer, { match self { K2vValue::Tombstone => serializer.serialize_none(), K2vValue::Value(v) => { let b64 = BASE64_STANDARD.encode(v); serializer.serialize_str(&b64) } } } } /// A set of K2vValue and associated causality information. #[derive(Debug, Clone, Serialize)] pub struct CausalValue { pub causality: CausalityToken, pub value: Vec, } /// Result of paginated requests. #[derive(Debug, Clone)] pub struct PaginatedRange { pub items: BTreeMap, pub next_start: Option, } /// Filter for batch operations. #[derive(Debug, Default, Clone, Deserialize, Serialize)] pub struct Filter<'a> { pub start: Option<&'a str>, pub end: Option<&'a str>, pub prefix: Option<&'a str>, pub limit: Option, #[serde(default)] pub reverse: bool, } #[derive(Debug, Default, Clone, Serialize)] pub struct PollRangeFilter<'a> { pub start: Option<&'a str>, pub end: Option<&'a str>, pub prefix: Option<&'a str>, } #[derive(Debug, Clone, Serialize)] #[serde(rename_all = "camelCase")] struct PollRangeRequest<'a> { #[serde(flatten)] filter: PollRangeFilter<'a>, seen_marker: Option<&'a str>, timeout: u64, } #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "camelCase")] struct PollRangeResponse { items: Vec, seen_marker: String, } impl<'a> Filter<'a> { fn query_params(&self) -> Vec<(&'static str, std::borrow::Cow)> { let mut res = Vec::<(&'static str, std::borrow::Cow)>::with_capacity(8); if let Some(start) = self.start.as_deref() { res.push(("start", start.into())); } if let Some(end) = self.end.as_deref() { res.push(("end", end.into())); } if let Some(prefix) = self.prefix.as_deref() { res.push(("prefix", prefix.into())); } if let Some(limit) = &self.limit { res.push(("limit", limit.to_string().into())); } if self.reverse { res.push(("reverse", "true".into())); } res } } #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "camelCase")] struct ReadIndexResponse<'a> { #[serde(flatten, borrow)] #[allow(dead_code)] filter: Filter<'a>, partition_keys: Vec, #[allow(dead_code)] more: bool, next_start: Option, } #[derive(Debug, Clone, Deserialize)] struct ReadIndexItem { pk: String, #[serde(flatten)] info: PartitionInfo, } /// Information about data stored with a given partition key. #[derive(Debug, Clone, Deserialize, Serialize)] pub struct PartitionInfo { pub entries: u64, pub conflicts: u64, pub values: u64, pub bytes: u64, } /// Single sub-operation of an InsertBatch. #[derive(Debug, Clone, Serialize)] pub struct BatchInsertOp<'a> { #[serde(rename = "pk")] pub partition_key: &'a str, #[serde(rename = "sk")] pub sort_key: &'a str, #[serde(rename = "ct")] pub causality: Option, #[serde(rename = "v")] pub value: K2vValue, } /// Single sub-operation of a ReadBatch. #[derive(Debug, Default, Clone, Deserialize, Serialize)] #[serde(rename_all = "camelCase")] pub struct BatchReadOp<'a> { pub partition_key: &'a str, #[serde(flatten, borrow)] pub filter: Filter<'a>, #[serde(default)] pub single_item: bool, #[serde(default)] pub conflicts_only: bool, #[serde(default)] pub tombstones: bool, } #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "camelCase")] struct BatchReadResponse<'a> { #[serde(flatten, borrow)] #[allow(dead_code)] op: BatchReadOp<'a>, items: Vec, #[allow(dead_code)] more: bool, next_start: Option, } #[derive(Debug, Clone, Deserialize)] struct BatchReadItem { sk: String, ct: CausalityToken, v: Vec, } /// Single sub-operation of a DeleteBatch #[derive(Debug, Clone, Deserialize, Serialize)] #[serde(rename_all = "camelCase")] pub struct BatchDeleteOp<'a> { pub partition_key: &'a str, pub prefix: Option<&'a str>, pub start: Option<&'a str>, pub end: Option<&'a str>, #[serde(default)] pub single_item: bool, } impl<'a> BatchDeleteOp<'a> { pub fn new(partition_key: &'a str) -> Self { BatchDeleteOp { partition_key, prefix: None, start: None, end: None, single_item: false, } } } #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "camelCase")] struct BatchDeleteResponse<'a> { #[serde(flatten, borrow)] #[allow(dead_code)] filter: BatchDeleteOp<'a>, deleted_items: u64, } #[derive(Deserialize)] struct ErrorResponse { code: String, message: String, #[allow(dead_code)] region: String, path: String, } struct Response { body: Bytes, status: StatusCode, causality_token: Option, content_type: Option, }