{"uuid": "e978552a-8641-4921-aab7-b5208e2457c0", "vulnerability_lookup_origin": "1a89b78e-f703-45f3-bb86-59eb712668bd", "author": "9f56dd64-161d-43a6-b9c3-555944290a09", "vulnerability": "CVE-2024-0002", "type": "seen", "source": "https://gist.github.com/tu-trinh-scale/8549232c473ea8731bdd04dc9b41f773", "content": "diff --git a/README.md b/README.md\nindex 57102d1..f53637e 100644\n--- a/README.md\n+++ b/README.md\n@@ -90,8 +90,9 @@ Vuls is a tool created to solve the problems listed above. It has the following\n   - [US-CERT](https://www.us-cert.gov/ncas/alerts)\n   - [JPCERT](http://www.jpcert.or.jp/at/2019.html)\n \n-- CISA(Cybersecurity &amp; Infrastructure Security Agency)\n-  - [Known Exploited Vulnerabilities Catalog](https://www.cisa.gov/known-exploited-vulnerabilities-catalog)\n+- Known Exploited Vulnerabilities\n+  - [CISA Known Exploited Vulnerabilities Catalog](https://www.cisa.gov/known-exploited-vulnerabilities-catalog)\n+  - [VulnCheck KEV](https://vulncheck.com/)\n \n - Cyber Threat Intelligence(MITRE ATT&amp;CK and CAPEC)\n   - [mitre/cti](https://github.com/mitre/cti)\n@@ -179,6 +180,10 @@ Vuls has some options to detect the vulnerabilities\n For more information such as Installation, Tutorial, Usage, visit [vuls.io](https://vuls.io/)  \n [\u65e5\u672c\u8a9e\u7ffb\u8a33\u30c9\u30ad\u30e5\u30e1\u30f3\u30c8](https://vuls.io/ja/)\n \n+## Example Configuration\n+\n+A ready-to-use configuration with KEV reporting enabled is available at [`config.example.toml`](config.example.toml). It includes the `[kevuln]` database section used to populate first-class `kevs` entries in scan result JSON.\n+\n ----\n \n ## Authors\ndiff --git a/detector/kevuln.go b/detector/kevuln.go\nindex 41afdfe..d25678d 100644\n--- a/detector/kevuln.go\n+++ b/detector/kevuln.go\n@@ -74,23 +74,17 @@ func FillWithKEVuln(r *models.ScanResult, cnf config.KEVulnConf, logOpts logging\n \t\t\treturn err\n \t\t}\n \t\tfor _, res := range responses {\n-\t\t\tkevulns := []kevulnmodels.KEVuln{}\n-\t\t\tif err := json.Unmarshal([]byte(res.json), &amp;kevulns); err != nil {\n+\t\t\tkevs, err := parseKEVs([]byte(res.json))\n+\t\t\tif err != nil {\n \t\t\t\treturn err\n \t\t\t}\n-\n-\t\t\talerts := []models.Alert{}\n-\t\t\tif len(kevulns) &gt; 0 {\n-\t\t\t\talerts = append(alerts, models.Alert{\n-\t\t\t\t\tTitle: \"Known Exploited Vulnerabilities Catalog\",\n-\t\t\t\t\tURL:   \"https://www.cisa.gov/known-exploited-vulnerabilities-catalog\",\n-\t\t\t\t\tTeam:  \"cisa\",\n-\t\t\t\t})\n+\t\t\tif len(kevs) == 0 {\n+\t\t\t\tcontinue\n \t\t\t}\n \n \t\t\tv, ok := r.ScannedCves[res.request.cveID]\n \t\t\tif ok {\n-\t\t\t\tv.AlertDict.CISA = alerts\n+\t\t\t\tv.KEVs = kevs\n \t\t\t\tnKEV++\n \t\t\t}\n \t\t\tr.ScannedCves[res.request.cveID] = v\n@@ -108,16 +102,12 @@ func FillWithKEVuln(r *models.ScanResult, cnf config.KEVulnConf, logOpts logging\n \t\t\t\tcontinue\n \t\t\t}\n \n-\t\t\talerts := []models.Alert{}\n-\t\t\tif len(kevulns) &gt; 0 {\n-\t\t\t\talerts = append(alerts, models.Alert{\n-\t\t\t\t\tTitle: \"Known Exploited Vulnerabilities Catalog\",\n-\t\t\t\t\tURL:   \"https://www.cisa.gov/known-exploited-vulnerabilities-catalog\",\n-\t\t\t\t\tTeam:  \"cisa\",\n-\t\t\t\t})\n+\t\t\tkevs, err := convertKEVulns(kevulns)\n+\t\t\tif err != nil {\n+\t\t\t\treturn err\n \t\t\t}\n \n-\t\t\tvuln.AlertDict.CISA = alerts\n+\t\t\tvuln.KEVs = kevs\n \t\t\tnKEV++\n \t\t\tr.ScannedCves[cveID] = vuln\n \t\t}\n@@ -127,6 +117,62 @@ func FillWithKEVuln(r *models.ScanResult, cnf config.KEVulnConf, logOpts logging\n \treturn nil\n }\n \n+type rawKEV struct {\n+\tType                       models.KEVType       `json:\"type\"`\n+\tVendorProject              string               `json:\"vendorProject\"`\n+\tProduct                    string               `json:\"product\"`\n+\tVulnerabilityName          string               `json:\"vulnerabilityName\"`\n+\tShortDescription           string               `json:\"shortDescription\"`\n+\tRequiredAction             string               `json:\"requiredAction\"`\n+\tKnownRansomwareCampaignUse string               `json:\"knownRansomwareCampaignUse\"`\n+\tDateAdded                  time.Time            `json:\"dateAdded\"`\n+\tDueDate                    *time.Time           `json:\"dueDate\"`\n+\tNote                       string               `json:\"note\"`\n+\tCISA                       *models.CISAKEV      `json:\"cisa\"`\n+\tVulnCheck                  *models.VulnCheckKEV `json:\"vulncheck\"`\n+}\n+\n+func convertKEVulns(kevulns []kevulnmodels.KEVuln) ([]models.KEV, error) {\n+\tbs, err := json.Marshal(kevulns)\n+\tif err != nil {\n+\t\treturn nil, err\n+\t}\n+\treturn parseKEVs(bs)\n+}\n+\n+func parseKEVs(bs []byte) ([]models.KEV, error) {\n+\tvar raws []rawKEV\n+\tif err := json.Unmarshal(bs, &amp;raws); err != nil {\n+\t\treturn nil, err\n+\t}\n+\n+\tkevs := make([]models.KEV, 0, len(raws))\n+\tfor _, raw := range raws {\n+\t\tkevType := raw.Type\n+\t\tif kevType == \"\" {\n+\t\t\tkevType = models.CISAKEVType\n+\t\t}\n+\t\tkev := models.KEV{\n+\t\t\tType:                       kevType,\n+\t\t\tVendorProject:              raw.VendorProject,\n+\t\t\tProduct:                    raw.Product,\n+\t\t\tVulnerabilityName:          raw.VulnerabilityName,\n+\t\t\tShortDescription:           raw.ShortDescription,\n+\t\t\tRequiredAction:             raw.RequiredAction,\n+\t\t\tKnownRansomwareCampaignUse: raw.KnownRansomwareCampaignUse,\n+\t\t\tDateAdded:                  raw.DateAdded,\n+\t\t\tDueDate:                    raw.DueDate,\n+\t\t\tCISA:                       raw.CISA,\n+\t\t\tVulnCheck:                  raw.VulnCheck,\n+\t\t}\n+\t\tif kev.Type == models.CISAKEVType &amp;&amp; kev.CISA == nil {\n+\t\t\tkev.CISA = &amp;models.CISAKEV{Note: raw.Note}\n+\t\t}\n+\t\tkevs = append(kevs, kev)\n+\t}\n+\treturn kevs, nil\n+}\n+\n type kevulnResponse struct {\n \trequest kevulnRequest\n \tjson    string\ndiff --git a/examples/scan-result-kev.json b/examples/scan-result-kev.json\nnew file mode 100644\nindex 0000000..0c55367\n--- /dev/null\n+++ b/examples/scan-result-kev.json\n@@ -0,0 +1,76 @@\n+{\n+  \"jsonVersion\": 4,\n+  \"lang\": \"en\",\n+  \"serverName\": \"example\",\n+  \"family\": \"ubuntu\",\n+  \"release\": \"22.04\",\n+  \"scannedAt\": \"2026-07-03T00:00:00Z\",\n+  \"scanMode\": \"fast-root\",\n+  \"reportedAt\": \"2026-07-03T00:00:00Z\",\n+  \"scannedCves\": {\n+    \"CVE-2023-3519\": {\n+      \"cveID\": \"CVE-2023-3519\",\n+      \"confidences\": [\n+        {\n+          \"score\": 100,\n+          \"detectionMethod\": \"OvalMatch\"\n+        }\n+      ],\n+      \"kevs\": [\n+        {\n+          \"type\": \"cisa\",\n+          \"vendorProject\": \"Citrix\",\n+          \"product\": \"NetScaler ADC and NetScaler Gateway\",\n+          \"vulnerabilityName\": \"Citrix NetScaler ADC and NetScaler Gateway Code Injection Vulnerability\",\n+          \"shortDescription\": \"Citrix NetScaler ADC and NetScaler Gateway contain a code injection vulnerability that can result in unauthenticated remote code execution.\",\n+          \"requiredAction\": \"Apply mitigations per vendor instructions or discontinue use of the product if mitigations are unavailable.\",\n+          \"knownRansomwareCampaignUse\": \"Known\",\n+          \"dateAdded\": \"2023-07-19T00:00:00Z\",\n+          \"dueDate\": \"2023-08-09T00:00:00Z\",\n+          \"cisa\": {\n+            \"note\": \"https://www.cisa.gov/known-exploited-vulnerabilities-catalog\"\n+          }\n+        },\n+        {\n+          \"type\": \"vulncheck\",\n+          \"vendorProject\": \"Citrix\",\n+          \"product\": \"NetScaler ADC and NetScaler Gateway\",\n+          \"vulnerabilityName\": \"Citrix NetScaler ADC and NetScaler Gateway Code Injection Vulnerability\",\n+          \"shortDescription\": \"VulnCheck reports public exploitation activity for CVE-2023-3519.\",\n+          \"knownRansomwareCampaignUse\": \"Known\",\n+          \"dateAdded\": \"2023-07-19T00:00:00Z\",\n+          \"vulncheck\": {\n+            \"xdb\": [\n+              {\n+                \"xdbID\": \"xdb-123456\",\n+                \"xdbURL\": \"https://vulncheck.com/xdb/xdb-123456\",\n+                \"dateAdded\": \"2023-07-19T00:00:00Z\",\n+                \"exploitType\": \"initial-access\",\n+                \"cloneSSHURL\": \"git@github.com:vulncheck/xdb-123456.git\"\n+              }\n+            ],\n+            \"reportedExploitation\": [\n+              {\n+                \"url\": \"https://www.cisa.gov/news-events/alerts/2023/07/20/threat-actors-exploiting-citrix-cve-2023-3519-deliver-webshells\",\n+                \"dateAdded\": \"2023-07-20T00:00:00Z\"\n+              }\n+            ]\n+          }\n+        }\n+      ],\n+      \"affectedPackages\": [\n+        {\n+          \"name\": \"citrix-adc\"\n+        }\n+      ]\n+    }\n+  },\n+  \"packages\": {\n+    \"citrix-adc\": {\n+      \"name\": \"citrix-adc\",\n+      \"version\": \"13.1\"\n+    }\n+  },\n+  \"errors\": [],\n+  \"warnings\": []\n+}\ndiff --git a/examples/tracking-issue-kev-sample.md b/examples/tracking-issue-kev-sample.md\nnew file mode 100644\nindex 0000000..dd9abbf\n--- /dev/null\n+++ b/examples/tracking-issue-kev-sample.md\n@@ -0,0 +1,5 @@\n+# KEV Scan Result Sample\n+\n+Sample output showing the new first-class `kevs` field is available at `examples/scan-result-kev.json`.\n+\n+The sample includes both `cisa` and `vulncheck` entries for `CVE-2023-3519` so reviewers can verify the JSON shape without parsing the legacy `alertDict.cisa` path.\ndiff --git a/models/scanresults.go b/models/scanresults.go\nindex 508b992..1d8cb61 100644\n--- a/models/scanresults.go\n+++ b/models/scanresults.go\n@@ -197,13 +197,14 @@ func (r ScanResult) FormatTextReportHeader() string {\n \t\tpkgs = fmt.Sprintf(\"%s, %d libs\", pkgs, r.LibraryScanners.Total())\n \t}\n \n-\treturn fmt.Sprintf(\"%s\\n%s\\n%s\\n%s, %s, %s, %s\\n%s\\n\",\n+\treturn fmt.Sprintf(\"%s\\n%s\\n%s\\n%s, %s, %s, %s, %s\\n%s\\n\",\n \t\tr.ServerInfo(),\n \t\tbuf.String(),\n \t\tr.ScannedCves.FormatCveSummary(),\n \t\tr.ScannedCves.FormatFixedStatus(r.Packages),\n \t\tr.FormatExploitCveSummary(),\n \t\tr.FormatMetasploitCveSummary(),\n+\t\tr.FormatKEVCveSummary(),\n \t\tr.FormatAlertSummary(),\n \t\tpkgs)\n }\n@@ -251,15 +252,22 @@ func (r ScanResult) FormatMetasploitCveSummary() string {\n \treturn fmt.Sprintf(\"%d exploits\", nMetasploitCve)\n }\n \n+// FormatKEVCveSummary returns a summary of known exploited vulnerability CVEs.\n+func (r ScanResult) FormatKEVCveSummary() string {\n+\tnKEVCve := 0\n+\tfor _, vuln := range r.ScannedCves {\n+\t\tif 0 &lt; len(vuln.KEVs) {\n+\t\t\tnKEVCve++\n+\t\t}\n+\t}\n+\treturn fmt.Sprintf(\"%d kevs\", nKEVCve)\n+}\n+\n // FormatAlertSummary returns a summary of CERT alerts\n func (r ScanResult) FormatAlertSummary() string {\n-\tcisaCnt := 0\n \tuscertCnt := 0\n \tjpcertCnt := 0\n \tfor _, vuln := range r.ScannedCves {\n-\t\tif len(vuln.AlertDict.CISA) &gt; 0 {\n-\t\t\tcisaCnt += len(vuln.AlertDict.CISA)\n-\t\t}\n \t\tif len(vuln.AlertDict.USCERT) &gt; 0 {\n \t\t\tuscertCnt += len(vuln.AlertDict.USCERT)\n \t\t}\n@@ -267,7 +275,7 @@ func (r ScanResult) FormatAlertSummary() string {\n \t\t\tjpcertCnt += len(vuln.AlertDict.JPCERT)\n \t\t}\n \t}\n-\treturn fmt.Sprintf(\"cisa: %d, uscert: %d, jpcert: %d alerts\", cisaCnt, uscertCnt, jpcertCnt)\n+\treturn fmt.Sprintf(\"uscert: %d, jpcert: %d alerts\", uscertCnt, jpcertCnt)\n }\n \n func (r ScanResult) isDisplayUpdatableNum(mode config.ScanMode) bool {\n@@ -422,6 +430,12 @@ func (r *ScanResult) SortForJSONOutput() {\n \t\tsort.Slice(v.Metasploits, func(i, j int) bool {\n \t\t\treturn v.Metasploits[i].Name &lt; v.Metasploits[j].Name\n \t\t})\n+\t\tsort.Slice(v.KEVs, func(i, j int) bool {\n+\t\t\tif v.KEVs[i].Type != v.KEVs[j].Type {\n+\t\t\t\treturn v.KEVs[i].Type &lt; v.KEVs[j].Type\n+\t\t\t}\n+\t\t\treturn v.KEVs[i].VulnerabilityName &lt; v.KEVs[j].VulnerabilityName\n+\t\t})\n \t\tsort.Slice(v.Mitigations, func(i, j int) bool {\n \t\t\treturn v.Mitigations[i].URL &lt; v.Mitigations[j].URL\n \t\t})\ndiff --git a/models/scanresults_kev_test.go b/models/scanresults_kev_test.go\nnew file mode 100644\nindex 0000000..7704ef0\n--- /dev/null\n+++ b/models/scanresults_kev_test.go\n@@ -0,0 +1,65 @@\n+package models\n+\n+import \"testing\"\n+\n+func TestScanResult_FormatKEVCveSummary(t *testing.T) {\n+\tr := ScanResult{\n+\t\tScannedCves: VulnInfos{\n+\t\t\t\"CVE-2024-0001\": {\n+\t\t\t\tCveID: \"CVE-2024-0001\",\n+\t\t\t\tKEVs: []KEV{{Type: CISAKEVType}},\n+\t\t\t},\n+\t\t\t\"CVE-2024-0002\": {\n+\t\t\t\tCveID: \"CVE-2024-0002\",\n+\t\t\t\tKEVs: []KEV{{Type: VulnCheckKEVType}},\n+\t\t\t},\n+\t\t\t\"CVE-2024-0003\": {\n+\t\t\t\tCveID: \"CVE-2024-0003\",\n+\t\t\t},\n+\t\t},\n+\t}\n+\n+\tif got, want := r.FormatKEVCveSummary(), \"2 kevs\"; got != want {\n+\t\tt.Fatalf(\"FormatKEVCveSummary() = %q, want %q\", got, want)\n+\t}\n+}\n+\n+func TestScanResult_SortForJSONOutputKEVs(t *testing.T) {\n+\tr := ScanResult{\n+\t\tScannedCves: VulnInfos{\n+\t\t\t\"CVE-2024-0001\": {\n+\t\t\t\tCveID: \"CVE-2024-0001\",\n+\t\t\t\tKEVs: []KEV{\n+\t\t\t\t\t{Type: VulnCheckKEVType, VulnerabilityName: \"z vuln\"},\n+\t\t\t\t\t{Type: CISAKEVType, VulnerabilityName: \"b vuln\"},\n+\t\t\t\t\t{Type: CISAKEVType, VulnerabilityName: \"a vuln\"},\n+\t\t\t\t},\n+\t\t\t},\n+\t\t},\n+\t}\n+\n+\tr.SortForJSONOutput()\n+\tkevs := r.ScannedCves[\"CVE-2024-0001\"].KEVs\n+\twant := []KEV{\n+\t\t{Type: CISAKEVType, VulnerabilityName: \"a vuln\"},\n+\t\t{Type: CISAKEVType, VulnerabilityName: \"b vuln\"},\n+\t\t{Type: VulnCheckKEVType, VulnerabilityName: \"z vuln\"},\n+\t}\n+\tfor i := range want {\n+\t\tif kevs[i] != want[i] {\n+\t\t\tt.Fatalf(\"KEVs[%d] = %+v, want %+v\", i, kevs[i], want[i])\n+\t\t}\n+\t}\n+}\n+\n+func TestAlertDictCISAIsNotReported(t *testing.T) {\n+\ta := AlertDict{\n+\t\tCISA: []Alert{{Title: \"Known Exploited Vulnerabilities Catalog\"}},\n+\t}\n+\tif !a.IsEmpty() {\n+\t\tt.Fatal(\"AlertDict with only legacy CISA data should be empty\")\n+\t}\n+\tif got := a.FormatSource(); got != \"\" {\n+\t\tt.Fatalf(\"FormatSource() = %q, want empty\", got)\n+\t}\n+}\ndiff --git a/models/vulninfos.go b/models/vulninfos.go\nindex 3e85e81..6165265 100644\n--- a/models/vulninfos.go\n+++ b/models/vulninfos.go\n@@ -265,6 +265,7 @@ type VulnInfo struct {\n \tCveContents          CveContents          `json:\"cveContents,omitempty\"`\n \tExploits             []Exploit            `json:\"exploits,omitempty\"`\n \tMetasploits          []Metasploit         `json:\"metasploits,omitempty\"`\n+\tKEVs                 []KEV                `json:\"kevs,omitempty\"`\n \tMitigations          []Mitigation         `json:\"mitigations,omitempty\"`\n \tCtis                 []string             `json:\"ctis,omitempty\"`\n \tAlertDict            AlertDict            `json:\"alertDict,omitempty\"`\n@@ -284,6 +285,58 @@ type Alert struct {\n \tTeam  string `json:\"team,omitempty\"`\n }\n \n+// KEVType identifies the known exploited vulnerability source.\n+type KEVType string\n+\n+const (\n+\t// CISAKEVType is CISA KEV catalog data.\n+\tCISAKEVType KEVType = \"cisa\"\n+\n+\t// VulnCheckKEVType is VulnCheck KEV data.\n+\tVulnCheckKEVType KEVType = \"vulncheck\"\n+)\n+\n+// KEV has known exploited vulnerability information.\n+type KEV struct {\n+\tType                          KEVType       `json:\"type\"`\n+\tVendorProject                 string        `json:\"vendorProject,omitempty\"`\n+\tProduct                       string        `json:\"product,omitempty\"`\n+\tVulnerabilityName             string        `json:\"vulnerabilityName,omitempty\"`\n+\tShortDescription              string        `json:\"shortDescription,omitempty\"`\n+\tRequiredAction                string        `json:\"requiredAction,omitempty\"`\n+\tKnownRansomwareCampaignUse    string        `json:\"knownRansomwareCampaignUse,omitempty\"`\n+\tDateAdded                     time.Time     `json:\"dateAdded\"`\n+\tDueDate                       *time.Time    `json:\"dueDate,omitempty\"`\n+\tCISA                          *CISAKEV      `json:\"cisa,omitempty\"`\n+\tVulnCheck                     *VulnCheckKEV `json:\"vulncheck,omitempty\"`\n+}\n+\n+// CISAKEV has CISA-specific KEV fields.\n+type CISAKEV struct {\n+\tNote string `json:\"note,omitempty\"`\n+}\n+\n+// VulnCheckKEV has VulnCheck-specific KEV fields.\n+type VulnCheckKEV struct {\n+\tXDB                  []VulnCheckXDB                  `json:\"xdb,omitempty\"`\n+\tReportedExploitation []VulnCheckReportedExploitation `json:\"reportedExploitation,omitempty\"`\n+}\n+\n+// VulnCheckXDB has VulnCheck XDB exploit data.\n+type VulnCheckXDB struct {\n+\tXDBID       string    `json:\"xdbID,omitempty\"`\n+\tXDBURL      string    `json:\"xdbURL,omitempty\"`\n+\tDateAdded   time.Time `json:\"dateAdded\"`\n+\tExploitType string    `json:\"exploitType,omitempty\"`\n+\tCloneSSHURL string    `json:\"cloneSSHURL,omitempty\"`\n+}\n+\n+// VulnCheckReportedExploitation has VulnCheck reported exploitation data.\n+type VulnCheckReportedExploitation struct {\n+\tURL       string    `json:\"url,omitempty\"`\n+\tDateAdded time.Time `json:\"dateAdded\"`\n+}\n+\n // GitHubSecurityAlerts is a list of GitHubSecurityAlert\n type GitHubSecurityAlerts []GitHubSecurityAlert\n \n@@ -910,8 +963,9 @@ type Mitigation struct {\n \tURL            string         `json:\"url,omitempty\"`\n }\n \n-// AlertDict has target cve JPCERT, USCERT and CISA alert data\n+// AlertDict has target cve JPCERT and USCERT alert data\n type AlertDict struct {\n+\t// Deprecated: CISA KEV data is stored in VulnInfo.KEVs.\n \tCISA   []Alert `json:\"cisa\"`\n \tJPCERT []Alert `json:\"jpcert\"`\n \tUSCERT []Alert `json:\"uscert\"`\n@@ -919,15 +973,12 @@ type AlertDict struct {\n \n // IsEmpty checks if the content of AlertDict is empty\n func (a AlertDict) IsEmpty() bool {\n-\treturn len(a.CISA) == 0 &amp;&amp; len(a.JPCERT) == 0 &amp;&amp; len(a.USCERT) == 0\n+\treturn len(a.JPCERT) == 0 &amp;&amp; len(a.USCERT) == 0\n }\n \n // FormatSource returns which source has this alert\n func (a AlertDict) FormatSource() string {\n \tvar s []string\n-\tif len(a.CISA) != 0 {\n-\t\ts = append(s, \"CISA\")\n-\t}\n \tif len(a.USCERT) != 0 || len(a.JPCERT) != 0 {\n \t\ts = append(s, \"CERT\")\n \t}\ndiff --git a/reporter/util.go b/reporter/util.go\nindex d9cfdaa..21a06d4 100644\n--- a/reporter/util.go\n+++ b/reporter/util.go\n@@ -204,6 +204,7 @@ func formatOneLineSummary(rs ...models.ScanResult) string {\n \t\t\t\tr.FormatUpdatablePkgsSummary(),\n \t\t\t\tr.FormatExploitCveSummary(),\n \t\t\t\tr.FormatMetasploitCveSummary(),\n+\t\t\t\tr.FormatKEVCveSummary(),\n \t\t\t\tr.FormatAlertSummary(),\n \t\t\t}\n \t\t} else {\n@@ -565,8 +566,19 @@ No CVE-IDs are found in updatable packages.\n \t\t})\n \t\tdata = append(data, ds...)\n \n-\t\tfor _, alert := range vuln.AlertDict.CISA {\n-\t\t\tdata = append(data, []string{\"CISA Alert\", alert.URL})\n+\t\tfor _, kev := range vuln.KEVs {\n+\t\t\tdata = append(data, []string{\"KEV\", fmt.Sprintf(\"%s: %s\", kev.Type, kev.VulnerabilityName)})\n+\t\t\tif kev.CISA != nil &amp;&amp; kev.CISA.Note != \"\" {\n+\t\t\t\tdata = append(data, []string{\"KEV Note\", kev.CISA.Note})\n+\t\t\t}\n+\t\t\tif kev.VulnCheck != nil {\n+\t\t\t\tfor _, xdb := range kev.VulnCheck.XDB {\n+\t\t\t\t\tdata = append(data, []string{\"VulnCheck XDB\", xdb.XDBURL})\n+\t\t\t\t}\n+\t\t\t\tfor _, exploitation := range kev.VulnCheck.ReportedExploitation {\n+\t\t\t\t\tdata = append(data, []string{\"VulnCheck Exploitation\", exploitation.URL})\n+\t\t\t\t}\n+\t\t\t}\n \t\t}\n \n \t\tfor _, alert := range vuln.AlertDict.JPCERT {\ndiff --git a/tui/tui.go b/tui/tui.go\nindex 4407f56..1cf62c3 100644\n--- a/tui/tui.go\n+++ b/tui/tui.go\n@@ -812,13 +812,13 @@ func setChangelogLayout(g *gocui.Gui) error {\n \t\t\t}\n \t\t}\n \n-\t\tif len(vinfo.AlertDict.CISA) &gt; 0 {\n+\t\tif len(vinfo.KEVs) &gt; 0 {\n \t\t\tlines = append(lines, \"\\n\",\n-\t\t\t\t\"CISA Alert\",\n-\t\t\t\t\"===========\",\n+\t\t\t\t\"Known Exploited Vulnerabilities\",\n+\t\t\t\t\"===============================\",\n \t\t\t)\n-\t\t\tfor _, alert := range vinfo.AlertDict.CISA {\n-\t\t\t\tlines = append(lines, fmt.Sprintf(\"* [%s](%s)\", alert.Title, alert.URL))\n+\t\t\tfor _, kev := range vinfo.KEVs {\n+\t\t\t\tlines = append(lines, fmt.Sprintf(\"* %s: %s\", kev.Type, kev.VulnerabilityName))\n \t\t\t}\n \t\t}\n \n", "creation_timestamp": "2026-07-03T13:03:18.026546Z"}