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590baf0059
tftsr-devops_investigation/src-tauri/src/commands/kube.rs
Shaun Arman 590baf0059
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fix(kube): add two-stage diagnostics to test_kubectl_connection 
- Add detect_auth_method() to identify kubeconfig credential type
  (exec plugin, bearer token, inline cert, file-path cert, basic auth)
  and surface warnings when the auth requires an external binary or file
- Split test into Stage 1 (kubectl get --raw=/healthz, no auth) and
  Stage 2 (kubectl cluster-info, authenticated), so connectivity and
  auth failures are reported distinctly rather than collapsing both
  into opaque memcache.go noise
- Output now includes auth method and per-stage result for faster
  diagnosis of 'server requires credentials' vs unreachable host
2026-06-07 21:21:22 -05:00

4877 lines
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Rust
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use crate::kube::portforward::{PortForwardSession, PortForwardSessionConfig};
use crate::kube::ClusterClient;
use crate::shell::kubectl::locate_kubectl;
use crate::state::AppState;
use lazy_static::lazy_static;
use regex::Regex;
use serde::{Deserialize, Serialize};
use serde_json::Value;
use std::process::Stdio;
use std::sync::Arc;
use tauri::State;
use tokio::io::AsyncWriteExt;
use tokio::process::Command;
use tracing::info;
// Regex pattern for Kubernetes resource names - cached for performance
lazy_static! {
static ref NAME_PATTERN_REGEX: Regex = Regex::new(r"^[a-z0-9]([a-z0-9.-]*[a-z0-9])?$").unwrap();
}
struct TempFileCleanup(std::path::PathBuf);
impl Drop for TempFileCleanup {
fn drop(&mut self) {
let _ = std::fs::remove_file(&self.0);
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ClusterInfo {
pub id: String,
pub name: String,
pub context: String,
pub cluster_url: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PortForwardRequest {
pub cluster_id: String,
pub namespace: String,
pub pod: String,
pub container_port: u16,
/// Optional: Local port to bind to. If 0, kubectl will allocate dynamically.
#[serde(default)]
pub local_port: u16,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PortForwardResponse {
pub id: String,
pub cluster_id: String,
pub namespace: String,
pub pod: String,
pub container_ports: Vec<u16>,
pub local_ports: Vec<u16>,
pub status: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PodInfo {
pub name: String,
pub status: String,
pub ready: String,
pub age: String,
pub containers: Vec<String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ClusterConnectionStatus {
pub status: ClusterConnectionState,
pub context: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(tag = "type")]
pub enum ClusterConnectionState {
Connected,
Disconnected { error: String },
}
#[tauri::command]
pub async fn add_cluster(
id: String,
name: String,
kubeconfig_content: String,
state: State<'_, AppState>,
) -> Result<ClusterInfo, String> {
if kubeconfig_content.trim().is_empty() {
return Err("Kubeconfig content cannot be empty".to_string());
}
let context = extract_context(&kubeconfig_content)?;
let server_url = extract_server_url(&kubeconfig_content)?;
let kubeconfig_arc = Arc::new(kubeconfig_content.clone());
let client = ClusterClient::new(
id.clone(),
name.clone(),
context.clone(),
server_url.clone(),
kubeconfig_arc,
);
{
let mut clusters = state.clusters.lock().await;
clusters.insert(id.clone(), client);
}
Ok(ClusterInfo {
id,
name,
context,
cluster_url: server_url,
})
}
fn extract_context(content: &str) -> Result<String, String> {
let value: serde_yaml::Value =
serde_yaml::from_str(content).map_err(|e| format!("Invalid kubeconfig YAML: {}", e))?;
// Prefer current-context — this is what kubectl uses by default and what the
// user intends when they upload their kubeconfig. Falling back to contexts[0]
// picks the wrong entry when the file has multiple contexts.
if let Some(current) = value.get("current-context").and_then(|c| c.as_str()) {
if !current.is_empty() {
return Ok(current.to_string());
}
}
// No current-context set — fall back to the first context in the list
let contexts = value
.get("contexts")
.and_then(|c| c.as_sequence())
.ok_or("Missing 'contexts' field in kubeconfig")?;
if contexts.is_empty() {
return Err("No contexts found in kubeconfig".to_string());
}
contexts[0]
.get("name")
.and_then(|n| n.as_str())
.map(|s| s.to_string())
.ok_or_else(|| "Context name not found".to_string())
}
fn extract_server_url(content: &str) -> Result<String, String> {
let value: serde_yaml::Value =
serde_yaml::from_str(content).map_err(|e| format!("Invalid kubeconfig YAML: {}", e))?;
let clusters = value
.get("clusters")
.and_then(|c| c.as_sequence())
.ok_or("Missing 'clusters' field in kubeconfig")?;
if clusters.is_empty() {
return Err("No clusters found in kubeconfig".to_string());
}
let cluster = &clusters[0];
let server = cluster
.get("cluster")
.and_then(|c| c.get("server"))
.and_then(|s| s.as_str());
server
.map(|s| s.to_string())
.ok_or_else(|| "Server URL not found in cluster".to_string())
}
/// Load a stored kubeconfig into the in-memory cluster map so all kube commands can use it.
///
/// This bridges the kubeconfig_files table (encrypted storage) with the in-memory
/// state.clusters map that every kubernetes command requires.
#[tauri::command]
pub async fn connect_cluster_from_kubeconfig(
id: String,
state: State<'_, AppState>,
) -> Result<(), String> {
// Read name and encrypted content from DB
let (name, encrypted_content) = {
let db = state.db.lock().map_err(|e| e.to_string())?;
db.query_row(
"SELECT name, encrypted_content FROM kubeconfig_files WHERE id = ?1",
rusqlite::params![&id],
|row| Ok((row.get::<_, String>(0)?, row.get::<_, String>(1)?)),
)
.map_err(|e| format!("Kubeconfig {id} not found in storage: {e}"))?
};
let content = crate::integrations::auth::decrypt_token(&encrypted_content)?;
let context = extract_context(&content)?;
let server_url = extract_server_url(&content).unwrap_or_default();
let client = ClusterClient::new(id.clone(), name, context, server_url, Arc::new(content));
let mut clusters = state.clusters.lock().await;
clusters.insert(id, client);
Ok(())
}
/// Detect the authentication method used by a kubeconfig for a given context.
///
/// Returns a human-readable string describing the auth type and any relevant
/// warnings (e.g. exec plugin binary name, file-path cert references).
fn detect_auth_method(kubeconfig: &str, context_name: &str) -> String {
let yaml: serde_yaml::Value = match serde_yaml::from_str(kubeconfig) {
Ok(v) => v,
Err(_) => return "unknown (YAML parse error)".to_string(),
};
// Resolve the user name for this context.
let user_name = yaml
.get("contexts")
.and_then(|c| c.as_sequence())
.and_then(|contexts| {
contexts.iter().find(|ctx| {
ctx.get("name").and_then(|n| n.as_str()) == Some(context_name)
})
})
.and_then(|ctx| ctx.get("context"))
.and_then(|c| c.get("user"))
.and_then(|u| u.as_str())
.unwrap_or(context_name)
.to_string();
let user_entry = yaml
.get("users")
.and_then(|u| u.as_sequence())
.and_then(|users| {
users.iter().find(|u| {
u.get("name").and_then(|n| n.as_str()) == Some(user_name.as_str())
})
})
.and_then(|u| u.get("user"));
let Some(user) = user_entry else {
return format!("unknown (user '{user_name}' not found in kubeconfig)");
};
if let Some(exec) = user.get("exec") {
let cmd = exec
.get("command")
.and_then(|c| c.as_str())
.unwrap_or("unknown");
return format!(
"exec plugin (command: \"{cmd}\") — the plugin binary must be in PATH when the app runs"
);
}
if user.get("token").is_some() {
return "bearer token (inline)".to_string();
}
if user.get("client-certificate-data").is_some() {
return "client certificate (inline base64)".to_string();
}
if let Some(cert_path) = user.get("client-certificate").and_then(|c| c.as_str()) {
return format!("client certificate (file: {cert_path}) — file must exist on this machine");
}
if user.get("username").is_some() {
return "basic auth (username/password)".to_string();
}
"unknown".to_string()
}
/// Diagnostic: test a kubeconfig's ability to reach the cluster.
///
/// Runs two staged checks:
/// 1. Connectivity — `kubectl get --raw=/healthz` (no auth required)
/// 2. Authentication — `kubectl cluster-info` (requires valid credentials)
///
/// Also detects the auth method used by the context so the caller knows whether
/// an exec plugin or external certificate file might be missing.
/// This command is safe to call at any time — it writes a temp file, runs the
/// tests, then deletes the file regardless of the outcome.
#[tauri::command]
pub async fn test_kubectl_connection(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<String, String> {
let (kubeconfig_content, context) = {
let clusters = state.clusters.lock().await;
let cluster = clusters.get(&cluster_id).ok_or_else(|| {
format!(
"Cluster {} not found in session — try re-selecting the cluster",
cluster_id
)
})?;
(cluster.kubeconfig_content.clone(), cluster.context.clone())
};
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-diag.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content.as_ref())
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let auth_method = detect_auth_method(kubeconfig_content.as_ref(), &context);
// Stage 1: basic connectivity — /healthz requires no authentication.
let healthz = Command::new(&kubectl_path)
.arg("get")
.arg("--raw=/healthz")
.arg("--kubeconfig")
.arg(&temp_path)
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
let healthz_ok = healthz.status.success();
let healthz_body = String::from_utf8_lossy(&healthz.stdout).trim().to_string();
let healthz_err = String::from_utf8_lossy(&healthz.stderr).trim().to_string();
let connectivity_line = if healthz_ok {
format!("OK ({})", if healthz_body.is_empty() { "cluster reachable" } else { &healthz_body })
} else {
let hint = if healthz_err.is_empty() { "no stderr" } else { healthz_err.lines().last().unwrap_or(&healthz_err) };
format!("FAIL — {hint}")
};
// Stage 2: authenticated cluster-info.
let auth_output = Command::new(&kubectl_path)
.arg("cluster-info")
.arg("--context")
.arg(context.as_str())
.arg("--kubeconfig")
.arg(&temp_path)
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
let stdout = String::from_utf8_lossy(&auth_output.stdout).to_string();
let stderr = String::from_utf8_lossy(&auth_output.stderr).to_string();
let exit_code = auth_output.status.code().unwrap_or(-1);
Ok(format!(
"Context: {context}\nKubectl: {kubectl}\nAuth method: {auth}\n\n\
── Stage 1: Connectivity (/healthz, no auth) ──\n{connectivity}\n\n\
── Stage 2: Authentication (kubectl cluster-info) ──\nExit: {exit}\n\n\
--- stdout ---\n{stdout}\n--- stderr ---\n{stderr}",
context = context,
kubectl = kubectl_path.display(),
auth = auth_method,
connectivity = connectivity_line,
exit = exit_code,
stdout = if stdout.is_empty() { "(none)\n" } else { &stdout },
stderr = if stderr.is_empty() { "(none)\n" } else { &stderr },
))
}
#[tauri::command]
pub async fn remove_cluster(id: String, state: State<'_, AppState>) -> Result<(), String> {
// Check existence in memory BEFORE touching the DB
let exists = {
let clusters = state.clusters.lock().await;
clusters.contains_key(&id)
};
if !exists {
return Err(format!("Cluster {id} not found"));
}
// Safe to delete from DB now
{
let db = state.db.lock().map_err(|e| e.to_string())?;
db.execute("DELETE FROM clusters WHERE id = ?1", [&id])
.map_err(|e| format!("Failed to delete cluster: {e}"))?;
}
let mut clusters = state.clusters.lock().await;
clusters.remove(&id);
// Cascade: close all port forwards for this cluster
let mut port_forwards = state.port_forwards.lock().await;
let session_ids_to_remove: Vec<String> = port_forwards
.iter()
.filter(|(_, session)| session.cluster_id == id)
.map(|(id, _)| id.clone())
.collect();
for session_id in session_ids_to_remove {
if let Some(mut session) = port_forwards.remove(&session_id) {
session.close().await;
}
}
Ok(())
}
#[tauri::command]
pub async fn list_clusters(state: State<'_, AppState>) -> Result<Vec<ClusterInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster_list: Vec<ClusterInfo> = clusters
.values()
.map(|c| ClusterInfo {
id: c.id.clone(),
name: c.name.clone(),
context: c.context.clone(),
cluster_url: c.server_url.clone(),
})
.collect();
Ok(cluster_list)
}
#[tauri::command]
pub async fn test_cluster_connection(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<ClusterConnectionStatus, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
// Write kubeconfig to temp file and ensure cleanup even on panic
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
// Run kubectl cluster-info
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("cluster-info")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
let status = if output.status.success() {
ClusterConnectionState::Connected
} else {
let stderr = String::from_utf8_lossy(&output.stderr);
ClusterConnectionState::Disconnected {
error: stderr.to_string(),
}
};
Ok(ClusterConnectionStatus {
status,
context: context.clone(),
})
}
#[tauri::command]
pub async fn discover_pods(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<PodInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
// Write kubeconfig to temp file and ensure cleanup even on panic
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-pods.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
// Run kubectl get pods with full JSON output
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("pods")
.arg("-n")
.arg(&namespace)
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(format!("Failed to list pods: {}", stderr));
}
// Parse actual JSON output to get real pod information
let stdout = String::from_utf8_lossy(&output.stdout);
let pods = parse_pods_json(&stdout)?;
Ok(pods)
}
// Regex patterns for Kubernetes resource names
// Must match: ^[a-z0-9]([a-z0-9.-]*[a-z0-9])?$ (DNS subdomain name)
// Added max length check (253 chars) to prevent ReDoS attacks
const MAX_NAME_LENGTH: usize = 253;
/// Validates a Kubernetes resource name against DNS subdomain naming rules.
///
/// # Arguments
/// * `name` - The name to validate
/// * `field_name` - The field name for error messages
///
/// # Returns
/// * `Ok(())` if the name is valid
/// * `Err(String)` with an error message if the name is invalid
pub fn validate_resource_name(name: &str, field_name: &str) -> Result<(), String> {
// Check max length to prevent ReDoS attacks
if name.len() > MAX_NAME_LENGTH {
return Err(format!(
"{} '{}' exceeds maximum length of {} characters",
field_name, name, MAX_NAME_LENGTH
));
}
// Reject names starting with hyphens or dots
if name.starts_with('-') || name.starts_with('.') {
return Err(format!(
"{} '{}' cannot start with a hyphen or dot",
field_name, name
));
}
// Reject names ending with hyphens or dots
if name.ends_with('-') || name.ends_with('.') {
return Err(format!(
"{} '{}' cannot end with a hyphen or dot",
field_name, name
));
}
// Use cached regex pattern
if !NAME_PATTERN_REGEX.is_match(name) {
return Err(format!(
"{} '{}' does not match pattern {}",
field_name, name, r"^[a-z0-9]([a-z0-9.-]*[a-z0-9])?$"
));
}
Ok(())
}
#[tauri::command]
pub async fn start_port_forward(
request: PortForwardRequest,
state: State<'_, AppState>,
) -> Result<PortForwardResponse, String> {
let session_id = uuid::Uuid::now_v7().to_string();
// Validate namespace and pod names FIRST to prevent command injection
// Validation must happen before any operations to prevent partial state creation
validate_resource_name(&request.namespace, "namespace")?;
validate_resource_name(&request.pod, "pod")?;
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&request.cluster_id)
.ok_or_else(|| format!("Cluster {} not found", request.cluster_id))?;
let cluster_name = cluster.name.clone();
let kubeconfig_content = cluster.kubeconfig_content.clone();
// Use kubectl's dynamic port binding by specifying 0 as local port
// This avoids race condition with port allocation
// Note: Dynamic port allocation (when local_port=0) currently returns 0
// The actual allocated port could be captured from kubectl's stderr/stdout
// but this requires parsing kubectl output which is complex and error-prone
// For now, users must specify a local port or use the default behavior
let local_port = if request.local_port > 0 {
request.local_port
} else {
0 // Let kubectl allocate dynamically (currently not captured)
};
info!(
session_id = %session_id,
cluster_id = %request.cluster_id,
namespace = %request.namespace,
pod = %request.pod,
container_port = request.container_port,
local_port,
"Allocating local port for port-forward"
);
// Write kubeconfig to temp file
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}.yaml", request.cluster_id));
std::fs::write(&temp_path, kubeconfig_content.as_ref())
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
// Build kubectl command
let kubectl_path = locate_kubectl()?;
let args = vec![
"port-forward".to_string(),
format!("pod/{}", request.pod),
format!("{}:{}", local_port, request.container_port),
"-n".to_string(),
request.namespace.clone(),
];
info!(
session_id = %session_id,
command = ?args,
"Spawning kubectl port-forward subprocess"
);
// Spawn kubectl subprocess
let child = Command::new(kubectl_path)
.args(&args)
.arg("--context")
.arg(cluster.context.as_str())
.arg("--kubeconfig")
.arg(&temp_path)
.spawn()
.map_err(|e| format!("Failed to spawn kubectl: {e}"))?;
// Create session with allocated port
let session = PortForwardSession::new(PortForwardSessionConfig {
id: session_id.clone(),
cluster_id: request.cluster_id.clone(),
cluster_name,
namespace: request.namespace.clone(),
pod: request.pod.clone(),
container: None,
ports: vec![request.container_port],
local_ports: vec![local_port],
temp_kubeconfig_path: Some(temp_path),
});
// Store child handle in session - spawn background task to wait on child
{
let mut port_forwards = state.port_forwards.lock().await;
port_forwards.insert(session_id.clone(), session);
let session_mut = port_forwards.get_mut(&session_id).unwrap();
session_mut.spawn_child_waiter(child);
}
info!(
session_id = %session_id,
local_port,
"Port-forward session started"
);
Ok(PortForwardResponse {
id: session_id,
cluster_id: request.cluster_id,
namespace: request.namespace,
pod: request.pod,
container_ports: vec![request.container_port],
local_ports: vec![local_port],
status: "Active".to_string(),
})
}
#[tauri::command]
pub async fn stop_port_forward(id: String, state: State<'_, AppState>) -> Result<(), String> {
let mut port_forwards = state.port_forwards.lock().await;
if let Some(session) = port_forwards.get_mut(&id) {
session.stop_async().await;
info!(session_id = %id, "Port-forward session stopped");
Ok(())
} else {
Err(format!("Port forward session {id} not found"))
}
}
#[tauri::command]
pub async fn list_port_forwards(
state: State<'_, AppState>,
) -> Result<Vec<PortForwardResponse>, String> {
let port_forwards = state.port_forwards.lock().await;
let mut forwards = Vec::new();
for s in port_forwards.values() {
let status_str = {
let status = s.shared_status.lock().await;
match &*status {
crate::kube::PortForwardStatus::Active => "Active".to_string(),
crate::kube::PortForwardStatus::Stopped => "Stopped".to_string(),
crate::kube::PortForwardStatus::Error(e) => e.clone(),
}
};
forwards.push(PortForwardResponse {
id: s.id.clone(),
cluster_id: s.cluster_id.clone(),
namespace: s.namespace.clone(),
pod: s.pod.clone(),
container_ports: s.ports.clone(),
local_ports: s.local_ports.clone(),
status: status_str,
});
}
Ok(forwards)
}
#[tauri::command]
pub async fn delete_port_forward(id: String, state: State<'_, AppState>) -> Result<(), String> {
// Delete from database
{
let db = state.db.lock().map_err(|e| e.to_string())?;
db.execute("DELETE FROM port_forwards WHERE id = ?1", [&id])
.map_err(|e| format!("Failed to delete port forward: {e}"))?;
}
let mut port_forwards = state.port_forwards.lock().await;
if let Some(mut session) = port_forwards.remove(&id) {
// Close the session to kill the child and clean up temp files
session.close().await;
} else {
return Err(format!("Port forward session {id} not found"));
}
Ok(())
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_cluster_info_serialization() {
let info = ClusterInfo {
id: "cluster-1".to_string(),
name: "Production".to_string(),
context: "prod-context".to_string(),
cluster_url: "https://k8s.example.com".to_string(),
};
let json = serde_json::to_string(&info).unwrap();
let parsed: ClusterInfo = serde_json::from_str(&json).unwrap();
assert_eq!(info.id, parsed.id);
assert_eq!(info.name, parsed.name);
assert_eq!(info.context, parsed.context);
assert_eq!(info.cluster_url, parsed.cluster_url);
}
#[test]
fn test_cluster_connection_state_serialization() {
let connected = ClusterConnectionState::Connected;
let json = serde_json::to_string(&connected).unwrap();
let parsed: ClusterConnectionState = serde_json::from_str(&json).unwrap();
assert!(matches!(parsed, ClusterConnectionState::Connected));
let disconnected = ClusterConnectionState::Disconnected {
error: "connection refused".to_string(),
};
let json = serde_json::to_string(&disconnected).unwrap();
let parsed: ClusterConnectionState = serde_json::from_str(&json).unwrap();
assert!(matches!(
parsed,
ClusterConnectionState::Disconnected { .. }
));
}
#[test]
fn test_port_forward_request_serialization() {
let request = PortForwardRequest {
cluster_id: "cluster-1".to_string(),
namespace: "default".to_string(),
pod: "my-pod-abc123".to_string(),
container_port: 8080,
local_port: 0,
};
let json = serde_json::to_string(&request).unwrap();
let parsed: PortForwardRequest = serde_json::from_str(&json).unwrap();
assert_eq!(request.cluster_id, parsed.cluster_id);
assert_eq!(request.namespace, parsed.namespace);
assert_eq!(request.pod, parsed.pod);
assert_eq!(request.container_port, parsed.container_port);
assert_eq!(request.local_port, parsed.local_port);
}
#[test]
fn test_validate_resource_name_valid() {
// Valid names
assert!(validate_resource_name("my-pod", "pod").is_ok());
assert!(validate_resource_name("my-pod-123", "pod").is_ok());
assert!(validate_resource_name("a", "pod").is_ok());
assert!(validate_resource_name("my.pod.name", "pod").is_ok());
assert!(validate_resource_name("123", "pod").is_ok());
}
#[test]
fn test_validate_resource_name_invalid() {
// Invalid names
assert!(validate_resource_name("-mypod", "pod").is_err());
assert!(validate_resource_name("mypod-", "pod").is_err());
assert!(validate_resource_name(".mypod", "pod").is_err());
assert!(validate_resource_name("mypod.", "pod").is_err());
assert!(validate_resource_name("MYPOD", "pod").is_err());
assert!(validate_resource_name("my_pod", "pod").is_err());
assert!(validate_resource_name("", "pod").is_err());
}
#[test]
fn test_validate_resource_name_length() {
// Too long names
let long_name = "a".repeat(254);
assert!(validate_resource_name(&long_name, "pod").is_err());
}
}
#[tauri::command]
pub async fn shutdown_port_forwards(state: State<'_, AppState>) -> Result<(), String> {
let mut port_forwards = state.port_forwards.lock().await;
// Close all active port forward sessions
let session_ids: Vec<String> = port_forwards.keys().cloned().collect();
for session_id in session_ids {
if let Some(mut session) = port_forwards.remove(&session_id) {
session.close().await;
}
}
Ok(())
}
// ─────────────────────────────────────────────────────────────────────────────
// New Resource Discovery Commands (Phase 1)
// ─────────────────────────────────────────────────────────────────────────────
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct NamespaceInfo {
pub name: String,
pub status: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ServicePort {
pub name: Option<String>,
pub port: u16,
pub target_port: Option<String>,
pub protocol: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ServiceInfo {
pub name: String,
pub namespace: String,
#[serde(rename = "type")]
pub service_type: String,
pub cluster_ip: String,
pub external_ip: Option<String>,
pub ports: Vec<ServicePort>,
pub age: String,
pub selector: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct DeploymentInfo {
pub name: String,
pub namespace: String,
pub ready: String,
pub up_to_date: String,
pub available: String,
pub age: String,
pub replicas: i32,
pub labels: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct StatefulSetInfo {
pub name: String,
pub namespace: String,
pub ready: String,
pub age: String,
pub replicas: i32,
pub labels: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct DaemonSetInfo {
pub name: String,
pub namespace: String,
pub desired: i32,
pub current: i32,
pub ready: i32,
pub up_to_date: i32,
pub available: i32,
pub age: String,
pub labels: std::collections::HashMap<String, String>,
}
#[tauri::command]
pub async fn list_namespaces(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<NamespaceInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-namespaces.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("namespaces")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_namespaces_json(&output_str)
}
fn parse_namespaces_json(json_str: &str) -> Result<Vec<NamespaceInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut namespaces = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let status = item
.get("status")
.and_then(|s| s.get("phase"))
.and_then(|p| p.as_str())
.unwrap_or("Unknown")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
namespaces.push(NamespaceInfo { name, status, age });
}
Ok(namespaces)
}
#[tauri::command]
pub async fn list_pods(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<PodInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-pods.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("pods");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_pods_json(&output_str)
}
fn parse_pods_json(json_str: &str) -> Result<Vec<PodInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut pods = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let status = item
.get("status")
.and_then(|s| s.get("phase"))
.and_then(|p| p.as_str())
.unwrap_or("Unknown")
.to_string();
let ready = item
.get("status")
.and_then(|s| s.get("containerStatuses"))
.and_then(|c| c.as_array())
.map(|container_statuses| {
let ready_count = container_statuses
.iter()
.filter(|c| c.get("ready").and_then(|r| r.as_bool()).unwrap_or(false))
.count();
let total_count = container_statuses.len();
format!("{}/{}", ready_count, total_count)
})
.unwrap_or("0/0".to_string());
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let containers = item
.get("spec")
.and_then(|s| s.get("containers"))
.and_then(|c| c.as_array())
.map(|spec_containers| {
spec_containers
.iter()
.filter_map(|c| {
c.get("name")
.and_then(|n| n.as_str())
.map(|s| s.to_string())
})
.collect()
})
.unwrap_or_default();
pods.push(PodInfo {
name,
status,
ready,
age,
containers,
});
}
Ok(pods)
}
#[tauri::command]
pub async fn list_services(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<ServiceInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-services.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("services");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_services_json(&output_str)
}
fn parse_services_json(json_str: &str) -> Result<Vec<ServiceInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut services = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let service_type = item
.get("spec")
.and_then(|s| s.get("type"))
.and_then(|t| t.as_str())
.unwrap_or("ClusterIP")
.to_string();
let cluster_ip = item
.get("spec")
.and_then(|s| s.get("clusterIP"))
.and_then(|c| c.as_str())
.unwrap_or("None")
.to_string();
let external_ip = item
.get("status")
.and_then(|s| s.get("loadBalancer"))
.and_then(|l| l.get("ingress"))
.and_then(|i| i.as_array())
.and_then(|ingress| ingress.first())
.and_then(|ing| ing.get("ip"))
.and_then(|ip| ip.as_str())
.map(|s| s.to_string());
let ports = item
.get("spec")
.and_then(|s| s.get("ports"))
.and_then(|p| p.as_array())
.map(|ports_seq| {
ports_seq
.iter()
.map(|p| ServicePort {
name: p
.get("name")
.and_then(|n| n.as_str())
.map(|s| s.to_string()),
port: p.get("port").and_then(|p| p.as_u64()).unwrap_or(0) as u16,
target_port: p
.get("targetPort")
.and_then(|tp| tp.as_str())
.map(|s| s.to_string()),
protocol: p
.get("protocol")
.and_then(|p| p.as_str())
.unwrap_or("TCP")
.to_string(),
})
.collect()
})
.unwrap_or_default();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let selector = item
.get("spec")
.and_then(|s| s.get("selector"))
.and_then(|s| s.as_object())
.map(|s| {
s.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
services.push(ServiceInfo {
name,
namespace,
service_type,
cluster_ip,
external_ip,
ports,
age,
selector,
});
}
Ok(services)
}
#[tauri::command]
pub async fn list_deployments(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<DeploymentInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-deployments.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("deployments");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_deployments_json(&output_str)
}
fn parse_deployments_json(json_str: &str) -> Result<Vec<DeploymentInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut deployments = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let replicas = item
.get("spec")
.and_then(|s| s.get("replicas"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let ready = item
.get("status")
.and_then(|s| s.get("readyReplicas"))
.and_then(|r| r.as_i64())
.map(|r| format!("{}/{}", r, replicas))
.unwrap_or_else(|| format!("0/{}", replicas));
let up_to_date = item
.get("status")
.and_then(|s| s.get("updatedReplicas"))
.and_then(|r| r.as_i64())
.map(|r| r.to_string())
.unwrap_or_else(|| "N/A".to_string());
let available = item
.get("status")
.and_then(|s| s.get("availableReplicas"))
.and_then(|r| r.as_i64())
.map(|r| r.to_string())
.unwrap_or_else(|| "N/A".to_string());
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
deployments.push(DeploymentInfo {
name,
namespace,
ready,
up_to_date,
available,
age,
replicas,
labels,
});
}
Ok(deployments)
}
#[tauri::command]
pub async fn list_statefulsets(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<StatefulSetInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-statefulsets.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("statefulsets");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_statefulsets_json(&output_str)
}
fn parse_statefulsets_json(json_str: &str) -> Result<Vec<StatefulSetInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut statefulsets = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let replicas = item
.get("spec")
.and_then(|s| s.get("replicas"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let ready = item
.get("status")
.and_then(|s| s.get("readyReplicas"))
.and_then(|r| r.as_i64())
.map(|r| format!("{}/{}", r, replicas))
.unwrap_or_else(|| format!("0/{}", replicas));
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
statefulsets.push(StatefulSetInfo {
name,
namespace,
ready,
age,
replicas,
labels,
});
}
Ok(statefulsets)
}
#[tauri::command]
pub async fn list_daemonsets(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<DaemonSetInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-daemonsets.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("daemonsets");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_daemonsets_json(&output_str)
}
fn parse_daemonsets_json(json_str: &str) -> Result<Vec<DaemonSetInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut daemonsets = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let desired = item
.get("status")
.and_then(|s| s.get("desiredNumberScheduled"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let current = item
.get("status")
.and_then(|s| s.get("currentNumberScheduled"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let ready = item
.get("status")
.and_then(|s| s.get("numberReady"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let up_to_date = item
.get("status")
.and_then(|s| s.get("updatedNumberScheduled"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let available = item
.get("status")
.and_then(|s| s.get("numberAvailable"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
daemonsets.push(DaemonSetInfo {
name,
namespace,
desired,
current,
ready,
up_to_date,
available,
age,
labels,
});
}
Ok(daemonsets)
}
fn parse_creation_timestamp(timestamp: &str) -> String {
if timestamp.is_empty() || timestamp == "null" {
return "N/A".to_string();
}
if let Ok(dt) = chrono::DateTime::parse_from_rfc3339(timestamp) {
let now = chrono::Utc::now();
let diff = now.signed_duration_since(dt);
if diff.num_days() > 0 {
return format!("{}d", diff.num_days());
}
if diff.num_hours() > 0 {
return format!("{}h", diff.num_hours());
}
if diff.num_minutes() > 0 {
return format!("{}m", diff.num_minutes());
}
return format!("{}s", diff.num_seconds());
}
"N/A".to_string()
}
// ─────────────────────────────────────────────────────────────────────────────
// Resource Management Commands (Phase 2)
// ─────────────────────────────────────────────────────────────────────────────
#[tauri::command]
pub async fn get_pod_logs(
cluster_id: String,
namespace: String,
pod_name: String,
container_name: String,
state: State<'_, AppState>,
) -> Result<LogResponse, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-logs.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("logs")
.arg(pod_name)
.arg("-n")
.arg(namespace)
.arg("-c")
.arg(container_name)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let logs = String::from_utf8_lossy(&output.stdout).to_string();
Ok(LogResponse { logs })
}
#[tauri::command]
pub async fn scale_deployment(
cluster_id: String,
namespace: String,
deployment_name: String,
replicas: i32,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-scale.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("scale")
.arg("deployment")
.arg(deployment_name)
.arg("--replicas")
.arg(replicas.to_string())
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn restart_deployment(
cluster_id: String,
namespace: String,
deployment_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-restart.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("rollout")
.arg("restart")
.arg("deployment")
.arg(deployment_name)
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn delete_resource(
cluster_id: String,
resource_type: String,
namespace: String,
resource_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-delete.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("delete")
.arg(resource_type)
.arg(resource_name)
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn exec_pod(
cluster_id: String,
namespace: String,
pod_name: String,
container_name: Option<String>,
shell: Option<String>,
command: String,
state: State<'_, AppState>,
) -> Result<ExecResponse, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-exec.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
const ALLOWED_SHELLS: &[&str] = &[
"sh",
"bash",
"ash",
"dash",
"/bin/sh",
"/bin/bash",
"/bin/ash",
"/bin/dash",
];
let shell_cmd = shell.as_deref().unwrap_or("sh");
if !ALLOWED_SHELLS.contains(&shell_cmd) {
return Err(format!(
"Unsupported shell '{}'; allowed: sh, bash, ash, dash",
shell_cmd
));
}
let mut cmd = Command::new(kubectl_path);
cmd.arg("exec").arg(&pod_name).arg("-n").arg(&namespace);
if let Some(ref container) = container_name {
cmd.arg("-c").arg(container);
}
cmd.arg("--").arg(shell_cmd).arg("-c").arg(&command);
cmd.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str());
let output = cmd
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
let stdout = String::from_utf8_lossy(&output.stdout).to_string();
let stderr = String::from_utf8_lossy(&output.stderr).to_string();
Ok(ExecResponse {
stdout,
stderr,
exit_code: output.status.code(),
})
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct LogResponse {
pub logs: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ExecResponse {
pub stdout: String,
pub stderr: String,
pub exit_code: Option<i32>,
}
// ─────────────────────────────────────────────────────────────────────────────
// Additional Resource Discovery Commands (Phase 3)
// ─────────────────────────────────────────────────────────────────────────────
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ReplicaSetInfo {
pub name: String,
pub namespace: String,
pub replicas: i32,
pub ready: String,
pub age: String,
pub labels: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct JobInfo {
pub name: String,
pub namespace: String,
pub completions: String,
pub duration: String,
pub age: String,
pub labels: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct CronJobInfo {
pub name: String,
pub namespace: String,
pub schedule: String,
pub active: i32,
pub last_schedule: String,
pub age: String,
pub labels: std::collections::HashMap<String, String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ConfigMapInfo {
pub name: String,
pub namespace: String,
pub data_keys: i32,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct SecretInfo {
pub name: String,
pub namespace: String,
#[serde(rename = "type")]
pub secret_type: String,
pub data_keys: i32,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct NodeInfo {
pub name: String,
pub status: String,
pub roles: String,
pub version: String,
pub internal_ip: String,
pub external_ip: Option<String>,
pub os_image: String,
pub kernel_version: String,
pub kubelet_version: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct EventInfo {
pub name: String,
pub namespace: String,
pub event_type: String,
pub reason: String,
pub object: String,
pub count: i32,
pub first_seen: String,
pub last_seen: String,
pub message: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct IngressInfo {
pub name: String,
pub namespace: String,
pub class: Option<String>,
pub host: String,
pub addresses: Vec<String>,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PersistentVolumeClaimInfo {
pub name: String,
pub namespace: String,
pub status: String,
pub volume: String,
pub capacity: String,
pub access_modes: Vec<String>,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PersistentVolumeInfo {
pub name: String,
pub status: String,
pub capacity: String,
pub access_modes: Vec<String>,
pub reclaim_policy: String,
pub storage_class: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ServiceAccountInfo {
pub name: String,
pub namespace: String,
pub secrets: i32,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct RoleInfo {
pub name: String,
pub namespace: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ClusterRoleInfo {
pub name: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct RoleBindingInfo {
pub name: String,
pub namespace: String,
pub role: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ClusterRoleBindingInfo {
pub name: String,
pub cluster_role: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct HorizontalPodAutoscalerInfo {
pub name: String,
pub namespace: String,
pub min_replicas: i32,
pub max_replicas: i32,
pub current_replicas: i32,
pub desired_replicas: i32,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct StorageClassInfo {
pub name: String,
pub provisioner: String,
pub reclaim_policy: String,
pub volume_binding_mode: String,
pub allow_volume_expansion: bool,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct NetworkPolicyInfo {
pub name: String,
pub namespace: String,
pub pod_selector: String,
pub policy_types: Vec<String>,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ResourceQuotaInfo {
pub name: String,
pub namespace: String,
pub request_cpu: String,
pub request_memory: String,
pub limit_cpu: String,
pub limit_memory: String,
pub age: String,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct LimitRangeInfo {
pub name: String,
pub namespace: String,
pub limit_count: usize,
pub age: String,
}
#[tauri::command]
pub async fn list_replicasets(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<ReplicaSetInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-replicasets.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("replicasets");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_replicasets_json(&output_str)
}
fn parse_replicasets_json(json_str: &str) -> Result<Vec<ReplicaSetInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut replicasets = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let replicas = item
.get("spec")
.and_then(|s| s.get("replicas"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let ready = item
.get("status")
.and_then(|s| s.get("readyReplicas"))
.and_then(|r| r.as_i64())
.map(|r| format!("{}/{}", r, replicas))
.unwrap_or_else(|| format!("0/{}", replicas));
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
replicasets.push(ReplicaSetInfo {
name,
namespace,
replicas,
ready,
age,
labels,
});
}
Ok(replicasets)
}
#[tauri::command]
pub async fn list_jobs(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<JobInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-jobs.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("jobs");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_jobs_json(&output_str)
}
fn parse_jobs_json(json_str: &str) -> Result<Vec<JobInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut jobs = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let completions = item
.get("status")
.and_then(|s| s.get("succeeded"))
.and_then(|s| s.as_i64())
.map(|s| {
let total = item
.get("spec")
.and_then(|sp| sp.get("completions"))
.and_then(|c| c.as_i64())
.unwrap_or(1);
format!("{}/{}", s, total)
})
.unwrap_or_else(|| "0/0".to_string());
let duration = item
.get("status")
.and_then(|s| s.get("startTime"))
.and_then(|st| st.as_str())
.and_then(|st| {
let completion_time = item
.get("status")
.and_then(|s| s.get("completionTime"))
.and_then(|ct| ct.as_str());
completion_time.or(Some(st))
})
.map(|st| {
if let Ok(start) = chrono::DateTime::parse_from_rfc3339(st) {
let end_time = item
.get("status")
.and_then(|s| s.get("completionTime"))
.and_then(|ct| ct.as_str());
if let Some(end) = end_time {
if let Ok(end_dt) = chrono::DateTime::parse_from_rfc3339(end) {
let diff = end_dt.signed_duration_since(start);
if diff.num_minutes() > 0 {
return format!("{}m", diff.num_minutes());
}
return format!("{}s", diff.num_seconds());
}
}
let now = chrono::Utc::now();
let diff = now.signed_duration_since(start);
if diff.num_minutes() > 0 {
return format!("{}m", diff.num_minutes());
}
return format!("{}s", diff.num_seconds());
}
"N/A".to_string()
})
.unwrap_or("N/A".to_string());
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
jobs.push(JobInfo {
name,
namespace,
completions,
duration,
age,
labels,
});
}
Ok(jobs)
}
#[tauri::command]
pub async fn list_cronjobs(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<CronJobInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-cronjobs.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("cronjobs");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_cronjobs_json(&output_str)
}
fn parse_cronjobs_json(json_str: &str) -> Result<Vec<CronJobInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut cronjobs = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let schedule = item
.get("spec")
.and_then(|s| s.get("schedule"))
.and_then(|s| s.as_str())
.unwrap_or("* * * * *")
.to_string();
let active = item
.get("status")
.and_then(|s| s.get("active"))
.and_then(|a| a.as_array())
.map(|a| a.len() as i32)
.unwrap_or(0);
let last_schedule = item
.get("status")
.and_then(|s| s.get("lastScheduleTime"))
.and_then(|l| l.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let labels = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
l.iter()
.map(|(k, v)| (k.clone(), v.as_str().unwrap_or("").to_string()))
.collect()
})
.unwrap_or_default();
cronjobs.push(CronJobInfo {
name,
namespace,
schedule,
active,
last_schedule,
age,
labels,
});
}
Ok(cronjobs)
}
#[tauri::command]
pub async fn list_configmaps(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<ConfigMapInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-configmaps.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("configmaps");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_configmaps_json(&output_str)
}
fn parse_configmaps_json(json_str: &str) -> Result<Vec<ConfigMapInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut configmaps = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let data_keys = item
.get("data")
.and_then(|d| d.as_object())
.map(|d| d.len() as i32)
.unwrap_or(0);
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
configmaps.push(ConfigMapInfo {
name,
namespace,
data_keys,
age,
});
}
Ok(configmaps)
}
#[tauri::command]
pub async fn list_secrets(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<SecretInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-secrets.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("secrets");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_secrets_json(&output_str)
}
fn parse_secrets_json(json_str: &str) -> Result<Vec<SecretInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut secrets = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let secret_type = item
.get("type")
.and_then(|t| t.as_str())
.unwrap_or("Opaque")
.to_string();
let data_keys = item
.get("data")
.and_then(|d| d.as_object())
.map(|d| d.len() as i32)
.unwrap_or(0);
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
secrets.push(SecretInfo {
name,
namespace,
secret_type,
data_keys,
age,
});
}
Ok(secrets)
}
#[tauri::command]
pub async fn list_nodes(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<NodeInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-nodes.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("nodes")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_nodes_json(&output_str)
}
fn parse_nodes_json(json_str: &str) -> Result<Vec<NodeInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut nodes = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let status = item
.get("status")
.and_then(|s| s.get("conditions"))
.and_then(|c| c.as_array())
.and_then(|conditions| {
conditions
.iter()
.find(|c| c.get("type").and_then(|t| t.as_str()) == Some("Ready"))
})
.and_then(|c| c.get("status").and_then(|s| s.as_str()))
.map(|s| match s {
"True" => "Ready",
"False" => "NotReady",
_ => "Unknown",
})
.unwrap_or("Unknown")
.to_string();
let roles = item
.get("metadata")
.and_then(|m| m.get("labels"))
.and_then(|l| l.as_object())
.map(|l| {
let mut role_list: Vec<String> = Vec::new();
if l.contains_key("node-role.kubernetes.io/control-plane")
|| l.contains_key("node-role.kubernetes.io/master")
{
role_list.push("control-plane".to_string());
}
if l.contains_key("node-role.kubernetes.io/worker") {
role_list.push("worker".to_string());
}
if l.contains_key("node-role.kubernetes.io/etcd") {
role_list.push("etcd".to_string());
}
if l.contains_key("node-role.kubernetes.io/ingress") {
role_list.push("ingress".to_string());
}
if role_list.is_empty() {
role_list.push("none".to_string());
}
role_list.join(",")
})
.unwrap_or("none".to_string());
let version = item
.get("status")
.and_then(|s| s.get("nodeInfo"))
.and_then(|n| n.get("kubeletVersion"))
.and_then(|v| v.as_str())
.unwrap_or("N/A")
.to_string();
let internal_ip = item
.get("status")
.and_then(|s| s.get("addresses"))
.and_then(|a| a.as_array())
.and_then(|addresses| {
addresses
.iter()
.find(|addr| addr.get("type").and_then(|t| t.as_str()) == Some("InternalIP"))
})
.and_then(|addr| addr.get("address").and_then(|a| a.as_str()))
.unwrap_or("N/A")
.to_string();
let external_ip = item
.get("status")
.and_then(|s| s.get("addresses"))
.and_then(|a| a.as_array())
.and_then(|addresses| {
addresses
.iter()
.find(|addr| addr.get("type").and_then(|t| t.as_str()) == Some("ExternalIP"))
})
.and_then(|addr| addr.get("address").and_then(|a| a.as_str()))
.map(|s| s.to_string());
let os_image = item
.get("status")
.and_then(|s| s.get("nodeInfo"))
.and_then(|n| n.get("osImage"))
.and_then(|o| o.as_str())
.unwrap_or("N/A")
.to_string();
let kernel_version = item
.get("status")
.and_then(|s| s.get("nodeInfo"))
.and_then(|n| n.get("kernelVersion"))
.and_then(|k| k.as_str())
.unwrap_or("N/A")
.to_string();
let kubelet_version = item
.get("status")
.and_then(|s| s.get("nodeInfo"))
.and_then(|n| n.get("kubeletVersion"))
.and_then(|k| k.as_str())
.unwrap_or("N/A")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
nodes.push(NodeInfo {
name,
status,
roles,
version,
internal_ip,
external_ip,
os_image,
kernel_version,
kubelet_version,
age,
});
}
Ok(nodes)
}
#[tauri::command]
pub async fn list_events(
cluster_id: String,
namespace: Option<String>,
state: State<'_, AppState>,
) -> Result<Vec<EventInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-events.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("events");
if let Some(ns) = &namespace {
kubectl_cmd.arg("-n").arg(ns);
} else {
kubectl_cmd.arg("--all-namespaces");
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_events_json(&output_str)
}
fn parse_events_json(json_str: &str) -> Result<Vec<EventInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut events = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let event_type = item
.get("type")
.and_then(|t| t.as_str())
.unwrap_or("Normal")
.to_string();
let reason = item
.get("reason")
.and_then(|r| r.as_str())
.unwrap_or("Unknown")
.to_string();
let object = item
.get("involvedObject")
.and_then(|o| o.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let count = item.get("count").and_then(|c| c.as_i64()).unwrap_or(1) as i32;
let first_seen = item
.get("firstTimestamp")
.and_then(|f| f.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let last_seen = item
.get("lastTimestamp")
.and_then(|l| l.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
let message = item
.get("message")
.and_then(|m| m.as_str())
.unwrap_or("")
.to_string();
events.push(EventInfo {
name,
namespace,
event_type,
reason,
object,
count,
first_seen,
last_seen,
message,
});
}
Ok(events)
}
#[tauri::command]
pub async fn list_ingresses(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<IngressInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-ingresses.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("ingresses");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_ingresses_json(&output_str)
}
fn parse_ingresses_json(json_str: &str) -> Result<Vec<IngressInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut ingresses = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let class = item
.get("spec")
.and_then(|s| s.get("ingressClassName"))
.and_then(|c| c.as_str())
.map(|s| s.to_string());
let host = item
.get("spec")
.and_then(|s| s.get("rules"))
.and_then(|r| r.as_array())
.and_then(|rules| rules.first())
.and_then(|rule| rule.get("host").and_then(|h| h.as_str()))
.unwrap_or("")
.to_string();
let addresses = item
.get("status")
.and_then(|s| s.get("loadBalancer"))
.and_then(|l| l.get("ingress"))
.and_then(|i| i.as_array())
.map(|ingress| {
ingress
.iter()
.filter_map(|ing| {
ing.get("ip")
.and_then(|ip| ip.as_str())
.map(|s| s.to_string())
})
.collect()
})
.unwrap_or_default();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
ingresses.push(IngressInfo {
name,
namespace,
class,
host,
addresses,
age,
});
}
Ok(ingresses)
}
#[tauri::command]
pub async fn list_persistentvolumeclaims(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<PersistentVolumeClaimInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-pvcs.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("persistentvolumeclaims");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_pvcs_json(&output_str)
}
fn parse_pvcs_json(json_str: &str) -> Result<Vec<PersistentVolumeClaimInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut pvcs = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let status = item
.get("status")
.and_then(|s| s.get("phase"))
.and_then(|p| p.as_str())
.unwrap_or("Unknown")
.to_string();
let volume = item
.get("spec")
.and_then(|s| s.get("volumeName"))
.and_then(|v| v.as_str())
.unwrap_or("N/A")
.to_string();
let capacity = item
.get("status")
.and_then(|s| s.get("capacity"))
.and_then(|c| c.as_object())
.map(|c| {
let storage = c.get("storage").and_then(|s| s.as_str()).unwrap_or("N/A");
storage.to_string()
})
.unwrap_or("N/A".to_string());
let access_modes = item
.get("spec")
.and_then(|s| s.get("accessModes"))
.and_then(|a| a.as_array())
.map(|modes| {
modes
.iter()
.filter_map(|m| m.as_str().map(|s| s.to_string()))
.collect()
})
.unwrap_or_default();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
pvcs.push(PersistentVolumeClaimInfo {
name,
namespace,
status,
volume,
capacity,
access_modes,
age,
});
}
Ok(pvcs)
}
#[tauri::command]
pub async fn list_persistentvolumes(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<PersistentVolumeInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-pvs.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("persistentvolumes")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_pvs_json(&output_str)
}
fn parse_pvs_json(json_str: &str) -> Result<Vec<PersistentVolumeInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut pvs = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let status = item
.get("status")
.and_then(|s| s.get("phase"))
.and_then(|p| p.as_str())
.unwrap_or("Unknown")
.to_string();
let capacity = item
.get("spec")
.and_then(|s| s.get("capacity"))
.and_then(|c| c.as_object())
.map(|c| {
let storage = c.get("storage").and_then(|s| s.as_str()).unwrap_or("N/A");
storage.to_string()
})
.unwrap_or("N/A".to_string());
let access_modes = item
.get("spec")
.and_then(|s| s.get("accessModes"))
.and_then(|a| a.as_array())
.map(|modes| {
modes
.iter()
.filter_map(|m| m.as_str().map(|s| s.to_string()))
.collect()
})
.unwrap_or_default();
let reclaim_policy = item
.get("spec")
.and_then(|s| s.get("persistentVolumeReclaimPolicy"))
.and_then(|r| r.as_str())
.unwrap_or("Retain")
.to_string();
let storage_class = item
.get("spec")
.and_then(|s| s.get("storageClassName"))
.and_then(|s| s.as_str())
.unwrap_or("N/A")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
pvs.push(PersistentVolumeInfo {
name,
status,
capacity,
access_modes,
reclaim_policy,
storage_class,
age,
});
}
Ok(pvs)
}
#[tauri::command]
pub async fn list_serviceaccounts(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<ServiceAccountInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-sas.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("serviceaccounts");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_serviceaccounts_json(&output_str)
}
fn parse_serviceaccounts_json(json_str: &str) -> Result<Vec<ServiceAccountInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut serviceaccounts = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let secrets = item
.get("secrets")
.and_then(|s| s.as_array())
.map(|s| s.len() as i32)
.unwrap_or(0);
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
serviceaccounts.push(ServiceAccountInfo {
name,
namespace,
secrets,
age,
});
}
Ok(serviceaccounts)
}
#[tauri::command]
pub async fn list_roles(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<RoleInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-roles.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("roles");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_roles_json(&output_str)
}
fn parse_roles_json(json_str: &str) -> Result<Vec<RoleInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut roles = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
roles.push(RoleInfo {
name,
namespace,
age,
});
}
Ok(roles)
}
#[tauri::command]
pub async fn list_clusterroles(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<ClusterRoleInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-clusterroles.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("clusterroles")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_clusterroles_json(&output_str)
}
fn parse_clusterroles_json(json_str: &str) -> Result<Vec<ClusterRoleInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut clusterroles = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
clusterroles.push(ClusterRoleInfo { name, age });
}
Ok(clusterroles)
}
#[tauri::command]
pub async fn list_rolebindings(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<RoleBindingInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-rolebindings.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("rolebindings");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_rolebindings_json(&output_str)
}
fn parse_rolebindings_json(json_str: &str) -> Result<Vec<RoleBindingInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut rolebindings = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let role = item
.get("roleRef")
.and_then(|r| r.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
rolebindings.push(RoleBindingInfo {
name,
namespace,
role,
age,
});
}
Ok(rolebindings)
}
#[tauri::command]
pub async fn list_clusterrolebindings(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<ClusterRoleBindingInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!(
"kubeconfig-{}-clusterrolebindings.yaml",
cluster_id
));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("clusterrolebindings")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_clusterrolebindings_json(&output_str)
}
fn parse_clusterrolebindings_json(json_str: &str) -> Result<Vec<ClusterRoleBindingInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut clusterrolebindings = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let cluster_role = item
.get("roleRef")
.and_then(|r| r.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
clusterrolebindings.push(ClusterRoleBindingInfo {
name,
cluster_role,
age,
});
}
Ok(clusterrolebindings)
}
#[tauri::command]
pub async fn list_horizontalpodautoscalers(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<HorizontalPodAutoscalerInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-hpas.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("horizontalpodautoscalers");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_hpas_json(&output_str)
}
fn parse_hpas_json(json_str: &str) -> Result<Vec<HorizontalPodAutoscalerInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut hpas = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let min_replicas = item
.get("spec")
.and_then(|s| s.get("minReplicas"))
.and_then(|r| r.as_i64())
.unwrap_or(1) as i32;
let max_replicas = item
.get("spec")
.and_then(|s| s.get("maxReplicas"))
.and_then(|r| r.as_i64())
.unwrap_or(1) as i32;
let current_replicas = item
.get("status")
.and_then(|s| s.get("currentReplicas"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let desired_replicas = item
.get("status")
.and_then(|s| s.get("desiredReplicas"))
.and_then(|r| r.as_i64())
.unwrap_or(0) as i32;
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
hpas.push(HorizontalPodAutoscalerInfo {
name,
namespace,
min_replicas,
max_replicas,
current_replicas,
desired_replicas,
age,
});
}
Ok(hpas)
}
#[tauri::command]
pub async fn list_storageclasses(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<Vec<StorageClassInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-storageclasses.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("get")
.arg("storageclasses")
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_storageclasses_json(&output_str)
}
fn parse_storageclasses_json(json_str: &str) -> Result<Vec<StorageClassInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut storageclasses = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let provisioner = item
.get("provisioner")
.and_then(|p| p.as_str())
.unwrap_or("unknown")
.to_string();
let reclaim_policy = item
.get("reclaimPolicy")
.and_then(|r| r.as_str())
.unwrap_or("Delete")
.to_string();
let volume_binding_mode = item
.get("volumeBindingMode")
.and_then(|v| v.as_str())
.unwrap_or("Immediate")
.to_string();
let allow_volume_expansion = item
.get("allowVolumeExpansion")
.and_then(|a| a.as_bool())
.unwrap_or(false);
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
storageclasses.push(StorageClassInfo {
name,
provisioner,
reclaim_policy,
volume_binding_mode,
allow_volume_expansion,
age,
});
}
Ok(storageclasses)
}
#[tauri::command]
pub async fn list_networkpolicies(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<NetworkPolicyInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-networkpolicies.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("networkpolicies");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_networkpolicies_json(&output_str)
}
fn parse_networkpolicies_json(json_str: &str) -> Result<Vec<NetworkPolicyInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut networkpolicies = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let pod_selector = item
.get("spec")
.and_then(|s| s.get("podSelector"))
.map(|ps| serde_json::to_string(ps).unwrap_or_default())
.unwrap_or_default();
let policy_types = item
.get("spec")
.and_then(|s| s.get("policyTypes"))
.and_then(|pt| pt.as_array())
.map(|types| {
types
.iter()
.filter_map(|t| t.as_str().map(|s| s.to_string()))
.collect()
})
.unwrap_or_default();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
networkpolicies.push(NetworkPolicyInfo {
name,
namespace,
pod_selector,
policy_types,
age,
});
}
Ok(networkpolicies)
}
#[tauri::command]
pub async fn list_resourcequotas(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<ResourceQuotaInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-resourcequotas.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("resourcequotas");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_resourcequotas_json(&output_str)
}
fn parse_resourcequotas_json(json_str: &str) -> Result<Vec<ResourceQuotaInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut resourcequotas = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let hard = item.get("status").and_then(|s| s.get("hard"));
let request_cpu = hard
.and_then(|h| h.get("requests.cpu"))
.and_then(|v| v.as_str())
.unwrap_or("")
.to_string();
let request_memory = hard
.and_then(|h| h.get("requests.memory"))
.and_then(|v| v.as_str())
.unwrap_or("")
.to_string();
let limit_cpu = hard
.and_then(|h| h.get("limits.cpu"))
.and_then(|v| v.as_str())
.unwrap_or("")
.to_string();
let limit_memory = hard
.and_then(|h| h.get("limits.memory"))
.and_then(|v| v.as_str())
.unwrap_or("")
.to_string();
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
resourcequotas.push(ResourceQuotaInfo {
name,
namespace,
request_cpu,
request_memory,
limit_cpu,
limit_memory,
age,
});
}
Ok(resourcequotas)
}
#[tauri::command]
pub async fn list_limitranges(
cluster_id: String,
namespace: String,
state: State<'_, AppState>,
) -> Result<Vec<LimitRangeInfo>, String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-limitranges.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut kubectl_cmd = Command::new(kubectl_path);
kubectl_cmd.arg("get").arg("limitranges");
if namespace.is_empty() {
kubectl_cmd.arg("--all-namespaces");
} else {
kubectl_cmd.arg("-n").arg(&namespace);
}
let output = kubectl_cmd
.arg("-o")
.arg("json")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
let output_str = String::from_utf8_lossy(&output.stdout);
parse_limitranges_json(&output_str)
}
fn parse_limitranges_json(json_str: &str) -> Result<Vec<LimitRangeInfo>, String> {
let value: Value = serde_json::from_str(json_str)
.map_err(|e| format!("Failed to parse kubectl JSON output: {}", e))?;
let items = value
.get("items")
.and_then(|i| i.as_array())
.ok_or("Missing 'items' array in kubectl JSON output")?;
let mut limitranges = Vec::new();
for item in items {
let name = item
.get("metadata")
.and_then(|m| m.get("name"))
.and_then(|n| n.as_str())
.unwrap_or("unknown")
.to_string();
let namespace = item
.get("metadata")
.and_then(|m| m.get("namespace"))
.and_then(|n| n.as_str())
.unwrap_or("default")
.to_string();
let limit_count = item
.get("spec")
.and_then(|s| s.get("limits"))
.and_then(|l| l.as_array())
.map(|l| l.len())
.unwrap_or(0);
let age = item
.get("metadata")
.and_then(|m| m.get("creationTimestamp"))
.and_then(|c| c.as_str())
.map(parse_creation_timestamp)
.unwrap_or("N/A".to_string());
limitranges.push(LimitRangeInfo {
name,
namespace,
limit_count,
age,
});
}
Ok(limitranges)
}
#[tauri::command]
pub async fn cordon_node(
cluster_id: String,
node_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-cordon.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("cordon")
.arg(node_name)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn uncordon_node(
cluster_id: String,
node_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-uncordon.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("uncordon")
.arg(node_name)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn drain_node(
cluster_id: String,
node_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-drain.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("drain")
.arg(node_name)
.arg("--ignore-daemonsets")
.arg("--delete-emptydir-data")
.arg("--force")
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn rollback_deployment(
cluster_id: String,
namespace: String,
deployment_name: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-rollback.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let output = Command::new(kubectl_path)
.arg("rollout")
.arg("undo")
.arg("deployment")
.arg(deployment_name)
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn create_resource(
cluster_id: String,
namespace: String,
_resource_type: String,
yaml_content: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-create.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut cmd = Command::new(kubectl_path);
cmd.arg("create")
.arg("-f")
.arg("-")
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.stderr(Stdio::piped());
let mut child = cmd
.spawn()
.map_err(|e| format!("Failed to spawn kubectl: {e}"))?;
if let Some(mut stdin) = child.stdin.take() {
stdin
.write_all(yaml_content.as_bytes())
.await
.map_err(|e| format!("Failed to write yaml to stdin: {e}"))?;
}
let output = child
.wait_with_output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn edit_resource(
cluster_id: String,
namespace: String,
_resource_type: String,
_resource_name: String,
yaml_content: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let clusters = state.clusters.lock().await;
let cluster = clusters
.get(&cluster_id)
.ok_or_else(|| format!("Cluster {} not found", cluster_id))?;
let kubeconfig_content = cluster.kubeconfig_content.as_ref();
let context = &cluster.context;
let temp_dir = std::env::temp_dir();
let temp_path = temp_dir.join(format!("kubeconfig-{}-edit.yaml", cluster_id));
let _cleanup = TempFileCleanup(temp_path.clone());
std::fs::write(&temp_path, kubeconfig_content)
.map_err(|e| format!("Failed to write kubeconfig temp file: {e}"))?;
let kubectl_path = locate_kubectl()?;
let mut cmd = Command::new(kubectl_path);
cmd.arg("apply")
.arg("-f")
.arg("-")
.arg("-n")
.arg(namespace)
.arg("--kubeconfig")
.arg(&temp_path)
.arg("--context")
.arg(context.as_str())
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.stderr(Stdio::piped());
let mut child = cmd
.spawn()
.map_err(|e| format!("Failed to spawn kubectl: {e}"))?;
if let Some(mut stdin) = child.stdin.take() {
stdin
.write_all(yaml_content.as_bytes())
.await
.map_err(|e| format!("Failed to write yaml to stdin: {e}"))?;
}
let output = child
.wait_with_output()
.await
.map_err(|e| format!("Failed to execute kubectl: {e}"))?;
if !output.status.success() {
let stderr = String::from_utf8_lossy(&output.stderr);
return Err(stderr.to_string());
}
Ok(())
}
#[tauri::command]
pub async fn subscribe_to_k8s_events(
cluster_id: String,
namespace: String,
resource_type: String,
state: State<'_, AppState>,
) -> Result<String, String> {
let _app_state = state.inner();
let rx = crate::kube::start_resource_watcher(_app_state, cluster_id, namespace, resource_type)
.await
.map_err(|e| format!("Failed to start watcher: {e}"))?;
let duration = std::time::SystemTime::now()
.duration_since(std::time::UNIX_EPOCH)
.map_err(|e| format!("Failed to get duration: {e}"))?;
let unsubscribe_id = format!("watcher-{}", duration.as_millis());
state
.inner()
.watchers
.lock()
.unwrap()
.insert(unsubscribe_id.clone(), rx);
Ok(unsubscribe_id)
}
#[tauri::command]
pub async fn subscribe_to_all_k8s_events(
cluster_id: String,
state: State<'_, AppState>,
) -> Result<String, String> {
let _app_state = state.inner();
let rx = crate::kube::start_all_resources_watcher(_app_state, cluster_id)
.await
.map_err(|e| format!("Failed to start all watcher: {e}"))?;
let duration = std::time::SystemTime::now()
.duration_since(std::time::UNIX_EPOCH)
.map_err(|e| format!("Failed to get duration: {e}"))?;
let unsubscribe_id = format!("watcher-all-{}", duration.as_millis());
state
.inner()
.watchers
.lock()
.unwrap()
.insert(unsubscribe_id.clone(), rx);
Ok(unsubscribe_id)
}
#[tauri::command]
pub async fn unsubscribe_from_k8s_events(
unsubscribe_id: String,
state: State<'_, AppState>,
) -> Result<(), String> {
let removed = state
.inner()
.watchers
.lock()
.unwrap()
.remove(&unsubscribe_id);
if removed.is_none() {
return Err(format!("Watcher {} not found", unsubscribe_id));
}
Ok(())
}
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