480 lines
14 KiB
Rust
480 lines
14 KiB
Rust
use std::ops::Range;
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use async_trait::async_trait;
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use atuin_common::record::{EncryptedData, HostId, Record, RecordId, RecordIndex};
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use atuin_server_database::models::{History, NewHistory, NewSession, NewUser, Session, User};
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use atuin_server_database::{Database, DbError, DbResult};
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use futures_util::TryStreamExt;
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use serde::{Deserialize, Serialize};
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use sqlx::postgres::PgPoolOptions;
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use sqlx::Row;
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use time::{OffsetDateTime, PrimitiveDateTime, UtcOffset};
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use tracing::instrument;
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use wrappers::{DbHistory, DbRecord, DbSession, DbUser};
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mod wrappers;
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#[derive(Clone)]
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pub struct Postgres {
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pool: sqlx::Pool<sqlx::postgres::Postgres>,
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}
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#[derive(Clone, Debug, Deserialize, Serialize)]
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pub struct PostgresSettings {
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pub db_uri: String,
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}
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fn fix_error(error: sqlx::Error) -> DbError {
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match error {
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sqlx::Error::RowNotFound => DbError::NotFound,
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error => DbError::Other(error.into()),
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}
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}
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#[async_trait]
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impl Database for Postgres {
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type Settings = PostgresSettings;
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async fn new(settings: &PostgresSettings) -> DbResult<Self> {
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let pool = PgPoolOptions::new()
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.max_connections(100)
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.connect(settings.db_uri.as_str())
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.await
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.map_err(fix_error)?;
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sqlx::migrate!("./migrations")
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.run(&pool)
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.await
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.map_err(|error| DbError::Other(error.into()))?;
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Ok(Self { pool })
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}
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#[instrument(skip_all)]
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async fn get_session(&self, token: &str) -> DbResult<Session> {
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sqlx::query_as("select id, user_id, token from sessions where token = $1")
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.bind(token)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)
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.map(|DbSession(session)| session)
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}
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#[instrument(skip_all)]
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async fn get_user(&self, username: &str) -> DbResult<User> {
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sqlx::query_as("select id, username, email, password from users where username = $1")
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.bind(username)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)
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.map(|DbUser(user)| user)
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}
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#[instrument(skip_all)]
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async fn get_session_user(&self, token: &str) -> DbResult<User> {
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sqlx::query_as(
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"select users.id, users.username, users.email, users.password from users
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inner join sessions
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on users.id = sessions.user_id
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and sessions.token = $1",
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)
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.bind(token)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)
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.map(|DbUser(user)| user)
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}
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#[instrument(skip_all)]
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async fn count_history(&self, user: &User) -> DbResult<i64> {
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// The cache is new, and the user might not yet have a cache value.
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// They will have one as soon as they post up some new history, but handle that
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// edge case.
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let res: (i64,) = sqlx::query_as(
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"select count(1) from history
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where user_id = $1",
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)
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.bind(user.id)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(res.0)
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}
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#[instrument(skip_all)]
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async fn total_history(&self) -> DbResult<i64> {
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// The cache is new, and the user might not yet have a cache value.
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// They will have one as soon as they post up some new history, but handle that
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// edge case.
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let res: (i64,) = sqlx::query_as("select sum(total) from total_history_count_user")
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.fetch_optional(&self.pool)
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.await
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.map_err(fix_error)?
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.unwrap_or((0,));
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Ok(res.0)
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}
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#[instrument(skip_all)]
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async fn count_history_cached(&self, user: &User) -> DbResult<i64> {
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let res: (i32,) = sqlx::query_as(
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"select total from total_history_count_user
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where user_id = $1",
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)
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.bind(user.id)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(res.0 as i64)
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}
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async fn delete_history(&self, user: &User, id: String) -> DbResult<()> {
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sqlx::query(
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"update history
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set deleted_at = $3
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where user_id = $1
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and client_id = $2
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and deleted_at is null", // don't just keep setting it
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)
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.bind(user.id)
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.bind(id)
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.bind(OffsetDateTime::now_utc())
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.fetch_all(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(())
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}
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#[instrument(skip_all)]
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async fn deleted_history(&self, user: &User) -> DbResult<Vec<String>> {
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// The cache is new, and the user might not yet have a cache value.
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// They will have one as soon as they post up some new history, but handle that
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// edge case.
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let res = sqlx::query(
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"select client_id from history
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where user_id = $1
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and deleted_at is not null",
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)
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.bind(user.id)
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.fetch_all(&self.pool)
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.await
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.map_err(fix_error)?;
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let res = res
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.iter()
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.map(|row| row.get::<String, _>("client_id"))
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.collect();
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Ok(res)
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}
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#[instrument(skip_all)]
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async fn count_history_range(
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&self,
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user: &User,
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range: Range<OffsetDateTime>,
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) -> DbResult<i64> {
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let res: (i64,) = sqlx::query_as(
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"select count(1) from history
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where user_id = $1
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and timestamp >= $2::date
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and timestamp < $3::date",
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)
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.bind(user.id)
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.bind(into_utc(range.start))
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.bind(into_utc(range.end))
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(res.0)
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}
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#[instrument(skip_all)]
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async fn list_history(
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&self,
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user: &User,
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created_after: OffsetDateTime,
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since: OffsetDateTime,
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host: &str,
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page_size: i64,
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) -> DbResult<Vec<History>> {
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let res = sqlx::query_as(
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"select id, client_id, user_id, hostname, timestamp, data, created_at from history
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where user_id = $1
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and hostname != $2
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and created_at >= $3
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and timestamp >= $4
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order by timestamp asc
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limit $5",
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)
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.bind(user.id)
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.bind(host)
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.bind(into_utc(created_after))
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.bind(into_utc(since))
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.bind(page_size)
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.fetch(&self.pool)
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.map_ok(|DbHistory(h)| h)
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.try_collect()
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.await
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.map_err(fix_error)?;
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Ok(res)
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}
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#[instrument(skip_all)]
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async fn add_history(&self, history: &[NewHistory]) -> DbResult<()> {
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let mut tx = self.pool.begin().await.map_err(fix_error)?;
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for i in history {
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let client_id: &str = &i.client_id;
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let hostname: &str = &i.hostname;
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let data: &str = &i.data;
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sqlx::query(
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"insert into history
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(client_id, user_id, hostname, timestamp, data)
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values ($1, $2, $3, $4, $5)
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on conflict do nothing
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",
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)
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.bind(client_id)
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.bind(i.user_id)
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.bind(hostname)
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.bind(i.timestamp)
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.bind(data)
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.execute(&mut *tx)
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.await
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.map_err(fix_error)?;
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}
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tx.commit().await.map_err(fix_error)?;
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Ok(())
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}
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#[instrument(skip_all)]
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async fn delete_user(&self, u: &User) -> DbResult<()> {
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sqlx::query("delete from sessions where user_id = $1")
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.bind(u.id)
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.execute(&self.pool)
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.await
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.map_err(fix_error)?;
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sqlx::query("delete from users where id = $1")
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.bind(u.id)
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.execute(&self.pool)
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.await
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.map_err(fix_error)?;
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sqlx::query("delete from history where user_id = $1")
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.bind(u.id)
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.execute(&self.pool)
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.await
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.map_err(fix_error)?;
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sqlx::query("delete from total_history_count_user where user_id = $1")
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.bind(u.id)
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.execute(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(())
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}
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#[instrument(skip_all)]
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async fn add_user(&self, user: &NewUser) -> DbResult<i64> {
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let email: &str = &user.email;
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let username: &str = &user.username;
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let password: &str = &user.password;
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let res: (i64,) = sqlx::query_as(
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"insert into users
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(username, email, password)
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values($1, $2, $3)
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returning id",
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)
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.bind(username)
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.bind(email)
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.bind(password)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(res.0)
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}
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#[instrument(skip_all)]
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async fn add_session(&self, session: &NewSession) -> DbResult<()> {
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let token: &str = &session.token;
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sqlx::query(
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"insert into sessions
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(user_id, token)
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values($1, $2)",
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)
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.bind(session.user_id)
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.bind(token)
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.execute(&self.pool)
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.await
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.map_err(fix_error)?;
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Ok(())
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}
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#[instrument(skip_all)]
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async fn get_user_session(&self, u: &User) -> DbResult<Session> {
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sqlx::query_as("select id, user_id, token from sessions where user_id = $1")
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.bind(u.id)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)
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.map(|DbSession(session)| session)
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}
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#[instrument(skip_all)]
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async fn oldest_history(&self, user: &User) -> DbResult<History> {
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sqlx::query_as(
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"select id, client_id, user_id, hostname, timestamp, data, created_at from history
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where user_id = $1
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order by timestamp asc
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limit 1",
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)
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.bind(user.id)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error)
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.map(|DbHistory(h)| h)
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}
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#[instrument(skip_all)]
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async fn add_records(&self, user: &User, records: &[Record<EncryptedData>]) -> DbResult<()> {
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let mut tx = self.pool.begin().await.map_err(fix_error)?;
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for i in records {
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let id = atuin_common::utils::uuid_v7();
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sqlx::query(
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"insert into records
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(id, client_id, host, parent, timestamp, version, tag, data, cek, user_id)
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values ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10)
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on conflict do nothing
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",
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)
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.bind(id)
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.bind(i.id)
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.bind(i.host)
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.bind(i.parent)
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.bind(i.timestamp as i64) // throwing away some data, but i64 is still big in terms of time
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.bind(&i.version)
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.bind(&i.tag)
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.bind(&i.data.data)
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.bind(&i.data.content_encryption_key)
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.bind(user.id)
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.execute(&mut *tx)
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.await
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.map_err(fix_error)?;
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}
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tx.commit().await.map_err(fix_error)?;
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Ok(())
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}
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#[instrument(skip_all)]
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async fn next_records(
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&self,
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user: &User,
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host: HostId,
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tag: String,
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start: Option<RecordId>,
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count: u64,
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) -> DbResult<Vec<Record<EncryptedData>>> {
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tracing::debug!("{:?} - {:?} - {:?}", host, tag, start);
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let mut ret = Vec::with_capacity(count as usize);
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let mut parent = start;
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// yeah let's do something better
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for _ in 0..count {
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// a very much not ideal query. but it's simple at least?
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// we are basically using postgres as a kv store here, so... maybe consider using an actual
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// kv store?
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let record: Result<DbRecord, DbError> = sqlx::query_as(
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"select client_id, host, parent, timestamp, version, tag, data, cek from records
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where user_id = $1
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and tag = $2
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and host = $3
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and parent is not distinct from $4",
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)
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.bind(user.id)
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.bind(tag.clone())
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.bind(host)
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.bind(parent)
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.fetch_one(&self.pool)
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.await
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.map_err(fix_error);
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match record {
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Ok(record) => {
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let record: Record<EncryptedData> = record.into();
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ret.push(record.clone());
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parent = Some(record.id);
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}
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Err(DbError::NotFound) => {
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tracing::debug!("hit tail of store: {:?}/{}", host, tag);
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return Ok(ret);
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}
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Err(e) => return Err(e),
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}
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}
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Ok(ret)
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}
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async fn tail_records(&self, user: &User) -> DbResult<RecordIndex> {
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const TAIL_RECORDS_SQL: &str = "select host, tag, client_id from records rp where (select count(1) from records where parent=rp.client_id and user_id = $1) = 0 and user_id = $1;";
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let res = sqlx::query_as(TAIL_RECORDS_SQL)
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.bind(user.id)
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.fetch(&self.pool)
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.try_collect()
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.await
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.map_err(fix_error)?;
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Ok(res)
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}
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}
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|
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fn into_utc(x: OffsetDateTime) -> PrimitiveDateTime {
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let x = x.to_offset(UtcOffset::UTC);
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PrimitiveDateTime::new(x.date(), x.time())
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}
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#[cfg(test)]
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mod tests {
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use time::macros::datetime;
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use crate::into_utc;
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#[test]
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fn utc() {
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let dt = datetime!(2023-09-26 15:11:02 +05:30);
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assert_eq!(into_utc(dt), datetime!(2023-09-26 09:41:02));
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assert_eq!(into_utc(dt).assume_utc(), dt);
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let dt = datetime!(2023-09-26 15:11:02 -07:00);
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assert_eq!(into_utc(dt), datetime!(2023-09-26 22:11:02));
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assert_eq!(into_utc(dt).assume_utc(), dt);
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let dt = datetime!(2023-09-26 15:11:02 +00:00);
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assert_eq!(into_utc(dt), datetime!(2023-09-26 15:11:02));
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assert_eq!(into_utc(dt).assume_utc(), dt);
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}
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}
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