diff options
Diffstat (limited to 'src/k2v-client/src/bin/k2v-cli.rs')
-rw-r--r-- | src/k2v-client/src/bin/k2v-cli.rs | 466 |
1 files changed, 466 insertions, 0 deletions
diff --git a/src/k2v-client/src/bin/k2v-cli.rs b/src/k2v-client/src/bin/k2v-cli.rs new file mode 100644 index 00000000..38c39361 --- /dev/null +++ b/src/k2v-client/src/bin/k2v-cli.rs @@ -0,0 +1,466 @@ +use k2v_client::*; + +use garage_util::formater::format_table; + +use rusoto_core::credential::AwsCredentials; +use rusoto_core::Region; + +use clap::{Parser, Subcommand}; + +/// K2V command line interface +#[derive(Parser, Debug)] +#[clap(author, version, about, long_about = None)] +struct Args { + /// Name of the region to use + #[clap(short, long, env = "AWS_REGION", default_value = "garage")] + region: String, + /// Url of the endpoint to connect to + #[clap(short, long, env = "K2V_ENDPOINT")] + endpoint: String, + /// Access key ID + #[clap(short, long, env = "AWS_ACCESS_KEY_ID")] + key_id: String, + /// Access key ID + #[clap(short, long, env = "AWS_SECRET_ACCESS_KEY")] + secret: String, + /// Bucket name + #[clap(short, long, env = "K2V_BUCKET")] + bucket: String, + #[clap(subcommand)] + command: Command, +} + +#[derive(Subcommand, Debug)] +enum Command { + /// Insert a single value + Insert { + /// Partition key to insert to + partition_key: String, + /// Sort key to insert to + sort_key: String, + /// Causality of the insertion + #[clap(short, long)] + causality: Option<String>, + /// Value to insert + #[clap(flatten)] + value: Value, + }, + /// Read a single value + Read { + /// Partition key to read from + partition_key: String, + /// Sort key to read from + sort_key: String, + /// Output formating + #[clap(flatten)] + output_kind: ReadOutputKind, + }, + /// Delete a single value + Delete { + /// Partition key to delete from + partition_key: String, + /// Sort key to delete from + sort_key: String, + /// Causality information + #[clap(short, long)] + causality: String, + }, + /// List partition keys + ReadIndex { + /// Output formating + #[clap(flatten)] + output_kind: BatchOutputKind, + /// Output only partition keys matching this filter + #[clap(flatten)] + filter: Filter, + }, + /// Read a range of sort keys + ReadRange { + /// Partition key to read from + partition_key: String, + /// Output formating + #[clap(flatten)] + output_kind: BatchOutputKind, + /// Output only sort keys matching this filter + #[clap(flatten)] + filter: Filter, + }, + /// Delete a range of sort keys + DeleteRange { + /// Partition key to delete from + partition_key: String, + /// Output formating + #[clap(flatten)] + output_kind: BatchOutputKind, + /// Delete only sort keys matching this filter + #[clap(flatten)] + filter: Filter, + }, +} + +/// Where to read a value from +#[derive(Parser, Debug)] +#[clap(group = clap::ArgGroup::new("value").multiple(false).required(true))] +struct Value { + /// Read value from a file. use - to read from stdin + #[clap(short, long, group = "value")] + file: Option<String>, + /// Read a base64 value from commandline + #[clap(short, long, group = "value")] + b64: Option<String>, + /// Read a raw (UTF-8) value from the commandline + #[clap(short, long, group = "value")] + text: Option<String>, +} + +impl Value { + async fn to_data(&self) -> Result<Vec<u8>, Error> { + if let Some(ref text) = self.text { + Ok(text.as_bytes().to_vec()) + } else if let Some(ref b64) = self.b64 { + base64::decode(b64).map_err(|_| Error::Message("invalid base64 input".into())) + } else if let Some(ref path) = self.file { + use tokio::io::AsyncReadExt; + if path == "-" { + let mut file = tokio::io::stdin(); + let mut vec = Vec::new(); + file.read_to_end(&mut vec).await?; + Ok(vec) + } else { + let mut file = tokio::fs::File::open(path).await?; + let mut vec = Vec::new(); + file.read_to_end(&mut vec).await?; + Ok(vec) + } + } else { + unreachable!("Value must have one option set") + } + } +} + +#[derive(Parser, Debug)] +#[clap(group = clap::ArgGroup::new("output-kind").multiple(false).required(false))] +struct ReadOutputKind { + /// Base64 output. Conflicts are line separated, first line is causality token + #[clap(short, long, group = "output-kind")] + b64: bool, + /// Raw output. Conflicts generate error, causality token is not returned + #[clap(short, long, group = "output-kind")] + raw: bool, + /// Human formated output + #[clap(short = 'H', long, group = "output-kind")] + human: bool, + /// JSON formated output + #[clap(short, long, group = "output-kind")] + json: bool, +} + +impl ReadOutputKind { + fn display_output(&self, val: CausalValue) -> ! { + use std::io::Write; + use std::process::exit; + + if self.json { + let stdout = std::io::stdout(); + serde_json::to_writer_pretty(stdout, &val).unwrap(); + exit(0); + } + + if self.raw { + let mut val = val.value; + if val.len() != 1 { + eprintln!( + "Raw mode can only read non-concurent values, found {} values, expected 1", + val.len() + ); + exit(1); + } + let val = val.pop().unwrap(); + match val { + K2vValue::Value(v) => { + std::io::stdout().write_all(&v).unwrap(); + exit(0); + } + K2vValue::Tombstone => { + eprintln!("Expected value, found tombstone"); + exit(2); + } + } + } + + let causality: String = val.causality.into(); + if self.b64 { + println!("{}", causality); + for val in val.value { + match val { + K2vValue::Value(v) => { + println!("{}", base64::encode(&v)) + } + K2vValue::Tombstone => { + println!(); + } + } + } + exit(0); + } + + // human + println!("causality: {}", causality); + println!("values:"); + for val in val.value { + match val { + K2vValue::Value(v) => { + if let Ok(string) = std::str::from_utf8(&v) { + println!(" utf-8: {}", string); + } else { + println!(" base64: {}", base64::encode(&v)); + } + } + K2vValue::Tombstone => { + println!(" tombstone"); + } + } + } + exit(0); + } +} + +#[derive(Parser, Debug)] +#[clap(group = clap::ArgGroup::new("output-kind").multiple(false).required(false))] +struct BatchOutputKind { + /// Human formated output + #[clap(short = 'H', long, group = "output-kind")] + human: bool, + /// JSON formated output + #[clap(short, long, group = "output-kind")] + json: bool, +} + +/// Filter for batch operations +#[derive(Parser, Debug)] +#[clap(group = clap::ArgGroup::new("filter").multiple(true).required(true))] +struct Filter { + /// Match only keys starting with this prefix + #[clap(short, long, group = "filter")] + prefix: Option<String>, + /// Match only keys lexicographically after this key (including this key itself) + #[clap(short, long, group = "filter")] + start: Option<String>, + /// Match only keys lexicographically before this key (excluding this key) + #[clap(short, long, group = "filter")] + end: Option<String>, + /// Only match the first X keys + #[clap(short, long)] + limit: Option<u64>, + /// Return keys in reverse order + #[clap(short, long)] + reverse: bool, + /// Return only keys where conflict happened + #[clap(short, long)] + conflicts_only: bool, + /// Also include keys storing only tombstones + #[clap(short, long)] + tombstones: bool, + /// Return any key + #[clap(short, long, group = "filter")] + all: bool, +} + +impl Filter { + fn k2v_filter(&self) -> k2v_client::Filter<'_> { + k2v_client::Filter { + start: self.start.as_deref(), + end: self.end.as_deref(), + prefix: self.prefix.as_deref(), + limit: self.limit, + reverse: self.reverse, + } + } +} + +#[tokio::main] +async fn main() -> Result<(), Error> { + let args = Args::parse(); + + let region = Region::Custom { + name: args.region, + endpoint: args.endpoint, + }; + + let creds = AwsCredentials::new(args.key_id, args.secret, None, None); + + let client = K2vClient::new(region, args.bucket, creds, None)?; + + match args.command { + Command::Insert { + partition_key, + sort_key, + causality, + value, + } => { + client + .insert_item( + &partition_key, + &sort_key, + value.to_data().await?, + causality.map(Into::into), + ) + .await?; + } + Command::Delete { + partition_key, + sort_key, + causality, + } => { + client + .delete_item(&partition_key, &sort_key, causality.into()) + .await?; + } + Command::Read { + partition_key, + sort_key, + output_kind, + } => { + let res = client.read_item(&partition_key, &sort_key).await?; + output_kind.display_output(res); + } + Command::ReadIndex { + output_kind, + filter, + } => { + if filter.conflicts_only || filter.tombstones { + return Err(Error::Message( + "conlicts-only and tombstones are invalid for read-index".into(), + )); + } + let res = client.read_index(filter.k2v_filter()).await?; + if output_kind.json { + let values = res + .items + .into_iter() + .map(|(k, v)| { + let mut value = serde_json::to_value(v).unwrap(); + value + .as_object_mut() + .unwrap() + .insert("sort_key".to_owned(), k.into()); + value + }) + .collect::<Vec<_>>(); + let json = serde_json::json!({ + "next_key": res.next_start, + "values": values, + }); + + let stdout = std::io::stdout(); + serde_json::to_writer_pretty(stdout, &json).unwrap(); + } else { + if let Some(next) = res.next_start { + println!("next key: {}", next); + } + + let mut to_print = Vec::new(); + to_print.push(format!("key:\tentries\tconflicts\tvalues\tbytes")); + for (k, v) in res.items { + to_print.push(format!( + "{}\t{}\t{}\t{}\t{}", + k, v.entries, v.conflicts, v.values, v.bytes + )); + } + format_table(to_print); + } + } + Command::ReadRange { + partition_key, + output_kind, + filter, + } => { + let op = BatchReadOp { + partition_key: &partition_key, + filter: filter.k2v_filter(), + conflicts_only: filter.conflicts_only, + tombstones: filter.tombstones, + single_item: false, + }; + let mut res = client.read_batch(&[op]).await?; + let res = res.pop().unwrap(); + if output_kind.json { + let values = res + .items + .into_iter() + .map(|(k, v)| { + let mut value = serde_json::to_value(v).unwrap(); + value + .as_object_mut() + .unwrap() + .insert("sort_key".to_owned(), k.into()); + value + }) + .collect::<Vec<_>>(); + let json = serde_json::json!({ + "next_key": res.next_start, + "values": values, + }); + + let stdout = std::io::stdout(); + serde_json::to_writer_pretty(stdout, &json).unwrap(); + } else { + if let Some(next) = res.next_start { + println!("next key: {}", next); + } + for (key, values) in res.items { + println!("key: {}", key); + let causality: String = values.causality.into(); + println!("causality: {}", causality); + for value in values.value { + match value { + K2vValue::Value(v) => { + if let Ok(string) = std::str::from_utf8(&v) { + println!(" value(utf-8): {}", string); + } else { + println!(" value(base64): {}", base64::encode(&v)); + } + } + K2vValue::Tombstone => { + println!(" tombstone"); + } + } + } + } + } + } + Command::DeleteRange { + partition_key, + output_kind, + filter, + } => { + let op = BatchDeleteOp { + partition_key: &partition_key, + prefix: filter.prefix.as_deref(), + start: filter.start.as_deref(), + end: filter.end.as_deref(), + single_item: false, + }; + if filter.reverse + || filter.conflicts_only + || filter.tombstones + || filter.limit.is_some() + { + return Err(Error::Message( + "limit, conlicts-only, reverse and tombstones are invalid for delete-range" + .into(), + )); + } + + let res = client.delete_batch(&[op]).await?; + + if output_kind.json { + println!("{}", res[0]); + } else { + println!("deleted {} keys", res[0]); + } + } + } + + Ok(()) +} |