use crate::error::WrapMigrationError;
use crate::traits::{
insert_migration_query, verify_migrations, GET_APPLIED_MIGRATIONS_QUERY,
GET_LAST_APPLIED_MIGRATION_QUERY,
};
use crate::{Error, Migration, Report, Target};
use async_trait::async_trait;
use std::string::ToString;
#[async_trait]
pub trait AsyncTransaction {
type Error: std::error::Error + Send + Sync + 'static;
async fn execute<'a, T: Iterator<Item = &'a str> + Send>(
&mut self,
queries: T,
) -> Result<usize, Self::Error>;
}
#[async_trait]
pub trait AsyncQuery<T>: AsyncTransaction {
async fn query(&mut self, query: &str) -> Result<T, Self::Error>;
}
async fn migrate<T: AsyncTransaction>(
transaction: &mut T,
migrations: Vec<Migration>,
target: Target,
migration_table_name: &str,
) -> Result<Report, Error> {
let mut applied_migrations = vec![];
for mut migration in migrations.into_iter() {
if let Target::Version(input_target) = target {
if input_target < migration.version() {
log::info!(
"stopping at migration: {}, due to user option",
input_target
);
break;
}
}
log::info!("applying migration: {}", migration);
migration.set_applied();
let update_query = insert_migration_query(&migration, migration_table_name);
transaction
.execute(
[
migration.sql().as_ref().expect("sql must be Some!"),
update_query.as_str(),
]
.into_iter(),
)
.await
.migration_err(
&format!("error applying migration {migration}"),
Some(&applied_migrations),
)?;
applied_migrations.push(migration);
}
Ok(Report::new(applied_migrations))
}
async fn migrate_grouped<T: AsyncTransaction>(
transaction: &mut T,
migrations: Vec<Migration>,
target: Target,
migration_table_name: &str,
) -> Result<Report, Error> {
let mut grouped_migrations = Vec::new();
let mut applied_migrations = Vec::new();
for mut migration in migrations.into_iter() {
if let Target::Version(input_target) | Target::FakeVersion(input_target) = target {
if input_target < migration.version() {
break;
}
}
migration.set_applied();
let query = insert_migration_query(&migration, migration_table_name);
let sql = migration.sql().expect("sql must be Some!").to_string();
if !matches!(target, Target::Fake | Target::FakeVersion(_)) {
applied_migrations.push(migration);
grouped_migrations.push(sql);
}
grouped_migrations.push(query);
}
match target {
Target::Fake | Target::FakeVersion(_) => {
log::info!("not going to apply any migration as fake flag is enabled");
}
Target::Latest | Target::Version(_) => {
let migrations_display = applied_migrations
.iter()
.map(ToString::to_string)
.collect::<Vec<String>>()
.join("\n");
log::info!(
"going to apply batch migrations in single transaction:\n{migrations_display}"
);
}
};
if let Target::Version(input_target) = target {
log::info!(
"stopping at migration: {}, due to user option",
input_target
);
}
transaction
.execute(grouped_migrations.iter().map(AsRef::as_ref))
.await
.migration_err("error applying migrations", None)?;
Ok(Report::new(applied_migrations))
}
#[async_trait]
pub trait AsyncMigrate: AsyncQuery<Vec<Migration>>
where
Self: Sized,
{
fn assert_migrations_table_query(migration_table_name: &str) -> String {
super::assert_migrations_table_query(migration_table_name)
}
fn get_last_applied_migration_query(migration_table_name: &str) -> String {
GET_LAST_APPLIED_MIGRATION_QUERY.replace("%MIGRATION_TABLE_NAME%", migration_table_name)
}
fn get_applied_migrations_query(migration_table_name: &str) -> String {
GET_APPLIED_MIGRATIONS_QUERY.replace("%MIGRATION_TABLE_NAME%", migration_table_name)
}
async fn get_last_applied_migration(
&mut self,
migration_table_name: &str,
) -> Result<Option<Migration>, Error> {
let mut migrations = self
.query(Self::get_last_applied_migration_query(migration_table_name).as_ref())
.await
.migration_err("error getting last applied migration", None)?;
Ok(migrations.pop())
}
async fn get_applied_migrations(
&mut self,
migration_table_name: &str,
) -> Result<Vec<Migration>, Error> {
let migrations = self
.query(Self::get_applied_migrations_query(migration_table_name).as_ref())
.await
.migration_err("error getting applied migrations", None)?;
Ok(migrations)
}
async fn migrate(
&mut self,
migrations: &[Migration],
abort_divergent: bool,
abort_missing: bool,
grouped: bool,
target: Target,
migration_table_name: &str,
) -> Result<Report, Error> {
self.execute(
[Self::assert_migrations_table_query(migration_table_name).as_ref()].into_iter(),
)
.await
.migration_err("error asserting migrations table", None)?;
let applied_migrations = self
.get_applied_migrations(migration_table_name)
.await
.migration_err("error getting current schema version", None)?;
let migrations = verify_migrations(
applied_migrations,
migrations.to_vec(),
abort_divergent,
abort_missing,
)?;
if migrations.is_empty() {
log::info!("no migrations to apply");
}
if grouped || matches!(target, Target::Fake | Target::FakeVersion(_)) {
migrate_grouped(self, migrations, target, migration_table_name).await
} else {
migrate(self, migrations, target, migration_table_name).await
}
}
}