compose_install_daoliyu-music
Docker Compose 部署 道理鱼音乐
一键脚本
bash <(curl -sL gitee.com/meimolihan/linux-command_sh/raw/master/compose_install_daoliyu-music.sh) 4000 /vol1/1000/compose/daoliyu-music
| 传参方式 | 命令示例 | 说明 |
|---|---|---|
| 不传参(交互式) | 脚本.sh | 正常进入交互式流程 |
| 先目录,后端口 | 脚本.sh /vol1/1000/compose/daoliyu-music 4000 | 同时传入目录和端口 |
| 先端口,后目录 | 脚本.sh 4000 /vol1/1000/compose/daoliyu-music | 同时传入端口和目录 |
| 只传目录 | 脚本.sh /vol1/1000/compose/daoliyu-music | 仅传入目录参数 |
| 只传端口 | 脚本.sh 4000 | 仅传入端口参数 |
项目简介
道理鱼音乐(Daoliyu Music)是一款基于 Golang + React 开发的个人音乐流媒体服务平台,支持多用户管理、歌单收藏、音乐库管理等功能。 通过 Docker Compose 部署,您可以快速搭建属于自己的私有音乐服务器,随时随地享受高品质音乐。
- 🐱 GitHub:https://github.com/msmkls/daoliyu-music
- 🐋 Docker Hub:https://hub.docker.com/r/msmkls/daoliyu-music
效果预览
补充说明
该脚本用于一键部署道理鱼音乐服务,基于 Docker Compose 实现,采用 PostgreSQL 作为后端数据库,适合需要搭建私有音乐流媒体服务的场景。
功能特点
- 支持交互式和传参两种部署模式(可指定目录和端口)
- 自动检查并安装 Docker 和 Docker Compose 环境
- 智能端口管理:检查端口是否放行,自动开放并持久化 iptables 规则
- 清理旧容器:部署前自动清理 daoliyu-postgres、daoliyu-music 和相关镜像
- 自动生成 docker-compose.yml 配置文件
- PostgreSQL 数据库自动部署,支持健康检查确保就绪后再启动应用
- 数据持久化:音乐库、缓存、数据库独立卷挂载
- 部署后显示容器状态和访问地址
输出说明
脚本输出包含以下字段:
| 字段 | 说明 |
|---|---|
| 部署目录 | docker-compose 文件和持久化数据存放路径 |
| Web 地址 | 道理鱼音乐 Web 管理页面访问地址 |
| 数据库端口 | PostgreSQL 外部映射端口(5433) |
| 容器状态 | 各容器的运行状态详情 |
注意事项
- 脚本需要 root 权限或 sudo 权限来安装依赖和配置防火墙
- 默认使用 msmkls/daoliyu-music:latest 和 postgres:16-alpine 镜像
- 部署目录默认为 /vol1/1000/compose/daoliyu-music,可通过参数修改
- 默认 Web 端口为 4000(映射容器 4000),可通过参数修改
- PostgreSQL 默认端口映射为 5433(内部 5432),被占用时自动分配新端口
- 数据库凭据:用户名 daoliyu,密码 daoliyupassword,库名 daoliyu
- 数据持久化目录:postgres-data(数据库)、data(运行数据)、library(音乐库)、cache(缓存)
脚本源码
#!/bin/bash
set -uo pipefail
# ====================== 【可自定义配置区】 在这里修改所有默认参数 ======================
# 项目标题
DEFAULT_TITLE="道理鱼音乐 一键部署"
# 部署目录(不传参时的默认路径)
DEFAULT_COMPOSE_DIR="/vol1/1000/compose/daoliyu-music"
# 默认 Web 访问端口(不传参时使用),映射容器 4000
DEFAULT_PORT="4000"
# 默认容器名称(可自定义)
DEFAULT_CONTAINER_NAME="daoliyu-music"
# PostgreSQL 容器名称
DEFAULT_DB_CONTAINER_NAME="daoliyu-postgres"
# PostgreSQL 外部映射端口
DEFAULT_DB_PORT="5433"
# ====================================================================================
list_color_init() {
export gl_hui=$'\033[38;5;59m'
export gl_hong=$'\033[38;5;9m'
export gl_lv=$'\033[38;5;10m'
export gl_huang=$'\033[38;5;11m'
export gl_lan=$'\033[38;5;32m'
export gl_bai=$'\033[38;5;15m'
export gl_zi=$'\033[38;5;13m'
export gl_bufan=$'\033[38;5;14m'
export reset=$'\033[0m'
}
list_color_init
log_info() { echo -e "${gl_lan}[信息]${gl_bai} $*"; }
log_ok() { echo -e "${gl_lv}[成功]${gl_bai} $*"; }
log_warn() { echo -e "${gl_huang}[警告]${gl_bai} $*"; }
log_error() { echo -e "${gl_hong}[错误]${gl_bai} $*" >&2; }
break_end() {
echo -e "${gl_lv}操作完成${gl_bai}"
echo -e "${gl_bai}按任意键继续 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai} \c"
read -r -n 1 -s -p ""
echo ""
clear
}
sleep_fractional() {
local seconds=$1
if sleep "$seconds" 2>/dev/null; then return 0; fi
if command -v perl >/dev/null 2>&1; then perl -e "select(undef, undef, undef, $seconds)"; return 0; fi
if command -v python3 >/dev/null 2>&1; then python3 -c "import time; time.sleep($seconds)"; return 0; fi
if command -v python >/dev/null 2>&1; then python -c "import time; time.sleep($seconds)"; return 0; fi
local int_seconds=$(echo "$seconds" | awk '{print int($1+0.999)}')
sleep "$int_seconds"
}
exit_animation() {
echo -ne "${gl_lv}即将退出 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}\c"
sleep_fractional 0.5
echo -ne "${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}\c"
sleep_fractional 0.6
echo ""
clear
}
exit_script() {
echo ""
echo -ne "${gl_hong}感谢使用,再见! ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}\c"
sleep_fractional 0.5
echo -ne "${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}\c"
sleep_fractional 0.6
clear
exit 0
}
column_if_available() {
if command -v column &> /dev/null; then
column -t -s $'\t'
else
cat
fi
}
root_use() {
clear
if [ "$EUID" -ne 0 ]; then
echo -e "\n${gl_zi}>>> ROOT登录检查 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
echo -e "${gl_huang}提示: ${gl_bai}该功能需要root用户才能运行!"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
break_end
return 1
fi
return 0
}
check_and_open_port() {
local PORT="$1"
if [[ -z "$PORT" ]]; then
log_error "未指定端口"
return 1
fi
log_info "检查端口 ${gl_huang}${PORT}${gl_bai} 是否放行 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
if iptables -L INPUT -n 2>/dev/null | grep -qE "dpt:${PORT}[[:space:]]|dpt:${PORT}$" 2>/dev/null; then
log_ok "端口 ${PORT} 已放行,无需操作"
return 0
fi
log_warn "端口 ${gl_hong}${PORT}${gl_bai} 未放行,正在开放 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
iptables -I INPUT -p tcp --dport "${PORT}" -j ACCEPT 2>/dev/null
iptables -I INPUT -p udp --dport "${PORT}" -j ACCEPT 2>/dev/null
log_info "保存防火墙规则 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
local SAVED=0
if command -v iptables-save >/dev/null 2>&1; then
mkdir -p /etc/iptables 2>/dev/null
if iptables-save > /etc/iptables/rules.v4 2>/dev/null; then
log_ok "IPv4 规则已保存到 /etc/iptables/rules.v4"
SAVED=1
fi
if command -v ip6tables-save >/dev/null 2>&1; then
ip6tables-save > /etc/iptables/rules.v6 2>/dev/null
fi
fi
if [ $SAVED -eq 0 ] && command -v netfilter-persistent >/dev/null 2>&1; then
log_info "尝试 netfilter-persistent 保存..."
(
timeout 5 netfilter-persistent save >/dev/null 2>&1
) &
local SAVE_PID=$!
local WAIT=0
while kill -0 $SAVE_PID 2>/dev/null && [ $WAIT -lt 6 ]; do
sleep 1
WAIT=$((WAIT + 1))
done
if kill -0 $SAVE_PID 2>/dev/null; then
kill -9 $SAVE_PID 2>/dev/null
log_warn "netfilter-persistent 保存超时,已跳过"
else
wait $SAVE_PID 2>/dev/null
if [ $? -eq 0 ]; then
log_ok "netfilter-persistent 保存成功"
SAVED=1
fi
fi
fi
if [ $SAVED -eq 0 ] && command -v service >/dev/null 2>&1; then
if service iptables status >/dev/null 2>&1; then
log_info "尝试 service iptables save..."
(
timeout 5 service iptables save >/dev/null 2>&1
) &
local SAVE_PID=$!
local WAIT=0
while kill -0 $SAVE_PID 2>/dev/null && [ $WAIT -lt 6 ]; do
sleep 1
WAIT=$((WAIT + 1))
done
if kill -0 $SAVE_PID 2>/dev/null; then
kill -9 $SAVE_PID 2>/dev/null
log_warn "service iptables save 超时"
else
wait $SAVE_PID 2>/dev/null
if [ $? -eq 0 ]; then
log_ok "service iptables save 成功"
SAVED=1
fi
fi
fi
fi
if [ $SAVED -eq 0 ] && [ -f /etc/iptables/rules.v4 ]; then
log_info "iptables 规则已通过文件备份: /etc/iptables/rules.v4"
SAVED=1
fi
if [ $SAVED -eq 0 ]; then
log_warn "无法自动持久化保存规则,但端口已临时开放"
log_info "如需永久保存,请手动执行: iptables-save > /etc/iptables/rules.v4"
fi
log_ok "端口 ${gl_lv}${PORT}${gl_bai} 已开放"
}
check_port_available() {
local PORT="$1"
if ss -tuln | grep -q ":${PORT} "; then
return 1
elif netstat -tuln 2>/dev/null | grep -q ":${PORT} "; then
return 1
else
return 0
fi
}
get_free_port() {
local start_port=$1
local port=$start_port
while ! check_port_available $port; do
port=$((port + 1))
if [ $port -gt $((start_port + 100)) ]; then
echo ""
return 1
fi
done
echo $port
}
docker-ps-cn() {
{
local filter_name="$1"
local docker_filter=""
if [ -n "$filter_name" ]; then
docker_filter="--filter name=${filter_name}"
fi
printf "%s%s\t%s\t%s\t%s\t%s\t%s%s\n" "$gl_hui" "容器ID" "名称" "状态" "端口" "创建时间" "镜像" "$reset"
printf "%s%s\t%s\t%s\t%s\t%s\t%s%s\n" "$gl_hui" "----------" "----------" "----------" "----------" "----------" "----------" "$reset"
docker ps ${docker_filter} --format "{{.ID}}\t{{.Names}}\t{{.Status}}\t{{.Ports}}\t{{.RunningFor}}\t{{.Image}}" | \
awk -v green="$gl_lv" -v yellow="$gl_huang" -v cyan="$gl_bufan" -v blue="$gl_lan" -v white="$gl_bai" -v reset="$reset" -v gl_bai="$gl_bai" '
BEGIN {FS="\t"; OFS="\t"}
{
id = substr($1, 1, 12)
name = $2
status = $3
ports = $4
time = $5
image = $6
gsub(/ years ago/, "年前", time)
gsub(/ year ago/, "年前", time)
gsub(/ months ago/, "个月前", time)
gsub(/ month ago/, "个月前", time)
gsub(/ weeks ago/, "周前", time)
gsub(/ week ago/, "周前", time)
gsub(/ days ago/, "天前", time)
gsub(/ day ago/, "天前", time)
gsub(/ hours ago/, "小时前", time)
gsub(/ hour ago/, "小时前", time)
gsub(/ minutes ago/, "分钟前", time)
gsub(/ minute ago/, "分钟前", time)
gsub(/ seconds ago/, "秒前", time)
gsub(/ second ago/, "秒前", time)
gsub(/About /, "", time)
print cyan id reset, green name reset, yellow status reset, blue ports reset, white time reset, gl_bai image reset
}'
} | column_if_available
}
docker_check_env() {
if ! command -v docker &>/dev/null; then
log_info "正在检查 Docker 运行环境 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
log_warn "Docker 未安装,即将自动安装 Docker 环境 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
bash <(curl -sL gitee.com/meimolihan/linux-command_sh/raw/master/linux_install_docker.sh)
if ! command -v docker &>/dev/null; then
log_error "Docker 安装失败,请手动安装后重试!"
sleep 1
exit 1
fi
log_ok "Docker 安装成功!"
fi
if ! command -v docker-compose &>/dev/null && ! docker compose version &>/dev/null; then
echo -e ""
log_info "正在检查 Docker Compose 环境 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
log_warn "Docker Compose 未安装,即将自动安装 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
bash <(curl -sL gitee.com/meimolihan/linux-command_sh/raw/master/linux_install_compose.sh)
if ! command -v docker-compose &>/dev/null && ! docker compose version &>/dev/null; then
log_error "Docker Compose 安装失败,请手动安装后重试!"
sleep 1
exit 1
fi
log_ok "Docker Compose 安装成功!"
fi
}
clean_old_container() {
if [ $# -eq 0 ]; then
log_warn "未传入任何容器名称参数,跳过清理"
return 1
fi
local targets=("$@")
echo -e ""
echo -e "${gl_huang}>>> 清理容器与相关镜像(目标:${targets[*]})${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
for container_name in "${targets[@]}"; do
if docker ps -a --filter "name=^/${container_name}$" --format "{{.Names}}" | grep -q "^${container_name}$"; then
log_info "检测到容器 ${gl_huang}${container_name}${gl_bai},正在停止并删除 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
docker rm -f "${container_name}" >/dev/null 2>&1
log_ok "容器 ${container_name} 清理完成"
else
log_ok "容器 ${container_name} 不存在,跳过"
fi
done
}
deploy_app() {
local COMPOSE_DIR=""
local HOST_PORT=""
root_use || return 1
clear
echo -e "${gl_zi}>>> ${DEFAULT_TITLE}${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
docker_check_env
for arg in "$@"; do
if [[ "$arg" =~ ^[0-9]+$ ]]; then
HOST_PORT="$arg"
else
COMPOSE_DIR="$arg"
fi
done
if [ -z "${COMPOSE_DIR}" ]; then
read -r -e -p "${gl_bai}请输入 docker-compose 存放路径(回车默认:${gl_huang}${DEFAULT_COMPOSE_DIR}${gl_bai})(${gl_hong}0${gl_bai} 退出安装):" input_dir
COMPOSE_DIR=${input_dir:-$DEFAULT_COMPOSE_DIR}
else
log_info "已通过传参指定部署目录:${gl_huang}${COMPOSE_DIR}${gl_bai}"
fi
if [ "$COMPOSE_DIR" = "0" ]; then
exit_script
return 1
fi
log_info "部署目录:${gl_huang}${COMPOSE_DIR}${gl_bai}"
mkdir -p "${COMPOSE_DIR}" || { log_error "目录创建失败"; break_end; return 1; }
cd "${COMPOSE_DIR}" || { log_error "进入目录失败"; break_end; return 1; }
if [ -z "${HOST_PORT}" ]; then
read -r -e -p "${gl_bai}请输入 Web 映射端口(回车默认:${gl_huang}${DEFAULT_PORT}${gl_bai})(${gl_hong}0${gl_bai} 退出安装):" input_port
HOST_PORT=${input_port:-$DEFAULT_PORT}
else
log_info "已通过传参指定端口:${gl_lv}${HOST_PORT}${gl_bai}"
fi
if [ "$HOST_PORT" = "0" ]; then
exit_script
rm -rf "${COMPOSE_DIR}"
return 1
fi
if ! check_port_available $HOST_PORT; then
log_warn "端口 ${gl_hong}${HOST_PORT}${gl_bai} 已被占用"
NEW_PORT=$(get_free_port $((HOST_PORT + 1)))
if [ -n "$NEW_PORT" ]; then
log_info "自动分配新端口:${gl_lv}${NEW_PORT}${gl_bai}"
HOST_PORT=$NEW_PORT
else
log_error "无法找到可用端口,请手动指定"
break_end
return 1
fi
fi
local DB_PORT="$DEFAULT_DB_PORT"
if ! check_port_available $DB_PORT; then
log_warn "PostgreSQL 默认端口 ${gl_hong}${DB_PORT}${gl_bai} 已被占用"
NEW_DB_PORT=$(get_free_port $((DB_PORT + 1)))
if [ -n "$NEW_DB_PORT" ]; then
log_info "PostgreSQL 自动分配新端口:${gl_lv}${NEW_DB_PORT}${gl_bai}"
DB_PORT=$NEW_DB_PORT
else
log_error "无法找到可用端口,请手动指定"
break_end
return 1
fi
fi
log_info "使用 Web 端口:${gl_lv}${HOST_PORT}${gl_bai},PostgreSQL 端口:${gl_lv}${DB_PORT}${gl_bai}"
check_and_open_port "${HOST_PORT}"
check_and_open_port "${DB_PORT}"
clean_old_container "${DEFAULT_DB_CONTAINER_NAME}" "${DEFAULT_CONTAINER_NAME}"
echo -e ""
echo -e "${gl_huang}>>> 生成 ${gl_lv}docker-compose.yml${gl_huang} 文件 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
cat > docker-compose.yml << EOF
services:
postgres:
image: postgres:16-alpine
container_name: ${DEFAULT_DB_CONTAINER_NAME}
restart: unless-stopped
environment:
POSTGRES_DB: "daoliyu"
POSTGRES_USER: "daoliyu"
POSTGRES_PASSWORD: "daoliyupassword"
PGDATA: "/var/lib/postgresql/data/pgdata"
ports:
- "${DB_PORT}:5432"
volumes:
- ./postgres-data:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U daoliyu -d daoliyu -p 5432"]
interval: 10s
timeout: 5s
retries: 6
${DEFAULT_CONTAINER_NAME}:
image: msmkls/daoliyu-music:latest
container_name: ${DEFAULT_CONTAINER_NAME}
restart: unless-stopped
depends_on:
postgres:
condition: service_healthy
ports:
- "${HOST_PORT}:4000"
environment:
DLY_DB_DRIVER: "postgres"
DLY_DB_DSN: "host=postgres port=5432 user=daoliyu password=daoliyupassword dbname=daoliyu sslmode=disable"
TZ: "Asia/Shanghai"
volumes:
- ./data:/app/runtime/data # 运行数据
- ./library:/app/runtime/library # 音乐库文件
- ./cache:/app/runtime/cache/transcoding # 转码缓存
- /etc/machine-id:/host/etc/machine-id:ro # 机器ID(只读)
EOF
if [ -f "docker-compose.yml" ]; then
log_ok "配置文件创建成功"
else
log_error "配置文件创建失败"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
break_end
return 1
fi
echo -e ""
echo -e "${gl_huang}>>> 尝试启动容器 ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
if docker-compose up -d; then
log_ok "容器启动成功"
else
log_warn "docker-compose 启动失败,尝试兼容版 docker compose ${gl_hong}.${gl_huang}.${gl_lv}.${gl_bai}"
if docker compose up -d; then
log_ok "容器启动成功"
else
log_error "容器启动失败"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
break_end
return 1
fi
fi
echo -e ""
echo -e "${gl_huang}>>> 容器运行状态${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
docker-ps-cn daoliyu
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
LOCAL_IP=$(hostname -I | awk '{print $1}')
log_info "部署完成!"
log_info "Web 访问地址:${gl_lv}http://${LOCAL_IP}:${HOST_PORT}${gl_bai}"
log_info "PostgreSQL 端口:${gl_lv}${DB_PORT}${gl_bai}"
log_info "部署目录:${gl_huang}${COMPOSE_DIR}${gl_bai}"
log_info "音乐库目录:${gl_huang}${COMPOSE_DIR}/library${gl_bai}"
echo -e "${gl_bufan}————————————————————————————————————————————————${gl_bai}"
break_end
}
deploy_app "$@"
一键完全卸载命令
# 停止并删除容器 + 删除镜像 + 删除部署目录(按需修改)
docker rm -f daoliyu-music daoliyu-postgres && docker rmi -f msmkls/daoliyu-music:latest postgres:16-alpine && rm -rf /vol1/1000/compose/daoliyu-music
创建本地脚本
new_script="new_test.sh"
cat > "$new_script" << 'EOF'
#!/bin/bash
# 粘贴脚本源码
EOF
# 保留本地脚本,去掉 rm -f "$new_script"
chmod +x "$new_script" && ./"$new_script" && rm -f "$new_script"