1use std::collections::{BTreeMap, HashMap, HashSet};
2use std::fs::File;
3use std::io::Read;
4use std::path::{Path, PathBuf};
5use std::str::FromStr;
6use std::sync::Arc;
7use std::time::Duration;
8
9use crate::cache::{ArtifactKey, CacheConfig, CacheManager, CpuPolicy, EngineProfile};
10use crate::component_api::{
11 self, node::ExecCtx as ComponentExecCtx, node::InvokeResult, node::NodeError,
12};
13use crate::oauth::{OAuthBrokerConfig, OAuthBrokerHost, OAuthHostContext};
14use crate::provider::{ProviderBinding, ProviderRegistry};
15use crate::provider_core::SchemaCorePre as ProviderComponentPre;
16use crate::provider_core_only;
17use crate::runtime_wasmtime::{Component, Engine, InstancePre, Linker, ResourceTable};
18use anyhow::{Context, Result, anyhow, bail};
19use futures::executor::block_on;
20use greentic_distributor_client::dist::{DistClient, DistError, DistOptions};
21use greentic_interfaces_wasmtime::host_helpers::v1::{
22 self as host_v1, HostFns, add_all_v1_to_linker,
23 runner_host_http::RunnerHostHttp,
24 runner_host_kv::RunnerHostKv,
25 secrets_store::{SecretsError, SecretsErrorV1_1, SecretsStoreHost, SecretsStoreHostV1_1},
26 state_store::{
27 OpAck as StateOpAck, StateKey as HostStateKey, StateStoreError as StateError,
28 StateStoreHost, TenantCtx as StateTenantCtx,
29 },
30 telemetry_logger::{
31 OpAck as TelemetryAck, SpanContext as TelemetrySpanContext,
32 TelemetryLoggerError as TelemetryError, TelemetryLoggerHost,
33 TenantCtx as TelemetryTenantCtx,
34 },
35};
36use greentic_interfaces_wasmtime::http_client_client_v1_0::greentic::interfaces_types::types::Impersonation as ImpersonationV1_0;
37use greentic_interfaces_wasmtime::http_client_client_v1_1::greentic::interfaces_types::types::Impersonation as ImpersonationV1_1;
38use greentic_pack::builder as legacy_pack;
39use greentic_types::flow::FlowHasher;
40use greentic_types::{
41 ArtifactLocationV1, ComponentId, ComponentManifest, ComponentSourceRef, ComponentSourcesV1,
42 EXT_COMPONENT_SOURCES_V1, EnvId, ExtensionRef, Flow, FlowComponentRef, FlowId, FlowKind,
43 FlowMetadata, InputMapping, Node, NodeId, OutputMapping, Routing, StateKey as StoreStateKey,
44 TeamId, TelemetryHints, TenantCtx as TypesTenantCtx, TenantId, UserId, decode_pack_manifest,
45 pack_manifest::ExtensionInline,
46};
47use host_v1::http_client::{
48 HttpClientError, HttpClientErrorV1_1, HttpClientHost, HttpClientHostV1_1,
49 Request as HttpRequest, RequestOptionsV1_1 as HttpRequestOptionsV1_1,
50 RequestV1_1 as HttpRequestV1_1, Response as HttpResponse, ResponseV1_1 as HttpResponseV1_1,
51 TenantCtx as HttpTenantCtx, TenantCtxV1_1 as HttpTenantCtxV1_1,
52};
53use indexmap::IndexMap;
54use once_cell::sync::Lazy;
55use parking_lot::{Mutex, RwLock};
56use reqwest::blocking::Client as BlockingClient;
57use runner_core::normalize_under_root;
58use serde::{Deserialize, Serialize};
59use serde_cbor;
60use serde_json::{self, Value};
61use sha2::Digest;
62use tempfile::TempDir;
63use tokio::fs;
64use wasmparser::{Parser, Payload};
65use wasmtime::{Store, StoreContextMut};
66use zip::ZipArchive;
67
68use crate::runner::engine::{FlowContext, FlowEngine, FlowStatus};
69use crate::runner::flow_adapter::{FlowIR, flow_doc_to_ir, flow_ir_to_flow};
70use crate::runner::mocks::{HttpDecision, HttpMockRequest, HttpMockResponse, MockLayer};
71#[cfg(feature = "fault-injection")]
72use crate::testing::fault_injection::{FaultContext, FaultPoint, maybe_fail};
73
74use crate::config::HostConfig;
75use crate::fault;
76use crate::secrets::{DynSecretsManager, read_secret_blocking, write_secret_blocking};
77use crate::storage::state::STATE_PREFIX;
78use crate::storage::{DynSessionStore, DynStateStore};
79use crate::verify;
80use crate::wasi::{PreopenSpec, RunnerWasiPolicy};
81use tracing::warn;
82use wasmtime_wasi::p2::add_to_linker_sync as add_wasi_to_linker;
83use wasmtime_wasi::{WasiCtx, WasiCtxView, WasiView};
84
85use greentic_flow::model::FlowDoc;
86
87#[allow(dead_code)]
88pub struct PackRuntime {
89 path: PathBuf,
91 archive_path: Option<PathBuf>,
93 config: Arc<HostConfig>,
94 engine: Engine,
95 metadata: PackMetadata,
96 manifest: Option<greentic_types::PackManifest>,
97 legacy_manifest: Option<Box<legacy_pack::PackManifest>>,
98 component_manifests: HashMap<String, ComponentManifest>,
99 mocks: Option<Arc<MockLayer>>,
100 flows: Option<PackFlows>,
101 components: HashMap<String, PackComponent>,
102 http_client: Arc<BlockingClient>,
103 pre_cache: Mutex<HashMap<String, InstancePre<ComponentState>>>,
104 session_store: Option<DynSessionStore>,
105 state_store: Option<DynStateStore>,
106 wasi_policy: Arc<RunnerWasiPolicy>,
107 assets_tempdir: Option<TempDir>,
108 provider_registry: RwLock<Option<ProviderRegistry>>,
109 secrets: DynSecretsManager,
110 oauth_config: Option<OAuthBrokerConfig>,
111 cache: CacheManager,
112}
113
114struct PackComponent {
115 #[allow(dead_code)]
116 name: String,
117 #[allow(dead_code)]
118 version: String,
119 component: Arc<Component>,
120}
121
122fn run_on_wasi_thread<F, T>(task_name: &'static str, task: F) -> Result<T>
123where
124 F: FnOnce() -> Result<T> + Send + 'static,
125 T: Send + 'static,
126{
127 let builder = std::thread::Builder::new().name(format!("greentic-wasmtime-{task_name}"));
128 let handle = builder
129 .spawn(move || {
130 let pid = std::process::id();
131 let thread_id = std::thread::current().id();
132 let tokio_handle_present = tokio::runtime::Handle::try_current().is_ok();
133 tracing::info!(
134 event = "wasmtime.thread.start",
135 task = task_name,
136 pid,
137 thread_id = ?thread_id,
138 tokio_handle_present,
139 "starting Wasmtime thread"
140 );
141 task()
142 })
143 .context("failed to spawn Wasmtime thread")?;
144 handle
145 .join()
146 .map_err(|err| {
147 let reason = if let Some(msg) = err.downcast_ref::<&str>() {
148 msg.to_string()
149 } else if let Some(msg) = err.downcast_ref::<String>() {
150 msg.clone()
151 } else {
152 "unknown panic".to_string()
153 };
154 anyhow!("Wasmtime thread panicked: {reason}")
155 })
156 .and_then(|res| res)
157}
158
159#[derive(Debug, Default, Clone)]
160pub struct ComponentResolution {
161 pub materialized_root: Option<PathBuf>,
163 pub overrides: HashMap<String, PathBuf>,
165 pub dist_offline: bool,
167 pub dist_cache_dir: Option<PathBuf>,
169 pub allow_missing_hash: bool,
171}
172
173fn build_blocking_client() -> BlockingClient {
174 std::thread::spawn(|| {
175 BlockingClient::builder()
176 .no_proxy()
177 .build()
178 .expect("blocking client")
179 })
180 .join()
181 .expect("client build thread panicked")
182}
183
184fn normalize_pack_path(path: &Path) -> Result<(PathBuf, PathBuf)> {
185 let (root, candidate) = if path.is_absolute() {
186 let parent = path
187 .parent()
188 .ok_or_else(|| anyhow!("pack path {} has no parent", path.display()))?;
189 let root = parent
190 .canonicalize()
191 .with_context(|| format!("failed to canonicalize {}", parent.display()))?;
192 let file = path
193 .file_name()
194 .ok_or_else(|| anyhow!("pack path {} has no file name", path.display()))?;
195 (root, PathBuf::from(file))
196 } else {
197 let cwd = std::env::current_dir().context("failed to resolve current directory")?;
198 let base = if let Some(parent) = path.parent() {
199 cwd.join(parent)
200 } else {
201 cwd
202 };
203 let root = base
204 .canonicalize()
205 .with_context(|| format!("failed to canonicalize {}", base.display()))?;
206 let file = path
207 .file_name()
208 .ok_or_else(|| anyhow!("pack path {} has no file name", path.display()))?;
209 (root, PathBuf::from(file))
210 };
211 let safe = normalize_under_root(&root, &candidate)?;
212 Ok((root, safe))
213}
214
215static HTTP_CLIENT: Lazy<Arc<BlockingClient>> = Lazy::new(|| Arc::new(build_blocking_client()));
216
217#[derive(Debug, Clone, Serialize, Deserialize)]
218pub struct FlowDescriptor {
219 pub id: String,
220 #[serde(rename = "type")]
221 pub flow_type: String,
222 pub pack_id: String,
223 pub profile: String,
224 pub version: String,
225 #[serde(default)]
226 pub description: Option<String>,
227}
228
229pub struct HostState {
230 #[allow(dead_code)]
231 pack_id: String,
232 config: Arc<HostConfig>,
233 http_client: Arc<BlockingClient>,
234 default_env: String,
235 #[allow(dead_code)]
236 session_store: Option<DynSessionStore>,
237 state_store: Option<DynStateStore>,
238 mocks: Option<Arc<MockLayer>>,
239 secrets: DynSecretsManager,
240 oauth_config: Option<OAuthBrokerConfig>,
241 oauth_host: OAuthBrokerHost,
242 exec_ctx: Option<ComponentExecCtx>,
243 component_ref: Option<String>,
244 provider_core_component: bool,
245}
246
247impl HostState {
248 #[allow(clippy::default_constructed_unit_structs)]
249 #[allow(clippy::too_many_arguments)]
250 pub fn new(
251 pack_id: String,
252 config: Arc<HostConfig>,
253 http_client: Arc<BlockingClient>,
254 mocks: Option<Arc<MockLayer>>,
255 session_store: Option<DynSessionStore>,
256 state_store: Option<DynStateStore>,
257 secrets: DynSecretsManager,
258 oauth_config: Option<OAuthBrokerConfig>,
259 exec_ctx: Option<ComponentExecCtx>,
260 component_ref: Option<String>,
261 provider_core_component: bool,
262 ) -> Result<Self> {
263 let default_env = std::env::var("GREENTIC_ENV").unwrap_or_else(|_| "local".to_string());
264 Ok(Self {
265 pack_id,
266 config,
267 http_client,
268 default_env,
269 session_store,
270 state_store,
271 mocks,
272 secrets,
273 oauth_config,
274 oauth_host: OAuthBrokerHost::default(),
275 exec_ctx,
276 component_ref,
277 provider_core_component,
278 })
279 }
280
281 fn instantiate_component_result(
282 linker: &mut Linker<ComponentState>,
283 store: &mut Store<ComponentState>,
284 component: &Component,
285 ctx: &ComponentExecCtx,
286 operation: &str,
287 input_json: &str,
288 ) -> Result<InvokeResult> {
289 let pre_instance = linker.instantiate_pre(component)?;
290 match component_api::v0_5::ComponentPre::new(pre_instance) {
291 Ok(pre) => {
292 let result = block_on(async {
293 let bindings = pre.instantiate_async(&mut *store).await?;
294 let node = bindings.greentic_component_node();
295 let ctx_v05 = component_api::exec_ctx_v0_5(ctx);
296 let operation_owned = operation.to_string();
297 let input_owned = input_json.to_string();
298 node.call_invoke(&mut *store, &ctx_v05, &operation_owned, &input_owned)
299 })?;
300 Ok(component_api::invoke_result_from_v0_5(result))
301 }
302 Err(err) => {
303 if is_missing_node_export(&err, "0.5.0") {
304 let pre_instance = linker.instantiate_pre(component)?;
305 let pre: component_api::v0_4::ComponentPre<ComponentState> =
306 component_api::v0_4::ComponentPre::new(pre_instance)?;
307 let result = block_on(async {
308 let bindings = pre.instantiate_async(&mut *store).await?;
309 let node = bindings.greentic_component_node();
310 let ctx_v04 = component_api::exec_ctx_v0_4(ctx);
311 let operation_owned = operation.to_string();
312 let input_owned = input_json.to_string();
313 node.call_invoke(&mut *store, &ctx_v04, &operation_owned, &input_owned)
314 })?;
315 Ok(component_api::invoke_result_from_v0_4(result))
316 } else {
317 Err(err)
318 }
319 }
320 }
321 }
322
323 fn convert_invoke_result(result: InvokeResult) -> Result<Value> {
324 match result {
325 InvokeResult::Ok(body) => {
326 if body.is_empty() {
327 return Ok(Value::Null);
328 }
329 serde_json::from_str(&body).or_else(|_| Ok(Value::String(body)))
330 }
331 InvokeResult::Err(NodeError {
332 code,
333 message,
334 retryable,
335 backoff_ms,
336 details,
337 }) => {
338 let mut obj = serde_json::Map::new();
339 obj.insert("ok".into(), Value::Bool(false));
340 let mut error = serde_json::Map::new();
341 error.insert("code".into(), Value::String(code));
342 error.insert("message".into(), Value::String(message));
343 error.insert("retryable".into(), Value::Bool(retryable));
344 if let Some(backoff) = backoff_ms {
345 error.insert("backoff_ms".into(), Value::Number(backoff.into()));
346 }
347 if let Some(details) = details {
348 error.insert(
349 "details".into(),
350 serde_json::from_str(&details).unwrap_or(Value::String(details)),
351 );
352 }
353 obj.insert("error".into(), Value::Object(error));
354 Ok(Value::Object(obj))
355 }
356 }
357 }
358
359 pub fn get_secret(&self, key: &str) -> Result<String> {
360 if provider_core_only::is_enabled() {
361 bail!(provider_core_only::blocked_message("secrets"))
362 }
363 if !self.config.secrets_policy.is_allowed(key) {
364 bail!("secret {key} is not permitted by bindings policy");
365 }
366 if let Some(mock) = &self.mocks
367 && let Some(value) = mock.secrets_lookup(key)
368 {
369 return Ok(value);
370 }
371 let ctx = self.config.tenant_ctx();
372 let bytes = read_secret_blocking(&self.secrets, &ctx, key)
373 .context("failed to read secret from manager")?;
374 let value = String::from_utf8(bytes).context("secret value is not valid UTF-8")?;
375 Ok(value)
376 }
377
378 fn allows_secret_write_in_provider_core_only(&self) -> bool {
379 self.provider_core_component || self.component_ref.is_none()
380 }
381
382 fn tenant_ctx_from_v1(&self, ctx: Option<StateTenantCtx>) -> Result<TypesTenantCtx> {
383 let tenant_raw = ctx
384 .as_ref()
385 .map(|ctx| ctx.tenant.clone())
386 .or_else(|| self.exec_ctx.as_ref().map(|ctx| ctx.tenant.tenant.clone()))
387 .unwrap_or_else(|| self.config.tenant.clone());
388 let env_raw = ctx
389 .as_ref()
390 .map(|ctx| ctx.env.clone())
391 .unwrap_or_else(|| self.default_env.clone());
392 let tenant_id = TenantId::from_str(&tenant_raw)
393 .with_context(|| format!("invalid tenant id `{tenant_raw}`"))?;
394 let env_id = EnvId::from_str(&env_raw)
395 .unwrap_or_else(|_| EnvId::from_str("local").expect("default env must be valid"));
396 let mut tenant_ctx = TypesTenantCtx::new(env_id, tenant_id);
397 if let Some(exec_ctx) = self.exec_ctx.as_ref() {
398 if let Some(team) = exec_ctx.tenant.team.as_ref() {
399 let team_id =
400 TeamId::from_str(team).with_context(|| format!("invalid team id `{team}`"))?;
401 tenant_ctx = tenant_ctx.with_team(Some(team_id));
402 }
403 if let Some(user) = exec_ctx.tenant.user.as_ref() {
404 let user_id =
405 UserId::from_str(user).with_context(|| format!("invalid user id `{user}`"))?;
406 tenant_ctx = tenant_ctx.with_user(Some(user_id));
407 }
408 tenant_ctx = tenant_ctx.with_flow(exec_ctx.flow_id.clone());
409 if let Some(node) = exec_ctx.node_id.as_ref() {
410 tenant_ctx = tenant_ctx.with_node(node.clone());
411 }
412 if let Some(session) = exec_ctx.tenant.correlation_id.as_ref() {
413 tenant_ctx = tenant_ctx.with_session(session.clone());
414 }
415 tenant_ctx.trace_id = exec_ctx.tenant.trace_id.clone();
416 }
417
418 if let Some(ctx) = ctx {
419 if let Some(team) = ctx.team.or(ctx.team_id) {
420 let team_id =
421 TeamId::from_str(&team).with_context(|| format!("invalid team id `{team}`"))?;
422 tenant_ctx = tenant_ctx.with_team(Some(team_id));
423 }
424 if let Some(user) = ctx.user.or(ctx.user_id) {
425 let user_id =
426 UserId::from_str(&user).with_context(|| format!("invalid user id `{user}`"))?;
427 tenant_ctx = tenant_ctx.with_user(Some(user_id));
428 }
429 if let Some(flow) = ctx.flow_id {
430 tenant_ctx = tenant_ctx.with_flow(flow);
431 }
432 if let Some(node) = ctx.node_id {
433 tenant_ctx = tenant_ctx.with_node(node);
434 }
435 if let Some(provider) = ctx.provider_id {
436 tenant_ctx = tenant_ctx.with_provider(provider);
437 }
438 if let Some(session) = ctx.session_id {
439 tenant_ctx = tenant_ctx.with_session(session);
440 }
441 tenant_ctx.trace_id = ctx.trace_id;
442 }
443 Ok(tenant_ctx)
444 }
445
446 fn send_http_request(
447 &mut self,
448 req: HttpRequest,
449 opts: Option<HttpRequestOptionsV1_1>,
450 _ctx: Option<HttpTenantCtx>,
451 ) -> Result<HttpResponse, HttpClientError> {
452 if !self.config.http_enabled {
453 return Err(HttpClientError {
454 code: "denied".into(),
455 message: "http client disabled by policy".into(),
456 });
457 }
458
459 let mut mock_state = None;
460 let raw_body = req.body.clone();
461 if let Some(mock) = &self.mocks
462 && let Ok(meta) = HttpMockRequest::new(&req.method, &req.url, raw_body.as_deref())
463 {
464 match mock.http_begin(&meta) {
465 HttpDecision::Mock(response) => {
466 let headers = response
467 .headers
468 .iter()
469 .map(|(k, v)| (k.clone(), v.clone()))
470 .collect();
471 return Ok(HttpResponse {
472 status: response.status,
473 headers,
474 body: response.body.clone().map(|b| b.into_bytes()),
475 });
476 }
477 HttpDecision::Deny(reason) => {
478 return Err(HttpClientError {
479 code: "denied".into(),
480 message: reason,
481 });
482 }
483 HttpDecision::Passthrough { record } => {
484 mock_state = Some((meta, record));
485 }
486 }
487 }
488
489 let method = req.method.parse().unwrap_or(reqwest::Method::GET);
490 let mut builder = self.http_client.request(method, &req.url);
491 for (key, value) in req.headers {
492 if let Ok(header) = reqwest::header::HeaderName::from_bytes(key.as_bytes())
493 && let Ok(header_value) = reqwest::header::HeaderValue::from_str(&value)
494 {
495 builder = builder.header(header, header_value);
496 }
497 }
498
499 if let Some(body) = raw_body.clone() {
500 builder = builder.body(body);
501 }
502
503 if let Some(opts) = opts {
504 if let Some(timeout_ms) = opts.timeout_ms {
505 builder = builder.timeout(Duration::from_millis(timeout_ms as u64));
506 }
507 if opts.allow_insecure == Some(true) {
508 warn!(url = %req.url, "allow-insecure not supported; using default TLS validation");
509 }
510 if let Some(follow_redirects) = opts.follow_redirects
511 && !follow_redirects
512 {
513 warn!(url = %req.url, "follow-redirects=false not supported; using default client behaviour");
514 }
515 }
516
517 let response = match builder.send() {
518 Ok(resp) => resp,
519 Err(err) => {
520 warn!(url = %req.url, error = %err, "http client request failed");
521 return Err(HttpClientError {
522 code: "unavailable".into(),
523 message: err.to_string(),
524 });
525 }
526 };
527
528 let status = response.status().as_u16();
529 let headers_vec = response
530 .headers()
531 .iter()
532 .map(|(k, v)| {
533 (
534 k.as_str().to_string(),
535 v.to_str().unwrap_or_default().to_string(),
536 )
537 })
538 .collect::<Vec<_>>();
539 let body_bytes = response.bytes().ok().map(|b| b.to_vec());
540
541 if let Some((meta, true)) = mock_state.take()
542 && let Some(mock) = &self.mocks
543 {
544 let recorded = HttpMockResponse::new(
545 status,
546 headers_vec.clone().into_iter().collect(),
547 body_bytes
548 .as_ref()
549 .map(|b| String::from_utf8_lossy(b).into_owned()),
550 );
551 mock.http_record(&meta, &recorded);
552 }
553
554 Ok(HttpResponse {
555 status,
556 headers: headers_vec,
557 body: body_bytes,
558 })
559 }
560}
561
562impl SecretsStoreHost for HostState {
563 fn get(&mut self, key: String) -> Result<Option<Vec<u8>>, SecretsError> {
564 if provider_core_only::is_enabled() {
565 warn!(secret = %key, "provider-core only mode enabled; blocking secrets store");
566 return Err(SecretsError::Denied);
567 }
568 if !self.config.secrets_policy.is_allowed(&key) {
569 return Err(SecretsError::Denied);
570 }
571 if let Some(mock) = &self.mocks
572 && let Some(value) = mock.secrets_lookup(&key)
573 {
574 return Ok(Some(value.into_bytes()));
575 }
576 let ctx = self.config.tenant_ctx();
577 match read_secret_blocking(&self.secrets, &ctx, &key) {
578 Ok(bytes) => Ok(Some(bytes)),
579 Err(err) => {
580 warn!(secret = %key, error = %err, "secret lookup failed");
581 Err(SecretsError::NotFound)
582 }
583 }
584 }
585}
586
587impl SecretsStoreHostV1_1 for HostState {
588 fn get(&mut self, key: String) -> Result<Option<Vec<u8>>, SecretsErrorV1_1> {
589 if provider_core_only::is_enabled() {
590 warn!(secret = %key, "provider-core only mode enabled; blocking secrets store");
591 return Err(SecretsErrorV1_1::Denied);
592 }
593 if !self.config.secrets_policy.is_allowed(&key) {
594 return Err(SecretsErrorV1_1::Denied);
595 }
596 if let Some(mock) = &self.mocks
597 && let Some(value) = mock.secrets_lookup(&key)
598 {
599 return Ok(Some(value.into_bytes()));
600 }
601 let ctx = self.config.tenant_ctx();
602 match read_secret_blocking(&self.secrets, &ctx, &key) {
603 Ok(bytes) => Ok(Some(bytes)),
604 Err(err) => {
605 warn!(secret = %key, error = %err, "secret lookup failed");
606 Err(SecretsErrorV1_1::NotFound)
607 }
608 }
609 }
610
611 fn put(&mut self, key: String, value: Vec<u8>) {
612 if key.trim().is_empty() {
613 warn!(secret = %key, "secret write blocked: empty key");
614 panic!("secret write denied for key {key}: invalid key");
615 }
616 if provider_core_only::is_enabled() && !self.allows_secret_write_in_provider_core_only() {
617 warn!(
618 secret = %key,
619 component = self.component_ref.as_deref().unwrap_or("<pack>"),
620 "provider-core only mode enabled; blocking secrets store write"
621 );
622 panic!("secret write denied for key {key}: provider-core-only mode");
623 }
624 if !self.config.secrets_policy.is_allowed(&key) {
625 warn!(secret = %key, "secret write denied by bindings policy");
626 panic!("secret write denied for key {key}: policy");
627 }
628 let ctx = self.config.tenant_ctx();
629 if let Err(err) = write_secret_blocking(&self.secrets, &ctx, &key, &value) {
630 warn!(secret = %key, error = %err, "secret write failed");
631 panic!("secret write failed for key {key}");
632 }
633 }
634}
635
636impl HttpClientHost for HostState {
637 fn send(
638 &mut self,
639 req: HttpRequest,
640 ctx: Option<HttpTenantCtx>,
641 ) -> Result<HttpResponse, HttpClientError> {
642 self.send_http_request(req, None, ctx)
643 }
644}
645
646impl HttpClientHostV1_1 for HostState {
647 fn send(
648 &mut self,
649 req: HttpRequestV1_1,
650 opts: Option<HttpRequestOptionsV1_1>,
651 ctx: Option<HttpTenantCtxV1_1>,
652 ) -> Result<HttpResponseV1_1, HttpClientErrorV1_1> {
653 let legacy_req = HttpRequest {
654 method: req.method,
655 url: req.url,
656 headers: req.headers,
657 body: req.body,
658 };
659 let legacy_ctx = ctx.map(|ctx| HttpTenantCtx {
660 env: ctx.env,
661 tenant: ctx.tenant,
662 tenant_id: ctx.tenant_id,
663 team: ctx.team,
664 team_id: ctx.team_id,
665 user: ctx.user,
666 user_id: ctx.user_id,
667 trace_id: ctx.trace_id,
668 correlation_id: ctx.correlation_id,
669 attributes: ctx.attributes,
670 session_id: ctx.session_id,
671 flow_id: ctx.flow_id,
672 node_id: ctx.node_id,
673 provider_id: ctx.provider_id,
674 deadline_ms: ctx.deadline_ms,
675 attempt: ctx.attempt,
676 idempotency_key: ctx.idempotency_key,
677 impersonation: ctx
678 .impersonation
679 .map(|ImpersonationV1_1 { actor_id, reason }| ImpersonationV1_0 {
680 actor_id,
681 reason,
682 }),
683 });
684
685 self.send_http_request(legacy_req, opts, legacy_ctx)
686 .map(|resp| HttpResponseV1_1 {
687 status: resp.status,
688 headers: resp.headers,
689 body: resp.body,
690 })
691 .map_err(|err| HttpClientErrorV1_1 {
692 code: err.code,
693 message: err.message,
694 })
695 }
696}
697
698impl StateStoreHost for HostState {
699 fn read(
700 &mut self,
701 key: HostStateKey,
702 ctx: Option<StateTenantCtx>,
703 ) -> Result<Vec<u8>, StateError> {
704 let store = match self.state_store.as_ref() {
705 Some(store) => store.clone(),
706 None => {
707 return Err(StateError {
708 code: "unavailable".into(),
709 message: "state store not configured".into(),
710 });
711 }
712 };
713 let tenant_ctx = match self.tenant_ctx_from_v1(ctx) {
714 Ok(ctx) => ctx,
715 Err(err) => {
716 return Err(StateError {
717 code: "invalid-ctx".into(),
718 message: err.to_string(),
719 });
720 }
721 };
722 #[cfg(feature = "fault-injection")]
723 {
724 let exec_ctx = self.exec_ctx.as_ref();
725 let flow_id = exec_ctx
726 .map(|ctx| ctx.flow_id.as_str())
727 .unwrap_or("unknown");
728 let node_id = exec_ctx.and_then(|ctx| ctx.node_id.as_deref());
729 let attempt = exec_ctx.map(|ctx| ctx.tenant.attempt).unwrap_or(1);
730 let fault_ctx = FaultContext {
731 pack_id: self.pack_id.as_str(),
732 flow_id,
733 node_id,
734 attempt,
735 };
736 if let Err(err) = maybe_fail(FaultPoint::StateRead, fault_ctx) {
737 return Err(StateError {
738 code: "internal".into(),
739 message: err.to_string(),
740 });
741 }
742 }
743 let key = StoreStateKey::from(key);
744 match store.get_json(&tenant_ctx, STATE_PREFIX, &key, None) {
745 Ok(Some(value)) => Ok(serde_json::to_vec(&value).unwrap_or_else(|_| Vec::new())),
746 Ok(None) => Err(StateError {
747 code: "not_found".into(),
748 message: "state key not found".into(),
749 }),
750 Err(err) => Err(StateError {
751 code: "internal".into(),
752 message: err.to_string(),
753 }),
754 }
755 }
756
757 fn write(
758 &mut self,
759 key: HostStateKey,
760 bytes: Vec<u8>,
761 ctx: Option<StateTenantCtx>,
762 ) -> Result<StateOpAck, StateError> {
763 let store = match self.state_store.as_ref() {
764 Some(store) => store.clone(),
765 None => {
766 return Err(StateError {
767 code: "unavailable".into(),
768 message: "state store not configured".into(),
769 });
770 }
771 };
772 let tenant_ctx = match self.tenant_ctx_from_v1(ctx) {
773 Ok(ctx) => ctx,
774 Err(err) => {
775 return Err(StateError {
776 code: "invalid-ctx".into(),
777 message: err.to_string(),
778 });
779 }
780 };
781 #[cfg(feature = "fault-injection")]
782 {
783 let exec_ctx = self.exec_ctx.as_ref();
784 let flow_id = exec_ctx
785 .map(|ctx| ctx.flow_id.as_str())
786 .unwrap_or("unknown");
787 let node_id = exec_ctx.and_then(|ctx| ctx.node_id.as_deref());
788 let attempt = exec_ctx.map(|ctx| ctx.tenant.attempt).unwrap_or(1);
789 let fault_ctx = FaultContext {
790 pack_id: self.pack_id.as_str(),
791 flow_id,
792 node_id,
793 attempt,
794 };
795 if let Err(err) = maybe_fail(FaultPoint::StateWrite, fault_ctx) {
796 return Err(StateError {
797 code: "internal".into(),
798 message: err.to_string(),
799 });
800 }
801 }
802 let key = StoreStateKey::from(key);
803 let value = serde_json::from_slice(&bytes)
804 .unwrap_or_else(|_| Value::String(String::from_utf8_lossy(&bytes).to_string()));
805 match store.set_json(&tenant_ctx, STATE_PREFIX, &key, None, &value, None) {
806 Ok(()) => Ok(StateOpAck::Ok),
807 Err(err) => Err(StateError {
808 code: "internal".into(),
809 message: err.to_string(),
810 }),
811 }
812 }
813
814 fn delete(
815 &mut self,
816 key: HostStateKey,
817 ctx: Option<StateTenantCtx>,
818 ) -> Result<StateOpAck, StateError> {
819 let store = match self.state_store.as_ref() {
820 Some(store) => store.clone(),
821 None => {
822 return Err(StateError {
823 code: "unavailable".into(),
824 message: "state store not configured".into(),
825 });
826 }
827 };
828 let tenant_ctx = match self.tenant_ctx_from_v1(ctx) {
829 Ok(ctx) => ctx,
830 Err(err) => {
831 return Err(StateError {
832 code: "invalid-ctx".into(),
833 message: err.to_string(),
834 });
835 }
836 };
837 let key = StoreStateKey::from(key);
838 match store.del(&tenant_ctx, STATE_PREFIX, &key) {
839 Ok(_) => Ok(StateOpAck::Ok),
840 Err(err) => Err(StateError {
841 code: "internal".into(),
842 message: err.to_string(),
843 }),
844 }
845 }
846}
847
848impl TelemetryLoggerHost for HostState {
849 fn log(
850 &mut self,
851 span: TelemetrySpanContext,
852 fields: Vec<(String, String)>,
853 _ctx: Option<TelemetryTenantCtx>,
854 ) -> Result<TelemetryAck, TelemetryError> {
855 if let Some(mock) = &self.mocks
856 && mock.telemetry_drain(&[("span_json", span.flow_id.as_str())])
857 {
858 return Ok(TelemetryAck::Ok);
859 }
860 let mut map = serde_json::Map::new();
861 for (k, v) in fields {
862 map.insert(k, Value::String(v));
863 }
864 tracing::info!(
865 tenant = %span.tenant,
866 flow_id = %span.flow_id,
867 node = ?span.node_id,
868 provider = %span.provider,
869 fields = %serde_json::Value::Object(map.clone()),
870 "telemetry log from pack"
871 );
872 Ok(TelemetryAck::Ok)
873 }
874}
875
876impl RunnerHostHttp for HostState {
877 fn request(
878 &mut self,
879 method: String,
880 url: String,
881 headers: Vec<String>,
882 body: Option<Vec<u8>>,
883 ) -> Result<Vec<u8>, String> {
884 let req = HttpRequest {
885 method,
886 url,
887 headers: headers
888 .chunks(2)
889 .filter_map(|chunk| {
890 if chunk.len() == 2 {
891 Some((chunk[0].clone(), chunk[1].clone()))
892 } else {
893 None
894 }
895 })
896 .collect(),
897 body,
898 };
899 match HttpClientHost::send(self, req, None) {
900 Ok(resp) => Ok(resp.body.unwrap_or_default()),
901 Err(err) => Err(err.message),
902 }
903 }
904}
905
906impl RunnerHostKv for HostState {
907 fn get(&mut self, _ns: String, _key: String) -> Option<String> {
908 None
909 }
910
911 fn put(&mut self, _ns: String, _key: String, _val: String) {}
912}
913
914enum ManifestLoad {
915 New {
916 manifest: Box<greentic_types::PackManifest>,
917 flows: PackFlows,
918 },
919 Legacy {
920 manifest: Box<legacy_pack::PackManifest>,
921 flows: PackFlows,
922 },
923}
924
925fn load_manifest_and_flows(path: &Path) -> Result<ManifestLoad> {
926 let mut archive = ZipArchive::new(File::open(path)?)
927 .with_context(|| format!("{} is not a valid gtpack", path.display()))?;
928 let bytes = read_entry(&mut archive, "manifest.cbor")
929 .with_context(|| format!("missing manifest.cbor in {}", path.display()))?;
930 match decode_pack_manifest(&bytes) {
931 Ok(manifest) => {
932 let cache = PackFlows::from_manifest(manifest.clone());
933 Ok(ManifestLoad::New {
934 manifest: Box::new(manifest),
935 flows: cache,
936 })
937 }
938 Err(err) => {
939 tracing::debug!(error = %err, pack = %path.display(), "decode_pack_manifest failed; trying legacy manifest");
940 let legacy: legacy_pack::PackManifest = serde_cbor::from_slice(&bytes)
942 .context("failed to decode legacy pack manifest from manifest.cbor")?;
943 let flows = load_legacy_flows(&mut archive, &legacy)?;
944 Ok(ManifestLoad::Legacy {
945 manifest: Box::new(legacy),
946 flows,
947 })
948 }
949 }
950}
951
952fn load_manifest_and_flows_from_dir(root: &Path) -> Result<ManifestLoad> {
953 let manifest_path = root.join("manifest.cbor");
954 let bytes = std::fs::read(&manifest_path)
955 .with_context(|| format!("missing manifest.cbor in {}", root.display()))?;
956 match decode_pack_manifest(&bytes) {
957 Ok(manifest) => {
958 let cache = PackFlows::from_manifest(manifest.clone());
959 Ok(ManifestLoad::New {
960 manifest: Box::new(manifest),
961 flows: cache,
962 })
963 }
964 Err(err) => {
965 tracing::debug!(
966 error = %err,
967 pack = %root.display(),
968 "decode_pack_manifest failed for materialized pack; trying legacy manifest"
969 );
970 let legacy: legacy_pack::PackManifest = serde_cbor::from_slice(&bytes)
971 .context("failed to decode legacy pack manifest from manifest.cbor")?;
972 let flows = load_legacy_flows_from_dir(root, &legacy)?;
973 Ok(ManifestLoad::Legacy {
974 manifest: Box::new(legacy),
975 flows,
976 })
977 }
978 }
979}
980
981fn load_legacy_flows(
982 archive: &mut ZipArchive<File>,
983 manifest: &legacy_pack::PackManifest,
984) -> Result<PackFlows> {
985 let mut flows = HashMap::new();
986 let mut descriptors = Vec::new();
987
988 for entry in &manifest.flows {
989 let bytes = read_entry(archive, &entry.file_json)
990 .with_context(|| format!("missing flow json {}", entry.file_json))?;
991 let doc: FlowDoc = serde_json::from_slice(&bytes)
992 .with_context(|| format!("failed to decode flow doc {}", entry.file_json))?;
993 let normalized = normalize_flow_doc(doc);
994 let flow_ir = flow_doc_to_ir(normalized)?;
995 let flow = flow_ir_to_flow(flow_ir)?;
996
997 descriptors.push(FlowDescriptor {
998 id: entry.id.clone(),
999 flow_type: entry.kind.clone(),
1000 pack_id: manifest.meta.pack_id.clone(),
1001 profile: manifest.meta.pack_id.clone(),
1002 version: manifest.meta.version.to_string(),
1003 description: None,
1004 });
1005 flows.insert(entry.id.clone(), flow);
1006 }
1007
1008 let mut entry_flows = manifest.meta.entry_flows.clone();
1009 if entry_flows.is_empty() {
1010 entry_flows = manifest.flows.iter().map(|f| f.id.clone()).collect();
1011 }
1012 let metadata = PackMetadata {
1013 pack_id: manifest.meta.pack_id.clone(),
1014 version: manifest.meta.version.to_string(),
1015 entry_flows,
1016 secret_requirements: Vec::new(),
1017 };
1018
1019 Ok(PackFlows {
1020 descriptors,
1021 flows,
1022 metadata,
1023 })
1024}
1025
1026fn load_legacy_flows_from_dir(
1027 root: &Path,
1028 manifest: &legacy_pack::PackManifest,
1029) -> Result<PackFlows> {
1030 let mut flows = HashMap::new();
1031 let mut descriptors = Vec::new();
1032
1033 for entry in &manifest.flows {
1034 let path = root.join(&entry.file_json);
1035 let bytes = std::fs::read(&path)
1036 .with_context(|| format!("missing flow json {}", path.display()))?;
1037 let doc: FlowDoc = serde_json::from_slice(&bytes)
1038 .with_context(|| format!("failed to decode flow doc {}", path.display()))?;
1039 let normalized = normalize_flow_doc(doc);
1040 let flow_ir = flow_doc_to_ir(normalized)?;
1041 let flow = flow_ir_to_flow(flow_ir)?;
1042
1043 descriptors.push(FlowDescriptor {
1044 id: entry.id.clone(),
1045 flow_type: entry.kind.clone(),
1046 pack_id: manifest.meta.pack_id.clone(),
1047 profile: manifest.meta.pack_id.clone(),
1048 version: manifest.meta.version.to_string(),
1049 description: None,
1050 });
1051 flows.insert(entry.id.clone(), flow);
1052 }
1053
1054 let mut entry_flows = manifest.meta.entry_flows.clone();
1055 if entry_flows.is_empty() {
1056 entry_flows = manifest.flows.iter().map(|f| f.id.clone()).collect();
1057 }
1058 let metadata = PackMetadata {
1059 pack_id: manifest.meta.pack_id.clone(),
1060 version: manifest.meta.version.to_string(),
1061 entry_flows,
1062 secret_requirements: Vec::new(),
1063 };
1064
1065 Ok(PackFlows {
1066 descriptors,
1067 flows,
1068 metadata,
1069 })
1070}
1071
1072pub struct ComponentState {
1073 pub host: HostState,
1074 wasi_ctx: WasiCtx,
1075 resource_table: ResourceTable,
1076}
1077
1078impl ComponentState {
1079 pub fn new(host: HostState, policy: Arc<RunnerWasiPolicy>) -> Result<Self> {
1080 let wasi_ctx = policy
1081 .instantiate()
1082 .context("failed to build WASI context")?;
1083 Ok(Self {
1084 host,
1085 wasi_ctx,
1086 resource_table: ResourceTable::new(),
1087 })
1088 }
1089
1090 fn host_mut(&mut self) -> &mut HostState {
1091 &mut self.host
1092 }
1093
1094 fn should_cancel_host(&mut self) -> bool {
1095 false
1096 }
1097
1098 fn yield_now_host(&mut self) {
1099 }
1101}
1102
1103impl component_api::v0_4::greentic::component::control::Host for ComponentState {
1104 fn should_cancel(&mut self) -> bool {
1105 self.should_cancel_host()
1106 }
1107
1108 fn yield_now(&mut self) {
1109 self.yield_now_host();
1110 }
1111}
1112
1113impl component_api::v0_5::greentic::component::control::Host for ComponentState {
1114 fn should_cancel(&mut self) -> bool {
1115 self.should_cancel_host()
1116 }
1117
1118 fn yield_now(&mut self) {
1119 self.yield_now_host();
1120 }
1121}
1122
1123fn add_component_control_instance(
1124 linker: &mut Linker<ComponentState>,
1125 name: &str,
1126) -> wasmtime::Result<()> {
1127 let mut inst = linker.instance(name)?;
1128 inst.func_wrap(
1129 "should-cancel",
1130 |mut caller: StoreContextMut<'_, ComponentState>, (): ()| {
1131 let host = caller.data_mut();
1132 Ok((host.should_cancel_host(),))
1133 },
1134 )?;
1135 inst.func_wrap(
1136 "yield-now",
1137 |mut caller: StoreContextMut<'_, ComponentState>, (): ()| {
1138 let host = caller.data_mut();
1139 host.yield_now_host();
1140 Ok(())
1141 },
1142 )?;
1143 Ok(())
1144}
1145
1146fn add_component_control_to_linker(linker: &mut Linker<ComponentState>) -> wasmtime::Result<()> {
1147 add_component_control_instance(linker, "greentic:component/control@0.5.0")?;
1148 add_component_control_instance(linker, "greentic:component/control@0.4.0")?;
1149 Ok(())
1150}
1151
1152pub fn register_all(linker: &mut Linker<ComponentState>, allow_state_store: bool) -> Result<()> {
1153 add_wasi_to_linker(linker)?;
1154 add_all_v1_to_linker(
1155 linker,
1156 HostFns {
1157 http_client_v1_1: Some(|state: &mut ComponentState| state.host_mut()),
1158 http_client: Some(|state: &mut ComponentState| state.host_mut()),
1159 oauth_broker: None,
1160 runner_host_http: Some(|state: &mut ComponentState| state.host_mut()),
1161 runner_host_kv: Some(|state: &mut ComponentState| state.host_mut()),
1162 telemetry_logger: Some(|state: &mut ComponentState| state.host_mut()),
1163 state_store: allow_state_store.then_some(|state: &mut ComponentState| state.host_mut()),
1164 secrets_store_v1_1: Some(|state: &mut ComponentState| state.host_mut()),
1165 secrets_store: None,
1166 },
1167 )?;
1168 Ok(())
1169}
1170
1171impl OAuthHostContext for ComponentState {
1172 fn tenant_id(&self) -> &str {
1173 &self.host.config.tenant
1174 }
1175
1176 fn env(&self) -> &str {
1177 &self.host.default_env
1178 }
1179
1180 fn oauth_broker_host(&mut self) -> &mut OAuthBrokerHost {
1181 &mut self.host.oauth_host
1182 }
1183
1184 fn oauth_config(&self) -> Option<&OAuthBrokerConfig> {
1185 self.host.oauth_config.as_ref()
1186 }
1187}
1188
1189impl WasiView for ComponentState {
1190 fn ctx(&mut self) -> WasiCtxView<'_> {
1191 WasiCtxView {
1192 ctx: &mut self.wasi_ctx,
1193 table: &mut self.resource_table,
1194 }
1195 }
1196}
1197
1198#[allow(unsafe_code)]
1199unsafe impl Send for ComponentState {}
1200#[allow(unsafe_code)]
1201unsafe impl Sync for ComponentState {}
1202
1203impl PackRuntime {
1204 fn allows_state_store(&self, component_ref: &str) -> bool {
1205 if self.state_store.is_none() {
1206 return false;
1207 }
1208 if !self.config.state_store_policy.allow {
1209 return false;
1210 }
1211 let Some(manifest) = self.component_manifests.get(component_ref) else {
1212 return false;
1213 };
1214 manifest
1215 .capabilities
1216 .host
1217 .state
1218 .as_ref()
1219 .map(|caps| caps.read || caps.write)
1220 .unwrap_or(false)
1221 }
1222
1223 #[allow(clippy::too_many_arguments)]
1224 pub async fn load(
1225 path: impl AsRef<Path>,
1226 config: Arc<HostConfig>,
1227 mocks: Option<Arc<MockLayer>>,
1228 archive_source: Option<&Path>,
1229 session_store: Option<DynSessionStore>,
1230 state_store: Option<DynStateStore>,
1231 wasi_policy: Arc<RunnerWasiPolicy>,
1232 secrets: DynSecretsManager,
1233 oauth_config: Option<OAuthBrokerConfig>,
1234 verify_archive: bool,
1235 component_resolution: ComponentResolution,
1236 ) -> Result<Self> {
1237 let path = path.as_ref();
1238 let (_pack_root, safe_path) = normalize_pack_path(path)?;
1239 let path_meta = std::fs::metadata(&safe_path).ok();
1240 let is_dir = path_meta
1241 .as_ref()
1242 .map(|meta| meta.is_dir())
1243 .unwrap_or(false);
1244 let is_component = !is_dir
1245 && safe_path
1246 .extension()
1247 .and_then(|ext| ext.to_str())
1248 .map(|ext| ext.eq_ignore_ascii_case("wasm"))
1249 .unwrap_or(false);
1250 let archive_hint_path = if let Some(source) = archive_source {
1251 let (_, normalized) = normalize_pack_path(source)?;
1252 Some(normalized)
1253 } else if is_component || is_dir {
1254 None
1255 } else {
1256 Some(safe_path.clone())
1257 };
1258 let archive_hint = archive_hint_path.as_deref();
1259 if verify_archive {
1260 if let Some(verify_target) = archive_hint.and_then(|p| {
1261 std::fs::metadata(p)
1262 .ok()
1263 .filter(|meta| meta.is_file())
1264 .map(|_| p)
1265 }) {
1266 verify::verify_pack(verify_target).await?;
1267 tracing::info!(pack_path = %verify_target.display(), "pack verification complete");
1268 } else {
1269 tracing::debug!("skipping archive verification (no archive source)");
1270 }
1271 }
1272 let engine = Engine::default();
1273 let engine_profile =
1274 EngineProfile::from_engine(&engine, CpuPolicy::Native, "default".to_string());
1275 let cache = CacheManager::new(CacheConfig::default(), engine_profile);
1276 let mut metadata = PackMetadata::fallback(&safe_path);
1277 let mut manifest = None;
1278 let mut legacy_manifest: Option<Box<legacy_pack::PackManifest>> = None;
1279 let mut flows = None;
1280 let materialized_root = component_resolution.materialized_root.clone().or_else(|| {
1281 if is_dir {
1282 Some(safe_path.clone())
1283 } else {
1284 None
1285 }
1286 });
1287 let (pack_assets_dir, assets_tempdir) =
1288 locate_pack_assets(materialized_root.as_deref(), archive_hint)?;
1289 let setup_yaml_exists = pack_assets_dir
1290 .as_ref()
1291 .map(|dir| dir.join("setup.yaml").is_file())
1292 .unwrap_or(false);
1293 tracing::info!(
1294 pack_root = %safe_path.display(),
1295 assets_setup_yaml_exists = setup_yaml_exists,
1296 "pack unpack metadata"
1297 );
1298
1299 if let Some(root) = materialized_root.as_ref() {
1300 match load_manifest_and_flows_from_dir(root) {
1301 Ok(ManifestLoad::New {
1302 manifest: m,
1303 flows: cache,
1304 }) => {
1305 metadata = cache.metadata.clone();
1306 manifest = Some(*m);
1307 flows = Some(cache);
1308 }
1309 Ok(ManifestLoad::Legacy {
1310 manifest: m,
1311 flows: cache,
1312 }) => {
1313 metadata = cache.metadata.clone();
1314 legacy_manifest = Some(m);
1315 flows = Some(cache);
1316 }
1317 Err(err) => {
1318 warn!(error = %err, pack = %root.display(), "failed to parse materialized pack manifest");
1319 }
1320 }
1321 }
1322
1323 if manifest.is_none()
1324 && legacy_manifest.is_none()
1325 && let Some(archive_path) = archive_hint
1326 {
1327 match load_manifest_and_flows(archive_path) {
1328 Ok(ManifestLoad::New {
1329 manifest: m,
1330 flows: cache,
1331 }) => {
1332 metadata = cache.metadata.clone();
1333 manifest = Some(*m);
1334 flows = Some(cache);
1335 }
1336 Ok(ManifestLoad::Legacy {
1337 manifest: m,
1338 flows: cache,
1339 }) => {
1340 metadata = cache.metadata.clone();
1341 legacy_manifest = Some(m);
1342 flows = Some(cache);
1343 }
1344 Err(err) => {
1345 warn!(error = %err, pack = %archive_path.display(), "failed to parse pack manifest; skipping flows");
1346 }
1347 }
1348 }
1349 #[cfg(feature = "fault-injection")]
1350 {
1351 let fault_ctx = FaultContext {
1352 pack_id: metadata.pack_id.as_str(),
1353 flow_id: "unknown",
1354 node_id: None,
1355 attempt: 1,
1356 };
1357 maybe_fail(FaultPoint::PackResolve, fault_ctx)
1358 .map_err(|err| anyhow!(err.to_string()))?;
1359 }
1360 let mut pack_lock = None;
1361 for root in find_pack_lock_roots(&safe_path, is_dir, archive_hint) {
1362 pack_lock = load_pack_lock(&root)?;
1363 if pack_lock.is_some() {
1364 break;
1365 }
1366 }
1367 let component_sources_payload = if pack_lock.is_none() {
1368 if let Some(manifest) = manifest.as_ref() {
1369 manifest
1370 .get_component_sources_v1()
1371 .context("invalid component sources extension")?
1372 } else {
1373 None
1374 }
1375 } else {
1376 None
1377 };
1378 let component_sources = if let Some(lock) = pack_lock.as_ref() {
1379 Some(component_sources_table_from_pack_lock(
1380 lock,
1381 component_resolution.allow_missing_hash,
1382 )?)
1383 } else {
1384 component_sources_table(component_sources_payload.as_ref())?
1385 };
1386 let components = if is_component {
1387 let wasm_bytes = fs::read(&safe_path).await?;
1388 metadata = PackMetadata::from_wasm(&wasm_bytes)
1389 .unwrap_or_else(|| PackMetadata::fallback(&safe_path));
1390 let name = safe_path
1391 .file_stem()
1392 .map(|s| s.to_string_lossy().to_string())
1393 .unwrap_or_else(|| "component".to_string());
1394 let component = compile_component_with_cache(&cache, &engine, None, wasm_bytes).await?;
1395 let mut map = HashMap::new();
1396 map.insert(
1397 name.clone(),
1398 PackComponent {
1399 name,
1400 version: metadata.version.clone(),
1401 component,
1402 },
1403 );
1404 map
1405 } else {
1406 let specs = component_specs(
1407 manifest.as_ref(),
1408 legacy_manifest.as_deref(),
1409 component_sources_payload.as_ref(),
1410 pack_lock.as_ref(),
1411 );
1412 if specs.is_empty() {
1413 HashMap::new()
1414 } else {
1415 let mut loaded = HashMap::new();
1416 let mut missing: HashSet<String> =
1417 specs.iter().map(|spec| spec.id.clone()).collect();
1418 let mut searched = Vec::new();
1419
1420 if !component_resolution.overrides.is_empty() {
1421 load_components_from_overrides(
1422 &cache,
1423 &engine,
1424 &component_resolution.overrides,
1425 &specs,
1426 &mut missing,
1427 &mut loaded,
1428 )
1429 .await?;
1430 searched.push("override map".to_string());
1431 }
1432
1433 if let Some(component_sources) = component_sources.as_ref() {
1434 load_components_from_sources(
1435 &cache,
1436 &engine,
1437 component_sources,
1438 &component_resolution,
1439 &specs,
1440 &mut missing,
1441 &mut loaded,
1442 materialized_root.as_deref(),
1443 archive_hint,
1444 )
1445 .await?;
1446 searched.push(format!("extension {}", EXT_COMPONENT_SOURCES_V1));
1447 }
1448
1449 if let Some(root) = materialized_root.as_ref() {
1450 load_components_from_dir(
1451 &cache,
1452 &engine,
1453 root,
1454 &specs,
1455 &mut missing,
1456 &mut loaded,
1457 )
1458 .await?;
1459 searched.push(format!("components dir {}", root.display()));
1460 }
1461
1462 if let Some(archive_path) = archive_hint {
1463 load_components_from_archive(
1464 &cache,
1465 &engine,
1466 archive_path,
1467 &specs,
1468 &mut missing,
1469 &mut loaded,
1470 )
1471 .await?;
1472 searched.push(format!("archive {}", archive_path.display()));
1473 }
1474
1475 if !missing.is_empty() {
1476 let missing_list = missing.into_iter().collect::<Vec<_>>().join(", ");
1477 let sources = if searched.is_empty() {
1478 "no component sources".to_string()
1479 } else {
1480 searched.join(", ")
1481 };
1482 bail!(
1483 "components missing: {}; looked in {}",
1484 missing_list,
1485 sources
1486 );
1487 }
1488
1489 loaded
1490 }
1491 };
1492 let http_client = Arc::clone(&HTTP_CLIENT);
1493 let mut component_manifests = HashMap::new();
1494 if let Some(manifest) = manifest.as_ref() {
1495 for component in &manifest.components {
1496 component_manifests.insert(component.id.as_str().to_string(), component.clone());
1497 }
1498 }
1499 let mut pack_policy = (*wasi_policy).clone();
1500 if let Some(dir) = pack_assets_dir {
1501 tracing::debug!(path = %dir.display(), "preopening pack assets directory for WASI /assets");
1502 pack_policy =
1503 pack_policy.with_preopen(PreopenSpec::new(dir, "/assets").read_only(true));
1504 }
1505 let wasi_policy = Arc::new(pack_policy);
1506 Ok(Self {
1507 path: safe_path,
1508 archive_path: archive_hint.map(Path::to_path_buf),
1509 config,
1510 engine,
1511 metadata,
1512 manifest,
1513 legacy_manifest,
1514 component_manifests,
1515 mocks,
1516 flows,
1517 components,
1518 http_client,
1519 pre_cache: Mutex::new(HashMap::new()),
1520 session_store,
1521 state_store,
1522 wasi_policy,
1523 assets_tempdir,
1524 provider_registry: RwLock::new(None),
1525 secrets,
1526 oauth_config,
1527 cache,
1528 })
1529 }
1530
1531 pub async fn list_flows(&self) -> Result<Vec<FlowDescriptor>> {
1532 if let Some(cache) = &self.flows {
1533 return Ok(cache.descriptors.clone());
1534 }
1535 if let Some(manifest) = &self.manifest {
1536 let descriptors = manifest
1537 .flows
1538 .iter()
1539 .map(|flow| FlowDescriptor {
1540 id: flow.id.as_str().to_string(),
1541 flow_type: flow_kind_to_str(flow.kind).to_string(),
1542 pack_id: manifest.pack_id.as_str().to_string(),
1543 profile: manifest.pack_id.as_str().to_string(),
1544 version: manifest.version.to_string(),
1545 description: None,
1546 })
1547 .collect();
1548 return Ok(descriptors);
1549 }
1550 Ok(Vec::new())
1551 }
1552
1553 #[allow(dead_code)]
1554 pub async fn run_flow(
1555 &self,
1556 flow_id: &str,
1557 input: serde_json::Value,
1558 ) -> Result<serde_json::Value> {
1559 let pack = Arc::new(
1560 PackRuntime::load(
1561 &self.path,
1562 Arc::clone(&self.config),
1563 self.mocks.clone(),
1564 self.archive_path.as_deref(),
1565 self.session_store.clone(),
1566 self.state_store.clone(),
1567 Arc::clone(&self.wasi_policy),
1568 self.secrets.clone(),
1569 self.oauth_config.clone(),
1570 false,
1571 ComponentResolution::default(),
1572 )
1573 .await?,
1574 );
1575
1576 let engine = FlowEngine::new(vec![Arc::clone(&pack)], Arc::clone(&self.config)).await?;
1577 let retry_config = self.config.retry_config().into();
1578 let mocks = pack.mocks.as_deref();
1579 let tenant = self.config.tenant.as_str();
1580
1581 let ctx = FlowContext {
1582 tenant,
1583 pack_id: pack.metadata().pack_id.as_str(),
1584 flow_id,
1585 node_id: None,
1586 tool: None,
1587 action: None,
1588 session_id: None,
1589 provider_id: None,
1590 retry_config,
1591 attempt: 1,
1592 observer: None,
1593 mocks,
1594 };
1595
1596 let execution = engine.execute(ctx, input).await?;
1597 match execution.status {
1598 FlowStatus::Completed => Ok(execution.output),
1599 FlowStatus::Waiting(wait) => Ok(serde_json::json!({
1600 "status": "pending",
1601 "reason": wait.reason,
1602 "resume": wait.snapshot,
1603 "response": execution.output,
1604 })),
1605 }
1606 }
1607
1608 pub async fn invoke_component(
1609 &self,
1610 component_ref: &str,
1611 ctx: ComponentExecCtx,
1612 operation: &str,
1613 _config_json: Option<String>,
1614 input_json: String,
1615 ) -> Result<Value> {
1616 let pack_component = self
1617 .components
1618 .get(component_ref)
1619 .with_context(|| format!("component '{component_ref}' not found in pack"))?;
1620 let engine = self.engine.clone();
1621 let config = Arc::clone(&self.config);
1622 let http_client = Arc::clone(&self.http_client);
1623 let mocks = self.mocks.clone();
1624 let session_store = self.session_store.clone();
1625 let state_store = self.state_store.clone();
1626 let secrets = Arc::clone(&self.secrets);
1627 let oauth_config = self.oauth_config.clone();
1628 let wasi_policy = Arc::clone(&self.wasi_policy);
1629 let pack_id = self.metadata().pack_id.clone();
1630 let allow_state_store = self.allows_state_store(component_ref);
1631 let component = pack_component.component.clone();
1632 let component_ref_owned = component_ref.to_string();
1633 let operation_owned = operation.to_string();
1634 let input_owned = input_json;
1635 let ctx_owned = ctx;
1636
1637 run_on_wasi_thread("component.invoke", move || {
1638 let mut linker = Linker::new(&engine);
1639 register_all(&mut linker, allow_state_store)?;
1640 add_component_control_to_linker(&mut linker)?;
1641
1642 let host_state = HostState::new(
1643 pack_id.clone(),
1644 config,
1645 http_client,
1646 mocks,
1647 session_store,
1648 state_store,
1649 secrets,
1650 oauth_config,
1651 Some(ctx_owned.clone()),
1652 Some(component_ref_owned.clone()),
1653 false,
1654 )?;
1655 let store_state = ComponentState::new(host_state, wasi_policy)?;
1656 let mut store = wasmtime::Store::new(&engine, store_state);
1657
1658 let invoke_result = HostState::instantiate_component_result(
1659 &mut linker,
1660 &mut store,
1661 &component,
1662 &ctx_owned,
1663 &operation_owned,
1664 &input_owned,
1665 )?;
1666 HostState::convert_invoke_result(invoke_result)
1667 })
1668 }
1669
1670 pub fn resolve_provider(
1671 &self,
1672 provider_id: Option<&str>,
1673 provider_type: Option<&str>,
1674 ) -> Result<ProviderBinding> {
1675 let registry = self.provider_registry()?;
1676 registry.resolve(provider_id, provider_type)
1677 }
1678
1679 pub async fn invoke_provider(
1680 &self,
1681 binding: &ProviderBinding,
1682 ctx: ComponentExecCtx,
1683 op: &str,
1684 input_json: Vec<u8>,
1685 ) -> Result<Value> {
1686 let component_ref_owned = binding.component_ref.clone();
1687 let pack_component = self.components.get(&component_ref_owned).with_context(|| {
1688 format!("provider component '{component_ref_owned}' not found in pack")
1689 })?;
1690 let component = pack_component.component.clone();
1691
1692 let engine = self.engine.clone();
1693 let config = Arc::clone(&self.config);
1694 let http_client = Arc::clone(&self.http_client);
1695 let mocks = self.mocks.clone();
1696 let session_store = self.session_store.clone();
1697 let state_store = self.state_store.clone();
1698 let secrets = Arc::clone(&self.secrets);
1699 let oauth_config = self.oauth_config.clone();
1700 let wasi_policy = Arc::clone(&self.wasi_policy);
1701 let pack_id = self.metadata().pack_id.clone();
1702 let allow_state_store = self.allows_state_store(&component_ref_owned);
1703 let input_owned = input_json;
1704 let op_owned = op.to_string();
1705 let ctx_owned = ctx;
1706
1707 run_on_wasi_thread("provider.invoke", move || {
1708 let mut linker = Linker::new(&engine);
1709 register_all(&mut linker, allow_state_store)?;
1710 add_component_control_to_linker(&mut linker)?;
1711 let pre_instance = linker.instantiate_pre(component.as_ref())?;
1712 let pre: ProviderComponentPre<ComponentState> =
1713 ProviderComponentPre::new(pre_instance)?;
1714
1715 let host_state = HostState::new(
1716 pack_id.clone(),
1717 config,
1718 http_client,
1719 mocks,
1720 session_store,
1721 state_store,
1722 secrets,
1723 oauth_config,
1724 Some(ctx_owned.clone()),
1725 Some(component_ref_owned.clone()),
1726 true,
1727 )?;
1728 let store_state = ComponentState::new(host_state, wasi_policy)?;
1729 let mut store = wasmtime::Store::new(&engine, store_state);
1730 let bindings: crate::provider_core::SchemaCore =
1731 block_on(async { pre.instantiate_async(&mut store).await })?;
1732 let provider = bindings.greentic_provider_core_schema_core_api();
1733
1734 let result = provider.call_invoke(&mut store, &op_owned, &input_owned)?;
1735 deserialize_json_bytes(result)
1736 })
1737 }
1738
1739 fn provider_registry(&self) -> Result<ProviderRegistry> {
1740 if let Some(registry) = self.provider_registry.read().clone() {
1741 return Ok(registry);
1742 }
1743 let manifest = self
1744 .manifest
1745 .as_ref()
1746 .context("pack manifest required for provider resolution")?;
1747 let env = std::env::var("GREENTIC_ENV").unwrap_or_else(|_| "local".to_string());
1748 let registry = ProviderRegistry::new(
1749 manifest,
1750 self.state_store.clone(),
1751 &self.config.tenant,
1752 &env,
1753 )?;
1754 *self.provider_registry.write() = Some(registry.clone());
1755 Ok(registry)
1756 }
1757
1758 pub fn load_flow(&self, flow_id: &str) -> Result<Flow> {
1759 if let Some(cache) = &self.flows {
1760 return cache
1761 .flows
1762 .get(flow_id)
1763 .cloned()
1764 .ok_or_else(|| anyhow!("flow '{flow_id}' not found in pack"));
1765 }
1766 if let Some(manifest) = &self.manifest {
1767 let entry = manifest
1768 .flows
1769 .iter()
1770 .find(|f| f.id.as_str() == flow_id)
1771 .ok_or_else(|| anyhow!("flow '{flow_id}' not found in manifest"))?;
1772 return Ok(entry.flow.clone());
1773 }
1774 bail!("flow '{flow_id}' not available (pack exports disabled)")
1775 }
1776
1777 pub fn metadata(&self) -> &PackMetadata {
1778 &self.metadata
1779 }
1780
1781 pub fn required_secrets(&self) -> &[greentic_types::SecretRequirement] {
1782 &self.metadata.secret_requirements
1783 }
1784
1785 pub fn missing_secrets(
1786 &self,
1787 tenant_ctx: &TypesTenantCtx,
1788 ) -> Vec<greentic_types::SecretRequirement> {
1789 let env = tenant_ctx.env.as_str().to_string();
1790 let tenant = tenant_ctx.tenant.as_str().to_string();
1791 let team = tenant_ctx.team.as_ref().map(|t| t.as_str().to_string());
1792 self.required_secrets()
1793 .iter()
1794 .filter(|req| {
1795 if let Some(scope) = &req.scope {
1797 if scope.env != env {
1798 return false;
1799 }
1800 if scope.tenant != tenant {
1801 return false;
1802 }
1803 if let Some(ref team_req) = scope.team
1804 && team.as_ref() != Some(team_req)
1805 {
1806 return false;
1807 }
1808 }
1809 let ctx = self.config.tenant_ctx();
1810 read_secret_blocking(&self.secrets, &ctx, req.key.as_str()).is_err()
1811 })
1812 .cloned()
1813 .collect()
1814 }
1815
1816 pub fn for_component_test(
1817 components: Vec<(String, PathBuf)>,
1818 flows: HashMap<String, FlowIR>,
1819 pack_id: &str,
1820 config: Arc<HostConfig>,
1821 ) -> Result<Self> {
1822 let engine = Engine::default();
1823 let engine_profile =
1824 EngineProfile::from_engine(&engine, CpuPolicy::Native, "default".to_string());
1825 let cache = CacheManager::new(CacheConfig::default(), engine_profile);
1826 let mut component_map = HashMap::new();
1827 for (name, path) in components {
1828 if !path.exists() {
1829 bail!("component artifact missing: {}", path.display());
1830 }
1831 let wasm_bytes = std::fs::read(&path)?;
1832 let component = Arc::new(
1833 Component::from_binary(&engine, &wasm_bytes)
1834 .with_context(|| format!("failed to compile component {}", path.display()))?,
1835 );
1836 component_map.insert(
1837 name.clone(),
1838 PackComponent {
1839 name,
1840 version: "0.0.0".into(),
1841 component,
1842 },
1843 );
1844 }
1845
1846 let mut flow_map = HashMap::new();
1847 let mut descriptors = Vec::new();
1848 for (id, ir) in flows {
1849 let flow_type = ir.flow_type.clone();
1850 let flow = flow_ir_to_flow(ir)?;
1851 flow_map.insert(id.clone(), flow);
1852 descriptors.push(FlowDescriptor {
1853 id: id.clone(),
1854 flow_type,
1855 pack_id: pack_id.to_string(),
1856 profile: "test".into(),
1857 version: "0.0.0".into(),
1858 description: None,
1859 });
1860 }
1861 let entry_flows = descriptors.iter().map(|flow| flow.id.clone()).collect();
1862 let metadata = PackMetadata {
1863 pack_id: pack_id.to_string(),
1864 version: "0.0.0".into(),
1865 entry_flows,
1866 secret_requirements: Vec::new(),
1867 };
1868 let flows_cache = PackFlows {
1869 descriptors: descriptors.clone(),
1870 flows: flow_map,
1871 metadata: metadata.clone(),
1872 };
1873
1874 Ok(Self {
1875 path: PathBuf::new(),
1876 archive_path: None,
1877 config,
1878 engine,
1879 metadata,
1880 manifest: None,
1881 legacy_manifest: None,
1882 component_manifests: HashMap::new(),
1883 mocks: None,
1884 flows: Some(flows_cache),
1885 components: component_map,
1886 http_client: Arc::clone(&HTTP_CLIENT),
1887 pre_cache: Mutex::new(HashMap::new()),
1888 session_store: None,
1889 state_store: None,
1890 wasi_policy: Arc::new(RunnerWasiPolicy::new()),
1891 assets_tempdir: None,
1892 provider_registry: RwLock::new(None),
1893 secrets: crate::secrets::default_manager()?,
1894 oauth_config: None,
1895 cache,
1896 })
1897 }
1898}
1899
1900fn is_missing_node_export(err: &wasmtime::Error, version: &str) -> bool {
1901 let message = err.to_string();
1902 message.contains("no exported instance named")
1903 && message.contains(&format!("greentic:component/node@{version}"))
1904}
1905
1906struct PackFlows {
1907 descriptors: Vec<FlowDescriptor>,
1908 flows: HashMap<String, Flow>,
1909 metadata: PackMetadata,
1910}
1911
1912const RUNTIME_FLOW_EXTENSION_IDS: [&str; 3] = [
1913 "greentic.pack.runtime_flow",
1914 "greentic.pack.flow_runtime",
1915 "greentic.pack.runtime_flows",
1916];
1917
1918#[derive(Debug, Deserialize)]
1919struct RuntimeFlowBundle {
1920 flows: Vec<RuntimeFlow>,
1921}
1922
1923#[derive(Debug, Deserialize)]
1924struct RuntimeFlow {
1925 id: String,
1926 #[serde(alias = "flow_type")]
1927 kind: FlowKind,
1928 #[serde(default)]
1929 schema_version: Option<String>,
1930 #[serde(default)]
1931 start: Option<String>,
1932 #[serde(default)]
1933 entrypoints: BTreeMap<String, Value>,
1934 nodes: BTreeMap<String, RuntimeNode>,
1935 #[serde(default)]
1936 metadata: Option<FlowMetadata>,
1937}
1938
1939#[derive(Debug, Deserialize)]
1940struct RuntimeNode {
1941 #[serde(alias = "component")]
1942 component_id: String,
1943 #[serde(default, alias = "operation")]
1944 operation_name: Option<String>,
1945 #[serde(default, alias = "payload", alias = "input")]
1946 operation_payload: Value,
1947 #[serde(default)]
1948 routing: Option<Routing>,
1949 #[serde(default)]
1950 telemetry: Option<TelemetryHints>,
1951}
1952
1953fn deserialize_json_bytes(bytes: Vec<u8>) -> Result<Value> {
1954 if bytes.is_empty() {
1955 return Ok(Value::Null);
1956 }
1957 serde_json::from_slice(&bytes).or_else(|_| {
1958 String::from_utf8(bytes)
1959 .map(Value::String)
1960 .map_err(|err| anyhow!(err))
1961 })
1962}
1963
1964impl PackFlows {
1965 fn from_manifest(manifest: greentic_types::PackManifest) -> Self {
1966 if let Some(flows) = flows_from_runtime_extension(&manifest) {
1967 return flows;
1968 }
1969 let descriptors = manifest
1970 .flows
1971 .iter()
1972 .map(|entry| FlowDescriptor {
1973 id: entry.id.as_str().to_string(),
1974 flow_type: flow_kind_to_str(entry.kind).to_string(),
1975 pack_id: manifest.pack_id.as_str().to_string(),
1976 profile: manifest.pack_id.as_str().to_string(),
1977 version: manifest.version.to_string(),
1978 description: None,
1979 })
1980 .collect();
1981 let mut flows = HashMap::new();
1982 for entry in &manifest.flows {
1983 flows.insert(entry.id.as_str().to_string(), entry.flow.clone());
1984 }
1985 Self {
1986 metadata: PackMetadata::from_manifest(&manifest),
1987 descriptors,
1988 flows,
1989 }
1990 }
1991}
1992
1993fn flows_from_runtime_extension(manifest: &greentic_types::PackManifest) -> Option<PackFlows> {
1994 let extensions = manifest.extensions.as_ref()?;
1995 let extension = extensions.iter().find_map(|(key, ext)| {
1996 if RUNTIME_FLOW_EXTENSION_IDS
1997 .iter()
1998 .any(|candidate| candidate == key)
1999 {
2000 Some(ext)
2001 } else {
2002 None
2003 }
2004 })?;
2005 let runtime_flows = match decode_runtime_flow_extension(extension) {
2006 Some(flows) if !flows.is_empty() => flows,
2007 _ => return None,
2008 };
2009
2010 let descriptors = runtime_flows
2011 .iter()
2012 .map(|flow| FlowDescriptor {
2013 id: flow.id.as_str().to_string(),
2014 flow_type: flow_kind_to_str(flow.kind).to_string(),
2015 pack_id: manifest.pack_id.as_str().to_string(),
2016 profile: manifest.pack_id.as_str().to_string(),
2017 version: manifest.version.to_string(),
2018 description: None,
2019 })
2020 .collect::<Vec<_>>();
2021 let flows = runtime_flows
2022 .into_iter()
2023 .map(|flow| (flow.id.as_str().to_string(), flow))
2024 .collect();
2025
2026 Some(PackFlows {
2027 metadata: PackMetadata::from_manifest(manifest),
2028 descriptors,
2029 flows,
2030 })
2031}
2032
2033fn decode_runtime_flow_extension(extension: &ExtensionRef) -> Option<Vec<Flow>> {
2034 let value = match extension.inline.as_ref()? {
2035 ExtensionInline::Other(value) => value.clone(),
2036 _ => return None,
2037 };
2038
2039 if let Ok(bundle) = serde_json::from_value::<RuntimeFlowBundle>(value.clone()) {
2040 return Some(collect_runtime_flows(bundle.flows));
2041 }
2042
2043 if let Ok(flows) = serde_json::from_value::<Vec<RuntimeFlow>>(value.clone()) {
2044 return Some(collect_runtime_flows(flows));
2045 }
2046
2047 if let Ok(flows) = serde_json::from_value::<Vec<Flow>>(value) {
2048 return Some(flows);
2049 }
2050
2051 warn!(
2052 extension = %extension.kind,
2053 version = %extension.version,
2054 "runtime flow extension present but could not be decoded"
2055 );
2056 None
2057}
2058
2059fn collect_runtime_flows(flows: Vec<RuntimeFlow>) -> Vec<Flow> {
2060 flows
2061 .into_iter()
2062 .filter_map(|flow| match runtime_flow_to_flow(flow) {
2063 Ok(flow) => Some(flow),
2064 Err(err) => {
2065 warn!(error = %err, "failed to decode runtime flow");
2066 None
2067 }
2068 })
2069 .collect()
2070}
2071
2072fn runtime_flow_to_flow(runtime: RuntimeFlow) -> Result<Flow> {
2073 let flow_id = FlowId::from_str(&runtime.id)
2074 .with_context(|| format!("invalid flow id `{}`", runtime.id))?;
2075 let mut entrypoints = runtime.entrypoints;
2076 if entrypoints.is_empty()
2077 && let Some(start) = &runtime.start
2078 {
2079 entrypoints.insert("default".into(), Value::String(start.clone()));
2080 }
2081
2082 let mut nodes: IndexMap<NodeId, Node, FlowHasher> = IndexMap::default();
2083 for (id, node) in runtime.nodes {
2084 let node_id = NodeId::from_str(&id).with_context(|| format!("invalid node id `{id}`"))?;
2085 let component_id = ComponentId::from_str(&node.component_id)
2086 .with_context(|| format!("invalid component id `{}`", node.component_id))?;
2087 let component = FlowComponentRef {
2088 id: component_id,
2089 pack_alias: None,
2090 operation: node.operation_name,
2091 };
2092 let routing = node.routing.unwrap_or(Routing::End);
2093 let telemetry = node.telemetry.unwrap_or_default();
2094 nodes.insert(
2095 node_id.clone(),
2096 Node {
2097 id: node_id,
2098 component,
2099 input: InputMapping {
2100 mapping: node.operation_payload,
2101 },
2102 output: OutputMapping {
2103 mapping: Value::Null,
2104 },
2105 routing,
2106 telemetry,
2107 },
2108 );
2109 }
2110
2111 Ok(Flow {
2112 schema_version: runtime.schema_version.unwrap_or_else(|| "1.0".to_string()),
2113 id: flow_id,
2114 kind: runtime.kind,
2115 entrypoints,
2116 nodes,
2117 metadata: runtime.metadata.unwrap_or_default(),
2118 })
2119}
2120
2121fn flow_kind_to_str(kind: greentic_types::FlowKind) -> &'static str {
2122 match kind {
2123 greentic_types::FlowKind::Messaging => "messaging",
2124 greentic_types::FlowKind::Event => "event",
2125 greentic_types::FlowKind::ComponentConfig => "component-config",
2126 greentic_types::FlowKind::Job => "job",
2127 greentic_types::FlowKind::Http => "http",
2128 }
2129}
2130
2131fn read_entry(archive: &mut ZipArchive<File>, name: &str) -> Result<Vec<u8>> {
2132 let mut file = archive
2133 .by_name(name)
2134 .with_context(|| format!("entry {name} missing from archive"))?;
2135 let mut buf = Vec::new();
2136 file.read_to_end(&mut buf)?;
2137 Ok(buf)
2138}
2139
2140fn normalize_flow_doc(mut doc: FlowDoc) -> FlowDoc {
2141 for node in doc.nodes.values_mut() {
2142 let Some((component_ref, payload)) = node
2143 .raw
2144 .iter()
2145 .next()
2146 .map(|(key, value)| (key.clone(), value.clone()))
2147 else {
2148 continue;
2149 };
2150 if component_ref.starts_with("emit.") {
2151 node.operation = Some(component_ref);
2152 node.payload = payload;
2153 node.raw.clear();
2154 continue;
2155 }
2156 let (target_component, operation, input, config) =
2157 infer_component_exec(&payload, &component_ref);
2158 let mut payload_obj = serde_json::Map::new();
2159 payload_obj.insert("component".into(), Value::String(target_component));
2161 payload_obj.insert("operation".into(), Value::String(operation));
2162 payload_obj.insert("input".into(), input);
2163 if let Some(cfg) = config {
2164 payload_obj.insert("config".into(), cfg);
2165 }
2166 node.operation = Some("component.exec".to_string());
2167 node.payload = Value::Object(payload_obj);
2168 node.raw.clear();
2169 }
2170 doc
2171}
2172
2173fn infer_component_exec(
2174 payload: &Value,
2175 component_ref: &str,
2176) -> (String, String, Value, Option<Value>) {
2177 let default_op = if component_ref.starts_with("templating.") {
2178 "render"
2179 } else {
2180 "invoke"
2181 }
2182 .to_string();
2183
2184 if let Value::Object(map) = payload {
2185 let op = map
2186 .get("op")
2187 .or_else(|| map.get("operation"))
2188 .and_then(Value::as_str)
2189 .map(|s| s.to_string())
2190 .unwrap_or_else(|| default_op.clone());
2191
2192 let mut input = map.clone();
2193 let config = input.remove("config");
2194 let component = input
2195 .get("component")
2196 .or_else(|| input.get("component_ref"))
2197 .and_then(Value::as_str)
2198 .map(|s| s.to_string())
2199 .unwrap_or_else(|| component_ref.to_string());
2200 input.remove("component");
2201 input.remove("component_ref");
2202 input.remove("op");
2203 input.remove("operation");
2204 return (component, op, Value::Object(input), config);
2205 }
2206
2207 (component_ref.to_string(), default_op, payload.clone(), None)
2208}
2209
2210#[derive(Clone, Debug)]
2211struct ComponentSpec {
2212 id: String,
2213 version: String,
2214 legacy_path: Option<String>,
2215}
2216
2217#[derive(Clone, Debug)]
2218struct ComponentSourceInfo {
2219 digest: Option<String>,
2220 source: ComponentSourceRef,
2221 artifact: ComponentArtifactLocation,
2222 expected_wasm_sha256: Option<String>,
2223 skip_digest_verification: bool,
2224}
2225
2226#[derive(Clone, Debug)]
2227enum ComponentArtifactLocation {
2228 Inline { wasm_path: String },
2229 Remote,
2230}
2231
2232#[derive(Clone, Debug, Deserialize)]
2233struct PackLockV1 {
2234 schema_version: u32,
2235 components: Vec<PackLockComponent>,
2236}
2237
2238#[derive(Clone, Debug, Deserialize)]
2239struct PackLockComponent {
2240 name: String,
2241 #[serde(default, rename = "source_ref")]
2242 source_ref: Option<String>,
2243 #[serde(default, rename = "ref")]
2244 legacy_ref: Option<String>,
2245 #[serde(default)]
2246 component_id: Option<ComponentId>,
2247 #[serde(default)]
2248 bundled: Option<bool>,
2249 #[serde(default, rename = "bundled_path")]
2250 bundled_path: Option<String>,
2251 #[serde(default, rename = "path")]
2252 legacy_path: Option<String>,
2253 #[serde(default)]
2254 wasm_sha256: Option<String>,
2255 #[serde(default, rename = "sha256")]
2256 legacy_sha256: Option<String>,
2257 #[serde(default)]
2258 resolved_digest: Option<String>,
2259 #[serde(default)]
2260 digest: Option<String>,
2261}
2262
2263fn component_specs(
2264 manifest: Option<&greentic_types::PackManifest>,
2265 legacy_manifest: Option<&legacy_pack::PackManifest>,
2266 component_sources: Option<&ComponentSourcesV1>,
2267 pack_lock: Option<&PackLockV1>,
2268) -> Vec<ComponentSpec> {
2269 if let Some(manifest) = manifest {
2270 if !manifest.components.is_empty() {
2271 return manifest
2272 .components
2273 .iter()
2274 .map(|entry| ComponentSpec {
2275 id: entry.id.as_str().to_string(),
2276 version: entry.version.to_string(),
2277 legacy_path: None,
2278 })
2279 .collect();
2280 }
2281 if let Some(lock) = pack_lock {
2282 let mut seen = HashSet::new();
2283 let mut specs = Vec::new();
2284 for entry in &lock.components {
2285 let id = entry
2286 .component_id
2287 .as_ref()
2288 .map(|id| id.as_str())
2289 .unwrap_or(entry.name.as_str());
2290 if seen.insert(id.to_string()) {
2291 specs.push(ComponentSpec {
2292 id: id.to_string(),
2293 version: "0.0.0".to_string(),
2294 legacy_path: None,
2295 });
2296 }
2297 }
2298 return specs;
2299 }
2300 if let Some(sources) = component_sources {
2301 let mut seen = HashSet::new();
2302 let mut specs = Vec::new();
2303 for entry in &sources.components {
2304 let id = entry
2305 .component_id
2306 .as_ref()
2307 .map(|id| id.as_str())
2308 .unwrap_or(entry.name.as_str());
2309 if seen.insert(id.to_string()) {
2310 specs.push(ComponentSpec {
2311 id: id.to_string(),
2312 version: "0.0.0".to_string(),
2313 legacy_path: None,
2314 });
2315 }
2316 }
2317 return specs;
2318 }
2319 }
2320 if let Some(legacy_manifest) = legacy_manifest {
2321 return legacy_manifest
2322 .components
2323 .iter()
2324 .map(|entry| ComponentSpec {
2325 id: entry.name.clone(),
2326 version: entry.version.to_string(),
2327 legacy_path: Some(entry.file_wasm.clone()),
2328 })
2329 .collect();
2330 }
2331 Vec::new()
2332}
2333
2334fn component_sources_table(
2335 sources: Option<&ComponentSourcesV1>,
2336) -> Result<Option<HashMap<String, ComponentSourceInfo>>> {
2337 let Some(sources) = sources else {
2338 return Ok(None);
2339 };
2340 let mut table = HashMap::new();
2341 for entry in &sources.components {
2342 let artifact = match &entry.artifact {
2343 ArtifactLocationV1::Inline { wasm_path, .. } => ComponentArtifactLocation::Inline {
2344 wasm_path: wasm_path.clone(),
2345 },
2346 ArtifactLocationV1::Remote => ComponentArtifactLocation::Remote,
2347 };
2348 let info = ComponentSourceInfo {
2349 digest: Some(entry.resolved.digest.clone()),
2350 source: entry.source.clone(),
2351 artifact,
2352 expected_wasm_sha256: None,
2353 skip_digest_verification: false,
2354 };
2355 if let Some(component_id) = entry.component_id.as_ref() {
2356 table.insert(component_id.as_str().to_string(), info.clone());
2357 }
2358 table.insert(entry.name.clone(), info);
2359 }
2360 Ok(Some(table))
2361}
2362
2363fn load_pack_lock(path: &Path) -> Result<Option<PackLockV1>> {
2364 let lock_path = if path.is_dir() {
2365 let candidate = path.join("pack.lock");
2366 if candidate.exists() {
2367 Some(candidate)
2368 } else {
2369 let candidate = path.join("pack.lock.json");
2370 candidate.exists().then_some(candidate)
2371 }
2372 } else {
2373 None
2374 };
2375 let Some(lock_path) = lock_path else {
2376 return Ok(None);
2377 };
2378 let raw = std::fs::read_to_string(&lock_path)
2379 .with_context(|| format!("failed to read {}", lock_path.display()))?;
2380 let lock: PackLockV1 = serde_json::from_str(&raw).context("failed to parse pack.lock")?;
2381 if lock.schema_version != 1 {
2382 bail!("pack.lock schema_version must be 1");
2383 }
2384 Ok(Some(lock))
2385}
2386
2387fn find_pack_lock_roots(
2388 pack_path: &Path,
2389 is_dir: bool,
2390 archive_hint: Option<&Path>,
2391) -> Vec<PathBuf> {
2392 if is_dir {
2393 return vec![pack_path.to_path_buf()];
2394 }
2395 let mut roots = Vec::new();
2396 if let Some(archive_path) = archive_hint {
2397 if let Some(parent) = archive_path.parent() {
2398 roots.push(parent.to_path_buf());
2399 if let Some(grandparent) = parent.parent() {
2400 roots.push(grandparent.to_path_buf());
2401 }
2402 }
2403 } else if let Some(parent) = pack_path.parent() {
2404 roots.push(parent.to_path_buf());
2405 if let Some(grandparent) = parent.parent() {
2406 roots.push(grandparent.to_path_buf());
2407 }
2408 }
2409 roots
2410}
2411
2412fn normalize_sha256(digest: &str) -> Result<String> {
2413 let trimmed = digest.trim();
2414 if trimmed.is_empty() {
2415 bail!("sha256 digest cannot be empty");
2416 }
2417 if let Some(stripped) = trimmed.strip_prefix("sha256:") {
2418 if stripped.is_empty() {
2419 bail!("sha256 digest must include hex bytes after sha256:");
2420 }
2421 return Ok(trimmed.to_string());
2422 }
2423 if trimmed.chars().all(|c| c.is_ascii_hexdigit()) {
2424 return Ok(format!("sha256:{trimmed}"));
2425 }
2426 bail!("sha256 digest must be hex or sha256:<hex>");
2427}
2428
2429fn component_sources_table_from_pack_lock(
2430 lock: &PackLockV1,
2431 allow_missing_hash: bool,
2432) -> Result<HashMap<String, ComponentSourceInfo>> {
2433 let mut table = HashMap::new();
2434 let mut names = HashSet::new();
2435 for entry in &lock.components {
2436 if !names.insert(entry.name.clone()) {
2437 bail!(
2438 "pack.lock contains duplicate component name `{}`",
2439 entry.name
2440 );
2441 }
2442 let source_ref = match (&entry.source_ref, &entry.legacy_ref) {
2443 (Some(primary), Some(legacy)) => {
2444 if primary != legacy {
2445 bail!(
2446 "pack.lock component {} has conflicting refs: {} vs {}",
2447 entry.name,
2448 primary,
2449 legacy
2450 );
2451 }
2452 primary.as_str()
2453 }
2454 (Some(primary), None) => primary.as_str(),
2455 (None, Some(legacy)) => legacy.as_str(),
2456 (None, None) => {
2457 bail!("pack.lock component {} missing source_ref", entry.name);
2458 }
2459 };
2460 let source: ComponentSourceRef = source_ref
2461 .parse()
2462 .with_context(|| format!("invalid component ref `{}`", source_ref))?;
2463 let bundled_path = match (&entry.bundled_path, &entry.legacy_path) {
2464 (Some(primary), Some(legacy)) => {
2465 if primary != legacy {
2466 bail!(
2467 "pack.lock component {} has conflicting bundled paths: {} vs {}",
2468 entry.name,
2469 primary,
2470 legacy
2471 );
2472 }
2473 Some(primary.clone())
2474 }
2475 (Some(primary), None) => Some(primary.clone()),
2476 (None, Some(legacy)) => Some(legacy.clone()),
2477 (None, None) => None,
2478 };
2479 let bundled = entry.bundled.unwrap_or(false) || bundled_path.is_some();
2480 let (artifact, digest, expected_wasm_sha256, skip_digest_verification) = if bundled {
2481 let wasm_path = bundled_path.ok_or_else(|| {
2482 anyhow!(
2483 "pack.lock component {} marked bundled but bundled_path is missing",
2484 entry.name
2485 )
2486 })?;
2487 let expected_raw = match (&entry.wasm_sha256, &entry.legacy_sha256) {
2488 (Some(primary), Some(legacy)) => {
2489 if primary != legacy {
2490 bail!(
2491 "pack.lock component {} has conflicting wasm_sha256 values: {} vs {}",
2492 entry.name,
2493 primary,
2494 legacy
2495 );
2496 }
2497 Some(primary.as_str())
2498 }
2499 (Some(primary), None) => Some(primary.as_str()),
2500 (None, Some(legacy)) => Some(legacy.as_str()),
2501 (None, None) => None,
2502 };
2503 let expected = match expected_raw {
2504 Some(value) => Some(normalize_sha256(value)?),
2505 None => None,
2506 };
2507 if expected.is_none() && !allow_missing_hash {
2508 bail!(
2509 "pack.lock component {} missing wasm_sha256 for bundled component",
2510 entry.name
2511 );
2512 }
2513 (
2514 ComponentArtifactLocation::Inline { wasm_path },
2515 expected.clone(),
2516 expected,
2517 allow_missing_hash && expected_raw.is_none(),
2518 )
2519 } else {
2520 if source.is_tag() {
2521 bail!(
2522 "component {} uses tag ref {} but is not bundled; rebuild the pack",
2523 entry.name,
2524 source
2525 );
2526 }
2527 let expected = entry
2528 .resolved_digest
2529 .as_deref()
2530 .or(entry.digest.as_deref())
2531 .ok_or_else(|| {
2532 anyhow!(
2533 "pack.lock component {} missing resolved_digest for remote component",
2534 entry.name
2535 )
2536 })?;
2537 (
2538 ComponentArtifactLocation::Remote,
2539 Some(normalize_digest(expected)),
2540 None,
2541 false,
2542 )
2543 };
2544 let info = ComponentSourceInfo {
2545 digest,
2546 source,
2547 artifact,
2548 expected_wasm_sha256,
2549 skip_digest_verification,
2550 };
2551 if let Some(component_id) = entry.component_id.as_ref() {
2552 let key = component_id.as_str().to_string();
2553 if table.contains_key(&key) {
2554 bail!(
2555 "pack.lock contains duplicate component id `{}`",
2556 component_id.as_str()
2557 );
2558 }
2559 table.insert(key, info.clone());
2560 }
2561 if entry.name
2562 != entry
2563 .component_id
2564 .as_ref()
2565 .map(|id| id.as_str())
2566 .unwrap_or("")
2567 {
2568 table.insert(entry.name.clone(), info);
2569 }
2570 }
2571 Ok(table)
2572}
2573
2574fn component_path_for_spec(root: &Path, spec: &ComponentSpec) -> PathBuf {
2575 if let Some(path) = &spec.legacy_path {
2576 return root.join(path);
2577 }
2578 root.join("components").join(format!("{}.wasm", spec.id))
2579}
2580
2581fn normalize_digest(digest: &str) -> String {
2582 if digest.starts_with("sha256:") || digest.starts_with("blake3:") {
2583 digest.to_string()
2584 } else {
2585 format!("sha256:{digest}")
2586 }
2587}
2588
2589fn compute_digest_for(bytes: &[u8], digest: &str) -> Result<String> {
2590 if digest.starts_with("blake3:") {
2591 let hash = blake3::hash(bytes);
2592 return Ok(format!("blake3:{}", hash.to_hex()));
2593 }
2594 let mut hasher = sha2::Sha256::new();
2595 hasher.update(bytes);
2596 Ok(format!("sha256:{:x}", hasher.finalize()))
2597}
2598
2599fn compute_sha256_digest_for(bytes: &[u8]) -> String {
2600 let mut hasher = sha2::Sha256::new();
2601 hasher.update(bytes);
2602 format!("sha256:{:x}", hasher.finalize())
2603}
2604
2605fn build_artifact_key(cache: &CacheManager, digest: Option<&str>, bytes: &[u8]) -> ArtifactKey {
2606 let wasm_digest = digest
2607 .map(normalize_digest)
2608 .unwrap_or_else(|| compute_sha256_digest_for(bytes));
2609 ArtifactKey::new(cache.engine_profile_id().to_string(), wasm_digest)
2610}
2611
2612async fn compile_component_with_cache(
2613 cache: &CacheManager,
2614 engine: &Engine,
2615 digest: Option<&str>,
2616 bytes: Vec<u8>,
2617) -> Result<Arc<Component>> {
2618 let key = build_artifact_key(cache, digest, &bytes);
2619 cache.get_component(engine, &key, || Ok(bytes)).await
2620}
2621
2622fn verify_component_digest(component_id: &str, expected: &str, bytes: &[u8]) -> Result<()> {
2623 let normalized_expected = normalize_digest(expected);
2624 let actual = compute_digest_for(bytes, &normalized_expected)?;
2625 if normalize_digest(&actual) != normalized_expected {
2626 bail!(
2627 "component {component_id} digest mismatch: expected {normalized_expected}, got {actual}"
2628 );
2629 }
2630 Ok(())
2631}
2632
2633fn verify_wasm_sha256(component_id: &str, expected: &str, bytes: &[u8]) -> Result<()> {
2634 let normalized_expected = normalize_sha256(expected)?;
2635 let actual = compute_sha256_digest_for(bytes);
2636 if actual != normalized_expected {
2637 bail!(
2638 "component {component_id} bundled digest mismatch: expected {normalized_expected}, got {actual}"
2639 );
2640 }
2641 Ok(())
2642}
2643
2644#[cfg(test)]
2645mod pack_lock_tests {
2646 use super::*;
2647 use tempfile::TempDir;
2648
2649 #[test]
2650 fn pack_lock_tag_ref_requires_bundle() {
2651 let lock = PackLockV1 {
2652 schema_version: 1,
2653 components: vec![PackLockComponent {
2654 name: "templates".to_string(),
2655 source_ref: Some("oci://registry.test/templates:latest".to_string()),
2656 legacy_ref: None,
2657 component_id: None,
2658 bundled: Some(false),
2659 bundled_path: None,
2660 legacy_path: None,
2661 wasm_sha256: None,
2662 legacy_sha256: None,
2663 resolved_digest: None,
2664 digest: None,
2665 }],
2666 };
2667 let err = component_sources_table_from_pack_lock(&lock, false).unwrap_err();
2668 assert!(
2669 err.to_string().contains("tag ref") && err.to_string().contains("rebuild the pack"),
2670 "unexpected error: {err}"
2671 );
2672 }
2673
2674 #[test]
2675 fn bundled_hash_mismatch_errors() {
2676 let rt = tokio::runtime::Runtime::new().expect("runtime");
2677 let temp = TempDir::new().expect("temp dir");
2678 let engine = Engine::default();
2679 let engine_profile =
2680 EngineProfile::from_engine(&engine, CpuPolicy::Native, "default".to_string());
2681 let cache_config = CacheConfig {
2682 root: temp.path().join("cache"),
2683 ..CacheConfig::default()
2684 };
2685 let cache = CacheManager::new(cache_config, engine_profile);
2686 let wasm_path = temp.path().join("component.wasm");
2687 let fixture_wasm = Path::new(env!("CARGO_MANIFEST_DIR"))
2688 .join("../../tests/fixtures/packs/secrets_store_smoke/components/echo_secret.wasm");
2689 let bytes = std::fs::read(&fixture_wasm).expect("read fixture wasm");
2690 std::fs::write(&wasm_path, &bytes).expect("write temp wasm");
2691
2692 let spec = ComponentSpec {
2693 id: "qa.process".to_string(),
2694 version: "0.0.0".to_string(),
2695 legacy_path: None,
2696 };
2697 let mut missing = HashSet::new();
2698 missing.insert(spec.id.clone());
2699
2700 let mut sources = HashMap::new();
2701 sources.insert(
2702 spec.id.clone(),
2703 ComponentSourceInfo {
2704 digest: Some("sha256:deadbeef".to_string()),
2705 source: ComponentSourceRef::Oci("registry.test/qa.process@sha256:deadbeef".into()),
2706 artifact: ComponentArtifactLocation::Inline {
2707 wasm_path: "component.wasm".to_string(),
2708 },
2709 expected_wasm_sha256: Some("sha256:deadbeef".to_string()),
2710 skip_digest_verification: false,
2711 },
2712 );
2713
2714 let mut loaded = HashMap::new();
2715 let result = rt.block_on(load_components_from_sources(
2716 &cache,
2717 &engine,
2718 &sources,
2719 &ComponentResolution::default(),
2720 &[spec],
2721 &mut missing,
2722 &mut loaded,
2723 Some(temp.path()),
2724 None,
2725 ));
2726 let err = result.unwrap_err();
2727 assert!(
2728 err.to_string().contains("bundled digest mismatch"),
2729 "unexpected error: {err}"
2730 );
2731 }
2732}
2733
2734#[cfg(test)]
2735mod pack_resolution_prop_tests {
2736 use super::*;
2737 use greentic_types::{ArtifactLocationV1, ComponentSourceEntryV1, ResolvedComponentV1};
2738 use proptest::prelude::*;
2739 use proptest::test_runner::{Config as ProptestConfig, RngAlgorithm, TestRng, TestRunner};
2740 use std::collections::BTreeSet;
2741 use std::path::Path;
2742 use std::str::FromStr;
2743
2744 #[derive(Clone, Debug)]
2745 enum ResolveRequest {
2746 ById(String),
2747 ByName(String),
2748 }
2749
2750 #[derive(Clone, Debug, PartialEq, Eq)]
2751 struct ResolvedComponent {
2752 key: String,
2753 source: String,
2754 artifact: String,
2755 digest: Option<String>,
2756 expected_wasm_sha256: Option<String>,
2757 skip_digest_verification: bool,
2758 }
2759
2760 #[derive(Clone, Debug, PartialEq, Eq)]
2761 struct ResolveError {
2762 code: String,
2763 message: String,
2764 context_key: String,
2765 }
2766
2767 #[derive(Clone, Debug)]
2768 struct Scenario {
2769 pack_lock: Option<PackLockV1>,
2770 component_sources: Option<ComponentSourcesV1>,
2771 request: ResolveRequest,
2772 expected_sha256: Option<String>,
2773 bytes: Vec<u8>,
2774 }
2775
2776 fn resolve_component_test(
2777 sources: Option<&ComponentSourcesV1>,
2778 lock: Option<&PackLockV1>,
2779 request: &ResolveRequest,
2780 ) -> Result<ResolvedComponent, ResolveError> {
2781 let table = if let Some(lock) = lock {
2782 component_sources_table_from_pack_lock(lock, false).map_err(|err| ResolveError {
2783 code: classify_pack_lock_error(err.to_string().as_str()).to_string(),
2784 message: err.to_string(),
2785 context_key: request_key(request).to_string(),
2786 })?
2787 } else {
2788 let sources = component_sources_table(sources).map_err(|err| ResolveError {
2789 code: "component_sources_error".to_string(),
2790 message: err.to_string(),
2791 context_key: request_key(request).to_string(),
2792 })?;
2793 sources.ok_or_else(|| ResolveError {
2794 code: "missing_component_sources".to_string(),
2795 message: "component sources not provided".to_string(),
2796 context_key: request_key(request).to_string(),
2797 })?
2798 };
2799
2800 let key = request_key(request);
2801 let source = table.get(key).ok_or_else(|| ResolveError {
2802 code: "component_not_found".to_string(),
2803 message: format!("component {key} not found"),
2804 context_key: key.to_string(),
2805 })?;
2806
2807 Ok(ResolvedComponent {
2808 key: key.to_string(),
2809 source: source.source.to_string(),
2810 artifact: match source.artifact {
2811 ComponentArtifactLocation::Inline { .. } => "inline".to_string(),
2812 ComponentArtifactLocation::Remote => "remote".to_string(),
2813 },
2814 digest: source.digest.clone(),
2815 expected_wasm_sha256: source.expected_wasm_sha256.clone(),
2816 skip_digest_verification: source.skip_digest_verification,
2817 })
2818 }
2819
2820 fn request_key(request: &ResolveRequest) -> &str {
2821 match request {
2822 ResolveRequest::ById(value) => value.as_str(),
2823 ResolveRequest::ByName(value) => value.as_str(),
2824 }
2825 }
2826
2827 fn classify_pack_lock_error(message: &str) -> &'static str {
2828 if message.contains("duplicate component name") {
2829 "duplicate_name"
2830 } else if message.contains("duplicate component id") {
2831 "duplicate_id"
2832 } else if message.contains("conflicting refs") {
2833 "conflicting_ref"
2834 } else if message.contains("conflicting bundled paths") {
2835 "conflicting_bundled_path"
2836 } else if message.contains("conflicting wasm_sha256") {
2837 "conflicting_wasm_sha256"
2838 } else if message.contains("missing source_ref") {
2839 "missing_source_ref"
2840 } else if message.contains("marked bundled but bundled_path is missing") {
2841 "missing_bundled_path"
2842 } else if message.contains("missing wasm_sha256") {
2843 "missing_wasm_sha256"
2844 } else if message.contains("tag ref") && message.contains("not bundled") {
2845 "tag_ref_requires_bundle"
2846 } else if message.contains("missing resolved_digest") {
2847 "missing_resolved_digest"
2848 } else if message.contains("invalid component ref") {
2849 "invalid_component_ref"
2850 } else if message.contains("sha256 digest") {
2851 "invalid_sha256"
2852 } else {
2853 "unknown_error"
2854 }
2855 }
2856
2857 fn known_error_codes() -> BTreeSet<&'static str> {
2858 [
2859 "component_sources_error",
2860 "missing_component_sources",
2861 "component_not_found",
2862 "duplicate_name",
2863 "duplicate_id",
2864 "conflicting_ref",
2865 "conflicting_bundled_path",
2866 "conflicting_wasm_sha256",
2867 "missing_source_ref",
2868 "missing_bundled_path",
2869 "missing_wasm_sha256",
2870 "tag_ref_requires_bundle",
2871 "missing_resolved_digest",
2872 "invalid_component_ref",
2873 "invalid_sha256",
2874 "unknown_error",
2875 ]
2876 .into_iter()
2877 .collect()
2878 }
2879
2880 fn proptest_config() -> ProptestConfig {
2881 let cases = std::env::var("PROPTEST_CASES")
2882 .ok()
2883 .and_then(|value| value.parse::<u32>().ok())
2884 .unwrap_or(128);
2885 ProptestConfig {
2886 cases,
2887 failure_persistence: None,
2888 ..ProptestConfig::default()
2889 }
2890 }
2891
2892 fn proptest_seed() -> Option<[u8; 32]> {
2893 let seed = std::env::var("PROPTEST_SEED")
2894 .ok()
2895 .and_then(|value| value.parse::<u64>().ok())?;
2896 let mut bytes = [0u8; 32];
2897 bytes[..8].copy_from_slice(&seed.to_le_bytes());
2898 Some(bytes)
2899 }
2900
2901 fn run_cases(strategy: impl Strategy<Value = Scenario>, cases: u32, seed: Option<[u8; 32]>) {
2902 let config = ProptestConfig {
2903 cases,
2904 failure_persistence: None,
2905 ..ProptestConfig::default()
2906 };
2907 let mut runner = match seed {
2908 Some(bytes) => {
2909 TestRunner::new_with_rng(config, TestRng::from_seed(RngAlgorithm::ChaCha, &bytes))
2910 }
2911 None => TestRunner::new(config),
2912 };
2913 runner
2914 .run(&strategy, |scenario| {
2915 run_scenario(&scenario);
2916 Ok(())
2917 })
2918 .unwrap();
2919 }
2920
2921 fn run_scenario(scenario: &Scenario) {
2922 let known_codes = known_error_codes();
2923 let first = resolve_component_test(
2924 scenario.component_sources.as_ref(),
2925 scenario.pack_lock.as_ref(),
2926 &scenario.request,
2927 );
2928 let second = resolve_component_test(
2929 scenario.component_sources.as_ref(),
2930 scenario.pack_lock.as_ref(),
2931 &scenario.request,
2932 );
2933 assert_eq!(normalize_result(&first), normalize_result(&second));
2934
2935 if let Some(lock) = scenario.pack_lock.as_ref() {
2936 let lock_only = resolve_component_test(None, Some(lock), &scenario.request);
2937 assert_eq!(normalize_result(&first), normalize_result(&lock_only));
2938 }
2939
2940 if let Err(err) = first.as_ref() {
2941 assert!(
2942 known_codes.contains(err.code.as_str()),
2943 "unexpected error code {}: {}",
2944 err.code,
2945 err.message
2946 );
2947 }
2948
2949 if let Some(expected) = scenario.expected_sha256.as_deref() {
2950 let expected_ok =
2951 verify_wasm_sha256("test.component", expected, &scenario.bytes).is_ok();
2952 let actual = compute_sha256_digest_for(&scenario.bytes);
2953 if actual == normalize_sha256(expected).unwrap_or_default() {
2954 assert!(expected_ok, "expected sha256 match to succeed");
2955 } else {
2956 assert!(!expected_ok, "expected sha256 mismatch to fail");
2957 }
2958 }
2959 }
2960
2961 fn normalize_result(
2962 result: &Result<ResolvedComponent, ResolveError>,
2963 ) -> Result<ResolvedComponent, ResolveError> {
2964 match result {
2965 Ok(value) => Ok(value.clone()),
2966 Err(err) => Err(err.clone()),
2967 }
2968 }
2969
2970 fn scenario_strategy() -> impl Strategy<Value = Scenario> {
2971 let name = any::<u8>().prop_map(|n| format!("component{n}.core"));
2972 let alt_name = any::<u8>().prop_map(|n| format!("component_alt{n}.core"));
2973 let tag_ref = any::<bool>();
2974 let bundled = any::<bool>();
2975 let include_sha = any::<bool>();
2976 let include_component_id = any::<bool>();
2977 let request_by_id = any::<bool>();
2978 let use_lock = any::<bool>();
2979 let use_sources = any::<bool>();
2980 let bytes = prop::collection::vec(any::<u8>(), 1..64);
2981
2982 (
2983 name,
2984 alt_name,
2985 tag_ref,
2986 bundled,
2987 include_sha,
2988 include_component_id,
2989 request_by_id,
2990 use_lock,
2991 use_sources,
2992 bytes,
2993 )
2994 .prop_map(
2995 |(
2996 name,
2997 alt_name,
2998 tag_ref,
2999 bundled,
3000 include_sha,
3001 include_component_id,
3002 request_by_id,
3003 use_lock,
3004 use_sources,
3005 bytes,
3006 )| {
3007 let component_id_str = if include_component_id {
3008 alt_name.clone()
3009 } else {
3010 name.clone()
3011 };
3012 let component_id = ComponentId::from_str(&component_id_str).ok();
3013 let source_ref = if tag_ref {
3014 format!("oci://registry.test/{name}:v1")
3015 } else {
3016 format!(
3017 "oci://registry.test/{name}@sha256:{}",
3018 hex::encode([0x11u8; 32])
3019 )
3020 };
3021 let expected_sha256 = if bundled && include_sha {
3022 Some(compute_sha256_digest_for(&bytes))
3023 } else {
3024 None
3025 };
3026
3027 let lock_component = PackLockComponent {
3028 name: name.clone(),
3029 source_ref: Some(source_ref),
3030 legacy_ref: None,
3031 component_id,
3032 bundled: Some(bundled),
3033 bundled_path: if bundled {
3034 Some(format!("components/{name}.wasm"))
3035 } else {
3036 None
3037 },
3038 legacy_path: None,
3039 wasm_sha256: expected_sha256.clone(),
3040 legacy_sha256: None,
3041 resolved_digest: if bundled {
3042 None
3043 } else {
3044 Some("sha256:deadbeef".to_string())
3045 },
3046 digest: None,
3047 };
3048
3049 let pack_lock = if use_lock {
3050 Some(PackLockV1 {
3051 schema_version: 1,
3052 components: vec![lock_component],
3053 })
3054 } else {
3055 None
3056 };
3057
3058 let component_sources = if use_sources {
3059 Some(ComponentSourcesV1::new(vec![ComponentSourceEntryV1 {
3060 name: name.clone(),
3061 component_id: ComponentId::from_str(&name).ok(),
3062 source: ComponentSourceRef::from_str(
3063 "oci://registry.test/component@sha256:deadbeef",
3064 )
3065 .expect("component ref"),
3066 resolved: ResolvedComponentV1 {
3067 digest: "sha256:deadbeef".to_string(),
3068 signature: None,
3069 signed_by: None,
3070 },
3071 artifact: if bundled {
3072 ArtifactLocationV1::Inline {
3073 wasm_path: format!("components/{name}.wasm"),
3074 manifest_path: None,
3075 }
3076 } else {
3077 ArtifactLocationV1::Remote
3078 },
3079 licensing_hint: None,
3080 metering_hint: None,
3081 }]))
3082 } else {
3083 None
3084 };
3085
3086 let request = if request_by_id {
3087 ResolveRequest::ById(component_id_str.clone())
3088 } else {
3089 ResolveRequest::ByName(name.clone())
3090 };
3091
3092 Scenario {
3093 pack_lock,
3094 component_sources,
3095 request,
3096 expected_sha256,
3097 bytes,
3098 }
3099 },
3100 )
3101 }
3102
3103 #[test]
3104 fn pack_resolution_proptest() {
3105 let seed = proptest_seed();
3106 run_cases(scenario_strategy(), proptest_config().cases, seed);
3107 }
3108
3109 #[test]
3110 fn pack_resolution_regression_seeds() {
3111 let seeds_path =
3112 Path::new(env!("CARGO_MANIFEST_DIR")).join("../../tests/fixtures/proptest-seeds.txt");
3113 let raw = std::fs::read_to_string(&seeds_path).expect("read proptest seeds");
3114 for line in raw.lines() {
3115 let line = line.trim();
3116 if line.is_empty() || line.starts_with('#') {
3117 continue;
3118 }
3119 let seed = line.parse::<u64>().expect("seed must be an integer");
3120 let mut bytes = [0u8; 32];
3121 bytes[..8].copy_from_slice(&seed.to_le_bytes());
3122 run_cases(scenario_strategy(), 1, Some(bytes));
3123 }
3124 }
3125}
3126
3127fn locate_pack_assets(
3128 materialized_root: Option<&Path>,
3129 archive_hint: Option<&Path>,
3130) -> Result<(Option<PathBuf>, Option<TempDir>)> {
3131 if let Some(root) = materialized_root {
3132 let assets = root.join("assets");
3133 if assets.is_dir() {
3134 return Ok((Some(assets), None));
3135 }
3136 }
3137 if let Some(path) = archive_hint
3138 && let Some((tempdir, assets)) = extract_assets_from_archive(path)?
3139 {
3140 return Ok((Some(assets), Some(tempdir)));
3141 }
3142 Ok((None, None))
3143}
3144
3145fn extract_assets_from_archive(path: &Path) -> Result<Option<(TempDir, PathBuf)>> {
3146 let file =
3147 File::open(path).with_context(|| format!("failed to open pack {}", path.display()))?;
3148 let mut archive =
3149 ZipArchive::new(file).with_context(|| format!("failed to read pack {}", path.display()))?;
3150 let temp = TempDir::new().context("failed to create temporary assets directory")?;
3151 let mut found = false;
3152 for idx in 0..archive.len() {
3153 let mut entry = archive.by_index(idx)?;
3154 let name = entry.name();
3155 if !name.starts_with("assets/") {
3156 continue;
3157 }
3158 let dest = temp.path().join(name);
3159 if name.ends_with('/') {
3160 std::fs::create_dir_all(&dest)?;
3161 found = true;
3162 continue;
3163 }
3164 if let Some(parent) = dest.parent() {
3165 std::fs::create_dir_all(parent)?;
3166 }
3167 let mut outfile = std::fs::File::create(&dest)?;
3168 std::io::copy(&mut entry, &mut outfile)?;
3169 found = true;
3170 }
3171 if found {
3172 let assets_path = temp.path().join("assets");
3173 Ok(Some((temp, assets_path)))
3174 } else {
3175 Ok(None)
3176 }
3177}
3178
3179fn dist_options_from(component_resolution: &ComponentResolution) -> DistOptions {
3180 let mut opts = DistOptions {
3181 allow_tags: true,
3182 ..DistOptions::default()
3183 };
3184 if let Some(cache_dir) = component_resolution.dist_cache_dir.clone() {
3185 opts.cache_dir = cache_dir;
3186 }
3187 if component_resolution.dist_offline {
3188 opts.offline = true;
3189 }
3190 opts
3191}
3192
3193#[allow(clippy::too_many_arguments)]
3194async fn load_components_from_sources(
3195 cache: &CacheManager,
3196 engine: &Engine,
3197 component_sources: &HashMap<String, ComponentSourceInfo>,
3198 component_resolution: &ComponentResolution,
3199 specs: &[ComponentSpec],
3200 missing: &mut HashSet<String>,
3201 into: &mut HashMap<String, PackComponent>,
3202 materialized_root: Option<&Path>,
3203 archive_hint: Option<&Path>,
3204) -> Result<()> {
3205 let mut archive = if let Some(path) = archive_hint {
3206 Some(
3207 ZipArchive::new(File::open(path)?)
3208 .with_context(|| format!("{} is not a valid gtpack", path.display()))?,
3209 )
3210 } else {
3211 None
3212 };
3213 let mut dist_client: Option<DistClient> = None;
3214
3215 for spec in specs {
3216 if !missing.contains(&spec.id) {
3217 continue;
3218 }
3219 let Some(source) = component_sources.get(&spec.id) else {
3220 continue;
3221 };
3222
3223 let bytes = match &source.artifact {
3224 ComponentArtifactLocation::Inline { wasm_path } => {
3225 if let Some(root) = materialized_root {
3226 let path = root.join(wasm_path);
3227 if path.exists() {
3228 std::fs::read(&path).with_context(|| {
3229 format!(
3230 "failed to read inline component {} from {}",
3231 spec.id,
3232 path.display()
3233 )
3234 })?
3235 } else if archive.is_none() {
3236 bail!("inline component {} missing at {}", spec.id, path.display());
3237 } else {
3238 read_entry(
3239 archive.as_mut().expect("archive present when needed"),
3240 wasm_path,
3241 )
3242 .with_context(|| {
3243 format!(
3244 "inline component {} missing at {} in pack archive",
3245 spec.id, wasm_path
3246 )
3247 })?
3248 }
3249 } else if let Some(archive) = archive.as_mut() {
3250 read_entry(archive, wasm_path).with_context(|| {
3251 format!(
3252 "inline component {} missing at {} in pack archive",
3253 spec.id, wasm_path
3254 )
3255 })?
3256 } else {
3257 bail!(
3258 "inline component {} missing and no pack source available",
3259 spec.id
3260 );
3261 }
3262 }
3263 ComponentArtifactLocation::Remote => {
3264 if source.source.is_tag() {
3265 bail!(
3266 "component {} uses tag ref {} but is not bundled; rebuild the pack",
3267 spec.id,
3268 source.source
3269 );
3270 }
3271 let client = dist_client.get_or_insert_with(|| {
3272 DistClient::new(dist_options_from(component_resolution))
3273 });
3274 let reference = source.source.to_string();
3275 fault::maybe_fail_asset(&reference)
3276 .await
3277 .with_context(|| format!("fault injection blocked asset {reference}"))?;
3278 let digest = source.digest.as_deref().ok_or_else(|| {
3279 anyhow!(
3280 "component {} missing expected digest for remote component",
3281 spec.id
3282 )
3283 })?;
3284 let cache_path = if component_resolution.dist_offline {
3285 client
3286 .fetch_digest(digest)
3287 .await
3288 .map_err(|err| dist_error_for_component(err, &spec.id, &reference))?
3289 } else {
3290 let resolved = client
3291 .resolve_ref(&reference)
3292 .await
3293 .map_err(|err| dist_error_for_component(err, &spec.id, &reference))?;
3294 let expected = normalize_digest(digest);
3295 let actual = normalize_digest(&resolved.digest);
3296 if expected != actual {
3297 bail!(
3298 "component {} digest mismatch after fetch: expected {}, got {}",
3299 spec.id,
3300 expected,
3301 actual
3302 );
3303 }
3304 resolved.cache_path.ok_or_else(|| {
3305 anyhow!(
3306 "component {} resolved from {} but cache path is missing",
3307 spec.id,
3308 reference
3309 )
3310 })?
3311 };
3312 std::fs::read(&cache_path).with_context(|| {
3313 format!(
3314 "failed to read cached component {} from {}",
3315 spec.id,
3316 cache_path.display()
3317 )
3318 })?
3319 }
3320 };
3321
3322 if let Some(expected) = source.expected_wasm_sha256.as_deref() {
3323 verify_wasm_sha256(&spec.id, expected, &bytes)?;
3324 } else if source.skip_digest_verification {
3325 let actual = compute_sha256_digest_for(&bytes);
3326 warn!(
3327 component_id = %spec.id,
3328 digest = %actual,
3329 "bundled component missing wasm_sha256; allowing due to flag"
3330 );
3331 } else {
3332 let expected = source.digest.as_deref().ok_or_else(|| {
3333 anyhow!(
3334 "component {} missing expected digest for verification",
3335 spec.id
3336 )
3337 })?;
3338 verify_component_digest(&spec.id, expected, &bytes)?;
3339 }
3340 let component =
3341 compile_component_with_cache(cache, engine, source.digest.as_deref(), bytes)
3342 .await
3343 .with_context(|| format!("failed to compile component {}", spec.id))?;
3344 into.insert(
3345 spec.id.clone(),
3346 PackComponent {
3347 name: spec.id.clone(),
3348 version: spec.version.clone(),
3349 component,
3350 },
3351 );
3352 missing.remove(&spec.id);
3353 }
3354
3355 Ok(())
3356}
3357
3358fn dist_error_for_component(err: DistError, component_id: &str, reference: &str) -> anyhow::Error {
3359 match err {
3360 DistError::CacheMiss { reference: missing } => anyhow!(
3361 "remote component {} is not cached for {}. Run `greentic-dist pull --lock <pack.lock>` or `greentic-dist pull {}`",
3362 component_id,
3363 missing,
3364 reference
3365 ),
3366 DistError::Offline { reference: blocked } => anyhow!(
3367 "offline mode blocked fetching component {} from {}; run `greentic-dist pull --lock <pack.lock>` or `greentic-dist pull {}`",
3368 component_id,
3369 blocked,
3370 reference
3371 ),
3372 DistError::AuthRequired { target } => anyhow!(
3373 "component {} requires authenticated source {}; run `greentic-dist pull --lock <pack.lock>` or `greentic-dist pull {}`",
3374 component_id,
3375 target,
3376 reference
3377 ),
3378 other => anyhow!(
3379 "failed to resolve component {} from {}: {}",
3380 component_id,
3381 reference,
3382 other
3383 ),
3384 }
3385}
3386
3387async fn load_components_from_overrides(
3388 cache: &CacheManager,
3389 engine: &Engine,
3390 overrides: &HashMap<String, PathBuf>,
3391 specs: &[ComponentSpec],
3392 missing: &mut HashSet<String>,
3393 into: &mut HashMap<String, PackComponent>,
3394) -> Result<()> {
3395 for spec in specs {
3396 if !missing.contains(&spec.id) {
3397 continue;
3398 }
3399 let Some(path) = overrides.get(&spec.id) else {
3400 continue;
3401 };
3402 let bytes = std::fs::read(path)
3403 .with_context(|| format!("failed to read override component {}", path.display()))?;
3404 let component = compile_component_with_cache(cache, engine, None, bytes)
3405 .await
3406 .with_context(|| {
3407 format!(
3408 "failed to compile component {} from override {}",
3409 spec.id,
3410 path.display()
3411 )
3412 })?;
3413 into.insert(
3414 spec.id.clone(),
3415 PackComponent {
3416 name: spec.id.clone(),
3417 version: spec.version.clone(),
3418 component,
3419 },
3420 );
3421 missing.remove(&spec.id);
3422 }
3423 Ok(())
3424}
3425
3426async fn load_components_from_dir(
3427 cache: &CacheManager,
3428 engine: &Engine,
3429 root: &Path,
3430 specs: &[ComponentSpec],
3431 missing: &mut HashSet<String>,
3432 into: &mut HashMap<String, PackComponent>,
3433) -> Result<()> {
3434 for spec in specs {
3435 if !missing.contains(&spec.id) {
3436 continue;
3437 }
3438 let path = component_path_for_spec(root, spec);
3439 if !path.exists() {
3440 tracing::debug!(component = %spec.id, path = %path.display(), "materialized component missing; will try other sources");
3441 continue;
3442 }
3443 let bytes = std::fs::read(&path)
3444 .with_context(|| format!("failed to read component {}", path.display()))?;
3445 let component = compile_component_with_cache(cache, engine, None, bytes)
3446 .await
3447 .with_context(|| {
3448 format!(
3449 "failed to compile component {} from {}",
3450 spec.id,
3451 path.display()
3452 )
3453 })?;
3454 into.insert(
3455 spec.id.clone(),
3456 PackComponent {
3457 name: spec.id.clone(),
3458 version: spec.version.clone(),
3459 component,
3460 },
3461 );
3462 missing.remove(&spec.id);
3463 }
3464 Ok(())
3465}
3466
3467async fn load_components_from_archive(
3468 cache: &CacheManager,
3469 engine: &Engine,
3470 path: &Path,
3471 specs: &[ComponentSpec],
3472 missing: &mut HashSet<String>,
3473 into: &mut HashMap<String, PackComponent>,
3474) -> Result<()> {
3475 let mut archive = ZipArchive::new(File::open(path)?)
3476 .with_context(|| format!("{} is not a valid gtpack", path.display()))?;
3477 for spec in specs {
3478 if !missing.contains(&spec.id) {
3479 continue;
3480 }
3481 let file_name = spec
3482 .legacy_path
3483 .clone()
3484 .unwrap_or_else(|| format!("components/{}.wasm", spec.id));
3485 let bytes = match read_entry(&mut archive, &file_name) {
3486 Ok(bytes) => bytes,
3487 Err(err) => {
3488 warn!(component = %spec.id, pack = %path.display(), error = %err, "component entry missing in pack archive");
3489 continue;
3490 }
3491 };
3492 let component = compile_component_with_cache(cache, engine, None, bytes)
3493 .await
3494 .with_context(|| format!("failed to compile component {}", spec.id))?;
3495 into.insert(
3496 spec.id.clone(),
3497 PackComponent {
3498 name: spec.id.clone(),
3499 version: spec.version.clone(),
3500 component,
3501 },
3502 );
3503 missing.remove(&spec.id);
3504 }
3505 Ok(())
3506}
3507
3508#[cfg(test)]
3509mod tests {
3510 use super::*;
3511 use greentic_flow::model::{FlowDoc, NodeDoc};
3512 use indexmap::IndexMap;
3513 use serde_json::json;
3514
3515 #[test]
3516 fn normalizes_raw_component_to_component_exec() {
3517 let mut nodes = IndexMap::new();
3518 let mut raw = IndexMap::new();
3519 raw.insert(
3520 "templating.handlebars".into(),
3521 json!({ "template": "Hi {{name}}" }),
3522 );
3523 nodes.insert(
3524 "start".into(),
3525 NodeDoc {
3526 raw,
3527 routing: json!([{"out": true}]),
3528 ..Default::default()
3529 },
3530 );
3531 let doc = FlowDoc {
3532 id: "welcome".into(),
3533 title: None,
3534 description: None,
3535 flow_type: "messaging".into(),
3536 start: Some("start".into()),
3537 parameters: json!({}),
3538 tags: Vec::new(),
3539 schema_version: None,
3540 entrypoints: IndexMap::new(),
3541 nodes,
3542 };
3543
3544 let normalized = normalize_flow_doc(doc);
3545 let node = normalized.nodes.get("start").expect("node exists");
3546 assert_eq!(node.operation.as_deref(), Some("component.exec"));
3547 assert!(node.raw.is_empty());
3548 let payload = node.payload.as_object().expect("payload object");
3549 assert_eq!(
3550 payload.get("component"),
3551 Some(&Value::String("templating.handlebars".into()))
3552 );
3553 assert_eq!(
3554 payload.get("operation"),
3555 Some(&Value::String("render".into()))
3556 );
3557 let input = payload.get("input").unwrap();
3558 assert_eq!(input, &json!({ "template": "Hi {{name}}" }));
3559 }
3560}
3561
3562#[derive(Clone, Debug, Default, Serialize, Deserialize)]
3563pub struct PackMetadata {
3564 pub pack_id: String,
3565 pub version: String,
3566 #[serde(default)]
3567 pub entry_flows: Vec<String>,
3568 #[serde(default)]
3569 pub secret_requirements: Vec<greentic_types::SecretRequirement>,
3570}
3571
3572impl PackMetadata {
3573 fn from_wasm(bytes: &[u8]) -> Option<Self> {
3574 let parser = Parser::new(0);
3575 for payload in parser.parse_all(bytes) {
3576 let payload = payload.ok()?;
3577 match payload {
3578 Payload::CustomSection(section) => {
3579 if section.name() == "greentic.manifest"
3580 && let Ok(meta) = Self::from_bytes(section.data())
3581 {
3582 return Some(meta);
3583 }
3584 }
3585 Payload::DataSection(reader) => {
3586 for segment in reader.into_iter().flatten() {
3587 if let Ok(meta) = Self::from_bytes(segment.data) {
3588 return Some(meta);
3589 }
3590 }
3591 }
3592 _ => {}
3593 }
3594 }
3595 None
3596 }
3597
3598 fn from_bytes(bytes: &[u8]) -> Result<Self, serde_cbor::Error> {
3599 #[derive(Deserialize)]
3600 struct RawManifest {
3601 pack_id: String,
3602 version: String,
3603 #[serde(default)]
3604 entry_flows: Vec<String>,
3605 #[serde(default)]
3606 flows: Vec<RawFlow>,
3607 #[serde(default)]
3608 secret_requirements: Vec<greentic_types::SecretRequirement>,
3609 }
3610
3611 #[derive(Deserialize)]
3612 struct RawFlow {
3613 id: String,
3614 }
3615
3616 let manifest: RawManifest = serde_cbor::from_slice(bytes)?;
3617 let mut entry_flows = if manifest.entry_flows.is_empty() {
3618 manifest.flows.iter().map(|f| f.id.clone()).collect()
3619 } else {
3620 manifest.entry_flows.clone()
3621 };
3622 entry_flows.retain(|id| !id.is_empty());
3623 Ok(Self {
3624 pack_id: manifest.pack_id,
3625 version: manifest.version,
3626 entry_flows,
3627 secret_requirements: manifest.secret_requirements,
3628 })
3629 }
3630
3631 pub fn fallback(path: &Path) -> Self {
3632 let pack_id = path
3633 .file_stem()
3634 .map(|s| s.to_string_lossy().into_owned())
3635 .unwrap_or_else(|| "unknown-pack".to_string());
3636 Self {
3637 pack_id,
3638 version: "0.0.0".to_string(),
3639 entry_flows: Vec::new(),
3640 secret_requirements: Vec::new(),
3641 }
3642 }
3643
3644 pub fn from_manifest(manifest: &greentic_types::PackManifest) -> Self {
3645 let entry_flows = manifest
3646 .flows
3647 .iter()
3648 .map(|flow| flow.id.as_str().to_string())
3649 .collect::<Vec<_>>();
3650 Self {
3651 pack_id: manifest.pack_id.as_str().to_string(),
3652 version: manifest.version.to_string(),
3653 entry_flows,
3654 secret_requirements: manifest.secret_requirements.clone(),
3655 }
3656 }
3657}