Line data Source code
1 : use std::pin::pin;
2 : use std::sync::Arc;
3 :
4 : use bytes::Bytes;
5 : use futures::future::select;
6 : use futures::future::try_join;
7 : use futures::future::Either;
8 : use futures::StreamExt;
9 : use futures::TryFutureExt;
10 : use http_body_util::BodyExt;
11 : use http_body_util::Full;
12 : use hyper1::body::Body;
13 : use hyper1::body::Incoming;
14 : use hyper1::header;
15 : use hyper1::http::HeaderName;
16 : use hyper1::http::HeaderValue;
17 : use hyper1::Response;
18 : use hyper1::StatusCode;
19 : use hyper1::{HeaderMap, Request};
20 : use pq_proto::StartupMessageParamsBuilder;
21 : use serde_json::json;
22 : use serde_json::Value;
23 : use tokio::time;
24 : use tokio_postgres::error::DbError;
25 : use tokio_postgres::error::ErrorPosition;
26 : use tokio_postgres::error::SqlState;
27 : use tokio_postgres::GenericClient;
28 : use tokio_postgres::IsolationLevel;
29 : use tokio_postgres::NoTls;
30 : use tokio_postgres::ReadyForQueryStatus;
31 : use tokio_postgres::Transaction;
32 : use tokio_util::sync::CancellationToken;
33 : use tracing::error;
34 : use tracing::info;
35 : use url::Url;
36 : use utils::http::error::ApiError;
37 :
38 : use crate::auth::backend::ComputeUserInfo;
39 : use crate::auth::endpoint_sni;
40 : use crate::auth::ComputeUserInfoParseError;
41 : use crate::config::ProxyConfig;
42 : use crate::config::TlsConfig;
43 : use crate::context::RequestMonitoring;
44 : use crate::error::ErrorKind;
45 : use crate::error::ReportableError;
46 : use crate::error::UserFacingError;
47 : use crate::metrics::HttpDirection;
48 : use crate::metrics::Metrics;
49 : use crate::proxy::run_until_cancelled;
50 : use crate::proxy::NeonOptions;
51 : use crate::serverless::backend::HttpConnError;
52 : use crate::usage_metrics::MetricCounterRecorder;
53 : use crate::DbName;
54 : use crate::RoleName;
55 :
56 : use super::backend::PoolingBackend;
57 : use super::conn_pool::Client;
58 : use super::conn_pool::ConnInfo;
59 : use super::http_util::json_response;
60 : use super::json::json_to_pg_text;
61 : use super::json::pg_text_row_to_json;
62 : use super::json::JsonConversionError;
63 :
64 0 : #[derive(serde::Deserialize)]
65 : #[serde(rename_all = "camelCase")]
66 : struct QueryData {
67 : query: String,
68 : #[serde(deserialize_with = "bytes_to_pg_text")]
69 : params: Vec<Option<String>>,
70 : #[serde(default)]
71 : array_mode: Option<bool>,
72 : }
73 :
74 0 : #[derive(serde::Deserialize)]
75 : struct BatchQueryData {
76 : queries: Vec<QueryData>,
77 : }
78 :
79 : #[derive(serde::Deserialize)]
80 : #[serde(untagged)]
81 : enum Payload {
82 : Single(QueryData),
83 : Batch(BatchQueryData),
84 : }
85 :
86 : const MAX_RESPONSE_SIZE: usize = 10 * 1024 * 1024; // 10 MiB
87 : const MAX_REQUEST_SIZE: u64 = 10 * 1024 * 1024; // 10 MiB
88 :
89 : static RAW_TEXT_OUTPUT: HeaderName = HeaderName::from_static("neon-raw-text-output");
90 : static ARRAY_MODE: HeaderName = HeaderName::from_static("neon-array-mode");
91 : static ALLOW_POOL: HeaderName = HeaderName::from_static("neon-pool-opt-in");
92 : static TXN_ISOLATION_LEVEL: HeaderName = HeaderName::from_static("neon-batch-isolation-level");
93 : static TXN_READ_ONLY: HeaderName = HeaderName::from_static("neon-batch-read-only");
94 : static TXN_DEFERRABLE: HeaderName = HeaderName::from_static("neon-batch-deferrable");
95 :
96 : static HEADER_VALUE_TRUE: HeaderValue = HeaderValue::from_static("true");
97 :
98 0 : fn bytes_to_pg_text<'de, D>(deserializer: D) -> Result<Vec<Option<String>>, D::Error>
99 0 : where
100 0 : D: serde::de::Deserializer<'de>,
101 0 : {
102 : // TODO: consider avoiding the allocation here.
103 0 : let json: Vec<Value> = serde::de::Deserialize::deserialize(deserializer)?;
104 0 : Ok(json_to_pg_text(json))
105 0 : }
106 :
107 0 : #[derive(Debug, thiserror::Error)]
108 : pub enum ConnInfoError {
109 : #[error("invalid header: {0}")]
110 : InvalidHeader(&'static str),
111 : #[error("invalid connection string: {0}")]
112 : UrlParseError(#[from] url::ParseError),
113 : #[error("incorrect scheme")]
114 : IncorrectScheme,
115 : #[error("missing database name")]
116 : MissingDbName,
117 : #[error("invalid database name")]
118 : InvalidDbName,
119 : #[error("missing username")]
120 : MissingUsername,
121 : #[error("invalid username: {0}")]
122 : InvalidUsername(#[from] std::string::FromUtf8Error),
123 : #[error("missing password")]
124 : MissingPassword,
125 : #[error("missing hostname")]
126 : MissingHostname,
127 : #[error("invalid hostname: {0}")]
128 : InvalidEndpoint(#[from] ComputeUserInfoParseError),
129 : #[error("malformed endpoint")]
130 : MalformedEndpoint,
131 : }
132 :
133 : impl ReportableError for ConnInfoError {
134 0 : fn get_error_kind(&self) -> ErrorKind {
135 0 : ErrorKind::User
136 0 : }
137 : }
138 :
139 : impl UserFacingError for ConnInfoError {
140 0 : fn to_string_client(&self) -> String {
141 0 : self.to_string()
142 0 : }
143 : }
144 :
145 0 : fn get_conn_info(
146 0 : ctx: &mut RequestMonitoring,
147 0 : headers: &HeaderMap,
148 0 : tls: &TlsConfig,
149 0 : ) -> Result<ConnInfo, ConnInfoError> {
150 0 : // HTTP only uses cleartext (for now and likely always)
151 0 : ctx.set_auth_method(crate::context::AuthMethod::Cleartext);
152 :
153 0 : let connection_string = headers
154 0 : .get("Neon-Connection-String")
155 0 : .ok_or(ConnInfoError::InvalidHeader("Neon-Connection-String"))?
156 0 : .to_str()
157 0 : .map_err(|_| ConnInfoError::InvalidHeader("Neon-Connection-String"))?;
158 :
159 0 : let connection_url = Url::parse(connection_string)?;
160 :
161 0 : let protocol = connection_url.scheme();
162 0 : if protocol != "postgres" && protocol != "postgresql" {
163 0 : return Err(ConnInfoError::IncorrectScheme);
164 0 : }
165 :
166 0 : let mut url_path = connection_url
167 0 : .path_segments()
168 0 : .ok_or(ConnInfoError::MissingDbName)?;
169 :
170 0 : let dbname: DbName = url_path.next().ok_or(ConnInfoError::InvalidDbName)?.into();
171 0 : ctx.set_dbname(dbname.clone());
172 :
173 0 : let username = RoleName::from(urlencoding::decode(connection_url.username())?);
174 0 : if username.is_empty() {
175 0 : return Err(ConnInfoError::MissingUsername);
176 0 : }
177 0 : ctx.set_user(username.clone());
178 :
179 0 : let password = connection_url
180 0 : .password()
181 0 : .ok_or(ConnInfoError::MissingPassword)?;
182 0 : let password = urlencoding::decode_binary(password.as_bytes());
183 :
184 0 : let hostname = connection_url
185 0 : .host_str()
186 0 : .ok_or(ConnInfoError::MissingHostname)?;
187 :
188 0 : let endpoint =
189 0 : endpoint_sni(hostname, &tls.common_names)?.ok_or(ConnInfoError::MalformedEndpoint)?;
190 0 : ctx.set_endpoint_id(endpoint.clone());
191 0 :
192 0 : let pairs = connection_url.query_pairs();
193 0 :
194 0 : let mut options = Option::None;
195 0 :
196 0 : let mut params = StartupMessageParamsBuilder::default();
197 0 : params.insert("user", &username);
198 0 : params.insert("database", &dbname);
199 0 : for (key, value) in pairs {
200 0 : params.insert(&key, &value);
201 0 : if key == "options" {
202 0 : options = Some(NeonOptions::parse_options_raw(&value));
203 0 : }
204 : }
205 :
206 0 : let user_info = ComputeUserInfo {
207 0 : endpoint,
208 0 : user: username,
209 0 : options: options.unwrap_or_default(),
210 0 : };
211 0 :
212 0 : Ok(ConnInfo {
213 0 : user_info,
214 0 : dbname,
215 0 : password: match password {
216 0 : std::borrow::Cow::Borrowed(b) => b.into(),
217 0 : std::borrow::Cow::Owned(b) => b.into(),
218 : },
219 : })
220 0 : }
221 :
222 : // TODO: return different http error codes
223 0 : pub async fn handle(
224 0 : config: &'static ProxyConfig,
225 0 : mut ctx: RequestMonitoring,
226 0 : request: Request<Incoming>,
227 0 : backend: Arc<PoolingBackend>,
228 0 : cancel: CancellationToken,
229 0 : ) -> Result<Response<Full<Bytes>>, ApiError> {
230 0 : let result = handle_inner(cancel, config, &mut ctx, request, backend).await;
231 :
232 0 : let mut response = match result {
233 0 : Ok(r) => {
234 0 : ctx.set_success();
235 0 : r
236 : }
237 0 : Err(e @ SqlOverHttpError::Cancelled(_)) => {
238 0 : let error_kind = e.get_error_kind();
239 0 : ctx.set_error_kind(error_kind);
240 0 :
241 0 : let message = "Query cancelled, connection was terminated";
242 0 :
243 0 : tracing::info!(
244 0 : kind=error_kind.to_metric_label(),
245 0 : error=%e,
246 0 : msg=message,
247 0 : "forwarding error to user"
248 : );
249 :
250 0 : json_response(
251 0 : StatusCode::BAD_REQUEST,
252 0 : json!({ "message": message, "code": SqlState::PROTOCOL_VIOLATION.code() }),
253 0 : )?
254 : }
255 0 : Err(e) => {
256 0 : let error_kind = e.get_error_kind();
257 0 : ctx.set_error_kind(error_kind);
258 0 :
259 0 : let mut message = e.to_string_client();
260 0 : let db_error = match &e {
261 0 : SqlOverHttpError::ConnectCompute(HttpConnError::ConnectionError(e))
262 0 : | SqlOverHttpError::Postgres(e) => e.as_db_error(),
263 0 : _ => None,
264 : };
265 0 : fn get<'a, T: serde::Serialize>(
266 0 : db: Option<&'a DbError>,
267 0 : x: impl FnOnce(&'a DbError) -> T,
268 0 : ) -> Value {
269 0 : db.map(x)
270 0 : .and_then(|t| serde_json::to_value(t).ok())
271 0 : .unwrap_or_default()
272 0 : }
273 :
274 0 : if let Some(db_error) = db_error {
275 0 : db_error.message().clone_into(&mut message);
276 0 : }
277 :
278 0 : let position = db_error.and_then(|db| db.position());
279 0 : let (position, internal_position, internal_query) = match position {
280 0 : Some(ErrorPosition::Original(position)) => (
281 0 : Value::String(position.to_string()),
282 0 : Value::Null,
283 0 : Value::Null,
284 0 : ),
285 0 : Some(ErrorPosition::Internal { position, query }) => (
286 0 : Value::Null,
287 0 : Value::String(position.to_string()),
288 0 : Value::String(query.clone()),
289 0 : ),
290 0 : None => (Value::Null, Value::Null, Value::Null),
291 : };
292 :
293 0 : let code = get(db_error, |db| db.code().code());
294 0 : let severity = get(db_error, |db| db.severity());
295 0 : let detail = get(db_error, |db| db.detail());
296 0 : let hint = get(db_error, |db| db.hint());
297 0 : let where_ = get(db_error, |db| db.where_());
298 0 : let table = get(db_error, |db| db.table());
299 0 : let column = get(db_error, |db| db.column());
300 0 : let schema = get(db_error, |db| db.schema());
301 0 : let datatype = get(db_error, |db| db.datatype());
302 0 : let constraint = get(db_error, |db| db.constraint());
303 0 : let file = get(db_error, |db| db.file());
304 0 : let line = get(db_error, |db| db.line().map(|l| l.to_string()));
305 0 : let routine = get(db_error, |db| db.routine());
306 0 :
307 0 : tracing::info!(
308 0 : kind=error_kind.to_metric_label(),
309 0 : error=%e,
310 0 : msg=message,
311 0 : "forwarding error to user"
312 : );
313 :
314 : // TODO: this shouldn't always be bad request.
315 0 : json_response(
316 0 : StatusCode::BAD_REQUEST,
317 0 : json!({
318 0 : "message": message,
319 0 : "code": code,
320 0 : "detail": detail,
321 0 : "hint": hint,
322 0 : "position": position,
323 0 : "internalPosition": internal_position,
324 0 : "internalQuery": internal_query,
325 0 : "severity": severity,
326 0 : "where": where_,
327 0 : "table": table,
328 0 : "column": column,
329 0 : "schema": schema,
330 0 : "dataType": datatype,
331 0 : "constraint": constraint,
332 0 : "file": file,
333 0 : "line": line,
334 0 : "routine": routine,
335 0 : }),
336 0 : )?
337 : }
338 : };
339 :
340 0 : response
341 0 : .headers_mut()
342 0 : .insert("Access-Control-Allow-Origin", HeaderValue::from_static("*"));
343 0 : Ok(response)
344 0 : }
345 :
346 0 : #[derive(Debug, thiserror::Error)]
347 : pub enum SqlOverHttpError {
348 : #[error("{0}")]
349 : ReadPayload(#[from] ReadPayloadError),
350 : #[error("{0}")]
351 : ConnectCompute(#[from] HttpConnError),
352 : #[error("{0}")]
353 : ConnInfo(#[from] ConnInfoError),
354 : #[error("request is too large (max is {MAX_REQUEST_SIZE} bytes)")]
355 : RequestTooLarge,
356 : #[error("response is too large (max is {MAX_RESPONSE_SIZE} bytes)")]
357 : ResponseTooLarge,
358 : #[error("invalid isolation level")]
359 : InvalidIsolationLevel,
360 : #[error("{0}")]
361 : Postgres(#[from] tokio_postgres::Error),
362 : #[error("{0}")]
363 : JsonConversion(#[from] JsonConversionError),
364 : #[error("{0}")]
365 : Cancelled(SqlOverHttpCancel),
366 : }
367 :
368 : impl ReportableError for SqlOverHttpError {
369 0 : fn get_error_kind(&self) -> ErrorKind {
370 0 : match self {
371 0 : SqlOverHttpError::ReadPayload(e) => e.get_error_kind(),
372 0 : SqlOverHttpError::ConnectCompute(e) => e.get_error_kind(),
373 0 : SqlOverHttpError::ConnInfo(e) => e.get_error_kind(),
374 0 : SqlOverHttpError::RequestTooLarge => ErrorKind::User,
375 0 : SqlOverHttpError::ResponseTooLarge => ErrorKind::User,
376 0 : SqlOverHttpError::InvalidIsolationLevel => ErrorKind::User,
377 0 : SqlOverHttpError::Postgres(p) => p.get_error_kind(),
378 0 : SqlOverHttpError::JsonConversion(_) => ErrorKind::Postgres,
379 0 : SqlOverHttpError::Cancelled(c) => c.get_error_kind(),
380 : }
381 0 : }
382 : }
383 :
384 : impl UserFacingError for SqlOverHttpError {
385 0 : fn to_string_client(&self) -> String {
386 0 : match self {
387 0 : SqlOverHttpError::ReadPayload(p) => p.to_string(),
388 0 : SqlOverHttpError::ConnectCompute(c) => c.to_string_client(),
389 0 : SqlOverHttpError::ConnInfo(c) => c.to_string_client(),
390 0 : SqlOverHttpError::RequestTooLarge => self.to_string(),
391 0 : SqlOverHttpError::ResponseTooLarge => self.to_string(),
392 0 : SqlOverHttpError::InvalidIsolationLevel => self.to_string(),
393 0 : SqlOverHttpError::Postgres(p) => p.to_string(),
394 0 : SqlOverHttpError::JsonConversion(_) => "could not parse postgres response".to_string(),
395 0 : SqlOverHttpError::Cancelled(_) => self.to_string(),
396 : }
397 0 : }
398 : }
399 :
400 0 : #[derive(Debug, thiserror::Error)]
401 : pub enum ReadPayloadError {
402 : #[error("could not read the HTTP request body: {0}")]
403 : Read(#[from] hyper1::Error),
404 : #[error("could not parse the HTTP request body: {0}")]
405 : Parse(#[from] serde_json::Error),
406 : }
407 :
408 : impl ReportableError for ReadPayloadError {
409 0 : fn get_error_kind(&self) -> ErrorKind {
410 0 : match self {
411 0 : ReadPayloadError::Read(_) => ErrorKind::ClientDisconnect,
412 0 : ReadPayloadError::Parse(_) => ErrorKind::User,
413 : }
414 0 : }
415 : }
416 :
417 0 : #[derive(Debug, thiserror::Error)]
418 : pub enum SqlOverHttpCancel {
419 : #[error("query was cancelled")]
420 : Postgres,
421 : #[error("query was cancelled while stuck trying to connect to the database")]
422 : Connect,
423 : }
424 :
425 : impl ReportableError for SqlOverHttpCancel {
426 0 : fn get_error_kind(&self) -> ErrorKind {
427 0 : match self {
428 0 : SqlOverHttpCancel::Postgres => ErrorKind::ClientDisconnect,
429 0 : SqlOverHttpCancel::Connect => ErrorKind::ClientDisconnect,
430 : }
431 0 : }
432 : }
433 :
434 : #[derive(Clone, Copy, Debug)]
435 : struct HttpHeaders {
436 : raw_output: bool,
437 : default_array_mode: bool,
438 : txn_isolation_level: Option<IsolationLevel>,
439 : txn_read_only: bool,
440 : txn_deferrable: bool,
441 : }
442 :
443 : impl HttpHeaders {
444 0 : fn try_parse(headers: &hyper1::http::HeaderMap) -> Result<Self, SqlOverHttpError> {
445 0 : // Determine the output options. Default behaviour is 'false'. Anything that is not
446 0 : // strictly 'true' assumed to be false.
447 0 : let raw_output = headers.get(&RAW_TEXT_OUTPUT) == Some(&HEADER_VALUE_TRUE);
448 0 : let default_array_mode = headers.get(&ARRAY_MODE) == Some(&HEADER_VALUE_TRUE);
449 :
450 : // isolation level, read only and deferrable
451 0 : let txn_isolation_level = match headers.get(&TXN_ISOLATION_LEVEL) {
452 0 : Some(x) => Some(
453 0 : map_header_to_isolation_level(x).ok_or(SqlOverHttpError::InvalidIsolationLevel)?,
454 : ),
455 0 : None => None,
456 : };
457 :
458 0 : let txn_read_only = headers.get(&TXN_READ_ONLY) == Some(&HEADER_VALUE_TRUE);
459 0 : let txn_deferrable = headers.get(&TXN_DEFERRABLE) == Some(&HEADER_VALUE_TRUE);
460 0 :
461 0 : Ok(Self {
462 0 : raw_output,
463 0 : default_array_mode,
464 0 : txn_isolation_level,
465 0 : txn_read_only,
466 0 : txn_deferrable,
467 0 : })
468 0 : }
469 : }
470 :
471 0 : fn map_header_to_isolation_level(level: &HeaderValue) -> Option<IsolationLevel> {
472 0 : match level.as_bytes() {
473 0 : b"Serializable" => Some(IsolationLevel::Serializable),
474 0 : b"ReadUncommitted" => Some(IsolationLevel::ReadUncommitted),
475 0 : b"ReadCommitted" => Some(IsolationLevel::ReadCommitted),
476 0 : b"RepeatableRead" => Some(IsolationLevel::RepeatableRead),
477 0 : _ => None,
478 : }
479 0 : }
480 :
481 0 : fn map_isolation_level_to_headers(level: IsolationLevel) -> Option<HeaderValue> {
482 0 : match level {
483 0 : IsolationLevel::ReadUncommitted => Some(HeaderValue::from_static("ReadUncommitted")),
484 0 : IsolationLevel::ReadCommitted => Some(HeaderValue::from_static("ReadCommitted")),
485 0 : IsolationLevel::RepeatableRead => Some(HeaderValue::from_static("RepeatableRead")),
486 0 : IsolationLevel::Serializable => Some(HeaderValue::from_static("Serializable")),
487 0 : _ => None,
488 : }
489 0 : }
490 :
491 0 : async fn handle_inner(
492 0 : cancel: CancellationToken,
493 0 : config: &'static ProxyConfig,
494 0 : ctx: &mut RequestMonitoring,
495 0 : request: Request<Incoming>,
496 0 : backend: Arc<PoolingBackend>,
497 0 : ) -> Result<Response<Full<Bytes>>, SqlOverHttpError> {
498 0 : let _requeset_gauge = Metrics::get().proxy.connection_requests.guard(ctx.protocol);
499 0 : info!(
500 : protocol = %ctx.protocol,
501 0 : "handling interactive connection from client"
502 : );
503 :
504 : //
505 : // Determine the destination and connection params
506 : //
507 0 : let headers = request.headers();
508 :
509 : // TLS config should be there.
510 0 : let conn_info = get_conn_info(ctx, headers, config.tls_config.as_ref().unwrap())?;
511 0 : info!(user = conn_info.user_info.user.as_str(), "credentials");
512 :
513 : // Allow connection pooling only if explicitly requested
514 : // or if we have decided that http pool is no longer opt-in
515 0 : let allow_pool = !config.http_config.pool_options.opt_in
516 0 : || headers.get(&ALLOW_POOL) == Some(&HEADER_VALUE_TRUE);
517 :
518 0 : let parsed_headers = HttpHeaders::try_parse(headers)?;
519 :
520 0 : let request_content_length = match request.body().size_hint().upper() {
521 0 : Some(v) => v,
522 0 : None => MAX_REQUEST_SIZE + 1,
523 : };
524 0 : info!(request_content_length, "request size in bytes");
525 0 : Metrics::get()
526 0 : .proxy
527 0 : .http_conn_content_length_bytes
528 0 : .observe(HttpDirection::Request, request_content_length as f64);
529 0 :
530 0 : // we don't have a streaming request support yet so this is to prevent OOM
531 0 : // from a malicious user sending an extremely large request body
532 0 : if request_content_length > MAX_REQUEST_SIZE {
533 0 : return Err(SqlOverHttpError::RequestTooLarge);
534 0 : }
535 0 :
536 0 : let fetch_and_process_request = Box::pin(
537 0 : async {
538 0 : let body = request.into_body().collect().await?.to_bytes();
539 0 : info!(length = body.len(), "request payload read");
540 0 : let payload: Payload = serde_json::from_slice(&body)?;
541 0 : Ok::<Payload, ReadPayloadError>(payload) // Adjust error type accordingly
542 0 : }
543 0 : .map_err(SqlOverHttpError::from),
544 0 : );
545 0 :
546 0 : let authenticate_and_connect = Box::pin(
547 0 : async {
548 0 : let keys = backend
549 0 : .authenticate(ctx, &config.authentication_config, &conn_info)
550 0 : .await?;
551 0 : let client = backend
552 0 : .connect_to_compute(ctx, conn_info, keys, !allow_pool)
553 0 : .await?;
554 : // not strictly necessary to mark success here,
555 : // but it's just insurance for if we forget it somewhere else
556 0 : ctx.latency_timer.success();
557 0 : Ok::<_, HttpConnError>(client)
558 0 : }
559 0 : .map_err(SqlOverHttpError::from),
560 0 : );
561 :
562 0 : let (payload, mut client) = match run_until_cancelled(
563 0 : // Run both operations in parallel
564 0 : try_join(
565 0 : pin!(fetch_and_process_request),
566 0 : pin!(authenticate_and_connect),
567 0 : ),
568 0 : &cancel,
569 0 : )
570 0 : .await
571 : {
572 0 : Some(result) => result?,
573 0 : None => return Err(SqlOverHttpError::Cancelled(SqlOverHttpCancel::Connect)),
574 : };
575 :
576 0 : let mut response = Response::builder()
577 0 : .status(StatusCode::OK)
578 0 : .header(header::CONTENT_TYPE, "application/json");
579 :
580 : //
581 : // Now execute the query and return the result
582 : //
583 0 : let result = match payload {
584 0 : Payload::Single(stmt) => stmt.process(cancel, &mut client, parsed_headers).await?,
585 0 : Payload::Batch(statements) => {
586 0 : if parsed_headers.txn_read_only {
587 0 : response = response.header(TXN_READ_ONLY.clone(), &HEADER_VALUE_TRUE);
588 0 : }
589 0 : if parsed_headers.txn_deferrable {
590 0 : response = response.header(TXN_DEFERRABLE.clone(), &HEADER_VALUE_TRUE);
591 0 : }
592 0 : if let Some(txn_isolation_level) = parsed_headers
593 0 : .txn_isolation_level
594 0 : .and_then(map_isolation_level_to_headers)
595 0 : {
596 0 : response = response.header(TXN_ISOLATION_LEVEL.clone(), txn_isolation_level);
597 0 : }
598 :
599 0 : statements
600 0 : .process(cancel, &mut client, parsed_headers)
601 0 : .await?
602 : }
603 : };
604 :
605 0 : let metrics = client.metrics();
606 0 :
607 0 : // how could this possibly fail
608 0 : let body = serde_json::to_string(&result).expect("json serialization should not fail");
609 0 : let len = body.len();
610 0 : let response = response
611 0 : .body(Full::new(Bytes::from(body)))
612 0 : // only fails if invalid status code or invalid header/values are given.
613 0 : // these are not user configurable so it cannot fail dynamically
614 0 : .expect("building response payload should not fail");
615 0 :
616 0 : // count the egress bytes - we miss the TLS and header overhead but oh well...
617 0 : // moving this later in the stack is going to be a lot of effort and ehhhh
618 0 : metrics.record_egress(len as u64);
619 0 : Metrics::get()
620 0 : .proxy
621 0 : .http_conn_content_length_bytes
622 0 : .observe(HttpDirection::Response, len as f64);
623 0 :
624 0 : Ok(response)
625 0 : }
626 :
627 : impl QueryData {
628 0 : async fn process(
629 0 : self,
630 0 : cancel: CancellationToken,
631 0 : client: &mut Client<tokio_postgres::Client>,
632 0 : parsed_headers: HttpHeaders,
633 0 : ) -> Result<Value, SqlOverHttpError> {
634 0 : let (inner, mut discard) = client.inner();
635 0 : let cancel_token = inner.cancel_token();
636 :
637 0 : let res = match select(
638 0 : pin!(query_to_json(&*inner, self, &mut 0, parsed_headers)),
639 0 : pin!(cancel.cancelled()),
640 0 : )
641 0 : .await
642 : {
643 : // The query successfully completed.
644 0 : Either::Left((Ok((status, results)), __not_yet_cancelled)) => {
645 0 : discard.check_idle(status);
646 0 : Ok(results)
647 : }
648 : // The query failed with an error
649 0 : Either::Left((Err(e), __not_yet_cancelled)) => {
650 0 : discard.discard();
651 0 : return Err(e);
652 : }
653 : // The query was cancelled.
654 0 : Either::Right((_cancelled, query)) => {
655 0 : tracing::info!("cancelling query");
656 0 : if let Err(err) = cancel_token.cancel_query(NoTls).await {
657 0 : tracing::error!(?err, "could not cancel query");
658 0 : }
659 : // wait for the query cancellation
660 0 : match time::timeout(time::Duration::from_millis(100), query).await {
661 : // query successed before it was cancelled.
662 0 : Ok(Ok((status, results))) => {
663 0 : discard.check_idle(status);
664 0 : Ok(results)
665 : }
666 : // query failed or was cancelled.
667 0 : Ok(Err(error)) => {
668 0 : let db_error = match &error {
669 0 : SqlOverHttpError::ConnectCompute(HttpConnError::ConnectionError(e))
670 0 : | SqlOverHttpError::Postgres(e) => e.as_db_error(),
671 0 : _ => None,
672 : };
673 :
674 : // if errored for some other reason, it might not be safe to return
675 0 : if !db_error.is_some_and(|e| *e.code() == SqlState::QUERY_CANCELED) {
676 0 : discard.discard();
677 0 : }
678 :
679 0 : Err(SqlOverHttpError::Cancelled(SqlOverHttpCancel::Postgres))
680 : }
681 0 : Err(_timeout) => {
682 0 : discard.discard();
683 0 : Err(SqlOverHttpError::Cancelled(SqlOverHttpCancel::Postgres))
684 : }
685 : }
686 : }
687 : };
688 0 : res
689 0 : }
690 : }
691 :
692 : impl BatchQueryData {
693 0 : async fn process(
694 0 : self,
695 0 : cancel: CancellationToken,
696 0 : client: &mut Client<tokio_postgres::Client>,
697 0 : parsed_headers: HttpHeaders,
698 0 : ) -> Result<Value, SqlOverHttpError> {
699 0 : info!("starting transaction");
700 0 : let (inner, mut discard) = client.inner();
701 0 : let cancel_token = inner.cancel_token();
702 0 : let mut builder = inner.build_transaction();
703 0 : if let Some(isolation_level) = parsed_headers.txn_isolation_level {
704 0 : builder = builder.isolation_level(isolation_level);
705 0 : }
706 0 : if parsed_headers.txn_read_only {
707 0 : builder = builder.read_only(true);
708 0 : }
709 0 : if parsed_headers.txn_deferrable {
710 0 : builder = builder.deferrable(true);
711 0 : }
712 :
713 0 : let transaction = builder.start().await.map_err(|e| {
714 0 : // if we cannot start a transaction, we should return immediately
715 0 : // and not return to the pool. connection is clearly broken
716 0 : discard.discard();
717 0 : e
718 0 : })?;
719 :
720 0 : let results =
721 0 : match query_batch(cancel.child_token(), &transaction, self, parsed_headers).await {
722 0 : Ok(results) => {
723 0 : info!("commit");
724 0 : let status = transaction.commit().await.map_err(|e| {
725 0 : // if we cannot commit - for now don't return connection to pool
726 0 : // TODO: get a query status from the error
727 0 : discard.discard();
728 0 : e
729 0 : })?;
730 0 : discard.check_idle(status);
731 0 : results
732 : }
733 : Err(SqlOverHttpError::Cancelled(_)) => {
734 0 : if let Err(err) = cancel_token.cancel_query(NoTls).await {
735 0 : tracing::error!(?err, "could not cancel query");
736 0 : }
737 : // TODO: after cancelling, wait to see if we can get a status. maybe the connection is still safe.
738 0 : discard.discard();
739 0 :
740 0 : return Err(SqlOverHttpError::Cancelled(SqlOverHttpCancel::Postgres));
741 : }
742 0 : Err(err) => {
743 0 : info!("rollback");
744 0 : let status = transaction.rollback().await.map_err(|e| {
745 0 : // if we cannot rollback - for now don't return connection to pool
746 0 : // TODO: get a query status from the error
747 0 : discard.discard();
748 0 : e
749 0 : })?;
750 0 : discard.check_idle(status);
751 0 : return Err(err);
752 : }
753 : };
754 :
755 0 : Ok(json!({ "results": results }))
756 0 : }
757 : }
758 :
759 0 : async fn query_batch(
760 0 : cancel: CancellationToken,
761 0 : transaction: &Transaction<'_>,
762 0 : queries: BatchQueryData,
763 0 : parsed_headers: HttpHeaders,
764 0 : ) -> Result<Vec<Value>, SqlOverHttpError> {
765 0 : let mut results = Vec::with_capacity(queries.queries.len());
766 0 : let mut current_size = 0;
767 0 : for stmt in queries.queries {
768 0 : let query = pin!(query_to_json(
769 0 : transaction,
770 0 : stmt,
771 0 : &mut current_size,
772 0 : parsed_headers,
773 0 : ));
774 0 : let cancelled = pin!(cancel.cancelled());
775 0 : let res = select(query, cancelled).await;
776 0 : match res {
777 : // TODO: maybe we should check that the transaction bit is set here
778 0 : Either::Left((Ok((_, values)), _cancelled)) => {
779 0 : results.push(values);
780 0 : }
781 0 : Either::Left((Err(e), _cancelled)) => {
782 0 : return Err(e);
783 : }
784 0 : Either::Right((_cancelled, _)) => {
785 0 : return Err(SqlOverHttpError::Cancelled(SqlOverHttpCancel::Postgres));
786 : }
787 : }
788 : }
789 0 : Ok(results)
790 0 : }
791 :
792 0 : async fn query_to_json<T: GenericClient>(
793 0 : client: &T,
794 0 : data: QueryData,
795 0 : current_size: &mut usize,
796 0 : parsed_headers: HttpHeaders,
797 0 : ) -> Result<(ReadyForQueryStatus, Value), SqlOverHttpError> {
798 0 : info!("executing query");
799 0 : let query_params = data.params;
800 0 : let mut row_stream = std::pin::pin!(client.query_raw_txt(&data.query, query_params).await?);
801 0 : info!("finished executing query");
802 :
803 : // Manually drain the stream into a vector to leave row_stream hanging
804 : // around to get a command tag. Also check that the response is not too
805 : // big.
806 0 : let mut rows: Vec<tokio_postgres::Row> = Vec::new();
807 0 : while let Some(row) = row_stream.next().await {
808 0 : let row = row?;
809 0 : *current_size += row.body_len();
810 0 : rows.push(row);
811 0 : // we don't have a streaming response support yet so this is to prevent OOM
812 0 : // from a malicious query (eg a cross join)
813 0 : if *current_size > MAX_RESPONSE_SIZE {
814 0 : return Err(SqlOverHttpError::ResponseTooLarge);
815 0 : }
816 : }
817 :
818 0 : let ready = row_stream.ready_status();
819 0 :
820 0 : // grab the command tag and number of rows affected
821 0 : let command_tag = row_stream.command_tag().unwrap_or_default();
822 0 : let mut command_tag_split = command_tag.split(' ');
823 0 : let command_tag_name = command_tag_split.next().unwrap_or_default();
824 0 : let command_tag_count = if command_tag_name == "INSERT" {
825 : // INSERT returns OID first and then number of rows
826 0 : command_tag_split.nth(1)
827 : } else {
828 : // other commands return number of rows (if any)
829 0 : command_tag_split.next()
830 : }
831 0 : .and_then(|s| s.parse::<i64>().ok());
832 0 :
833 0 : info!(
834 0 : rows = rows.len(),
835 0 : ?ready,
836 0 : command_tag,
837 0 : "finished reading rows"
838 : );
839 :
840 0 : let mut fields = vec![];
841 0 : let mut columns = vec![];
842 :
843 0 : for c in row_stream.columns() {
844 0 : fields.push(json!({
845 0 : "name": Value::String(c.name().to_owned()),
846 0 : "dataTypeID": Value::Number(c.type_().oid().into()),
847 0 : "tableID": c.table_oid(),
848 0 : "columnID": c.column_id(),
849 0 : "dataTypeSize": c.type_size(),
850 0 : "dataTypeModifier": c.type_modifier(),
851 0 : "format": "text",
852 0 : }));
853 0 : columns.push(client.get_type(c.type_oid()).await?);
854 : }
855 :
856 0 : let array_mode = data.array_mode.unwrap_or(parsed_headers.default_array_mode);
857 :
858 : // convert rows to JSON
859 0 : let rows = rows
860 0 : .iter()
861 0 : .map(|row| pg_text_row_to_json(row, &columns, parsed_headers.raw_output, array_mode))
862 0 : .collect::<Result<Vec<_>, _>>()?;
863 :
864 : // resulting JSON format is based on the format of node-postgres result
865 0 : Ok((
866 0 : ready,
867 0 : json!({
868 0 : "command": command_tag_name,
869 0 : "rowCount": command_tag_count,
870 0 : "rows": rows,
871 0 : "fields": fields,
872 0 : "rowAsArray": array_mode,
873 0 : }),
874 0 : ))
875 0 : }
|