1use std::collections::BTreeMap;
4use std::sync::Arc;
5
6use async_trait::async_trait;
7use base64::Engine;
8use chrono::{Duration, Utc};
9use http::StatusCode;
10use parking_lot::RwLock;
11use serde_json::{json, Value};
12use sha2::{Digest, Sha256};
13use uuid::Uuid;
14
15use fakecloud_aws::arn::Arn;
16use fakecloud_core::service::{AwsRequest, AwsResponse, AwsService, AwsServiceError};
17
18use crate::state::{
19 AccountState, AcmAccounts, CertificateOptions, DomainValidation, RenewalSummary,
20 SharedAcmState, StoredCertificate,
21};
22
23const SUPPORTED_ACTIONS: &[&str] = &[
24 "RequestCertificate",
25 "DescribeCertificate",
26 "ListCertificates",
27 "DeleteCertificate",
28 "ImportCertificate",
29 "ExportCertificate",
30 "GetCertificate",
31 "RenewCertificate",
32 "RevokeCertificate",
33 "ResendValidationEmail",
34 "AddTagsToCertificate",
35 "RemoveTagsFromCertificate",
36 "ListTagsForCertificate",
37 "GetAccountConfiguration",
38 "PutAccountConfiguration",
39 "UpdateCertificateOptions",
40 "SearchCertificates",
41];
42
43pub struct AcmService {
44 state: SharedAcmState,
45 pending_validation_delay: std::time::Duration,
55}
56
57const DEFAULT_AUTO_ISSUE_SECS: u64 = 5;
61
62fn auto_issue_delay_from_env() -> std::time::Duration {
63 let secs = std::env::var("FAKECLOUD_ACM_AUTO_ISSUE_SECS")
64 .ok()
65 .and_then(|v| v.parse::<u64>().ok())
66 .unwrap_or(DEFAULT_AUTO_ISSUE_SECS);
67 std::time::Duration::from_secs(secs)
68}
69
70impl AcmService {
71 pub fn new(state: SharedAcmState) -> Self {
72 Self {
73 state,
74 pending_validation_delay: auto_issue_delay_from_env(),
75 }
76 }
77
78 pub fn shared_state(&self) -> SharedAcmState {
79 Arc::clone(&self.state)
80 }
81
82 pub fn with_pending_validation_delay(mut self, delay: std::time::Duration) -> Self {
86 self.pending_validation_delay = delay;
87 self
88 }
89
90 pub fn approve_certificate(&self, arn_or_id: &str) -> bool {
99 self.set_certificate_status(arn_or_id, "ISSUED", None)
100 }
101
102 pub fn chain_info(&self, arn_or_id: &str) -> Option<serde_json::Value> {
113 let state = self.state.read();
114 for account in state.accounts.values() {
115 let key = account
116 .certificates
117 .keys()
118 .find(|k| k.as_str() == arn_or_id || cert_id_from_arn(k) == arn_or_id)
119 .cloned()?;
120 if let Some(cert) = account.certificates.get(&key) {
121 let pem = cert.certificate_pem.as_deref().unwrap_or("");
122 let chain = cert.certificate_chain_pem.as_deref().unwrap_or("");
123 return Some(serde_json::json!({
124 "certificate_arn": key,
125 "certificate_pem_bytes": pem.len(),
126 "certificate_pem_blocks": pem.matches("-----BEGIN CERTIFICATE-----").count(),
127 "chain_pem_bytes": chain.len(),
128 "chain_pem_blocks": chain.matches("-----BEGIN CERTIFICATE-----").count(),
129 "external_ca_validated": false,
130 "status": cert.status,
131 "cert_type": cert.cert_type,
132 }));
133 }
134 }
135 None
136 }
137
138 pub fn set_certificate_status(
148 &self,
149 arn_or_id: &str,
150 status: &str,
151 reason: Option<String>,
152 ) -> bool {
153 let mut state = self.state.write();
154 for account in state.accounts.values_mut() {
155 let key = account
156 .certificates
157 .keys()
158 .find(|k| k.as_str() == arn_or_id || cert_id_from_arn(k) == arn_or_id)
159 .cloned();
160 if let Some(key) = key {
161 if let Some(cert) = account.certificates.get_mut(&key) {
162 cert.status = status.to_string();
163 match status {
164 "ISSUED" => {
165 let now = Utc::now();
166 cert.issued_at = Some(now);
167 for dv in cert.domain_validation.iter_mut() {
168 dv.validation_status = "SUCCESS".to_string();
169 }
170 cert.failure_reason = None;
171 if cert.cert_type == "AMAZON_ISSUED" {
175 cert.renewal_eligibility = "ELIGIBLE".to_string();
176 cert.renewal_summary = Some(RenewalSummary {
177 renewal_status: "PENDING_AUTO_RENEWAL".to_string(),
178 domain_validation: cert.domain_validation.clone(),
179 renewal_status_reason: None,
180 updated_at: now,
181 });
182 }
183 }
184 "FAILED" | "VALIDATION_TIMED_OUT" => {
185 for dv in cert.domain_validation.iter_mut() {
186 dv.validation_status = status.to_string();
187 }
188 if reason.is_some() {
189 cert.failure_reason = reason;
190 }
191 }
192 _ => {
193 if reason.is_some() {
194 cert.failure_reason = reason;
195 }
196 }
197 }
198 return true;
199 }
200 }
201 }
202 false
203 }
204}
205
206impl Default for AcmService {
207 fn default() -> Self {
208 Self::new(Arc::new(RwLock::new(AcmAccounts::new())))
209 }
210}
211
212#[async_trait]
213impl AwsService for AcmService {
214 fn service_name(&self) -> &str {
215 "acm"
216 }
217
218 fn supported_actions(&self) -> &[&str] {
219 SUPPORTED_ACTIONS
220 }
221
222 async fn handle(&self, req: AwsRequest) -> Result<AwsResponse, AwsServiceError> {
223 match req.action.as_str() {
224 "RequestCertificate" => self.request_certificate(&req),
225 "DescribeCertificate" => self.describe_certificate(&req),
226 "ListCertificates" => self.list_certificates(&req),
227 "DeleteCertificate" => self.delete_certificate(&req),
228 "ImportCertificate" => self.import_certificate(&req),
229 "ExportCertificate" => self.export_certificate(&req),
230 "GetCertificate" => self.get_certificate(&req),
231 "RenewCertificate" => self.renew_certificate(&req),
232 "RevokeCertificate" => self.revoke_certificate(&req),
233 "ResendValidationEmail" => self.resend_validation_email(&req),
234 "AddTagsToCertificate" => self.add_tags_to_certificate(&req),
235 "RemoveTagsFromCertificate" => self.remove_tags_from_certificate(&req),
236 "ListTagsForCertificate" => self.list_tags_for_certificate(&req),
237 "GetAccountConfiguration" => self.get_account_configuration(&req),
238 "PutAccountConfiguration" => self.put_account_configuration(&req),
239 "UpdateCertificateOptions" => self.update_certificate_options(&req),
240 "SearchCertificates" => self.search_certificates(&req),
241 other => Err(AwsServiceError::action_not_implemented("acm", other)),
242 }
243 }
244}
245
246impl AcmService {
249 fn request_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
250 let body = req.json_body();
251 let domain_name = body
252 .get("DomainName")
253 .and_then(Value::as_str)
254 .ok_or_else(|| invalid_param("DomainName is required"))?
255 .to_string();
256 if domain_name.is_empty() || domain_name.len() > 253 {
257 return Err(invalid_param("DomainName length must be between 1 and 253"));
258 }
259 let validation_method = body
260 .get("ValidationMethod")
261 .and_then(Value::as_str)
262 .unwrap_or("DNS")
263 .to_string();
264 if validation_method != "EMAIL" && validation_method != "DNS" && validation_method != "HTTP"
265 {
266 return Err(invalid_param("Invalid ValidationMethod"));
267 }
268 let sans: Vec<String> = body
269 .get("SubjectAlternativeNames")
270 .and_then(Value::as_array)
271 .map(|v| {
272 v.iter()
273 .filter_map(|s| s.as_str().map(|s| s.to_string()))
274 .collect()
275 })
276 .unwrap_or_default();
277 let key_algorithm = body
278 .get("KeyAlgorithm")
279 .and_then(Value::as_str)
280 .unwrap_or("RSA_2048")
281 .to_string();
282 const VALID_KEY_ALGORITHMS: [&str; 7] = [
283 "RSA_1024",
284 "RSA_2048",
285 "RSA_3072",
286 "RSA_4096",
287 "EC_prime256v1",
288 "EC_secp384r1",
289 "EC_secp521r1",
290 ];
291 if !VALID_KEY_ALGORITHMS.contains(&key_algorithm.as_str()) {
292 return Err(invalid_param("Invalid KeyAlgorithm"));
293 }
294 let idempotency_token = body
295 .get("IdempotencyToken")
296 .and_then(Value::as_str)
297 .map(|s| s.to_string());
298 if let Some(ref token) = idempotency_token {
299 if token.is_empty() || token.len() > 32 {
300 return Err(invalid_param(
301 "IdempotencyToken length must be between 1 and 32",
302 ));
303 }
304 if !token
305 .chars()
306 .all(|c| c.is_ascii_alphanumeric() || c == '_' || c == '-')
307 {
308 return Err(invalid_param(
309 "IdempotencyToken must match pattern ^[\\w-]+$",
310 ));
311 }
312 }
313 let managed_by = body
314 .get("ManagedBy")
315 .and_then(Value::as_str)
316 .map(|s| s.to_string());
317 if let Some(ref m) = managed_by {
318 if m != "CLOUDFRONT" {
319 return Err(invalid_param("Invalid ManagedBy"));
320 }
321 }
322 let ca_arn = body
323 .get("CertificateAuthorityArn")
324 .and_then(Value::as_str)
325 .map(|s| s.to_string());
326 if let Some(ref arn) = ca_arn {
327 if arn.len() < 20 || arn.len() > 2048 {
328 return Err(validation_error(
329 "CertificateAuthorityArn length must be between 20 and 2048",
330 ));
331 }
332 }
333 let tags = parse_tags(body.get("Tags"))?;
334 let options = parse_options(body.get("Options"));
335
336 let mut state = self.state.write();
337 let account = account_mut(&mut state, &req.account_id);
338
339 if let Some(token) = &idempotency_token {
343 if let Some(existing) = account.certificates.values().find(|c| {
344 c.idempotency_token.as_deref() == Some(token)
345 && c.domain_name == domain_name
346 && c.subject_alternative_names == effective_sans(&domain_name, &sans)
347 }) {
348 return Ok(AwsResponse::ok_json(
349 json!({ "CertificateArn": existing.arn }),
350 ));
351 }
352 }
353
354 let arn = synth_certificate_arn(&req.account_id, &req.region);
355 let now = Utc::now();
356 let effective = effective_sans(&domain_name, &sans);
357 let (cert_pem, key_pem) = generate_self_signed_cert(&domain_name, &effective)
358 .map(|(c, k)| (Some(c), Some(k)))
359 .unwrap_or((None, None));
360 let cert = StoredCertificate {
361 arn: arn.clone(),
362 domain_name: domain_name.clone(),
363 subject_alternative_names: effective,
364 status: "PENDING_VALIDATION".to_string(),
365 cert_type: "AMAZON_ISSUED".to_string(),
366 certificate_pem: cert_pem,
367 certificate_chain_pem: None,
368 private_key_pem: key_pem,
369 idempotency_token,
370 serial: synth_serial(&arn),
371 subject: format!("CN={domain_name}"),
372 issuer: "Amazon".to_string(),
373 key_algorithm,
374 signature_algorithm: "SHA256WITHRSA".to_string(),
375 created_at: now,
376 issued_at: None,
377 imported_at: None,
378 revoked_at: None,
379 revocation_reason: None,
380 not_before: now,
382 not_after: now + Duration::days(395),
383 validation_method: Some(validation_method.clone()),
384 domain_validation: synth_domain_validation(&domain_name, &sans, &validation_method),
385 options,
386 renewal_eligibility: "INELIGIBLE".to_string(),
387 managed_by,
388 certificate_authority_arn: ca_arn,
389 tags,
390 in_use_by: Vec::new(),
391 describe_read_count: 0,
392 failure_reason: None,
393 renewal_summary: None,
394 };
395 account.certificates.insert(arn.clone(), cert);
396 drop(state);
397
398 if validation_method == "DNS" {
410 let state_for_tick = Arc::clone(&self.state);
411 let arn_for_tick = arn.clone();
412 let account_for_tick = req.account_id.clone();
413 let delay = self.pending_validation_delay;
414 tokio::spawn(async move {
415 tokio::time::sleep(delay).await;
416 let mut state = state_for_tick.write();
417 if let Some(account) = state.accounts.get_mut(&account_for_tick) {
418 if let Some(cert) = account.certificates.get_mut(&arn_for_tick) {
419 if cert.status == "PENDING_VALIDATION" && cert.cert_type == "AMAZON_ISSUED"
420 {
421 let now = Utc::now();
422 cert.status = "ISSUED".to_string();
423 cert.issued_at = Some(now);
424 cert.renewal_eligibility = "ELIGIBLE".to_string();
425 for dv in cert.domain_validation.iter_mut() {
426 dv.validation_status = "SUCCESS".to_string();
427 }
428 cert.renewal_summary = Some(RenewalSummary {
429 renewal_status: "PENDING_AUTO_RENEWAL".to_string(),
430 domain_validation: cert.domain_validation.clone(),
431 renewal_status_reason: None,
432 updated_at: now,
433 });
434 }
435 }
436 }
437 });
438 }
439
440 Ok(AwsResponse::ok_json(json!({ "CertificateArn": arn })))
441 }
442
443 fn describe_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
444 let arn = require_certificate_arn(req)?;
445 let state = self.state.read();
446 let cert = state
447 .accounts
448 .get(&req.account_id)
449 .and_then(|a| a.certificates.get(&arn))
450 .ok_or_else(|| no_such_certificate(&arn))?
451 .clone();
452 Ok(AwsResponse::ok_json(json!({
459 "Certificate": certificate_detail_json(&cert),
460 })))
461 }
462
463 fn list_certificates(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
464 let body = req.json_body();
465 let max_items: usize = body
466 .get("MaxItems")
467 .and_then(Value::as_u64)
468 .map(|n| n as usize)
469 .unwrap_or(100);
470 if !(1..=1000).contains(&max_items) {
471 return Err(validation_error("MaxItems must be between 1 and 1000"));
472 }
473 let next_token = body
474 .get("NextToken")
475 .and_then(Value::as_str)
476 .map(|s| s.to_string());
477 if let Some(ref token) = next_token {
478 if token.is_empty() || token.len() > 10000 {
479 return Err(validation_error(
480 "NextToken length must be between 1 and 10000",
481 ));
482 }
483 }
484 if let Some(sort_by) = body.get("SortBy").and_then(Value::as_str) {
485 if sort_by != "CREATED_AT" {
486 return Err(validation_error("Invalid SortBy"));
487 }
488 }
489 if let Some(sort_order) = body.get("SortOrder").and_then(Value::as_str) {
490 if sort_order != "ASCENDING" && sort_order != "DESCENDING" {
491 return Err(validation_error("Invalid SortOrder"));
492 }
493 }
494 let statuses: Vec<String> = body
495 .get("CertificateStatuses")
496 .and_then(Value::as_array)
497 .map(|v| {
498 v.iter()
499 .filter_map(|s| s.as_str().map(|s| s.to_string()))
500 .collect()
501 })
502 .unwrap_or_default();
503 let includes = body.get("Includes");
504 let key_types: Vec<String> = includes
505 .and_then(|i| i.get("keyTypes"))
506 .and_then(Value::as_array)
507 .map(|v| {
508 v.iter()
509 .filter_map(|s| s.as_str().map(|s| s.to_string()))
510 .collect()
511 })
512 .unwrap_or_default();
513
514 let state = self.state.read();
515 let mut all: Vec<StoredCertificate> = state
516 .accounts
517 .get(&req.account_id)
518 .map(|a| a.certificates.values().cloned().collect())
519 .unwrap_or_default();
520 drop(state);
521 all.sort_by(|a, b| a.arn.cmp(&b.arn));
522 all.retain(|c| {
523 (statuses.is_empty() || statuses.contains(&c.status))
524 && (key_types.is_empty() || key_types.contains(&c.key_algorithm))
525 });
526
527 let start = next_token
528 .and_then(|t| t.parse::<usize>().ok())
529 .unwrap_or(0);
530 let end = (start + max_items).min(all.len());
531 let page: Vec<&StoredCertificate> = all.iter().skip(start).take(max_items).collect();
532 let next = if end < all.len() {
533 Some(end.to_string())
534 } else {
535 None
536 };
537 let mut response = json!({
538 "CertificateSummaryList": page
539 .iter()
540 .map(|c| certificate_summary_json(c))
541 .collect::<Vec<_>>(),
542 });
543 if let Some(t) = next {
544 response
545 .as_object_mut()
546 .unwrap()
547 .insert("NextToken".to_string(), Value::String(t));
548 }
549 Ok(AwsResponse::ok_json(response))
550 }
551
552 fn delete_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
553 let arn = require_certificate_arn(req)?;
554 let mut state = self.state.write();
555 let account = account_mut(&mut state, &req.account_id);
556 let cert = account
557 .certificates
558 .get(&arn)
559 .ok_or_else(|| no_such_certificate(&arn))?;
560 if !cert.in_use_by.is_empty() {
561 return Err(AwsServiceError::aws_error(
562 StatusCode::BAD_REQUEST,
563 "ResourceInUseException",
564 format!(
565 "Certificate {arn} is in use by {} resource(s)",
566 cert.in_use_by.len()
567 ),
568 ));
569 }
570 account.certificates.remove(&arn);
571 Ok(AwsResponse::ok_json(json!({})))
572 }
573
574 fn import_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
575 let body = req.json_body();
576 let cert_pem = decode_blob(body.get("Certificate"))
577 .ok_or_else(|| invalid_param("Certificate is required"))?;
578 let key_pem = decode_blob(body.get("PrivateKey"))
579 .ok_or_else(|| invalid_param("PrivateKey is required"))?;
580 let chain_pem = decode_blob(body.get("CertificateChain"));
581 let arn_in = body
582 .get("CertificateArn")
583 .and_then(Value::as_str)
584 .map(|s| s.to_string());
585 let tags = parse_tags(body.get("Tags"))?;
586
587 let domain_name = parse_cn_from_pem(&cert_pem).unwrap_or_else(|| "imported".to_string());
588 let now = Utc::now();
589 let mut state = self.state.write();
590 let account = account_mut(&mut state, &req.account_id);
591
592 let arn = match arn_in {
593 Some(existing) => {
594 let cert = account
595 .certificates
596 .get_mut(&existing)
597 .ok_or_else(|| no_such_certificate(&existing))?;
598 if cert.cert_type != "IMPORTED" {
599 return Err(invalid_param(
600 "Reimport is only supported for IMPORTED certificates",
601 ));
602 }
603 cert.certificate_pem = Some(cert_pem.clone());
604 cert.private_key_pem = Some(key_pem);
605 cert.certificate_chain_pem = chain_pem;
606 cert.imported_at = Some(now);
607 cert.not_before = now;
608 cert.not_after = now + Duration::days(395);
609 cert.subject = format!("CN={domain_name}");
610 cert.domain_name = domain_name.clone();
614 cert.subject_alternative_names = vec![domain_name.clone()];
615 if !tags.is_empty() {
616 for (k, v) in tags {
617 cert.tags.insert(k, v);
618 }
619 }
620 existing
621 }
622 None => {
623 let arn = synth_certificate_arn(&req.account_id, &req.region);
624 let cert = StoredCertificate {
625 arn: arn.clone(),
626 domain_name: domain_name.clone(),
627 subject_alternative_names: vec![domain_name.clone()],
628 status: "ISSUED".to_string(),
629 cert_type: "IMPORTED".to_string(),
630 certificate_pem: Some(cert_pem),
631 certificate_chain_pem: chain_pem,
632 private_key_pem: Some(key_pem),
633 idempotency_token: None,
634 serial: synth_serial(&arn),
635 subject: format!("CN={domain_name}"),
636 issuer: "fakecloud-imported".to_string(),
637 key_algorithm: "RSA_2048".to_string(),
638 signature_algorithm: "SHA256WITHRSA".to_string(),
639 created_at: now,
640 issued_at: Some(now),
641 imported_at: Some(now),
642 revoked_at: None,
643 revocation_reason: None,
644 not_before: now,
645 not_after: now + Duration::days(395),
646 validation_method: None,
647 domain_validation: Vec::new(),
648 options: CertificateOptions {
649 certificate_transparency_logging_preference: "ENABLED".to_string(),
650 export: "DISABLED".to_string(),
651 },
652 renewal_eligibility: "INELIGIBLE".to_string(),
653 managed_by: None,
654 certificate_authority_arn: None,
655 tags,
656 in_use_by: Vec::new(),
657 describe_read_count: 0,
658 failure_reason: None,
659 renewal_summary: None,
660 };
661 account.certificates.insert(arn.clone(), cert);
662 arn
663 }
664 };
665 Ok(AwsResponse::ok_json(json!({ "CertificateArn": arn })))
666 }
667
668 fn export_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
669 let body = req.json_body();
670 let arn = body
671 .get("CertificateArn")
672 .and_then(Value::as_str)
673 .ok_or_else(|| invalid_param("CertificateArn is required"))?
674 .to_string();
675 let passphrase_bytes = match body.get("Passphrase").and_then(Value::as_str) {
679 None | Some("") => None,
680 Some(s) => {
681 let decoded = base64::engine::general_purpose::STANDARD
682 .decode(s)
683 .map_err(|_| invalid_param("Passphrase must be valid base64"))?;
684 if decoded.is_empty() {
685 None
686 } else {
687 Some(decoded)
688 }
689 }
690 };
691 let state = self.state.read();
692 let cert = state
693 .accounts
694 .get(&req.account_id)
695 .and_then(|a| a.certificates.get(&arn))
696 .ok_or_else(|| no_such_certificate(&arn))?
697 .clone();
698 if cert.options.export != "ENABLED" && cert.cert_type != "IMPORTED" {
699 return Err(AwsServiceError::aws_error(
700 StatusCode::BAD_REQUEST,
701 "RequestInProgressException",
702 "Certificate is not exportable",
703 ));
704 }
705 let cert_pem = cert
706 .certificate_pem
707 .clone()
708 .unwrap_or_else(|| placeholder_cert_pem(&arn));
709 let chain_pem = cert
710 .certificate_chain_pem
711 .clone()
712 .unwrap_or_else(|| placeholder_chain_pem(&arn));
713 let key_pem = cert
714 .private_key_pem
715 .clone()
716 .unwrap_or_else(|| placeholder_key_pem(&arn));
717 let key_out = match passphrase_bytes {
718 Some(pp) => encrypt_private_key_pem(&key_pem, &pp)
719 .map_err(|e| invalid_param(format!("failed to encrypt private key: {e}")))?,
720 None => key_pem,
721 };
722 Ok(AwsResponse::ok_json(json!({
723 "Certificate": cert_pem,
724 "CertificateChain": chain_pem,
725 "PrivateKey": key_out,
726 })))
727 }
728
729 fn get_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
730 let arn = require_certificate_arn(req)?;
731 let state = self.state.read();
732 let cert = state
733 .accounts
734 .get(&req.account_id)
735 .and_then(|a| a.certificates.get(&arn))
736 .ok_or_else(|| no_such_certificate(&arn))?
737 .clone();
738 let cert_pem = cert
739 .certificate_pem
740 .clone()
741 .unwrap_or_else(|| placeholder_cert_pem(&arn));
742 let chain_pem = cert
743 .certificate_chain_pem
744 .clone()
745 .unwrap_or_else(|| placeholder_chain_pem(&arn));
746 Ok(AwsResponse::ok_json(json!({
747 "Certificate": cert_pem,
748 "CertificateChain": chain_pem,
749 })))
750 }
751
752 fn renew_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
753 let arn = require_certificate_arn(req)?;
754 let mut state = self.state.write();
755 let account = account_mut(&mut state, &req.account_id);
756 let cert = account
757 .certificates
758 .get_mut(&arn)
759 .ok_or_else(|| no_such_certificate(&arn))?;
760 if cert.cert_type == "IMPORTED" {
761 return Err(invalid_param(
762 "Imported certificates cannot be renewed via ACM",
763 ));
764 }
765 let now = Utc::now();
771 cert.not_before = now;
772 cert.not_after = now + Duration::days(395);
773 cert.issued_at = Some(now);
774 cert.status = "ISSUED".to_string();
775 cert.renewal_eligibility = "ELIGIBLE".to_string();
776 cert.failure_reason = None;
777 for dv in cert.domain_validation.iter_mut() {
778 dv.validation_status = "SUCCESS".to_string();
779 }
780 cert.renewal_summary = Some(RenewalSummary {
781 renewal_status: "SUCCESS".to_string(),
782 domain_validation: cert.domain_validation.clone(),
783 renewal_status_reason: None,
784 updated_at: now,
785 });
786 Ok(AwsResponse::ok_json(json!({})))
787 }
788
789 fn revoke_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
790 let body = req.json_body();
791 let arn = body
792 .get("CertificateArn")
793 .and_then(Value::as_str)
794 .ok_or_else(|| invalid_param("CertificateArn is required"))?
795 .to_string();
796 let reason = body
797 .get("RevocationReason")
798 .and_then(Value::as_str)
799 .ok_or_else(|| invalid_param("RevocationReason is required"))?
800 .to_string();
801 let mut state = self.state.write();
802 let account = account_mut(&mut state, &req.account_id);
803 let cert = account
804 .certificates
805 .get_mut(&arn)
806 .ok_or_else(|| no_such_certificate(&arn))?;
807 if cert.cert_type != "AMAZON_ISSUED" {
808 return Err(invalid_param(
809 "Only AMAZON_ISSUED certificates can be revoked",
810 ));
811 }
812 cert.status = "REVOKED".to_string();
813 cert.revoked_at = Some(Utc::now());
814 cert.revocation_reason = Some(reason);
815 Ok(AwsResponse::ok_json(json!({})))
816 }
817
818 fn resend_validation_email(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
819 let body = req.json_body();
820 let arn = body
821 .get("CertificateArn")
822 .and_then(Value::as_str)
823 .ok_or_else(|| invalid_param("CertificateArn is required"))?
824 .to_string();
825 let _ = body
826 .get("Domain")
827 .and_then(Value::as_str)
828 .ok_or_else(|| invalid_param("Domain is required"))?;
829 let _ = body
830 .get("ValidationDomain")
831 .and_then(Value::as_str)
832 .ok_or_else(|| invalid_param("ValidationDomain is required"))?;
833 let state = self.state.read();
834 let cert = state
835 .accounts
836 .get(&req.account_id)
837 .and_then(|a| a.certificates.get(&arn))
838 .ok_or_else(|| no_such_certificate(&arn))?;
839 if cert.validation_method.as_deref() != Some("EMAIL") {
840 return Err(invalid_param(
841 "Certificate is not configured for EMAIL validation",
842 ));
843 }
844 Ok(AwsResponse::ok_json(json!({})))
845 }
846
847 fn add_tags_to_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
848 let body = req.json_body();
849 let arn = body
850 .get("CertificateArn")
851 .and_then(Value::as_str)
852 .ok_or_else(|| invalid_param("CertificateArn is required"))?
853 .to_string();
854 let tags = parse_tags(body.get("Tags"))?;
855 if tags.is_empty() {
856 return Err(invalid_param("Tags must contain at least one entry"));
857 }
858 let mut state = self.state.write();
859 let account = account_mut(&mut state, &req.account_id);
860 let cert = account
861 .certificates
862 .get_mut(&arn)
863 .ok_or_else(|| no_such_certificate(&arn))?;
864 for (k, v) in tags {
865 cert.tags.insert(k, v);
866 }
867 Ok(AwsResponse::ok_json(json!({})))
868 }
869
870 fn remove_tags_from_certificate(
871 &self,
872 req: &AwsRequest,
873 ) -> Result<AwsResponse, AwsServiceError> {
874 let body = req.json_body();
875 let arn = body
876 .get("CertificateArn")
877 .and_then(Value::as_str)
878 .ok_or_else(|| invalid_param("CertificateArn is required"))?
879 .to_string();
880 let tags = parse_tags(body.get("Tags"))?;
881 if tags.is_empty() {
882 return Err(invalid_param("Tags must contain at least one entry"));
883 }
884 let mut state = self.state.write();
885 let account = account_mut(&mut state, &req.account_id);
886 let cert = account
887 .certificates
888 .get_mut(&arn)
889 .ok_or_else(|| no_such_certificate(&arn))?;
890 for (k, v) in tags {
893 if let Some(existing) = cert.tags.get(&k) {
894 if v.is_empty() || *existing == v {
895 cert.tags.remove(&k);
896 }
897 }
898 }
899 Ok(AwsResponse::ok_json(json!({})))
900 }
901
902 fn list_tags_for_certificate(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
903 let arn = require_certificate_arn(req)?;
904 let state = self.state.read();
905 let cert = state
906 .accounts
907 .get(&req.account_id)
908 .and_then(|a| a.certificates.get(&arn))
909 .ok_or_else(|| no_such_certificate(&arn))?;
910 let mut tags: Vec<(String, String)> = cert
911 .tags
912 .iter()
913 .map(|(k, v)| (k.clone(), v.clone()))
914 .collect();
915 tags.sort_by(|a, b| a.0.cmp(&b.0));
916 let tag_list: Vec<Value> = tags
917 .into_iter()
918 .map(|(k, v)| json!({ "Key": k, "Value": v }))
919 .collect();
920 Ok(AwsResponse::ok_json(json!({ "Tags": tag_list })))
921 }
922
923 fn get_account_configuration(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
924 let state = self.state.read();
925 let cfg = state
926 .accounts
927 .get(&req.account_id)
928 .map(|a| a.account_config.clone())
929 .unwrap_or_default();
930 let mut expiry = json!({});
931 if let Some(d) = cfg.expiry_events_days_before_expiry {
932 expiry
933 .as_object_mut()
934 .unwrap()
935 .insert("DaysBeforeExpiry".to_string(), json!(d));
936 }
937 Ok(AwsResponse::ok_json(json!({
938 "ExpiryEvents": expiry,
939 })))
940 }
941
942 fn put_account_configuration(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
943 let body = req.json_body();
944 let idempotency_token = body
945 .get("IdempotencyToken")
946 .and_then(Value::as_str)
947 .ok_or_else(|| invalid_param("IdempotencyToken is required"))?;
948 if idempotency_token.is_empty() || idempotency_token.len() > 32 {
949 return Err(validation_error(
950 "IdempotencyToken length must be between 1 and 32",
951 ));
952 }
953 if !idempotency_token
954 .chars()
955 .all(|c| c.is_ascii_alphanumeric() || c == '_' || c == '-')
956 {
957 return Err(validation_error(
958 "IdempotencyToken must match pattern ^[\\w-]+$",
959 ));
960 }
961 let days = body
962 .get("ExpiryEvents")
963 .and_then(|v| v.get("DaysBeforeExpiry"))
964 .and_then(Value::as_i64)
965 .map(|n| n as i32);
966 let mut state = self.state.write();
967 let account = account_mut(&mut state, &req.account_id);
968 account.account_config.expiry_events_days_before_expiry = days;
969 Ok(AwsResponse::ok_json(json!({})))
970 }
971
972 fn update_certificate_options(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
973 let body = req.json_body();
974 let arn = body
975 .get("CertificateArn")
976 .and_then(Value::as_str)
977 .ok_or_else(|| invalid_param("CertificateArn is required"))?
978 .to_string();
979 let options = body
980 .get("Options")
981 .ok_or_else(|| invalid_param("Options is required"))?;
982 let new_opts = CertificateOptions {
983 certificate_transparency_logging_preference: options
984 .get("CertificateTransparencyLoggingPreference")
985 .and_then(Value::as_str)
986 .unwrap_or("ENABLED")
987 .to_string(),
988 export: options
989 .get("Export")
990 .and_then(Value::as_str)
991 .unwrap_or("DISABLED")
992 .to_string(),
993 };
994 let mut state = self.state.write();
995 let account = account_mut(&mut state, &req.account_id);
996 let cert = account
997 .certificates
998 .get_mut(&arn)
999 .ok_or_else(|| no_such_certificate(&arn))?;
1000 cert.options = new_opts;
1001 Ok(AwsResponse::ok_json(json!({})))
1002 }
1003
1004 fn search_certificates(&self, req: &AwsRequest) -> Result<AwsResponse, AwsServiceError> {
1005 let body = req.json_body();
1012 let max_results: usize = body
1013 .get("MaxResults")
1014 .and_then(Value::as_u64)
1015 .map(|n| n as usize)
1016 .unwrap_or(100);
1017 if !(1..=500).contains(&max_results) {
1018 return Err(validation_error("MaxResults must be between 1 and 500"));
1019 }
1020 let next_token = body
1021 .get("NextToken")
1022 .and_then(Value::as_str)
1023 .map(|s| s.to_string());
1024 if let Some(ref token) = next_token {
1025 if token.is_empty() || token.len() > 10000 {
1026 return Err(validation_error(
1027 "NextToken length must be between 1 and 10000",
1028 ));
1029 }
1030 }
1031 if let Some(sort_by) = body.get("SortBy").and_then(Value::as_str) {
1032 const VALID_SORT_BY: [&str; 18] = [
1033 "CREATED_AT",
1034 "NOT_AFTER",
1035 "STATUS",
1036 "RENEWAL_STATUS",
1037 "EXPORTED",
1038 "IN_USE",
1039 "NOT_BEFORE",
1040 "KEY_ALGORITHM",
1041 "TYPE",
1042 "CERTIFICATE_ARN",
1043 "COMMON_NAME",
1044 "REVOKED_AT",
1045 "RENEWAL_ELIGIBILITY",
1046 "ISSUED_AT",
1047 "MANAGED_BY",
1048 "EXPORT_OPTION",
1049 "VALIDATION_METHOD",
1050 "IMPORTED_AT",
1051 ];
1052 if !VALID_SORT_BY.contains(&sort_by) {
1053 return Err(validation_error("Invalid SortBy"));
1054 }
1055 }
1056 if let Some(sort_order) = body.get("SortOrder").and_then(Value::as_str) {
1057 if sort_order != "ASCENDING" && sort_order != "DESCENDING" {
1058 return Err(validation_error("Invalid SortOrder"));
1059 }
1060 }
1061 let key_types: Vec<String> = body
1062 .get("FilterStatement")
1063 .and_then(|f| f.get("Filter"))
1064 .and_then(|f| f.get("KeyTypes"))
1065 .and_then(Value::as_array)
1066 .map(|v| {
1067 v.iter()
1068 .filter_map(|s| s.as_str().map(|s| s.to_string()))
1069 .collect()
1070 })
1071 .unwrap_or_default();
1072
1073 let state = self.state.read();
1074 let mut all: Vec<StoredCertificate> = state
1075 .accounts
1076 .get(&req.account_id)
1077 .map(|a| a.certificates.values().cloned().collect())
1078 .unwrap_or_default();
1079 drop(state);
1080 all.sort_by(|a, b| a.arn.cmp(&b.arn));
1081 if !key_types.is_empty() {
1082 all.retain(|c| key_types.contains(&c.key_algorithm));
1083 }
1084 let start = next_token
1085 .and_then(|t| t.parse::<usize>().ok())
1086 .unwrap_or(0);
1087 let end = (start + max_results).min(all.len());
1088 let page: Vec<&StoredCertificate> = all.iter().skip(start).take(max_results).collect();
1089 let next = if end < all.len() {
1090 Some(end.to_string())
1091 } else {
1092 None
1093 };
1094 let mut response = json!({
1095 "Results": page
1096 .iter()
1097 .map(|c| certificate_search_result_json(c))
1098 .collect::<Vec<_>>(),
1099 });
1100 if let Some(t) = next {
1101 response
1102 .as_object_mut()
1103 .unwrap()
1104 .insert("NextToken".to_string(), Value::String(t));
1105 }
1106 Ok(AwsResponse::ok_json(response))
1107 }
1108}
1109
1110fn account_mut<'a>(state: &'a mut AcmAccounts, account_id: &str) -> &'a mut AccountState {
1113 state.accounts.entry(account_id.to_string()).or_default()
1114}
1115
1116fn require_certificate_arn(req: &AwsRequest) -> Result<String, AwsServiceError> {
1117 req.json_body()
1118 .get("CertificateArn")
1119 .and_then(Value::as_str)
1120 .map(|s| s.to_string())
1121 .ok_or_else(|| invalid_param("CertificateArn is required"))
1122}
1123
1124fn invalid_param(msg: impl Into<String>) -> AwsServiceError {
1125 AwsServiceError::aws_error(StatusCode::BAD_REQUEST, "InvalidParameterException", msg)
1126}
1127
1128fn validation_error(msg: impl Into<String>) -> AwsServiceError {
1129 AwsServiceError::aws_error(StatusCode::BAD_REQUEST, "ValidationException", msg)
1130}
1131
1132fn no_such_certificate(arn: &str) -> AwsServiceError {
1133 AwsServiceError::aws_error(
1134 StatusCode::BAD_REQUEST,
1135 "ResourceNotFoundException",
1136 format!("Could not find certificate with arn {arn}"),
1137 )
1138}
1139
1140fn synth_certificate_arn(account_id: &str, region: &str) -> String {
1141 let region = if region.is_empty() {
1142 "us-east-1"
1143 } else {
1144 region
1145 };
1146 let id = Uuid::new_v4();
1147 Arn::new("acm", region, account_id, &format!("certificate/{id}")).to_string()
1148}
1149
1150fn cert_id_from_arn(arn: &str) -> &str {
1157 arn.rsplit_once("certificate/")
1158 .map(|(_, id)| id)
1159 .unwrap_or(arn)
1160}
1161
1162fn synth_serial(arn: &str) -> String {
1163 let mut hasher = Sha256::new();
1164 hasher.update(arn.as_bytes());
1165 let digest = hasher.finalize();
1166 hex::encode(&digest[..16])
1167}
1168
1169fn parse_tags(value: Option<&Value>) -> Result<BTreeMap<String, String>, AwsServiceError> {
1170 let mut out = BTreeMap::new();
1171 let Some(arr) = value.and_then(Value::as_array) else {
1172 return Ok(out);
1173 };
1174 for tag in arr {
1175 let key = tag
1176 .get("Key")
1177 .and_then(Value::as_str)
1178 .ok_or_else(|| invalid_param("Tag.Key is required"))?
1179 .to_string();
1180 let value = tag
1181 .get("Value")
1182 .and_then(Value::as_str)
1183 .unwrap_or_default()
1184 .to_string();
1185 out.insert(key, value);
1186 }
1187 Ok(out)
1188}
1189
1190fn parse_options(value: Option<&Value>) -> CertificateOptions {
1191 let v = match value {
1192 Some(v) => v,
1193 None => {
1194 return CertificateOptions {
1195 certificate_transparency_logging_preference: "ENABLED".to_string(),
1196 export: "DISABLED".to_string(),
1197 };
1198 }
1199 };
1200 CertificateOptions {
1201 certificate_transparency_logging_preference: v
1202 .get("CertificateTransparencyLoggingPreference")
1203 .and_then(Value::as_str)
1204 .unwrap_or("ENABLED")
1205 .to_string(),
1206 export: v
1207 .get("Export")
1208 .and_then(Value::as_str)
1209 .unwrap_or("DISABLED")
1210 .to_string(),
1211 }
1212}
1213
1214fn effective_sans(domain: &str, extras: &[String]) -> Vec<String> {
1218 let mut all = vec![domain.to_string()];
1219 for s in extras {
1220 if !all.contains(s) {
1221 all.push(s.clone());
1222 }
1223 }
1224 all
1225}
1226
1227fn synth_domain_validation(domain: &str, sans: &[String], method: &str) -> Vec<DomainValidation> {
1228 effective_sans(domain, sans)
1229 .iter()
1230 .map(|d| {
1231 if method == "DNS" {
1232 let token = synth_dns_token(d);
1233 DomainValidation {
1234 domain_name: d.clone(),
1235 validation_status: "PENDING_VALIDATION".to_string(),
1236 validation_method: "DNS".to_string(),
1237 resource_record_name: Some(format!("_{token}.{d}.")),
1238 resource_record_type: Some("CNAME".to_string()),
1239 resource_record_value: Some(format!("_{token}.acm-validations.aws.")),
1240 }
1241 } else {
1242 DomainValidation {
1243 domain_name: d.clone(),
1244 validation_status: "PENDING_VALIDATION".to_string(),
1245 validation_method: "EMAIL".to_string(),
1246 resource_record_name: None,
1247 resource_record_type: None,
1248 resource_record_value: None,
1249 }
1250 }
1251 })
1252 .collect()
1253}
1254
1255fn synth_dns_token(domain: &str) -> String {
1258 let mut hasher = Sha256::new();
1259 hasher.update(domain.as_bytes());
1260 let digest = hasher.finalize();
1261 hex::encode(&digest[..16])
1262}
1263
1264fn decode_blob(value: Option<&Value>) -> Option<String> {
1265 let v = value?;
1266 if let Some(s) = v.as_str() {
1267 if let Ok(bytes) = base64::engine::general_purpose::STANDARD.decode(s) {
1271 if let Ok(text) = String::from_utf8(bytes) {
1272 return Some(text);
1273 }
1274 }
1275 return Some(s.to_string());
1276 }
1277 None
1278}
1279
1280fn parse_cn_from_pem(pem: &str) -> Option<String> {
1285 pem.lines()
1286 .find_map(|line| line.split("CN=").nth(1))
1287 .map(|rest| {
1288 rest.split(['/', ',', '\n', ' '])
1289 .next()
1290 .unwrap_or("")
1291 .to_string()
1292 })
1293 .filter(|s| !s.is_empty())
1294}
1295
1296fn placeholder_cert_pem(arn: &str) -> String {
1297 let body = base64::engine::general_purpose::STANDARD.encode(arn.as_bytes());
1301 format!("-----BEGIN CERTIFICATE-----\n{body}\n-----END CERTIFICATE-----\n")
1302}
1303
1304fn placeholder_chain_pem(arn: &str) -> String {
1305 let body =
1306 base64::engine::general_purpose::STANDARD.encode(format!("chain-of-{arn}").as_bytes());
1307 format!("-----BEGIN CERTIFICATE-----\n{body}\n-----END CERTIFICATE-----\n")
1308}
1309
1310fn placeholder_key_pem(arn: &str) -> String {
1311 let body = base64::engine::general_purpose::STANDARD.encode(format!("key-of-{arn}").as_bytes());
1312 format!("-----BEGIN RSA PRIVATE KEY-----\n{body}\n-----END RSA PRIVATE KEY-----\n")
1313}
1314
1315fn generate_self_signed_cert(domain_name: &str, sans: &[String]) -> Option<(String, String)> {
1322 let mut all_names: Vec<String> = vec![domain_name.to_string()];
1323 for s in sans {
1324 if !all_names.contains(s) {
1325 all_names.push(s.clone());
1326 }
1327 }
1328 let cert = rcgen::generate_simple_self_signed(all_names).ok()?;
1329 Some((cert.cert.pem(), cert.key_pair.serialize_pem()))
1330}
1331
1332fn certificate_summary_json(c: &StoredCertificate) -> Value {
1333 let mut s = json!({
1334 "CertificateArn": c.arn,
1335 "DomainName": c.domain_name,
1336 "SubjectAlternativeNameSummaries": c.subject_alternative_names,
1337 "HasAdditionalSubjectAlternativeNames": false,
1338 "Status": c.status,
1339 "Type": c.cert_type,
1340 "KeyAlgorithm": c.key_algorithm,
1341 "KeyUsages": ["DIGITAL_SIGNATURE", "KEY_ENCIPHERMENT"],
1342 "ExtendedKeyUsages": ["TLS_WEB_SERVER_AUTHENTICATION", "TLS_WEB_CLIENT_AUTHENTICATION"],
1343 "InUse": !c.in_use_by.is_empty(),
1344 "Exported": false,
1345 "RenewalEligibility": c.renewal_eligibility,
1346 "NotBefore": c.not_before.timestamp() as f64,
1347 "NotAfter": c.not_after.timestamp() as f64,
1348 "CreatedAt": c.created_at.timestamp() as f64,
1349 });
1350 if let Some(t) = c.issued_at {
1351 s.as_object_mut()
1352 .unwrap()
1353 .insert("IssuedAt".to_string(), json!(t.timestamp() as f64));
1354 }
1355 if let Some(t) = c.imported_at {
1356 s.as_object_mut()
1357 .unwrap()
1358 .insert("ImportedAt".to_string(), json!(t.timestamp() as f64));
1359 }
1360 if let Some(t) = c.revoked_at {
1361 s.as_object_mut()
1362 .unwrap()
1363 .insert("RevokedAt".to_string(), json!(t.timestamp() as f64));
1364 if let Some(r) = &c.revocation_reason {
1365 s.as_object_mut()
1366 .unwrap()
1367 .insert("RevocationReason".to_string(), json!(r));
1368 }
1369 }
1370 if let Some(m) = &c.managed_by {
1371 s.as_object_mut()
1372 .unwrap()
1373 .insert("ManagedBy".to_string(), json!(m));
1374 }
1375 s
1376}
1377
1378fn certificate_detail_json(c: &StoredCertificate) -> Value {
1379 let mut d = json!({
1380 "CertificateArn": c.arn,
1381 "DomainName": c.domain_name,
1382 "SubjectAlternativeNames": c.subject_alternative_names,
1383 "Status": c.status,
1384 "Type": c.cert_type,
1385 "Serial": c.serial,
1386 "Subject": c.subject,
1387 "Issuer": c.issuer,
1388 "KeyAlgorithm": c.key_algorithm,
1389 "SignatureAlgorithm": c.signature_algorithm,
1390 "InUseBy": c.in_use_by,
1391 "RenewalEligibility": c.renewal_eligibility,
1392 "Options": {
1393 "CertificateTransparencyLoggingPreference":
1394 c.options.certificate_transparency_logging_preference,
1395 "Export": c.options.export,
1396 },
1397 "DomainValidationOptions": c
1398 .domain_validation
1399 .iter()
1400 .map(domain_validation_json)
1401 .collect::<Vec<_>>(),
1402 "NotBefore": c.not_before.timestamp() as f64,
1403 "NotAfter": c.not_after.timestamp() as f64,
1404 "CreatedAt": c.created_at.timestamp() as f64,
1405 "KeyUsages": [{"Name": "DIGITAL_SIGNATURE"}, {"Name": "KEY_ENCIPHERMENT"}],
1406 "ExtendedKeyUsages": [
1407 {"Name": "TLS_WEB_SERVER_AUTHENTICATION", "OID": "1.3.6.1.5.5.7.3.1"},
1408 {"Name": "TLS_WEB_CLIENT_AUTHENTICATION", "OID": "1.3.6.1.5.5.7.3.2"},
1409 ],
1410 });
1411 if let Some(t) = c.issued_at {
1412 d.as_object_mut()
1413 .unwrap()
1414 .insert("IssuedAt".to_string(), json!(t.timestamp() as f64));
1415 }
1416 if let Some(t) = c.imported_at {
1417 d.as_object_mut()
1418 .unwrap()
1419 .insert("ImportedAt".to_string(), json!(t.timestamp() as f64));
1420 }
1421 if let Some(t) = c.revoked_at {
1422 d.as_object_mut()
1423 .unwrap()
1424 .insert("RevokedAt".to_string(), json!(t.timestamp() as f64));
1425 }
1426 if let Some(r) = &c.revocation_reason {
1427 d.as_object_mut()
1428 .unwrap()
1429 .insert("RevocationReason".to_string(), json!(r));
1430 }
1431 if let Some(m) = &c.managed_by {
1432 d.as_object_mut()
1433 .unwrap()
1434 .insert("ManagedBy".to_string(), json!(m));
1435 }
1436 if let Some(ca) = &c.certificate_authority_arn {
1437 d.as_object_mut()
1438 .unwrap()
1439 .insert("CertificateAuthorityArn".to_string(), json!(ca));
1440 }
1441 if let Some(fr) = &c.failure_reason {
1442 d.as_object_mut()
1443 .unwrap()
1444 .insert("FailureReason".to_string(), json!(fr));
1445 }
1446 if let Some(rs) = &c.renewal_summary {
1447 let mut summary = json!({
1448 "RenewalStatus": rs.renewal_status,
1449 "DomainValidationOptions": rs
1450 .domain_validation
1451 .iter()
1452 .map(domain_validation_json)
1453 .collect::<Vec<_>>(),
1454 "UpdatedAt": rs.updated_at.timestamp() as f64,
1455 });
1456 if let Some(reason) = &rs.renewal_status_reason {
1457 summary
1458 .as_object_mut()
1459 .unwrap()
1460 .insert("RenewalStatusReason".to_string(), json!(reason));
1461 }
1462 d.as_object_mut()
1463 .unwrap()
1464 .insert("RenewalSummary".to_string(), summary);
1465 }
1466 d
1467}
1468
1469fn certificate_search_result_json(c: &StoredCertificate) -> Value {
1470 let san_objects: Vec<Value> = c
1471 .subject_alternative_names
1472 .iter()
1473 .map(|s| json!({ "DnsName": s }))
1474 .collect();
1475 let cn = c
1476 .subject
1477 .strip_prefix("CN=")
1478 .unwrap_or(c.subject.as_str())
1479 .to_string();
1480 json!({
1481 "CertificateArn": c.arn,
1482 "X509Attributes": {
1483 "Subject": { "CommonName": cn },
1484 "Issuer": { "CommonName": c.issuer },
1485 "SubjectAlternativeNames": san_objects,
1486 "KeyAlgorithm": c.key_algorithm,
1487 "KeyUsages": ["DIGITAL_SIGNATURE", "KEY_ENCIPHERMENT"],
1488 "ExtendedKeyUsages": ["TLS_WEB_SERVER_AUTHENTICATION", "TLS_WEB_CLIENT_AUTHENTICATION"],
1489 "SerialNumber": c.serial,
1490 "NotBefore": c.not_before.timestamp() as f64,
1491 "NotAfter": c.not_after.timestamp() as f64,
1492 },
1493 "CertificateMetadata": {
1494 "AcmCertificateMetadata": {
1495 "Status": c.status,
1496 "Type": c.cert_type,
1497 "InUse": !c.in_use_by.is_empty(),
1498 "Exported": false,
1499 "RenewalEligibility": c.renewal_eligibility,
1500 "CreatedAt": c.created_at.timestamp() as f64,
1501 "ManagedBy": c.managed_by.clone().unwrap_or_default(),
1502 "ValidationMethod": c.validation_method.clone().unwrap_or_default(),
1503 },
1504 },
1505 })
1506}
1507
1508fn domain_validation_json(v: &DomainValidation) -> Value {
1509 let mut out = json!({
1510 "DomainName": v.domain_name,
1511 "ValidationStatus": v.validation_status,
1512 "ValidationMethod": v.validation_method,
1513 });
1514 if let (Some(name), Some(rtype), Some(value)) = (
1515 &v.resource_record_name,
1516 &v.resource_record_type,
1517 &v.resource_record_value,
1518 ) {
1519 out.as_object_mut().unwrap().insert(
1520 "ResourceRecord".to_string(),
1521 json!({
1522 "Name": name,
1523 "Type": rtype,
1524 "Value": value,
1525 }),
1526 );
1527 }
1528 out
1529}
1530
1531fn encrypt_private_key_pem(key_pem: &str, passphrase: &[u8]) -> Result<String, String> {
1541 use pkcs8::{pkcs5::pbes2, LineEnding, PrivateKeyInfo};
1542
1543 let der = pem_decode_private_key(key_pem)?;
1548
1549 let mut salt = [0u8; 16];
1553 let mut iv = [0u8; 16];
1554 rand::RngCore::fill_bytes(&mut rand::thread_rng(), &mut salt);
1555 rand::RngCore::fill_bytes(&mut rand::thread_rng(), &mut iv);
1556 let params = pbes2::Parameters::pbkdf2_sha256_aes256cbc(2048, &salt, &iv)
1557 .map_err(|e| format!("invalid PBES2 parameters: {e}"))?;
1558
1559 let pki = PrivateKeyInfo::try_from(der.as_slice())
1560 .map_err(|e| format!("private key is not valid PKCS#8 DER: {e}"))?;
1561 let encrypted = pki
1562 .encrypt_with_params(params, passphrase)
1563 .map_err(|e| format!("PKCS#8 encryption failed: {e}"))?;
1564
1565 encrypted
1566 .to_pem("ENCRYPTED PRIVATE KEY", LineEnding::LF)
1567 .map(|s| s.to_string())
1568 .map_err(|e| format!("PEM encoding failed: {e}"))
1569}
1570
1571fn pem_decode_private_key(pem: &str) -> Result<Vec<u8>, String> {
1575 let begin = pem.find("-----BEGIN ").ok_or("missing BEGIN line")?;
1576 let after_begin = &pem[begin + 11..];
1577 let dash = after_begin.find("-----").ok_or("malformed BEGIN line")?;
1578 let label = after_begin[..dash].trim();
1579 if label != "PRIVATE KEY" {
1580 return Err(format!(
1581 "expected `BEGIN PRIVATE KEY` (PKCS#8), got `BEGIN {label}`"
1582 ));
1583 }
1584 let end = pem
1585 .find("-----END PRIVATE KEY-----")
1586 .ok_or("missing END line")?;
1587 let body_start = begin + 11 + dash + 5;
1588 let nl = pem[body_start..]
1589 .find('\n')
1590 .ok_or("missing newline after BEGIN")?;
1591 let body: String = pem[body_start + nl + 1..end]
1592 .chars()
1593 .filter(|c| !c.is_whitespace())
1594 .collect();
1595 base64::engine::general_purpose::STANDARD
1596 .decode(body.as_bytes())
1597 .map_err(|e| format!("PEM body is not valid base64: {e}"))
1598}
1599
1600#[cfg(test)]
1601mod tests {
1602 use super::*;
1603
1604 #[test]
1605 fn generate_self_signed_cert_returns_real_pem() {
1606 let (cert_pem, key_pem) =
1607 generate_self_signed_cert("example.com", &["www.example.com".to_string()])
1608 .expect("rcgen should produce a self-signed cert");
1609 assert!(
1610 cert_pem.starts_with("-----BEGIN CERTIFICATE-----"),
1611 "expected real PEM cert, got {cert_pem:.80}"
1612 );
1613 assert!(cert_pem.ends_with("-----END CERTIFICATE-----\n"));
1614 assert!(key_pem.contains("-----BEGIN PRIVATE KEY-----"));
1615 assert!(cert_pem.len() > 400, "real cert PEM should be >400 chars");
1617 }
1618
1619 #[tokio::test]
1620 async fn request_certificate_stores_real_pem_and_key() {
1621 let svc = AcmService::default();
1622 let req = AwsRequest {
1623 service: "acm".to_string(),
1624 action: "RequestCertificate".to_string(),
1625 region: "us-east-1".to_string(),
1626 account_id: "123456789012".to_string(),
1627 request_id: "rid".to_string(),
1628 headers: http::HeaderMap::new(),
1629 query_params: std::collections::HashMap::new(),
1630 body: bytes::Bytes::from(
1631 serde_json::to_vec(&json!({"DomainName": "example.com"})).unwrap(),
1632 ),
1633 body_stream: parking_lot::Mutex::new(None),
1634 path_segments: vec![],
1635 raw_path: "/".to_string(),
1636 raw_query: String::new(),
1637 method: http::Method::POST,
1638 is_query_protocol: false,
1639 access_key_id: None,
1640 principal: None,
1641 };
1642 let resp = svc.handle(req).await.unwrap();
1643 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1644 let arn = body["CertificateArn"].as_str().unwrap();
1645 let st = svc.state.read();
1646 let cert = st
1647 .accounts
1648 .get("123456789012")
1649 .unwrap()
1650 .certificates
1651 .get(arn)
1652 .unwrap();
1653 let cert_pem = cert.certificate_pem.as_deref().unwrap();
1654 let key_pem = cert.private_key_pem.as_deref().unwrap();
1655 assert!(cert_pem.starts_with("-----BEGIN CERTIFICATE-----"));
1656 assert!(key_pem.contains("-----BEGIN PRIVATE KEY-----"));
1657 assert!(cert_pem.len() > 400);
1658 }
1659
1660 #[test]
1661 fn encrypt_private_key_pem_emits_pkcs8_v2_pem() {
1662 let (_cert, key_pem) =
1663 generate_self_signed_cert("example.com", &[]).expect("rcgen produces a key");
1664 let out = encrypt_private_key_pem(&key_pem, b"hunter2").expect("encryption succeeds");
1665 assert!(
1666 out.starts_with("-----BEGIN ENCRYPTED PRIVATE KEY-----\n"),
1667 "expected PKCS#8 v2 envelope, got {out:.80}"
1668 );
1669 assert!(out
1670 .trim_end()
1671 .ends_with("-----END ENCRYPTED PRIVATE KEY-----"));
1672 let plain_body: String = key_pem
1675 .lines()
1676 .filter(|l| !l.starts_with("-----"))
1677 .collect();
1678 assert!(!plain_body.is_empty());
1679 assert!(!out.contains(&plain_body));
1680 }
1681
1682 #[test]
1683 fn encrypt_private_key_pem_round_trips_via_pkcs8_decoder() {
1684 use pkcs8::{DecodePrivateKey, EncodePrivateKey, LineEnding};
1685
1686 let mut rng = rand::thread_rng();
1687 let original = rsa::RsaPrivateKey::new(&mut rng, 2048).expect("rsa keygen");
1688 let key_pem = original
1689 .to_pkcs8_pem(LineEnding::LF)
1690 .expect("pkcs8 pem encode")
1691 .to_string();
1692 let passphrase = b"correct horse battery staple";
1693
1694 let encrypted = encrypt_private_key_pem(&key_pem, passphrase).unwrap();
1695 assert!(encrypted.contains("BEGIN ENCRYPTED PRIVATE KEY"));
1696
1697 let recovered = rsa::RsaPrivateKey::from_pkcs8_encrypted_pem(&encrypted, passphrase)
1698 .expect("decryption + PKCS#8 parse");
1699 assert_eq!(original, recovered);
1700 }
1701
1702 fn make_req(action: &str, body: Value) -> AwsRequest {
1703 AwsRequest {
1704 service: "acm".to_string(),
1705 action: action.to_string(),
1706 region: "us-east-1".to_string(),
1707 account_id: "123456789012".to_string(),
1708 request_id: "rid".to_string(),
1709 headers: http::HeaderMap::new(),
1710 query_params: std::collections::HashMap::new(),
1711 body: bytes::Bytes::from(serde_json::to_vec(&body).unwrap()),
1712 body_stream: parking_lot::Mutex::new(None),
1713 path_segments: vec![],
1714 raw_path: "/".to_string(),
1715 raw_query: String::new(),
1716 method: http::Method::POST,
1717 is_query_protocol: false,
1718 access_key_id: None,
1719 principal: None,
1720 }
1721 }
1722
1723 async fn make_exportable_cert(svc: &AcmService) -> String {
1724 let req = make_req(
1725 "RequestCertificate",
1726 json!({
1727 "DomainName": "example.com",
1728 "Options": {"Export": "ENABLED"},
1729 }),
1730 );
1731 let resp = svc.handle(req).await.unwrap();
1732 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1733 body["CertificateArn"].as_str().unwrap().to_string()
1734 }
1735
1736 #[tokio::test]
1737 async fn export_certificate_emits_passphrase_encrypted_pem() {
1738 let svc = AcmService::default();
1739 let arn = make_exportable_cert(&svc).await;
1740 let original_key_pem = svc
1741 .state
1742 .read()
1743 .accounts
1744 .get("123456789012")
1745 .unwrap()
1746 .certificates
1747 .get(&arn)
1748 .unwrap()
1749 .private_key_pem
1750 .clone()
1751 .unwrap();
1752
1753 let passphrase = b"hunter2";
1754 let passphrase_b64 = base64::engine::general_purpose::STANDARD.encode(passphrase);
1755 let export = make_req(
1756 "ExportCertificate",
1757 json!({"CertificateArn": arn, "Passphrase": passphrase_b64}),
1758 );
1759 let export_resp = svc.handle(export).await.unwrap();
1760 let export_json: Value = serde_json::from_slice(export_resp.body.expect_bytes()).unwrap();
1761 let private_key = export_json["PrivateKey"].as_str().unwrap();
1762 assert!(
1763 private_key.contains("BEGIN ENCRYPTED PRIVATE KEY"),
1764 "expected PKCS#8 v2 PEM, got {private_key}"
1765 );
1766 assert!(private_key.contains("END ENCRYPTED PRIVATE KEY"));
1767 let original_inner_der =
1770 pem_decode_private_key(&original_key_pem).expect("decode original PEM");
1771 let original_pki_bytes = pkcs8::PrivateKeyInfo::try_from(original_inner_der.as_slice())
1772 .map(|p| p.private_key.to_vec())
1773 .expect("parse original PKCS#8");
1774 let encrypted_der =
1775 pem_decode_encrypted_private_key(private_key).expect("decode encrypted PEM");
1776 let decrypted_doc = pkcs8::EncryptedPrivateKeyInfo::try_from(encrypted_der.as_slice())
1777 .expect("parse encrypted PKCS#8")
1778 .decrypt(passphrase)
1779 .expect("decrypt with passphrase");
1780 let decrypted_pki = pkcs8::PrivateKeyInfo::try_from(decrypted_doc.as_bytes())
1781 .expect("parse decrypted PKCS#8");
1782 assert_eq!(decrypted_pki.private_key, original_pki_bytes.as_slice());
1783 }
1784
1785 #[tokio::test]
1786 async fn export_certificate_without_passphrase_returns_plain_pem() {
1787 let svc = AcmService::default();
1788 let arn = make_exportable_cert(&svc).await;
1789 let export_resp = svc
1790 .handle(make_req(
1791 "ExportCertificate",
1792 json!({"CertificateArn": arn}),
1793 ))
1794 .await
1795 .unwrap();
1796 let export_json: Value = serde_json::from_slice(export_resp.body.expect_bytes()).unwrap();
1797 let private_key = export_json["PrivateKey"].as_str().unwrap();
1798 assert!(
1799 private_key.contains("-----BEGIN PRIVATE KEY-----"),
1800 "expected plain PKCS#8 PEM, got {private_key}"
1801 );
1802 assert!(!private_key.contains("ENCRYPTED PRIVATE KEY"));
1803 }
1804
1805 #[tokio::test]
1806 async fn export_certificate_with_empty_passphrase_returns_plain_pem() {
1807 let svc = AcmService::default();
1808 let arn = make_exportable_cert(&svc).await;
1809 let export_resp = svc
1810 .handle(make_req(
1811 "ExportCertificate",
1812 json!({"CertificateArn": arn, "Passphrase": ""}),
1813 ))
1814 .await
1815 .unwrap();
1816 let export_json: Value = serde_json::from_slice(export_resp.body.expect_bytes()).unwrap();
1817 let private_key = export_json["PrivateKey"].as_str().unwrap();
1818 assert!(private_key.contains("-----BEGIN PRIVATE KEY-----"));
1819 assert!(!private_key.contains("ENCRYPTED PRIVATE KEY"));
1820 }
1821
1822 #[tokio::test]
1823 async fn export_certificate_rejects_non_base64_passphrase() {
1824 let svc = AcmService::default();
1825 let resp = svc
1826 .handle(make_req(
1827 "RequestCertificate",
1828 json!({"DomainName": "example.com"}),
1829 ))
1830 .await
1831 .unwrap();
1832 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1833 let arn = body["CertificateArn"].as_str().unwrap().to_string();
1834 let export = make_req(
1835 "ExportCertificate",
1836 json!({"CertificateArn": arn, "Passphrase": "not!base64!@#$"}),
1837 );
1838 let err = match svc.handle(export).await {
1839 Ok(_) => panic!("expected error for non-base64 passphrase"),
1840 Err(e) => e,
1841 };
1842 assert!(format!("{err:?}").contains("Passphrase"));
1843 }
1844
1845 fn pem_decode_encrypted_private_key(pem: &str) -> Result<Vec<u8>, String> {
1846 let begin = "-----BEGIN ENCRYPTED PRIVATE KEY-----";
1847 let end = "-----END ENCRYPTED PRIVATE KEY-----";
1848 let begin_idx = pem.find(begin).ok_or("missing BEGIN")?;
1849 let after = &pem[begin_idx + begin.len()..];
1850 let end_idx = after.find(end).ok_or("missing END")?;
1851 let body: String = after[..end_idx]
1852 .chars()
1853 .filter(|c| !c.is_whitespace())
1854 .collect();
1855 base64::engine::general_purpose::STANDARD
1856 .decode(body.as_bytes())
1857 .map_err(|e| format!("base64: {e}"))
1858 }
1859
1860 #[tokio::test]
1861 async fn describe_certificate_observes_auto_issue_transition() {
1862 let svc = AcmService::default()
1866 .with_pending_validation_delay(std::time::Duration::from_millis(50));
1867 let resp = svc
1868 .handle(make_req(
1869 "RequestCertificate",
1870 json!({"DomainName": "example.com", "ValidationMethod": "DNS"}),
1871 ))
1872 .await
1873 .unwrap();
1874 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1875 let arn = body["CertificateArn"].as_str().unwrap().to_string();
1876
1877 let early = svc
1880 .handle(make_req(
1881 "DescribeCertificate",
1882 json!({"CertificateArn": arn}),
1883 ))
1884 .await
1885 .unwrap();
1886 let early: Value = serde_json::from_slice(early.body.expect_bytes()).unwrap();
1887 assert_eq!(early["Certificate"]["Status"], "PENDING_VALIDATION");
1888 assert_eq!(early["Certificate"]["RenewalEligibility"], "INELIGIBLE");
1889 assert!(early["Certificate"].get("RenewalSummary").is_none());
1890
1891 let mut last: Value = Value::Null;
1893 for _ in 0..40 {
1894 tokio::time::sleep(std::time::Duration::from_millis(50)).await;
1895 let resp = svc
1896 .handle(make_req(
1897 "DescribeCertificate",
1898 json!({"CertificateArn": arn}),
1899 ))
1900 .await
1901 .unwrap();
1902 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1903 if body["Certificate"]["Status"] == "ISSUED" {
1904 last = body;
1905 break;
1906 }
1907 }
1908 assert_eq!(last["Certificate"]["Status"], "ISSUED");
1909 assert_eq!(last["Certificate"]["RenewalEligibility"], "ELIGIBLE");
1910 let rs = &last["Certificate"]["RenewalSummary"];
1911 assert_eq!(rs["RenewalStatus"], "PENDING_AUTO_RENEWAL");
1912 assert!(rs["UpdatedAt"].as_f64().unwrap() > 0.0);
1913 }
1914
1915 #[tokio::test]
1916 async fn request_certificate_emits_parseable_pem() {
1917 let svc = AcmService::default();
1918 let resp = svc
1919 .handle(make_req(
1920 "RequestCertificate",
1921 json!({"DomainName": "example.com"}),
1922 ))
1923 .await
1924 .unwrap();
1925 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1926 let arn = body["CertificateArn"].as_str().unwrap().to_string();
1927
1928 let resp = svc
1929 .handle(make_req("GetCertificate", json!({"CertificateArn": arn})))
1930 .await
1931 .unwrap();
1932 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1933 let cert_pem = body["Certificate"].as_str().unwrap();
1934 assert!(
1935 cert_pem.starts_with("-----BEGIN CERTIFICATE-----"),
1936 "expected real PEM cert header, got {cert_pem:.80}"
1937 );
1938 assert!(cert_pem.trim_end().ends_with("-----END CERTIFICATE-----"));
1939 assert!(
1942 cert_pem.len() > 400,
1943 "expected real X.509 PEM, got placeholder-sized blob"
1944 );
1945 assert!(!cert_pem.contains(arn.as_str()));
1948 }
1949
1950 #[tokio::test]
1951 async fn request_certificate_includes_san() {
1952 let svc = AcmService::default();
1953 let resp = svc
1954 .handle(make_req(
1955 "RequestCertificate",
1956 json!({
1957 "DomainName": "example.com",
1958 "SubjectAlternativeNames": ["api.example.com", "www.example.com"],
1959 }),
1960 ))
1961 .await
1962 .unwrap();
1963 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1964 let arn = body["CertificateArn"].as_str().unwrap().to_string();
1965
1966 let resp = svc
1967 .handle(make_req("GetCertificate", json!({"CertificateArn": arn})))
1968 .await
1969 .unwrap();
1970 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
1971 let cert_pem = body["Certificate"].as_str().unwrap();
1972 assert!(cert_pem.starts_with("-----BEGIN CERTIFICATE-----"));
1973 assert!(cert_pem.trim_end().ends_with("-----END CERTIFICATE-----"));
1974
1975 let body_b64: String = cert_pem
1979 .lines()
1980 .filter(|l| !l.starts_with("-----"))
1981 .collect::<Vec<_>>()
1982 .join("");
1983 let der = base64::engine::general_purpose::STANDARD
1984 .decode(&body_b64)
1985 .expect("cert body is valid base64");
1986 for san in ["example.com", "api.example.com", "www.example.com"] {
1987 assert!(
1988 der.windows(san.len()).any(|w| w == san.as_bytes()),
1989 "expected SAN {san} embedded in DER"
1990 );
1991 }
1992 }
1993
1994 #[tokio::test]
1995 async fn request_certificate_starts_in_pending_validation() {
1996 let svc = AcmService::default();
1997 let resp = svc
1998 .handle(make_req(
1999 "RequestCertificate",
2000 json!({"DomainName": "example.com", "ValidationMethod": "DNS"}),
2001 ))
2002 .await
2003 .unwrap();
2004 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2005 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2006 let st = svc.state.read();
2007 let cert = st
2008 .accounts
2009 .get("123456789012")
2010 .unwrap()
2011 .certificates
2012 .get(&arn)
2013 .unwrap();
2014 assert_eq!(cert.status, "PENDING_VALIDATION");
2015 assert!(cert.issued_at.is_none());
2016 }
2017
2018 #[tokio::test]
2019 async fn set_certificate_status_to_issued_via_admin() {
2020 let svc = AcmService::default();
2021 let resp = svc
2022 .handle(make_req(
2023 "RequestCertificate",
2024 json!({"DomainName": "admin.example.com"}),
2025 ))
2026 .await
2027 .unwrap();
2028 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2029 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2030
2031 assert!(svc.set_certificate_status(&arn, "ISSUED", None));
2032 let st = svc.state.read();
2033 let cert = st
2034 .accounts
2035 .get("123456789012")
2036 .unwrap()
2037 .certificates
2038 .get(&arn)
2039 .unwrap();
2040 assert_eq!(cert.status, "ISSUED");
2041 assert!(cert.issued_at.is_some());
2042 for dv in &cert.domain_validation {
2043 assert_eq!(dv.validation_status, "SUCCESS");
2044 }
2045 }
2046
2047 #[tokio::test]
2048 async fn set_certificate_status_unknown_arn_returns_false() {
2049 let svc = AcmService::default();
2050 assert!(!svc.set_certificate_status("does-not-exist", "ISSUED", None));
2051 }
2052
2053 #[tokio::test]
2054 async fn auto_issue_tick_transitions_to_issued() {
2055 let svc = AcmService::default()
2056 .with_pending_validation_delay(std::time::Duration::from_millis(50));
2057 let resp = svc
2058 .handle(make_req(
2059 "RequestCertificate",
2060 json!({"DomainName": "auto.example.com", "ValidationMethod": "DNS"}),
2061 ))
2062 .await
2063 .unwrap();
2064 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2065 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2066
2067 tokio::time::sleep(std::time::Duration::from_millis(200)).await;
2068
2069 let st = svc.state.read();
2070 let cert = st
2071 .accounts
2072 .get("123456789012")
2073 .unwrap()
2074 .certificates
2075 .get(&arn)
2076 .unwrap();
2077 assert_eq!(cert.status, "ISSUED");
2078 assert!(cert.issued_at.is_some());
2079 assert_eq!(cert.renewal_eligibility, "ELIGIBLE");
2080 let rs = cert.renewal_summary.as_ref().expect("renewal summary set");
2081 assert_eq!(rs.renewal_status, "PENDING_AUTO_RENEWAL");
2082 }
2083
2084 #[tokio::test]
2085 async fn email_validation_stays_pending_until_approve() {
2086 let svc = AcmService::default()
2091 .with_pending_validation_delay(std::time::Duration::from_millis(20));
2092 let resp = svc
2093 .handle(make_req(
2094 "RequestCertificate",
2095 json!({
2096 "DomainName": "email.example.com",
2097 "ValidationMethod": "EMAIL",
2098 }),
2099 ))
2100 .await
2101 .unwrap();
2102 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2103 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2104
2105 tokio::time::sleep(std::time::Duration::from_millis(150)).await;
2108 {
2109 let st = svc.state.read();
2110 let cert = st
2111 .accounts
2112 .get("123456789012")
2113 .unwrap()
2114 .certificates
2115 .get(&arn)
2116 .unwrap();
2117 assert_eq!(cert.status, "PENDING_VALIDATION");
2118 assert!(cert.issued_at.is_none());
2119 assert!(cert.renewal_summary.is_none());
2120 }
2121
2122 assert!(svc.approve_certificate(&arn));
2123 let st = svc.state.read();
2124 let cert = st
2125 .accounts
2126 .get("123456789012")
2127 .unwrap()
2128 .certificates
2129 .get(&arn)
2130 .unwrap();
2131 assert_eq!(cert.status, "ISSUED");
2132 assert_eq!(cert.renewal_eligibility, "ELIGIBLE");
2133 for dv in &cert.domain_validation {
2134 assert_eq!(dv.validation_status, "SUCCESS");
2135 }
2136 assert!(cert.renewal_summary.is_some());
2137 }
2138
2139 #[tokio::test]
2140 async fn renew_certificate_refreshes_renewal_summary() {
2141 let svc = AcmService::default()
2142 .with_pending_validation_delay(std::time::Duration::from_millis(20));
2143 let resp = svc
2144 .handle(make_req(
2145 "RequestCertificate",
2146 json!({"DomainName": "renew.example.com", "ValidationMethod": "DNS"}),
2147 ))
2148 .await
2149 .unwrap();
2150 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2151 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2152
2153 tokio::time::sleep(std::time::Duration::from_millis(80)).await;
2154
2155 let resp = svc
2156 .handle(make_req("RenewCertificate", json!({"CertificateArn": arn})))
2157 .await
2158 .unwrap();
2159 assert_eq!(resp.status, http::StatusCode::OK);
2160
2161 let st = svc.state.read();
2162 let cert = st
2163 .accounts
2164 .get("123456789012")
2165 .unwrap()
2166 .certificates
2167 .get(&arn)
2168 .unwrap();
2169 assert_eq!(cert.status, "ISSUED");
2170 let rs = cert.renewal_summary.as_ref().expect("renewal summary set");
2171 assert_eq!(rs.renewal_status, "SUCCESS");
2172 assert_eq!(rs.domain_validation.len(), cert.domain_validation.len());
2173 }
2174
2175 #[test]
2176 fn auto_issue_delay_default_when_env_unset() {
2177 if std::env::var("FAKECLOUD_ACM_AUTO_ISSUE_SECS").is_err() {
2182 assert_eq!(
2183 auto_issue_delay_from_env(),
2184 std::time::Duration::from_secs(DEFAULT_AUTO_ISSUE_SECS),
2185 );
2186 }
2187 }
2188
2189 #[tokio::test]
2190 async fn set_certificate_status_failed_records_reason() {
2191 let svc = AcmService::default();
2192 let resp = svc
2193 .handle(make_req(
2194 "RequestCertificate",
2195 json!({"DomainName": "fail.example.com"}),
2196 ))
2197 .await
2198 .unwrap();
2199 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2200 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2201 assert!(svc.set_certificate_status(&arn, "FAILED", Some("DNS lookup error".to_string())));
2202 let st = svc.state.read();
2203 let cert = st
2204 .accounts
2205 .get("123456789012")
2206 .unwrap()
2207 .certificates
2208 .get(&arn)
2209 .unwrap();
2210 assert_eq!(cert.status, "FAILED");
2211 assert_eq!(cert.failure_reason.as_deref(), Some("DNS lookup error"));
2212 }
2213
2214 #[tokio::test]
2215 async fn request_certificate_private_key_pem_is_valid() {
2216 let svc = AcmService::default();
2217 let resp = svc
2218 .handle(make_req(
2219 "RequestCertificate",
2220 json!({"DomainName": "key.example.com"}),
2221 ))
2222 .await
2223 .unwrap();
2224 let body: Value = serde_json::from_slice(resp.body.expect_bytes()).unwrap();
2225 let arn = body["CertificateArn"].as_str().unwrap().to_string();
2226
2227 let st = svc.state.read();
2228 let cert = st
2229 .accounts
2230 .get("123456789012")
2231 .unwrap()
2232 .certificates
2233 .get(&arn)
2234 .unwrap();
2235 let key_pem = cert
2236 .private_key_pem
2237 .as_deref()
2238 .expect("RequestCertificate should populate a real private key");
2239 let starts_pkcs8 = key_pem.starts_with("-----BEGIN PRIVATE KEY-----");
2240 let starts_rsa = key_pem.starts_with("-----BEGIN RSA PRIVATE KEY-----");
2241 assert!(
2242 starts_pkcs8 || starts_rsa,
2243 "expected PKCS#8 or RSA private key header, got {key_pem:.80}"
2244 );
2245 assert!(
2246 key_pem.trim_end().ends_with("-----END PRIVATE KEY-----")
2247 || key_pem
2248 .trim_end()
2249 .ends_with("-----END RSA PRIVATE KEY-----")
2250 );
2251 assert!(key_pem.len() > 200);
2252 }
2253}