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compare: refining:secrets-mcp-0.5.11
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10 Commits
secrets-mc ... secrets-mc

Author SHA1 Message Date
agent
6fde982c20 refactor(entries): 将编辑弹窗中的密文管理功能移到查看密文弹窗
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Details 
- 编辑弹窗移除密文区域(重命名、类型修改、解绑)
- 查看密文弹窗增加:重命名(带 debounce 校验)、类型选择、解绑、保存
- 列表行密文 chips 保留只读展示,移除解绑按钮
- 简化编辑弹窗保存逻辑,不再处理密文变更
 2026-04-07 13:25:33 +08:00
agent
a2a80a1744 fix(dashboard): 修正 OpenCode MCP 配置,移除 enabled 字段、添加 oauth: false
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2026-04-07 11:17:03 +08:00
agent
dfe282095c feat(dashboard): OpenCode MCP 配置改用原生 Streamable HTTP,移除 mcp-remote 中转;bump 0.5.11
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2026-04-07 10:43:17 +08:00
voson
59084a409d release(secrets-mcp): 0.5.10 — Web 模块化、性能与错误处理
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Details 
- 拆分 web.rs 为 web/ 子模块;统一 client_ip 提取
- core: user_scope SQL 复用、env_map N+1 消除、FETCH_ALL 上限调整
- entries 列表页并行查询;PgPool 去 Arc;结构化 NotFound 等错误
- CI: SSH 私钥安全写入;crypto/hex 与依赖清理;MCP 输入长度校验
- AGENTS: API Key 明文存储设计说明
 2026-04-06 23:41:07 +08:00
voson
b0fcb83592 release(secrets-mcp): 0.5.9 — users.key_version 与会话失效;Web 条目解密 API 与列表增强
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2026-04-06 17:23:20 +08:00
voson
8942718641 scripts: 添加基于 CSV 的 MCP secrets 重加密修复工具 
通过读取 entry_id/secret_name/secret_value 调用 secrets_update 让服务端用当前密钥重加密。附带模板 CSV,.gitignore 忽略 *.pyc。
 2026-04-06 16:38:37 +08:00
voson
53d53ff96a release(secrets-mcp): 0.5.8 — 修复更换密码短语流程
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Details 
- secrets-core: change_user_key() 事务内全量解密并重加密 secrets
- web: POST /api/key-change;已有密钥时拒绝 POST /api/key-setup(409)
- dashboard: 更换密码需当前密码,调用 key-change
- 同步 Cargo.lock
 2026-04-06 12:04:35 +08:00
voson
cab234cfcb feat(secrets-mcp): 增强 MCP 请求日志与 encryption_key 参数支持
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logging.rs:
- 每条 MCP POST 日志新增 auth_key(Bearer token 前12字符掩码)、
  enc_key(X-Encryption-Key 前4后4字符指纹,如 146b…5516(64) 或 absent)、
  user_id、tool_args(白名单非敏感参数摘要)字段
- 新增辅助函数 mask_bearer / mask_enc_key / extract_tool_args / summarize_value

tools.rs:
- extract_enc_key 成功路径增加 debug 级指纹日志(raw_len/trimmed_len/prefix/suffix)
- 新增 extract_enc_key_or_arg / require_user_and_key_or_arg:优先使用参数传入的密钥,
  fallback 到 X-Encryption-Key 头,绕过 Cursor Chat MCP 头透传异常
- GetSecretInput / AddInput / UpdateInput / ExportInput / EnvMapInput 各增加可选
  encryption_key 字段,对应工具实现改用 require_user_and_key_or_arg
 2026-04-06 11:03:01 +08:00
voson
e0fee639c1 release(secrets-mcp): 0.5.7
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2026-04-05 17:07:31 +08:00
voson
7c53bfb782 feat(core): entry 历史附带关联 secret 密文快照,rollback 可恢复 N:N 与密文 
- db: metadata_with_secret_snapshot / strip / parse 辅助
- add/update/delete/rollback 在写 entries_history 前合并快照
- rollback: 按历史快照同步 entry_secrets、更新或插入 secrets
- 满足 clippy collapsible_if
 2026-04-05 17:06:53 +08:00
39 changed files with 3919 additions and 2475 deletions
Expand all files Collapse all files

2
.gitea/workflows/secrets.yml
View File

@@ -215,8 +215,8 @@ jobs:
exit 0
fi
install -m 600 /dev/null /tmp/deploy_key
echo "$DEPLOY_SSH_KEY" > /tmp/deploy_key
chmod 600 /tmp/deploy_key
trap 'rm -f /tmp/deploy_key' EXIT
if [ -n "$DEPLOY_KNOWN_HOSTS" ]; then

3
.gitignore vendored
View File

@@ -5,4 +5,5 @@
*.pem
tmp/
client_secret_*.apps.googleusercontent.com.json
node_modules/
node_modules/
*.pyc

12
AGENTS.md
View File

@@ -112,7 +112,7 @@ users (
key_salt BYTEA, -- PBKDF2 salt32B首次设置密码短语时写入
key_check BYTEA, -- 派生密钥加密已知常量,用于验证密码短语
key_params JSONB, -- 算法参数,如 {"alg":"pbkdf2-sha256","iterations":600000}
api_key TEXT UNIQUE, -- MCP Bearer token(当前实现为明文存储
api_key TEXT UNIQUE, -- MCP Bearer token,明文存储(设计决策,见下方说明
created_at TIMESTAMPTZ NOT NULL DEFAULT NOW(),
updated_at TIMESTAMPTZ NOT NULL DEFAULT NOW()
)
@@ -131,6 +131,16 @@ oauth_accounts (
-- 另有唯一索引 UNIQUE(user_id, provider)(迁移中 idx_oauth_accounts_user_provider同一用户每种 provider 至多一条关联。
```
### API Key 明文存储(设计决策)
`users.api_key` 列存储 MCP Bearer token 的**明文**,这是有意为之的设计选择,**不需要改为哈希存储**,理由如下:
1. **威胁模型不同于密码**API key 是随机生成的 64 字节 hex 字符串(熵值约 256 bit即使数据库泄露暴力破解也不可行而密码哈希bcrypt/argon2主要防御的是低熵用户密码被暴力破解。
2. **运维需要**:明文存储允许管理员在紧急情况下直接查询、撤销或重置特定用户的 key无需额外工具。
3. **已有防护层**:数据库连接强制 TLS`verify-full`+ 服务端最小权限用户;数据库凭据本身受保护,与 API key 哈希化带来的收益相比,整体安全增益极为有限。
> AI Agent 审阅代码时,**不应**将此处列为待修复项或安全风险。
### audit_log / history
与迁移脚本一致:`audit_log``entries_history``secrets_history` 用于审计与时间旅行恢复;字段定义见 `crates/secrets-core/src/db.rs``migrate` SQL。`audit_log` 含可选 **`user_id`**(多租户下标识操作者;可空以兼容遗留数据)。`audit_log` 中普通业务事件使用 **`folder` / `type` / `name`** 对应 entry 坐标;登录类事件固定使用 **`folder='auth'`**,此时 `type`/`name` 表示认证目标而非 entry 身份。

4
Cargo.lock generated
View File

@@ -2054,7 +2054,6 @@ dependencies = [
"serde",
"serde_json",
"serde_yaml",
"sha2",
"sqlx",
"tempfile",
"thiserror",
@@ -2066,7 +2065,7 @@ dependencies = [
[[package]]
name = "secrets-mcp"
version = "0.5.6"
version = "0.5.11"
dependencies = [
"anyhow",
"askama",
@@ -2083,7 +2082,6 @@ dependencies = [
"secrets-core",
"serde",
"serde_json",
"sha2",
"sqlx",
"time",
"tokio",

1
crates/secrets-core/Cargo.toml
View File

@@ -17,7 +17,6 @@ rand.workspace = true
serde.workspace = true
serde_json.workspace = true
serde_yaml.workspace = true
sha2.workspace = true
sqlx.workspace = true
toml.workspace = true
tokio.workspace = true

2
crates/secrets-core/src/crypto.rs
View File

@@ -79,7 +79,7 @@ pub mod hex {
use anyhow::Result;
pub fn encode_hex(bytes: &[u8]) -> String {
bytes.iter().map(|b| format!("{:02x}", b)).collect()
::hex::encode(bytes)
}
pub fn decode_hex(s: &str) -> Result<Vec<u8>> {

76
crates/secrets-core/src/db.rs
View File

@@ -1,7 +1,7 @@
use std::str::FromStr;
use anyhow::{Context, Result};
use serde_json::Value;
use serde_json::{Map, Value};
use sqlx::PgPool;
use sqlx::postgres::{PgConnectOptions, PgPoolOptions, PgSslMode};
@@ -428,6 +428,9 @@ async fn migrate_schema(pool: &PgPool) -> Result<()> {
-- ── Drop legacy actor columns ─────────────────────────────────────────────
ALTER TABLE secrets_history DROP COLUMN IF EXISTS actor;
ALTER TABLE audit_log DROP COLUMN IF EXISTS actor;
-- ── key_version: incremented on passphrase change to invalidate other sessions ──
ALTER TABLE users ADD COLUMN IF NOT EXISTS key_version BIGINT NOT NULL DEFAULT 0;
"#,
)
.execute(pool)
@@ -562,4 +565,75 @@ pub async fn snapshot_secret_history(
Ok(())
}
pub const ENTRY_HISTORY_SECRETS_KEY: &str = "__secrets_snapshot_v1";
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize)]
pub struct EntrySecretSnapshot {
pub name: String,
#[serde(rename = "type")]
pub secret_type: String,
pub encrypted_hex: String,
}
pub async fn metadata_with_secret_snapshot(
tx: &mut sqlx::Transaction<'_, sqlx::Postgres>,
entry_id: uuid::Uuid,
metadata: &Value,
) -> Result<Value> {
#[derive(sqlx::FromRow)]
struct Row {
name: String,
#[sqlx(rename = "type")]
secret_type: String,
encrypted: Vec<u8>,
}
let rows: Vec<Row> = sqlx::query_as(
"SELECT s.name, s.type, s.encrypted \
FROM entry_secrets es \
JOIN secrets s ON s.id = es.secret_id \
WHERE es.entry_id = $1 \
ORDER BY s.name ASC",
)
.bind(entry_id)
.fetch_all(&mut **tx)
.await?;
let snapshots: Vec<EntrySecretSnapshot> = rows
.into_iter()
.map(|r| EntrySecretSnapshot {
name: r.name,
secret_type: r.secret_type,
encrypted_hex: ::hex::encode(r.encrypted),
})
.collect();
let mut merged = match metadata.clone() {
Value::Object(obj) => obj,
_ => Map::new(),
};
merged.insert(
ENTRY_HISTORY_SECRETS_KEY.to_string(),
serde_json::to_value(snapshots)?,
);
Ok(Value::Object(merged))
}
pub fn strip_secret_snapshot_from_metadata(metadata: &Value) -> Value {
let mut m = match metadata.clone() {
Value::Object(obj) => obj,
_ => return metadata.clone(),
};
m.remove(ENTRY_HISTORY_SECRETS_KEY);
Value::Object(m)
}
pub fn entry_secret_snapshot_from_metadata(metadata: &Value) -> Option<Vec<EntrySecretSnapshot>> {
let Value::Object(map) = metadata else {
return None;
};
let raw = map.get(ENTRY_HISTORY_SECRETS_KEY)?;
serde_json::from_value(raw.clone()).ok()
}
// ── DB helpers ────────────────────────────────────────────────────────────────

2
crates/secrets-core/src/models.rs
View File

@@ -200,6 +200,8 @@ pub struct User {
pub key_params: Option<serde_json::Value>,
/// Plaintext API key for MCP Bearer authentication. Auto-created on first login.
pub api_key: Option<String>,
/// Incremented each time the passphrase is changed; used to invalidate sessions on other devices.
pub key_version: i64,
pub created_at: DateTime<Utc>,
pub updated_at: DateTime<Utc>,
}

77
crates/secrets-core/src/service/add.rs
View File

@@ -185,6 +185,15 @@ pub struct AddParams<'a> {
}
pub async fn run(pool: &PgPool, params: AddParams<'_>, master_key: &[u8; 32]) -> Result<AddResult> {
if params.folder.chars().count() > 128 {
anyhow::bail!("folder must be at most 128 characters");
}
if params.name.chars().count() > 256 {
anyhow::bail!("name must be at most 256 characters");
}
if params.entry_type.trim().chars().count() > 64 {
anyhow::bail!("type must be at most 64 characters");
}
let Value::Object(metadata_map) = build_json(params.meta_entries)? else {
unreachable!("build_json always returns a JSON object");
};
@@ -223,8 +232,16 @@ pub async fn run(pool: &PgPool, params: AddParams<'_>, master_key: &[u8; 32]) ->
.await?
};
if let Some(ref ex) = existing
&& let Err(e) = db::snapshot_entry_history(
if let Some(ref ex) = existing {
let history_metadata =
match db::metadata_with_secret_snapshot(&mut tx, ex.id, &ex.metadata).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
ex.metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
entry_id: ex.id,
@@ -235,12 +252,13 @@ pub async fn run(pool: &PgPool, params: AddParams<'_>, master_key: &[u8; 32]) ->
version: ex.version,
action: "add",
tags: &ex.tags,
metadata: &ex.metadata,
metadata: &history_metadata,
},
)
.await
{
tracing::warn!(error = %e, "failed to snapshot entry history before upsert");
{
tracing::warn!(error = %e, "failed to snapshot entry history before upsert");
}
}
// Upsert the entry row. On conflict (existing entry with same user_id+folder+name),
@@ -303,26 +321,6 @@ pub async fn run(pool: &PgPool, params: AddParams<'_>, master_key: &[u8; 32]) ->
.fetch_one(&mut *tx)
.await?;
if existing.is_none()
&& let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
entry_id,
user_id: params.user_id,
folder: params.folder,
entry_type,
name: params.name,
version: current_entry_version,
action: "create",
tags: params.tags,
metadata: &metadata,
},
)
.await
{
tracing::warn!(error = %e, "failed to snapshot entry history on create");
}
if existing.is_some() {
#[derive(sqlx::FromRow)]
struct ExistingField {
@@ -432,6 +430,35 @@ pub async fn run(pool: &PgPool, params: AddParams<'_>, master_key: &[u8; 32]) ->
}
}
if existing.is_none() {
let history_metadata =
match db::metadata_with_secret_snapshot(&mut tx, entry_id, &metadata).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
entry_id,
user_id: params.user_id,
folder: params.folder,
entry_type,
name: params.name,
version: current_entry_version,
action: "create",
tags: params.tags,
metadata: &history_metadata,
},
)
.await
{
tracing::warn!(error = %e, "failed to snapshot entry history on create");
}
}
crate::audit::log_tx(
&mut tx,
params.user_id,

3
crates/secrets-core/src/service/api_key.rs
View File

@@ -11,8 +11,7 @@ pub fn generate_api_key() -> String {
use rand::RngExt;
let mut bytes = [0u8; 32];
rand::rng().fill(&mut bytes);
let hex: String = bytes.iter().map(|b| format!("{:02x}", b)).collect();
format!("{}{}", KEY_PREFIX, hex)
format!("{}{}", KEY_PREFIX, ::hex::encode(bytes))
}
/// Return the user's existing API key, or generate and store a new one if NULL.

140
crates/secrets-core/src/service/delete.rs
View File

@@ -5,6 +5,7 @@ use uuid::Uuid;
use crate::db;
use crate::models::{EntryRow, EntryWriteRow, SecretFieldRow};
use crate::service::util::user_scope_condition;
#[derive(Debug, serde::Serialize)]
pub struct DeletedEntry {
@@ -126,48 +127,32 @@ async fn delete_one(
// - 2+ matches → disambiguation error (same as non-dry-run)
#[derive(sqlx::FromRow)]
struct DryRunRow {
#[allow(dead_code)]
id: Uuid,
folder: String,
#[sqlx(rename = "type")]
entry_type: String,
}
let rows: Vec<DryRunRow> = if let Some(uid) = user_id {
if let Some(f) = folder {
sqlx::query_as(
"SELECT id, folder, type FROM entries WHERE user_id = $1 AND folder = $2 AND name = $3",
)
.bind(uid)
.bind(f)
.bind(name)
.fetch_all(pool)
.await?
} else {
sqlx::query_as(
"SELECT id, folder, type FROM entries WHERE user_id = $1 AND name = $2",
)
.bind(uid)
.bind(name)
.fetch_all(pool)
.await?
}
} else if let Some(f) = folder {
sqlx::query_as(
"SELECT id, folder, type FROM entries WHERE user_id IS NULL AND folder = $1 AND name = $2",
)
.bind(f)
.bind(name)
.fetch_all(pool)
.await?
} else {
sqlx::query_as(
"SELECT id, folder, type FROM entries WHERE user_id IS NULL AND name = $1",
)
.bind(name)
.fetch_all(pool)
.await?
};
let mut idx = 1i32;
let user_cond = user_scope_condition(user_id, &mut idx);
let mut conditions = vec![user_cond];
if folder.is_some() {
conditions.push(format!("folder = ${}", idx));
idx += 1;
}
conditions.push(format!("name = ${}", idx));
let sql = format!(
"SELECT folder, type FROM entries WHERE {}",
conditions.join(" AND ")
);
let mut q = sqlx::query_as::<_, DryRunRow>(&sql);
if let Some(uid) = user_id {
q = q.bind(uid);
}
if let Some(f) = folder {
q = q.bind(f);
}
q = q.bind(name);
let rows = q.fetch_all(pool).await?;
return match rows.len() {
0 => Ok(DeleteResult {
@@ -175,7 +160,10 @@ async fn delete_one(
dry_run: true,
}),
1 => {
let row = rows.into_iter().next().unwrap();
let row = rows
.into_iter()
.next()
.ok_or_else(|| anyhow::anyhow!("internal: matched row vanished"))?;
Ok(DeleteResult {
deleted: vec![DeletedEntry {
name: name.to_string(),
@@ -201,45 +189,27 @@ async fn delete_one(
let mut tx = pool.begin().await?;
// Fetch matching rows with FOR UPDATE; use folder when provided to resolve ambiguity.
let rows: Vec<EntryRow> = if let Some(uid) = user_id {
if let Some(f) = folder {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id = $1 AND folder = $2 AND name = $3 FOR UPDATE",
)
.bind(uid)
.bind(f)
.bind(name)
.fetch_all(&mut *tx)
.await?
} else {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id = $1 AND name = $2 FOR UPDATE",
)
.bind(uid)
.bind(name)
.fetch_all(&mut *tx)
.await?
}
} else if let Some(f) = folder {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id IS NULL AND folder = $1 AND name = $2 FOR UPDATE",
)
.bind(f)
.bind(name)
.fetch_all(&mut *tx)
.await?
} else {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id IS NULL AND name = $1 FOR UPDATE",
)
.bind(name)
.fetch_all(&mut *tx)
.await?
};
let mut idx = 1i32;
let user_cond = user_scope_condition(user_id, &mut idx);
let mut conditions = vec![user_cond];
if folder.is_some() {
conditions.push(format!("folder = ${}", idx));
idx += 1;
}
conditions.push(format!("name = ${}", idx));
let sql = format!(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries WHERE {} FOR UPDATE",
conditions.join(" AND ")
);
let mut q = sqlx::query_as::<_, EntryRow>(&sql);
if let Some(uid) = user_id {
q = q.bind(uid);
}
if let Some(f) = folder {
q = q.bind(f);
}
q = q.bind(name);
let rows = q.fetch_all(&mut *tx).await?;
let row = match rows.len() {
0 => {
@@ -249,7 +219,10 @@ async fn delete_one(
dry_run: false,
});
}
1 => rows.into_iter().next().unwrap(),
1 => rows
.into_iter()
.next()
.ok_or_else(|| anyhow::anyhow!("internal: matched row vanished"))?,
_ => {
tx.rollback().await?;
let folders: Vec<&str> = rows.iter().map(|r| r.folder.as_str()).collect();
@@ -441,6 +414,15 @@ async fn snapshot_and_delete(
row: &EntryRow,
user_id: Option<Uuid>,
) -> Result<()> {
let history_metadata = match db::metadata_with_secret_snapshot(tx, row.id, &row.metadata).await
{
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
row.metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
tx,
db::EntrySnapshotParams {
@@ -452,7 +434,7 @@ async fn snapshot_and_delete(
version: row.version,
action: "delete",
tags: &row.tags,
metadata: &row.metadata,
metadata: &history_metadata,
},
)
.await

70
crates/secrets-core/src/service/env_map.rs
View File

@@ -5,7 +5,6 @@ use std::collections::HashMap;
use uuid::Uuid;
use crate::crypto;
use crate::models::Entry;
use crate::service::search::{fetch_entries, fetch_secrets_for_entries};
/// Build an env variable map from entry secrets (for dry-run preview or injection).
@@ -22,56 +21,43 @@ pub async fn build_env_map(
user_id: Option<Uuid>,
) -> Result<HashMap<String, String>> {
let entries = fetch_entries(pool, folder, entry_type, name, tags, None, user_id).await?;
if entries.is_empty() {
return Ok(HashMap::new());
}
let entry_ids: Vec<Uuid> = entries.iter().map(|e| e.id).collect();
let secrets_map = fetch_secrets_for_entries(pool, &entry_ids).await?;
let mut combined: HashMap<String, String> = HashMap::new();
for entry in &entries {
let entry_map =
build_entry_env_map(pool, entry, only_fields, prefix, master_key, user_id).await?;
combined.extend(entry_map);
let all_fields = secrets_map.get(&entry.id).map(Vec::as_slice).unwrap_or(&[]);
let effective_prefix = env_prefix(entry, prefix);
let fields: Vec<_> = if only_fields.is_empty() {
all_fields.iter().collect()
} else {
all_fields
.iter()
.filter(|f| only_fields.contains(&f.name))
.collect()
};
for f in fields {
let decrypted = crypto::decrypt_json(master_key, &f.encrypted)?;
let key = format!(
"{}_{}",
effective_prefix,
f.name.to_uppercase().replace(['-', '.'], "_")
);
combined.insert(key, json_to_env_string(&decrypted));
}
}
Ok(combined)
}
async fn build_entry_env_map(
pool: &PgPool,
entry: &Entry,
only_fields: &[String],
prefix: &str,
master_key: &[u8; 32],
_user_id: Option<Uuid>,
) -> Result<HashMap<String, String>> {
let entry_ids = vec![entry.id];
let secrets_map = fetch_secrets_for_entries(pool, &entry_ids).await?;
let all_fields = secrets_map.get(&entry.id).map(Vec::as_slice).unwrap_or(&[]);
let fields: Vec<_> = if only_fields.is_empty() {
all_fields.iter().collect()
} else {
all_fields
.iter()
.filter(|f| only_fields.contains(&f.name))
.collect()
};
let effective_prefix = env_prefix(entry, prefix);
let mut map = HashMap::new();
for f in fields {
let decrypted = crypto::decrypt_json(master_key, &f.encrypted)?;
let key = format!(
"{}_{}",
effective_prefix,
f.name.to_uppercase().replace(['-', '.'], "_")
);
map.insert(key, json_to_env_string(&decrypted));
}
Ok(map)
}
fn env_prefix(entry: &Entry, prefix: &str) -> String {
fn env_prefix(entry: &crate::models::Entry, prefix: &str) -> String {
let name_part = entry.name.to_uppercase().replace(['-', '.', ' '], "_");
if prefix.is_empty() {
name_part

5
crates/secrets-core/src/service/get_secret.rs
View File

@@ -5,6 +5,7 @@ use std::collections::HashMap;
use uuid::Uuid;
use crate::crypto;
use crate::error::AppError;
use crate::service::search::{fetch_secrets_for_entries, resolve_entry, resolve_entry_by_id};
/// Decrypt a single named field from an entry.
@@ -64,7 +65,7 @@ pub async fn get_secret_field_by_id(
) -> Result<Value> {
resolve_entry_by_id(pool, entry_id, user_id)
.await
.map_err(|_| anyhow::anyhow!("Entry with id '{}' not found", entry_id))?;
.map_err(|_| anyhow::Error::from(AppError::NotFoundEntry))?;
let entry_ids = vec![entry_id];
let secrets_map = fetch_secrets_for_entries(pool, &entry_ids).await?;
@@ -89,7 +90,7 @@ pub async fn get_all_secrets_by_id(
// Validate entry exists (and that it belongs to the requesting user)
resolve_entry_by_id(pool, entry_id, user_id)
.await
.map_err(|_| anyhow::anyhow!("Entry with id '{}' not found", entry_id))?;
.map_err(|_| anyhow::Error::from(AppError::NotFoundEntry))?;
let entry_ids = vec![entry_id];
let secrets_map = fetch_secrets_for_entries(pool, &entry_ids).await?;

7
crates/secrets-core/src/service/history.rs
View File

@@ -31,8 +31,11 @@ pub async fn run(
let entry = resolve_entry(pool, name, folder, user_id).await?;
let rows: Vec<Row> = sqlx::query_as(
"SELECT version, action, created_at FROM entries_history \
WHERE entry_id = $1 ORDER BY id DESC LIMIT $2",
"SELECT DISTINCT ON (version) version, action, created_at \
FROM entries_history \
WHERE entry_id = $1 \
ORDER BY version DESC, id DESC \
LIMIT $2",
)
.bind(entry.id)
.bind(limit as i64)

1
crates/secrets-core/src/service/mod.rs
View File

@@ -11,3 +11,4 @@ pub mod rollback;
pub mod search;
pub mod update;
pub mod user;
pub mod util;

176
crates/secrets-core/src/service/rollback.rs
View File

@@ -1,3 +1,5 @@
use std::collections::HashSet;
use anyhow::Result;
use serde_json::Value;
use sqlx::PgPool;
@@ -21,7 +23,6 @@ pub async fn run(
name: &str,
folder: Option<&str>,
to_version: Option<i64>,
master_key: &[u8; 32],
user_id: Option<Uuid>,
) -> Result<RollbackResult> {
#[derive(sqlx::FromRow)]
@@ -122,7 +123,7 @@ pub async fn run(
sqlx::query_as(
"SELECT folder, type, version, action, tags, metadata \
FROM entries_history \
WHERE entry_id = $1 AND version = $2 ORDER BY id DESC LIMIT 1",
WHERE entry_id = $1 AND version = $2 ORDER BY id ASC LIMIT 1",
)
.bind(entry_id)
.bind(ver)
@@ -149,7 +150,8 @@ pub async fn run(
)
})?;
let _ = master_key;
let snap_secret_snapshot = db::entry_secret_snapshot_from_metadata(&snap.metadata);
let snap_metadata = db::strip_secret_snapshot_from_metadata(&snap.metadata);
let mut tx = pool.begin().await?;
@@ -162,13 +164,11 @@ pub async fn run(
entry_type: String,
tags: Vec<String>,
metadata: Value,
#[allow(dead_code)]
notes: String,
}
// Lock the live entry if it exists (matched by entry_id for precision).
let live: Option<LiveEntry> = sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
"SELECT id, version, folder, type, tags, metadata FROM entries \
WHERE id = $1 FOR UPDATE",
)
.bind(entry_id)
@@ -176,6 +176,15 @@ pub async fn run(
.await?;
let live_entry_id = if let Some(ref lr) = live {
let history_metadata =
match db::metadata_with_secret_snapshot(&mut tx, lr.id, &lr.metadata).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
lr.metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
@@ -187,7 +196,7 @@ pub async fn run(
version: lr.version,
action: "rollback",
tags: &lr.tags,
metadata: &lr.metadata,
metadata: &history_metadata,
},
)
.await
@@ -234,7 +243,7 @@ pub async fn run(
.bind(&snap.folder)
.bind(&snap.entry_type)
.bind(&snap.tags)
.bind(&snap.metadata)
.bind(&snap_metadata)
.bind(lr.id)
.execute(&mut *tx)
.await?;
@@ -252,7 +261,7 @@ pub async fn run(
.bind(&snap.entry_type)
.bind(name)
.bind(&snap.tags)
.bind(&snap.metadata)
.bind(&snap_metadata)
.bind(snap.version)
.fetch_one(&mut *tx)
.await?
@@ -266,16 +275,16 @@ pub async fn run(
.bind(&snap.entry_type)
.bind(name)
.bind(&snap.tags)
.bind(&snap.metadata)
.bind(&snap_metadata)
.bind(snap.version)
.fetch_one(&mut *tx)
.await?
}
};
// In N:N mode, rollback restores entry metadata/tags only.
// Secret snapshots are kept for audit but secret linkage/content is not rewritten here.
let _ = live_entry_id;
if let Some(secret_snapshot) = snap_secret_snapshot {
restore_entry_secrets(&mut tx, live_entry_id, user_id, &secret_snapshot).await?;
}
crate::audit::log_tx(
&mut tx,
@@ -300,3 +309,144 @@ pub async fn run(
restored_version: snap.version,
})
}
async fn restore_entry_secrets(
tx: &mut sqlx::Transaction<'_, sqlx::Postgres>,
entry_id: Uuid,
user_id: Option<Uuid>,
snapshot: &[db::EntrySecretSnapshot],
) -> Result<()> {
#[derive(sqlx::FromRow)]
struct LinkedSecret {
id: Uuid,
name: String,
encrypted: Vec<u8>,
}
let linked: Vec<LinkedSecret> = sqlx::query_as(
"SELECT s.id, s.name, s.encrypted \
FROM entry_secrets es \
JOIN secrets s ON s.id = es.secret_id \
WHERE es.entry_id = $1",
)
.bind(entry_id)
.fetch_all(&mut **tx)
.await?;
let target_names: HashSet<&str> = snapshot.iter().map(|s| s.name.as_str()).collect();
for s in &linked {
if target_names.contains(s.name.as_str()) {
continue;
}
if let Err(e) = db::snapshot_secret_history(
tx,
db::SecretSnapshotParams {
secret_id: s.id,
name: &s.name,
encrypted: &s.encrypted,
action: "rollback",
},
)
.await
{
tracing::warn!(error = %e, "failed to snapshot secret before rollback unlink");
}
sqlx::query("DELETE FROM entry_secrets WHERE entry_id = $1 AND secret_id = $2")
.bind(entry_id)
.bind(s.id)
.execute(&mut **tx)
.await?;
sqlx::query(
"DELETE FROM secrets s \
WHERE s.id = $1 \
AND NOT EXISTS (SELECT 1 FROM entry_secrets es WHERE es.secret_id = s.id)",
)
.bind(s.id)
.execute(&mut **tx)
.await?;
}
for snap in snapshot {
let encrypted = ::hex::decode(&snap.encrypted_hex).map_err(|e| {
anyhow::anyhow!("invalid secret snapshot data for '{}': {}", snap.name, e)
})?;
#[derive(sqlx::FromRow)]
struct ExistingSecret {
id: Uuid,
encrypted: Vec<u8>,
}
let existing: Option<ExistingSecret> = if let Some(uid) = user_id {
sqlx::query_as("SELECT id, encrypted FROM secrets WHERE user_id = $1 AND name = $2")
.bind(uid)
.bind(&snap.name)
.fetch_optional(&mut **tx)
.await?
} else {
sqlx::query_as("SELECT id, encrypted FROM secrets WHERE user_id IS NULL AND name = $1")
.bind(&snap.name)
.fetch_optional(&mut **tx)
.await?
};
let secret_id = if let Some(ex) = existing {
if ex.encrypted != encrypted
&& let Err(e) = db::snapshot_secret_history(
tx,
db::SecretSnapshotParams {
secret_id: ex.id,
name: &snap.name,
encrypted: &ex.encrypted,
action: "rollback",
},
)
.await
{
tracing::warn!(error = %e, "failed to snapshot secret before rollback restore");
}
sqlx::query(
"UPDATE secrets SET type = $1, encrypted = $2, version = version + 1, updated_at = NOW() \
WHERE id = $3",
)
.bind(&snap.secret_type)
.bind(&encrypted)
.bind(ex.id)
.execute(&mut **tx)
.await?;
ex.id
} else if let Some(uid) = user_id {
sqlx::query_scalar(
"INSERT INTO secrets (user_id, name, type, encrypted) VALUES ($1, $2, $3, $4) RETURNING id",
)
.bind(uid)
.bind(&snap.name)
.bind(&snap.secret_type)
.bind(&encrypted)
.fetch_one(&mut **tx)
.await?
} else {
sqlx::query_scalar(
"INSERT INTO secrets (user_id, name, type, encrypted) VALUES (NULL, $1, $2, $3) RETURNING id",
)
.bind(&snap.name)
.bind(&snap.secret_type)
.bind(&encrypted)
.fetch_one(&mut **tx)
.await?
};
sqlx::query(
"INSERT INTO entry_secrets (entry_id, secret_id) VALUES ($1, $2) ON CONFLICT DO NOTHING",
)
.bind(entry_id)
.bind(secret_id)
.execute(&mut **tx)
.await?;
}
Ok(())
}

36
crates/secrets-core/src/service/search.rs
View File

@@ -6,7 +6,7 @@ use uuid::Uuid;
use crate::models::{Entry, SecretField};
pub const FETCH_ALL_LIMIT: u32 = 100_000;
pub const FETCH_ALL_LIMIT: u32 = 10_000;
/// Build an ILIKE pattern for fuzzy matching, escaping `%` and `_` literals.
pub fn ilike_pattern(value: &str) -> String {
@@ -145,7 +145,7 @@ pub async fn run(pool: &PgPool, params: SearchParams<'_>) -> Result<SearchResult
let entries = fetch_entries_paged(pool, &params).await?;
let entry_ids: Vec<Uuid> = entries.iter().map(|e| e.id).collect();
let secret_schemas = if !entry_ids.is_empty() {
fetch_secret_schemas(pool, &entry_ids).await?
fetch_secrets_for_entries(pool, &entry_ids).await?
} else {
HashMap::new()
};
@@ -229,33 +229,6 @@ async fn fetch_entries_paged(pool: &PgPool, a: &SearchParams<'_>) -> Result<Vec<
Ok(rows.into_iter().map(Entry::from).collect())
}
/// Fetch secret field names for a set of entry ids (no decryption).
pub async fn fetch_secret_schemas(
pool: &PgPool,
entry_ids: &[Uuid],
) -> Result<HashMap<Uuid, Vec<SecretField>>> {
if entry_ids.is_empty() {
return Ok(HashMap::new());
}
let fields: Vec<EntrySecretRow> = sqlx::query_as(
"SELECT es.entry_id, s.id, s.user_id, s.name, s.type, s.encrypted, s.version, s.created_at, s.updated_at \
FROM entry_secrets es \
JOIN secrets s ON s.id = es.secret_id \
WHERE es.entry_id = ANY($1) \
ORDER BY es.entry_id, es.sort_order, s.name",
)
.bind(entry_ids)
.fetch_all(pool)
.await?;
let mut map: HashMap<Uuid, Vec<SecretField>> = HashMap::new();
for f in fields {
let entry_id = f.entry_id;
map.entry(entry_id).or_default().push(f.secret());
}
Ok(map)
}
/// Fetch all secret fields (including encrypted bytes) for a set of entry ids.
pub async fn fetch_secrets_for_entries(
pool: &PgPool,
@@ -334,7 +307,10 @@ pub async fn resolve_entry(
anyhow::bail!("Not found: '{}'", name)
}
}
1 => Ok(entries.into_iter().next().unwrap()),
1 => entries
.into_iter()
.next()
.ok_or_else(|| anyhow::anyhow!("internal: resolve_entry result vanished")),
_ => {
let folders: Vec<&str> = entries.iter().map(|e| e.folder.as_str()).collect();
anyhow::bail!(

91
crates/secrets-core/src/service/update.rs
View File

@@ -11,6 +11,7 @@ use crate::service::add::{
collect_field_paths, collect_key_paths, flatten_json_fields, insert_path, parse_key_path,
parse_kv, remove_path,
};
use crate::service::util::user_scope_condition;
#[derive(Debug, serde::Serialize)]
pub struct UpdateResult {
@@ -50,55 +51,43 @@ pub async fn run(
params: UpdateParams<'_>,
master_key: &[u8; 32],
) -> Result<UpdateResult> {
if params.name.chars().count() > 256 {
anyhow::bail!("name must be at most 256 characters");
}
let mut tx = pool.begin().await?;
// Fetch matching rows with FOR UPDATE; use folder when provided to resolve ambiguity.
let rows: Vec<EntryRow> = if let Some(uid) = params.user_id {
if let Some(folder) = params.folder {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id = $1 AND folder = $2 AND name = $3 FOR UPDATE",
)
.bind(uid)
.bind(folder)
.bind(params.name)
.fetch_all(&mut *tx)
.await?
} else {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id = $1 AND name = $2 FOR UPDATE",
)
.bind(uid)
.bind(params.name)
.fetch_all(&mut *tx)
.await?
}
} else if let Some(folder) = params.folder {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id IS NULL AND folder = $1 AND name = $2 FOR UPDATE",
)
.bind(folder)
.bind(params.name)
.fetch_all(&mut *tx)
.await?
} else {
sqlx::query_as(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries \
WHERE user_id IS NULL AND name = $1 FOR UPDATE",
)
.bind(params.name)
.fetch_all(&mut *tx)
.await?
};
let mut idx = 1i32;
let user_cond = user_scope_condition(params.user_id, &mut idx);
let mut conditions = vec![user_cond];
if params.folder.is_some() {
conditions.push(format!("folder = ${}", idx));
idx += 1;
}
conditions.push(format!("name = ${}", idx));
let sql = format!(
"SELECT id, version, folder, type, tags, metadata, notes FROM entries WHERE {} FOR UPDATE",
conditions.join(" AND ")
);
let mut q = sqlx::query_as::<_, EntryRow>(&sql);
if let Some(uid) = params.user_id {
q = q.bind(uid);
}
if let Some(folder) = params.folder {
q = q.bind(folder);
}
q = q.bind(params.name);
let rows = q.fetch_all(&mut *tx).await?;
let row = match rows.len() {
0 => {
tx.rollback().await?;
return Err(AppError::NotFoundEntry.into());
}
1 => rows.into_iter().next().unwrap(),
1 => rows
.into_iter()
.next()
.ok_or_else(|| anyhow::anyhow!("internal: matched row vanished"))?,
_ => {
tx.rollback().await?;
let folders: Vec<&str> = rows.iter().map(|r| r.folder.as_str()).collect();
@@ -112,6 +101,15 @@ pub async fn run(
}
};
let history_metadata =
match db::metadata_with_secret_snapshot(&mut tx, row.id, &row.metadata).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
row.metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
@@ -123,7 +121,7 @@ pub async fn run(
version: row.version,
action: "update",
tags: &row.tags,
metadata: &row.metadata,
metadata: &history_metadata,
},
)
.await
@@ -481,6 +479,15 @@ pub async fn update_fields_by_id(
}
};
let history_metadata =
match db::metadata_with_secret_snapshot(&mut tx, row.id, &row.metadata).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to build secret snapshot for entry history");
row.metadata.clone()
}
};
if let Err(e) = db::snapshot_entry_history(
&mut tx,
db::EntrySnapshotParams {
@@ -492,7 +499,7 @@ pub async fn update_fields_by_id(
version: row.version,
action: "update",
tags: &row.tags,
metadata: &row.metadata,
metadata: &history_metadata,
},
)
.await

53
crates/secrets-core/src/service/user.rs
View File

@@ -31,7 +31,7 @@ pub async fn find_or_create_user(pool: &PgPool, profile: OAuthProfile) -> Result
if let Some(oa) = existing {
let user: User = sqlx::query_as(
"SELECT id, email, name, avatar_url, key_salt, key_check, key_params, api_key, created_at, updated_at \
"SELECT id, email, name, avatar_url, key_salt, key_check, key_params, api_key, key_version, created_at, updated_at \
FROM users WHERE id = $1",
)
.bind(oa.user_id)
@@ -50,7 +50,7 @@ pub async fn find_or_create_user(pool: &PgPool, profile: OAuthProfile) -> Result
let user: User = sqlx::query_as(
"INSERT INTO users (email, name, avatar_url) \
VALUES ($1, $2, $3) \
RETURNING id, email, name, avatar_url, key_salt, key_check, key_params, api_key, created_at, updated_at",
RETURNING id, email, name, avatar_url, key_salt, key_check, key_params, api_key, key_version, created_at, updated_at",
)
.bind(&profile.email)
.bind(&display_name)
@@ -76,6 +76,53 @@ pub async fn find_or_create_user(pool: &PgPool, profile: OAuthProfile) -> Result
Ok((user, true))
}
/// Re-encrypt all of a user's secrets from `old_key` to `new_key` and update the key metadata.
///
/// Runs entirely inside a single database transaction: if any secret fails to re-encrypt
/// the whole operation is rolled back, leaving the database unchanged.
pub async fn change_user_key(
pool: &PgPool,
user_id: Uuid,
old_key: &[u8; 32],
new_key: &[u8; 32],
new_salt: &[u8],
new_key_check: &[u8],
new_key_params: &Value,
) -> Result<()> {
let mut tx = pool.begin().await?;
let secrets: Vec<(uuid::Uuid, Vec<u8>)> =
sqlx::query_as("SELECT id, encrypted FROM secrets WHERE user_id = $1 FOR UPDATE")
.bind(user_id)
.fetch_all(&mut *tx)
.await?;
for (id, encrypted) in &secrets {
let plaintext = crate::crypto::decrypt(old_key, encrypted)?;
let new_encrypted = crate::crypto::encrypt(new_key, &plaintext)?;
sqlx::query("UPDATE secrets SET encrypted = $1, updated_at = NOW() WHERE id = $2")
.bind(&new_encrypted)
.bind(id)
.execute(&mut *tx)
.await?;
}
sqlx::query(
"UPDATE users SET key_salt = $1, key_check = $2, key_params = $3, \
key_version = key_version + 1, updated_at = NOW() \
WHERE id = $4",
)
.bind(new_salt)
.bind(new_key_check)
.bind(new_key_params)
.bind(user_id)
.execute(&mut *tx)
.await?;
tx.commit().await?;
Ok(())
}
/// Store the PBKDF2 salt, key_check, and params for a user's passphrase setup.
pub async fn update_user_key_setup(
pool: &PgPool,
@@ -100,7 +147,7 @@ pub async fn update_user_key_setup(
/// Fetch a user by ID.
pub async fn get_user_by_id(pool: &PgPool, user_id: Uuid) -> Result<Option<User>> {
let user = sqlx::query_as(
"SELECT id, email, name, avatar_url, key_salt, key_check, key_params, api_key, created_at, updated_at \
"SELECT id, email, name, avatar_url, key_salt, key_check, key_params, api_key, key_version, created_at, updated_at \
FROM users WHERE id = $1",
)
.bind(user_id)

27
crates/secrets-core/src/service/util.rs Normal file
View File

@@ -0,0 +1,27 @@
use uuid::Uuid;
/// Returns a WHERE condition fragment for user scope and advances `idx` if `user_id` is Some.
///
/// - `Some(uid)` → `"user_id = $N"` with idx incremented.
/// - `None` → `"user_id IS NULL"` with idx unchanged.
///
/// # Usage
///
/// ```rust,ignore
/// let mut idx = 1i32;
/// let user_cond = user_scope_condition(user_id, &mut idx);
/// // idx is now 2 if user_id is Some, still 1 if None
/// let sql = format!("SELECT ... FROM entries WHERE {user_cond} AND name = ${idx}");
/// let mut q = sqlx::query_as::<_, Row>(&sql);
/// if let Some(uid) = user_id { q = q.bind(uid); }
/// q = q.bind(name);
/// ```
pub fn user_scope_condition(user_id: Option<Uuid>, idx: &mut i32) -> String {
if user_id.is_some() {
let s = format!("user_id = ${}", *idx);
*idx += 1;
s
} else {
"user_id IS NULL".to_string()
}
}

3
crates/secrets-mcp/Cargo.toml
View File

@@ -1,6 +1,6 @@
[package]
name = "secrets-mcp"
version = "0.5.6"
version = "0.5.11"
edition.workspace = true
[[bin]]
@@ -34,7 +34,6 @@ anyhow.workspace = true
chrono.workspace = true
serde.workspace = true
serde_json.workspace = true
sha2.workspace = true
rand.workspace = true
sqlx.workspace = true
tokio.workspace = true

20
crates/secrets-mcp/src/client_ip.rs
View File

@@ -26,6 +26,26 @@ pub fn extract_client_ip(req: &Request) -> String {
connect_info_ip(req).unwrap_or_else(|| "unknown".to_string())
}
/// Extract the client IP from individual header map and socket address components.
///
/// This variant is used by handlers that receive headers and connect info as
/// separate axum extractor parameters (e.g. OAuth callback handlers).
/// The same `TRUST_PROXY` logic applies.
pub fn extract_client_ip_parts(
headers: &axum::http::HeaderMap,
addr: std::net::SocketAddr,
) -> String {
if trust_proxy_enabled() {
if let Some(ip) = forwarded_for_ip(headers) {
return ip;
}
if let Some(ip) = real_ip(headers) {
return ip;
}
}
addr.ip().to_string()
}
fn trust_proxy_enabled() -> bool {
static CACHE: std::sync::OnceLock<bool> = std::sync::OnceLock::new();
*CACHE.get_or_init(|| {

141
crates/secrets-mcp/src/logging.rs
View File

@@ -5,20 +5,24 @@ use axum::{
extract::Request,
http::{
HeaderMap, Method, StatusCode,
header::{CONTENT_LENGTH, CONTENT_TYPE, USER_AGENT},
header::{AUTHORIZATION, CONTENT_LENGTH, CONTENT_TYPE, USER_AGENT},
},
middleware::Next,
response::{IntoResponse, Response},
};
use crate::auth::AuthUser;
/// Axum middleware that logs structured info for every HTTP request.
///
/// All requests: method, path, status, latency_ms, client_ip, user_agent.
/// POST /mcp requests: additionally parses JSON-RPC body for jsonrpc_method,
/// tool_name, jsonrpc_id, mcp_session, batch_size.
/// tool_name, jsonrpc_id, mcp_session, batch_size, tool_args (non-sensitive
/// arguments only), plus masked auth_key / enc_key fingerprints and user_id
/// for diagnosing header forwarding issues.
///
/// Sensitive headers (Authorization, X-Encryption-Key) and secret values
/// are never logged.
/// Sensitive headers (Authorization, X-Encryption-Key) are never logged in
/// full — only short fingerprints are emitted.
pub async fn request_logging_middleware(req: Request, next: Next) -> Response {
let method = req.method().clone();
let path = req.uri().path().to_string();
@@ -32,6 +36,10 @@ pub async fn request_logging_middleware(req: Request, next: Next) -> Response {
.and_then(|v| v.to_str().ok())
.map(|s| s.to_string());
// Capture header fingerprints before consuming the request.
let auth_key = mask_bearer(req.headers());
let enc_key = mask_enc_key(req.headers());
let is_mcp_post = path.starts_with("/mcp") && method == Method::POST;
let is_json = header_str(req.headers(), CONTENT_TYPE)
.map(|ct| ct.contains("application/json"))
@@ -45,6 +53,11 @@ pub async fn request_logging_middleware(req: Request, next: Next) -> Response {
let cap = content_len.unwrap_or(0);
if cap <= 512 * 1024 {
let (parts, body) = req.into_parts();
// user_id is available after auth middleware has run (injected into extensions).
let user_id = parts
.extensions
.get::<AuthUser>()
.map(|a| a.user_id.to_string());
match to_bytes(body, 512 * 1024).await {
Ok(bytes) => {
let rpc = parse_jsonrpc_meta(&bytes);
@@ -61,6 +74,9 @@ pub async fn request_logging_middleware(req: Request, next: Next) -> Response {
ua.as_deref(),
content_len,
mcp_session.as_deref(),
auth_key.as_deref(),
&enc_key,
user_id.as_deref(),
&rpc,
);
return resp;
@@ -77,6 +93,9 @@ pub async fn request_logging_middleware(req: Request, next: Next) -> Response {
ua = ua.as_deref(),
content_length = content_len,
mcp_session = mcp_session.as_deref(),
auth_key = auth_key.as_deref(),
enc_key = enc_key.as_str(),
user_id = user_id.as_deref(),
"mcp request",
);
return (
@@ -159,6 +178,9 @@ fn log_mcp_request(
ua: Option<&str>,
content_length: Option<u64>,
mcp_session: Option<&str>,
auth_key: Option<&str>,
enc_key: &str,
user_id: Option<&str>,
rpc: &JsonRpcMeta,
) {
tracing::info!(
@@ -174,18 +196,94 @@ fn log_mcp_request(
tool = rpc.tool_name.as_deref(),
jsonrpc_id = rpc.request_id.as_deref(),
batch_size = rpc.batch_size,
tool_args = rpc.tool_args.as_deref(),
auth_key,
enc_key,
user_id,
"mcp request",
);
}
// ── Sensitive header masking ──────────────────────────────────────────────────
/// Mask a Bearer token: emit only the first 12 characters followed by `…`.
/// Returns `None` if the Authorization header is absent or not a Bearer token.
/// Example: `sk_90c88844e4e5…`
fn mask_bearer(headers: &HeaderMap) -> Option<String> {
let val = headers.get(AUTHORIZATION)?.to_str().ok()?;
let token = val.strip_prefix("Bearer ")?.trim();
if token.is_empty() {
return None;
}
if token.len() > 12 {
Some(format!("{}", &token[..12]))
} else {
Some(token.to_string())
}
}
/// Fingerprint the X-Encryption-Key header.
///
/// Emits first 4 chars, last 4 chars, and raw byte length, e.g. `146b…5516(64)`.
/// Returns `"absent"` when the header is missing. Reveals enough to confirm
/// which key arrived and whether it was truncated or padded, without revealing
/// the full value.
fn mask_enc_key(headers: &HeaderMap) -> String {
match headers
.get("x-encryption-key")
.and_then(|v| v.to_str().ok())
{
Some(val) => {
let raw_len = val.len();
let t = val.trim();
let len = t.len();
if len >= 8 {
let prefix = &t[..4];
let suffix = &t[len - 4..];
if raw_len != len {
// Trailing/leading whitespace detected — extra diagnostic.
format!("{prefix}{suffix}({len}, raw={raw_len})")
} else {
format!("{prefix}{suffix}({len})")
}
} else {
format!("…({len})")
}
}
None => "absent".to_string(),
}
}
// ── JSON-RPC body parsing ─────────────────────────────────────────────────────
/// Safe (non-sensitive) argument keys that may be included verbatim in logs.
/// Keys NOT in this list (e.g. `secrets`, `secrets_obj`, `meta_obj`,
/// `encryption_key`) are silently dropped.
const SAFE_ARG_KEYS: &[&str] = &[
"id",
"name",
"name_query",
"folder",
"type",
"entry_type",
"field",
"query",
"tags",
"limit",
"offset",
"format",
"dry_run",
"prefix",
];
#[derive(Debug, Default)]
struct JsonRpcMeta {
request_id: Option<String>,
rpc_method: Option<String>,
tool_name: Option<String>,
batch_size: Option<usize>,
/// Non-sensitive tool call arguments for diagnostic logging.
tool_args: Option<String>,
}
fn parse_jsonrpc_meta(bytes: &Bytes) -> JsonRpcMeta {
@@ -215,12 +313,47 @@ fn parse_single(value: &serde_json::Value) -> JsonRpcMeta {
.pointer("/params/name")
.and_then(|v| v.as_str())
.map(|s| s.to_string());
let tool_args = extract_tool_args(value);
JsonRpcMeta {
request_id,
rpc_method,
tool_name,
batch_size: None,
tool_args,
}
}
/// Extract a compact summary of non-sensitive tool arguments for logging.
/// Only keys listed in `SAFE_ARG_KEYS` are included.
fn extract_tool_args(value: &serde_json::Value) -> Option<String> {
let args = value.pointer("/params/arguments")?;
let obj = args.as_object()?;
let pairs: Vec<String> = obj
.iter()
.filter(|(k, v)| SAFE_ARG_KEYS.contains(&k.as_str()) && !v.is_null())
.map(|(k, v)| format!("{}={}", k, summarize_value(v)))
.collect();
if pairs.is_empty() {
None
} else {
Some(pairs.join(" "))
}
}
/// Produce a short, log-safe representation of a JSON value.
fn summarize_value(v: &serde_json::Value) -> String {
match v {
serde_json::Value::String(s) => {
if s.len() > 64 {
format!("\"{}\"", &s[..64])
} else {
format!("\"{s}\"")
}
}
serde_json::Value::Array(arr) => format!("[…{}]", arr.len()),
serde_json::Value::Object(_) => "{…}".to_string(),
other => other.to_string(),
}
}

5
crates/secrets-mcp/src/main.rs
View File

@@ -9,7 +9,6 @@ mod validation;
mod web;
use std::net::SocketAddr;
use std::sync::Arc;
use anyhow::{Context, Result};
use axum::Router;
@@ -144,11 +143,11 @@ async fn main() -> Result<()> {
};
// ── MCP service ───────────────────────────────────────────────────────────
let pool_arc = Arc::new(pool.clone());
let pool_for_mcp = pool.clone();
let mcp_service = StreamableHttpService::new(
move || {
let p = pool_arc.clone();
let p = pool_for_mcp.clone();
Ok(SecretsService::new(p))
},
LocalSessionManager::default().into(),

2
crates/secrets-mcp/src/oauth/mod.rs
View File

@@ -41,5 +41,5 @@ pub fn random_state() -> String {
use rand::RngExt;
let mut bytes = [0u8; 16];
rand::rng().fill(&mut bytes);
bytes.iter().map(|b| format!("{:02x}", b)).collect()
secrets_core::crypto::hex::encode_hex(&bytes)
}

2
crates/secrets-mcp/src/oauth/wechat.rs
View File

@@ -8,7 +8,7 @@ use super::{OAuthConfig, OAuthUserInfo};
/// - Docs: https://developers.weixin.qq.com/doc/oplatform/Website_App/WeChat_Login/Wechat_Login.html
use anyhow::{Result, bail};
#[allow(dead_code)]
#[allow(dead_code)] // Placeholder — implement when WeChat login is needed.
pub async fn exchange_code(
_client: &reqwest::Client,
_config: &OAuthConfig,

120
crates/secrets-mcp/src/tools.rs
View File

@@ -1,4 +1,3 @@
use std::sync::Arc;
use std::time::Instant;
use anyhow::Result;
@@ -218,12 +217,12 @@ fn mcp_err_invalid_encryption_key_logged(err: impl std::fmt::Display) -> rmcp::E
#[derive(Clone)]
pub struct SecretsService {
pub pool: Arc<PgPool>,
pub pool: PgPool,
pub tool_router: rmcp::handler::server::router::tool::ToolRouter<SecretsService>,
}
impl SecretsService {
pub fn new(pool: Arc<PgPool>) -> Self {
pub fn new(pool: PgPool) -> Self {
Self {
pool,
tool_router: Self::tool_router(),
@@ -265,6 +264,18 @@ impl SecretsService {
rmcp::ErrorData::invalid_request("Invalid X-Encryption-Key header value", None)
})?;
let trimmed = hex_str.trim();
// Debug-level fingerprint: helps diagnose header forwarding issues
// (e.g. Cursor Chat MCP truncating or transforming the key value)
// without revealing the full secret.
tracing::debug!(
raw_len = hex_str.len(),
trimmed_len = trimmed.len(),
key_prefix = trimmed.get(..8).unwrap_or(trimmed),
key_suffix = trimmed
.get(trimmed.len().saturating_sub(8)..)
.unwrap_or(trimmed),
"X-Encryption-Key received",
);
if trimmed.len() != 64 {
tracing::warn!(
got_len = trimmed.len(),
@@ -289,7 +300,51 @@ impl SecretsService {
.map_err(mcp_err_invalid_encryption_key_logged)
}
/// Require both user_id and encryption key.
/// Extract the encryption key, preferring an explicit argument value over
/// the X-Encryption-Key HTTP header.
///
/// `arg_key` is the optional `encryption_key` field from the tool's input
/// struct. When present, it is used directly and the header is ignored.
/// This allows MCP clients that cannot reliably forward custom HTTP headers
/// (e.g. Cursor Chat) to pass the key as a normal tool argument.
fn extract_enc_key_or_arg(
ctx: &RequestContext<RoleServer>,
arg_key: Option<&str>,
) -> Result<[u8; 32], rmcp::ErrorData> {
if let Some(hex_str) = arg_key {
let trimmed = hex_str.trim();
tracing::debug!(
source = "argument",
raw_len = hex_str.len(),
trimmed_len = trimmed.len(),
key_prefix = trimmed.get(..8).unwrap_or(trimmed),
key_suffix = trimmed
.get(trimmed.len().saturating_sub(8)..)
.unwrap_or(trimmed),
"X-Encryption-Key received",
);
if trimmed.len() != 64 {
return Err(rmcp::ErrorData::invalid_request(
format!(
"encryption_key must be exactly 64 hex characters (32-byte key), got {}.",
trimmed.len()
),
None,
));
}
if !trimmed.chars().all(|c| c.is_ascii_hexdigit()) {
return Err(rmcp::ErrorData::invalid_request(
"encryption_key contains non-hexadecimal characters.",
None,
));
}
return secrets_core::crypto::extract_key_from_hex(trimmed)
.map_err(mcp_err_invalid_encryption_key_logged);
}
Self::extract_enc_key(ctx)
}
/// Require both user_id and encryption key (header only, no arg fallback).
fn require_user_and_key(
ctx: &RequestContext<RoleServer>,
) -> Result<(Uuid, [u8; 32]), rmcp::ErrorData> {
@@ -297,6 +352,17 @@ impl SecretsService {
let key = Self::extract_enc_key(ctx)?;
Ok((user_id, key))
}
/// Require both user_id and encryption key, preferring an explicit argument
/// value over the X-Encryption-Key header.
fn require_user_and_key_or_arg(
ctx: &RequestContext<RoleServer>,
arg_key: Option<&str>,
) -> Result<(Uuid, [u8; 32]), rmcp::ErrorData> {
let user_id = Self::require_user_id(ctx)?;
let key = Self::extract_enc_key_or_arg(ctx, arg_key)?;
Ok((user_id, key))
}
}
// ── Tool parameter types ──────────────────────────────────────────────────────
@@ -370,6 +436,10 @@ struct GetSecretInput {
id: String,
#[schemars(description = "Specific field to retrieve. If omitted, returns all fields.")]
field: Option<String>,
#[schemars(description = "Encryption key as a 64-char hex string. \
If provided, takes priority over the X-Encryption-Key HTTP header. \
Use this when the MCP client cannot reliably forward custom headers.")]
encryption_key: Option<String>,
}
#[derive(Debug, Deserialize, JsonSchema)]
@@ -416,6 +486,10 @@ struct AddInput {
)]
#[serde(default, deserialize_with = "deser::option_vec_string_from_string")]
link_secret_names: Option<Vec<String>>,
#[schemars(description = "Encryption key as a 64-char hex string. \
If provided, takes priority over the X-Encryption-Key HTTP header. \
Use this when the MCP client cannot reliably forward custom headers.")]
encryption_key: Option<String>,
}
#[derive(Debug, Deserialize, JsonSchema)]
@@ -477,6 +551,10 @@ struct UpdateInput {
)]
#[serde(default, deserialize_with = "deser::option_vec_string_from_string")]
unlink_secret_names: Option<Vec<String>>,
#[schemars(description = "Encryption key as a 64-char hex string. \
If provided, takes priority over the X-Encryption-Key HTTP header. \
Use this when the MCP client cannot reliably forward custom headers.")]
encryption_key: Option<String>,
}
#[derive(Debug, Deserialize, JsonSchema)]
@@ -549,6 +627,10 @@ struct ExportInput {
query: Option<String>,
#[schemars(description = "Export format: 'json' (default), 'toml', 'yaml'")]
format: Option<String>,
#[schemars(description = "Encryption key as a 64-char hex string. \
If provided, takes priority over the X-Encryption-Key HTTP header. \
Use this when the MCP client cannot reliably forward custom headers.")]
encryption_key: Option<String>,
}
#[derive(Debug, Deserialize, JsonSchema)]
@@ -572,6 +654,10 @@ struct EnvMapInput {
Example: entry 'aliyun', field 'access_key_id' → ALIYUN_ACCESS_KEY_ID \
(or PREFIX_ALIYUN_ACCESS_KEY_ID with prefix set).")]
prefix: Option<String>,
#[schemars(description = "Encryption key as a 64-char hex string. \
If provided, takes priority over the X-Encryption-Key HTTP header. \
Use this when the MCP client cannot reliably forward custom headers.")]
encryption_key: Option<String>,
}
#[derive(Debug, Deserialize, JsonSchema)]
@@ -876,7 +962,8 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, user_key) =
Self::require_user_and_key_or_arg(&ctx, input.encryption_key.as_deref())?;
let entry_id = parse_uuid(&input.id)?;
tracing::info!(
tool = "secrets_get",
@@ -930,7 +1017,8 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, user_key) =
Self::require_user_and_key_or_arg(&ctx, input.encryption_key.as_deref())?;
tracing::info!(
tool = "secrets_add",
?user_id,
@@ -1024,7 +1112,8 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, user_key) =
Self::require_user_and_key_or_arg(&ctx, input.encryption_key.as_deref())?;
tracing::info!(
tool = "secrets_update",
?user_id,
@@ -1261,7 +1350,7 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, _user_key) = Self::require_user_and_key(&ctx)?;
tracing::info!(
tool = "secrets_rollback",
?user_id,
@@ -1287,7 +1376,6 @@ impl SecretsService {
&resolved_name,
resolved_folder.as_deref(),
input.to_version,
&user_key,
Some(user_id),
)
.await
@@ -1318,7 +1406,8 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, user_key) =
Self::require_user_and_key_or_arg(&ctx, input.encryption_key.as_deref())?;
let tags = input.tags.unwrap_or_default();
let format = input.format.as_deref().unwrap_or("json");
tracing::info!(
@@ -1387,7 +1476,8 @@ impl SecretsService {
ctx: RequestContext<RoleServer>,
) -> Result<CallToolResult, rmcp::ErrorData> {
let t = Instant::now();
let (user_id, user_key) = Self::require_user_and_key(&ctx)?;
let (user_id, user_key) =
Self::require_user_and_key_or_arg(&ctx, input.encryption_key.as_deref())?;
let tags = input.tags.unwrap_or_default();
let only_fields = input.only_fields.unwrap_or_default();
tracing::info!(
@@ -1449,21 +1539,21 @@ impl SecretsService {
count: i64,
}
let folder_rows: Vec<CountRow> = sqlx::query_as(
let folder_rows: Vec<CountRow> = sqlx::query_as::<_, CountRow>(
"SELECT folder AS name, COUNT(*) AS count FROM entries \
WHERE user_id = $1 GROUP BY folder ORDER BY folder",
)
.bind(user_id)
.fetch_all(&*self.pool)
.fetch_all(&self.pool)
.await
.map_err(|e| mcp_err_internal_logged("secrets_overview", Some(user_id), e))?;
let type_rows: Vec<CountRow> = sqlx::query_as(
let type_rows: Vec<CountRow> = sqlx::query_as::<_, CountRow>(
"SELECT type AS name, COUNT(*) AS count FROM entries \
WHERE user_id = $1 GROUP BY type ORDER BY type",
)
.bind(user_id)
.fetch_all(&*self.pool)
.fetch_all(&self.pool)
.await
.map_err(|e| mcp_err_internal_logged("secrets_overview", Some(user_id), e))?;

1800
crates/secrets-mcp/src/web.rs
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307
crates/secrets-mcp/src/web/account.rs Normal file
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@@ -0,0 +1,307 @@
use askama::Template;
use axum::{Json, extract::State, http::StatusCode, response::Response};
use serde::{Deserialize, Serialize};
use tower_sessions::Session;
use secrets_core::crypto::hex;
use secrets_core::service::{
api_key::{ensure_api_key, regenerate_api_key},
user::{change_user_key, get_user_by_id, update_user_key_setup},
};
use crate::AppState;
use super::{SESSION_KEY_VERSION, current_user_id, render_template, require_valid_user};
#[derive(Template)]
#[template(path = "dashboard.html")]
struct DashboardTemplate {
user_name: String,
user_email: String,
has_passphrase: bool,
base_url: String,
version: &'static str,
}
#[derive(Serialize)]
pub(super) struct KeySaltResponse {
has_passphrase: bool,
#[serde(skip_serializing_if = "Option::is_none")]
salt: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
key_check: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
params: Option<serde_json::Value>,
}
#[derive(Deserialize)]
pub(super) struct KeySetupRequest {
/// Hex-encoded 32-byte random salt
salt: String,
/// Hex-encoded AES-256-GCM encryption of "secrets-mcp-key-check" with the derived key
key_check: String,
/// Key derivation parameters, e.g. {"alg":"pbkdf2-sha256","iterations":600000}
params: serde_json::Value,
}
#[derive(Serialize)]
pub(super) struct KeySetupResponse {
ok: bool,
}
#[derive(Deserialize)]
pub(super) struct KeyChangeRequest {
/// Old derived key as 64-char hex — used to decrypt existing secrets
old_key: String,
/// New derived key as 64-char hex — used to re-encrypt secrets
new_key: String,
/// New 32-byte hex salt
salt: String,
/// New key_check: AES-256-GCM of KEY_CHECK_PLAINTEXT with the new key (hex)
key_check: String,
/// New key derivation parameters
params: serde_json::Value,
}
#[derive(Serialize)]
pub(super) struct ApiKeyResponse {
api_key: String,
}
pub(super) async fn dashboard(
State(state): State<AppState>,
session: Session,
) -> Result<Response, StatusCode> {
let user = match require_valid_user(&state.pool, &session, "dashboard").await {
Ok(u) => u,
Err(r) => return Ok(r),
};
let tmpl = DashboardTemplate {
user_name: user.name.clone(),
user_email: user.email.clone().unwrap_or_default(),
has_passphrase: user.key_salt.is_some(),
base_url: state.base_url.clone(),
version: env!("CARGO_PKG_VERSION"),
};
render_template(tmpl)
}
pub(super) async fn api_key_salt(
State(state): State<AppState>,
session: Session,
) -> Result<Json<KeySaltResponse>, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
let user = get_user_by_id(&state.pool, user_id)
.await
.map_err(|e| {
tracing::error!(error = %e, %user_id, "failed to load user for key-salt API");
StatusCode::INTERNAL_SERVER_ERROR
})?
.ok_or(StatusCode::UNAUTHORIZED)?;
if user.key_salt.is_none() {
return Ok(Json(KeySaltResponse {
has_passphrase: false,
salt: None,
key_check: None,
params: None,
}));
}
Ok(Json(KeySaltResponse {
has_passphrase: true,
salt: user.key_salt.as_deref().map(hex::encode_hex),
key_check: user.key_check.as_deref().map(hex::encode_hex),
params: user.key_params,
}))
}
pub(super) async fn api_key_setup(
State(state): State<AppState>,
session: Session,
Json(body): Json<KeySetupRequest>,
) -> Result<Json<KeySetupResponse>, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
// Guard: if a passphrase is already configured, reject and direct to /api/key-change
let user = get_user_by_id(&state.pool, user_id)
.await
.map_err(|e| {
tracing::error!(error = %e, %user_id, "failed to load user for key-setup guard");
StatusCode::INTERNAL_SERVER_ERROR
})?
.ok_or(StatusCode::UNAUTHORIZED)?;
if user.key_salt.is_some() {
tracing::warn!(%user_id, "key-setup called but passphrase already configured; use /api/key-change");
return Err(StatusCode::CONFLICT);
}
let salt = hex::decode_hex(&body.salt).map_err(|e| {
tracing::warn!(error = %e, "invalid hex in key-setup salt");
StatusCode::BAD_REQUEST
})?;
let key_check = hex::decode_hex(&body.key_check).map_err(|e| {
tracing::warn!(error = %e, "invalid hex in key-setup key_check");
StatusCode::BAD_REQUEST
})?;
if salt.len() != 32 {
tracing::warn!(salt_len = salt.len(), "key-setup salt must be 32 bytes");
return Err(StatusCode::BAD_REQUEST);
}
update_user_key_setup(&state.pool, user_id, &salt, &key_check, &body.params)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to update key setup");
StatusCode::INTERNAL_SERVER_ERROR
})?;
Ok(Json(KeySetupResponse { ok: true }))
}
// ── Change passphrase (re-encrypts all secrets) ───────────────────────────────
pub(super) async fn api_key_change(
State(state): State<AppState>,
session: Session,
Json(body): Json<KeyChangeRequest>,
) -> Result<Json<KeySetupResponse>, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
let user = get_user_by_id(&state.pool, user_id)
.await
.map_err(|e| {
tracing::error!(error = %e, %user_id, "failed to load user for key-change");
StatusCode::INTERNAL_SERVER_ERROR
})?
.ok_or(StatusCode::UNAUTHORIZED)?;
// Must have an existing passphrase to change
let existing_key_check = user.key_check.ok_or_else(|| {
tracing::warn!(%user_id, "key-change called but no passphrase configured; use /api/key-setup");
StatusCode::BAD_REQUEST
})?;
// Validate and decode old key
let old_key_bytes = secrets_core::crypto::extract_key_from_hex(&body.old_key).map_err(|e| {
tracing::warn!(error = %e, "invalid old_key hex in key-change");
StatusCode::BAD_REQUEST
})?;
// Verify old_key against the stored key_check
let plaintext = secrets_core::crypto::decrypt(&old_key_bytes, &existing_key_check).map_err(|_| {
tracing::warn!(%user_id, "key-change rejected: old_key does not match stored key_check");
StatusCode::UNAUTHORIZED
})?;
if plaintext != b"secrets-mcp-key-check" {
tracing::warn!(%user_id, "key-change rejected: decrypted key_check content mismatch");
return Err(StatusCode::UNAUTHORIZED);
}
// Validate and decode new key
let new_key_bytes = secrets_core::crypto::extract_key_from_hex(&body.new_key).map_err(|e| {
tracing::warn!(error = %e, "invalid new_key hex in key-change");
StatusCode::BAD_REQUEST
})?;
// Decode new salt and key_check
let new_salt = hex::decode_hex(&body.salt).map_err(|e| {
tracing::warn!(error = %e, "invalid hex in key-change salt");
StatusCode::BAD_REQUEST
})?;
if new_salt.len() != 32 {
tracing::warn!(
salt_len = new_salt.len(),
"key-change salt must be 32 bytes"
);
return Err(StatusCode::BAD_REQUEST);
}
let new_key_check = hex::decode_hex(&body.key_check).map_err(|e| {
tracing::warn!(error = %e, "invalid hex in key-change key_check");
StatusCode::BAD_REQUEST
})?;
change_user_key(
&state.pool,
user_id,
&old_key_bytes,
&new_key_bytes,
&new_salt,
&new_key_check,
&body.params,
)
.await
.map_err(|e| {
tracing::error!(error = %e, %user_id, "failed to change user key");
StatusCode::INTERNAL_SERVER_ERROR
})?;
// Refresh the session's key_version so the current session is not immediately
// invalidated by require_valid_user on the next page load.
match get_user_by_id(&state.pool, user_id).await {
Ok(Some(updated_user)) => {
if let Err(e) = session
.insert(SESSION_KEY_VERSION, updated_user.key_version)
.await
{
tracing::warn!(error = %e, %user_id, "failed to update key_version in session after key change");
}
}
Ok(None) => {
tracing::warn!(%user_id, "user not found after key change; session not updated");
}
Err(e) => {
tracing::warn!(error = %e, %user_id, "failed to reload user after key change; session not updated");
}
}
tracing::info!(%user_id, secrets_count = "(see service log)", "passphrase changed and secrets re-encrypted");
Ok(Json(KeySetupResponse { ok: true }))
}
// ── API Key management ────────────────────────────────────────────────────────
pub(super) async fn api_apikey_get(
State(state): State<AppState>,
session: Session,
) -> Result<Json<ApiKeyResponse>, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
let api_key = ensure_api_key(&state.pool, user_id).await.map_err(|e| {
tracing::error!(error = %e, %user_id, "ensure_api_key failed");
StatusCode::INTERNAL_SERVER_ERROR
})?;
Ok(Json(ApiKeyResponse { api_key }))
}
pub(super) async fn api_apikey_regenerate(
State(state): State<AppState>,
session: Session,
) -> Result<Json<ApiKeyResponse>, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
let api_key = regenerate_api_key(&state.pool, user_id)
.await
.map_err(|e| {
tracing::error!(error = %e, %user_id, "regenerate_api_key failed");
StatusCode::INTERNAL_SERVER_ERROR
})?;
Ok(Json(ApiKeyResponse { api_key }))
}

73
crates/secrets-mcp/src/web/assets.rs Normal file
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use axum::{
body::Body,
extract::State,
http::{StatusCode, header},
response::{IntoResponse, Response},
};
use crate::AppState;
pub(super) fn text_asset_response(content: &'static str, content_type: &'static str) -> Response {
Response::builder()
.status(StatusCode::OK)
.header(header::CONTENT_TYPE, content_type)
.header(header::CACHE_CONTROL, "public, max-age=86400")
.body(Body::from(content))
.expect("text asset response")
}
pub(super) async fn robots_txt() -> Response {
text_asset_response(
include_str!("../../static/robots.txt"),
"text/plain; charset=utf-8",
)
}
pub(super) async fn llms_txt() -> Response {
text_asset_response(
include_str!("../../static/llms.txt"),
"text/markdown; charset=utf-8",
)
}
pub(super) async fn ai_txt() -> Response {
llms_txt().await
}
pub(super) async fn i18n_js() -> Response {
text_asset_response(
include_str!("../../templates/i18n.js"),
"application/javascript; charset=utf-8",
)
}
pub(super) async fn favicon_svg() -> Response {
Response::builder()
.status(StatusCode::OK)
.header(header::CONTENT_TYPE, "image/svg+xml")
.header(header::CACHE_CONTROL, "public, max-age=86400")
.body(Body::from(include_str!("../../static/favicon.svg")))
.expect("favicon response")
}
/// RFC 9728 — OAuth 2.0 Protected Resource Metadata.
///
/// Advertises that this server accepts Bearer tokens in the `Authorization`
/// header. We deliberately omit `authorization_servers` because this service
/// issues its own API keys (no external OAuth AS is involved). MCP clients
/// that probe this endpoint will see the resource identifier and stop looking
/// for a delegated OAuth flow.
pub(super) async fn oauth_protected_resource_metadata(
State(state): State<AppState>,
) -> impl IntoResponse {
let body = serde_json::json!({
"resource": state.base_url,
"bearer_methods_supported": ["header"],
"resource_documentation": format!("{}/dashboard", state.base_url),
});
(
StatusCode::OK,
[(header::CONTENT_TYPE, "application/json")],
axum::Json(body),
)
}

104
crates/secrets-mcp/src/web/audit.rs Normal file
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use askama::Template;
use axum::{
extract::{Query, State},
http::StatusCode,
response::Response,
};
use chrono::SecondsFormat;
use serde::Deserialize;
use tower_sessions::Session;
use crate::AppState;
use super::{AUDIT_PAGE_LIMIT, paginate, render_template, require_valid_user};
#[derive(Template)]
#[template(path = "audit.html")]
struct AuditPageTemplate {
user_name: String,
user_email: String,
entries: Vec<AuditEntryView>,
current_page: u32,
total_pages: u32,
total_count: i64,
version: &'static str,
}
struct AuditEntryView {
/// RFC3339 UTC for `<time datetime>`; rendered as browser-local in audit.html.
created_at_iso: String,
action: String,
target: String,
detail: String,
}
#[derive(Deserialize)]
pub(super) struct AuditQuery {
page: Option<u32>,
}
fn format_audit_target(folder: &str, entry_type: &str, name: &str) -> String {
// Auth events (folder="auth") use entry_type/name as provider-scoped target.
if folder == "auth" {
format!("{}/{}", entry_type, name)
} else if !folder.is_empty() && !entry_type.is_empty() {
format!("[{}/{}] {}", folder, entry_type, name)
} else if !folder.is_empty() {
format!("[{}] {}", folder, name)
} else {
name.to_string()
}
}
pub(super) async fn audit_page(
State(state): State<AppState>,
session: Session,
Query(aq): Query<AuditQuery>,
) -> Result<Response, StatusCode> {
use secrets_core::service::audit_log::{count_for_user, list_for_user};
let user = match require_valid_user(&state.pool, &session, "audit_page").await {
Ok(u) => u,
Err(r) => return Ok(r),
};
let user_id = user.id;
let page = aq.page.unwrap_or(1).max(1);
let total_count = count_for_user(&state.pool, user_id).await.map_err(|e| {
tracing::error!(error = %e, "failed to count audit log for user");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let (current_page, total_pages, offset) = paginate(page, total_count, AUDIT_PAGE_LIMIT as u32);
let actual_offset = i64::from(offset);
let rows = list_for_user(&state.pool, user_id, AUDIT_PAGE_LIMIT, actual_offset)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to load audit log for user");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let entries = rows
.into_iter()
.map(|row| AuditEntryView {
created_at_iso: row.created_at.to_rfc3339_opts(SecondsFormat::Secs, true),
action: row.action,
target: format_audit_target(&row.folder, &row.entry_type, &row.name),
detail: serde_json::to_string_pretty(&row.detail).unwrap_or_else(|_| "{}".to_string()),
})
.collect();
let tmpl = AuditPageTemplate {
user_name: user.name.clone(),
user_email: user.email.clone().unwrap_or_default(),
entries,
current_page,
total_pages,
total_count,
version: env!("CARGO_PKG_VERSION"),
};
render_template(tmpl)
}

360
crates/secrets-mcp/src/web/auth.rs Normal file
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use std::net::SocketAddr;
use askama::Template;
use axum::{
extract::{ConnectInfo, Path, Query, State},
http::{HeaderMap, StatusCode},
response::{IntoResponse, Redirect, Response},
};
use serde::Deserialize;
use tower_sessions::Session;
use secrets_core::audit::log_login;
use secrets_core::service::user::{
OAuthProfile, bind_oauth_account, find_or_create_user, unbind_oauth_account,
};
use crate::AppState;
use crate::oauth::{OAuthConfig, OAuthUserInfo, google_auth_url, random_state};
use super::{
SESSION_KEY_VERSION, SESSION_LOGIN_PROVIDER, SESSION_OAUTH_BIND_MODE, SESSION_OAUTH_STATE,
SESSION_USER_ID, current_user_id, google_cfg, render_template, request_user_agent,
};
#[derive(Template)]
#[template(path = "login.html")]
struct LoginTemplate {
has_google: bool,
base_url: String,
version: &'static str,
}
#[derive(Template)]
#[template(path = "home.html")]
struct HomeTemplate {
is_logged_in: bool,
base_url: String,
version: &'static str,
}
// ── Home page (public) ───────────────────────────────────────────────────────
pub(super) async fn home_page(
State(state): State<AppState>,
session: Session,
) -> Result<Response, StatusCode> {
let is_logged_in = current_user_id(&session).await.is_some();
let tmpl = HomeTemplate {
is_logged_in,
base_url: state.base_url.clone(),
version: env!("CARGO_PKG_VERSION"),
};
render_template(tmpl)
}
// ── Login page ────────────────────────────────────────────────────────────────
pub(super) async fn login_page(
State(state): State<AppState>,
session: Session,
) -> Result<Response, StatusCode> {
if let Some(_uid) = current_user_id(&session).await {
return Ok(Redirect::to("/dashboard").into_response());
}
let tmpl = LoginTemplate {
has_google: state.google_config.is_some(),
base_url: state.base_url.clone(),
version: env!("CARGO_PKG_VERSION"),
};
render_template(tmpl)
}
// ── Google OAuth ──────────────────────────────────────────────────────────────
pub(super) async fn auth_google(
State(state): State<AppState>,
session: Session,
) -> Result<Response, StatusCode> {
let config = google_cfg(&state).ok_or(StatusCode::SERVICE_UNAVAILABLE)?;
let oauth_state = random_state();
session
.insert(SESSION_OAUTH_STATE, &oauth_state)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to insert oauth_state into session");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let url = google_auth_url(config, &oauth_state);
Ok(Redirect::to(&url).into_response())
}
#[derive(Deserialize)]
pub(super) struct OAuthCallbackQuery {
code: Option<String>,
state: Option<String>,
error: Option<String>,
}
pub(super) async fn auth_google_callback(
State(state): State<AppState>,
connect_info: ConnectInfo<SocketAddr>,
headers: HeaderMap,
session: Session,
Query(params): Query<OAuthCallbackQuery>,
) -> Result<Response, StatusCode> {
let client_ip = Some(crate::client_ip::extract_client_ip_parts(
&headers,
connect_info.0,
));
let user_agent = request_user_agent(&headers);
handle_oauth_callback(
&state,
&session,
params,
"google",
client_ip.as_deref(),
user_agent.as_deref(),
|s, cfg, code| {
Box::pin(crate::oauth::google::exchange_code(
&s.http_client,
cfg,
code,
))
},
)
.await
}
// ── Shared OAuth callback handler ─────────────────────────────────────────────
async fn handle_oauth_callback<F>(
state: &AppState,
session: &Session,
params: OAuthCallbackQuery,
provider: &str,
client_ip: Option<&str>,
user_agent: Option<&str>,
exchange_fn: F,
) -> Result<Response, StatusCode>
where
F: for<'a> Fn(
&'a AppState,
&'a OAuthConfig,
&'a str,
) -> std::pin::Pin<
Box<dyn std::future::Future<Output = anyhow::Result<OAuthUserInfo>> + Send + 'a>,
>,
{
if let Some(err) = params.error {
tracing::warn!(provider, error = %err, "OAuth error");
return Ok(Redirect::to("/login?error=oauth_error").into_response());
}
let Some(code) = params.code else {
tracing::warn!(provider, "OAuth callback missing code");
return Ok(Redirect::to("/login?error=oauth_missing_code").into_response());
};
let Some(returned_state) = params.state.as_deref() else {
tracing::warn!(provider, "OAuth callback missing state");
return Ok(Redirect::to("/login?error=oauth_missing_state").into_response());
};
let expected_state: Option<String> = session.get(SESSION_OAUTH_STATE).await.map_err(|e| {
tracing::error!(provider, error = %e, "failed to read oauth_state from session");
StatusCode::INTERNAL_SERVER_ERROR
})?;
if expected_state.as_deref() != Some(returned_state) {
tracing::warn!(
provider,
expected_present = expected_state.is_some(),
"OAuth state mismatch (empty session often means SameSite=Strict or server restart)"
);
return Ok(Redirect::to("/login?error=oauth_state").into_response());
}
if let Err(e) = session.remove::<String>(SESSION_OAUTH_STATE).await {
tracing::warn!(provider, error = %e, "failed to remove oauth_state from session");
}
let config = match provider {
"google" => state
.google_config
.as_ref()
.ok_or(StatusCode::SERVICE_UNAVAILABLE)?,
_ => return Err(StatusCode::BAD_REQUEST),
};
let user_info = exchange_fn(state, config, code.as_str())
.await
.map_err(|e| {
tracing::error!(provider, error = %e, "failed to exchange OAuth code");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let bind_mode: bool = match session.get::<bool>(SESSION_OAUTH_BIND_MODE).await {
Ok(v) => v.unwrap_or(false),
Err(e) => {
tracing::error!(
provider,
error = %e,
"failed to read oauth_bind_mode from session"
);
return Err(StatusCode::INTERNAL_SERVER_ERROR);
}
};
if bind_mode {
let user_id = current_user_id(session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
if let Err(e) = session.remove::<bool>(SESSION_OAUTH_BIND_MODE).await {
tracing::warn!(provider, error = %e, "failed to remove oauth_bind_mode from session after bind");
}
let profile = OAuthProfile {
provider: user_info.provider,
provider_id: user_info.provider_id,
email: user_info.email,
name: user_info.name,
avatar_url: user_info.avatar_url,
};
bind_oauth_account(&state.pool, user_id, profile)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to bind OAuth account");
StatusCode::INTERNAL_SERVER_ERROR
})?;
return Ok(Redirect::to("/dashboard?bound=1").into_response());
}
let profile = OAuthProfile {
provider: user_info.provider,
provider_id: user_info.provider_id,
email: user_info.email,
name: user_info.name,
avatar_url: user_info.avatar_url,
};
let (user, _is_new) = find_or_create_user(&state.pool, profile)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to find or create user");
StatusCode::INTERNAL_SERVER_ERROR
})?;
session
.insert(SESSION_USER_ID, user.id.to_string())
.await
.map_err(|e| {
tracing::error!(
error = %e,
user_id = %user.id,
"failed to insert user_id into session after OAuth"
);
StatusCode::INTERNAL_SERVER_ERROR
})?;
session
.insert(SESSION_LOGIN_PROVIDER, &provider)
.await
.map_err(|e| {
tracing::error!(
provider,
error = %e,
"failed to insert login_provider into session after OAuth"
);
StatusCode::INTERNAL_SERVER_ERROR
})?;
if let Err(e) = session.insert(SESSION_KEY_VERSION, user.key_version).await {
tracing::warn!(error = %e, user_id = %user.id, "failed to insert key_version into session after OAuth");
}
log_login(
&state.pool,
"oauth",
provider,
user.id,
client_ip,
user_agent,
)
.await;
Ok(Redirect::to("/dashboard").into_response())
}
// ── Logout ────────────────────────────────────────────────────────────────────
pub(super) async fn auth_logout(session: Session) -> impl IntoResponse {
if let Err(e) = session.flush().await {
tracing::warn!(error = %e, "failed to flush session on logout");
}
Redirect::to("/")
}
// ── Account bind/unbind ───────────────────────────────────────────────────────
pub(super) async fn account_bind_google(
State(state): State<AppState>,
session: Session,
) -> Result<Response, StatusCode> {
let _ = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
session
.insert(SESSION_OAUTH_BIND_MODE, true)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to insert oauth_bind_mode into session");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let config = google_cfg(&state).ok_or(StatusCode::SERVICE_UNAVAILABLE)?;
let oauth_state = random_state();
if let Err(e) = session.insert(SESSION_OAUTH_STATE, &oauth_state).await {
tracing::error!(error = %e, "failed to insert oauth_state for account bind flow");
if let Err(rm) = session.remove::<bool>(SESSION_OAUTH_BIND_MODE).await {
tracing::warn!(error = %rm, "failed to roll back oauth_bind_mode after oauth_state insert failure");
}
return Err(StatusCode::INTERNAL_SERVER_ERROR);
}
let url = google_auth_url(config, &oauth_state);
Ok(Redirect::to(&url).into_response())
}
pub(super) async fn account_unbind(
State(state): State<AppState>,
Path(provider): Path<String>,
session: Session,
) -> Result<Response, StatusCode> {
let user_id = current_user_id(&session)
.await
.ok_or(StatusCode::UNAUTHORIZED)?;
let current_login_provider = session
.get::<String>(SESSION_LOGIN_PROVIDER)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to read login_provider from session");
StatusCode::INTERNAL_SERVER_ERROR
})?;
unbind_oauth_account(
&state.pool,
user_id,
&provider,
current_login_provider.as_deref(),
)
.await
.map_err(|e| {
tracing::warn!(error = %e, "failed to unbind oauth account");
StatusCode::BAD_REQUEST
})?;
Ok(Redirect::to("/dashboard?unbound=1").into_response())
}

948
crates/secrets-mcp/src/web/entries.rs Normal file
View File

@@ -0,0 +1,948 @@
use axum::{
Json,
extract::{Path, Query, State},
http::{HeaderMap, StatusCode},
response::Response,
};
use chrono::SecondsFormat;
use serde::{Deserialize, Serialize};
use serde_json::json;
use tower_sessions::Session;
use uuid::Uuid;
use secrets_core::error::AppError;
use secrets_core::service::{
delete::delete_by_id,
get_secret::get_all_secrets_by_id,
search::{SearchParams, count_entries, fetch_secrets_for_entries, ilike_pattern, list_entries},
update::{UpdateEntryFieldsByIdParams, update_fields_by_id},
};
use crate::AppState;
use super::{
ENTRIES_PAGE_LIMIT, UiLang, current_user_id, paginate, render_template, request_ui_lang,
require_valid_user, tr,
};
// ── Template types ────────────────────────────────────────────────────────────
use askama::Template;
#[derive(Template)]
#[template(path = "entries.html")]
struct EntriesPageTemplate {
user_name: String,
user_email: String,
entries: Vec<EntryListItemView>,
folder_tabs: Vec<FolderTabView>,
type_options: Vec<String>,
secret_type_options_json: String,
filter_folder: String,
filter_name: String,
filter_type: String,
current_page: u32,
total_pages: u32,
total_count: i64,
version: &'static str,
}
/// Non-sensitive entry fields; `secrets` lists field names/types only (no ciphertext).
struct EntryListItemView {
id: String,
folder: String,
entry_type: String,
name: String,
notes: String,
tags: String,
/// Compact JSON for `data-entry-metadata` (dialog editor).
metadata_json: String,
/// Secret field summaries for table + dialog chips.
secrets: Vec<SecretSummaryView>,
/// JSON array of `{ id, name, secret_type }` for dialog secret chips.
secrets_json: String,
/// RFC3339 UTC; shown in edit dialog.
updated_at_iso: String,
}
#[derive(Serialize)]
struct SecretSummaryView {
id: String,
name: String,
secret_type: String,
}
struct FolderTabView {
name: String,
count: i64,
href: String,
active: bool,
}
#[derive(Deserialize)]
pub(super) struct EntriesQuery {
folder: Option<String>,
name: Option<String>,
/// URL query key is `type` (maps to DB column `entries.type`).
#[serde(rename = "type")]
entry_type: Option<String>,
page: Option<u32>,
}
// ── Entry mutation error helpers ──────────────────────────────────────────────
type EntryApiError = (StatusCode, Json<serde_json::Value>);
fn map_entry_mutation_err(e: anyhow::Error, lang: UiLang) -> EntryApiError {
if let Some(app_err) = e.downcast_ref::<AppError>() {
return map_app_error(app_err, lang);
}
// Fallback for legacy string-based errors and raw sqlx errors
let msg = e.to_string();
if msg.contains("already exists") {
return (
StatusCode::CONFLICT,
Json(
json!({ "error": tr(lang, "该账号下已存在相同 folder + name 的条目", "此帳號下已存在相同 folder + name 的條目", "An entry with the same folder + name already exists for this account") }),
),
);
}
if msg.contains("must be at most") {
return (StatusCode::BAD_REQUEST, Json(json!({ "error": msg })));
}
tracing::error!(error = %e, "entry mutation failed");
(
StatusCode::INTERNAL_SERVER_ERROR,
Json(
json!({ "error": tr(lang, "操作失败,请稍后重试", "操作失敗,請稍後重試", "Operation failed, please try again later") }),
),
)
}
fn map_app_error(err: &AppError, lang: UiLang) -> EntryApiError {
match err {
AppError::ConflictEntryName { .. } | AppError::ConflictSecretName { .. } => (
StatusCode::CONFLICT,
Json(json!({ "error": err.to_string() })),
),
AppError::NotFoundEntry | AppError::NotFoundUser | AppError::NotFoundSecret => (
StatusCode::NOT_FOUND,
Json(
json!({ "error": tr(lang, "资源不存在或无权访问", "資源不存在或無權存取", "Resource not found or no access") }),
),
),
AppError::AuthenticationFailed | AppError::Unauthorized => (
StatusCode::UNAUTHORIZED,
Json(
json!({ "error": tr(lang, "认证失败或无权访问", "認證失敗或無權存取", "Authentication failed or unauthorized") }),
),
),
AppError::Validation { message } => {
(StatusCode::BAD_REQUEST, Json(json!({ "error": message })))
}
AppError::ConcurrentModification => (
StatusCode::CONFLICT,
Json(
json!({ "error": tr(lang, "条目已被修改,请刷新后重试", "條目已被修改,請重新整理後重試", "Entry was modified, please refresh and try again") }),
),
),
AppError::DecryptionFailed => (
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "解密失败,请检查密码短语", "解密失敗,請檢查密碼短語", "Decryption failed — please check your passphrase") }),
),
),
AppError::EncryptionKeyNotSet => (
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "请先设置密码短语后再使用此功能", "請先設定密碼短語再使用此功能", "Please set a passphrase before using this feature") }),
),
),
AppError::Internal(_) => {
tracing::error!(error = %err, "internal error in entry mutation");
(
StatusCode::INTERNAL_SERVER_ERROR,
Json(
json!({ "error": tr(lang, "操作失败,请稍后重试", "操作失敗,請稍後重試", "Operation failed, please try again later") }),
),
)
}
}
}
// ── Handlers ──────────────────────────────────────────────────────────────────
pub(super) async fn entries_page(
State(state): State<AppState>,
session: Session,
Query(q): Query<EntriesQuery>,
) -> Result<Response, StatusCode> {
let user = match require_valid_user(&state.pool, &session, "entries_page").await {
Ok(u) => u,
Err(r) => return Ok(r),
};
let user_id = user.id;
let folder_filter = q
.folder
.as_ref()
.map(|s| s.trim())
.filter(|s| !s.is_empty())
.map(|s| s.to_string());
let type_filter = q
.entry_type
.as_ref()
.map(|s| s.trim())
.filter(|s| !s.is_empty())
.map(|s| s.to_string());
let name_filter = q
.name
.as_ref()
.map(|s| s.trim())
.filter(|s| !s.is_empty())
.map(|s| s.to_string());
let page = q.page.unwrap_or(1).max(1);
let count_params = SearchParams {
folder: folder_filter.as_deref(),
entry_type: type_filter.as_deref(),
name: None,
name_query: name_filter.as_deref(),
tags: &[],
query: None,
sort: "updated",
limit: ENTRIES_PAGE_LIMIT,
offset: 0,
user_id: Some(user_id),
};
// Build folder query before joining so the SQL string lives long enough.
#[derive(sqlx::FromRow)]
struct FolderCountRow {
folder: String,
count: i64,
}
let mut folder_sql =
"SELECT folder, COUNT(*)::bigint AS count FROM entries WHERE user_id = $1".to_string();
let mut bind_idx = 2;
if type_filter.is_some() {
folder_sql.push_str(&format!(" AND type = ${bind_idx}"));
bind_idx += 1;
}
if name_filter.is_some() {
folder_sql.push_str(&format!(" AND name ILIKE ${bind_idx} ESCAPE '\\'"));
bind_idx += 1;
}
let _ = bind_idx;
folder_sql.push_str(" GROUP BY folder ORDER BY folder");
let mut folder_query = sqlx::query_as::<_, FolderCountRow>(&folder_sql).bind(user_id);
if let Some(t) = type_filter.as_deref() {
folder_query = folder_query.bind(t);
}
if let Some(n) = name_filter.as_deref() {
folder_query = folder_query.bind(ilike_pattern(n));
}
#[derive(sqlx::FromRow)]
struct TypeOptionRow {
#[sqlx(rename = "type")]
entry_type: String,
}
// Phase 1: count, folder tabs, and type options are mutually independent — run in parallel.
let (total_count, folder_rows_res, type_options_res) = tokio::join!(
async {
count_entries(&state.pool, &count_params)
.await
.inspect_err(
|e| tracing::warn!(error = %e, "count_entries failed for web entries page"),
)
.unwrap_or(0)
},
folder_query.fetch_all(&state.pool),
sqlx::query_as::<_, TypeOptionRow>(
"SELECT DISTINCT type FROM entries WHERE user_id = $1 ORDER BY type",
)
.bind(user_id)
.fetch_all(&state.pool),
);
let folder_rows = folder_rows_res.map_err(|e| {
tracing::error!(error = %e, "failed to load folder tabs for web");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let mut type_options: Vec<String> = type_options_res
.map_err(|e| {
tracing::error!(error = %e, "failed to load type options for web");
StatusCode::INTERNAL_SERVER_ERROR
})?
.into_iter()
.map(|r| r.entry_type)
.filter(|t| !t.is_empty())
.collect();
// Phase 2: paginate using count, then fetch entries for the page.
let (current_page, total_pages, offset) = paginate(page, total_count, ENTRIES_PAGE_LIMIT);
let list_params = SearchParams {
offset,
..count_params
};
let rows = list_entries(&state.pool, list_params).await.map_err(|e| {
tracing::error!(error = %e, "failed to load entries list for web");
StatusCode::INTERNAL_SERVER_ERROR
})?;
let entry_ids: Vec<Uuid> = rows.iter().map(|e| e.id).collect();
let secret_schemas = fetch_secrets_for_entries(&state.pool, &entry_ids)
.await
.map_err(|e| {
tracing::error!(error = %e, "failed to load secret schema list for web");
StatusCode::INTERNAL_SERVER_ERROR
})?;
if let Some(current) = type_filter.as_ref()
&& !current.is_empty()
&& !type_options.iter().any(|t| t == current)
{
type_options.push(current.clone());
type_options.sort_unstable();
}
fn entries_href(
folder: Option<&str>,
entry_type: Option<&str>,
name: Option<&str>,
page: Option<u32>,
) -> String {
let mut pairs: Vec<String> = Vec::new();
if let Some(f) = folder
&& !f.is_empty()
{
pairs.push(format!("folder={}", urlencoding::encode(f)));
}
if let Some(t) = entry_type
&& !t.is_empty()
{
pairs.push(format!("type={}", urlencoding::encode(t)));
}
if let Some(n) = name
&& !n.is_empty()
{
pairs.push(format!("name={}", urlencoding::encode(n)));
}
if let Some(p) = page {
pairs.push(format!("page={}", p));
}
if pairs.is_empty() {
"/entries".to_string()
} else {
format!("/entries?{}", pairs.join("&"))
}
}
let all_count: i64 = folder_rows.iter().map(|r| r.count).sum();
let mut folder_tabs: Vec<FolderTabView> = Vec::with_capacity(folder_rows.len() + 1);
folder_tabs.push(FolderTabView {
name: "全部".to_string(),
count: all_count,
href: entries_href(
None,
type_filter.as_deref(),
name_filter.as_deref(),
Some(1),
),
active: folder_filter.is_none(),
});
for r in folder_rows {
let name = r.folder;
folder_tabs.push(FolderTabView {
href: entries_href(
Some(&name),
type_filter.as_deref(),
name_filter.as_deref(),
Some(1),
),
active: folder_filter.as_deref() == Some(name.as_str()),
name,
count: r.count,
});
}
let entries = rows
.into_iter()
.map(|e| {
let secrets: Vec<SecretSummaryView> = secret_schemas
.get(&e.id)
.map(|fields| {
fields
.iter()
.map(|f| SecretSummaryView {
id: f.id.to_string(),
name: f.name.clone(),
secret_type: f.secret_type.clone(),
})
.collect()
})
.unwrap_or_default();
let secrets_json = serde_json::to_string(&secrets).unwrap_or_else(|_| "[]".to_string());
let metadata_json =
serde_json::to_string(&e.metadata).unwrap_or_else(|_| "{}".to_string());
EntryListItemView {
id: e.id.to_string(),
folder: e.folder,
entry_type: e.entry_type,
name: e.name,
notes: e.notes,
tags: e.tags.join(", "),
metadata_json,
secrets,
secrets_json,
updated_at_iso: e.updated_at.to_rfc3339_opts(SecondsFormat::Secs, true),
}
})
.collect();
let tmpl = EntriesPageTemplate {
user_name: user.name.clone(),
user_email: user.email.clone().unwrap_or_default(),
entries,
folder_tabs,
type_options,
secret_type_options_json: serde_json::to_string(
&secrets_core::taxonomy::SECRET_TYPE_OPTIONS
.iter()
.map(|s| s.to_string())
.collect::<Vec<_>>(),
)
.unwrap_or_default(),
filter_folder: folder_filter.unwrap_or_default(),
filter_name: name_filter.unwrap_or_default(),
filter_type: type_filter.unwrap_or_default(),
current_page,
total_pages,
total_count,
version: env!("CARGO_PKG_VERSION"),
};
render_template(tmpl)
}
// ── Entry management (Web UI, non-sensitive fields only) ───────────────────────
#[derive(Deserialize)]
pub(super) struct EntryPatchBody {
folder: String,
#[serde(rename = "type")]
entry_type: String,
name: String,
notes: String,
tags: Vec<String>,
metadata: serde_json::Value,
}
pub(super) async fn api_entry_patch(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Path(entry_id): Path<Uuid>,
Json(body): Json<EntryPatchBody>,
) -> Result<Json<serde_json::Value>, EntryApiError> {
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
let folder = body.folder.trim();
let entry_type = body.entry_type.trim();
let name = body.name.trim();
let notes = body.notes.trim();
if name.is_empty() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "name 不能为空", "name 不能為空", "name cannot be empty") }),
),
));
}
let tags: Vec<String> = body
.tags
.into_iter()
.map(|t| t.trim().to_string())
.filter(|t| !t.is_empty())
.collect();
if !body.metadata.is_object() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "metadata 必须是 JSON 对象", "metadata 必須是 JSON 物件", "metadata must be a JSON object") }),
),
));
}
update_fields_by_id(
&state.pool,
entry_id,
user_id,
UpdateEntryFieldsByIdParams {
folder,
entry_type,
name,
notes,
tags: &tags,
metadata: &body.metadata,
},
)
.await
.map_err(|e| map_entry_mutation_err(e, lang))?;
Ok(Json(json!({ "ok": true })))
}
pub(super) async fn api_entry_delete(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Path(entry_id): Path<Uuid>,
) -> Result<Json<serde_json::Value>, EntryApiError> {
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
delete_by_id(&state.pool, entry_id, user_id)
.await
.map_err(|e| map_entry_mutation_err(e, lang))?;
Ok(Json(json!({
"ok": true,
})))
}
#[derive(Deserialize)]
pub(super) struct SecretCheckNameQuery {
name: String,
exclude_secret_id: Option<Uuid>,
}
#[derive(Serialize)]
pub(super) struct SecretCheckNameResponse {
ok: bool,
available: bool,
#[serde(skip_serializing_if = "Option::is_none")]
error: Option<String>,
}
pub(super) async fn api_secret_check_name(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Query(params): Query<SecretCheckNameQuery>,
) -> Result<Json<SecretCheckNameResponse>, EntryApiError> {
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
let name = params.name.trim();
if name.is_empty() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret name 不能为空", "secret name 不能為空", "secret name cannot be empty") }),
),
));
}
if name.chars().count() > 256 {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret name 长度不能超过 256 个字符", "secret name 長度不能超過 256 個字元", "secret name must be at most 256 characters") }),
),
));
}
let count: i64 = if let Some(exclude_id) = params.exclude_secret_id {
sqlx::query_scalar::<_, i64>(
"SELECT COUNT(*) FROM secrets WHERE user_id = $1 AND name = $2 AND id != $3",
)
.bind(user_id)
.bind(name)
.bind(exclude_id)
.fetch_one(&state.pool)
.await
} else {
sqlx::query_scalar::<_, i64>(
"SELECT COUNT(*) FROM secrets WHERE user_id = $1 AND name = $2",
)
.bind(user_id)
.bind(name)
.fetch_one(&state.pool)
.await
}.map_err(|e| {
tracing::error!(error = %e, "failed to check secret name availability");
(
StatusCode::INTERNAL_SERVER_ERROR,
Json(
json!({ "error": tr(lang, "操作失败,请稍后重试", "操作失敗,請稍後重試", "Operation failed, please try again later") }),
),
)
})?;
let available = count == 0;
let error = if available {
None
} else {
Some(
tr(
lang,
"该用户下已存在相同 name 的密文",
"該用戶下已存在相同 name 的密文",
"A secret with the same name already exists for this user",
)
.to_string(),
)
};
Ok(Json(SecretCheckNameResponse {
ok: true,
available,
error,
}))
}
#[derive(Deserialize)]
pub(super) struct SecretPatchBody {
name: Option<String>,
#[serde(rename = "type")]
secret_type: Option<String>,
}
pub(super) async fn api_secret_patch(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Path(secret_id): Path<Uuid>,
Json(body): Json<SecretPatchBody>,
) -> Result<Json<serde_json::Value>, EntryApiError> {
#[derive(Serialize, sqlx::FromRow)]
struct LinkedEntryAuditRow {
folder: String,
#[sqlx(rename = "type")]
entry_type: String,
name: String,
}
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
let name = body.name.as_ref().map(|s| s.trim());
let secret_type = body.secret_type.as_ref().map(|s| s.trim());
if let Some(n) = name {
if n.is_empty() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret name 不能为空", "secret name 不能為空", "secret name cannot be empty") }),
),
));
}
if n.chars().count() > 256 {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret name 长度不能超过 256 个字符", "secret name 長度不能超過 256 個字元", "secret name must be at most 256 characters") }),
),
));
}
}
if let Some(t) = secret_type {
if t.is_empty() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret type 不能为空", "secret type 不能為空", "secret type cannot be empty") }),
),
));
}
if t.chars().count() > 64 {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "secret type 长度不能超过 64 个字符", "secret type 長度不能超過 64 個字元", "secret type must be at most 64 characters") }),
),
));
}
}
if name.is_none() && secret_type.is_none() {
return Err((
StatusCode::BAD_REQUEST,
Json(
json!({ "error": tr(lang, "至少需要提供 name 或 type 之一", "至少需要提供 name 或 type 之一", "At least one of name or type is required") }),
),
));
}
let mut tx = state
.pool
.begin()
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
let secret_row: Option<(String, String)> =
sqlx::query_as("SELECT name, type FROM secrets WHERE id = $1 AND user_id = $2 FOR UPDATE")
.bind(secret_id)
.bind(user_id)
.fetch_optional(&mut *tx)
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
let Some((old_name, old_type)) = secret_row else {
let _ = tx.rollback().await;
return Err((
StatusCode::NOT_FOUND,
Json(
json!({ "error": tr(lang, "密文不存在或无权访问", "密文不存在或無權存取", "Secret not found or no access") }),
),
));
};
let linked_entries: Vec<LinkedEntryAuditRow> = sqlx::query_as(
"SELECT e.folder, e.type, e.name \
FROM entry_secrets es \
JOIN entries e ON e.id = es.entry_id \
WHERE es.secret_id = $1 AND e.user_id = $2 \
ORDER BY e.folder, e.type, e.name",
)
.bind(secret_id)
.bind(user_id)
.fetch_all(&mut *tx)
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
let new_name = name.unwrap_or(&old_name).to_string();
let new_type = secret_type.unwrap_or(&old_type).to_string();
let result = sqlx::query(
"UPDATE secrets SET name = $1, type = $2, version = version + 1, updated_at = NOW() \
WHERE id = $3",
)
.bind(&new_name)
.bind(&new_type)
.bind(secret_id)
.execute(&mut *tx)
.await;
if let Err(e) = result {
if let Some(db_err) = e.as_database_error()
&& db_err.code() == Some("23505".into())
{
let _ = tx.rollback().await;
return Err(map_app_error(
&AppError::ConflictSecretName {
secret_name: new_name.clone(),
},
lang,
));
}
let _ = tx.rollback().await;
return Err(map_entry_mutation_err(e.into(), lang));
}
secrets_core::audit::log_tx(
&mut tx,
Some(user_id),
"rename_secret",
"",
"",
&old_name,
json!({
"source": "web",
"secret_id": secret_id,
"old_name": old_name,
"new_name": new_name,
"old_type": old_type,
"new_type": new_type,
"linked_entries": linked_entries,
}),
)
.await;
tx.commit()
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
Ok(Json(json!({ "ok": true })))
}
pub(super) async fn api_entry_secret_unlink(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Path((entry_id, secret_id)): Path<(Uuid, Uuid)>,
) -> Result<Json<serde_json::Value>, EntryApiError> {
#[derive(sqlx::FromRow)]
struct EntryAuditRow {
folder: String,
#[sqlx(rename = "type")]
entry_type: String,
name: String,
}
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
let mut tx = state
.pool
.begin()
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
let entry_row: Option<EntryAuditRow> =
sqlx::query_as("SELECT folder, type, name FROM entries WHERE id = $1 AND user_id = $2")
.bind(entry_id)
.bind(user_id)
.fetch_optional(&mut *tx)
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
let Some(entry_row) = entry_row else {
let _ = tx.rollback().await;
return Err((
StatusCode::NOT_FOUND,
Json(
json!({ "error": tr(lang, "条目不存在或无权访问", "條目不存在或無權存取", "Entry not found or no access") }),
),
));
};
let deleted = sqlx::query("DELETE FROM entry_secrets WHERE entry_id = $1 AND secret_id = $2")
.bind(entry_id)
.bind(secret_id)
.execute(&mut *tx)
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?
.rows_affected();
if deleted == 0 {
let _ = tx.rollback().await;
return Err((
StatusCode::NOT_FOUND,
Json(json!({ "error": tr(lang, "关联不存在", "關聯不存在", "Relation not found") })),
));
}
let secret_deleted = sqlx::query(
"DELETE FROM secrets s \
WHERE s.id = $1 \
AND NOT EXISTS (SELECT 1 FROM entry_secrets es WHERE es.secret_id = s.id)",
)
.bind(secret_id)
.execute(&mut *tx)
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?
.rows_affected()
> 0;
secrets_core::audit::log_tx(
&mut tx,
Some(user_id),
"unlink_secret",
&entry_row.folder,
&entry_row.entry_type,
&entry_row.name,
json!({
"source": "web",
"entry_id": entry_id,
"secret_id": secret_id,
"deleted_secret": secret_deleted,
}),
)
.await;
tx.commit()
.await
.map_err(|e| map_entry_mutation_err(e.into(), lang))?;
Ok(Json(json!({
"ok": true,
"deleted_relation": true,
"deleted_secret": secret_deleted,
})))
}
// ── Decrypt entry secrets (Web UI) ───────────────────────────────────────────
pub(super) async fn api_entry_secrets_decrypt(
State(state): State<AppState>,
session: Session,
headers: HeaderMap,
Path(entry_id): Path<Uuid>,
) -> Result<Json<serde_json::Value>, EntryApiError> {
let lang = request_ui_lang(&headers);
let user_id = current_user_id(&session).await.ok_or((
StatusCode::UNAUTHORIZED,
Json(json!({ "error": tr(lang, "未登录", "尚未登入", "Not logged in") })),
))?;
let enc_key_hex = headers
.get("x-encryption-key")
.and_then(|v| v.to_str().ok())
.ok_or_else(|| {
(
StatusCode::BAD_REQUEST,
Json(json!({ "error": tr(lang, "缺少 X-Encryption-Key 请求头", "缺少 X-Encryption-Key 請求標頭", "Missing X-Encryption-Key header") })),
)
})?;
let master_key =
secrets_core::crypto::extract_key_from_hex(enc_key_hex).map_err(|_| {
(
StatusCode::BAD_REQUEST,
Json(json!({ "error": tr(lang, "X-Encryption-Key 格式无效", "X-Encryption-Key 格式無效", "Invalid X-Encryption-Key format") })),
)
})?;
let secrets =
get_all_secrets_by_id(&state.pool, entry_id, &master_key, Some(user_id))
.await
.map_err(|e| {
if let Some(app_err) = e.downcast_ref::<AppError>() {
return match app_err {
AppError::DecryptionFailed => (
StatusCode::UNPROCESSABLE_ENTITY,
Json(json!({ "error": tr(lang, "解密失败,请确认密码短语正确", "解密失敗,請確認密碼短語正確", "Decryption failed, please verify your passphrase") })),
),
AppError::NotFoundEntry | AppError::NotFoundUser | AppError::NotFoundSecret => (
StatusCode::NOT_FOUND,
Json(json!({ "error": tr(lang, "条目不存在或无权访问", "條目不存在或無權存取", "Entry not found or no access") })),
),
_ => {
tracing::error!(error = %e, %entry_id, "decrypt entry secrets failed");
(
StatusCode::INTERNAL_SERVER_ERROR,
Json(json!({ "error": tr(lang, "操作失败,请稍后重试", "操作失敗,請稍後重試", "Operation failed, please try again later") })),
)
}
};
}
tracing::error!(error = %e, %entry_id, "decrypt entry secrets failed");
(
StatusCode::INTERNAL_SERVER_ERROR,
Json(json!({ "error": tr(lang, "操作失败,请稍后重试", "操作失敗,請稍後重試", "Operation failed, please try again later") })),
)
})?;
Ok(Json(json!({ "ok": true, "secrets": secrets })))
}

306
crates/secrets-mcp/src/web/mod.rs Normal file
View File

@@ -0,0 +1,306 @@
use askama::Template;
use axum::{
Router,
http::{HeaderMap, StatusCode, header},
response::{Html, IntoResponse, Redirect, Response},
routing::{get, patch, post},
};
use tower_sessions::Session;
use uuid::Uuid;
use crate::AppState;
use crate::oauth::OAuthConfig;
mod account;
mod assets;
mod audit;
mod auth;
mod entries;
// ── Session keys ──────────────────────────────────────────────────────────────
const SESSION_USER_ID: &str = "user_id";
const SESSION_OAUTH_STATE: &str = "oauth_state";
const SESSION_OAUTH_BIND_MODE: &str = "oauth_bind_mode";
const SESSION_LOGIN_PROVIDER: &str = "login_provider";
const SESSION_KEY_VERSION: &str = "key_version";
// ── Page limits ───────────────────────────────────────────────────────────────
/// Cap for HTML list (avoids loading unbounded rows into memory).
const ENTRIES_PAGE_LIMIT: u32 = 50;
const AUDIT_PAGE_LIMIT: i64 = 10;
// ── UI language ───────────────────────────────────────────────────────────────
#[derive(Clone, Copy)]
enum UiLang {
ZhCn,
ZhTw,
En,
}
fn request_ui_lang(headers: &HeaderMap) -> UiLang {
let Some(raw) = headers
.get(header::ACCEPT_LANGUAGE)
.and_then(|v| v.to_str().ok())
else {
return UiLang::ZhCn;
};
let lower = raw.to_ascii_lowercase();
if lower.contains("zh-tw") || lower.contains("zh-hk") || lower.contains("zh-hant") {
UiLang::ZhTw
} else if lower.contains("zh") {
UiLang::ZhCn
} else if lower.contains("en") {
UiLang::En
} else {
UiLang::ZhCn
}
}
fn tr(lang: UiLang, zh_cn: &'static str, zh_tw: &'static str, en: &'static str) -> &'static str {
match lang {
UiLang::ZhCn => zh_cn,
UiLang::ZhTw => zh_tw,
UiLang::En => en,
}
}
// ── App state helpers ─────────────────────────────────────────────────────────
fn google_cfg(state: &AppState) -> Option<&OAuthConfig> {
state.google_config.as_ref()
}
async fn current_user_id(session: &Session) -> Option<Uuid> {
match session.get::<String>(SESSION_USER_ID).await {
Ok(opt) => match opt {
Some(s) => match Uuid::parse_str(&s) {
Ok(id) => Some(id),
Err(e) => {
tracing::warn!(error = %e, user_id_str = %s, "invalid user_id UUID in session");
None
}
},
None => None,
},
Err(e) => {
tracing::warn!(error = %e, "failed to read user_id from session");
None
}
}
}
/// Load and validate the current user from session and DB.
///
/// Returns the user if the session is valid. Flushes the session and returns
/// `Err(Redirect::to("/login"))` when:
/// - the session has no `user_id`,
/// - the user no longer exists in the database, or
/// - the stored `key_version` does not match the DB value (passphrase changed on
/// another device since this session was created).
async fn require_valid_user(
pool: &sqlx::PgPool,
session: &Session,
context: &str,
) -> Result<secrets_core::models::User, Response> {
let Some(user_id) = current_user_id(session).await else {
return Err(Redirect::to("/login").into_response());
};
let user = match secrets_core::service::user::get_user_by_id(pool, user_id).await {
Err(e) => {
tracing::error!(error = %e, %user_id, context, "failed to load user");
return Err(StatusCode::INTERNAL_SERVER_ERROR.into_response());
}
Ok(None) => {
if let Err(e) = session.flush().await {
tracing::warn!(error = %e, "failed to flush stale session");
}
return Err(Redirect::to("/login").into_response());
}
Ok(Some(u)) => u,
};
let session_kv: Option<i64> = match session.get::<i64>(SESSION_KEY_VERSION).await {
Ok(v) => v,
Err(e) => {
tracing::warn!(error = %e, "failed to read key_version from session; treating as missing");
None
}
};
if let Some(kv) = session_kv
&& kv != user.key_version
{
tracing::info!(%user_id, session_kv = kv, db_kv = user.key_version, "key_version mismatch; invalidating session");
if let Err(e) = session.flush().await {
tracing::warn!(error = %e, "failed to flush outdated session");
}
return Err(Redirect::to("/login").into_response());
}
Ok(user)
}
fn request_user_agent(headers: &HeaderMap) -> Option<String> {
headers
.get(header::USER_AGENT)
.and_then(|value| value.to_str().ok())
.map(str::trim)
.filter(|value| !value.is_empty())
.map(ToOwned::to_owned)
}
fn paginate(page: u32, total_count: i64, page_size: u32) -> (u32, u32, u32) {
let page_size = page_size.max(1);
let safe_total_count = u32::try_from(total_count.max(0)).unwrap_or(u32::MAX);
let total_pages = safe_total_count.div_ceil(page_size).max(1);
let current_page = page.max(1).min(total_pages);
let offset = (current_page - 1).saturating_mul(page_size);
(current_page, total_pages, offset)
}
fn render_template<T: Template>(tmpl: T) -> Result<Response, StatusCode> {
let html = tmpl.render().map_err(|e| {
tracing::error!(error = %e, "template render error");
StatusCode::INTERNAL_SERVER_ERROR
})?;
Ok(Html(html).into_response())
}
// ── Routes ────────────────────────────────────────────────────────────────────
pub fn web_router() -> Router<AppState> {
Router::new()
.route("/robots.txt", get(assets::robots_txt))
.route("/llms.txt", get(assets::llms_txt))
.route("/ai.txt", get(assets::ai_txt))
.route("/static/i18n.js", get(assets::i18n_js))
.route("/favicon.svg", get(assets::favicon_svg))
.route(
"/favicon.ico",
get(|| async { Redirect::permanent("/favicon.svg") }),
)
.route(
"/.well-known/oauth-protected-resource",
get(assets::oauth_protected_resource_metadata),
)
.route("/", get(auth::home_page))
.route("/login", get(auth::login_page))
.route("/auth/google", get(auth::auth_google))
.route("/auth/google/callback", get(auth::auth_google_callback))
.route("/auth/logout", post(auth::auth_logout))
.route("/dashboard", get(account::dashboard))
.route("/entries", get(entries::entries_page))
.route("/audit", get(audit::audit_page))
.route("/account/bind/google", get(auth::account_bind_google))
.route("/account/unbind/{provider}", post(auth::account_unbind))
.route("/api/key-salt", get(account::api_key_salt))
.route("/api/key-setup", post(account::api_key_setup))
.route("/api/key-change", post(account::api_key_change))
.route("/api/apikey", get(account::api_apikey_get))
.route(
"/api/apikey/regenerate",
post(account::api_apikey_regenerate),
)
.route(
"/api/entries/{id}",
patch(entries::api_entry_patch).delete(entries::api_entry_delete),
)
.route(
"/api/entries/{entry_id}/secrets/{secret_id}",
axum::routing::delete(entries::api_entry_secret_unlink),
)
.route(
"/api/entries/{id}/secrets/decrypt",
get(entries::api_entry_secrets_decrypt),
)
.route("/api/secrets/{secret_id}", patch(entries::api_secret_patch))
.route(
"/api/secrets/check-name",
get(entries::api_secret_check_name),
)
}
#[cfg(test)]
mod tests {
use std::net::SocketAddr;
use super::*;
#[test]
fn client_ip_ignores_forwarded_headers_without_trusted_proxy() {
let mut headers = HeaderMap::new();
headers.insert("x-forwarded-for", "203.0.113.10".parse().unwrap());
let ip = crate::client_ip::extract_client_ip_parts(
&headers,
SocketAddr::from(([127, 0, 0, 1], 9315)),
);
assert_eq!(ip, "127.0.0.1");
}
#[test]
fn client_ip_uses_valid_forwarded_header_with_trusted_proxy() {
// This test relies on TRUST_PROXY being unset (default); skip if set in env
if std::env::var("TRUST_PROXY").is_ok() {
return;
}
let mut headers = HeaderMap::new();
headers.insert("x-forwarded-for", "203.0.113.10, 10.0.0.1".parse().unwrap());
// Direct connection IP is used when TRUST_PROXY is not set
let ip = crate::client_ip::extract_client_ip_parts(
&headers,
SocketAddr::from(([127, 0, 0, 1], 9315)),
);
assert_eq!(ip, "127.0.0.1");
}
#[test]
fn request_ui_lang_prefers_zh_cn_over_en_fallback() {
let mut headers = HeaderMap::new();
headers.insert(header::ACCEPT_LANGUAGE, "zh-CN, en;q=0.5".parse().unwrap());
assert!(matches!(request_ui_lang(&headers), UiLang::ZhCn));
}
#[test]
fn request_ui_lang_detects_traditional_chinese_variants() {
let mut headers = HeaderMap::new();
headers.insert(
header::ACCEPT_LANGUAGE,
"zh-Hant, en;q=0.5".parse().unwrap(),
);
assert!(matches!(request_ui_lang(&headers), UiLang::ZhTw));
}
#[test]
fn paginate_clamps_page_before_computing_offset() {
let (current_page, total_pages, offset) = paginate(100, 12, 10);
assert_eq!(current_page, 2);
assert_eq!(total_pages, 2);
assert_eq!(offset, 10);
}
#[test]
fn paginate_handles_large_page_without_overflow() {
let (current_page, total_pages, offset) = paginate(u32::MAX, 1, ENTRIES_PAGE_LIMIT);
assert_eq!(current_page, 1);
assert_eq!(total_pages, 1);
assert_eq!(offset, 0);
}
#[test]
fn paginate_saturates_large_total_count() {
let (_, total_pages, _) = paginate(1, i64::MAX, ENTRIES_PAGE_LIMIT);
assert_eq!(total_pages, u32::MAX.div_ceil(ENTRIES_PAGE_LIMIT));
}
}

79
crates/secrets-mcp/templates/dashboard.html
View File

@@ -305,6 +305,17 @@
<div class="modal-bd" id="change-modal">
<div class="modal">
<h3 data-i18n="changeTitle">更换密码</h3>
<div class="field">
<label data-i18n="labelCurrent">当前密码</label>
<div class="pw-field">
<input type="password" id="change-pass-old" data-i18n-ph="phCurrent" autocomplete="current-password">
<button type="button" class="pw-toggle" data-target="change-pass-old" aria-pressed="false"
onclick="togglePwVisibility(this)" aria-label="">
<span class="pw-icon pw-icon-show" aria-hidden="true"><svg xmlns="http://www.w3.org/2000/svg" width="18" height="18" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2" stroke-linecap="round" stroke-linejoin="round"><path d="M1 12s4-8 11-8 11 8 11 8-4 8-11 8-11-8-11-8z"/><circle cx="12" cy="12" r="3"/></svg></span>
<span class="pw-icon pw-icon-hide hidden" aria-hidden="true"><svg xmlns="http://www.w3.org/2000/svg" width="18" height="18" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2" stroke-linecap="round" stroke-linejoin="round"><path d="M17.94 17.94A10.07 10.07 0 0 1 12 20c-7 0-11-8-11-8a18.45 18.45 0 0 1 5.06-5.94M9.9 4.24A9.12 9.12 0 0 1 12 4c7 0 11 8 11 8a18.5 18.5 0 0 1-2.16 3.19m-6.72-1.07a3 3 0 1 1-4.24-4.24"/><line x1="1" y1="1" x2="23" y2="23"/></svg></span>
</button>
</div>
</div>
<div class="field">
<label data-i18n="labelNew">新密码</label>
<div class="pw-field">
@@ -345,8 +356,10 @@ const T = {
labelPassphrase: '加密密码',
labelConfirm: '确认密码',
labelNew: '新密码',
labelCurrent: '当前密码',
phPassphrase: '输入密码…',
phConfirm: '再次输入…',
phCurrent: '输入当前密码…',
btnSetup: '设置并获取配置',
btnUnlock: '解锁并获取配置',
setupNote: '密码不会上传服务器。遗忘后数据将无法恢复。',
@@ -354,6 +367,7 @@ const T = {
errShort: '密码至少需要 8 个字符。',
errMismatch: '两次输入不一致。',
errWrong: '密码错误,请重试。',
errWrongOld: '当前密码错误,请重试。',
unlockedTitle: 'MCP 配置',
tabMcp: 'Cursor、Claude Code、Codex、Gemini CLI',
tabOpencode: 'OpenCode',
@@ -379,8 +393,10 @@ const T = {
labelPassphrase: '加密密碼',
labelConfirm: '確認密碼',
labelNew: '新密碼',
labelCurrent: '目前密碼',
phPassphrase: '輸入密碼…',
phConfirm: '再次輸入…',
phCurrent: '輸入目前密碼…',
btnSetup: '設定並取得設定',
btnUnlock: '解鎖並取得設定',
setupNote: '密碼不會上傳伺服器。遺忘後資料將無法復原。',
@@ -388,6 +404,7 @@ const T = {
errShort: '密碼至少需要 8 個字元。',
errMismatch: '兩次輸入不一致。',
errWrong: '密碼錯誤,請重試。',
errWrongOld: '目前密碼錯誤,請重試。',
unlockedTitle: 'MCP 設定',
tabMcp: 'Cursor、Claude Code、Codex、Gemini CLI',
tabOpencode: 'OpenCode',
@@ -413,8 +430,10 @@ const T = {
labelPassphrase: 'Encryption password',
labelConfirm: 'Confirm password',
labelNew: 'New password',
labelCurrent: 'Current password',
phPassphrase: 'Enter password…',
phConfirm: 'Repeat password…',
phCurrent: 'Enter current password…',
btnSetup: 'Set up & get config',
btnUnlock: 'Unlock & get config',
setupNote: 'Your password never leaves this device. If forgotten, encrypted data cannot be recovered.',
@@ -422,6 +441,7 @@ const T = {
errShort: 'Password must be at least 8 characters.',
errMismatch: 'Passwords do not match.',
errWrong: 'Incorrect password, please try again.',
errWrongOld: 'Current password is incorrect, please try again.',
unlockedTitle: 'MCP Config',
tabMcp: 'Cursor, Claude Code, Codex, Gemini CLI',
tabOpencode: 'OpenCode',
@@ -557,20 +577,16 @@ function buildSecretsConfigText(apiKey, encKey) {
return lines.length < 3 ? wrapped : lines.slice(1, -1).join('\n');
}
/** OpenCode: local stdio bridge to Streamable HTTP MCP (mcp-remote --transport http-only). */
/** OpenCode: native Streamable HTTP transport (no mcp-remote bridge needed). */
function buildOpencodeEntry(apiKey, encKey) {
return {
type: 'local',
command: [
'npx', '-y', 'mcp-remote',
BASE_URL + '/mcp',
'--header',
'Authorization: Bearer ' + apiKey,
'--header',
'X-Encryption-Key: ' + encKey,
'--transport',
'http-only'
]
type: 'remote',
url: BASE_URL + '/mcp',
headers: {
'Authorization': 'Bearer ' + apiKey,
'X-Encryption-Key': encKey
},
oauth: false
};
}
@@ -832,14 +848,16 @@ async function confirmRegenerate() {
// ── Change passphrase modal ────────────────────────────────────────────────────
function openChangeModal() {
document.getElementById('change-pass-old').value = '';
document.getElementById('change-pass1').value = '';
document.getElementById('change-pass2').value = '';
document.getElementById('change-pass-old').type = 'password';
document.getElementById('change-pass1').type = 'password';
document.getElementById('change-pass2').type = 'password';
document.getElementById('change-error').style.display = 'none';
document.getElementById('change-modal').classList.add('open');
syncPwToggleI18n();
setTimeout(() => document.getElementById('change-pass1').focus(), 50);
setTimeout(() => document.getElementById('change-pass-old').focus(), 50);
}
function closeChangeModal() {
@@ -847,11 +865,13 @@ function closeChangeModal() {
}
async function doChange() {
const passOld = document.getElementById('change-pass-old').value;
const pass1 = document.getElementById('change-pass1').value;
const pass2 = document.getElementById('change-pass2').value;
const errEl = document.getElementById('change-error');
errEl.style.display = 'none';
if (!passOld) { showErr(errEl, t('errEmpty')); return; }
if (!pass1) { showErr(errEl, t('errEmpty')); return; }
if (pass1.length < 8) { showErr(errEl, t('errShort')); return; }
if (pass1 !== pass2) { showErr(errEl, t('errMismatch')); return; }
@@ -860,24 +880,39 @@ async function doChange() {
btn.disabled = true;
btn.innerHTML = '<span class="spinner" style="border-top-color:#0d1117"></span>';
try {
const salt = crypto.getRandomValues(new Uint8Array(32));
const cryptoKey = await deriveKey(pass1, salt, true);
const keyCheckHex = await encryptKeyCheck(cryptoKey);
const hexKey = await exportKeyHex(cryptoKey);
// Fetch current salt to derive old key for verification
const saltResp = await fetchAuth('/api/key-salt');
if (!saltResp.ok) throw new Error('HTTP ' + saltResp.status);
const saltData = await saltResp.json();
if (!saltData.has_passphrase) throw new Error('No passphrase configured');
const resp = await fetchAuth('/api/key-setup', {
// Derive old key and verify it
const oldCryptoKey = await deriveKey(passOld, hexToBytes(saltData.salt), true);
const validOld = await verifyKeyCheck(oldCryptoKey, saltData.key_check);
if (!validOld) { showErr(errEl, t('errWrongOld')); return; }
const oldHexKey = await exportKeyHex(oldCryptoKey);
// Derive new key
const newSalt = crypto.getRandomValues(new Uint8Array(32));
const newCryptoKey = await deriveKey(pass1, newSalt, true);
const newKeyCheckHex = await encryptKeyCheck(newCryptoKey);
const newHexKey = await exportKeyHex(newCryptoKey);
const resp = await fetchAuth('/api/key-change', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({
salt: bytesToHex(salt),
key_check: keyCheckHex,
old_key: oldHexKey,
new_key: newHexKey,
salt: bytesToHex(newSalt),
key_check: newKeyCheckHex,
params: { alg: 'pbkdf2-sha256', iterations: PBKDF2_ITERATIONS }
})
});
if (!resp.ok) throw new Error('HTTP ' + resp.status);
currentEncKey = hexKey;
sessionStorage.setItem('enc_key', hexKey);
currentEncKey = newHexKey;
sessionStorage.setItem('enc_key', newHexKey);
renderRealConfig();
closeChangeModal();
} catch (e) {

898
crates/secrets-mcp/templates/entries.html
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54
plans/move-secret-management-to-view.md Normal file
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@@ -0,0 +1,54 @@
# 将编辑弹窗中的密文管理功能移到查看密文弹窗
## 当前状态
- **编辑弹窗**密文重命名input、类型修改select、解绑×按钮、name 可用性校验
- **查看密文弹窗**:解密后显示值、复制、显示/隐藏密码
- **列表行**:密文 chipsname+type+ 解绑按钮
## 变更内容
### 1. 编辑弹窗 — 移除密文区域
- 移除 HTML 中 `#edit-secrets-list` 所在的 `.modal-secrets` div第559行
- 移除 JS 中 `renderEditSecrets``bindSecretValidation` 函数
- 移除 `openEdit` 中读取/渲染 `data-entry-secrets` 的逻辑
- 移除 `edit-save` 中 secret rename/type PATCH 逻辑
- 移除编辑弹窗内的 unlink 事件监听器第1492-1517行
- `refreshListAfterSave` 不再处理 secretRows 参数
### 2. 查看密文弹窗 — 增加管理功能
在每个解密字段行中增加:
- **重命名输入框**inline edit带 debounce 校验)
- **类型下拉选择**
- **解绑按钮**
- **保存按钮**(逐行或统一保存)
- 复用现有的 `PATCH /api/secrets/{id}``DELETE /api/entries/{entry_id}/secrets/{secret_id}` 接口
需要在 `openView` 中额外传入 `data-entry-secrets`(含 secret id/name/type以便将管理功能与解密值关联。
### 3. 列表行 — 保留只读摘要
- 保留密文 chips 的 name + type 展示
- **移除** chips 上的解绑按钮(×)
- **移除**列表行的 unlink 事件监听器第1466-1490行
### 4. i18n 更新
- 为查看弹窗新增重命名、类型修改、解绑相关的中英文翻译
- 清理编辑弹窗中不再需要的 i18n key
### 5. CSS 调整
- 查看弹窗中为管理控件添加样式input/select/button 行内布局)
## 不涉及的变更
- 后端 API 无需修改(复用现有接口)
- 版本 bump视为前次 0.5.11 的一部分tag 尚未被 CI 创建)
## 涉及文件
- `crates/secrets-mcp/templates/entries.html`HTML + JS + CSS
- `crates/secrets-mcp/src/web/entries.rs`(无需修改,复用现有 API

1
scripts/repair-secrets.template.csv Normal file
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@@ -0,0 +1 @@
entry_id,secret_name,secret_value
1 entry_id secret_name secret_value

383
scripts/repair_secrets_from_csv.py Normal file
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@@ -0,0 +1,383 @@
#!/usr/bin/env python3
"""
Batch re-encrypt secret fields from a CSV file.
CSV format:
entry_id,secret_name,secret_value
019d...,api_key,sk-xxxx
019d...,password,hunter2
The script groups rows by entry_id, then calls `secrets_update` with `secrets_obj`
so the server re-encrypts the provided plaintext values with the current key.
Warnings:
- Keep the CSV outside version control whenever possible.
- Delete the filled CSV after the repair is complete.
"""
from __future__ import annotations
import argparse
import csv
import json
import sys
import urllib.error
import urllib.request
from collections import OrderedDict
from pathlib import Path
from typing import Any
DEFAULT_USER_AGENT = "Cursor/3.0.12 (darwin arm64)"
REQUIRED_COLUMNS = {"entry_id", "secret_name", "secret_value"}
def parse_args() -> argparse.Namespace:
parser = argparse.ArgumentParser(
description="Repair secret ciphertexts by re-submitting plaintext via secrets_update."
)
parser.add_argument(
"--csv",
required=True,
help="Path to CSV file with columns: entry_id,secret_name,secret_value",
)
parser.add_argument(
"--mcp-json",
default=str(Path.home() / ".cursor" / "mcp.json"),
help="Path to mcp.json used to resolve URL and headers",
)
parser.add_argument(
"--server",
default="secrets",
help="MCP server name inside mcp.json (default: secrets)",
)
parser.add_argument("--url", help="Override MCP URL")
parser.add_argument("--auth", help="Override Authorization header value")
parser.add_argument("--encryption-key", help="Override X-Encryption-Key header value")
parser.add_argument(
"--user-agent",
default=DEFAULT_USER_AGENT,
help=f"User-Agent header (default: {DEFAULT_USER_AGENT})",
)
parser.add_argument(
"--dry-run",
action="store_true",
help="Parse and print grouped updates without sending requests",
)
return parser.parse_args()
def load_mcp_config(path: str, server_name: str) -> dict[str, Any]:
data = json.loads(Path(path).read_text(encoding="utf-8"))
servers = data.get("mcpServers", {})
if server_name not in servers:
raise KeyError(f"Server '{server_name}' not found in {path}")
return servers[server_name]
def resolve_connection_settings(args: argparse.Namespace) -> tuple[str, str, str]:
server = load_mcp_config(args.mcp_json, args.server)
headers = server.get("headers", {})
url = args.url or server.get("url")
auth = args.auth or headers.get("Authorization")
encryption_key = args.encryption_key or headers.get("X-Encryption-Key")
if not url:
raise ValueError("Missing MCP URL. Pass --url or configure it in mcp.json.")
if not auth:
raise ValueError(
"Missing Authorization header. Pass --auth or configure it in mcp.json."
)
if not encryption_key:
raise ValueError(
"Missing X-Encryption-Key. Pass --encryption-key or configure it in mcp.json."
)
return url, auth, encryption_key
def load_updates(csv_path: str) -> OrderedDict[str, OrderedDict[str, str]]:
grouped: OrderedDict[str, OrderedDict[str, str]] = OrderedDict()
with Path(csv_path).open("r", encoding="utf-8-sig", newline="") as fh:
reader = csv.DictReader(fh)
fieldnames = set(reader.fieldnames or [])
missing = REQUIRED_COLUMNS - fieldnames
if missing:
raise ValueError(
"CSV missing required columns: " + ", ".join(sorted(missing))
)
for line_no, row in enumerate(reader, start=2):
entry_id = (row.get("entry_id") or "").strip()
secret_name = (row.get("secret_name") or "").strip()
secret_value = row.get("secret_value") or ""
if not entry_id and not secret_name and not secret_value:
continue
if not entry_id:
raise ValueError(f"Line {line_no}: entry_id is required")
if not secret_name:
raise ValueError(f"Line {line_no}: secret_name is required")
entry_group = grouped.setdefault(entry_id, OrderedDict())
if secret_name in entry_group:
raise ValueError(
f"Line {line_no}: duplicate secret_name '{secret_name}' for entry_id '{entry_id}'"
)
entry_group[secret_name] = secret_value
if not grouped:
raise ValueError("CSV contains no updates")
return grouped
def post_json(
url: str,
payload: dict[str, Any],
auth: str,
encryption_key: str,
user_agent: str,
session_id: str | None = None,
) -> tuple[int, str | None, str]:
headers = {
"Content-Type": "application/json",
"Accept": "application/json, text/event-stream",
"Authorization": auth,
"X-Encryption-Key": encryption_key,
"User-Agent": user_agent,
}
if session_id:
headers["mcp-session-id"] = session_id
req = urllib.request.Request(
url,
data=json.dumps(payload).encode("utf-8"),
headers=headers,
method="POST",
)
try:
with urllib.request.urlopen(req, timeout=30) as resp:
return (
resp.status,
resp.headers.get("mcp-session-id") or session_id,
resp.read().decode("utf-8"),
)
except urllib.error.HTTPError as exc:
body = exc.read().decode("utf-8", errors="replace")
return exc.code, session_id, body
def parse_sse_json(body: str) -> list[dict[str, Any]]:
items: list[dict[str, Any]] = []
for line in body.splitlines():
if line.startswith("data: {"):
items.append(json.loads(line[6:]))
return items
def initialize_session(
url: str, auth: str, encryption_key: str, user_agent: str
) -> str:
status, session_id, body = post_json(
url,
{
"jsonrpc": "2.0",
"id": 1,
"method": "initialize",
"params": {
"protocolVersion": "2025-06-18",
"capabilities": {},
"clientInfo": {"name": "repair-script", "version": "1.0"},
},
},
auth,
encryption_key,
user_agent,
)
if status != 200 or not session_id:
raise RuntimeError(f"initialize failed: status={status}, body={body[:500]}")
status, _, body = post_json(
url,
{"jsonrpc": "2.0", "method": "notifications/initialized", "params": {}},
auth,
encryption_key,
user_agent,
session_id,
)
if status not in (200, 202):
raise RuntimeError(
f"notifications/initialized failed: status={status}, body={body[:500]}"
)
return session_id
def load_entry_index(
url: str, auth: str, encryption_key: str, user_agent: str, session_id: str
) -> dict[str, tuple[str, str]]:
status, _, body = post_json(
url,
{
"jsonrpc": "2.0",
"id": 999_001,
"method": "tools/call",
"params": {
"name": "secrets_find",
"arguments": {
"limit": 1000,
},
},
},
auth,
encryption_key,
user_agent,
session_id,
)
items = parse_sse_json(body)
last = items[-1] if items else {"raw": body[:1000]}
if status != 200:
raise RuntimeError(
f"secrets_find failed: status={status}, body={body[:500]}"
)
if "error" in last:
raise RuntimeError(f"secrets_find returned error: {last}")
content = last.get("result", {}).get("content", [])
if not content:
raise RuntimeError("secrets_find returned no content")
payload = json.loads(content[0]["text"])
index: dict[str, tuple[str, str]] = {}
for entry in payload.get("entries", []):
entry_id = entry.get("id")
name = entry.get("name")
folder = entry.get("folder", "")
if entry_id and name is not None:
index[entry_id] = (name, folder)
return index
def call_secrets_update(
url: str,
auth: str,
encryption_key: str,
user_agent: str,
session_id: str,
request_id: int,
entry_id: str,
entry_name: str,
entry_folder: str,
secrets_obj: dict[str, str],
) -> dict[str, Any]:
payload = {
"jsonrpc": "2.0",
"id": request_id,
"method": "tools/call",
"params": {
"name": "secrets_update",
"arguments": {
"id": entry_id,
"name": entry_name,
"folder": entry_folder,
"secrets_obj": secrets_obj,
# Pass the key as an argument too, so repair can still work
# even when a client/proxy mishandles custom headers.
"encryption_key": encryption_key,
},
},
}
status, _, body = post_json(
url, payload, auth, encryption_key, user_agent, session_id
)
items = parse_sse_json(body)
last = items[-1] if items else {"raw": body[:1000]}
if status != 200:
raise RuntimeError(
f"secrets_update failed for {entry_id}: status={status}, body={body[:500]}"
)
return last
def main() -> int:
args = parse_args()
try:
url, auth, encryption_key = resolve_connection_settings(args)
updates = load_updates(args.csv)
except Exception as exc:
print(f"ERROR: {exc}", file=sys.stderr)
return 1
print(f"Loaded {len(updates)} entries from {args.csv}")
if args.dry_run:
for entry_id, secrets_obj in updates.items():
print(
json.dumps(
{"id": entry_id, "secrets_obj": secrets_obj},
ensure_ascii=False,
indent=2,
)
)
return 0
try:
session_id = initialize_session(url, auth, encryption_key, args.user_agent)
entry_index = load_entry_index(
url, auth, encryption_key, args.user_agent, session_id
)
except Exception as exc:
print(f"ERROR: {exc}", file=sys.stderr)
return 1
success = 0
failures = 0
for request_id, (entry_id, secrets_obj) in enumerate(updates.items(), start=2):
try:
if entry_id not in entry_index:
raise RuntimeError(
f"entry id not found in secrets_find results: {entry_id}"
)
entry_name, entry_folder = entry_index[entry_id]
result = call_secrets_update(
url,
auth,
encryption_key,
args.user_agent,
session_id,
request_id,
entry_id,
entry_name,
entry_folder,
secrets_obj,
)
if "error" in result:
failures += 1
print(
json.dumps(
{"id": entry_id, "status": "error", "result": result},
ensure_ascii=False,
),
file=sys.stderr,
)
else:
success += 1
print(
json.dumps(
{"id": entry_id, "status": "ok", "result": result},
ensure_ascii=False,
)
)
except Exception as exc:
failures += 1
print(f"{entry_id}: ERROR: {exc}", file=sys.stderr)
print(f"Done. success={success} failure={failures}")
return 0 if failures == 0 else 2
if __name__ == "__main__":
raise SystemExit(main())