mirror of
https://git.deuxfleurs.fr/Deuxfleurs/garage.git
synced 2024-12-22 23:26:35 +00:00
Use bytes as capacity units
This commit is contained in:
parent
fd5bc142b5
commit
73a4ca8b15
6 changed files with 67 additions and 53 deletions
1
Cargo.lock
generated
1
Cargo.lock
generated
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@ -1215,6 +1215,7 @@ dependencies = [
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"arc-swap",
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"async-trait",
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"bytes",
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"bytesize",
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"err-derive",
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"futures",
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"futures-util",
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@ -1,3 +1,5 @@
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use bytesize::ByteSize;
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use garage_util::crdt::Crdt;
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use garage_util::error::*;
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use garage_util::formater::format_table;
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@ -86,7 +88,7 @@ pub async fn cmd_assign_role(
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return Err(Error::Message(
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"-c and -g are mutually exclusive, please configure node either with c>0 to act as a storage node or with -g to act as a gateway node".into()));
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}
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if args.capacity == Some(0) {
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if args.capacity == Some(ByteSize::b(0)) {
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return Err(Error::Message("Invalid capacity value: 0".into()));
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}
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@ -94,7 +96,7 @@ pub async fn cmd_assign_role(
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let new_entry = match roles.get(&added_node) {
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Some(NodeRoleV(Some(old))) => {
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let capacity = match args.capacity {
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Some(c) => Some(c),
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Some(c) => Some(c.as_u64()),
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None if args.gateway => None,
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None => old.capacity,
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};
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@ -111,7 +113,7 @@ pub async fn cmd_assign_role(
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}
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_ => {
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let capacity = match args.capacity {
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Some(c) => Some(c),
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Some(c) => Some(c.as_u64()),
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None if args.gateway => None,
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None => return Err(Error::Message(
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"Please specify a capacity with the -c flag, or set node explicitly as gateway with -g".into())),
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@ -265,6 +267,7 @@ pub async fn cmd_config_layout(
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) -> Result<(), Error> {
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let mut layout = fetch_layout(rpc_cli, rpc_host).await?;
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let mut did_something = false;
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match config_opt.redundancy {
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None => (),
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Some(r) => {
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@ -282,9 +285,16 @@ pub async fn cmd_config_layout(
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.update(LayoutParameters { zone_redundancy: r });
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println!("The new zone redundancy has been saved ({}).", r);
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}
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did_something = true;
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}
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}
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if !did_something {
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return Err(Error::Message(
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"Please specify an action for `garage layout config` to do".into(),
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));
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}
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send_layout(rpc_cli, rpc_host, layout).await?;
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Ok(())
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}
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@ -335,7 +345,7 @@ pub fn print_cluster_layout(layout: &ClusterLayout) -> bool {
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tags,
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role.zone,
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role.capacity_string(),
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usage as u32 * layout.partition_size,
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ByteSize::b(usage as u64 * layout.partition_size).to_string_as(false),
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(100.0 * usage as f32 * layout.partition_size as f32) / (capacity as f32)
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));
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}
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@ -114,9 +114,9 @@ pub struct AssignRoleOpt {
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#[structopt(short = "z", long = "zone")]
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pub(crate) zone: Option<String>,
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/// Capacity (in relative terms)
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/// Storage capacity, in bytes (supported suffixes: B, KB, MB, GB, TB, PB)
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#[structopt(short = "c", long = "capacity")]
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pub(crate) capacity: Option<u32>,
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pub(crate) capacity: Option<bytesize::ByteSize>,
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/// Gateway-only node
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#[structopt(short = "g", long = "gateway")]
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@ -18,6 +18,7 @@ garage_util = { version = "0.8.0", path = "../util" }
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arc-swap = "1.0"
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bytes = "1.0"
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bytesize = "1.1"
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gethostname = "0.2"
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hex = "0.4"
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tracing = "0.1.30"
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@ -23,8 +23,8 @@ pub enum Vertex {
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/// Edge data structure for the flow algorithm.
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#[derive(Clone, Copy, Debug)]
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pub struct FlowEdge {
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cap: u32, // flow maximal capacity of the edge
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flow: i32, // flow value on the edge
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cap: u64, // flow maximal capacity of the edge
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flow: i64, // flow value on the edge
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dest: usize, // destination vertex id
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rev: usize, // index of the reversed edge (v, self) in the edge list of vertex v
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}
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@ -32,7 +32,7 @@ pub struct FlowEdge {
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/// Edge data structure for the detection of negative cycles.
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#[derive(Clone, Copy, Debug)]
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pub struct WeightedEdge {
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w: i32, // weight of the edge
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w: i64, // weight of the edge
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dest: usize,
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}
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@ -51,7 +51,7 @@ pub struct Graph<E: Edge> {
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graph: Vec<Vec<E>>,
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}
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pub type CostFunction = HashMap<(Vertex, Vertex), i32>;
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pub type CostFunction = HashMap<(Vertex, Vertex), i64>;
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impl<E: Edge> Graph<E> {
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pub fn new(vertices: &[Vertex]) -> Self {
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@ -77,7 +77,7 @@ impl<E: Edge> Graph<E> {
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impl Graph<FlowEdge> {
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/// This function adds a directed edge to the graph with capacity c, and the
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/// corresponding reversed edge with capacity 0.
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pub fn add_edge(&mut self, u: Vertex, v: Vertex, c: u32) -> Result<(), String> {
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pub fn add_edge(&mut self, u: Vertex, v: Vertex, c: u64) -> Result<(), String> {
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let idu = self.get_vertex_id(&u)?;
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let idv = self.get_vertex_id(&v)?;
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if idu == idv {
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@ -115,7 +115,7 @@ impl Graph<FlowEdge> {
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}
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/// This function returns the value of the flow incoming to v.
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pub fn get_inflow(&self, v: Vertex) -> Result<i32, String> {
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pub fn get_inflow(&self, v: Vertex) -> Result<i64, String> {
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let idv = self.get_vertex_id(&v)?;
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let mut result = 0;
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for edge in self.graph[idv].iter() {
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@ -125,7 +125,7 @@ impl Graph<FlowEdge> {
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}
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/// This function returns the value of the flow outgoing from v.
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pub fn get_outflow(&self, v: Vertex) -> Result<i32, String> {
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pub fn get_outflow(&self, v: Vertex) -> Result<i64, String> {
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let idv = self.get_vertex_id(&v)?;
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let mut result = 0;
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for edge in self.graph[idv].iter() {
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@ -136,7 +136,7 @@ impl Graph<FlowEdge> {
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/// This function computes the flow total value by computing the outgoing flow
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/// from the source.
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pub fn get_flow_value(&mut self) -> Result<i32, String> {
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pub fn get_flow_value(&mut self) -> Result<i64, String> {
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self.get_outflow(Vertex::Source)
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}
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@ -156,7 +156,7 @@ impl Graph<FlowEdge> {
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}
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/// Computes an upper bound of the flow on the graph
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pub fn flow_upper_bound(&self) -> Result<u32, String> {
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pub fn flow_upper_bound(&self) -> Result<u64, String> {
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let idsource = self.get_vertex_id(&Vertex::Source)?;
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let mut flow_upper_bound = 0;
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for edge in self.graph[idsource].iter() {
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@ -193,7 +193,7 @@ impl Graph<FlowEdge> {
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// it means id has not yet been reached
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level[id] = Some(lvl);
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for edge in self.graph[id].iter() {
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if edge.cap as i32 - edge.flow > 0 {
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if edge.cap as i64 - edge.flow > 0 {
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fifo.push_back((edge.dest, lvl + 1));
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}
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}
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@ -216,10 +216,10 @@ impl Graph<FlowEdge> {
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lifo.pop();
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while let Some((id, _)) = lifo.pop() {
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let nbd = next_nbd[id];
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self.graph[id][nbd].flow += f as i32;
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self.graph[id][nbd].flow += f as i64;
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let id_rev = self.graph[id][nbd].dest;
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let nbd_rev = self.graph[id][nbd].rev;
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self.graph[id_rev][nbd_rev].flow -= f as i32;
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self.graph[id_rev][nbd_rev].flow -= f as i64;
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}
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lifo.push((idsource, flow_upper_bound));
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continue;
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@ -236,9 +236,9 @@ impl Graph<FlowEdge> {
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}
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// else we can try to send flow from id to its nbd
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let new_flow = min(
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f as i32,
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self.graph[id][nbd].cap as i32 - self.graph[id][nbd].flow,
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) as u32;
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f as i64,
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self.graph[id][nbd].cap as i64 - self.graph[id][nbd].flow,
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) as u64;
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if new_flow == 0 {
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next_nbd[id] += 1;
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continue;
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@ -302,7 +302,7 @@ impl Graph<FlowEdge> {
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let nb_vertices = self.id_to_vertex.len();
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for i in 0..nb_vertices {
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for edge in self.graph[i].iter() {
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if edge.cap as i32 - edge.flow > 0 {
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if edge.cap as i64 - edge.flow > 0 {
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// It is possible to send overflow through this edge
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let u = self.id_to_vertex[i];
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let v = self.id_to_vertex[edge.dest];
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@ -322,7 +322,7 @@ impl Graph<FlowEdge> {
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impl Graph<WeightedEdge> {
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/// This function adds a single directed weighted edge to the graph.
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pub fn add_edge(&mut self, u: Vertex, v: Vertex, w: i32) -> Result<(), String> {
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pub fn add_edge(&mut self, u: Vertex, v: Vertex, w: i64) -> Result<(), String> {
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let idu = self.get_vertex_id(&u)?;
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let idv = self.get_vertex_id(&v)?;
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self.graph[idu].push(WeightedEdge { w, dest: idv });
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@ -2,7 +2,7 @@ use std::cmp::Ordering;
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use std::collections::HashMap;
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use std::collections::HashSet;
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use hex::ToHex;
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use bytesize::ByteSize;
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use itertools::Itertools;
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use serde::{Deserialize, Serialize};
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@ -32,7 +32,7 @@ pub struct ClusterLayout {
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/// This attribute is only used to retain the previously computed partition size,
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/// to know to what extent does it change with the layout update.
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pub partition_size: u32,
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pub partition_size: u64,
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/// Parameters used to compute the assignation currently given by
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/// ring_assignation_data
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pub parameters: LayoutParameters,
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@ -86,8 +86,7 @@ pub struct NodeRole {
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/// The capacity of the node
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/// If this is set to None, the node does not participate in storing data for the system
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/// and is only active as an API gateway to other nodes
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// TODO : change the capacity to u64 and use byte unit input/output
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pub capacity: Option<u32>,
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pub capacity: Option<u64>,
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/// A set of tags to recognize the node
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pub tags: Vec<String>,
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}
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@ -95,7 +94,7 @@ pub struct NodeRole {
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impl NodeRole {
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pub fn capacity_string(&self) -> String {
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match self.capacity {
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Some(c) => format!("{}", c),
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Some(c) => ByteSize::b(c).to_string_as(false),
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None => "gateway".to_string(),
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}
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}
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@ -264,7 +263,7 @@ To know the correct value of the new layout version, invoke `garage layout show`
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}
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/// Given a node uuids, this function returns its capacity or fails if it does not have any
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pub fn get_node_capacity(&self, uuid: &Uuid) -> Result<u32, Error> {
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pub fn get_node_capacity(&self, uuid: &Uuid) -> Result<u64, Error> {
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match self.node_role(uuid) {
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Some(NodeRole {
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capacity: Some(cap),
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@ -300,7 +299,7 @@ To know the correct value of the new layout version, invoke `garage layout show`
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}
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/// Returns the sum of capacities of non gateway nodes in the cluster
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pub fn get_total_capacity(&self) -> Result<u32, Error> {
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pub fn get_total_capacity(&self) -> Result<u64, Error> {
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let mut total_capacity = 0;
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for uuid in self.nongateway_nodes().iter() {
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total_capacity += self.get_node_capacity(uuid)?;
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@ -458,13 +457,14 @@ impl ClusterLayout {
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if old_assignation_opt != None {
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msg.push(format!(
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"Optimal size of a partition: {} (was {} in the previous layout).",
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partition_size, self.partition_size
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ByteSize::b(partition_size).to_string_as(false),
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ByteSize::b(self.partition_size).to_string_as(false)
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));
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} else {
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msg.push(format!(
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"Given the replication and redundancy constraints, the \
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optimal size of a partition is {}.",
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partition_size
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ByteSize::b(partition_size).to_string_as(false)
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));
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}
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// We write the partition size.
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@ -613,7 +613,7 @@ impl ClusterLayout {
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fn compute_optimal_partition_size(
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&self,
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zone_to_id: &HashMap<String, usize>,
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) -> Result<u32, Error> {
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) -> Result<u64, Error> {
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let empty_set = HashSet::<(usize, usize)>::new();
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let mut g = self.generate_flow_graph(1, zone_to_id, &empty_set)?;
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g.compute_maximal_flow()?;
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@ -672,7 +672,7 @@ impl ClusterLayout {
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/// previous one.
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fn generate_flow_graph(
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&self,
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partition_size: u32,
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partition_size: u64,
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zone_to_id: &HashMap<String, usize>,
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exclude_assoc: &HashSet<(usize, usize)>,
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) -> Result<Graph<FlowEdge>, Error> {
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@ -682,18 +682,18 @@ impl ClusterLayout {
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let nb_zones = zone_to_id.len();
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let redundancy = self.parameters.zone_redundancy;
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for p in 0..NB_PARTITIONS {
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g.add_edge(Vertex::Source, Vertex::Pup(p), redundancy as u32)?;
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g.add_edge(Vertex::Source, Vertex::Pup(p), redundancy as u64)?;
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g.add_edge(
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Vertex::Source,
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Vertex::Pdown(p),
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(self.replication_factor - redundancy) as u32,
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(self.replication_factor - redundancy) as u64,
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)?;
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for z in 0..nb_zones {
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g.add_edge(Vertex::Pup(p), Vertex::PZ(p, z), 1)?;
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g.add_edge(
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Vertex::Pdown(p),
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Vertex::PZ(p, z),
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self.replication_factor as u32,
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self.replication_factor as u64,
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)?;
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}
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}
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|
@ -813,17 +813,19 @@ impl ClusterLayout {
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) -> Result<Message, Error> {
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let mut msg = Message::new();
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let used_cap = self.partition_size * NB_PARTITIONS as u32 * self.replication_factor as u32;
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let used_cap = self.partition_size * NB_PARTITIONS as u64 * self.replication_factor as u64;
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let total_cap = self.get_total_capacity()?;
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let percent_cap = 100.0 * (used_cap as f32) / (total_cap as f32);
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msg.push("".into());
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msg.push(format!(
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"Usable capacity / Total cluster capacity: {} / {} ({:.1} %)",
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used_cap, total_cap, percent_cap
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ByteSize::b(used_cap).to_string_as(false),
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ByteSize::b(total_cap).to_string_as(false),
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percent_cap
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));
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msg.push("".into());
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msg.push(
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"If the percentage is to low, it might be that the \
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"If the percentage is too low, it might be that the \
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replication/redundancy constraints force the use of nodes/zones with small \
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storage capacities. \
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You might want to rebalance the storage capacities or relax the constraints. \
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|
@ -833,9 +835,9 @@ impl ClusterLayout {
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msg.push(format!(
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"Recall that because of the replication factor, the actual available \
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storage capacity is {} / {} = {}.",
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used_cap,
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ByteSize::b(used_cap).to_string_as(false),
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self.replication_factor,
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used_cap / self.replication_factor as u32
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ByteSize::b(used_cap / self.replication_factor as u64).to_string_as(false)
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));
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// We define and fill in the following tables
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|
@ -914,34 +916,34 @@ impl ClusterLayout {
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replicated_partitions
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));
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let available_cap_z: u32 = self.partition_size * replicated_partitions as u32;
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let available_cap_z: u64 = self.partition_size * replicated_partitions as u64;
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let mut total_cap_z = 0;
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for n in nodes_of_z.iter() {
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total_cap_z += self.get_node_capacity(&self.node_id_vec[*n])?;
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}
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let percent_cap_z = 100.0 * (available_cap_z as f32) / (total_cap_z as f32);
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msg.push(format!(
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" Usable capacity / Total capacity: {}/{} ({:.1}%).",
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available_cap_z, total_cap_z, percent_cap_z
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" Usable capacity / Total capacity: {} / {} ({:.1}%).",
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ByteSize::b(available_cap_z).to_string_as(false),
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ByteSize::b(total_cap_z).to_string_as(false),
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percent_cap_z
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));
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for n in nodes_of_z.iter() {
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let available_cap_n = stored_partitions[*n] as u32 * self.partition_size;
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let available_cap_n = stored_partitions[*n] as u64 * self.partition_size;
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let total_cap_n = self.get_node_capacity(&self.node_id_vec[*n])?;
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let tags_n = (self
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.node_role(&self.node_id_vec[*n])
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.ok_or("Node not found."))?
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.tags_string();
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msg.push(format!(
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" Node {}: {} partitions ({} new) ; \
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" Node {:?}: {} partitions ({} new) ; \
|
||||
usable/total capacity: {} / {} ({:.1}%) ; tags:{}",
|
||||
&self.node_id_vec[*n].to_vec()[0..2]
|
||||
.to_vec()
|
||||
.encode_hex::<String>(),
|
||||
self.node_id_vec[*n],
|
||||
stored_partitions[*n],
|
||||
new_partitions[*n],
|
||||
available_cap_n,
|
||||
total_cap_n,
|
||||
ByteSize::b(available_cap_n).to_string_as(false),
|
||||
ByteSize::b(total_cap_n).to_string_as(false),
|
||||
(available_cap_n as f32) / (total_cap_n as f32) * 100.0,
|
||||
tags_n
|
||||
));
|
||||
|
@ -1041,7 +1043,7 @@ mod tests {
|
|||
fn update_layout(
|
||||
cl: &mut ClusterLayout,
|
||||
node_id_vec: &Vec<u8>,
|
||||
node_capacity_vec: &Vec<u32>,
|
||||
node_capacity_vec: &Vec<u64>,
|
||||
node_zone_vec: &Vec<String>,
|
||||
zone_redundancy: usize,
|
||||
) {
|
||||
|
|
Loading…
Reference in a new issue