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54 Commits

Author SHA1 Message Date
soul-walker
e502f5b6a5 添加发布电子地图数据查询接口
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2024-11-13 17:47:37 +08:00
soul-walker
7a64171b96 添加草稿电子地图数据创建,查询相关接口
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2024-11-13 14:39:19 +08:00
soul-walker
8791aee96c 组织、用户等数据访问接口调整
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build / build-rust (push) Successful in 2m21s
获取组织、用户等接口新增或更新
2024-11-12 09:27:23 +08:00
soul-walker
61de18077e 1 添加用户密码加密、验证
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build / build-rust (push) Successful in 3m7s
2 添加用户名、邮箱等是否已经存在接口
2024-11-07 23:09:36 +08:00
soul-walker
25a63b1fb7 1 数据库定义调整
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2 数据库访问模块用户、组织、组织用户基础功能接口实现并测试
3 添加数据库超级管理员用户和默认组织初始化
4 用户注册登录、组织、组织用户相关基本GraphQL接口开发,登录接口测试
2024-11-07 18:06:42 +08:00
soul-walker
15df0ca22c 数据库结构定义:添加组织及相关关系表 2024-11-01 15:14:51 +08:00
soul-walker
5ce122af28 修改配置错误
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2024-10-31 17:40:38 +08:00
soul-walker
2ac74d5d76 修改CICD
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build / build-rust (push) Successful in 6m21s
2024-10-31 15:56:01 +08:00
soul-walker
f90e4048ef 修改gitea-actions
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build / build-rust (push) Failing after 5m47s
2024-10-31 15:45:02 +08:00
soul-walker
50ed464ff2 submodule 更新 2024-10-31 15:43:01 +08:00
soul-walker
505230b26c 1 重构rtsa_mqtt库,添加路由请求响应功能
2 修改库命名rtss->rtsa
2024-10-31 15:12:26 +08:00
soul-walker
2e1eecfdad 项目结构大调整 2024-10-30 09:47:31 +08:00
soul-walker
4d8c0e0bad 同步submodule 2024-10-23 09:16:10 +08:00
soul-walker
7226904e04 1, 添加创建更新城市轨道交通仿真功能接口
2, 添加mqtt客户端crate,提供订阅、发布、发送请求等功能
2024-10-22 17:24:50 +08:00
soul-walker
3798572b0c 调整数据库表结构定义
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添加feature数据库访问功能及实现
添加feature几个api接口及实现
调整数据库模型枚举字段使用枚举取代i32
添加设计文档
2024-09-26 20:45:48 +08:00
soul-walker
176d9b09e4 发布版本数据api添加用户name字段
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2024-09-26 13:22:42 +08:00
soul-walker
18207bee18 修改用户分页查询bug
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2024-09-26 09:58:59 +08:00
soul-walker
f70e08e5e8 添加用户表
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build / build-rust (push) Successful in 3m36s
添加用户同步,查询等接口
添加获取jwt接口
实现草稿数据、发布数据用户name关联查询
2024-09-25 18:35:45 +08:00
soul-walker
2d6d74d41e 修改用户数据查询接口参数
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2024-09-24 09:30:55 +08:00
soul-walker
255301509a 修改接口获取userInfo bug
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2024-09-23 17:56:10 +08:00
soul-walker
aae184e891 重新修改使用rustls以支持跨平台编译
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2024-09-23 16:51:39 +08:00
soul-walker
a3994f0218 调整cicd build
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build / build-rust (push) Failing after 1m26s
2024-09-23 16:37:50 +08:00
soul-walker
bf9b3f501c 修改cicd(使用自己构建的docker镜像打包,reqwest还原使用openssl)
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build / build-rust (push) Failing after 43s
2024-09-23 15:41:40 +08:00
soul-walker
c52a6c813c 尝试修复build报错:ring@0.17.8: Compiler family detection failed due to error: ToolNotFound: Failed to find tool. Is musl-gcc installed?
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build / build-rust (push) Failing after 3m49s
2024-09-23 14:07:03 +08:00
soul-walker
54adab0e21 修改reqwest使用rustls-tls(不使用默认的default feature,否则还是会依赖default-tls也就是依赖系统的openssl)
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build / build-rust (push) Failing after 1m39s
2024-09-23 13:46:29 +08:00
soul-walker
29d249c33b 修改reqwest使用rustls-tls(使用默认的openssl在打包时对环境有要求,暂时先换这个试试)
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2024-09-23 13:32:06 +08:00
soul-walker
a0967e7583 添加用户auth相关功能
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build / build-rust (push) Failing after 1m40s
调整草稿和发布数据接口(需要user_id的从context中获取用户信息)
2024-09-23 13:24:14 +08:00
soul-walker
c1a4a3701e 草稿数据添加关联查询default_release_data_name
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2024-09-20 17:39:16 +08:00
soul-walker
ef38fe0566 分页查询iscs发布数据接口调整
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options查询调整
2024-09-20 17:00:03 +08:00
soul-walker
930dbda334 修改发布数据唯一查询接口
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build / build-rust (push) Successful in 2m27s
2024-09-20 15:45:10 +08:00
soul-walker
e8fa4d119c 修改草稿另存为bug
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2024-09-20 15:31:11 +08:00
soul-walker
df4c9940f3 修改从发布版本创建草稿接口bug
添加发布数据查询description功能(通过dataloader)
2024-09-20 15:23:31 +08:00
soul-walker
6ddc4fd110 发布数据版本表添加options列
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build / build-rust (push) Successful in 2m30s
调整草稿及发布数据接口定义
添加发布数据查询和修改接口
2024-09-20 12:31:18 +08:00
soul-walker
ed45a08ad7 调整接口结构
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build / build-rust (push) Successful in 2m26s
添加发布数据的几个接口
删除发布数据版本表的版本字段
2024-09-19 21:25:52 +08:00
soul-walker
b64200284a 草稿分页查询添加列
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2024-09-19 13:57:59 +08:00
soul-walker
957946a822 dockerfile添加时区
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2024-09-19 11:58:32 +08:00
soul-walker
d9b8b38590 调整数据库默认时间定义
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修改接口返回为NaiveDateTime
2024-09-19 11:03:05 +08:00
soul-walker
50a0799f28 修改草稿api返回值类型
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build / build-rust (push) Successful in 2m23s
2024-09-19 09:07:24 +08:00
soul-walker
2a7a2ffc99 草稿和发布数据添加options配置项
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实现配置项相关的CRUD
调整草稿数据管理接口
2024-09-19 00:07:53 +08:00
soul-walker
875788a71d 草稿数据添加是否共享字段
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build / build-rust (push) Successful in 2m17s
添加草稿数据相关管理接口
2024-09-18 15:10:11 +08:00
soul-walker
e0169dfc06 修改CICD
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2024-09-15 14:27:11 +08:00
soul-walker
b868507bb0 修改CICD,使用软链接处理Rust环境问题,删除sudo
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build / build-rust (push) Successful in 6m6s
2024-09-15 14:19:36 +08:00
soul-walker
eb239b659a 修改CICD,使用软链接处理Rust环境问题
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2024-09-15 14:16:53 +08:00
soul-walker
82ce88a92e 修改CICD发布docker run bug
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2024-09-15 13:28:20 +08:00
soul-walker
8350c6600f 修改CICD发布docker run bug
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build / build-rust (push) Successful in 5m27s
2024-09-15 13:12:01 +08:00
soul-walker
83d4020d61 修改prost_build不在release模式执行
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2024-09-15 11:13:08 +08:00
soul-walker
8b59751038 修改CICD将Rust代理export写入bashrc
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2024-09-15 10:50:19 +08:00
soul-walker
41614d2c2b 修改CICD安装Rust环境bug5,尝试解决3
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2024-09-15 10:36:30 +08:00
soul-walker
b6d8aea3a9 修改CICD安装Rust环境bug5,尝试解决2
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2024-09-15 10:26:48 +08:00
soul-walker
5b570cd036 修改CICD安装Rust环境bug4,尝试解决
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2024-09-15 10:21:15 +08:00
soul-walker
d27bfdda08 修改CICD安装Rust环境bug3,输出额外日志以检测问题
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build / build-rust (push) Failing after 1m30s
2024-09-15 10:03:37 +08:00
soul-walker
c1b2e70989 修改CICD安装Rust环境bug2
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2024-09-15 09:59:56 +08:00
soul-walker
d50404736f 修改CICD安装Rust环境bug
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2024-09-15 09:55:52 +08:00
soul-walker
2ac1c1b826 修改CICD问题
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2024-09-15 00:38:05 +08:00
127 changed files with 10357 additions and 2251 deletions

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@ -7,18 +7,20 @@ on:
jobs:
build-rust:
runs-on: joylink-local233
runs-on: joylink-local233-rust
steps:
- name: 检出代码
uses: https://gitea.joylink.club/actions/checkout@v4
with:
submodules: recursive
- name: Install Rust
- uses: https://gitea.joylink.club/actions/rust-cache@v2
with:
cache-on-failure: true
cache-all-crates: true
- name: Install musl-tools
run: apt-get update && apt-get install -y musl-tools
- name: build Release
run: |
export RUSTUP_DIST_SERVER="https://rsproxy.cn"
export RUSTUP_UPDATE_ROOT="https://rsproxy.cn/rustup"
curl --proto '=https' --tlsv1.2 -sSf https://rsproxy.cn/rustup-init.sh | sh
mkdir -p ~/.cargo
echo '[source.crates-io]' > ~/.cargo/config.toml
echo 'replace-with = "rsproxy-sparse"' >> ~/.cargo/config.toml
echo '[source.rsproxy]' >> ~/.cargo/config.toml
@ -29,10 +31,9 @@ jobs:
echo 'index = "https://rsproxy.cn/crates.io-index"' >> ~/.cargo/config.toml
echo '[net]' >> ~/.cargo/config.toml
echo 'git-fetch-with-cli = true' >> ~/.cargo/config.toml
cat ~/.cargo/config.toml
- uses: https://gitea.joylink.club/actions/rust-cache@v2
- name: build Release
run: |
cat $HOME/.cargo/config.toml
. ~/.bashrc
echo $PATH
rustup target add x86_64-unknown-linux-musl
cargo build --release --target x86_64-unknown-linux-musl
- name: 设置 Docker
@ -49,10 +50,10 @@ jobs:
uses: https://gitea.joylink.club/docker/build-push-action@v5
with:
context: .
file: ./Dockerfile
file: ./Dockerfile-manager
push: true
tags: |
gitea.joylink.club/joylink/rtss-simulation:local-test
gitea.joylink.club/joylink/rtsam:lt
- name: 发布到本地测试环境
uses: https://gitea.joylink.club/appleboy/ssh-action@v1.0.3
with:
@ -61,6 +62,6 @@ jobs:
username: ${{ secrets.LOCAL_233_SSH_USER }}
password: ${{ secrets.LOCAL_233_SSH_PASSWORD }}
script: |
docker rm -f rtss-simulation || echo "rtss-simulation not exist"
docker pull gitea.joylink.club/joylink/rtss-simulation:local-test
docker run --name rtss-simulation --restart=always -e RUN_MODE=local-test --network net --ip 10.11.11.11 -d -p 8765:8765 -v /usr/local/joylink/logs/simulation:/logs/simulation gitea.joylink.club/joylink/rtss-simulation:local-test
docker rm -f rtsa-manage || echo "rtsa-manage not exist"
docker pull gitea.joylink.club/joylink/rtsam:lt
docker run --name rtsa-manage --restart=always -e RUN_MODE=local_test --network jlnet --ip 10.11.11.11 -d -p 8765:8765 -v /usr/local/joylink/logs/simulation:/logs/simulation gitea.joylink.club/joylink/rtsam:lt

1
.gitignore vendored
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@ -1 +1,2 @@
/target
.env

6
.gitmodules vendored
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@ -1,3 +1,3 @@
[submodule "rtss-proto-msg"]
path = rtss-proto-msg
url = https://gitea.joylink.club/joylink/rtss-proto-msg.git
[submodule "rtsa-proto-msg"]
path = rtsa-proto-msg
url = https://gitea.joylink.club/joylink/rtsa-proto-msg.git

16
.vscode/launch.json vendored Normal file
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@ -0,0 +1,16 @@
{
// Use IntelliSense to learn about possible attributes.
// Hover to view descriptions of existing attributes.
// For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387
"version": "0.2.0",
"configurations": [
{
"type": "lldb",
"request": "launch",
"name": "Debug",
"program": "${workspaceFolder}/<executable file>",
"args": [],
"cwd": "${workspaceFolder}"
}
]
}

14
.vscode/settings.json vendored
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@ -2,6 +2,8 @@
"cSpell.words": [
"chrono",
"cpus",
"dashmap",
"eventloop",
"Graphi",
"graphiql",
"hashbrown",
@ -11,13 +13,23 @@
"Joylink",
"jsonwebtoken",
"mplj",
"Mqtt",
"mqttbytes",
"Neng",
"nextval",
"oneshot",
"otype",
"plpgsql",
"prost",
"proto",
"protoc",
"protos",
"repr",
"rtss",
"reqwest",
"rtsa",
"rtsa",
"rumqtt",
"rumqttc",
"sqlx",
"sysinfo",
"thiserror",

827
Cargo.lock generated

File diff suppressed because it is too large Load Diff

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@ -1,12 +1,7 @@
[package]
name = "rtss_simulation"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[workspace]
members = ["crates/*"]
members = ["crates/*", "manager", "simulation"]
resolver = "2"
[workspace.dependencies]
bevy_app = "0.14"
@ -14,24 +9,22 @@ bevy_core = "0.14"
bevy_ecs = "0.14"
bevy_time = "0.14"
rayon = "1.10"
tokio = { version = "1.40", features = ["macros", "rt-multi-thread"] }
thiserror = "1.0"
tokio = { version = "1.41.0", features = ["macros", "rt-multi-thread"] }
thiserror = "1.0.65"
sqlx = { version = "0.8", features = [
"runtime-tokio",
"postgres",
"json",
"chrono",
] }
serde = { version = "1.0", features = ["derive"] }
anyhow = "1.0"
[dependencies]
tokio = { version = "1.39.3", features = ["macros", "rt-multi-thread"] }
rtss_log = { path = "crates/rtss_log" }
rtss_api = { path = "crates/rtss_api" }
rtss_db = { path = "crates/rtss_db" }
serde = { workspace = true }
config = "0.14.0"
clap = { version = "4.5", features = ["derive"] }
serde = { version = "1.0.214", features = ["derive"] }
serde_json = "1.0.132"
anyhow = "1.0.91"
async-trait = "0.1.83"
bytes = "1.8.0"
lazy_static = "1.5.0"
config = "0.14.1"
clap = { version = "4.5.20", features = ["derive"] }
enum_dispatch = "0.3"
anyhow = { workspace = true }
tower = { version = "0.5.1", features = ["util"] }
regex = "1.11.1"

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@ -1,12 +0,0 @@
FROM alpine
ENV RUN_MODE=prod
WORKDIR /rtss_sim
COPY ./target/x86_64-unknown-linux-musl/release/rtss_simulation ./rtss_sim
COPY ./conf/* ./conf/
COPY ./migrations/* ./migrations/
EXPOSE 8765
CMD ["sh", "-c", "./rtss_sim db migrate && ./rtss_sim serve"]

21
Dockerfile-manager Normal file
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@ -0,0 +1,21 @@
FROM alpine
ENV RUN_MODE=prod
# 安装 tzdata 包
RUN apk add --no-cache tzdata
# 设置时区环境变量,例如设置为 Asia/Shanghai
ENV TZ=Asia/Shanghai
# 复制时区信息到系统时区目录
RUN cp /usr/share/zoneinfo/$TZ /etc/localtime && echo $TZ > /etc/timezone
WORKDIR /rtsa
COPY ./target/x86_64-unknown-linux-musl/release/manager ./rtsa_m
COPY ./manager/conf/* ./conf/
COPY ./migrations/* ./migrations/
EXPOSE 8765
CMD ["sh", "-c", "./rtsa_m db migrate && ./rtsa_m serve"]

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@ -1,4 +1,4 @@
[default.extend-words]
[files]
extend-exclude = ["README.md", "rtss-proto-msg/*"]
extend-exclude = ["README.md", "rtsa-proto-msg/*"]

27
crates/rtsa_db/Cargo.toml Normal file
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@ -0,0 +1,27 @@
[package]
name = "rtsa_db"
version = "0.1.0"
edition = "2021"
[dependencies]
anyhow = { workspace = true }
serde = { workspace = true }
serde_json = { workspace = true }
sqlx = { workspace = true, features = [
"runtime-tokio",
"macros",
"chrono",
"json",
"derive",
"postgres",
"uuid",
] }
thiserror = { workspace = true }
lazy_static = { workspace = true }
regex = { workspace = true }
argon2 = "0.5.3"
rand_core = { version = "0.6.4", features = ["std"] }
md-5 = "0.10.6"
rtsa_dto = { path = "../rtsa_dto" }
rtsa_log = { path = "../rtsa_log" }

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@ -107,12 +107,12 @@ impl Display for SortOrder {
}
#[derive(Debug)]
pub struct PageResult<T> {
pub struct PageData<T> {
pub total: i64,
pub data: Vec<T>,
}
impl<T> PageResult<T> {
impl<T> PageData<T> {
pub fn new(total: i64, data: Vec<T>) -> Self {
Self { total, data }
}

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@ -1,29 +1,34 @@
use std::vec;
use rtss_dto::common::DataType;
use rtss_log::tracing::debug;
use rtsa_log::tracing::debug;
use serde_json::Value;
use crate::{
common::{PageQuery, PageResult, Sort, SortOrder, TableColumn},
common::{PageData, PageQuery, Sort, SortOrder, TableColumn},
model::{DraftDataColumn, DraftDataModel},
DbAccessError,
};
use super::RtssDbAccessor;
use super::RtsaDbAccessor;
/// 草稿数据管理
#[allow(async_fn_in_trait)]
pub trait DraftDataAccessor {
/// 查询用户草稿数据
async fn query_draft_data(
/// 查询所有草稿数据
async fn paging_query_draft_data(
&self,
query: DraftDataQuery,
page: PageQuery,
) -> Result<PageResult<DraftDataModel>, DbAccessError>;
) -> Result<PageData<DraftDataModel>, DbAccessError>;
/// 根据id查询草稿数据
async fn query_draft_data_by_id(&self, id: i32) -> Result<DraftDataModel, DbAccessError>;
/// 是否user_id+name的数据已存在
async fn is_draft_data_exist(&self, user_id: i32, name: &str) -> Result<bool, DbAccessError>;
/// 是否user_id+data_type+name的数据已存在
async fn is_draft_data_exist(
&self,
user_id: i32,
data_type: i32,
name: &str,
) -> Result<bool, DbAccessError>;
/// 创建草稿数据基本信息
async fn create_draft_data(
&self,
@ -41,6 +46,12 @@ pub trait DraftDataAccessor {
id: i32,
data: &[u8],
) -> Result<DraftDataModel, DbAccessError>;
/// 设置草稿数据共享
async fn set_draft_data_shared(
&self,
id: i32,
is_shared: bool,
) -> Result<DraftDataModel, DbAccessError>;
/// 删除草稿数据
async fn delete_draft_data(&self, id: &[i32]) -> Result<(), DbAccessError>;
/// 设置默认发布数据id
@ -62,10 +73,16 @@ pub trait DraftDataAccessor {
pub struct DraftDataQuery {
pub user_id: Option<i32>,
pub name: Option<String>,
pub data_type: Option<DataType>,
pub data_type: Option<i32>,
pub options: Option<Value>,
pub is_shared: Option<bool>,
}
impl DraftDataQuery {
pub fn new() -> Self {
Default::default()
}
pub fn with_user_id(mut self, user_id: i32) -> Self {
self.user_id = Some(user_id);
self
@ -76,11 +93,26 @@ impl DraftDataQuery {
self
}
pub fn with_data_type(mut self, data_type: DataType) -> Self {
pub fn with_data_type(mut self, data_type: i32) -> Self {
self.data_type = Some(data_type);
self
}
pub fn with_is_shared(mut self, is_shared: bool) -> Self {
self.is_shared = Some(is_shared);
self
}
pub fn with_option_options(mut self, options: Option<Value>) -> Self {
self.options = options;
self
}
pub fn with_options(mut self, options: Value) -> Self {
self.options = Some(options);
self
}
fn build_filter(&self) -> String {
let mut filters = vec![];
if let Some(user_id) = self.user_id {
@ -97,7 +129,21 @@ impl DraftDataQuery {
filters.push(format!(
"{} = {}",
DraftDataColumn::DataType.name(),
data_type as i32
data_type
));
}
if let Some(is_shared) = self.is_shared {
filters.push(format!(
"{} = {}",
DraftDataColumn::IsShared.name(),
is_shared
));
}
if let Some(options) = &self.options {
filters.push(format!(
"{} @> '{}'",
DraftDataColumn::Options.name(),
serde_json::to_string(options).unwrap()
));
}
if filters.is_empty() {
@ -110,40 +156,60 @@ impl DraftDataQuery {
pub struct CreateDraftData {
name: String,
data_type: DataType,
data_type: i32,
options: Option<Value>,
data: Option<Vec<u8>>,
default_release_data_id: Option<i32>,
user_id: i32,
}
impl CreateDraftData {
pub fn new(name: &str, data_type: DataType, user_id: i32) -> Self {
pub fn new(name: &str, data_type: i32, user_id: i32) -> Self {
CreateDraftData {
name: name.to_string(),
data_type,
options: None,
data: None,
default_release_data_id: None,
user_id,
}
}
pub fn with_option_options(mut self, options: Option<Value>) -> Self {
self.options = options;
self
}
pub fn with_options(mut self, options: Value) -> Self {
self.options = Some(options);
self
}
pub fn with_data(mut self, data: &[u8]) -> Self {
self.data = Some(data.to_vec());
self
}
pub fn with_option_default_release_data_id(
mut self,
default_release_data_id: Option<i32>,
) -> Self {
self.default_release_data_id = default_release_data_id;
self
}
pub fn with_default_release_data_id(mut self, default_release_data_id: i32) -> Self {
self.default_release_data_id = Some(default_release_data_id);
self
}
}
impl DraftDataAccessor for RtssDbAccessor {
async fn query_draft_data(
impl DraftDataAccessor for RtsaDbAccessor {
async fn paging_query_draft_data(
&self,
query: DraftDataQuery,
page: PageQuery,
) -> Result<PageResult<DraftDataModel>, DbAccessError> {
) -> Result<PageData<DraftDataModel>, DbAccessError> {
let table = DraftDataColumn::Table.name();
let where_clause = query.build_filter();
let sql = format!("SELECT COUNT(*) FROM {table} {where_clause}");
@ -153,15 +219,18 @@ impl DraftDataAccessor for RtssDbAccessor {
let total: i64 = sqlx::query_scalar(&sql).fetch_one(&self.pool).await?;
if total == 0 {
return Ok(PageResult::new(total, vec![]));
return Ok(PageData::new(total, vec![]));
}
let select_columns = format!(
"{}, {}, {}, {}, {}, {}",
"{}, {}, {}, {}, {}, {}, {}, {}, {}",
DraftDataColumn::Id.name(),
DraftDataColumn::Name.name(),
DraftDataColumn::DataType.name(),
DraftDataColumn::Options.name(),
DraftDataColumn::UserId.name(),
DraftDataColumn::DefaultReleaseDataId.name(),
DraftDataColumn::IsShared.name(),
DraftDataColumn::CreatedAt.name(),
DraftDataColumn::UpdatedAt.name(),
);
@ -175,7 +244,7 @@ impl DraftDataAccessor for RtssDbAccessor {
debug!("paging sql: {}", paging_sql);
let list: Vec<DraftDataModel> = sqlx::query_as(&paging_sql).fetch_all(&self.pool).await?;
Ok(PageResult::new(total, list))
Ok(PageData::new(total, list))
}
async fn query_draft_data_by_id(&self, id: i32) -> Result<DraftDataModel, DbAccessError> {
@ -186,19 +255,25 @@ impl DraftDataAccessor for RtssDbAccessor {
Ok(draft_data)
}
async fn is_draft_data_exist(&self, user_id: i32, name: &str) -> Result<bool, DbAccessError> {
async fn is_draft_data_exist(
&self,
user_id: i32,
data_type: i32,
name: &str,
) -> Result<bool, DbAccessError> {
let table = DraftDataColumn::Table.name();
let filter = format!(
"WHERE {} = '{}' AND {} = {}",
DraftDataColumn::Name.name(),
name,
DraftDataColumn::UserId.name(),
user_id
);
let sql = format!("SELECT COUNT(*) FROM {table} {filter}");
let user_id_column = DraftDataColumn::UserId.name();
let data_type_column = DraftDataColumn::DataType.name();
let name_column = DraftDataColumn::Name.name();
let sql = format!("SELECT COUNT(*) FROM {table} WHERE {user_id_column} = $1 AND {data_type_column} = $2 AND {name_column} = $3",);
// log sql
debug!("draft data exist check sql: {}", sql);
let count: i64 = sqlx::query_scalar(&sql).fetch_one(&self.pool).await?;
let count: i64 = sqlx::query_scalar(&sql)
.bind(user_id)
.bind(data_type)
.bind(name)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
@ -209,29 +284,33 @@ impl DraftDataAccessor for RtssDbAccessor {
) -> Result<DraftDataModel, DbAccessError> {
// 检查是否已存在
let exist = self
.is_draft_data_exist(create.user_id, &create.name)
.is_draft_data_exist(create.user_id, create.data_type, &create.name)
.await?;
if exist {
return Err(DbAccessError::RowExist);
return Err(DbAccessError::RowExist(
"uid + data_type + name".to_string(),
));
}
// 插入数据
let table = DraftDataColumn::Table.name();
let columns = format!(
"{}, {}, {}, {}, {}",
"{}, {}, {}, {}, {}, {}",
DraftDataColumn::Name.name(),
DraftDataColumn::DataType.name(),
DraftDataColumn::Options.name(),
DraftDataColumn::UserId.name(),
DraftDataColumn::Data.name(),
DraftDataColumn::DefaultReleaseDataId.name(),
);
let sql =
format!("INSERT INTO {table} ({columns}) VALUES ($1, $2, $3, $4, $5) RETURNING *",);
format!("INSERT INTO {table} ({columns}) VALUES ($1, $2, $3, $4, $5, $6) RETURNING *",);
// log sql
debug!("create sql: {}", sql);
// 插入数据
let draft_data: DraftDataModel = sqlx::query_as(&sql)
.bind(create.name)
.bind(create.data_type as i32)
.bind(create.data_type)
.bind(create.options)
.bind(create.user_id)
.bind(create.data)
.bind(create.default_release_data_id)
@ -283,6 +362,27 @@ impl DraftDataAccessor for RtssDbAccessor {
Ok(draft_data)
}
async fn set_draft_data_shared(
&self,
id: i32,
is_shared: bool,
) -> Result<DraftDataModel, DbAccessError> {
let table = DraftDataColumn::Table.name();
let is_shared_column = DraftDataColumn::IsShared.name();
let updated_at_column = DraftDataColumn::UpdatedAt.name();
let id_column = DraftDataColumn::Id.name();
let sql = format!("UPDATE {table} SET {is_shared_column} = $1, {updated_at_column} = 'now()' WHERE {id_column} = $2 RETURNING *",);
// log sql
debug!("set shared sql: {}", sql);
let draft_data = sqlx::query_as(&sql)
.bind(is_shared)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(draft_data)
}
async fn delete_draft_data(&self, ids: &[i32]) -> Result<(), DbAccessError> {
let table = DraftDataColumn::Table.name();
let id_column = DraftDataColumn::Id.name();
@ -323,30 +423,87 @@ impl DraftDataAccessor for RtssDbAccessor {
user_id: i32,
) -> Result<DraftDataModel, DbAccessError> {
let draft_data = self.query_draft_data_by_id(draft_id).await?;
let create = CreateDraftData::new(
name,
DataType::try_from(draft_data.data_type).unwrap(),
user_id,
)
.with_data(draft_data.data.as_ref().unwrap());
let create = CreateDraftData::new(name, draft_data.data_type, user_id)
.with_option_options(draft_data.options)
.with_data(draft_data.data.as_ref().unwrap())
.with_option_default_release_data_id(draft_data.default_release_data_id);
self.create_draft_data(create).await
}
}
#[cfg(test)]
mod tests {
use crate::{RegisterUser, UserAccessor};
use super::*;
use rtss_log::tracing::Level;
use rtsa_log::tracing::Level;
use serde::{Deserialize, Serialize};
use sqlx::PgPool;
/// 数据类型
#[derive(
sqlx::Type,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
)]
#[repr(i32)]
pub enum DataType {
/// 数据类型未知
Unknown = 0,
/// 电子地图数据
Em = 1,
/// ISCS数据
Iscs = 4,
}
/// 数据类型
#[derive(
sqlx::Type,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
)]
#[repr(i32)]
pub enum IscsStyle {
/// 数据类型未知
Unknown = 0,
/// 电子地图数据
Style1 = 1,
}
#[derive(Debug, Serialize, Deserialize)]
pub struct IscsDataOptions {
pub style: IscsStyle,
}
// You could also do `use foo_crate::MIGRATOR` and just refer to it as `MIGRATOR` here.
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn basic_use_test(pool: PgPool) -> Result<(), DbAccessError> {
rtss_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = crate::db_access::RtssDbAccessor::new(pool);
rtsa_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = crate::db_access::RtsaDbAccessor::new(pool);
// 注册10个用户
for i in 0..10 {
let user = RegisterUser::new(&format!("test{}", i), "123456");
accessor.register_user(user).await?;
}
// 创建草稿数据测试
let res = accessor
.create_draft_data(CreateDraftData::new("test", DataType::Em, 10))
.create_draft_data(CreateDraftData::new("test", DataType::Em as i32, 10))
.await?;
println!("res: {:?}", res);
@ -355,11 +512,11 @@ mod tests {
// 重复创建测试
let repeat_create_result = accessor
.create_draft_data(CreateDraftData::new("test", DataType::Em, 10))
.create_draft_data(CreateDraftData::new("test", DataType::Em as i32, 10))
.await;
if let Some(e) = repeat_create_result.err() {
match e {
DbAccessError::RowExist => {
DbAccessError::RowExist(_) => {
println!("repeat create test pass");
}
_ => {
@ -384,12 +541,21 @@ mod tests {
println!("{:?}", get_by_id);
assert!(get_by_id.data.unwrap() == data);
// set shared测试
let get_by_id = accessor.set_draft_data_shared(res.id, true).await?;
assert!(get_by_id.is_shared);
// save as new draft测试
let new_draft = accessor.save_as_new_draft(res.id, "new draft", 11).await?;
let new_draft = accessor.save_as_new_draft(res.id, "new draft", 9).await?;
println!("{:?}", new_draft);
assert_eq!(new_draft.name, "new draft");
assert_eq!(new_draft.user_id, 11);
assert_eq!(new_draft.user_id, 9);
assert_eq!(new_draft.options, res.options);
assert_eq!(new_draft.data.unwrap(), data);
assert_eq!(
new_draft.default_release_data_id,
res.default_release_data_id
);
// delete测试
accessor.delete_draft_data(&[res.id, new_draft.id]).await?;
@ -407,14 +573,7 @@ mod tests {
// 查询确认当前数据已删除
let page = accessor
.query_draft_data(
DraftDataQuery {
user_id: None,
name: None,
data_type: None,
},
PageQuery::new(1, 100),
)
.paging_query_draft_data(DraftDataQuery::new(), PageQuery::new(1, 100))
.await?;
assert_eq!(page.total, 0);
@ -422,36 +581,71 @@ mod tests {
// 分四个user_id各插入5条数据
for i in 1..5 {
for j in 1..6 {
accessor
.create_draft_data(CreateDraftData::new(&format!("test{}", j), DataType::Em, i))
.await?;
if i == 1 {
let draft = accessor
.create_draft_data(
CreateDraftData::new(&format!("test{}", j), DataType::Iscs as i32, i)
.with_options(
serde_json::to_value(IscsDataOptions {
style: IscsStyle::Style1,
})
.unwrap(),
),
)
.await?;
println!("{:?}", draft);
accessor.set_draft_data_shared(draft.id, true).await?;
} else {
accessor
.create_draft_data(CreateDraftData::new(
&format!("test{}", j),
DataType::Em as i32,
i,
))
.await?;
}
}
}
let page = accessor
.query_draft_data(
DraftDataQuery {
user_id: Some(1),
name: Some("test".to_string()),
data_type: Some(DataType::Em),
},
.paging_query_draft_data(
DraftDataQuery::new()
.with_user_id(2)
.with_name("test".to_string())
.with_data_type(DataType::Em as i32),
PageQuery::new(1, 10),
)
.await?;
assert_eq!(page.total, 5);
let page = accessor
.query_draft_data(
DraftDataQuery {
user_id: None,
name: None,
data_type: None,
},
PageQuery::new(1, 100),
)
.paging_query_draft_data(DraftDataQuery::new(), PageQuery::new(1, 100))
.await?;
assert_eq!(page.total, 20);
// 查询共享数据
let page = accessor
.paging_query_draft_data(
DraftDataQuery::new().with_is_shared(true),
PageQuery::new(1, 10),
)
.await?;
assert_eq!(page.total, 5);
// 查询options
let page = accessor
.paging_query_draft_data(
DraftDataQuery::new().with_options(
serde_json::to_value(IscsDataOptions {
style: IscsStyle::Style1,
})
.unwrap(),
),
PageQuery::new(1, 10),
)
.await?;
assert_eq!(page.total, 5);
Ok(())
}
}

View File

@ -0,0 +1,340 @@
use rtsa_dto::common::FeatureType;
use serde_json::Value;
use crate::{
common::{PageData, PageQuery, TableColumn},
model::{FeatureColumn, FeatureModel},
DbAccessError,
};
use super::RtsaDbAccessor;
/// 功能特性管理
#[allow(async_fn_in_trait)]
pub trait FeatureAccessor {
/// 创建功能特性
async fn create_feature(&self, feature: &CreateFeature) -> Result<FeatureModel, DbAccessError>;
/// 更新功能特性
async fn update_feature(&self, feature: &UpdateFeature) -> Result<FeatureModel, DbAccessError>;
/// 上下架功能特性
async fn set_feature_published(
&self,
feature_id: i32,
is_published: bool,
) -> Result<FeatureModel, DbAccessError>;
/// 分页查询功能特性
async fn paging_query_features(
&self,
page: PageQuery,
filter: &FeaturePagingFilter,
) -> Result<PageData<FeatureModel>, DbAccessError>;
/// 获取id对应的功能特性
async fn get_feature(&self, id: i32) -> Result<FeatureModel, DbAccessError>;
/// 根据id列表获取功能特性基本信息
async fn get_features(&self, ids: &[i32]) -> Result<Vec<FeatureModel>, DbAccessError>;
}
impl FeatureAccessor for RtsaDbAccessor {
async fn create_feature(&self, feature: &CreateFeature) -> Result<FeatureModel, DbAccessError> {
let table = FeatureColumn::Table.name();
let feature_type_column = FeatureColumn::FeatureType.name();
let name_column = FeatureColumn::Name.name();
let description_column = FeatureColumn::Description.name();
let config_column = FeatureColumn::Config.name();
let creator_id_column = FeatureColumn::CreatorId.name();
let updater_id_column = FeatureColumn::UpdaterId.name();
let sql = format!(
"INSERT INTO {table} ({feature_type_column}, {name_column}, {description_column}, {config_column}, {creator_id_column}, {updater_id_column}) VALUES ($1, $2, $3, $4, $5, $6) RETURNING *",
);
let row = sqlx::query_as::<_, FeatureModel>(&sql)
.bind(feature.feature_type)
.bind(&feature.name)
.bind(&feature.description)
.bind(&feature.config)
.bind(feature.creator_id)
.bind(feature.creator_id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn update_feature(&self, feature: &UpdateFeature) -> Result<FeatureModel, DbAccessError> {
let table = FeatureColumn::Table.name();
let name_column = FeatureColumn::Name.name();
let description_column = FeatureColumn::Description.name();
let config_column = FeatureColumn::Config.name();
let updater_id_column = FeatureColumn::UpdaterId.name();
let update_at_column = FeatureColumn::UpdatedAt.name();
let sql = format!(
"UPDATE {table} SET {name_column} = $1, {description_column} = $2, {config_column} = $3, {updater_id_column} = $4, {update_at_column} = 'now()' WHERE id = $5 RETURNING *",
);
let row = sqlx::query_as::<_, FeatureModel>(&sql)
.bind(&feature.name)
.bind(&feature.description)
.bind(&feature.config)
.bind(feature.updater_id)
.bind(feature.id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn set_feature_published(
&self,
feature_id: i32,
is_published: bool,
) -> Result<FeatureModel, DbAccessError> {
let table = FeatureColumn::Table.name();
let is_published_column = FeatureColumn::IsPublished.name();
let update_at_column = FeatureColumn::UpdatedAt.name();
let sql = format!(
"UPDATE {table} SET {is_published_column} = $1, {update_at_column} = 'now()' WHERE id = $2 RETURNING *",
);
let row = sqlx::query_as::<_, FeatureModel>(&sql)
.bind(is_published)
.bind(feature_id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn paging_query_features(
&self,
page: PageQuery,
filter: &FeaturePagingFilter,
) -> Result<PageData<FeatureModel>, DbAccessError> {
let table = FeatureColumn::Table.name();
let where_clause = filter.to_where_clause();
let total =
sqlx::query_scalar::<_, i64>(&format!("SELECT COUNT(*) FROM {table} {where_clause}",))
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageData::new(total, vec![]));
}
let update_at_column = FeatureColumn::UpdatedAt.name();
let select_columns = [
FeatureColumn::Id.name(),
FeatureColumn::FeatureType.name(),
FeatureColumn::Name.name(),
FeatureColumn::Description.name(),
FeatureColumn::IsPublished.name(),
FeatureColumn::CreatorId.name(),
FeatureColumn::UpdaterId.name(),
FeatureColumn::CreatedAt.name(),
FeatureColumn::UpdatedAt.name(),
];
let select_columns = select_columns.join(", ");
let limit_clause = page.to_limit_clause();
let sql = format!(
"SELECT {select_columns} FROM {table} {where_clause} ORDER BY {update_at_column} DESC {limit_clause}",
);
let rows = sqlx::query_as::<_, FeatureModel>(&sql)
.fetch_all(&self.pool)
.await?;
Ok(PageData::new(total, rows))
}
async fn get_feature(&self, id: i32) -> Result<FeatureModel, DbAccessError> {
let table = FeatureColumn::Table.name();
let id_column = FeatureColumn::Id.name();
let sql = format!("SELECT * FROM {table} WHERE {id_column} = $1",);
let row = sqlx::query_as::<_, FeatureModel>(&sql)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn get_features(&self, ids: &[i32]) -> Result<Vec<FeatureModel>, DbAccessError> {
let table = FeatureColumn::Table.name();
let id_column = FeatureColumn::Id.name();
let select_columns = [
FeatureColumn::Id.name(),
FeatureColumn::FeatureType.name(),
FeatureColumn::Name.name(),
FeatureColumn::Description.name(),
FeatureColumn::IsPublished.name(),
FeatureColumn::CreatorId.name(),
FeatureColumn::UpdaterId.name(),
FeatureColumn::CreatedAt.name(),
FeatureColumn::UpdatedAt.name(),
];
let select_columns = select_columns.join(", ");
let sql = format!("SELECT {select_columns} FROM {table} WHERE {id_column} = ANY($1)",);
let rows = sqlx::query_as::<_, FeatureModel>(&sql)
.bind(ids)
.fetch_all(&self.pool)
.await?;
Ok(rows)
}
}
#[derive(Debug)]
pub struct CreateFeature {
pub feature_type: FeatureType,
pub name: String,
pub description: String,
pub config: Value,
pub creator_id: i32,
}
#[derive(Debug)]
pub struct UpdateFeature {
pub id: i32,
pub name: String,
pub description: String,
pub config: Value,
pub updater_id: i32,
}
#[derive(Debug, Default)]
pub struct FeaturePagingFilter {
pub name: Option<String>,
pub feature_type: Option<i32>,
pub is_published: Option<bool>,
}
impl FeaturePagingFilter {
fn to_where_clause(&self) -> String {
let mut clauses = vec![];
if let Some(name) = &self.name {
clauses.push(format!("name like '%{}%'", name));
}
if let Some(feature_type) = self.feature_type {
clauses.push(format!("feature_type = {}", feature_type));
}
if let Some(is_published) = self.is_published {
clauses.push(format!("is_published = {}", is_published));
}
if clauses.is_empty() {
"".to_string()
} else {
format!("WHERE {}", clauses.join(" AND "))
}
}
}
#[cfg(test)]
mod tests {
use rtsa_log::tracing::Level;
use sqlx::PgPool;
use crate::{RegisterUser, UserAccessor};
use super::*;
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_basic_use(pool: PgPool) -> Result<(), DbAccessError> {
rtsa_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = crate::db_access::RtsaDbAccessor::new(pool);
// 注册10个用户
for i in 0..10 {
let user = RegisterUser::new(&format!("test{}", i), "123456");
accessor.register_user(user).await?;
}
// 创建测试
let creator_id = 1;
let create_config = Value::String("create".to_string());
let feature = CreateFeature {
feature_type: FeatureType::Ur,
name: "test".to_string(),
description: "test".to_string(),
config: create_config.clone(),
creator_id,
};
let feature = accessor.create_feature(&feature).await?;
println!("create feature: {:?}", feature);
assert_eq!(feature.creator_id, creator_id);
assert_eq!(feature.updater_id, creator_id);
assert!(feature.is_published);
assert_eq!(feature.config, create_config);
let feature_id = feature.id;
// 获取功能特性测试
let feature = accessor.get_feature(feature_id).await?;
println!("get feature: {:?}", feature);
assert_eq!(feature.id, feature_id);
assert_eq!(feature.creator_id, creator_id);
assert_eq!(feature.updater_id, creator_id);
assert!(feature.is_published);
assert_eq!(feature.config, create_config);
// 更新测试
let updater_id = 2;
let config = Value::String("config".to_string());
let feature = UpdateFeature {
id: feature_id,
name: "test update".to_string(),
description: "test update".to_string(),
config: config.clone(),
updater_id,
};
let feature = accessor.update_feature(&feature).await?;
println!("update feature: {:?}", feature);
assert_eq!(feature.updater_id, updater_id);
assert_eq!(feature.config, config);
assert!(feature.updated_at > feature.created_at);
// 上下架测试
let feature = accessor.set_feature_published(feature_id, false).await?;
println!("set feature published: {:?}", feature);
assert!(!feature.is_published);
// 分页查询测试
// 创建10个功能特性5个发布的5个未发布的
for i in 0..10 {
let feature = CreateFeature {
feature_type: FeatureType::Ur,
name: format!("test{}", i),
description: format!("test{}", i),
config: Value::Null,
creator_id,
};
let feature = accessor.create_feature(&feature).await?;
if i < 5 {
accessor.set_feature_published(feature.id, false).await?;
}
}
// 无过滤条件分页查询测试
let filter = FeaturePagingFilter::default();
let item_per_page = 10;
let page_result = accessor
.paging_query_features(PageQuery::new(1, item_per_page), &filter)
.await?;
assert_eq!(page_result.total, 11);
assert_eq!(page_result.data.len(), item_per_page as usize);
// 上架过滤条件分页查询测试
let filter = FeaturePagingFilter {
is_published: Some(true),
..Default::default()
};
let page_result = accessor
.paging_query_features(PageQuery::new(1, item_per_page), &filter)
.await?;
println!("published features: {:?}", page_result);
assert_eq!(page_result.total, 5);
assert_eq!(page_result.data.len(), 5);
// 名称过滤条件分页查询测试
let filter = FeaturePagingFilter {
name: Some("test".to_string()),
..Default::default()
};
let page_result = accessor
.paging_query_features(PageQuery::new(1, item_per_page), &filter)
.await?;
println!("name filter features: {:?}", page_result);
assert_eq!(page_result.total, 11);
assert_eq!(page_result.data.len(), item_per_page as usize);
// 根据id列表获取功能特性测试
let ids = page_result
.data
.iter()
.map(|f| f.id)
.skip(5)
.collect::<Vec<_>>();
let features = accessor.get_features(&ids).await?;
println!("get features: {:?}", features);
assert_eq!(features.len(), ids.len());
Ok(())
}
}

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@ -0,0 +1,96 @@
mod draft_data;
use std::sync::Mutex;
pub use draft_data::*;
mod release_data;
pub use release_data::*;
mod user;
use rtsa_log::tracing::error;
pub use user::*;
mod feature;
pub use feature::*;
use lazy_static::lazy_static;
mod org;
pub use org::*;
mod org_user;
pub use org_user::*;
use crate::{model::MqttClientIdSeq, DbAccessError};
lazy_static! {
static ref RDA: Mutex<Option<RtsaDbAccessor>> = Mutex::new(None);
}
/// 初始化全局默认数据库访问器
pub async fn init_default_db_accessor(url: &str) {
if RDA.lock().unwrap().is_some() {
error!("数据库访问器已初始化,请勿重复初始化");
return;
}
let accessor = get_db_accessor(url).await;
let mut rda = RDA.lock().unwrap();
*rda = Some(accessor);
}
/// 设置全局默认数据库访问器
pub fn set_default_db_accessor(accessor: RtsaDbAccessor) {
if RDA.lock().unwrap().is_some() {
error!("数据库访问器已初始化,请勿重复初始化");
return;
}
let mut rda = RDA.lock().unwrap();
*rda = Some(accessor);
}
/// 获取默认数据库访问器
pub fn get_default_db_accessor() -> RtsaDbAccessor {
let rda = RDA.lock().unwrap();
if rda.is_none() {
panic!("数据库访问器未初始化");
}
rda.as_ref().unwrap().clone()
}
#[derive(Clone)]
pub struct RtsaDbAccessor {
pool: sqlx::PgPool,
}
impl RtsaDbAccessor {
pub fn new(pool: sqlx::PgPool) -> Self {
RtsaDbAccessor { pool }
}
pub async fn get_next_mqtt_client_id(&self) -> Result<i64, DbAccessError> {
let seq_name = MqttClientIdSeq::Name.name();
let next = sqlx::query_scalar(&format!("SELECT nextval('{}')", seq_name))
.fetch_one(&self.pool)
.await?;
Ok(next)
}
}
pub async fn get_db_accessor(url: &str) -> RtsaDbAccessor {
let pool = sqlx::PgPool::connect(url).await.expect("连接数据库失败");
RtsaDbAccessor::new(pool)
}
#[cfg(test)]
mod tests {
use super::*;
use rtsa_log::tracing::{self, Level};
use sqlx::PgPool;
// You could also do `use foo_crate::MIGRATOR` and just refer to it as `MIGRATOR` here.
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_get_mqtt_client_id(pool: PgPool) -> Result<(), DbAccessError> {
rtsa_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = crate::db_access::RtsaDbAccessor::new(pool);
for _ in 0..10 {
let id = accessor.get_next_mqtt_client_id().await?;
tracing::info!("id = {}", id);
assert!(id > 0);
}
Ok(())
}
}

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@ -0,0 +1,657 @@
use serde_json::Value;
use crate::{
common::{PageData, PageQuery, TableColumn},
model::{OrganizationColumn, OrganizationModel},
DbAccessError,
};
use super::RtsaDbAccessor;
/// 组织数据管理
#[allow(async_fn_in_trait)]
pub trait OrgAccessor {
/// 组织code是否存在
async fn is_org_code_exist(&self, code: &str) -> Result<bool, DbAccessError>;
/// 创建组织
async fn create_org(&self, create: CreateOrg) -> Result<OrganizationModel, DbAccessError>;
/// 获取组织
async fn query_org(&self, id: i32) -> Result<OrganizationModel, DbAccessError>;
/// 根据id列表获取组织name
async fn query_org_names(&self, ids: &[i32]) -> Result<Vec<(i32, String)>, DbAccessError>;
/// 通过code获取组织
async fn query_org_by_code(&self, code: &str) -> Result<OrganizationModel, DbAccessError>;
/// 分页获取顶级组织
async fn query_org_top_page(
&self,
page: PageQuery,
filter: OrgTopFilter,
) -> Result<PageData<OrganizationModel>, DbAccessError>;
/// 获取所有顶级组织
async fn query_org_top(&self) -> Result<Vec<OrganizationModel>, DbAccessError>;
/// 获取某组织的顶级组织
async fn query_org_top_of_org(&self, org_id: i32) -> Result<OrganizationModel, DbAccessError>;
/// 获取所有下一级子组织
async fn query_org_children(
&self,
parent_id: i32,
) -> Result<Vec<OrganizationModel>, DbAccessError>;
/// 更新组织名称
async fn update_org_name(
&self,
id: i32,
name: &str,
updater_id: i32,
) -> Result<OrganizationModel, DbAccessError>;
/// 更新组织配置
async fn update_org_config(
&self,
id: i32,
config: Value,
updater_id: i32,
) -> Result<OrganizationModel, DbAccessError>;
/// 删除组织
/// 警告:删除组织会关联删除组织关联的所有数据
async fn delete_org(&self, id: i32) -> Result<(), DbAccessError>;
}
pub struct CreateOrg {
pub parent_id: Option<i32>,
pub code: Option<String>,
pub name: String,
pub config: Option<Value>,
pub creator_id: i32,
}
impl CreateOrg {
pub fn new(name: &str, creator_id: i32) -> CreateOrg {
CreateOrg {
parent_id: None,
code: None,
name: name.to_string(),
config: None,
creator_id,
}
}
pub fn with_parent_id(mut self, parent_id: i32) -> Self {
self.parent_id = Some(parent_id);
self
}
pub fn with_code(mut self, code: &str) -> Self {
self.code = Some(code.to_string());
self
}
pub fn with_config(mut self, config: Value) -> Self {
self.config = Some(config);
self
}
}
pub struct OrgTopFilter {
pub code: Option<String>,
pub name: Option<String>,
}
impl OrgTopFilter {
pub fn to_where_clause(&self) -> String {
let mut clauses = vec![];
let code_column = OrganizationColumn::Id.name();
let name_column = OrganizationColumn::Name.name();
if let Some(code) = &self.code {
clauses.push(format!("{} = '{}'", code_column, code));
}
if let Some(name) = &self.name {
clauses.push(format!("{} = '{}'", name_column, name));
}
if clauses.is_empty() {
"".to_string()
} else {
format!("WHERE {}", clauses.join(" AND "))
}
}
}
impl OrgAccessor for RtsaDbAccessor {
async fn is_org_code_exist(&self, code: &str) -> Result<bool, DbAccessError> {
let table = OrganizationColumn::Table.name();
let code_column = OrganizationColumn::Code.name();
let sql = format!(
"SELECT COUNT(1) FROM {table} WHERE {code_column} = $1",
table = table,
code_column = code_column
);
let count: i64 = sqlx::query_scalar(&sql)
.bind(code)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
async fn create_org(&self, create: CreateOrg) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let parent_id_column = OrganizationColumn::ParentId.name();
let code_column = OrganizationColumn::Code.name();
let name_column = OrganizationColumn::Name.name();
let config_column = OrganizationColumn::Config.name();
let creator_id_column = OrganizationColumn::CreatorId.name();
let updater_id_column = OrganizationColumn::UpdaterId.name();
let sql = format!(
"INSERT INTO {table} ({parent_id_column}, {code_column}, {name_column}, {config_column}, {creator_id_column}, {updater_id_column}) VALUES ($1, $2, $3, $4, $5, $5) RETURNING *",
table = table,
parent_id_column = parent_id_column,
code_column = code_column,
name_column = name_column,
config_column = config_column,
creator_id_column = creator_id_column,
updater_id_column = updater_id_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(create.parent_id)
.bind(create.code)
.bind(create.name)
.bind(create.config)
.bind(create.creator_id)
.bind(create.creator_id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn query_org(&self, id: i32) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let sql = format!(
"SELECT * FROM {table} WHERE {id_column} = $1",
table = table,
id_column = id_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(id)
.fetch_optional(&self.pool)
.await?;
match row {
Some(row) => Ok(row),
None => Err(DbAccessError::RowNotExist(
OrganizationColumn::Table.name().to_string(),
)),
}
}
async fn query_org_names(&self, ids: &[i32]) -> Result<Vec<(i32, String)>, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let name_column = OrganizationColumn::Name.name();
let sql = format!(
"SELECT {id_column}, {name_column} FROM {table} WHERE {id_column} = ANY($1)",
id_column = id_column,
name_column = name_column,
table = table
);
let rows: Vec<(i32, String)> = sqlx::query_as(&sql).bind(ids).fetch_all(&self.pool).await?;
Ok(rows)
}
async fn query_org_by_code(&self, code: &str) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let code_column = OrganizationColumn::Code.name();
let sql = format!(
"SELECT * FROM {table} WHERE {code_column} = $1",
table = table,
code_column = code_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(code)
.fetch_optional(&self.pool)
.await?;
match row {
Some(row) => Ok(row),
None => Err(DbAccessError::RowNotExist(
OrganizationColumn::Table.name().to_string(),
)),
}
}
async fn query_org_top_page(
&self,
page: PageQuery,
filter: OrgTopFilter,
) -> Result<PageData<OrganizationModel>, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let where_clause = filter.to_where_clause();
let count_clause = format!("SELECT COUNT({id_column}) FROM {table} {where_clause}");
let total: i64 = sqlx::query_scalar(&count_clause)
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageData::new(total, vec![]));
}
let limit_clause = page.to_limit_clause();
let sql = format!(
"SELECT * FROM {table} {where_clause} ORDER BY {id_column} {limit_clause}",
table = table,
where_clause = where_clause,
id_column = id_column,
limit_clause = limit_clause
);
let rows = sqlx::query_as::<_, OrganizationModel>(&sql)
.fetch_all(&self.pool)
.await?;
Ok(PageData::new(total, rows))
}
async fn query_org_top(&self) -> Result<Vec<OrganizationModel>, DbAccessError> {
let table = OrganizationColumn::Table.name();
let parent_id_column = OrganizationColumn::ParentId.name();
let sql = format!(
"SELECT * FROM {table} WHERE {parent_id_column} IS NULL",
table = table,
parent_id_column = parent_id_column
);
let rows = sqlx::query_as::<_, OrganizationModel>(&sql)
.fetch_all(&self.pool)
.await?;
Ok(rows)
}
async fn query_org_top_of_org(&self, org_id: i32) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let parent_id_column = OrganizationColumn::ParentId.name();
let sql = format!(
"WITH RECURSIVE org_tree AS (
SELECT * FROM {table} WHERE {id_column} = $1
UNION ALL
SELECT o.* FROM {table} o JOIN org_tree t ON o.{id_column} = t.{parent_id_column}
)
SELECT * FROM org_tree WHERE {parent_id_column} IS NULL",
table = table,
id_column = id_column,
parent_id_column = parent_id_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(org_id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn query_org_children(
&self,
parent_id: i32,
) -> Result<Vec<OrganizationModel>, DbAccessError> {
let table = OrganizationColumn::Table.name();
let parent_id_column = OrganizationColumn::ParentId.name();
let sql = format!(
"SELECT * FROM {table} WHERE {parent_id_column} = $1",
table = table,
parent_id_column = parent_id_column
);
let rows = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(parent_id)
.fetch_all(&self.pool)
.await?;
Ok(rows)
}
async fn update_org_name(
&self,
id: i32,
name: &str,
updater_id: i32,
) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let name_column = OrganizationColumn::Name.name();
let updater_id_column = OrganizationColumn::UpdaterId.name();
let updated_at_column = OrganizationColumn::UpdatedAt.name();
let sql = format!(
"UPDATE {table} SET {name_column} = $1, {updater_id_column} = $2, {updated_at_column} = 'now()' WHERE {id_column} = $3 RETURNING *",
table = table,
name_column = name_column,
updater_id_column = updater_id_column,
updated_at_column = updated_at_column,
id_column = id_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(name)
.bind(updater_id)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn update_org_config(
&self,
id: i32,
config: Value,
updater_id: i32,
) -> Result<OrganizationModel, DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let config_column = OrganizationColumn::Config.name();
let updater_id_column = OrganizationColumn::UpdaterId.name();
let updated_at_column = OrganizationColumn::UpdatedAt.name();
let sql = format!(
"UPDATE {table} SET {config_column} = $1, {updater_id_column} = $2, {updated_at_column} = 'now()' WHERE {id_column} = $3 RETURNING *",
table = table,
config_column = config_column,
updater_id_column = updater_id_column,
updated_at_column = updated_at_column,
id_column = id_column
);
let row = sqlx::query_as::<_, OrganizationModel>(&sql)
.bind(config)
.bind(updater_id)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(row)
}
async fn delete_org(&self, id: i32) -> Result<(), DbAccessError> {
let table = OrganizationColumn::Table.name();
let id_column = OrganizationColumn::Id.name();
let sql = format!(
"DELETE FROM {table} WHERE {id_column} = $1",
table = table,
id_column = id_column
);
sqlx::query(&sql).bind(id).execute(&self.pool).await?;
Ok(())
}
}
#[cfg(test)]
mod tests {
use sqlx::PgPool;
use super::*;
use crate::{db_access::UserAccessor, model::UserModel, RegisterUser};
async fn init_user(accessor: &RtsaDbAccessor) -> Result<UserModel, DbAccessError> {
let new_user = RegisterUser::new("test_user", "test_password");
let user = accessor.register_user(new_user).await?;
Ok(user)
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_create_org(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
// 初始化用户
let user = init_user(&accessor).await?;
let create = CreateOrg {
parent_id: None,
code: Some("test".to_string()),
name: "测试".to_string(),
config: None,
creator_id: user.id,
};
let org = accessor.create_org(create).await?;
assert_eq!(org.code, Some("test".to_string()));
assert_eq!(org.name, "测试");
assert_eq!(org.creator_id, user.id);
assert_eq!(org.updater_id, user.id);
assert!(org.parent_id.is_none());
assert!(org.config.is_none());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_is_org_code_exist(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create a new organization
let create = CreateOrg {
parent_id: None,
code: Some("exist_code".to_string()),
name: "存在组织".to_string(),
config: None,
creator_id: user.id,
};
accessor.create_org(create).await?;
// Check if the organization code exists
let exists = accessor.is_org_code_exist("exist_code").await?;
assert!(exists);
// Check for a non-existent code
let not_exists = accessor.is_org_code_exist("nonexistent_code").await?;
assert!(!not_exists);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_get_org_by_code(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create a new organization
let create = CreateOrg {
parent_id: None,
code: Some("get_code_test".to_string()),
name: "通过代码获取组织".to_string(),
config: None,
creator_id: user.id,
};
accessor.create_org(create).await?;
// Retrieve the organization by code
let org = accessor.query_org_by_code("get_code_test").await?;
assert_eq!(org.code, Some("get_code_test".to_string()));
assert_eq!(org.name, "通过代码获取组织");
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_top(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create multiple top-level organizations
for i in 1..4 {
let create = CreateOrg {
parent_id: None,
code: Some(format!("top_org_{}", i)),
name: format!("顶级组织{}", i),
config: None,
creator_id: user.id,
};
let top = accessor.create_org(create).await?;
// Create child organization
let child = CreateOrg {
parent_id: Some(top.id),
code: None,
name: format!("下级组织{}", i),
config: None,
creator_id: user.id,
};
accessor.create_org(child).await?;
}
// Query top-level organizations
let orgs = accessor.query_org_top().await?;
assert_eq!(orgs.len(), 3);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_top_of_org(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create a parent organization
let parent_create = CreateOrg {
parent_id: None,
code: Some("parent_org".to_string()),
name: "父组织".to_string(),
config: None,
creator_id: user.id,
};
let parent_org = accessor.create_org(parent_create).await?;
// Create a child organization
let child_create = CreateOrg::new("一级子组织", user.id).with_parent_id(parent_org.id);
let child = accessor.create_org(child_create).await?;
// Create a grandchild organization
let grandchild_create = CreateOrg::new("二级子组织", user.id).with_parent_id(parent_org.id);
let grandchild = accessor.create_org(grandchild_create).await?;
// Query the top-level organization of the child organization
let top_org = accessor.query_org_top_of_org(grandchild.id).await?;
assert_eq!(top_org.id, parent_org.id);
let top_org = accessor.query_org_top_of_org(child.id).await?;
assert_eq!(top_org.id, parent_org.id);
let top_org = accessor.query_org_top_of_org(parent_org.id).await?;
assert_eq!(top_org.id, parent_org.id);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_children(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create a parent organization
let parent_create = CreateOrg {
parent_id: None,
code: Some("parent_org".to_string()),
name: "父组织".to_string(),
config: None,
creator_id: user.id,
};
let parent_org = accessor.create_org(parent_create).await?;
// Create child organizations
for i in 1..3 {
let create = CreateOrg {
parent_id: Some(parent_org.id),
code: Some(format!("child_org_{}", i)),
name: format!("子组织{}", i),
config: None,
creator_id: user.id,
};
accessor.create_org(create).await?;
}
// Query child organizations
let children = accessor.query_org_children(parent_org.id).await?;
assert_eq!(children.len(), 2);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_org_name(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create an organization
let create = CreateOrg {
parent_id: None,
code: Some("update_name_test".to_string()),
name: "旧名称".to_string(),
config: None,
creator_id: user.id,
};
let org = accessor.create_org(create).await?;
// Update the organization's name
let updated_org = accessor.update_org_name(org.id, "新名称", user.id).await?;
assert_eq!(updated_org.name, "新名称");
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_org_config(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create an organization
let create = CreateOrg {
parent_id: None,
code: Some("update_config_test".to_string()),
name: "组织配置测试".to_string(),
config: None,
creator_id: user.id,
};
let org = accessor.create_org(create).await?;
// Update the organization's config
let new_config = serde_json::json!({ "key": "value" });
let updated_org = accessor
.update_org_config(org.id, new_config.clone(), user.id)
.await?;
assert_eq!(
updated_org.config,
Some(serde_json::to_value(new_config).unwrap())
);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_delete_org(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create an organization
let create = CreateOrg {
parent_id: None,
code: Some("delete_test".to_string()),
name: "删除组织测试".to_string(),
config: None,
creator_id: user.id,
};
let org = accessor.create_org(create).await?;
// Delete the organization
accessor.delete_org(org.id).await?;
// Attempt to retrieve the deleted organization
let result = accessor.query_org(org.id).await;
assert!(result.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_names(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let user = init_user(&accessor).await?;
// Create organizations
let mut ids = vec![];
for i in 1..4 {
let create = CreateOrg {
parent_id: None,
code: Some(format!("query_name_test_{}", i)),
name: format!("查询名称{}", i),
config: None,
creator_id: user.id,
};
let org = accessor.create_org(create).await?;
ids.push(org.id);
}
// Query organization names by ids
let names = accessor.query_org_names(&ids).await?;
assert_eq!(names.len(), 3);
Ok(())
}
}

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@ -0,0 +1,700 @@
use serde_json::Value;
use sqlx::Postgres;
use super::RtsaDbAccessor;
use super::{OrgAccessor, RegisterUser, UserAccessor};
use crate::{
common::{PageData, PageQuery, TableColumn},
model::{OrganizationUserColumn, OrganizationUserModel, UserModel},
DbAccessError,
};
/// 组织用户管理
#[allow(async_fn_in_trait)]
pub trait OrgUserAccessor {
/// 创建组织用户
async fn create_org_user(
&self,
create: CreateOrgUser,
) -> Result<(OrganizationUserModel, UserModel), DbAccessError>;
/// 绑定组织用户
async fn bind_org_user(
&self,
bind: BindOrgUser,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 解绑(删除)组织用户
async fn unbind_org_user(&self, org_id: i32, user_id: i32) -> Result<(), DbAccessError>;
/// 删除组织用户
async fn delete_org_user(&self, id: i32) -> Result<(), DbAccessError>;
/// 更新组织用户学工号
async fn update_org_user_student_id(
&self,
id: i32,
student_id: &str,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 更新组织用户角色
async fn update_org_user_roles(
&self,
id: i32,
roles: Value,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 更新组织用户信息
async fn update_org_user_info(
&self,
id: i32,
info: Value,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 获取组织用户
async fn query_org_user(
&self,
org_id: i32,
user_id: i32,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 组织用户是否存在
async fn is_org_user_exist(&self, org_id: i32, user_id: i32) -> Result<bool, DbAccessError>;
/// 获取组织用户
async fn query_org_user_by_student_id(
&self,
org_id: i32,
student_id: &str,
) -> Result<OrganizationUserModel, DbAccessError>;
/// 获取组织用户
async fn query_org_user_by_id(&self, id: i32) -> Result<OrganizationUserModel, DbAccessError>;
/// 分页查询组织用户
async fn query_org_user_page(
&self,
page: PageQuery,
filter: OrgUserFilter,
) -> Result<PageData<OrganizationUserModel>, DbAccessError>;
}
#[derive(Debug, Clone, Default)]
pub struct OrgUserFilter {
pub org_id: Option<i32>,
pub student_id: Option<String>,
}
impl OrgUserFilter {
fn to_where_clause(&self) -> String {
let mut where_clause = vec![];
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let student_id_col = OrganizationUserColumn::StudentId.name();
if let Some(org_id) = self.org_id {
where_clause.push(format!("{org_id_col} = {org_id}"));
}
if let Some(student_id) = &self.student_id {
where_clause.push(format!("{student_id_col} LIKE '%{student_id}%'"));
}
let where_clause = where_clause.join(" AND ");
format!("WHERE {}", where_clause)
}
}
pub struct BindOrgUser {
pub org_id: i32,
pub user_id: i32,
pub student_id: Option<String>,
pub roles: Value,
pub info: Value,
pub creator_id: i32,
}
impl BindOrgUser {
pub fn new(org_id: i32, user_id: i32, creator_id: i32) -> Self {
Self {
org_id,
user_id,
student_id: None,
roles: Value::Array(Default::default()),
info: Value::Object(Default::default()),
creator_id,
}
}
pub fn with_student_id(mut self, student_id: &str) -> Self {
self.student_id = Some(student_id.to_string());
self
}
pub fn with_roles(mut self, roles: Value) -> Self {
self.roles = roles;
self
}
pub fn with_info(mut self, info: Value) -> Self {
self.info = info;
self
}
}
#[derive(Debug, Clone)]
pub struct CreateOrgUser {
pub org_code: String,
pub student_id: String,
pub name: String,
pub password: String,
pub roles: Value,
pub info: Value,
pub email: Option<String>,
pub mobile: Option<String>,
pub creator_id: i32,
}
impl CreateOrgUser {
pub fn new(
org_code: &str,
student_id: &str,
name: &str,
password: &str,
creator_id: i32,
) -> Self {
Self {
org_code: org_code.to_string(),
student_id: student_id.to_string(),
name: name.to_string(),
password: password.to_string(),
roles: Value::Array(Default::default()),
info: Value::Object(Default::default()),
email: None,
mobile: None,
creator_id,
}
}
pub fn nickname(&self) -> String {
self.name.clone()
}
pub fn build_username(&self) -> String {
format!("{}@{}", self.student_id, self.org_code)
}
pub fn with_roles(mut self, roles: Value) -> Self {
self.roles = roles;
self
}
pub fn with_email(mut self, email: String) -> Self {
self.email = Some(email);
self
}
pub fn with_mobile(mut self, mobile: String) -> Self {
self.mobile = Some(mobile);
self
}
}
impl RtsaDbAccessor {
async fn insert_org_user<'e, 'c: 'e, E>(
&self,
bind: BindOrgUser,
executor: E,
) -> Result<OrganizationUserModel, DbAccessError>
where
E: 'e + sqlx::Executor<'c, Database = Postgres>,
{
let table = OrganizationUserColumn::Table.name();
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let user_id_col = OrganizationUserColumn::UserId.name();
let student_id_col = OrganizationUserColumn::StudentId.name();
let roles_col = OrganizationUserColumn::Roles.name();
let info_col = OrganizationUserColumn::Info.name();
let creator_id_col = OrganizationUserColumn::CreatorId.name();
let updater_id_col = OrganizationUserColumn::UpdaterId.name();
let insert_clause = format!(
"INSERT INTO {table} ({org_id_col}, {user_id_col}, {student_id_col}, {roles_col}, {info_col}, {creator_id_col}, {updater_id_col}) VALUES ($1, $2, $3, $4, $5, $6, $7) RETURNING *",
);
let insert = sqlx::query_as(&insert_clause)
.bind(bind.org_id)
.bind(bind.user_id)
.bind(bind.student_id)
.bind(bind.roles)
.bind(bind.info)
.bind(bind.creator_id)
.bind(bind.creator_id)
.fetch_one(executor)
.await?;
Ok(insert)
}
}
impl OrgUserAccessor for RtsaDbAccessor {
async fn is_org_user_exist(&self, org_id: i32, user_id: i32) -> Result<bool, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let user_id_col = OrganizationUserColumn::UserId.name();
let query_clause =
format!("SELECT COUNT(*) FROM {table} WHERE {org_id_col} = $1 AND {user_id_col} = $2",);
let count: i64 = sqlx::query_scalar(&query_clause)
.bind(org_id)
.bind(user_id)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
async fn create_org_user(
&self,
create: CreateOrgUser,
) -> Result<(OrganizationUserModel, UserModel), DbAccessError> {
let org = self.query_org_by_code(&create.org_code).await?;
let mut tx = self.pool.begin().await?;
// 检查用户是否存在
let org_user_exist = self.is_user_name_exist(&create.build_username()).await?;
if org_user_exist {
return Err(DbAccessError::RowExist(format!(
"User {} already exists",
create.build_username()
)));
}
// 创建用户
let register = RegisterUser::new(&create.build_username(), &create.password)
.with_nickname(&create.name);
let user = self.insert_user(register, &mut *tx).await?;
// 创建组织用户
let bind = BindOrgUser::new(org.id, user.id, create.creator_id)
.with_student_id(&create.student_id)
.with_roles(create.roles)
.with_info(create.info);
let org_user = self.insert_org_user(bind, &mut *tx).await?;
tx.commit().await?;
Ok((org_user, user))
}
async fn bind_org_user(
&self,
bind: BindOrgUser,
) -> Result<OrganizationUserModel, DbAccessError> {
let org = self.query_org(bind.org_id).await?;
let user = self.query_user(bind.user_id).await?;
// 检查用户是否已绑定
let org_user_exist = self.is_org_user_exist(bind.org_id, bind.user_id).await?;
if org_user_exist {
return Err(DbAccessError::RowExist(format!(
"User {} already bind to organization {}",
user.username, org.name
)));
}
// 创建组织用户
let org_user = self.insert_org_user(bind, &self.pool).await?;
Ok(org_user)
}
async fn unbind_org_user(&self, org_id: i32, user_id: i32) -> Result<(), DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let user_id_col = OrganizationUserColumn::UserId.name();
let delete_clause =
format!("DELETE FROM {table} WHERE {org_id_col} = $1 AND {user_id_col} = $2",);
sqlx::query(&delete_clause)
.bind(org_id)
.bind(user_id)
.execute(&self.pool)
.await?;
Ok(())
}
async fn delete_org_user(&self, id: i32) -> Result<(), DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let id_col = OrganizationUserColumn::Id.name();
let delete_clause = format!("DELETE FROM {table} WHERE {id_col} = $1",);
sqlx::query(&delete_clause)
.bind(id)
.execute(&self.pool)
.await?;
Ok(())
}
async fn update_org_user_student_id(
&self,
id: i32,
student_id: &str,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let id_col = OrganizationUserColumn::Id.name();
let student_id_col = OrganizationUserColumn::StudentId.name();
let updater_id_col = OrganizationUserColumn::UpdaterId.name();
let updated_at_col = OrganizationUserColumn::UpdatedAt.name();
let update_clause =
format!("UPDATE {table} SET {student_id_col} = $1, {updater_id_col} = $2, {updated_at_col} = 'now()' WHERE {id_col} = $3 RETURNING *",);
let update = sqlx::query_as(&update_clause)
.bind(student_id)
.bind(updater_id)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(update)
}
async fn update_org_user_roles(
&self,
id: i32,
roles: Value,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let id_col = OrganizationUserColumn::Id.name();
let roles_col = OrganizationUserColumn::Roles.name();
let updater_id_col = OrganizationUserColumn::UpdaterId.name();
let updated_at_col = OrganizationUserColumn::UpdatedAt.name();
let update_clause =
format!("UPDATE {table} SET {roles_col} = $1, {updater_id_col} = $2, {updated_at_col} = 'now()' WHERE {id_col} = $3 RETURNING *",);
let update = sqlx::query_as(&update_clause)
.bind(roles)
.bind(updater_id)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(update)
}
async fn update_org_user_info(
&self,
id: i32,
info: Value,
updater_id: i32,
) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let id_col = OrganizationUserColumn::Id.name();
let info_col = OrganizationUserColumn::Info.name();
let updater_id_col = OrganizationUserColumn::UpdaterId.name();
let updated_at_col = OrganizationUserColumn::UpdatedAt.name();
let update_clause =
format!("UPDATE {table} SET {info_col} = $1, {updater_id_col} = $2, {updated_at_col} = 'now()' WHERE {id_col} = $3 RETURNING *",);
let update = sqlx::query_as(&update_clause)
.bind(info)
.bind(updater_id)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(update)
}
async fn query_org_user(
&self,
org_id: i32,
user_id: i32,
) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let user_id_col = OrganizationUserColumn::UserId.name();
let query_clause =
format!("SELECT * FROM {table} WHERE {org_id_col} = $1 AND {user_id_col} = $2",);
let org_user = sqlx::query_as(&query_clause)
.bind(org_id)
.bind(user_id)
.fetch_optional(&self.pool)
.await?;
match org_user {
Some(org_user) => Ok(org_user),
None => Err(DbAccessError::RowNotExist(
OrganizationUserColumn::Table.name().to_string(),
)),
}
}
async fn query_org_user_by_student_id(
&self,
org_id: i32,
student_id: &str,
) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let org_id_col = OrganizationUserColumn::OrganizationId.name();
let student_id_col = OrganizationUserColumn::StudentId.name();
let query_clause =
format!("SELECT * FROM {table} WHERE {org_id_col} = $1 AND {student_id_col} = $2",);
let org_user = sqlx::query_as(&query_clause)
.bind(org_id)
.bind(student_id)
.fetch_one(&self.pool)
.await?;
Ok(org_user)
}
async fn query_org_user_by_id(&self, id: i32) -> Result<OrganizationUserModel, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let id_col = OrganizationUserColumn::Id.name();
let query_clause = format!("SELECT * FROM {table} WHERE {id_col} = $1",);
let org_user = sqlx::query_as(&query_clause)
.bind(id)
.fetch_one(&self.pool)
.await?;
Ok(org_user)
}
async fn query_org_user_page(
&self,
page: PageQuery,
filter: OrgUserFilter,
) -> Result<PageData<OrganizationUserModel>, DbAccessError> {
let table = OrganizationUserColumn::Table.name();
let where_clause = filter.to_where_clause();
let total_clause = format!("SELECT COUNT(*) FROM {table} {where_clause}",);
let total = sqlx::query_scalar(&total_clause)
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageData::new(0, vec![]));
}
let limit_clause = page.to_limit_clause();
let query_clause =
format!("SELECT * FROM {table} {where_clause} ORDER BY id {limit_clause}",);
let query = sqlx::query_as(&query_clause).fetch_all(&self.pool);
let data = query.await?;
Ok(PageData::new(total, data))
}
}
#[cfg(test)]
mod tests {
use serde_json::json;
use sqlx::PgPool;
use super::*;
use crate::{
db_access::UserAccessor,
model::{OrganizationModel, UserModel},
CreateOrg, RegisterUser,
};
const DEFAULT_ORG_CODE: &str = "test_org_code";
const DEFAULT_USER_NAME: &str = "test_user";
const DEFAULT_USER_PASSWORD: &str = "test_password";
async fn init_default_org_and_user(
accessor: &RtsaDbAccessor,
) -> Result<(UserModel, OrganizationModel), DbAccessError> {
let new_user = RegisterUser::new(DEFAULT_USER_NAME, DEFAULT_USER_PASSWORD);
let user = accessor.register_user(new_user).await?;
let new_org = CreateOrg::new("test_org", user.id).with_code(DEFAULT_ORG_CODE);
let org = accessor.create_org(new_org).await?;
Ok((user, org))
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_create_org_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (user, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.unwrap(),
"test_student_id",
"test_name",
"test_password",
user.id,
);
let (org_user, new_user) = accessor.create_org_user(create.clone()).await?;
println!("org_user: {:?}", org_user);
println!("new_user: {:?}", new_user);
assert_eq!(org_user.organization_id, org.id);
assert_eq!(org_user.user_id, new_user.id);
assert_eq!(org_user.student_id, Some("test_student_id".to_string()));
assert_eq!(org_user.creator_id, user.id);
assert_eq!(org_user.updater_id, user.id);
assert_eq!(new_user.username, create.build_username());
assert_eq!(new_user.nickname, create.nickname());
assert_eq!(new_user.password, create.password);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_bind_org_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
// Create a new user
let register = RegisterUser::new("test_user2", "test_password2");
let new_user = accessor.register_user(register).await?;
// Bind the user to the organization
let bind =
BindOrgUser::new(org.id, new_user.id, creator.id).with_student_id("test_student_id2");
let org_user = accessor.bind_org_user(bind).await?;
assert_eq!(org_user.organization_id, org.id);
assert_eq!(org_user.user_id, new_user.id);
assert_eq!(org_user.student_id, Some("test_student_id2".to_string()));
assert_eq!(org_user.creator_id, creator.id);
assert_eq!(org_user.updater_id, creator.id);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_unbind_org_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
// Create and bind a new user
let register = RegisterUser::new("test_user3", "test_password3");
let new_user = accessor.register_user(register).await?;
let bind = BindOrgUser::new(org.id, new_user.id, creator.id);
accessor.bind_org_user(bind).await?;
// Unbind the user from the organization
accessor.unbind_org_user(org.id, new_user.id).await?;
// Verify the user is unbound
let result = accessor.query_org_user(org.id, new_user.id).await;
assert!(matches!(result, Err(DbAccessError::RowNotExist(_))));
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_org_user_student_id(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"old_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
// Update student ID
let updated_org_user = accessor
.update_org_user_student_id(org_user.id, "new_student_id", creator.id)
.await?;
assert_eq!(
updated_org_user.student_id,
Some("new_student_id".to_string())
);
assert!(updated_org_user.updated_at > org_user.updated_at);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_user_by_student_id(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
let result = accessor
.query_org_user_by_student_id(org.id, "test_student_id")
.await?;
assert_eq!(result, org_user);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_user_by_id(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
let result = accessor.query_org_user_by_id(org_user.id).await?;
assert_eq!(result, org_user);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_org_user_page(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
accessor.create_org_user(create).await?;
let page = PageQuery::new(1, 10);
let filter = OrgUserFilter {
org_id: Some(org.id),
student_id: None,
};
let result = accessor.query_org_user_page(page, filter).await?;
assert_eq!(result.total, 1);
assert_eq!(result.data.len(), 1);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_is_org_user_exist(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (_, new_user) = accessor.create_org_user(create).await?;
let result = accessor.is_org_user_exist(org.id, new_user.id).await?;
assert!(result);
let result = accessor.is_org_user_exist(org.id, 0).await?;
assert!(!result);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_org_user_roles(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
let roles = json!(["role1", "role2"]);
let updated_org_user = accessor
.update_org_user_roles(org_user.id, roles.clone(), creator.id)
.await?;
assert_eq!(updated_org_user.roles, roles);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_org_user_info(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
let info = json!({"key": "value"});
let updated_org_user = accessor
.update_org_user_info(org_user.id, info.clone(), creator.id)
.await?;
assert_eq!(updated_org_user.info, Some(info));
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_delete_org_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor::new(pool);
let (creator, org) = init_default_org_and_user(&accessor).await?;
let create = CreateOrgUser::new(
&org.code.clone().unwrap(),
"test_student_id",
"test_name",
"test_password",
creator.id,
);
let (org_user, _) = accessor.create_org_user(create).await?;
accessor.delete_org_user(org_user.id).await?;
let result = accessor.query_org_user_by_id(org_user.id).await;
assert!(matches!(result, Err(DbAccessError::SqlxError(_))));
Ok(())
}
}

View File

@ -1,8 +1,8 @@
use rtss_dto::common::DataType;
use sqlx::types::chrono;
use serde_json::Value;
use sqlx::{types::chrono, Postgres};
use crate::{
common::{PageQuery, PageResult, Sort, SortOrder, TableColumn},
common::{PageData, PageQuery, Sort, SortOrder, TableColumn},
model::{
DraftDataModel, ReleaseDataColumn, ReleaseDataModel, ReleaseDataVersionColumn,
ReleaseDataVersionModel,
@ -10,7 +10,7 @@ use crate::{
DbAccessError,
};
use super::{CreateDraftData, DraftDataAccessor, RtssDbAccessor};
use super::{CreateDraftData, DraftDataAccessor, RtsaDbAccessor};
#[allow(async_fn_in_trait)]
pub trait ReleaseDataAccessor {
@ -20,36 +20,53 @@ pub trait ReleaseDataAccessor {
draft_id: i32,
name: &str,
description: &str,
user_id: Option<i32>,
) -> Result<(ReleaseDataModel, ReleaseDataVersionModel), DbAccessError>;
/// 从草稿发布到已有草稿默认的release data的新version并使用新version
async fn release_to_existing(
&self,
draft_id: i32,
description: &str,
user_id: Option<i32>,
) -> Result<(ReleaseDataModel, ReleaseDataVersionModel), DbAccessError>;
/// 分页查询发布数据列表
async fn query_release_data_list(
async fn paging_query_release_data_list(
&self,
query: ReleaseDataQuery,
page: PageQuery,
) -> Result<PageResult<ReleaseDataModel>, DbAccessError>;
) -> Result<PageData<ReleaseDataModel>, DbAccessError>;
/// 检查name是否存在
async fn is_release_data_name_exist(&self, name: &str) -> Result<bool, DbAccessError>;
async fn is_release_data_name_exist(
&self,
data_type: i32,
name: &str,
) -> Result<bool, DbAccessError>;
/// 查询发布数据
async fn query_release_data_by_id(
&self,
release_id: i32,
) -> Result<ReleaseDataModel, DbAccessError>;
/// 根据id列表查询发布数据name
async fn query_release_data_names(
&self,
release_ids: &[i32],
) -> Result<Vec<(i32, String)>, DbAccessError>;
/// 查询发布数据所有版本信息
async fn query_release_data_versions(
async fn paging_query_release_data_version_list(
&self,
release_id: i32,
) -> Result<Vec<ReleaseDataVersionModel>, DbAccessError>;
page: PageQuery,
) -> Result<PageData<ReleaseDataVersionModel>, DbAccessError>;
/// 根据id查询发布版本数据
async fn query_release_data_version_by_id(
&self,
version_id: i32,
) -> Result<ReleaseDataVersionModel, DbAccessError>;
/// 根据id列表查询发布版本数据description
async fn query_release_data_version_descriptions(
&self,
version_ids: &[i32],
) -> Result<Vec<(i32, String)>, DbAccessError>;
/// 查询发布数据详情
async fn query_release_data_with_used_version(
&self,
@ -62,19 +79,19 @@ pub trait ReleaseDataAccessor {
name: &str,
) -> Result<ReleaseDataModel, DbAccessError>;
/// 上架/下架发布数据
async fn update_release_data_published(
async fn set_release_data_published(
&self,
release_id: i32,
is_published: bool,
) -> Result<ReleaseDataModel, DbAccessError>;
/// 设置在使用的版本
async fn set_used_version(
async fn set_release_data_used_version(
&self,
release_id: i32,
version_id: i32,
) -> Result<ReleaseDataModel, DbAccessError>;
/// 从指定的版本数据创建草稿
async fn create_draft_from_version(
async fn create_draft_from_release_version(
&self,
version_id: i32,
user_id: i32,
@ -91,7 +108,8 @@ pub struct ReleaseFromDraftResult {
pub struct ReleaseDataQuery {
pub name: Option<String>,
pub user_id: Option<i32>,
pub data_type: Option<rtss_dto::common::DataType>,
pub data_type: Option<i32>,
pub options: Option<Value>,
pub is_published: Option<bool>,
}
@ -107,6 +125,7 @@ impl ReleaseDataQuery {
name: None,
user_id: None,
data_type: None,
options: None,
is_published: None,
}
}
@ -121,11 +140,21 @@ impl ReleaseDataQuery {
self
}
pub fn with_data_type(mut self, data_type: rtss_dto::common::DataType) -> Self {
pub fn with_data_type(mut self, data_type: i32) -> Self {
self.data_type = Some(data_type);
self
}
pub fn with_option_options(mut self, options: Option<Value>) -> Self {
self.options = options;
self
}
pub fn with_options(mut self, options: Value) -> Self {
self.options = Some(options);
self
}
pub fn with_is_published(mut self, is_published: bool) -> Self {
self.is_published = Some(is_published);
self
@ -144,7 +173,14 @@ impl ReleaseDataQuery {
filters.push(format!("{rd_user_id} = {user_id}"));
}
if let Some(data_type) = self.data_type {
filters.push(format!("{rd_data_type} = {}", data_type as i32));
filters.push(format!("{rd_data_type} = {}", data_type));
}
if let Some(options) = &self.options {
let options_column = ReleaseDataColumn::Options.name();
filters.push(format!(
"{options_column} @> '{}'",
serde_json::to_string(options).unwrap()
));
}
if let Some(is_published) = self.is_published {
filters.push(format!("{rd_is_published} = {is_published}"));
@ -157,56 +193,103 @@ impl ReleaseDataQuery {
}
}
impl ReleaseDataAccessor for RtssDbAccessor {
async fn release_new_from_draft(
pub struct CreateReleaseVersionData {
pub release_data_id: i32,
pub options: Option<serde_json::Value>,
pub data: Vec<u8>,
pub description: String,
pub user_id: i32,
}
impl RtsaDbAccessor {
async fn insert_release_data_version<'e, 'c: 'e, E>(
&self,
draft_id: i32,
name: &str,
description: &str,
) -> Result<(ReleaseDataModel, ReleaseDataVersionModel), DbAccessError> {
// 判断发布数据名称是否已存在
if self.is_release_data_name_exist(name).await? {
return Err(DbAccessError::DataError("发布数据名称已存在".to_string()));
}
// 开启事务
let mut tx = self.pool.begin().await?;
// 查询草稿数据
let draft = self.query_draft_data_by_id(draft_id).await?;
// 创建发布数据
let rd_table = ReleaseDataColumn::Table.name();
let rd_insert_columns = format!(
"({}, {}, {})",
ReleaseDataColumn::Name.name(),
ReleaseDataColumn::DataType.name(),
ReleaseDataColumn::UserId.name(),
);
let rd_insert_clause =
format!("INSERT INTO {rd_table} {rd_insert_columns} VALUES ($1, $2, $3) RETURNING *");
let mut rd = sqlx::query_as::<_, ReleaseDataModel>(&rd_insert_clause)
.bind(name)
.bind(draft.data_type as i32)
.bind(draft.user_id)
.fetch_one(&mut *tx)
.await?;
// 创建发布数据版本
data: CreateReleaseVersionData,
executor: E,
) -> Result<ReleaseDataVersionModel, DbAccessError>
where
E: 'e + sqlx::Executor<'c, Database = Postgres>,
{
let rdv_table = ReleaseDataVersionColumn::Table.name();
let rdv_insert_columns = format!(
"{}, {}, {}, {}",
"{}, {}, {}, {}, {}",
ReleaseDataVersionColumn::ReleaseDataId.name(),
ReleaseDataVersionColumn::Options.name(),
ReleaseDataVersionColumn::Data.name(),
ReleaseDataVersionColumn::Description.name(),
ReleaseDataVersionColumn::UserId.name(),
);
let rdv_insert_clause = format!(
"INSERT INTO {rdv_table} ({rdv_insert_columns}) VALUES ($1, $2, $3, $4) RETURNING *"
"INSERT INTO {rdv_table} ({rdv_insert_columns}) VALUES ($1, $2, $3, $4, $5) RETURNING *",
rdv_table = rdv_table,
rdv_insert_columns = rdv_insert_columns
);
let rdv = sqlx::query_as::<_, ReleaseDataVersionModel>(&rdv_insert_clause)
.bind(rd.id)
.bind(draft.data)
.bind(description)
.bind(draft.user_id)
.bind(data.release_data_id)
.bind(data.options)
.bind(data.data)
.bind(data.description)
.bind(data.user_id)
.fetch_one(executor)
.await?;
Ok(rdv)
}
}
impl ReleaseDataAccessor for RtsaDbAccessor {
async fn release_new_from_draft(
&self,
draft_id: i32,
name: &str,
description: &str,
user_id: Option<i32>,
) -> Result<(ReleaseDataModel, ReleaseDataVersionModel), DbAccessError> {
// 查询草稿数据
let draft = self.query_draft_data_by_id(draft_id).await?;
if draft.data.is_none() {
return Err(DbAccessError::DataError("草稿数据为空".to_string()));
}
// 判断发布数据名称是否已存在
if self
.is_release_data_name_exist(draft.data_type, name)
.await?
{
return Err(DbAccessError::DataError("发布数据名称已存在".to_string()));
}
// 开启事务
let mut tx = self.pool.begin().await?;
// 创建发布数据
let rd_table = ReleaseDataColumn::Table.name();
let rd_insert_columns = format!(
"({}, {}, {}, {})",
ReleaseDataColumn::Name.name(),
ReleaseDataColumn::DataType.name(),
ReleaseDataColumn::Options.name(),
ReleaseDataColumn::UserId.name(),
);
let rd_insert_clause = format!(
"INSERT INTO {rd_table} {rd_insert_columns} VALUES ($1, $2, $3, $4) RETURNING *"
);
let mut rd = sqlx::query_as::<_, ReleaseDataModel>(&rd_insert_clause)
.bind(name)
.bind(draft.data_type as i32)
.bind(draft.options.clone())
.bind(user_id.or(Some(draft.user_id)))
.fetch_one(&mut *tx)
.await?;
// 创建发布数据版本
let rdv = self
.insert_release_data_version(
CreateReleaseVersionData {
release_data_id: rd.id,
options: draft.options.clone(),
data: draft.data.unwrap(),
description: description.to_string(),
user_id: user_id.unwrap_or(draft.user_id),
},
&mut *tx,
)
.await?;
// 更新发布数据使用的版本
let used_version_id = ReleaseDataColumn::UsedVersionId.name();
let rd_id = ReleaseDataColumn::Id.name();
@ -229,6 +312,7 @@ impl ReleaseDataAccessor for RtssDbAccessor {
&self,
draft_id: i32,
description: &str,
user_id: Option<i32>,
) -> Result<(ReleaseDataModel, ReleaseDataVersionModel), DbAccessError> {
// 查询草稿数据
let draft = self.query_draft_data_by_id(draft_id).await?;
@ -238,54 +322,52 @@ impl ReleaseDataAccessor for RtssDbAccessor {
"草稿未设置默认发布数据".to_string(),
));
}
if draft.data.is_none() {
return Err(DbAccessError::DataError("草稿数据为空".to_string()));
}
// 查询默认发布数据
let mut rd = self
let rd = self
.query_release_data_by_id(draft.default_release_data_id.unwrap())
.await?;
// 开启事务
let mut tx = self.pool.begin().await?;
// 创建发布数据版本
let rdv_table = ReleaseDataVersionColumn::Table.name();
let rdv_insert_columns = format!(
"{}, {}, {}, {}",
ReleaseDataVersionColumn::ReleaseDataId.name(),
ReleaseDataVersionColumn::Data.name(),
ReleaseDataVersionColumn::Description.name(),
ReleaseDataVersionColumn::UserId.name(),
);
let rdv_insert_clause = format!(
"INSERT INTO {rdv_table} ({rdv_insert_columns}) VALUES ($1, $2, $3, $4) RETURNING *"
);
let rdv = sqlx::query_as::<_, ReleaseDataVersionModel>(&rdv_insert_clause)
.bind(rd.id)
.bind(draft.data)
.bind(description)
.bind(draft.user_id)
.fetch_one(&mut *tx)
let rdv = self
.insert_release_data_version(
CreateReleaseVersionData {
release_data_id: rd.id,
options: draft.options.clone(),
data: draft.data.unwrap(),
description: description.to_string(),
user_id: user_id.unwrap_or(draft.user_id),
},
&mut *tx,
)
.await?;
// 更新发布数据使用的版本
let rd_table = ReleaseDataColumn::Table.name();
let used_version_id = ReleaseDataColumn::UsedVersionId.name();
let rd_options = ReleaseDataColumn::Options.name();
let rd_updated_at = ReleaseDataColumn::UpdatedAt.name();
let rd_id = ReleaseDataColumn::Id.name();
let rd_update_clause =
format!("UPDATE {rd_table} SET {used_version_id} = $1, {rd_updated_at} = 'now()' WHERE {rd_id} = $2");
sqlx::query(&rd_update_clause)
format!("UPDATE {rd_table} SET {used_version_id} = $1, {rd_options} = $2, {rd_updated_at} = 'now()' WHERE {rd_id} = $3 RETURNING *");
let rd = sqlx::query_as::<_, ReleaseDataModel>(&rd_update_clause)
.bind(rdv.id)
.bind(draft.options.clone())
.bind(rd.id)
.execute(&mut *tx)
.fetch_one(&mut *tx)
.await?;
// 成功后提交事务
tx.commit().await?;
rd.used_version_id = Some(rdv.id);
Ok((rd, rdv))
}
async fn query_release_data_list(
async fn paging_query_release_data_list(
&self,
query: ReleaseDataQuery,
page: PageQuery,
) -> Result<PageResult<ReleaseDataModel>, DbAccessError> {
) -> Result<PageData<ReleaseDataModel>, DbAccessError> {
let rd_table = ReleaseDataColumn::Table.name();
let where_clause = query.build_filter();
let count_clause = format!("SELECT COUNT(*) FROM {rd_table} {where_clause}");
@ -295,7 +377,7 @@ impl ReleaseDataAccessor for RtssDbAccessor {
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageResult::new(0, vec![]));
return Ok(PageData::new(0, vec![]));
}
let paging_clause = page.to_limit_clause();
let order_by = Sort::new(ReleaseDataColumn::UpdatedAt, SortOrder::Desc);
@ -305,19 +387,25 @@ impl ReleaseDataAccessor for RtssDbAccessor {
let data = sqlx::query_as::<_, ReleaseDataModel>(&query_clause)
.fetch_all(&self.pool)
.await?;
Ok(PageResult::new(total, data))
Ok(PageData::new(total, data))
}
async fn is_release_data_name_exist(&self, name: &str) -> Result<bool, DbAccessError> {
async fn is_release_data_name_exist(
&self,
data_type: i32,
name: &str,
) -> Result<bool, DbAccessError> {
let rd_table = ReleaseDataColumn::Table.name();
let rd_name = ReleaseDataColumn::Name.name();
let rd_data_type = ReleaseDataColumn::DataType.name();
let rd_query_clause = format!(
"SELECT COUNT(*) FROM {rd_table} WHERE {rd_name} = $1",
"SELECT COUNT(*) FROM {rd_table} WHERE {rd_name} = $1 AND {rd_data_type} = $2",
rd_table = rd_table,
rd_name = rd_name
);
let count: i64 = sqlx::query_scalar(&rd_query_clause)
.bind(name)
.bind(data_type)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
@ -342,34 +430,66 @@ impl ReleaseDataAccessor for RtssDbAccessor {
Ok(rd)
}
async fn query_release_data_versions(
async fn query_release_data_names(
&self,
release_ids: &[i32],
) -> Result<Vec<(i32, String)>, DbAccessError> {
// 查询发布数据
let rd_table = ReleaseDataColumn::Table.name();
let rd_id = ReleaseDataColumn::Id.name();
let rd_name = ReleaseDataColumn::Name.name();
let select_columns = format!("{rd_id}, {rd_name}");
let rd_query_clause =
format!("SELECT {select_columns} FROM {rd_table} WHERE {rd_id} = ANY($1)",);
let rd = sqlx::query_as::<_, (i32, String)>(&rd_query_clause)
.bind(release_ids)
.fetch_all(&self.pool)
.await?;
Ok(rd)
}
async fn paging_query_release_data_version_list(
&self,
release_id: i32,
) -> Result<Vec<ReleaseDataVersionModel>, DbAccessError> {
page: PageQuery,
) -> Result<PageData<ReleaseDataVersionModel>, DbAccessError> {
// 查询发布数据版本
let rdv_table = ReleaseDataVersionColumn::Table.name();
let rdv_release_id = ReleaseDataVersionColumn::ReleaseDataId.name();
// let where_clause = query.build_filter();
let count_clause = format!("SELECT COUNT(*) FROM {rdv_table} WHERE {rdv_release_id} = $1",);
// 查询总数
let total = sqlx::query_scalar(&count_clause)
.bind(release_id)
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageData::new(0, vec![]));
}
// 查询列除了data列
let rdv_columns = format!(
"{}, {}, {}, {}, {}, {}",
ReleaseDataVersionColumn::Id.name(),
ReleaseDataVersionColumn::ReleaseDataId.name(),
ReleaseDataVersionColumn::Version.name(),
ReleaseDataVersionColumn::Options.name(),
ReleaseDataVersionColumn::Description.name(),
ReleaseDataVersionColumn::UserId.name(),
ReleaseDataVersionColumn::CreatedAt.name(),
);
let rdv_release_id = ReleaseDataVersionColumn::ReleaseDataId.name();
// 按版本号倒序排序
let sort = Sort::new(ReleaseDataVersionColumn::Version, SortOrder::Desc);
let sort = Sort::new(ReleaseDataVersionColumn::Id, SortOrder::Desc);
let order_by_clause = sort.to_order_by_clause();
let paging_clause = page.to_limit_clause();
let rdv_query_clause = format!(
"SELECT {rdv_columns} FROM {rdv_table} WHERE {rdv_release_id} = $1 {order_by_clause}",
"SELECT {rdv_columns} FROM {rdv_table} WHERE {rdv_release_id} = $1 {order_by_clause} {paging_clause}",
);
let rdv = sqlx::query_as::<_, ReleaseDataVersionModel>(&rdv_query_clause)
let data = sqlx::query_as::<_, ReleaseDataVersionModel>(&rdv_query_clause)
.bind(release_id)
.fetch_all(&self.pool)
.await?;
Ok(rdv)
Ok(PageData::new(total, data))
}
async fn query_release_data_version_by_id(
@ -391,6 +511,25 @@ impl ReleaseDataAccessor for RtssDbAccessor {
Ok(rdv)
}
async fn query_release_data_version_descriptions(
&self,
version_ids: &[i32],
) -> Result<Vec<(i32, String)>, DbAccessError> {
// 查询发布数据版本
let rdv_table = ReleaseDataVersionColumn::Table.name();
let rdv_id = ReleaseDataVersionColumn::Id.name();
let rdv_description = ReleaseDataVersionColumn::Description.name();
let select_columns = format!("{rdv_id}, {rdv_description}");
let rdv_query_clause =
format!("SELECT {select_columns} FROM {rdv_table} WHERE {rdv_id} = ANY($1)",);
let rdv = sqlx::query_as::<_, (i32, String)>(&rdv_query_clause)
.bind(version_ids)
.fetch_all(&self.pool)
.await?;
Ok(rdv)
}
async fn query_release_data_with_used_version(
&self,
release_id: i32,
@ -430,7 +569,7 @@ impl ReleaseDataAccessor for RtssDbAccessor {
Ok(rd)
}
async fn update_release_data_published(
async fn set_release_data_published(
&self,
release_id: i32,
is_published: bool,
@ -453,7 +592,7 @@ impl ReleaseDataAccessor for RtssDbAccessor {
Ok(rd)
}
async fn set_used_version(
async fn set_release_data_used_version(
&self,
release_id: i32,
version_id: i32,
@ -479,7 +618,7 @@ impl ReleaseDataAccessor for RtssDbAccessor {
Ok(rd)
}
async fn create_draft_from_version(
async fn create_draft_from_release_version(
&self,
version_id: i32,
user_id: i32,
@ -493,7 +632,8 @@ impl ReleaseDataAccessor for RtssDbAccessor {
// 创建草稿数据
let draft = self
.create_draft_data(
CreateDraftData::new(&name, DataType::try_from(rd.data_type).unwrap(), user_id)
CreateDraftData::new(&name, rd.data_type, user_id)
.with_option_options(rdv.options)
.with_data(&rdv.data)
.with_default_release_data_id(rd.id),
)
@ -504,12 +644,63 @@ impl ReleaseDataAccessor for RtssDbAccessor {
#[cfg(test)]
mod tests {
use crate::{CreateDraftData, DraftDataAccessor, RtssDbAccessor};
use crate::{CreateDraftData, DraftDataAccessor, RegisterUser, RtsaDbAccessor, UserAccessor};
use super::*;
use rtss_log::tracing::Level;
use rtsa_log::tracing::Level;
use serde::{Deserialize, Serialize};
use sqlx::PgPool;
/// 数据类型
#[derive(
sqlx::Type,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
)]
#[repr(i32)]
pub enum DataType {
/// 数据类型未知
Unknown = 0,
/// 电子地图数据
Em = 1,
/// ISCS数据
Iscs = 4,
}
/// 数据类型
#[derive(
sqlx::Type,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
)]
#[repr(i32)]
pub enum IscsStyle {
/// 数据类型未知
Unknown = 0,
/// 电子地图数据
Style1 = 1,
}
#[derive(Debug, Serialize, Deserialize)]
pub struct IscsDataOptions {
pub style: IscsStyle,
}
#[test]
fn test_release_query() {
// 测试构造发布数据查询条件,名称过滤
@ -524,7 +715,7 @@ mod tests {
// 测试构造发布数据查询条件,数据类型过滤
let expects = "WHERE data_type = 1";
let query_with_data_type = ReleaseDataQuery::new().with_data_type(DataType::Em);
let query_with_data_type = ReleaseDataQuery::new().with_data_type(DataType::Em as i32);
assert_eq!(query_with_data_type.build_filter(), expects);
// 测试构造发布数据查询条件,是否上架过滤
@ -538,7 +729,7 @@ mod tests {
let query_with_all = ReleaseDataQuery::new()
.with_name("test".to_string())
.with_user_id(1)
.with_data_type(DataType::Em)
.with_data_type(DataType::Em as i32)
.with_is_published(true);
assert_eq!(query_with_all.build_filter(), expects);
}
@ -546,19 +737,33 @@ mod tests {
// You could also do `use foo_crate::MIGRATOR` and just refer to it as `MIGRATOR` here.
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_basic_use(pool: PgPool) -> Result<(), DbAccessError> {
rtss_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = RtssDbAccessor::new(pool);
rtsa_log::Logging::default().with_level(Level::DEBUG).init();
let accessor = RtsaDbAccessor::new(pool);
// 注册10个用户
for i in 0..10 {
let user = RegisterUser::new(&format!("test{}", i), "123456");
accessor.register_user(user).await?;
}
// 创建草稿
let data = "test".as_bytes();
let draft = accessor
.create_draft_data(
CreateDraftData::new("test", rtss_dto::common::DataType::Em, 1).with_data(data),
CreateDraftData::new("test", rtsa_dto::common::DataType::Iscs as i32, 1)
.with_options(
serde_json::to_value(IscsDataOptions {
style: IscsStyle::Style1,
})
.unwrap(),
)
.with_data(data),
)
.await?;
let name = "test_release";
let description = "test release";
// 发布到默认发布数据
let result = accessor.release_to_existing(draft.id, description).await;
let result = accessor
.release_to_existing(draft.id, description, None)
.await;
assert!(result.is_err());
if let Some(e) = result.err() {
match e {
@ -571,31 +776,39 @@ mod tests {
// 发布新版本
let (release_data, version1) = accessor
.release_new_from_draft(draft.id, name, &description)
.release_new_from_draft(draft.id, name, description, None)
.await?;
assert_eq!(release_data.name, name);
// 检查使用版本是刚刚发布的版本
assert_eq!(release_data.used_version_id, Some(version1.id));
// 检查options数据
let options: IscsDataOptions =
serde_json::from_value(release_data.options.unwrap()).unwrap();
assert_eq!(options.style, IscsStyle::Style1);
// 检查版本数据
assert_eq!(version1.data, data);
// 检查版本描述
assert_eq!(version1.description, description);
// 检查上架状态
assert_eq!(release_data.is_published, true);
assert!(release_data.is_published);
// 检查草稿数据的默认发布数据id
let draft = accessor.query_draft_data_by_id(draft.id).await?;
assert_eq!(draft.default_release_data_id, Some(release_data.id));
println!("发布新版本测试成功");
// name重复检查
let exist = accessor.is_release_data_name_exist(name).await?;
assert_eq!(exist, true);
let exist = accessor
.is_release_data_name_exist(DataType::Iscs as i32, name)
.await?;
assert!(exist);
// 修改草稿数据
let data = "test2".as_bytes();
accessor.update_draft_data_data(draft.id, data).await?;
// 发布到已存在发布数据成功测试
let (release_data, version2) = accessor.release_to_existing(draft.id, description).await?;
let (release_data, version2) = accessor
.release_to_existing(draft.id, description, None)
.await?;
assert_eq!(release_data.name, name);
// 检查使用版本是刚刚发布的版本
assert_eq!(release_data.used_version_id, Some(version2.id));
@ -614,15 +827,15 @@ mod tests {
// 测试更新发布数据上架状态
let release_data = accessor
.update_release_data_published(release_data.id, false)
.set_release_data_published(release_data.id, false)
.await?;
assert_eq!(release_data.is_published, false);
assert!(!release_data.is_published);
assert!(release_data.updated_at > release_data.created_at);
println!("更新发布数据上架状态测试成功");
// 设置使用的版本
let release_data = accessor
.set_used_version(release_data.id, version1.id)
.set_release_data_used_version(release_data.id, version1.id)
.await?;
assert_eq!(release_data.used_version_id, Some(version1.id));
assert!(release_data.updated_at > release_data.created_at);
@ -630,9 +843,15 @@ mod tests {
// 查询发布数据所有版本
let versions = accessor
.query_release_data_versions(release_data.id)
.paging_query_release_data_version_list(
release_data.id,
PageQuery {
page: 1,
items_per_page: 10,
},
)
.await?;
assert_eq!(versions.len(), 2);
assert_eq!(versions.total, 2);
println!("查询发布数据所有版本测试成功: {:?}", versions);
// 查询发布数据详情
@ -644,11 +863,15 @@ mod tests {
// 从版本创建草稿
let draft = accessor
.create_draft_from_version(used_version.id, 1)
.create_draft_from_release_version(used_version.id, 1)
.await?;
assert_eq!(draft.data, Some(used_version.data));
assert_eq!(draft.default_release_data_id, Some(release_data.id));
println!("从版本创建草稿测试成功");
assert_eq!(draft.options, used_version.options);
println!(
"从版本创建草稿测试成功: draft_data.options = {:?}",
draft.options
);
// 构造分页查询所需发布数据4个人每人发布2个数据
for i in 2..6 {
@ -657,46 +880,66 @@ mod tests {
let data = "test data".as_bytes();
let draft = accessor
.create_draft_data(
CreateDraftData::new(&name, rtss_dto::common::DataType::Em, i).with_data(data),
CreateDraftData::new(&name, DataType::Em as i32, i).with_data(data),
)
.await?;
let (release_data, _) = accessor
.release_new_from_draft(draft.id, &name, &description)
.release_new_from_draft(draft.id, &name, &description, None)
.await?;
assert_eq!(release_data.name, name);
let another_name = format!("{}_another", name);
let (release_data, _) = accessor
.release_new_from_draft(draft.id, &another_name, &description)
.release_new_from_draft(draft.id, &another_name, &description, None)
.await?;
assert_eq!(release_data.name, another_name);
}
// 分页查询发布数据,无条件
let query = ReleaseDataQuery::new();
let page = PageQuery::new(1, 100);
let page_result = accessor.query_release_data_list(query, page).await?;
let page_result = accessor.paging_query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 9);
// 分页查询发布数据,按是否上架过滤
let query = ReleaseDataQuery::new().with_is_published(true);
let page = PageQuery::new(1, 100);
let page_result = accessor.query_release_data_list(query, page).await?;
let page_result = accessor.paging_query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 8);
// 分页查询发布数据,按名称过滤
let query = ReleaseDataQuery::new().with_name("test_2".to_string());
let page = PageQuery::new(1, 10);
let page_result = accessor.query_release_data_list(query, page).await?;
let page_result = accessor.paging_query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 2);
// 分页查询发布数据按用户id过滤
let query = ReleaseDataQuery::new().with_user_id(2);
let page = PageQuery::new(1, 10);
let page_result = accessor.query_release_data_list(query, page).await?;
let page_result = accessor.paging_query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 2);
// 分页查询发布数据,按数据类型过滤
let query = ReleaseDataQuery::new().with_data_type(rtss_dto::common::DataType::Em);
let query = ReleaseDataQuery::new().with_data_type(DataType::Em as i32);
let page = PageQuery::new(1, 10);
let page_result = accessor.query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 9);
let page_result = accessor.paging_query_release_data_list(query, page).await?;
assert_eq!(page_result.total, 8);
println!("分页查询发布数据测试成功");
// 测试根据id列表查询发布数据name
let release_ids: Vec<i32> = page_result.data.iter().map(|d| d.id).collect();
let names = accessor
.query_release_data_names(release_ids.as_slice())
.await?;
println!("{:?}", names);
assert_eq!(names.len(), page_result.data.len());
// 测试根据数据版本id查询descriptions
let version_ids: Vec<i32> = page_result
.data
.iter()
.map(|d| d.used_version_id.unwrap())
.collect();
let description_map = accessor
.query_release_data_version_descriptions(version_ids.as_slice())
.await?;
println!("{:?}", description_map);
assert_eq!(description_map.len(), page_result.data.len());
Ok(())
}
}

View File

@ -0,0 +1,964 @@
use serde_json::Value;
use sqlx::Postgres;
use crate::{
common::{PageData, PageQuery, TableColumn},
model::{UserColumn, UserModel},
password_util::{self, verify_password},
username_util::{is_email, is_mobile},
DbAccessError,
};
use super::RtsaDbAccessor;
/// 草稿数据管理
#[allow(async_fn_in_trait)]
pub trait UserAccessor {
/// 用户注册
async fn register_user(&self, user: RegisterUser) -> Result<UserModel, DbAccessError>;
/// 用户更新信息
async fn update_user_info(&self, id: i32, info: Value) -> Result<UserModel, DbAccessError>;
/// 用户更新密码
async fn update_user_password(
&self,
id: i32,
new_password: &str,
) -> Result<UserModel, DbAccessError>;
/// 更新用户手机
/// 警告:更新手机会检查是否已经存在,如果存在则返回错误
async fn update_user_mobile(
&self,
id: i32,
new_mobile: &str,
) -> Result<UserModel, DbAccessError>;
/// 更新用户邮箱
/// 警告:更新邮箱会检查是否已经存在,如果存在则返回错误
async fn update_user_email(&self, id: i32, new_email: &str)
-> Result<UserModel, DbAccessError>;
/// 修改用户角色
async fn update_user_roles(&self, id: i32, roles: Value) -> Result<UserModel, DbAccessError>;
/// 用户登录查询
/// username: 用户名/邮箱/手机号
async fn query_user_login(
&self,
username: &str,
password: &str,
) -> Result<UserModel, DbAccessError>;
/// 查询用户数据
async fn query_user(&self, id: i32) -> Result<UserModel, DbAccessError>;
/// 根据username查询用户数据
async fn query_user_by_username(&self, username: &str) -> Result<UserModel, DbAccessError>;
/// 根据email查询用户数据
async fn query_user_by_email(&self, email: &str) -> Result<UserModel, DbAccessError>;
/// 根据mobile查询用户数据
async fn query_user_by_mobile(&self, mobile: &str) -> Result<UserModel, DbAccessError>;
/// 是否用户名已经存在
async fn is_user_name_exist(&self, name: &str) -> Result<bool, DbAccessError>;
/// 是否用户email已经存在
async fn is_user_email_exist(&self, email: &str) -> Result<bool, DbAccessError>;
/// 是否用户mobile已经存在
async fn is_user_mobile_exist(&self, mobile: &str) -> Result<bool, DbAccessError>;
/// 根据id列表查询用户name
async fn query_user_nicknames(&self, ids: &[i32]) -> Result<Vec<(i32, String)>, DbAccessError>;
/// 分页查询用户数据
async fn query_user_page(
&self,
page: PageQuery,
filter: UserPageFilter,
) -> Result<PageData<UserModel>, DbAccessError>;
/// 删除用户
/// 警告:删除用户会关联删除用户相关的所有数据
async fn delete_user(&self, id: i32) -> Result<(), DbAccessError>;
}
#[derive(Debug, Clone, Default)]
pub struct UserPageFilter {
pub id: Option<i32>,
pub username: Option<String>,
pub nickname: Option<String>,
pub email: Option<String>,
pub mobile: Option<String>,
pub roles: Option<Value>,
}
impl UserPageFilter {
pub fn with_id(mut self, id: i32) -> Self {
self.id = Some(id);
self
}
pub fn with_username(mut self, name: &str) -> Self {
self.username = Some(name.to_string());
self
}
pub fn with_nickname(mut self, nickname: &str) -> Self {
self.nickname = Some(nickname.to_string());
self
}
pub fn with_email(mut self, email: &str) -> Self {
self.email = Some(email.to_string());
self
}
pub fn with_mobile(mut self, mobile: &str) -> Self {
self.mobile = Some(mobile.to_string());
self
}
pub fn with_roles(mut self, roles: Value) -> Self {
self.roles = Some(roles);
self
}
fn to_where_clause(&self) -> String {
let mut clauses = vec![];
let id_column = UserColumn::Id.name();
let name_column = UserColumn::Username.name();
let email_column = UserColumn::Email.name();
let mobile_column = UserColumn::Mobile.name();
let roles_column = UserColumn::Roles.name();
if let Some(id) = self.id {
clauses.push(format!(
"{id_column} = {id}",
id_column = id_column,
id = id
));
}
if let Some(name) = &self.username {
clauses.push(format!(
"{name_column} LIKE '%{name}%'",
name_column = name_column,
name = name
));
}
if let Some(nickname) = &self.nickname {
clauses.push(format!(
"{name_column} LIKE '%{nickname}%'",
name_column = name_column,
nickname = nickname
));
}
if let Some(email) = &self.email {
clauses.push(format!(
"{email_column} LIKE '%{email}%'",
email_column = email_column,
email = email
));
}
if let Some(mobile) = &self.mobile {
clauses.push(format!(
"{mobile_column} LIKE '%{mobile}%'",
mobile_column = mobile_column,
mobile = mobile
));
}
if let Some(roles) = &self.roles {
clauses.push(format!(
"{roles_column} @> '{roles}'",
roles_column = roles_column,
roles = roles
));
}
if clauses.is_empty() {
"".to_string()
} else {
format!("WHERE {}", clauses.join(" AND "))
}
}
}
pub struct RegisterUser {
pub name: String,
pub nickname: String,
pub password: String,
pub email: Option<String>,
pub mobile: Option<String>,
pub roles: Value,
pub info: Value,
}
impl RegisterUser {
pub fn new(name: &str, password: &str) -> Self {
Self {
name: name.to_string(),
nickname: name.to_string(),
password: password.to_string(),
email: None,
mobile: None,
roles: Value::Array(Default::default()),
info: Value::Object(Default::default()),
}
}
pub fn with_nickname(mut self, nickname: &str) -> Self {
self.nickname = nickname.to_string();
self
}
pub fn with_email(mut self, email: &str) -> Self {
self.email = Some(email.to_string());
self
}
pub fn with_mobile(mut self, mobile: &str) -> Self {
self.mobile = Some(mobile.to_string());
self
}
pub fn with_roles(mut self, roles: Value) -> Self {
self.roles = roles;
self
}
pub fn with_info(mut self, info: Value) -> Self {
self.info = info;
self
}
}
impl RtsaDbAccessor {
pub(crate) async fn insert_user<'e, 'c: 'e, E>(
&self,
user: RegisterUser,
executor: E,
) -> Result<UserModel, DbAccessError>
where
E: 'e + sqlx::Executor<'c, Database = Postgres>,
{
let table = UserColumn::Table.name();
let username = UserColumn::Username.name();
let password = UserColumn::Password.name();
let nickname = UserColumn::Nickname.name();
let email = UserColumn::Email.name();
let mobile = UserColumn::Mobile.name();
let roles = UserColumn::Roles.name();
let info = UserColumn::Info.name();
let insert_clause = format!(
"INSERT INTO {table} ({username}, {password}, {nickname}, {email}, {mobile}, {roles}, {info})
VALUES ('{new_username}', '{new_password}', '{new_nickname}', {new_email}, {new_mobile}, '{new_roles}', '{new_info}')
RETURNING *",
table = table,
username = username,
new_username = user.name,
password = password,
new_password = user.password,
nickname = nickname,
new_nickname = user.nickname,
email = email,
new_email = user.email.as_deref().map(|s| format!("'{s}'")).unwrap_or("NULL".to_string()),
mobile = mobile,
new_mobile = user.mobile.as_deref().map(|s| format!("'{s}'")).unwrap_or("NULL".to_string()),
roles = roles,
new_roles = user.roles,
info = info,
new_info = user.info,
);
let user: UserModel = sqlx::query_as(&insert_clause).fetch_one(executor).await?;
Ok(user)
}
}
impl UserAccessor for RtsaDbAccessor {
async fn query_user_nicknames(&self, ids: &[i32]) -> Result<Vec<(i32, String)>, DbAccessError> {
let table = UserColumn::Table.name();
let id_col = UserColumn::Id.name();
let nickname_col = UserColumn::Nickname.name();
let select_columns = format!("{id_col}, {nickname_col}",);
let query_clause =
format!("SELECT {select_columns} FROM {table} WHERE {id_col} = ANY($1)",);
let rows = sqlx::query_as::<_, (i32, String)>(&query_clause)
.bind(ids)
.fetch_all(&self.pool)
.await?;
Ok(rows)
}
async fn query_user_page(
&self,
page: PageQuery,
filter: UserPageFilter,
) -> Result<PageData<UserModel>, DbAccessError> {
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let where_clause = filter.to_where_clause();
let count_clause = format!("SELECT COUNT({id_column}) FROM {table} {where_clause}");
let total: i64 = sqlx::query_scalar(&count_clause)
.fetch_one(&self.pool)
.await?;
if total == 0 {
return Ok(PageData::new(total, vec![]));
}
let limit_clause = page.to_limit_clause();
let query_clause =
format!("SELECT * FROM {table} {where_clause} ORDER BY {id_column} {limit_clause}",);
let rows = sqlx::query_as::<_, UserModel>(&query_clause)
.fetch_all(&self.pool)
.await?;
Ok(PageData::new(total, rows))
}
async fn register_user(&self, mut user: RegisterUser) -> Result<UserModel, DbAccessError> {
user.password = password_util::hash_password(&user.password)?;
self.insert_user(user, &self.pool).await
}
async fn query_user_login(
&self,
username: &str,
password: &str,
) -> Result<UserModel, DbAccessError> {
let user: UserModel;
if is_email(username) {
let query_result = self.query_user_by_email(username).await;
if query_result.is_ok() {
user = query_result.unwrap();
} else {
return Err(DbAccessError::UserNotExist("email".to_string()));
}
} else if is_mobile(username) {
let query_result = self.query_user_by_mobile(username).await;
if query_result.is_ok() {
user = query_result.unwrap();
} else {
return Err(DbAccessError::UserNotExist("mobile".to_string()));
}
} else {
let query_result = self.query_user_by_username(username).await;
if query_result.is_ok() {
user = query_result.unwrap();
} else {
return Err(DbAccessError::UserNotExist("username".to_string()));
}
}
if verify_password(password, &user.password).is_ok() {
Ok(user)
} else {
Err(DbAccessError::PasswordNotMatch)
}
}
async fn query_user(&self, id: i32) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let query_clause = format!("SELECT * FROM {table} WHERE {id_column} = {id}",);
let user = sqlx::query_as(&query_clause)
.bind(id)
.fetch_optional(&self.pool)
.await?;
match user {
None => Err(DbAccessError::RowNotExist(
UserColumn::Table.name().to_string(),
)),
Some(user) => Ok(user),
}
}
async fn query_user_by_username(&self, username: &str) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let username_column = UserColumn::Username.name();
let query_clause = format!(
"SELECT * FROM {table} WHERE {username_column} = $1 LIMIT 1",
table = table,
username_column = username_column,
);
let user = sqlx::query_as(&query_clause)
.bind(username)
.fetch_optional(&self.pool)
.await?;
match user {
None => Err(DbAccessError::RowNotExist(
UserColumn::Table.name().to_string(),
)),
Some(user) => Ok(user),
}
}
async fn query_user_by_email(&self, email: &str) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let email_column = UserColumn::Email.name();
let query_clause = format!(
"SELECT * FROM {table} WHERE {email_column} = $1 LIMIT 1",
table = table,
email_column = email_column,
);
let user = sqlx::query_as(&query_clause)
.bind(email)
.fetch_optional(&self.pool)
.await?;
match user {
None => Err(DbAccessError::RowNotExist(
UserColumn::Table.name().to_string(),
)),
Some(user) => Ok(user),
}
}
async fn query_user_by_mobile(&self, mobile: &str) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let mobile_column = UserColumn::Mobile.name();
let query_clause = format!(
"SELECT * FROM {table} WHERE {mobile_column} = $1 LIMIT 1",
table = table,
mobile_column = mobile_column,
);
let user = sqlx::query_as(&query_clause)
.bind(mobile)
.fetch_optional(&self.pool)
.await?;
match user {
None => Err(DbAccessError::RowNotExist(
UserColumn::Table.name().to_string(),
)),
Some(user) => Ok(user),
}
}
async fn update_user_info(&self, id: i32, info: Value) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let info_column = UserColumn::Info.name();
let updated_at_column = UserColumn::UpdatedAt.name();
if info.is_null() {
Err(DbAccessError::InvalidArgument("info is null".to_string()))
} else {
let update_clause = format!(
"UPDATE {table} SET {info_column} = '{new_info}', {updated_at_column} = 'now()' WHERE {id_column} = {id} RETURNING *",
table = table,
info_column = info_column,
new_info = info,
id_column = id_column,
id = id
);
let user: UserModel = sqlx::query_as(&update_clause).fetch_one(&self.pool).await?;
Ok(user)
}
}
async fn update_user_password(
&self,
id: i32,
new_password: &str,
) -> Result<UserModel, DbAccessError> {
if new_password.is_empty() || new_password.len() < 6 {
return Err(DbAccessError::InvalidArgument(
"new_password is empty or too short".to_string(),
));
}
if new_password.len() > 64 {
return Err(DbAccessError::InvalidArgument(
"new_password is too long".to_string(),
));
}
let hashed = password_util::hash_password(new_password)?;
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let password_column = UserColumn::Password.name();
let updated_at_column = UserColumn::UpdatedAt.name();
let update_clause = format!(
"UPDATE {table} SET {password_column} = '{hashed}', {updated_at_column} = 'now()' WHERE {id_column} = {id} RETURNING *",
table = table,
password_column = password_column,
hashed = hashed,
id_column = id_column,
id = id
);
let user: UserModel = sqlx::query_as(&update_clause).fetch_one(&self.pool).await?;
Ok(user)
}
async fn update_user_mobile(
&self,
id: i32,
new_mobile: &str,
) -> Result<UserModel, DbAccessError> {
if new_mobile.is_empty() {
return Err(DbAccessError::InvalidArgument(
"mobile is empty".to_string(),
));
}
if self.is_user_mobile_exist(new_mobile).await? {
return Err(DbAccessError::InvalidArgument(
"mobile already exists".to_string(),
));
}
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let mobile_column = UserColumn::Mobile.name();
let updated_at_column = UserColumn::UpdatedAt.name();
let update_clause = format!(
"UPDATE {table} SET {mobile_column} = '{new_mobile}', {updated_at_column} = 'now()' WHERE {id_column} = {id} RETURNING *",
table = table,
mobile_column = mobile_column,
new_mobile = new_mobile,
id_column = id_column,
id = id
);
let user: UserModel = sqlx::query_as(&update_clause).fetch_one(&self.pool).await?;
Ok(user)
}
async fn update_user_email(
&self,
id: i32,
new_email: &str,
) -> Result<UserModel, DbAccessError> {
if new_email.is_empty() || !new_email.contains('@') {
return Err(DbAccessError::InvalidArgument(
"email is invalid".to_string(),
));
}
if self.is_user_email_exist(new_email).await? {
return Err(DbAccessError::InvalidArgument(
"email already exists".to_string(),
));
}
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let email_column = UserColumn::Email.name();
let updated_at_column = UserColumn::UpdatedAt.name();
let update_clause = format!(
"UPDATE {table} SET {email_column} = '{new_email}', {updated_at_column} = 'now()' WHERE {id_column} = {id} RETURNING *",
table = table,
email_column = email_column,
new_email = new_email,
id_column = id_column,
id = id
);
let user: UserModel = sqlx::query_as(&update_clause).fetch_one(&self.pool).await?;
Ok(user)
}
async fn update_user_roles(&self, id: i32, roles: Value) -> Result<UserModel, DbAccessError> {
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let roles_column = UserColumn::Roles.name();
if roles.is_null() {
return Err(DbAccessError::InvalidArgument("roles is null".to_string()));
}
let updated_at_column = UserColumn::UpdatedAt.name();
let update_clause = format!(
"UPDATE {table} SET {roles_column} = '{new_roles}', {updated_at_column} = 'now()' WHERE {id_column} = {id} RETURNING *",
table = table,
roles_column = roles_column,
new_roles = serde_json::to_value(roles).unwrap(),
id_column = id_column,
id = id
);
let user: UserModel = sqlx::query_as(&update_clause).fetch_one(&self.pool).await?;
Ok(user)
}
async fn is_user_name_exist(&self, name: &str) -> Result<bool, DbAccessError> {
let table = UserColumn::Table.name();
let username_column = UserColumn::Username.name();
let query_clause = format!(
"SELECT COUNT(*) FROM {table} WHERE {username_column} = '{name}'",
table = table,
username_column = username_column,
name = name
);
let count: i64 = sqlx::query_scalar(&query_clause)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
async fn is_user_email_exist(&self, email: &str) -> Result<bool, DbAccessError> {
let table = UserColumn::Table.name();
let email_column = UserColumn::Email.name();
let query_clause = format!(
"SELECT COUNT(*) FROM {table} WHERE {email_column} = '{email}'",
table = table,
email_column = email_column,
email = email
);
let count: i64 = sqlx::query_scalar(&query_clause)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
async fn is_user_mobile_exist(&self, mobile: &str) -> Result<bool, DbAccessError> {
let table = UserColumn::Table.name();
let mobile_column = UserColumn::Mobile.name();
let query_clause = format!(
"SELECT COUNT(*) FROM {table} WHERE {mobile_column} = '{mobile}'",
table = table,
mobile_column = mobile_column,
mobile = mobile
);
let count: i64 = sqlx::query_scalar(&query_clause)
.fetch_one(&self.pool)
.await?;
Ok(count > 0)
}
async fn delete_user(&self, id: i32) -> Result<(), DbAccessError> {
let table = UserColumn::Table.name();
let id_column = UserColumn::Id.name();
let delete_clause = format!("DELETE FROM {table} WHERE {id_column} = {id}",);
sqlx::query(&delete_clause)
.bind(id)
.execute(&self.pool)
.await?;
Ok(())
}
}
#[cfg(test)]
mod tests {
use rtsa_dto::common::Role;
use rtsa_log::tracing::info;
use sqlx::PgPool;
use super::*;
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_register_user(pool: PgPool) -> Result<(), DbAccessError> {
rtsa_log::Logging::default().init();
let accessor = RtsaDbAccessor { pool };
let new_user = RegisterUser::new("test_user", "test_password")
.with_roles(serde_json::to_value(vec![Role::User]).unwrap())
.with_email("test_user@example.com")
.with_mobile("13345678901")
.with_info(serde_json::json!({"from": "cgy"}));
accessor.register_user(new_user).await?;
let queried_user = accessor
.query_user_login("test_user@example.com", "test_password")
.await?;
info!("queried_user: {:?}", queried_user);
assert_eq!(queried_user.username, "test_user");
assert_eq!(
queried_user.email,
Some("test_user@example.com".to_string())
);
assert_eq!(queried_user.mobile, Some("13345678901".to_string()));
assert_eq!(
queried_user.roles,
serde_json::to_value(vec![Role::User]).unwrap()
);
assert_eq!(queried_user.info, serde_json::json!({"from": "cgy"}));
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_user_info(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user
let new_user = RegisterUser::new("test_user", "test_password")
.with_info(serde_json::json!({"from": "cgy"}));
let user = accessor.register_user(new_user).await?;
// Update user info
let updated_user = accessor
.update_user_info(user.id, serde_json::json!({"from": "updated"}))
.await?;
// Verify the update
assert_eq!(updated_user.info, serde_json::json!({"from": "updated"}));
let updated_user = accessor.update_user_info(user.id, Value::Null).await;
assert!(updated_user.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_user_password(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user
let new_user =
RegisterUser::new("test_user", "old_password").with_email("test_user@example.com");
let user = accessor.register_user(new_user).await?;
// Update user password with empty password
let result = accessor.update_user_password(user.id, "").await;
assert!(result.is_err());
// Update user password with short password
let result = accessor.update_user_password(user.id, "short").await;
assert!(result.is_err());
// Update user password
let _ = accessor
.update_user_password(user.id, "new_password")
.await?;
// Verify the password has changed by attempting to login
let result = accessor
.query_user_login("test_user@example.com", "new_password")
.await;
assert!(result.is_ok());
let result = accessor
.query_user_login("test_user@example.com", "old_password")
.await;
assert!(result.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_user_mobile(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with mobile number
let new_user = RegisterUser::new("test_user", "test_password").with_mobile("13345678901");
let user = accessor.register_user(new_user).await?;
// Update user mobile
let updated_user = accessor.update_user_mobile(user.id, "0987654321").await?;
// Verify the update
assert_eq!(updated_user.mobile, Some("0987654321".to_string()));
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_user_email(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with email
let new_user =
RegisterUser::new("test_user", "test_password").with_email("test_user@example.com");
let user = accessor.register_user(new_user).await?;
// Update user email
let updated_user = accessor
.update_user_email(user.id, "newemail@example.com")
.await?;
// Verify the update
assert_eq!(updated_user.email, Some("newemail@example.com".to_string()));
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_update_user_roles(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with default role
let new_user = RegisterUser::new("test_user", "test_password");
let user = accessor.register_user(new_user).await?;
// Update user roles
let new_roles = vec![Role::Admin, Role::User];
let updated_user = accessor
.update_user_roles(user.id, serde_json::to_value(new_roles.clone()).unwrap())
.await?;
// Verify the update
assert_eq!(updated_user.roles, serde_json::to_value(new_roles).unwrap());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 准备测试数据
let new_user = RegisterUser::new("test_user", "test_password");
let um = accessor.register_user(new_user).await?;
// Assume a user with ID exists
let user = accessor.query_user(um.id).await?;
assert_eq!(user.id, um.id);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_by_username(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 准备测试数据
let new_user = RegisterUser::new("test_user", "test_password");
let um = accessor.register_user(new_user).await?;
// Assume a user with username exists
let user = accessor.query_user_by_username("test_user").await?;
assert_eq!(user.id, um.id);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_by_email(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 准备测试数据
let new_user = RegisterUser::new("test_user", "test_password").with_email("test@test.cn");
let um = accessor.register_user(new_user).await?;
// Assume a user with email exists
let user = accessor.query_user_by_email("test@test.cn").await?;
assert_eq!(user.id, um.id);
// Assume a user with email does not exist
let result = accessor.query_user_by_email("dev@test.cn").await;
assert!(result.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_by_mobile(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 准备测试数据
let new_user = RegisterUser::new("test_user", "test_password").with_mobile("13345678901");
let um = accessor.register_user(new_user).await?;
// Assume a user with mobile exists
let user = accessor.query_user_by_mobile("13345678901").await?;
assert_eq!(user.id, um.id);
// Assume a user with mobile does not exist
let result = accessor.query_user_by_mobile("13345678902").await;
assert!(result.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_login(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 准备测试数据
let new_user = RegisterUser::new("test_user", "test_password")
.with_email("test_user@example.com")
.with_mobile("13345678901");
accessor.register_user(new_user).await?;
// Test with correct credentials
let user = accessor
.query_user_login("test_user@example.com", "test_password")
.await?;
assert_eq!(user.username, "test_user");
let user = accessor
.query_user_login("test_user", "test_password")
.await;
assert!(user.is_ok());
let user = accessor
.query_user_login("13345678901", "test_password")
.await;
assert!(user.is_ok());
// Test with incorrect credentials
let result = accessor
.query_user_login("test_user@example.com", "wrong_password")
.await;
assert!(result.is_err());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_name(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
let mut ids = Vec::new();
// 初始化数据
for i in 0..3 {
let new_user = RegisterUser::new(&format!("test_user{}", i), "test_password");
let model = accessor.register_user(new_user).await?;
ids.push(model.id);
}
let names = accessor.query_user_nicknames(&ids).await?;
assert_eq!(names.len(), ids.len());
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_query_user_page(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// 初始化测试数据
let new_user = RegisterUser::new("test_user", "test_password");
accessor.register_user(new_user).await?;
let page_query = PageQuery::new(1, 10);
let filter = UserPageFilter::default().with_username("test");
let page_result = accessor.query_user_page(page_query, filter).await?;
assert!(page_result.total >= 0);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_is_user_email_exist(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with email
let new_user =
RegisterUser::new("test_user", "test_password").with_email("user@example.com");
accessor.register_user(new_user).await?;
// Test with existing email
let result = accessor.is_user_email_exist("user@example.com").await?;
assert!(result);
// Test with non-existing email
let result = accessor
.is_user_email_exist("non-exist@example.com")
.await?;
assert!(!result);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_is_user_mobile_exist(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with mobile
let new_user = RegisterUser::new("test_user", "test_password").with_mobile("13345678901");
accessor.register_user(new_user).await?;
// Test with existing mobile
let result = accessor.is_user_mobile_exist("13345678901").await?;
assert!(result);
// Test with non-existing mobile
let result = accessor.is_user_mobile_exist("0987654321").await?;
assert!(!result);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_is_user_name_exist(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user with name
let new_user = RegisterUser::new("test_user", "test_password");
accessor.register_user(new_user).await?;
// Test with existing name
let result = accessor.is_user_name_exist("test_user").await?;
assert!(result);
// Test with non-existing name
let result = accessor.is_user_name_exist("non-exist").await?;
assert!(!result);
Ok(())
}
#[sqlx::test(migrator = "crate::MIGRATOR")]
async fn test_delete_user(pool: PgPool) -> Result<(), DbAccessError> {
let accessor = RtsaDbAccessor { pool };
// Register a new user
let new_user = RegisterUser::new("test_user", "test_password");
let user = accessor.register_user(new_user).await?;
// Delete the user
accessor.delete_user(user.id).await?;
// Verify the user has been deleted
let result = accessor.query_user(user.id).await;
assert!(result.is_err());
Ok(())
}
}

View File

@ -0,0 +1,21 @@
use thiserror::Error;
#[derive(Error, Debug)]
pub enum DbAccessError {
#[error("未知的数据库访问错误")]
Unknown(#[from] anyhow::Error),
#[error("数据访问错误: {0}")]
SqlxError(#[from] sqlx::Error),
#[error("数据已存在: {0}")]
RowExist(String),
#[error("数据不存在: {0}")]
RowNotExist(String),
#[error("数据错误:{0}")]
DataError(String),
#[error("非法参数:{0}")]
InvalidArgument(String),
#[error("用户不存在:{0}")]
UserNotExist(String),
#[error("密码不正确")]
PasswordNotMatch,
}

View File

@ -4,6 +4,8 @@ mod error;
pub mod model;
pub use db_access::*;
pub use error::*;
pub mod password_util;
pub mod username_util;
use sqlx::pool::PoolOptions;
pub use sqlx::types::chrono::*;
@ -23,5 +25,6 @@ pub mod prelude {
pub use crate::common::*;
pub use crate::db_access::*;
pub use crate::model::*;
pub use crate::password_util::*;
pub use crate::DbAccessError;
}

571
crates/rtsa_db/src/model.rs Normal file
View File

@ -0,0 +1,571 @@
use serde_json::Value;
use sqlx::types::chrono::{DateTime, Local};
use crate::common::TableColumn;
pub enum MqttClientIdSeq {
Name,
}
impl MqttClientIdSeq {
pub fn name(&self) -> &str {
match self {
MqttClientIdSeq::Name => "rtsa.mqtt_client_id_seq",
}
}
}
#[derive(Debug)]
pub enum UserColumn {
Table,
Id,
Username,
Password,
Nickname,
Email,
Mobile,
Roles,
Info,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct UserModel {
pub id: i32,
pub username: String,
pub password: String,
pub nickname: String,
#[sqlx(default)]
pub email: Option<String>,
#[sqlx(default)]
pub mobile: Option<String>,
pub roles: Value,
pub info: Value,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.user_data 列映射
#[derive(Debug)]
pub enum UserDataColumn {
Table,
Id,
UserId,
DataType,
Data,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct UserDataModel {
pub id: i32,
pub user_id: i32,
pub data_type: i32,
pub data: Value,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.organization 列映射
#[derive(Debug)]
pub enum OrganizationColumn {
Table,
Id,
Code,
Name,
Config,
ParentId,
CreatorId,
CreatedAt,
UpdaterId,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct OrganizationModel {
pub id: i32,
pub code: Option<String>,
pub name: String,
#[sqlx(default)]
pub config: Option<Value>,
pub parent_id: Option<i32>,
pub creator_id: i32,
pub created_at: DateTime<Local>,
pub updater_id: i32,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.organization_user 列映射
#[derive(Debug)]
pub enum OrganizationUserColumn {
Table,
Id,
OrganizationId,
UserId,
StudentId,
Roles,
Info,
CreatorId,
CreatedAt,
UpdaterId,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow, Clone, PartialEq, Eq)]
pub struct OrganizationUserModel {
pub id: i32,
pub organization_id: i32,
pub user_id: i32,
pub student_id: Option<String>,
pub roles: Value,
pub info: Option<Value>,
pub creator_id: i32,
pub created_at: DateTime<Local>,
pub updater_id: i32,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.organization_data 列映射
#[derive(Debug)]
pub enum OrganizationDataColumn {
Table,
Id,
OrganizationId,
DataType,
Data,
CreatorId,
CreatedAt,
UpdaterId,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct OrganizationDataModel {
pub id: i32,
pub organization_id: i32,
pub data_type: i32,
pub data: Value,
pub creator_id: i32,
pub created_at: DateTime<Local>,
pub updater_id: i32,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.feature 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub enum FeatureColumn {
Table,
Id,
FeatureType,
Name,
Description,
Config,
IsPublished,
CreatorId,
UpdaterId,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureModel {
pub id: i32,
pub feature_type: i32,
pub name: String,
pub description: String,
#[sqlx(default)]
pub config: Value,
pub is_published: bool,
pub creator_id: i32,
pub updater_id: i32,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.organization_feature 列映射
#[derive(Debug)]
pub enum OrganizationFeatureColumn {
Table,
Id,
OrganizationId,
FeatureId,
Config,
CreatorId,
CreatedAt,
UpdaterId,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct OrganizationFeatureModel {
pub id: i32,
pub organization_id: i32,
pub feature_id: i32,
pub config: Value,
pub creator_id: i32,
pub created_at: DateTime<Local>,
pub updater_id: i32,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.draft_data 列映射
#[derive(Debug)]
pub enum DraftDataColumn {
Table,
Id,
Name,
DataType,
Options,
Data,
DefaultReleaseDataId,
UserId,
IsShared,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct DraftDataModel {
pub id: i32,
pub name: String,
pub data_type: i32,
#[sqlx(default)]
pub options: Option<Value>,
#[sqlx(default)]
pub data: Option<Vec<u8>>,
#[sqlx(default)]
pub default_release_data_id: Option<i32>,
pub user_id: i32,
#[sqlx(default)]
pub is_shared: bool,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.release_data 列映射
#[derive(Debug)]
pub enum ReleaseDataColumn {
Table,
Id,
Name,
DataType,
Options,
UsedVersionId,
UserId,
IsPublished,
#[allow(dead_code)]
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataModel {
pub id: i32,
pub name: String,
pub data_type: i32,
/// 从发布版本复制的选项,主要用于查询
#[sqlx(default)]
pub options: Option<Value>,
pub used_version_id: Option<i32>,
pub user_id: i32,
pub is_published: bool,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.release_data_version 列映射
#[derive(Debug)]
pub enum ReleaseDataVersionColumn {
Table,
Id,
ReleaseDataId,
Options,
Data,
Description,
UserId,
CreatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataVersionModel {
pub id: i32,
pub release_data_id: i32,
#[sqlx(default)]
pub options: Option<Value>,
#[sqlx(default)]
pub data: Vec<u8>,
pub description: String,
pub user_id: i32,
pub created_at: DateTime<Local>,
}
/// 数据库表 rtsa.release_data_set 列映射
#[derive(Debug)]
pub enum ReleaseDataSetColumn {
Table,
Id,
DataSetType,
Name,
Description,
Config,
IsPublished,
CreatorId,
CreatedAt,
UpdaterId,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataSetModel {
pub id: i32,
pub data_set_type: i32,
pub name: String,
pub description: String,
#[sqlx(default)]
pub config: Value,
pub is_published: bool,
pub creator_id: i32,
pub created_at: DateTime<Local>,
pub updater_id: i32,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtsa.release_data_set_data 列映射
#[derive(Debug)]
pub enum ReleaseDataSetDataColumn {
Table,
Id,
ReleaseDataSetId,
ReleaseDataId,
OrderIndex,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataSetDataModel {
pub id: i32,
pub release_data_set_id: i32,
pub release_data_id: i32,
pub order_index: i32,
}
/// 数据库表 rtsa.user_operation_log 列映射
#[derive(Debug)]
pub enum UserOperationLogColumn {
Table,
Id,
OrganizationId,
UserId,
LogType,
LogData,
CreatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct UserOperationLogModel {
pub id: i32,
pub organization_id: i32,
pub user_id: i32,
pub log_type: i32,
pub log_data: Value,
pub created_at: DateTime<Local>,
}
impl TableColumn for UserColumn {
fn name(&self) -> &str {
match self {
UserColumn::Table => "rtsa.user",
UserColumn::Id => "id",
UserColumn::Username => "username",
UserColumn::Password => "password",
UserColumn::Nickname => "nickname",
UserColumn::Email => "email",
UserColumn::Mobile => "mobile",
UserColumn::Roles => "roles",
UserColumn::Info => "info",
UserColumn::CreatedAt => "created_at",
UserColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for UserDataColumn {
fn name(&self) -> &str {
match self {
UserDataColumn::Table => "rtsa.user_data",
UserDataColumn::Id => "id",
UserDataColumn::UserId => "user_id",
UserDataColumn::DataType => "data_type",
UserDataColumn::Data => "data",
UserDataColumn::CreatedAt => "created_at",
UserDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for OrganizationColumn {
fn name(&self) -> &str {
match self {
OrganizationColumn::Table => "rtsa.organization",
OrganizationColumn::Id => "id",
OrganizationColumn::Code => "code",
OrganizationColumn::Name => "name",
OrganizationColumn::Config => "config",
OrganizationColumn::ParentId => "parent_id",
OrganizationColumn::CreatorId => "creator_id",
OrganizationColumn::CreatedAt => "created_at",
OrganizationColumn::UpdaterId => "updater_id",
OrganizationColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for OrganizationUserColumn {
fn name(&self) -> &str {
match self {
OrganizationUserColumn::Table => "rtsa.organization_user",
OrganizationUserColumn::Id => "id",
OrganizationUserColumn::OrganizationId => "organization_id",
OrganizationUserColumn::UserId => "user_id",
OrganizationUserColumn::StudentId => "student_id",
OrganizationUserColumn::Roles => "roles",
OrganizationUserColumn::Info => "info",
OrganizationUserColumn::CreatorId => "creator_id",
OrganizationUserColumn::CreatedAt => "created_at",
OrganizationUserColumn::UpdaterId => "updater_id",
OrganizationUserColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for OrganizationDataColumn {
fn name(&self) -> &str {
match self {
OrganizationDataColumn::Table => "rtsa.organization_data",
OrganizationDataColumn::Id => "id",
OrganizationDataColumn::OrganizationId => "organization_id",
OrganizationDataColumn::DataType => "data_type",
OrganizationDataColumn::Data => "data",
OrganizationDataColumn::CreatorId => "creator_id",
OrganizationDataColumn::CreatedAt => "created_at",
OrganizationDataColumn::UpdaterId => "updater_id",
OrganizationDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for FeatureColumn {
fn name(&self) -> &str {
match self {
FeatureColumn::Table => "rtsa.feature",
FeatureColumn::Id => "id",
FeatureColumn::FeatureType => "feature_type",
FeatureColumn::Name => "name",
FeatureColumn::Description => "description",
FeatureColumn::Config => "config",
FeatureColumn::IsPublished => "is_published",
FeatureColumn::CreatorId => "creator_id",
FeatureColumn::UpdaterId => "updater_id",
FeatureColumn::CreatedAt => "created_at",
FeatureColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for OrganizationFeatureColumn {
fn name(&self) -> &str {
match self {
OrganizationFeatureColumn::Table => "rtsa.organization_feature",
OrganizationFeatureColumn::Id => "id",
OrganizationFeatureColumn::OrganizationId => "organization_id",
OrganizationFeatureColumn::FeatureId => "feature_id",
OrganizationFeatureColumn::Config => "config",
OrganizationFeatureColumn::CreatorId => "creator_id",
OrganizationFeatureColumn::CreatedAt => "created_at",
OrganizationFeatureColumn::UpdaterId => "updater_id",
OrganizationFeatureColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for DraftDataColumn {
fn name(&self) -> &str {
match self {
DraftDataColumn::Table => "rtsa.draft_data",
DraftDataColumn::Id => "id",
DraftDataColumn::Name => "name",
DraftDataColumn::DataType => "data_type",
DraftDataColumn::Options => "options",
DraftDataColumn::Data => "data",
DraftDataColumn::DefaultReleaseDataId => "default_release_data_id",
DraftDataColumn::UserId => "user_id",
DraftDataColumn::IsShared => "is_shared",
DraftDataColumn::CreatedAt => "created_at",
DraftDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for ReleaseDataColumn {
fn name(&self) -> &str {
match self {
ReleaseDataColumn::Table => "rtsa.release_data",
ReleaseDataColumn::Id => "id",
ReleaseDataColumn::Name => "name",
ReleaseDataColumn::DataType => "data_type",
ReleaseDataColumn::Options => "options",
ReleaseDataColumn::UsedVersionId => "used_version_id",
ReleaseDataColumn::UserId => "user_id",
ReleaseDataColumn::IsPublished => "is_published",
ReleaseDataColumn::CreatedAt => "created_at",
ReleaseDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for ReleaseDataVersionColumn {
fn name(&self) -> &str {
match self {
ReleaseDataVersionColumn::Table => "rtsa.release_data_version",
ReleaseDataVersionColumn::Id => "id",
ReleaseDataVersionColumn::ReleaseDataId => "release_data_id",
ReleaseDataVersionColumn::Options => "options",
ReleaseDataVersionColumn::Data => "data",
ReleaseDataVersionColumn::Description => "description",
ReleaseDataVersionColumn::UserId => "user_id",
ReleaseDataVersionColumn::CreatedAt => "created_at",
}
}
}
impl TableColumn for ReleaseDataSetColumn {
fn name(&self) -> &str {
match self {
ReleaseDataSetColumn::Table => "rtsa.release_data_set",
ReleaseDataSetColumn::Id => "id",
ReleaseDataSetColumn::DataSetType => "data_set_type",
ReleaseDataSetColumn::Name => "name",
ReleaseDataSetColumn::Description => "description",
ReleaseDataSetColumn::Config => "config",
ReleaseDataSetColumn::IsPublished => "is_published",
ReleaseDataSetColumn::CreatorId => "creator_id",
ReleaseDataSetColumn::CreatedAt => "created_at",
ReleaseDataSetColumn::UpdaterId => "updater_id",
ReleaseDataSetColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for ReleaseDataSetDataColumn {
fn name(&self) -> &str {
match self {
ReleaseDataSetDataColumn::Table => "rtsa.release_data_set_data",
ReleaseDataSetDataColumn::Id => "id",
ReleaseDataSetDataColumn::ReleaseDataSetId => "release_data_set_id",
ReleaseDataSetDataColumn::ReleaseDataId => "release_data_id",
ReleaseDataSetDataColumn::OrderIndex => "order_index",
}
}
}

View File

@ -0,0 +1,71 @@
use argon2::{
password_hash::{PasswordHash, PasswordHasher, PasswordVerifier, SaltString},
Argon2,
};
use rand_core::OsRng;
use md5::{Digest, Md5};
use crate::DbAccessError;
/// 验证密码是否正确
pub fn verify_password(password: &str, hash: &str) -> Result<(), DbAccessError> {
// Verify password against PHC string.
// NOTE: hash params from `parsed_hash` are used instead of what is configured in the
// `Argon2` instance.
let parsed_hash = PasswordHash::new(hash);
match parsed_hash {
Ok(parsed_hash) => Argon2::default()
.verify_password(password.as_bytes(), &parsed_hash)
.map_err(|e| DbAccessError::InvalidArgument(format!("password verify error: {}", e))),
Err(e) => Err(DbAccessError::InvalidArgument(format!(
"password hash error: {}",
e
))),
}
}
pub fn hash_password(password: &str) -> Result<String, DbAccessError> {
let salt = SaltString::generate(&mut OsRng);
// Argon2 with default params (Argon2id v19)
let argon2 = Argon2::default();
// Hash password to PHC string ($argon2id$v=19$...)
let password_hash = argon2.hash_password(password.as_bytes(), &salt);
match password_hash {
Ok(ph) => Ok(ph.to_string()),
Err(e) => Err(DbAccessError::InvalidArgument(format!(
"password hash error: {}",
e
))),
}
}
pub fn md5(input: &str) -> String {
let mut hasher = Md5::new();
hasher.update(input);
let result = hasher.finalize();
format!("{:x}", result)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_hash_password() {
let password = "password";
let hash = hash_password(password).unwrap();
assert!(verify_password(password, &hash).is_ok());
}
#[test]
fn test_md5() {
// let input = "hello";
let input = "joylink0503";
let output = md5(input);
println!("{}", output);
// assert_eq!(output, "5d41402abc4b2a76b9719d911017c592");
}
}

View File

@ -0,0 +1,53 @@
use lazy_static::lazy_static;
use regex::Regex;
pub fn is_email(email: &str) -> bool {
lazy_static! {
static ref RE: Regex =
Regex::new(r"^[a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+\.[a-zA-Z]{2,}$").unwrap();
}
RE.is_match(email)
}
pub fn is_mobile(mobile: &str) -> bool {
lazy_static! {
static ref RE: Regex = Regex::new(r"^1[3-9]\d{9}$").unwrap();
}
RE.is_match(mobile)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_is_email() {
assert!(!is_email("test"));
assert!(!is_email("test@"));
assert!(!is_email("test@163"));
assert!(!is_email("test@163."));
assert!(!is_email("test@163.c"));
assert!(is_email("test@163.cn"));
}
#[test]
fn test_is_mobile() {
assert!(!is_mobile("test"));
assert!(!is_mobile("12345678901"));
assert!(!is_mobile("22345678901"));
assert!(!is_mobile("32345678901"));
assert!(!is_mobile("42345678901"));
assert!(!is_mobile("52345678901"));
assert!(!is_mobile("62345678901"));
assert!(!is_mobile("72345678901"));
assert!(!is_mobile("82345678901"));
assert!(!is_mobile("92345678901"));
assert!(is_mobile("13345678901"));
assert!(is_mobile("14345678901"));
assert!(is_mobile("15345678901"));
assert!(is_mobile("16345678901"));
assert!(is_mobile("17345678901"));
assert!(is_mobile("18345678901"));
assert!(is_mobile("19345678901"));
}
}

View File

@ -1,12 +1,14 @@
[package]
name = "rtss_dto"
name = "rtsa_dto"
version = "0.1.0"
edition = "2021"
[dependencies]
prost = "0.13"
prost-types = "0.13"
async-graphql = { version = "7.0.7", features = ["chrono"] }
sqlx = { workspace = true }
serde = { workspace = true }
[build-dependencies]
prost-build = "0.13"

59
crates/rtsa_dto/build.rs Normal file
View File

@ -0,0 +1,59 @@
use std::process::Command;
use prost_build::Config;
fn main() {
// 获取构建的profile
let profile = std::env::var("PROFILE").unwrap();
println!("profile: {}", profile);
// 如果是release模式不重新生成
if profile == "release" {
return;
}
// println!("cargo:rerun-if-changed=build.rs");
#[cfg(target_os = "windows")]
{
std::env::set_var(
"PROTOC",
"../../rtsa-proto-msg/protoc/protoc-27.4-win64/bin/protoc.exe",
);
}
Config::new()
.out_dir("src/pb")
.type_attribute(
"common.Role",
"#[derive(sqlx::Type, async_graphql::Enum, serde::Serialize, serde::Deserialize)]",
)
.type_attribute(
"common.DataType",
"#[derive(sqlx::Type, async_graphql::Enum, serde::Serialize, serde::Deserialize)]",
)
.type_attribute(
"common.LineType",
"#[derive(async_graphql::Enum, serde::Serialize, serde::Deserialize)]",
)
.type_attribute(
"common.IscsStyle",
"#[derive(async_graphql::Enum, serde::Serialize, serde::Deserialize)]",
)
.type_attribute(
"common.FeatureType",
"#[derive(sqlx::Type, async_graphql::Enum, serde::Serialize, serde::Deserialize)]",
)
.compile_protos(
&[
"../../rtsa-proto-msg/src/common.proto",
"../../rtsa-proto-msg/src/iscs_graphic_data.proto",
"../../rtsa-proto-msg/src/simulation.proto",
],
&["../../rtsa-proto-msg/src/"],
)
.unwrap();
// Run cargo fmt to format the generated code
Command::new("cargo")
.args(["fmt"])
.status()
.expect("Failed to run cargo fmt on rtsa-dto");
}

View File

@ -0,0 +1,27 @@
mod pb;
pub use pb::*;
#[cfg(test)]
mod tests {
use crate::simulation::{self, operation, SetSpeedParam};
#[test]
fn test_prost_any() {
let op = simulation::Operation {
otype: simulation::OperationType::SetSpeed as i32,
param: Some(operation::Param::SetSpeedParam(SetSpeedParam {
speed: 1.0,
})),
};
println!("{:?}", op);
if let Some(param) = op.param {
match param {
operation::Param::SetSpeedParam(ssp) => {
assert_eq!(ssp.speed, 1.0);
}
}
}
}
}

View File

@ -86,12 +86,78 @@ pub struct CommonInfo {
pub transform: ::core::option::Option<Transform>,
/// 子元素变换
#[prost(message, repeated, tag = "4")]
pub children_transform: ::prost::alloc::vec::Vec<ChildTransform>,
pub child_transforms: ::prost::alloc::vec::Vec<ChildTransform>,
}
/// 用户角色
#[derive(
sqlx::Type,
async_graphql::Enum,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration,
)]
#[repr(i32)]
pub enum Role {
/// 未知
Unknown = 0,
/// 系统管理员
Admin = 1,
/// 普通用户
User = 2,
/// -----组织用户角色-----
/// 组织管理员
OrgManager = 11,
/// 组织教师
OrgTeacher = 12,
/// 组织学生
OrgStudent = 13,
/// 组织访客
OrgGuest = 14,
}
impl Role {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
Role::Unknown => "Role_Unknown",
Role::Admin => "Role_Admin",
Role::User => "Role_User",
Role::OrgManager => "Role_OrgManager",
Role::OrgTeacher => "Role_OrgTeacher",
Role::OrgStudent => "Role_OrgStudent",
Role::OrgGuest => "Role_OrgGuest",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"Role_Unknown" => Some(Self::Unknown),
"Role_Admin" => Some(Self::Admin),
"Role_User" => Some(Self::User),
"Role_OrgManager" => Some(Self::OrgManager),
"Role_OrgTeacher" => Some(Self::OrgTeacher),
"Role_OrgStudent" => Some(Self::OrgStudent),
"Role_OrgGuest" => Some(Self::OrgGuest),
_ => None,
}
}
}
/// 数据类型
#[derive(
sqlx::Type,
async_graphql::Enum,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
@ -108,10 +174,6 @@ pub enum DataType {
Unknown = 0,
/// 电子地图数据
Em = 1,
/// IBP数据
Ibp = 2,
/// PSL数据
Psl = 3,
/// ISCS数据
Iscs = 4,
}
@ -124,8 +186,6 @@ impl DataType {
match self {
DataType::Unknown => "DataType_Unknown",
DataType::Em => "DataType_Em",
DataType::Ibp => "DataType_Ibp",
DataType::Psl => "DataType_Psl",
DataType::Iscs => "DataType_Iscs",
}
}
@ -134,23 +194,124 @@ impl DataType {
match value {
"DataType_Unknown" => Some(Self::Unknown),
"DataType_Em" => Some(Self::Em),
"DataType_Ibp" => Some(Self::Ibp),
"DataType_Psl" => Some(Self::Psl),
"DataType_Iscs" => Some(Self::Iscs),
_ => None,
}
}
}
/// 线路类型
#[derive(
async_graphql::Enum,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration,
)]
#[repr(i32)]
pub enum LineType {
/// 未知
Unknown = 0,
/// 城市轨道交通
Ur = 1,
/// 城际轨道交通
Ir = 2,
/// 市域轨道交通
Cr = 3,
}
impl LineType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
LineType::Unknown => "LineType_Unknown",
LineType::Ur => "LineType_Ur",
LineType::Ir => "LineType_Ir",
LineType::Cr => "LineType_Cr",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"LineType_Unknown" => Some(Self::Unknown),
"LineType_Ur" => Some(Self::Ur),
"LineType_Ir" => Some(Self::Ir),
"LineType_Cr" => Some(Self::Cr),
_ => None,
}
}
}
#[derive(
async_graphql::Enum,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration,
)]
#[repr(i32)]
pub enum IscsStyle {
/// 未知
Unknown = 0,
/// 达实智能(福州一号线)
DaShiZhiNeng = 1,
}
impl IscsStyle {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
IscsStyle::Unknown => "IscsStyle_Unknown",
IscsStyle::DaShiZhiNeng => "IscsStyle_DaShiZhiNeng",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"IscsStyle_Unknown" => Some(Self::Unknown),
"IscsStyle_DaShiZhiNeng" => Some(Self::DaShiZhiNeng),
_ => None,
}
}
}
/// 功能特性类型
#[derive(
sqlx::Type, Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, ::prost::Enumeration,
sqlx::Type,
async_graphql::Enum,
serde::Serialize,
serde::Deserialize,
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration,
)]
#[repr(i32)]
pub enum FeatureType {
/// 未知
Unknown = 0,
/// 仿真
Simulation = 1,
/// 城轨信号系统仿真(Urban Rail)
Ur = 1,
/// 运行图编制
RunPlan = 2,
}
@ -162,7 +323,7 @@ impl FeatureType {
pub fn as_str_name(&self) -> &'static str {
match self {
FeatureType::Unknown => "FeatureType_Unknown",
FeatureType::Simulation => "FeatureType_Simulation",
FeatureType::Ur => "FeatureType_Ur",
FeatureType::RunPlan => "FeatureType_RunPlan",
}
}
@ -170,7 +331,7 @@ impl FeatureType {
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"FeatureType_Unknown" => Some(Self::Unknown),
"FeatureType_Simulation" => Some(Self::Simulation),
"FeatureType_Ur" => Some(Self::Ur),
"FeatureType_RunPlan" => Some(Self::RunPlan),
_ => None,
}

View File

@ -0,0 +1,662 @@
// This file is @generated by prost-build.
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct IscsGraphicStorage {
#[prost(message, repeated, tag = "1")]
pub cctv_of_equipment_layout_storages: ::prost::alloc::vec::Vec<
CctvOfEquipmentLayoutStorage,
>,
#[prost(message, repeated, tag = "2")]
pub fas_of_platform_alarm_storages: ::prost::alloc::vec::Vec<
FasOfPlatformAlarmStorage,
>,
#[prost(message, repeated, tag = "3")]
pub bas_of_escalator_storages: ::prost::alloc::vec::Vec<BasOfEscalatorStorage>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct UniqueIdOfStationLayout {
/// 城市
#[prost(string, tag = "1")]
pub city: ::prost::alloc::string::String,
/// 线路号
#[prost(string, tag = "2")]
pub line_id: ::prost::alloc::string::String,
/// 地图的公里标主坐标系
#[prost(string, tag = "3")]
pub main_coordinate_system: ::prost::alloc::string::String,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct CommonGraphicStorage {
#[prost(message, repeated, tag = "1")]
pub arrows: ::prost::alloc::vec::Vec<Arrow>,
#[prost(message, repeated, tag = "2")]
pub texts: ::prost::alloc::vec::Vec<Text>,
#[prost(message, repeated, tag = "3")]
pub rects: ::prost::alloc::vec::Vec<Rect>,
#[prost(message, repeated, tag = "4")]
pub lines: ::prost::alloc::vec::Vec<Line>,
#[prost(message, repeated, tag = "5")]
pub circles: ::prost::alloc::vec::Vec<Circle>,
#[prost(message, repeated, tag = "6")]
pub buttons: ::prost::alloc::vec::Vec<Button>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Arrow {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
#[prost(message, repeated, tag = "3")]
pub points: ::prost::alloc::vec::Vec<super::common::Point>,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Text {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
#[prost(string, tag = "3")]
pub content: ::prost::alloc::string::String,
#[prost(string, tag = "4")]
pub color: ::prost::alloc::string::String,
#[prost(int32, tag = "5")]
pub font_size: i32,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Rect {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
/// 线宽
#[prost(int32, tag = "3")]
pub line_width: i32,
/// 线色
#[prost(string, tag = "4")]
pub line_color: ::prost::alloc::string::String,
/// 宽度
#[prost(float, tag = "5")]
pub width: f32,
/// 高度
#[prost(float, tag = "6")]
pub height: f32,
/// 圆角半径
#[prost(int32, tag = "7")]
pub radius: i32,
/// 画第一个点的坐标
#[prost(message, optional, tag = "8")]
pub point: ::core::option::Option<super::common::Point>,
/// 填充色
#[prost(string, tag = "9")]
pub fill_color: ::prost::alloc::string::String,
/// 透明度
#[prost(float, tag = "10")]
pub alpha: f32,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Line {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
/// 编号
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
/// 点列表
#[prost(message, repeated, tag = "3")]
pub points: ::prost::alloc::vec::Vec<super::common::Point>,
/// 是否曲线
#[prost(bool, tag = "4")]
pub is_curve: bool,
/// 曲线分段数
#[prost(int32, tag = "5")]
pub segments_count: i32,
/// 线宽
#[prost(int32, tag = "6")]
pub line_width: i32,
/// 线色
#[prost(string, tag = "7")]
pub line_color: ::prost::alloc::string::String,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Circle {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
#[prost(message, optional, tag = "3")]
pub position: ::core::option::Option<super::common::Point>,
#[prost(float, tag = "4")]
pub radius: f32,
#[prost(int32, tag = "5")]
pub line_width: i32,
#[prost(string, tag = "6")]
pub line_color: ::prost::alloc::string::String,
#[prost(string, tag = "7")]
pub fill_color: ::prost::alloc::string::String,
#[prost(float, tag = "8")]
pub alpha: f32,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Button {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
#[prost(string, tag = "3")]
pub code_color: ::prost::alloc::string::String,
#[prost(int32, tag = "4")]
pub code_font_size: i32,
/// 所属ISCS子菜单
#[prost(string, tag = "5")]
pub belong_sub_menu: ::prost::alloc::string::String,
/// 类似icon
#[prost(enumeration = "button::ButtonType", tag = "6")]
pub button_type: i32,
/// 宽度
#[prost(float, tag = "7")]
pub width: f32,
/// 高度
#[prost(float, tag = "8")]
pub height: f32,
/// 圆角半径_可变圆
#[prost(int32, tag = "9")]
pub radius: i32,
/// 填充色
#[prost(string, tag = "10")]
pub fill_color: ::prost::alloc::string::String,
/// 透明度
#[prost(float, tag = "11")]
pub alpha: f32,
}
/// Nested message and enum types in `Button`.
pub mod button {
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum ButtonType {
/// 没有Icon
NoIcon = 0,
/// 监控方形
CctvRect = 1,
/// 监控样子的按钮
CctvMonitor = 2,
/// 半圆样子的按钮
CctvSemicircle = 3,
}
impl ButtonType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
ButtonType::NoIcon => "noIcon",
ButtonType::CctvRect => "cctvRect",
ButtonType::CctvMonitor => "cctvMonitor",
ButtonType::CctvSemicircle => "cctvSemicircle",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"noIcon" => Some(Self::NoIcon),
"cctvRect" => Some(Self::CctvRect),
"cctvMonitor" => Some(Self::CctvMonitor),
"cctvSemicircle" => Some(Self::CctvSemicircle),
_ => None,
}
}
}
}
/// 手动报警按钮
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ManualAlarmButton {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 消防栓报警按钮
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct HydrantAlarmButton {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 气体灭火
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct GasExtinguishing {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 烟雾探测器
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SmokeDetector {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 温度探测器
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct TemperatureDetector {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct BasOfEscalatorStorage {
#[prost(string, tag = "1")]
pub station_name: ::prost::alloc::string::String,
#[prost(message, optional, tag = "2")]
pub canvas: ::core::option::Option<super::common::Canvas>,
#[prost(message, optional, tag = "3")]
pub common_graphic_storage: ::core::option::Option<CommonGraphicStorage>,
#[prost(message, repeated, tag = "4")]
pub escalators: ::prost::alloc::vec::Vec<Escalator>,
#[prost(message, repeated, tag = "5")]
pub vertical_elevators: ::prost::alloc::vec::Vec<VerticalElevator>,
}
/// 自动扶梯
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Escalator {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 垂直电梯
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct VerticalElevator {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct CctvOfEquipmentLayoutStorage {
#[prost(string, tag = "1")]
pub station_name: ::prost::alloc::string::String,
#[prost(message, optional, tag = "2")]
pub canvas: ::core::option::Option<super::common::Canvas>,
#[prost(message, optional, tag = "3")]
pub common_graphic_storage: ::core::option::Option<CommonGraphicStorage>,
/// 分层
#[prost(enumeration = "cctv_of_equipment_layout_storage::LayerType", tag = "4")]
pub layer: i32,
}
/// Nested message and enum types in `CCTVOfEquipmentLayoutStorage`.
pub mod cctv_of_equipment_layout_storage {
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum LayerType {
/// 站厅
StationHall = 0,
/// 站台
Platform = 1,
/// 云台
Ptz = 2,
}
impl LayerType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
LayerType::StationHall => "StationHall",
LayerType::Platform => "platform",
LayerType::Ptz => "PTZ",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"StationHall" => Some(Self::StationHall),
"platform" => Some(Self::Platform),
"PTZ" => Some(Self::Ptz),
_ => None,
}
}
}
}
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FasOfPlatformAlarmStorage {
#[prost(string, tag = "1")]
pub station_name: ::prost::alloc::string::String,
#[prost(message, optional, tag = "2")]
pub canvas: ::core::option::Option<super::common::Canvas>,
#[prost(message, optional, tag = "3")]
pub common_graphic_storage: ::core::option::Option<CommonGraphicStorage>,
/// 分区
#[prost(string, tag = "4")]
pub partition: ::prost::alloc::string::String,
#[prost(message, repeated, tag = "5")]
pub fas_failure_control_hosts: ::prost::alloc::vec::Vec<FasFailureControlHost>,
#[prost(message, repeated, tag = "6")]
pub fas_alarms: ::prost::alloc::vec::Vec<FasAlarm>,
#[prost(message, repeated, tag = "7")]
pub manual_alarm_buttons: ::prost::alloc::vec::Vec<ManualAlarmButton>,
#[prost(message, repeated, tag = "8")]
pub hydrant_alarm_buttons: ::prost::alloc::vec::Vec<HydrantAlarmButton>,
#[prost(message, repeated, tag = "9")]
pub gas_extinguishings: ::prost::alloc::vec::Vec<GasExtinguishing>,
#[prost(message, repeated, tag = "10")]
pub smoke_detectors: ::prost::alloc::vec::Vec<SmokeDetector>,
#[prost(message, repeated, tag = "11")]
pub temperature_detectors: ::prost::alloc::vec::Vec<TemperatureDetector>,
#[prost(message, repeated, tag = "12")]
pub fire_shutters: ::prost::alloc::vec::Vec<FireShutter>,
#[prost(message, repeated, tag = "13")]
pub fire_pumps: ::prost::alloc::vec::Vec<FirePump>,
#[prost(message, repeated, tag = "14")]
pub spray_pumps: ::prost::alloc::vec::Vec<SprayPump>,
#[prost(message, repeated, tag = "15")]
pub stabilized_pressure_pumps: ::prost::alloc::vec::Vec<StabilizedPressurePump>,
#[prost(message, repeated, tag = "16")]
pub acs: ::prost::alloc::vec::Vec<Acs>,
#[prost(message, repeated, tag = "17")]
pub afc: ::prost::alloc::vec::Vec<Afc>,
#[prost(message, repeated, tag = "18")]
pub non_fire_power_supplies: ::prost::alloc::vec::Vec<NonFirePowerSupply>,
#[prost(message, repeated, tag = "19")]
pub water_flow_indicators: ::prost::alloc::vec::Vec<WaterFlowIndicator>,
#[prost(message, repeated, tag = "20")]
pub signal_butterfly_valves: ::prost::alloc::vec::Vec<SignalButterflyValve>,
#[prost(message, repeated, tag = "21")]
pub pressure_switches: ::prost::alloc::vec::Vec<PressureSwitch>,
#[prost(message, repeated, tag = "22")]
pub fault_valves: ::prost::alloc::vec::Vec<FaultValve>,
#[prost(message, repeated, tag = "23")]
pub start_pump_buttons: ::prost::alloc::vec::Vec<StartPumpButton>,
#[prost(message, repeated, tag = "24")]
pub temperature_cables: ::prost::alloc::vec::Vec<TemperatureCable>,
#[prost(message, repeated, tag = "25")]
pub emergency_lightings: ::prost::alloc::vec::Vec<EmergencyLighting>,
#[prost(message, repeated, tag = "26")]
pub elevator_lift_to_tops: ::prost::alloc::vec::Vec<ElevatorLiftToTop>,
#[prost(message, repeated, tag = "27")]
pub electric_butterfly_valves: ::prost::alloc::vec::Vec<ElectricButterflyValve>,
#[prost(message, repeated, tag = "28")]
pub fire_valves: ::prost::alloc::vec::Vec<FireValve>,
#[prost(message, repeated, tag = "29")]
pub electric_fire_extinguishing_valves: ::prost::alloc::vec::Vec<
ElectricFireExtinguishingValve,
>,
#[prost(message, repeated, tag = "30")]
pub fire_intercommunication_signals: ::prost::alloc::vec::Vec<
FireIntercommunicationSignal,
>,
}
/// 火灾故障控制主机
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FasFailureControlHost {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 警铃
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FasAlarm {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 防火卷帘
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FireShutter {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
#[prost(enumeration = "fire_shutter::ShutterType", tag = "3")]
pub r#type: i32,
}
/// Nested message and enum types in `FireShutter`.
pub mod fire_shutter {
#[derive(
Clone,
Copy,
Debug,
PartialEq,
Eq,
Hash,
PartialOrd,
Ord,
::prost::Enumeration
)]
#[repr(i32)]
pub enum ShutterType {
/// 隔断型
Partition = 0,
/// 疏散型
Dispersal = 1,
}
impl ShutterType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
ShutterType::Partition => "partition",
ShutterType::Dispersal => "dispersal",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"partition" => Some(Self::Partition),
"dispersal" => Some(Self::Dispersal),
_ => None,
}
}
}
}
/// 消防泵
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FirePump {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 喷淋泵
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SprayPump {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 稳压泵
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct StabilizedPressurePump {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// ACS
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Acs {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// AFC
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Afc {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 非消防电源
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct NonFirePowerSupply {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 水流指示器
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct WaterFlowIndicator {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 信号蝶阀
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct SignalButterflyValve {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 压力开关
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct PressureSwitch {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 故障阀
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FaultValve {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 启泵按钮
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct StartPumpButton {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 感温电缆
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct TemperatureCable {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 应急照明
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct EmergencyLighting {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 电梯归首
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ElevatorLiftToTop {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 电动蝶阀
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ElectricButterflyValve {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 防火阀
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FireValve {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 电动防烟防火阀
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct ElectricFireExtinguishingValve {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}
/// 火灾互联互通信号
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct FireIntercommunicationSignal {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
#[prost(string, tag = "2")]
pub code: ::prost::alloc::string::String,
}

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@ -0,0 +1,2 @@
pub mod common;
pub mod simulation;

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@ -0,0 +1,77 @@
// This file is @generated by prost-build.
/// 仿真操作
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct Operation {
/// 操作类型
#[prost(enumeration = "OperationType", tag = "1")]
pub otype: i32,
/// 操作参数
#[prost(oneof = "operation::Param", tags = "2")]
pub param: ::core::option::Option<operation::Param>,
}
/// Nested message and enum types in `Operation`.
pub mod operation {
/// 操作参数
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, Copy, PartialEq, ::prost::Oneof)]
pub enum Param {
/// 设置仿真运行速度参数
#[prost(message, tag = "2")]
SetSpeedParam(super::SetSpeedParam),
}
}
/// 设置仿真运行速度参数
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, Copy, PartialEq, ::prost::Message)]
pub struct SetSpeedParam {
/// 运行速度
#[prost(float, tag = "1")]
pub speed: f32,
}
/// 仿真操作类型
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, ::prost::Enumeration)]
#[repr(i32)]
pub enum OperationType {
/// 未知
Unknown = 0,
/// -------仿真控制操作--------
/// 暂停
Pause = 1,
/// 恢复运行
Unpause = 2,
/// 重置
Reset = 3,
/// 设置运行速度
SetSpeed = 4,
/// 销毁
Destroy = 5,
}
impl OperationType {
/// String value of the enum field names used in the ProtoBuf definition.
///
/// The values are not transformed in any way and thus are considered stable
/// (if the ProtoBuf definition does not change) and safe for programmatic use.
pub fn as_str_name(&self) -> &'static str {
match self {
OperationType::Unknown => "Unknown",
OperationType::Pause => "Pause",
OperationType::Unpause => "Unpause",
OperationType::Reset => "Reset",
OperationType::SetSpeed => "SetSpeed",
OperationType::Destroy => "Destroy",
}
}
/// Creates an enum from field names used in the ProtoBuf definition.
pub fn from_str_name(value: &str) -> ::core::option::Option<Self> {
match value {
"Unknown" => Some(Self::Unknown),
"Pause" => Some(Self::Pause),
"Unpause" => Some(Self::Unpause),
"Reset" => Some(Self::Reset),
"SetSpeed" => Some(Self::SetSpeed),
"Destroy" => Some(Self::Destroy),
_ => None,
}
}
}

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@ -1,5 +1,5 @@
[package]
name = "rtss_log"
name = "rtsa_log"
version = "0.1.0"
edition = "2021"

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@ -0,0 +1,15 @@
[package]
name = "rtsa_mqtt"
version = "0.1.0"
edition = "2021"
[dependencies]
rumqttc = { version = "0.24.0", features = ["url"] }
tokio = { workspace = true, features = ["sync"] }
async-trait = { workspace = true }
bytes = { workspace = true }
lazy_static = { workspace = true }
thiserror = { workspace = true }
tower = { workspace = true }
rtsa_log = { path = "../rtsa_log" }

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@ -0,0 +1,16 @@
use rumqttc::v5::ClientError;
use thiserror::Error;
#[derive(Error, Debug)]
pub enum MqttClientError {
#[error("未知的Mqtt客户端错误")]
Unknown,
#[error("客户端已设置")]
AlreadySet,
#[error("rumqttc 错误: {0}")]
ClientError(#[from] ClientError),
#[error("全局客户端未设置")]
NoClient,
#[error("请求超时")]
RequestTimeout,
}

512
crates/rtsa_mqtt/src/lib.rs Normal file
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use core::panic;
use std::{
sync::{
atomic::{AtomicU64, Ordering},
Arc, Mutex,
},
task::Waker,
time::Duration,
};
use bytes::Bytes;
use lazy_static::lazy_static;
use rtsa_log::tracing::{error, info, trace};
use rumqttc::{
v5::{
mqttbytes::{
v5::{Packet, Publish, PublishProperties},
QoS,
},
AsyncClient, Event, EventLoop, MqttOptions,
},
Outgoing,
};
use service::{Handler, MqttRequest, MqttRouter};
use tokio::{sync::oneshot, time::timeout};
mod error;
use error::MqttClientError;
mod service;
lazy_static! {
/// 全局静态MqttClient实例
/// 使用注意事项:
/// 每次订阅/发布/请求时都通过get_global_mqtt_client获取新的实例否则可能会出现死锁
static ref MQTT_CLIENT: tokio::sync::Mutex<Option<MqttClient>> = tokio::sync::Mutex::new(None);
}
/// 初始化全局MqttClient实例
pub async fn init_global_mqtt_client(
mut options: MqttClientOptions,
) -> Result<(), MqttClientError> {
let client = options.build();
set_global_mqtt_client(client).await
}
/// 设置全局MqttClient实例
pub async fn set_global_mqtt_client(client: MqttClient) -> Result<(), MqttClientError> {
let mut mqtt_client = MQTT_CLIENT.lock().await;
if mqtt_client.is_some() {
return Err(MqttClientError::AlreadySet);
}
*mqtt_client = Some(client);
Ok(())
}
/// 获取全局MqttClient实例
pub async fn get_global_mqtt_client() -> MqttClient {
let mqtt_client = MQTT_CLIENT.lock().await;
if let Some(client) = mqtt_client.as_ref() {
return client.clone();
}
panic!("MqttClient未初始化: 使用init_global_mqtt_client初始化或者在main函数中调用set_global_mqtt_client设置");
}
pub struct MqttClientOptions {
id: String,
options: MqttOptions,
/// mqtt客户端请求队列的最大容量
max_cap: usize,
request_timeout: Duration,
}
impl MqttClientOptions {
pub fn new(id: &str, url: &str) -> Self {
Self {
id: id.to_string(),
options: MqttOptions::parse_url(format!("{}?client_id={}", url, id))
.expect("解析mqtt url失败"),
max_cap: 30,
request_timeout: Duration::from_secs(5),
}
}
pub fn set_max_cap(mut self, max_cap: usize) -> Self {
self.max_cap = max_cap;
self
}
pub fn set_request_timeout(mut self, timeout: Duration) -> Self {
self.request_timeout = timeout;
self
}
pub fn set_credentials(mut self, username: &str, password: &str) -> Self {
self.options.set_credentials(username, password);
self
}
pub fn build(&mut self) -> MqttClient {
self.options.set_keep_alive(Duration::from_secs(10));
let (client, eventloop) = AsyncClient::new(self.options.clone(), self.max_cap);
let cli = MqttClient {
id: self.id.clone(),
request_timeout: self.request_timeout,
client,
request_id: Arc::new(AtomicU64::new(0)),
router: MqttRouter::new(),
};
cli.run_async(eventloop);
cli
}
}
/// MQTT客户端
/// id: 客户端ID,从数据库的id序列中获取
/// 客户端具有的功能:
/// 1. 启动
/// 2. 订阅
/// 3. 发布
/// 4. 实现类似http的请求相应功能
/// 5. 断开连接
#[derive(Clone)]
pub struct MqttClient {
id: String,
/// 全局的请求超时时间
request_timeout: Duration,
client: AsyncClient,
request_id: Arc<AtomicU64>,
router: MqttRouter,
}
impl MqttClient {
pub async fn clear(&self) -> Result<(), MqttClientError> {
self.client.disconnect().await?;
// 清空订阅处理器
self.router.clear();
Ok(())
}
pub fn id(&self) -> &str {
&self.id
}
pub async fn publish(
&self,
topic: &str,
qos: QoS,
payload: Vec<u8>,
) -> Result<(), MqttClientError> {
self.client.publish(topic, qos, false, payload).await?;
Ok(())
}
pub async fn add_route<H>(&self, topic: &str, handler: H, qos: QoS)
where
H: Handler + Send + Sync + 'static,
{
self.client.subscribe(topic, qos).await.unwrap();
self.router.add_route(topic, handler);
}
pub async fn remove_route(&self, topic: &str) {
self.client.unsubscribe(topic).await.unwrap();
self.router.remove_route(topic);
}
pub fn next_request_id(&self) -> u64 {
self.request_id.fetch_add(1, Ordering::Relaxed)
}
pub async fn handle_request(
&self,
req: Request,
timeout: Duration,
) -> Result<Response, MqttClientError> {
// 订阅响应主题
let response_topic = format!("{}/{}/resp/{}", self.id, req.topic, self.next_request_id());
// 创建请求future
let response_future = MqttResponseFuture::new(&response_topic, timeout);
// 添加响应处理器
self.add_route(&response_topic, response_future.clone(), QoS::ExactlyOnce)
.await;
// 发布请求
let property = PublishProperties {
response_topic: Some(response_topic.clone()),
..req.properties.unwrap_or_default()
};
self.client
.publish_with_properties(req.topic, req.qos, false, req.payload, property)
.await?;
// 等待响应
let resp = response_future.await;
// 注销响应处理器并取消订阅
self.remove_route(&response_topic).await;
if resp.is_timeout() {
return Err(MqttClientError::RequestTimeout);
}
Ok(resp)
}
/// 发送请求并等待响应
pub async fn request(&self, req: Request) -> Result<Response, MqttClientError> {
self.handle_request(req, self.request_timeout).await
}
/// 发送请求并等待响应,指定响应超时时间
/// 响应超时时间为0时表示永不超时
pub async fn request_with_timeout(
&self,
req: Request,
timeout: Duration,
) -> Result<Response, MqttClientError> {
self.handle_request(req, timeout).await
}
fn run_async(&self, eventloop: EventLoop) {
let cli = self.clone();
tokio::spawn(async move {
cli.run(eventloop).await;
});
}
async fn run(&self, mut eventloop: EventLoop) {
while let Ok(notification) = eventloop.poll().await {
match notification {
Event::Incoming(Packet::Publish(publish)) => {
trace!("Received message: {:?}", publish);
let this = self.clone();
let router = self.router.clone();
tokio::spawn(async move {
let response_topic = publish
.properties
.clone()
.and_then(|p| p.response_topic.clone());
if let Some(resp) = router.handle_request(MqttRequest::new(publish)).await {
if let Some(r_topic) = response_topic {
this.publish(&r_topic, QoS::AtMostOnce, resp.payload.to_vec())
.await
.unwrap();
}
}
});
}
Event::Outgoing(Outgoing::Disconnect) => {
info!("Disconnected to the broker");
break;
}
Event::Incoming(Packet::Disconnect(disconnect)) => {
info!("Disconnected from the broker: {:?}", disconnect);
break;
}
_ => {
trace!("Unhandled event: {:?}", notification);
}
}
}
}
}
pub struct Request {
topic: String,
qos: QoS,
payload: Bytes,
properties: Option<PublishProperties>,
}
impl Request {
pub fn new(topic: &str, payload: Bytes) -> Self {
Self {
topic: topic.to_string(),
qos: QoS::AtMostOnce,
payload,
properties: None,
}
}
pub fn with_qos(mut self, qos: QoS) -> Self {
self.qos = qos;
self
}
pub fn with_properties(mut self, properties: PublishProperties) -> Self {
self.properties = Some(properties);
self
}
}
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum MqttResponseState {
Waiting,
Received,
Timeout,
}
/// MQTT请求响应
#[derive(Clone, Debug)]
pub struct Response {
state: Arc<Mutex<MqttResponseState>>,
response: Arc<Mutex<Publish>>,
}
impl Default for Response {
fn default() -> Self {
Self::new()
}
}
impl Response {
pub fn new() -> Self {
Self {
state: Arc::new(Mutex::new(MqttResponseState::Waiting)),
response: Arc::new(Mutex::new(Publish::default())),
}
}
pub fn is_waiting(&self) -> bool {
*self.state.lock().unwrap() == MqttResponseState::Waiting
}
pub fn is_received(&self) -> bool {
*self.state.lock().unwrap() == MqttResponseState::Received
}
pub fn is_timeout(&self) -> bool {
*self.state.lock().unwrap() == MqttResponseState::Timeout
}
pub fn set_timeout(&self) {
*self.state.lock().unwrap() = MqttResponseState::Timeout;
}
pub fn set(&self, response: Publish) {
*self.state.lock().unwrap() = MqttResponseState::Received;
*self.response.lock().unwrap() = response;
}
pub fn get(&self) -> Publish {
self.response.lock().unwrap().clone()
}
}
/// MQTT响应Future
#[derive(Clone)]
pub struct MqttResponseFuture {
pub start_time: std::time::Instant,
timeout: Duration,
tx: Arc<Mutex<Option<oneshot::Sender<()>>>>,
waker: Arc<Mutex<Option<Waker>>>,
response_topic: String,
response: Response,
}
impl MqttResponseFuture {
pub fn new(response_topic: &str, timeout: Duration) -> Self {
let (tx, rx) = oneshot::channel();
let r = Self {
start_time: std::time::Instant::now(),
timeout,
tx: Arc::new(Mutex::new(Some(tx))),
waker: Arc::new(Mutex::new(None)),
response_topic: response_topic.to_string(),
response: Response::new(),
};
// 启动超时检查
r.start_timeout_monitor(rx);
r
}
/// 启动超时监控任务逻辑
fn start_timeout_monitor(&self, rx: oneshot::Receiver<()>) {
if self.timeout.as_millis() == 0 {
return;
}
let response = self.response.clone();
let response_topic = self.response_topic.clone();
let duration = self.timeout;
let waker = self.waker.clone();
tokio::spawn(async move {
if (timeout(duration, rx).await).is_err() {
error!("Mqtt response timeout: {:?}", response_topic);
response.set_timeout();
if let Some(waker) = waker.lock().unwrap().take() {
waker.wake();
}
}
});
}
}
impl Handler for MqttResponseFuture {
fn handle(
&self,
req: MqttRequest,
) -> std::pin::Pin<Box<dyn std::future::Future<Output = Option<service::MqttResponse>> + Send>>
{
let topic = req.topic();
trace!("MqttResponseFuture handle: {:?}", topic);
if topic == self.response_topic {
self.response.set(req.get());
if let Some(tx) = self.tx.lock().unwrap().take() {
tx.send(())
.expect("Send Mqtt response timeout signal failed");
}
if let Some(waker) = self.waker.lock().unwrap().take() {
waker.wake();
}
}
Box::pin(async { None })
}
}
impl std::future::Future for MqttResponseFuture {
type Output = Response;
fn poll(
self: std::pin::Pin<&mut Self>,
cx: &mut std::task::Context<'_>,
) -> std::task::Poll<Self::Output> {
if self.response.is_waiting() {
trace!(
"topic={} Response future poll waiting...",
self.response_topic
);
self.waker.lock().unwrap().replace(cx.waker().clone());
std::task::Poll::Pending
} else {
trace!(
"topic={} Response future poll ready: {:?}",
self.response_topic,
self.response
);
std::task::Poll::Ready(self.response.clone())
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use rtsa_log::tracing::Level;
use tokio::time::Duration;
fn create_mqtt_options() -> MqttClientOptions {
MqttClientOptions::new("rtsa_test1", "tcp://localhost:1883")
.set_credentials("rtsa", "Joylink@0503")
}
#[tokio::test]
async fn test_mqtt_client_initialization() {
let options = create_mqtt_options();
let result = init_global_mqtt_client(options).await;
assert!(result.is_ok());
}
#[tokio::test]
async fn test_mqtt_client_publish() {
let options = create_mqtt_options();
init_global_mqtt_client(options).await.unwrap();
let mqtt_client = get_global_mqtt_client().await;
let result = mqtt_client
.publish("test/topic", QoS::AtLeastOnce, b"Hello, MQTT!".to_vec())
.await;
assert!(result.is_ok());
}
#[tokio::test]
async fn test_mqtt_client_request_response() {
rtsa_log::Logging::default().with_level(Level::TRACE).init();
let options = create_mqtt_options();
init_global_mqtt_client(options).await.unwrap();
let mqtt_client = get_global_mqtt_client().await;
struct EchoHandler;
impl Handler for EchoHandler {
fn handle(
&self,
req: MqttRequest,
) -> std::pin::Pin<
Box<dyn std::future::Future<Output = Option<service::MqttResponse>> + Send>,
> {
let payload = req.payload();
Box::pin(async move { Some(service::MqttResponse::new(payload)) })
}
}
mqtt_client
.add_route("test/echo", EchoHandler, QoS::AtLeastOnce)
.await;
let request = Request::new("test/echo", Bytes::from("Echo message"));
let response = mqtt_client.request(request).await.unwrap();
assert_eq!(response.get().payload, Bytes::from("Echo message"));
mqtt_client.remove_route("test/echo").await;
}
#[tokio::test]
async fn test_mqtt_client_timeout() {
let options = create_mqtt_options();
init_global_mqtt_client(options).await.unwrap();
let mqtt_client = get_global_mqtt_client().await;
let request =
Request::new("test/timeout", Bytes::from("Timeout test")).with_qos(QoS::ExactlyOnce);
let result = mqtt_client
.request_with_timeout(request, Duration::from_secs(1))
.await;
assert!(result.is_err());
}
}

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use std::{
collections::HashMap,
future::Future,
pin::Pin,
sync::{Arc, Mutex},
};
use bytes::Bytes;
use rumqttc::v5::mqttbytes::v5::{Publish, PublishProperties};
pub struct MqttRequest {
publish: Publish,
}
impl MqttRequest {
pub fn new(publish: Publish) -> Self {
MqttRequest { publish }
}
pub fn topic(&self) -> String {
String::from_utf8_lossy(&self.publish.topic).to_string()
}
pub fn payload(&self) -> Bytes {
self.publish.payload.clone()
}
pub fn get(&self) -> Publish {
self.publish.clone()
}
}
pub struct MqttResponse {
pub properties: Option<PublishProperties>,
pub payload: Bytes,
}
impl MqttResponse {
pub fn new(payload: Bytes) -> Self {
MqttResponse {
properties: None,
payload,
}
}
pub fn with_properties(payload: Bytes, properties: PublishProperties) -> Self {
MqttResponse {
properties: Some(properties),
payload,
}
}
}
pub trait Handler: Send + Sync + 'static {
fn handle(
&self,
req: MqttRequest,
) -> Pin<Box<dyn Future<Output = Option<MqttResponse>> + Send>>;
}
impl<F, Fut> Handler for F
where
F: Fn(MqttRequest) -> Fut + Send + Sync + 'static,
Fut: Future<Output = Option<MqttResponse>> + Send + 'static,
{
fn handle(
&self,
req: MqttRequest,
) -> Pin<Box<dyn Future<Output = Option<MqttResponse>> + Send>> {
Box::pin((self)(req))
}
}
#[derive(Clone)]
pub struct MqttRouter {
routes: Arc<Mutex<HashMap<String, Arc<dyn Handler + Send + Sync>>>>,
}
impl MqttRouter {
pub fn new() -> Self {
MqttRouter {
routes: Arc::new(Mutex::new(HashMap::new())),
}
}
pub fn add_route<H>(&self, topic: &str, handler: H)
where
H: Handler + Send + Sync + 'static,
{
self.routes
.lock()
.unwrap()
.insert(topic.to_string(), Arc::new(handler));
}
pub fn remove_route(&self, topic: &str) {
self.routes.lock().unwrap().remove(topic);
}
fn get_handler(&self, topic: &str) -> Option<Arc<dyn Handler + Send + Sync>> {
let routes = self.routes.lock().unwrap();
routes.get(topic).cloned()
}
pub fn clear(&self) {
self.routes.lock().unwrap().clear();
}
pub async fn handle_request(&self, req: MqttRequest) -> Option<MqttResponse> {
if let Some(handler) = self.get_handler(&req.topic()) {
handler.handle(req).await
} else {
None
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use bytes::Bytes;
use rumqttc::v5::mqttbytes::v5::Publish;
// Helper function to create a Publish message
fn create_publish(topic: &str, payload: &[u8]) -> Publish {
Publish {
topic: topic.as_bytes().to_vec().into(),
payload: Bytes::from(payload.to_vec()),
dup: false,
qos: rumqttc::v5::mqttbytes::QoS::AtMostOnce,
retain: false,
pkid: 0,
properties: None,
}
}
// Sample handler that echoes the payload back
async fn echo_handler(req: MqttRequest) -> Option<MqttResponse> {
Some(MqttResponse {
properties: None,
payload: req.payload(),
})
}
// Sample handler that returns None
async fn none_handler(_req: MqttRequest) -> Option<MqttResponse> {
None
}
#[tokio::test]
async fn test_add_and_get_handler() {
let router = MqttRouter::new();
router.add_route("test/topic", echo_handler);
assert!(router.get_handler("test/topic").is_some());
assert!(router.get_handler("invalid/topic").is_none());
}
#[tokio::test]
async fn test_handle_request_with_existing_route() {
let router = MqttRouter::new();
router.add_route("test/topic", echo_handler);
let publish = create_publish("test/topic", b"hello");
let req = MqttRequest::new(publish);
let response = router.handle_request(req).await;
assert!(response.is_some());
assert_eq!(response.unwrap().payload, Bytes::from("hello"));
}
#[tokio::test]
async fn test_handle_request_with_nonexistent_route() {
let router = MqttRouter::new();
let publish = create_publish("invalid/topic", b"hello");
let req = MqttRequest::new(publish);
let response = router.handle_request(req).await;
assert!(response.is_none());
}
#[tokio::test]
async fn test_handler_returning_none() {
let router = MqttRouter::new();
router.add_route("test/topic", none_handler);
let publish = create_publish("test/topic", b"hello");
let req = MqttRequest::new(publish);
let response = router.handle_request(req).await;
assert!(response.is_none());
}
#[tokio::test]
async fn test_multiple_routes() {
let router = MqttRouter::new();
router.add_route("topic/one", echo_handler);
router.add_route("topic/two", none_handler);
let publish_one = create_publish("topic/one", b"payload1");
let req_one = MqttRequest::new(publish_one);
let response_one = router.handle_request(req_one).await;
assert!(response_one.is_some());
assert_eq!(response_one.unwrap().payload, Bytes::from("payload1"));
let publish_two = create_publish("topic/two", b"payload2");
let req_two = MqttRequest::new(publish_two);
let response_two = router.handle_request(req_two).await;
assert!(response_two.is_none());
}
#[tokio::test]
async fn test_concurrent_access() {
use std::sync::Arc;
use tokio::sync::Barrier;
let router = Arc::new(MqttRouter::new());
router.add_route("test/topic", echo_handler);
let barrier = Arc::new(Barrier::new(10));
let mut handles = Vec::new();
for _ in 0..10 {
let router_cloned = router.clone();
let barrier_cloned = barrier.clone();
let handle = tokio::spawn(async move {
let publish = create_publish("test/topic", b"concurrent");
let req = MqttRequest::new(publish);
barrier_cloned.wait().await;
let response = router_cloned.handle_request(req).await;
assert!(response.is_some());
assert_eq!(response.unwrap().payload, Bytes::from("concurrent"));
});
handles.push(handle);
}
for handle in handles {
handle.await.unwrap();
}
}
}

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@ -1,26 +0,0 @@
[package]
name = "rtss_api"
version = "0.1.0"
edition = "2021"
[dependencies]
anyhow = { workspace = true }
tokio = { workspace = true, features = ["macros", "rt-multi-thread"] }
serde = { version = "1.0.208", features = ["derive"] }
serde_json = "1.0.125"
chrono = { version = "0.4.38", features = ["serde"] }
axum = "0.7.5"
axum-extra = { version = "0.9.3", features = ["typed-header"] }
# jsonwebtoken = "9.3.0"
tower-http = { version = "0.5.0", features = ["cors"] }
async-graphql = { version = "7.0.7", features = ["chrono"] }
async-graphql-axum = "7.0.6"
base64 = "0.22.1"
sysinfo = "0.31.3"
bevy_ecs = { workspace = true }
rtss_log = { path = "../rtss_log" }
rtss_sim_manage = { path = "../rtss_sim_manage" }
rtss_trackside = { path = "../rtss_trackside" }
rtss_db = { path = "../rtss_db" }
rtss_dto = { path = "../rtss_dto" }

View File

@ -1,191 +0,0 @@
use async_graphql::{Context, InputObject, Object, SimpleObject};
use chrono::{DateTime, Local};
use rtss_db::DraftDataAccessor;
use rtss_db::RtssDbAccessor;
use rtss_dto::common::DataType;
use crate::pagination::PageQueryDto;
#[derive(Default)]
pub struct DraftDataQuery;
#[derive(Default)]
pub struct DraftDataMutation;
#[Object]
impl DraftDataQuery {
/// 分页查询草稿数据
async fn draft_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
query: DraftDataFilterDto,
) -> async_graphql::Result<DraftDataPage> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let paging_result = db_accessor
.query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 根据id获取草稿数据
async fn draft_data(&self, ctx: &Context<'_>, id: i32) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor.query_draft_data_by_id(id).await?;
Ok(draft_data.into())
}
/// 查询是否已经存在同一用户下的同名草稿数据
async fn draft_data_exist(
&self,
ctx: &Context<'_>,
user_id: i32,
name: String,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let exist = db_accessor.is_draft_data_exist(user_id, &name).await?;
Ok(exist)
}
}
#[Object]
impl DraftDataMutation {
/// 创建草稿数据
async fn create_draft_data(
&self,
ctx: &Context<'_>,
input: CreateDraftDataDto,
) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor.create_draft_data(input.into()).await?;
Ok(draft_data.into())
}
/// 更新草稿数据name
async fn update_draft_data_name(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor.update_draft_data_name(id, &name).await?;
Ok(draft_data.into())
}
/// 更新草稿数据data
async fn update_draft_data_data(
&self,
ctx: &Context<'_>,
id: i32,
data: Vec<u8>,
) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor
.update_draft_data_data(id, data.as_slice())
.await?;
Ok(draft_data.into())
}
/// 删除草稿数据
async fn delete_draft_data(
&self,
ctx: &Context<'_>,
id: Vec<i32>,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
db_accessor.delete_draft_data(id.as_slice()).await?;
Ok(true)
}
/// 设置草稿数据的默认发布数据
async fn set_default_release_data_id(
&self,
ctx: &Context<'_>,
id: i32,
release_data_id: i32,
) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor
.set_default_release_data_id(id, release_data_id)
.await?;
Ok(draft_data.into())
}
/// 草稿数据另存为
async fn save_as_new_draft_data(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
user_id: i32,
) -> async_graphql::Result<DraftData> {
let db_accessor = ctx.data::<RtssDbAccessor>()?;
let draft_data = db_accessor.save_as_new_draft(id, &name, user_id).await?;
Ok(draft_data.into())
}
}
#[derive(Debug, InputObject)]
pub struct CreateDraftDataDto {
pub name: String,
pub data_type: rtss_dto::common::DataType,
pub user_id: i32,
}
impl From<CreateDraftDataDto> for rtss_db::CreateDraftData {
fn from(value: CreateDraftDataDto) -> Self {
Self::new(&value.name, value.data_type, value.user_id)
}
}
/// 草稿数据查询条件
#[derive(Debug, InputObject)]
pub struct DraftDataFilterDto {
pub user_id: Option<i32>,
pub name: Option<String>,
pub data_type: Option<rtss_dto::common::DataType>,
}
impl From<DraftDataFilterDto> for rtss_db::DraftDataQuery {
fn from(value: DraftDataFilterDto) -> Self {
Self {
user_id: value.user_id,
name: value.name,
data_type: value.data_type,
}
}
}
#[derive(Debug, SimpleObject)]
pub struct DraftData {
pub id: i32,
pub name: String,
pub data_type: rtss_dto::common::DataType,
pub data: Option<Vec<u8>>,
pub user_id: i32,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
impl From<rtss_db::model::DraftDataModel> for DraftData {
fn from(value: rtss_db::model::DraftDataModel) -> Self {
Self {
id: value.id,
name: value.name,
data_type: DataType::try_from(value.data_type).unwrap(),
data: value.data,
user_id: value.user_id,
created_at: value.created_at,
updated_at: value.updated_at,
}
}
}
#[derive(Debug, SimpleObject)]
pub struct DraftDataPage {
pub total: i64,
pub data: Vec<DraftData>,
}
impl From<rtss_db::common::PageResult<rtss_db::model::DraftDataModel>> for DraftDataPage {
fn from(value: rtss_db::common::PageResult<rtss_db::model::DraftDataModel>) -> Self {
Self {
total: value.total,
data: value.data.into_iter().map(|m| m.into()).collect(),
}
}
}

View File

@ -1,82 +0,0 @@
// use std::sync::LazyLock;
// use async_graphql::Result;
// use axum::http::HeaderMap;
// use jsonwebtoken::{decode, DecodingKey, Validation};
// use rtss_log::tracing::error;
// use serde::{Deserialize, Serialize};
// static KEYS: LazyLock<Keys> = LazyLock::new(|| {
// // let secret = std::env::var("JWT_SECRET").expect("JWT_SECRET must be set");
// let secret = "joylink".to_string();
// Keys::new(secret.as_bytes())
// });
// struct Keys {
// // encoding: EncodingKey,
// decoding: DecodingKey,
// }
// impl Keys {
// pub fn new(secret: &[u8]) -> Self {
// Self {
// // encoding: EncodingKey::from_secret(secret),
// decoding: DecodingKey::from_secret(secret),
// }
// }
// }
// #[derive(Debug)]
// pub enum AuthError {
// InvalidToken,
// }
// pub(crate) fn get_token_from_headers(headers: HeaderMap) -> Result<Option<Claims>, AuthError> {
// let option_token = headers.get("Token");
// if let Some(token) = option_token {
// let token_data = decode::<Claims>(
// token.to_str().unwrap(),
// &KEYS.decoding,
// &Validation::default(),
// )
// .map_err(|err| {
// error!("Error decoding token: {:?}", err);
// AuthError::InvalidToken
// })?;
// Ok(Some(token_data.claims))
// } else {
// Ok(None)
// }
// }
// #[derive(Debug, Serialize, Deserialize)]
// pub struct Claims {
// pub id: u32,
// pub sub: String,
// }
// #[cfg(test)]
// mod tests {
// use super::*;
// #[test]
// fn test_get_token_from_headers() {
// rtss_log::Logging::default().init();
// let mut headers: HeaderMap = HeaderMap::new();
// headers.insert("Token", "eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJleHAiOjE3MjQ2NzAyMjcsImlkIjo2LCJvcmlnX2lhdCI6MTcyNDIzODIyNywic3ViIjoiNiJ9.sSfjdW7d3OqOE6G1p47c4dcCan4evRGoNjGPUyVfWLk".parse().unwrap());
// let result = get_token_from_headers(headers);
// match result {
// Ok(Some(claims)) => {
// assert_eq!(claims.id, 6);
// assert_eq!(claims.sub, "6");
// }
// Ok(None) => {
// panic!("Expected Some(claims), got None");
// }
// Err(e) => {
// panic!("Error: {:?}", e);
// }
// }
// }
// }

View File

@ -1,9 +0,0 @@
mod draft_data;
// mod jwt_auth;
mod pagination;
mod server;
mod simulation;
mod simulation_definition;
mod sys_info;
pub use server::*;

View File

@ -1,29 +0,0 @@
use async_graphql::{Enum, InputObject, SimpleObject};
#[derive(Enum, Copy, Clone, Default, Eq, PartialEq, Debug)]
#[graphql(remote = "rtss_db::common::SortOrder")]
pub enum SortOrder {
#[default]
Asc,
Desc,
}
#[derive(InputObject, Debug)]
pub struct PageQueryDto {
pub page: i32,
pub items_per_page: i32,
}
impl From<PageQueryDto> for rtss_db::common::PageQuery {
fn from(value: PageQueryDto) -> Self {
Self {
page: value.page,
items_per_page: value.items_per_page,
}
}
}
#[derive(SimpleObject)]
pub struct PageDto {
pub total: i64,
}

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@ -1,105 +0,0 @@
use async_graphql::{Context, InputObject, Object};
use rtss_sim_manage::{AvailablePlugins, SimulationBuilder};
use crate::simulation_definition::{MutexSimulationManager, SimulationOperation};
#[derive(Default)]
pub struct SimulationQuery;
#[Object]
impl SimulationQuery {
async fn simulations<'ctx>(&self, ctx: &Context<'ctx>) -> usize {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.count()
}
}
#[derive(Default)]
pub struct SimulationMutation;
#[Object]
impl SimulationMutation {
async fn start_simulation<'ctx>(
&self,
ctx: &Context<'ctx>,
req: StartSimulationRequest,
) -> async_graphql::Result<String> {
// let claims = ctx.data::<Option<Claims>>().unwrap();
// match claims {
// Some(claims) => {
// info!("User {claims:?} started simulation");
// }
// _ => return Err("Unauthorized".into()),
// }
let sim = ctx.data::<MutexSimulationManager>().unwrap();
let id = sim.lock().await.start_simulation(
SimulationBuilder::default()
.id(req.user_id)
.plugins(vec![AvailablePlugins::TrackSideEquipmentPlugin]),
)?;
Ok(id)
}
async fn exit_simulation<'ctx>(
&self,
ctx: &Context<'ctx>,
id: String,
) -> async_graphql::Result<bool> {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.exit_simulation(id)?;
Ok(true)
}
async fn pause_simulation<'ctx>(
&self,
ctx: &Context<'ctx>,
id: String,
) -> async_graphql::Result<bool> {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.pause_simulation(id)?;
Ok(true)
}
async fn resume_simulation<'ctx>(
&self,
ctx: &Context<'ctx>,
id: String,
) -> async_graphql::Result<bool> {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.resume_simulation(id)?;
Ok(true)
}
async fn update_simulation_speed<'ctx>(
&self,
ctx: &Context<'ctx>,
id: String,
speed: f32,
) -> async_graphql::Result<bool> {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.update_simulation_speed(id, speed)?;
Ok(true)
}
async fn trigger_simulation_operation<'ctx>(
&self,
ctx: &Context<'ctx>,
id: String,
entity_uid: String,
operation: SimulationOperation,
) -> async_graphql::Result<bool> {
let sim = ctx.data::<MutexSimulationManager>().unwrap();
sim.lock().await.trigger_entity_operation(
id,
entity_uid,
operation.to_operation_event(),
)?;
Ok(true)
}
}
#[derive(InputObject)]
struct StartSimulationRequest {
user_id: String,
sim_def_id: String,
}

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@ -1,35 +0,0 @@
use std::ops::Deref;
use async_graphql::Enum;
use bevy_ecs::event::Event;
use rtss_sim_manage::SimulationManager;
use tokio::sync::Mutex;
pub struct MutexSimulationManager(Mutex<SimulationManager>);
impl Default for MutexSimulationManager {
fn default() -> Self {
Self(Mutex::new(SimulationManager::default()))
}
}
impl Deref for MutexSimulationManager {
type Target = Mutex<SimulationManager>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[derive(Enum, Copy, Clone, Eq, PartialEq, Debug)]
pub enum SimulationOperation {
TurnoutControlDC,
TurnoutControlFC,
}
impl SimulationOperation {
pub fn to_operation_event(self) -> impl Event + Copy {
match self {
SimulationOperation::TurnoutControlDC => rtss_trackside::TurnoutControlEvent::DC,
SimulationOperation::TurnoutControlFC => rtss_trackside::TurnoutControlEvent::FC,
}
}
}

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@ -1,6 +0,0 @@
[package]
name = "rtss_ci"
version = "0.1.0"
edition = "2021"
[dependencies]

View File

@ -1,14 +0,0 @@
pub fn add(left: u64, right: u64) -> u64 {
left + right
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn it_works() {
let result = add(2, 2);
assert_eq!(result, 4);
}
}

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@ -1,7 +0,0 @@
[package]
name = "rtss_common"
version = "0.1.0"
edition = "2021"
[dependencies]
bevy_ecs = {workspace = true}

View File

@ -1,76 +0,0 @@
use std::{
collections::HashMap,
sync::{Arc, Mutex},
};
use bevy_ecs::{component::Component, entity::Entity, system::Resource};
/// 仿真公共资源
pub struct SimulationResource {
id: String,
uid_entity_mapping: HashMap<String, Entity>,
}
impl SimulationResource {
pub fn new(id: String) -> Self {
SimulationResource {
id,
uid_entity_mapping: HashMap::new(),
}
}
pub fn id(&self) -> &str {
&self.id
}
pub fn get_entity(&self, uid: &str) -> Option<Entity> {
self.uid_entity_mapping.get(uid).cloned()
}
pub fn insert_entity(&mut self, uid: String, entity: Entity) {
self.uid_entity_mapping.insert(uid, entity);
}
}
// 设备编号组件
#[derive(Component, Debug, Clone, PartialEq, Eq)]
pub struct Uid(pub String);
impl Default for Uid {
fn default() -> Self {
Uid("".to_string())
}
}
#[derive(Resource)]
pub struct SharedSimulationResource(pub Arc<Mutex<SimulationResource>>);
impl SharedSimulationResource {
pub fn get_entity(&self, uid: &str) -> Option<Entity> {
self.0.lock().unwrap().uid_entity_mapping.get(uid).cloned()
}
pub fn insert_entity(&self, uid: String, entity: Entity) {
self.0
.lock()
.unwrap()
.uid_entity_mapping
.insert(uid, entity);
}
}
#[cfg(test)]
mod tests {
use bevy_ecs::world;
use super::*;
#[test]
fn it_works() {
let mut simulation_resource = SimulationResource::new("1".to_string());
let mut world = world::World::default();
let uid = Uid("1".to_string());
let entity = world.spawn(uid.clone()).id();
simulation_resource.insert_entity(uid.clone().0, entity);
assert_eq!(simulation_resource.get_entity(&uid.0), Some(entity));
}
}

View File

@ -1,20 +0,0 @@
[package]
name = "rtss_db"
version = "0.1.0"
edition = "2021"
[dependencies]
anyhow = { workspace = true }
sqlx = { workspace = true, features = [
"runtime-tokio",
"macros",
"chrono",
"json",
"derive",
"postgres",
"uuid",
] }
thiserror = { workspace = true }
rtss_dto = { path = "../rtss_dto" }
rtss_log = { path = "../rtss_log" }

View File

@ -1,19 +0,0 @@
mod draft_data;
pub use draft_data::*;
mod release_data;
pub use release_data::*;
pub struct RtssDbAccessor {
pool: sqlx::PgPool,
}
impl RtssDbAccessor {
pub fn new(pool: sqlx::PgPool) -> Self {
RtssDbAccessor { pool }
}
}
pub async fn get_db_accessor(url: &str) -> RtssDbAccessor {
let pool = sqlx::PgPool::connect(url).await.expect("连接数据库失败");
RtssDbAccessor::new(pool)
}

View File

@ -1,13 +0,0 @@
use thiserror::Error;
#[derive(Error, Debug)]
pub enum DbAccessError {
#[error("未知的数据库访问错误")]
Unknown,
#[error("sqlx 错误: {0}")]
SqlxError(#[from] sqlx::Error),
#[error("数据已存在")]
RowExist,
#[error("数据错误:{0}")]
DataError(String),
}

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@ -1,306 +0,0 @@
use sqlx::types::chrono::{DateTime, Local};
use crate::common::TableColumn;
/// 数据库表 rtss.draft_data 列映射
#[derive(Debug)]
pub(crate) enum DraftDataColumn {
Table,
Id,
Name,
DataType,
Data,
DefaultReleaseDataId,
UserId,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct DraftDataModel {
pub id: i32,
pub name: String,
pub data_type: i32,
#[sqlx(default)]
pub data: Option<Vec<u8>>,
#[sqlx(default)]
pub default_release_data_id: Option<i32>,
pub user_id: i32,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtss.release_data 列映射
#[derive(Debug)]
pub(crate) enum ReleaseDataColumn {
Table,
Id,
Name,
DataType,
UsedVersionId,
UserId,
IsPublished,
#[allow(dead_code)]
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataModel {
pub id: i32,
pub name: String,
pub data_type: i32,
pub used_version_id: Option<i32>,
pub user_id: i32,
pub is_published: bool,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtss.release_data_version 列映射
#[derive(Debug)]
pub(crate) enum ReleaseDataVersionColumn {
Table,
Id,
ReleaseDataId,
Data,
Version,
Description,
UserId,
CreatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct ReleaseDataVersionModel {
pub id: i32,
pub release_data_id: i32,
#[sqlx(default)]
pub data: Vec<u8>,
pub version: i32,
pub description: String,
pub user_id: i32,
pub created_at: DateTime<Local>,
}
/// 数据库表 rtss.feature 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub(crate) enum FeatureColumn {
Table,
Id,
FeatureType,
Name,
Description,
IsPublished,
CreatorId,
UpdaterId,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureModel {
pub id: i32,
pub feature_type: i32,
pub name: String,
pub description: String,
pub is_published: bool,
pub creator_id: i32,
pub updater_id: i32,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtss.feature_release_data 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub(crate) enum FeatureReleaseDataColumn {
Table,
FeatureId,
ReleaseDataId,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureReleaseDataModel {
pub feature_id: i32,
pub release_data_id: i32,
}
/// 数据库表 rtss.feature_group 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub(crate) enum FeatureGroupColumn {
Table,
Id,
Name,
Description,
IsPublished,
CreatorId,
UpdaterId,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureGroupModel {
pub id: i32,
pub name: String,
pub description: String,
pub is_published: bool,
pub creator_id: i32,
pub updater_id: i32,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
/// 数据库表 rtss.feature_group_feature 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub(crate) enum FeatureGroupFeatureColumn {
Table,
FeatureGroupId,
FeatureId,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureGroupFeatureModel {
pub feature_group_id: i32,
pub feature_id: i32,
}
/// 数据库表 rtss.feature_config 列映射
#[derive(Debug)]
#[allow(dead_code)]
pub(crate) enum FeatureConfigColumn {
Table,
Id,
UserId,
FeatureId,
Config,
CreatedAt,
UpdatedAt,
}
#[derive(Debug, sqlx::FromRow)]
pub struct FeatureConfigModel {
pub id: i32,
pub user_id: i32,
pub feature_id: i32,
pub config: Vec<u8>,
pub created_at: DateTime<Local>,
pub updated_at: DateTime<Local>,
}
impl TableColumn for DraftDataColumn {
fn name(&self) -> &str {
match self {
DraftDataColumn::Table => "rtss.draft_data",
DraftDataColumn::Id => "id",
DraftDataColumn::Name => "name",
DraftDataColumn::DataType => "data_type",
DraftDataColumn::Data => "data",
DraftDataColumn::DefaultReleaseDataId => "default_release_data_id",
DraftDataColumn::UserId => "user_id",
DraftDataColumn::CreatedAt => "created_at",
DraftDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for ReleaseDataColumn {
fn name(&self) -> &str {
match self {
ReleaseDataColumn::Table => "rtss.release_data",
ReleaseDataColumn::Id => "id",
ReleaseDataColumn::Name => "name",
ReleaseDataColumn::DataType => "data_type",
ReleaseDataColumn::UsedVersionId => "used_version_id",
ReleaseDataColumn::UserId => "user_id",
ReleaseDataColumn::IsPublished => "is_published",
ReleaseDataColumn::CreatedAt => "created_at",
ReleaseDataColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for ReleaseDataVersionColumn {
fn name(&self) -> &str {
match self {
ReleaseDataVersionColumn::Table => "rtss.release_data_version",
ReleaseDataVersionColumn::Id => "id",
ReleaseDataVersionColumn::ReleaseDataId => "release_data_id",
ReleaseDataVersionColumn::Data => "data",
ReleaseDataVersionColumn::Version => "version",
ReleaseDataVersionColumn::Description => "description",
ReleaseDataVersionColumn::UserId => "user_id",
ReleaseDataVersionColumn::CreatedAt => "created_at",
}
}
}
impl TableColumn for FeatureColumn {
fn name(&self) -> &str {
match self {
FeatureColumn::Table => "rtss.feature",
FeatureColumn::Id => "id",
FeatureColumn::FeatureType => "feature_type",
FeatureColumn::Name => "name",
FeatureColumn::Description => "description",
FeatureColumn::IsPublished => "is_published",
FeatureColumn::CreatorId => "creator_id",
FeatureColumn::UpdaterId => "updater_id",
FeatureColumn::CreatedAt => "created_at",
FeatureColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for FeatureReleaseDataColumn {
fn name(&self) -> &str {
match self {
FeatureReleaseDataColumn::Table => "rtss.feature_release_data",
FeatureReleaseDataColumn::FeatureId => "feature_id",
FeatureReleaseDataColumn::ReleaseDataId => "release_data_id",
}
}
}
impl TableColumn for FeatureGroupColumn {
fn name(&self) -> &str {
match self {
FeatureGroupColumn::Table => "rtss.feature_group",
FeatureGroupColumn::Id => "id",
FeatureGroupColumn::Name => "name",
FeatureGroupColumn::Description => "description",
FeatureGroupColumn::IsPublished => "is_published",
FeatureGroupColumn::CreatorId => "creator_id",
FeatureGroupColumn::UpdaterId => "updater_id",
FeatureGroupColumn::CreatedAt => "created_at",
FeatureGroupColumn::UpdatedAt => "updated_at",
}
}
}
impl TableColumn for FeatureGroupFeatureColumn {
fn name(&self) -> &str {
match self {
FeatureGroupFeatureColumn::Table => "rtss.feature_group_feature",
FeatureGroupFeatureColumn::FeatureGroupId => "feature_group_id",
FeatureGroupFeatureColumn::FeatureId => "feature_id",
}
}
}
impl TableColumn for FeatureConfigColumn {
fn name(&self) -> &str {
match self {
FeatureConfigColumn::Table => "rtss.feature_config",
FeatureConfigColumn::Id => "id",
FeatureConfigColumn::UserId => "user_id",
FeatureConfigColumn::FeatureId => "feature_id",
FeatureConfigColumn::Config => "config",
FeatureConfigColumn::CreatedAt => "created_at",
FeatureConfigColumn::UpdatedAt => "updated_at",
}
}
}

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@ -1,32 +0,0 @@
use std::process::Command;
use prost_build::Config;
fn main() {
// println!("cargo:rerun-if-changed=build.rs");
#[cfg(target_os = "windows")]
{
std::env::set_var(
"PROTOC",
"../../rtss-proto-msg/protoc/protoc-27.4-win64/bin/protoc.exe",
);
}
Config::new()
.out_dir("src/pb")
.type_attribute("common.DataType", "#[derive(sqlx::Type)]")
.type_attribute("common.DataType", "#[derive(async_graphql::Enum)]")
.type_attribute("common.FeatureType", "#[derive(sqlx::Type)]")
.compile_protos(
&[
"../../rtss-proto-msg/src/em_data.proto",
"../../rtss-proto-msg/src/common.proto",
],
&["../../rtss-proto-msg/src/"],
)
.unwrap();
// Run cargo fmt to format the generated code
Command::new("cargo")
.args(["fmt"])
.status()
.expect("Failed to run cargo fmt on rtss-dto");
}

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@ -1,26 +0,0 @@
mod pb;
pub use pb::*;
pub fn add(left: u64, right: u64) -> u64 {
left + right
}
#[cfg(test)]
mod tests {
use prost::Message;
use super::*;
#[test]
fn test_encode_decode() {
let point = common::Point { x: 1.0, y: 2.0 };
let encoded = point.encode_to_vec();
let decoded = common::Point::decode(encoded.as_ref()).unwrap();
assert_eq!(point, decoded);
println!(
"point: {:?}, encoded: {:?}, decoded: {:?}",
point, encoded, decoded
);
}
}

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@ -1,49 +0,0 @@
// This file is @generated by prost-build.
/// 电子地图数据
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Em {
#[prost(message, optional, tag = "1")]
pub canvas: ::core::option::Option<super::common::Canvas>,
#[prost(message, repeated, tag = "2")]
pub stations: ::prost::alloc::vec::Vec<Station>,
}
/// 公里标
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct KilometerMark {
/// 公里标坐标系
#[prost(string, tag = "1")]
pub coordinate: ::prost::alloc::string::String,
/// 公里标数值
#[prost(int64, tag = "2")]
pub value: i64,
}
/// 车站数据
#[allow(clippy::derive_partial_eq_without_eq)]
#[derive(Clone, PartialEq, ::prost::Message)]
pub struct Station {
#[prost(message, optional, tag = "1")]
pub common: ::core::option::Option<super::common::CommonInfo>,
/// 车站名
#[prost(string, tag = "2")]
pub name: ::prost::alloc::string::String,
/// 车站站名
#[prost(string, tag = "3")]
pub zhan_name: ::prost::alloc::string::String,
/// 车站名拼音简写
#[prost(string, tag = "4")]
pub name_pinyin: ::prost::alloc::string::String,
/// 公里标
#[prost(message, optional, tag = "6")]
pub km: ::core::option::Option<KilometerMark>,
/// 是否集中站
#[prost(bool, tag = "10")]
pub concentration: bool,
/// 是否车辆段
#[prost(bool, tag = "11")]
pub depots: bool,
/// 集中站管理的车站-id
#[prost(uint32, repeated, tag = "13")]
pub manage_station_ids: ::prost::alloc::vec::Vec<u32>,
}

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@ -1,2 +0,0 @@
pub mod common;
pub mod em_data;

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@ -1,6 +0,0 @@
[package]
name = "rtss_iscs"
version = "0.1.0"
edition = "2021"
[dependencies]

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@ -1,14 +0,0 @@
pub fn add(left: u64, right: u64) -> u64 {
left + right
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn it_works() {
let result = add(2, 2);
assert_eq!(result, 4);
}
}

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@ -1,16 +0,0 @@
[package]
name = "rtss_sim_manage"
version = "0.1.0"
edition = "2021"
[dependencies]
bevy_core = {workspace = true}
bevy_ecs = {workspace = true}
bevy_app = {workspace = true}
bevy_time = {workspace = true}
rayon = {workspace = true}
thiserror = {workspace = true}
rtss_log = { path = "../rtss_log" }
rtss_common = { path = "../rtss_common" }
rtss_trackside = { path = "../rtss_trackside" }

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@ -1,17 +0,0 @@
use bevy_app::App;
use rtss_trackside::TrackSideEquipmentPlugin;
#[derive(Debug)]
pub enum AvailablePlugins {
TrackSideEquipmentPlugin,
}
pub(crate) fn add_needed_plugins(app: &mut App, plugins: Vec<AvailablePlugins>) {
for plugin in plugins {
match plugin {
AvailablePlugins::TrackSideEquipmentPlugin => {
app.add_plugins(TrackSideEquipmentPlugin);
}
}
}
}

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@ -1,19 +0,0 @@
mod config_plugins;
mod simulation;
pub use config_plugins::*;
pub use simulation::*;
pub fn add(left: u64, right: u64) -> u64 {
left + right
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn it_works() {
let result = add(2, 2);
assert_eq!(result, 4);
}
}

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@ -1,468 +0,0 @@
use std::{
cell::RefCell,
collections::HashMap,
ops::Deref,
sync::{mpsc, Arc, Mutex},
time::{Duration, Instant},
};
use bevy_app::{prelude::*, PluginsState};
use bevy_ecs::{
event::{Event, EventWriter},
observer::Trigger,
system::{Query, Res, ResMut, Resource},
world::OnAdd,
};
use bevy_time::{prelude::*, TimePlugin};
use rtss_common::{SharedSimulationResource, SimulationResource, Uid};
use rtss_log::tracing::{debug, error, warn};
use thiserror::Error;
use crate::{add_needed_plugins, AvailablePlugins};
/// 仿真管理器
/// 非线程安全,若需要线程安全请使用类似 `Arc<Mutex<SimulationManager>>` 的方式
pub struct SimulationManager {
txs: RefCell<HashMap<String, Simulation>>,
}
impl Default for SimulationManager {
fn default() -> Self {
Self::new()
}
}
#[derive(Error, Debug)]
pub enum SimulationControlError {
#[error("Unknown error")]
UnknownError,
#[error("Simulation not exist")]
SimulationNotExist,
#[error("Trigger event failed")]
TriggerEventFailed,
#[error("Simulation entity not exist")]
SimulationEntityNotExist,
}
impl SimulationManager {
fn new() -> Self {
let txs = RefCell::new(HashMap::new());
SimulationManager { txs }
}
pub fn count(&self) -> usize {
self.txs.borrow().len()
}
pub fn start_simulation(
&self,
builder: SimulationBuilder,
) -> Result<String, SimulationControlError> {
let id = builder.id.clone();
let sim = Simulation::new(builder);
self.txs.borrow_mut().insert(id.clone(), sim);
Ok(id)
}
pub fn exit_simulation(&self, id: String) -> Result<(), SimulationControlError> {
match self.txs.borrow_mut().remove(&id) {
Some(sim) => sim.exit_simulation(),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
pub fn pause_simulation(&self, id: String) -> Result<(), SimulationControlError> {
match self.txs.borrow().get(&id) {
Some(sim) => sim.pause_simulation(),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
pub fn resume_simulation(&self, id: String) -> Result<(), SimulationControlError> {
match self.txs.borrow().get(&id) {
Some(sim) => sim.resume_simulation(),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
pub fn update_simulation_speed(
&self,
id: String,
speed: f32,
) -> Result<(), SimulationControlError> {
match self.txs.borrow().get(&id) {
Some(sim) => sim.update_simulation_speed(speed),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
pub fn trigger_operation<E>(&self, id: String, event: E) -> Result<(), SimulationControlError>
where
E: Event + Copy,
{
match self.txs.borrow().get(&id) {
Some(sim) => sim.trigger_operation(event),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
pub fn trigger_entity_operation<E>(
&self,
id: String,
entity_uid: String,
event: E,
) -> Result<(), SimulationControlError>
where
E: Event + Copy,
{
match self.txs.borrow().get(&id) {
Some(sim) => sim.trigger_entity_operation(entity_uid, event),
None => {
warn!("Simulation not exist, id={}", id);
Err(SimulationControlError::SimulationNotExist)
}
}
}
}
pub struct SimulationBuilder {
/// 仿真ID
pub(crate) id: String,
/// 仿真主逻辑循环间隔,详细请查看 [`Time<Fixed>`](bevy_time::fixed::Fixed)
pub(crate) loop_duration: Duration,
/// 仿真所需插件
pub(crate) plugins: Vec<AvailablePlugins>,
}
impl Default for SimulationBuilder {
fn default() -> Self {
SimulationBuilder {
id: "default".to_string(),
loop_duration: Duration::from_millis(500),
plugins: Vec::new(),
}
}
}
impl SimulationBuilder {
pub fn id(mut self, id: String) -> Self {
self.id = id;
self
}
pub fn loop_duration(mut self, loop_duration: Duration) -> Self {
self.loop_duration = loop_duration;
self
}
pub fn plugins(mut self, plugins: Vec<AvailablePlugins>) -> Self {
self.plugins = plugins;
self
}
}
#[derive(Resource, Debug)]
pub struct SimulationId(String);
impl SimulationId {
pub fn new(id: String) -> Self {
SimulationId(id)
}
}
impl Deref for SimulationId {
type Target = String;
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[derive(Resource, Debug)]
pub struct SimulationStatus {
// 仿真倍速
pub speed: f32,
// 仿真是否暂停状态
pub paused: bool,
}
impl Default for SimulationStatus {
fn default() -> Self {
SimulationStatus {
speed: 1.0,
paused: true,
}
}
}
/// 仿真控制事件
#[derive(Event, Debug, Clone, Copy)]
pub enum SimulationControlEvent {
Pause,
Unpause,
UpdateSpeed(f32),
Exit,
}
pub struct Simulation {
tx: mpsc::Sender<Box<SimulationHandle>>,
resource: Arc<Mutex<SimulationResource>>,
}
pub type SimulationHandle = dyn FnMut(&mut App) + Send;
impl Simulation {
pub fn new(builder: SimulationBuilder) -> Self {
let simulation_resource = Arc::new(Mutex::new(SimulationResource::new(builder.id.clone())));
let cloned_resource = Arc::clone(&simulation_resource);
let (tx, mut rx) = mpsc::channel();
rayon::spawn(move || {
let mut app = App::new();
let mut virtual_time =
Time::<Virtual>::from_max_delta(builder.loop_duration.mul_f32(2f32));
virtual_time.pause();
// 初始化仿真App
app.add_plugins(TimePlugin)
.insert_resource(virtual_time)
.insert_resource(Time::<Fixed>::from_duration(builder.loop_duration))
.insert_resource(SimulationId::new(builder.id))
.insert_resource(SimulationStatus::default())
.insert_resource(SharedSimulationResource(Arc::clone(&cloned_resource)))
.add_event::<SimulationControlEvent>()
.observe(simulation_status_control)
.observe(entity_observer);
// 添加仿真所需插件
add_needed_plugins(&mut app, builder.plugins);
let wait = Some(builder.loop_duration);
app.set_runner(move |mut app: App| {
let plugins_state = app.plugins_state();
if plugins_state != PluginsState::Cleaned {
app.finish();
app.cleanup();
}
loop {
match runner(&mut app, wait, &mut rx) {
Ok(Some(delay)) => std::thread::sleep(delay),
Ok(None) => continue,
Err(exit) => return exit,
}
}
});
app.run();
});
Simulation {
tx,
resource: simulation_resource,
}
}
fn trigger_event(&self, event: SimulationControlEvent) -> Result<(), SimulationControlError> {
let id = self.resource.lock().unwrap().id().to_string();
let result = self.tx.send(Box::new(move |app: &mut App| {
app.world_mut().trigger(event);
}));
match result {
Ok(_) => Ok(()),
Err(e) => {
error!(
"Failed to send event to simulation, id={}, error={:?}",
id, e
);
Err(SimulationControlError::TriggerEventFailed)
}
}
}
pub fn trigger_operation<E>(&self, event: E) -> Result<(), SimulationControlError>
where
E: Event + Copy,
{
let id = self.resource.lock().unwrap().id().to_string();
let result = self.tx.send(Box::new(move |app: &mut App| {
app.world_mut().trigger(event);
}));
match result {
Ok(_) => Ok(()),
Err(e) => {
error!(
"Failed to send event to simulation, id={}, error={:?}",
id, e
);
Err(SimulationControlError::TriggerEventFailed)
}
}
}
pub fn trigger_entity_operation<E>(
&self,
entity_uid: String,
event: E,
) -> Result<(), SimulationControlError>
where
E: Event + Copy,
{
let id = self.resource.lock().unwrap().id().to_string();
match self.resource.lock().unwrap().get_entity(&entity_uid) {
Some(entity) => {
let result = self.tx.send(Box::new(move |app: &mut App| {
app.world_mut().trigger_targets(event, entity);
}));
match result {
Ok(_) => Ok(()),
Err(e) => {
error!(
"Failed to send event to simulation, id={}, error={:?}",
id, e
);
Err(SimulationControlError::TriggerEventFailed)
}
}
}
None => {
error!("Entity not exist, id={}", entity_uid);
Err(SimulationControlError::SimulationEntityNotExist)
}
}
}
pub fn exit_simulation(&self) -> Result<(), SimulationControlError> {
self.trigger_event(SimulationControlEvent::Exit)
}
pub fn pause_simulation(&self) -> Result<(), SimulationControlError> {
self.trigger_event(SimulationControlEvent::Pause)
}
pub fn resume_simulation(&self) -> Result<(), SimulationControlError> {
self.trigger_event(SimulationControlEvent::Unpause)
}
pub fn update_simulation_speed(&self, speed: f32) -> Result<(), SimulationControlError> {
self.trigger_event(SimulationControlEvent::UpdateSpeed(speed))
}
}
pub fn entity_observer(
trigger: Trigger<OnAdd>,
query: Query<&Uid>,
shared: ResMut<SharedSimulationResource>,
) {
let entity = trigger.entity();
match query.get(entity) {
Ok(uid) => {
shared.insert_entity(uid.0.clone(), entity);
debug!("添加uid实体映射, Uid: {:?}, Entity: {:?}", uid, entity);
}
Err(_) => {
warn!("Failed to get Uid from entity: {:?}", entity);
}
}
}
pub fn simulation_status_control(
trigger: Trigger<SimulationControlEvent>,
mut time: ResMut<Time<Virtual>>,
sid: Res<SimulationId>,
mut exit: EventWriter<AppExit>,
) {
match trigger.event() {
SimulationControlEvent::Pause => {
debug!("Pausing simulation");
time.pause();
}
SimulationControlEvent::Unpause => {
debug!("Unpausing simulation");
time.unpause();
}
SimulationControlEvent::UpdateSpeed(speed) => {
debug!("Update simulation speed to {}", speed);
time.set_relative_speed(*speed);
}
SimulationControlEvent::Exit => {
debug!("Exiting simulation, id={:?}", *sid);
exit.send(AppExit::Success);
}
}
}
fn runner(
app: &mut App,
wait: Option<Duration>,
rx: &mut mpsc::Receiver<Box<SimulationHandle>>,
) -> Result<Option<Duration>, AppExit> {
let start_time = Instant::now();
if let Err(e) = rx.try_recv().map(|mut handle| handle(app)) {
match e {
mpsc::TryRecvError::Empty => {}
mpsc::TryRecvError::Disconnected => {
error!("Simulation handle channel disconnected");
}
}
}
app.update();
if let Some(exit) = app.should_exit() {
return Err(exit);
};
let end_time = Instant::now();
if let Some(wait) = wait {
let exe_time = end_time - start_time;
if exe_time < wait {
return Ok(Some(wait - exe_time));
}
}
Ok(None)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_simulation_manager() {
let manager = SimulationManager::default();
assert_eq!(manager.count(), 0);
if let Ok(_) = manager.start_simulation(SimulationBuilder::default().id("0".to_string())) {
assert_eq!(manager.count(), 1);
}
if let Ok(_) = manager.start_simulation(SimulationBuilder::default().id("1".to_string())) {
assert_eq!(manager.count(), 2);
}
if let Ok(_) = manager.exit_simulation("0".to_string()) {
assert_eq!(manager.count(), 1);
}
if let Ok(_) = manager.exit_simulation("1".to_string()) {
assert_eq!(manager.count(), 0);
}
}
}

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@ -1,13 +0,0 @@
[package]
name = "rtss_trackside"
version = "0.1.0"
edition = "2021"
[dependencies]
bevy_core = {workspace = true}
bevy_ecs = {workspace = true}
bevy_app = {workspace = true}
bevy_time = {workspace = true}
rtss_log = { path = "../rtss_log" }
rtss_common = { path = "../rtss_common" }

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@ -1,10 +0,0 @@
mod components;
mod events;
mod plugin;
mod resources;
mod systems;
pub use components::*;
pub use events::*;
pub use plugin::*;
pub use resources::*;
pub use systems::*;

8
docs/DESIGN.md Normal file
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@ -0,0 +1,8 @@
# 系统设计
## 数据库设计
- 核心数据如下图所示
![alt text](image-1.png)
- 所有数据从草稿数据开始,草稿数据发布为发布数据,功能定义引用发布数据,同时功能还可以引用其他功能实现功能目录树/功能组/功能包

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39
manager/Cargo.toml Normal file
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@ -0,0 +1,39 @@
[package]
name = "manager"
version = "0.1.0"
edition = "2021"
[dependencies]
rtsa_log = { path = "../crates/rtsa_log" }
rtsa_db = { path = "../crates/rtsa_db" }
rtsa_dto = { path = "../crates/rtsa_dto" }
tokio = { workspace = true, features = ["macros", "rt-multi-thread"] }
serde = { workspace = true }
serde_json = { workspace = true }
config = { workspace = true }
clap = { workspace = true, features = ["derive"] }
enum_dispatch = { workspace = true }
anyhow = { workspace = true }
thiserror = { workspace = true }
chrono = { version = "0.4.38", features = ["serde"] }
axum = "0.7.5"
axum-extra = { version = "0.9.3", features = ["typed-header"] }
jsonwebtoken = "9.3.0"
tower-http = { version = "0.6.0", features = ["cors"] }
async-graphql = { version = "7.0.7", features = ["chrono", "dataloader"] }
async-graphql-axum = "7.0.6"
base64 = "0.22.1"
sysinfo = "0.31.3"
reqwest = { version = "0.12.7", default-features = false, features = ["rustls-tls", "json"] }
[dev-dependencies]
sqlx = { workspace = true, features = [
"runtime-tokio",
"macros",
"chrono",
"json",
"derive",
"postgres",
"uuid",
] }

View File

@ -2,4 +2,4 @@
url = "postgresql://joylink:Joylink@0503@10.11.11.2:5432/joylink"
[log]
level = "info"
level = "debug"

View File

@ -0,0 +1,70 @@
use async_graphql::{InputObject, InputType, OutputType, SimpleObject};
use rtsa_db::{common::TableColumn, model::DraftDataColumn};
use rtsa_dto::common::{IscsStyle, LineType};
use serde::{de::DeserializeOwned, Deserialize, Serialize};
pub trait DataOptions: InputType + OutputType + Serialize + DeserializeOwned {
fn to_data_options_filter_clause(&self) -> String;
}
impl<T> DataOptions for T
where
T: ?Sized + Serialize + DeserializeOwned + OutputType + InputType,
{
fn to_data_options_filter_clause(&self) -> String {
format!(
"{} @> '{}'",
DraftDataColumn::Options.name(),
serde_json::to_string(self).unwrap()
)
}
}
#[derive(Debug, Clone, Copy, InputObject, SimpleObject, Serialize, Deserialize)]
#[graphql(input_name = "IscsDataOptionsInput")]
pub struct IscsDataOptions {
pub style: IscsStyle,
}
#[derive(Debug, Clone, InputObject, SimpleObject, Serialize, Deserialize)]
#[graphql(input_name = "LineInfoOptionsInput")]
pub struct LineInfoOptions {
pub line_type: LineType,
/// 城轨线路所属城市
pub city: Option<String>,
/// 城轨线路编号
pub line_code: Option<String>,
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_iscs_data_options_serialize() {
rtsa_log::Logging::default().init();
let options = IscsDataOptions {
style: IscsStyle::DaShiZhiNeng,
};
let json = serde_json::to_string(&options).unwrap();
let value = serde_json::to_value(options).unwrap();
println!("{}", json);
println!(
"serialize value: {}",
serde_json::to_string(&value).unwrap()
);
assert_eq!(json, r#"{"style":"DaShiZhiNeng"}"#);
let options: IscsDataOptions = serde_json::from_str(&json).unwrap();
assert_eq!(options.style, IscsStyle::DaShiZhiNeng);
}
#[test]
fn test_iscs_data_options_into_data_options_filter_clause() {
let options = IscsDataOptions {
style: IscsStyle::DaShiZhiNeng,
};
let clause = options.to_data_options_filter_clause();
println!("{clause}");
assert_eq!(clause, r#"options @> '{"style":"DaShiZhiNeng"}'"#);
}
}

View File

@ -0,0 +1,444 @@
use async_graphql::dataloader::DataLoader;
use async_graphql::{ComplexObject, Context, InputObject, Object, SimpleObject};
use base64::prelude::*;
use base64::Engine;
use chrono::NaiveDateTime;
use rtsa_db::DraftDataAccessor;
use rtsa_db::RtsaDbAccessor;
use rtsa_dto::common::{DataType, Role};
use serde_json::Value;
use crate::apis::{PageDto, PageQueryDto};
use crate::loader::RtsaDbLoader;
use super::data_options_def::{DataOptions, IscsDataOptions, LineInfoOptions};
use super::release_data::ReleaseDataId;
use super::user::UserId;
use crate::user_auth::{Jwt, RoleGuard};
#[derive(Default)]
pub struct DraftDataQuery;
#[derive(Default)]
pub struct DraftDataMutation;
#[Object]
impl DraftDataQuery {
/// 分页查询所有草稿数据(系统管理用)
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn draft_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
query: DraftDataFilterDto<Value>,
) -> async_graphql::Result<PageDto<DraftDataDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let paging_result = db_accessor
.paging_query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 分页查询用户电子地图草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn user_draft_em_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
mut query: UserDraftDataFilterDto<LineInfoOptions>,
) -> async_graphql::Result<PageDto<DraftEmDataDto>> {
let claims = ctx.data::<Jwt>()?.decode()?;
query = query.with_data_type_and_user_id(DataType::Em, claims.uid);
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let paging_result = db_accessor
.paging_query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 分页查询共享的草稿电子地图数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn shared_draft_em_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
mut query: DraftDataFilterDto<LineInfoOptions>,
) -> async_graphql::Result<PageDto<DraftEmDataDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
query.data_type = Some(DataType::Em);
let paging_result = db_accessor
.paging_query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 分页查询用户的草稿ISCS数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn user_draft_iscs_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
mut query: UserDraftDataFilterDto<IscsDataOptions>,
) -> async_graphql::Result<PageDto<DraftIscsDataDto>> {
let claims = ctx.data::<Jwt>()?.decode()?;
query = query.with_data_type_and_user_id(DataType::Iscs, claims.uid);
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let paging_result = db_accessor
.paging_query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 分页查询共享的草稿ISCS数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn shared_draft_iscs_data_paging<'ctx>(
&self,
ctx: &Context<'ctx>,
paging: PageQueryDto,
mut query: DraftDataFilterDto<IscsDataOptions>,
) -> async_graphql::Result<PageDto<DraftIscsDataDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
query.data_type = Some(DataType::Iscs);
let paging_result = db_accessor
.paging_query_draft_data(query.into(), paging.into())
.await?;
Ok(paging_result.into())
}
/// 根据id获取草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn draft_data(&self, ctx: &Context<'_>, id: i32) -> async_graphql::Result<DraftDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.query_draft_data_by_id(id).await?;
Ok(draft_data.into())
}
/// 查询是否已经存在同一用户下的同名草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn draft_data_exist(
&self,
ctx: &Context<'_>,
data_type: DataType,
name: String,
) -> async_graphql::Result<bool> {
let claims = ctx.data::<Jwt>()?.decode()?;
let user_id = claims.uid;
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let exist = db_accessor
.is_draft_data_exist(user_id, data_type as i32, &name)
.await?;
Ok(exist)
}
}
#[Object]
impl DraftDataMutation {
/// 创建电子地图草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn create_draft_em_data(
&self,
ctx: &Context<'_>,
mut input: CreateDraftDataDto<LineInfoOptions>,
) -> async_graphql::Result<DraftDataDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
input = input.with_data_type_and_user_id(DataType::Em, claims.uid);
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.create_draft_data(input.into()).await?;
Ok(draft_data.into())
}
/// 创建草稿ISCS数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn create_draft_iscs_data(
&self,
ctx: &Context<'_>,
mut input: CreateDraftDataDto<IscsDataOptions>,
) -> async_graphql::Result<DraftIscsDataDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
input = input.with_data_type_and_user_id(DataType::Iscs, claims.uid);
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.create_draft_data(input.into()).await?;
Ok(draft_data.into())
}
/// 更新草稿数据name
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_draft_data_name(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
) -> async_graphql::Result<DraftDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.update_draft_data_name(id, &name).await?;
Ok(draft_data.into())
}
/// 更新草稿数据data
/// data为base64编码的字符串
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_draft_data_data(
&self,
ctx: &Context<'_>,
id: i32,
data: String, // base64编码的数据
) -> async_graphql::Result<DraftDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let bytes = BASE64_STANDARD
.decode(data)
.map_err(|e| async_graphql::Error::new(format!("base64 decode error: {}", e)))?;
let draft_data = db_accessor.update_draft_data_data(id, &bytes).await?;
Ok(draft_data.into())
}
/// 更新草稿数据共享状态
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_draft_data_shared(
&self,
ctx: &Context<'_>,
id: i32,
is_shared: bool,
) -> async_graphql::Result<DraftDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.set_draft_data_shared(id, is_shared).await?;
Ok(draft_data.into())
}
/// 删除草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn delete_draft_data(
&self,
ctx: &Context<'_>,
id: Vec<i32>,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
db_accessor.delete_draft_data(id.as_slice()).await?;
Ok(true)
}
/// 设置草稿数据的默认发布数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn set_default_release_data_id(
&self,
ctx: &Context<'_>,
id: i32,
release_data_id: i32,
) -> async_graphql::Result<DraftDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor
.set_default_release_data_id(id, release_data_id)
.await?;
Ok(draft_data.into())
}
/// 草稿数据另存为
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn save_as_new_draft_data(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
) -> async_graphql::Result<DraftDataDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let user_id = claims.uid;
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let draft_data = db_accessor.save_as_new_draft(id, &name, user_id).await?;
Ok(draft_data.into())
}
}
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "CreateDraftIscsDto", params(IscsDataOptions)))]
#[graphql(concrete(name = "CreateDraftEmDto", params(LineInfoOptions)))]
pub struct CreateDraftDataDto<T: DataOptions> {
#[graphql(skip)]
pub data_type: Option<DataType>,
pub name: String,
pub options: Option<T>,
#[graphql(skip)]
pub user_id: Option<i32>,
}
impl<T: DataOptions> CreateDraftDataDto<T> {
pub fn with_data_type_and_user_id(mut self, data_type: DataType, id: i32) -> Self {
self.data_type = Some(data_type);
self.user_id = Some(id);
self
}
}
impl<T: DataOptions> From<CreateDraftDataDto<T>> for rtsa_db::CreateDraftData {
fn from(value: CreateDraftDataDto<T>) -> Self {
let cdd = Self::new(
&value.name,
value.data_type.expect("need data_type") as i32,
value.user_id.expect("CreateDraftDataDto need user_id"),
);
if value.options.is_some() {
cdd.with_options(serde_json::to_value(value.options).unwrap())
} else {
cdd
}
}
}
/// 用户的草稿数据查询条件
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "UserDraftEmDataFilterDto", params(LineInfoOptions)))]
#[graphql(concrete(name = "UserDraftIscsDataFilterDto", params(IscsDataOptions)))]
pub struct UserDraftDataFilterDto<T: DataOptions> {
#[graphql(skip)]
pub user_id: i32,
pub name: Option<String>,
/// 数据类型,在某个具体类型查询时不传,传了也不生效
pub data_type: Option<rtsa_dto::common::DataType>,
pub options: Option<T>,
pub is_shared: Option<bool>,
}
impl<T: DataOptions> UserDraftDataFilterDto<T> {
pub fn with_data_type_and_user_id(mut self, data_type: DataType, id: i32) -> Self {
self.data_type = Some(data_type);
self.user_id = id;
self
}
}
impl<T: DataOptions> From<UserDraftDataFilterDto<T>> for rtsa_db::DraftDataQuery {
fn from(value: UserDraftDataFilterDto<T>) -> Self {
Self {
user_id: Some(value.user_id),
name: value.name,
data_type: value.data_type.map(|dt| dt as i32),
options: value.options.map(|o| serde_json::to_value(o).unwrap()),
is_shared: value.is_shared,
}
}
}
/// 共享的草稿数据查询条件
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "DraftDataFilterDto", params(Value)))]
#[graphql(concrete(name = "SharedDraftEmDataFilterDto", params(LineInfoOptions)))]
#[graphql(concrete(name = "SharedDraftIscsDataFilterDto", params(IscsDataOptions)))]
pub struct DraftDataFilterDto<T: DataOptions> {
#[graphql(skip)]
pub user_id: Option<i32>,
pub name: Option<String>,
/// 数据类型,在某个具体类型查询时不传,传了也不生效
pub data_type: Option<DataType>,
pub options: Option<T>,
}
impl<T: DataOptions> From<DraftDataFilterDto<T>> for rtsa_db::DraftDataQuery {
fn from(value: DraftDataFilterDto<T>) -> Self {
Self {
user_id: value.user_id,
name: value.name,
data_type: value.data_type.map(|dt| dt as i32),
is_shared: Some(true),
options: value.options.map(|o| serde_json::to_value(o).unwrap()),
}
}
}
#[derive(Debug, SimpleObject)]
#[graphql(complex)]
pub struct DraftDataDto {
pub id: i32,
pub name: String,
pub data_type: DataType,
pub options: Option<Value>,
/// base64编码的数据
pub data: Option<String>,
pub user_id: i32,
pub default_release_data_id: Option<i32>,
pub is_shared: bool,
pub created_at: NaiveDateTime,
pub updated_at: NaiveDateTime,
}
#[ComplexObject]
impl DraftDataDto {
/// 获取默认发布数据name
async fn default_release_data_name(
&self,
ctx: &Context<'_>,
) -> async_graphql::Result<Option<String>> {
if let Some(version_id) = self.default_release_data_id {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(ReleaseDataId::new(version_id)).await?;
Ok(name)
} else {
Ok(None)
}
}
/// 获取用户name
async fn user_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.user_id)).await?;
Ok(name)
}
}
impl From<rtsa_db::model::DraftDataModel> for DraftDataDto {
fn from(value: rtsa_db::model::DraftDataModel) -> Self {
Self {
id: value.id,
name: value.name,
data_type: DataType::try_from(value.data_type).unwrap(),
options: value.options,
data: value
.data
.map(|d| base64::prelude::BASE64_STANDARD.encode(d)),
user_id: value.user_id,
default_release_data_id: value.default_release_data_id,
is_shared: value.is_shared,
created_at: value.created_at.naive_local(),
updated_at: value.updated_at.naive_local(),
}
}
}
/// 草稿电子地图数据
#[derive(Debug, SimpleObject)]
pub struct DraftEmDataDto {
pub draft_data: DraftDataDto,
pub options: Option<LineInfoOptions>,
}
impl From<rtsa_db::model::DraftDataModel> for DraftEmDataDto {
fn from(value: rtsa_db::model::DraftDataModel) -> Self {
Self {
options: value
.options
.clone()
.map(|o| serde_json::from_value(o).unwrap()),
draft_data: value.into(),
}
}
}
/// ISCS草稿数据
#[derive(Debug, SimpleObject)]
pub struct DraftIscsDataDto {
pub draft_data: DraftDataDto,
pub options: Option<IscsDataOptions>,
}
impl From<rtsa_db::model::DraftDataModel> for DraftIscsDataDto {
fn from(value: rtsa_db::model::DraftDataModel) -> Self {
Self {
options: value
.options
.clone()
.map(|o| serde_json::from_value(o).unwrap()),
draft_data: value.into(),
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_base64() {
let data = b"hello world";
let encoded = BASE64_STANDARD.encode(data);
let decoded = BASE64_STANDARD.decode(&encoded).unwrap();
assert_eq!(data, decoded.as_slice());
println!("encoded: {}, decoded: {:?}", encoded, decoded);
}
}

225
manager/src/apis/feature.rs Normal file
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@ -0,0 +1,225 @@
use crate::{
apis::{PageDto, PageQueryDto},
loader::RtsaDbLoader,
user_auth::{Jwt, RoleGuard},
};
use async_graphql::{
dataloader::DataLoader, ComplexObject, Context, InputObject, Object, SimpleObject,
};
use chrono::NaiveDateTime;
use rtsa_db::{CreateFeature, FeatureAccessor, RtsaDbAccessor, UpdateFeature};
use rtsa_dto::common::FeatureType;
use rtsa_dto::common::Role;
use serde_json::Value;
use super::{
feature_config_def::{FeatureConfig, UrFeatureConfig},
user::UserId,
};
#[derive(Default)]
pub struct FeatureQuery;
#[derive(Default)]
pub struct FeatureMutation;
#[Object]
impl FeatureQuery {
/// 分页查询功能feature(系统管理)
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn feature_paging(
&self,
ctx: &Context<'_>,
page: PageQueryDto,
query: FeatureQueryDto,
) -> async_graphql::Result<PageDto<FeatureDto>> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let paging = dba
.paging_query_features(page.into(), &query.into())
.await?;
Ok(paging.into())
}
/// id获取功能feature
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn feature(&self, ctx: &Context<'_>, id: i32) -> async_graphql::Result<FeatureDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let feature = dba.get_feature(id).await?;
Ok(feature.into())
}
/// id列表获取功能feature列表
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn features(
&self,
ctx: &Context<'_>,
ids: Vec<i32>,
) -> async_graphql::Result<Vec<FeatureDto>> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let features = dba.get_features(ids.as_slice()).await?;
Ok(features.into_iter().map(|f| f.into()).collect())
}
}
#[Object]
impl FeatureMutation {
/// 上下架功能feature
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn publish_feature(
&self,
ctx: &Context<'_>,
id: i32,
is_published: bool,
) -> async_graphql::Result<FeatureDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let feature = dba.set_feature_published(id, is_published).await?;
Ok(feature.into())
}
/// 创建城轨仿真功能feature
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn create_ur_feature(
&self,
ctx: &Context<'_>,
mut input: CreateFeatureDto<UrFeatureConfig>,
) -> async_graphql::Result<FeatureDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let claims = ctx.data::<Jwt>()?.decode()?;
input = input.with_feature_type_and_user_id(FeatureType::Ur, claims.uid);
let feature = dba.create_feature(&input.into()).await?;
Ok(feature.into())
}
/// 更新城轨仿真功能feature
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn update_ur_feature(
&self,
ctx: &Context<'_>,
input: UpdateFeatureDto<UrFeatureConfig>,
) -> async_graphql::Result<FeatureDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let feature = dba.update_feature(&input.into()).await?;
Ok(feature.into())
}
}
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "UpdateUrFeatureDto", params(UrFeatureConfig)))]
pub struct UpdateFeatureDto<T: FeatureConfig> {
pub id: i32,
pub name: String,
pub description: String,
pub config: T,
#[graphql(skip)]
pub user_id: Option<i32>,
}
impl<T: FeatureConfig> From<UpdateFeatureDto<T>> for UpdateFeature {
fn from(value: UpdateFeatureDto<T>) -> Self {
Self {
id: value.id,
name: value.name,
description: value.description,
config: serde_json::to_value(&value.config).expect("config is to_value failed"),
updater_id: value.user_id.expect("user_id must be set"),
}
}
}
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "CreateUrFeatureDto", params(UrFeatureConfig)))]
pub struct CreateFeatureDto<T: FeatureConfig> {
#[graphql(skip)]
pub feature_type: Option<FeatureType>,
pub name: String,
pub description: String,
pub config: T,
#[graphql(skip)]
pub user_id: Option<i32>,
}
impl<T: FeatureConfig> From<CreateFeatureDto<T>> for CreateFeature {
fn from(value: CreateFeatureDto<T>) -> Self {
Self {
feature_type: value.feature_type.expect("feature_type must be set"),
name: value.name,
description: value.description,
config: serde_json::to_value(&value.config).expect("config is to_value failed"),
creator_id: value.user_id.expect("user_id must be set"),
}
}
}
impl<T: FeatureConfig> CreateFeatureDto<T> {
fn with_feature_type_and_user_id(mut self, feature_type: FeatureType, uid: i32) -> Self {
self.feature_type = Some(feature_type);
self.user_id = Some(uid);
self
}
}
#[derive(Debug, InputObject)]
pub struct FeatureQueryDto {
pub name: Option<String>,
pub feature_type: Option<i32>,
pub is_published: Option<bool>,
}
impl From<FeatureQueryDto> for rtsa_db::FeaturePagingFilter {
fn from(value: FeatureQueryDto) -> Self {
Self {
name: value.name,
feature_type: value.feature_type,
is_published: value.is_published,
}
}
}
#[derive(Debug, SimpleObject)]
#[graphql(complex)]
pub struct FeatureDto {
pub id: i32,
pub feature_type: FeatureType,
pub name: String,
pub description: String,
pub config: Value,
pub is_published: bool,
pub creator_id: i32,
pub updater_id: i32,
pub created_at: NaiveDateTime,
pub updated_at: NaiveDateTime,
}
#[ComplexObject]
impl FeatureDto {
/// 创建用户name
async fn creator_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.creator_id)).await?;
Ok(name)
}
/// 更新用户name
async fn updater_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.updater_id)).await?;
Ok(name)
}
}
impl From<rtsa_db::model::FeatureModel> for FeatureDto {
fn from(value: rtsa_db::model::FeatureModel) -> Self {
Self {
id: value.id,
feature_type: FeatureType::try_from(value.feature_type).unwrap(),
name: value.name,
description: value.description,
config: value.config,
is_published: value.is_published,
creator_id: value.creator_id,
updater_id: value.updater_id,
created_at: value.created_at.naive_local(),
updated_at: value.updated_at.naive_local(),
}
}
}

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use async_graphql::{InputObject, InputType, OutputType, SimpleObject};
use serde::{de::DeserializeOwned, Deserialize, Serialize};
use serde_json::Value;
pub trait FeatureConfig: InputType + OutputType + Serialize + DeserializeOwned {}
impl FeatureConfig for Value {}
/// UR功能配置
#[derive(Debug, Clone, InputObject, SimpleObject, Serialize, Deserialize)]
#[graphql(input_name = "UrFeatureConfigInput")]
pub struct UrFeatureConfig {
/// 电子地图id
pub ems: Vec<i32>,
}
impl FeatureConfig for UrFeatureConfig {}

104
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use async_graphql::{Enum, InputObject, MergedObject, OutputType, SimpleObject};
use draft_data::{DraftDataMutation, DraftDataQuery};
use feature::{FeatureMutation, FeatureQuery};
use org::{OrgMutation, OrgQuery};
use release_data::{ReleaseDataMutation, ReleaseDataQuery};
mod sys_info;
use user::{UserMutation, UserQuery};
mod data_options_def;
mod draft_data;
mod feature;
mod feature_config_def;
mod org;
mod org_user;
mod release_data;
mod user;
use org_user::{OrgUserMutation, OrgUserQuery};
pub use user::UserLoginDto;
#[derive(Default, MergedObject)]
pub struct Query(
UserQuery,
OrgQuery,
OrgUserQuery,
DraftDataQuery,
ReleaseDataQuery,
FeatureQuery,
);
#[derive(Default, MergedObject)]
pub struct Mutation(
UserMutation,
OrgMutation,
OrgUserMutation,
DraftDataMutation,
ReleaseDataMutation,
FeatureMutation,
);
#[derive(Enum, Copy, Clone, Default, Eq, PartialEq, Debug)]
#[graphql(remote = "rtsa_db::common::SortOrder")]
pub enum SortOrder {
#[default]
Asc,
Desc,
}
#[derive(InputObject, Debug)]
pub struct PageQueryDto {
#[graphql(default = 1)]
pub page: i32,
#[graphql(default = 10)]
pub items_per_page: i32,
}
impl From<PageQueryDto> for rtsa_db::common::PageQuery {
fn from(value: PageQueryDto) -> Self {
Self {
page: value.page,
items_per_page: value.items_per_page,
}
}
}
#[derive(Debug, SimpleObject)]
#[graphql(concrete(name = "UserPageDto", params(user::UserDto)))]
#[graphql(concrete(name = "DraftDataPageDto", params(draft_data::DraftDataDto)))]
#[graphql(concrete(name = "DraftEmDataPageDto", params(draft_data::DraftEmDataDto)))]
#[graphql(concrete(name = "DraftIscsDataPageDto", params(draft_data::DraftIscsDataDto)))]
#[graphql(concrete(name = "ReleaseDataPageDto", params(release_data::ReleaseDataDto)))]
#[graphql(concrete(
name = "ReleaseDataVersionPageDto",
params(release_data::ReleaseDataVersionDto)
))]
#[graphql(concrete(
name = "ReleaseEmDataPageDto",
params(release_data::ReleaseEmDataWithoutVersionDto)
))]
#[graphql(concrete(
name = "ReleaseIscsDataPageDto",
params(release_data::ReleaseIscsDataWithoutVersionDto)
))]
#[graphql(concrete(name = "FeaturePageDto", params(feature::FeatureDto)))]
pub struct PageDto<T: OutputType> {
pub total: i64,
pub items: Vec<T>,
}
impl<T: OutputType> PageDto<T> {
pub fn new(total: i64, items: Vec<T>) -> Self {
Self { total, items }
}
}
impl<T: OutputType, M: Into<T>> From<rtsa_db::common::PageData<M>> for PageDto<T> {
fn from(value: rtsa_db::common::PageData<M>) -> Self {
Self::new(
value.total,
value.data.into_iter().map(|m| m.into()).collect(),
)
}
}

130
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use std::collections::HashMap;
use std::sync::Arc;
use async_graphql::dataloader::Loader;
use async_graphql::{Context, InputObject, Object, SimpleObject};
use chrono::NaiveDateTime;
use rtsa_db::prelude::*;
use rtsa_dto::common::Role;
use crate::sys_init::DEFAULT_ORG_CODE;
use crate::{
loader::RtsaDbLoader,
user_auth::{Jwt, RoleGuard},
};
#[derive(Default)]
pub struct OrgQuery;
#[derive(Default)]
pub struct OrgMutation;
#[Object]
impl OrgQuery {
/// 获取组织信息
async fn get_org(&self, ctx: &Context<'_>, id: i32) -> async_graphql::Result<OrgDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let org = dba.query_org(id).await?;
Ok(org.into())
}
/// 通过组织代码获取组织信息
async fn get_org_by_code(
&self,
ctx: &Context<'_>,
code: String,
) -> async_graphql::Result<OrgDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let org = dba.query_org_by_code(&code).await?;
Ok(org.into())
}
/// 获取默认组织信息
async fn get_default_org(&self, ctx: &Context<'_>) -> async_graphql::Result<OrgDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let org = dba.query_org_by_code(DEFAULT_ORG_CODE).await?;
Ok(org.into())
}
}
#[Object]
impl OrgMutation {
/// 创建顶级组织
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn create_top_org(
&self,
ctx: &Context<'_>,
mut c: CreateTopOrgDto,
) -> async_graphql::Result<OrgDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let dba = ctx.data::<RtsaDbAccessor>()?;
c.creator_id = Some(claims.uid);
let org = dba.create_org(c.into()).await?;
Ok(org.into())
}
}
#[derive(Debug, InputObject)]
pub struct CreateTopOrgDto {
pub code: String,
pub name: String,
#[graphql(skip)]
pub creator_id: Option<i32>,
}
impl From<CreateTopOrgDto> for CreateOrg {
fn from(c: CreateTopOrgDto) -> Self {
Self::new(&c.name, c.creator_id.unwrap()).with_code(&c.code)
}
}
#[derive(Debug, SimpleObject)]
pub struct OrgDto {
pub id: i32,
pub code: Option<String>,
pub name: String,
pub creator_id: i32,
pub created_at: NaiveDateTime,
pub updater_id: i32,
pub updated_at: NaiveDateTime,
}
impl From<OrganizationModel> for OrgDto {
fn from(org: OrganizationModel) -> Self {
Self {
id: org.id,
code: org.code,
name: org.name,
creator_id: org.creator_id,
created_at: org.created_at.naive_local(),
updater_id: org.updater_id,
updated_at: org.updated_at.naive_local(),
}
}
}
#[derive(Clone, Copy, Hash, PartialEq, Eq)]
pub struct OrgId {
pub id: i32,
}
impl OrgId {
pub fn new(id: i32) -> Self {
Self { id }
}
}
impl Loader<OrgId> for RtsaDbLoader {
type Value = String;
type Error = Arc<DbAccessError>;
async fn load(&self, keys: &[OrgId]) -> Result<HashMap<OrgId, Self::Value>, Self::Error> {
let ids: Vec<i32> = keys.iter().map(|k| k.id).collect();
let rows = self.db_accessor.query_org_names(ids.as_slice()).await?;
let map: HashMap<OrgId, String> = rows
.into_iter()
.map(|row| (OrgId::new(row.0), row.1))
.collect();
Ok(map)
}
}

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use crate::{
loader::RtsaDbLoader,
user_auth::{Jwt, RoleGuard},
};
use async_graphql::{
dataloader::DataLoader, ComplexObject, Context, InputObject, Object, SimpleObject,
};
use chrono::NaiveDateTime;
use rtsa_db::prelude::*;
use rtsa_dto::common::Role;
use serde_json::json;
use super::{org::OrgId, user::UserId};
#[derive(Default)]
pub struct OrgUserQuery;
#[derive(Default)]
pub struct OrgUserMutation;
#[Object]
impl OrgUserQuery {
/// 获取组织用户信息
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn org_user_info(
&self,
ctx: &Context<'_>,
org_id: i32,
user_id: i32,
) -> async_graphql::Result<OrgUserDto> {
let org_user = ctx
.data::<RtsaDbAccessor>()?
.query_org_user(org_id, user_id)
.await?;
Ok(org_user.into())
}
/// 获取登录用户的组织用户信息
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn login_org_user_info(&self, ctx: &Context<'_>) -> async_graphql::Result<OrgUserDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let org_user = ctx
.data::<RtsaDbAccessor>()?
.query_org_user(claims.oid, claims.uid)
.await
.or_else(|e| {
match e {
DbAccessError::RowNotExist(_) => {
// 组织用户不存在,构造组织游客角色用户
let org_user = OrganizationUserModel {
id: 0,
organization_id: claims.oid,
user_id: claims.uid,
student_id: None,
roles: json!([Role::OrgGuest]),
info: None,
creator_id: claims.uid,
created_at: chrono::Local::now(),
updater_id: claims.uid,
updated_at: chrono::Local::now(),
};
Ok(org_user)
}
_ => Err(e),
}
})?;
Ok(org_user.into())
}
}
#[Object]
impl OrgUserMutation {
/// 绑定组织用户(用于组织和用户都已经存在的情况)
#[graphql(
guard = "RoleGuard::new(Role::Admin).or(RoleGuard::new(Role::OrgManager)).or(RoleGuard::new(Role::OrgTeacher))"
)]
async fn bind_org_user(
&self,
ctx: &Context<'_>,
mut bind: BindOrgUserDto,
) -> async_graphql::Result<OrgUserDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
bind.creator_id = Some(claims.uid);
let org_user = ctx
.data::<RtsaDbAccessor>()?
.bind_org_user(bind.into())
.await?;
Ok(org_user.into())
}
/// 删除组织用户
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn delete_org_user(&self, ctx: &Context<'_>, id: i32) -> async_graphql::Result<bool> {
ctx.data::<RtsaDbAccessor>()?.delete_org_user(id).await?;
Ok(true)
}
}
/// 绑定组织用户输入对象
#[derive(InputObject)]
pub struct BindOrgUserDto {
pub org_id: i32,
pub user_id: i32,
pub student_id: Option<String>,
pub roles: Vec<Role>,
#[graphql(skip)]
pub creator_id: Option<i32>,
}
impl From<BindOrgUserDto> for BindOrgUser {
fn from(value: BindOrgUserDto) -> Self {
let mut obj = Self::new(value.org_id, value.user_id, value.creator_id.unwrap())
.with_roles(serde_json::to_value(value.roles).unwrap());
if let Some(student_id) = value.student_id {
obj = obj.with_student_id(&student_id);
}
obj
}
}
#[derive(Debug, SimpleObject)]
pub struct OrgUserDto {
pub id: i32,
pub org_id: i32,
pub user_id: i32,
pub student_id: Option<String>,
pub roles: Vec<Role>,
pub creator_id: i32,
pub created_at: NaiveDateTime,
pub updater_id: i32,
pub updated_at: NaiveDateTime,
}
#[ComplexObject]
impl OrgUserDto {
/// 获取组织name
async fn org_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(OrgId::new(self.org_id)).await?;
Ok(name)
}
/// 获取用户name
async fn user_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.user_id)).await?;
Ok(name)
}
/// 获取创建者name
async fn creator_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.creator_id)).await?;
Ok(name)
}
/// 获取更新者name
async fn updater_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.updater_id)).await?;
Ok(name)
}
}
impl From<OrganizationUserModel> for OrgUserDto {
fn from(value: OrganizationUserModel) -> Self {
Self {
id: value.id,
org_id: value.organization_id,
user_id: value.user_id,
student_id: value.student_id.clone(),
roles: serde_json::from_value(value.roles).unwrap(),
creator_id: value.creator_id,
created_at: value.created_at.naive_local(),
updater_id: value.updater_id,
updated_at: value.updated_at.naive_local(),
}
}
}

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use std::collections::HashMap;
use std::sync::Arc;
use async_graphql::dataloader::*;
use async_graphql::{ComplexObject, Context, InputObject, Object, SimpleObject};
use base64::prelude::*;
use chrono::NaiveDateTime;
use rtsa_db::model::*;
use rtsa_db::prelude::*;
use rtsa_db::{model::ReleaseDataModel, ReleaseDataAccessor, RtsaDbAccessor};
use rtsa_dto::common::{DataType, Role};
use serde_json::Value;
use crate::apis::draft_data::DraftDataDto;
use crate::loader::RtsaDbLoader;
use super::data_options_def::{DataOptions, IscsDataOptions, LineInfoOptions};
use super::user::UserId;
use super::{PageDto, PageQueryDto};
use crate::user_auth::{Jwt, RoleGuard};
#[derive(Default)]
pub struct ReleaseDataQuery;
#[derive(Default)]
pub struct ReleaseDataMutation;
#[Object]
impl ReleaseDataQuery {
/// 分页查询所有发布数据(系统管理用)
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn release_data_paging(
&self,
ctx: &Context<'_>,
page: PageQueryDto,
query: ReleaseTypedDataFilterDto<Value>,
) -> async_graphql::Result<PageDto<ReleaseDataDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let paging = db_accessor
.paging_query_release_data_list(query.into(), page.into())
.await?;
Ok(paging.into())
}
/// 分页查询发布的电子地图数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_em_data_paging(
&self,
ctx: &Context<'_>,
page: PageQueryDto,
mut query: ReleaseTypedDataFilterDto<LineInfoOptions>,
) -> async_graphql::Result<PageDto<ReleaseEmDataWithoutVersionDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
query.data_type = Some(DataType::Em);
let paging = db_accessor
.paging_query_release_data_list(query.into(), page.into())
.await?;
Ok(paging.into())
}
/// 分页查询发布的ISCS数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_iscs_data_paging(
&self,
ctx: &Context<'_>,
page: PageQueryDto,
mut query: ReleaseTypedDataFilterDto<IscsDataOptions>,
) -> async_graphql::Result<PageDto<ReleaseIscsDataWithoutVersionDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
query.data_type = Some(DataType::Iscs);
let paging = db_accessor
.paging_query_release_data_list(query.into(), page.into())
.await?;
Ok(paging.into())
}
/// id查询发布数据及当前使用的版本数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_data(
&self,
ctx: &Context<'_>,
id: i32,
) -> async_graphql::Result<ReleaseDataWithUsedVersionDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let model = db_accessor.query_release_data_with_used_version(id).await?;
Ok(model.into())
}
/// 是否已经存在相同name的发布数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn is_release_data_name_exists(
&self,
ctx: &Context<'_>,
data_type: DataType,
name: String,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.is_release_data_name_exist(data_type as i32, &name)
.await?;
Ok(result)
}
/// 查询发布数据的版本
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_data_version_paging(
&self,
ctx: &Context<'_>,
data_id: i32,
page: PageQueryDto,
) -> async_graphql::Result<PageDto<ReleaseDataVersionDto>> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let paging = db_accessor
.paging_query_release_data_version_list(data_id, page.into())
.await?;
Ok(paging.into())
}
/// 根据id获取发布数据版本详情
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_data_version(
&self,
ctx: &Context<'_>,
version_id: i32,
) -> async_graphql::Result<ReleaseDataVersionDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let model = db_accessor
.query_release_data_version_by_id(version_id)
.await?;
Ok(model.into())
}
}
#[Object]
impl ReleaseDataMutation {
/// 发布到新的发布数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_new_from_draft(
&self,
ctx: &Context<'_>,
draft_id: i32,
name: String,
description: String,
) -> async_graphql::Result<ReleaseDataWithUsedVersionDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.release_new_from_draft(draft_id, &name, &description, Some(claims.uid))
.await?;
Ok(result.into())
}
/// 发布到默认发布数据需要草稿数据发布过或设置了默认发布数据id
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn release_to_default_release_data(
&self,
ctx: &Context<'_>,
draft_id: i32,
description: String,
) -> async_graphql::Result<ReleaseDataWithUsedVersionDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.release_to_existing(draft_id, &description, Some(claims.uid))
.await?;
Ok(result.into())
}
/// 更新发布数据name
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_release_data_name(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
) -> async_graphql::Result<ReleaseDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor.update_release_data_name(id, &name).await?;
Ok(result.into())
}
/// 上下架发布数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_release_data_published(
&self,
ctx: &Context<'_>,
id: i32,
is_published: bool,
) -> async_graphql::Result<ReleaseDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.set_release_data_published(id, is_published)
.await?;
Ok(result.into())
}
/// 更新发布数据使用的版本
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn update_release_data_used_version(
&self,
ctx: &Context<'_>,
id: i32,
version_id: i32,
) -> async_graphql::Result<ReleaseDataDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.set_release_data_used_version(id, version_id)
.await?;
Ok(result.into())
}
/// 从发布数据版本中创建草稿数据
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn create_draft_data_from_release_data_version(
&self,
ctx: &Context<'_>,
version_id: i32,
) -> async_graphql::Result<DraftDataDto> {
let claims = ctx.data::<Jwt>()?.decode()?;
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let result = db_accessor
.create_draft_from_release_version(version_id, claims.uid)
.await?;
Ok(result.into())
}
}
#[derive(Debug, InputObject)]
#[graphql(concrete(name = "ReleaseDataFilterDto", params(Value)))]
#[graphql(concrete(name = "ReleaseEmDataFilterDto", params(LineInfoOptions)))]
#[graphql(concrete(name = "ReleaseIscsDataFilterDto", params(IscsDataOptions)))]
pub struct ReleaseTypedDataFilterDto<T: DataOptions> {
#[graphql(skip)]
pub user_id: Option<i32>,
pub name: Option<String>,
/// 数据类型,在某个具体类型查询时不传,传了也不生效
pub data_type: Option<DataType>,
pub options: Option<T>,
pub is_published: Option<bool>,
}
impl<T: DataOptions> From<ReleaseTypedDataFilterDto<T>> for rtsa_db::ReleaseDataQuery {
fn from(value: ReleaseTypedDataFilterDto<T>) -> Self {
Self {
name: value.name,
user_id: value.user_id,
data_type: value.data_type.map(|dt| dt as i32),
options: value.options.map(|o| serde_json::to_value(o).unwrap()),
is_published: value.is_published,
}
}
}
#[derive(Debug, SimpleObject)]
#[graphql(complex)]
pub struct ReleaseDataDto {
pub id: i32,
pub name: String,
pub data_type: DataType,
pub options: Option<Value>,
pub used_version_id: Option<i32>,
pub user_id: i32,
pub is_published: bool,
pub created_at: NaiveDateTime,
pub updated_at: NaiveDateTime,
}
#[ComplexObject]
impl ReleaseDataDto {
async fn description(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
if let Some(version_id) = self.used_version_id {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let description = loader
.load_one(ReleaseDataVersionId::new(version_id))
.await?;
Ok(description)
} else {
Ok(None)
}
}
/// 获取用户name
async fn user_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.user_id)).await?;
Ok(name)
}
}
#[derive(Clone, Copy, Hash, PartialEq, Eq)]
pub struct ReleaseDataId {
pub id: i32,
}
impl ReleaseDataId {
pub fn new(id: i32) -> Self {
Self { id }
}
}
impl Loader<ReleaseDataId> for RtsaDbLoader {
type Value = String;
type Error = Arc<DbAccessError>;
async fn load(
&self,
keys: &[ReleaseDataId],
) -> Result<HashMap<ReleaseDataId, Self::Value>, Self::Error> {
let ids: Vec<i32> = keys.iter().map(|k| k.id).collect();
let rows = self
.db_accessor
.query_release_data_names(ids.as_slice())
.await?;
let map: HashMap<ReleaseDataId, String> = rows
.into_iter()
.map(|r| (ReleaseDataId { id: r.0 }, r.1))
.collect();
Ok(map)
}
}
#[derive(Clone, Copy, Hash, PartialEq, Eq)]
pub struct ReleaseDataVersionId {
pub id: i32,
}
impl ReleaseDataVersionId {
pub fn new(id: i32) -> Self {
Self { id }
}
}
impl Loader<ReleaseDataVersionId> for RtsaDbLoader {
type Value = String;
type Error = Arc<DbAccessError>;
async fn load(
&self,
keys: &[ReleaseDataVersionId],
) -> Result<HashMap<ReleaseDataVersionId, Self::Value>, Self::Error> {
let ids: Vec<i32> = keys.iter().map(|k| k.id).collect();
let rows = self
.db_accessor
.query_release_data_version_descriptions(ids.as_slice())
.await?;
let map: HashMap<ReleaseDataVersionId, String> = rows
.into_iter()
.map(|r| (ReleaseDataVersionId { id: r.0 }, r.1))
.collect();
Ok(map)
}
}
/// 发布的电子地图数据
#[derive(Debug, SimpleObject)]
pub struct ReleaseEmDataWithoutVersionDto {
pub release_data: ReleaseDataDto,
pub options: Option<LineInfoOptions>,
}
impl From<ReleaseDataModel> for ReleaseEmDataWithoutVersionDto {
fn from(model: ReleaseDataModel) -> Self {
Self {
options: model
.options
.clone()
.map(|o| serde_json::from_value(o).unwrap()),
release_data: model.into(),
}
}
}
/// 发布的ISCS数据
#[derive(Debug, SimpleObject)]
pub struct ReleaseIscsDataWithoutVersionDto {
pub release_data: ReleaseDataDto,
pub options: Option<IscsDataOptions>,
}
impl From<ReleaseDataModel> for ReleaseIscsDataWithoutVersionDto {
fn from(model: ReleaseDataModel) -> Self {
Self {
options: model
.options
.clone()
.map(|o| serde_json::from_value(o).unwrap()),
release_data: model.into(),
}
}
}
#[derive(Debug, SimpleObject)]
pub struct ReleaseDataWithUsedVersionDto {
pub release_data: ReleaseDataDto,
pub used_version: Option<ReleaseDataVersionDto>,
}
#[derive(Debug, SimpleObject)]
#[graphql(complex)]
pub struct ReleaseDataVersionDto {
pub id: i32,
pub release_data_id: i32,
pub options: Option<Value>,
pub description: String,
/// base64编码的数据
pub data: String,
pub user_id: i32,
pub created_at: NaiveDateTime,
}
#[ComplexObject]
impl ReleaseDataVersionDto {
/// 获取用户name
async fn user_name(&self, ctx: &Context<'_>) -> async_graphql::Result<Option<String>> {
let loader = ctx.data_unchecked::<DataLoader<RtsaDbLoader>>();
let name = loader.load_one(UserId::new(self.user_id)).await?;
Ok(name)
}
}
impl From<(ReleaseDataModel, ReleaseDataVersionModel)> for ReleaseDataWithUsedVersionDto {
fn from((data, version): (ReleaseDataModel, ReleaseDataVersionModel)) -> Self {
Self {
release_data: data.into(),
used_version: Some(version.into()),
}
}
}
impl From<ReleaseDataVersionModel> for ReleaseDataVersionDto {
fn from(model: ReleaseDataVersionModel) -> Self {
Self {
id: model.id,
release_data_id: model.release_data_id,
options: model.options,
description: model.description,
data: BASE64_STANDARD.encode(model.data),
user_id: model.user_id,
created_at: model.created_at.naive_local(),
}
}
}
impl From<ReleaseDataModel> for ReleaseDataDto {
fn from(model: ReleaseDataModel) -> Self {
Self {
id: model.id,
name: model.name,
data_type: DataType::try_from(model.data_type).unwrap(),
options: model.options,
used_version_id: model.used_version_id,
user_id: model.user_id,
is_published: model.is_published,
created_at: model.created_at.naive_local(),
updated_at: model.updated_at.naive_local(),
}
}
}

270
manager/src/apis/user.rs Normal file
View File

@ -0,0 +1,270 @@
use std::{collections::HashMap, sync::Arc};
use async_graphql::{dataloader::Loader, Context, InputObject, Object, SimpleObject};
use chrono::NaiveDateTime;
use rtsa_db::{
model::{OrganizationModel, OrganizationUserModel, UserModel},
DbAccessError, RtsaDbAccessor, UserAccessor,
};
use serde_json::json;
use crate::{
loader::RtsaDbLoader,
user_auth::{handle_login, Jwt, RoleGuard},
};
use rtsa_dto::common::Role;
use super::{PageDto, PageQueryDto};
#[derive(Default)]
pub struct UserQuery;
#[derive(Default)]
pub struct UserMutation;
#[Object]
impl UserQuery {
/// 用户登陆
async fn user_login(
&self,
ctx: &Context<'_>,
info: UserLoginDto,
) -> async_graphql::Result<String> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let jwt = handle_login(db_accessor, info).await?;
Ok(jwt.0)
}
/// 获取用户信息
#[graphql(guard = "RoleGuard::new(Role::User)")]
async fn login_user_info(&self, ctx: &Context<'_>) -> async_graphql::Result<UserDto> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let claims = ctx.data::<Jwt>()?.decode()?;
let user = db_accessor.query_user(claims.uid).await?;
Ok(user.into())
}
/// 用户名是否存在
async fn username_exists(
&self,
ctx: &Context<'_>,
username: String,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let exist = db_accessor.is_user_name_exist(&username).await?;
Ok(exist)
}
/// 邮箱是否存在
async fn email_exists(&self, ctx: &Context<'_>, email: String) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let exist = db_accessor.is_user_email_exist(&email).await?;
Ok(exist)
}
/// 手机号是否存在
async fn mobile_exists(
&self,
ctx: &Context<'_>,
mobile: String,
) -> async_graphql::Result<bool> {
let db_accessor = ctx.data::<RtsaDbAccessor>()?;
let exist = db_accessor.is_user_mobile_exist(&mobile).await?;
Ok(exist)
}
/// 分页查询用户(系统管理)
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn user_paging(
&self,
ctx: &Context<'_>,
page: PageQueryDto,
query: UserQueryDto,
) -> async_graphql::Result<PageDto<UserDto>> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let paging = dba.query_user_page(page.into(), query.into()).await?;
Ok(paging.into())
}
}
#[Object]
impl UserMutation {
/// 用户注册
async fn register_user(
&self,
ctx: &Context<'_>,
register: RegisterUserDto,
) -> async_graphql::Result<UserDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let user = dba.register_user(register.into()).await?;
Ok(user.into())
}
/// 更新用户角色
#[graphql(guard = "RoleGuard::new(Role::Admin)")]
async fn update_user_roles(
&self,
ctx: &Context<'_>,
user_id: i32,
roles: Vec<Role>,
) -> async_graphql::Result<UserDto> {
let dba = ctx.data::<RtsaDbAccessor>()?;
let user = dba
.update_user_roles(user_id, serde_json::to_value(roles).unwrap())
.await?;
Ok(user.into())
}
}
#[derive(Debug, InputObject)]
pub struct UserLoginDto {
pub username: String,
pub password: String,
/// 组织id组织用户登陆需要
pub org_id: Option<i32>,
}
#[derive(Debug, InputObject)]
pub struct RegisterUserDto {
/// 用户名, 必填,唯一,用于登陆
pub username: String,
/// 昵称, 必填
pub nickname: String,
pub mobile: Option<String>,
pub email: Option<String>,
pub password: String,
}
impl From<RegisterUserDto> for rtsa_db::RegisterUser {
fn from(value: RegisterUserDto) -> Self {
let mut user = Self::new(&value.username, &value.password)
.with_nickname(&value.nickname)
.with_roles(json!([Role::User]));
if let Some(mobile) = value.mobile {
user = user.with_mobile(&mobile);
}
if let Some(email) = value.email {
user = user.with_email(&email);
}
user
}
}
#[derive(Debug, InputObject)]
pub struct UserQueryDto {
pub id: Option<i32>,
pub username: Option<String>,
pub nickname: Option<String>,
pub email: Option<String>,
pub mobile: Option<String>,
pub roles: Option<Vec<Role>>,
}
impl From<UserQueryDto> for rtsa_db::UserPageFilter {
fn from(value: UserQueryDto) -> Self {
Self {
id: value.id,
username: value.username,
nickname: value.nickname,
email: value.email,
mobile: value.mobile,
roles: value.roles.map(|r| serde_json::to_value(r).unwrap()),
}
}
}
#[derive(Debug, SimpleObject)]
pub struct LoginUserInfoDto {
pub id: i32,
pub username: String,
pub nickname: String,
pub mobile: Option<String>,
pub email: Option<String>,
/// 用户角色
pub roles: Vec<Role>,
/// 组织
pub org: LoginUserOrgInfoDto,
}
#[derive(Debug, SimpleObject)]
pub struct LoginUserOrgInfoDto {
pub org_id: i32,
pub org_code: Option<String>,
pub org_name: String,
pub roles: Vec<Role>,
}
impl From<(UserModel, OrganizationUserModel, OrganizationModel)> for LoginUserInfoDto {
fn from(value: (UserModel, OrganizationUserModel, OrganizationModel)) -> Self {
Self {
id: value.0.id,
username: value.0.username.clone(),
nickname: value.0.nickname.clone(),
mobile: value.0.mobile.clone(),
email: value.0.email.clone(),
roles: serde_json::from_value(value.0.roles).unwrap(),
org: LoginUserOrgInfoDto {
org_id: value.2.id,
org_code: value.2.code,
org_name: value.2.name,
roles: serde_json::from_value(value.1.roles).unwrap(),
},
}
}
}
#[derive(Debug, SimpleObject)]
pub struct UserDto {
pub id: i32,
pub username: String,
pub nickname: String,
pub mobile: Option<String>,
pub email: Option<String>,
pub roles: Vec<Role>,
pub created_at: NaiveDateTime,
pub updated_at: NaiveDateTime,
}
impl From<UserModel> for UserDto {
fn from(value: UserModel) -> Self {
Self {
id: value.id,
username: value.username.clone(),
nickname: value.nickname.clone(),
mobile: value.mobile.clone(),
email: value.email.clone(),
roles: serde_json::from_value(value.roles).unwrap(),
created_at: value.created_at.naive_local(),
updated_at: value.updated_at.naive_local(),
}
}
}
#[derive(Clone, Copy, Hash, PartialEq, Eq)]
pub struct UserId {
pub id: i32,
}
impl UserId {
pub fn new(id: i32) -> Self {
Self { id }
}
}
impl Loader<UserId> for RtsaDbLoader {
type Value = String;
type Error = Arc<DbAccessError>;
async fn load(&self, keys: &[UserId]) -> Result<HashMap<UserId, Self::Value>, Self::Error> {
let ids: Vec<i32> = keys.iter().map(|k| k.id).collect();
let rows = self
.db_accessor
.query_user_nicknames(ids.as_slice())
.await?;
let map: HashMap<UserId, String> = rows
.into_iter()
.map(|row| (UserId::new(row.0), row.1))
.collect();
Ok(map)
}
}

View File

@ -20,9 +20,9 @@ pub struct Log {
level: String,
}
impl From<Log> for rtss_log::Logging {
impl From<Log> for rtsa_log::Logging {
fn from(log: Log) -> Self {
rtss_log::Logging {
rtsa_log::Logging {
level: log.level.parse().unwrap(),
..Default::default()
}
@ -58,9 +58,9 @@ impl AppConfig {
// Default to 'dev' env
// Note that this file is _optional_
.add_source(File::with_name(&format!("{dir}/{run_mode}")).required(true))
// Add in settings from the environment (with a prefix of RTSS_SIM)
// Add in settings from the environment (with a prefix of rtsa_SIM)
// Eg.. `APP_DEBUG=1 ./target/app` would set the `debug` key
.add_source(Environment::with_prefix("RTSS_SIM").separator("_"))
.add_source(Environment::with_prefix("rtsa_SIM").separator("_"))
// You may also programmatically change settings
// .set_override("database.url", "postgres://")?
// build the configuration

View File

@ -1,10 +1,12 @@
use clap::Parser;
use enum_dispatch::enum_dispatch;
use crate::{app_config, db::DbSubCommand, CmdExecutor};
use crate::{app_config, server, CmdExecutor};
use super::DbSubCommand;
#[derive(Parser, Debug)]
#[command(name = "rtss-sim", version, author, about, long_about = None)]
#[command(name = "rtsa-sim", version, author, about, long_about = None)]
pub struct Cmd {
#[command(subcommand)]
pub cmd: SubCommand,
@ -27,12 +29,11 @@ pub struct ServerOpts {
impl CmdExecutor for ServerOpts {
async fn execute(&self) -> anyhow::Result<()> {
println!("ServerOpts: {:?}", self);
let app_config =
app_config::AppConfig::new(&self.config_path).expect("Failed to load app config");
let log: rtss_log::Logging = app_config.log.into();
let log: rtsa_log::Logging = app_config.log.into();
log.init();
rtss_api::serve(rtss_api::ServerConfig::new(
server::serve(server::ServerConfig::new(
&app_config.database.url,
app_config.server.port,
))

View File

@ -0,0 +1,31 @@
use clap::Parser;
use enum_dispatch::enum_dispatch;
use crate::{app_config, sys_init::init_default_user_and_org, CmdExecutor};
#[derive(Parser, Debug)]
#[enum_dispatch(CmdExecutor)]
pub enum DbSubCommand {
#[command(name = "migrate", about = "Migrate database")]
Migrate(MigrateOpts),
}
#[derive(Parser, Debug)]
pub struct MigrateOpts {
#[clap(long, required = false, default_value = "conf")]
config_path: String,
#[clap(long, required = false, default_value = "migrations")]
file_path: String,
}
impl CmdExecutor for MigrateOpts {
async fn execute(&self) -> anyhow::Result<()> {
let app_config =
app_config::AppConfig::new(&self.config_path).expect("Failed to load app config");
let log: rtsa_log::Logging = app_config.log.into();
log.init();
rtsa_db::run_migrations(&app_config.database.url).await?;
rtsa_db::init_default_db_accessor(&app_config.database.url).await;
init_default_user_and_org().await
}
}

View File

@ -1,4 +1,3 @@
mod app_config;
mod cmd;
mod db;

18
manager/src/error.rs Normal file
View File

@ -0,0 +1,18 @@
use thiserror::Error;
#[allow(dead_code)]
#[derive(Error, Debug)]
pub enum BusinessError {
#[error("未知错误: {0}")]
Unknown(String),
#[error("{0}")]
DbError(#[from] rtsa_db::DbAccessError),
#[error(transparent)]
Other(#[from] anyhow::Error),
#[error("非法参数:{0}")]
InvalidArgument(String),
#[error("认证失败:{0}")]
AuthError(String),
#[error("JWT错误{0}")]
JwtError(#[from] jsonwebtoken::errors::Error),
}

13
manager/src/lib.rs Normal file
View File

@ -0,0 +1,13 @@
mod app_config;
mod commands;
mod sys_init;
// mod jwt_auth;
mod apis;
mod error;
mod loader;
mod server;
mod user_auth;
pub use server::*;
pub use commands::*;

10
manager/src/loader/mod.rs Normal file
View File

@ -0,0 +1,10 @@
/// 数据库加载器
pub struct RtsaDbLoader {
pub(crate) db_accessor: rtsa_db::RtsaDbAccessor,
}
impl RtsaDbLoader {
pub fn new(db_accessor: rtsa_db::RtsaDbAccessor) -> Self {
Self { db_accessor }
}
}

View File

@ -1,5 +1,5 @@
use clap::Parser;
use rtss_simulation::{Cmd, CmdExecutor};
use manager::{Cmd, CmdExecutor};
#[tokio::main]
async fn main() -> anyhow::Result<()> {

View File

@ -1,5 +1,4 @@
use async_graphql::*;
use async_graphql::{EmptySubscription, Schema};
use async_graphql_axum::{GraphQLRequest, GraphQLResponse};
use axum::extract::State;
use axum::http::HeaderMap;
@ -9,14 +8,18 @@ use axum::{
routing::get,
Router,
};
use dataloader::DataLoader;
use http::{playground_source, GraphQLPlaygroundConfig};
use rtss_log::tracing::{debug, info};
use rtsa_db::RtsaDbAccessor;
use rtsa_log::tracing::{debug, info};
use tokio::net::TcpListener;
use tower_http::cors::CorsLayer;
use crate::draft_data;
use crate::simulation_definition::MutexSimulationManager;
use crate::apis::{Mutation, Query};
use crate::loader::RtsaDbLoader;
use crate::user_auth;
#[derive(Clone)]
pub struct ServerConfig {
pub database_url: String,
pub port: u16,
@ -36,7 +39,8 @@ impl ServerConfig {
}
pub async fn serve(config: ServerConfig) -> anyhow::Result<()> {
let schema = new_schema(&config).await;
let dba = rtsa_db::get_db_accessor(&config.database_url).await;
let schema = new_schema(SchemaOptions::new(dba));
let app = Router::new()
.route("/", get(graphiql).post(graphql_handler))
@ -48,8 +52,8 @@ pub async fn serve(config: ServerConfig) -> anyhow::Result<()> {
.allow_methods([Method::GET, Method::POST]),
);
debug!("Server started at http://{}", config.to_socket_addr());
info!("GraphiQL IDE: http://localhost:{}", config.port);
info!("Server started at http://{}", config.to_socket_addr());
debug!("GraphiQL IDE: http://localhost:{}", config.port);
axum::serve(
TcpListener::bind(config.to_socket_addr()).await.unwrap(),
app,
@ -59,21 +63,15 @@ pub async fn serve(config: ServerConfig) -> anyhow::Result<()> {
}
async fn graphql_handler(
State(schema): State<SimulationSchema>,
_headers: HeaderMap,
State(schema): State<RtsaAppSchema>,
headers: HeaderMap,
req: GraphQLRequest,
) -> GraphQLResponse {
let req = req.into_inner();
// let mut req = req.into_inner();
// let token = jwt_auth::get_token_from_headers(headers);
// match token {
// Ok(token) => {
// req = req.data(token);
// }
// Err(e) => {
// error!("Error getting token from headers: {:?}", e);
// }
// }
let mut req = req.into_inner();
let token = user_auth::get_token_from_headers(&headers);
if let Some(token) = token {
req = req.data(token);
}
schema.execute(req).await.into()
}
@ -81,18 +79,36 @@ async fn graphiql() -> impl IntoResponse {
Html(playground_source(GraphQLPlaygroundConfig::new("/")))
}
pub type SimulationSchema = Schema<Query, Mutation, EmptySubscription>;
pub type RtsaAppSchema = Schema<Query, Mutation, EmptySubscription>;
#[derive(Default, MergedObject)]
pub struct Query(draft_data::DraftDataQuery);
pub struct SchemaOptions {
pub rtsa_dba: RtsaDbAccessor,
}
#[derive(Default, MergedObject)]
pub struct Mutation(draft_data::DraftDataMutation);
impl SchemaOptions {
pub fn new(rtsa_dba: RtsaDbAccessor) -> Self {
Self { rtsa_dba }
}
}
pub async fn new_schema(config: &ServerConfig) -> SimulationSchema {
let dba = rtss_db::get_db_accessor(&config.database_url).await;
pub fn new_schema(options: SchemaOptions) -> RtsaAppSchema {
let loader = RtsaDbLoader::new(options.rtsa_dba.clone());
Schema::build(Query::default(), Mutation::default(), EmptySubscription)
.data(dba)
.data(MutexSimulationManager::default())
.data(options.rtsa_dba)
.data(DataLoader::new(loader, tokio::spawn))
// .data(MutexSimulationManager::default())
.finish()
}
#[cfg(test)]
mod tests {
use super::*;
#[tokio::test]
async fn test_new_schema() {
let dba =
rtsa_db::get_db_accessor("postgresql://joylink:Joylink@0503@localhost:5432/joylink")
.await;
let _ = new_schema(SchemaOptions::new(dba));
}
}

View File

@ -0,0 +1,84 @@
//! 系统初始化
use rtsa_db::{OrgAccessor, UserAccessor};
use rtsa_dto::common::Role;
use rtsa_log::tracing::{debug, error, info};
use serde_json::json;
pub const ADMIN_USER_NAME: &str = "_jl_admin_";
pub const ADMIN_USER_PASSWORD: &str = "4a6d74126bfd06d69406fcccb7e7d5d9";
pub const DEFAULT_ORG_CODE: &str = "default";
const DEFAULT_ORG_NAME: &str = "默认机构";
/// 初始化默认用户及组织
/// 注意:需要在初始化默认数据库后调用,初始化默认数据库方法: [rtsa_db::init_default_db_accessor] or [rtsa_db::set_default_db_accessor]
pub(crate) async fn init_default_user_and_org() -> anyhow::Result<()> {
let admin_user = rtsa_db::RegisterUser::new(ADMIN_USER_NAME, ADMIN_USER_PASSWORD)
.with_roles(json!([Role::Admin]));
let db_accessor = rtsa_db::get_default_db_accessor();
let admin = db_accessor.register_user(admin_user).await;
match admin {
Ok(admin) => {
let org =
rtsa_db::CreateOrg::new(DEFAULT_ORG_NAME, admin.id).with_code(DEFAULT_ORG_CODE);
db_accessor.create_org(org).await?;
info!(
"初始化默认用户及组织成功. 用户: {}, 密码: {}, 组织: {}",
ADMIN_USER_NAME, ADMIN_USER_PASSWORD, DEFAULT_ORG_NAME
);
Ok(())
}
Err(e) => {
if db_accessor.is_user_name_exist(ADMIN_USER_NAME).await?
&& db_accessor.is_org_code_exist(DEFAULT_ORG_CODE).await?
{
debug!("默认用户及组织已存在");
} else {
error!("初始化默认用户失败: {:?}", e);
}
Ok(())
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use rtsa_db::RtsaDbAccessor;
use rtsa_log::{tracing::Level, Logging};
use sqlx::PgPool;
#[sqlx::test(migrator = "rtsa_db::MIGRATOR")]
async fn test_init_default_user_and_org(pool: PgPool) -> anyhow::Result<()> {
Logging::default().with_level(Level::DEBUG).init();
let accessor = RtsaDbAccessor::new(pool);
rtsa_db::set_default_db_accessor(accessor);
init_default_user_and_org().await.unwrap();
// 重复初始化
init_default_user_and_org().await?;
// 验证用户及组织是否存在
let db_accessor = rtsa_db::get_default_db_accessor();
let user = db_accessor.query_user_by_username(ADMIN_USER_NAME).await?;
assert_eq!(user.username, ADMIN_USER_NAME);
assert_eq!(user.nickname, ADMIN_USER_NAME);
assert_eq!(user.roles, json!([Role::Admin]));
let org = db_accessor.query_org_by_code(DEFAULT_ORG_CODE).await?;
assert_eq!(org.code.unwrap(), DEFAULT_ORG_CODE);
assert_eq!(org.name, DEFAULT_ORG_NAME);
assert_eq!(org.creator_id, user.id);
let user = db_accessor
.query_user_login(ADMIN_USER_NAME, ADMIN_USER_PASSWORD)
.await?;
assert_eq!(user.username, ADMIN_USER_NAME);
assert_eq!(user.nickname, ADMIN_USER_NAME);
assert_eq!(user.roles, json!([Role::Admin]));
Ok(())
}
}

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@ -0,0 +1,102 @@
use std::sync::LazyLock;
use axum::http::HeaderMap;
use jsonwebtoken::{decode, DecodingKey, EncodingKey, Validation};
use serde::{Deserialize, Serialize};
use crate::error::BusinessError;
static KEYS: LazyLock<Keys> = LazyLock::new(|| {
// let secret = std::env::var("JWT_SECRET").expect("JWT_SECRET must be set");
let secret = "joylink".to_string();
Keys::new(secret.as_bytes())
});
struct Keys {
encoding: EncodingKey,
decoding: DecodingKey,
}
impl Keys {
pub fn new(secret: &[u8]) -> Self {
Self {
encoding: EncodingKey::from_secret(secret),
decoding: DecodingKey::from_secret(secret),
}
}
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct Jwt(pub String);
impl Jwt {
pub fn build_from(claims: Claims) -> Result<Self, BusinessError> {
let token =
jsonwebtoken::encode(&jsonwebtoken::Header::default(), &claims, &KEYS.encoding)?;
Ok(Self(token))
}
pub fn decode(&self) -> Result<Claims, BusinessError> {
let data = decode::<Claims>(&self.0, &KEYS.decoding, &Validation::default())?;
Ok(data.claims)
}
}
pub fn get_token_from_headers(headers: &HeaderMap) -> Option<Jwt> {
headers
.get("Token")
.and_then(|token| token.to_str().map(|s| Jwt(s.to_string())).ok())
}
#[derive(Debug, Serialize, Deserialize)]
pub struct Claims {
/// 用户ID
pub uid: i32,
/// 组织ID
pub oid: i32,
exp: usize, // 过期时间,单位秒
}
pub fn get_current_timestamp() -> u64 {
let start = std::time::SystemTime::now();
start
.duration_since(std::time::UNIX_EPOCH)
.expect("Time went backwards")
.as_secs()
}
const EXP_TIME: usize = 3600 * 24 * 5; // 5天
impl Claims {
pub fn new(uid: i32, oid: i32) -> Self {
Self {
uid,
oid,
exp: get_current_timestamp() as usize + EXP_TIME,
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_jwt() {
rtsa_log::Logging::default().init();
let claim = Claims::new(5, 1);
let jwt = Jwt::build_from(claim).unwrap();
println!("jwt: {}", jwt.0);
let result = jwt.decode();
match result {
Ok(claims) => {
assert_eq!(claims.uid, 5);
assert_eq!(claims.oid, 1);
}
Err(e) => {
panic!("Error: {:?}", e);
}
}
}
}

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@ -0,0 +1,223 @@
use async_graphql::Guard;
use rtsa_db::prelude::*;
use rtsa_dto::common::Role;
use rtsa_log::tracing::{error, info, warn};
use serde_json::json;
mod jwt_auth;
use crate::{apis::UserLoginDto, error::BusinessError, sys_init::DEFAULT_ORG_CODE};
pub use jwt_auth::*;
pub struct RoleGuard {
role: Role,
}
impl RoleGuard {
pub fn new(role: Role) -> Self {
Self { role }
}
}
impl Guard for RoleGuard {
async fn check(&self, ctx: &async_graphql::Context<'_>) -> async_graphql::Result<()> {
if let Some(jwt) = ctx.data_opt::<Jwt>() {
// 从ctx中获取UserAuthCache, 从cache中获取用户信息
let claims = jwt.decode()?;
let dba = ctx.data::<RtsaDbAccessor>()?;
let user = dba.query_user(claims.uid).await?;
let user_roles: Vec<Role> = serde_json::from_value(user.roles)?;
// 判断用户角色, 如果是管理员则直接通过
if user_roles.contains(&Role::Admin) {
return Ok(());
}
// 其他用户, 则判断是否有权限
if user_roles.contains(&self.role) {
return Ok(());
}
// 判断组织用户角色
let org_user_roles: Vec<Role>;
let org_user = dba.query_org_user(claims.oid, claims.uid).await;
if let Ok(org_user) = org_user {
org_user_roles = serde_json::from_value(org_user.roles)?;
} else {
// 组织用户不存在,构造组织游客角色用户
org_user_roles = vec![Role::OrgGuest];
}
if org_user_roles.contains(&self.role) {
return Ok(());
}
}
Err(async_graphql::Error::new("Unauthorized"))
}
}
/// 处理用户登录
pub(crate) async fn handle_login(
db_accessor: &RtsaDbAccessor,
user_login_dto: UserLoginDto,
) -> Result<Jwt, BusinessError> {
let org_id;
if let Some(oid) = user_login_dto.org_id {
org_id = oid;
} else {
let default_org = db_accessor.query_org_by_code(DEFAULT_ORG_CODE).await?;
org_id = default_org.id;
}
// 查询用户登陆
let user = db_accessor
.query_user_login(&user_login_dto.username, &user_login_dto.password)
.await;
match user {
Ok(user) => {
// 用户存在
Ok(Jwt::build_from(Claims::new(user.id, org_id))?)
}
Err(e) => {
match e {
DbAccessError::UserNotExist(e) => {
info!(
"用户不存在: {}, 尝试查询组织学工号用户: username={}, org_id={}",
e, user_login_dto.username, org_id
);
// 用户不存在,查询组织用户学工号+用户密码
// 通过组织id和学工号查询组织用户
let org_user = db_accessor
.query_org_user_by_student_id(org_id, &user_login_dto.username)
.await;
if org_user.is_err() {
warn!(
"用户不存在: username={}, org_id={}",
user_login_dto.username, org_id
);
return Err(BusinessError::AuthError(
"用户不存在或密码不正确".to_string(),
));
}
let org_user = org_user.unwrap();
let user = db_accessor.query_user(org_user.user_id).await?;
// 检查用户密码
if rtsa_db::password_util::verify_password(
&user_login_dto.password,
&user.password,
)
.is_ok()
{
Ok(Jwt::build_from(Claims::new(user.id, org_id))?)
} else {
warn!(
"密码不匹配: username={}, org_id={}",
user_login_dto.username, org_id
);
Err(BusinessError::AuthError(
"用户不存在或密码不正确".to_string(),
))
}
}
DbAccessError::PasswordNotMatch => {
warn!(
"密码不匹配: username={}, password={}, org_id={}",
user_login_dto.username, user_login_dto.password, org_id
);
Err(BusinessError::AuthError(
"用户不存在或密码不正确".to_string(),
))
}
_ => {
error!(
"查询用户登录验证错误: username={}, org_id={}, error={:?}",
user_login_dto.username, org_id, e
);
Err(BusinessError::AuthError(
"用户不存在或密码不正确".to_string(),
))
}
}
}
}
}
/// 查询登录用户、组织等信息
#[allow(dead_code)]
pub(crate) async fn query_login_user_info(
db_accessor: &RtsaDbAccessor,
claims: Claims,
) -> Result<(UserModel, OrganizationUserModel, OrganizationModel), BusinessError> {
let user = db_accessor.query_user(claims.uid).await?;
let org = db_accessor.query_org(claims.oid).await?;
let org_user = db_accessor.query_org_user(claims.oid, claims.uid).await;
match org_user {
Ok(org_user) => Ok((user, org_user, org)),
Err(_) => {
// 组织用户不存在,构造组织游客角色用户
let org_user = OrganizationUserModel {
id: 0,
organization_id: claims.oid,
user_id: claims.uid,
student_id: None,
roles: json!([Role::OrgGuest]),
info: None,
creator_id: 0,
created_at: chrono::Local::now(),
updater_id: 0,
updated_at: chrono::Local::now(),
};
Ok((user, org_user, org))
}
}
}
#[cfg(test)]
mod tests {
use crate::sys_init::{init_default_user_and_org, ADMIN_USER_NAME, ADMIN_USER_PASSWORD};
use super::*;
use rtsa_log::{
tracing::{info, Level},
Logging,
};
use rtsa_db::RtsaDbAccessor;
use sqlx::PgPool;
#[sqlx::test(migrator = "rtsa_db::MIGRATOR")]
async fn test_handle_login(pool: PgPool) -> anyhow::Result<()> {
Logging::default().with_level(Level::DEBUG).init();
let accessor = RtsaDbAccessor::new(pool);
rtsa_db::set_default_db_accessor(accessor.clone());
init_default_user_and_org().await.unwrap();
let info = UserLoginDto {
username: ADMIN_USER_NAME.to_string(),
password: ADMIN_USER_PASSWORD.to_string(),
org_id: None,
};
let jwt = handle_login(&accessor, info).await.unwrap();
info!("jwt: {:?}", jwt);
let claims = jwt.decode().unwrap();
let user = accessor.query_user_by_username(ADMIN_USER_NAME).await?;
assert_eq!(claims.uid, user.id);
let org = accessor.query_org_by_code(DEFAULT_ORG_CODE).await?;
assert_eq!(claims.oid, org.id);
Ok(())
}
#[sqlx::test(migrator = "rtsa_db::MIGRATOR")]
async fn test_query_login_user_info(pool: PgPool) -> anyhow::Result<()> {
Logging::default().with_level(Level::DEBUG).init();
let accessor = RtsaDbAccessor::new(pool);
rtsa_db::set_default_db_accessor(accessor.clone());
init_default_user_and_org().await.unwrap();
let info = UserLoginDto {
username: ADMIN_USER_NAME.to_string(),
password: ADMIN_USER_PASSWORD.to_string(),
org_id: None,
};
let jwt = handle_login(&accessor, info).await.unwrap();
let claims = jwt.decode().unwrap();
let (user, org_user, org) = query_login_user_info(&accessor, claims).await.unwrap();
assert_eq!(user.username, ADMIN_USER_NAME);
assert_eq!(org_user.organization_id, org.id);
Ok(())
}
}

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@ -1 +1 @@
DROP SCHEMA rtss CASCADE;
DROP SCHEMA rtsa CASCADE;

View File

@ -1,234 +1,651 @@
-- 初始化数据库SCHEMA(所有轨道交通信号系统仿真的表、类型等都在rtss SCHEMA下)
CREATE SCHEMA rtss;
-- 初始化数据库SCHEMA(所有轨道交通信号系统仿真的表、类型等都在rtsa SCHEMA下)
CREATE SCHEMA rtsa;
-- 创建草稿数据表
-- 创建mqtt客户端id序列
CREATE SEQUENCE rtsa.mqtt_client_id_seq;
-- 创建用户表
CREATE TABLE
rtss.draft_data (
rtsa.user (
id SERIAL PRIMARY KEY, -- id 自增主键
name VARCHAR(128) NOT NULL, -- 草稿名称
username VARCHAR(128) NOT NULL UNIQUE, -- 用户名
password VARCHAR(256) NOT NULL, -- 密码
nickname VARCHAR(128) NOT NULL DEFAULT 'user', -- 昵称
email VARCHAR(128) NULL UNIQUE, -- 邮箱
mobile VARCHAR(16) NULL UNIQUE, -- 手机号
roles JSONB NOT NULL DEFAULT '[]', -- 角色列表
info JSONB NOT NULL DEFAULT '{}', -- 用户信息
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP -- 更新时间
);
-- 创建用户名称索引
CREATE INDEX ON rtsa.user (username);
-- 创建用户密码索引
CREATE INDEX ON rtsa.user (password);
-- 创建用户昵称索引
CREATE INDEX ON rtsa.user (nickname);
-- 创建用户邮箱索引
CREATE INDEX ON rtsa.user (email);
-- 创建用户手机号索引
CREATE INDEX ON rtsa.user (mobile);
-- 创建用户角色索引
CREATE INDEX ON rtsa.user USING GIN (roles);
-- 注释用户表
COMMENT ON TABLE rtsa.user IS '用户表';
-- 注释用户表字段
COMMENT ON COLUMN rtsa.user.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.user.username IS '用户名';
COMMENT ON COLUMN rtsa.user.password IS '密码';
COMMENT ON COLUMN rtsa.user.nickname IS '昵称';
COMMENT ON COLUMN rtsa.user.email IS '邮箱';
COMMENT ON COLUMN rtsa.user.mobile IS '手机号';
COMMENT ON COLUMN rtsa.user.roles IS '角色列表';
COMMENT ON COLUMN rtsa.user.info IS '用户信息';
COMMENT ON COLUMN rtsa.user.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.user.updated_at IS '更新时间';
-- 创建组织表
CREATE TABLE
rtsa.organization (
id SERIAL PRIMARY KEY, -- id 自增主键
code VARCHAR(128) NULL UNIQUE, -- 组织编码
name VARCHAR(128) NOT NULL, -- 组织名称
config JSONB NULL, -- 配置数据
parent_id INT NULL, -- 父组织id
creator_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updater_id INT NOT NULL, -- 更新用户id
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (parent_id) REFERENCES rtsa.organization (id) ON DELETE CASCADE, -- 父组织外键
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 创建用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE -- 更新用户外键
);
-- 创建组织编码索引
CREATE INDEX ON rtsa.organization (code);
-- 创建组织名称索引
CREATE INDEX ON rtsa.organization (name);
-- 创建组织父组织索引
CREATE INDEX ON rtsa.organization (parent_id);
-- 创建组织创建用户索引
CREATE INDEX ON rtsa.organization (creator_id);
-- 创建组织更新用户索引
CREATE INDEX ON rtsa.organization (updater_id);
-- 注释组织表
COMMENT ON TABLE rtsa.organization IS '组织表';
-- 注释组织表字段
COMMENT ON COLUMN rtsa.organization.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.organization.code IS '组织编码';
COMMENT ON COLUMN rtsa.organization.name IS '组织名称';
COMMENT ON COLUMN rtsa.organization.config IS '配置数据';
COMMENT ON COLUMN rtsa.organization.parent_id IS '父组织id';
COMMENT ON COLUMN rtsa.organization.creator_id IS '创建用户id';
COMMENT ON COLUMN rtsa.organization.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.organization.updater_id IS '更新用户id';
COMMENT ON COLUMN rtsa.organization.updated_at IS '更新时间';
-- 创建组织用户表
CREATE TABLE
rtsa.organization_user (
id SERIAL PRIMARY KEY, -- id 自增主键
organization_id INT NOT NULL, -- 组织id
user_id INT NOT NULL, -- 用户id
student_id VARCHAR(32) NULL, -- 学工号
roles JSONB NOT NULL DEFAULT '[]', -- 组织角色列表
info JSONB NULL, -- 组织用户额外信息
creator_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updater_id INT NOT NULL, -- 更新用户id
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (organization_id) REFERENCES rtsa.organization (id) ON DELETE CASCADE, -- 组织外键
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 创建用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 更新用户外键
UNIQUE(organization_id, student_id), -- 组织id+学工号唯一
UNIQUE(organization_id, user_id) -- 组织id+用户id唯一
);
-- 创建组织用户组织索引
CREATE INDEX ON rtsa.organization_user (organization_id);
-- 创建组织用户用户索引
CREATE INDEX ON rtsa.organization_user (user_id);
-- 创建组织用户学工号索引
CREATE INDEX ON rtsa.organization_user (student_id);
-- 创建组织用户角色索引
CREATE INDEX ON rtsa.organization_user USING GIN (roles);
-- 创建组织用户创建用户索引
CREATE INDEX ON rtsa.organization_user (creator_id);
-- 创建组织用户更新用户索引
CREATE INDEX ON rtsa.organization_user (updater_id);
-- 注释组织用户表
COMMENT ON TABLE rtsa.organization_user IS '组织用户表';
-- 注释组织用户表字段
COMMENT ON COLUMN rtsa.organization_user.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.organization_user.organization_id IS '组织id';
COMMENT ON COLUMN rtsa.organization_user.user_id IS '用户id';
COMMENT ON COLUMN rtsa.organization_user.student_id IS '学工号';
COMMENT ON COLUMN rtsa.organization_user.roles IS '组织角色列表';
COMMENT ON COLUMN rtsa.organization_user.info IS '组织用户其他信息';
COMMENT ON COLUMN rtsa.organization_user.creator_id IS '创建用户id';
COMMENT ON COLUMN rtsa.organization_user.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.organization_user.updater_id IS '更新用户id';
COMMENT ON COLUMN rtsa.organization_user.updated_at IS '更新时间';
-- 创建组织数据表
CREATE TABLE
rtsa.organization_data (
id SERIAL PRIMARY KEY, -- id 自增主键
organization_id INT NOT NULL, -- 组织id
data_type INT NOT NULL, -- 数据类型
data BYTEA, -- 草稿数据
default_release_data_id INT NULL, -- 默认发布数据id
user_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 更新时间
UNIQUE (name, user_id) -- 一个用户的草稿名称唯一
data JSONB NOT NULL, -- 数据
creator_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updater_id INT NOT NULL, -- 更新用户id
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (organization_id) REFERENCES rtsa.organization (id) ON DELETE CASCADE, -- 组织外键
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 创建用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE -- 更新用户外键
);
-- 创建草稿数据用户索引
CREATE INDEX ON rtss.draft_data (user_id);
-- 创建组织数据组织索引
CREATE INDEX ON rtsa.organization_data (organization_id);
-- 创建草稿数据类型索引
CREATE INDEX ON rtss.draft_data (data_type);
-- 创建组织数据类型索引
CREATE INDEX ON rtsa.organization_data (data_type);
-- 注释草稿数据表
COMMENT ON TABLE rtss.draft_data IS '草稿数据表';
-- 创建组织数据配置项索引
CREATE INDEX ON rtsa.organization_data USING GIN (data);
-- 注释草稿数据表字段
COMMENT ON COLUMN rtss.draft_data.id IS 'id 自增主键';
-- 创建组织数据创建用户索引
CREATE INDEX ON rtsa.organization_data (creator_id);
COMMENT ON COLUMN rtss.draft_data.name IS '草稿名称';
-- 创建组织数据更新用户索引
CREATE INDEX ON rtsa.organization_data (updater_id);
COMMENT ON COLUMN rtss.draft_data.data_type IS '数据类型';
-- 创建组织数据索引
CREATE INDEX ON rtsa.organization_data (organization_id, data_type);
COMMENT ON COLUMN rtss.draft_data.data IS '草稿数据';
-- 注释组织数据表
COMMENT ON TABLE rtsa.organization_data IS '组织数据表';
COMMENT ON COLUMN rtss.draft_data.user_id IS '创建用户id';
-- 注释组织数据表字段
COMMENT ON COLUMN rtsa.organization_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtss.draft_data.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.organization_data.organization_id IS '组织id';
COMMENT ON COLUMN rtss.draft_data.updated_at IS '更新时间';
COMMENT ON COLUMN rtsa.organization_data.data_type IS '数据类型';
-- 创建发布数据表
CREATE TABLE
rtss.release_data (
id SERIAL PRIMARY KEY, -- id 自增主键
name VARCHAR(128) NOT NULL UNIQUE, -- 发布数据名称(数据唯一标识)
data_type INT NOT NULL, -- 数据类型
used_version_id INT NULL, -- 使用的版本数据id
user_id INT NOT NULL, -- 发布/更新用户id
is_published BOOLEAN NOT NULL DEFAULT TRUE, -- 是否上架
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()' -- 更新时间
);
COMMENT ON COLUMN rtsa.organization_data.data IS '数据';
-- 注释发布数据表
COMMENT ON TABLE rtss.release_data IS '发布数据表';
COMMENT ON COLUMN rtsa.organization_data.creator_id IS '创建用户id';
-- 注释发布数据表字段
COMMENT ON COLUMN rtss.release_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.organization_data.created_at IS '创建时间';
COMMENT ON COLUMN rtss.release_data.name IS '发布数据名称(数据唯一标识)';
COMMENT ON COLUMN rtsa.organization_data.updater_id IS '更新用户id';
COMMENT ON COLUMN rtss.release_data.data_type IS '数据类型';
COMMENT ON COLUMN rtss.release_data.used_version_id IS '使用的版本数据id';
COMMENT ON COLUMN rtss.release_data.user_id IS '发布/更新用户id';
COMMENT ON COLUMN rtss.release_data.is_published IS '是否上架';
COMMENT ON COLUMN rtss.release_data.created_at IS '创建时间';
COMMENT ON COLUMN rtss.release_data.updated_at IS '更新时间';
-- 创建发布数据版本表
CREATE TABLE
rtss.release_data_version (
id SERIAL PRIMARY KEY, -- id 自增主键
release_data_id INT NOT NULL, -- 发布数据id
data BYTEA NOT NULL, -- 数据
version SERIAL NOT NULL, -- 版本号
description TEXT NOT NULL, -- 版本描述
user_id INT NOT NULL, -- 发布用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
FOREIGN KEY (release_data_id) REFERENCES rtss.release_data (id) ON DELETE CASCADE
);
-- 创建发布数据当前版本外键
ALTER TABLE rtss.release_data ADD FOREIGN KEY (used_version_id) REFERENCES rtss.release_data_version (id) ON DELETE SET NULL;
-- 创建草稿数据默认发布数据外键
ALTER TABLE rtss.draft_data ADD FOREIGN KEY (default_release_data_id) REFERENCES rtss.release_data (id) ON DELETE SET NULL;
-- 注释发布数据版本表
COMMENT ON TABLE rtss.release_data_version IS '发布数据版本表';
-- 注释发布数据版本表字段
COMMENT ON COLUMN rtss.release_data_version.id IS 'id 自增主键';
COMMENT ON COLUMN rtss.release_data_version.release_data_id IS '发布数据id';
COMMENT ON COLUMN rtss.release_data_version.data IS '数据';
COMMENT ON COLUMN rtss.release_data_version.version IS '版本号';
COMMENT ON COLUMN rtss.release_data_version.description IS '版本描述';
COMMENT ON COLUMN rtss.release_data_version.user_id IS '发布用户id';
COMMENT ON COLUMN rtss.release_data_version.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.organization_data.updated_at IS '更新时间';
-- 创建feature表
CREATE TABLE
rtss.feature (
rtsa.feature (
id SERIAL PRIMARY KEY, -- id 自增主键
feature_type INT NOT NULL, -- feature类型
name VARCHAR(128) NOT NULL UNIQUE, -- feature名称
name VARCHAR(128) NOT NULL, -- feature名称
description TEXT NOT NULL, -- feature描述
config JSONB NOT NULL, -- feature配置
is_published BOOLEAN NOT NULL DEFAULT TRUE, -- 是否上架
creator_id INT NOT NULL, -- 创建用户id
updater_id INT NOT NULL, -- 更新用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()' -- 更新时间
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
UNIQUE(feature_type, name) -- feature类型和名称唯一
);
-- 创建feature类型索引
CREATE INDEX ON rtsa.feature (feature_type);
-- 创建feature名称索引
CREATE INDEX ON rtsa.feature (name);
-- 注释仿真feature表
COMMENT ON TABLE rtss.feature IS 'feature表';
COMMENT ON TABLE rtsa.feature IS 'feature表';
-- 注释仿真feature表字段
COMMENT ON COLUMN rtss.feature.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.feature.id IS 'id 自增主键';
COMMENT ON COLUMN rtss.feature.feature_type IS 'feature类型';
COMMENT ON COLUMN rtsa.feature.feature_type IS 'feature类型';
COMMENT ON COLUMN rtss.feature.name IS 'feature名称';
COMMENT ON COLUMN rtsa.feature.name IS 'feature名称';
COMMENT ON COLUMN rtss.feature.description IS 'feature描述';
COMMENT ON COLUMN rtsa.feature.description IS 'feature描述';
COMMENT ON COLUMN rtss.feature.is_published IS '是否上架';
COMMENT ON COLUMN rtsa.feature.config IS 'feature配置';
COMMENT ON COLUMN rtss.feature.creator_id IS '创建用户id';
COMMENT ON COLUMN rtsa.feature.is_published IS '是否上架';
COMMENT ON COLUMN rtss.feature.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.feature.creator_id IS '创建用户id';
COMMENT ON COLUMN rtss.feature.updated_at IS '更新时间';
COMMENT ON COLUMN rtsa.feature.created_at IS '创建时间';
-- 创建仿真feature和发布数据关联表
COMMENT ON COLUMN rtsa.feature.updated_at IS '更新时间';
-- 创建组织功能表
CREATE TABLE
rtss.feature_release_data (
feature_id INT NOT NULL, -- 仿真feature id
release_data_id INT NOT NULL, -- 发布数据id
PRIMARY KEY (feature_id, release_data_id),
FOREIGN KEY (feature_id) REFERENCES rtss.feature (id) ON DELETE CASCADE,
FOREIGN KEY (release_data_id) REFERENCES rtss.release_data (id) ON DELETE CASCADE
rtsa.organization_feature (
id SERIAL PRIMARY KEY, -- id 自增主键
organization_id INT NOT NULL, -- 组织id
feature_id INT NOT NULL, -- feature id
config JSONB NOT NULL, -- 组织功能配置
creator_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updater_id INT NOT NULL, -- 更新用户id
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (organization_id) REFERENCES rtsa.organization (id) ON DELETE CASCADE, -- 组织外键
FOREIGN KEY (feature_id) REFERENCES rtsa.feature (id) ON DELETE CASCADE, -- feature外键
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 创建用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 更新用户外键
UNIQUE(organization_id, feature_id) -- 组织id和feature id唯一
);
-- 注释仿真feature和发布数据关联表
COMMENT ON TABLE rtss.feature_release_data IS '仿真feature和发布数据关联表';
-- 创建组织功能组织索引
CREATE INDEX ON rtsa.organization_feature (organization_id);
-- 注释仿真feature和发布数据关联表字段
COMMENT ON COLUMN rtss.feature_release_data.feature_id IS '仿真feature id';
-- 创建组织功能feature索引
CREATE INDEX ON rtsa.organization_feature (feature_id);
COMMENT ON COLUMN rtss.feature_release_data.release_data_id IS '发布数据id';
-- 创建组织功能配置项索引
CREATE INDEX ON rtsa.organization_feature USING GIN (config);
-- 创建feature group表
-- 创建组织功能创建用户索引
CREATE INDEX ON rtsa.organization_feature (creator_id);
-- 创建组织功能更新用户索引
CREATE INDEX ON rtsa.organization_feature (updater_id);
-- 注释组织功能表
COMMENT ON TABLE rtsa.organization_feature IS '组织功能表';
-- 注释组织功能表字段
COMMENT ON COLUMN rtsa.organization_feature.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.organization_feature.organization_id IS '组织id';
COMMENT ON COLUMN rtsa.organization_feature.feature_id IS 'feature id';
COMMENT ON COLUMN rtsa.organization_feature.config IS '组织功能配置';
COMMENT ON COLUMN rtsa.organization_feature.creator_id IS '创建用户id';
COMMENT ON COLUMN rtsa.organization_feature.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.organization_feature.updater_id IS '更新用户id';
COMMENT ON COLUMN rtsa.organization_feature.updated_at IS '更新时间';
-- 创建草稿数据表
CREATE TABLE
rtss.feature_group (
rtsa.draft_data (
id SERIAL PRIMARY KEY, -- id 自增主键
name VARCHAR(128) NOT NULL UNIQUE, -- feature group名称
description TEXT NOT NULL, -- feature group描述
name VARCHAR(128) NOT NULL, -- 草稿名称
data_type INT NOT NULL, -- 数据类型
options JSONB NULL, -- 数据相关的参数项或配置项
data BYTEA, -- 草稿数据
default_release_data_id INT NULL, -- 默认发布数据id
user_id INT NOT NULL, -- 创建用户id
is_shared BOOLEAN NOT NULL DEFAULT FALSE, -- 是否共享
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
UNIQUE(name, data_type, user_id) -- 一个用户的某个类型的草稿名称唯一
);
-- 创建草稿数据用户索引
CREATE INDEX ON rtsa.draft_data (user_id);
-- 创建草稿数据类型索引
CREATE INDEX ON rtsa.draft_data (data_type);
-- 创建草稿数据配置项索引
CREATE INDEX ON rtsa.draft_data USING GIN (options);
-- 注释草稿数据表
COMMENT ON TABLE rtsa.draft_data IS '草稿数据表';
-- 注释草稿数据表字段
COMMENT ON COLUMN rtsa.draft_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.draft_data.name IS '草稿名称';
COMMENT ON COLUMN rtsa.draft_data.data_type IS '数据类型';
COMMENT ON COLUMN rtsa.draft_data.options IS '数据相关的参数项或配置项';
COMMENT ON COLUMN rtsa.draft_data.data IS '草稿数据';
COMMENT ON COLUMN rtsa.draft_data.user_id IS '创建用户id';
COMMENT ON COLUMN rtsa.draft_data.is_shared IS '是否共享';
COMMENT ON COLUMN rtsa.draft_data.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.draft_data.updated_at IS '更新时间';
-- 创建发布数据表
CREATE TABLE
rtsa.release_data (
id SERIAL PRIMARY KEY, -- id 自增主键
name VARCHAR(128) NOT NULL, -- 发布数据名称(数据唯一标识)
data_type INT NOT NULL, -- 数据类型
options JSONB NULL, -- 数据相关的参数项或配置项
used_version_id INT NULL, -- 使用的版本数据id
user_id INT NOT NULL, -- 发布/更新用户id
is_published BOOLEAN NOT NULL DEFAULT TRUE, -- 是否上架
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
UNIQUE(data_type, name) -- 数据类型和名称唯一
);
-- 创建发布数据名称索引
CREATE INDEX ON rtsa.release_data (name);
-- 创建发布数据用户索引
CREATE INDEX ON rtsa.release_data (user_id);
-- 创建发布数据类型索引
CREATE INDEX ON rtsa.release_data (data_type);
-- 创建发布数据配置项索引
CREATE INDEX ON rtsa.release_data USING GIN (options);
-- 注释发布数据表
COMMENT ON TABLE rtsa.release_data IS '发布数据表';
-- 注释发布数据表字段
COMMENT ON COLUMN rtsa.release_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.release_data.name IS '发布数据名称(数据唯一标识)';
COMMENT ON COLUMN rtsa.release_data.data_type IS '数据类型';
COMMENT ON COLUMN rtsa.release_data.options IS '数据相关的参数项或配置项';
COMMENT ON COLUMN rtsa.release_data.used_version_id IS '使用的版本数据id';
COMMENT ON COLUMN rtsa.release_data.user_id IS '发布/更新用户id';
COMMENT ON COLUMN rtsa.release_data.is_published IS '是否上架';
COMMENT ON COLUMN rtsa.release_data.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.release_data.updated_at IS '更新时间';
-- 创建发布数据版本表
CREATE TABLE
rtsa.release_data_version (
id SERIAL PRIMARY KEY, -- id 自增主键
release_data_id INT NOT NULL, -- 发布数据id
options JSONB NULL, -- 数据相关的参数项或配置项
data BYTEA NOT NULL, -- 数据
description TEXT NOT NULL, -- 版本描述
user_id INT NOT NULL, -- 发布用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 用户外键
FOREIGN KEY (release_data_id) REFERENCES rtsa.release_data (id) ON DELETE CASCADE
);
-- 创建发布数据版本发布数据索引
CREATE INDEX ON rtsa.release_data_version (release_data_id);
-- 创建发布数据版本用户索引
CREATE INDEX ON rtsa.release_data_version (user_id);
-- 创建发布数据版本配置项索引
CREATE INDEX ON rtsa.release_data_version USING GIN (options);
-- 创建发布数据当前版本外键
ALTER TABLE rtsa.release_data ADD FOREIGN KEY (used_version_id) REFERENCES rtsa.release_data_version (id) ON DELETE SET NULL;
-- 创建草稿数据默认发布数据外键
ALTER TABLE rtsa.draft_data ADD FOREIGN KEY (default_release_data_id) REFERENCES rtsa.release_data (id) ON DELETE SET NULL;
-- 注释发布数据版本表
COMMENT ON TABLE rtsa.release_data_version IS '发布数据版本表';
-- 注释发布数据版本表字段
COMMENT ON COLUMN rtsa.release_data_version.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.release_data_version.release_data_id IS '发布数据id';
COMMENT ON COLUMN rtsa.release_data_version.options IS '数据相关的参数项或配置项';
COMMENT ON COLUMN rtsa.release_data_version.data IS '数据';
COMMENT ON COLUMN rtsa.release_data_version.description IS '版本描述';
COMMENT ON COLUMN rtsa.release_data_version.user_id IS '发布用户id';
COMMENT ON COLUMN rtsa.release_data_version.created_at IS '创建时间';
-- 创建发布数据集表
CREATE TABLE
rtsa.release_data_set (
id SERIAL PRIMARY KEY, -- id 自增主键
data_set_type INT NOT NULL, -- 数据集类型
name VARCHAR(128) NOT NULL, -- 发布数据集名称
description TEXT NOT NULL, -- 发布数据集描述
config JSONB NULL, -- 数据集相关配置项
is_published BOOLEAN NOT NULL DEFAULT TRUE, -- 是否上架
creator_id INT NOT NULL, -- 创建用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updater_id INT NOT NULL, -- 更新用户id
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()' -- 更新时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (creator_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 创建用户外键
FOREIGN KEY (updater_id) REFERENCES rtsa.user (id) ON DELETE CASCADE, -- 更新用户外键
UNIQUE(data_set_type, name) -- 数据集类型+name唯一
);
-- 注释仿真feature group表
COMMENT ON TABLE rtss.feature_group IS 'feature group表';
-- 创建发布数据集类型索引
CREATE INDEX ON rtsa.release_data_set (data_set_type);
-- 注释仿真feature group表字段
COMMENT ON COLUMN rtss.feature_group.id IS 'id 自增主键';
-- 创建发布数据集名称索引
CREATE INDEX ON rtsa.release_data_set (name);
COMMENT ON COLUMN rtss.feature_group.name IS 'feature group名称';
-- 创建发布数据集配置项索引
CREATE INDEX ON rtsa.release_data_set USING GIN (config);
COMMENT ON COLUMN rtss.feature_group.description IS 'feature group描述';
-- 创建发布数据集创建用户索引
CREATE INDEX ON rtsa.release_data_set (creator_id);
COMMENT ON COLUMN rtss.feature_group.is_published IS '是否上架';
-- 创建发布数据集更新用户索引
CREATE INDEX ON rtsa.release_data_set (updater_id);
COMMENT ON COLUMN rtss.feature_group.creator_id IS '创建用户id';
-- 创建发布数据集索引
CREATE INDEX ON rtsa.release_data_set (data_set_type, name);
COMMENT ON COLUMN rtss.feature_group.created_at IS '创建时间';
-- 注释发布数据集表
COMMENT ON TABLE rtsa.release_data_set IS '发布数据集表';
COMMENT ON COLUMN rtss.feature_group.updated_at IS '更新时间';
-- 注释发布数据集表字段
COMMENT ON COLUMN rtsa.release_data_set.id IS 'id 自增主键';
-- 创建feature group和feature关联表
COMMENT ON COLUMN rtsa.release_data_set.data_set_type IS '数据集类型';
COMMENT ON COLUMN rtsa.release_data_set.name IS '发布数据集名称';
COMMENT ON COLUMN rtsa.release_data_set.description IS '发布数据集描述';
COMMENT ON COLUMN rtsa.release_data_set.config IS '数据集相关配置项';
COMMENT ON COLUMN rtsa.release_data_set.is_published IS '是否上架';
COMMENT ON COLUMN rtsa.release_data_set.creator_id IS '创建用户id';
COMMENT ON COLUMN rtsa.release_data_set.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.release_data_set.updater_id IS '更新用户id';
COMMENT ON COLUMN rtsa.release_data_set.updated_at IS '更新时间';
-- 创建发布数据集数据表
CREATE TABLE
rtss.feature_group_feature (
feature_group_id INT NOT NULL, -- feature group id
feature_id INT NOT NULL, -- feature id
PRIMARY KEY (feature_id, feature_group_id),
FOREIGN KEY (feature_id) REFERENCES rtss.feature (id) ON DELETE CASCADE,
FOREIGN KEY (feature_group_id) REFERENCES rtss.feature_group (id) ON DELETE CASCADE
rtsa.release_data_set_data (
id SERIAL PRIMARY KEY, -- id 自增主键
release_data_set_id INT NOT NULL, -- 发布数据集id
release_data_id INT NOT NULL, -- 发布数据id
order_index INT NOT NULL, -- 排序索引
FOREIGN KEY (release_data_set_id) REFERENCES rtsa.release_data_set (id) ON DELETE CASCADE, -- 发布数据集外键
FOREIGN KEY (release_data_id) REFERENCES rtsa.release_data (id) ON DELETE CASCADE, -- 发布数据外键
UNIQUE(release_data_set_id, release_data_id) -- 发布数据集id和发布数据id唯一
);
-- 注释仿真feature group和feature关联表
COMMENT ON TABLE rtss.feature_group_feature IS '仿真feature group和feature关联表';
-- 创建发布数据集数据发布数据集索引
CREATE INDEX ON rtsa.release_data_set_data (release_data_set_id);
-- 创建用户feature配置表
-- 创建发布数据集数据发布数据索引
CREATE INDEX ON rtsa.release_data_set_data (release_data_id);
-- 注释发布数据集数据表
COMMENT ON TABLE rtsa.release_data_set_data IS '发布数据集数据表';
-- 注释发布数据集数据表字段
COMMENT ON COLUMN rtsa.release_data_set_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.release_data_set_data.release_data_set_id IS '发布数据集id';
COMMENT ON COLUMN rtsa.release_data_set_data.release_data_id IS '发布数据id';
COMMENT ON COLUMN rtsa.release_data_set_data.order_index IS '排序索引';
-- 创建用户数据表
CREATE TABLE
rtss.feature_config (
rtsa.user_data (
id SERIAL PRIMARY KEY, -- id 自增主键
user_id INT NOT NULL, -- 用户id
feature_id INT NOT NULL, -- 仿真feature id
config BYTEA NOT NULL, -- 配置
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT 'now()', -- 更新时间
FOREIGN KEY (feature_id) REFERENCES rtss.feature (id) ON DELETE CASCADE
data_type INT NOT NULL, -- 数据类型
data JSONB NOT NULL, -- 数据
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
updated_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 更新时间
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE -- 用户外键
);
-- 注释用户feature配置表
COMMENT ON TABLE rtss.feature_config IS '用户feature配置表';
-- 创建用户数据用户索引
CREATE INDEX ON rtsa.user_data (user_id);
-- 注释用户feature配置表字段
COMMENT ON COLUMN rtss.feature_config.id IS 'id 自增主键';
-- 创建用户数据类型索引
CREATE INDEX ON rtsa.user_data (data_type);
COMMENT ON COLUMN rtss.feature_config.user_id IS '用户id';
-- 创建用户数据配置项索引
CREATE INDEX ON rtsa.user_data USING GIN (data);
COMMENT ON COLUMN rtss.feature_config.feature_id IS '仿真feature id';
-- 创建用户数据索引
CREATE INDEX ON rtsa.user_data (user_id, data_type);
COMMENT ON COLUMN rtss.feature_config.config IS '配置';
-- 注释用户数据表
COMMENT ON TABLE rtsa.user_data IS '用户数据表';
COMMENT ON COLUMN rtss.feature_config.created_at IS '创建时间';
-- 注释用户数据表字段
COMMENT ON COLUMN rtsa.user_data.id IS 'id 自增主键';
COMMENT ON COLUMN rtss.feature_config.updated_at IS '更新时间';
COMMENT ON COLUMN rtsa.user_data.user_id IS '用户id';
COMMENT ON COLUMN rtsa.user_data.data_type IS '数据类型';
COMMENT ON COLUMN rtsa.user_data.data IS '数据';
COMMENT ON COLUMN rtsa.user_data.created_at IS '创建时间';
COMMENT ON COLUMN rtsa.user_data.updated_at IS '更新时间';
-- 创建用户操作日志表
CREATE TABLE
rtsa.user_operation_log (
id SERIAL PRIMARY KEY, -- id 自增主键
organization_id INT NOT NULL, -- 组织id
user_id INT NOT NULL, -- 用户id
log_type INT NOT NULL, -- 日志类型
log_data JSONB NOT NULL, -- 日志数据
created_at TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP, -- 创建时间
FOREIGN KEY (organization_id) REFERENCES rtsa.organization (id) ON DELETE CASCADE, -- 组织外键
FOREIGN KEY (user_id) REFERENCES rtsa.user (id) ON DELETE CASCADE -- 用户外键
);
-- 创建用户操作日志组织索引
CREATE INDEX ON rtsa.user_operation_log (organization_id);
-- 创建用户操作日志用户索引
CREATE INDEX ON rtsa.user_operation_log (user_id);
-- 创建用户操作日志类型索引
CREATE INDEX ON rtsa.user_operation_log (log_type);
-- 创建用户操作日志数据索引
CREATE INDEX ON rtsa.user_operation_log USING GIN (log_data);
-- 创建用户操作日志索引
CREATE INDEX ON rtsa.user_operation_log (organization_id, user_id, log_type, created_at);
-- 注释用户操作日志表
COMMENT ON TABLE rtsa.user_operation_log IS '用户操作日志表';
-- 注释用户操作日志表字段
COMMENT ON COLUMN rtsa.user_operation_log.id IS 'id 自增主键';
COMMENT ON COLUMN rtsa.user_operation_log.organization_id IS '组织id';
COMMENT ON COLUMN rtsa.user_operation_log.user_id IS '用户id';
COMMENT ON COLUMN rtsa.user_operation_log.log_type IS '日志类型';
COMMENT ON COLUMN rtsa.user_operation_log.log_data IS '日志记录数据';
COMMENT ON COLUMN rtsa.user_operation_log.created_at IS '创建时间';

1
rtsa-proto-msg Submodule

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Subproject commit a30bf52339620075e8d666be363eb3d93d532656

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Subproject commit 4e447beffa31c94b30bcee57a7cf229dcf01351f

24
simulation/Cargo.toml Normal file
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[package]
name = "simulation"
version = "0.1.0"
edition = "2021"
[dependencies]
bevy_core = { workspace = true }
bevy_ecs = { workspace = true }
bevy_app = { workspace = true }
bevy_time = { workspace = true }
rayon = { workspace = true }
thiserror = { workspace = true }
lazy_static = { workspace = true }
tokio = { workspace = true }
serde = { workspace = true }
config = { workspace = true }
clap = { workspace = true, features = ["derive"] }
enum_dispatch = { workspace = true }
anyhow = { workspace = true }
rtsa_log = { path = "../crates/rtsa_log" }
rtsa_dto = { path = "../crates/rtsa_dto" }
rtsa_db = { path = "../crates/rtsa_db" }
rtsa_mqtt = { path = "../crates/rtsa_mqtt" }

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[database]
[log]
level = "debug"
[mqtt]
url = "http://localhost:8080"
username = "admin"
password = "admin"

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simulation/conf/dev.toml Normal file
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[database]
url = "postgresql://joylink:Joylink@0503@localhost:5432/joylink"
[mqtt]
url = "tcp://localhost:1883"
username = "rtsa"
password = "Joylink@0503"

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[database]
url = "postgresql://joylink:Joylink@0503@10.11.11.2:5432/joylink"
[log]
level = "debug"
[mqtt]
url = "tcp://192.168.3.233:1883"
username = "rtsa"
password = "Joylink@0503"

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